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PROLOG

       This  manual  page  is part of the POSIX Programmer's Manual.  The Linux implementation of
       this interface may differ (consult the corresponding Linux  manual  page  for  details  of
       Linux behavior), or the interface may not be implemented on Linux.

NAME

       fcntl — file control

SYNOPSIS

       #include <fcntl.h>

       int fcntl(int fildes, int cmd, ...);

DESCRIPTION

       The  fcntl()  function  shall  perform  the  operations described below on open files. The
       fildes argument is a file descriptor.

       The available values for cmd are defined in <fcntl.h> and are as follows:

       F_DUPFD       Return a new file descriptor  which  shall  be  allocated  as  described  in
                     Section 2.14, File Descriptor Allocation, except that it shall be the lowest
                     numbered available file descriptor  greater  than  or  equal  to  the  third
                     argument,  arg,  taken  as  an integer of type int.  The new file descriptor
                     shall refer  to  the  same  open  file  description  as  the  original  file
                     descriptor,  and  shall share any locks. The FD_CLOEXEC flag associated with
                     the new file descriptor shall be cleared to keep the file open across  calls
                     to one of the exec functions.

       F_DUPFD_CLOEXEC
                     Like  F_DUPFD,  but  the  FD_CLOEXEC  flag  associated  with  the  new  file
                     descriptor shall be set.

       F_GETFD       Get the file descriptor flags defined in <fcntl.h> that are associated  with
                     the  file  descriptor  fildes.   File descriptor flags are associated with a
                     single file descriptor and do not affect other file descriptors  that  refer
                     to the same file.

       F_SETFD       Set the file descriptor flags defined in <fcntl.h>, that are associated with
                     fildes, to the third argument, arg, taken as type int.   If  the  FD_CLOEXEC
                     flag  in  the  third  argument  is  0, the file descriptor shall remain open
                     across the exec functions; otherwise, the file descriptor  shall  be  closed
                     upon successful execution of one of the exec functions.

       F_GETFL       Get  the  file status flags and file access modes, defined in <fcntl.h>, for
                     the file description associated with fildes.  The file access modes  can  be
                     extracted  from  the return value using the mask O_ACCMODE, which is defined
                     in <fcntl.h>.  File status flags and file access modes are  associated  with
                     the  file description and do not affect other file descriptors that refer to
                     the same file with different open file descriptions. The flags returned  may
                     include  non-standard  file  status flags which the application did not set,
                     provided that these  additional  flags  do  not  alter  the  behavior  of  a
                     conforming application.

       F_SETFL       Set  the  file  status flags, defined in <fcntl.h>, for the file description
                     associated with fildes from the corresponding bits in  the  third  argument,
                     arg,  taken as type int.  Bits corresponding to the file access mode and the
                     file creation flags, as defined in <fcntl.h>, that are set in arg  shall  be
                     ignored.  If  any bits in arg other than those mentioned here are changed by
                     the application, the result is unspecified. If fildes does not support  non-
                     blocking  operations,  it is unspecified whether the O_NONBLOCK flag will be
                     ignored.

       F_GETOWN      If fildes refers to a socket,  get  the  process  ID  or  process  group  ID
                     specified  to  receive  SIGURG  signals  when out-of-band data is available.
                     Positive values shall indicate a process ID; negative values, other than -1,
                     shall  indicate  a  process  group ID; the value zero shall indicate that no
                     SIGURG signals are to be sent. If fildes does not refer  to  a  socket,  the
                     results are unspecified.

       F_SETOWN      If  fildes  refers  to  a  socket,  set  the  process ID or process group ID
                     specified to receive SIGURG signals  when  out-of-band  data  is  available,
                     using  the  value  of  the third argument, arg, taken as type int.  Positive
                     values shall indicate a process ID; negative values, other  than  -1,  shall
                     indicate  a  process  group ID; the value zero shall indicate that no SIGURG
                     signals are to be sent. Each time a SIGURG signal is sent to  the  specified
                     process or process group, permission checks equivalent to those performed by
                     kill() shall be performed, as if kill() were called by a  process  with  the
                     same  real  user  ID,  effective  user  ID,  and privileges that the process
                     calling fcntl() has at the time of the call; if the kill() call would  fail,
                     no  signal  shall  be sent. These permission checks may also be performed by
                     the fcntl() call. If the process specified by arg later terminates,  or  the
                     process  group  specified  by  arg  later  becomes  empty, while still being
                     specified to receive SIGURG signals when out-of-band data is available  from
                     fildes,  then  no  signals shall be sent to any subsequently created process
                     that has the same process ID or process group ID, regardless of  permission;
                     it  is  unspecified  whether  this  is  achieved  by  the  equivalent  of  a
                     fcntl(fildes, F_SETOWN, 0) call at the time the  process  terminates  or  is
                     waited  for or the process group becomes empty, or by other means. If fildes
                     does not refer to a socket, the results are unspecified.

       The following values for cmd are available for advisory  record  locking.  Record  locking
       shall be supported for regular files, and may be supported for other files.

       F_GETLK       Get  any  lock  which  blocks  the  lock description pointed to by the third
                     argument, arg,  taken  as  a  pointer  to  type  struct  flock,  defined  in
                     <fcntl.h>.  The information retrieved shall overwrite the information passed
                     to fcntl() in the structure flock.  If no lock is found that  would  prevent
                     this  lock  from  being  created, then the structure shall be left unchanged
                     except for the lock type which shall be set to F_UNLCK.

       F_SETLK       Set or clear a file segment lock according to the lock  description  pointed
                     to  by  the  third  argument,  arg, taken as a pointer to type struct flock,
                     defined  in  <fcntl.h>.   F_SETLK  can  establish  shared  (or  read)  locks
                     (F_RDLCK)  or  exclusive  (or  write)  locks (F_WRLCK), as well as to remove
                     either type of lock (F_UNLCK). F_RDLCK, F_WRLCK, and F_UNLCK are defined  in
                     <fcntl.h>.   If  a  shared  or  exclusive  lock cannot be set, fcntl() shall
                     return immediately with a return value of -1.

       F_SETLKW      This command shall be equivalent to F_SETLK  except  that  if  a  shared  or
                     exclusive  lock  is  blocked by other locks, the thread shall wait until the
                     request can be satisfied. If a signal that is to be caught is received while
                     fcntl()  is  waiting for a region, fcntl() shall be interrupted. Upon return
                     from the signal handler, fcntl() shall return -1 with errno set to  [EINTR],
                     and the lock operation shall not be done.

       Additional implementation-defined values for cmd may be defined in <fcntl.h>.  Their names
       shall start with F_.

       When a shared lock is set on a segment of a file, other processes shall  be  able  to  set
       shared  locks on that segment or a portion of it. A shared lock prevents any other process
       from setting an exclusive lock on any portion of the  protected  area.  A  request  for  a
       shared lock shall fail if the file descriptor was not opened with read access.

       An  exclusive  lock  shall  prevent  any  other  process  from setting a shared lock or an
       exclusive lock on any portion of the protected area. A request for an exclusive lock shall
       fail if the file descriptor was not opened with write access.

       The  structure  flock  describes  the  type (l_type), starting offset (l_whence), relative
       offset (l_start), size (l_len), and process ID (l_pid) of the segment of the  file  to  be
       affected.

       The  value  of  l_whence is SEEK_SET, SEEK_CUR, or SEEK_END, to indicate that the relative
       offset l_start bytes shall be measured from the start of the file,  current  position,  or
       end of the file, respectively. The value of l_len is the number of consecutive bytes to be
       locked. The value of l_len may be negative (where the definition of off_t permits negative
       values  of  l_len).  The l_pid field is only used with F_GETLK to return the process ID of
       the process holding a blocking lock. After a successful F_GETLK request, when  a  blocking
       lock is found, the values returned in the flock structure shall be as follows:

       l_type    Type of blocking lock found.

       l_whence  SEEK_SET.

       l_start   Start of the blocking lock.

       l_len     Length of the blocking lock.

       l_pid     Process ID of the process that holds the blocking lock.

       If  the  command  is  F_SETLKW  and the process must wait for another process to release a
       lock, then the range of bytes to be locked shall be determined before the fcntl() function
       blocks.  If  the file size or file descriptor seek offset change while fcntl() is blocked,
       this shall not affect the range of bytes locked.

       If l_len is positive, the area affected shall start at l_start and end at l_start+l_len-1.
       If l_len is negative, the area affected shall start at l_start+l_len and end at l_start-1.
       Locks may start and extend beyond the current end of a file, but shall not  extend  before
       the  beginning of the file. A lock shall be set to extend to the largest possible value of
       the file offset for that file by setting l_len to 0. If such a lock also has  l_start  set
       to 0 and l_whence is set to SEEK_SET, the whole file shall be locked.

       There  shall  be  at  most  one  type  of  lock  set  for each byte in the file.  Before a
       successful return from an F_SETLK or an F_SETLKW request  when  the  calling  process  has
       previously  existing  locks  on bytes in the region specified by the request, the previous
       lock type for each byte in the specified region shall be replaced by the new lock type. As
       specified  above under the descriptions of shared locks and exclusive locks, an F_SETLK or
       an F_SETLKW request (respectively) shall fail or block when another process  has  existing
       locks  on  bytes in the specified region and the type of any of those locks conflicts with
       the type specified in the request.

       All locks associated with a file for  a  given  process  shall  be  removed  when  a  file
       descriptor  for  that  file  is  closed  by  that process or the process holding that file
       descriptor terminates. Locks are not inherited by a child process.

       A potential for deadlock occurs if a process controlling a locked region is put  to  sleep
       by  attempting  to  lock  the locked region of another process. If the system detects that
       sleeping until a locked region is unlocked would cause a deadlock, fcntl() shall fail with
       an [EDEADLK] error.

       An  unlock (F_UNLCK) request in which l_len is non-zero and the offset of the last byte of
       the requested segment is the maximum value for an object of type off_t, when  the  process
       has an existing lock in which l_len is 0 and which includes the last byte of the requested
       segment, shall be treated as a request to unlock from the start of the  requested  segment
       with  an  l_len equal to 0. Otherwise, an unlock (F_UNLCK) request shall attempt to unlock
       only the requested segment.

       When the file descriptor fildes refers to a shared memory object, the behavior of  fcntl()
       shall  be the same as for a regular file except the effect of the following values for the
       argument cmd shall be unspecified: F_SETFL, F_GETLK, F_SETLK, and F_SETLKW.

       If fildes refers to a  typed  memory  object,  the  result  of  the  fcntl()  function  is
       unspecified.

RETURN VALUE

       Upon successful completion, the value returned shall depend on cmd as follows:

       F_DUPFD     A new file descriptor.

       F_DUPFD_CLOEXEC
                   A new file descriptor.

       F_GETFD     Value of flags defined in <fcntl.h>.  The return value shall not be negative.

       F_SETFD     Value other than -1.

       F_GETFL     Value of file status flags and access modes. The return value is not negative.

       F_SETFL     Value other than -1.

       F_GETLK     Value other than -1.

       F_SETLK     Value other than -1.

       F_SETLKW    Value other than -1.

       F_GETOWN    Value of the socket owner process or process group; this will not be -1.

       F_SETOWN    Value other than -1.

       Otherwise, -1 shall be returned and errno set to indicate the error.

ERRORS

       The fcntl() function shall fail if:

       EACCES or EAGAIN
              The  cmd  argument  is  F_SETLK; the type of lock (l_type) is a shared (F_RDLCK) or
              exclusive (F_WRLCK) lock and the  segment  of  a  file  to  be  locked  is  already
              exclusive-locked  by  another  process,  or  the type is an exclusive lock and some
              portion of the segment  of  a  file  to  be  locked  is  already  shared-locked  or
              exclusive-locked by another process.

       EBADF  The  fildes  argument  is  not a valid open file descriptor, or the argument cmd is
              F_SETLK or F_SETLKW, the type of lock, l_type, is  a  shared  lock  (F_RDLCK),  and
              fildes  is  not  a  valid  file  descriptor  open for reading, or the type of lock,
              l_type, is an exclusive lock (F_WRLCK), and fildes is not a valid  file  descriptor
              open for writing.

       EINTR  The cmd argument is F_SETLKW and the function was interrupted by a signal.

       EINVAL The  cmd argument is invalid, or the cmd argument is F_DUPFD or F_DUPFD_CLOEXEC and
              arg is negative or greater than or equal to {OPEN_MAX},  or  the  cmd  argument  is
              F_GETLK,  F_SETLK,  or  F_SETLKW  and  the  data pointed to by arg is not valid, or
              fildes refers to a file that does not support locking.

       EMFILE The argument cmd is F_DUPFD or F_DUPFD_CLOEXEC and all file  descriptors  available
              to  the process are currently open, or no file descriptors greater than or equal to
              arg are available.

       ENOLCK The argument cmd is F_SETLK or F_SETLKW and satisfying the lock or  unlock  request
              would  result  in  the  number  of locked regions in the system exceeding a system-
              imposed limit.

       EOVERFLOW
              One of the values to be returned cannot be represented correctly.

       EOVERFLOW
              The cmd argument is F_GETLK, F_SETLK, or F_SETLKW and the smallest or, if l_len  is
              non-zero,  the  largest  offset  of  any  byte  in  the requested segment cannot be
              represented correctly in an object of type off_t.

       ESRCH  The cmd argument is  F_SETOWN  and  no  process  or  process  group  can  be  found
              corresponding to that specified by arg.

       The fcntl() function may fail if:

       EDEADLK
              The  cmd  argument is F_SETLKW, the lock is blocked by a lock from another process,
              and putting the calling process to sleep to wait for that lock to become free would
              cause a deadlock.

       EINVAL The  cmd  argument  is  F_SETOWN  and  the  value of the argument is not valid as a
              process or process group identifier.

       EPERM  The cmd argument is F_SETOWN and the calling process does not  have  permission  to
              send a SIGURG signal to any process specified by arg.

       The following sections are informative.

EXAMPLES

   Locking and Unlocking a File
       The  following  example demonstrates how to place a lock on bytes 100 to 109 of a file and
       then later remove it. F_SETLK is used to perform a non-blocking lock request so  that  the
       process  does not have to wait if an incompatible lock is held by another process; instead
       the process can take some other action.

           #include <stdlib.h>
           #include <unistd.h>
           #include <fcntl.h>
           #include <errno.h>
           #include <stdio.h>

           int
           main(int argc, char *argv[])
           {
               int fd;
               struct flock fl;

               fd = open("testfile", O_RDWR);
               if (fd == -1)
                   /* Handle error */;

               /* Make a non-blocking request to place a write lock
                  on bytes 100-109 of testfile */

               fl.l_type = F_WRLCK;
               fl.l_whence = SEEK_SET;
               fl.l_start = 100;
               fl.l_len = 10;

               if (fcntl(fd, F_SETLK, &fl) == -1) {
                   if (errno == EACCES || errno == EAGAIN) {
                       printf("Already locked by another process\n");

                       /* We cannot get the lock at the moment */

                   } else {
                       /* Handle unexpected error */;
                   }
               } else { /* Lock was granted... */

                   /* Perform I/O on bytes 100 to 109 of file */

                   /* Unlock the locked bytes */

                   fl.l_type = F_UNLCK;
                   fl.l_whence = SEEK_SET;
                   fl.l_start = 100;
                   fl.l_len = 10;
                   if (fcntl(fd, F_SETLK, &fl) == -1)
                       /* Handle error */;
               }
               exit(EXIT_SUCCESS);
           } /* main */

   Setting the Close-on-Exec Flag
       The following example demonstrates  how  to  set  the  close-on-exec  flag  for  the  file
       descriptor fd.

           #include <unistd.h>
           #include <fcntl.h>
           ...
               int flags;

               flags = fcntl(fd, F_GETFD);
               if (flags == -1)
                   /* Handle error */;
               flags |= FD_CLOEXEC;
               if (fcntl(fd, F_SETFD, flags) == -1)
                   /* Handle error */;"

APPLICATION USAGE

       The  arg  values  to  F_GETFD,  F_SETFD, F_GETFL, and F_SETFL all represent flag values to
       allow for future growth. Applications using these functions should do a  read-modify-write
       operation  on  them,  rather  than assuming that only the values defined by this volume of
       POSIX.1‐2017 are valid. It is a common error to forget this, particularly in the  case  of
       F_SETFD.  Some  implementations set additional file status flags to advise the application
       of default behavior, even though the application did not request these flags.

       On systems which do not perform permission checks at the time  of  an  fcntl()  call  with
       F_SETOWN,  if  the  permission  checks  performed  at the time the signal is sent disallow
       sending the signal to any  process,  the  process  that  called  fcntl()  has  no  way  of
       discovering  that this has happened. A call to kill() with signal 0 can be used as a prior
       check of permissions, although this is no guarantee that permission will be granted at the
       time a signal is sent, since the target process(es) could change user IDs or privileges in
       the meantime.

RATIONALE

       The ellipsis in the SYNOPSIS is the syntax specified by the ISO C standard for a  variable
       number  of  arguments. It is used because System V uses pointers for the implementation of
       file locking functions.

       This volume of POSIX.1‐2017 permits concurrent read and write access to  file  data  using
       the  fcntl()  function;  this  is  a  change  from  the 1984 /usr/group standard and early
       proposals. Without concurrency controls, this feature may not be  fully  utilized  without
       occasional loss of data.

       Data  losses  occur  in several ways. One case occurs when several processes try to update
       the same record, without sequencing controls; several updates may occur  in  parallel  and
       the  last  writer  ``wins''.   Another  case  is  a  bit-tree or other internal list-based
       database that is undergoing reorganization. Without exclusive use to the tree  segment  by
       the updating process, other reading processes chance getting lost in the database when the
       index blocks are split, condensed, inserted, or deleted. While fcntl() is useful for  many
       applications,  it  is  not  intended to be overly general and does not handle the bit-tree
       example well.

       This facility is only required for regular files because it is not  appropriate  for  many
       devices such as terminals and network connections.

       Since  fcntl()  works  with ``any file descriptor associated with that file, however it is
       obtained'', the file descriptor may have been inherited through a fork() or exec operation
       and thus may affect a file that another process also has open.

       The  use  of  the  open file description to identify what to lock requires extra calls and
       presents problems if several processes are sharing an open file description, but there are
       too  many implementations of the existing mechanism for this volume of POSIX.1‐2017 to use
       different specifications.

       Another consequence of this model is that closing any file descriptor  for  a  given  file
       (whether  or  not  it  is the same open file description that created the lock) causes the
       locks on that file to be relinquished for that process. Equivalently, any  close  for  any
       file/process  pair  relinquishes  the  locks owned on that file for that process. But note
       that while an open file description may be shared through fork(), locks are not  inherited
       through fork().  Yet locks may be inherited through one of the exec functions.

       The  identification  of  a  machine  in a network environment is outside the scope of this
       volume of POSIX.1‐2017. Thus, an l_sysid member,  such  as  found  in  System  V,  is  not
       included in the locking structure.

       Changing  of  lock types can result in a previously locked region being split into smaller
       regions.

       Mandatory locking was a major feature of the 1984 /usr/group standard.

       For advisory file record locking to be effective, all processes that have access to a file
       must  cooperate  and use the advisory mechanism before doing I/O on the file. Enforcement-
       mode record locking is important  when  it  cannot  be  assumed  that  all  processes  are
       cooperating.   For  example,  if one user uses an editor to update a file at the same time
       that a second user executes another process that updates the same file and if only one  of
       the  two  processes  is  using  advisory  locking,  the  processes  are  not  cooperating.
       Enforcement-mode record locking would protect against accidental collisions.

       Secondly, advisory record locking requires a process using locking  to  bracket  each  I/O
       operation  with  lock  (or  test)  and  unlock operations.  With enforcement-mode file and
       record locking, a process can lock the file once and unlock when all I/O  operations  have
       been completed.  Enforcement-mode record locking provides a base that can be enhanced; for
       example, with sharable locks. That is, the mechanism could be enhanced to allow a  process
       to lock a file so other processes could read it, but none of them could write it.

       Mandatory locks were omitted for several reasons:

        1. Mandatory  lock  setting  was  done  by  multiplexing  the  set-group-ID  bit  in most
           implementations; this was confusing, at best.

        2. The relationship to file truncation as supported in 4.2 BSD was not well specified.

        3. Any publicly readable file could be locked by anyone. Many historical  implementations
           keep  the  password  database in a publicly readable file. A malicious user could thus
           prohibit logins. Another possibility would be to hold open a  long-distance  telephone
           line.

        4. Some   demand-paged   historical   implementations  offer  memory  mapped  files,  and
           enforcement cannot be done on that type of file.

       Since sleeping on a region is interrupted with any signal, alarm() may be used to  provide
       a  timeout  facility  in  applications requiring it. This is useful in deadlock detection.
       Since implementation of full deadlock detection is  not  always  feasible,  the  [EDEADLK]
       error was made optional.

FUTURE DIRECTIONS

       None.

SEE ALSO

       alarm(), close(), exec, kill(), open(), sigaction()

       The Base Definitions volume of POSIX.1‐2017, <fcntl.h>, <signal.h>

COPYRIGHT

       Portions  of  this  text  are  reprinted  and  reproduced in electronic form from IEEE Std
       1003.1-2017, Standard for Information Technology -- Portable  Operating  System  Interface
       (POSIX),  The  Open Group Base Specifications Issue 7, 2018 Edition, Copyright (C) 2018 by
       the Institute of Electrical and Electronics Engineers, Inc and The  Open  Group.   In  the
       event  of  any  discrepancy  between this version and the original IEEE and The Open Group
       Standard, the original IEEE and The Open Group  Standard  is  the  referee  document.  The
       original Standard can be obtained online at http://www.opengroup.org/unix/online.html .

       Any  typographical  or  formatting errors that appear in this page are most likely to have
       been introduced during the conversion of the source files to man page  format.  To  report
       such errors, see https://www.kernel.org/doc/man-pages/reporting_bugs.html .