fcntl(2) System Calls fcntl(2)NAMEfcntl - file control
SYNOPSIS
#include <sys/types.h>
#include <unistd.h>
#include <fcntl.h>
int fcntl(int fildes, int cmd, /* arg */ ...);
DESCRIPTION
The fcntl() function provides for control over open files. The fildes
argument is an open file descriptor.
The fcntl() function can take a third argument, arg, whose data type,
value, and use depend upon the value of cmd. The cmd argument specifies
the operation to be performed by fcntl().
The values for cmd are defined in <fcntl.h> and include:
F_DUPFD
Return a new file descriptor which is the lowest numbered available
(that is, not already open) file descriptor greater than or equal
to the third argument, arg, taken as an integer of type int. The
new file descriptor refers to the same open file description as the
original file descriptor, and shares any locks. The FD_CLOEXEC flag
associated with the new file descriptor is cleared to keep the file
open across calls to one of the exec(2) functions.
F_DUP2FD
Similar to F_DUPFD, but always returns arg. F_DUP2FD closes arg if
it is open and not equal to fildes. F_DUP2FD is equivalent to
dup2(fildes, arg).
F_FREESP
Free storage space associated with a section of the ordinary file
fildes. The section is specified by a variable of data type struct
flock pointed to by arg. The data type struct flock is defined in
the <fcntl.h> header (see fcntl.h(3HEAD)) and is described below.
Note that all file systems might not support all possible varia‐
tions of F_FREESP arguments. In particular, many file systems allow
space to be freed only at the end of a file.
F_FREESP64
Equivalent to F_FREESP, but takes a struct flock64 argument rather
than a struct flock argument.
F_GETFD
Get the file descriptor flags defined in <fcntl.h> that are associ‐
ated 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_GETFL
Get the file status flags and file access modes, defined in
<fcntl.h>, for the file descriptor specified by 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 do not affect other file descriptors that refer
to the same file with different open file descriptions.
F_GETOWN
If fildes refers to a socket, get the process or process group ID
specified to receive SIGURG signals when out-of-band data is avail‐
able. Positive values indicate a process ID; negative values, other
than −1, indicate a process group ID. If fildes does not refer to a
socket, the results are unspecified.
F_GETXFL
Get the file status flags, file access modes, and file creation and
assignment flags, defined in <fcntl.h>, for the file descriptor
specified by 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, file access modes, and file creation
and assignment flags do not affect other file descriptors that
refer to the same file with different open file descriptions.
F_SETFD
Set the file descriptor flags defined in <fcntl.h>, that are asso‐
ciated with fildes, to the third argument, arg, taken as type int.
If the FD_CLOEXEC flag in the third argument is 0, the file will
remain open across the exec() functions; otherwise the file will be
closed upon successful execution of one of the exec() functions.
F_SETFL
Set the file status flags, defined in <fcntl.h>, for the file
descriptor specified by fildes from the corresponding bits in the
arg argument, taken as type int. Bits corresponding to the file
access mode and file creation and assignment flags that are set in
arg are ignored. If any bits in arg other than those mentioned here
are changed by the application, the result is unspecified.
F_SETOWN
If fildes refers to a socket, set the process or process group ID
specified to receive SIGURG signals when out-of-band data is avail‐
able, using the value of the third argument, arg, taken as type
int. Positive values indicate a process ID; negative values, other
than −1, indicate a process group ID. If fildes does not refer to a
socket, the results are unspecified.
The following commands are available for advisory record locking.
Record locking is supported for regular files, and may be supported for
other files.
F_GETLK Get the first lock which blocks the lock descrip‐
tion pointed to by the third argument, arg, taken
as a pointer to type struct flock, defined in
<fcntl.h>. The information retrieved overwrites 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 will be
left unchanged except for the lock type which will
be set to F_UNLCK.
F_GETLK64 Equivalent to F_GETLK, but takes a struct flock64
argument rather than a struct flock argument.
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 is used to 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() will return
immediately with a return value of −1.
F_SETLK64 Equivalent to F_SETLK, but takes a struct flock64
argument rather than a struct flock argument.
F_SETLKW This command is the same as F_SETLK except that if
a shared or exclusive lock is blocked by other
locks, the process will 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() will be interrupted. Upon return from the
process' signal handler, fcntl() will return −1
with errno set to EINTR, and the lock operation
will not be done.
F_SETLKW64 Equivalent to F_SETLKW, but takes a struct flock64
argument rather than a struct flock argument.
When a shared lock is set on a segment of a file, other processes will
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 will
fail if the file descriptor was not opened with read access.
An exclusive lock will 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 will fail if the file descriptor was not
opened with write access.
The flock structure contains at least the following elements:
short l_type; /* lock operation type */
short l_whence; /* lock base indicator */
off_t l_start; /* starting offset from base */
off_t l_len; /* lock length; l_len == 0 means
until end of file */
int l_sysid; /* system ID running process holding lock */
pid_t l_pid; /* process ID of process holding lock */
The value of l_whence is SEEK_SET, SEEK_CUR, or SEEK_END, to indicate
that the relative offset l_start bytes will 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). After a successful F_GETLK or F_GETLK64
request, that is, one in which a lock was found, the value of l_whence
will be SEEK_SET.
The l_pid and l_sysid fields are used only with F_GETLK or F_GETLK64 to
return the process ID of the process holding a blocking lock and to
indicate which system is running that process.
If l_len is positive, the area affected starts at l_start and ends at
l_start + l_len − 1. If l_len is negative, the area affected starts at
l_start + l_len and ends at l_start − 1. Locks may start and extend
beyond the current end of a file, but must not be negative relative to
the beginning of the file. A lock will 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 will be locked.
If a process has an existing lock in which l_len is 0 and which
includes the last byte of the requested segment, and an unlock
(F_UNLCK) request is made 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, then the F_UNLCK request will be treated as a
request to unlock from the start of the requested segment with an l_len
equal to 0. Otherwise, the request will attempt to unlock only the
requested segment.
There will be at most one type of lock set for each byte in the file.
Before a successful return from an F_SETLK, F_SETLK64, F_SETLKW, or
F_SETLKW64 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 will be replaced by the
new lock type. As specified above under the descriptions of shared
locks and exclusive locks, an F_SETLK, F_SETLK64, F_SETLKW, or
F_SETLKW64 request will (respectively) 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 are 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 created using fork(2).
A potential for deadlock occurs if a process controlling a locked
region is put to sleep by attempting to lock another process' locked
region. If the system detects that sleeping until a locked region is
unlocked would cause a deadlock, fcntl() will fail with an EDEADLK
error.
The following values for cmd are used for file share reservations. A
share reservation is placed on an entire file to allow cooperating pro‐
cesses to control access to the file.
F_SHARE Sets a share reservation on a file with the speci‐
fied access mode and designates which types of
access to deny.
F_UNSHARE Remove an existing share reservation.
File share reservations are an advisory form of access control among
cooperating processes, on both local and remote machines. They are most
often used by DOS or Windows emulators and DOS based NFS clients. How‐
ever, native UNIX versions of DOS or Windows applications may also
choose to use this form of access control.
A share reservation is described by an fshare structure defined in
<sys/fcntl.h>, which is included in <fcntl.h> as follows:
typedef struct fshare {
short f_access;
short f_deny;
int f_id;
} fshare_t;
A share reservation specifies the type of access, f_access, to be
requested on the open file descriptor. If access is granted, it further
specifies what type of access to deny other processes, f_deny. A single
process on the same file may hold multiple non-conflicting reserva‐
tions by specifying an identifier, f_id, unique to the process, with
each request.
An F_UNSHARE request releases the reservation with the specified f_id.
The f_access and f_deny fields are ignored.
Valid f_access values are:
F_RDACC Set a file share reservation for read-only access.
F_WRACC Set a file share reservation for write-only access.
F_RWACC Set a file share reservation for read and write
access.
Valid f_deny values are:
F_COMPAT Set a file share reservation to compatibility mode.
F_RDDNY Set a file share reservation to deny read access to
other processes.
F_WRDNY Set a file share reservation to deny write access
to other processes.
F_RWDNY Set a file share reservation to deny read and write
access to other processes.
F_NODNY Do not deny read or write access to any other
process.
RETURN VALUES
Upon successful completion, the value returned depends on cmd as fol‐
lows:
F_DUPFD A new file descriptor.
F_FREESP Value of 0.
F_GETFD Value of flags defined in <fcntl.h>. The return
value will not be negative.
F_GETFL Value of file status flags and access modes. The
return value will not be negative.
F_GETLK Value other than −1.
F_GETLK64 Value other than −1.
F_GETOWN Value of the socket owner process or process group;
this will not be −1.
F_GETXFL Value of file status flags, access modes, and cre‐
ation and assignment flags. The return value will
not be negative.
F_SETFD Value other than −1.
F_SETFL Value other than −1.
F_SETLK Value other than −1.
F_SETLK64 Value other than −1.
F_SETLKW Value other than −1.
F_SETLKW64 Value other than −1.
F_SETOWN Value other than −1.
F_SHARE Value other than −1.
F_UNSHARE Value other than −1.
Otherwise, −1 is returned and errno is set to indicate the error.
ERRORS
The fcntl() function will fail if:
EAGAIN The cmd argument is F_SETLK or F_SETLK64, 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.
The cmd argument is F_FREESP, the file exists,
mandatory file/record locking is set, and there are
outstanding record locks on the file; or the cmd
argument is F_SETLK, F_SETLK64, F_SETLKW, or
F_SETLKW64, mandatory file/record locking is set,
and the file is currently being mapped to virtual
memory using mmap(2).
The cmd argument is F_SHARE and f_access conflicts
with an existing f_deny share reservation.
EBADF The fildes argument is not a valid open file
descriptor; or the cmd argument is F_SETLK,
F_SETLK64, F_SETLKW, or F_SETLKW64, 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.
The cmd argument is F_FREESP and fildes is not a
valid file descriptor open for writing.
The cmd argument is F_DUP2FD, and arg is negative
or is not less than the current resource limit for
RLIMIT_NOFILE.
The cmd argument is F_SHARE, the f_access share
reservation is for write access, and fildes is not
a valid file descriptor open for writing.
The cmd argument is F_SHARE, the f_access share
reservation is for read access, and fildes is not a
valid file descriptor open for reading.
EFAULT The cmd argument is F_GETLK, F_GETLK64, F_SETLK,
F_SETLK64, F_SETLKW, F_SETLKW64, or F_FREESP and
the arg argument points to an illegal address.
The cmd argument is F_SHARE or F_UNSHARE and arg
points to an illegal address.
EINTR The cmd argument is F_SETLKW or F_SETLKW64 and the
function was interrupted by a signal.
EINVAL The cmd argument is invalid or not supported by the
file system; or the cmd argument is F_DUPFD and arg
is negative or greater than or equal to OPEN_MAX;
or the cmd argument is F_GETLK, F_GETLK64, F_SETLK,
F_SETLK64, F_SETLKW, or F_SETLKW64 and the data
pointed to by arg is not valid; or fildes refers to
a file that does not support locking.
The cmd argument is F_UNSHARE and a reservation
with this f_id for this process does not exist.
EIO An I/O error occurred while reading from or writing
to the file system.
EMFILE The cmd argument is F_DUPFD and either OPEN_MAX
file descriptors are currently open in the calling
process, or no file descriptors greater than or
equal to arg are available.
ENOLCK The cmd argument is F_SETLK, F_SETLK64, F_SETLKW,
or F_SETLKW64 and satisfying the lock or unlock
request would result in the number of locked
regions in the system exceeding a system-imposed
limit.
ENOLINK Either the fildes argument is on a remote machine
and the link to that machine is no longer active;
or the cmd argument is F_FREESP, the file is on a
remote machine, and the link to that machine is no
longer active.
EOVERFLOW One of the values to be returned cannot be repre‐
sented correctly.
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 seg‐
ment cannot be represented correctly in an object
of type off_t.
The cmd argument is F_GETLK64, F_SETLK64, or
F_SETLKW64 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 off64_t.
The fcntl() function may fail if:
EAGAIN The cmd argument is F_SETLK, F_SETLK64, F_SETLKW,
or F_SETLKW64, and the file is currently being
mapped to virtual memory using mmap(2).
EDEADLK The cmd argument is F_SETLKW or F_SETLKW64, the
lock is blocked by some lock from another process
and putting the calling process to sleep, waiting
for that lock to become free would cause a dead‐
lock.
The cmd argument is F_FREESP, mandatory record
locking is enabled, O_NDELAY and O_NONBLOCK are
clear and a deadlock condition was detected.
ATTRIBUTES
See attributes(5) for descriptions of the following attributes:
┌─────────────────────────────┬─────────────────────────────┐
│ ATTRIBUTE TYPE │ ATTRIBUTE VALUE │
├─────────────────────────────┼─────────────────────────────┤
│Interface Stability │Standard │
├─────────────────────────────┼─────────────────────────────┤
│MT-Level │Async-Signal Safe │
└─────────────────────────────┴─────────────────────────────┘
SEE ALSOlockd(1M), chmod(2), close(2), creat(2), dup(2), exec(2), fork(2),
mmap(2), open(2), pipe(2), read(2), sigaction(2), write(2), dup2(3C),
fcntl.h(3HEAD), attributes(5), standards(5)NOTES
In the past, the variable errno was set to EACCES rather than EAGAIN
when a section of a file is already locked by another process. There‐
fore, portable application programs should expect and test for either
value.
Advisory locks allow cooperating processes to perform consistent opera‐
tions on files, but do not guarantee exclusive access. Files can be
accessed without advisory locks, but inconsistencies may result. The
network share locking protocol does not support the f_deny value of
F_COMPAT. For network file systems, if f_access is F_RDACC, f_deny is
mapped to F_RDDNY. Otherwise, it is mapped to F_RWDNY.
To prevent possible file corruption, the system may reject mmap()
requests for advisory locked files, or it may reject advisory locking
requests for mapped files. Applications that require a file be both
locked and mapped should lock the entire file (l_start and l_len both
set to 0). If a file is mapped, the system may reject an unlock
request, resulting in a lock that does not cover the entire file.
The process ID returned for locked files on network file systems might
not be meaningful.
If the file server crashes and has to be rebooted, the lock manager
(see lockd(1M)) attempts to recover all locks that were associated with
that server. If a lock cannot be reclaimed, the process that held the
lock is issued a SIGLOST signal.
SunOS 5.10 24 Sep 2003 fcntl(2)