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NAME

       semget - get set of XSI semaphores

SYNOPSIS

       #include <sys/sem.h>

       int semget(key_t key, int nsems, int semflg);

DESCRIPTION

       The  semget()  function  operates  on  XSI  semaphores (see the Base Definitions volume of
       IEEE Std 1003.1-2001, Section 4.15, Semaphore).  It is unspecified whether  this  function
       interoperates  with the realtime interprocess communication facilities defined in Realtime
       .

       The semget() function shall return the semaphore identifier associated with key.

       A semaphore identifier with its associated semid_ds data structure and its associated  set
       of nsems semaphores (see <sys/sem.h>) is created for key if one of the following is true:

        * The argument key is equal to IPC_PRIVATE.

        * The  argument  key  does not already have a semaphore identifier associated with it and
          (semflg &IPC_CREAT) is non-zero.

       Upon creation, the semid_ds data structure associated with the new semaphore identifier is
       initialized as follows:

        * In  the operation permissions structure sem_perm.cuid, sem_perm.uid, sem_perm.cgid, and
          sem_perm.gid shall be set equal to the  effective  user  ID  and  effective  group  ID,
          respectively, of the calling process.

        * The  low-order  9  bits  of sem_perm.mode shall be set equal to the low-order 9 bits of
          semflg.

        * The variable sem_nsems shall be set equal to the value of nsems.

        * The variable sem_otime shall be set equal to 0 and sem_ctime shall be set equal to  the
          current time.

        * The  data structure associated with each semaphore in the set shall not be initialized.
          The semctl() function with the command SETVAL or SETALL can be used to initialize  each
          semaphore.

RETURN VALUE

       Upon  successful  completion,  semget()  shall  return  a  non-negative  integer, namely a
       semaphore identifier; otherwise, it shall return -1 and set errno to indicate the error.

ERRORS

       The semget() function shall fail if:

       EACCES A semaphore identifier exists for key, but operation permission as specified by the
              low-order 9 bits of semflg would not be granted; see XSI Interprocess Communication
              .

       EEXIST A semaphore identifier  exists  for  the  argument  key  but  ((semflg  &IPC_CREAT)
              &&(semflg &IPC_EXCL)) is non-zero.

       EINVAL The  value  of  nsems is either less than or equal to 0 or greater than the system-
              imposed limit, or a semaphore identifier exists  for  the  argument  key,  but  the
              number  of semaphores in the set associated with it is less than nsems and nsems is
              not equal to 0.

       ENOENT A semaphore identifier does not exist for the argument key and (semflg  &IPC_CREAT)
              is equal to 0.

       ENOSPC A semaphore identifier is to be created but the system-imposed limit on the maximum
              number of allowed semaphores system-wide would be exceeded.

       The following sections are informative.

EXAMPLES

   Creating a Semaphore Identifier
       The following example gets a unique semaphore key using the ftok() function, then  gets  a
       semaphore  ID  associated  with  that key using the semget() function (the first call also
       tests to make sure the semaphore exists). If the semaphore does  not  exist,  the  program
       creates  it,  as  shown  by the second call to semget(). In creating the semaphore for the
       queuing process, the program attempts to create one semaphore with  read/write  permission
       for  all.  It  also uses the IPC_EXCL flag, which forces semget() to fail if the semaphore
       already exists.

       After creating the semaphore, the program uses a call to semop() to initialize it  to  the
       values  in  the  sbuf array. The number of processes that can execute concurrently without
       queuing is initially set to 2. The final call to semget() creates a  semaphore  identifier
       that can be used later in the program.

              #include <sys/types.h>
              #include <stdio.h>
              #include <sys/ipc.h>
              #include <sys/sem.h>
              #include <sys/stat.h>
              #include <errno.h>
              #include <unistd.h>
              #include <stdlib.h>
              #include <pwd.h>
              #include <fcntl.h>
              #include <limits.h>
              ...
              key_t semkey;
              int semid, pfd, fv;
              struct sembuf sbuf;
              char *lgn;
              char filename[PATH_MAX+1];
              struct stat outstat;
              struct passwd *pw;
              ...
              /* Get unique key for semaphore. */
              if ((semkey = ftok("/tmp", 'a')) == (key_t) -1) {
                  perror("IPC error: ftok"); exit(1);
              }

              /* Get semaphore ID associated with this key. */
              if ((semid = semget(semkey, 0, 0)) == -1) {

                  /* Semaphore does not exist - Create. */
                  if ((semid = semget(semkey, 1, IPC_CREAT | IPC_EXCL | S_IRUSR |
                      S_IWUSR | S_IRGRP | S_IWGRP | S_IROTH | S_IWOTH)) != -1)
                  {
                      /* Initialize the semaphore. */
                      sbuf.sem_num = 0;
                      sbuf.sem_op = 2;  /* This is the number of runs
                                           without queuing. */
                      sbuf.sem_flg = 0;
                      if (semop(semid, &sbuf, 1) == -1) {
                          perror("IPC error: semop"); exit(1);
                      }
                  }
                  else if (errno == EEXIST) {
                      if ((semid = semget(semkey, 0, 0)) == -1) {
                          perror("IPC error 1: semget"); exit(1);
                      }
                  }
                  else {
                      perror("IPC error 2: semget"); exit(1);
                  }
              }
              ...

APPLICATION USAGE

       The   POSIX   Realtime   Extension   defines   alternative   interfaces  for  interprocess
       communication. Application developers who need to use IPC should design their applications
       so  that modules using the IPC routines described in XSI Interprocess Communication can be
       easily modified to use the alternative interfaces.

RATIONALE

       None.

FUTURE DIRECTIONS

       None.

SEE ALSO

       XSI  Interprocess  Communication  ,  Realtime  ,  semctl()  ,  semop()  ,  sem_close()   ,
       sem_destroy()  ,  sem_getvalue()  ,  sem_init() , sem_open() , sem_post() , sem_unlink() ,
       sem_wait() , the Base Definitions volume of IEEE Std 1003.1-2001, <sys/sem.h>

COPYRIGHT

       Portions of this text are reprinted and  reproduced  in  electronic  form  from  IEEE  Std
       1003.1,  2003  Edition,  Standard  for Information Technology -- Portable Operating System
       Interface (POSIX), The Open Group Base Specifications Issue 6, Copyright (C) 2001-2003  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 .