ipc - phpMan

File: *manpages*,  Node: ipc,  Up: (dir)
IPC(2)                     Linux Programmer's Manual                    IPC(2)

NAME
       ipc - System V IPC system calls
SYNOPSIS
       int ipc(unsigned int call, int first, int second, int third,
               void *ptr, long fifth);
DESCRIPTION
       ipc()  is  a  common  kernel entry point for the System V IPC calls for
       messages, semaphores, and shared memory.   call  determines  which  IPC
       function  to  invoke;  the  other  arguments  are passed through to the
       appropriate call.
       User programs should call the  appropriate  functions  by  their  usual
       names.   Only  standard library implementors and kernel hackers need to
       know about ipc().
CONFORMING TO
       ipc() is Linux-specific, and should not be used in programs intended to
       be portable.
NOTES
       On  some  architectures--for  example x86-64 and ARM--there is no ipc()
       system call; instead msgctl(2), semctl(2), shmctl(2), and so on  really
       are implemented as separate system calls.
SEE ALSO
       msgctl(2),   msgget(2),  msgrcv(2),  msgsnd(2),  semctl(2),  semget(2),
       semop(2), semtimedop(2), shmat(2), shmctl(2), shmdt(2), shmget(2)
COLOPHON
       This page is part of release 3.53 of the Linux  man-pages  project.   A
       description  of  the project, and information about reporting bugs, can
       be found at http://www.kernel.org/doc/man-pages/.

Linux                             2012-10-16                            IPC(2)
SVIPC(7)                   Linux Programmer's Manual                  SVIPC(7)

NAME
       svipc - System V interprocess communication mechanisms
SYNOPSIS
       #include <sys/msg.h>
       #include <sys/sem.h>
       #include <sys/shm.h>
DESCRIPTION
       This  manual  page  refers  to the Linux implementation of the System V
       interprocess communication (IPC) mechanisms: message queues,  semaphore
       sets,  and shared memory segments.  In the following, the word resource
       means an instantiation of one among such mechanisms.
   Resource access permissions
       For each resource, the system uses a common structure  of  type  struct
       ipc_perm to store information needed in determining permissions to per-
       form an IPC operation.  The ipc_perm structure includes  the  following
       members:
           struct ipc_perm {
               uid_t          cuid;   /* creator user ID */
               gid_t          cgid;   /* creator group ID */
               uid_t          uid;    /* owner user ID */
               gid_t          gid;    /* owner group ID */
               unsigned short mode;   /* r/w permissions */
           };
       The  mode  member  of  the ipc_perm structure defines, with its lower 9
       bits, the access permissions to the resource for a process executing an
       IPC system call.  The permissions are interpreted as follows:
           0400    Read by user.
           0200    Write by user.
           0040    Read by group.
           0020    Write by group.
           0004    Read by others.
           0002    Write by others.
       Bits  0100, 0010, and 0001 (the execute bits) are unused by the system.
       Furthermore, "write" effectively means "alter" for a semaphore set.
       The same system header file also defines the  following  symbolic  con-
       stants:
       IPC_CREAT     Create entry if key doesn't exist.
       IPC_EXCL      Fail if key exists.
       IPC_NOWAIT    Error if request must wait.
       IPC_PRIVATE   Private key.
       IPC_RMID      Remove resource.
       IPC_SET       Set resource options.
       IPC_STAT      Get resource options.
       Note  that  IPC_PRIVATE  is  a key_t type, while all the other symbolic
       constants are flag fields and can be OR'ed into an int type variable.
   Message queues
       A message queue is uniquely  identified  by  a  positive  integer  (its
       msqid)  and  has  an associated data structure of type struct msqid_ds,
       defined in <sys/msg.h>, containing the following members:
           struct msqid_ds {
               struct ipc_perm msg_perm;
               msgqnum_t       msg_qnum;    /* no of messages on queue */
               msglen_t        msg_qbytes;  /* bytes max on a queue */
               pid_t           msg_lspid;   /* PID of last msgsnd(2) call */
               pid_t           msg_lrpid;   /* PID of last msgrcv(2) call */
               time_t          msg_stime;   /* last msgsnd(2) time */
               time_t          msg_rtime;   /* last msgrcv(2) time */
               time_t          msg_ctime;   /* last change time */
           };
       msg_perm   ipc_perm structure that specifies the access permissions  on
                  the message queue.
       msg_qnum   Number of messages currently on the message queue.
       msg_qbytes Maximum  number of bytes of message text allowed on the mes-
                  sage queue.
       msg_lspid  ID of the process that performed the last  msgsnd(2)  system
                  call.
       msg_lrpid  ID  of  the process that performed the last msgrcv(2) system
                  call.
       msg_stime  Time of the last msgsnd(2) system call.
       msg_rtime  Time of the last msgrcv(2) system call.
       msg_ctime  Time of the last system call that changed a  member  of  the
                  msqid_ds structure.
   Semaphore sets
       A  semaphore  set  is  uniquely  identified  by a positive integer (its
       semid) and has an associated data structure of  type  struct  semid_ds,
       defined in <sys/sem.h>, containing the following members:
           struct semid_ds {
               struct ipc_perm sem_perm;
               time_t          sem_otime;   /* last operation time */
               time_t          sem_ctime;   /* last change time */
               unsigned long   sem_nsems;   /* count of sems in set */
           };
       sem_perm   ipc_perm  structure that specifies the access permissions on
                  the semaphore set.
       sem_otime  Time of last semop(2) system call.
       sem_ctime  Time of last semctl(2) system call that changed a member  of
                  the  above  structure  or  of one semaphore belonging to the
                  set.
       sem_nsems  Number of semaphores in the set.  Each semaphore of the  set
                  is  referenced  by  a  nonnegative integer ranging from 0 to
                  sem_nsems-1.
       A semaphore is a data structure of type struct sem containing the  fol-
       lowing members:
           struct sem {
               int semval;  /* semaphore value */
               int sempid;  /* PID for last operation */
           };
       semval     Semaphore value: a nonnegative integer.
       sempid     ID  of the last process that performed a semaphore operation
                  on this semaphore.
   Shared memory segments
       A shared memory segment is uniquely identified by  a  positive  integer
       (its  shmid)  and  has  an  associated  data  structure  of type struct
       shmid_ds, defined in <sys/shm.h>, containing the following members:
           struct shmid_ds {
               struct ipc_perm shm_perm;
               size_t          shm_segsz;   /* size of segment */
               pid_t           shm_cpid;    /* PID of creator */
               pid_t           shm_lpid;    /* PID, last operation */
               shmatt_t        shm_nattch;  /* no. of current attaches */
               time_t          shm_atime;   /* time of last attach */
               time_t          shm_dtime;   /* time of last detach */
               time_t          shm_ctime;   /* time of last change */
           };
       shm_perm   ipc_perm structure that specifies the access permissions  on
                  the shared memory segment.
       shm_segsz  Size in bytes of the shared memory segment.
       shm_cpid   ID of the process that created the shared memory segment.
       shm_lpid   ID  of the last process that executed a shmat(2) or shmdt(2)
                  system call.
       shm_nattch Number of current alive attaches for this shared memory seg-
                  ment.
       shm_atime  Time of the last shmat(2) system call.
       shm_dtime  Time of the last shmdt(2) system call.
       shm_ctime  Time   of  the  last  shmctl(2)  system  call  that  changed
                  shmid_ds.
SEE ALSO
       ipcmk(1), ipcrm(1), ipcs(1), ipc(2), msgctl(2),  msgget(2),  msgrcv(2),
       msgsnd(2),   semctl(2),   semget(2),   semop(2),  shmat(2),  shmctl(2),
       shmdt(2), shmget(2), ftok(3)
COLOPHON
       This page is part of release 3.53 of the Linux  man-pages  project.   A
       description  of  the project, and information about reporting bugs, can
       be found at http://www.kernel.org/doc/man-pages/.

Linux                             2013-02-12                          SVIPC(7)