/*************************************************************************** * Copyright 1995, Technion, Israel Institute of Technology * Electrical Eng, Software Lab. * Author: Michael Veksler. *************************************************************************** * File: shm_semaph.c * Purpose: Handle semaphores for shared memory operations. *************************************************************************** */ #ifdef CONFIG_IPC #define inline __inline__ #include #include #include #include #include "debug.h" #include "shm_semaph.h" DEFAULT_DEBUG_CHANNEL(sem) #define SEM_READ 0 #define SEM_WRITE 1 /* IMPORTANT: Make sure that killed process will not lock everything. * If possible, restrict usage of these functions. */ void shm_read_wait(shm_sem semid) { struct sembuf sop[2]; int ret; TRACE(sem,"(%d)\n",semid); sop[0].sem_num=SEM_READ; sop[0].sem_op=1; /* add this read instance */ sop[0].sem_flg=SEM_UNDO; /* undo in case process dies */ sop[1].sem_num=SEM_WRITE; sop[1].sem_op=0; /* wait until no writing instance exists */ sop[1].sem_flg=SEM_UNDO; do { ret=semop (semid,sop , 2); } while (ret<0 && errno==EINTR); /* interrupted system call? */ if (ret<0) WARN(sem,"(semid=%d,errno=%d): Failed semaphore lock for read\n", semid, errno); } void shm_write_wait(shm_sem semid) { struct sembuf sop[3]; int ret; TRACE(sem,"(%d)\n",semid); sop[0].sem_num=SEM_READ; sop[0].sem_op=0; /* wait until no reading instance exist */ sop[0].sem_flg=SEM_UNDO; sop[1].sem_num=SEM_WRITE; sop[1].sem_op=1; /* writing is in progress - disable read */ sop[1].sem_flg=SEM_UNDO; /* undo if process dies */ sop[2].sem_num=SEM_READ; sop[2].sem_op=1; /* disable new writes */ sop[2].sem_flg=SEM_UNDO; do { ret=semop (semid,sop , 3); } while (ret<0 && errno==EINTR); /* interrupted system call? */ if (ret<0) /* test for the error */ WARN(sem,"(semid=%d,errno=%d): Failed semaphore lock for write\n", semid, errno); } void shm_write_signal(shm_sem semid) { struct sembuf sop[2]; int ret; TRACE(sem,"(%d)\n",semid); sop[0].sem_num=SEM_READ; sop[0].sem_op=-1; sop[0].sem_flg=IPC_NOWAIT | SEM_UNDO; /* no reason to wait */ sop[1].sem_num=SEM_WRITE; sop[1].sem_op=-1; sop[1].sem_flg=IPC_NOWAIT | SEM_UNDO; /* no reason to wait */ do { ret=semop (semid,sop , 2); } while (ret<0 && errno==EINTR); /* interrupted system call? */ if (ret<0) /* test for the error */ WARN(sem,"(semid=%d,errno=%d): Failed semaphore unlock for write\n", semid, errno); } void shm_read_signal(shm_sem semid) { struct sembuf sop[2]; int ret; TRACE(sem,"(%d)\n",semid); sop[0].sem_num=SEM_READ; sop[0].sem_op=-1; sop[0].sem_flg=IPC_NOWAIT | SEM_UNDO; /* no reason to wait */ do { ret=semop (semid,sop , 1); } while (ret<0 && errno==EINTR); /* interrupted system call? */ if (ret<0) /* test for the error */ WARN(sem,"(semid=%d,errno=%d): Failed semaphore unlock for read\n", semid, errno); } void shm_sem_init(shm_sem *sptr) { shm_sem semid; union semun arg; semid=semget (IPC_PRIVATE, 2, 0700 | IPC_CREAT); arg.val=0; semctl (semid, 0, SETVAL, arg); semctl (semid, 1, SETVAL, arg); *sptr=semid; } void shm_sem_done(shm_sem *semptr) { union semun arg; semctl (*semptr, 0, IPC_RMID , arg); semctl (*semptr, 1, IPC_RMID , arg); *semptr= -1; } #endif /* CONFIG_IPC */