#define _XOPEN_SOURCE 700 #include #include #include #include #include #include #include #include #include #ifdef _SEM_SEMUN_UNDEFINED union semun { int val; struct semid_ds *buf; unsigned short *array; }; #endif #define S 0 #define W 1 #define X 2 #define Q 3 #define SEMAPHORES 4 #define MEMORY_SIZE (2 * 1024) #define open_semaphore() ((sem_id = semget(key_sem, SEMAPHORES, 0600)) == -1 ? -1 : 0) #define acquire_semaphore(semaphore, delta, undo) semaphore_op(semaphore, -delta, undo) #define release_semaphore(semaphore, delta, undo) semaphore_op(semaphore, +delta, undo) #define zero_semaphore(semaphore) semaphore_op(semaphore, 0, 0) #define t(inst) if ((inst) == -1) goto fail char *argv0; static int sem_id = -1; static key_t key_sem = -1; static key_t key_shm = -1; static int get_keys(void) { int saved_errno; char *line; size_t len; line = NULL, len = 0; t(getline(&line, &len, stdin)); t(key_sem = (key_t)atoll(line)); free(line); line = NULL, len = 0; t(getline(&line, &len, stdin)); t(key_shm = (key_t)atoll(line)); free(line); return 0; fail: saved_errno = errno; free(line); errno = saved_errno; return -1; } static int create_semaphores(void) { int id = -1, rint, saved_errno; double r; union semun values; values.array = NULL; /* Create semaphore array. */ for (;;) { rint = rand(); r = (double)rint; r /= (double)RAND_MAX + 1; r *= (1 << (8 * sizeof(key_t) - 2)) - 1; key_sem = (key_t)r + 1; if (key_sem == IPC_PRIVATE) continue; id = semget(key_sem, SEMAPHORES, IPC_CREAT | IPC_EXCL | 0600); if (id != -1) break; if ((errno != EEXIST) && (errno != EINTR)) goto fail; } /* Initialise the array. */ values.array = calloc(SEMAPHORES, sizeof(unsigned short)); values.array[X] = 1; if (!values.array) goto fail; if (semctl(id, 0, SETALL, values.array) == -1) goto fail; free(values.array); values.array = NULL; printf("%zi\n", (ssize_t)key_sem); return 0; fail: saved_errno = errno; if ((id != -1) && (semctl(id, 0, IPC_RMID) == -1)) perror(argv0); free(values.array); errno = saved_errno; return -1; } static int create_shared_memory(void) { int id = -1, rint, saved_errno; double r; struct shmid_ds _info; /* Create shared memory. */ for (;;) { rint = rand(); r = (double)rint; r /= (double)RAND_MAX + 1; r *= (1 << (8 * sizeof(key_t) - 2)) - 1; key_shm = (key_t)r + 1; if (key_shm == IPC_PRIVATE) continue; id = shmget(key_shm, MEMORY_SIZE, IPC_CREAT | IPC_EXCL | 0600); if (id != -1) break; if ((errno != EEXIST) && (errno != EINTR)) goto fail; } printf("%zi\n", (ssize_t)key_shm); return 0; fail: saved_errno = errno; if ((id != -1) && (shmctl(id, IPC_RMID, &_info) == -1)) perror(argv0); errno = saved_errno; return -1; } static int remove_semaphores(void) { int id = semget(key_sem, SEMAPHORES, 0600); return ((id == -1) || (semctl(id, 0, IPC_RMID) == -1)) ? -1 : 0; } static int remove_shared_memory(void) { struct shmid_ds _info; int id = shmget(key_shm, MEMORY_SIZE, 0600); return ((id == -1) || (shmctl(sem_id, IPC_RMID, &_info) == -1)) ? -1 : 0; } static int semaphore_op(unsigned short semaphore, short delta, int undo) { struct sembuf op; op.sem_op = delta; op.sem_num = semaphore; op.sem_flg = undo ? SEM_UNDO : 0; return semop(sem_id, &op, 1); } static int write_semaphore(unsigned short semaphore, int value) { union semun semval; semval.val = value; return semctl(sem_id, semaphore, SETVAL, semval); } static int read_shared_memory(char *message) { int id, saved_errno; void *address = NULL; t(id = shmget(key_shm, MEMORY_SIZE, 0600)); address = shmat(id, NULL, SHM_RDONLY); if ((address == (void *)-1) || !address) goto fail; strncpy(message, address, MEMORY_SIZE); t(shmdt(address)); return 0; fail: saved_errno = errno; if (address && (shmdt(address) == -1)) perror(argv0); errno = saved_errno; return -1; } static int write_shared_memory(const char *message) { int id, saved_errno; void *address = NULL; t(id = shmget(key_shm, MEMORY_SIZE, 0600)); address = shmat(id, NULL, 0); if ((address == (void *)-1) || !address) goto fail; memcpy(address, message, (strlen(message) + 1) * sizeof(char)); t(shmdt(address)); return 0; fail: saved_errno = errno; if (address && (shmdt(address) == -1)) perror(argv0); errno = saved_errno; return -1; } static int spawn(const char *command, const char *message) { pid_t pid = fork(); if (pid) return pid == -1 ? -1 : 0; setenv("arg", message, 1); execlp("sh", "sh", "-c", command, NULL); perror(argv0); exit(1); } int main(int argc, char *argv[]) { char read_message[MEMORY_SIZE]; argv0 = *argv; if ((argc == 2) && !strcmp(argv[1], "create")) { srand((unsigned int)time(NULL)); t(create_semaphores()); t(create_shared_memory()); } else if ((argc == 2) && !strcmp(argv[1], "remove")) { t(get_keys()); t(remove_semaphores()); t(remove_shared_memory()); } else if ((argc == 3) && !strcmp(argv[1], "listen")) { t(get_keys()); t(open_semaphore()); t(release_semaphore(S, 1, 1)); for (;;) { t(release_semaphore(Q, 1, 0)); t(zero_semaphore(Q)); t(read_shared_memory(read_message)); t(spawn(argv[2], read_message)); t(release_semaphore(W, 1, 1)); t(acquire_semaphore(S, 1, 1)); t(zero_semaphore(S)); t(release_semaphore(S, 1, 1)); t(acquire_semaphore(W, 1, 1)); } } else if ((argc == 3) && !strcmp(argv[1], "wait")) { t(get_keys()); t(open_semaphore()); t(release_semaphore(S, 1, 1)); t(release_semaphore(Q, 1, 0)); t(zero_semaphore(Q)); t(read_shared_memory(read_message)); t(spawn(argv[2], read_message)); t(acquire_semaphore(S, 1, 1)); } else if ((argc == 3) && !strcmp(argv[1], "broadcast")) { t(get_keys()); t(open_semaphore()); t(acquire_semaphore(X, 1, 1)); t(zero_semaphore(W)); t(write_shared_memory(argv[2])); t(write_semaphore(Q, 0)); t(zero_semaphore(S)); t(release_semaphore(X, 1, 1)); } else return 2; return 0; fail: perror(argv0); return 1; } #undef t