/* * shared.c: Shared memory handling, and daemon launching * * Author: * Dick Porter (dick@ximian.com) * * (C) 2002-2006 Novell, Inc. */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #undef DEBUG static gchar *_wapi_shm_file (_wapi_shm_t type) { static gchar file[_POSIX_PATH_MAX]; gchar *name = NULL, *filename, *dir, *wapi_dir; gchar machine_name[256]; const gchar *fake_name; struct utsname ubuf; int ret; int len; ret = uname (&ubuf); if (ret == -1) { ubuf.machine[0] = '\0'; ubuf.sysname[0] = '\0'; } fake_name = g_getenv ("MONO_SHARED_HOSTNAME"); if (fake_name == NULL) { if (gethostname(machine_name, sizeof(machine_name)) != 0) machine_name[0] = '\0'; } else { len = MIN (strlen (fake_name), sizeof (machine_name) - 1); strncpy (machine_name, fake_name, len); machine_name [len] = '\0'; } switch (type) { case WAPI_SHM_DATA: name = g_strdup_printf ("shared_data-%s-%s-%s-%d-%d-%d", machine_name, ubuf.sysname, ubuf.machine, (int) sizeof(struct _WapiHandleShared), _WAPI_HANDLE_VERSION, 0); break; case WAPI_SHM_FILESHARE: name = g_strdup_printf ("shared_fileshare-%s-%s-%s-%d-%d-%d", machine_name, ubuf.sysname, ubuf.machine, (int) sizeof(struct _WapiFileShare), _WAPI_HANDLE_VERSION, 0); break; } /* I don't know how nfs affects mmap. If mmap() of files on * nfs mounts breaks, then there should be an option to set * the directory. */ wapi_dir = getenv ("MONO_SHARED_DIR"); if (wapi_dir == NULL) { filename = g_build_filename (g_get_home_dir (), ".wapi", name, NULL); } else { filename = g_build_filename (wapi_dir, ".wapi", name, NULL); } g_free (name); g_snprintf (file, _POSIX_PATH_MAX, "%s", filename); g_free (filename); /* No need to check if the dir already exists or check * mkdir() errors, because on any error the open() call will * report the problem. */ dir = g_path_get_dirname (file); mkdir (dir, 0755); g_free (dir); return(file); } static int _wapi_shm_file_open (const gchar *filename, guint32 wanted_size) { int fd; struct stat statbuf; int ret, tries = 0; gboolean created = FALSE; try_again: if (tries++ > 10) { /* Just give up */ return (-1); } else if (tries > 5) { /* Break out of a loop */ unlink (filename); } /* No O_CREAT yet, because we need to initialise the file if * we have to create it. */ fd = open (filename, O_RDWR, 0600); if (fd == -1 && errno == ENOENT) { /* OK, its up to us to create it. O_EXCL to avoid a * race condition where two processes can * simultaneously try and create the file */ fd = open (filename, O_CREAT|O_EXCL|O_RDWR, 0600); if (fd == -1 && errno == EEXIST) { /* It's possible that the file was created in * between finding it didn't exist, and trying * to create it. Just try opening it again */ goto try_again; } else if (fd == -1) { g_critical ("%s: shared file [%s] open error: %s", __func__, filename, g_strerror (errno)); return(-1); } else { /* We created the file, so we need to expand * the file. * * (wanted_size-1, because we're about to * write the other byte to actually expand the * file.) */ if (lseek (fd, wanted_size-1, SEEK_SET) == -1) { g_critical ("%s: shared file [%s] lseek error: %s", __func__, filename, g_strerror (errno)); close (fd); unlink (filename); return(-1); } do { ret = write (fd, "", 1); } while (ret == -1 && errno == EINTR); if (ret == -1) { g_critical ("%s: shared file [%s] write error: %s", __func__, filename, g_strerror (errno)); close (fd); unlink (filename); return(-1); } created = TRUE; /* The contents of the file is set to all * zero, because it is opened up with lseek, * so we don't need to do any more * initialisation here */ } } else if (fd == -1) { g_critical ("%s: shared file [%s] open error: %s", __func__, filename, g_strerror (errno)); return(-1); } /* Use stat to find the file size (instead of hard coding it) * because we can expand the file later if needed (for more * handles or scratch space.) */ if (fstat (fd, &statbuf) == -1) { g_critical ("%s: fstat error: %s", __func__, g_strerror (errno)); if (created == TRUE) { unlink (filename); } close (fd); return(-1); } if (statbuf.st_size < wanted_size) { close (fd); if (created == TRUE) { #ifdef HAVE_LARGE_FILE_SUPPORT /* Keep gcc quiet... */ g_critical ("%s: shared file [%s] is not big enough! (found %lld, need %d bytes)", __func__, filename, statbuf.st_size, wanted_size); #else g_critical ("%s: shared file [%s] is not big enough! (found %ld, need %d bytes)", __func__, filename, statbuf.st_size, wanted_size); #endif unlink (filename); return(-1); } else { /* We didn't create it, so just try opening it again */ _wapi_handle_spin (100); goto try_again; } } return(fd); } /* * _wapi_shm_attach: * @success: Was it a success * * Attach to the shared memory file or create it if it did not exist. * Returns the memory area the file was mmapped to. */ gpointer _wapi_shm_attach (_wapi_shm_t type) { gpointer shm_seg; int fd; struct stat statbuf; gchar *filename=_wapi_shm_file (type); guint32 size; switch(type) { case WAPI_SHM_DATA: size = sizeof(struct _WapiHandleSharedLayout); break; case WAPI_SHM_FILESHARE: size = sizeof(struct _WapiFileShareLayout); break; } fd = _wapi_shm_file_open (filename, size); if (fd == -1) { g_critical ("%s: shared file [%s] open error", __func__, filename); return(NULL); } if (fstat (fd, &statbuf)==-1) { g_critical ("%s: fstat error: %s", __func__, g_strerror (errno)); close (fd); return(NULL); } shm_seg = mmap (NULL, statbuf.st_size, PROT_READ|PROT_WRITE, MAP_SHARED, fd, 0); if (shm_seg == MAP_FAILED) { shm_seg = mmap (NULL, statbuf.st_size, PROT_READ|PROT_WRITE, MAP_PRIVATE, fd, 0); if (shm_seg == MAP_FAILED) { g_critical ("%s: mmap error: %s", __func__, g_strerror (errno)); close (fd); return(NULL); } } close (fd); return(shm_seg); } void _wapi_shm_semaphores_init () { key_t key; key_t oldkey; int thr_ret; struct _WapiHandleSharedLayout *tmp_shared; /* Yet more barmy API - this union is a well-defined parameter * in a syscall, yet I still have to define it here as it * doesn't appear in a header */ union semun { int val; struct semid_ds *buf; ushort *array; } defs; ushort def_vals[_WAPI_SHARED_SEM_COUNT]; int i; int retries = 0; for (i = 0; i < _WAPI_SHARED_SEM_COUNT; i++) { def_vals[i] = 1; } #ifdef NEXT_VERSION_INC /* Process count must start at '0' - the 1 for all the others * sets the semaphore to "unlocked" */ def_vals[_WAPI_SHARED_SEM_PROCESS_COUNT] = 0; #endif defs.array = def_vals; /* Temporarily attach the shared data so we can read the * semaphore key. We release this mapping and attach again * after getting the semaphores to avoid a race condition * where a terminating process can delete the shared files * between a new process attaching the file and getting access * to the semaphores (which increments the process count, * preventing destruction of the shared data...) */ tmp_shared = _wapi_shm_attach (WAPI_SHM_DATA); g_assert (tmp_shared != NULL); key = ftok (_wapi_shm_file (WAPI_SHM_DATA), 'M'); again: retries++; oldkey = tmp_shared->sem_key; if (oldkey == 0) { #ifdef DEBUG g_message ("%s: Creating with new key (0x%x)", __func__, key); #endif /* The while loop attempts to make some sense of the * bonkers 'think of a random number' method of * picking a key without collision with other * applications */ while ((_wapi_sem_id = semget (key, _WAPI_SHARED_SEM_COUNT, IPC_CREAT | IPC_EXCL | 0600)) == -1) { if (errno == ENOMEM) { g_critical ("%s: semget error: %s", __func__, g_strerror (errno)); } else if (errno == ENOSPC) { g_critical ("%s: semget error: %s. Try deleting some semaphores with ipcs and ipcrm", __func__, g_strerror (errno)); } else if (errno != EEXIST) { if (retries > 3) g_warning ("%s: semget error: %s key 0x%x - trying again", __func__, g_strerror (errno), key); } key++; #ifdef DEBUG g_message ("%s: Got (%s), trying with new key (0x%x)", __func__, g_strerror (errno), key); #endif } /* Got a semaphore array, so initialise it and install * the key into the shared memory */ if (semctl (_wapi_sem_id, 0, SETALL, defs) == -1) { if (retries > 3) g_warning ("%s: semctl init error: %s - trying again", __func__, g_strerror (errno)); /* Something went horribly wrong, so try * getting a new set from scratch */ semctl (_wapi_sem_id, 0, IPC_RMID); goto again; } if (InterlockedCompareExchange (&tmp_shared->sem_key, key, 0) != 0) { /* Someone else created one and installed the * key while we were working, so delete the * array we created and fall through to the * 'key already known' case. */ semctl (_wapi_sem_id, 0, IPC_RMID); oldkey = tmp_shared->sem_key; } else { /* We've installed this semaphore set's key into * the shared memory */ goto done; } } #ifdef DEBUG g_message ("%s: Trying with old key 0x%x", __func__, oldkey); #endif _wapi_sem_id = semget (oldkey, _WAPI_SHARED_SEM_COUNT, 0600); if (_wapi_sem_id == -1) { if (retries > 3) g_warning ("%s: semget error opening old key 0x%x (%s) - trying again", __func__, oldkey,g_strerror (errno)); /* Someone must have deleted the semaphore set, so * blow away the bad key and try again */ InterlockedCompareExchange (&tmp_shared->sem_key, 0, oldkey); goto again; } done: /* Increment the usage count of this semaphore set */ thr_ret = _wapi_shm_sem_lock (_WAPI_SHARED_SEM_PROCESS_COUNT_LOCK); g_assert (thr_ret == 0); #ifdef DEBUG g_message ("%s: Incrementing the process count (%d)", __func__, _wapi_getpid ()); #endif /* We only ever _unlock_ this semaphore, letting the kernel * restore (ie decrement) this unlock when this process exits. * We lock another semaphore around it so we can serialise * access when we're testing the value of this semaphore when * we exit cleanly, so we can delete the whole semaphore set. */ _wapi_shm_sem_unlock (_WAPI_SHARED_SEM_PROCESS_COUNT); #ifdef DEBUG g_message ("%s: Process count is now %d (%d)", __func__, semctl (_wapi_sem_id, _WAPI_SHARED_SEM_PROCESS_COUNT, GETVAL), _wapi_getpid ()); #endif _wapi_shm_sem_unlock (_WAPI_SHARED_SEM_PROCESS_COUNT_LOCK); munmap (tmp_shared, sizeof(struct _WapiHandleSharedLayout)); } void _wapi_shm_semaphores_remove (void) { int thr_ret; int proc_count; #ifdef DEBUG g_message ("%s: Checking process count (%d)", __func__, _wapi_getpid ()); #endif thr_ret = _wapi_shm_sem_lock (_WAPI_SHARED_SEM_PROCESS_COUNT_LOCK); g_assert (thr_ret == 0); proc_count = semctl (_wapi_sem_id, _WAPI_SHARED_SEM_PROCESS_COUNT, GETVAL); #ifdef NEXT_VERSION_INC g_assert (proc_count > 0); if (proc_count == 1) { #else /* Compatibility - the semaphore was initialised to '1' (which * normally means 'unlocked'. Instead of fixing that right * now, which would mean a shared file version increment, just * cope with the value starting too high for now. Fix this * next time I have to change the file version. */ g_assert (proc_count > 1); if (proc_count == 2) { #endif /* Just us, so blow away the semaphores and the shared * files */ #ifdef DEBUG g_message ("%s: Removing semaphores! (%d)", __func__, _wapi_getpid ()); #endif semctl (_wapi_sem_id, 0, IPC_RMID); unlink (_wapi_shm_file (WAPI_SHM_DATA)); unlink (_wapi_shm_file (WAPI_SHM_FILESHARE)); } else { /* "else" clause, because there's no point unlocking * the semaphore if we've just blown it away... */ _wapi_shm_sem_unlock (_WAPI_SHARED_SEM_PROCESS_COUNT_LOCK); } } int _wapi_shm_sem_lock (int sem) { struct sembuf ops; int ret; #ifdef DEBUG g_message ("%s: locking sem %d", __func__, sem); #endif ops.sem_num = sem; ops.sem_op = -1; ops.sem_flg = SEM_UNDO; retry: do { ret = semop (_wapi_sem_id, &ops, 1); } while (ret == -1 && errno == EINTR); if (ret == -1) { /* EINVAL covers the case when the semaphore was * deleted before we started the semop */ if (errno == EIDRM || errno == EINVAL) { /* Someone blew away this semaphore set, so * get a new one and try again */ #ifdef DEBUG g_message ("%s: Reinitialising the semaphores!", __func__); #endif _wapi_shm_semaphores_init (); goto retry; } /* Turn this into a pthreads-style return value */ ret = errno; } #ifdef DEBUG g_message ("%s: returning %d (%s)", __func__, ret, g_strerror (ret)); #endif return(ret); } int _wapi_shm_sem_trylock (int sem) { struct sembuf ops; int ret; #ifdef DEBUG g_message ("%s: trying to lock sem %d", __func__, sem); #endif ops.sem_num = sem; ops.sem_op = -1; ops.sem_flg = IPC_NOWAIT | SEM_UNDO; retry: do { ret = semop (_wapi_sem_id, &ops, 1); } while (ret == -1 && errno == EINTR); if (ret == -1) { /* EINVAL covers the case when the semaphore was * deleted before we started the semop */ if (errno == EIDRM || errno == EINVAL) { /* Someone blew away this semaphore set, so * get a new one and try again */ #ifdef DEBUG g_message ("%s: Reinitialising the semaphores!", __func__); #endif _wapi_shm_semaphores_init (); goto retry; } /* Turn this into a pthreads-style return value */ ret = errno; } if (ret == EAGAIN) { /* But pthreads uses this code instead */ ret = EBUSY; } #ifdef DEBUG g_message ("%s: returning %d (%s)", __func__, ret, g_strerror (ret)); #endif return(ret); } int _wapi_shm_sem_unlock (int sem) { struct sembuf ops; int ret; #ifdef DEBUG g_message ("%s: unlocking sem %d", __func__, sem); #endif ops.sem_num = sem; ops.sem_op = 1; ops.sem_flg = SEM_UNDO; retry: do { ret = semop (_wapi_sem_id, &ops, 1); } while (ret == -1 && errno == EINTR); if (ret == -1) { /* EINVAL covers the case when the semaphore was * deleted before we started the semop */ if (errno == EIDRM || errno == EINVAL) { /* Someone blew away this semaphore set, so * get a new one and try again (we can't just * assume that the semaphore is now unlocked) */ #ifdef DEBUG g_message ("%s: Reinitialising the semaphores!", __func__); #endif _wapi_shm_semaphores_init (); goto retry; } /* Turn this into a pthreads-style return value */ ret = errno; } #ifdef DEBUG g_message ("%s: returning %d (%s)", __func__, ret, g_strerror (ret)); #endif return(ret); }