/* $NetBSD: libdm-nbsd-iface.c,v 1.12 2018/11/24 11:27:37 mlelstv Exp $ */ /* * Copyright (C) 2001-2004 Sistina Software, Inc. All rights reserved. * Copyright (C) 2004-2007 Red Hat, Inc. All rights reserved. * Copyright (C) 2008 Adam Hamsik. All rights reserved. * * This file is part of the device-mapper userspace tools. * * This copyrighted material is made available to anyone wishing to use, * modify, copy, or redistribute it subject to the terms and conditions * of the GNU Lesser General Public License v.2.1. * * You should have received a copy of the GNU Lesser General Public License * along with this program; if not, write to the Free Software Foundation, * Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA */ #include "dmlib.h" #include "libdm-targets.h" #include "libdm-common.h" #include "libdm-netbsd.h" #include #include #include #include #include #include #include #include #include #include #ifdef RUMP_ACTION #include #include #endif /* * Ensure build compatibility. * The hard-coded versions here are the highest present * in the _cmd_data arrays. */ #if !((DM_VERSION_MAJOR == 1 && DM_VERSION_MINOR >= 0) || \ (DM_VERSION_MAJOR == 4 && DM_VERSION_MINOR >= 0)) #error The version of dm-ioctl.h included is incompatible. #endif /* dm major version no for running kernel */ static unsigned _dm_version_minor = 0; static unsigned _dm_version_patchlevel = 0; static int _control_fd = -1; static int _version_checked = 0; static int _version_ok = 1; static unsigned _ioctl_buffer_double_factor = 0; /* *INDENT-OFF* */ /* * XXX Remove this structure and write another own one * I don't understand why ioctl calls has different * names then dm task type */ static struct cmd_data _cmd_data_v4[] = { {"create", DM_DEV_CREATE, {4, 0, 0}}, {"reload", DM_TABLE_LOAD, {4, 0, 0}}, /* DM_DEVICE_RELOAD */ {"remove", DM_DEV_REMOVE, {4, 0, 0}}, {"remove_all", DM_REMOVE_ALL, {4, 0, 0}}, {"suspend", DM_DEV_SUSPEND, {4, 0, 0}}, {"resume", DM_DEV_SUSPEND, {4, 0, 0}}, {"info", DM_DEV_STATUS, {4, 0, 0}}, {"deps", DM_TABLE_DEPS, {4, 0, 0}}, /* DM_DEVICE_DEPS */ {"rename", DM_DEV_RENAME, {4, 0, 0}}, {"version", DM_VERSION, {4, 0, 0}}, {"status", DM_TABLE_STATUS, {4, 0, 0}}, {"table", DM_TABLE_STATUS, {4, 0, 0}}, /* DM_DEVICE_TABLE */ {"waitevent", DM_DEV_WAIT, {4, 0, 0}}, {"names", DM_LIST_DEVICES, {4, 0, 0}}, {"clear", DM_TABLE_CLEAR, {4, 0, 0}}, {"mknodes", DM_DEV_STATUS, {4, 0, 0}}, #ifdef DM_LIST_VERSIONS {"targets", DM_LIST_VERSIONS, {4, 1, 0}}, #endif #ifdef DM_TARGET_MSG {"message", DM_TARGET_MSG, {4, 2, 0}}, #endif #ifdef DM_DEV_SET_GEOMETRY {"setgeometry", DM_DEV_SET_GEOMETRY, {4, 6, 0}}, #endif }; /* *INDENT-ON* */ /* * In NetBSD we use sysctl to get kernel drivers info. control device * has predefined minor number 0 and major number = char major number * of dm driver. First slot is therefore ocupied with control device * and minor device starts from 1; */ static int _control_device_number(uint32_t *major, uint32_t *minor) { nbsd_get_dm_major(major, DM_CHAR_MAJOR); *minor = 0; return 1; } /* * Returns 1 if exists; 0 if it doesn't; -1 if it's wrong */ static int _control_exists(const char *control, uint32_t major, uint32_t minor) { struct stat buf; if (stat(control, &buf) < 0) { if (errno != ENOENT) log_sys_error("stat", control); return 0; } if (!S_ISCHR(buf.st_mode)) { log_verbose("%s: Wrong inode type", control); if (!unlink(control)) return 0; log_sys_error("unlink", control); return -1; } if (major && buf.st_rdev != MKDEV(major, minor)) { log_verbose("%s: Wrong device number: (%u, %u) instead of " "(%u, %u)", control, MAJOR(buf.st_mode), MINOR(buf.st_mode), major, minor); if (!unlink(control)) return 0; log_sys_error("unlink", control); return -1; } return 1; } static int _create_control(const char *control, uint32_t major, uint32_t minor) { int ret; mode_t old_umask; if (!major) return 0; old_umask = umask(DM_DEV_DIR_UMASK); ret = dm_create_dir(dm_dir()); umask(old_umask); if (!ret) return 0; log_verbose("Creating device %s (%u, %u)", control, major, minor); old_umask = umask(0); if (mknod(control, S_IFCHR | DM_CONTROL_DEVICE_MODE, MKDEV(major, minor)) < 0) { umask(old_umask); log_sys_error("mknod", control); return 0; } umask(old_umask); if (chown(control, DM_DEVICE_UID, DM_DEVICE_GID) == -1) { log_sys_error("chown", control); return 0; } return 1; } /* Check if major is device-mapper block device major number */ int dm_is_dm_major(uint32_t major) { uint32_t dm_major; nbsd_get_dm_major(&dm_major, DM_BLOCK_MAJOR); if (major == dm_major) return 1; return 0; } /* Open control device if doesn't exist create it. */ static int _open_control(void) { char control[PATH_MAX]; uint32_t major = 0, minor = 0; if (_control_fd != -1) return 1; #ifdef RUMP_ACTION rump_init(); #endif snprintf(control, sizeof(control), "%s/control", dm_dir()); if (!_control_device_number(&major, &minor)) log_error("Is device-mapper driver missing from kernel?"); if (!_control_exists(control, major, minor) && !_create_control(control, major, minor)) goto error; if ((_control_fd = open(control, O_RDWR)) < 0) { log_sys_error("open", control); goto error; } return 1; error: log_error("Failure to communicate with kernel device-mapper driver."); return 0; } /* * Destroy dm task structure there are some dynamically alocated values there. * name, uuid, head, tail list. */ void dm_task_destroy(struct dm_task *dmt) { struct target *t, *n; for (t = dmt->head; t; t = n) { n = t->next; dm_free(t->params); dm_free(t->type); dm_free(t); } if (dmt->dev_name) dm_free(dmt->dev_name); if (dmt->newname) dm_free(dmt->newname); if (dmt->message) dm_free(dmt->message); if (dmt->dmi.v4) dm_free(dmt->dmi.v4); if (dmt->uuid) dm_free(dmt->uuid); dm_free(dmt); } /* Get kernel driver version from dm_ioctl structure. */ int dm_task_get_driver_version(struct dm_task *dmt, char *version, size_t size) { unsigned *v; if (!dmt->dmi.v4) { version[0] = '\0'; return 0; } v = dmt->dmi.v4->version; snprintf(version, size, "%u.%u.%u", v[0], v[1], v[2]); _dm_version_minor = v[1]; _dm_version_patchlevel = v[2]; return 1; } /* Get kernel driver protocol version and comapre it with library version. */ static int _check_version(char *version, size_t size) { struct dm_task *task; int r; if (!(task = dm_task_create(DM_DEVICE_VERSION))) { log_error("Failed to get device-mapper version"); version[0] = '\0'; return 0; } r = dm_task_run(task); dm_task_get_driver_version(task, version, size); dm_task_destroy(task); return r; } /* * Find out device-mapper's major version number the first time * this is called and whether or not we support it. */ int dm_check_version(void) { char dmversion[64]; if (_version_checked) return _version_ok; _version_checked = 1; if (_check_version(dmversion, sizeof(dmversion))) return 1; return 0; } int dm_cookie_supported(void) { return (0); } /* Get next target(table description) from list pointed by dmt->head. */ void *dm_get_next_target(struct dm_task *dmt, void *next, uint64_t *start, uint64_t *length, char **target_type, char **params) { struct target *t = (struct target *) next; if (!t) t = dmt->head; if (!t) return NULL; *start = t->start; *length = t->length; *target_type = t->type; *params = t->params; return t->next; } /* Unmarshall the target info returned from a status call */ static int _unmarshal_status(struct dm_task *dmt, struct dm_ioctl *dmi) { char *outbuf = (char *) dmi + dmi->data_start; char *outptr = outbuf; uint32_t i; struct dm_target_spec *spec; for (i = 0; i < dmi->target_count; i++) { spec = (struct dm_target_spec *) outptr; if (!dm_task_add_target(dmt, spec->sector_start, spec->length, spec->target_type, outptr + sizeof(*spec))) { return 0; } outptr = outbuf + spec->next; } return 1; } static char * get_dev_name(dev_t dev) { static char * const dirs[2] = { _PATH_DEV, NULL }; static char d_buf[MAXPATHLEN]; FTS *ftsp; FTSENT *fe; char *name; if ((ftsp = fts_open(dirs, FTS_NOCHDIR | FTS_PHYSICAL, NULL)) == NULL) return NULL; name = NULL; while ((fe = fts_read(ftsp)) != NULL) { if (fe->fts_info != FTS_DEFAULT) continue; if (S_ISBLK(fe->fts_statp->st_mode)) { if (fe->fts_statp->st_rdev == dev) { strlcpy(d_buf, fe->fts_path, sizeof(d_buf)); name = d_buf; break; } } } fts_close(ftsp); return name; } /* * @dev_major is major number of char device * * I have to find it's block device number and lookup dev in * device database to find device path. * */ int dm_format_dev(char *buf, int bufsize, uint32_t dev_major, uint32_t dev_minor) { int r; uint32_t dm_major; int major; char *name; mode_t mode; dev_t dev; size_t val_len,i; struct kinfo_drivers *kd; major = -1; mode = 0; nbsd_get_dm_major(&dm_major, DM_BLOCK_MAJOR); if (bufsize < 8) return 0; if (sysctlbyname("kern.drivers",NULL,&val_len,NULL,0) < 0) { printf("sysctlbyname failed\n"); return 0; } if ((kd = malloc (val_len)) == NULL){ printf("malloc kd info error\n"); return 0; } if (sysctlbyname("kern.drivers", kd, &val_len, NULL, 0) < 0) { free(kd); printf("sysctlbyname failed kd\n"); return 0; } for (i = 0, val_len /= sizeof(*kd); i < val_len; i++){ if (kd[i].d_cmajor == dev_major) { major = kd[i].d_bmajor; break; } } if (major != -1) { dev = MKDEV(major,dev_minor); mode |= S_IFBLK; if ((name = devname(dev,mode)) == NULL) name = get_dev_name(dev); } else name = NULL; free(kd); if (name == NULL) r = snprintf(buf, (size_t) bufsize, "%d:%d", dev_major, dev_minor); else r = snprintf(buf, (size_t) bufsize, _PATH_DEV "%s", name); if (r < 0 || r > bufsize - 1) return 0; return 1; } /* Fill info from dm_ioctl structure. Look at DM_EXISTS_FLAG*/ int dm_task_get_info(struct dm_task *dmt, struct dm_info *info) { if (!dmt->dmi.v4) return 0; memset(info, 0, sizeof(*info)); info->exists = dmt->dmi.v4->flags & DM_EXISTS_FLAG ? 1 : 0; if (!info->exists) return 1; info->suspended = dmt->dmi.v4->flags & DM_SUSPEND_FLAG ? 1 : 0; info->read_only = dmt->dmi.v4->flags & DM_READONLY_FLAG ? 1 : 0; info->live_table = dmt->dmi.v4->flags & DM_ACTIVE_PRESENT_FLAG ? 1 : 0; info->inactive_table = dmt->dmi.v4->flags & DM_INACTIVE_PRESENT_FLAG ? 1 : 0; info->target_count = dmt->dmi.v4->target_count; info->open_count = dmt->dmi.v4->open_count; info->event_nr = dmt->dmi.v4->event_nr; nbsd_get_dm_major(&info->major, DM_BLOCK_MAJOR); /* get netbsd dm device major number */ info->minor = MINOR(dmt->dmi.v4->dev); return 1; } /* Unsupported on NetBSD */ uint32_t dm_task_get_read_ahead(const struct dm_task *dmt, uint32_t *read_ahead) { *read_ahead = DM_READ_AHEAD_NONE; return 1; } const char *dm_task_get_name(const struct dm_task *dmt) { return (dmt->dmi.v4->name); } const char *dm_task_get_uuid(const struct dm_task *dmt) { return (dmt->dmi.v4->uuid); } struct dm_deps *dm_task_get_deps(struct dm_task *dmt) { return (struct dm_deps *) (((void *) dmt->dmi.v4) + dmt->dmi.v4->data_start); } struct dm_names *dm_task_get_names(struct dm_task *dmt) { return (struct dm_names *) (((void *) dmt->dmi.v4) + dmt->dmi.v4->data_start); } struct dm_versions *dm_task_get_versions(struct dm_task *dmt) { return (struct dm_versions *) (((void *) dmt->dmi.v4) + dmt->dmi.v4->data_start); } int dm_task_set_ro(struct dm_task *dmt) { dmt->read_only = 1; return 1; } /* Unsupported on NetBSD */ int dm_task_set_read_ahead(struct dm_task *dmt, uint32_t read_ahead, uint32_t read_ahead_flags) { return 1; } int dm_task_suppress_identical_reload(struct dm_task *dmt) { dmt->suppress_identical_reload = 1; return 1; } int dm_task_set_newname(struct dm_task *dmt, const char *newname) { if (!(dmt->newname = dm_strdup(newname))) { log_error("dm_task_set_newname: strdup(%s) failed", newname); return 0; } return 1; } int dm_task_set_message(struct dm_task *dmt, const char *message) { if (!(dmt->message = dm_strdup(message))) { log_error("dm_task_set_message: strdup(%s) failed", message); return 0; } return 1; } int dm_task_set_sector(struct dm_task *dmt, uint64_t sector) { dmt->sector = sector; return 1; } /* Unsupported in NetBSD */ int dm_task_set_geometry(struct dm_task *dmt, const char *cylinders, const char *heads, const char *sectors, const char *start) { return 0; } int dm_task_no_flush(struct dm_task *dmt) { dmt->no_flush = 1; return 1; } int dm_task_no_open_count(struct dm_task *dmt) { dmt->no_open_count = 1; return 1; } int dm_task_skip_lockfs(struct dm_task *dmt) { dmt->skip_lockfs = 1; return 1; } int dm_task_query_inactive_table(struct dm_task *dmt) { dmt->query_inactive_table = 1; return 1; } int dm_task_set_event_nr(struct dm_task *dmt, uint32_t event_nr) { dmt->event_nr = event_nr; return 1; } /* Allocate one target(table description) entry. */ struct target *create_target(uint64_t start, uint64_t len, const char *type, const char *params) { struct target *t = dm_malloc(sizeof(*t)); if (!t) { log_error("create_target: malloc(%" PRIsize_t ") failed", sizeof(*t)); return NULL; } memset(t, 0, sizeof(*t)); if (!(t->params = dm_strdup(params))) { log_error("create_target: strdup(params) failed"); goto bad; } if (!(t->type = dm_strdup(type))) { log_error("create_target: strdup(type) failed"); goto bad; } t->start = start; t->length = len; return t; bad: dm_free(t->params); dm_free(t->type); dm_free(t); return NULL; } /* Parse given dm task structure to proplib dictionary. */ static int _flatten(struct dm_task *dmt, libdm_task_t task) { libdm_cmd_t cmd; libdm_table_t table; struct target *t; size_t len; char type[DM_MAX_TYPE_NAME]; uint32_t major, flags; int count = 0; flags = 0; cmd = libdm_cmd_create(); for (t = dmt->head; t; t = t->next) { strlcpy(type,t->type,DM_MAX_TYPE_NAME); table = libdm_table_create(); libdm_table_set_start(t->start, table); libdm_table_set_length(t->length, table); libdm_table_set_target(type, table); libdm_table_set_params(t->params, table); libdm_cmd_set_table(table, cmd); libdm_table_destroy(table); count++; } if (count && (dmt->sector || dmt->message)) { log_error("targets and message are incompatible"); return -1; } if (count && dmt->newname) { log_error("targets and newname are incompatible"); return -1; } if (count && dmt->geometry) { log_error("targets and geometry are incompatible"); return -1; } if (dmt->newname && (dmt->sector || dmt->message)) { log_error("message and newname are incompatible"); return -1; } if (dmt->newname && dmt->geometry) { log_error("geometry and newname are incompatible"); return -1; } if (dmt->geometry && (dmt->sector || dmt->message)) { log_error("geometry and message are incompatible"); return -1; } if (dmt->sector && !dmt->message) { log_error("message is required with sector"); return -1; } if (dmt->newname) len += strlen(dmt->newname) + 1; if (dmt->message) len += sizeof(struct dm_target_msg) + strlen(dmt->message) + 1; if (dmt->geometry) len += strlen(dmt->geometry) + 1; nbsd_get_dm_major(&major, DM_BLOCK_MAJOR); /* * Only devices with major which is equal to netbsd dm major * dm devices in NetBSD can't have more majors then one assigned to dm. */ if (dmt->major != major && dmt->major != -1) return -1; if (dmt->minor >= 0) { flags |= DM_PERSISTENT_DEV_FLAG; libdm_task_set_minor(dmt->minor, task); } /* Set values to dictionary. */ if (dmt->dev_name) libdm_task_set_name(dmt->dev_name, task); if (dmt->uuid) libdm_task_set_uuid(dmt->uuid, task); if (dmt->type == DM_DEVICE_SUSPEND) flags |= DM_SUSPEND_FLAG; if (dmt->no_flush) flags |= DM_NOFLUSH_FLAG; if (dmt->read_only) flags |= DM_READONLY_FLAG; if (dmt->skip_lockfs) flags |= DM_SKIP_LOCKFS_FLAG; if (dmt->query_inactive_table) { if (_dm_version_minor < 16) log_warn("WARNING: Inactive table query unsupported " "by kernel. It will use live table."); flags |= DM_QUERY_INACTIVE_TABLE_FLAG; } libdm_task_set_flags(task, flags); // prop_dictionary_set_uint32(dm_dict, DM_IOCTL_EVENT, dmt->event_nr); if (dmt->newname) libdm_dev_set_newname(dmt->newname, cmd); /* Add array for all COMMAND specific data. */ libdm_task_set_cmd(cmd, task); libdm_cmd_destroy(cmd); return 0; } static int _process_mapper_dir(struct dm_task *dmt) { struct dirent *dirent; DIR *d; const char *dir; int r = 1; dir = dm_dir(); if (!(d = opendir(dir))) { log_sys_error("opendir", dir); return 0; } while ((dirent = readdir(d))) { if (!strcmp(dirent->d_name, ".") || !strcmp(dirent->d_name, "..") || !strcmp(dirent->d_name, "control")) continue; dm_task_set_name(dmt, dirent->d_name); dm_task_run(dmt); } if (closedir(d)) log_sys_error("closedir", dir); return r; } /* Get list of all devices. */ static int _process_all_v4(struct dm_task *dmt) { struct dm_task *task; struct dm_names *names; unsigned next = 0; int r = 1; if (!(task = dm_task_create(DM_DEVICE_LIST))) return 0; if (!dm_task_run(task)) { r = 0; goto out; } if (!(names = dm_task_get_names(task))) { r = 0; goto out; } if (!names->dev) goto out; do { names = (void *) names + next; if (!dm_task_set_name(dmt, names->name)) { r = 0; goto out; } if (!dm_task_run(dmt)) r = 0; next = names->next; } while (next); out: dm_task_destroy(task); return r; } static int _mknodes_v4(struct dm_task *dmt) { (void) _process_mapper_dir(dmt); return _process_all_v4(dmt); } /* Create new device and load table to it. */ static int _create_and_load_v4(struct dm_task *dmt) { struct dm_task *task; int r; printf("create and load called \n"); /* Use new task struct to create the device */ if (!(task = dm_task_create(DM_DEVICE_CREATE))) { log_error("Failed to create device-mapper task struct"); return 0; } /* Copy across relevant fields */ if (dmt->dev_name && !dm_task_set_name(task, dmt->dev_name)) { dm_task_destroy(task); return 0; } if (dmt->uuid && !dm_task_set_uuid(task, dmt->uuid)) { dm_task_destroy(task); return 0; } task->major = dmt->major; task->minor = dmt->minor; task->uid = dmt->uid; task->gid = dmt->gid; task->mode = dmt->mode; r = dm_task_run(task); dm_task_destroy(task); if (!r) return r; /* Next load the table */ if (!(task = dm_task_create(DM_DEVICE_RELOAD))) { log_error("Failed to create device-mapper task struct"); return 0; } /* Copy across relevant fields */ if (dmt->dev_name && !dm_task_set_name(task, dmt->dev_name)) { dm_task_destroy(task); return 0; } task->read_only = dmt->read_only; task->head = dmt->head; task->tail = dmt->tail; r = dm_task_run(task); task->head = NULL; task->tail = NULL; dm_task_destroy(task); if (!r) goto revert; /* Use the original structure last so the info will be correct */ dmt->type = DM_DEVICE_RESUME; dm_free(dmt->uuid); dmt->uuid = NULL; r = dm_task_run(dmt); if (r) return r; revert: dmt->type = DM_DEVICE_REMOVE; dm_free(dmt->uuid); dmt->uuid = NULL; if (!dm_task_run(dmt)) log_error("Failed to revert device creation."); return r; } uint64_t dm_task_get_existing_table_size(struct dm_task *dmt) { return dmt->existing_table_size; } static int _reload_with_suppression_v4(struct dm_task *dmt) { struct dm_task *task; struct target *t1, *t2; int r; /* New task to get existing table information */ if (!(task = dm_task_create(DM_DEVICE_TABLE))) { log_error("Failed to create device-mapper task struct"); return 0; } /* Copy across relevant fields */ if (dmt->dev_name && !dm_task_set_name(task, dmt->dev_name)) { dm_task_destroy(task); return 0; } if (dmt->uuid && !dm_task_set_uuid(task, dmt->uuid)) { dm_task_destroy(task); return 0; } task->major = dmt->major; task->minor = dmt->minor; r = dm_task_run(task); if (!r) { dm_task_destroy(task); return r; } /* Store existing table size */ t2 = task->head; while (t2 && t2->next) t2 = t2->next; dmt->existing_table_size = t2 ? t2->start + t2->length : 0; if ((task->dmi.v4->flags & DM_READONLY_FLAG) ? 1 : 0 != dmt->read_only) goto no_match; t1 = dmt->head; t2 = task->head; while (t1 && t2) { while (t2->params[strlen(t2->params) - 1] == ' ') t2->params[strlen(t2->params) - 1] = '\0'; if ((t1->start != t2->start) || (t1->length != t2->length) || (strcmp(t1->type, t2->type)) || (strcmp(t1->params, t2->params))) goto no_match; t1 = t1->next; t2 = t2->next; } if (!t1 && !t2) { dmt->dmi.v4 = task->dmi.v4; task->dmi.v4 = NULL; dm_task_destroy(task); return 1; } no_match: dm_task_destroy(task); /* Now do the original reload */ dmt->suppress_identical_reload = 0; r = dm_task_run(dmt); return r; } /* * This function is heart of NetBSD libdevmapper-> device-mapper kernel protocol * It creates proplib_dictionary from dm task structure and sends it to NetBSD * kernel driver. After succesfull ioctl it create dmi structure from returned * proplib dictionary. This way I keep number of changes in NetBSD version of * libdevmapper as small as posible. */ static struct dm_ioctl *_do_dm_ioctl(struct dm_task *dmt, unsigned command) { struct dm_ioctl *dmi; libdm_task_t task; task = libdm_task_create(_cmd_data_v4[dmt->type].name); /* Parse dmi from libdevmapper to dictionary */ if (_flatten(dmt, task) < 0) goto bad; if (dmt->type == DM_DEVICE_TABLE) libdm_task_set_status_flag(task); libdm_task_set_exists_flag(task); log_very_verbose("Ioctl type %s --- flags %d",_cmd_data_v4[dmt->type].name, libdm_task_get_flags(task)); /* Send dictionary to kernel and wait for reply. */ if (libdm_task_run(task) != 0) { if (errno == ENOENT && ((dmt->type == DM_DEVICE_INFO) || (dmt->type == DM_DEVICE_MKNODES) || (dmt->type == DM_DEVICE_STATUS))) { /* * Linux version doesn't fail when ENOENT is returned * for nonexisting device after info, deps, mknodes call. * It returns dmi sent to kernel with DM_EXISTS_FLAG = 0; */ dmi = nbsd_dm_dict_to_dmi(task, _cmd_data_v4[dmt->type].cmd); libdm_task_del_exists_flag(task); libdm_task_destroy(task); goto out; } else { log_error("ioctl %s call failed with errno %d\n", _cmd_data_v4[dmt->type].name, errno); libdm_task_destroy(task); goto bad; } } /* Parse kernel dictionary to dmi structure and return it to libdevmapper. */ dmi = nbsd_dm_dict_to_dmi(task, _cmd_data_v4[dmt->type].cmd); libdm_task_destroy(task); out: return dmi; bad: return NULL; } /* Create new edvice nodes in mapper/ dir. */ void dm_task_update_nodes(void) { update_devs(); } /* Run dm command which is descirbed in dm_task structure. */ int dm_task_run(struct dm_task *dmt) { struct dm_ioctl *dmi; unsigned command; if ((unsigned) dmt->type >= (sizeof(_cmd_data_v4) / sizeof(*_cmd_data_v4))) { log_error("Internal error: unknown device-mapper task %d", dmt->type); return 0; } command = _cmd_data_v4[dmt->type].cmd; /* Old-style creation had a table supplied */ if (dmt->type == DM_DEVICE_CREATE && dmt->head) return _create_and_load_v4(dmt); if (dmt->type == DM_DEVICE_MKNODES && !dmt->dev_name && !dmt->uuid && dmt->major <= 0) return _mknodes_v4(dmt); if ((dmt->type == DM_DEVICE_RELOAD) && dmt->suppress_identical_reload) return _reload_with_suppression_v4(dmt); if (!_open_control()) return 0; if (!(dmi = _do_dm_ioctl(dmt, command))) return 0; switch (dmt->type) { case DM_DEVICE_CREATE: add_dev_node(dmt->dev_name, MAJOR(dmi->dev), MINOR(dmi->dev), dmt->uid, dmt->gid, dmt->mode, 0); break; case DM_DEVICE_REMOVE: /* FIXME Kernel needs to fill in dmi->name */ if (dmt->dev_name) rm_dev_node(dmt->dev_name, 0); break; case DM_DEVICE_RENAME: /* FIXME Kernel needs to fill in dmi->name */ if (dmt->dev_name) rename_dev_node(dmt->dev_name, dmt->newname, 0); break; case DM_DEVICE_RESUME: /* FIXME Kernel needs to fill in dmi->name */ set_dev_node_read_ahead(dmt->dev_name, dmt->read_ahead, dmt->read_ahead_flags); break; case DM_DEVICE_MKNODES: if (dmi->flags & DM_EXISTS_FLAG) add_dev_node(dmi->name, MAJOR(dmi->dev), MINOR(dmi->dev), dmt->uid, dmt->gid, dmt->mode, 0); else if (dmt->dev_name) rm_dev_node(dmt->dev_name, 0); break; case DM_DEVICE_STATUS: case DM_DEVICE_TABLE: case DM_DEVICE_WAITEVENT: if (!_unmarshal_status(dmt, dmi)) goto bad; break; } /* Was structure reused? */ if (dmt->dmi.v4) dm_free(dmt->dmi.v4); dmt->dmi.v4 = dmi; return 1; bad: dm_free(dmi); return 0; } void dm_lib_release(void) { if (_control_fd != -1) { close(_control_fd); _control_fd = -1; } update_devs(); } void dm_lib_exit(void) { dm_lib_release(); dm_dump_memory(); _version_ok = 1; _version_checked = 0; }