/* * mdadm - manage Linux "md" devices aka RAID arrays. * * Copyright (C) 2001-2013 Neil Brown * * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU 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 * * Author: Neil Brown * Email: * * Additions for bitmap and write-behind RAID options, Copyright (C) 2003-2004, * Paul Clements, SteelEye Technology, Inc. */ #include "mdadm.h" #include "md_p.h" #include "xmalloc.h" #include /** * set_bitmap_value() - set bitmap value. * @s: Shape. * @c: Context. * @val: value to set. * * Validate and set bitmap. Context is needed for setting nodes for clustered bitmap. */ static mdadm_status_t set_bitmap_value(struct shape *s, struct context *c, char *val) { if (s->btype != BitmapUnknown) { pr_err("--bitmap cannot be set twice. Second value: \"%s\".\n", val); return MDADM_STATUS_ERROR; } if (strcmp(optarg, STR_COMMON_NONE) == 0) { s->btype = BitmapNone; return MDADM_STATUS_SUCCESS; } if (strcmp(val, "internal") == 0) { s->btype = BitmapInternal; return MDADM_STATUS_SUCCESS; } if (strcmp(val, "clustered") == 0) { s->btype = BitmapCluster; /* Set the default number of cluster nodes * to 4 if not already set by user */ if (c->nodes < 1) c->nodes = 4; return MDADM_STATUS_SUCCESS; } if (strchr(val, '/')) { pr_err("Custom write-intent bitmap file option is not supported.\n"); return MDADM_STATUS_ERROR; } pr_err("--bitmap value must be 'internal', 'clustered' or 'none'\n"); pr_err("Current value is \"%s\"\n", val); return MDADM_STATUS_ERROR; } static int scan_assemble(struct supertype *ss, struct context *c, struct mddev_ident *ident); static int misc_scan(char devmode, struct context *c); static int stop_scan(int verbose); static int misc_list(struct mddev_dev *devlist, struct mddev_ident *ident, char *dump_directory, struct supertype *ss, struct context *c); const char Name[] = "mdadm"; int main(int argc, char *argv[]) { int mode = 0; int opt; int option_index; int rv; int i; unsigned long long array_size = 0; struct mddev_ident ident; char *configfile = NULL; int devmode = 0; struct mddev_dev *devlist = NULL; struct mddev_dev **devlistend = & devlist; struct mddev_dev *dv; mdu_array_info_t array; int devs_found = 0; int grow_continue = 0; struct context c = { .require_homehost = 1, }; struct shape s = { .journaldisks = 0, .level = UnSet, .layout = UnSet, .bitmap_chunk = UnSet, .consistency_policy = CONSISTENCY_POLICY_UNKNOWN, .data_offset = INVALID_SECTORS, .btype = BitmapUnknown, }; char sys_hostname[256]; char *mailaddr = NULL; char *program = NULL; int increments = 20; int daemonise = 0; char *pidfile = NULL; int oneshot = 0; int spare_sharing = 1; struct supertype *ss = NULL; enum flag_mode writemostly = FlagDefault; enum flag_mode failfast = FlagDefault; char *shortopt = short_opts; int dosyslog = 0; int rebuild_map = 0; char *remove_path = NULL; char *udev_filename = NULL; char *dump_directory = NULL; int print_help = 0; FILE *outf = NULL; int mdfd = -1; int locked = 0; srandom(time(0) ^ getpid()); if (get_linux_version() < 2006032) { pr_err("This version of mdadm does not support kernels older than 2.6.32\n"); exit(1); } ident_init(&ident); while ((option_index = -1), (opt = getopt_long(argc, argv, shortopt, long_options, &option_index)) != -1) { int newmode = mode; /* firstly, some mode-independent options */ switch(opt) { case HelpOptions: print_help = 2; continue; case 'h': print_help = 1; continue; case 'V': fputs(Version, stderr); exit(0); case 'v': c.verbose++; continue; case 'q': c.verbose--; continue; case 'b': if (mode == ASSEMBLE || mode == BUILD || mode == CREATE || mode == GROW || mode == INCREMENTAL || mode == MANAGE) break; /* b means bitmap */ case Brief: c.brief = 1; continue; case NoDevices: c.no_devices = 1; continue; case 'Y': c.export++; continue; case HomeHost: if (is_devname_ignore(optarg) == true) c.require_homehost = 0; else c.homehost = optarg; continue; case OffRootOpt: /* Silently ignore old option */ continue; case Prefer: if (c.prefer) free(c.prefer); if (asprintf(&c.prefer, "/%s/", optarg) <= 0) c.prefer = NULL; continue; case ':': case '?': fputs(Usage, stderr); exit(2); } /* second, figure out the mode. * Some options force the mode. Others * set the mode if it isn't already */ switch (opt) { case ManageOpt: newmode = MANAGE; shortopt = short_bitmap_opts; break; case 'a': case Add: case AddSpare: case AddJournal: case 'r': case Remove: case Replace: case With: case 'f': case Fail: case ReAdd: /* re-add */ case ClusterConfirm: if (!mode) { newmode = MANAGE; shortopt = short_bitmap_opts; } break; case 'A': newmode = ASSEMBLE; shortopt = short_bitmap_auto_opts; break; case 'B': newmode = BUILD; shortopt = short_bitmap_auto_opts; break; case 'C': newmode = CREATE; shortopt = short_bitmap_auto_opts; break; case 'F': newmode = MONITOR; shortopt = short_monitor_opts; break; case 'G': newmode = GROW; shortopt = short_bitmap_opts; break; case 'I': newmode = INCREMENTAL; shortopt = short_bitmap_auto_opts; break; case AutoDetect: newmode = AUTODETECT; break; case MiscOpt: case 'D': case 'E': case 'X': case 'Q': case ExamineBB: case Dump: case Restore: case Action: newmode = MISC; break; case 'R': case 'S': case 'o': case 'w': case 'W': case WaitOpt: case Waitclean: case DetailPlatform: case KillSubarray: case UpdateSubarray: case UdevRules: case KillOpt: if (!mode) newmode = MISC; break; case NoSharing: newmode = MONITOR; break; } if (mode && newmode == mode) { /* everybody happy ! */ } else if (mode && newmode != mode) { /* not allowed.. */ pr_err(""); if (option_index >= 0) fprintf(stderr, "--%s", long_options[option_index].name); else fprintf(stderr, "-%c", opt); fprintf(stderr, " would set mdadm mode to \"%s\", but it is already set to \"%s\".\n", map_num_s(modes, newmode), map_num_s(modes, mode)); exit(2); } else if (!mode && newmode) { mode = newmode; if (mode == MISC && devs_found) { pr_err("No action given for %s in --misc mode\n", devlist->devname); cont_err("Action options must come before device names\n"); exit(2); } } else { /* special case of -c --help */ if ((opt == 'c' || opt == ConfigFile) && (strncmp(optarg, "--h", 3) == 0 || strncmp(optarg, "-h", 2) == 0)) { fputs(Help_config, stdout); exit(0); } /* If first option is a device, don't force the mode yet */ if (opt == 1) { if (devs_found == 0) { dv = xmalloc(sizeof(*dv)); dv->devname = optarg; dv->disposition = devmode; dv->writemostly = writemostly; dv->failfast = failfast; dv->used = 0; dv->next = NULL; *devlistend = dv; devlistend = &dv->next; devs_found++; continue; } /* No mode yet, and this is the second device ... */ pr_err("An option must be given to set the mode before a second device\n" " (%s) is listed\n", optarg); exit(2); } if (option_index >= 0) pr_err("--%s", long_options[option_index].name); else pr_err("-%c", opt); fprintf(stderr, " does not set the mode, and so cannot be the first option.\n"); exit(2); } /* if we just set the mode, then done */ switch(opt) { case ManageOpt: case MiscOpt: case 'A': case 'B': case 'C': case 'F': case 'G': case 'I': case AutoDetect: continue; } if (opt == 1) { /* an undecorated option - must be a device name. */ if (devs_found > 0 && devmode == DetailPlatform) { pr_err("controller may only be specified once. %s ignored\n", optarg); continue; } if (devs_found > 0 && mode == MANAGE && !devmode) { pr_err("Must give one of -a/-r/-f for subsequent devices at %s\n", optarg); exit(2); } if (devs_found > 0 && mode == GROW && !devmode) { pr_err("Must give -a/--add for devices to add: %s\n", optarg); exit(2); } dv = xmalloc(sizeof(*dv)); dv->devname = optarg; dv->disposition = devmode; dv->writemostly = writemostly; dv->failfast = failfast; dv->used = 0; dv->next = NULL; *devlistend = dv; devlistend = &dv->next; devs_found++; continue; } /* We've got a mode, and opt is now something else which * could depend on the mode */ #define O(a,b) ((a<<16)|b) switch (O(mode,opt)) { case O(GROW,'c'): case O(GROW,ChunkSize): case O(CREATE,'c'): case O(CREATE,ChunkSize): case O(BUILD,'c'): /* chunk or rounding */ case O(BUILD,ChunkSize): /* chunk or rounding */ if (s.chunk) { pr_err("chunk/rounding may only be specified once. Second value is %s.\n", optarg); exit(2); } s.chunk = parse_size(optarg); if (s.chunk == INVALID_SECTORS || s.chunk < 8 || (s.chunk&1)) { pr_err("invalid chunk/rounding value: %s\n", optarg); exit(2); } /* Convert sectors to K */ s.chunk /= 2; continue; case O(INCREMENTAL, 'e'): case O(CREATE,'e'): case O(ASSEMBLE,'e'): case O(MISC,'e'): /* set metadata (superblock) information */ if (ss) { pr_err("metadata information already given\n"); exit(2); } for(i = 0; !ss && superlist[i]; i++) ss = superlist[i]->match_metadata_desc(optarg); if (!ss) { pr_err("unrecognised metadata identifier: %s\n", optarg); exit(2); } continue; case O(MANAGE,'W'): case O(MANAGE,WriteMostly): case O(BUILD,'W'): case O(BUILD,WriteMostly): case O(CREATE,'W'): case O(CREATE,WriteMostly): /* set write-mostly for following devices */ writemostly = FlagSet; continue; case O(MANAGE,'w'): /* clear write-mostly for following devices */ writemostly = FlagClear; continue; case O(MANAGE,FailFast): case O(CREATE,FailFast): failfast = FlagSet; continue; case O(MANAGE,NoFailFast): failfast = FlagClear; continue; case O(GROW,'z'): case O(CREATE,'z'): case O(BUILD,'z'): /* size */ if (s.size > 0) { pr_err("size may only be specified once. Second value is %s.\n", optarg); exit(2); } if (strcmp(optarg, "max") == 0) s.size = MAX_SIZE; else { s.size = parse_size(optarg); if (s.size == INVALID_SECTORS || s.size < 8) { pr_err("invalid size: %s\n", optarg); exit(2); } /* convert sectors to K */ s.size /= 2; } continue; case O(GROW,'Z'): /* array size */ if (array_size > 0) { pr_err("array-size may only be specified once. Second value is %s.\n", optarg); exit(2); } if (strcmp(optarg, "max") == 0) array_size = MAX_SIZE; else { array_size = parse_size(optarg); if (array_size == 0 || array_size == INVALID_SECTORS) { pr_err("invalid array size: %s\n", optarg); exit(2); } } continue; case O(CREATE,DataOffset): case O(GROW,DataOffset): if (s.data_offset != INVALID_SECTORS) { pr_err("data-offset may only be specified one. Second value is %s.\n", optarg); exit(2); } if (mode == CREATE && strcmp(optarg, "variable") == 0) s.data_offset = VARIABLE_OFFSET; else s.data_offset = parse_size(optarg); if (s.data_offset == INVALID_SECTORS) { pr_err("invalid data-offset: %s\n", optarg); exit(2); } continue; case O(GROW,'l'): case O(CREATE,'l'): case O(BUILD,'l'): /* set raid level*/ if (s.level != UnSet) { pr_err("raid level may only be set once. Second value is %s.\n", optarg); exit(2); } s.level = map_name(pers, optarg); if (s.level == UnSet) { pr_err("invalid raid level: %s\n", optarg); exit(2); } if (s.level != 0 && s.level != LEVEL_LINEAR && s.level != 1 && s.level != LEVEL_MULTIPATH && s.level != LEVEL_FAULTY && s.level != 10 && mode == BUILD) { pr_err("Raid level %s not permitted with --build.\n", optarg); exit(2); } if (s.sparedisks > 0 && s.level < 1 && s.level >= -1) { pr_err("raid level %s is incompatible with spare-devices setting.\n", optarg); exit(2); } ident.level = s.level; continue; case O(GROW, 'p'): /* new layout */ case O(GROW, Layout): if (s.layout_str) { pr_err("layout may only be sent once. Second value was %s\n", optarg); exit(2); } s.layout_str = optarg; /* 'Grow' will parse the value */ continue; case O(CREATE,'p'): /* raid5 layout */ case O(CREATE,Layout): case O(BUILD,'p'): /* faulty layout */ case O(BUILD,Layout): if (s.layout != UnSet) { pr_err("layout may only be sent once. Second value was %s\n", optarg); exit(2); } switch(s.level) { default: pr_err("layout not meaningful for %s arrays.\n", map_num_s(pers, s.level)); exit(2); case UnSet: pr_err("raid level must be given before layout.\n"); exit(2); case 0: s.layout = map_name(r0layout, optarg); if (s.layout == UnSet) { pr_err("layout %s not understood for raid0.\n", optarg); exit(2); } break; case 5: s.layout = map_name(r5layout, optarg); if (s.layout == UnSet) { pr_err("layout %s not understood for raid5.\n", optarg); exit(2); } break; case 6: s.layout = map_name(r6layout, optarg); if (s.layout == UnSet) { pr_err("layout %s not understood for raid6.\n", optarg); exit(2); } break; case 10: s.layout = parse_layout_10(optarg); if (s.layout < 0) { pr_err("layout for raid10 must be 'nNN', 'oNN' or 'fNN' where NN is a number, not %s\n", optarg); exit(2); } break; case LEVEL_FAULTY: /* Faulty * modeNNN */ s.layout = parse_layout_faulty(optarg); if (s.layout == -1) { pr_err("layout %s not understood for faulty.\n", optarg); exit(2); } break; } continue; case O(CREATE,AssumeClean): case O(BUILD,AssumeClean): /* assume clean */ case O(GROW,AssumeClean): s.assume_clean = 1; continue; case O(CREATE, WriteZeroes): s.write_zeroes = 1; continue; case O(GROW,'n'): case O(CREATE,'n'): case O(BUILD,'n'): /* number of raid disks */ if (s.raiddisks) { pr_err("raid-devices set twice: %d and %s\n", s.raiddisks, optarg); exit(2); } if (parse_num(&s.raiddisks, optarg) != 0 || s.raiddisks <= 0) { pr_err("invalid number of raid devices: %s\n", optarg); exit(2); } ident.raid_disks = s.raiddisks; continue; case O(ASSEMBLE, Nodes): case O(GROW, Nodes): case O(CREATE, Nodes): if (parse_num(&c.nodes, optarg) != 0 || c.nodes < 2) { pr_err("clustered array needs two nodes at least: %s\n", optarg); exit(2); } continue; case O(CREATE, ClusterName): case O(ASSEMBLE, ClusterName): c.homecluster = optarg; if (strlen(c.homecluster) > 64) { pr_err("Cluster name too big.\n"); exit(2); } continue; case O(CREATE,'x'): /* number of spare (eXtra) disks */ if (s.sparedisks) { pr_err("spare-devices set twice: %d and %s\n", s.sparedisks, optarg); exit(2); } if (s.level != UnSet && s.level <= 0 && s.level >= -1) { pr_err("spare-devices setting is incompatible with raid level %d\n", s.level); exit(2); } if (parse_num(&s.sparedisks, optarg) != 0 || s.sparedisks < 0) { pr_err("invalid number of spare-devices: %s\n", optarg); exit(2); } continue; case O(CREATE,'a'): case O(CREATE,Auto): case O(BUILD,'a'): case O(BUILD,Auto): case O(INCREMENTAL,'a'): case O(INCREMENTAL,Auto): case O(ASSEMBLE,'a'): case O(ASSEMBLE, Auto): /* auto-creation of device node - deprecated */ pr_info("--auto is deprecated and will be removed in future releases.\n"); continue; case O(BUILD,'f'): /* force honouring '-n 1' */ case O(BUILD,Force): /* force honouring '-n 1' */ case O(GROW,'f'): /* ditto */ case O(GROW,Force): /* ditto */ case O(CREATE,'f'): /* force honouring of device list */ case O(CREATE,Force): /* force honouring of device list */ case O(ASSEMBLE,'f'): /* force assembly */ case O(ASSEMBLE,Force): /* force assembly */ case O(MISC,'f'): /* force zero */ case O(MISC,Force): /* force zero */ case O(MANAGE,Force): /* add device which is too large */ c.force = 1; continue; /* now for the Assemble options */ case O(ASSEMBLE, FreezeReshape): /* Freeze reshape during * initrd phase */ case O(INCREMENTAL, FreezeReshape): c.freeze_reshape = 1; continue; case O(CREATE,'u'): /* uuid of array */ case O(ASSEMBLE,'u'): /* uuid of array */ if (ident.uuid_set) { pr_err("uuid cannot be set twice. Second value %s.\n", optarg); exit(2); } if (parse_uuid(optarg, ident.uuid)) ident.uuid_set = 1; else { pr_err("Bad uuid: %s\n", optarg); exit(2); } continue; case O(CREATE,'N'): case O(ASSEMBLE,'N'): case O(MISC,'N'): if (mode == MISC && !c.subarray) { pr_err("-N/--name only valid with --update-subarray in misc mode\n"); exit(2); } if (ident_set_name(&ident, optarg) != MDADM_STATUS_SUCCESS) exit(2); continue; case O(ASSEMBLE,'m'): /* super-minor for array */ case O(ASSEMBLE,SuperMinor): if (ident.super_minor != UnSet) { pr_err("super-minor cannot be set twice. Second value: %s.\n", optarg); exit(2); } if (strcmp(optarg, "dev") == 0) ident.super_minor = -2; else if (parse_num(&ident.super_minor, optarg) != 0 || ident.super_minor < 0) { pr_err("Bad super-minor number: %s.\n", optarg); exit(2); } continue; case O(ASSEMBLE,'o'): case O(MANAGE,'o'): case O(CREATE,'o'): c.readonly = 1; continue; case O(ASSEMBLE,'U'): /* update the superblock */ case O(MISC,'U'): { enum update_opt print_mode = UOPT_HELP; const char *error_addon = "update option"; if (c.update) { pr_err("Can only update one aspect of superblock, both %s and %s given.\n", map_num(update_options, c.update), optarg); exit(2); } if (mode == MISC && !c.subarray) { pr_err("Only subarrays can be updated in misc mode\n"); exit(2); } c.update = map_name(update_options, optarg); if (devmode == UpdateSubarray) { print_mode = UOPT_SUBARRAY_ONLY; error_addon = "update-subarray option"; if (c.update > UOPT_SUBARRAY_ONLY && c.update < UOPT_HELP) c.update = UOPT_UNDEFINED; } switch (c.update) { case UOPT_UNDEFINED: pr_err("'--update=%s' is invalid %s. ", optarg, error_addon); outf = stderr; case UOPT_HELP: if (!outf) outf = stdout; fprint_update_options(outf, print_mode); exit(outf == stdout ? 0 : 2); case UOPT_BYTEORDER: if (ss) { pr_err("must not set metadata type with --update=byteorder.\n"); exit(2); } default: break; } continue; } case O(MANAGE,'U'): /* update=devicesize is allowed with --re-add */ if (devmode != 'A') { pr_err("--update in Manage mode only allowed with --re-add.\n"); exit(1); } if (c.update) { pr_err("Can only update one aspect of superblock, both %s and %s given.\n", map_num(update_options, c.update), optarg); exit(2); } c.update = map_name(update_options, optarg); if (c.update != UOPT_DEVICESIZE && c.update != UOPT_BBL && c.update != UOPT_NO_BBL && c.update != UOPT_FORCE_NO_BBL) { pr_err("only 'devicesize', 'bbl', 'no-bbl', and 'force-no-bbl' can be updated with --re-add\n"); exit(2); } continue; case O(INCREMENTAL,NoDegraded): pr_err("--no-degraded is deprecated in Incremental mode\n"); case O(ASSEMBLE,NoDegraded): /* --no-degraded */ c.runstop = -1; /* --stop isn't allowed for --assemble, * so we overload slightly */ continue; case O(ASSEMBLE,'c'): case O(ASSEMBLE,ConfigFile): case O(INCREMENTAL, 'c'): case O(INCREMENTAL, ConfigFile): case O(MISC, 'c'): case O(MISC, ConfigFile): case O(MONITOR,'c'): case O(MONITOR,ConfigFile): case O(CREATE,ConfigFile): if (configfile) { pr_err("configfile cannot be set twice. Second value is %s.\n", optarg); exit(2); } configfile = optarg; set_conffile(configfile); /* FIXME possibly check that config file exists. Even parse it */ continue; case O(ASSEMBLE,'s'): /* scan */ case O(MISC,'s'): case O(MONITOR,'s'): case O(INCREMENTAL,'s'): c.scan = 1; continue; case O(MONITOR,'m'): /* mail address */ case O(MONITOR,EMail): if (mailaddr) pr_err("only specify one mailaddress. %s ignored.\n", optarg); else mailaddr = optarg; continue; case O(MONITOR,'p'): /* alert program */ case O(MONITOR,ProgramOpt): /* alert program */ if (program) pr_err("only specify one alter program. %s ignored.\n", optarg); else program = optarg; continue; case O(MONITOR,'r'): /* rebuild increments */ case O(MONITOR,Increment): if (parse_num(&increments, optarg) != 0 || increments > 99 || increments < 1) { pr_err("please specify positive integer between 1 and 99 as rebuild increments.\n"); exit(2); } continue; case O(MONITOR,'d'): /* delay in seconds */ case O(GROW, 'd'): case O(BUILD,'d'): /* delay for bitmap updates */ case O(CREATE,'d'): if (c.delay) pr_err("only specify delay once. %s ignored.\n", optarg); else if (parse_num(&c.delay, optarg) != 0 || c.delay < 1) { pr_err("invalid delay: %s\n", optarg); exit(2); } continue; case O(MONITOR,'f'): /* daemonise */ case O(MONITOR,Fork): daemonise = 1; continue; case O(MONITOR,'i'): /* pid */ if (pidfile) pr_err("only specify one pid file. %s ignored.\n", optarg); else pidfile = optarg; continue; case O(MONITOR,'1'): /* oneshot */ oneshot = 1; spare_sharing = 0; continue; case O(MONITOR,'t'): /* test */ c.test = 1; continue; case O(MONITOR,'y'): /* log messages to syslog */ openlog("mdadm", LOG_PID, SYSLOG_FACILITY); dosyslog = 1; continue; case O(MONITOR, NoSharing): spare_sharing = 0; continue; /* now the general management options. Some are applicable * to other modes. None have arguments. */ case O(GROW,'a'): case O(GROW,Add): case O(MANAGE,'a'): case O(MANAGE,Add): /* add a drive */ devmode = 'a'; continue; case O(MANAGE,AddSpare): /* add drive - never re-add */ devmode = 'S'; continue; case O(MANAGE,AddJournal): /* add journal */ if (s.journaldisks && (s.level < 4 || s.level > 6)) { pr_err("--add-journal is only supported for RAID level 4/5/6.\n"); exit(2); } devmode = 'j'; continue; case O(MANAGE,ReAdd): devmode = 'A'; continue; case O(MANAGE,'r'): /* remove a drive */ case O(MANAGE,Remove): devmode = 'r'; continue; case O(MANAGE,'f'): /* set faulty */ case O(MANAGE,Fail): case O(INCREMENTAL,'f'): case O(INCREMENTAL,Remove): case O(INCREMENTAL,Fail): /* r for incremental is taken, use f * even though we will both fail and * remove the device */ devmode = 'f'; continue; case O(MANAGE, ClusterConfirm): devmode = 'c'; continue; case O(MANAGE,Replace): /* Mark these devices for replacement */ devmode = 'R'; continue; case O(MANAGE,With): /* These are the replacements to use */ if (devmode != 'R') { pr_err("--with must follow --replace\n"); exit(2); } devmode = 'W'; continue; case O(INCREMENTAL,'R'): case O(MANAGE,'R'): case O(ASSEMBLE,'R'): case O(BUILD,'R'): case O(CREATE,'R'): /* Run the array */ if (c.runstop < 0) { pr_err("Cannot both Stop and Run an array\n"); exit(2); } c.runstop = 1; continue; case O(MANAGE,'S'): if (c.runstop > 0) { pr_err("Cannot both Run and Stop an array\n"); exit(2); } c.runstop = -1; continue; case O(MANAGE,'t'): c.test = 1; continue; case O(MISC,'Q'): case O(MISC,'D'): case O(MISC,'E'): case O(MISC,KillOpt): case O(MISC,'R'): case O(MISC,'S'): case O(MISC,'X'): case O(MISC, ExamineBB): case O(MISC,'o'): case O(MISC,'w'): case O(MISC,'W'): case O(MISC, WaitOpt): case O(MISC, Waitclean): case O(MISC, DetailPlatform): case O(MISC, KillSubarray): case O(MISC, UpdateSubarray): case O(MISC, Dump): case O(MISC, Restore): case O(MISC ,Action): if (opt == KillSubarray || opt == UpdateSubarray) { if (c.subarray) { pr_err("subarray can only be specified once\n"); exit(2); } c.subarray = optarg; } if (opt == Action) { if (c.action) { pr_err("Only one --action can be specified\n"); exit(2); } if (strcmp(optarg, "idle") == 0 || strcmp(optarg, "frozen") == 0 || strcmp(optarg, "check") == 0 || strcmp(optarg, "repair") == 0) c.action = optarg; else { pr_err("action must be one of idle, frozen, check, repair\n"); exit(2); } } if (devmode && devmode != opt && (devmode == 'E' || (opt == 'E' && devmode != 'Q'))) { pr_err("--examine/-E cannot be given with "); if (devmode == 'E') { if (option_index >= 0) fprintf(stderr, "--%s\n", long_options[option_index].name); else fprintf(stderr, "-%c\n", opt); } else if (isalpha(devmode)) fprintf(stderr, "-%c\n", devmode); else fprintf(stderr, "previous option\n"); exit(2); } devmode = opt; if (opt == Dump || opt == Restore) { if (dump_directory != NULL) { pr_err("dump/restore directory specified twice: %s and %s\n", dump_directory, optarg); exit(2); } dump_directory = optarg; } continue; case O(MISC, UdevRules): if (devmode && devmode != opt) { pr_err("--udev-rules must be the only option.\n"); } else { if (udev_filename) pr_err("only specify one udev rule filename. %s ignored.\n", optarg); else udev_filename = optarg; } devmode = opt; continue; case O(MISC,'t'): c.test = 1; continue; case O(MISC, Sparc22): if (devmode != 'E') { pr_err("--sparc2.2 only allowed with --examine\n"); exit(2); } c.SparcAdjust = 1; continue; case O(ASSEMBLE,'b'): /* here we simply set the bitmap file */ case O(ASSEMBLE,Bitmap): if (optarg && (strcmp(optarg, "internal") == 0 || strcmp(optarg, "clustered")) == 0) { pr_err("no need to specify --bitmap when assembling" " arrays with internal or clustered bitmap\n"); continue; } pr_err("bitmap file is not supported %s\n", optarg); exit(2); case O(ASSEMBLE, BackupFile): case O(GROW, BackupFile): /* Specify a file into which grow might place a backup, * or from which assemble might recover a backup */ if (c.backup_file) { pr_err("backup file already specified, rejecting %s\n", optarg); exit(2); } c.backup_file = optarg; continue; case O(GROW, Continue): /* Continue interrupted grow */ grow_continue = 1; continue; case O(ASSEMBLE, InvalidBackup): /* Acknowledge that the backupfile is invalid, but ask * to continue anyway */ c.invalid_backup = 1; continue; case O(BUILD,'b'): case O(BUILD,Bitmap): case O(CREATE,'b'): case O(CREATE,Bitmap): /* here we create the bitmap */ case O(GROW,'b'): case O(GROW,Bitmap): if (set_bitmap_value(&s, &c, optarg)) exit(2); continue; case O(GROW,BitmapChunk): case O(BUILD,BitmapChunk): case O(CREATE,BitmapChunk): /* bitmap chunksize */ s.bitmap_chunk = parse_size(optarg); if (s.bitmap_chunk == 0 || s.bitmap_chunk == INVALID_SECTORS || s.bitmap_chunk & (s.bitmap_chunk - 1)) { pr_err("invalid bitmap chunksize: %s\n", optarg); exit(2); } s.bitmap_chunk = s.bitmap_chunk * 512; continue; case O(GROW, WriteBehind): case O(BUILD, WriteBehind): case O(CREATE, WriteBehind): s.write_behind = DEFAULT_MAX_WRITE_BEHIND; if (optarg && (parse_num(&s.write_behind, optarg) != 0 || s.write_behind < 0 || s.write_behind > 16383)) { pr_err("Invalid value for maximum outstanding write-behind writes: %s.\n\tMust be between 0 and 16383.\n", optarg); exit(2); } continue; case O(INCREMENTAL, 'r'): case O(INCREMENTAL, RebuildMapOpt): rebuild_map = 1; continue; case O(INCREMENTAL, IncrementalPath): remove_path = optarg; continue; case O(CREATE, WriteJournal): if (s.journaldisks) { pr_err("Please specify only one journal device for the array.\n"); pr_err("Ignoring --write-journal %s...\n", optarg); continue; } dv = xmalloc(sizeof(*dv)); dv->devname = optarg; dv->disposition = 'j'; /* WriteJournal */ dv->used = 0; dv->next = NULL; *devlistend = dv; devlistend = &dv->next; devs_found++; s.journaldisks = 1; continue; case O(CREATE, 'k'): case O(GROW, 'k'): s.consistency_policy = map_name(consistency_policies, optarg); if (s.consistency_policy < CONSISTENCY_POLICY_RESYNC) { pr_err("Invalid consistency policy: %s\n", optarg); exit(2); } continue; } /* We have now processed all the valid options. Anything else is * an error */ if (option_index > 0) pr_err(":option --%s not valid in %s mode\n", long_options[option_index].name, map_num_s(modes, mode)); else pr_err("option -%c not valid in %s mode\n", opt, map_num_s(modes, mode)); exit(2); } if (print_help) { char *help_text; if (print_help == 2) help_text = OptionHelp; else help_text = mode_help[mode]; if (help_text == NULL) help_text = Help; fputs(help_text,stdout); exit(0); } if (s.journaldisks) { if (s.level < 4 || s.level > 6) { pr_err("--write-journal is only supported for RAID level 4/5/6.\n"); exit(2); } if (s.consistency_policy != CONSISTENCY_POLICY_UNKNOWN && s.consistency_policy != CONSISTENCY_POLICY_JOURNAL) { pr_err("--write-journal is not supported with consistency policy: %s\n", map_num_s(consistency_policies, s.consistency_policy)); exit(2); } } if (mode == CREATE && s.consistency_policy != CONSISTENCY_POLICY_UNKNOWN) { if (s.level <= 0) { pr_err("--consistency-policy not meaningful with level %s.\n", map_num_s(pers, s.level)); exit(2); } else if (s.consistency_policy == CONSISTENCY_POLICY_JOURNAL && !s.journaldisks) { pr_err("--write-journal is required for consistency policy: %s\n", map_num_s(consistency_policies, s.consistency_policy)); exit(2); } else if (s.consistency_policy == CONSISTENCY_POLICY_PPL && s.level != 5) { pr_err("PPL consistency policy is only supported for RAID level 5.\n"); exit(2); } else if (s.consistency_policy == CONSISTENCY_POLICY_BITMAP && s.btype == BitmapNone) { pr_err("--bitmap is required for consistency policy: %s\n", map_num_s(consistency_policies, s.consistency_policy)); exit(2); } else if ((s.btype == BitmapInternal || s.btype == BitmapCluster) && s.consistency_policy != CONSISTENCY_POLICY_BITMAP && s.consistency_policy != CONSISTENCY_POLICY_JOURNAL) { pr_err("--bitmap is not compatible with consistency policy: %s\n", map_num_s(consistency_policies, s.consistency_policy)); exit(2); } } if (s.write_zeroes && !s.assume_clean) { pr_info("Disk zeroing requested, setting --assume-clean to skip resync\n"); s.assume_clean = 1; } if (!mode && devs_found) { mode = MISC; devmode = 'Q'; if (devlist->disposition == 0) devlist->disposition = devmode; } if (!mode) { fputs(Usage, stderr); exit(2); } /* Ok, got the option parsing out of the way * hopefully it's mostly right but there might be some stuff * missing * * That is mostly checked in the per-mode stuff but... * * For @,B,C and A without -s, the first device listed must be * an md device. We check that here and open it. */ if (mode == MANAGE || mode == BUILD || mode == CREATE || mode == GROW || (mode == ASSEMBLE && ! c.scan)) { struct stat stb; int ret; if (devs_found < 1) { pr_err("an md device must be given in this mode\n"); exit(2); } if (ident_set_devname(&ident, devlist->devname) != MDADM_STATUS_SUCCESS) exit(1); if (mode == MANAGE || mode == GROW) { mdfd = open_mddev(ident.devname, 1); if (mdfd < 0) exit(1); ret = fstat(mdfd, &stb); if (ret) { pr_err("fstat failed on %s.\n", ident.devname); exit(1); } } else { ret = stat(ident.devname, &stb); if (ident.super_minor == -2 && ret != 0) { pr_err("--super-minor=dev given, and listed device %s doesn't exist.\n", ident.devname); exit(1); } if (!ret && !stat_is_md_dev(&stb)) { pr_err("device %s exists but is not an md array.\n", ident.devname); exit(1); } } if (ident.super_minor == -2) ident.super_minor = minor(stb.st_rdev); } if (s.raiddisks) { if (s.raiddisks == 1 && !c.force && s.level != LEVEL_FAULTY) { pr_err("'1' is an unusual number of drives for an array, so it is probably\n" " a mistake. If you really mean it you will need to specify --force before\n" " setting the number of drives.\n"); exit(2); } } if (c.homehost == NULL && c.require_homehost) c.homehost = conf_get_homehost(&c.require_homehost); if (c.homehost == NULL || strcasecmp(c.homehost, "") == 0) { if (s_gethostname(sys_hostname, sizeof(sys_hostname)) == 0) { c.homehost = sys_hostname; } } if (c.homehost && (!c.homehost[0] || strcasecmp(c.homehost, "") == 0)) { c.homehost = NULL; c.require_homehost = 0; } rv = 0; set_hooks(); /* set hooks from libs */ if (c.homecluster == NULL && (c.nodes > 0)) { c.homecluster = conf_get_homecluster(); if (c.homecluster == NULL) rv = get_cluster_name(&c.homecluster); if (rv) { pr_err("The md can't get cluster name\n"); exit(1); } } if (c.update && c.update == UOPT_NODES && c.nodes == 0) { pr_err("Please specify nodes number with --nodes\n"); exit(1); } if (c.backup_file && s.data_offset != INVALID_SECTORS) { pr_err("--backup-file and --data-offset are incompatible\n"); exit(2); } if ((mode == MISC && devmode == 'E') || (mode == MONITOR && spare_sharing == 0)) /* Anyone may try this */; else if (geteuid() != 0) { pr_err("must be super-user to perform this action\n"); exit(1); } if (c.scan && c.verbose < 2) /* --scan implied --brief unless -vv */ c.brief = 1; if (mode == CREATE) { if (s.btype == BitmapCluster) { locked = cluster_get_dlmlock(); if (locked != 1) exit(1); } } else if (mode == MANAGE || mode == GROW || mode == INCREMENTAL) { if (!md_get_array_info(mdfd, &array) && (devmode != 'c')) { if (array.state & (1 << MD_SB_CLUSTERED)) { locked = cluster_get_dlmlock(); if (locked != 1) exit(1); } } } switch(mode) { case MANAGE: /* readonly, add/remove, readwrite, runstop */ if (c.readonly > 0) rv = Manage_ro(ident.devname, mdfd, c.readonly); if (!rv && devs_found > 1) rv = Manage_subdevs(ident.devname, mdfd, devlist->next, c.verbose, c.test, c.update, c.force); if (!rv && c.readonly < 0) rv = Manage_ro(ident.devname, mdfd, c.readonly); if (!rv && c.runstop > 0) rv = Manage_run(ident.devname, mdfd, &c); if (!rv && c.runstop < 0) rv = Manage_stop(ident.devname, mdfd, c.verbose, 0); break; case ASSEMBLE: if (!c.scan && c.runstop == -1) { pr_err("--no-degraded not meaningful without a --scan assembly.\n"); exit(1); } else if (devs_found == 1 && ident.uuid_set == 0 && ident.super_minor == UnSet && ident.name[0] == 0 && !c.scan) { /* Only a device has been given, so get details from config file */ struct mddev_ident *array_ident = conf_get_ident(ident.devname); if (array_ident == NULL) { pr_err("%s not identified in config file.\n", ident.devname); rv |= 1; if (mdfd >= 0) close(mdfd); } else { rv |= Assemble(ss, ident.devname, array_ident, NULL, &c); } } else if (!c.scan) rv = Assemble(ss, ident.devname, &ident, devlist->next, &c); else if (devs_found > 0) { if (c.update && devs_found > 1) { pr_err("can only update a single array at a time\n"); exit(1); } if (c.backup_file && devs_found > 1) { pr_err("can only assemble a single array when providing a backup file.\n"); exit(1); } for (dv = devlist; dv; dv = dv->next) { struct mddev_ident *array_ident = conf_get_ident(dv->devname); if (array_ident == NULL) { pr_err("%s not identified in config file.\n", dv->devname); rv |= 1; continue; } rv |= Assemble(ss, dv->devname, array_ident, NULL, &c); } } else { if (c.update) { pr_err("--update not meaningful with a --scan assembly.\n"); exit(1); } if (c.backup_file) { pr_err("--backup_file not meaningful with a --scan assembly.\n"); exit(1); } rv = scan_assemble(ss, &c, &ident); } break; case BUILD: if (c.delay == 0) c.delay = DEFAULT_BITMAP_DELAY; if (s.btype == BitmapUnknown) s.btype = BitmapNone; if (s.btype != BitmapNone) { pr_err("--build argument only compatible with --bitmap=none\n"); rv |= 1; break; } if (s.write_behind) { pr_err("write-behind mode requires a bitmap.\n"); rv = 1; break; } if (s.raiddisks == 0) { pr_err("no raid-devices specified.\n"); rv = 1; break; } rv = Build(&ident, devlist->next, &s, &c); break; case CREATE: if (c.delay == 0) c.delay = DEFAULT_BITMAP_DELAY; if (c.nodes) { if (s.btype != BitmapCluster) { pr_err("--nodes argument only compatible with --bitmap=clustered\n"); rv = 1; break; } if (s.level != 1 && s.level != 10) { pr_err("--bitmap=clustered is currently supported with raid1/10 only\n"); rv = 1; break; } if (s.level == 10 && !(is_near_layout_10(s.layout) || s.layout == UnSet)) { pr_err("only near layout is supported with clustered raid10\n"); rv = 1; break; } } if (s.write_behind && s.btype == BitmapNone) { pr_err("write-behind mode requires a bitmap.\n"); rv = 1; break; } if (s.raiddisks == 0) { pr_err("no raid-devices specified.\n"); rv = 1; break; } if (s.btype == BitmapUnknown) { if (c.runstop != 1 && s.level >= 1 && ask("To optimalize recovery speed, it is recommended to enable write-indent bitmap, do you want to enable it now?")) s.btype = BitmapInternal; else s.btype = BitmapNone; } rv = Create(ss, &ident, devs_found - 1, devlist->next, &s, &c); break; case MISC: if (devmode == 'E') { if (devlist == NULL && !c.scan) { pr_err("No devices to examine\n"); exit(2); } if (devlist == NULL) devlist = conf_get_devs(); if (devlist == NULL) { pr_err("No devices listed in %s\n", configfile?configfile:DefaultConfFile); exit(1); } rv = Examine(devlist, &c, ss); } else if (devmode == DetailPlatform) { rv = Detail_Platform(ss ? ss->ss : NULL, ss ? c.scan : 1, c.verbose, c.export, devlist ? devlist->devname : NULL); } else if (devlist == NULL) { if (devmode == 'S' && c.scan) rv = stop_scan(c.verbose); else if ((devmode == 'D' || devmode == Waitclean) && c.scan) rv = misc_scan(devmode, &c); else if (devmode == UdevRules) rv = Write_rules(udev_filename); else { pr_err("No devices given.\n"); exit(2); } } else rv = misc_list(devlist, &ident, dump_directory, ss, &c); break; case MONITOR: if (!devlist && !c.scan) { pr_err("Cannot monitor: need --scan or at least one device\n"); rv = 1; break; } if (pidfile && !daemonise) { pr_err("Cannot write a pid file when not in daemon mode\n"); rv = 1; break; } if (c.delay == 0) { c.delay = conf_get_monitor_delay(); if (!c.delay) c.delay = 60; } rv = Monitor(devlist, mailaddr, program, &c, daemonise, oneshot, dosyslog, pidfile, increments, spare_sharing); break; case GROW: if (array_size > 0) { /* alway impose array size first, independent of * anything else * Do not allow level or raid_disks changes at the * same time as that can be irreversibly destructive. */ struct mdinfo sra; int err; if (s.raiddisks || s.level != UnSet) { pr_err("cannot change array size in same operation as changing raiddisks or level.\n" " Change size first, then check that data is still intact.\n"); rv = 1; break; } if (sysfs_init(&sra, mdfd, NULL)) { rv = 1; break; } if (array_size == MAX_SIZE) err = sysfs_set_str(&sra, NULL, "array_size", "default"); else err = sysfs_set_num(&sra, NULL, "array_size", array_size / 2); if (err < 0) { if (errno == E2BIG) pr_err("--array-size setting is too large.\n"); else pr_err("current kernel does not support setting --array-size\n"); rv = 1; break; } } if (devs_found > 1 && s.raiddisks == 0 && s.level == UnSet) { /* must be '-a'. */ if (s.size > 0 || s.chunk || s.layout_str || s.btype != BitmapNone) { pr_err("--add cannot be used with other geometry changes in --grow mode\n"); rv = 1; break; } for (dv = devlist->next; dv; dv = dv->next) { rv = Grow_Add_device(ident.devname, mdfd, dv->devname); if (rv) break; } } else if (s.btype != BitmapUnknown) { if (s.size > 0 || s.raiddisks || s.chunk || s.layout_str || devs_found > 1) { pr_err("--bitmap changes cannot be used with other geometry changes in --grow mode\n"); rv = 1; break; } if (c.delay == 0) c.delay = DEFAULT_BITMAP_DELAY; rv = Grow_addbitmap(ident.devname, mdfd, &c, &s); } else if (grow_continue) rv = Grow_continue_command(ident.devname, mdfd, &c); else if (s.size > 0 || s.raiddisks || s.layout_str || s.chunk != 0 || s.level != UnSet || s.data_offset != INVALID_SECTORS) { rv = Grow_reshape(ident.devname, mdfd, devlist->next, &c, &s); } else if (s.consistency_policy != CONSISTENCY_POLICY_UNKNOWN) { rv = Grow_consistency_policy(ident.devname, mdfd, &c, &s); } else if (array_size == 0) pr_err("no changes to --grow\n"); break; case INCREMENTAL: if (rebuild_map) { RebuildMap(); } if (c.scan) { rv = 1; if (devlist) { pr_err("In --incremental mode, a device cannot be given with --scan.\n"); break; } if (c.runstop <= 0) { pr_err("--incremental --scan meaningless without --run.\n"); break; } if (devmode == 'f') { pr_err("--incremental --scan --fail not supported.\n"); break; } rv = IncrementalScan(&c, NULL); } if (!devlist) { if (!rebuild_map && !c.scan) { pr_err("--incremental requires a device.\n"); rv = 1; } break; } if (devmode == 'f') { if (devlist->next) { pr_err("'--incremental --fail' can only handle one device.\n"); rv = 1; break; } rv = Incremental_remove(devlist->devname, remove_path, c.verbose); } else rv = Incremental(devlist, &c, ss); break; case AUTODETECT: autodetect(); break; } if (ss) { ss->ss->free_super(ss); free(ss); } if (locked) cluster_release_dlmlock(); close_fd(&mdfd); exit(rv); } static int scan_assemble(struct supertype *ss, struct context *c, struct mddev_ident *ident) { struct mddev_ident *a, *array_list = conf_get_ident(NULL); struct mddev_dev *devlist = conf_get_devs(); struct map_ent *map = NULL; int cnt = 0; int rv = 0; int failures, successes; if (conf_verify_devnames(array_list)) { pr_err("Duplicate MD device names in conf file were found.\n"); return 1; } if (devlist == NULL) { pr_err("No devices listed in conf file were found.\n"); return 1; } for (a = array_list; a; a = a->next) a->assembled = 0; if (map_lock(&map)) pr_err("failed to get exclusive lock on mapfile\n"); do { failures = 0; successes = 0; rv = 0; for (a = array_list; a; a = a->next) { int r; if (a->assembled) continue; if (a->devname && is_devname_ignore(a->devname) == true) continue; r = Assemble(ss, a->devname, a, NULL, c); if (r == 0) { a->assembled = 1; successes++; } else failures++; rv |= r; cnt++; } } while (failures && successes); if (c->homehost && cnt == 0) { /* Maybe we can auto-assemble something. * Repeatedly call Assemble in auto-assemble mode * until it fails */ int rv2; int acnt; do { struct mddev_dev *devlist = conf_get_devs(); acnt = 0; do { rv2 = Assemble(ss, NULL, ident, devlist, c); if (rv2 == 0) { cnt++; acnt++; } } while (rv2 != 2); /* Incase there are stacked devices, we need to go around again */ } while (acnt); if (cnt == 0 && rv == 0) { pr_err("No arrays found in config file or automatically\n"); rv = 1; } else if (cnt) rv = 0; } else if (cnt == 0 && rv == 0) { pr_err("No arrays found in config file\n"); rv = 1; } map_unlock(&map); return rv; } static int misc_scan(char devmode, struct context *c) { /* apply --detail or --wait-clean to * all devices in /proc/mdstat */ struct mdstat_ent *ms = mdstat_read(0, 1); struct mdstat_ent *e; struct map_ent *map = NULL; int members; int rv = 0; for (members = 0; members <= 1; members++) { for (e = ms; e; e = e->next) { char *name = NULL; struct map_ent *me; struct stat stb; int member = e->metadata_version && strncmp(e->metadata_version, "external:/", 10) == 0; if (members != member) continue; me = map_by_devnm(&map, e->devnm); if (me && me->path && strcmp(me->path, "/unknown") != 0) name = me->path; if (name == NULL || stat(name, &stb) != 0) name = get_md_name(e->devnm); if (!name) { pr_err("cannot find device file for %s\n", e->devnm); continue; } if (devmode == 'D') rv |= Detail(name, c); else rv |= WaitClean(name, c->verbose); put_md_name(name); map_free(map); map = NULL; } } free_mdstat(ms); return rv; } static int stop_scan(int verbose) { /* apply --stop to all devices in /proc/mdstat */ /* Due to possible stacking of devices, repeat until * nothing more can be stopped */ int progress = 1, err; int last = 0; int rv = 0; do { struct mdstat_ent *ms = mdstat_read(0, 0); struct mdstat_ent *e; if (!progress) last = 1; progress = 0; err = 0; for (e = ms; e; e = e->next) { char *name = get_md_name(e->devnm); int mdfd; if (!name) { pr_err("cannot find device file for %s\n", e->devnm); continue; } mdfd = open_mddev(name, 1); if (mdfd >= 0) { if (Manage_stop(name, mdfd, verbose, !last)) err = 1; else progress = 1; close(mdfd); } put_md_name(name); } free_mdstat(ms); } while (!last && err); if (err) rv |= 1; return rv; } static int misc_list(struct mddev_dev *devlist, struct mddev_ident *ident, char *dump_directory, struct supertype *ss, struct context *c) { struct mddev_dev *dv; int rv = 0; for (dv = devlist; dv; dv = (rv & 16) ? NULL : dv->next) { int mdfd = -1; switch(dv->disposition) { case 'D': rv |= Detail(dv->devname, c); continue; case KillOpt: /* Zero superblock */ if (ss) rv |= Kill(dv->devname, ss, c->force, c->verbose,0); else { int v = c->verbose; do { rv |= Kill(dv->devname, NULL, c->force, v, 0); v = -1; } while (rv == 0); rv &= ~4; } continue; case 'Q': rv |= Query(dv->devname); continue; case 'X': rv |= ExamineBitmap(dv->devname, c->brief, ss); continue; case ExamineBB: rv |= ExamineBadblocks(dv->devname, c->brief, ss); continue; case 'W': case WaitOpt: rv |= Wait(dv->devname); continue; case Waitclean: rv |= WaitClean(dv->devname, c->verbose); continue; case KillSubarray: rv |= Kill_subarray(dv->devname, c->subarray, c->verbose); continue; case UpdateSubarray: if (!c->update) { pr_err("-U/--update must be specified with --update-subarray\n"); rv |= 1; continue; } rv |= Update_subarray(dv->devname, c->subarray, c->update, ident, c->verbose); continue; case Dump: rv |= Dump_metadata(dv->devname, dump_directory, c, ss); continue; case Restore: rv |= Restore_metadata(dv->devname, dump_directory, c, ss, (dv == devlist && dv->next == NULL)); continue; case Action: rv |= SetAction(dv->devname, c->action); continue; } if (dv->devname[0] != '/') mdfd = open_dev(dv->devname); if (dv->devname[0] == '/' || mdfd < 0) mdfd = open_mddev(dv->devname, 1); if (mdfd >= 0) { switch(dv->disposition) { case 'R': c->runstop = 1; rv |= Manage_run(dv->devname, mdfd, c); break; case 'S': if (c->scan) { pr_err("--stop not meaningful with both a --scan assembly and a device name.\n"); rv |= 1; break; } rv |= Manage_stop(dv->devname, mdfd, c->verbose, 0); break; case 'o': rv |= Manage_ro(dv->devname, mdfd, 1); break; case 'w': rv |= Manage_ro(dv->devname, mdfd, -1); break; } close(mdfd); } else rv |= 1; } return rv; } int SetAction(char *dev, char *action) { int fd = open(dev, O_RDONLY); struct mdinfo mdi; int retval; if (fd < 0) { pr_err("Couldn't open %s: %s\n", dev, strerror(errno)); return 1; } retval = sysfs_init(&mdi, fd, NULL); close(fd); if (retval) { pr_err("%s is no an md array\n", dev); return 1; } if (sysfs_set_str(&mdi, NULL, "sync_action", action) < 0) { pr_err("Count not set action for %s to %s: %s\n", dev, action, strerror(errno)); return 1; } return 0; }