1 /*- 2 * Copyright (c) 2008 Yahoo!, Inc. 3 * All rights reserved. 4 * Written by: John Baldwin <jhb@FreeBSD.org> 5 * 6 * Redistribution and use in source and binary forms, with or without 7 * modification, are permitted provided that the following conditions 8 * are met: 9 * 1. Redistributions of source code must retain the above copyright 10 * notice, this list of conditions and the following disclaimer. 11 * 2. Redistributions in binary form must reproduce the above copyright 12 * notice, this list of conditions and the following disclaimer in the 13 * documentation and/or other materials provided with the distribution. 14 * 3. Neither the name of the author nor the names of any co-contributors 15 * may be used to endorse or promote products derived from this software 16 * without specific prior written permission. 17 * 18 * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND 19 * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE 20 * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE 21 * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE 22 * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL 23 * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS 24 * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) 25 * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT 26 * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY 27 * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF 28 * SUCH DAMAGE. 29 */ 30 31 #include <sys/cdefs.h> 32 __RCSID("$FreeBSD$"); 33 34 #include <sys/param.h> 35 #include <sys/errno.h> 36 #include <err.h> 37 #include <fcntl.h> 38 #include <libutil.h> 39 #include <paths.h> 40 #ifdef DEBUG 41 #include <stdint.h> 42 #endif 43 #include <stdio.h> 44 #include <stdlib.h> 45 #include <string.h> 46 #include <unistd.h> 47 #include "mptutil.h" 48 49 #ifdef DEBUG 50 static void dump_config(CONFIG_PAGE_RAID_VOL_0 *vol); 51 #endif 52 53 static long 54 dehumanize(const char *value) 55 { 56 char *vtp; 57 long iv; 58 59 if (value == NULL) 60 return (0); 61 iv = strtoq(value, &vtp, 0); 62 if (vtp == value || (vtp[0] != '\0' && vtp[1] != '\0')) { 63 return (0); 64 } 65 switch (vtp[0]) { 66 case 't': case 'T': 67 iv *= 1024; 68 case 'g': case 'G': 69 iv *= 1024; 70 case 'm': case 'M': 71 iv *= 1024; 72 case 'k': case 'K': 73 iv *= 1024; 74 case '\0': 75 break; 76 default: 77 return (0); 78 } 79 return (iv); 80 } 81 82 /* 83 * Lock the volume by opening its /dev device read/write. This will 84 * only work if nothing else has it opened (including mounts). We 85 * leak the fd on purpose since this application is not long-running. 86 */ 87 int 88 mpt_lock_volume(U8 VolumeBus, U8 VolumeID) 89 { 90 char path[MAXPATHLEN]; 91 struct mpt_query_disk qd; 92 int error, vfd; 93 94 error = mpt_query_disk(VolumeBus, VolumeID, &qd); 95 if (error == ENOENT) 96 /* 97 * This means there isn't a CAM device associated with 98 * the volume, and thus it is already implicitly 99 * locked, so just return. 100 */ 101 return (0); 102 if (error) { 103 warnc(error, "Unable to lookup volume device name"); 104 return (error); 105 } 106 snprintf(path, sizeof(path), "%s%s", _PATH_DEV, qd.devname); 107 vfd = open(path, O_RDWR); 108 if (vfd < 0) { 109 error = errno; 110 warn("Unable to lock volume %s", qd.devname); 111 return (error); 112 } 113 return (0); 114 } 115 116 static int 117 mpt_lock_physdisk(struct mpt_standalone_disk *disk) 118 { 119 char path[MAXPATHLEN]; 120 int dfd, error; 121 122 snprintf(path, sizeof(path), "%s%s", _PATH_DEV, disk->devname); 123 dfd = open(path, O_RDWR); 124 if (dfd < 0) { 125 error = errno; 126 warn("Unable to lock disk %s", disk->devname); 127 return (error); 128 } 129 return (0); 130 } 131 132 static int 133 mpt_lookup_standalone_disk(const char *name, struct mpt_standalone_disk *disks, 134 int ndisks, int *index) 135 { 136 char *cp; 137 long bus, id; 138 int i; 139 140 /* Check for a raw <bus>:<id> string. */ 141 bus = strtol(name, &cp, 0); 142 if (*cp == ':') { 143 id = strtol(cp + 1, &cp, 0); 144 if (*cp == '\0') { 145 if (bus < 0 || bus > 0xff || id < 0 || id > 0xff) { 146 return (EINVAL); 147 } 148 for (i = 0; i < ndisks; i++) { 149 if (disks[i].bus == (U8)bus && 150 disks[i].target == (U8)id) { 151 *index = i; 152 return (0); 153 } 154 } 155 return (ENOENT); 156 } 157 } 158 159 if (name[0] == 'd' && name[1] == 'a') { 160 for (i = 0; i < ndisks; i++) { 161 if (strcmp(name, disks[i].devname) == 0) { 162 *index = i; 163 return (0); 164 } 165 } 166 return (ENOENT); 167 } 168 169 return (EINVAL); 170 } 171 172 /* 173 * Mark a standalone disk as being a physical disk. 174 */ 175 static int 176 mpt_create_physdisk(int fd, struct mpt_standalone_disk *disk, U8 *PhysDiskNum) 177 { 178 CONFIG_PAGE_HEADER header; 179 CONFIG_PAGE_RAID_PHYS_DISK_0 *config_page; 180 int error; 181 U32 ActionData; 182 183 error = mpt_read_config_page_header(fd, MPI_CONFIG_PAGETYPE_RAID_PHYSDISK, 184 0, 0, &header, NULL); 185 if (error) 186 return (error); 187 if (header.PageVersion > MPI_RAIDPHYSDISKPAGE0_PAGEVERSION) { 188 warnx("Unsupported RAID physdisk page 0 version %d", 189 header.PageVersion); 190 return (EOPNOTSUPP); 191 } 192 config_page = calloc(1, sizeof(CONFIG_PAGE_RAID_PHYS_DISK_0)); 193 config_page->Header.PageType = MPI_CONFIG_PAGETYPE_RAID_PHYSDISK; 194 config_page->Header.PageNumber = 0; 195 config_page->Header.PageLength = sizeof(CONFIG_PAGE_RAID_PHYS_DISK_0) / 196 4; 197 config_page->PhysDiskIOC = 0; /* XXX */ 198 config_page->PhysDiskBus = disk->bus; 199 config_page->PhysDiskID = disk->target; 200 201 /* XXX: Enclosure info for PhysDiskSettings? */ 202 error = mpt_raid_action(fd, MPI_RAID_ACTION_CREATE_PHYSDISK, 0, 0, 0, 0, 203 config_page, sizeof(CONFIG_PAGE_RAID_PHYS_DISK_0), NULL, 204 &ActionData, sizeof(ActionData), NULL, NULL, 1); 205 if (error) 206 return (error); 207 *PhysDiskNum = ActionData & 0xff; 208 return (0); 209 } 210 211 static int 212 mpt_delete_physdisk(int fd, U8 PhysDiskNum) 213 { 214 215 return (mpt_raid_action(fd, MPI_RAID_ACTION_DELETE_PHYSDISK, 0, 0, 216 PhysDiskNum, 0, NULL, 0, NULL, NULL, 0, NULL, NULL, 0)); 217 } 218 219 /* 220 * MPT's firmware does not have a clear command. Instead, we 221 * implement it by deleting each array and disk by hand. 222 */ 223 static int 224 clear_config(int ac, char **av) 225 { 226 CONFIG_PAGE_IOC_2 *ioc2; 227 CONFIG_PAGE_IOC_2_RAID_VOL *vol; 228 CONFIG_PAGE_IOC_3 *ioc3; 229 IOC_3_PHYS_DISK *disk; 230 CONFIG_PAGE_IOC_5 *ioc5; 231 IOC_5_HOT_SPARE *spare; 232 int ch, error, fd, i; 233 234 fd = mpt_open(mpt_unit); 235 if (fd < 0) { 236 error = errno; 237 warn("mpt_open"); 238 return (error); 239 } 240 241 ioc2 = mpt_read_ioc_page(fd, 2, NULL); 242 if (ioc2 == NULL) { 243 error = errno; 244 warn("Failed to fetch volume list"); 245 return (error); 246 } 247 248 /* Lock all the volumes first. */ 249 vol = ioc2->RaidVolume; 250 for (i = 0; i < ioc2->NumActiveVolumes; vol++, i++) { 251 if (mpt_lock_volume(vol->VolumeBus, vol->VolumeID) < 0) { 252 warnx("Volume %s is busy and cannot be deleted", 253 mpt_volume_name(vol->VolumeBus, vol->VolumeID)); 254 return (EBUSY); 255 } 256 } 257 258 printf( 259 "Are you sure you wish to clear the configuration on mpt%u? [y/N] ", 260 mpt_unit); 261 ch = getchar(); 262 if (ch != 'y' && ch != 'Y') { 263 printf("\nAborting\n"); 264 return (0); 265 } 266 267 /* Delete all the volumes. */ 268 vol = ioc2->RaidVolume; 269 for (i = 0; i < ioc2->NumActiveVolumes; vol++, i++) { 270 error = mpt_raid_action(fd, MPI_RAID_ACTION_DELETE_VOLUME, 271 vol->VolumeBus, vol->VolumeID, 0, 272 MPI_RAID_ACTION_ADATA_DEL_PHYS_DISKS | 273 MPI_RAID_ACTION_ADATA_ZERO_LBA0, NULL, 0, NULL, NULL, 0, 274 NULL, NULL, 0); 275 if (error) 276 warnc(error, "Failed to delete volume %s", 277 mpt_volume_name(vol->VolumeBus, vol->VolumeID)); 278 } 279 free(ioc2); 280 281 /* Delete all the spares. */ 282 ioc5 = mpt_read_ioc_page(fd, 5, NULL); 283 if (ioc5 == NULL) 284 warn("Failed to fetch spare list"); 285 else { 286 spare = ioc5->HotSpare; 287 for (i = 0; i < ioc5->NumHotSpares; spare++, i++) 288 if (mpt_delete_physdisk(fd, spare->PhysDiskNum) < 0) 289 warn("Failed to delete physical disk %d", 290 spare->PhysDiskNum); 291 free(ioc5); 292 } 293 294 /* Delete any RAID physdisks that may be left. */ 295 ioc3 = mpt_read_ioc_page(fd, 3, NULL); 296 if (ioc3 == NULL) 297 warn("Failed to fetch drive list"); 298 else { 299 disk = ioc3->PhysDisk; 300 for (i = 0; i < ioc3->NumPhysDisks; disk++, i++) 301 if (mpt_delete_physdisk(fd, disk->PhysDiskNum) < 0) 302 warn("Failed to delete physical disk %d", 303 disk->PhysDiskNum); 304 free(ioc3); 305 } 306 307 printf("mpt%d: Configuration cleared\n", mpt_unit); 308 mpt_rescan_bus(-1, -1); 309 close(fd); 310 311 return (0); 312 } 313 MPT_COMMAND(top, clear, clear_config); 314 315 #define RT_RAID0 0 316 #define RT_RAID1 1 317 #define RT_RAID1E 2 318 319 static struct raid_type_entry { 320 const char *name; 321 int raid_type; 322 } raid_type_table[] = { 323 { "raid0", RT_RAID0 }, 324 { "raid-0", RT_RAID0 }, 325 { "raid1", RT_RAID1 }, 326 { "raid-1", RT_RAID1 }, 327 { "mirror", RT_RAID1 }, 328 { "raid1e", RT_RAID1E }, 329 { "raid-1e", RT_RAID1E }, 330 { NULL, 0 }, 331 }; 332 333 struct config_id_state { 334 struct mpt_standalone_disk *sdisks; 335 struct mpt_drive_list *list; 336 CONFIG_PAGE_IOC_2 *ioc2; 337 U8 target_id; 338 int nsdisks; 339 }; 340 341 struct drive_info { 342 CONFIG_PAGE_RAID_PHYS_DISK_0 *info; 343 struct mpt_standalone_disk *sdisk; 344 }; 345 346 struct volume_info { 347 int drive_count; 348 struct drive_info *drives; 349 }; 350 351 /* Parse a comma-separated list of drives for a volume. */ 352 static int 353 parse_volume(int fd, int raid_type, struct config_id_state *state, 354 char *volume_str, struct volume_info *info) 355 { 356 struct drive_info *dinfo; 357 U8 PhysDiskNum; 358 char *cp; 359 int count, error, i; 360 361 cp = volume_str; 362 for (count = 0; cp != NULL; count++) { 363 cp = strchr(cp, ','); 364 if (cp != NULL) { 365 cp++; 366 if (*cp == ',') { 367 warnx("Invalid drive list '%s'", volume_str); 368 return (EINVAL); 369 } 370 } 371 } 372 373 /* Validate the number of drives for this volume. */ 374 switch (raid_type) { 375 case RT_RAID0: 376 if (count < 2) { 377 warnx("RAID0 requires at least 2 drives in each " 378 "array"); 379 return (EINVAL); 380 } 381 break; 382 case RT_RAID1: 383 if (count != 2) { 384 warnx("RAID1 requires exactly 2 drives in each " 385 "array"); 386 return (EINVAL); 387 } 388 break; 389 case RT_RAID1E: 390 if (count < 3) { 391 warnx("RAID1E requires at least 3 drives in each " 392 "array"); 393 return (EINVAL); 394 } 395 break; 396 } 397 398 /* Validate each drive. */ 399 info->drives = calloc(count, sizeof(struct drive_info)); 400 info->drive_count = count; 401 for (dinfo = info->drives; (cp = strsep(&volume_str, ",")) != NULL; 402 dinfo++) { 403 /* If this drive is already a RAID phys just fetch the info. */ 404 error = mpt_lookup_drive(state->list, cp, &PhysDiskNum); 405 if (error == 0) { 406 dinfo->info = mpt_pd_info(fd, PhysDiskNum, NULL); 407 if (dinfo->info == NULL) 408 return (errno); 409 continue; 410 } 411 412 /* See if it is a standalone disk. */ 413 if (mpt_lookup_standalone_disk(cp, state->sdisks, 414 state->nsdisks, &i) < 0) { 415 error = errno; 416 warn("Unable to lookup drive %s", cp); 417 return (error); 418 } 419 dinfo->sdisk = &state->sdisks[i]; 420 421 /* Lock the disk, we will create phys disk pages later. */ 422 if (mpt_lock_physdisk(dinfo->sdisk) < 0) 423 return (errno); 424 } 425 426 return (0); 427 } 428 429 /* 430 * Add RAID physdisk pages for any standalone disks that a volume is 431 * going to use. 432 */ 433 static int 434 add_drives(int fd, struct volume_info *info, int verbose) 435 { 436 struct drive_info *dinfo; 437 U8 PhysDiskNum; 438 int error, i; 439 440 for (i = 0, dinfo = info->drives; i < info->drive_count; 441 i++, dinfo++) { 442 if (dinfo->info == NULL) { 443 if (mpt_create_physdisk(fd, dinfo->sdisk, 444 &PhysDiskNum) < 0) { 445 error = errno; 446 warn( 447 "Failed to create physical disk page for %s", 448 dinfo->sdisk->devname); 449 return (error); 450 } 451 if (verbose) 452 printf("Added drive %s with PhysDiskNum %u\n", 453 dinfo->sdisk->devname, PhysDiskNum); 454 455 dinfo->info = mpt_pd_info(fd, PhysDiskNum, NULL); 456 if (dinfo->info == NULL) 457 return (errno); 458 } 459 } 460 return (0); 461 } 462 463 /* 464 * Find the next free target ID assuming that 'target_id' is the last 465 * one used. 'target_id' should be 0xff for the initial test. 466 */ 467 static U8 468 find_next_volume(struct config_id_state *state) 469 { 470 CONFIG_PAGE_IOC_2_RAID_VOL *vol; 471 int i; 472 473 restart: 474 /* Assume the current one is used. */ 475 state->target_id++; 476 477 /* Search drives first. */ 478 for (i = 0; i < state->nsdisks; i++) 479 if (state->sdisks[i].target == state->target_id) 480 goto restart; 481 for (i = 0; i < state->list->ndrives; i++) 482 if (state->list->drives[i]->PhysDiskID == state->target_id) 483 goto restart; 484 485 /* Seach volumes second. */ 486 vol = state->ioc2->RaidVolume; 487 for (i = 0; i < state->ioc2->NumActiveVolumes; vol++, i++) 488 if (vol->VolumeID == state->target_id) 489 goto restart; 490 491 return (state->target_id); 492 } 493 494 /* Create a volume and populate it with drives. */ 495 static CONFIG_PAGE_RAID_VOL_0 * 496 build_volume(int fd, struct volume_info *info, int raid_type, long stripe_size, 497 struct config_id_state *state, int verbose) 498 { 499 CONFIG_PAGE_HEADER header; 500 CONFIG_PAGE_RAID_VOL_0 *vol; 501 RAID_VOL0_PHYS_DISK *rdisk; 502 struct drive_info *dinfo; 503 U32 MinLBA; 504 uint64_t MaxLBA; 505 size_t page_size; 506 int error, i; 507 508 error = mpt_read_config_page_header(fd, MPI_CONFIG_PAGETYPE_RAID_VOLUME, 509 0, 0, &header, NULL); 510 if (error) { 511 errno = error; 512 return (NULL); 513 } 514 if (header.PageVersion > MPI_RAIDVOLPAGE0_PAGEVERSION) { 515 warnx("Unsupported RAID volume page 0 version %d", 516 header.PageVersion); 517 errno = EOPNOTSUPP; 518 return (NULL); 519 } 520 page_size = sizeof(CONFIG_PAGE_RAID_VOL_0) + 521 sizeof(RAID_VOL0_PHYS_DISK) * (info->drive_count - 1); 522 vol = calloc(1, page_size); 523 if (vol == NULL) 524 return (NULL); 525 526 /* Header */ 527 vol->Header.PageType = MPI_CONFIG_PAGETYPE_RAID_VOLUME; 528 vol->Header.PageNumber = 0; 529 vol->Header.PageLength = page_size / 4; 530 531 /* Properties */ 532 vol->VolumeID = find_next_volume(state); 533 vol->VolumeBus = 0; 534 vol->VolumeIOC = 0; /* XXX */ 535 vol->VolumeStatus.Flags = MPI_RAIDVOL0_STATUS_FLAG_ENABLED; 536 vol->VolumeStatus.State = MPI_RAIDVOL0_STATUS_STATE_OPTIMAL; 537 vol->VolumeSettings.Settings = MPI_RAIDVOL0_SETTING_USE_DEFAULTS; 538 vol->VolumeSettings.HotSparePool = MPI_RAID_HOT_SPARE_POOL_0; 539 vol->NumPhysDisks = info->drive_count; 540 541 /* Find the smallest drive. */ 542 MinLBA = info->drives[0].info->MaxLBA; 543 for (i = 1; i < info->drive_count; i++) 544 if (info->drives[i].info->MaxLBA < MinLBA) 545 MinLBA = info->drives[i].info->MaxLBA; 546 547 /* 548 * Now chop off 512MB at the end to leave room for the 549 * metadata. The controller might only use 64MB, but we just 550 * chop off the max to be simple. 551 */ 552 MinLBA -= (512 * 1024 * 1024) / 512; 553 554 switch (raid_type) { 555 case RT_RAID0: 556 vol->VolumeType = MPI_RAID_VOL_TYPE_IS; 557 vol->StripeSize = stripe_size / 512; 558 MaxLBA = MinLBA * info->drive_count; 559 break; 560 case RT_RAID1: 561 vol->VolumeType = MPI_RAID_VOL_TYPE_IM; 562 MaxLBA = MinLBA * (info->drive_count / 2); 563 break; 564 case RT_RAID1E: 565 vol->VolumeType = MPI_RAID_VOL_TYPE_IME; 566 vol->StripeSize = stripe_size / 512; 567 MaxLBA = MinLBA * info->drive_count / 2; 568 break; 569 default: 570 /* Pacify gcc. */ 571 abort(); 572 } 573 574 /* 575 * If the controller doesn't support 64-bit addressing and the 576 * new volume is larger than 2^32 blocks, warn the user and 577 * truncate the volume. 578 */ 579 if (MaxLBA >> 32 != 0 && 580 !(state->ioc2->CapabilitiesFlags & 581 MPI_IOCPAGE2_CAP_FLAGS_RAID_64_BIT_ADDRESSING)) { 582 warnx( 583 "Controller does not support volumes > 2TB, truncating volume."); 584 MaxLBA = 0xffffffff; 585 } 586 vol->MaxLBA = MaxLBA; 587 vol->MaxLBAHigh = MaxLBA >> 32; 588 589 /* Populate drives. */ 590 for (i = 0, dinfo = info->drives, rdisk = vol->PhysDisk; 591 i < info->drive_count; i++, dinfo++, rdisk++) { 592 if (verbose) 593 printf("Adding drive %u (%u:%u) to volume %u:%u\n", 594 dinfo->info->PhysDiskNum, dinfo->info->PhysDiskBus, 595 dinfo->info->PhysDiskID, vol->VolumeBus, 596 vol->VolumeID); 597 if (raid_type == RT_RAID1) { 598 if (i == 0) 599 rdisk->PhysDiskMap = 600 MPI_RAIDVOL0_PHYSDISK_PRIMARY; 601 else 602 rdisk->PhysDiskMap = 603 MPI_RAIDVOL0_PHYSDISK_SECONDARY; 604 } else 605 rdisk->PhysDiskMap = i; 606 rdisk->PhysDiskNum = dinfo->info->PhysDiskNum; 607 } 608 609 return (vol); 610 } 611 612 static int 613 create_volume(int ac, char **av) 614 { 615 CONFIG_PAGE_RAID_VOL_0 *vol; 616 struct config_id_state state; 617 struct volume_info *info; 618 long stripe_size; 619 int ch, error, fd, i, quick, raid_type, verbose; 620 #ifdef DEBUG 621 int dump; 622 #endif 623 624 if (ac < 2) { 625 warnx("create: volume type required"); 626 return (EINVAL); 627 } 628 629 fd = mpt_open(mpt_unit); 630 if (fd < 0) { 631 error = errno; 632 warn("mpt_open"); 633 return (error); 634 } 635 636 /* Lookup the RAID type first. */ 637 raid_type = -1; 638 for (i = 0; raid_type_table[i].name != NULL; i++) 639 if (strcasecmp(raid_type_table[i].name, av[1]) == 0) { 640 raid_type = raid_type_table[i].raid_type; 641 break; 642 } 643 644 if (raid_type == -1) { 645 warnx("Unknown or unsupported volume type %s", av[1]); 646 return (EINVAL); 647 } 648 649 /* Parse any options. */ 650 optind = 2; 651 #ifdef DEBUG 652 dump = 0; 653 #endif 654 quick = 0; 655 verbose = 0; 656 stripe_size = 64 * 1024; 657 658 while ((ch = getopt(ac, av, "dqs:v")) != -1) { 659 switch (ch) { 660 #ifdef DEBUG 661 case 'd': 662 dump = 1; 663 break; 664 #endif 665 case 'q': 666 quick = 1; 667 break; 668 case 's': 669 stripe_size = dehumanize(optarg); 670 if ((stripe_size < 512) || (!powerof2(stripe_size))) { 671 warnx("Invalid stripe size %s", optarg); 672 return (EINVAL); 673 } 674 break; 675 case 'v': 676 verbose = 1; 677 break; 678 case '?': 679 default: 680 return (EINVAL); 681 } 682 } 683 ac -= optind; 684 av += optind; 685 686 /* Fetch existing config data. */ 687 state.ioc2 = mpt_read_ioc_page(fd, 2, NULL); 688 if (state.ioc2 == NULL) { 689 error = errno; 690 warn("Failed to read volume list"); 691 return (error); 692 } 693 state.list = mpt_pd_list(fd); 694 if (state.list == NULL) 695 return (errno); 696 error = mpt_fetch_disks(fd, &state.nsdisks, &state.sdisks); 697 if (error) { 698 warn("Failed to fetch standalone disk list"); 699 return (error); 700 } 701 state.target_id = 0xff; 702 703 /* Parse the drive list. */ 704 if (ac != 1) { 705 warnx("Exactly one drive list is required"); 706 return (EINVAL); 707 } 708 info = calloc(1, sizeof(*info)); 709 if (info == NULL) 710 return (ENOMEM); 711 error = parse_volume(fd, raid_type, &state, av[0], info); 712 if (error) 713 return (error); 714 715 /* Create RAID physdisk pages for standalone disks. */ 716 error = add_drives(fd, info, verbose); 717 if (error) 718 return (error); 719 720 /* Build the volume. */ 721 vol = build_volume(fd, info, raid_type, stripe_size, &state, verbose); 722 if (vol == NULL) 723 return (errno); 724 725 #ifdef DEBUG 726 if (dump) { 727 dump_config(vol); 728 goto skip; 729 } 730 #endif 731 732 /* Send the new volume to the controller. */ 733 error = mpt_raid_action(fd, MPI_RAID_ACTION_CREATE_VOLUME, vol->VolumeBus, 734 vol->VolumeID, 0, quick ? MPI_RAID_ACTION_ADATA_DO_NOT_SYNC : 0, 735 vol, vol->Header.PageLength * 4, NULL, NULL, 0, NULL, NULL, 1); 736 if (error) { 737 errno = error; 738 warn("Failed to add volume"); 739 return (error); 740 } 741 742 #ifdef DEBUG 743 skip: 744 #endif 745 mpt_rescan_bus(vol->VolumeBus, vol->VolumeID); 746 747 /* Clean up. */ 748 free(vol); 749 free(info); 750 free(state.sdisks); 751 mpt_free_pd_list(state.list); 752 free(state.ioc2); 753 close(fd); 754 755 return (0); 756 } 757 MPT_COMMAND(top, create, create_volume); 758 759 static int 760 delete_volume(int ac, char **av) 761 { 762 U8 VolumeBus, VolumeID; 763 int error, fd; 764 765 if (ac != 2) { 766 warnx("delete: volume required"); 767 return (EINVAL); 768 } 769 770 fd = mpt_open(mpt_unit); 771 if (fd < 0) { 772 error = errno; 773 warn("mpt_open"); 774 return (error); 775 } 776 777 error = mpt_lookup_volume(fd, av[1], &VolumeBus, &VolumeID); 778 if (error) { 779 warnc(error, "Invalid volume %s", av[1]); 780 return (error); 781 } 782 783 if (mpt_lock_volume(VolumeBus, VolumeID) < 0) 784 return (errno); 785 786 error = mpt_raid_action(fd, MPI_RAID_ACTION_DELETE_VOLUME, VolumeBus, 787 VolumeID, 0, MPI_RAID_ACTION_ADATA_DEL_PHYS_DISKS | 788 MPI_RAID_ACTION_ADATA_ZERO_LBA0, NULL, 0, NULL, NULL, 0, NULL, 789 NULL, 0); 790 if (error) { 791 warnc(error, "Failed to delete volume"); 792 return (error); 793 } 794 795 mpt_rescan_bus(-1, -1); 796 close(fd); 797 798 return (0); 799 } 800 MPT_COMMAND(top, delete, delete_volume); 801 802 static int 803 find_volume_spare_pool(int fd, const char *name, int *pool) 804 { 805 CONFIG_PAGE_RAID_VOL_0 *info; 806 CONFIG_PAGE_IOC_2 *ioc2; 807 CONFIG_PAGE_IOC_2_RAID_VOL *vol; 808 U8 VolumeBus, VolumeID; 809 int error, i, j, new_pool, pool_count[7]; 810 811 error = mpt_lookup_volume(fd, name, &VolumeBus, &VolumeID); 812 if (error) { 813 warnc(error, "Invalid volume %s", name); 814 return (error); 815 } 816 817 info = mpt_vol_info(fd, VolumeBus, VolumeID, NULL); 818 if (info == NULL) 819 return (errno); 820 821 /* 822 * Check for an existing pool other than pool 0 (used for 823 * global spares). 824 */ 825 if ((info->VolumeSettings.HotSparePool & ~MPI_RAID_HOT_SPARE_POOL_0) != 826 0) { 827 *pool = 1 << (ffs(info->VolumeSettings.HotSparePool & 828 ~MPI_RAID_HOT_SPARE_POOL_0) - 1); 829 return (0); 830 } 831 free(info); 832 833 /* 834 * Try to find a free pool. First, figure out which pools are 835 * in use. 836 */ 837 ioc2 = mpt_read_ioc_page(fd, 2, NULL); 838 if (ioc2 == NULL) { 839 error = errno; 840 warn("Failed to fetch volume list"); 841 return (error); 842 } 843 bzero(pool_count, sizeof(pool_count)); 844 vol = ioc2->RaidVolume; 845 for (i = 0; i < ioc2->NumActiveVolumes; vol++, i++) { 846 info = mpt_vol_info(fd, vol->VolumeBus, vol->VolumeID, NULL); 847 if (info == NULL) 848 return (errno); 849 for (j = 0; j < 7; j++) 850 if (info->VolumeSettings.HotSparePool & (1 << (j + 1))) 851 pool_count[j]++; 852 free(info); 853 } 854 free(ioc2); 855 856 /* Find the pool with the lowest use count. */ 857 new_pool = 0; 858 for (i = 1; i < 7; i++) 859 if (pool_count[i] < pool_count[new_pool]) 860 new_pool = i; 861 new_pool++; 862 863 /* Add this pool to the volume. */ 864 info = mpt_vol_info(fd, VolumeBus, VolumeID, NULL); 865 if (info == NULL) 866 return (error); 867 info->VolumeSettings.HotSparePool |= (1 << new_pool); 868 error = mpt_raid_action(fd, MPI_RAID_ACTION_CHANGE_VOLUME_SETTINGS, 869 VolumeBus, VolumeID, 0, *(U32 *)&info->VolumeSettings, NULL, 0, 870 NULL, NULL, 0, NULL, NULL, 0); 871 if (error) { 872 warnx("Failed to add spare pool %d to %s", new_pool, 873 mpt_volume_name(VolumeBus, VolumeID)); 874 return (error); 875 } 876 free(info); 877 878 *pool = (1 << new_pool); 879 return (0); 880 } 881 882 static int 883 add_spare(int ac, char **av) 884 { 885 CONFIG_PAGE_RAID_PHYS_DISK_0 *info; 886 struct mpt_standalone_disk *sdisks; 887 struct mpt_drive_list *list; 888 U8 PhysDiskNum; 889 int error, fd, i, nsdisks, pool; 890 891 if (ac < 2) { 892 warnx("add spare: drive required"); 893 return (EINVAL); 894 } 895 if (ac > 3) { 896 warnx("add spare: extra arguments"); 897 return (EINVAL); 898 } 899 900 fd = mpt_open(mpt_unit); 901 if (fd < 0) { 902 error = errno; 903 warn("mpt_open"); 904 return (error); 905 } 906 907 if (ac == 3) { 908 error = find_volume_spare_pool(fd, av[2], &pool); 909 if (error) 910 return (error); 911 } else 912 pool = MPI_RAID_HOT_SPARE_POOL_0; 913 914 list = mpt_pd_list(fd); 915 if (list == NULL) 916 return (errno); 917 918 error = mpt_lookup_drive(list, av[1], &PhysDiskNum); 919 if (error) { 920 error = mpt_fetch_disks(fd, &nsdisks, &sdisks); 921 if (error != 0) { 922 warn("Failed to fetch standalone disk list"); 923 return (error); 924 } 925 926 if (mpt_lookup_standalone_disk(av[1], sdisks, nsdisks, &i) < 927 0) { 928 error = errno; 929 warn("Unable to lookup drive %s", av[1]); 930 return (error); 931 } 932 933 if (mpt_lock_physdisk(&sdisks[i]) < 0) 934 return (errno); 935 936 if (mpt_create_physdisk(fd, &sdisks[i], &PhysDiskNum) < 0) { 937 error = errno; 938 warn("Failed to create physical disk page"); 939 return (error); 940 } 941 free(sdisks); 942 } 943 mpt_free_pd_list(list); 944 945 info = mpt_pd_info(fd, PhysDiskNum, NULL); 946 if (info == NULL) { 947 error = errno; 948 warn("Failed to fetch drive info"); 949 return (error); 950 } 951 952 info->PhysDiskSettings.HotSparePool = pool; 953 error = mpt_raid_action(fd, MPI_RAID_ACTION_CHANGE_PHYSDISK_SETTINGS, 0, 954 0, PhysDiskNum, *(U32 *)&info->PhysDiskSettings, NULL, 0, NULL, 955 NULL, 0, NULL, NULL, 0); 956 if (error) { 957 warnc(error, "Failed to assign spare"); 958 return (error); 959 } 960 961 free(info); 962 close(fd); 963 964 return (0); 965 } 966 MPT_COMMAND(top, add, add_spare); 967 968 static int 969 remove_spare(int ac, char **av) 970 { 971 CONFIG_PAGE_RAID_PHYS_DISK_0 *info; 972 struct mpt_drive_list *list; 973 U8 PhysDiskNum; 974 int error, fd; 975 976 if (ac != 2) { 977 warnx("remove spare: drive required"); 978 return (EINVAL); 979 } 980 981 fd = mpt_open(mpt_unit); 982 if (fd < 0) { 983 error = errno; 984 warn("mpt_open"); 985 return (error); 986 } 987 988 list = mpt_pd_list(fd); 989 if (list == NULL) 990 return (errno); 991 992 error = mpt_lookup_drive(list, av[1], &PhysDiskNum); 993 if (error) { 994 warn("Failed to find drive %s", av[1]); 995 return (error); 996 } 997 mpt_free_pd_list(list); 998 999 1000 info = mpt_pd_info(fd, PhysDiskNum, NULL); 1001 if (info == NULL) { 1002 error = errno; 1003 warn("Failed to fetch drive info"); 1004 return (error); 1005 } 1006 1007 if (info->PhysDiskSettings.HotSparePool == 0) { 1008 warnx("Drive %u is not a hot spare", PhysDiskNum); 1009 return (EINVAL); 1010 } 1011 1012 if (mpt_delete_physdisk(fd, PhysDiskNum) < 0) { 1013 error = errno; 1014 warn("Failed to delete physical disk page"); 1015 return (error); 1016 } 1017 1018 mpt_rescan_bus(info->PhysDiskBus, info->PhysDiskID); 1019 free(info); 1020 close(fd); 1021 1022 return (0); 1023 } 1024 MPT_COMMAND(top, remove, remove_spare); 1025 1026 #ifdef DEBUG 1027 MPT_TABLE(top, pd); 1028 1029 static int 1030 pd_create(int ac, char **av) 1031 { 1032 struct mpt_standalone_disk *disks; 1033 int error, fd, i, ndisks; 1034 U8 PhysDiskNum; 1035 1036 if (ac != 2) { 1037 warnx("pd create: drive required"); 1038 return (EINVAL); 1039 } 1040 1041 fd = mpt_open(mpt_unit); 1042 if (fd < 0) { 1043 error = errno; 1044 warn("mpt_open"); 1045 return (error); 1046 } 1047 1048 error = mpt_fetch_disks(fd, &ndisks, &disks); 1049 if (error != 0) { 1050 warn("Failed to fetch standalone disk list"); 1051 return (error); 1052 } 1053 1054 if (mpt_lookup_standalone_disk(av[1], disks, ndisks, &i) < 0) { 1055 error = errno; 1056 warn("Unable to lookup drive"); 1057 return (error); 1058 } 1059 1060 if (mpt_lock_physdisk(&disks[i]) < 0) 1061 return (errno); 1062 1063 if (mpt_create_physdisk(fd, &disks[i], &PhysDiskNum) < 0) { 1064 error = errno; 1065 warn("Failed to create physical disk page"); 1066 return (error); 1067 } 1068 free(disks); 1069 1070 printf("Added drive %s with PhysDiskNum %u\n", av[1], PhysDiskNum); 1071 1072 close(fd); 1073 1074 return (0); 1075 } 1076 MPT_COMMAND(pd, create, pd_create); 1077 1078 static int 1079 pd_delete(int ac, char **av) 1080 { 1081 CONFIG_PAGE_RAID_PHYS_DISK_0 *info; 1082 struct mpt_drive_list *list; 1083 int error, fd; 1084 U8 PhysDiskNum; 1085 1086 if (ac != 2) { 1087 warnx("pd delete: drive required"); 1088 return (EINVAL); 1089 } 1090 1091 fd = mpt_open(mpt_unit); 1092 if (fd < 0) { 1093 error = errno; 1094 warn("mpt_open"); 1095 return (error); 1096 } 1097 1098 list = mpt_pd_list(fd); 1099 if (list == NULL) 1100 return (errno); 1101 1102 if (mpt_lookup_drive(list, av[1], &PhysDiskNum) < 0) { 1103 error = errno; 1104 warn("Failed to find drive %s", av[1]); 1105 return (error); 1106 } 1107 mpt_free_pd_list(list); 1108 1109 info = mpt_pd_info(fd, PhysDiskNum, NULL); 1110 if (info == NULL) { 1111 error = errno; 1112 warn("Failed to fetch drive info"); 1113 return (error); 1114 } 1115 1116 if (mpt_delete_physdisk(fd, PhysDiskNum) < 0) { 1117 error = errno; 1118 warn("Failed to delete physical disk page"); 1119 return (error); 1120 } 1121 1122 mpt_rescan_bus(info->PhysDiskBus, info->PhysDiskID); 1123 free(info); 1124 close(fd); 1125 1126 return (0); 1127 } 1128 MPT_COMMAND(pd, delete, pd_delete); 1129 1130 /* Display raw data about a volume config. */ 1131 static void 1132 dump_config(CONFIG_PAGE_RAID_VOL_0 *vol) 1133 { 1134 int i; 1135 1136 printf("Volume Configuration (Debug):\n"); 1137 printf( 1138 " Page Header: Type 0x%02x Number 0x%02x Length 0x%02x(%u) Version 0x%02x\n", 1139 vol->Header.PageType, vol->Header.PageNumber, 1140 vol->Header.PageLength, vol->Header.PageLength * 4, 1141 vol->Header.PageVersion); 1142 printf(" Address: %d:%d IOC %d\n", vol->VolumeBus, vol->VolumeID, 1143 vol->VolumeIOC); 1144 printf(" Type: %d (%s)\n", vol->VolumeType, 1145 mpt_raid_level(vol->VolumeType)); 1146 printf(" Status: %s (Flags 0x%02x)\n", 1147 mpt_volstate(vol->VolumeStatus.State), vol->VolumeStatus.Flags); 1148 printf(" Settings: 0x%04x (Spare Pools 0x%02x)\n", 1149 vol->VolumeSettings.Settings, vol->VolumeSettings.HotSparePool); 1150 printf(" MaxLBA: %ju\n", (uintmax_t)vol->MaxLBAHigh << 32 | 1151 vol->MaxLBA); 1152 printf(" Stripe Size: %ld\n", (long)vol->StripeSize * 512); 1153 printf(" %d Disks:\n", vol->NumPhysDisks); 1154 1155 for (i = 0; i < vol->NumPhysDisks; i++) 1156 printf(" Disk %d: Num 0x%02x Map 0x%02x\n", i, 1157 vol->PhysDisk[i].PhysDiskNum, vol->PhysDisk[i].PhysDiskMap); 1158 } 1159 1160 static int 1161 debug_config(int ac, char **av) 1162 { 1163 CONFIG_PAGE_RAID_VOL_0 *vol; 1164 U8 VolumeBus, VolumeID; 1165 int error, fd; 1166 1167 if (ac != 2) { 1168 warnx("debug: volume required"); 1169 return (EINVAL); 1170 } 1171 1172 fd = mpt_open(mpt_unit); 1173 if (fd < 0) { 1174 error = errno; 1175 warn("mpt_open"); 1176 return (error); 1177 } 1178 1179 error = mpt_lookup_volume(fd, av[1], &VolumeBus, &VolumeID); 1180 if (error) { 1181 warnc(error, "Invalid volume: %s", av[1]); 1182 return (error); 1183 } 1184 1185 vol = mpt_vol_info(fd, VolumeBus, VolumeID, NULL); 1186 if (vol == NULL) { 1187 error = errno; 1188 warn("Failed to get volume info"); 1189 return (error); 1190 } 1191 1192 dump_config(vol); 1193 free(vol); 1194 close(fd); 1195 1196 return (0); 1197 } 1198 MPT_COMMAND(top, debug, debug_config); 1199 #endif 1200