1 /* 2 * CDDL HEADER START 3 * 4 * The contents of this file are subject to the terms of the 5 * Common Development and Distribution License (the "License"). 6 * You may not use this file except in compliance with the License. 7 * 8 * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE 9 * or http://www.opensolaris.org/os/licensing. 10 * See the License for the specific language governing permissions 11 * and limitations under the License. 12 * 13 * When distributing Covered Code, include this CDDL HEADER in each 14 * file and include the License file at usr/src/OPENSOLARIS.LICENSE. 15 * If applicable, add the following below this CDDL HEADER, with the 16 * fields enclosed by brackets "[]" replaced with your own identifying 17 * information: Portions Copyright [yyyy] [name of copyright owner] 18 * 19 * CDDL HEADER END 20 */ 21 /* 22 * Copyright 2016 Nexenta Systems, Inc. All rights reserved. 23 * Copyright 2016 Toomas Soome <tsoome@me.com> 24 * Copyright 2009 Sun Microsystems, Inc. All rights reserved. 25 * Use is subject to license terms. 26 */ 27 28 #include <devfsadm.h> 29 #include <stdio.h> 30 #include <strings.h> 31 #include <stdlib.h> 32 #include <limits.h> 33 #include <ctype.h> 34 #include <unistd.h> 35 #include <sys/int_fmtio.h> 36 #include <sys/stat.h> 37 #include <bsm/devalloc.h> 38 #include <sys/scsi/scsi_address.h> 39 #include <sys/libdevid.h> 40 #include <sys/lofi.h> 41 42 #define DISK_SUBPATH_MAX 100 43 #define RM_STALE 0x01 44 #define DISK_LINK_RE "^r?dsk/c[0-9]+(t[0-9A-F]+)?d[0-9]+(((s|p))[0-9]+)?$" 45 #define DISK_LINK_TO_UPPER(ch)\ 46 (((ch) >= 'a' && (ch) <= 'z') ? (ch - 'a' + 'A') : ch) 47 48 #define SLICE_SMI "s7" 49 #define SLICE_EFI "" 50 51 #define MN_SMI "h" 52 #define MN_EFI "wd" 53 #define ASCIIWWNSIZE 255 54 #if defined(__i386) || defined(__amd64) 55 /* 56 * The number of minor nodes per LUN is defined by the disk drivers. 57 * Currently it is set to 64. Refer CMLBUNIT_SHIFT (cmlb_impl.h) 58 */ 59 #define NUM_MINORS_PER_INSTANCE 64 60 #endif 61 62 63 extern int system_labeled; 64 65 static int disk_callback_chan(di_minor_t minor, di_node_t node); 66 static int disk_callback_nchan(di_minor_t minor, di_node_t node); 67 static int disk_callback_blkdev(di_minor_t minor, di_node_t node); 68 static int disk_callback_wwn(di_minor_t minor, di_node_t node); 69 static int disk_callback_xvmd(di_minor_t minor, di_node_t node); 70 static int disk_callback_fabric(di_minor_t minor, di_node_t node); 71 static int disk_callback_sas(di_minor_t minor, di_node_t node); 72 static void disk_common(di_minor_t minor, di_node_t node, char *disk, 73 int flags); 74 static char *diskctrl(di_node_t node, di_minor_t minor); 75 static int reserved_links_exist(di_node_t node, di_minor_t minor, int nflags); 76 static void disk_rm_lofi_all(char *file); 77 78 79 static devfsadm_create_t disk_cbt[] = { 80 { "disk", DDI_NT_BLOCK, NULL, 81 TYPE_EXACT, ILEVEL_0, disk_callback_nchan 82 }, 83 { "disk", DDI_NT_BLOCK_CHAN, NULL, 84 TYPE_EXACT, ILEVEL_0, disk_callback_chan 85 }, 86 { "disk", DDI_NT_BLOCK_BLKDEV, NULL, 87 TYPE_EXACT, ILEVEL_0, disk_callback_blkdev 88 }, 89 { "disk", DDI_NT_BLOCK_FABRIC, NULL, 90 TYPE_EXACT, ILEVEL_0, disk_callback_fabric 91 }, 92 { "disk", DDI_NT_BLOCK_WWN, NULL, 93 TYPE_EXACT, ILEVEL_0, disk_callback_wwn 94 }, 95 { "disk", DDI_NT_BLOCK_SAS, NULL, 96 TYPE_EXACT, ILEVEL_0, disk_callback_sas 97 }, 98 { "disk", DDI_NT_CD, NULL, 99 TYPE_EXACT, ILEVEL_0, disk_callback_nchan 100 }, 101 { "disk", DDI_NT_CD_CHAN, NULL, 102 TYPE_EXACT, ILEVEL_0, disk_callback_chan 103 }, 104 { "disk", DDI_NT_BLOCK_XVMD, NULL, 105 TYPE_EXACT, ILEVEL_0, disk_callback_xvmd 106 }, 107 { "disk", DDI_NT_CD_XVMD, NULL, 108 TYPE_EXACT, ILEVEL_0, disk_callback_xvmd 109 }, 110 }; 111 112 DEVFSADM_CREATE_INIT_V0(disk_cbt); 113 114 /* 115 * HOT auto cleanup of disks is done for lofi devices only. 116 */ 117 static devfsadm_remove_t disk_remove_cbt[] = { 118 { "disk", DISK_LINK_RE, RM_HOT | RM_POST | RM_ALWAYS, 119 ILEVEL_0, disk_rm_lofi_all 120 }, 121 { "disk", DISK_LINK_RE, RM_POST, 122 ILEVEL_0, devfsadm_rm_all 123 } 124 }; 125 126 DEVFSADM_REMOVE_INIT_V0(disk_remove_cbt); 127 128 static devlink_re_t disks_re_array[] = { 129 {"^r?dsk/c([0-9]+)", 1}, 130 {"^cfg/c([0-9]+)$", 1}, 131 {"^scsi/.+/c([0-9]+)", 1}, 132 {NULL} 133 }; 134 135 static char *disk_mid = "disk_mid"; 136 static char *modname = "disk_link"; 137 138 /* 139 * Check if link is from lofi by checking path from readlink(). 140 */ 141 static int 142 is_lofi_disk(char *file) 143 { 144 char buf[PATH_MAX + 1]; 145 char filepath[PATH_MAX]; 146 char *ptr; 147 ssize_t size; 148 149 size = snprintf(filepath, sizeof (filepath), "%s/dev/%s", 150 devfsadm_root_path(), file); 151 if (size > sizeof (filepath)) 152 return (0); 153 154 size = readlink(filepath, buf, sizeof (buf) - 1); 155 if (size == -1) 156 return (0); 157 buf[size] = '\0'; 158 ptr = strchr(buf, '@'); 159 if (ptr == NULL) 160 return (0); 161 ptr[1] = '\0'; 162 if (strcmp(buf, "../../devices/pseudo/lofi@") != 0) 163 return (0); 164 return (1); 165 } 166 167 /* 168 * Wrapper around devfsadm_rm_link() for lofi devices. 169 */ 170 static void disk_rm_lofi_all(char *file) 171 { 172 if (is_lofi_disk(file)) 173 devfsadm_rm_link(file); 174 } 175 176 int 177 minor_init() 178 { 179 devfsadm_print(disk_mid, 180 "%s: minor_init(): Creating disks reserved ID cache\n", 181 modname); 182 return (devfsadm_reserve_id_cache(disks_re_array, NULL)); 183 } 184 185 static int 186 disk_callback_chan(di_minor_t minor, di_node_t node) 187 { 188 char *addr; 189 char disk[23]; 190 char *driver; 191 uint_t targ = 0; 192 uint_t lun = 0; 193 194 driver = di_driver_name(node); 195 if (strcmp(driver, LOFI_DRIVER_NAME) != 0) { 196 addr = di_bus_addr(node); 197 (void) sscanf(addr, "%X,%X", &targ, &lun); 198 } else { 199 targ = di_instance(node); 200 } 201 202 (void) snprintf(disk, sizeof (disk), "t%dd%d", targ, lun); 203 disk_common(minor, node, disk, 0); 204 return (DEVFSADM_CONTINUE); 205 206 } 207 208 static int 209 disk_callback_nchan(di_minor_t minor, di_node_t node) 210 { 211 char *addr; 212 char disk[10]; 213 uint_t lun; 214 215 addr = di_bus_addr(node); 216 (void) sscanf(addr, "%X", &lun); 217 (void) sprintf(disk, "d%d", lun); 218 disk_common(minor, node, disk, 0); 219 return (DEVFSADM_CONTINUE); 220 221 } 222 223 static int 224 disk_callback_blkdev(di_minor_t minor, di_node_t node) 225 { 226 char *addr; 227 char disk[DISK_SUBPATH_MAX]; 228 uint64_t eui64; 229 uint_t lun = 0; 230 231 addr = di_bus_addr(node); 232 (void) sscanf(addr, "w%016"PRIx64",%X", &eui64, &lun); 233 (void) snprintf(disk, DISK_SUBPATH_MAX, "t%016"PRIX64"d%d", eui64, lun); 234 disk_common(minor, node, disk, RM_STALE); 235 return (DEVFSADM_CONTINUE); 236 } 237 238 static int 239 disk_callback_wwn(di_minor_t minor, di_node_t node) 240 { 241 char disk[10]; 242 int lun; 243 int targ; 244 int *intp; 245 246 if (di_prop_lookup_ints(DDI_DEV_T_ANY, node, SCSI_ADDR_PROP_TARGET, 247 &intp) <= 0) { 248 return (DEVFSADM_CONTINUE); 249 } 250 targ = *intp; 251 if (di_prop_lookup_ints(DDI_DEV_T_ANY, node, SCSI_ADDR_PROP_LUN, 252 &intp) <= 0) { 253 lun = 0; 254 } else { 255 lun = *intp; 256 } 257 (void) sprintf(disk, "t%dd%d", targ, lun); 258 259 disk_common(minor, node, disk, RM_STALE); 260 261 return (DEVFSADM_CONTINUE); 262 } 263 264 static int 265 disk_callback_fabric(di_minor_t minor, di_node_t node) 266 { 267 char disk[DISK_SUBPATH_MAX]; 268 int lun; 269 int count; 270 int *intp; 271 uchar_t *str; 272 uchar_t *wwn; 273 uchar_t ascii_wwn[ASCIIWWNSIZE]; 274 275 if (di_prop_lookup_strings(DDI_DEV_T_ANY, node, 276 "client-guid", (char **)&wwn) > 0) { 277 if (strlcpy((char *)ascii_wwn, (char *)wwn, 278 sizeof (ascii_wwn)) >= sizeof (ascii_wwn)) { 279 devfsadm_errprint("SUNW_disk_link: GUID too long:%d", 280 strlen((char *)wwn)); 281 return (DEVFSADM_CONTINUE); 282 } 283 lun = 0; 284 } else if (di_prop_lookup_bytes(DDI_DEV_T_ANY, node, 285 "port-wwn", &wwn) > 0) { 286 if (di_prop_lookup_ints(DDI_DEV_T_ANY, node, 287 SCSI_ADDR_PROP_LUN, &intp) > 0) { 288 lun = *intp; 289 } else { 290 lun = 0; 291 } 292 293 for (count = 0, str = ascii_wwn; count < 8; count++, str += 2) { 294 (void) sprintf((caddr_t)str, "%02x", wwn[count]); 295 } 296 *str = '\0'; 297 } else { 298 return (DEVFSADM_CONTINUE); 299 } 300 301 for (str = ascii_wwn; *str != '\0'; str++) { 302 *str = DISK_LINK_TO_UPPER(*str); 303 } 304 305 (void) snprintf(disk, DISK_SUBPATH_MAX, "t%sd%d", ascii_wwn, lun); 306 307 disk_common(minor, node, disk, RM_STALE); 308 309 return (DEVFSADM_CONTINUE); 310 } 311 312 static int 313 disk_callback_sas(di_minor_t minor, di_node_t node) 314 { 315 char disk[DISK_SUBPATH_MAX]; 316 int lun64_found = 0; 317 scsi_lun64_t lun64, sl; 318 scsi_lun_t lun; 319 int64_t *lun64p; 320 uint64_t wwn; 321 int *intp; 322 char *tgt_port; 323 uchar_t addr_method; 324 325 /* Get lun property */ 326 if (di_prop_lookup_int64(DDI_DEV_T_ANY, node, 327 SCSI_ADDR_PROP_LUN64, &lun64p) > 0) { 328 if (*lun64p != SCSI_LUN64_ILLEGAL) { 329 lun64_found = 1; 330 lun64 = (uint64_t)*lun64p; 331 } 332 } 333 if ((!lun64_found) && (di_prop_lookup_ints(DDI_DEV_T_ANY, node, 334 SCSI_ADDR_PROP_LUN, &intp) > 0)) { 335 lun64 = (uint64_t)*intp; 336 } 337 338 lun = scsi_lun64_to_lun(lun64); 339 340 addr_method = (lun.sl_lun1_msb & SCSI_LUN_AM_MASK); 341 342 if (di_prop_lookup_strings(DDI_DEV_T_ANY, node, 343 SCSI_ADDR_PROP_TARGET_PORT, &tgt_port) > 0) { 344 (void) scsi_wwnstr_to_wwn(tgt_port, &wwn); 345 if ((addr_method == SCSI_LUN_AM_PDEV) && 346 (lun.sl_lun2_msb == 0) && (lun.sl_lun2_lsb == 0) && 347 (lun.sl_lun3_msb == 0) && (lun.sl_lun3_lsb == 0) && 348 (lun.sl_lun4_msb == 0) && (lun.sl_lun4_lsb == 0)) { 349 (void) snprintf(disk, DISK_SUBPATH_MAX, 350 "t%"PRIX64"d%"PRId64, wwn, lun64); 351 } else if ((addr_method == SCSI_LUN_AM_FLAT) && 352 (lun.sl_lun2_msb == 0) && (lun.sl_lun2_lsb == 0) && 353 (lun.sl_lun3_msb == 0) && (lun.sl_lun3_lsb == 0) && 354 (lun.sl_lun4_msb == 0) && (lun.sl_lun4_lsb == 0)) { 355 sl = (lun.sl_lun1_msb << 8) | lun.sl_lun1_lsb; 356 (void) snprintf(disk, DISK_SUBPATH_MAX, 357 "t%"PRIX64"d%"PRIX16, wwn, sl); 358 } else { 359 (void) snprintf(disk, DISK_SUBPATH_MAX, 360 "t%"PRIX64"d%"PRIX64, wwn, lun64); 361 } 362 } else if (di_prop_lookup_ints(DDI_DEV_T_ANY, node, 363 SCSI_ADDR_PROP_SATA_PHY, &intp) > 0) { 364 /* Use phy format naming, for SATA devices without wwn */ 365 if ((addr_method == SCSI_LUN_AM_PDEV) && 366 (lun.sl_lun2_msb == 0) && (lun.sl_lun2_lsb == 0) && 367 (lun.sl_lun3_msb == 0) && (lun.sl_lun3_lsb == 0) && 368 (lun.sl_lun4_msb == 0) && (lun.sl_lun4_lsb == 0)) { 369 (void) snprintf(disk, DISK_SUBPATH_MAX, 370 "t%dd%"PRId64, *intp, lun64); 371 } else if ((addr_method == SCSI_LUN_AM_FLAT) && 372 (lun.sl_lun2_msb == 0) && (lun.sl_lun2_lsb == 0) && 373 (lun.sl_lun3_msb == 0) && (lun.sl_lun3_lsb == 0) && 374 (lun.sl_lun4_msb == 0) && (lun.sl_lun4_lsb == 0)) { 375 sl = (lun.sl_lun1_msb << 8) | lun.sl_lun1_lsb; 376 (void) snprintf(disk, DISK_SUBPATH_MAX, 377 "t%dd%"PRIX16, *intp, sl); 378 } else { 379 (void) snprintf(disk, DISK_SUBPATH_MAX, 380 "t%dd%"PRIX64, *intp, lun64); 381 } 382 } else { 383 return (DEVFSADM_CONTINUE); 384 } 385 386 disk_common(minor, node, disk, RM_STALE); 387 388 return (DEVFSADM_CONTINUE); 389 } 390 391 /* 392 * xVM virtual block device 393 * 394 * Xen passes device number in next format: 395 * 396 * 1 << 28 | disk << 8 | partition xvd, disks or partitions 16 onwards 397 * 202 << 8 | disk << 4 | partition xvd, disks and partitions up to 15 398 * 8 << 8 | disk << 4 | partition sd, disks and partitions up to 15 399 * 3 << 8 | disk << 6 | partition hd, disks 0..1, partitions 0..63 400 * 22 << 8 | (disk-2) << 6 | partition hd, disks 2..3, partitions 0..63 401 * 2 << 28 onwards reserved for future use 402 * other values less than 1 << 28 deprecated / reserved 403 * 404 * The corresponding Solaris /dev/dsk name can be: 405 * 406 * c0tYdXsN 407 * 408 * where Y,X >= 0. 409 * 410 * For PV guests using the legacy naming (0, 1, 2, ...) 411 * the Solaris disk names created will be c0d[0..767]sN 412 */ 413 414 #define HD_BASE (3 << 8) 415 #define XEN_EXT_SHIFT (28) 416 417 /* 418 * Return: Number of parsed and written parameters 419 */ 420 static int 421 decode_xen_device(uint_t device, uint_t *disk, uint_t *plun) 422 { 423 uint_t dsk, lun = 0; 424 int ret = 1; 425 426 if ((device >> XEN_EXT_SHIFT) > 1) 427 return (0); 428 429 if (device < HD_BASE) { 430 /* legacy device address */ 431 dsk = device; 432 goto end; 433 } 434 435 ret = 2; 436 if (device & (1 << XEN_EXT_SHIFT)) { 437 /* extended */ 438 dsk = device & (~0xff); 439 lun = device & 0xff; 440 goto end; 441 } 442 443 switch (device >> 8) { 444 case 202: /* xvd */ 445 dsk = (device >> 4) & 0xf; 446 lun = device & 0xf; 447 break; 448 case 8: /* sd */ 449 dsk = device & (~0xf); 450 lun = device & 0xf; 451 break; 452 case 3: /* hd, disk 0..1 */ 453 dsk = device & (~0x3f); 454 lun = device & 0x3f; 455 break; 456 case 22: /* hd, disk 2..3 */ 457 dsk = device & (~0x3f); 458 lun = device & 0x3f; 459 break; 460 default: 461 return (0); 462 } 463 end: 464 *disk = dsk; 465 *plun = lun; 466 return (ret); 467 } 468 469 static int 470 disk_callback_xvmd(di_minor_t minor, di_node_t node) 471 { 472 char *addr; 473 char disk[16]; 474 uint_t targ; 475 uint_t dsk, lun; 476 int res; 477 478 addr = di_bus_addr(node); 479 targ = strtol(addr, (char **)NULL, 10); 480 481 res = decode_xen_device(targ, &dsk, &lun); 482 483 /* HVM device names are generated using the standard generator */ 484 485 if (res == 1) 486 (void) snprintf(disk, sizeof (disk), "d%d", dsk); 487 else if (res == 2) 488 (void) snprintf(disk, sizeof (disk), "t%dd%d", dsk, lun); 489 else { 490 devfsadm_errprint("%s: invalid disk device number (%s)\n", 491 modname, addr); 492 return (DEVFSADM_CONTINUE); 493 } 494 disk_common(minor, node, disk, 0); 495 return (DEVFSADM_CONTINUE); 496 497 } 498 499 /* 500 * This function is called for every disk minor node. 501 * Calls enumerate to assign a logical controller number, and 502 * then devfsadm_mklink to make the link. 503 */ 504 static void 505 disk_common(di_minor_t minor, di_node_t node, char *disk, int flags) 506 { 507 char l_path[PATH_MAX + 1]; 508 char sec_path[PATH_MAX + 1]; 509 char stale_re[DISK_SUBPATH_MAX]; 510 char *dir; 511 char slice[4]; 512 char *mn; 513 char *ctrl; 514 char *nt = NULL; 515 int *int_prop; 516 int nflags = 0; 517 #if defined(__i386) || defined(__amd64) 518 char mn_copy[4]; 519 char *part; 520 int part_num; 521 #endif 522 523 mn = di_minor_name(minor); 524 if (strstr(mn, ",raw")) { 525 dir = "rdsk"; 526 #if defined(__i386) || defined(__amd64) 527 (void) strncpy(mn_copy, mn, 4); 528 part = strtok(mn_copy, ","); 529 #endif 530 } else { 531 dir = "dsk"; 532 #if defined(__i386) || defined(__amd64) 533 part = mn; 534 #endif 535 } 536 537 #if defined(__i386) || defined(__amd64) 538 /* 539 * The following is a table describing the allocation of 540 * minor numbers, minor names and /dev/dsk names for partitions 541 * and slices on x86 systems. 542 * 543 * Minor Number Minor Name /dev/dsk name 544 * --------------------------------------------- 545 * 0 to 15 "a" to "p" s0 to s15 546 * 16 "q" p0 547 * 17 to 20 "r" to "u" p1 to p4 548 * 21 to 52 "p5" to "p36" p5 to p36 549 * 550 */ 551 part_num = atoi(part + 1); 552 553 if ((mn[0] == 'p') && (part_num >= 5)) { 554 /* logical drive */ 555 (void) snprintf(slice, 4, "%s", part); 556 } else { 557 #endif 558 if (mn[0] < 'q') { 559 (void) sprintf(slice, "s%d", mn[0] - 'a'); 560 } else if (strncmp(mn, MN_EFI, 2) != 0) { 561 (void) sprintf(slice, "p%d", mn[0] - 'q'); 562 } else { 563 /* For EFI label */ 564 (void) sprintf(slice, SLICE_EFI); 565 } 566 #if defined(__i386) || defined(__amd64) 567 } 568 #endif 569 570 nflags = 0; 571 if (system_labeled) { 572 nt = di_minor_nodetype(minor); 573 if ((nt != NULL) && 574 ((strcmp(nt, DDI_NT_CD) == 0) || 575 (strcmp(nt, DDI_NT_CD_CHAN) == 0) || 576 (strcmp(nt, DDI_NT_BLOCK_CHAN) == 0))) { 577 nflags = DA_ADD|DA_CD; 578 } 579 } 580 581 if (reserved_links_exist(node, minor, nflags) == DEVFSADM_SUCCESS) { 582 devfsadm_print(disk_mid, "Reserved link exists. Not " 583 "creating links for slice %s\n", slice); 584 return; 585 } 586 587 if (NULL == (ctrl = diskctrl(node, minor))) 588 return; 589 590 (void) strcpy(l_path, dir); 591 (void) strcat(l_path, "/c"); 592 (void) strcat(l_path, ctrl); 593 (void) strcat(l_path, disk); 594 595 /* 596 * If switching between SMI and EFI label or vice versa 597 * cleanup the previous label's devlinks. 598 */ 599 if (*mn == *(MN_SMI) || (strncmp(mn, MN_EFI, 2) == 0)) { 600 char *s, tpath[PATH_MAX + 1]; 601 struct stat sb; 602 603 s = l_path + strlen(l_path); 604 (void) strcat(l_path, (*mn == *(MN_SMI)) 605 ? SLICE_EFI : SLICE_SMI); 606 /* 607 * Attempt the remove only if the stale link exists 608 */ 609 (void) snprintf(tpath, sizeof (tpath), "%s/dev/%s", 610 devfsadm_root_path(), l_path); 611 if (lstat(tpath, &sb) != -1) 612 devfsadm_rm_all(l_path); 613 *s = '\0'; 614 } 615 (void) strcat(l_path, slice); 616 617 (void) devfsadm_mklink(l_path, node, minor, nflags); 618 619 /* secondary links for removable and hotpluggable devices */ 620 if (di_prop_lookup_ints(DDI_DEV_T_ANY, node, "removable-media", 621 &int_prop) >= 0) { 622 (void) strcpy(sec_path, "removable-media/"); 623 (void) strcat(sec_path, l_path); 624 (void) devfsadm_secondary_link(sec_path, l_path, 0); 625 } 626 if (di_prop_lookup_ints(DDI_DEV_T_ANY, node, "hotpluggable", 627 &int_prop) >= 0) { 628 (void) strcpy(sec_path, "hotpluggable/"); 629 (void) strcat(sec_path, l_path); 630 (void) devfsadm_secondary_link(sec_path, l_path, 0); 631 } 632 633 if ((flags & RM_STALE) == RM_STALE) { 634 (void) strcpy(stale_re, "^"); 635 (void) strcat(stale_re, dir); 636 (void) strcat(stale_re, "/c"); 637 (void) strcat(stale_re, ctrl); 638 (void) strcat(stale_re, "t[0-9A-F]+d[0-9]+(s[0-9]+)?$"); 639 /* 640 * optimizations are made inside of devfsadm_rm_stale_links 641 * instead of before calling the function, as it always 642 * needs to add the valid link to the cache. 643 */ 644 devfsadm_rm_stale_links(stale_re, l_path, node, minor); 645 } 646 647 free(ctrl); 648 } 649 650 651 /* index of enumeration rule applicable to this module */ 652 #define RULE_INDEX 0 653 654 static char * 655 diskctrl(di_node_t node, di_minor_t minor) 656 { 657 char path[PATH_MAX + 1]; 658 char *devfspath; 659 char *buf, *mn; 660 661 devfsadm_enumerate_t rules[3] = { 662 {"^r?dsk$/^c([0-9]+)", 1, MATCH_PARENT}, 663 {"^cfg$/^c([0-9]+)$", 1, MATCH_ADDR}, 664 {"^scsi$/^.+$/^c([0-9]+)", 1, MATCH_PARENT} 665 }; 666 667 mn = di_minor_name(minor); 668 669 if ((devfspath = di_devfs_path(node)) == NULL) { 670 return (NULL); 671 } 672 (void) strcpy(path, devfspath); 673 (void) strcat(path, ":"); 674 (void) strcat(path, mn); 675 di_devfs_path_free(devfspath); 676 677 /* 678 * Use controller component of disk path 679 */ 680 if (disk_enumerate_int(path, RULE_INDEX, &buf, rules, 3) == 681 DEVFSADM_MULTIPLE) { 682 683 /* 684 * We failed because there are multiple logical controller 685 * numbers for a single physical controller. If we use node 686 * name also in the match it should fix this and only find one 687 * logical controller. (See 4045879). 688 * NOTE: Rules for controllers are not changed, as there is 689 * no unique controller number for them in this case. 690 * 691 * MATCH_UNCACHED flag is private to the "disks" and "sgen" 692 * modules. NOT to be used by other modules. 693 */ 694 695 rules[0].flags = MATCH_NODE | MATCH_UNCACHED; /* disks */ 696 rules[2].flags = MATCH_NODE | MATCH_UNCACHED; /* generic scsi */ 697 if (devfsadm_enumerate_int(path, RULE_INDEX, &buf, rules, 3)) { 698 return (NULL); 699 } 700 } 701 702 return (buf); 703 } 704 705 typedef struct dvlist { 706 char *dv_link; 707 struct dvlist *dv_next; 708 } dvlist_t; 709 710 static void 711 free_dvlist(dvlist_t **pp) 712 { 713 dvlist_t *entry; 714 715 while (*pp) { 716 entry = *pp; 717 *pp = entry->dv_next; 718 assert(entry->dv_link); 719 free(entry->dv_link); 720 free(entry); 721 } 722 } 723 static int 724 dvlink_cb(di_devlink_t devlink, void *arg) 725 { 726 char *path; 727 char *can_path; 728 dvlist_t **pp = (dvlist_t **)arg; 729 dvlist_t *entry = NULL; 730 731 entry = calloc(1, sizeof (dvlist_t)); 732 if (entry == NULL) { 733 devfsadm_errprint("%s: calloc failed\n", modname); 734 goto error; 735 } 736 737 path = (char *)di_devlink_path(devlink); 738 assert(path); 739 if (path == NULL) { 740 devfsadm_errprint("%s: di_devlink_path() returned NULL\n", 741 modname); 742 goto error; 743 } 744 745 devfsadm_print(disk_mid, "%s: found link %s in reverse link cache\n", 746 modname, path); 747 748 /* 749 * Return linkname in canonical form i.e. without the 750 * "/dev/" prefix 751 */ 752 can_path = strstr(path, "/dev/"); 753 if (can_path == NULL) { 754 devfsadm_errprint("%s: devlink path %s has no /dev/\n", 755 modname, path); 756 goto error; 757 } 758 759 entry->dv_link = s_strdup(can_path + strlen("/dev/")); 760 entry->dv_next = *pp; 761 *pp = entry; 762 763 return (DI_WALK_CONTINUE); 764 765 error: 766 free(entry); 767 free_dvlist(pp); 768 *pp = NULL; 769 return (DI_WALK_TERMINATE); 770 } 771 772 /* 773 * Returns success only if all goes well. If there is no matching reserved link 774 * or if there is an error, we assume no match. It is better to err on the side 775 * of caution by creating extra links than to miss out creating a required link. 776 */ 777 static int 778 reserved_links_exist(di_node_t node, di_minor_t minor, int nflags) 779 { 780 di_devlink_handle_t dvlink_cache = devfsadm_devlink_cache(); 781 char phys_path[PATH_MAX]; 782 char *minor_path; 783 dvlist_t *head; 784 dvlist_t *entry; 785 char *s; 786 char l[PATH_MAX]; 787 int switch_link = 0; 788 char *mn = di_minor_name(minor); 789 790 if (dvlink_cache == NULL || mn == NULL) { 791 devfsadm_errprint("%s: No minor or devlink cache\n", modname); 792 return (DEVFSADM_FAILURE); 793 } 794 795 if (!devfsadm_have_reserved()) { 796 devfsadm_print(disk_mid, "%s: No reserved links\n", modname); 797 return (DEVFSADM_FAILURE); 798 } 799 800 minor_path = di_devfs_minor_path(minor); 801 if (minor_path == NULL) { 802 devfsadm_errprint("%s: di_devfs_minor_path failed\n", modname); 803 return (DEVFSADM_FAILURE); 804 } 805 806 (void) strlcpy(phys_path, minor_path, sizeof (phys_path)); 807 808 di_devfs_path_free(minor_path); 809 810 head = NULL; 811 (void) di_devlink_cache_walk(dvlink_cache, DISK_LINK_RE, phys_path, 812 DI_PRIMARY_LINK, &head, dvlink_cb); 813 814 /* 815 * We may be switching between EFI label and SMI label in which case 816 * we only have minors of the other type. 817 */ 818 if (head == NULL && (*mn == *(MN_SMI) || 819 (strncmp(mn, MN_EFI, 2) == 0))) { 820 devfsadm_print(disk_mid, "%s: No links for minor %s in /dev. " 821 "Trying another label\n", modname, mn); 822 s = strrchr(phys_path, ':'); 823 if (s == NULL) { 824 devfsadm_errprint("%s: invalid minor path: %s\n", 825 modname, phys_path); 826 return (DEVFSADM_FAILURE); 827 } 828 (void) snprintf(s+1, sizeof (phys_path) - (s + 1 - phys_path), 829 "%s%s", *mn == *(MN_SMI) ? MN_EFI : MN_SMI, 830 strstr(s, ",raw") ? ",raw" : ""); 831 (void) di_devlink_cache_walk(dvlink_cache, DISK_LINK_RE, 832 phys_path, DI_PRIMARY_LINK, &head, dvlink_cb); 833 } 834 835 if (head == NULL) { 836 devfsadm_print(disk_mid, "%s: minor %s has no links in /dev\n", 837 modname, phys_path); 838 /* no links on disk */ 839 return (DEVFSADM_FAILURE); 840 } 841 842 /* 843 * It suffices to use 1 link to this minor, since 844 * we are matching with reserved IDs on the basis of 845 * the controller number which will be the same for 846 * all links to this minor. 847 */ 848 if (!devfsadm_is_reserved(disks_re_array, head->dv_link)) { 849 /* not reserved links */ 850 devfsadm_print(disk_mid, "%s: devlink %s and its minor " 851 "are NOT reserved\n", modname, head->dv_link); 852 free_dvlist(&head); 853 return (DEVFSADM_FAILURE); 854 } 855 856 devfsadm_print(disk_mid, "%s: devlink %s and its minor are on " 857 "reserved list\n", modname, head->dv_link); 858 859 /* 860 * Switch between SMI and EFI labels if required 861 */ 862 switch_link = 0; 863 if (*mn == *(MN_SMI) || (strncmp(mn, MN_EFI, 2) == 0)) { 864 for (entry = head; entry; entry = entry->dv_next) { 865 s = strrchr(entry->dv_link, '/'); 866 assert(s); 867 if (s == NULL) { 868 devfsadm_errprint("%s: disk link %s has no " 869 "directory\n", modname, entry->dv_link); 870 continue; 871 } 872 if (*mn == *(MN_SMI) && strchr(s, 's') == NULL) { 873 (void) snprintf(l, sizeof (l), "%s%s", 874 entry->dv_link, SLICE_SMI); 875 switch_link = 1; 876 devfsadm_print(disk_mid, "%s: switching " 877 "reserved link from EFI to SMI label. " 878 "New link is %s\n", modname, l); 879 } else if (strncmp(mn, MN_EFI, 2) == 0 && 880 (s = strchr(s, 's'))) { 881 *s = '\0'; 882 (void) snprintf(l, sizeof (l), "%s", 883 entry->dv_link); 884 *s = 's'; 885 switch_link = 1; 886 devfsadm_print(disk_mid, "%s: switching " 887 "reserved link from SMI to EFI label. " 888 "New link is %s\n", modname, l); 889 } 890 if (switch_link) { 891 devfsadm_print(disk_mid, "%s: switching " 892 "link: deleting %s and creating %s\n", 893 modname, entry->dv_link, l); 894 devfsadm_rm_link(entry->dv_link); 895 (void) devfsadm_mklink(l, node, minor, nflags); 896 } 897 } 898 } 899 free_dvlist(&head); 900 901 /* 902 * return SUCCESS to indicate that new links to this minor should not 903 * be created so that only compatibility links to this minor remain. 904 */ 905 return (DEVFSADM_SUCCESS); 906 } 907