1 /* 2 * QEMU S390 bootmap interpreter 3 * 4 * Copyright (c) 2009 Alexander Graf <agraf@suse.de> 5 * 6 * This work is licensed under the terms of the GNU GPL, version 2 or (at 7 * your option) any later version. See the COPYING file in the top-level 8 * directory. 9 */ 10 11 #include "s390-ccw.h" 12 #include "bootmap.h" 13 #include "virtio.h" 14 15 #ifdef DEBUG 16 /* #define DEBUG_FALLBACK */ 17 #endif 18 19 #ifdef DEBUG_FALLBACK 20 #define dputs(txt) \ 21 do { sclp_print("zipl: " txt); } while (0) 22 #else 23 #define dputs(fmt, ...) \ 24 do { } while (0) 25 #endif 26 27 /* Scratch space */ 28 static uint8_t sec[MAX_SECTOR_SIZE*4] __attribute__((__aligned__(PAGE_SIZE))); 29 30 typedef struct ResetInfo { 31 uint32_t ipl_mask; 32 uint32_t ipl_addr; 33 uint32_t ipl_continue; 34 } ResetInfo; 35 36 static ResetInfo save; 37 38 static void jump_to_IPL_2(void) 39 { 40 ResetInfo *current = 0; 41 42 void (*ipl)(void) = (void *) (uint64_t) current->ipl_continue; 43 *current = save; 44 ipl(); /* should not return */ 45 } 46 47 static void jump_to_IPL_code(uint64_t address) 48 { 49 /* store the subsystem information _after_ the bootmap was loaded */ 50 write_subsystem_identification(); 51 /* 52 * The IPL PSW is at address 0. We also must not overwrite the 53 * content of non-BIOS memory after we loaded the guest, so we 54 * save the original content and restore it in jump_to_IPL_2. 55 */ 56 ResetInfo *current = 0; 57 58 save = *current; 59 current->ipl_addr = (uint32_t) (uint64_t) &jump_to_IPL_2; 60 current->ipl_continue = address & 0x7fffffff; 61 62 debug_print_int("set IPL addr to", current->ipl_continue); 63 64 /* Ensure the guest output starts fresh */ 65 sclp_print("\n"); 66 67 /* 68 * HACK ALERT. 69 * We use the load normal reset to keep r15 unchanged. jump_to_IPL_2 70 * can then use r15 as its stack pointer. 71 */ 72 asm volatile("lghi 1,1\n\t" 73 "diag 1,1,0x308\n\t" 74 : : : "1", "memory"); 75 panic("\n! IPL returns !\n"); 76 } 77 78 /*********************************************************************** 79 * IPL an ECKD DASD (CDL or LDL/CMS format) 80 */ 81 82 static unsigned char _bprs[8*1024]; /* guessed "max" ECKD sector size */ 83 static const int max_bprs_entries = sizeof(_bprs) / sizeof(ExtEckdBlockPtr); 84 85 static inline void verify_boot_info(BootInfo *bip) 86 { 87 IPL_assert(magic_match(bip->magic, ZIPL_MAGIC), "No zIPL sig in BootInfo"); 88 IPL_assert(bip->version == BOOT_INFO_VERSION, "Wrong zIPL version"); 89 IPL_assert(bip->bp_type == BOOT_INFO_BP_TYPE_IPL, "DASD is not for IPL"); 90 IPL_assert(bip->dev_type == BOOT_INFO_DEV_TYPE_ECKD, "DASD is not ECKD"); 91 IPL_assert(bip->flags == BOOT_INFO_FLAGS_ARCH, "Not for this arch"); 92 IPL_assert(block_size_ok(bip->bp.ipl.bm_ptr.eckd.bptr.size), 93 "Bad block size in zIPL section of the 1st record."); 94 } 95 96 static block_number_t eckd_block_num(BootMapPointer *p) 97 { 98 const uint64_t sectors = virtio_get_sectors(); 99 const uint64_t heads = virtio_get_heads(); 100 const uint64_t cylinder = p->eckd.cylinder 101 + ((p->eckd.head & 0xfff0) << 12); 102 const uint64_t head = p->eckd.head & 0x000f; 103 const block_number_t block = sectors * heads * cylinder 104 + sectors * head 105 + p->eckd.sector 106 - 1; /* block nr starts with zero */ 107 return block; 108 } 109 110 static bool eckd_valid_address(BootMapPointer *p) 111 { 112 const uint64_t head = p->eckd.head & 0x000f; 113 114 if (head >= virtio_get_heads() 115 || p->eckd.sector > virtio_get_sectors() 116 || p->eckd.sector <= 0) { 117 return false; 118 } 119 120 if (!virtio_guessed_disk_nature() && 121 eckd_block_num(p) >= virtio_get_blocks()) { 122 return false; 123 } 124 125 return true; 126 } 127 128 static block_number_t load_eckd_segments(block_number_t blk, uint64_t *address) 129 { 130 block_number_t block_nr; 131 int j, rc; 132 BootMapPointer *bprs = (void *)_bprs; 133 bool more_data; 134 135 memset(_bprs, FREE_SPACE_FILLER, sizeof(_bprs)); 136 read_block(blk, bprs, "BPRS read failed"); 137 138 do { 139 more_data = false; 140 for (j = 0;; j++) { 141 block_nr = eckd_block_num((void *)&(bprs[j].xeckd)); 142 if (is_null_block_number(block_nr)) { /* end of chunk */ 143 break; 144 } 145 146 /* we need the updated blockno for the next indirect entry 147 * in the chain, but don't want to advance address 148 */ 149 if (j == (max_bprs_entries - 1)) { 150 break; 151 } 152 153 IPL_assert(block_size_ok(bprs[j].xeckd.bptr.size), 154 "bad chunk block size"); 155 IPL_assert(eckd_valid_address(&bprs[j]), "bad chunk ECKD addr"); 156 157 if ((bprs[j].xeckd.bptr.count == 0) && unused_space(&(bprs[j+1]), 158 sizeof(EckdBlockPtr))) { 159 /* This is a "continue" pointer. 160 * This ptr should be the last one in the current 161 * script section. 162 * I.e. the next ptr must point to the unused memory area 163 */ 164 memset(_bprs, FREE_SPACE_FILLER, sizeof(_bprs)); 165 read_block(block_nr, bprs, "BPRS continuation read failed"); 166 more_data = true; 167 break; 168 } 169 170 /* Load (count+1) blocks of code at (block_nr) 171 * to memory (address). 172 */ 173 rc = virtio_read_many(block_nr, (void *)(*address), 174 bprs[j].xeckd.bptr.count+1); 175 IPL_assert(rc == 0, "code chunk read failed"); 176 177 *address += (bprs[j].xeckd.bptr.count+1) * virtio_get_block_size(); 178 } 179 } while (more_data); 180 return block_nr; 181 } 182 183 static void run_eckd_boot_script(block_number_t mbr_block_nr) 184 { 185 int i; 186 block_number_t block_nr; 187 uint64_t address; 188 ScsiMbr *scsi_mbr = (void *)sec; 189 BootMapScript *bms = (void *)sec; 190 191 memset(sec, FREE_SPACE_FILLER, sizeof(sec)); 192 read_block(mbr_block_nr, sec, "Cannot read MBR"); 193 194 block_nr = eckd_block_num((void *)&(scsi_mbr->blockptr)); 195 196 memset(sec, FREE_SPACE_FILLER, sizeof(sec)); 197 read_block(block_nr, sec, "Cannot read Boot Map Script"); 198 199 for (i = 0; bms->entry[i].type == BOOT_SCRIPT_LOAD; i++) { 200 address = bms->entry[i].address.load_address; 201 block_nr = eckd_block_num(&(bms->entry[i].blkptr)); 202 203 do { 204 block_nr = load_eckd_segments(block_nr, &address); 205 } while (block_nr != -1); 206 } 207 208 IPL_assert(bms->entry[i].type == BOOT_SCRIPT_EXEC, 209 "Unknown script entry type"); 210 jump_to_IPL_code(bms->entry[i].address.load_address); /* no return */ 211 } 212 213 static void ipl_eckd_cdl(void) 214 { 215 XEckdMbr *mbr; 216 Ipl2 *ipl2 = (void *)sec; 217 IplVolumeLabel *vlbl = (void *)sec; 218 block_number_t block_nr; 219 220 /* we have just read the block #0 and recognized it as "IPL1" */ 221 sclp_print("CDL\n"); 222 223 memset(sec, FREE_SPACE_FILLER, sizeof(sec)); 224 read_block(1, ipl2, "Cannot read IPL2 record at block 1"); 225 226 mbr = &ipl2->u.x.mbr; 227 IPL_assert(magic_match(mbr, ZIPL_MAGIC), "No zIPL section in IPL2 record."); 228 IPL_assert(block_size_ok(mbr->blockptr.xeckd.bptr.size), 229 "Bad block size in zIPL section of IPL2 record."); 230 IPL_assert(mbr->dev_type == DEV_TYPE_ECKD, 231 "Non-ECKD device type in zIPL section of IPL2 record."); 232 233 /* save pointer to Boot Script */ 234 block_nr = eckd_block_num((void *)&(mbr->blockptr)); 235 236 memset(sec, FREE_SPACE_FILLER, sizeof(sec)); 237 read_block(2, vlbl, "Cannot read Volume Label at block 2"); 238 IPL_assert(magic_match(vlbl->key, VOL1_MAGIC), 239 "Invalid magic of volume label block"); 240 IPL_assert(magic_match(vlbl->f.key, VOL1_MAGIC), 241 "Invalid magic of volser block"); 242 print_volser(vlbl->f.volser); 243 244 run_eckd_boot_script(block_nr); 245 /* no return */ 246 } 247 248 static void print_eckd_ldl_msg(ECKD_IPL_mode_t mode) 249 { 250 LDL_VTOC *vlbl = (void *)sec; /* already read, 3rd block */ 251 char msg[4] = { '?', '.', '\n', '\0' }; 252 253 sclp_print((mode == ECKD_CMS) ? "CMS" : "LDL"); 254 sclp_print(" version "); 255 switch (vlbl->LDL_version) { 256 case LDL1_VERSION: 257 msg[0] = '1'; 258 break; 259 case LDL2_VERSION: 260 msg[0] = '2'; 261 break; 262 default: 263 msg[0] = vlbl->LDL_version; 264 msg[0] &= 0x0f; /* convert EBCDIC */ 265 msg[0] |= 0x30; /* to ASCII (digit) */ 266 msg[1] = '?'; 267 break; 268 } 269 sclp_print(msg); 270 print_volser(vlbl->volser); 271 } 272 273 static void ipl_eckd_ldl(ECKD_IPL_mode_t mode) 274 { 275 block_number_t block_nr; 276 BootInfo *bip = (void *)(sec + 0x70); /* BootInfo is MBR for LDL */ 277 278 if (mode != ECKD_LDL_UNLABELED) { 279 print_eckd_ldl_msg(mode); 280 } 281 282 /* DO NOT read BootMap pointer (only one, xECKD) at block #2 */ 283 284 memset(sec, FREE_SPACE_FILLER, sizeof(sec)); 285 read_block(0, sec, "Cannot read block 0 to grab boot info."); 286 if (mode == ECKD_LDL_UNLABELED) { 287 if (!magic_match(bip->magic, ZIPL_MAGIC)) { 288 return; /* not applicable layout */ 289 } 290 sclp_print("unlabeled LDL.\n"); 291 } 292 verify_boot_info(bip); 293 294 block_nr = eckd_block_num((void *)&(bip->bp.ipl.bm_ptr.eckd.bptr)); 295 run_eckd_boot_script(block_nr); 296 /* no return */ 297 } 298 299 static void print_eckd_msg(void) 300 { 301 char msg[] = "Using ECKD scheme (block size *****), "; 302 char *p = &msg[34], *q = &msg[30]; 303 int n = virtio_get_block_size(); 304 305 /* Fill in the block size and show up the message */ 306 if (n > 0 && n <= 99999) { 307 while (n) { 308 *p-- = '0' + (n % 10); 309 n /= 10; 310 } 311 while (p >= q) { 312 *p-- = ' '; 313 } 314 } 315 sclp_print(msg); 316 } 317 318 static void ipl_eckd(void) 319 { 320 ScsiMbr *mbr = (void *)sec; 321 LDL_VTOC *vlbl = (void *)sec; 322 323 print_eckd_msg(); 324 325 /* Grab the MBR again */ 326 memset(sec, FREE_SPACE_FILLER, sizeof(sec)); 327 read_block(0, mbr, "Cannot read block 0 on DASD"); 328 329 if (magic_match(mbr->magic, IPL1_MAGIC)) { 330 ipl_eckd_cdl(); /* no return */ 331 } 332 333 /* LDL/CMS? */ 334 memset(sec, FREE_SPACE_FILLER, sizeof(sec)); 335 read_block(2, vlbl, "Cannot read block 2"); 336 337 if (magic_match(vlbl->magic, CMS1_MAGIC)) { 338 ipl_eckd_ldl(ECKD_CMS); /* no return */ 339 } 340 if (magic_match(vlbl->magic, LNX1_MAGIC)) { 341 ipl_eckd_ldl(ECKD_LDL); /* no return */ 342 } 343 344 ipl_eckd_ldl(ECKD_LDL_UNLABELED); /* it still may return */ 345 /* 346 * Ok, it is not a LDL by any means. 347 * It still might be a CDL with zero record keys for IPL1 and IPL2 348 */ 349 ipl_eckd_cdl(); 350 } 351 352 /*********************************************************************** 353 * IPL a SCSI disk 354 */ 355 356 static void zipl_load_segment(ComponentEntry *entry) 357 { 358 const int max_entries = (MAX_SECTOR_SIZE / sizeof(ScsiBlockPtr)); 359 ScsiBlockPtr *bprs = (void *)sec; 360 const int bprs_size = sizeof(sec); 361 block_number_t blockno; 362 uint64_t address; 363 int i; 364 char err_msg[] = "zIPL failed to read BPRS at 0xZZZZZZZZZZZZZZZZ"; 365 char *blk_no = &err_msg[30]; /* where to print blockno in (those ZZs) */ 366 367 blockno = entry->data.blockno; 368 address = entry->load_address; 369 370 debug_print_int("loading segment at block", blockno); 371 debug_print_int("addr", address); 372 373 do { 374 memset(bprs, FREE_SPACE_FILLER, bprs_size); 375 fill_hex_val(blk_no, &blockno, sizeof(blockno)); 376 read_block(blockno, bprs, err_msg); 377 378 for (i = 0;; i++) { 379 uint64_t *cur_desc = (void *)&bprs[i]; 380 381 blockno = bprs[i].blockno; 382 if (!blockno) { 383 break; 384 } 385 386 /* we need the updated blockno for the next indirect entry in the 387 chain, but don't want to advance address */ 388 if (i == (max_entries - 1)) { 389 break; 390 } 391 392 if (bprs[i].blockct == 0 && unused_space(&bprs[i + 1], 393 sizeof(ScsiBlockPtr))) { 394 /* This is a "continue" pointer. 395 * This ptr is the last one in the current script section. 396 * I.e. the next ptr must point to the unused memory area. 397 * The blockno is not zero, so the upper loop must continue 398 * reading next section of BPRS. 399 */ 400 break; 401 } 402 address = virtio_load_direct(cur_desc[0], cur_desc[1], 0, 403 (void *)address); 404 IPL_assert(address != -1, "zIPL load segment failed"); 405 } 406 } while (blockno); 407 } 408 409 /* Run a zipl program */ 410 static void zipl_run(ScsiBlockPtr *pte) 411 { 412 ComponentHeader *header; 413 ComponentEntry *entry; 414 uint8_t tmp_sec[MAX_SECTOR_SIZE]; 415 416 read_block(pte->blockno, tmp_sec, "Cannot read header"); 417 header = (ComponentHeader *)tmp_sec; 418 419 IPL_assert(magic_match(tmp_sec, ZIPL_MAGIC), "No zIPL magic in header"); 420 IPL_assert(header->type == ZIPL_COMP_HEADER_IPL, "Bad header type"); 421 422 dputs("start loading images\n"); 423 424 /* Load image(s) into RAM */ 425 entry = (ComponentEntry *)(&header[1]); 426 while (entry->component_type == ZIPL_COMP_ENTRY_LOAD) { 427 zipl_load_segment(entry); 428 429 entry++; 430 431 IPL_assert((uint8_t *)(&entry[1]) <= (tmp_sec + MAX_SECTOR_SIZE), 432 "Wrong entry value"); 433 } 434 435 IPL_assert(entry->component_type == ZIPL_COMP_ENTRY_EXEC, "No EXEC entry"); 436 437 /* should not return */ 438 jump_to_IPL_code(entry->load_address); 439 } 440 441 static void ipl_scsi(void) 442 { 443 ScsiMbr *mbr = (void *)sec; 444 uint8_t *ns, *ns_end; 445 int program_table_entries = 0; 446 const int pte_len = sizeof(ScsiBlockPtr); 447 ScsiBlockPtr *prog_table_entry; 448 449 /* Grab the MBR */ 450 memset(sec, FREE_SPACE_FILLER, sizeof(sec)); 451 read_block(0, mbr, "Cannot read block 0"); 452 453 if (!magic_match(mbr->magic, ZIPL_MAGIC)) { 454 return; 455 } 456 457 sclp_print("Using SCSI scheme.\n"); 458 debug_print_int("MBR Version", mbr->version_id); 459 IPL_check(mbr->version_id == 1, 460 "Unknown MBR layout version, assuming version 1"); 461 debug_print_int("program table", mbr->blockptr.blockno); 462 IPL_assert(mbr->blockptr.blockno, "No Program Table"); 463 464 /* Parse the program table */ 465 read_block(mbr->blockptr.blockno, sec, 466 "Error reading Program Table"); 467 468 IPL_assert(magic_match(sec, ZIPL_MAGIC), "No zIPL magic in PT"); 469 470 ns_end = sec + virtio_get_block_size(); 471 for (ns = (sec + pte_len); (ns + pte_len) < ns_end; ns += pte_len) { 472 prog_table_entry = (ScsiBlockPtr *)ns; 473 if (!prog_table_entry->blockno) { 474 break; 475 } 476 477 program_table_entries++; 478 } 479 480 debug_print_int("program table entries", program_table_entries); 481 482 IPL_assert(program_table_entries != 0, "Empty Program Table"); 483 484 /* Run the default entry */ 485 486 prog_table_entry = (ScsiBlockPtr *)(sec + pte_len); 487 488 zipl_run(prog_table_entry); /* no return */ 489 } 490 491 /*********************************************************************** 492 * IPL El Torito ISO9660 image or DVD 493 */ 494 495 static bool is_iso_bc_entry_compatible(IsoBcSection *s) 496 { 497 uint8_t *magic_sec = (uint8_t *)(sec + ISO_SECTOR_SIZE); 498 499 if (s->unused || !s->sector_count) { 500 return false; 501 } 502 read_iso_sector(bswap32(s->load_rba), magic_sec, 503 "Failed to read image sector 0"); 504 505 /* Checking bytes 8 - 32 for S390 Linux magic */ 506 return !_memcmp(magic_sec + 8, linux_s390_magic, 24); 507 } 508 509 /* Location of the current sector of the directory */ 510 static uint32_t sec_loc[ISO9660_MAX_DIR_DEPTH]; 511 /* Offset in the current sector of the directory */ 512 static uint32_t sec_offset[ISO9660_MAX_DIR_DEPTH]; 513 /* Remained directory space in bytes */ 514 static uint32_t dir_rem[ISO9660_MAX_DIR_DEPTH]; 515 516 static inline uint32_t iso_get_file_size(uint32_t load_rba) 517 { 518 IsoVolDesc *vd = (IsoVolDesc *)sec; 519 IsoDirHdr *cur_record = &vd->vd.primary.rootdir; 520 uint8_t *temp = sec + ISO_SECTOR_SIZE; 521 int level = 0; 522 523 read_iso_sector(ISO_PRIMARY_VD_SECTOR, sec, 524 "Failed to read ISO primary descriptor"); 525 sec_loc[0] = iso_733_to_u32(cur_record->ext_loc); 526 dir_rem[0] = 0; 527 sec_offset[0] = 0; 528 529 while (level >= 0) { 530 IPL_assert(sec_offset[level] <= ISO_SECTOR_SIZE, 531 "Directory tree structure violation"); 532 533 cur_record = (IsoDirHdr *)(temp + sec_offset[level]); 534 535 if (sec_offset[level] == 0) { 536 read_iso_sector(sec_loc[level], temp, 537 "Failed to read ISO directory"); 538 if (dir_rem[level] == 0) { 539 /* Skip self and parent records */ 540 dir_rem[level] = iso_733_to_u32(cur_record->data_len) - 541 cur_record->dr_len; 542 sec_offset[level] += cur_record->dr_len; 543 544 cur_record = (IsoDirHdr *)(temp + sec_offset[level]); 545 dir_rem[level] -= cur_record->dr_len; 546 sec_offset[level] += cur_record->dr_len; 547 continue; 548 } 549 } 550 551 if (!cur_record->dr_len || sec_offset[level] == ISO_SECTOR_SIZE) { 552 /* Zero-padding and/or the end of current sector */ 553 dir_rem[level] -= ISO_SECTOR_SIZE - sec_offset[level]; 554 sec_offset[level] = 0; 555 sec_loc[level]++; 556 } else { 557 /* The directory record is valid */ 558 if (load_rba == iso_733_to_u32(cur_record->ext_loc)) { 559 return iso_733_to_u32(cur_record->data_len); 560 } 561 562 dir_rem[level] -= cur_record->dr_len; 563 sec_offset[level] += cur_record->dr_len; 564 565 if (cur_record->file_flags & 0x2) { 566 /* Subdirectory */ 567 if (level == ISO9660_MAX_DIR_DEPTH - 1) { 568 sclp_print("ISO-9660 directory depth limit exceeded\n"); 569 } else { 570 level++; 571 sec_loc[level] = iso_733_to_u32(cur_record->ext_loc); 572 sec_offset[level] = 0; 573 dir_rem[level] = 0; 574 continue; 575 } 576 } 577 } 578 579 if (dir_rem[level] == 0) { 580 /* Nothing remaining */ 581 level--; 582 read_iso_sector(sec_loc[level], temp, 583 "Failed to read ISO directory"); 584 } 585 } 586 587 return 0; 588 } 589 590 static void load_iso_bc_entry(IsoBcSection *load) 591 { 592 IsoBcSection s = *load; 593 /* 594 * According to spec, extent for each file 595 * is padded and ISO_SECTOR_SIZE bytes aligned 596 */ 597 uint32_t blks_to_load = bswap16(s.sector_count) >> ET_SECTOR_SHIFT; 598 uint32_t real_size = iso_get_file_size(bswap32(s.load_rba)); 599 600 if (real_size) { 601 /* Round up blocks to load */ 602 blks_to_load = (real_size + ISO_SECTOR_SIZE - 1) / ISO_SECTOR_SIZE; 603 sclp_print("ISO boot image size verified\n"); 604 } else { 605 sclp_print("ISO boot image size could not be verified\n"); 606 } 607 608 read_iso_boot_image(bswap32(s.load_rba), 609 (void *)((uint64_t)bswap16(s.load_segment)), 610 blks_to_load); 611 612 /* Trying to get PSW at zero address */ 613 if (*((uint64_t *)0) & IPL_PSW_MASK) { 614 jump_to_IPL_code((*((uint64_t *)0)) & 0x7fffffff); 615 } 616 617 /* Try default linux start address */ 618 jump_to_IPL_code(KERN_IMAGE_START); 619 } 620 621 static uint32_t find_iso_bc(void) 622 { 623 IsoVolDesc *vd = (IsoVolDesc *)sec; 624 uint32_t block_num = ISO_PRIMARY_VD_SECTOR; 625 626 if (virtio_read_many(block_num++, sec, 1)) { 627 /* If primary vd cannot be read, there is no boot catalog */ 628 return 0; 629 } 630 631 while (is_iso_vd_valid(vd) && vd->type != VOL_DESC_TERMINATOR) { 632 if (vd->type == VOL_DESC_TYPE_BOOT) { 633 IsoVdElTorito *et = &vd->vd.boot; 634 635 if (!_memcmp(&et->el_torito[0], el_torito_magic, 32)) { 636 return bswap32(et->bc_offset); 637 } 638 } 639 read_iso_sector(block_num++, sec, 640 "Failed to read ISO volume descriptor"); 641 } 642 643 return 0; 644 } 645 646 static IsoBcSection *find_iso_bc_entry(void) 647 { 648 IsoBcEntry *e = (IsoBcEntry *)sec; 649 uint32_t offset = find_iso_bc(); 650 int i; 651 652 if (!offset) { 653 return NULL; 654 } 655 656 read_iso_sector(offset, sec, "Failed to read El Torito boot catalog"); 657 658 if (!is_iso_bc_valid(e)) { 659 /* The validation entry is mandatory */ 660 panic("No valid boot catalog found!\n"); 661 return NULL; 662 } 663 664 /* 665 * Each entry has 32 bytes size, so one sector cannot contain > 64 entries. 666 * We consider only boot catalogs with no more than 64 entries. 667 */ 668 for (i = 1; i < ISO_BC_ENTRY_PER_SECTOR; i++) { 669 if (e[i].id == ISO_BC_BOOTABLE_SECTION) { 670 if (is_iso_bc_entry_compatible(&e[i].body.sect)) { 671 return &e[i].body.sect; 672 } 673 } 674 } 675 676 panic("No suitable boot entry found on ISO-9660 media!\n"); 677 678 return NULL; 679 } 680 681 static void ipl_iso_el_torito(void) 682 { 683 IsoBcSection *s = find_iso_bc_entry(); 684 685 if (s) { 686 load_iso_bc_entry(s); 687 /* no return */ 688 } 689 } 690 691 /*********************************************************************** 692 * Bus specific IPL sequences 693 */ 694 695 static void zipl_load_vblk(void) 696 { 697 if (virtio_guessed_disk_nature()) { 698 virtio_assume_iso9660(); 699 } 700 ipl_iso_el_torito(); 701 702 if (virtio_guessed_disk_nature()) { 703 sclp_print("Using guessed DASD geometry.\n"); 704 virtio_assume_eckd(); 705 } 706 ipl_eckd(); 707 } 708 709 static void zipl_load_vscsi(void) 710 { 711 if (virtio_get_block_size() == VIRTIO_ISO_BLOCK_SIZE) { 712 /* Is it an ISO image in non-CD drive? */ 713 ipl_iso_el_torito(); 714 } 715 716 sclp_print("Using guessed DASD geometry.\n"); 717 virtio_assume_eckd(); 718 ipl_eckd(); 719 } 720 721 /*********************************************************************** 722 * IPL starts here 723 */ 724 725 void zipl_load(void) 726 { 727 if (virtio_get_device()->is_cdrom) { 728 ipl_iso_el_torito(); 729 panic("\n! Cannot IPL this ISO image !\n"); 730 } 731 732 ipl_scsi(); 733 734 switch (virtio_get_device_type()) { 735 case VIRTIO_ID_BLOCK: 736 zipl_load_vblk(); 737 break; 738 case VIRTIO_ID_SCSI: 739 zipl_load_vscsi(); 740 break; 741 default: 742 panic("\n! Unknown IPL device type !\n"); 743 } 744 745 panic("\n* this can never happen *\n"); 746 } 747