1 /* 2 * QEMU S390 bootmap interpreter -- declarations 3 * 4 * Copyright 2014 IBM Corp. 5 * Author(s): Eugene (jno) Dvurechenski <jno@linux.vnet.ibm.com> 6 * 7 * This work is licensed under the terms of the GNU GPL, version 2 or (at 8 * your option) any later version. See the COPYING file in the top-level 9 * directory. 10 */ 11 #ifndef _PC_BIOS_S390_CCW_BOOTMAP_H 12 #define _PC_BIOS_S390_CCW_BOOTMAP_H 13 14 #include "s390-ccw.h" 15 #include "virtio.h" 16 17 typedef uint64_t block_number_t; 18 #define NULL_BLOCK_NR 0xffffffffffffffffULL 19 20 #define FREE_SPACE_FILLER '\xAA' 21 22 typedef struct ScsiBlockPtr { 23 uint64_t blockno; 24 uint16_t size; 25 uint16_t blockct; 26 uint8_t reserved[4]; 27 } __attribute__ ((packed)) ScsiBlockPtr; 28 29 typedef struct FbaBlockPtr { 30 uint32_t blockno; 31 uint16_t size; 32 uint16_t blockct; 33 } __attribute__ ((packed)) FbaBlockPtr; 34 35 typedef struct EckdCHS { 36 uint16_t cylinder; 37 uint16_t head; 38 uint8_t sector; 39 } __attribute__ ((packed)) EckdCHS; 40 41 typedef struct EckdBlockPtr { 42 EckdCHS chs; /* cylinder/head/sector is an address of the block */ 43 uint16_t size; 44 uint8_t count; /* (size_in_blocks-1); 45 * it's 0 for TablePtr, ScriptPtr, and SectionPtr */ 46 } __attribute__ ((packed)) EckdBlockPtr; 47 48 typedef struct ExtEckdBlockPtr { 49 EckdBlockPtr bptr; 50 uint8_t reserved[8]; 51 } __attribute__ ((packed)) ExtEckdBlockPtr; 52 53 typedef union BootMapPointer { 54 ScsiBlockPtr scsi; 55 FbaBlockPtr fba; 56 EckdBlockPtr eckd; 57 ExtEckdBlockPtr xeckd; 58 } __attribute__ ((packed)) BootMapPointer; 59 60 /* aka Program Table */ 61 typedef struct BootMapTable { 62 uint8_t magic[4]; 63 uint8_t reserved[12]; 64 BootMapPointer entry[]; 65 } __attribute__ ((packed)) BootMapTable; 66 67 typedef struct ComponentEntry { 68 ScsiBlockPtr data; 69 uint8_t pad[7]; 70 uint8_t component_type; 71 uint64_t load_address; 72 } __attribute((packed)) ComponentEntry; 73 74 typedef struct ComponentHeader { 75 uint8_t magic[4]; /* == "zIPL" */ 76 uint8_t type; /* == ZIPL_COMP_HEADER_* */ 77 uint8_t reserved[27]; 78 } __attribute((packed)) ComponentHeader; 79 80 typedef struct ScsiMbr { 81 uint8_t magic[4]; 82 uint32_t version_id; 83 uint8_t reserved[8]; 84 ScsiBlockPtr pt; /* block pointer to program table */ 85 } __attribute__ ((packed)) ScsiMbr; 86 87 #define ZIPL_MAGIC "zIPL" 88 #define ZIPL_MAGIC_EBCDIC "\xa9\xc9\xd7\xd3" 89 #define IPL1_MAGIC "\xc9\xd7\xd3\xf1" /* == "IPL1" in EBCDIC */ 90 #define IPL2_MAGIC "\xc9\xd7\xd3\xf2" /* == "IPL2" in EBCDIC */ 91 #define VOL1_MAGIC "\xe5\xd6\xd3\xf1" /* == "VOL1" in EBCDIC */ 92 #define LNX1_MAGIC "\xd3\xd5\xe7\xf1" /* == "LNX1" in EBCDIC */ 93 #define CMS1_MAGIC "\xc3\xd4\xe2\xf1" /* == "CMS1" in EBCDIC */ 94 95 #define LDL1_VERSION '\x40' /* == ' ' in EBCDIC */ 96 #define LDL2_VERSION '\xf2' /* == '2' in EBCDIC */ 97 98 #define ZIPL_COMP_HEADER_IPL 0x00 99 #define ZIPL_COMP_HEADER_DUMP 0x01 100 101 #define ZIPL_COMP_ENTRY_EXEC 0x01 102 #define ZIPL_COMP_ENTRY_LOAD 0x02 103 #define ZIPL_COMP_ENTRY_SIGNATURE 0x03 104 105 typedef struct XEckdMbr { 106 uint8_t magic[4]; /* == "xIPL" */ 107 uint8_t version; 108 uint8_t bp_type; 109 uint8_t dev_type; /* == DEV_TYPE_* */ 110 #define DEV_TYPE_ECKD 0x00 111 #define DEV_TYPE_FBA 0x01 112 uint8_t flags; 113 BootMapPointer blockptr; 114 uint8_t reserved[8]; 115 } __attribute__ ((packed)) XEckdMbr; /* see also BootInfo */ 116 117 typedef struct BootMapScriptEntry { 118 BootMapPointer blkptr; 119 uint8_t pad[7]; 120 uint8_t type; /* == BOOT_SCRIPT_* */ 121 #define BOOT_SCRIPT_EXEC 0x01 122 #define BOOT_SCRIPT_LOAD 0x02 123 #define BOOT_SCRIPT_SIGNATURE 0x03 124 union { 125 uint64_t load_address; 126 uint64_t load_psw; 127 } address; 128 } __attribute__ ((packed)) BootMapScriptEntry; 129 130 typedef struct BootMapScriptHeader { 131 uint32_t magic; 132 uint8_t type; 133 #define BOOT_SCRIPT_HDR_IPL 0x00 134 uint8_t reserved[27]; 135 } __attribute__ ((packed)) BootMapScriptHeader; 136 137 typedef struct BootMapScript { 138 BootMapScriptHeader header; 139 BootMapScriptEntry entry[]; 140 } __attribute__ ((packed)) BootMapScript; 141 142 /* 143 * These aren't real VTOCs, but referred to this way in some docs. 144 * They are "volume labels" actually. 145 * 146 * Some structures looks similar to described above, but left 147 * separate as there is no indication that they are the same. 148 * So, the value definitions are left separate too. 149 */ 150 typedef struct LDL_VTOC { /* @ rec.3 cyl.0 trk.0 for ECKD */ 151 char magic[4]; /* "LNX1", EBCDIC */ 152 char volser[6]; /* volser, EBCDIC */ 153 uint8_t reserved[69]; /* reserved, 0x40 */ 154 uint8_t LDL_version; /* 0x40 or 0xF2 */ 155 uint64_t formatted_blocks; /* if LDL_version >= 0xF2 */ 156 } __attribute__ ((packed)) LDL_VTOC; 157 158 typedef struct format_date { 159 uint8_t YY; 160 uint8_t MM; 161 uint8_t DD; 162 uint8_t hh; 163 uint8_t mm; 164 uint8_t ss; 165 } __attribute__ ((packed)) format_date_t; 166 167 typedef struct CMS_VTOC { /* @ rec.3 cyl.0 trk.0 for ECKD */ 168 /* @ blk.1 (zero based) for FBA */ 169 char magic[4]; /* 'CMS1', EBCDIC */ 170 char volser[6]; /* volser, EBCDIC */ 171 uint16_t version; /* = 0 */ 172 uint32_t block_size; /* = 512, 1024, 2048, or 4096 */ 173 uint32_t disk_origin; /* = 4 or 5 */ 174 uint32_t blocks; /* Number of usable cyls/blocks */ 175 uint32_t formatted; /* Max number of fmtd cyls/blks */ 176 uint32_t CMS_blocks; /* disk size in CMS blocks */ 177 uint32_t CMS_used; /* Number of CMS blocks in use */ 178 uint32_t FST_size; /* = 64, bytes */ 179 uint32_t FST_per_CMS_blk; /* */ 180 format_date_t format_date; /* YYMMDDhhmmss as 6 bytes */ 181 uint8_t reserved1[2]; /* = 0 */ 182 uint32_t offset; /* disk offset when reserved */ 183 uint32_t next_hole; /* block nr */ 184 uint32_t HBLK_hole_offset; /* >> HBLK data of next hole */ 185 uint32_t alloc_map_usr_off; /* >> user part of Alloc map */ 186 uint8_t reserved2[4]; /* = 0 */ 187 char shared_seg_name[8]; /* */ 188 } __attribute__ ((packed)) CMS_VTOC; 189 190 /* from zipl/include/boot.h */ 191 typedef struct BootInfoBpIpl { 192 union { 193 ExtEckdBlockPtr eckd; 194 ScsiBlockPtr linr; 195 } bm_ptr; 196 uint8_t unused[16]; 197 } __attribute__ ((packed)) BootInfoBpIpl; 198 199 typedef struct EckdDumpParam { 200 uint32_t start_blk; 201 uint32_t end_blk; 202 uint16_t blocksize; 203 uint8_t num_heads; 204 uint8_t bpt; 205 char reserved[4]; 206 } __attribute((packed, may_alias)) EckdDumpParam; 207 208 typedef struct FbaDumpParam { 209 uint64_t start_blk; 210 uint64_t blockct; 211 } __attribute((packed)) FbaDumpParam; 212 213 typedef struct BootInfoBpDump { 214 union { 215 EckdDumpParam eckd; 216 FbaDumpParam fba; 217 } param; 218 uint8_t unused[16]; 219 } __attribute__ ((packed)) BootInfoBpDump; 220 221 typedef struct BootInfo { /* @ 0x70, record #0 */ 222 unsigned char magic[4]; /* = 'zIPL', ASCII */ 223 uint8_t version; /* = 1 */ 224 #define BOOT_INFO_VERSION 1 225 uint8_t bp_type; /* = 0 */ 226 #define BOOT_INFO_BP_TYPE_IPL 0x00 227 #define BOOT_INFO_BP_TYPE_DUMP 0x01 228 uint8_t dev_type; /* = 0 */ 229 #define BOOT_INFO_DEV_TYPE_ECKD 0x00 230 #define BOOT_INFO_DEV_TYPE_FBA 0x01 231 uint8_t flags; /* = 1 */ 232 #ifdef __s390x__ 233 #define BOOT_INFO_FLAGS_ARCH 0x01 234 #else 235 #define BOOT_INFO_FLAGS_ARCH 0x00 236 #endif 237 union { 238 BootInfoBpDump dump; 239 BootInfoBpIpl ipl; 240 } bp; 241 } __attribute__ ((packed)) BootInfo; /* see also XEckdMbr */ 242 243 /* 244 * Structs for IPL 245 */ 246 #define STAGE2_BLK_CNT_MAX 24 /* Stage 1b can load up to 24 blocks */ 247 248 typedef struct EckdCdlIpl1 { 249 uint8_t key[4]; /* == "IPL1" */ 250 uint8_t data[24]; 251 } __attribute__((packed)) EckdCdlIpl1; 252 253 typedef struct EckdSeekArg { 254 uint16_t pad; 255 EckdCHS chs; 256 uint8_t pad2; 257 } __attribute__ ((packed)) EckdSeekArg; 258 259 typedef struct EckdStage1b { 260 uint8_t reserved[32 * STAGE2_BLK_CNT_MAX]; 261 struct EckdSeekArg seek[STAGE2_BLK_CNT_MAX]; 262 uint8_t unused[64]; 263 } __attribute__ ((packed)) EckdStage1b; 264 265 typedef struct EckdStage1 { 266 uint8_t reserved[72]; 267 struct EckdSeekArg seek[2]; 268 } __attribute__ ((packed)) EckdStage1; 269 270 typedef struct EckdCdlIpl2 { 271 uint8_t key[4]; /* == "IPL2" */ 272 struct EckdStage1 stage1; 273 XEckdMbr mbr; 274 uint8_t reserved[24]; 275 } __attribute__((packed)) EckdCdlIpl2; 276 277 typedef struct EckdLdlIpl1 { 278 uint8_t reserved[24]; 279 struct EckdStage1 stage1; 280 BootInfo bip; /* BootInfo is MBR for LDL */ 281 } __attribute__((packed)) EckdLdlIpl1; 282 283 typedef struct IplVolumeLabel { 284 unsigned char key[4]; /* == "VOL1" */ 285 union { 286 unsigned char data[80]; 287 struct { 288 unsigned char key[4]; /* == "VOL1" */ 289 unsigned char volser[6]; 290 unsigned char reserved[6]; 291 } f; 292 }; 293 } __attribute__((packed)) IplVolumeLabel; 294 295 typedef enum { 296 ECKD_NO_IPL, 297 ECKD_CMS, 298 ECKD_LDL, 299 ECKD_LDL_UNLABELED, 300 } ECKD_IPL_mode_t; 301 302 /* utility code below */ 303 304 static inline void print_volser(const void *volser) 305 { 306 char ascii[8]; 307 308 ebcdic_to_ascii((char *)volser, ascii, 6); 309 ascii[6] = '\0'; 310 sclp_print("VOLSER=["); 311 sclp_print(ascii); 312 sclp_print("]\n"); 313 } 314 315 static inline bool unused_space(const void *p, size_t size) 316 { 317 size_t i; 318 const unsigned char *m = p; 319 320 for (i = 0; i < size; i++) { 321 if (m[i] != FREE_SPACE_FILLER) { 322 return false; 323 } 324 } 325 return true; 326 } 327 328 static inline bool is_null_block_number(block_number_t x) 329 { 330 return x == NULL_BLOCK_NR; 331 } 332 333 static inline void read_block(block_number_t blockno, 334 void *buffer, 335 const char *errmsg) 336 { 337 IPL_assert(virtio_read(blockno, buffer) == 0, errmsg); 338 } 339 340 static inline bool block_size_ok(uint32_t block_size) 341 { 342 return block_size == virtio_get_block_size(); 343 } 344 345 static inline bool magic_match(const void *data, const void *magic) 346 { 347 return *((uint32_t *)data) == *((uint32_t *)magic); 348 } 349 350 static inline uint32_t iso_733_to_u32(uint64_t x) 351 { 352 return (uint32_t)x; 353 } 354 355 #define ISO_SECTOR_SIZE 2048 356 /* El Torito specifies boot image size in 512 byte blocks */ 357 #define ET_SECTOR_SHIFT 2 358 359 #define ISO_PRIMARY_VD_SECTOR 16 360 361 static inline void read_iso_sector(uint32_t block_offset, void *buf, 362 const char *errmsg) 363 { 364 IPL_assert(virtio_read_many(block_offset, buf, 1) == 0, errmsg); 365 } 366 367 static inline void read_iso_boot_image(uint32_t block_offset, void *load_addr, 368 uint32_t blks_to_load) 369 { 370 IPL_assert(virtio_read_many(block_offset, load_addr, blks_to_load) == 0, 371 "Failed to read boot image!"); 372 } 373 374 #define ISO9660_MAX_DIR_DEPTH 8 375 376 typedef struct IsoDirHdr { 377 uint8_t dr_len; 378 uint8_t ear_len; 379 uint64_t ext_loc; 380 uint64_t data_len; 381 uint8_t recording_datetime[7]; 382 uint8_t file_flags; 383 uint8_t file_unit_size; 384 uint8_t gap_size; 385 uint32_t vol_seqnum; 386 uint8_t fileid_len; 387 } __attribute__((packed)) IsoDirHdr; 388 389 typedef struct IsoVdElTorito { 390 uint8_t el_torito[32]; /* must contain el_torito_magic value */ 391 uint8_t unused0[32]; 392 uint32_t bc_offset; 393 uint8_t unused1[1974]; 394 } __attribute__((packed)) IsoVdElTorito; 395 396 typedef struct IsoVdPrimary { 397 uint8_t unused1; 398 uint8_t sys_id[32]; 399 uint8_t vol_id[32]; 400 uint8_t unused2[8]; 401 uint64_t vol_space_size; 402 uint8_t unused3[32]; 403 uint32_t vol_set_size; 404 uint32_t vol_seqnum; 405 uint32_t log_block_size; 406 uint64_t path_table_size; 407 uint32_t l_path_table; 408 uint32_t opt_l_path_table; 409 uint32_t m_path_table; 410 uint32_t opt_m_path_table; 411 IsoDirHdr rootdir; 412 uint8_t root_null; 413 uint8_t reserved2[1858]; 414 } __attribute__((packed)) IsoVdPrimary; 415 416 typedef struct IsoVolDesc { 417 uint8_t type; 418 uint8_t ident[5]; 419 uint8_t version; 420 union { 421 IsoVdElTorito boot; 422 IsoVdPrimary primary; 423 } vd; 424 } __attribute__((packed)) IsoVolDesc; 425 426 #define VOL_DESC_TYPE_BOOT 0 427 #define VOL_DESC_TYPE_PRIMARY 1 428 #define VOL_DESC_TYPE_SUPPLEMENT 2 429 #define VOL_DESC_TYPE_PARTITION 3 430 #define VOL_DESC_TERMINATOR 255 431 432 typedef struct IsoBcValid { 433 uint8_t platform_id; 434 uint16_t reserved; 435 uint8_t id[24]; 436 uint16_t checksum; 437 uint8_t key[2]; 438 } __attribute__((packed)) IsoBcValid; 439 440 typedef struct IsoBcSection { 441 uint8_t boot_type; 442 uint16_t load_segment; 443 uint8_t sys_type; 444 uint8_t unused; 445 uint16_t sector_count; 446 uint32_t load_rba; 447 uint8_t selection[20]; 448 } __attribute__((packed)) IsoBcSection; 449 450 typedef struct IsoBcHdr { 451 uint8_t platform_id; 452 uint16_t sect_num; 453 uint8_t id[28]; 454 } __attribute__((packed)) IsoBcHdr; 455 456 typedef struct IsoBcEntry { 457 uint8_t id; 458 union { 459 IsoBcValid valid; /* id == 0x01 */ 460 IsoBcSection sect; /* id == 0x88 || id == 0x0 */ 461 IsoBcHdr hdr; /* id == 0x90 || id == 0x91 */ 462 } body; 463 } __attribute__((packed)) IsoBcEntry; 464 465 #define ISO_BC_ENTRY_PER_SECTOR (ISO_SECTOR_SIZE / sizeof(IsoBcEntry)) 466 #define ISO_BC_HDR_VALIDATION 0x01 467 #define ISO_BC_BOOTABLE_SECTION 0x88 468 #define ISO_BC_MAGIC_55 0x55 469 #define ISO_BC_MAGIC_AA 0xaa 470 #define ISO_BC_PLATFORM_X86 0x0 471 #define ISO_BC_PLATFORM_PPC 0x1 472 #define ISO_BC_PLATFORM_MAC 0x2 473 474 static inline bool is_iso_bc_valid(IsoBcEntry *e) 475 { 476 IsoBcValid *v = &e->body.valid; 477 478 if (e->id != ISO_BC_HDR_VALIDATION) { 479 return false; 480 } 481 482 if (v->platform_id != ISO_BC_PLATFORM_X86 && 483 v->platform_id != ISO_BC_PLATFORM_PPC && 484 v->platform_id != ISO_BC_PLATFORM_MAC) { 485 return false; 486 } 487 488 return v->key[0] == ISO_BC_MAGIC_55 && 489 v->key[1] == ISO_BC_MAGIC_AA && 490 v->reserved == 0x0; 491 } 492 493 #endif /* _PC_BIOS_S390_CCW_BOOTMAP_H */ 494