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 0xffffffffffffffff 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 EckdBlockPtr { 36 uint16_t cylinder; /* cylinder/head/sector is an address of the block */ 37 uint16_t head; 38 uint8_t sector; 39 uint16_t size; 40 uint8_t count; /* (size_in_blocks-1); 41 * it's 0 for TablePtr, ScriptPtr, and SectionPtr */ 42 } __attribute__ ((packed)) EckdBlockPtr; 43 44 typedef struct ExtEckdBlockPtr { 45 EckdBlockPtr bptr; 46 uint8_t reserved[8]; 47 } __attribute__ ((packed)) ExtEckdBlockPtr; 48 49 typedef union BootMapPointer { 50 ScsiBlockPtr scsi; 51 FbaBlockPtr fba; 52 EckdBlockPtr eckd; 53 ExtEckdBlockPtr xeckd; 54 } __attribute__ ((packed)) BootMapPointer; 55 56 typedef struct ComponentEntry { 57 ScsiBlockPtr data; 58 uint8_t pad[7]; 59 uint8_t component_type; 60 uint64_t load_address; 61 } __attribute((packed)) ComponentEntry; 62 63 typedef struct ComponentHeader { 64 uint8_t magic[4]; /* == "zIPL" */ 65 uint8_t type; /* == ZIPL_COMP_HEADER_* */ 66 uint8_t reserved[27]; 67 } __attribute((packed)) ComponentHeader; 68 69 typedef struct ScsiMbr { 70 uint8_t magic[4]; 71 uint32_t version_id; 72 uint8_t reserved[8]; 73 ScsiBlockPtr blockptr; 74 } __attribute__ ((packed)) ScsiMbr; 75 76 #define ZIPL_MAGIC "zIPL" 77 #define IPL1_MAGIC "\xc9\xd7\xd3\xf1" /* == "IPL1" in EBCDIC */ 78 #define IPL2_MAGIC "\xc9\xd7\xd3\xf2" /* == "IPL2" in EBCDIC */ 79 #define VOL1_MAGIC "\xe5\xd6\xd3\xf1" /* == "VOL1" in EBCDIC */ 80 #define LNX1_MAGIC "\xd3\xd5\xe7\xf1" /* == "LNX1" in EBCDIC */ 81 #define CMS1_MAGIC "\xc3\xd4\xe2\xf1" /* == "CMS1" in EBCDIC */ 82 83 #define LDL1_VERSION '\x40' /* == ' ' in EBCDIC */ 84 #define LDL2_VERSION '\xf2' /* == '2' in EBCDIC */ 85 86 #define ZIPL_COMP_HEADER_IPL 0x00 87 #define ZIPL_COMP_HEADER_DUMP 0x01 88 89 #define ZIPL_COMP_ENTRY_LOAD 0x02 90 #define ZIPL_COMP_ENTRY_EXEC 0x01 91 92 typedef struct XEckdMbr { 93 uint8_t magic[4]; /* == "xIPL" */ 94 uint8_t version; 95 uint8_t bp_type; 96 uint8_t dev_type; /* == DEV_TYPE_* */ 97 #define DEV_TYPE_ECKD 0x00 98 #define DEV_TYPE_FBA 0x01 99 uint8_t flags; 100 BootMapPointer blockptr; 101 uint8_t reserved[8]; 102 } __attribute__ ((packed)) XEckdMbr; /* see also BootInfo */ 103 104 typedef struct BootMapScriptEntry { 105 BootMapPointer blkptr; 106 uint8_t pad[7]; 107 uint8_t type; /* == BOOT_SCRIPT_* */ 108 #define BOOT_SCRIPT_EXEC 0x01 109 #define BOOT_SCRIPT_LOAD 0x02 110 union { 111 uint64_t load_address; 112 uint64_t load_psw; 113 } address; 114 } __attribute__ ((packed)) BootMapScriptEntry; 115 116 typedef struct BootMapScriptHeader { 117 uint32_t magic; 118 uint8_t type; 119 #define BOOT_SCRIPT_HDR_IPL 0x00 120 uint8_t reserved[27]; 121 } __attribute__ ((packed)) BootMapScriptHeader; 122 123 typedef struct BootMapScript { 124 BootMapScriptHeader header; 125 BootMapScriptEntry entry[0]; 126 } __attribute__ ((packed)) BootMapScript; 127 128 /* 129 * These aren't real VTOCs, but referred to this way in some docs. 130 * They are "volume labels" actually. 131 * 132 * Some structures looks similar to described above, but left 133 * separate as there is no indication that they are the same. 134 * So, the value definitions are left separate too. 135 */ 136 typedef struct LDL_VTOC { /* @ rec.3 cyl.0 trk.0 for ECKD */ 137 char magic[4]; /* "LNX1", EBCDIC */ 138 char volser[6]; /* volser, EBCDIC */ 139 uint8_t reserved[69]; /* reserved, 0x40 */ 140 uint8_t LDL_version; /* 0x40 or 0xF2 */ 141 uint64_t formatted_blocks; /* if LDL_version >= 0xF2 */ 142 } __attribute__ ((packed)) LDL_VTOC; 143 144 typedef struct format_date { 145 uint8_t YY; 146 uint8_t MM; 147 uint8_t DD; 148 uint8_t hh; 149 uint8_t mm; 150 uint8_t ss; 151 } __attribute__ ((packed)) format_date_t; 152 153 typedef struct CMS_VTOC { /* @ rec.3 cyl.0 trk.0 for ECKD */ 154 /* @ blk.1 (zero based) for FBA */ 155 char magic[4]; /* 'CMS1', EBCDIC */ 156 char volser[6]; /* volser, EBCDIC */ 157 uint16_t version; /* = 0 */ 158 uint32_t block_size; /* = 512, 1024, 2048, or 4096 */ 159 uint32_t disk_origin; /* = 4 or 5 */ 160 uint32_t blocks; /* Number of usable cyls/blocks */ 161 uint32_t formatted; /* Max number of fmtd cyls/blks */ 162 uint32_t CMS_blocks; /* disk size in CMS blocks */ 163 uint32_t CMS_used; /* Number of CMS blocks in use */ 164 uint32_t FST_size; /* = 64, bytes */ 165 uint32_t FST_per_CMS_blk; /* */ 166 format_date_t format_date; /* YYMMDDhhmmss as 6 bytes */ 167 uint8_t reserved1[2]; /* = 0 */ 168 uint32_t offset; /* disk offset when reserved */ 169 uint32_t next_hole; /* block nr */ 170 uint32_t HBLK_hole_offset; /* >> HBLK data of next hole */ 171 uint32_t alloc_map_usr_off; /* >> user part of Alloc map */ 172 uint8_t reserved2[4]; /* = 0 */ 173 char shared_seg_name[8]; /* */ 174 } __attribute__ ((packed)) CMS_VTOC; 175 176 /* from zipl/include/boot.h */ 177 typedef struct BootInfoBpIpl { 178 union { 179 ExtEckdBlockPtr eckd; 180 ScsiBlockPtr linr; 181 } bm_ptr; 182 uint8_t unused[16]; 183 } __attribute__ ((packed)) BootInfoBpIpl; 184 185 typedef struct EckdDumpParam { 186 uint32_t start_blk; 187 uint32_t end_blk; 188 uint16_t blocksize; 189 uint8_t num_heads; 190 uint8_t bpt; 191 char reserved[4]; 192 } __attribute((packed, may_alias)) EckdDumpParam; 193 194 typedef struct FbaDumpParam { 195 uint64_t start_blk; 196 uint64_t blockct; 197 } __attribute((packed)) FbaDumpParam; 198 199 typedef struct BootInfoBpDump { 200 union { 201 EckdDumpParam eckd; 202 FbaDumpParam fba; 203 } param; 204 uint8_t unused[16]; 205 } __attribute__ ((packed)) BootInfoBpDump; 206 207 typedef struct BootInfo { /* @ 0x70, record #0 */ 208 unsigned char magic[4]; /* = 'zIPL', ASCII */ 209 uint8_t version; /* = 1 */ 210 #define BOOT_INFO_VERSION 1 211 uint8_t bp_type; /* = 0 */ 212 #define BOOT_INFO_BP_TYPE_IPL 0x00 213 #define BOOT_INFO_BP_TYPE_DUMP 0x01 214 uint8_t dev_type; /* = 0 */ 215 #define BOOT_INFO_DEV_TYPE_ECKD 0x00 216 #define BOOT_INFO_DEV_TYPE_FBA 0x01 217 uint8_t flags; /* = 1 */ 218 #ifdef __s390x__ 219 #define BOOT_INFO_FLAGS_ARCH 0x01 220 #else 221 #define BOOT_INFO_FLAGS_ARCH 0x00 222 #endif 223 union { 224 BootInfoBpDump dump; 225 BootInfoBpIpl ipl; 226 } bp; 227 } __attribute__ ((packed)) BootInfo; /* see also XEckdMbr */ 228 229 typedef struct Ipl1 { 230 unsigned char key[4]; /* == "IPL1" */ 231 unsigned char data[24]; 232 } __attribute__((packed)) Ipl1; 233 234 typedef struct Ipl2 { 235 unsigned char key[4]; /* == "IPL2" */ 236 union { 237 unsigned char data[144]; 238 struct { 239 unsigned char reserved1[92-4]; 240 XEckdMbr mbr; 241 unsigned char reserved2[144-(92-4)-sizeof(XEckdMbr)]; 242 } x; 243 } u; 244 } __attribute__((packed)) Ipl2; 245 246 typedef struct IplVolumeLabel { 247 unsigned char key[4]; /* == "VOL1" */ 248 union { 249 unsigned char data[80]; 250 struct { 251 unsigned char key[4]; /* == "VOL1" */ 252 unsigned char volser[6]; 253 unsigned char reserved[6]; 254 } f; 255 }; 256 } __attribute__((packed)) IplVolumeLabel; 257 258 typedef enum { 259 ECKD_NO_IPL, 260 ECKD_CMS, 261 ECKD_LDL, 262 ECKD_LDL_UNLABELED, 263 } ECKD_IPL_mode_t; 264 265 /* utility code below */ 266 267 static inline void IPL_assert(bool term, const char *message) 268 { 269 if (!term) { 270 sclp_print("\n! "); 271 sclp_print(message); 272 virtio_panic(" !\n"); /* no return */ 273 } 274 } 275 276 static const unsigned char ebc2asc[256] = 277 /* 0123456789abcdef0123456789abcdef */ 278 "................................" /* 1F */ 279 "................................" /* 3F */ 280 " ...........<(+|&.........!$*);." /* 5F first.chr.here.is.real.space */ 281 "-/.........,%_>?.........`:#@'=\""/* 7F */ 282 ".abcdefghi.......jklmnopqr......" /* 9F */ 283 "..stuvwxyz......................" /* BF */ 284 ".ABCDEFGHI.......JKLMNOPQR......" /* DF */ 285 "..STUVWXYZ......0123456789......";/* FF */ 286 287 static inline void ebcdic_to_ascii(const char *src, 288 char *dst, 289 unsigned int size) 290 { 291 unsigned int i; 292 for (i = 0; i < size; i++) { 293 unsigned c = src[i]; 294 dst[i] = ebc2asc[c]; 295 } 296 } 297 298 static inline void print_volser(const void *volser) 299 { 300 char ascii[8]; 301 302 ebcdic_to_ascii((char *)volser, ascii, 6); 303 ascii[6] = '\0'; 304 sclp_print("VOLSER=["); 305 sclp_print(ascii); 306 sclp_print("]\n"); 307 } 308 309 static inline bool unused_space(const void *p, size_t size) 310 { 311 size_t i; 312 const unsigned char *m = p; 313 314 for (i = 0; i < size; i++) { 315 if (m[i] != FREE_SPACE_FILLER) { 316 return false; 317 } 318 } 319 return true; 320 } 321 322 static inline bool is_null_block_number(block_number_t x) 323 { 324 return x == NULL_BLOCK_NR; 325 } 326 327 static inline void read_block(block_number_t blockno, 328 void *buffer, 329 const char *errmsg) 330 { 331 IPL_assert(virtio_read(blockno, buffer) == 0, errmsg); 332 } 333 334 static inline bool block_size_ok(uint32_t block_size) 335 { 336 return block_size == virtio_get_block_size(); 337 } 338 339 static inline bool magic_match(const void *data, const void *magic) 340 { 341 return *((uint32_t *)data) == *((uint32_t *)magic); 342 } 343 344 #endif /* _PC_BIOS_S390_CCW_BOOTMAP_H */ 345