elf.c revision 1.19
1 1.19 maxv /* $NetBSD: elf.c,v 1.19 2020/05/05 19:26:47 maxv Exp $ */ 2 1.1 maxv 3 1.1 maxv /* 4 1.1 maxv * Copyright (c) 2017 The NetBSD Foundation, Inc. All rights reserved. 5 1.1 maxv * 6 1.1 maxv * This code is derived from software contributed to The NetBSD Foundation 7 1.1 maxv * by Maxime Villard. 8 1.1 maxv * 9 1.1 maxv * Redistribution and use in source and binary forms, with or without 10 1.1 maxv * modification, are permitted provided that the following conditions 11 1.1 maxv * are met: 12 1.1 maxv * 1. Redistributions of source code must retain the above copyright 13 1.1 maxv * notice, this list of conditions and the following disclaimer. 14 1.1 maxv * 2. Redistributions in binary form must reproduce the above copyright 15 1.1 maxv * notice, this list of conditions and the following disclaimer in the 16 1.1 maxv * documentation and/or other materials provided with the distribution. 17 1.1 maxv * 18 1.1 maxv * THIS SOFTWARE IS PROVIDED BY THE NETBSD FOUNDATION, INC. AND CONTRIBUTORS 19 1.1 maxv * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED 20 1.1 maxv * TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR 21 1.1 maxv * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE FOUNDATION OR CONTRIBUTORS 22 1.1 maxv * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR 23 1.1 maxv * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF 24 1.1 maxv * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS 25 1.1 maxv * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN 26 1.1 maxv * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) 27 1.1 maxv * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE 28 1.1 maxv * POSSIBILITY OF SUCH DAMAGE. 29 1.1 maxv */ 30 1.1 maxv 31 1.1 maxv #define ELFSIZE 64 32 1.1 maxv 33 1.1 maxv #include "prekern.h" 34 1.1 maxv #include <sys/exec_elf.h> 35 1.1 maxv 36 1.1 maxv struct elfinfo { 37 1.1 maxv Elf_Ehdr *ehdr; 38 1.1 maxv Elf_Shdr *shdr; 39 1.1 maxv char *shstrtab; 40 1.1 maxv size_t shstrsz; 41 1.1 maxv Elf_Sym *symtab; 42 1.1 maxv size_t symcnt; 43 1.1 maxv char *strtab; 44 1.1 maxv size_t strsz; 45 1.1 maxv }; 46 1.1 maxv 47 1.4 maxv extern paddr_t kernpa_start, kernpa_end; 48 1.4 maxv 49 1.1 maxv static struct elfinfo eif; 50 1.1 maxv static const char entrypoint[] = "start_prekern"; 51 1.1 maxv 52 1.1 maxv static int 53 1.13 maxv elf_check_header(void) 54 1.1 maxv { 55 1.1 maxv if (memcmp((char *)eif.ehdr->e_ident, ELFMAG, SELFMAG) != 0 || 56 1.2 maxv eif.ehdr->e_ident[EI_CLASS] != ELFCLASS || 57 1.2 maxv eif.ehdr->e_type != ET_REL) { 58 1.1 maxv return -1; 59 1.1 maxv } 60 1.1 maxv return 0; 61 1.1 maxv } 62 1.1 maxv 63 1.1 maxv static vaddr_t 64 1.13 maxv elf_get_entrypoint(void) 65 1.1 maxv { 66 1.1 maxv Elf_Sym *sym; 67 1.1 maxv size_t i; 68 1.1 maxv char *buf; 69 1.1 maxv 70 1.1 maxv for (i = 0; i < eif.symcnt; i++) { 71 1.1 maxv sym = &eif.symtab[i]; 72 1.1 maxv 73 1.1 maxv if (ELF_ST_TYPE(sym->st_info) != STT_FUNC) 74 1.1 maxv continue; 75 1.1 maxv if (sym->st_name == 0) 76 1.1 maxv continue; 77 1.1 maxv if (sym->st_shndx == SHN_UNDEF) 78 1.1 maxv continue; /* Skip external references */ 79 1.1 maxv buf = eif.strtab + sym->st_name; 80 1.1 maxv 81 1.1 maxv if (!memcmp(buf, entrypoint, sizeof(entrypoint))) { 82 1.1 maxv return (vaddr_t)sym->st_value; 83 1.1 maxv } 84 1.1 maxv } 85 1.1 maxv 86 1.1 maxv return 0; 87 1.1 maxv } 88 1.1 maxv 89 1.1 maxv static Elf_Shdr * 90 1.1 maxv elf_find_section(char *name) 91 1.1 maxv { 92 1.1 maxv char *buf; 93 1.1 maxv size_t i; 94 1.1 maxv 95 1.1 maxv for (i = 0; i < eif.ehdr->e_shnum; i++) { 96 1.1 maxv if (eif.shdr[i].sh_name == 0) { 97 1.1 maxv continue; 98 1.1 maxv } 99 1.1 maxv buf = eif.shstrtab + eif.shdr[i].sh_name; 100 1.1 maxv if (!strcmp(name, buf)) { 101 1.1 maxv return &eif.shdr[i]; 102 1.1 maxv } 103 1.1 maxv } 104 1.1 maxv 105 1.1 maxv return NULL; 106 1.1 maxv } 107 1.1 maxv 108 1.1 maxv static uintptr_t 109 1.1 maxv elf_sym_lookup(size_t symidx) 110 1.1 maxv { 111 1.1 maxv const Elf_Sym *sym; 112 1.1 maxv char *buf, *secname; 113 1.1 maxv Elf_Shdr *sec; 114 1.1 maxv 115 1.6 maxv if (symidx == STN_UNDEF) { 116 1.6 maxv return 0; 117 1.6 maxv } 118 1.6 maxv 119 1.1 maxv if (symidx >= eif.symcnt) { 120 1.1 maxv fatal("elf_sym_lookup: symbol beyond table"); 121 1.1 maxv } 122 1.1 maxv sym = &eif.symtab[symidx]; 123 1.1 maxv buf = eif.strtab + sym->st_name; 124 1.1 maxv 125 1.1 maxv if (sym->st_shndx == SHN_UNDEF) { 126 1.1 maxv if (!memcmp(buf, "__start_link_set", 16)) { 127 1.1 maxv secname = buf + 8; 128 1.1 maxv sec = elf_find_section(secname); 129 1.1 maxv if (sec == NULL) { 130 1.1 maxv fatal("elf_sym_lookup: unknown start link set"); 131 1.1 maxv } 132 1.1 maxv return (uintptr_t)((uint8_t *)eif.ehdr + 133 1.1 maxv sec->sh_offset); 134 1.1 maxv } 135 1.1 maxv if (!memcmp(buf, "__stop_link_set", 15)) { 136 1.1 maxv secname = buf + 7; 137 1.1 maxv sec = elf_find_section(secname); 138 1.1 maxv if (sec == NULL) { 139 1.1 maxv fatal("elf_sym_lookup: unknown stop link set"); 140 1.1 maxv } 141 1.1 maxv return (uintptr_t)((uint8_t *)eif.ehdr + 142 1.1 maxv sec->sh_offset + sec->sh_size); 143 1.1 maxv } 144 1.1 maxv 145 1.1 maxv fatal("elf_sym_lookup: external symbol"); 146 1.1 maxv } 147 1.1 maxv if (sym->st_value == 0) { 148 1.1 maxv fatal("elf_sym_lookup: zero value"); 149 1.1 maxv } 150 1.1 maxv return (uintptr_t)sym->st_value; 151 1.1 maxv } 152 1.1 maxv 153 1.1 maxv static void 154 1.1 maxv elf_apply_reloc(uintptr_t relocbase, const void *data, bool isrela) 155 1.1 maxv { 156 1.1 maxv Elf64_Addr *where, val; 157 1.1 maxv Elf32_Addr *where32, val32; 158 1.1 maxv Elf64_Addr addr; 159 1.1 maxv Elf64_Addr addend; 160 1.1 maxv uintptr_t rtype, symidx; 161 1.1 maxv const Elf_Rel *rel; 162 1.1 maxv const Elf_Rela *rela; 163 1.1 maxv 164 1.1 maxv if (isrela) { 165 1.1 maxv rela = (const Elf_Rela *)data; 166 1.1 maxv where = (Elf64_Addr *)(relocbase + rela->r_offset); 167 1.1 maxv addend = rela->r_addend; 168 1.1 maxv rtype = ELF_R_TYPE(rela->r_info); 169 1.1 maxv symidx = ELF_R_SYM(rela->r_info); 170 1.1 maxv } else { 171 1.1 maxv rel = (const Elf_Rel *)data; 172 1.1 maxv where = (Elf64_Addr *)(relocbase + rel->r_offset); 173 1.1 maxv rtype = ELF_R_TYPE(rel->r_info); 174 1.1 maxv symidx = ELF_R_SYM(rel->r_info); 175 1.1 maxv /* Addend is 32 bit on 32 bit relocs */ 176 1.1 maxv switch (rtype) { 177 1.1 maxv case R_X86_64_PC32: 178 1.1 maxv case R_X86_64_32: 179 1.1 maxv case R_X86_64_32S: 180 1.1 maxv addend = *(Elf32_Addr *)where; 181 1.1 maxv break; 182 1.1 maxv default: 183 1.1 maxv addend = *where; 184 1.1 maxv break; 185 1.1 maxv } 186 1.1 maxv } 187 1.1 maxv 188 1.1 maxv switch (rtype) { 189 1.1 maxv case R_X86_64_NONE: /* none */ 190 1.1 maxv break; 191 1.1 maxv 192 1.1 maxv case R_X86_64_64: /* S + A */ 193 1.1 maxv addr = elf_sym_lookup(symidx); 194 1.1 maxv val = addr + addend; 195 1.1 maxv *where = val; 196 1.1 maxv break; 197 1.1 maxv 198 1.1 maxv case R_X86_64_PC32: /* S + A - P */ 199 1.18 maxv case R_X86_64_PLT32: 200 1.1 maxv addr = elf_sym_lookup(symidx); 201 1.1 maxv where32 = (Elf32_Addr *)where; 202 1.1 maxv val32 = (Elf32_Addr)(addr + addend - (Elf64_Addr)where); 203 1.1 maxv *where32 = val32; 204 1.1 maxv break; 205 1.1 maxv 206 1.1 maxv case R_X86_64_32: /* S + A */ 207 1.1 maxv case R_X86_64_32S: /* S + A sign extend */ 208 1.1 maxv addr = elf_sym_lookup(symidx); 209 1.1 maxv val32 = (Elf32_Addr)(addr + addend); 210 1.1 maxv where32 = (Elf32_Addr *)where; 211 1.1 maxv *where32 = val32; 212 1.1 maxv break; 213 1.1 maxv 214 1.1 maxv case R_X86_64_GLOB_DAT: /* S */ 215 1.1 maxv case R_X86_64_JUMP_SLOT:/* XXX need addend + offset */ 216 1.1 maxv addr = elf_sym_lookup(symidx); 217 1.1 maxv *where = addr; 218 1.1 maxv break; 219 1.1 maxv 220 1.1 maxv case R_X86_64_RELATIVE: /* B + A */ 221 1.1 maxv addr = relocbase + addend; 222 1.1 maxv val = addr; 223 1.1 maxv *where = val; 224 1.1 maxv break; 225 1.1 maxv 226 1.1 maxv default: 227 1.1 maxv fatal("elf_apply_reloc: unexpected relocation type"); 228 1.1 maxv } 229 1.1 maxv } 230 1.1 maxv 231 1.4 maxv /* -------------------------------------------------------------------------- */ 232 1.4 maxv 233 1.4 maxv size_t 234 1.4 maxv elf_get_head_size(vaddr_t headva) 235 1.4 maxv { 236 1.4 maxv Elf_Ehdr *ehdr; 237 1.4 maxv Elf_Shdr *shdr; 238 1.4 maxv size_t size; 239 1.4 maxv 240 1.4 maxv ehdr = (Elf_Ehdr *)headva; 241 1.4 maxv shdr = (Elf_Shdr *)((uint8_t *)ehdr + ehdr->e_shoff); 242 1.4 maxv 243 1.4 maxv size = (vaddr_t)shdr + (vaddr_t)(ehdr->e_shnum * sizeof(Elf_Shdr)) - 244 1.4 maxv (vaddr_t)ehdr; 245 1.4 maxv 246 1.4 maxv return roundup(size, PAGE_SIZE); 247 1.4 maxv } 248 1.4 maxv 249 1.4 maxv void 250 1.4 maxv elf_build_head(vaddr_t headva) 251 1.4 maxv { 252 1.4 maxv memset(&eif, 0, sizeof(struct elfinfo)); 253 1.4 maxv 254 1.4 maxv eif.ehdr = (Elf_Ehdr *)headva; 255 1.4 maxv eif.shdr = (Elf_Shdr *)((uint8_t *)eif.ehdr + eif.ehdr->e_shoff); 256 1.4 maxv 257 1.4 maxv if (elf_check_header() == -1) { 258 1.5 maxv fatal("elf_build_head: wrong kernel ELF header"); 259 1.4 maxv } 260 1.4 maxv } 261 1.4 maxv 262 1.19 maxv static bool 263 1.19 maxv elf_section_mappable(Elf_Shdr *shdr) 264 1.19 maxv { 265 1.19 maxv if (!(shdr->sh_flags & SHF_ALLOC)) { 266 1.19 maxv return false; 267 1.19 maxv } 268 1.19 maxv if (shdr->sh_type != SHT_NOBITS && 269 1.19 maxv shdr->sh_type != SHT_PROGBITS) { 270 1.19 maxv return false; 271 1.19 maxv } 272 1.19 maxv return true; 273 1.19 maxv } 274 1.19 maxv 275 1.4 maxv void 276 1.13 maxv elf_map_sections(void) 277 1.4 maxv { 278 1.4 maxv const paddr_t basepa = kernpa_start; 279 1.4 maxv const vaddr_t headva = (vaddr_t)eif.ehdr; 280 1.10 maxv Elf_Shdr *shdr; 281 1.10 maxv int segtype; 282 1.10 maxv vaddr_t secva; 283 1.10 maxv paddr_t secpa; 284 1.14 maxv size_t i, secsz, secalign; 285 1.4 maxv 286 1.4 maxv for (i = 0; i < eif.ehdr->e_shnum; i++) { 287 1.10 maxv shdr = &eif.shdr[i]; 288 1.4 maxv 289 1.19 maxv if (!elf_section_mappable(shdr)) { 290 1.4 maxv continue; 291 1.4 maxv } 292 1.4 maxv 293 1.10 maxv if (shdr->sh_flags & SHF_EXECINSTR) { 294 1.10 maxv segtype = BTSEG_TEXT; 295 1.10 maxv } else if (shdr->sh_flags & SHF_WRITE) { 296 1.10 maxv segtype = BTSEG_DATA; 297 1.10 maxv } else { 298 1.10 maxv segtype = BTSEG_RODATA; 299 1.4 maxv } 300 1.10 maxv secpa = basepa + shdr->sh_offset; 301 1.10 maxv secsz = shdr->sh_size; 302 1.14 maxv secalign = shdr->sh_addralign; 303 1.10 maxv ASSERT(shdr->sh_offset != 0); 304 1.10 maxv ASSERT(secpa % PAGE_SIZE == 0); 305 1.16 maxv ASSERT(secpa + secsz <= kernpa_end); 306 1.4 maxv 307 1.14 maxv secva = mm_map_segment(segtype, secpa, secsz, secalign); 308 1.4 maxv 309 1.4 maxv /* We want (headva + sh_offset) to be the VA of the section. */ 310 1.12 maxv ASSERT(secva > headva); 311 1.10 maxv shdr->sh_offset = secva - headva; 312 1.4 maxv } 313 1.4 maxv } 314 1.4 maxv 315 1.4 maxv void 316 1.4 maxv elf_build_boot(vaddr_t bootva, paddr_t bootpa) 317 1.1 maxv { 318 1.4 maxv const paddr_t basepa = kernpa_start; 319 1.4 maxv const vaddr_t headva = (vaddr_t)eif.ehdr; 320 1.4 maxv size_t i, j, offboot; 321 1.1 maxv 322 1.4 maxv for (i = 0; i < eif.ehdr->e_shnum; i++) { 323 1.4 maxv if (eif.shdr[i].sh_type != SHT_STRTAB && 324 1.4 maxv eif.shdr[i].sh_type != SHT_REL && 325 1.4 maxv eif.shdr[i].sh_type != SHT_RELA && 326 1.4 maxv eif.shdr[i].sh_type != SHT_SYMTAB) { 327 1.4 maxv continue; 328 1.4 maxv } 329 1.4 maxv if (eif.shdr[i].sh_offset == 0) { 330 1.4 maxv /* hasn't been loaded */ 331 1.4 maxv continue; 332 1.4 maxv } 333 1.1 maxv 334 1.4 maxv /* Offset of the section within the boot region. */ 335 1.4 maxv offboot = basepa + eif.shdr[i].sh_offset - bootpa; 336 1.1 maxv 337 1.4 maxv /* We want (headva + sh_offset) to be the VA of the region. */ 338 1.4 maxv eif.shdr[i].sh_offset = (bootva + offboot - headva); 339 1.1 maxv } 340 1.1 maxv 341 1.1 maxv /* Locate the section names */ 342 1.1 maxv j = eif.ehdr->e_shstrndx; 343 1.1 maxv if (j == SHN_UNDEF) { 344 1.5 maxv fatal("elf_build_boot: shstrtab not found"); 345 1.1 maxv } 346 1.1 maxv if (j >= eif.ehdr->e_shnum) { 347 1.5 maxv fatal("elf_build_boot: wrong shstrtab index"); 348 1.1 maxv } 349 1.1 maxv eif.shstrtab = (char *)((uint8_t *)eif.ehdr + eif.shdr[j].sh_offset); 350 1.1 maxv eif.shstrsz = eif.shdr[j].sh_size; 351 1.1 maxv 352 1.1 maxv /* Locate the symbol table */ 353 1.1 maxv for (i = 0; i < eif.ehdr->e_shnum; i++) { 354 1.1 maxv if (eif.shdr[i].sh_type == SHT_SYMTAB) 355 1.1 maxv break; 356 1.1 maxv } 357 1.1 maxv if (i == eif.ehdr->e_shnum) { 358 1.5 maxv fatal("elf_build_boot: symtab not found"); 359 1.1 maxv } 360 1.17 maxv if (eif.shdr[i].sh_offset == 0) { 361 1.17 maxv fatal("elf_build_boot: symtab not loaded"); 362 1.17 maxv } 363 1.1 maxv eif.symtab = (Elf_Sym *)((uint8_t *)eif.ehdr + eif.shdr[i].sh_offset); 364 1.1 maxv eif.symcnt = eif.shdr[i].sh_size / sizeof(Elf_Sym); 365 1.1 maxv 366 1.1 maxv /* Also locate the string table */ 367 1.1 maxv j = eif.shdr[i].sh_link; 368 1.1 maxv if (j == SHN_UNDEF || j >= eif.ehdr->e_shnum) { 369 1.5 maxv fatal("elf_build_boot: wrong strtab index"); 370 1.1 maxv } 371 1.1 maxv if (eif.shdr[j].sh_type != SHT_STRTAB) { 372 1.5 maxv fatal("elf_build_boot: wrong strtab type"); 373 1.1 maxv } 374 1.17 maxv if (eif.shdr[j].sh_offset == 0) { 375 1.17 maxv fatal("elf_build_boot: strtab not loaded"); 376 1.17 maxv } 377 1.1 maxv eif.strtab = (char *)((uint8_t *)eif.ehdr + eif.shdr[j].sh_offset); 378 1.1 maxv eif.strsz = eif.shdr[j].sh_size; 379 1.1 maxv } 380 1.1 maxv 381 1.1 maxv vaddr_t 382 1.13 maxv elf_kernel_reloc(void) 383 1.1 maxv { 384 1.4 maxv const vaddr_t baseva = (vaddr_t)eif.ehdr; 385 1.1 maxv vaddr_t secva, ent; 386 1.1 maxv Elf_Sym *sym; 387 1.1 maxv size_t i, j; 388 1.1 maxv 389 1.1 maxv print_state(true, "ELF info created"); 390 1.1 maxv 391 1.1 maxv /* 392 1.1 maxv * Update all symbol values with the appropriate offset. 393 1.1 maxv */ 394 1.1 maxv for (i = 0; i < eif.ehdr->e_shnum; i++) { 395 1.19 maxv if (!elf_section_mappable(&eif.shdr[i])) { 396 1.1 maxv continue; 397 1.1 maxv } 398 1.19 maxv 399 1.17 maxv ASSERT(eif.shdr[i].sh_offset != 0); 400 1.1 maxv secva = baseva + eif.shdr[i].sh_offset; 401 1.1 maxv for (j = 0; j < eif.symcnt; j++) { 402 1.1 maxv sym = &eif.symtab[j]; 403 1.1 maxv if (sym->st_shndx != i) { 404 1.1 maxv continue; 405 1.1 maxv } 406 1.1 maxv sym->st_value += (Elf_Addr)secva; 407 1.1 maxv } 408 1.1 maxv } 409 1.1 maxv 410 1.1 maxv print_state(true, "Symbol values updated"); 411 1.1 maxv 412 1.1 maxv /* 413 1.1 maxv * Perform relocations without addend if there are any. 414 1.1 maxv */ 415 1.1 maxv for (i = 0; i < eif.ehdr->e_shnum; i++) { 416 1.1 maxv Elf_Rel *reltab, *rel; 417 1.1 maxv size_t secidx, nrel; 418 1.1 maxv uintptr_t base; 419 1.1 maxv 420 1.17 maxv if (eif.shdr[i].sh_type != SHT_REL) { 421 1.1 maxv continue; 422 1.17 maxv } 423 1.17 maxv ASSERT(eif.shdr[i].sh_offset != 0); 424 1.1 maxv reltab = (Elf_Rel *)((uint8_t *)eif.ehdr + eif.shdr[i].sh_offset); 425 1.1 maxv nrel = eif.shdr[i].sh_size / sizeof(Elf_Rel); 426 1.1 maxv 427 1.1 maxv secidx = eif.shdr[i].sh_info; 428 1.1 maxv if (secidx >= eif.ehdr->e_shnum) { 429 1.19 maxv fatal("elf_kernel_reloc: REL sh_info is malformed"); 430 1.19 maxv } 431 1.19 maxv if (!elf_section_mappable(&eif.shdr[secidx])) { 432 1.19 maxv fatal("elf_kernel_reloc: REL sh_info not mappable"); 433 1.1 maxv } 434 1.1 maxv base = (uintptr_t)eif.ehdr + eif.shdr[secidx].sh_offset; 435 1.1 maxv 436 1.1 maxv for (j = 0; j < nrel; j++) { 437 1.1 maxv rel = &reltab[j]; 438 1.1 maxv elf_apply_reloc(base, rel, false); 439 1.1 maxv } 440 1.1 maxv } 441 1.1 maxv 442 1.1 maxv print_state(true, "REL relocations applied"); 443 1.1 maxv 444 1.1 maxv /* 445 1.1 maxv * Perform relocations with addend if there are any. 446 1.1 maxv */ 447 1.1 maxv for (i = 0; i < eif.ehdr->e_shnum; i++) { 448 1.1 maxv Elf_Rela *relatab, *rela; 449 1.1 maxv size_t secidx, nrela; 450 1.1 maxv uintptr_t base; 451 1.1 maxv 452 1.17 maxv if (eif.shdr[i].sh_type != SHT_RELA) { 453 1.1 maxv continue; 454 1.17 maxv } 455 1.17 maxv ASSERT(eif.shdr[i].sh_offset != 0); 456 1.1 maxv relatab = (Elf_Rela *)((uint8_t *)eif.ehdr + eif.shdr[i].sh_offset); 457 1.1 maxv nrela = eif.shdr[i].sh_size / sizeof(Elf_Rela); 458 1.1 maxv 459 1.1 maxv secidx = eif.shdr[i].sh_info; 460 1.1 maxv if (secidx >= eif.ehdr->e_shnum) { 461 1.19 maxv fatal("elf_kernel_reloc: RELA sh_info is malformed"); 462 1.19 maxv } 463 1.19 maxv if (!elf_section_mappable(&eif.shdr[secidx])) { 464 1.19 maxv fatal("elf_kernel_reloc: RELA sh_info not mappable"); 465 1.1 maxv } 466 1.1 maxv base = (uintptr_t)eif.ehdr + eif.shdr[secidx].sh_offset; 467 1.1 maxv 468 1.1 maxv for (j = 0; j < nrela; j++) { 469 1.1 maxv rela = &relatab[j]; 470 1.1 maxv elf_apply_reloc(base, rela, true); 471 1.1 maxv } 472 1.1 maxv } 473 1.1 maxv 474 1.1 maxv print_state(true, "RELA relocations applied"); 475 1.1 maxv 476 1.1 maxv /* 477 1.1 maxv * Get the entry point. 478 1.1 maxv */ 479 1.13 maxv ent = elf_get_entrypoint(); 480 1.1 maxv if (ent == 0) { 481 1.1 maxv fatal("elf_kernel_reloc: entry point not found"); 482 1.1 maxv } 483 1.1 maxv 484 1.1 maxv print_state(true, "Entry point found"); 485 1.1 maxv 486 1.1 maxv return ent; 487 1.1 maxv } 488
Indexes created Thu Oct 02 14:10:14 GMT 2025