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, Version 1.0 only 6 * (the "License"). You may not use this file except in compliance 7 * with the License. 8 * 9 * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE 10 * or http://www.opensolaris.org/os/licensing. 11 * See the License for the specific language governing permissions 12 * and limitations under the License. 13 * 14 * When distributing Covered Code, include this CDDL HEADER in each 15 * file and include the License file at usr/src/OPENSOLARIS.LICENSE. 16 * If applicable, add the following below this CDDL HEADER, with the 17 * fields enclosed by brackets "[]" replaced with your own identifying 18 * information: Portions Copyright [yyyy] [name of copyright owner] 19 * 20 * CDDL HEADER END 21 */ 22 /* 23 * Copyright 2003 Sun Microsystems, Inc. All rights reserved. 24 * Use is subject to license terms. 25 */ 26 27 #include <sys/types.h> 28 #include <sys/stat.h> 29 #include <sys/mman.h> 30 #include <ctf_impl.h> 31 #include <unistd.h> 32 #include <fcntl.h> 33 #include <errno.h> 34 #include <dlfcn.h> 35 #include <gelf.h> 36 37 #ifdef _LP64 38 static const char *_libctf_zlib = "/usr/lib/64/libz.so.1"; 39 #else 40 static const char *_libctf_zlib = "/usr/lib/libz.so.1"; 41 #endif 42 43 static struct { 44 int (*z_uncompress)(uchar_t *, ulong_t *, const uchar_t *, ulong_t); 45 const char *(*z_error)(int); 46 void *z_dlp; 47 } zlib; 48 49 static size_t _PAGESIZE; 50 static size_t _PAGEMASK; 51 52 #pragma init(_libctf_init) 53 void 54 _libctf_init(void) 55 { 56 const char *p = getenv("LIBCTF_DECOMPRESSOR"); 57 58 if (p != NULL) 59 _libctf_zlib = p; /* use alternate decompression library */ 60 61 _libctf_debug = getenv("LIBCTF_DEBUG") != NULL; 62 63 _PAGESIZE = getpagesize(); 64 _PAGEMASK = ~(_PAGESIZE - 1); 65 } 66 67 /* 68 * Attempt to dlopen the decompression library and locate the symbols of 69 * interest that we will need to call. This information in cached so 70 * that multiple calls to ctf_bufopen() do not need to reopen the library. 71 */ 72 void * 73 ctf_zopen(int *errp) 74 { 75 ctf_dprintf("decompressing CTF data using %s\n", _libctf_zlib); 76 77 if (zlib.z_dlp != NULL) 78 return (zlib.z_dlp); /* library is already loaded */ 79 80 if (access(_libctf_zlib, R_OK) == -1) 81 return (ctf_set_open_errno(errp, ECTF_ZMISSING)); 82 83 if ((zlib.z_dlp = dlopen(_libctf_zlib, RTLD_LAZY | RTLD_LOCAL)) == NULL) 84 return (ctf_set_open_errno(errp, ECTF_ZINIT)); 85 86 zlib.z_uncompress = (int (*)()) dlsym(zlib.z_dlp, "uncompress"); 87 zlib.z_error = (const char *(*)()) dlsym(zlib.z_dlp, "zError"); 88 89 if (zlib.z_uncompress == NULL || zlib.z_error == NULL) { 90 (void) dlclose(zlib.z_dlp); 91 bzero(&zlib, sizeof (zlib)); 92 return (ctf_set_open_errno(errp, ECTF_ZINIT)); 93 } 94 95 return (zlib.z_dlp); 96 } 97 98 /* 99 * The ctf_bufopen() routine calls these subroutines, defined by <sys/zmod.h>, 100 * which we then patch through to the functions in the decompression library. 101 */ 102 int 103 z_uncompress(void *dst, size_t *dstlen, const void *src, size_t srclen) 104 { 105 return (zlib.z_uncompress(dst, (ulong_t *)dstlen, src, srclen)); 106 } 107 108 const char * 109 z_strerror(int err) 110 { 111 return (zlib.z_error(err)); 112 } 113 114 /* 115 * Convert a 32-bit ELF file header into GElf. 116 */ 117 static void 118 ehdr_to_gelf(const Elf32_Ehdr *src, GElf_Ehdr *dst) 119 { 120 bcopy(src->e_ident, dst->e_ident, EI_NIDENT); 121 dst->e_type = src->e_type; 122 dst->e_machine = src->e_machine; 123 dst->e_version = src->e_version; 124 dst->e_entry = (Elf64_Addr)src->e_entry; 125 dst->e_phoff = (Elf64_Off)src->e_phoff; 126 dst->e_shoff = (Elf64_Off)src->e_shoff; 127 dst->e_flags = src->e_flags; 128 dst->e_ehsize = src->e_ehsize; 129 dst->e_phentsize = src->e_phentsize; 130 dst->e_phnum = src->e_phnum; 131 dst->e_shentsize = src->e_shentsize; 132 dst->e_shnum = src->e_shnum; 133 dst->e_shstrndx = src->e_shstrndx; 134 } 135 136 /* 137 * Convert a 32-bit ELF section header into GElf. 138 */ 139 static void 140 shdr_to_gelf(const Elf32_Shdr *src, GElf_Shdr *dst) 141 { 142 dst->sh_name = src->sh_name; 143 dst->sh_type = src->sh_type; 144 dst->sh_flags = src->sh_flags; 145 dst->sh_addr = src->sh_addr; 146 dst->sh_offset = src->sh_offset; 147 dst->sh_size = src->sh_size; 148 dst->sh_link = src->sh_link; 149 dst->sh_info = src->sh_info; 150 dst->sh_addralign = src->sh_addralign; 151 dst->sh_entsize = src->sh_entsize; 152 } 153 154 /* 155 * In order to mmap a section from the ELF file, we must round down sh_offset 156 * to the previous page boundary, and mmap the surrounding page. We store 157 * the pointer to the start of the actual section data back into sp->cts_data. 158 */ 159 const void * 160 ctf_sect_mmap(ctf_sect_t *sp, int fd) 161 { 162 size_t pageoff = sp->cts_offset & ~_PAGEMASK; 163 164 caddr_t base = mmap64(NULL, sp->cts_size + pageoff, PROT_READ, 165 MAP_PRIVATE, fd, sp->cts_offset & _PAGEMASK); 166 167 if (base != MAP_FAILED) 168 sp->cts_data = base + pageoff; 169 170 return (base); 171 } 172 173 /* 174 * Since sp->cts_data has the adjusted offset, we have to again round down 175 * to get the actual mmap address and round up to get the size. 176 */ 177 void 178 ctf_sect_munmap(const ctf_sect_t *sp) 179 { 180 uintptr_t addr = (uintptr_t)sp->cts_data; 181 uintptr_t pageoff = addr & ~_PAGEMASK; 182 183 (void) munmap((void *)(addr - pageoff), sp->cts_size + pageoff); 184 } 185 186 /* 187 * Open the specified file descriptor and return a pointer to a CTF container. 188 * The file can be either an ELF file or raw CTF file. The caller is 189 * responsible for closing the file descriptor when it is no longer needed. 190 */ 191 ctf_file_t * 192 ctf_fdopen(int fd, int *errp) 193 { 194 ctf_sect_t ctfsect, symsect, strsect; 195 ctf_file_t *fp = NULL; 196 size_t shstrndx, shnum; 197 198 struct stat64 st; 199 ssize_t nbytes; 200 201 union { 202 ctf_preamble_t ctf; 203 Elf32_Ehdr e32; 204 GElf_Ehdr e64; 205 } hdr; 206 207 bzero(&ctfsect, sizeof (ctf_sect_t)); 208 bzero(&symsect, sizeof (ctf_sect_t)); 209 bzero(&strsect, sizeof (ctf_sect_t)); 210 bzero(&hdr.ctf, sizeof (hdr)); 211 212 if (fstat64(fd, &st) == -1) 213 return (ctf_set_open_errno(errp, errno)); 214 215 if ((nbytes = pread64(fd, &hdr.ctf, sizeof (hdr), 0)) <= 0) 216 return (ctf_set_open_errno(errp, nbytes < 0? errno : ECTF_FMT)); 217 218 /* 219 * If we have read enough bytes to form a CTF header and the magic 220 * string matches, attempt to interpret the file as raw CTF. 221 */ 222 if (nbytes >= sizeof (ctf_preamble_t) && 223 hdr.ctf.ctp_magic == CTF_MAGIC) { 224 if (hdr.ctf.ctp_version > CTF_VERSION) 225 return (ctf_set_open_errno(errp, ECTF_CTFVERS)); 226 227 ctfsect.cts_data = mmap64(NULL, st.st_size, PROT_READ, 228 MAP_PRIVATE, fd, 0); 229 230 if (ctfsect.cts_data == MAP_FAILED) 231 return (ctf_set_open_errno(errp, errno)); 232 233 ctfsect.cts_name = _CTF_SECTION; 234 ctfsect.cts_type = SHT_PROGBITS; 235 ctfsect.cts_flags = SHF_ALLOC; 236 ctfsect.cts_size = (size_t)st.st_size; 237 ctfsect.cts_entsize = 1; 238 ctfsect.cts_offset = 0; 239 240 if ((fp = ctf_bufopen(&ctfsect, NULL, NULL, errp)) == NULL) 241 ctf_sect_munmap(&ctfsect); 242 243 return (fp); 244 } 245 246 /* 247 * If we have read enough bytes to form an ELF header and the magic 248 * string matches, attempt to interpret the file as an ELF file. We 249 * do our own largefile ELF processing, and convert everything to 250 * GElf structures so that clients can operate on any data model. 251 */ 252 if (nbytes >= sizeof (Elf32_Ehdr) && 253 bcmp(&hdr.e32.e_ident[EI_MAG0], ELFMAG, SELFMAG) == 0) { 254 #ifdef _BIG_ENDIAN 255 uchar_t order = ELFDATA2MSB; 256 #else 257 uchar_t order = ELFDATA2LSB; 258 #endif 259 GElf_Shdr *sp; 260 261 void *strs_map; 262 size_t strs_mapsz, i; 263 const char *strs; 264 265 if (hdr.e32.e_ident[EI_DATA] != order) 266 return (ctf_set_open_errno(errp, ECTF_ENDIAN)); 267 if (hdr.e32.e_version != EV_CURRENT) 268 return (ctf_set_open_errno(errp, ECTF_ELFVERS)); 269 270 if (hdr.e32.e_ident[EI_CLASS] == ELFCLASS64) { 271 if (nbytes < sizeof (GElf_Ehdr)) 272 return (ctf_set_open_errno(errp, ECTF_FMT)); 273 } else { 274 Elf32_Ehdr e32 = hdr.e32; 275 ehdr_to_gelf(&e32, &hdr.e64); 276 } 277 278 shnum = hdr.e64.e_shnum; 279 shstrndx = hdr.e64.e_shstrndx; 280 281 /* Extended ELF sections */ 282 if ((shstrndx == SHN_XINDEX) || (shnum == 0)) { 283 if (hdr.e32.e_ident[EI_CLASS] == ELFCLASS32) { 284 Elf32_Shdr x32; 285 286 if (pread64(fd, &x32, sizeof (x32), 287 hdr.e64.e_shoff) != sizeof (x32)) 288 return (ctf_set_open_errno(errp, 289 errno)); 290 291 shnum = x32.sh_size; 292 shstrndx = x32.sh_link; 293 } else { 294 Elf64_Shdr x64; 295 296 if (pread64(fd, &x64, sizeof (x64), 297 hdr.e64.e_shoff) != sizeof (x64)) 298 return (ctf_set_open_errno(errp, 299 errno)); 300 301 shnum = x64.sh_size; 302 shstrndx = x64.sh_link; 303 } 304 } 305 306 if (shstrndx >= shnum) 307 return (ctf_set_open_errno(errp, ECTF_CORRUPT)); 308 309 nbytes = sizeof (GElf_Shdr) * shnum; 310 311 if ((sp = malloc(nbytes)) == NULL) 312 return (ctf_set_open_errno(errp, errno)); 313 314 /* 315 * Read in and convert to GElf the array of Shdr structures 316 * from e_shoff so we can locate sections of interest. 317 */ 318 if (hdr.e32.e_ident[EI_CLASS] == ELFCLASS32) { 319 Elf32_Shdr *sp32; 320 321 nbytes = sizeof (Elf32_Shdr) * shnum; 322 323 if ((sp32 = malloc(nbytes)) == NULL || pread64(fd, 324 sp32, nbytes, hdr.e64.e_shoff) != nbytes) { 325 free(sp); 326 return (ctf_set_open_errno(errp, errno)); 327 } 328 329 for (i = 0; i < shnum; i++) 330 shdr_to_gelf(&sp32[i], &sp[i]); 331 332 free(sp32); 333 334 } else if (pread64(fd, sp, nbytes, hdr.e64.e_shoff) != nbytes) { 335 free(sp); 336 return (ctf_set_open_errno(errp, errno)); 337 } 338 339 /* 340 * Now mmap the section header strings section so that we can 341 * perform string comparison on the section names. 342 */ 343 strs_mapsz = sp[shstrndx].sh_size + 344 (sp[shstrndx].sh_offset & ~_PAGEMASK); 345 346 strs_map = mmap64(NULL, strs_mapsz, PROT_READ, MAP_PRIVATE, 347 fd, sp[shstrndx].sh_offset & _PAGEMASK); 348 349 strs = (const char *)strs_map + 350 (sp[shstrndx].sh_offset & ~_PAGEMASK); 351 352 if (strs_map == MAP_FAILED) { 353 free(sp); 354 return (ctf_set_open_errno(errp, ECTF_MMAP)); 355 } 356 357 /* 358 * Iterate over the section header array looking for the CTF 359 * section and symbol table. The strtab is linked to symtab. 360 */ 361 for (i = 0; i < shnum; i++) { 362 const GElf_Shdr *shp = &sp[i]; 363 const GElf_Shdr *lhp = &sp[shp->sh_link]; 364 365 if (shp->sh_link >= shnum) 366 continue; /* corrupt sh_link field */ 367 368 if (shp->sh_name >= sp[shstrndx].sh_size || 369 lhp->sh_name >= sp[shstrndx].sh_size) 370 continue; /* corrupt sh_name field */ 371 372 if (shp->sh_type == SHT_PROGBITS && 373 strcmp(strs + shp->sh_name, _CTF_SECTION) == 0) { 374 ctfsect.cts_name = strs + shp->sh_name; 375 ctfsect.cts_type = shp->sh_type; 376 ctfsect.cts_flags = shp->sh_flags; 377 ctfsect.cts_size = shp->sh_size; 378 ctfsect.cts_entsize = shp->sh_entsize; 379 ctfsect.cts_offset = (off64_t)shp->sh_offset; 380 381 } else if (shp->sh_type == SHT_SYMTAB) { 382 symsect.cts_name = strs + shp->sh_name; 383 symsect.cts_type = shp->sh_type; 384 symsect.cts_flags = shp->sh_flags; 385 symsect.cts_size = shp->sh_size; 386 symsect.cts_entsize = shp->sh_entsize; 387 symsect.cts_offset = (off64_t)shp->sh_offset; 388 389 strsect.cts_name = strs + lhp->sh_name; 390 strsect.cts_type = lhp->sh_type; 391 strsect.cts_flags = lhp->sh_flags; 392 strsect.cts_size = lhp->sh_size; 393 strsect.cts_entsize = lhp->sh_entsize; 394 strsect.cts_offset = (off64_t)lhp->sh_offset; 395 } 396 } 397 398 free(sp); /* free section header array */ 399 400 if (ctfsect.cts_type == SHT_NULL) { 401 (void) munmap(strs_map, strs_mapsz); 402 return (ctf_set_open_errno(errp, ECTF_NOCTFDATA)); 403 } 404 405 /* 406 * Now mmap the CTF data, symtab, and strtab sections and 407 * call ctf_bufopen() to do the rest of the work. 408 */ 409 if (ctf_sect_mmap(&ctfsect, fd) == MAP_FAILED) { 410 (void) munmap(strs_map, strs_mapsz); 411 return (ctf_set_open_errno(errp, ECTF_MMAP)); 412 } 413 414 if (symsect.cts_type != SHT_NULL && 415 strsect.cts_type != SHT_NULL) { 416 if (ctf_sect_mmap(&symsect, fd) == MAP_FAILED || 417 ctf_sect_mmap(&strsect, fd) == MAP_FAILED) { 418 (void) ctf_set_open_errno(errp, ECTF_MMAP); 419 goto bad; /* unmap all and abort */ 420 } 421 fp = ctf_bufopen(&ctfsect, &symsect, &strsect, errp); 422 } else 423 fp = ctf_bufopen(&ctfsect, NULL, NULL, errp); 424 bad: 425 if (fp == NULL) { 426 ctf_sect_munmap(&ctfsect); 427 ctf_sect_munmap(&symsect); 428 ctf_sect_munmap(&strsect); 429 } else 430 fp->ctf_flags |= LCTF_MMAP; 431 432 (void) munmap(strs_map, strs_mapsz); 433 return (fp); 434 } 435 436 return (ctf_set_open_errno(errp, ECTF_FMT)); 437 } 438 439 /* 440 * Open the specified file and return a pointer to a CTF container. The file 441 * can be either an ELF file or raw CTF file. This is just a convenient 442 * wrapper around ctf_fdopen() for callers. 443 */ 444 ctf_file_t * 445 ctf_open(const char *filename, int *errp) 446 { 447 ctf_file_t *fp; 448 int fd; 449 450 if ((fd = open64(filename, O_RDONLY)) == -1) { 451 if (errp != NULL) 452 *errp = errno; 453 return (NULL); 454 } 455 456 fp = ctf_fdopen(fd, errp); 457 (void) close(fd); 458 return (fp); 459 } 460 461 /* 462 * Write the uncompressed CTF data stream to the specified file descriptor. 463 * This is useful for saving the results of dynamic CTF containers. 464 */ 465 int 466 ctf_write(ctf_file_t *fp, int fd) 467 { 468 const uchar_t *buf = fp->ctf_base; 469 ssize_t resid = fp->ctf_size; 470 ssize_t len; 471 472 while (resid != 0) { 473 if ((len = write(fd, buf, resid)) <= 0) 474 return (ctf_set_errno(fp, errno)); 475 resid -= len; 476 buf += len; 477 } 478 479 return (0); 480 } 481 482 /* 483 * Set the CTF library client version to the specified version. If version is 484 * zero, we just return the default library version number. 485 */ 486 int 487 ctf_version(int version) 488 { 489 if (version < 0) { 490 errno = EINVAL; 491 return (-1); 492 } 493 494 if (version > 0) { 495 if (version > CTF_VERSION) { 496 errno = ENOTSUP; 497 return (-1); 498 } 499 ctf_dprintf("ctf_version: client using version %d\n", version); 500 _libctf_version = version; 501 } 502 503 return (_libctf_version); 504 } 505