kern_ksyms.c revision 1.21.10.1
1 1.21.10.1 yamt /* $NetBSD: kern_ksyms.c,v 1.21.10.1 2005/03/19 08:36:11 yamt Exp $ */ 2 1.1 ragge /* 3 1.1 ragge * Copyright (c) 2001, 2003 Anders Magnusson (ragge (at) ludd.luth.se). 4 1.1 ragge * All rights reserved. 5 1.1 ragge * 6 1.1 ragge * Redistribution and use in source and binary forms, with or without 7 1.1 ragge * modification, are permitted provided that the following conditions 8 1.1 ragge * are met: 9 1.1 ragge * 1. Redistributions of source code must retain the above copyright 10 1.1 ragge * notice, this list of conditions and the following disclaimer. 11 1.1 ragge * 2. Redistributions in binary form must reproduce the above copyright 12 1.1 ragge * notice, this list of conditions and the following disclaimer in the 13 1.1 ragge * documentation and/or other materials provided with the distribution. 14 1.1 ragge * 3. The name of the author may not be used to endorse or promote products 15 1.1 ragge * derived from this software without specific prior written permission 16 1.1 ragge * 17 1.1 ragge * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR 18 1.1 ragge * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES 19 1.1 ragge * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. 20 1.1 ragge * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, 21 1.1 ragge * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT 22 1.1 ragge * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, 23 1.1 ragge * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY 24 1.1 ragge * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT 25 1.1 ragge * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF 26 1.1 ragge * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. 27 1.1 ragge */ 28 1.1 ragge 29 1.1 ragge /* 30 1.1 ragge * Code to deal with in-kernel symbol table management + /dev/ksyms. 31 1.1 ragge * 32 1.1 ragge * For each loaded module the symbol table info is kept track of by a 33 1.1 ragge * struct, placed in a circular list. The first entry is the kernel 34 1.1 ragge * symbol table. 35 1.1 ragge */ 36 1.1 ragge 37 1.1 ragge /* 38 1.1 ragge * TODO: 39 1.1 ragge * Change the ugly way of adding new symbols (comes with linker) 40 1.1 ragge * Add kernel locking stuff. 41 1.1 ragge * (Ev) add support for poll. 42 1.1 ragge * (Ev) fix support for mmap. 43 1.1 ragge * 44 1.1 ragge * Export ksyms internal logic for use in post-mortem debuggers? 45 1.1 ragge * Need to move struct symtab to ksyms.h for that. 46 1.1 ragge */ 47 1.11 jdolecek 48 1.11 jdolecek #include <sys/cdefs.h> 49 1.21.10.1 yamt __KERNEL_RCSID(0, "$NetBSD: kern_ksyms.c,v 1.21.10.1 2005/03/19 08:36:11 yamt Exp $"); 50 1.1 ragge 51 1.1 ragge #ifdef _KERNEL 52 1.1 ragge #include "opt_ddb.h" 53 1.3 ragge #include "opt_ddbparam.h" /* for SYMTAB_SPACE */ 54 1.1 ragge #endif 55 1.1 ragge 56 1.1 ragge #include <sys/param.h> 57 1.1 ragge #include <sys/errno.h> 58 1.1 ragge #include <sys/queue.h> 59 1.1 ragge #include <sys/exec.h> 60 1.1 ragge #include <sys/systm.h> 61 1.1 ragge #include <sys/conf.h> 62 1.1 ragge #include <sys/device.h> 63 1.1 ragge #include <sys/malloc.h> 64 1.1 ragge #include <sys/proc.h> 65 1.1 ragge 66 1.1 ragge #include <machine/elf_machdep.h> /* XXX */ 67 1.1 ragge #define ELFSIZE ARCH_ELFSIZE 68 1.1 ragge 69 1.1 ragge #include <sys/exec_elf.h> 70 1.1 ragge #include <sys/ksyms.h> 71 1.1 ragge 72 1.1 ragge #include <lib/libkern/libkern.h> 73 1.1 ragge 74 1.1 ragge #ifdef DDB 75 1.1 ragge #include <ddb/db_output.h> 76 1.1 ragge #endif 77 1.1 ragge 78 1.1 ragge #include "ksyms.h" 79 1.1 ragge 80 1.1 ragge static int ksymsinited = 0; 81 1.1 ragge 82 1.1 ragge #if NKSYMS 83 1.1 ragge static void ksyms_hdr_init(caddr_t hdraddr); 84 1.1 ragge static void ksyms_sizes_calc(void); 85 1.1 ragge static int ksyms_isopen; 86 1.5 ragge static int ksyms_maxlen; 87 1.1 ragge #endif 88 1.1 ragge 89 1.1 ragge #ifdef KSYMS_DEBUG 90 1.1 ragge #define FOLLOW_CALLS 1 91 1.1 ragge #define FOLLOW_MORE_CALLS 2 92 1.1 ragge #define FOLLOW_DEVKSYMS 4 93 1.1 ragge static int ksyms_debug; 94 1.1 ragge #endif 95 1.1 ragge 96 1.1 ragge #if NKSYMS 97 1.1 ragge dev_type_open(ksymsopen); 98 1.1 ragge dev_type_close(ksymsclose); 99 1.1 ragge dev_type_read(ksymsread); 100 1.1 ragge dev_type_write(ksymswrite); 101 1.1 ragge dev_type_ioctl(ksymsioctl); 102 1.1 ragge 103 1.1 ragge const struct cdevsw ksyms_cdevsw = { 104 1.1 ragge ksymsopen, ksymsclose, ksymsread, ksymswrite, ksymsioctl, 105 1.1 ragge nullstop, notty, nopoll, nommap, nullkqfilter, DV_DULL 106 1.1 ragge }; 107 1.1 ragge #endif 108 1.1 ragge 109 1.3 ragge #ifdef SYMTAB_SPACE 110 1.3 ragge #define SYMTAB_FILLER "|This is the symbol table!" 111 1.3 ragge 112 1.3 ragge char db_symtab[SYMTAB_SPACE] = SYMTAB_FILLER; 113 1.3 ragge int db_symtabsize = SYMTAB_SPACE; 114 1.3 ragge #endif 115 1.1 ragge 116 1.1 ragge /* 117 1.1 ragge * Store the different symbol tables in a double-linked list. 118 1.1 ragge */ 119 1.1 ragge struct symtab { 120 1.1 ragge CIRCLEQ_ENTRY(symtab) sd_queue; 121 1.9 jdolecek const char *sd_name; /* Name of this table */ 122 1.1 ragge Elf_Sym *sd_symstart; /* Address of symbol table */ 123 1.1 ragge caddr_t sd_strstart; /* Adderss of corresponding string table */ 124 1.17 cube int sd_usroffset; /* Real address for userspace */ 125 1.1 ragge int sd_symsize; /* Size in bytes of symbol table */ 126 1.1 ragge int sd_strsize; /* Size of string table */ 127 1.1 ragge int *sd_symnmoff; /* Used when calculating the name offset */ 128 1.1 ragge }; 129 1.1 ragge 130 1.1 ragge static CIRCLEQ_HEAD(, symtab) symtab_queue = 131 1.1 ragge CIRCLEQ_HEAD_INITIALIZER(symtab_queue); 132 1.1 ragge 133 1.1 ragge static struct symtab kernel_symtab; 134 1.1 ragge 135 1.8 ragge #define USE_PTREE 136 1.8 ragge #ifdef USE_PTREE 137 1.8 ragge /* 138 1.8 ragge * Patricia-tree-based lookup structure for the in-kernel global symbols. 139 1.8 ragge * Based on a design by Mikael Sundstrom, msm (at) sm.luth.se. 140 1.8 ragge */ 141 1.8 ragge struct ptree { 142 1.8 ragge int16_t bitno; 143 1.8 ragge int16_t lr[2]; 144 1.8 ragge } *symb; 145 1.8 ragge static int16_t baseidx; 146 1.8 ragge static int treex = 1; 147 1.8 ragge 148 1.8 ragge #define P_BIT(key, bit) ((key[bit >> 3] >> (bit & 7)) & 1) 149 1.8 ragge #define STRING(idx) kernel_symtab.sd_symstart[idx].st_name + \ 150 1.8 ragge kernel_symtab.sd_strstart 151 1.8 ragge 152 1.8 ragge /* 153 1.8 ragge * Walk down the tree until a terminal node is found. 154 1.8 ragge */ 155 1.8 ragge static int 156 1.8 ragge symbol_traverse(char *key) 157 1.8 ragge { 158 1.8 ragge int16_t nb, rbit = baseidx; 159 1.8 ragge 160 1.8 ragge while (rbit > 0) { 161 1.8 ragge nb = symb[rbit].bitno; 162 1.8 ragge rbit = symb[rbit].lr[P_BIT(key, nb)]; 163 1.8 ragge } 164 1.8 ragge return -rbit; 165 1.8 ragge } 166 1.8 ragge 167 1.8 ragge static int 168 1.8 ragge ptree_add(char *key, int val) 169 1.8 ragge { 170 1.8 ragge int idx; 171 1.15 christos int nix, cix, bit, rbit, sb, lastrbit, svbit = 0, ix; 172 1.8 ragge char *m, *k; 173 1.8 ragge 174 1.8 ragge if (baseidx == 0) { 175 1.8 ragge baseidx = -val; 176 1.8 ragge return 0; /* First element */ 177 1.8 ragge } 178 1.8 ragge 179 1.8 ragge /* Get string to match against */ 180 1.8 ragge idx = symbol_traverse(key); 181 1.8 ragge 182 1.8 ragge /* Find first mismatching bit */ 183 1.8 ragge m = STRING(idx); 184 1.8 ragge k = key; 185 1.8 ragge if (strcmp(m, k) == 0) 186 1.8 ragge return 1; 187 1.8 ragge 188 1.8 ragge for (cix = 0; *m && *k && *m == *k; m++, k++, cix += 8) 189 1.8 ragge ; 190 1.8 ragge ix = ffs((int)*m ^ (int)*k) - 1; 191 1.8 ragge cix += ix; 192 1.8 ragge 193 1.8 ragge /* Create new node */ 194 1.8 ragge nix = treex++; 195 1.8 ragge bit = P_BIT(key, cix); 196 1.8 ragge symb[nix].bitno = cix; 197 1.8 ragge symb[nix].lr[bit] = -val; 198 1.8 ragge 199 1.8 ragge /* Find where to insert node */ 200 1.8 ragge rbit = baseidx; 201 1.8 ragge lastrbit = 0; 202 1.8 ragge for (;;) { 203 1.8 ragge if (rbit < 0) 204 1.8 ragge break; 205 1.8 ragge sb = symb[rbit].bitno; 206 1.8 ragge if (sb > cix) 207 1.8 ragge break; 208 1.8 ragge if (sb == cix) 209 1.8 ragge printf("symb[rbit].bitno == cix!!!\n"); 210 1.8 ragge lastrbit = rbit; 211 1.8 ragge svbit = P_BIT(key, sb); 212 1.8 ragge rbit = symb[rbit].lr[svbit]; 213 1.8 ragge } 214 1.8 ragge 215 1.8 ragge /* Do the actual insertion */ 216 1.8 ragge if (lastrbit == 0) { 217 1.8 ragge /* first element */ 218 1.8 ragge symb[nix].lr[!bit] = baseidx; 219 1.8 ragge baseidx = nix; 220 1.8 ragge } else { 221 1.8 ragge symb[nix].lr[!bit] = rbit; 222 1.8 ragge symb[lastrbit].lr[svbit] = nix; 223 1.8 ragge } 224 1.8 ragge return 0; 225 1.8 ragge } 226 1.8 ragge 227 1.8 ragge static int 228 1.8 ragge ptree_find(char *key) 229 1.8 ragge { 230 1.8 ragge int idx; 231 1.8 ragge 232 1.8 ragge if (baseidx == 0) 233 1.8 ragge return 0; 234 1.8 ragge idx = symbol_traverse(key); 235 1.8 ragge 236 1.8 ragge if (strcmp(key, STRING(idx)) == 0) 237 1.8 ragge return idx; 238 1.8 ragge return 0; 239 1.8 ragge } 240 1.8 ragge 241 1.8 ragge static void 242 1.8 ragge ptree_gen(char *off, struct symtab *tab) 243 1.8 ragge { 244 1.8 ragge Elf_Sym *sym; 245 1.16 ragge int i, nsym; 246 1.8 ragge 247 1.8 ragge if (off != NULL) 248 1.8 ragge symb = (struct ptree *)ALIGN(off); 249 1.8 ragge else 250 1.8 ragge symb = malloc((tab->sd_symsize/sizeof(Elf_Sym)) * 251 1.8 ragge sizeof(struct ptree), M_DEVBUF, M_WAITOK); 252 1.8 ragge symb--; /* sym index won't be 0 */ 253 1.8 ragge 254 1.8 ragge sym = tab->sd_symstart; 255 1.16 ragge if ((nsym = tab->sd_symsize/sizeof(Elf_Sym)) > INT16_MAX) { 256 1.16 ragge printf("Too many symbols for tree, skipping %d symbols\n", 257 1.16 ragge nsym-INT16_MAX); 258 1.16 ragge nsym = INT16_MAX; 259 1.16 ragge } 260 1.16 ragge for (i = 1; i < nsym; i++) { 261 1.8 ragge if (ELF_ST_BIND(sym[i].st_info) != STB_GLOBAL) 262 1.8 ragge continue; 263 1.8 ragge ptree_add(tab->sd_strstart+sym[i].st_name, i); 264 1.8 ragge } 265 1.8 ragge } 266 1.8 ragge #endif 267 1.8 ragge 268 1.1 ragge /* 269 1.1 ragge * Finds a certain symbol name in a certain symbol table. 270 1.1 ragge */ 271 1.1 ragge static Elf_Sym * 272 1.21.10.1 yamt findsym(char *name, struct symtab *table) 273 1.1 ragge { 274 1.1 ragge Elf_Sym *start = table->sd_symstart; 275 1.1 ragge int i, sz = table->sd_symsize/sizeof(Elf_Sym); 276 1.1 ragge char *np; 277 1.21.10.1 yamt caddr_t realstart = table->sd_strstart - table->sd_usroffset; 278 1.1 ragge 279 1.8 ragge #ifdef USE_PTREE 280 1.8 ragge if (table == &kernel_symtab && (i = ptree_find(name)) != 0) 281 1.8 ragge return &start[i]; 282 1.8 ragge #endif 283 1.8 ragge 284 1.1 ragge for (i = 0; i < sz; i++) { 285 1.17 cube np = realstart + start[i].st_name; 286 1.1 ragge if (name[0] == np[0] && name[1] == np[1] && 287 1.1 ragge strcmp(name, np) == 0) 288 1.1 ragge return &start[i]; 289 1.1 ragge } 290 1.1 ragge return NULL; 291 1.1 ragge } 292 1.1 ragge 293 1.1 ragge /* 294 1.1 ragge * The "attach" is in reality done in ksyms_init(). 295 1.1 ragge */ 296 1.1 ragge void ksymsattach(int); 297 1.1 ragge void 298 1.1 ragge ksymsattach(int arg) 299 1.1 ragge { 300 1.8 ragge 301 1.8 ragge #ifdef USE_PTREE 302 1.8 ragge if (baseidx == 0) 303 1.8 ragge ptree_gen(0, &kernel_symtab); 304 1.8 ragge #endif 305 1.8 ragge 306 1.1 ragge } 307 1.1 ragge 308 1.1 ragge /* 309 1.1 ragge * Add a symbol table named name. 310 1.1 ragge * This is intended for use when the kernel loader enters the table. 311 1.1 ragge */ 312 1.1 ragge static void 313 1.9 jdolecek addsymtab(const char *name, Elf_Ehdr *ehdr, struct symtab *tab) 314 1.1 ragge { 315 1.1 ragge caddr_t start = (caddr_t)ehdr; 316 1.8 ragge caddr_t send; 317 1.1 ragge Elf_Shdr *shdr; 318 1.8 ragge Elf_Sym *sym, *nsym; 319 1.8 ragge int i, j, n, g; 320 1.8 ragge char *str; 321 1.1 ragge 322 1.1 ragge /* Find the symbol table and the corresponding string table. */ 323 1.1 ragge shdr = (Elf_Shdr *)(start + ehdr->e_shoff); 324 1.1 ragge for (i = 1; i < ehdr->e_shnum; i++) { 325 1.1 ragge if (shdr[i].sh_type != SHT_SYMTAB) 326 1.1 ragge continue; 327 1.1 ragge if (shdr[i].sh_offset == 0) 328 1.1 ragge continue; 329 1.1 ragge tab->sd_symstart = (Elf_Sym *)(start + shdr[i].sh_offset); 330 1.1 ragge tab->sd_symsize = shdr[i].sh_size; 331 1.1 ragge j = shdr[i].sh_link; 332 1.1 ragge if (shdr[j].sh_offset == 0) 333 1.1 ragge continue; /* Can this happen? */ 334 1.1 ragge tab->sd_strstart = start + shdr[j].sh_offset; 335 1.1 ragge tab->sd_strsize = shdr[j].sh_size; 336 1.1 ragge break; 337 1.1 ragge } 338 1.1 ragge tab->sd_name = name; 339 1.8 ragge send = tab->sd_strstart + tab->sd_strsize; 340 1.8 ragge 341 1.8 ragge #ifdef KSYMS_DEBUG 342 1.8 ragge printf("start %p sym %p symsz %d str %p strsz %d send %p\n", 343 1.21.10.1 yamt start, tab->sd_symstart, tab->sd_symsize, 344 1.8 ragge tab->sd_strstart, tab->sd_strsize, send); 345 1.8 ragge #endif 346 1.1 ragge 347 1.8 ragge /* 348 1.8 ragge * Pack symbol table by removing all file name references 349 1.8 ragge * and overwrite the elf header. 350 1.8 ragge */ 351 1.8 ragge sym = tab->sd_symstart; 352 1.8 ragge nsym = (Elf_Sym *)start; 353 1.8 ragge str = tab->sd_strstart; 354 1.8 ragge for (g = i = n = 0; i < tab->sd_symsize/sizeof(Elf_Sym); i++) { 355 1.8 ragge if (i == 0) { 356 1.8 ragge nsym[n++] = sym[i]; 357 1.8 ragge continue; 358 1.8 ragge } 359 1.8 ragge /* 360 1.8 ragge * Remove useless symbols. 361 1.8 ragge * Should actually remove all typeless symbols. 362 1.8 ragge */ 363 1.5 ragge if (sym[i].st_name == 0) 364 1.8 ragge continue; /* Skip nameless entries */ 365 1.8 ragge if (ELF_ST_TYPE(sym[i].st_info) == STT_FILE) 366 1.8 ragge continue; /* Skip filenames */ 367 1.8 ragge if (ELF_ST_TYPE(sym[i].st_info) == STT_NOTYPE && 368 1.8 ragge sym[i].st_value == 0 && 369 1.8 ragge strcmp(str + sym[i].st_name, "*ABS*") == 0) 370 1.8 ragge continue; /* XXX */ 371 1.8 ragge if (ELF_ST_TYPE(sym[i].st_info) == STT_NOTYPE && 372 1.8 ragge strcmp(str + sym[i].st_name, "gcc2_compiled.") == 0) 373 1.8 ragge continue; /* XXX */ 374 1.8 ragge 375 1.8 ragge #ifndef DDB 376 1.8 ragge /* Only need global symbols */ 377 1.8 ragge if (ELF_ST_BIND(sym[i].st_info) != STB_GLOBAL) 378 1.5 ragge continue; 379 1.8 ragge #endif 380 1.8 ragge 381 1.8 ragge /* Save symbol. Set it as an absolute offset */ 382 1.8 ragge nsym[n] = sym[i]; 383 1.8 ragge nsym[n].st_shndx = SHN_ABS; 384 1.8 ragge if (ELF_ST_BIND(nsym[n].st_info) == STB_GLOBAL) 385 1.8 ragge g++; 386 1.6 tron #if NKSYMS 387 1.8 ragge j = strlen(nsym[n].st_name + tab->sd_strstart) + 1; 388 1.5 ragge if (j > ksyms_maxlen) 389 1.5 ragge ksyms_maxlen = j; 390 1.6 tron #endif 391 1.8 ragge n++; 392 1.8 ragge 393 1.5 ragge } 394 1.8 ragge tab->sd_symstart = nsym; 395 1.8 ragge tab->sd_symsize = n * sizeof(Elf_Sym); 396 1.8 ragge 397 1.8 ragge #ifdef notyet 398 1.8 ragge /* 399 1.8 ragge * Remove left-over strings. 400 1.8 ragge */ 401 1.8 ragge sym = tab->sd_symstart; 402 1.8 ragge str = (caddr_t)tab->sd_symstart + tab->sd_symsize; 403 1.8 ragge str[0] = 0; 404 1.8 ragge n = 1; 405 1.8 ragge for (i = 1; i < tab->sd_symsize/sizeof(Elf_Sym); i++) { 406 1.10 itojun strcpy(str + n, tab->sd_strstart + sym[i].st_name); 407 1.8 ragge sym[i].st_name = n; 408 1.8 ragge n += strlen(str+n) + 1; 409 1.8 ragge } 410 1.8 ragge tab->sd_strstart = str; 411 1.8 ragge tab->sd_strsize = n; 412 1.8 ragge 413 1.8 ragge #ifdef KSYMS_DEBUG 414 1.8 ragge printf("str %p strsz %d send %p\n", str, n, send); 415 1.8 ragge #endif 416 1.8 ragge #endif 417 1.1 ragge 418 1.1 ragge CIRCLEQ_INSERT_HEAD(&symtab_queue, tab, sd_queue); 419 1.8 ragge 420 1.8 ragge #ifdef notyet 421 1.8 ragge #ifdef USE_PTREE 422 1.8 ragge /* Try to use the freed space, if possible */ 423 1.8 ragge if (send - str - n > g * sizeof(struct ptree)) 424 1.8 ragge ptree_gen(str + n, tab); 425 1.8 ragge #endif 426 1.8 ragge #endif 427 1.1 ragge } 428 1.1 ragge 429 1.1 ragge /* 430 1.1 ragge * Setup the kernel symbol table stuff. 431 1.1 ragge */ 432 1.1 ragge void 433 1.4 ragge ksyms_init(int symsize, void *start, void *end) 434 1.1 ragge { 435 1.3 ragge Elf_Ehdr *ehdr; 436 1.3 ragge 437 1.3 ragge #ifdef SYMTAB_SPACE 438 1.3 ragge if (symsize <= 0 && 439 1.3 ragge strncmp(db_symtab, SYMTAB_FILLER, sizeof(SYMTAB_FILLER))) { 440 1.3 ragge symsize = db_symtabsize; 441 1.3 ragge start = db_symtab; 442 1.3 ragge end = db_symtab + db_symtabsize; 443 1.3 ragge } 444 1.3 ragge #endif 445 1.3 ragge if (symsize <= 0) { 446 1.3 ragge printf("[ Kernel symbol table missing! ]\n"); 447 1.3 ragge return; 448 1.3 ragge } 449 1.3 ragge 450 1.3 ragge /* Sanity check */ 451 1.3 ragge if (ALIGNED_POINTER(start, long) == 0) { 452 1.3 ragge printf("[ Kernel symbol table has bad start address %p ]\n", 453 1.3 ragge start); 454 1.3 ragge return; 455 1.3 ragge } 456 1.3 ragge 457 1.3 ragge ehdr = (Elf_Ehdr *)start; 458 1.1 ragge 459 1.1 ragge /* check if this is a valid ELF header */ 460 1.1 ragge /* No reason to verify arch type, the kernel is actually running! */ 461 1.1 ragge if (memcmp(ehdr->e_ident, ELFMAG, SELFMAG) || 462 1.1 ragge ehdr->e_ident[EI_CLASS] != ELFCLASS || 463 1.1 ragge ehdr->e_version > 1) { 464 1.3 ragge #ifdef notyet /* DDB */ 465 1.3 ragge if (ddb_init(symsize, start, end)) 466 1.3 ragge return; /* old-style symbol table */ 467 1.3 ragge #endif 468 1.3 ragge printf("[ Kernel symbol table invalid! ]\n"); 469 1.1 ragge return; /* nothing to do */ 470 1.1 ragge } 471 1.1 ragge 472 1.8 ragge #if NKSYMS 473 1.8 ragge /* Loaded header will be scratched in addsymtab */ 474 1.8 ragge ksyms_hdr_init(start); 475 1.8 ragge #endif 476 1.8 ragge 477 1.1 ragge addsymtab("netbsd", ehdr, &kernel_symtab); 478 1.8 ragge 479 1.1 ragge #if NKSYMS 480 1.1 ragge ksyms_sizes_calc(); 481 1.1 ragge #endif 482 1.8 ragge 483 1.1 ragge ksymsinited = 1; 484 1.8 ragge 485 1.1 ragge #ifdef DEBUG 486 1.1 ragge printf("Loaded initial symtab at %p, strtab at %p, # entries %ld\n", 487 1.1 ragge kernel_symtab.sd_symstart, kernel_symtab.sd_strstart, 488 1.2 ragge (long)kernel_symtab.sd_symsize/sizeof(Elf_Sym)); 489 1.1 ragge #endif 490 1.1 ragge } 491 1.1 ragge 492 1.1 ragge /* 493 1.1 ragge * Get the value associated with a symbol. 494 1.21.10.1 yamt * "mod" is the module name, or null if any module. 495 1.1 ragge * "sym" is the symbol name. 496 1.1 ragge * "val" is a pointer to the corresponding value, if call succeeded. 497 1.1 ragge * Returns 0 if success or ENOENT if no such entry. 498 1.1 ragge */ 499 1.1 ragge int 500 1.21.10.1 yamt ksyms_getval(const char *mod, char *sym, unsigned long *val, int type) 501 1.1 ragge { 502 1.1 ragge struct symtab *st; 503 1.1 ragge Elf_Sym *es; 504 1.1 ragge 505 1.1 ragge if (ksymsinited == 0) 506 1.1 ragge return ENOENT; 507 1.1 ragge 508 1.1 ragge #ifdef KSYMS_DEBUG 509 1.1 ragge if (ksyms_debug & FOLLOW_CALLS) 510 1.1 ragge printf("ksyms_getval: mod %s sym %s valp %p\n", mod, sym, val); 511 1.1 ragge #endif 512 1.1 ragge 513 1.1 ragge CIRCLEQ_FOREACH(st, &symtab_queue, sd_queue) { 514 1.1 ragge if (mod && strcmp(st->sd_name, mod)) 515 1.1 ragge continue; 516 1.21.10.1 yamt if ((es = findsym(sym, st)) == NULL) 517 1.1 ragge continue; 518 1.1 ragge 519 1.1 ragge /* Skip if bad binding */ 520 1.1 ragge if (type == KSYMS_EXTERN && 521 1.1 ragge ELF_ST_BIND(es->st_info) != STB_GLOBAL) 522 1.1 ragge continue; 523 1.1 ragge 524 1.1 ragge if (val) 525 1.1 ragge *val = es->st_value; 526 1.1 ragge return 0; 527 1.1 ragge } 528 1.1 ragge return ENOENT; 529 1.1 ragge } 530 1.1 ragge 531 1.1 ragge /* 532 1.1 ragge * Get "mod" and "symbol" associated with an address. 533 1.1 ragge * Returns 0 if success or ENOENT if no such entry. 534 1.1 ragge */ 535 1.1 ragge int 536 1.9 jdolecek ksyms_getname(const char **mod, char **sym, vaddr_t v, int f) 537 1.1 ragge { 538 1.1 ragge struct symtab *st; 539 1.1 ragge Elf_Sym *les, *es = NULL; 540 1.1 ragge vaddr_t laddr = 0; 541 1.15 christos const char *lmod = NULL; 542 1.15 christos char *stable = NULL; 543 1.1 ragge int type, i, sz; 544 1.1 ragge 545 1.1 ragge if (ksymsinited == 0) 546 1.1 ragge return ENOENT; 547 1.1 ragge 548 1.1 ragge CIRCLEQ_FOREACH(st, &symtab_queue, sd_queue) { 549 1.1 ragge sz = st->sd_symsize/sizeof(Elf_Sym); 550 1.1 ragge for (i = 0; i < sz; i++) { 551 1.1 ragge les = st->sd_symstart + i; 552 1.1 ragge type = ELF_ST_TYPE(les->st_info); 553 1.1 ragge 554 1.1 ragge if ((f & KSYMS_PROC) && (type != STT_FUNC)) 555 1.1 ragge continue; 556 1.1 ragge 557 1.1 ragge if (type == STT_NOTYPE) 558 1.1 ragge continue; 559 1.1 ragge 560 1.1 ragge if (((f & KSYMS_ANY) == 0) && 561 1.1 ragge (type != STT_FUNC) && (type != STT_OBJECT)) 562 1.1 ragge continue; 563 1.1 ragge 564 1.1 ragge if ((les->st_value <= v) && (les->st_value > laddr)) { 565 1.1 ragge laddr = les->st_value; 566 1.1 ragge es = les; 567 1.1 ragge lmod = st->sd_name; 568 1.17 cube stable = st->sd_strstart - st->sd_usroffset; 569 1.1 ragge } 570 1.1 ragge } 571 1.1 ragge } 572 1.1 ragge if (es == NULL) 573 1.1 ragge return ENOENT; 574 1.1 ragge if ((f & KSYMS_EXACT) && (v != es->st_value)) 575 1.1 ragge return ENOENT; 576 1.1 ragge if (mod) 577 1.1 ragge *mod = lmod; 578 1.1 ragge if (sym) 579 1.1 ragge *sym = stable + es->st_name; 580 1.1 ragge return 0; 581 1.1 ragge } 582 1.1 ragge 583 1.1 ragge #if NKSYMS 584 1.1 ragge static int symsz, strsz; 585 1.1 ragge 586 1.21.10.1 yamt /* 587 1.21.10.1 yamt * In case we exposing the symbol table to the userland using the pseudo- 588 1.21.10.1 yamt * device /dev/ksyms, it is easier to provide all the tables as one. 589 1.21.10.1 yamt * However, it means we have to change all the st_name fields for the 590 1.21.10.1 yamt * symbols so they match the ELF image that the userland will read 591 1.21.10.1 yamt * through the device. 592 1.21.10.1 yamt * 593 1.21.10.1 yamt * The actual (correct) value of st_name is preserved through a global 594 1.21.10.1 yamt * offset stored in the symbol table structure. 595 1.21.10.1 yamt */ 596 1.21.10.1 yamt 597 1.1 ragge static void 598 1.1 ragge ksyms_sizes_calc(void) 599 1.21.10.1 yamt { 600 1.21.10.1 yamt struct symtab *st; 601 1.1 ragge int i; 602 1.1 ragge 603 1.1 ragge symsz = strsz = 0; 604 1.1 ragge CIRCLEQ_FOREACH(st, &symtab_queue, sd_queue) { 605 1.1 ragge if (st != &kernel_symtab) { 606 1.1 ragge for (i = 0; i < st->sd_symsize/sizeof(Elf_Sym); i++) 607 1.1 ragge st->sd_symstart[i].st_name = 608 1.1 ragge strsz + st->sd_symnmoff[i]; 609 1.17 cube st->sd_usroffset = strsz; 610 1.1 ragge } 611 1.1 ragge symsz += st->sd_symsize; 612 1.1 ragge strsz += st->sd_strsize; 613 1.17 cube } 614 1.1 ragge } 615 1.1 ragge #endif 616 1.1 ragge 617 1.1 ragge /* 618 1.20 matt * Temporary work structure for dynamic loaded symbol tables. 619 1.1 ragge * Will go away when in-kernel linker is in place. 620 1.1 ragge */ 621 1.20 matt 622 1.20 matt struct syminfo { 623 1.20 matt size_t cursyms; 624 1.20 matt size_t curnamep; 625 1.20 matt size_t maxsyms; 626 1.20 matt size_t maxnamep; 627 1.20 matt Elf_Sym *syms; 628 1.20 matt int *symnmoff; 629 1.20 matt char *symnames; 630 1.20 matt }; 631 1.21.10.1 yamt 632 1.1 ragge 633 1.1 ragge /* 634 1.1 ragge * Add a symbol to the temporary save area for symbols. 635 1.1 ragge * This routine will go away when the in-kernel linker is in place. 636 1.1 ragge */ 637 1.1 ragge static void 638 1.20 matt addsym(struct syminfo *info, const Elf_Sym *sym, const char *name, 639 1.20 matt const char *mod) 640 1.1 ragge { 641 1.20 matt int len, mlen; 642 1.1 ragge 643 1.1 ragge #ifdef KSYMS_DEBUG 644 1.1 ragge if (ksyms_debug & FOLLOW_MORE_CALLS) 645 1.1 ragge printf("addsym: name %s val %lx\n", name, (long)sym->st_value); 646 1.1 ragge #endif 647 1.20 matt len = strlen(name) + 1; 648 1.20 matt if (mod) 649 1.20 matt mlen = 1 + strlen(mod); 650 1.20 matt else 651 1.20 matt mlen = 0; 652 1.21.10.1 yamt if (info->cursyms == info->maxsyms || 653 1.20 matt (len + mlen + info->curnamep) > info->maxnamep) { 654 1.19 matt printf("addsym: too many symbols, skipping '%s'\n", name); 655 1.1 ragge return; 656 1.1 ragge } 657 1.20 matt strlcpy(&info->symnames[info->curnamep], name, 658 1.20 matt info->maxnamep - info->curnamep); 659 1.20 matt if (mlen) { 660 1.20 matt info->symnames[info->curnamep + len - 1] = '.'; 661 1.20 matt strlcpy(&info->symnames[info->curnamep + len], mod, 662 1.20 matt info->maxnamep - (info->curnamep + len)); 663 1.20 matt len += mlen; 664 1.20 matt } 665 1.20 matt info->syms[info->cursyms] = *sym; 666 1.20 matt info->syms[info->cursyms].st_name = info->curnamep; 667 1.20 matt info->symnmoff[info->cursyms] = info->curnamep; 668 1.20 matt info->curnamep += len; 669 1.7 ragge #if NKSYMS 670 1.5 ragge if (len > ksyms_maxlen) 671 1.5 ragge ksyms_maxlen = len; 672 1.6 tron #endif 673 1.20 matt info->cursyms++; 674 1.1 ragge } 675 1.1 ragge /* 676 1.1 ragge * Adds a symbol table. 677 1.1 ragge * "name" is the module name, "start" and "size" is where the symbol table 678 1.1 ragge * is located, and "type" is in which binary format the symbol table is. 679 1.1 ragge * New memory for keeping the symbol table is allocated in this function. 680 1.1 ragge * Returns 0 if success and EEXIST if the module name is in use. 681 1.1 ragge */ 682 1.21 matt static int 683 1.21 matt specialsym(const char *symname) 684 1.21 matt { 685 1.21 matt return !strcmp(symname, "_bss_start") || 686 1.21 matt !strcmp(symname, "__bss_start") || 687 1.21 matt !strcmp(symname, "_bss_end__") || 688 1.21 matt !strcmp(symname, "__bss_end__") || 689 1.21 matt !strcmp(symname, "_edata") || 690 1.21 matt !strcmp(symname, "_end") || 691 1.21 matt !strcmp(symname, "__end") || 692 1.21 matt !strcmp(symname, "__end__") || 693 1.21 matt !strncmp(symname, "__start_link_set_", 17) || 694 1.21 matt !strncmp(symname, "__stop_link_set_", 16); 695 1.21 matt } 696 1.21 matt 697 1.1 ragge int 698 1.9 jdolecek ksyms_addsymtab(const char *mod, void *symstart, vsize_t symsize, 699 1.1 ragge char *strstart, vsize_t strsize) 700 1.1 ragge { 701 1.1 ragge Elf_Sym *sym = symstart; 702 1.1 ragge struct symtab *st; 703 1.14 ragge unsigned long rval; 704 1.1 ragge int i; 705 1.20 matt char *name; 706 1.20 matt struct syminfo info; 707 1.1 ragge 708 1.1 ragge #ifdef KSYMS_DEBUG 709 1.1 ragge if (ksyms_debug & FOLLOW_CALLS) 710 1.1 ragge printf("ksyms_addsymtab: mod %s symsize %lx strsize %lx\n", 711 1.1 ragge mod, symsize, strsize); 712 1.1 ragge #endif 713 1.1 ragge 714 1.1 ragge #if NKSYMS 715 1.1 ragge /* 716 1.1 ragge * Do not try to add a symbol table while someone is reading 717 1.1 ragge * from /dev/ksyms. 718 1.1 ragge */ 719 1.1 ragge while (ksyms_isopen != 0) 720 1.1 ragge tsleep(&ksyms_isopen, PWAIT, "ksyms", 0); 721 1.1 ragge #endif 722 1.1 ragge 723 1.1 ragge /* Check if this symtab already loaded */ 724 1.1 ragge CIRCLEQ_FOREACH(st, &symtab_queue, sd_queue) { 725 1.1 ragge if (strcmp(mod, st->sd_name) == 0) 726 1.1 ragge return EEXIST; 727 1.1 ragge } 728 1.1 ragge 729 1.1 ragge /* 730 1.1 ragge * XXX - Only add a symbol if it do not exist already. 731 1.1 ragge * This is because of a flaw in the current LKM implementation, 732 1.20 matt * these loops will be removed once the in-kernel linker is in place. 733 1.1 ragge */ 734 1.20 matt memset(&info, 0, sizeof(info)); 735 1.1 ragge for (i = 0; i < symsize/sizeof(Elf_Sym); i++) { 736 1.20 matt char * const symname = strstart + sym[i].st_name; 737 1.1 ragge if (sym[i].st_name == 0) 738 1.1 ragge continue; /* Just ignore */ 739 1.1 ragge 740 1.1 ragge /* check validity of the symbol */ 741 1.1 ragge /* XXX - save local symbols if DDB */ 742 1.1 ragge if (ELF_ST_BIND(sym[i].st_info) != STB_GLOBAL) 743 1.1 ragge continue; 744 1.21.10.1 yamt 745 1.1 ragge /* Check if the symbol exists */ 746 1.21.10.1 yamt if (ksyms_getval(NULL, symname, &rval, KSYMS_EXTERN) == 0) { 747 1.1 ragge /* Check (and complain) about differing values */ 748 1.1 ragge if (sym[i].st_value != rval) { 749 1.21 matt if (specialsym(symname)) { 750 1.20 matt info.maxsyms++; 751 1.20 matt info.maxnamep += strlen(symname) + 1 + 752 1.20 matt strlen(mod) + 1; 753 1.20 matt } else { 754 1.20 matt printf("%s: symbol '%s' redeclared with" 755 1.20 matt " different value (%lx != %lx)\n", 756 1.20 matt mod, symname, 757 1.20 matt rval, (long)sym[i].st_value); 758 1.20 matt } 759 1.20 matt } 760 1.20 matt } else { 761 1.20 matt /* 762 1.20 matt * Count this symbol 763 1.20 matt */ 764 1.20 matt info.maxsyms++; 765 1.20 matt info.maxnamep += strlen(symname) + 1; 766 1.20 matt } 767 1.20 matt } 768 1.20 matt 769 1.20 matt /* 770 1.20 matt * Now that we know the sizes, malloc the structures. 771 1.20 matt */ 772 1.20 matt info.syms = malloc(sizeof(Elf_Sym)*info.maxsyms, M_DEVBUF, M_WAITOK); 773 1.20 matt info.symnames = malloc(info.maxnamep, M_DEVBUF, M_WAITOK); 774 1.20 matt info.symnmoff = malloc(sizeof(int)*info.maxsyms, M_DEVBUF, M_WAITOK); 775 1.20 matt 776 1.20 matt /* 777 1.20 matt * Now that we have the symbols, actually fill in the structures. 778 1.20 matt */ 779 1.20 matt for (i = 0; i < symsize/sizeof(Elf_Sym); i++) { 780 1.20 matt char * const symname = strstart + sym[i].st_name; 781 1.20 matt if (sym[i].st_name == 0) 782 1.20 matt continue; /* Just ignore */ 783 1.20 matt 784 1.20 matt /* check validity of the symbol */ 785 1.20 matt /* XXX - save local symbols if DDB */ 786 1.20 matt if (ELF_ST_BIND(sym[i].st_info) != STB_GLOBAL) 787 1.20 matt continue; 788 1.21.10.1 yamt 789 1.20 matt /* Check if the symbol exists */ 790 1.21.10.1 yamt if (ksyms_getval(NULL, symname, &rval, KSYMS_EXTERN) == 0) { 791 1.21 matt if ((sym[i].st_value != rval) && specialsym(symname)) { 792 1.20 matt addsym(&info, &sym[i], symname, mod); 793 1.1 ragge } 794 1.1 ragge } else 795 1.1 ragge /* Ok, save this symbol */ 796 1.20 matt addsym(&info, &sym[i], symname, NULL); 797 1.1 ragge } 798 1.5 ragge 799 1.1 ragge st = malloc(sizeof(struct symtab), M_DEVBUF, M_WAITOK); 800 1.10 itojun i = strlen(mod) + 1; 801 1.10 itojun name = malloc(i, M_DEVBUF, M_WAITOK); 802 1.10 itojun strlcpy(name, mod, i); 803 1.9 jdolecek st->sd_name = name; 804 1.20 matt st->sd_symnmoff = info.symnmoff; 805 1.20 matt st->sd_symstart = info.syms; 806 1.20 matt st->sd_symsize = sizeof(Elf_Sym)*info.maxsyms; 807 1.20 matt st->sd_strstart = info.symnames; 808 1.20 matt st->sd_strsize = info.maxnamep; 809 1.1 ragge 810 1.1 ragge /* Make them absolute references */ 811 1.1 ragge sym = st->sd_symstart; 812 1.1 ragge for (i = 0; i < st->sd_symsize/sizeof(Elf_Sym); i++) 813 1.1 ragge sym[i].st_shndx = SHN_ABS; 814 1.1 ragge 815 1.1 ragge CIRCLEQ_INSERT_TAIL(&symtab_queue, st, sd_queue); 816 1.1 ragge #if NKSYMS 817 1.1 ragge ksyms_sizes_calc(); 818 1.1 ragge #endif 819 1.1 ragge return 0; 820 1.1 ragge } 821 1.1 ragge 822 1.1 ragge /* 823 1.1 ragge * Remove a symbol table specified by name. 824 1.1 ragge * Returns 0 if success, EBUSY if device open and ENOENT if no such name. 825 1.1 ragge */ 826 1.1 ragge int 827 1.9 jdolecek ksyms_delsymtab(const char *mod) 828 1.1 ragge { 829 1.1 ragge struct symtab *st; 830 1.1 ragge int found = 0; 831 1.1 ragge 832 1.1 ragge #if NKSYMS 833 1.1 ragge /* 834 1.1 ragge * Do not try to delete a symbol table while someone is reading 835 1.1 ragge * from /dev/ksyms. 836 1.1 ragge */ 837 1.1 ragge while (ksyms_isopen != 0) 838 1.1 ragge tsleep(&ksyms_isopen, PWAIT, "ksyms", 0); 839 1.1 ragge #endif 840 1.1 ragge 841 1.1 ragge CIRCLEQ_FOREACH(st, &symtab_queue, sd_queue) { 842 1.1 ragge if (strcmp(mod, st->sd_name) == 0) { 843 1.1 ragge found = 1; 844 1.1 ragge break; 845 1.1 ragge } 846 1.1 ragge } 847 1.1 ragge if (found == 0) 848 1.1 ragge return ENOENT; 849 1.1 ragge CIRCLEQ_REMOVE(&symtab_queue, st, sd_queue); 850 1.1 ragge free(st->sd_symstart, M_DEVBUF); 851 1.1 ragge free(st->sd_strstart, M_DEVBUF); 852 1.1 ragge free(st->sd_symnmoff, M_DEVBUF); 853 1.9 jdolecek /* LINTED - const castaway */ 854 1.9 jdolecek free((void *)st->sd_name, M_DEVBUF); 855 1.1 ragge free(st, M_DEVBUF); 856 1.1 ragge #if NKSYMS 857 1.1 ragge ksyms_sizes_calc(); 858 1.1 ragge #endif 859 1.1 ragge return 0; 860 1.1 ragge } 861 1.1 ragge 862 1.17 cube int 863 1.17 cube ksyms_rensymtab(const char *old, const char *new) 864 1.17 cube { 865 1.17 cube struct symtab *st, *oldst = NULL; 866 1.17 cube char *newstr; 867 1.17 cube 868 1.17 cube CIRCLEQ_FOREACH(st, &symtab_queue, sd_queue) { 869 1.17 cube if (strcmp(old, st->sd_name) == 0) 870 1.17 cube oldst = st; 871 1.17 cube if (strcmp(new, st->sd_name) == 0) 872 1.17 cube return (EEXIST); 873 1.17 cube } 874 1.17 cube if (oldst == NULL) 875 1.17 cube return (ENOENT); 876 1.17 cube 877 1.17 cube newstr = malloc(strlen(new)+1, M_DEVBUF, M_WAITOK); 878 1.17 cube if (!newstr) 879 1.17 cube return (ENOMEM); 880 1.17 cube strcpy(newstr, new); 881 1.17 cube free((char *)oldst->sd_name, M_DEVBUF); 882 1.17 cube oldst->sd_name = newstr; 883 1.17 cube 884 1.17 cube return (0); 885 1.17 cube } 886 1.17 cube 887 1.1 ragge #ifdef DDB 888 1.1 ragge 889 1.1 ragge /* 890 1.1 ragge * Keep sifting stuff here, to avoid export of ksyms internals. 891 1.1 ragge */ 892 1.1 ragge int 893 1.1 ragge ksyms_sift(char *mod, char *sym, int mode) 894 1.1 ragge { 895 1.1 ragge struct symtab *st; 896 1.1 ragge char *sb; 897 1.1 ragge int i, sz; 898 1.1 ragge 899 1.1 ragge if (ksymsinited == 0) 900 1.1 ragge return ENOENT; 901 1.1 ragge 902 1.1 ragge CIRCLEQ_FOREACH(st, &symtab_queue, sd_queue) { 903 1.1 ragge if (mod && strcmp(mod, st->sd_name)) 904 1.1 ragge continue; 905 1.1 ragge sb = st->sd_strstart; 906 1.1 ragge 907 1.1 ragge sz = st->sd_symsize/sizeof(Elf_Sym); 908 1.1 ragge for (i = 0; i < sz; i++) { 909 1.1 ragge Elf_Sym *les = st->sd_symstart + i; 910 1.1 ragge char c; 911 1.1 ragge 912 1.17 cube if (strstr(sb + les->st_name - st->sd_usroffset, sym) 913 1.17 cube == NULL) 914 1.1 ragge continue; 915 1.1 ragge 916 1.1 ragge if (mode == 'F') { 917 1.1 ragge switch (ELF_ST_TYPE(les->st_info)) { 918 1.1 ragge case STT_OBJECT: 919 1.1 ragge c = '+'; 920 1.1 ragge break; 921 1.1 ragge case STT_FUNC: 922 1.1 ragge c = '*'; 923 1.1 ragge break; 924 1.1 ragge case STT_SECTION: 925 1.1 ragge c = '&'; 926 1.1 ragge break; 927 1.1 ragge case STT_FILE: 928 1.1 ragge c = '/'; 929 1.1 ragge break; 930 1.1 ragge default: 931 1.1 ragge c = ' '; 932 1.1 ragge break; 933 1.1 ragge } 934 1.17 cube db_printf("%s%c ", sb + les->st_name - 935 1.17 cube st->sd_usroffset, c); 936 1.1 ragge } else 937 1.17 cube db_printf("%s ", sb + les->st_name - 938 1.17 cube st->sd_usroffset); 939 1.1 ragge } 940 1.1 ragge } 941 1.1 ragge return ENOENT; 942 1.1 ragge } 943 1.1 ragge #endif 944 1.1 ragge 945 1.1 ragge #if NKSYMS 946 1.1 ragge 947 1.1 ragge /* 948 1.1 ragge * Static allocated ELF header. 949 1.1 ragge * Basic info is filled in at attach, sizes at open. 950 1.1 ragge */ 951 1.1 ragge #define SYMTAB 1 952 1.1 ragge #define STRTAB 2 953 1.1 ragge #define SHSTRTAB 3 954 1.1 ragge #define NSECHDR 4 955 1.1 ragge 956 1.1 ragge #define NPRGHDR 2 957 1.1 ragge #define SHSTRSIZ 28 958 1.1 ragge 959 1.1 ragge static struct ksyms_hdr { 960 1.1 ragge Elf_Ehdr kh_ehdr; 961 1.1 ragge Elf_Phdr kh_phdr[NPRGHDR]; 962 1.1 ragge Elf_Shdr kh_shdr[NSECHDR]; 963 1.1 ragge char kh_strtab[SHSTRSIZ]; 964 1.1 ragge } ksyms_hdr; 965 1.1 ragge 966 1.1 ragge 967 1.1 ragge void 968 1.1 ragge ksyms_hdr_init(caddr_t hdraddr) 969 1.1 ragge { 970 1.1 ragge 971 1.1 ragge /* Copy the loaded elf exec header */ 972 1.1 ragge memcpy(&ksyms_hdr.kh_ehdr, hdraddr, sizeof(Elf_Ehdr)); 973 1.1 ragge 974 1.1 ragge /* Set correct program/section header sizes, offsets and numbers */ 975 1.1 ragge ksyms_hdr.kh_ehdr.e_phoff = offsetof(struct ksyms_hdr, kh_phdr[0]); 976 1.1 ragge ksyms_hdr.kh_ehdr.e_phentsize = sizeof(Elf_Phdr); 977 1.1 ragge ksyms_hdr.kh_ehdr.e_phnum = NPRGHDR; 978 1.1 ragge ksyms_hdr.kh_ehdr.e_shoff = offsetof(struct ksyms_hdr, kh_shdr[0]); 979 1.1 ragge ksyms_hdr.kh_ehdr.e_shentsize = sizeof(Elf_Shdr); 980 1.1 ragge ksyms_hdr.kh_ehdr.e_shnum = NSECHDR; 981 1.1 ragge ksyms_hdr.kh_ehdr.e_shstrndx = NSECHDR - 1; /* Last section */ 982 1.1 ragge 983 1.1 ragge /* 984 1.1 ragge * Keep program headers zeroed (unused). 985 1.1 ragge * The section headers are hand-crafted. 986 1.1 ragge * First section is section zero. 987 1.1 ragge */ 988 1.1 ragge 989 1.1 ragge /* Second section header; ".symtab" */ 990 1.1 ragge ksyms_hdr.kh_shdr[SYMTAB].sh_name = 1; /* Section 3 offset */ 991 1.1 ragge ksyms_hdr.kh_shdr[SYMTAB].sh_type = SHT_SYMTAB; 992 1.1 ragge ksyms_hdr.kh_shdr[SYMTAB].sh_offset = sizeof(struct ksyms_hdr); 993 1.1 ragge /* ksyms_hdr.kh_shdr[SYMTAB].sh_size = filled in at open */ 994 1.1 ragge ksyms_hdr.kh_shdr[SYMTAB].sh_link = 2; /* Corresponding strtab */ 995 1.1 ragge ksyms_hdr.kh_shdr[SYMTAB].sh_info = 0; /* XXX */ 996 1.1 ragge ksyms_hdr.kh_shdr[SYMTAB].sh_addralign = sizeof(long); 997 1.1 ragge ksyms_hdr.kh_shdr[SYMTAB].sh_entsize = sizeof(Elf_Sym); 998 1.1 ragge 999 1.1 ragge /* Third section header; ".strtab" */ 1000 1.1 ragge ksyms_hdr.kh_shdr[STRTAB].sh_name = 9; /* Section 3 offset */ 1001 1.1 ragge ksyms_hdr.kh_shdr[STRTAB].sh_type = SHT_STRTAB; 1002 1.1 ragge /* ksyms_hdr.kh_shdr[STRTAB].sh_offset = filled in at open */ 1003 1.1 ragge /* ksyms_hdr.kh_shdr[STRTAB].sh_size = filled in at open */ 1004 1.1 ragge /* ksyms_hdr.kh_shdr[STRTAB].sh_link = kept zero */ 1005 1.1 ragge ksyms_hdr.kh_shdr[STRTAB].sh_info = 0; 1006 1.1 ragge ksyms_hdr.kh_shdr[STRTAB].sh_addralign = sizeof(char); 1007 1.1 ragge ksyms_hdr.kh_shdr[STRTAB].sh_entsize = 0; 1008 1.1 ragge 1009 1.1 ragge /* Fourth section, ".shstrtab" */ 1010 1.1 ragge ksyms_hdr.kh_shdr[SHSTRTAB].sh_name = 17; /* This section name offset */ 1011 1.1 ragge ksyms_hdr.kh_shdr[SHSTRTAB].sh_type = SHT_STRTAB; 1012 1.1 ragge ksyms_hdr.kh_shdr[SHSTRTAB].sh_offset = 1013 1.1 ragge offsetof(struct ksyms_hdr, kh_strtab); 1014 1.1 ragge ksyms_hdr.kh_shdr[SHSTRTAB].sh_size = SHSTRSIZ; 1015 1.1 ragge ksyms_hdr.kh_shdr[SHSTRTAB].sh_addralign = sizeof(char); 1016 1.1 ragge 1017 1.1 ragge /* Set section names */ 1018 1.10 itojun strlcpy(&ksyms_hdr.kh_strtab[1], ".symtab", 1019 1.10 itojun sizeof(ksyms_hdr.kh_strtab) - 1); 1020 1.10 itojun strlcpy(&ksyms_hdr.kh_strtab[9], ".strtab", 1021 1.10 itojun sizeof(ksyms_hdr.kh_strtab) - 9); 1022 1.10 itojun strlcpy(&ksyms_hdr.kh_strtab[17], ".shstrtab", 1023 1.10 itojun sizeof(ksyms_hdr.kh_strtab) - 17); 1024 1.1 ragge }; 1025 1.1 ragge 1026 1.1 ragge int 1027 1.13 fvdl ksymsopen(dev_t dev, int oflags, int devtype, struct proc *p) 1028 1.1 ragge { 1029 1.1 ragge 1030 1.1 ragge if (minor(dev)) 1031 1.1 ragge return ENXIO; 1032 1.18 cube if (ksymsinited == 0) 1033 1.18 cube return ENXIO; 1034 1.1 ragge 1035 1.1 ragge ksyms_hdr.kh_shdr[SYMTAB].sh_size = symsz; 1036 1.1 ragge ksyms_hdr.kh_shdr[STRTAB].sh_offset = symsz + 1037 1.1 ragge ksyms_hdr.kh_shdr[SYMTAB].sh_offset; 1038 1.1 ragge ksyms_hdr.kh_shdr[STRTAB].sh_size = strsz; 1039 1.1 ragge ksyms_isopen = 1; 1040 1.1 ragge 1041 1.1 ragge #ifdef KSYMS_DEBUG 1042 1.1 ragge if (ksyms_debug & FOLLOW_DEVKSYMS) 1043 1.1 ragge printf("ksymsopen: symsz 0x%x strsz 0x%x\n", symsz, strsz); 1044 1.1 ragge #endif 1045 1.1 ragge 1046 1.1 ragge return 0; 1047 1.1 ragge } 1048 1.1 ragge 1049 1.1 ragge int 1050 1.13 fvdl ksymsclose(dev_t dev, int oflags, int devtype, struct proc *p) 1051 1.1 ragge { 1052 1.1 ragge 1053 1.1 ragge #ifdef KSYMS_DEBUG 1054 1.1 ragge if (ksyms_debug & FOLLOW_DEVKSYMS) 1055 1.1 ragge printf("ksymsclose\n"); 1056 1.1 ragge #endif 1057 1.1 ragge 1058 1.1 ragge ksyms_isopen = 0; 1059 1.1 ragge wakeup(&ksyms_isopen); 1060 1.1 ragge return 0; 1061 1.1 ragge } 1062 1.1 ragge 1063 1.1 ragge #define HDRSIZ sizeof(struct ksyms_hdr) 1064 1.1 ragge 1065 1.1 ragge int 1066 1.1 ragge ksymsread(dev_t dev, struct uio *uio, int ioflag) 1067 1.1 ragge { 1068 1.1 ragge struct symtab *st; 1069 1.1 ragge size_t filepos, inpos, off; 1070 1.1 ragge 1071 1.1 ragge #ifdef KSYMS_DEBUG 1072 1.1 ragge if (ksyms_debug & FOLLOW_DEVKSYMS) 1073 1.1 ragge printf("ksymsread: offset 0x%llx resid 0x%lx\n", 1074 1.1 ragge (long long)uio->uio_offset, uio->uio_resid); 1075 1.1 ragge #endif 1076 1.1 ragge 1077 1.1 ragge off = uio->uio_offset; 1078 1.1 ragge if (off >= (strsz + symsz + HDRSIZ)) 1079 1.1 ragge return 0; /* End of symtab */ 1080 1.1 ragge /* 1081 1.1 ragge * First: Copy out the ELF header. 1082 1.1 ragge */ 1083 1.1 ragge if (off < HDRSIZ) 1084 1.1 ragge uiomove((char *)&ksyms_hdr + off, HDRSIZ - off, uio); 1085 1.1 ragge 1086 1.1 ragge /* 1087 1.1 ragge * Copy out the symbol table. 1088 1.1 ragge */ 1089 1.1 ragge filepos = HDRSIZ; 1090 1.1 ragge CIRCLEQ_FOREACH(st, &symtab_queue, sd_queue) { 1091 1.1 ragge if (uio->uio_resid == 0) 1092 1.1 ragge return 0; 1093 1.1 ragge if (uio->uio_offset <= st->sd_symsize + filepos) { 1094 1.1 ragge inpos = uio->uio_offset - filepos; 1095 1.1 ragge uiomove((char *)st->sd_symstart + inpos, 1096 1.1 ragge st->sd_symsize - inpos, uio); 1097 1.1 ragge } 1098 1.1 ragge filepos += st->sd_symsize; 1099 1.1 ragge } 1100 1.1 ragge 1101 1.1 ragge if (filepos != HDRSIZ + symsz) 1102 1.1 ragge panic("ksymsread: unsunc"); 1103 1.1 ragge 1104 1.1 ragge /* 1105 1.1 ragge * Copy out the string table 1106 1.1 ragge */ 1107 1.1 ragge CIRCLEQ_FOREACH(st, &symtab_queue, sd_queue) { 1108 1.1 ragge if (uio->uio_resid == 0) 1109 1.1 ragge return 0; 1110 1.1 ragge if (uio->uio_offset <= st->sd_strsize + filepos) { 1111 1.1 ragge inpos = uio->uio_offset - filepos; 1112 1.1 ragge uiomove((char *)st->sd_strstart + inpos, 1113 1.1 ragge st->sd_strsize - inpos, uio); 1114 1.1 ragge } 1115 1.1 ragge filepos += st->sd_strsize; 1116 1.1 ragge } 1117 1.1 ragge return 0; 1118 1.1 ragge } 1119 1.1 ragge 1120 1.1 ragge int 1121 1.1 ragge ksymswrite(dev_t dev, struct uio *uio, int ioflag) 1122 1.1 ragge { 1123 1.1 ragge return EROFS; 1124 1.1 ragge } 1125 1.1 ragge 1126 1.1 ragge int 1127 1.13 fvdl ksymsioctl(dev_t dev, u_long cmd, caddr_t data, int fflag, struct proc *p) 1128 1.1 ragge { 1129 1.1 ragge struct ksyms_gsymbol *kg = (struct ksyms_gsymbol *)data; 1130 1.1 ragge struct symtab *st; 1131 1.15 christos Elf_Sym *sym = NULL; 1132 1.1 ragge unsigned long val; 1133 1.1 ragge int error = 0; 1134 1.15 christos char *str = NULL; 1135 1.5 ragge 1136 1.5 ragge if (cmd == KIOCGVALUE || cmd == KIOCGSYMBOL) 1137 1.5 ragge str = malloc(ksyms_maxlen, M_DEVBUF, M_WAITOK); 1138 1.1 ragge 1139 1.1 ragge switch (cmd) { 1140 1.1 ragge case KIOCGVALUE: 1141 1.1 ragge /* 1142 1.1 ragge * Use the in-kernel symbol lookup code for fast 1143 1.1 ragge * retreival of a value. 1144 1.1 ragge */ 1145 1.5 ragge if ((error = copyinstr(kg->kg_name, str, ksyms_maxlen, NULL))) 1146 1.1 ragge break; 1147 1.21.10.1 yamt if ((error = ksyms_getval(NULL, str, &val, KSYMS_EXTERN))) 1148 1.1 ragge break; 1149 1.1 ragge error = copyout(&val, kg->kg_value, sizeof(long)); 1150 1.1 ragge break; 1151 1.1 ragge 1152 1.1 ragge case KIOCGSYMBOL: 1153 1.1 ragge /* 1154 1.1 ragge * Use the in-kernel symbol lookup code for fast 1155 1.1 ragge * retreival of a symbol. 1156 1.1 ragge */ 1157 1.5 ragge if ((error = copyinstr(kg->kg_name, str, ksyms_maxlen, NULL))) 1158 1.1 ragge break; 1159 1.1 ragge CIRCLEQ_FOREACH(st, &symtab_queue, sd_queue) { 1160 1.21.10.1 yamt if ((sym = findsym(str, st)) == NULL) /* from userland */ 1161 1.1 ragge continue; 1162 1.1 ragge 1163 1.1 ragge /* Skip if bad binding */ 1164 1.1 ragge if (ELF_ST_BIND(sym->st_info) != STB_GLOBAL) { 1165 1.1 ragge sym = NULL; 1166 1.1 ragge continue; 1167 1.1 ragge } 1168 1.1 ragge break; 1169 1.1 ragge } 1170 1.21.10.1 yamt /* 1171 1.21.10.1 yamt * XXX which value of sym->st_name should be returned? The real 1172 1.21.10.1 yamt * one, or the one that matches what reading /dev/ksyms get? 1173 1.21.10.1 yamt * 1174 1.21.10.1 yamt * Currently, we're returning the /dev/ksyms one. 1175 1.21.10.1 yamt */ 1176 1.1 ragge if (sym != NULL) 1177 1.1 ragge error = copyout(sym, kg->kg_sym, sizeof(Elf_Sym)); 1178 1.1 ragge else 1179 1.1 ragge error = ENOENT; 1180 1.1 ragge break; 1181 1.1 ragge 1182 1.1 ragge case KIOCGSIZE: 1183 1.1 ragge /* 1184 1.1 ragge * Get total size of symbol table. 1185 1.1 ragge */ 1186 1.1 ragge *(int *)data = strsz + symsz + HDRSIZ; 1187 1.1 ragge break; 1188 1.1 ragge 1189 1.1 ragge default: 1190 1.1 ragge error = ENOTTY; 1191 1.1 ragge break; 1192 1.1 ragge } 1193 1.5 ragge 1194 1.5 ragge if (cmd == KIOCGVALUE || cmd == KIOCGSYMBOL) 1195 1.5 ragge free(str, M_DEVBUF); 1196 1.5 ragge 1197 1.5 ragge return error; 1198 1.1 ragge } 1199 1.1 ragge #endif 1200
Indexes created Sat Oct 11 16:09:52 GMT 2025