2 * Copyright (C) 1996-1997 John D. Polstra. All rights reserved.
4 * Redistribution and use in source and binary forms, with or without
5 * modification, are permitted provided that the following conditions
7 * 1. Redistributions of source code must retain the above copyright
8 * notice, this list of conditions and the following disclaimer.
9 * 2. Redistributions in binary form must reproduce the above copyright
10 * notice, this list of conditions and the following disclaimer in the
11 * documentation and/or other materials provided with the distribution.
13 * THIS SOFTWARE IS PROVIDED BY JOHN D. POLSTRA AND CONTRIBUTORS ``AS IS'' AND
14 * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
15 * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
16 * ARE DISCLAIMED. IN NO EVENT SHALL JOHN D. POLSTRA OR CONTRIBUTORS BE LIABLE
17 * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
18 * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
19 * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
20 * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
21 * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
22 * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
26 #include <sys/cdefs.h>
27 __FBSDID("$FreeBSD$");
29 #include <sys/types.h>
33 #include <machine/elf.h>
35 #include <arpa/inet.h>
42 #include <sys/link_aout.h>
51 #define PAGE_SIZE 4096 /* i386 specific */
54 #define N_SETA 0x14 /* Absolute set element symbol */
55 #endif /* This is input to LD, in a .o file. */
58 #define N_SETT 0x16 /* Text set element symbol */
59 #endif /* This is input to LD, in a .o file. */
62 #define N_SETD 0x18 /* Data set element symbol */
63 #endif /* This is input to LD, in a .o file. */
66 #define N_SETB 0x1A /* Bss set element symbol */
67 #endif /* This is input to LD, in a .o file. */
70 #define N_SETV 0x1C /* Pointer to set vector in data area. */
71 #endif /* This is output from LD. */
77 static void dump_rels(const char *, const struct relocation_info *,
78 unsigned long, const char *(*)(unsigned long), unsigned char *);
79 static void dump_segs(void);
80 static void dump_sods(void);
81 static void dump_sym(const struct nlist *);
82 static void dump_syms(void);
84 static void dump_rtsyms(void);
86 static const char *rtsym_name(unsigned long);
87 static const char *sym_name(unsigned long);
95 * Variables ending in _base are pointers to things in our address space,
96 * i.e., in the file itself.
98 * Variables ending in _addr are adjusted according to where things would
99 * actually appear in memory if the file were loaded.
101 static const char *file_base;
102 static const char *text_base;
103 static const char *data_base;
104 static const struct relocation_info *rel_base;
105 static const struct nlist *sym_base;
106 static const char *str_base;
108 static const struct relocation_info *rtrel_base;
109 static const struct nzlist *rtsym_base;
110 static const char *rtstr_base;
112 static const struct exec *ex;
113 static const struct _dynamic *dyn;
114 static const struct section_dispatch_table *sdt;
116 static const char *text_addr;
117 static const char *data_addr;
119 static unsigned long rel_count;
120 static unsigned long sym_count;
122 static unsigned long rtrel_count;
123 static unsigned long rtsym_count;
125 /* Dynamically allocated flags, 1 byte per symbol, to record whether each
126 symbol was referenced by a relocation entry. */
127 static unsigned char *sym_used;
128 static unsigned char *rtsym_used;
130 static unsigned long origin; /* What values are relocated relative to */
134 main(int argc, char *argv[])
138 for (i = 1; i < argc; ++i)
141 return error_count == 0 ? EXIT_SUCCESS : EXIT_FAILURE;
145 static inline const void *align_struct(const void *expr)
147 assert(!(((int)expr) & 3));
151 static inline const void *align_long(const void *expr)
153 assert(!(((int)expr) & 3));
157 static inline const void *align_short(const void *expr)
159 assert(!(((int)expr) & 1));
167 dump_file(const char *fname)
173 if (stat(fname, &sb) == -1) {
174 warnx("cannot stat \"%s\"", fname);
179 if ((sb.st_mode & S_IFMT) != S_IFREG) {
180 warnx("\"%s\" is not a regular file", fname);
185 if ((fd = open(fname, O_RDONLY, 0)) == -1) {
186 warnx("cannot open \"%s\"", fname);
191 objbase = mmap(0, sb.st_size, PROT_READ, MAP_SHARED, fd, 0);
192 if (objbase == (caddr_t) -1) {
193 warnx("cannot mmap \"%s\"", fname);
201 file_base = (const char *) objbase; /* Makes address arithmetic easier */
203 if (IS_ELF(*(const Elf32_Ehdr*) align_struct(file_base))) {
204 warnx("%s: this is an ELF program; use objdump to examine", fname);
206 munmap(objbase, sb.st_size);
211 ex = (const struct exec *) align_struct(file_base);
213 printf("%s: a_midmag = 0x%lx\n", fname, (long)ex->a_midmag);
214 printf(" magic = 0x%lx = 0%lo, netmagic = 0x%lx = 0%lo\n",
215 (long)N_GETMAGIC(*ex), (long)N_GETMAGIC(*ex),
216 (long)N_GETMAGIC_NET(*ex), (long)N_GETMAGIC_NET(*ex));
219 warnx("%s: bad magic number", fname);
221 munmap(objbase, sb.st_size);
225 printf(" a_text = 0x%lx\n", (long)ex->a_text);
226 printf(" a_data = 0x%lx\n", (long)ex->a_data);
227 printf(" a_bss = 0x%lx\n", (long)ex->a_bss);
228 printf(" a_syms = 0x%lx\n", (long)ex->a_syms);
229 printf(" a_entry = 0x%lx\n", (long)ex->a_entry);
230 printf(" a_trsize = 0x%lx\n", (long)ex->a_trsize);
231 printf(" a_drsize = 0x%lx\n", (long)ex->a_drsize);
233 text_base = file_base + N_TXTOFF(*ex);
234 data_base = file_base + N_DATOFF(*ex);
235 rel_base = (const struct relocation_info *)
236 align_struct(file_base + N_RELOFF(*ex));
237 sym_base = (const struct nlist *) align_struct(file_base + N_SYMOFF(*ex));
238 str_base = file_base + N_STROFF(*ex);
240 rel_count = (ex->a_trsize + ex->a_drsize) / sizeof rel_base[0];
241 assert(rel_count * sizeof rel_base[0] == ex->a_trsize + ex->a_drsize);
242 sym_count = ex->a_syms / sizeof sym_base[0];
243 assert(sym_count * sizeof sym_base[0] == ex->a_syms);
245 if (sym_count != 0) {
246 sym_used = (unsigned char *) calloc(sym_count, sizeof(unsigned char));
247 assert(sym_used != NULL);
250 printf(" Entry = 0x%lx\n", (long)ex->a_entry);
251 printf(" Text offset = %x, address = %lx\n", N_TXTOFF(*ex),
252 (long)N_TXTADDR(*ex));
253 printf(" Data offset = %lx, address = %lx\n", (long)N_DATOFF(*ex),
254 (long)N_DATADDR(*ex));
257 * In an executable program file, everything is relocated relative to
258 * the assumed run-time load address, i.e., N_TXTADDR(*ex), i.e., 0x1000.
260 * In a shared library file, everything is relocated relative to the
261 * start of the file, i.e., N_TXTOFF(*ex), i.e., 0.
263 * The way to tell the difference is by looking at ex->a_entry. If it
264 * is >= 0x1000, then we have an executable program. Otherwise, we
265 * have a shared library.
267 * When a program is executed, the entire file is mapped into memory,
268 * including the a.out header and so forth. But it is not mapped at
269 * address 0; rather it is mapped at address 0x1000. The first page
270 * of the user's address space is left unmapped in order to catch null
271 * pointer dereferences.
273 * In this program, when we map in an executable program, we have to
274 * simulate the empty page by decrementing our assumed base address by
278 text_addr = text_base;
279 data_addr = data_base;
282 if (ex->a_entry >= PAGE_SIZE) { /* Executable, not a shared library */
284 * The fields in the object have already been relocated on the
285 * assumption that the object will be loaded at N_TXTADDR(*ex).
286 * We have to compensate for that.
288 text_addr -= PAGE_SIZE;
289 data_addr -= PAGE_SIZE;
291 printf(" Program, origin = %lx\n", origin);
292 } else if (N_GETFLAG(*ex) & EX_DYNAMIC)
293 printf(" Shared library, origin = %lx\n", origin);
295 printf(" Object file, origin = %lx\n", origin);
297 if (N_GETFLAG(*ex) & EX_DYNAMIC) {
298 dyn = (const struct _dynamic *) align_struct(data_base);
299 printf(" Dynamic version = %d\n", dyn->d_version);
301 sdt = (const struct section_dispatch_table *)
302 align_struct(text_addr + (unsigned long) dyn->d_un.d_sdt);
304 rtrel_base = (const struct relocation_info *)
305 align_struct(text_addr + sdt->sdt_rel);
306 rtrel_count = (sdt->sdt_hash - sdt->sdt_rel) / sizeof rtrel_base[0];
307 assert(rtrel_count * sizeof rtrel_base[0] ==
308 (size_t)(sdt->sdt_hash - sdt->sdt_rel));
310 rtsym_base = (const struct nzlist *)
311 align_struct(text_addr + sdt->sdt_nzlist);
312 rtsym_count = (sdt->sdt_strings - sdt->sdt_nzlist) /
313 sizeof rtsym_base[0];
314 assert(rtsym_count * sizeof rtsym_base[0] ==
315 (size_t)(sdt->sdt_strings - sdt->sdt_nzlist));
317 if (rtsym_count != 0) {
318 rtsym_used = (unsigned char *) calloc(rtsym_count,
319 sizeof(unsigned char));
320 assert(rtsym_used != NULL);
323 rtstr_base = text_addr + sdt->sdt_strings;
328 dump_rels("Relocations", rel_base, rel_count, sym_name, sym_used);
331 dump_rels("Run-time relocations", rtrel_base, rtrel_count, rtsym_name,
335 if (rtsym_used != NULL) {
339 if (sym_used != NULL) {
343 munmap(objbase, sb.st_size);
347 dump_rels(const char *label, const struct relocation_info *base,
348 unsigned long count, const char *(*name)(unsigned long),
349 unsigned char *sym_used_flags)
353 printf(" %s:\n", label);
354 for (i = 0; i < count; ++i) {
355 const struct relocation_info *r = &base[i];
359 size = 1u << r->r_length;
361 if (origin <= (unsigned long)r->r_address
362 && (unsigned long)r->r_address < origin + ex->a_text + ex->a_data
363 && 1 <= size && size <= 4) {
365 * XXX - This can cause unaligned accesses. OK for the
366 * i386, not so for other architectures.
370 snprintf(contents, sizeof contents, " [%02x]",
371 *(unsigned const char *)(text_addr + r->r_address));
374 snprintf(contents, sizeof contents, " [%04x]",
375 *(unsigned const short *)
376 align_short(text_addr + r->r_address));
379 snprintf(contents, sizeof contents, "[%08lx]",
380 *(unsigned const long *)
381 align_long(text_addr + r->r_address));
385 snprintf(contents, sizeof contents, " ");
387 printf(" %6lu %8x/%u %s %c%c%c%c%c%c", i,
390 r->r_extern ? 'e' : '-',
391 r->r_jmptable ? 'j' : '-',
392 r->r_relative ? 'r' : '-',
393 r->r_baserel ? 'b' : '-',
394 r->r_pcrel ? 'p' : '-',
395 r->r_copy ? 'c' : '-');
397 if (r->r_extern || r->r_baserel || r->r_jmptable || r->r_copy) {
398 printf(" %4u %s", r->r_symbolnum, name(r->r_symbolnum));
399 sym_used_flags[r->r_symbolnum] = 1;
411 printf(" Run-time symbols:\n");
412 for (i = 0; i < rtsym_count; ++i) {
413 printf(" %6lu%c ", i, rtsym_used[i] ? '*' : ' ');
414 dump_sym(&rtsym_base[i].nlist);
415 printf("/%-5ld %s\n", rtsym_base[i].nz_size, rtsym_name(i));
422 printf(" Text segment starts at address %lx\n", origin + N_TXTOFF(*ex));
423 if (N_GETFLAG(*ex) & EX_DYNAMIC) {
424 printf(" rel starts at %lx\n", sdt->sdt_rel);
425 printf(" hash starts at %lx\n", sdt->sdt_hash);
426 printf(" nzlist starts at %lx\n", sdt->sdt_nzlist);
427 printf(" strings starts at %lx\n", sdt->sdt_strings);
430 printf(" Data segment starts at address %lx\n", origin + N_DATOFF(*ex));
431 if (N_GETFLAG(*ex) & EX_DYNAMIC) {
432 printf(" _dynamic starts at %lx\n", origin + N_DATOFF(*ex));
433 printf(" so_debug starts at %lx\n", (unsigned long) dyn->d_debug);
434 printf(" sdt starts at %lx\n", (unsigned long) dyn->d_un.d_sdt);
435 printf(" got starts at %lx\n", sdt->sdt_got);
436 printf(" plt starts at %lx\n", sdt->sdt_plt);
437 printf(" rest of stuff starts at %lx\n",
438 sdt->sdt_plt + sdt->sdt_plt_sz);
448 if (dyn == NULL) /* Not a shared object */
451 sod_offset = sdt->sdt_sods;
452 printf(" Shared object dependencies:\n");
453 while (sod_offset != 0) {
454 const struct sod *sodp = (const struct sod *) align_struct((text_addr + sod_offset));
455 const char *name = (const char *) (text_addr + sodp->sod_name);
457 if (sodp->sod_library)
458 printf(" -l%-16s version %d.%d\n", name, sodp->sod_major,
461 printf(" %s\n", name);
462 sod_offset = sodp->sod_next;
464 paths_offset = sdt->sdt_paths;
465 printf(" Shared object additional paths:\n");
466 if (paths_offset != 0) {
467 printf(" %s\n", (const char *)(text_addr + paths_offset));
474 dump_sym(const struct nlist *np)
481 switch (np->n_type & ~N_EXT) {
482 case N_UNDF: strcpy(type, "undf"); break;
483 case N_ABS: strcpy(type, "abs"); break;
484 case N_TEXT: strcpy(type, "text"); break;
485 case N_DATA: strcpy(type, "data"); break;
486 case N_BSS: strcpy(type, "bss"); break;
487 case N_INDR: strcpy(type, "indr"); break;
488 case N_SIZE: strcpy(type, "size"); break;
489 case N_COMM: strcpy(type, "comm"); break;
490 case N_SETA: strcpy(type, "seta"); break;
491 case N_SETT: strcpy(type, "sett"); break;
492 case N_SETD: strcpy(type, "setd"); break;
493 case N_SETB: strcpy(type, "setb"); break;
494 case N_SETV: strcpy(type, "setv"); break;
495 case N_FN: strcpy(type, np->n_type&N_EXT ? "fn" : "warn"); break;
496 case N_GSYM: strcpy(type, "gsym"); break;
497 case N_FNAME: strcpy(type, "fname"); break;
498 case N_FUN: strcpy(type, "fun"); break;
499 case N_STSYM: strcpy(type, "stsym"); break;
500 case N_LCSYM: strcpy(type, "lcsym"); break;
501 case N_MAIN: strcpy(type, "main"); break;
502 case N_PC: strcpy(type, "pc"); break;
503 case N_RSYM: strcpy(type, "rsym"); break;
504 case N_SLINE: strcpy(type, "sline"); break;
505 case N_DSLINE: strcpy(type, "dsline"); break;
506 case N_BSLINE: strcpy(type, "bsline"); break;
507 case N_SSYM: strcpy(type, "ssym"); break;
508 case N_SO: strcpy(type, "so"); break;
509 case N_LSYM: strcpy(type, "lsym"); break;
510 case N_BINCL: strcpy(type, "bincl"); break;
511 case N_SOL: strcpy(type, "sol"); break;
512 case N_PSYM: strcpy(type, "psym"); break;
513 case N_EINCL: strcpy(type, "eincl"); break;
514 case N_ENTRY: strcpy(type, "entry"); break;
515 case N_LBRAC: strcpy(type, "lbrac"); break;
516 case N_EXCL: strcpy(type, "excl"); break;
517 case N_RBRAC: strcpy(type, "rbrac"); break;
518 case N_BCOMM: strcpy(type, "bcomm"); break;
519 case N_ECOMM: strcpy(type, "ecomm"); break;
520 case N_ECOML: strcpy(type, "ecoml"); break;
521 case N_LENG: strcpy(type, "leng"); break;
523 snprintf(type, sizeof type, "%#02x", np->n_type);
527 if (np->n_type & N_EXT && type[0] != '0')
528 for (p = type; *p != '\0'; ++p)
532 case 0: strcpy(aux, ""); break;
533 case AUX_OBJECT: strcpy(aux, "objt"); break;
534 case AUX_FUNC: strcpy(aux, "func"); break;
535 default: snprintf(aux, sizeof aux, "%#01x", N_AUX(np)); break;
538 weak = N_BIND(np) == BIND_WEAK ? 'w' : ' ';
540 printf("%c%-6s %-4s %8lx", weak, type, aux, np->n_value);
548 printf(" Symbols:\n");
549 for (i = 0; i < sym_count; ++i) {
550 printf(" %6lu%c ", i, sym_used[i] ? '*' : ' ');
551 dump_sym(&sym_base[i]);
552 printf(" %s\n", sym_name(i));
557 rtsym_name(unsigned long n)
559 assert(n < rtsym_count);
560 if (rtsym_base[n].nz_strx == 0)
562 return rtstr_base + rtsym_base[n].nz_strx;
566 sym_name(unsigned long n)
568 assert(n < sym_count);
569 if (sym_base[n].n_un.n_strx == 0)
571 return str_base + sym_base[n].n_un.n_strx;