xref: /titanic_52/usr/src/cmd/sgs/elfdump/common/elfdump.c (revision 25cf1a301a396c38e8adf52c15f537b80d2483f7)
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 (the "License").
6  * You may not use this file except in compliance with the License.
7  *
8  * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE
9  * or http://www.opensolaris.org/os/licensing.
10  * See the License for the specific language governing permissions
11  * and limitations under the License.
12  *
13  * When distributing Covered Code, include this CDDL HEADER in each
14  * file and include the License file at usr/src/OPENSOLARIS.LICENSE.
15  * If applicable, add the following below this CDDL HEADER, with the
16  * fields enclosed by brackets "[]" replaced with your own identifying
17  * information: Portions Copyright [yyyy] [name of copyright owner]
18  *
19  * CDDL HEADER END
20  */
21 
22 /*
23  * Copyright 2006 Sun Microsystems, Inc.  All rights reserved.
24  * Use is subject to license terms.
25  */
26 #pragma ident	"%Z%%M%	%I%	%E% SMI"
27 
28 /*
29  * Dump an elf file.
30  */
31 #include	<machdep.h>
32 #include	<sys/elf_386.h>
33 #include	<sys/elf_amd64.h>
34 #include	<sys/elf_SPARC.h>
35 #include	<dwarf.h>
36 #include	<unistd.h>
37 #include	<errno.h>
38 #include	<strings.h>
39 #include	<debug.h>
40 #include	<conv.h>
41 #include	<msg.h>
42 #include	<_elfdump.h>
43 
44 /*
45  * Focal point for verifying symbol names.
46  */
47 static const char *
48 string(Cache *refsec, Word ndx, Cache *strsec, const char *file, Word name)
49 {
50 	static Cache	*osec = 0;
51 	static int	nostr;
52 
53 	const char	*strs = (char *)strsec->c_data->d_buf;
54 	Word		strn = strsec->c_data->d_size;
55 
56 	/*
57 	 * Only print a diagnostic regarding an empty string table once per
58 	 * input section being processed.
59 	 */
60 	if (osec != refsec) {
61 		osec = refsec;
62 		nostr = 0;
63 	}
64 
65 	/*
66 	 * Is the string table offset within range of the available strings?
67 	 */
68 	if (name >= strn) {
69 		/*
70 		 * Do we have a empty string table?
71 		 */
72 		if (strs == 0) {
73 			if (nostr == 0) {
74 				(void) fprintf(stderr, MSG_INTL(MSG_ERR_BADSZ),
75 				    file, strsec->c_name);
76 				nostr++;
77 			}
78 		} else {
79 			(void) fprintf(stderr, MSG_INTL(MSG_ERR_BADSTOFF),
80 			    file, refsec->c_name, EC_WORD(ndx), strsec->c_name,
81 			    EC_WORD(name), EC_WORD(strn - 1));
82 		}
83 
84 		/*
85 		 * Return the empty string so that the calling function can
86 		 * continue it's output diagnostics.
87 		 */
88 		return (MSG_INTL(MSG_STR_UNKNOWN));
89 	}
90 	return (strs + name);
91 }
92 
93 /*
94  * Relocations can reference section symbols and standard symbols.  If the
95  * former, establish the section name.
96  */
97 static const char *
98 relsymname(Cache *cache, Cache *csec, Cache *strsec, Word symndx, Word symnum,
99     Word relndx, Sym *syms, char *secstr, size_t secsz, const char *file,
100     uint_t flags)
101 {
102 	Sym	*sym;
103 
104 	if (symndx >= symnum) {
105 		(void) fprintf(stderr, MSG_INTL(MSG_ERR_RELBADSYMNDX),
106 		    file, EC_WORD(symndx), EC_WORD(relndx));
107 		return (MSG_INTL(MSG_STR_UNKNOWN));
108 	}
109 
110 	sym = (Sym *)(syms + symndx);
111 
112 	/*
113 	 * If the symbol represents a section offset construct an appropriate
114 	 * string.
115 	 */
116 	if ((ELF_ST_TYPE(sym->st_info) == STT_SECTION) && (sym->st_name == 0)) {
117 		if (flags & FLG_LONGNAME)
118 			(void) snprintf(secstr, secsz,
119 			    MSG_INTL(MSG_STR_L_SECTION),
120 			    cache[sym->st_shndx].c_name);
121 		else
122 			(void) snprintf(secstr, secsz,
123 			    MSG_INTL(MSG_STR_SECTION),
124 			    cache[sym->st_shndx].c_name);
125 		return ((const char *)secstr);
126 	}
127 
128 	return (string(csec, symndx, strsec, file, sym->st_name));
129 }
130 
131 /*
132  * Focal point for establishing a string table section.  Data such as the
133  * dynamic information simply points to a string table.  Data such as
134  * relocations, reference a symbol table, which in turn is associated with a
135  * string table.
136  */
137 static int
138 stringtbl(Cache *cache, int symtab, Word ndx, Word shnum, const char *file,
139     Word *symnum, Cache **symsec, Cache **strsec)
140 {
141 	Shdr	*shdr = cache[ndx].c_shdr;
142 
143 	if (symtab) {
144 		/*
145 		 * Validate the symbol table section.
146 		 */
147 		if ((shdr->sh_link == 0) || (shdr->sh_link >= shnum)) {
148 			(void) fprintf(stderr, MSG_INTL(MSG_ERR_BADSHLINK),
149 			    file, cache[ndx].c_name, EC_WORD(shdr->sh_link));
150 			return (0);
151 		}
152 
153 		/*
154 		 * Obtain, and verify the symbol table data.
155 		 */
156 		if (cache[ndx].c_data->d_buf == 0) {
157 			(void) fprintf(stderr, MSG_INTL(MSG_ERR_BADSZ),
158 			    file, cache[ndx].c_name);
159 			return (0);
160 		}
161 
162 		/*
163 		 * Establish the string table index.
164 		 */
165 		ndx = shdr->sh_link;
166 		shdr = cache[ndx].c_shdr;
167 
168 		/*
169 		 * Return symbol table information.
170 		 */
171 		if (symnum)
172 			*symnum = (shdr->sh_size / shdr->sh_entsize);
173 		if (symsec)
174 			*symsec = &cache[ndx];
175 	}
176 
177 	/*
178 	 * Validate the associated string table section.
179 	 */
180 	if ((shdr->sh_link == 0) || (shdr->sh_link >= shnum)) {
181 		(void) fprintf(stderr, MSG_INTL(MSG_ERR_BADSHLINK),
182 		    file, cache[ndx].c_name, EC_WORD(shdr->sh_link));
183 		return (0);
184 	}
185 
186 	if (strsec)
187 		*strsec = &cache[shdr->sh_link];
188 
189 	return (1);
190 }
191 
192 /*
193  * Lookup a symbol and set Sym accordingly.
194  */
195 static int
196 symlookup(const char *name, Cache *cache, Word shnum, Sym **sym,
197     Cache *symtab, const char *file)
198 {
199 	Shdr	*shdr;
200 	Word	symn, cnt;
201 	Sym	*syms;
202 
203 	if (symtab == 0)
204 		return (0);
205 
206 	shdr = symtab->c_shdr;
207 
208 	/*
209 	 * Determine the symbol data and number.
210 	 */
211 	if ((shdr->sh_entsize == 0) || (shdr->sh_size == 0)) {
212 		(void) fprintf(stderr, MSG_INTL(MSG_ERR_BADSZ),
213 		    file, symtab->c_name);
214 		return (0);
215 	}
216 	/* LINTED */
217 	symn = (Word)(shdr->sh_size / shdr->sh_entsize);
218 	syms = (Sym *)symtab->c_data->d_buf;
219 
220 	/*
221 	 * Get the associated string table section.
222 	 */
223 	if ((shdr->sh_link == 0) || (shdr->sh_link >= shnum)) {
224 		(void) fprintf(stderr, MSG_INTL(MSG_ERR_BADSHLINK),
225 		    file, symtab->c_name, EC_WORD(shdr->sh_link));
226 		return (0);
227 	}
228 
229 	/*
230 	 * Loop through the symbol table to find a match.
231 	 */
232 	for (cnt = 0; cnt < symn; syms++, cnt++) {
233 		const char	*symname;
234 
235 		symname = string(symtab, cnt, &cache[shdr->sh_link], file,
236 		    syms->st_name);
237 
238 		if (symname && (strcmp(name, symname) == 0)) {
239 			*sym = syms;
240 			return (1);
241 		}
242 	}
243 	return (0);
244 }
245 
246 /*
247  * Print section headers.
248  */
249 static void
250 sections(const char *file, Cache *cache, Word shnum, Ehdr *ehdr,
251     const char *name)
252 {
253 	size_t	seccnt;
254 
255 	for (seccnt = 1; seccnt < shnum; seccnt++) {
256 		Cache		*_cache = &cache[seccnt];
257 		Shdr		*shdr = _cache->c_shdr;
258 		const char	*secname = _cache->c_name;
259 
260 		if (name && strcmp(name, secname))
261 			continue;
262 
263 		/*
264 		 * Although numerous section header entries can be zero, it's
265 		 * usually a sign of trouble if the name or type are zero.
266 		 */
267 		if (shdr->sh_type == 0) {
268 			(void) fprintf(stderr, MSG_INTL(MSG_ERR_BADSHTYPE),
269 			    file, secname, EC_WORD(shdr->sh_type));
270 		}
271 		if (shdr->sh_name == 0) {
272 			(void) fprintf(stderr, MSG_INTL(MSG_ERR_BADSHNAME),
273 			    file, secname, EC_XWORD(shdr->sh_name));
274 
275 			/*
276 			 * Use the empty string, rather than the fabricated
277 			 * name for the section output.
278 			 */
279 			secname = MSG_ORIG(MSG_STR_EMPTY);
280 		}
281 
282 		/*
283 		 * Identify any sections that are suspicious.  A .got section
284 		 * shouldn't exist in a relocatable object.
285 		 */
286 		if (ehdr->e_type == ET_REL) {
287 			if (strncmp(secname, MSG_ORIG(MSG_ELF_GOT),
288 			    MSG_ELF_GOT_SIZE) == 0) {
289 				(void) fprintf(stderr,
290 				    MSG_INTL(MSG_GOT_UNEXPECTED), file,
291 				    secname);
292 			}
293 		}
294 
295 		dbg_print(0, MSG_ORIG(MSG_STR_EMPTY));
296 		dbg_print(0, MSG_INTL(MSG_ELF_SHDR), EC_WORD(seccnt), secname);
297 		Elf_shdr(0, ehdr->e_machine, shdr);
298 	}
299 }
300 
301 /*
302  * A couple of instances of unwind data are printed as tables of 8 data items
303  * expressed as 0x?? integers.
304  */
305 #define	UNWINDTBLSZ	10 + (8 * 5) + 1
306 
307 static void
308 unwindtbl(uint64_t *ndx, uint_t len, uchar_t *data, uint64_t doff,
309     const char *msg, const char *pre, size_t plen)
310 {
311 	char	buffer[UNWINDTBLSZ];
312 	uint_t	boff = plen, cnt = 0;
313 
314 	dbg_print(0, msg);
315 	(void) strncpy(buffer, pre, UNWINDTBLSZ);
316 
317 	while (*ndx < (len + 4)) {
318 		if (cnt == 8) {
319 			dbg_print(0, buffer);
320 			boff = plen;
321 			cnt = 0;
322 		}
323 		(void) snprintf(&buffer[boff], UNWINDTBLSZ - boff,
324 		    MSG_ORIG(MSG_UNW_TBLENTRY), data[doff + (*ndx)++]);
325 		boff += 5;
326 		cnt++;
327 	}
328 	if (cnt)
329 		dbg_print(0, buffer);
330 }
331 
332 /*
333  * Obtain a specified Phdr entry.
334  */
335 static Phdr *
336 getphdr(Word phnum, Word type, const char *file, Elf *elf)
337 {
338 	Word	cnt;
339 	Phdr	*phdr;
340 
341 	if ((phdr = elf_getphdr(elf)) == NULL) {
342 		failure(file, MSG_ORIG(MSG_ELF_GETPHDR));
343 		return (0);
344 	}
345 
346 	for (cnt = 0; cnt < phnum; phdr++, cnt++) {
347 		if (phdr->p_type == type)
348 			return (phdr);
349 	}
350 	return (0);
351 }
352 
353 static void
354 unwind(Cache *cache, Word shnum, Word phnum, Ehdr *ehdr, const char *name,
355     const char *file, Elf *elf)
356 {
357 	Word	cnt;
358 	Phdr	*uphdr = 0;
359 
360 	/*
361 	 * For the moment - UNWIND is only relevant for a AMD64 object.
362 	 */
363 	if (ehdr->e_machine != EM_AMD64)
364 		return;
365 
366 	if (phnum)
367 		uphdr = getphdr(phnum, PT_SUNW_UNWIND, file, elf);
368 
369 	for (cnt = 1; cnt < shnum; cnt++) {
370 		Cache		*_cache = &cache[cnt];
371 		Shdr		*shdr = _cache->c_shdr;
372 		uchar_t		*data;
373 		size_t		datasize;
374 		uint64_t	off, ndx, frame_ptr, fde_cnt, tabndx;
375 		uint_t		vers, frame_ptr_enc, fde_cnt_enc, table_enc;
376 
377 		/*
378 		 * AMD64 - this is a strmcp() just to find the gcc produced
379 		 * sections.  Soon gcc should be setting the section type - and
380 		 * we'll not need this strcmp().
381 		 */
382 		if ((shdr->sh_type != SHT_AMD64_UNWIND) &&
383 		    (strncmp(_cache->c_name, MSG_ORIG(MSG_SCN_FRM),
384 		    MSG_SCN_FRM_SIZE) != 0) &&
385 		    (strncmp(_cache->c_name, MSG_ORIG(MSG_SCN_FRMHDR),
386 		    MSG_SCN_FRMHDR_SIZE) != 0))
387 			continue;
388 		if (name && strcmp(name, _cache->c_name))
389 			continue;
390 
391 		dbg_print(0, MSG_ORIG(MSG_STR_EMPTY));
392 		dbg_print(0, MSG_INTL(MSG_ELF_SCN_UNWIND), _cache->c_name);
393 
394 		data = (uchar_t *)(_cache->c_data->d_buf);
395 		datasize = _cache->c_data->d_size;
396 		off = 0;
397 
398 		/*
399 		 * Is this a .eh_frame_hdr
400 		 */
401 		if ((uphdr && (shdr->sh_addr == uphdr->p_vaddr)) ||
402 		    (strncmp(_cache->c_name, MSG_ORIG(MSG_SCN_FRMHDR),
403 		    MSG_SCN_FRMHDR_SIZE) == 0)) {
404 
405 			dbg_print(0, MSG_ORIG(MSG_UNW_FRMHDR));
406 			ndx = 0;
407 
408 			vers = data[ndx++];
409 			frame_ptr_enc = data[ndx++];
410 			fde_cnt_enc = data[ndx++];
411 			table_enc = data[ndx++];
412 
413 			dbg_print(0, MSG_ORIG(MSG_UNW_FRMVERS), vers);
414 
415 			frame_ptr = dwarf_ehe_extract(data, &ndx, frame_ptr_enc,
416 			    ehdr->e_ident, shdr->sh_addr + ndx);
417 
418 			dbg_print(0, MSG_ORIG(MSG_UNW_FRPTRENC),
419 			    conv_dwarf_ehe(frame_ptr_enc), EC_XWORD(frame_ptr));
420 
421 			fde_cnt = dwarf_ehe_extract(data, &ndx, fde_cnt_enc,
422 			    ehdr->e_ident, shdr->sh_addr + ndx);
423 
424 			dbg_print(0, MSG_ORIG(MSG_UNW_FDCNENC),
425 			    conv_dwarf_ehe(fde_cnt_enc), EC_XWORD(fde_cnt));
426 			dbg_print(0, MSG_ORIG(MSG_UNW_TABENC),
427 			    conv_dwarf_ehe(table_enc));
428 			dbg_print(0, MSG_ORIG(MSG_UNW_BINSRTAB1));
429 			dbg_print(0, MSG_ORIG(MSG_UNW_BINSRTAB2));
430 
431 			for (tabndx = 0; tabndx < fde_cnt; tabndx++) {
432 				dbg_print(0, MSG_ORIG(MSG_UNW_BINSRTABENT),
433 				    EC_XWORD(dwarf_ehe_extract(data, &ndx,
434 				    table_enc, ehdr->e_ident, shdr->sh_addr)),
435 				    EC_XWORD(dwarf_ehe_extract(data, &ndx,
436 				    table_enc, ehdr->e_ident, shdr->sh_addr)));
437 			}
438 			continue;
439 		}
440 
441 		/*
442 		 * Walk the Eh_frame's
443 		 */
444 		while (off < datasize) {
445 			uint_t		cieid, cielength, cieversion,
446 					cieretaddr;
447 			int		cieRflag, cieLflag, ciePflag, cieZflag;
448 			uint_t		cieaugndx, length, id;
449 			uint64_t	ciecalign, ciedalign;
450 			char		*cieaugstr;
451 
452 			ndx = 0;
453 			/*
454 			 * extract length in lsb format
455 			 */
456 			length = LSB32EXTRACT(data + off + ndx);
457 			ndx += 4;
458 
459 			/*
460 			 * extract CIE id in lsb format
461 			 */
462 			id = LSB32EXTRACT(data + off + ndx);
463 			ndx += 4;
464 
465 			/*
466 			 * A CIE record has a id of '0', otherwise this is a
467 			 * FDE entry and the 'id' is the CIE pointer.
468 			 */
469 			if (id == 0) {
470 				uint64_t    persVal;
471 
472 				cielength = length;
473 				cieid = id;
474 				cieLflag = ciePflag = cieRflag = cieZflag = 0;
475 
476 				dbg_print(0, MSG_ORIG(MSG_UNW_CIE),
477 				    EC_XWORD(shdr->sh_addr + off));
478 				dbg_print(0, MSG_ORIG(MSG_UNW_CIELNGTH),
479 				    cielength, cieid);
480 
481 				cieversion = data[off + ndx];
482 				ndx += 1;
483 				cieaugstr = (char *)(&data[off + ndx]);
484 				ndx += strlen(cieaugstr) + 1;
485 
486 				dbg_print(0, MSG_ORIG(MSG_UNW_CIEVERS),
487 				    cieversion, cieaugstr);
488 
489 				ciecalign = uleb_extract(&data[off], &ndx);
490 				ciedalign = sleb_extract(&data[off], &ndx);
491 				cieretaddr = data[off + ndx];
492 				ndx += 1;
493 
494 				dbg_print(0, MSG_ORIG(MSG_UNW_CIECALGN),
495 				    EC_XWORD(ciecalign), EC_XWORD(ciedalign),
496 				    cieretaddr);
497 
498 				if (cieaugstr[0])
499 				    dbg_print(0, MSG_ORIG(MSG_UNW_CIEAUXVAL));
500 
501 				for (cieaugndx = 0; cieaugstr[cieaugndx];
502 				    cieaugndx++) {
503 					uint_t	val;
504 
505 					switch (cieaugstr[cieaugndx]) {
506 					case 'z':
507 					    val = uleb_extract(&data[off],
508 						&ndx);
509 					    dbg_print(0,
510 						MSG_ORIG(MSG_UNW_CIEAUXSIZE),
511 						val);
512 					    cieZflag = 1;
513 					    break;
514 					case 'P':
515 					    ciePflag = data[off + ndx];
516 					    ndx += 1;
517 
518 					    persVal = dwarf_ehe_extract(
519 						&data[off],
520 						&ndx, ciePflag, ehdr->e_ident,
521 						shdr->sh_addr + off + ndx);
522 					    dbg_print(0,
523 						MSG_ORIG(MSG_UNW_CIEAUXPERS),
524 						ciePflag,
525 						conv_dwarf_ehe(ciePflag),
526 						EC_XWORD(persVal));
527 					    break;
528 					case 'R':
529 					    val = data[off + ndx];
530 					    ndx += 1;
531 					    dbg_print(0,
532 						MSG_ORIG(MSG_UNW_CIEAUXCENC),
533 						val, conv_dwarf_ehe(val));
534 					    cieRflag = val;
535 					    break;
536 					case 'L':
537 					    val = data[off + ndx];
538 					    ndx += 1;
539 					    dbg_print(0,
540 						MSG_ORIG(MSG_UNW_CIEAUXLSDA),
541 						val, conv_dwarf_ehe(val));
542 					    cieLflag = val;
543 					    break;
544 					default:
545 					    dbg_print(0,
546 						MSG_ORIG(MSG_UNW_CIEAUXUNEC),
547 						cieaugstr[cieaugndx]);
548 					    break;
549 					}
550 				}
551 				if ((cielength + 4) > ndx)
552 					unwindtbl(&ndx, cielength, data, off,
553 					    MSG_ORIG(MSG_UNW_CIECFI),
554 					    MSG_ORIG(MSG_UNW_CIEPRE),
555 					    MSG_UNW_CIEPRE_SIZE);
556 				off += cielength + 4;
557 
558 			} else {
559 				uint_t	    fdelength = length;
560 				int	    fdecieptr = id;
561 				uint64_t    fdeinitloc, fdeaddrrange;
562 
563 				dbg_print(0, MSG_ORIG(MSG_UNW_FDE),
564 				    EC_XWORD(shdr->sh_addr + off));
565 				dbg_print(0, MSG_ORIG(MSG_UNW_FDELNGTH),
566 				    fdelength, fdecieptr);
567 
568 				fdeinitloc = dwarf_ehe_extract(&data[off],
569 				    &ndx, cieRflag, ehdr->e_ident,
570 				    shdr->sh_addr + off + ndx);
571 				fdeaddrrange = dwarf_ehe_extract(&data[off],
572 				    &ndx, (cieRflag & ~DW_EH_PE_pcrel),
573 				    ehdr->e_ident,
574 				    shdr->sh_addr + off + ndx);
575 
576 				dbg_print(0, MSG_ORIG(MSG_UNW_FDEINITLOC),
577 				    EC_XWORD(fdeinitloc),
578 				    EC_XWORD(fdeaddrrange));
579 
580 				if (cieaugstr[0])
581 					dbg_print(0,
582 					    MSG_ORIG(MSG_UNW_FDEAUXVAL));
583 				if (cieZflag) {
584 					uint64_t    val;
585 					val = uleb_extract(&data[off], &ndx);
586 					dbg_print(0,
587 					    MSG_ORIG(MSG_UNW_FDEAUXSIZE),
588 					    EC_XWORD(val));
589 					if (val & cieLflag) {
590 					    fdeinitloc = dwarf_ehe_extract(
591 						&data[off], &ndx, cieLflag,
592 						ehdr->e_ident,
593 						shdr->sh_addr + off + ndx);
594 					    dbg_print(0,
595 						MSG_ORIG(MSG_UNW_FDEAUXLSDA),
596 						EC_XWORD(val));
597 					}
598 				}
599 				if ((fdelength + 4) > ndx)
600 					unwindtbl(&ndx, fdelength, data, off,
601 					    MSG_ORIG(MSG_UNW_FDECFI),
602 					    MSG_ORIG(MSG_UNW_FDEPRE),
603 					    MSG_UNW_FDEPRE_SIZE);
604 				off += fdelength + 4;
605 			}
606 		}
607 	}
608 }
609 
610 /*
611  * Print the hardware/software capabilities.  For executables and shared objects
612  * this should be accompanied with a program header.
613  */
614 static void
615 cap(const char *file, Cache *cache, Word shnum, Word phnum, Ehdr *ehdr,
616     Elf *elf)
617 {
618 	Word		cnt;
619 	Shdr *		cshdr = 0;
620 	Cache *		ccache;
621 	Off		cphdr_off = 0;
622 	Xword		cphdr_sz;
623 
624 	/*
625 	 * Determine if a hardware/software capabilities header exists.
626 	 */
627 	if (phnum) {
628 		Phdr	*phdr;
629 
630 		if ((phdr = elf_getphdr(elf)) == NULL) {
631 			failure(file, MSG_ORIG(MSG_ELF_GETPHDR));
632 			return;
633 		}
634 
635 		for (cnt = 0; cnt < phnum; phdr++, cnt++) {
636 			if (phdr->p_type == PT_SUNWCAP) {
637 				cphdr_off = phdr->p_offset;
638 				cphdr_sz = phdr->p_filesz;
639 				break;
640 			}
641 		}
642 	}
643 
644 	/*
645 	 * Determine if a hardware/software capabilities section exists.
646 	 */
647 	for (cnt = 1; cnt < shnum; cnt++) {
648 		Cache	*_cache = &cache[cnt];
649 		Shdr	*shdr = _cache->c_shdr;
650 
651 		if (shdr->sh_type != SHT_SUNW_cap)
652 			continue;
653 
654 		if (cphdr_off && ((cphdr_off < shdr->sh_offset) ||
655 		    (cphdr_off + cphdr_sz) > (shdr->sh_offset + shdr->sh_size)))
656 			continue;
657 
658 		ccache = _cache;
659 		cshdr = shdr;
660 		break;
661 	}
662 
663 	if ((cshdr == 0) && (cphdr_off == 0))
664 		return;
665 
666 	/*
667 	 * Print the hardware/software capabilities section.
668 	 */
669 	if (cshdr) {
670 		Word	ndx, capn;
671 		Cap	*cap = (Cap *)ccache->c_data->d_buf;
672 
673 		dbg_print(0, MSG_ORIG(MSG_STR_EMPTY));
674 		dbg_print(0, MSG_INTL(MSG_ELF_SCN_CAP), ccache->c_name);
675 
676 		Elf_cap_title(0);
677 
678 		capn = (Word)(cshdr->sh_size / cshdr->sh_entsize);
679 
680 		for (ndx = 0; ndx < capn; cap++, ndx++) {
681 			if (cap->c_tag != CA_SUNW_NULL)
682 				Elf_cap_entry(0, cap, ndx, ehdr->e_machine);
683 		}
684 	} else
685 		(void) fprintf(stderr, MSG_INTL(MSG_WARN_INVCAP1), file);
686 
687 	/*
688 	 * If this object is an executable or shared object, then the
689 	 * hardware/software capabilities section should have an accompanying
690 	 * program header.
691 	 */
692 	if (cshdr && ((ehdr->e_type == ET_EXEC) || (ehdr->e_type == ET_DYN))) {
693 		if (cphdr_off == 0)
694 			(void) fprintf(stderr, MSG_INTL(MSG_WARN_INVCAP2),
695 			    file, ccache->c_name);
696 		else if ((cphdr_off != cshdr->sh_offset) ||
697 		    (cphdr_sz != cshdr->sh_size))
698 			(void) fprintf(stderr, MSG_INTL(MSG_WARN_INVCAP3),
699 			    file, ccache->c_name);
700 	}
701 }
702 
703 /*
704  * Print the interpretor.
705  */
706 static void
707 interp(const char *file, Cache *cache, Word shnum, Word phnum, Elf *elf)
708 {
709 	Word	cnt;
710 	Shdr	*ishdr = 0;
711 	Cache	*icache;
712 	Off	iphdr_off = 0;
713 	Xword	iphdr_fsz;
714 
715 	/*
716 	 * Determine if an interp header exists.
717 	 */
718 	if (phnum) {
719 		Phdr	*phdr;
720 
721 		if ((phdr = getphdr(phnum, PT_INTERP, file, elf)) != 0) {
722 			iphdr_off = phdr->p_offset;
723 			iphdr_fsz = phdr->p_filesz;
724 		}
725 	}
726 
727 	if (iphdr_off == 0)
728 		return;
729 
730 	/*
731 	 * Determine if an interp section exists.
732 	 */
733 	for (cnt = 1; cnt < shnum; cnt++) {
734 		Cache	*_cache = &cache[cnt];
735 		Shdr	*shdr = _cache->c_shdr;
736 
737 		/*
738 		 * Scan sections to find a section which contains the PT_INTERP
739 		 * string.  The target section can't be in a NOBITS section.
740 		 */
741 		if ((shdr->sh_type == SHT_NOBITS) ||
742 		    (iphdr_off < shdr->sh_offset) ||
743 		    (iphdr_off + iphdr_fsz) > (shdr->sh_offset + shdr->sh_size))
744 			continue;
745 
746 		icache = _cache;
747 		ishdr = shdr;
748 		break;
749 	}
750 
751 	/*
752 	 * Print the interpreter string based on the offset defined in the
753 	 * program header, as this is the offset used by the kernel.
754 	 */
755 	if (ishdr) {
756 		dbg_print(0, MSG_ORIG(MSG_STR_EMPTY));
757 		dbg_print(0, MSG_INTL(MSG_ELF_SCN_INTERP), icache->c_name);
758 		dbg_print(0, MSG_ORIG(MSG_FMT_INDENT),
759 		    (char *)icache->c_data->d_buf +
760 		    (iphdr_off - ishdr->sh_offset));
761 	} else
762 		(void) fprintf(stderr, MSG_INTL(MSG_WARN_INVINTERP1), file);
763 
764 	/*
765 	 * If there are any inconsistences between the program header and
766 	 * section information, flag them.
767 	 */
768 	if (ishdr && ((iphdr_off != ishdr->sh_offset) ||
769 	    (iphdr_fsz != ishdr->sh_size))) {
770 		(void) fprintf(stderr, MSG_INTL(MSG_WARN_INVINTERP2), file,
771 		    icache->c_name);
772 	}
773 }
774 
775 /*
776  * Print the syminfo section.
777  */
778 static void
779 syminfo(Cache *cache, Word shnum, const char *file)
780 {
781 	Shdr		*infoshdr;
782 	Syminfo		*info;
783 	Sym		*syms;
784 	Dyn		*dyns;
785 	Word		infonum, cnt, ndx, symnum;
786 	Cache		*infocache = 0, *symsec, *strsec;
787 
788 	for (cnt = 1; cnt < shnum; cnt++) {
789 		if (cache[cnt].c_shdr->sh_type == SHT_SUNW_syminfo) {
790 			infocache = &cache[cnt];
791 			break;
792 		}
793 	}
794 	if (infocache == 0)
795 		return;
796 
797 	infoshdr = infocache->c_shdr;
798 	if ((infoshdr->sh_entsize == 0) || (infoshdr->sh_size == 0)) {
799 		(void) fprintf(stderr, MSG_INTL(MSG_ERR_BADSZ),
800 		    file, infocache->c_name);
801 		return;
802 	}
803 	infonum = (Word)(infoshdr->sh_size / infoshdr->sh_entsize);
804 	info = (Syminfo *)infocache->c_data->d_buf;
805 
806 	/*
807 	 * Get the data buffer of the associated dynamic section.
808 	 */
809 	if ((infoshdr->sh_info == 0) || (infoshdr->sh_info >= shnum)) {
810 		(void) fprintf(stderr, MSG_INTL(MSG_ERR_BADSHINFO),
811 		    file, infocache->c_name, EC_WORD(infoshdr->sh_info));
812 		return;
813 	}
814 	dyns = cache[infoshdr->sh_info].c_data->d_buf;
815 	if (dyns == 0) {
816 		(void) fprintf(stderr, MSG_INTL(MSG_ERR_BADSZ),
817 		    file, cache[infoshdr->sh_info].c_name);
818 		return;
819 	}
820 
821 	/*
822 	 * Get the data buffer for the associated symbol table and string table.
823 	 */
824 	if (stringtbl(cache, 1, cnt, shnum, file,
825 	    &symnum, &symsec, &strsec) == 0)
826 		return;
827 
828 	syms = symsec->c_data->d_buf;
829 
830 	/*
831 	 * Loop through the syminfo entries.
832 	 */
833 	dbg_print(0, MSG_ORIG(MSG_STR_EMPTY));
834 	dbg_print(0, MSG_INTL(MSG_ELF_SCN_SYMINFO), infocache->c_name);
835 	Elf_syminfo_title(0);
836 
837 	for (ndx = 1, info++; ndx < infonum; ndx++, info++) {
838 		Sym 		*sym;
839 		const char	*needed = 0, *name;
840 
841 		if ((info->si_flags == 0) && (info->si_boundto == 0))
842 			continue;
843 
844 		sym = &syms[ndx];
845 		name = string(infocache, ndx, strsec, file, sym->st_name);
846 
847 		if (info->si_boundto < SYMINFO_BT_LOWRESERVE) {
848 			Dyn	*dyn = &dyns[info->si_boundto];
849 
850 			needed = string(infocache, info->si_boundto,
851 			    strsec, file, dyn->d_un.d_val);
852 		}
853 		Elf_syminfo_entry(0, ndx, info, name, needed);
854 	}
855 }
856 
857 /*
858  * Print version definition section entries.
859  */
860 static void
861 version_def(Verdef *vdf, Word shnum, Cache *vcache, Cache *scache,
862     const char *file)
863 {
864 	Word	cnt;
865 	char	index[MAXNDXSIZE];
866 
867 	Elf_ver_def_title(0);
868 
869 	for (cnt = 1; cnt <= shnum; cnt++,
870 	    vdf = (Verdef *)((uintptr_t)vdf + vdf->vd_next)) {
871 		const char	*name, *dep;
872 		Half		vcnt = vdf->vd_cnt - 1;
873 		Half		ndx = vdf->vd_ndx;
874 		Verdaux		*vdap = (Verdaux *)((uintptr_t)vdf +
875 				    vdf->vd_aux);
876 
877 		/*
878 		 * Obtain the name and first dependency (if any).
879 		 */
880 		name = string(vcache, cnt, scache, file, vdap->vda_name);
881 		vdap = (Verdaux *)((uintptr_t)vdap + vdap->vda_next);
882 		if (vcnt)
883 			dep = string(vcache, cnt, scache, file, vdap->vda_name);
884 		else
885 			dep = MSG_ORIG(MSG_STR_EMPTY);
886 
887 		(void) snprintf(index, MAXNDXSIZE, MSG_ORIG(MSG_FMT_INDEX),
888 		    EC_XWORD(ndx));
889 		Elf_ver_line_1(0, index, name, dep,
890 		    conv_ver_flags(vdf->vd_flags));
891 
892 		/*
893 		 * Print any additional dependencies.
894 		 */
895 		if (vcnt) {
896 			vdap = (Verdaux *)((uintptr_t)vdap + vdap->vda_next);
897 			for (vcnt--; vcnt; vcnt--,
898 			    vdap = (Verdaux *)((uintptr_t)vdap +
899 			    vdap->vda_next)) {
900 				dep = string(vcache, cnt, scache, file,
901 				    vdap->vda_name);
902 				Elf_ver_line_2(0, MSG_ORIG(MSG_STR_EMPTY), dep);
903 			}
904 		}
905 	}
906 }
907 
908 /*
909  * Print a version needed section entries.
910  */
911 static void
912 version_need(Verneed *vnd, Word shnum, Cache *vcache, Cache *scache,
913     const char *file)
914 {
915 	Word	cnt;
916 
917 	Elf_ver_need_title(0);
918 
919 	for (cnt = 1; cnt <= shnum; cnt++,
920 	    vnd = (Verneed *)((uintptr_t)vnd + vnd->vn_next)) {
921 		const char	*name, *dep;
922 		Half		vcnt = vnd->vn_cnt;
923 		Vernaux		*vnap = (Vernaux *)((uintptr_t)vnd +
924 					vnd->vn_aux);
925 
926 		/*
927 		 * Obtain the name of the needed file and the version name
928 		 * within it that we're dependent on.  Note that the count
929 		 * should be at least one, otherwise this is a pretty bogus
930 		 * entry.
931 		 */
932 		name = string(vcache, cnt, scache, file, vnd->vn_file);
933 		if (vcnt)
934 			dep = string(vcache, cnt, scache, file, vnap->vna_name);
935 		else
936 			dep = MSG_INTL(MSG_STR_NULL);
937 
938 		Elf_ver_line_1(0, MSG_ORIG(MSG_STR_EMPTY), name, dep,
939 		    conv_ver_flags(vnap->vna_flags));
940 
941 		/*
942 		 * Print any additional version dependencies.
943 		 */
944 		if (vcnt) {
945 			vnap = (Vernaux *)((uintptr_t)vnap + vnap->vna_next);
946 			for (vcnt--; vcnt; vcnt--,
947 			    vnap = (Vernaux *)((uintptr_t)vnap +
948 			    vnap->vna_next)) {
949 				dep = string(vcache, cnt, scache, file,
950 				    vnap->vna_name);
951 				Elf_ver_line_3(0, MSG_ORIG(MSG_STR_EMPTY), dep,
952 				    conv_ver_flags(vnap->vna_flags));
953 			}
954 		}
955 	}
956 }
957 
958 /*
959  * Search for any version sections - the Versym output is possibly used by the
960  * symbols() printing.  If VERSYM is specified - then display the version
961  * information.
962  */
963 static Cache *
964 versions(Cache *cache, Word shnum, const char *file, uint_t flags)
965 {
966 	GElf_Word	cnt;
967 	Cache		*versymcache = 0;
968 
969 	for (cnt = 1; cnt < shnum; cnt++) {
970 		void		*ver;
971 		uint_t		num;
972 		Cache		*_cache = &cache[cnt];
973 		Shdr		*shdr = _cache->c_shdr;
974 		const char	*secname = _cache->c_name;
975 
976 		/*
977 		 * If this is the version symbol table simply record its
978 		 * data address for possible use in later symbol processing.
979 		 */
980 		if (shdr->sh_type == SHT_SUNW_versym) {
981 			versymcache = _cache;
982 			continue;
983 		}
984 
985 		if ((flags & FLG_VERSIONS) == 0)
986 			continue;
987 
988 		if ((shdr->sh_type != SHT_SUNW_verdef) &&
989 		    (shdr->sh_type != SHT_SUNW_verneed))
990 			continue;
991 
992 		/*
993 		 * Determine the version section data and number.
994 		 */
995 		if ((ver = (void *)_cache->c_data->d_buf) == 0) {
996 			(void) fprintf(stderr, MSG_INTL(MSG_ERR_BADSZ),
997 			    file, secname);
998 			continue;
999 		}
1000 		if ((num = shdr->sh_info) == 0) {
1001 			(void) fprintf(stderr, MSG_INTL(MSG_ERR_BADSHINFO),
1002 			    file, secname, EC_WORD(shdr->sh_info));
1003 			continue;
1004 		}
1005 
1006 		/*
1007 		 * Get the data buffer for the associated string table.
1008 		 */
1009 		if ((shdr->sh_link == 0) || (shdr->sh_link >= shnum)) {
1010 			(void) fprintf(stderr, MSG_INTL(MSG_ERR_BADSHLINK),
1011 			    file, secname, EC_WORD(shdr->sh_link));
1012 			continue;
1013 		}
1014 
1015 		dbg_print(0, MSG_ORIG(MSG_STR_EMPTY));
1016 		if (shdr->sh_type == SHT_SUNW_verdef) {
1017 			dbg_print(0, MSG_INTL(MSG_ELF_SCN_VERDEF), secname);
1018 			version_def((Verdef *)ver, num, _cache,
1019 			    &cache[shdr->sh_link], file);
1020 		} else if (shdr->sh_type == SHT_SUNW_verneed) {
1021 			dbg_print(0, MSG_INTL(MSG_ELF_SCN_VERNEED), secname);
1022 			version_need((Verneed *)ver, num, _cache,
1023 			    &cache[shdr->sh_link], file);
1024 		}
1025 	}
1026 	return (versymcache);
1027 }
1028 
1029 /*
1030  * Determine the extended section index used for symbol tables entries.
1031  */
1032 static int
1033 symbols_getxindex(Cache *cache, Word shnum, Word seccnt, Word **shxndx,
1034     uint_t *symnshxndx)
1035 {
1036 	uint_t	symn;
1037 	Word	symcnt;
1038 
1039 	for (symcnt = 1; symcnt < shnum; symcnt++) {
1040 		Cache	*_cache = &cache[symcnt];
1041 		Shdr	*shdr = _cache->c_shdr;
1042 
1043 		if ((shdr->sh_type != SHT_SYMTAB_SHNDX) ||
1044 		    (shdr->sh_link != seccnt))
1045 			continue;
1046 
1047 		if ((shdr->sh_entsize) &&
1048 		    /* LINTED */
1049 		    ((symn = (uint_t)(shdr->sh_size / shdr->sh_entsize)) == 0))
1050 			continue;
1051 
1052 		*shxndx = _cache->c_data->d_buf;
1053 		*symnshxndx = symn;
1054 		return (0);
1055 	}
1056 	return (1);
1057 }
1058 
1059 /*
1060  * Search for and process any symbol tables.
1061  */
1062 void
1063 symbols(Cache *cache, Word shnum, Ehdr *ehdr, const char *name,
1064     Cache *versymcache, const char *file, uint_t flags)
1065 {
1066 	Word	seccnt;
1067 	char	is_core = (ehdr->e_type == ET_CORE);
1068 
1069 	for (seccnt = 1; seccnt < shnum; seccnt++) {
1070 		Word		symn, symcnt, *shxndx;
1071 		Versym		*versym;
1072 		Cache		*_cache = &cache[seccnt];
1073 		Shdr		*shdr = _cache->c_shdr;
1074 		const char	*secname = _cache->c_name;
1075 		Sym 		*sym;
1076 		int		noshxndx;
1077 		uint_t		symnshxndx;
1078 
1079 		if ((shdr->sh_type != SHT_SYMTAB) &&
1080 		    (shdr->sh_type != SHT_DYNSYM))
1081 			continue;
1082 		if (name && strcmp(name, secname))
1083 			continue;
1084 
1085 		/*
1086 		 * Determine the symbol data and number.
1087 		 */
1088 		if ((shdr->sh_entsize == 0) || (shdr->sh_size == 0)) {
1089 			(void) fprintf(stderr, MSG_INTL(MSG_ERR_BADSZ),
1090 			    file, secname);
1091 			continue;
1092 		}
1093 		/* LINTED */
1094 		symn = (Word)(shdr->sh_size / shdr->sh_entsize);
1095 		sym = (Sym *)_cache->c_data->d_buf;
1096 
1097 		/*
1098 		 * Get the associated string table section.
1099 		 */
1100 		if ((shdr->sh_link == 0) || (shdr->sh_link >= shnum)) {
1101 			(void) fprintf(stderr, MSG_INTL(MSG_ERR_BADSHLINK),
1102 			    file, secname, EC_WORD(shdr->sh_link));
1103 			continue;
1104 		}
1105 
1106 		/*
1107 		 * Determine if there is a associated Versym section
1108 		 * with this Symbol Table.
1109 		 */
1110 		if (versymcache && (versymcache->c_shdr->sh_link == seccnt))
1111 			versym = versymcache->c_data->d_buf;
1112 		else
1113 			versym = 0;
1114 
1115 		/*
1116 		 * Loop through the symbol tables entries.
1117 		 */
1118 		dbg_print(0, MSG_ORIG(MSG_STR_EMPTY));
1119 		dbg_print(0, MSG_INTL(MSG_ELF_SCN_SYMTAB), secname);
1120 		Elf_syms_table_title(0, ELF_DBG_ELFDUMP);
1121 
1122 		shxndx = 0;
1123 		noshxndx = 0;
1124 		symnshxndx = 0;
1125 		for (symcnt = 0; symcnt < symn; sym++, symcnt++) {
1126 			char		index[MAXNDXSIZE], *sec;
1127 			const char	*symname;
1128 			int		verndx;
1129 			uchar_t		type;
1130 			Shdr		*tshdr;
1131 			Word		shndx;
1132 
1133 			/*
1134 			 * If we are using extended symbol indexes, find the
1135 			 * corresponding SHN_SYMTAB_SHNDX table.
1136 			 */
1137 			if ((sym->st_shndx == SHN_XINDEX) &&
1138 			    (shxndx == 0) && (noshxndx == 0))
1139 				noshxndx = symbols_getxindex(cache, shnum,
1140 				    seccnt, &shxndx, &symnshxndx);
1141 
1142 			/* LINTED */
1143 			symname = string(_cache, symcnt, &cache[shdr->sh_link],
1144 			    file, sym->st_name);
1145 
1146 			tshdr = 0;
1147 			sec = NULL;
1148 
1149 			if (is_core)
1150 				sec = (char *)MSG_INTL(MSG_STR_UNKNOWN);
1151 			else if ((sym->st_shndx < SHN_LORESERVE) &&
1152 			    (sym->st_shndx < shnum)) {
1153 				shndx = sym->st_shndx;
1154 				tshdr = cache[shndx].c_shdr;
1155 				sec = cache[shndx].c_name;
1156 			} else if (sym->st_shndx == SHN_XINDEX) {
1157 				if (shxndx) {
1158 					Word	_shxndx;
1159 
1160 					if (symcnt > symnshxndx) {
1161 					    (void) fprintf(stderr,
1162 						MSG_INTL(MSG_ERR_BADSYMXINDEX1),
1163 						file, secname, EC_WORD(symcnt));
1164 					} else if ((_shxndx =
1165 					    shxndx[symcnt]) > shnum) {
1166 					    (void) fprintf(stderr,
1167 						MSG_INTL(MSG_ERR_BADSYMXINDEX2),
1168 						file, secname, EC_WORD(symcnt),
1169 						EC_WORD(_shxndx));
1170 					} else {
1171 					    shndx = _shxndx;
1172 					    tshdr = cache[shndx].c_shdr;
1173 					    sec = cache[shndx].c_name;
1174 					}
1175 				} else {
1176 					(void) fprintf(stderr,
1177 					    MSG_INTL(MSG_ERR_BADSYMXINDEX3),
1178 					    file, secname, EC_WORD(symcnt));
1179 				}
1180 			} else if ((sym->st_shndx < SHN_LORESERVE) &&
1181 			    (sym->st_shndx >= shnum)) {
1182 				(void) fprintf(stderr,
1183 				    MSG_INTL(MSG_ERR_BADSYM5), file,
1184 				    secname, demangle(symname, flags),
1185 				    sym->st_shndx);
1186 			}
1187 
1188 			/*
1189 			 * If versioning is available display the
1190 			 * version index.
1191 			 */
1192 			if (versym)
1193 				verndx = (int)versym[symcnt];
1194 			else
1195 				verndx = 0;
1196 
1197 			/*
1198 			 * Error checking for TLS.
1199 			 */
1200 			type = ELF_ST_TYPE(sym->st_info);
1201 			if (type == STT_TLS) {
1202 				if (tshdr &&
1203 				    (sym->st_shndx != SHN_UNDEF) &&
1204 				    ((tshdr->sh_flags & SHF_TLS) == 0)) {
1205 					(void) fprintf(stderr,
1206 					    MSG_INTL(MSG_ERR_BADSYM3), file,
1207 					    secname, demangle(symname, flags));
1208 				}
1209 			} else if ((type != STT_SECTION) && sym->st_size &&
1210 			    tshdr && (tshdr->sh_flags & SHF_TLS)) {
1211 				(void) fprintf(stderr,
1212 				    MSG_INTL(MSG_ERR_BADSYM4), file,
1213 				    secname, demangle(symname, flags));
1214 			}
1215 
1216 			/*
1217 			 * If a symbol has size, then make sure the section it
1218 			 * references is appropriate.  Note, UNDEF symbols that
1219 			 * have a size, have been known to exist - ignore them.
1220 			 */
1221 			if (sym->st_size && shndx && tshdr &&
1222 			    (tshdr->sh_size < sym->st_size)) {
1223 				(void) fprintf(stderr,
1224 				    MSG_INTL(MSG_ERR_BADSYM6), file,
1225 				    secname, demangle(symname, flags),
1226 				    EC_WORD(shndx), EC_XWORD(tshdr->sh_size),
1227 				    EC_XWORD(sym->st_size));
1228 			}
1229 
1230 			(void) snprintf(index, MAXNDXSIZE,
1231 			    MSG_ORIG(MSG_FMT_INDEX), EC_XWORD(symcnt));
1232 			Elf_syms_table_entry(0, ELF_DBG_ELFDUMP, index,
1233 			    ehdr->e_machine, sym, verndx, sec, symname);
1234 		}
1235 	}
1236 }
1237 
1238 /*
1239  * Search for and process any relocation sections.
1240  */
1241 static void
1242 reloc(Cache *cache, Word shnum, Ehdr *ehdr, const char *name, const char *file,
1243     uint_t flags)
1244 {
1245 	Word	cnt;
1246 
1247 	for (cnt = 1; cnt < shnum; cnt++) {
1248 		Word		type, symnum;
1249 		Xword		relndx, relnum, relsize;
1250 		void		*rels;
1251 		Sym		*syms;
1252 		Cache		*symsec, *strsec;
1253 		Cache		*_cache = &cache[cnt];
1254 		Shdr		*shdr = _cache->c_shdr;
1255 		char		*relname = _cache->c_name;
1256 
1257 		if (((type = shdr->sh_type) != SHT_RELA) &&
1258 		    (type != SHT_REL))
1259 			continue;
1260 		if (name && strcmp(name, relname))
1261 			continue;
1262 
1263 		/*
1264 		 * Decide entry size.
1265 		 */
1266 		if (((relsize = shdr->sh_entsize) == 0) ||
1267 		    (relsize > shdr->sh_size)) {
1268 			if (type == SHT_RELA)
1269 				relsize = sizeof (Rela);
1270 			else
1271 				relsize = sizeof (Rel);
1272 		}
1273 
1274 		/*
1275 		 * Determine the number of relocations available.
1276 		 */
1277 		if (shdr->sh_size == 0) {
1278 			(void) fprintf(stderr, MSG_INTL(MSG_ERR_BADSZ),
1279 			    file, relname);
1280 			continue;
1281 		}
1282 		rels = _cache->c_data->d_buf;
1283 		relnum = shdr->sh_size / relsize;
1284 
1285 		/*
1286 		 * Get the data buffer for the associated symbol table and
1287 		 * string table.
1288 		 */
1289 		if (stringtbl(cache, 1, cnt, shnum, file,
1290 		    &symnum, &symsec, &strsec) == 0)
1291 			continue;
1292 
1293 		syms = symsec->c_data->d_buf;
1294 
1295 		/*
1296 		 * Loop through the relocation entries.
1297 		 */
1298 		dbg_print(0, MSG_ORIG(MSG_STR_EMPTY));
1299 		dbg_print(0, MSG_INTL(MSG_ELF_SCN_RELOC), _cache->c_name);
1300 		Elf_reloc_title(0, ELF_DBG_ELFDUMP, type);
1301 
1302 		for (relndx = 0; relndx < relnum; relndx++,
1303 		    rels = (void *)((char *)rels + relsize)) {
1304 			char		section[BUFSIZ];
1305 			const char	*symname;
1306 			Word		symndx, reltype;
1307 			Rela		*rela;
1308 			Rel		*rel;
1309 
1310 			/*
1311 			 * Unravel the relocation and determine the symbol with
1312 			 * which this relocation is associated.
1313 			 */
1314 			if (type == SHT_RELA) {
1315 				rela = (Rela *)rels;
1316 				symndx = ELF_R_SYM(rela->r_info);
1317 				reltype = ELF_R_TYPE(rela->r_info);
1318 			} else {
1319 				rel = (Rel *)rels;
1320 				symndx = ELF_R_SYM(rel->r_info);
1321 				reltype = ELF_R_TYPE(rel->r_info);
1322 			}
1323 
1324 			symname = relsymname(cache, _cache, strsec, symndx,
1325 			    symnum, relndx, syms, section, BUFSIZ, file,
1326 			    flags);
1327 
1328 			/*
1329 			 * A zero symbol index is only valid for a few
1330 			 * relocations.
1331 			 */
1332 			if (symndx == 0) {
1333 				Half	mach = ehdr->e_machine;
1334 				int	badrel = 0;
1335 
1336 				if ((mach == EM_SPARC) ||
1337 				    (mach == EM_SPARC32PLUS) ||
1338 				    (mach == EM_SPARCV9)) {
1339 					if ((reltype != R_SPARC_NONE) &&
1340 					    (reltype != R_SPARC_REGISTER) &&
1341 					    (reltype != R_SPARC_RELATIVE))
1342 						badrel++;
1343 				} else if (mach == EM_386) {
1344 					if ((reltype != R_386_NONE) &&
1345 					    (reltype != R_386_RELATIVE))
1346 						badrel++;
1347 				} else if (mach == EM_AMD64) {
1348 					if ((reltype != R_AMD64_NONE) &&
1349 					    (reltype != R_AMD64_RELATIVE))
1350 						badrel++;
1351 				}
1352 
1353 				if (badrel) {
1354 					(void) fprintf(stderr,
1355 					    MSG_INTL(MSG_ERR_BADREL1), file,
1356 					    conv_reloc_type(mach, reltype));
1357 				}
1358 			}
1359 
1360 			Elf_reloc_entry_1(0, ELF_DBG_ELFDUMP,
1361 			    MSG_ORIG(MSG_STR_EMPTY), ehdr->e_machine, type,
1362 			    rels, relname, symname, 0);
1363 		}
1364 	}
1365 }
1366 
1367 /*
1368  * Search for and process a .dynamic section.
1369  */
1370 static void
1371 dynamic(Cache *cache, Word shnum, Ehdr *ehdr, const char *file)
1372 {
1373 	Word	cnt;
1374 
1375 	for (cnt = 1; cnt < shnum; cnt++) {
1376 		Dyn	*dyn;
1377 		ulong_t	numdyn;
1378 		int	ndx;
1379 		Cache	*_cache = &cache[cnt], *strsec;
1380 		Shdr	*shdr = _cache->c_shdr;
1381 
1382 		if (shdr->sh_type != SHT_DYNAMIC)
1383 			continue;
1384 
1385 		/*
1386 		 * Verify the associated string table section.
1387 		 */
1388 		if (stringtbl(cache, 0, cnt, shnum, file, 0, 0, &strsec) == 0)
1389 			continue;
1390 
1391 		numdyn = shdr->sh_size / shdr->sh_entsize;
1392 		dyn = (Dyn *)_cache->c_data->d_buf;
1393 
1394 		dbg_print(0, MSG_ORIG(MSG_STR_EMPTY));
1395 		dbg_print(0, MSG_INTL(MSG_ELF_SCN_DYNAMIC), _cache->c_name);
1396 
1397 		Elf_dyn_title(0);
1398 
1399 		for (ndx = 0; ndx < numdyn; dyn++, ndx++) {
1400 			const char	*name;
1401 
1402 			/*
1403 			 * Print the information numerically, and if possible
1404 			 * as a string.
1405 			 */
1406 			if ((dyn->d_tag == DT_NEEDED) ||
1407 			    (dyn->d_tag == DT_SONAME) ||
1408 			    (dyn->d_tag == DT_FILTER) ||
1409 			    (dyn->d_tag == DT_AUXILIARY) ||
1410 			    (dyn->d_tag == DT_CONFIG) ||
1411 			    (dyn->d_tag == DT_RPATH) ||
1412 			    (dyn->d_tag == DT_RUNPATH) ||
1413 			    (dyn->d_tag == DT_USED) ||
1414 			    (dyn->d_tag == DT_DEPAUDIT) ||
1415 			    (dyn->d_tag == DT_AUDIT) ||
1416 			    (dyn->d_tag == DT_SUNW_AUXILIARY) ||
1417 			    (dyn->d_tag == DT_SUNW_FILTER))
1418 				name = string(_cache, ndx, strsec,
1419 				    file, dyn->d_un.d_ptr);
1420 			else if (dyn->d_tag == DT_FLAGS)
1421 				name = conv_dyn_flag(dyn->d_un.d_val);
1422 			else if (dyn->d_tag == DT_FLAGS_1)
1423 				name = conv_dyn_flag1(dyn->d_un.d_val);
1424 			else if (dyn->d_tag == DT_POSFLAG_1)
1425 				name = conv_dyn_posflag1(dyn->d_un.d_val);
1426 			else if (dyn->d_tag == DT_FEATURE_1)
1427 				name = conv_dyn_feature1(dyn->d_un.d_val);
1428 			else if (dyn->d_tag == DT_DEPRECATED_SPARC_REGISTER)
1429 				name = MSG_INTL(MSG_STR_DEPRECATED);
1430 			else
1431 				name = MSG_ORIG(MSG_STR_EMPTY);
1432 
1433 			Elf_dyn_entry(0, dyn, ndx, name, ehdr->e_machine);
1434 		}
1435 	}
1436 }
1437 
1438 /*
1439  * Search for and process a MOVE section.
1440  */
1441 static void
1442 move(Cache *cache, Word shnum, const char *name, const char *file, uint_t flags)
1443 {
1444 	Word		cnt;
1445 	const char	*fmt = 0;
1446 
1447 	for (cnt = 1; cnt < shnum; cnt++) {
1448 		Word	movenum, symnum, ndx;
1449 		Sym	*syms;
1450 		Cache	*_cache = &cache[cnt];
1451 		Shdr	*shdr = _cache->c_shdr;
1452 		Cache	*symsec, *strsec;
1453 		Move	*move;
1454 
1455 		if (shdr->sh_type != SHT_SUNW_move)
1456 			continue;
1457 		if (name && strcmp(name, _cache->c_name))
1458 			continue;
1459 
1460 		/*
1461 		 * Determine the move data and number.
1462 		 */
1463 		if ((shdr->sh_entsize == 0) || (shdr->sh_size == 0)) {
1464 			(void) fprintf(stderr, MSG_INTL(MSG_ERR_BADSZ),
1465 			    file, _cache->c_name);
1466 			continue;
1467 		}
1468 		move = (Move *)_cache->c_data->d_buf;
1469 		movenum = shdr->sh_size / shdr->sh_entsize;
1470 
1471 		/*
1472 		 * Get the data buffer for the associated symbol table and
1473 		 * string table.
1474 		 */
1475 		if (stringtbl(cache, 1, cnt, shnum, file,
1476 		    &symnum, &symsec, &strsec) == 0)
1477 			return;
1478 
1479 		syms = (Sym *)symsec->c_data->d_buf;
1480 
1481 		dbg_print(0, MSG_ORIG(MSG_STR_EMPTY));
1482 		dbg_print(0, MSG_INTL(MSG_ELF_SCN_MOVE), _cache->c_name);
1483 		dbg_print(0, MSG_INTL(MSG_MOVE_TITLE));
1484 
1485 		if (fmt == 0)
1486 			fmt = MSG_INTL(MSG_MOVE_ENTRY);
1487 
1488 		for (ndx = 0; ndx < movenum; move++, ndx++) {
1489 			const char	*symname;
1490 			char		index[MAXNDXSIZE], section[BUFSIZ];
1491 			Word		symndx, shndx;
1492 			Sym		*sym;
1493 
1494 			/*
1495 			 * Check for null entries
1496 			 */
1497 			if ((move->m_info == 0) && (move->m_value == 0) &&
1498 			    (move->m_poffset == 0) && (move->m_repeat == 0) &&
1499 			    (move->m_stride == 0)) {
1500 				dbg_print(0, fmt, MSG_ORIG(MSG_STR_EMPTY),
1501 				    EC_XWORD(move->m_poffset), 0, 0, 0,
1502 				    EC_LWORD(0), MSG_ORIG(MSG_STR_EMPTY));
1503 				continue;
1504 			}
1505 			if (((symndx = ELF_M_SYM(move->m_info)) == 0) ||
1506 			    (symndx >= symnum)) {
1507 				(void) fprintf(stderr,
1508 				    MSG_INTL(MSG_ERR_BADMINFO), file,
1509 				    _cache->c_name, EC_XWORD(move->m_info));
1510 
1511 				(void) snprintf(index, MAXNDXSIZE,
1512 				    MSG_ORIG(MSG_FMT_INDEX), EC_XWORD(symndx));
1513 				dbg_print(0, fmt, index,
1514 				    EC_XWORD(move->m_poffset),
1515 				    ELF_M_SIZE(move->m_info), move->m_repeat,
1516 				    move->m_stride, move->m_value,
1517 				    MSG_INTL(MSG_STR_UNKNOWN));
1518 				continue;
1519 			}
1520 
1521 			symname = relsymname(cache, _cache, strsec,
1522 			    symndx, symnum, ndx, syms, section, BUFSIZ, file,
1523 			    flags);
1524 			sym = (Sym *)(syms + symndx);
1525 
1526 			/*
1527 			 * Additional sanity check.
1528 			 */
1529 			shndx = sym->st_shndx;
1530 			if (!((shndx == SHN_COMMON) ||
1531 			    (((shndx >= 1) && (shndx <= shnum)) &&
1532 			    (cache[shndx].c_shdr)->sh_type == SHT_NOBITS))) {
1533 				(void) fprintf(stderr,
1534 				    MSG_INTL(MSG_ERR_BADSYM2), file,
1535 				    _cache->c_name, demangle(symname, flags));
1536 			}
1537 
1538 			(void) snprintf(index, MAXNDXSIZE,
1539 			    MSG_ORIG(MSG_FMT_INDEX), EC_XWORD(symndx));
1540 			dbg_print(0, fmt, index, EC_XWORD(move->m_poffset),
1541 			    ELF_M_SIZE(move->m_info), move->m_repeat,
1542 			    move->m_stride, move->m_value,
1543 			    demangle(symname, flags));
1544 		}
1545 	}
1546 }
1547 
1548 /*
1549  * Traverse a note section analyzing each note information block.
1550  * The data buffers size is used to validate references before they are made,
1551  * and is decremented as each element is processed.
1552  */
1553 void
1554 note_entry(Cache *cache, Word *data, size_t size, const char *file)
1555 {
1556 	size_t	bsize = size;
1557 
1558 	/*
1559 	 * Print out a single `note' information block.
1560 	 */
1561 	while (size > 0) {
1562 		size_t	namesz, descsz, type, pad, noteoff;
1563 
1564 		noteoff = bsize - size;
1565 		/*
1566 		 * Make sure we can at least reference the 3 initial entries
1567 		 * (4-byte words) of the note information block.
1568 		 */
1569 		if (size >= (sizeof (Word) * 3))
1570 			size -= (sizeof (Word) * 3);
1571 		else {
1572 			(void) fprintf(stderr, MSG_INTL(MSG_NOTE_BADDATASZ),
1573 			    file, cache->c_name, EC_WORD(noteoff));
1574 			return;
1575 		}
1576 
1577 		/*
1578 		 * Make sure any specified name string can be referenced.
1579 		 */
1580 		if ((namesz = *data++) != 0) {
1581 			if (size >= namesz)
1582 				size -= namesz;
1583 			else {
1584 				(void) fprintf(stderr,
1585 				    MSG_INTL(MSG_NOTE_BADNMSZ), file,
1586 				    cache->c_name, EC_WORD(noteoff),
1587 				    EC_WORD(namesz));
1588 				return;
1589 			}
1590 		}
1591 
1592 		/*
1593 		 * Make sure any specified descriptor can be referenced.
1594 		 */
1595 		if ((descsz = *data++) != 0) {
1596 			/*
1597 			 * If namesz isn't a 4-byte multiple, account for any
1598 			 * padding that must exist before the descriptor.
1599 			 */
1600 			if ((pad = (namesz & (sizeof (Word) - 1))) != 0) {
1601 				pad = sizeof (Word) - pad;
1602 				size -= pad;
1603 			}
1604 			if (size >= descsz)
1605 				size -= descsz;
1606 			else {
1607 				(void) fprintf(stderr,
1608 				    MSG_INTL(MSG_NOTE_BADDESZ), file,
1609 				    cache->c_name, EC_WORD(noteoff),
1610 				    EC_WORD(namesz));
1611 				return;
1612 			}
1613 		}
1614 
1615 		type = *data++;
1616 
1617 		dbg_print(0, MSG_ORIG(MSG_STR_EMPTY));
1618 		dbg_print(0, MSG_ORIG(MSG_NOTE_TYPE), EC_WORD(type));
1619 
1620 		dbg_print(0, MSG_ORIG(MSG_NOTE_NAMESZ), EC_WORD(namesz));
1621 		if (namesz) {
1622 			char	*name = (char *)data;
1623 
1624 			/*
1625 			 * Since the name string may have 'null' bytes
1626 			 * in it (ia32 .string) - we just write the
1627 			 * whole stream in a single fwrite.
1628 			 */
1629 			(void) fwrite(name, namesz, 1, stdout);
1630 			name = name + ((namesz + (sizeof (Word) - 1)) &
1631 			    ~(sizeof (Word) - 1));
1632 			/* LINTED */
1633 			data = (Word *)name;
1634 			dbg_print(0, MSG_ORIG(MSG_STR_EMPTY));
1635 		}
1636 
1637 		/*
1638 		 * If multiple information blocks exist within a .note section
1639 		 * account for any padding that must exist before the next
1640 		 * information block.
1641 		 */
1642 		if ((pad = (descsz & (sizeof (Word) - 1))) != 0) {
1643 			pad = sizeof (Word) - pad;
1644 			if (size > pad)
1645 				size -= pad;
1646 		}
1647 
1648 		dbg_print(0, MSG_ORIG(MSG_NOTE_DESCSZ), EC_WORD(descsz));
1649 		if (descsz) {
1650 			int		ndx, byte, word;
1651 			char		string[58], *str = string;
1652 			uchar_t		*desc = (uchar_t *)data;
1653 
1654 			/*
1655 			 * Dump descriptor bytes.
1656 			 */
1657 			for (ndx = byte = word = 0; descsz; descsz--, desc++) {
1658 				int	tok = *desc;
1659 
1660 				(void) snprintf(str, 58, MSG_ORIG(MSG_NOTE_TOK),
1661 				    tok);
1662 				str += 3;
1663 
1664 				if (++byte == 4) {
1665 					*str++ = ' ', *str++ = ' ';
1666 					word++;
1667 					byte = 0;
1668 				}
1669 				if (word == 4) {
1670 					*str = '\0';
1671 					dbg_print(0, MSG_ORIG(MSG_NOTE_DESC),
1672 					    ndx, string);
1673 					word = 0;
1674 					ndx += 16;
1675 					str = string;
1676 				}
1677 			}
1678 			if (byte || word) {
1679 				*str = '\0';
1680 				dbg_print(0, MSG_ORIG(MSG_NOTE_DESC),
1681 				    ndx, string);
1682 			}
1683 
1684 			desc += pad;
1685 			/* LINTED */
1686 			data = (Word *)desc;
1687 		}
1688 	}
1689 }
1690 
1691 /*
1692  * Search for and process a .note section.
1693  */
1694 static void
1695 note(Cache *cache, Word shnum, const char *name, const char *file)
1696 {
1697 	Word	cnt;
1698 
1699 	/*
1700 	 * Otherwise look for any .note sections.
1701 	 */
1702 	for (cnt = 1; cnt < shnum; cnt++) {
1703 		Cache	*_cache = &cache[cnt];
1704 		Shdr	*shdr = _cache->c_shdr;
1705 
1706 		if (shdr->sh_type != SHT_NOTE)
1707 			continue;
1708 		if (name && strcmp(name, _cache->c_name))
1709 			continue;
1710 
1711 		/*
1712 		 * As these sections are often hand rolled, make sure they're
1713 		 * properly aligned before proceeding.
1714 		 */
1715 		if (shdr->sh_offset & (sizeof (Word) - 1)) {
1716 			(void) fprintf(stderr, MSG_INTL(MSG_ERR_BADALIGN),
1717 			    file, _cache->c_name);
1718 			continue;
1719 		}
1720 
1721 		dbg_print(0, MSG_ORIG(MSG_STR_EMPTY));
1722 		dbg_print(0, MSG_INTL(MSG_ELF_SCN_NOTE), _cache->c_name);
1723 		note_entry(_cache, (Word *)_cache->c_data->d_buf,
1724 		/* LINTED */
1725 		    (Word)_cache->c_data->d_size, file);
1726 	}
1727 }
1728 
1729 /*
1730  * Determine an individual hash entry.  This may be the initial hash entry,
1731  * or an associated chain entry.
1732  */
1733 static void
1734 hash_entry(Cache *refsec, Cache *strsec, const char *hsecname, Word hashndx,
1735     Word symndx, Word symn, Sym *syms, const char *file, ulong_t bkts,
1736     uint_t flags, int chain)
1737 {
1738 	Sym		*sym;
1739 	const char	*symname, *str;
1740 	char		_bucket[MAXNDXSIZE], _symndx[MAXNDXSIZE];
1741 	ulong_t		nbkt, nhash;
1742 
1743 	if (symndx > symn) {
1744 		(void) fprintf(stderr, MSG_INTL(MSG_ERR_HSBADSYMNDX), file,
1745 		    EC_WORD(symndx), EC_WORD(hashndx));
1746 		symname = MSG_INTL(MSG_STR_UNKNOWN);
1747 	} else {
1748 		sym = (Sym *)(syms + symndx);
1749 		symname = string(refsec, symndx, strsec, file, sym->st_name);
1750 	}
1751 
1752 	if (chain == 0) {
1753 		(void) snprintf(_bucket, MAXNDXSIZE, MSG_ORIG(MSG_FMT_INTEGER),
1754 		    hashndx);
1755 		str = (const char *)_bucket;
1756 	} else
1757 		str = MSG_ORIG(MSG_STR_EMPTY);
1758 
1759 	(void) snprintf(_symndx, MAXNDXSIZE, MSG_ORIG(MSG_FMT_INDEX2),
1760 	    EC_WORD(symndx));
1761 	dbg_print(0, MSG_ORIG(MSG_FMT_HASH_INFO), str, _symndx,
1762 	    demangle(symname, flags));
1763 
1764 	/*
1765 	 * Determine if this string is in the correct bucket.
1766 	 */
1767 	nhash = elf_hash(symname);
1768 	nbkt = nhash % bkts;
1769 
1770 	if (nbkt != hashndx) {
1771 		(void) fprintf(stderr, MSG_INTL(MSG_ERR_BADHASH), file,
1772 		    hsecname, symname, EC_WORD(hashndx), nbkt);
1773 	}
1774 }
1775 
1776 #define	MAXCOUNT	500
1777 
1778 static void
1779 hash(Cache *cache, Word shnum, const char *name, const char *file, uint_t flags)
1780 {
1781 	static int	count[MAXCOUNT];
1782 	Word		cnt;
1783 	ulong_t		ndx, bkts;
1784 	char		number[MAXNDXSIZE];
1785 
1786 	for (cnt = 1; cnt < shnum; cnt++) {
1787 		uint_t		*hash, *chain;
1788 		Cache		*_cache = &cache[cnt];
1789 		Shdr		*sshdr, *hshdr = _cache->c_shdr;
1790 		char		*ssecname, *hsecname = _cache->c_name;
1791 		Sym		*syms;
1792 		Word		symn;
1793 
1794 		if (hshdr->sh_type != SHT_HASH)
1795 			continue;
1796 		if (name && strcmp(name, hsecname))
1797 			continue;
1798 
1799 		/*
1800 		 * Determine the hash table data and size.
1801 		 */
1802 		if ((hshdr->sh_entsize == 0) || (hshdr->sh_size == 0)) {
1803 			(void) fprintf(stderr, MSG_INTL(MSG_ERR_BADSZ),
1804 			    file, hsecname);
1805 			continue;
1806 		}
1807 		hash = (uint_t *)_cache->c_data->d_buf;
1808 		bkts = *hash;
1809 		chain = hash + 2 + bkts;
1810 		hash += 2;
1811 
1812 		/*
1813 		 * Get the data buffer for the associated symbol table.
1814 		 */
1815 		if ((hshdr->sh_link == 0) || (hshdr->sh_link >= shnum)) {
1816 			(void) fprintf(stderr, MSG_INTL(MSG_ERR_BADSHLINK),
1817 			    file, hsecname, EC_WORD(hshdr->sh_link));
1818 			continue;
1819 		}
1820 
1821 		_cache = &cache[hshdr->sh_link];
1822 		ssecname = _cache->c_name;
1823 
1824 		if ((syms = (Sym *)_cache->c_data->d_buf) == 0) {
1825 			(void) fprintf(stderr, MSG_INTL(MSG_ERR_BADSZ),
1826 			    file, ssecname);
1827 			continue;
1828 		}
1829 
1830 		sshdr = _cache->c_shdr;
1831 		/* LINTED */
1832 		symn = (Word)(sshdr->sh_size / sshdr->sh_entsize);
1833 
1834 		/*
1835 		 * Get the associated string table section.
1836 		 */
1837 		if ((sshdr->sh_link == 0) || (sshdr->sh_link >= shnum)) {
1838 			(void) fprintf(stderr, MSG_INTL(MSG_ERR_BADSHLINK),
1839 			    file, ssecname, EC_WORD(sshdr->sh_link));
1840 			continue;
1841 		}
1842 
1843 		dbg_print(0, MSG_ORIG(MSG_STR_EMPTY));
1844 		dbg_print(0, MSG_INTL(MSG_ELF_SCN_HASH), hsecname);
1845 		dbg_print(0, MSG_INTL(MSG_ELF_HASH_INFO));
1846 
1847 		/*
1848 		 * Loop through the hash buckets, printing the appropriate
1849 		 * symbols.
1850 		 */
1851 		for (ndx = 0; ndx < bkts; ndx++, hash++) {
1852 			Word	_ndx, _cnt;
1853 
1854 			if (*hash == 0) {
1855 				count[0]++;
1856 				continue;
1857 			}
1858 
1859 			hash_entry(_cache, &cache[sshdr->sh_link], hsecname,
1860 			    ndx, *hash, symn, syms, file, bkts, flags, 0);
1861 
1862 			/*
1863 			 * Determine if any other symbols are chained to this
1864 			 * bucket.
1865 			 */
1866 			_ndx = chain[*hash];
1867 			_cnt = 1;
1868 			while (_ndx) {
1869 				hash_entry(_cache, &cache[sshdr->sh_link],
1870 				    hsecname, ndx, _ndx, symn, syms, file,
1871 				    bkts, flags, 1);
1872 				_ndx = chain[_ndx];
1873 				_cnt++;
1874 			}
1875 
1876 			if (_cnt >= MAXCOUNT) {
1877 				(void) fprintf(stderr,
1878 				    MSG_INTL(MSG_HASH_OVERFLW), file,
1879 				    _cache->c_name, EC_WORD(ndx),
1880 				    EC_WORD(_cnt));
1881 			} else
1882 				count[_cnt]++;
1883 		}
1884 		break;
1885 	}
1886 
1887 	/*
1888 	 * Print out the count information.
1889 	 */
1890 	bkts = cnt = 0;
1891 	dbg_print(0, MSG_ORIG(MSG_STR_EMPTY));
1892 
1893 	for (ndx = 0; ndx < MAXCOUNT; ndx++) {
1894 		Word	_cnt;
1895 
1896 		if ((_cnt = count[ndx]) == 0)
1897 			continue;
1898 
1899 		(void) snprintf(number, MAXNDXSIZE,
1900 		    MSG_ORIG(MSG_FMT_INTEGER), _cnt);
1901 		dbg_print(0, MSG_INTL(MSG_ELF_HASH_BKTS1), number,
1902 		    EC_WORD(ndx));
1903 		bkts += _cnt;
1904 		cnt += (Word)(ndx * _cnt);
1905 	}
1906 	if (cnt) {
1907 		(void) snprintf(number, MAXNDXSIZE, MSG_ORIG(MSG_FMT_INTEGER),
1908 		    bkts);
1909 		dbg_print(0, MSG_INTL(MSG_ELF_HASH_BKTS2), number,
1910 		    EC_WORD(cnt));
1911 	}
1912 }
1913 
1914 static void
1915 group(Cache *cache, Word shnum, const char *name, const char *file,
1916     uint_t flags)
1917 {
1918 	Word	scnt;
1919 
1920 	for (scnt = 1; scnt < shnum; scnt++) {
1921 		Cache	*_cache = &cache[scnt];
1922 		Shdr	*shdr = _cache->c_shdr;
1923 		Word	*grpdata, gcnt, grpcnt, symnum, unknown;
1924 		Cache	*symsec, *strsec;
1925 		Sym	*syms, *sym;
1926 		char	flgstrbuf[MSG_GRP_COMDAT_SIZE + 10];
1927 
1928 		if (shdr->sh_type != SHT_GROUP)
1929 			continue;
1930 		if (name && strcmp(name, _cache->c_name))
1931 			continue;
1932 		if ((_cache->c_data == 0) ||
1933 		    ((grpdata = (Word *)_cache->c_data->d_buf) == 0))
1934 			continue;
1935 		grpcnt = shdr->sh_size / sizeof (Word);
1936 
1937 		/*
1938 		 * Get the data buffer for the associated symbol table and
1939 		 * string table.
1940 		 */
1941 		if (stringtbl(cache, 1, scnt, shnum, file,
1942 		    &symnum, &symsec, &strsec) == 0)
1943 			return;
1944 
1945 		syms = symsec->c_data->d_buf;
1946 
1947 		dbg_print(0, MSG_ORIG(MSG_STR_EMPTY));
1948 		dbg_print(0, MSG_INTL(MSG_ELF_SCN_GRP), _cache->c_name);
1949 		dbg_print(0, MSG_INTL(MSG_GRP_TITLE));
1950 
1951 		/*
1952 		 * The first element of the group defines the group.  The
1953 		 * associated symbol is defined by the sh_link field.
1954 		 */
1955 		if ((shdr->sh_info == SHN_UNDEF) || (shdr->sh_info > symnum)) {
1956 			(void) fprintf(stderr, MSG_INTL(MSG_ERR_BADSHINFO),
1957 			    file, _cache->c_name, EC_WORD(shdr->sh_info));
1958 			return;
1959 		}
1960 
1961 		(void) strcpy(flgstrbuf, MSG_ORIG(MSG_STR_OSQBRKT));
1962 		if (grpdata[0] & GRP_COMDAT) {
1963 			(void) strcat(flgstrbuf, MSG_ORIG(MSG_GRP_COMDAT));
1964 		}
1965 		if ((unknown = (grpdata[0] & ~GRP_COMDAT)) != 0) {
1966 			size_t	len = strlen(flgstrbuf);
1967 
1968 			(void) snprintf(&flgstrbuf[len],
1969 			    (MSG_GRP_COMDAT_SIZE + 10 - len),
1970 			    MSG_ORIG(MSG_GRP_UNKNOWN), unknown);
1971 		}
1972 		(void) strcat(flgstrbuf, MSG_ORIG(MSG_STR_CSQBRKT));
1973 		sym = (Sym *)(syms + shdr->sh_info);
1974 
1975 		dbg_print(0, MSG_INTL(MSG_GRP_SIGNATURE), flgstrbuf,
1976 		    demangle(string(_cache, 0, strsec, file, sym->st_name),
1977 		    flags));
1978 
1979 		for (gcnt = 1; gcnt < grpcnt; gcnt++) {
1980 			char		index[MAXNDXSIZE];
1981 			const char	*name;
1982 
1983 			(void) snprintf(index, MAXNDXSIZE,
1984 			    MSG_ORIG(MSG_FMT_INDEX), EC_XWORD(gcnt));
1985 
1986 			if (grpdata[gcnt] >= shnum)
1987 				name = MSG_INTL(MSG_GRP_INVALSCN);
1988 			else
1989 				name = cache[grpdata[gcnt]].c_name;
1990 
1991 			(void) printf(MSG_ORIG(MSG_GRP_ENTRY), index, name,
1992 				EC_XWORD(grpdata[gcnt]));
1993 		}
1994 	}
1995 }
1996 
1997 static void
1998 got(Cache *cache, Word shnum, Ehdr *ehdr, const char *file, uint_t flags)
1999 {
2000 	Cache		*gotcache = 0, *symtab = 0, *_cache;
2001 	Addr		gotbgn, gotend;
2002 	Shdr		*gotshdr;
2003 	Word		cnt, gotents, gotndx;
2004 	size_t		gentsize;
2005 	Got_info	*gottable;
2006 	char		*gotdata;
2007 	Sym		*gotsym;
2008 	Xword		gotsymaddr;
2009 
2010 	/*
2011 	 * First, find the got.
2012 	 */
2013 	for (cnt = 1; cnt < shnum; cnt++) {
2014 		_cache = &cache[cnt];
2015 		if (strncmp(_cache->c_name, MSG_ORIG(MSG_ELF_GOT),
2016 		    MSG_ELF_GOT_SIZE) == 0) {
2017 			gotcache = _cache;
2018 			break;
2019 		}
2020 	}
2021 	if (gotcache == 0)
2022 		return;
2023 
2024 	/*
2025 	 * A got section within a relocatable object is suspicious.
2026 	 */
2027 	if (ehdr->e_type == ET_REL) {
2028 		(void) fprintf(stderr, MSG_INTL(MSG_GOT_UNEXPECTED), file,
2029 		    _cache->c_name);
2030 	}
2031 
2032 	gotshdr = gotcache->c_shdr;
2033 	if (gotshdr->sh_size == 0) {
2034 		(void) fprintf(stderr, MSG_INTL(MSG_ERR_BADSZ),
2035 		    file, gotcache->c_name);
2036 		return;
2037 	}
2038 
2039 	gotbgn = gotshdr->sh_addr;
2040 	gotend = gotbgn + gotshdr->sh_size;
2041 
2042 	/*
2043 	 * Some architectures don't properly set the sh_entsize for the GOT
2044 	 * table.  If it's not set, default to a size of a pointer.
2045 	 */
2046 	if ((gentsize = gotshdr->sh_entsize) == 0)
2047 		gentsize = sizeof (Xword);
2048 
2049 	/* LINTED */
2050 	gotents = (Word)(gotshdr->sh_size / gentsize);
2051 	gotdata = gotcache->c_data->d_buf;
2052 
2053 	if ((gottable = calloc(gotents, sizeof (Got_info))) == 0) {
2054 		int err = errno;
2055 		(void) fprintf(stderr, MSG_INTL(MSG_ERR_MALLOC), file,
2056 		    strerror(err));
2057 		return;
2058 	}
2059 
2060 	/*
2061 	 * Now we scan through all the sections looking for any relocations
2062 	 * that may be against the GOT.  Since these may not be isolated to a
2063 	 * .rel[a].got section we check them all.
2064 	 * While scanning sections save the symbol table entry (a symtab
2065 	 * overriding a dynsym) so that we can lookup _GLOBAL_OFFSET_TABLE_.
2066 	 */
2067 	for (cnt = 1; cnt < shnum; cnt++) {
2068 		Word		type, symnum;
2069 		Xword		relndx, relnum, relsize;
2070 		void		*rels;
2071 		Sym		*syms;
2072 		Cache		*symsec, *strsec;
2073 		Cache		*_cache = &cache[cnt];
2074 		Shdr		*shdr;
2075 
2076 		shdr = _cache->c_shdr;
2077 		type = shdr->sh_type;
2078 
2079 		if ((symtab == 0) && (type == SHT_DYNSYM)) {
2080 			symtab = _cache;
2081 			continue;
2082 		}
2083 		if (type == SHT_SYMTAB) {
2084 			symtab = _cache;
2085 			continue;
2086 		}
2087 		if ((type != SHT_RELA) && (type != SHT_REL))
2088 			continue;
2089 
2090 		/*
2091 		 * Decide entry size.
2092 		 */
2093 		if (((relsize = shdr->sh_entsize) == 0) ||
2094 		    (relsize > shdr->sh_size)) {
2095 			if (type == SHT_RELA)
2096 				relsize = sizeof (Rela);
2097 			else
2098 				relsize = sizeof (Rel);
2099 		}
2100 
2101 		/*
2102 		 * Determine the number of relocations available.
2103 		 */
2104 		if (shdr->sh_size == 0) {
2105 			(void) fprintf(stderr, MSG_INTL(MSG_ERR_BADSZ),
2106 			    file, _cache->c_name);
2107 			continue;
2108 		}
2109 		rels = _cache->c_data->d_buf;
2110 		relnum = shdr->sh_size / relsize;
2111 
2112 		/*
2113 		 * Get the data buffer for the associated symbol table and
2114 		 * string table.
2115 		 */
2116 		if (stringtbl(cache, 1, cnt, shnum, file,
2117 		    &symnum, &symsec, &strsec) == 0)
2118 			continue;
2119 
2120 		syms = symsec->c_data->d_buf;
2121 
2122 		/*
2123 		 * Loop through the relocation entries.
2124 		 */
2125 		for (relndx = 0; relndx < relnum; relndx++,
2126 		    rels = (void *)((char *)rels + relsize)) {
2127 			char		section[BUFSIZ];
2128 			Addr		offset;
2129 			Got_info	*gip;
2130 			Word		symndx, reltype;
2131 			Rela		*rela;
2132 			Rel		*rel;
2133 
2134 			/*
2135 			 * Unravel the relocation.
2136 			 */
2137 			if (type == SHT_RELA) {
2138 				rela = (Rela *)rels;
2139 				symndx = ELF_R_SYM(rela->r_info);
2140 				reltype = ELF_R_TYPE(rela->r_info);
2141 				offset = rela->r_offset;
2142 			} else {
2143 				rel = (Rel *)rels;
2144 				symndx = ELF_R_SYM(rel->r_info);
2145 				reltype = ELF_R_TYPE(rel->r_info);
2146 				offset = rel->r_offset;
2147 			}
2148 
2149 			/*
2150 			 * Only pay attention to relocations against the GOT.
2151 			 */
2152 			if ((offset < gotbgn) || (offset > gotend))
2153 				continue;
2154 
2155 			/* LINTED */
2156 			gotndx = (Word)((offset - gotbgn) /
2157 			    gotshdr->sh_entsize);
2158 			gip = &gottable[gotndx];
2159 
2160 			if (gip->g_reltype != 0) {
2161 				(void) fprintf(stderr,
2162 				    MSG_INTL(MSG_GOT_MULTIPLE), file,
2163 				    EC_WORD(gotndx), EC_ADDR(offset));
2164 				continue;
2165 			}
2166 
2167 			if (symndx)
2168 				gip->g_symname = relsymname(cache, _cache,
2169 				    strsec, symndx, symnum, relndx, syms,
2170 				    section, BUFSIZ, file, flags);
2171 			gip->g_reltype = reltype;
2172 			gip->g_rel = rels;
2173 		}
2174 	}
2175 
2176 	if (symlookup(MSG_ORIG(MSG_GOT_SYM), cache, shnum, &gotsym, symtab,
2177 	    file))
2178 		gotsymaddr = gotsym->st_value;
2179 	else
2180 		gotsymaddr = gotbgn;
2181 
2182 	dbg_print(0, MSG_ORIG(MSG_STR_EMPTY));
2183 	dbg_print(0, MSG_INTL(MSG_ELF_SCN_GOT), gotcache->c_name);
2184 	Elf_got_title(0);
2185 
2186 	for (gotndx = 0; gotndx < gotents; gotndx++) {
2187 		Got_info	*gip;
2188 		Sword		gindex;
2189 		Addr		gaddr;
2190 		Xword		gotentry;
2191 
2192 		gip = &gottable[gotndx];
2193 
2194 		gaddr = gotbgn + (gotndx * gentsize);
2195 		gindex = (Sword)(gaddr - gotsymaddr) / (Sword)gentsize;
2196 
2197 		if (gentsize == sizeof (Word))
2198 			/* LINTED */
2199 			gotentry = (Xword)(*((Word *)(gotdata) + gotndx));
2200 		else
2201 			/* LINTED */
2202 			gotentry = *((Xword *)(gotdata) + gotndx);
2203 
2204 		Elf_got_entry(0, gindex, gaddr, gotentry, ehdr->e_machine,
2205 		    gip->g_reltype, gip->g_rel, gip->g_symname);
2206 	}
2207 	free(gottable);
2208 }
2209 
2210 void
2211 checksum(Elf *elf)
2212 {
2213 	dbg_print(0, MSG_ORIG(MSG_STR_EMPTY));
2214 	dbg_print(0, MSG_INTL(MSG_STR_CHECKSUM), elf_checksum(elf));
2215 }
2216 
2217 void
2218 regular(const char *file, Elf *elf, uint_t flags, char *Nname, int wfd)
2219 {
2220 	Elf_Scn		*scn;
2221 	Ehdr		*ehdr;
2222 	Elf_Data	*data;
2223 	size_t		cnt, shstrndx, shnum, phnum;
2224 	Shdr		*nameshdr, *shdr;
2225 	char		*names = 0;
2226 	Cache		*cache, *_cache;
2227 	Cache		*versymcache = 0;
2228 
2229 	if ((ehdr = elf_getehdr(elf)) == NULL) {
2230 		failure(file, MSG_ORIG(MSG_ELF_GETEHDR));
2231 		return;
2232 	}
2233 
2234 	if (elf_getshnum(elf, &shnum) == 0) {
2235 		failure(file, MSG_ORIG(MSG_ELF_GETSHNUM));
2236 		return;
2237 	}
2238 
2239 	if (elf_getshstrndx(elf, &shstrndx) == 0) {
2240 		failure(file, MSG_ORIG(MSG_ELF_GETSHSTRNDX));
2241 		return;
2242 	}
2243 
2244 	if (elf_getphnum(elf, &phnum) == 0) {
2245 		failure(file, MSG_ORIG(MSG_ELF_GETPHNUM));
2246 		return;
2247 	}
2248 
2249 	if ((scn = elf_getscn(elf, 0)) != NULL) {
2250 		if ((shdr = elf_getshdr(scn)) == NULL) {
2251 			failure(file, MSG_ORIG(MSG_ELF_GETSHDR));
2252 			(void) fprintf(stderr, MSG_INTL(MSG_ELF_ERR_SCN), 0);
2253 			return;
2254 		}
2255 	} else
2256 		shdr = 0;
2257 
2258 	/*
2259 	 * Print the elf header.
2260 	 */
2261 	if (flags & FLG_EHDR)
2262 		Elf_ehdr(0, ehdr, shdr);
2263 
2264 	/*
2265 	 * Print the program headers.
2266 	 */
2267 	if ((flags & FLG_PHDR) && (phnum != 0)) {
2268 		Phdr *phdr;
2269 
2270 		if ((phdr = elf_getphdr(elf)) == NULL) {
2271 			failure(file, MSG_ORIG(MSG_ELF_GETPHDR));
2272 			return;
2273 		}
2274 
2275 		for (cnt = 0; cnt < phnum; phdr++, cnt++) {
2276 			dbg_print(0, MSG_ORIG(MSG_STR_EMPTY));
2277 			dbg_print(0, MSG_INTL(MSG_ELF_PHDR), EC_WORD(cnt));
2278 			Elf_phdr(0, ehdr->e_machine, phdr);
2279 		}
2280 	}
2281 
2282 
2283 	/*
2284 	 * Return now if there are no section, if there's just one section to
2285 	 * act as an extension of the ELF header, or if on section information
2286 	 * was requested.
2287 	 */
2288 	if ((shnum <= 1) || (flags && (flags & ~(FLG_EHDR | FLG_PHDR)) == 0)) {
2289 		if ((ehdr->e_type == ET_CORE) && (flags & FLG_NOTE))
2290 			note(0, shnum, 0, file);
2291 		return;
2292 	}
2293 
2294 
2295 	/*
2296 	 * Obtain the .shstrtab data buffer to provide the required section
2297 	 * name strings.
2298 	 */
2299 	if ((scn = elf_getscn(elf, shstrndx)) == NULL) {
2300 		failure(file, MSG_ORIG(MSG_ELF_GETSCN));
2301 		(void) fprintf(stderr, MSG_INTL(MSG_ELF_ERR_SHDR),
2302 		    EC_XWORD(shstrndx));
2303 
2304 	} else if ((data = elf_getdata(scn, NULL)) == NULL) {
2305 		failure(file, MSG_ORIG(MSG_ELF_GETDATA));
2306 		(void) fprintf(stderr, MSG_INTL(MSG_ELF_ERR_DATA),
2307 		    EC_XWORD(shstrndx));
2308 
2309 	} else if ((nameshdr = elf_getshdr(scn)) == NULL) {
2310 		failure(file, MSG_ORIG(MSG_ELF_GETSHDR));
2311 		(void) fprintf(stderr, MSG_INTL(MSG_ELF_ERR_SCN),
2312 		    /* LINTED */
2313 		    (int)elf_ndxscn(scn));
2314 
2315 	} else if ((names = data->d_buf) == 0)
2316 		(void) fprintf(stderr, MSG_INTL(MSG_ERR_SHSTRNULL), file);
2317 
2318 	/*
2319 	 * Fill in the cache descriptor with information for each section.
2320 	 */
2321 	if ((cache = malloc(shnum * sizeof (Cache))) == 0) {
2322 		int err = errno;
2323 		(void) fprintf(stderr, MSG_INTL(MSG_ERR_MALLOC),
2324 		    file, strerror(err));
2325 		return;
2326 	}
2327 
2328 	*cache = cache_init;
2329 	_cache = cache;
2330 	_cache++;
2331 
2332 	for (cnt = 1, scn = NULL; scn = elf_nextscn(elf, scn);
2333 	    cnt++, _cache++) {
2334 		if ((_cache->c_shdr = elf_getshdr(scn)) == NULL) {
2335 			failure(file, MSG_ORIG(MSG_ELF_GETSHDR));
2336 			(void) fprintf(stderr, MSG_INTL(MSG_ELF_ERR_SCN),
2337 			    /* LINTED */
2338 			    (int)elf_ndxscn(scn));
2339 		}
2340 
2341 		if (names && _cache->c_shdr->sh_name &&
2342 		    /* LINTED */
2343 		    (nameshdr->sh_size > _cache->c_shdr->sh_name))
2344 			_cache->c_name = names + _cache->c_shdr->sh_name;
2345 		else {
2346 			/*
2347 			 * If there exists no shstrtab data, or a section header
2348 			 * has no name (an invalid index of 0), then compose a
2349 			 * name for each section.
2350 			 */
2351 			char	scnndxnm[100];
2352 
2353 			(void) snprintf(scnndxnm, 100, MSG_INTL(MSG_FMT_SCNNDX),
2354 			    cnt);
2355 
2356 			/*
2357 			 * Although we have a valid shstrtab section inform the
2358 			 * user if this section name index exceeds the shstrtab
2359 			 * data.
2360 			 */
2361 			if (names &&
2362 			    /* LINTED */
2363 			    (nameshdr->sh_size <= _cache->c_shdr->sh_name)) {
2364 				(void) fprintf(stderr,
2365 				    MSG_INTL(MSG_ERR_BADSHNAME), file,
2366 				    _cache->c_name,
2367 				    EC_XWORD(_cache->c_shdr->sh_name));
2368 			}
2369 
2370 			if ((_cache->c_name =
2371 			    malloc(strlen(scnndxnm) + 1)) == 0) {
2372 				int err = errno;
2373 				(void) fprintf(stderr, MSG_INTL(MSG_ERR_MALLOC),
2374 				    file, strerror(err));
2375 				return;
2376 			}
2377 			(void) strcpy(_cache->c_name, scnndxnm);
2378 		}
2379 
2380 		if ((_cache->c_data = elf_getdata(scn, NULL)) == NULL) {
2381 			failure(file, MSG_ORIG(MSG_ELF_GETDATA));
2382 			(void) fprintf(stderr, MSG_INTL(MSG_ELF_ERR_SCNDATA),
2383 			    /* LINTED */
2384 			    (int)elf_ndxscn(scn));
2385 		}
2386 
2387 		/*
2388 		 * Do we wish to write the section out?
2389 		 */
2390 		if (wfd && Nname && (strcmp(Nname, _cache->c_name) == 0)) {
2391 			(void) write(wfd, _cache->c_data->d_buf,
2392 			    _cache->c_data->d_size);
2393 		}
2394 	}
2395 
2396 	if (flags & FLG_SHDR)
2397 		sections(file, cache, shnum, ehdr, Nname);
2398 
2399 	if (flags & FLG_INTERP)
2400 		interp(file, cache, shnum, phnum, elf);
2401 
2402 	versymcache = versions(cache, shnum, file, flags);
2403 
2404 	if (flags & FLG_SYMBOLS)
2405 		symbols(cache, shnum, ehdr, Nname, versymcache, file, flags);
2406 
2407 	if (flags & FLG_HASH)
2408 		hash(cache, shnum, Nname, file, flags);
2409 
2410 	if (flags & FLG_GOT)
2411 		got(cache, shnum, ehdr, file, flags);
2412 
2413 	if (flags & FLG_GROUP)
2414 		group(cache, shnum, Nname, file, flags);
2415 
2416 	if (flags & FLG_SYMINFO)
2417 		syminfo(cache, shnum, file);
2418 
2419 	if (flags & FLG_RELOC)
2420 		reloc(cache, shnum, ehdr, Nname, file, flags);
2421 
2422 	if (flags & FLG_DYNAMIC)
2423 		dynamic(cache, shnum, ehdr, file);
2424 
2425 	if (flags & FLG_NOTE)
2426 		note(cache, shnum, Nname, file);
2427 
2428 	if (flags & FLG_MOVE)
2429 		move(cache, shnum, Nname, file, flags);
2430 
2431 	if (flags & FLG_CHECKSUM)
2432 		checksum(elf);
2433 
2434 	if (flags & FLG_CAP)
2435 		cap(file, cache, shnum, phnum, ehdr, elf);
2436 
2437 	if (flags & FLG_UNWIND)
2438 		unwind(cache, shnum, phnum, ehdr, Nname, file, elf);
2439 
2440 	free(cache);
2441 }
2442