xref: /titanic_51/usr/src/cmd/sgs/rtld/amd64/amd64_elf.c (revision 749f21d359d8fbd020c974a1a5227316221bfc9c)
1 /*
2  * CDDL HEADER START
3  *
4  * The contents of this file are subject to the terms of the
5  * Common Development and Distribution License, Version 1.0 only
6  * (the "License").  You may not use this file except in compliance
7  * with the License.
8  *
9  * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE
10  * or http://www.opensolaris.org/os/licensing.
11  * See the License for the specific language governing permissions
12  * and limitations under the License.
13  *
14  * When distributing Covered Code, include this CDDL HEADER in each
15  * file and include the License file at usr/src/OPENSOLARIS.LICENSE.
16  * If applicable, add the following below this CDDL HEADER, with the
17  * fields enclosed by brackets "[]" replaced with your own identifying
18  * information: Portions Copyright [yyyy] [name of copyright owner]
19  *
20  * CDDL HEADER END
21  */
22 /*
23  *	Copyright 2005 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  * amd64 machine dependent and ELF file class dependent functions.
30  * Contains routines for performing function binding and symbol relocations.
31  */
32 #include	"_synonyms.h"
33 
34 #include	<stdio.h>
35 #include	<sys/elf.h>
36 #include	<sys/elf_amd64.h>
37 #include	<sys/mman.h>
38 #include	<dlfcn.h>
39 #include	<synch.h>
40 #include	<string.h>
41 #include	"_rtld.h"
42 #include	"_audit.h"
43 #include	"_elf.h"
44 #include	"msg.h"
45 #include	"debug.h"
46 #include	"reloc.h"
47 #include	"conv.h"
48 
49 
50 extern void	elf_rtbndr(Rt_map *, ulong_t, caddr_t);
51 
52 int
53 elf_mach_flags_check(Rej_desc *rej, Ehdr *ehdr)
54 {
55 	/*
56 	 * Check machine type and flags.
57 	 */
58 	if (ehdr->e_flags != 0) {
59 		rej->rej_type = SGS_REJ_BADFLAG;
60 		rej->rej_info = (uint_t)ehdr->e_flags;
61 		return (0);
62 	}
63 	return (1);
64 }
65 
66 void
67 ldso_plt_init(Rt_map * lmp)
68 {
69 	/*
70 	 * There is no need to analyze ld.so because we don't map in any of
71 	 * its dependencies.  However we may map these dependencies in later
72 	 * (as if ld.so had dlopened them), so initialize the plt and the
73 	 * permission information.
74 	 */
75 	if (PLTGOT(lmp))
76 		elf_plt_init((void *)(PLTGOT(lmp)), (caddr_t)lmp);
77 }
78 
79 static const uchar_t dyn_plt_template[] = {
80 /* 0x00 */  0x55,			/* pushq %rbp */
81 /* 0x01 */  0x48, 0x89, 0xe5,		/* movq  %rsp, %rbp */
82 /* 0x04 */  0x48, 0x83, 0xec, 0x10,	/* subq	 $0x10, %rsp */
83 /* 0x08 */  0x4c, 0x8d, 0x1d, 0x00,	/* leaq  trace_fields(%rip), %r11 */
84 		0x00, 0x00, 0x00,
85 /* 0x0f */  0x4c, 0x89, 0x5d, 0xf8,	/* movq  %r11, -0x8(%rbp) */
86 /* 0x13 */  0x49, 0xbb, 0x00, 0x00, 	/* movq  $elf_plt_trace, %r11 */
87 		0x00, 0x00, 0x00,
88 		0x00, 0x00, 0x00,
89 /* 0x1d */  0x41, 0xff, 0xe3		/* jmp   *%r11 */
90 /* 0x20 */
91 };
92 
93 /*
94  * And the virutal outstanding relocations against the
95  * above block are:
96  *
97  *	reloc		offset	Addend	symbol
98  *	R_AMD64_PC32	0x0b	-4	trace_fields
99  *	R_AMD64_64	0x15	0	elf_plt_trace
100  */
101 
102 #define	TRCREL1OFF	0x0b
103 #define	TRCREL2OFF	0x15
104 
105 int	dyn_plt_ent_size = sizeof (dyn_plt_template);
106 
107 /*
108  * the dynamic plt entry is:
109  *
110  *	pushq	%rbp
111  *	movq	%rsp, %rbp
112  *	subq	$0x10, %rsp
113  *	leaq	trace_fields(%rip), %r11
114  *	movq	%r11, -0x8(%rbp)
115  *	movq	$elf_plt_trace, %r11
116  *	jmp	*%r11
117  * dyn_data:
118  *	.align  8
119  *	uintptr_t	reflmp
120  *	uintptr_t	deflmp
121  *	uint_t		symndx
122  *	uint_t		sb_flags
123  *	Sym		symdef
124  */
125 static caddr_t
126 elf_plt_trace_write(ulong_t roffset, Rt_map *rlmp, Rt_map *dlmp, Sym *sym,
127     uint_t symndx, uint_t pltndx, caddr_t to, uint_t sb_flags, int *fail)
128 {
129 	extern int	elf_plt_trace();
130 	ulong_t		got_entry;
131 	uchar_t		*dyn_plt;
132 	uintptr_t	*dyndata;
133 
134 
135 	/*
136 	 * We only need to add the glue code if there is an auditing
137 	 * library that is interested in this binding.
138 	 */
139 	dyn_plt = (uchar_t *)((uintptr_t)AUDINFO(rlmp)->ai_dynplts +
140 		(pltndx * dyn_plt_ent_size));
141 
142 	/*
143 	 * Have we initialized this dynamic plt entry yet?  If we haven't do it
144 	 * now.  Otherwise this function has been called before, but from a
145 	 * different plt (ie. from another shared object).  In that case
146 	 * we just set the plt to point to the new dyn_plt.
147 	 */
148 	if (*dyn_plt == 0) {
149 		Sym *	symp;
150 		Xword	symvalue;
151 
152 		(void) memcpy((void *)dyn_plt, dyn_plt_template,
153 		    sizeof (dyn_plt_template));
154 		dyndata = (uintptr_t *)((uintptr_t)dyn_plt +
155 		    ROUND(sizeof (dyn_plt_template), M_WORD_ALIGN));
156 
157 		/*
158 		 * relocate:
159 		 *	leaq	trace_fields(%rip), %r11
160 		 *	R_AMD64_PC32	0x0b	-4	trace_fields
161 		 */
162 		symvalue = (Xword)((uintptr_t)dyndata -
163 		    (uintptr_t)(&dyn_plt[TRCREL1OFF]) - 4);
164 		if (do_reloc(R_AMD64_PC32, &dyn_plt[TRCREL1OFF], &symvalue,
165 		    MSG_ORIG(MSG_SYM_LADYNDATA),
166 		    MSG_ORIG(MSG_SPECFIL_DYNPLT)) == 0) {
167 			*fail = 1;
168 			return (0);
169 		}
170 
171 		/*
172 		 * relocating:
173 		 *	movq	$elf_plt_trace, %r11
174 		 *	R_AMD64_64	0x15	0	elf_plt_trace
175 		 */
176 		symvalue = (Xword)elf_plt_trace;
177 		if (do_reloc(R_AMD64_64, &dyn_plt[TRCREL2OFF], &symvalue,
178 		    MSG_ORIG(MSG_SYM_ELFPLTTRACE),
179 		    MSG_ORIG(MSG_SPECFIL_DYNPLT)) == 0) {
180 			*fail = 1;
181 			return (0);
182 		}
183 
184 		*dyndata++ = (uintptr_t)rlmp;
185 		*dyndata++ = (uintptr_t)dlmp;
186 		*dyndata = (uintptr_t)(((uint64_t)sb_flags << 32) | symndx);
187 		dyndata++;
188 		symp = (Sym *)dyndata;
189 		*symp = *sym;
190 		symp->st_value = (Addr)to;
191 	}
192 
193 	got_entry = (ulong_t)roffset;
194 	*(ulong_t *)got_entry = (ulong_t)dyn_plt;
195 	return ((caddr_t)dyn_plt);
196 }
197 
198 
199 /*
200  * Function binding routine - invoked on the first call to a function through
201  * the procedure linkage table;
202  * passes first through an assembly language interface.
203  *
204  * Takes the offset into the relocation table of the associated
205  * relocation entry and the address of the link map (rt_private_map struct)
206  * for the entry.
207  *
208  * Returns the address of the function referenced after re-writing the PLT
209  * entry to invoke the function directly.
210  *
211  * On error, causes process to terminate with a signal.
212  */
213 ulong_t
214 elf_bndr(Rt_map *lmp, ulong_t pltndx, caddr_t from)
215 {
216 	Rt_map		*nlmp, * llmp;
217 	ulong_t		addr, reloff, symval, rsymndx;
218 	char		*name;
219 	Rela		*rptr;
220 	Sym		*sym, *nsym;
221 	uint_t		binfo, sb_flags = 0;
222 	Slookup		sl;
223 	int		entry, dbg_save, lmflags;
224 
225 	/*
226 	 * For compatibility with libthread (TI_VERSION 1) we track the entry
227 	 * value.  A zero value indicates we have recursed into ld.so.1 to
228 	 * further process a locking request.  Under this recursion we disable
229 	 * tsort and cleanup activities.
230 	 */
231 	entry = enter();
232 
233 	if ((lmflags = LIST(lmp)->lm_flags) & LML_FLG_RTLDLM) {
234 		dbg_save = dbg_mask;
235 		dbg_mask = 0;
236 	}
237 
238 	/*
239 	 * Perform some basic sanity checks.  If we didn't get a load map or
240 	 * the relocation offset is invalid then its possible someone has walked
241 	 * over the .got entries or jumped to plt0 out of the blue.
242 	 */
243 	if ((!lmp) && (pltndx <=
244 	    (ulong_t)PLTRELSZ(lmp) / (ulong_t)RELENT(lmp))) {
245 		eprintf(ERR_FATAL, MSG_INTL(MSG_REL_PLTREF),
246 		    conv_reloc_amd64_type_str(R_AMD64_JUMP_SLOT),
247 		    EC_ADDR(lmp), EC_XWORD(pltndx), EC_ADDR(from));
248 		rtldexit(LIST(lmp), 1);
249 	}
250 	reloff = pltndx * (ulong_t)RELENT(lmp);
251 
252 	/*
253 	 * Use relocation entry to get symbol table entry and symbol name.
254 	 */
255 	addr = (ulong_t)JMPREL(lmp);
256 	rptr = (Rela *)(addr + reloff);
257 	rsymndx = ELF_R_SYM(rptr->r_info);
258 	sym = (Sym *)((ulong_t)SYMTAB(lmp) + (rsymndx * SYMENT(lmp)));
259 	name = (char *)(STRTAB(lmp) + sym->st_name);
260 
261 	/*
262 	 * Determine the last link-map of this list, this'll be the starting
263 	 * point for any tsort() processing.
264 	 */
265 	llmp = LIST(lmp)->lm_tail;
266 
267 	/*
268 	 * Find definition for symbol.
269 	 */
270 	sl.sl_name = name;
271 	sl.sl_cmap = lmp;
272 	sl.sl_imap = LIST(lmp)->lm_head;
273 	sl.sl_hash = 0;
274 	sl.sl_rsymndx = rsymndx;
275 	sl.sl_flags = LKUP_DEFT;
276 
277 	if ((nsym = lookup_sym(&sl, &nlmp, &binfo)) == 0) {
278 		eprintf(ERR_FATAL, MSG_INTL(MSG_REL_NOSYM), NAME(lmp),
279 		    demangle(name));
280 		rtldexit(LIST(lmp), 1);
281 	}
282 
283 	symval = nsym->st_value;
284 	if (!(FLAGS(nlmp) & FLG_RT_FIXED) &&
285 	    (nsym->st_shndx != SHN_ABS))
286 		symval += ADDR(nlmp);
287 	if ((lmp != nlmp) && ((FLAGS1(nlmp) & FL1_RT_NOINIFIN) == 0)) {
288 		/*
289 		 * Record that this new link map is now bound to the caller.
290 		 */
291 		if (bind_one(lmp, nlmp, BND_REFER) == 0)
292 			rtldexit(LIST(lmp), 1);
293 	}
294 
295 	if ((LIST(lmp)->lm_tflags | FLAGS1(lmp)) & LML_TFLG_AUD_SYMBIND) {
296 		uint_t	symndx = (((uintptr_t)nsym -
297 			(uintptr_t)SYMTAB(nlmp)) / SYMENT(nlmp));
298 		symval = audit_symbind(lmp, nlmp, nsym, symndx, symval,
299 			&sb_flags);
300 	}
301 
302 	if (!(rtld_flags & RT_FL_NOBIND)) {
303 		addr = rptr->r_offset;
304 		if (!(FLAGS(lmp) & FLG_RT_FIXED))
305 			addr += ADDR(lmp);
306 		if (((LIST(lmp)->lm_tflags | FLAGS1(lmp)) &
307 		    (LML_TFLG_AUD_PLTENTER | LML_TFLG_AUD_PLTEXIT)) &&
308 		    AUDINFO(lmp)->ai_dynplts) {
309 			int	fail = 0;
310 			uint_t	pltndx = reloff / sizeof (Rela);
311 			uint_t	symndx = (((uintptr_t)nsym -
312 						(uintptr_t)SYMTAB(nlmp)) /
313 						SYMENT(nlmp));
314 
315 			symval = (ulong_t)elf_plt_trace_write(addr, lmp, nlmp,
316 			    nsym, symndx, pltndx, (caddr_t)symval, sb_flags,
317 			    &fail);
318 			if (fail)
319 				rtldexit(LIST(lmp), 1);
320 		} else {
321 			/*
322 			 * Write standard PLT entry to jump directly
323 			 * to newly bound function.
324 			 */
325 			*(ulong_t *)addr = symval;
326 		}
327 	}
328 
329 	/*
330 	 * Print binding information and rebuild PLT entry.
331 	 */
332 	DBG_CALL(Dbg_bind_global(NAME(lmp), from, from - ADDR(lmp),
333 	    (Xword)(reloff / sizeof (Rela)), PLT_T_FULL, NAME(nlmp),
334 	    (caddr_t)symval, (caddr_t)nsym->st_value, name, binfo));
335 
336 	/*
337 	 * Complete any processing for newly loaded objects.  Note we don't
338 	 * know exactly where any new objects are loaded (we know the object
339 	 * that supplied the symbol, but others may have been loaded lazily as
340 	 * we searched for the symbol), so sorting starts from the last
341 	 * link-map know on entry to this routine.
342 	 */
343 	if (entry)
344 		load_completion(llmp, lmp);
345 
346 	/*
347 	 * Some operations like dldump() or dlopen()'ing a relocatable object
348 	 * result in objects being loaded on rtld's link-map, make sure these
349 	 * objects are initialized also.
350 	 */
351 	if ((LIST(nlmp)->lm_flags & LML_FLG_RTLDLM) && LIST(nlmp)->lm_init)
352 		load_completion(nlmp, 0);
353 
354 	/*
355 	 * If the object we've bound to is in the process of being initialized
356 	 * by another thread, determine whether we should block.
357 	 */
358 	is_dep_ready(nlmp, lmp, DBG_WAIT_SYMBOL);
359 
360 	/*
361 	 * Make sure the object to which we've bound has had it's .init fired.
362 	 * Cleanup before return to user code.
363 	 */
364 	if (entry) {
365 		is_dep_init(nlmp, lmp);
366 		leave(LIST(lmp));
367 	}
368 
369 	if (lmflags & LML_FLG_RTLDLM)
370 		dbg_mask = dbg_save;
371 
372 	return (symval);
373 }
374 
375 
376 /*
377  * When the relocation loop realizes that it's dealing with relative
378  * relocations in a shared object, it breaks into this tighter loop
379  * as an optimization.
380  */
381 ulong_t
382 elf_reloc_relative(ulong_t relbgn, ulong_t relend, ulong_t relsiz,
383     ulong_t basebgn, ulong_t etext, ulong_t emap)
384 {
385 	ulong_t roffset = ((Rela *)relbgn)->r_offset;
386 	char rtype;
387 
388 	do {
389 		roffset += basebgn;
390 
391 		/*
392 		 * If this relocation is against an address not mapped in,
393 		 * then break out of the relative relocation loop, falling
394 		 * back on the main relocation loop.
395 		 */
396 		if (roffset < etext || roffset > emap)
397 			break;
398 
399 		/*
400 		 * Perform the actual relocation.
401 		 */
402 		*((ulong_t *)roffset) = basebgn +
403 		    ((Rela *)relbgn)->r_addend;
404 
405 		relbgn += relsiz;
406 
407 		if (relbgn >= relend)
408 			break;
409 
410 		rtype = ELF_R_TYPE(((Rela *)relbgn)->r_info);
411 		roffset = ((Rela *)relbgn)->r_offset;
412 
413 	} while (rtype == R_AMD64_RELATIVE);
414 
415 	return (relbgn);
416 }
417 
418 /*
419  * This is the tightest loop for RELATIVE relocations for those
420  * objects built with the DT_RELACOUNT .dynamic entry.
421  */
422 ulong_t
423 elf_reloc_relacount(ulong_t relbgn, ulong_t relacount, ulong_t relsiz,
424     ulong_t basebgn)
425 {
426 	ulong_t roffset = ((Rela *) relbgn)->r_offset;
427 
428 	for (; relacount; relacount--) {
429 		roffset += basebgn;
430 
431 		/*
432 		 * Perform the actual relocation.
433 		 */
434 		*((ulong_t *)roffset) = basebgn +
435 		    ((Rela *)relbgn)->r_addend;
436 
437 		relbgn += relsiz;
438 
439 		roffset = ((Rela *)relbgn)->r_offset;
440 
441 	}
442 
443 	return (relbgn);
444 }
445 
446 /*
447  * Read and process the relocations for one link object, we assume all
448  * relocation sections for loadable segments are stored contiguously in
449  * the file.
450  */
451 int
452 elf_reloc(Rt_map *lmp, uint_t plt)
453 {
454 	ulong_t		relbgn, relend, relsiz, basebgn;
455 	ulong_t		pltbgn, pltend, _pltbgn, _pltend;
456 	ulong_t		roffset, rsymndx, psymndx = 0, etext = ETEXT(lmp);
457 	ulong_t		emap, dsymndx;
458 	uchar_t		rtype;
459 	long		reladd, value, pvalue;
460 	Sym		*symref, *psymref, *symdef, *psymdef;
461 	char		*name, *pname;
462 	Rt_map		*_lmp, *plmp;
463 	int		textrel = 0, ret = 1, noplt = 0;
464 	int		relacount = RELACOUNT(lmp), plthint = 0;
465 	Rela		*rel;
466 	uint_t		binfo, pbinfo;
467 	Alist		*bound = 0;
468 
469 	/*
470 	 * Although only necessary for lazy binding, initialize the first
471 	 * global offset entry to go to elf_rtbndr().  dbx(1) seems
472 	 * to find this useful.
473 	 */
474 	if ((plt == 0) && PLTGOT(lmp)) {
475 		if ((ulong_t)PLTGOT(lmp) < etext) {
476 			if (elf_set_prot(lmp, PROT_WRITE) == 0)
477 				return (0);
478 			textrel = 1;
479 		}
480 		elf_plt_init((void *)PLTGOT(lmp), (caddr_t)lmp);
481 	}
482 
483 	/*
484 	 * Initialize the plt start and end addresses.
485 	 */
486 	if ((pltbgn = (ulong_t)JMPREL(lmp)) != 0)
487 		pltend = pltbgn + (ulong_t)(PLTRELSZ(lmp));
488 
489 
490 	relsiz = (ulong_t)(RELENT(lmp));
491 	basebgn = ADDR(lmp);
492 	emap = ADDR(lmp) + MSIZE(lmp);
493 
494 	if (PLTRELSZ(lmp))
495 		plthint = PLTRELSZ(lmp) / relsiz;
496 
497 	/*
498 	 * If we've been called upon to promote an RTLD_LAZY object to an
499 	 * RTLD_NOW then we're only interested in scaning the .plt table.
500 	 * An uninitialized .plt is the case where the associated got entry
501 	 * points back to the plt itself.  Determine the range of the real .plt
502 	 * entries using the _PROCEDURE_LINKAGE_TABLE_ symbol.
503 	 */
504 	if (plt) {
505 		Slookup	sl;
506 
507 		relbgn = pltbgn;
508 		relend = pltend;
509 		if (!relbgn || (relbgn == relend))
510 			return (1);
511 
512 		sl.sl_name = MSG_ORIG(MSG_SYM_PLT);
513 		sl.sl_cmap = lmp;
514 		sl.sl_imap = lmp;
515 		sl.sl_hash = elf_hash(MSG_ORIG(MSG_SYM_PLT));
516 		sl.sl_rsymndx = 0;
517 		sl.sl_flags = LKUP_DEFT;
518 
519 		if ((symdef = elf_find_sym(&sl, &_lmp, &binfo)) == 0)
520 			return (1);
521 
522 		_pltbgn = symdef->st_value;
523 		if (!(FLAGS(lmp) & FLG_RT_FIXED) &&
524 		    (symdef->st_shndx != SHN_ABS))
525 			_pltbgn += basebgn;
526 		_pltend = _pltbgn + (((PLTRELSZ(lmp) / relsiz)) *
527 			M_PLT_ENTSIZE) + M_PLT_RESERVSZ;
528 
529 	} else {
530 		/*
531 		 * The relocation sections appear to the run-time linker as a
532 		 * single table.  Determine the address of the beginning and end
533 		 * of this table.  There are two different interpretations of
534 		 * the ABI at this point:
535 		 *
536 		 *   o	The REL table and its associated RELSZ indicate the
537 		 *	concatenation of *all* relocation sections (this is the
538 		 *	model our link-editor constructs).
539 		 *
540 		 *   o	The REL table and its associated RELSZ indicate the
541 		 *	concatenation of all *but* the .plt relocations.  These
542 		 *	relocations are specified individually by the JMPREL and
543 		 *	PLTRELSZ entries.
544 		 *
545 		 * Determine from our knowledege of the relocation range and
546 		 * .plt range, the range of the total relocation table.  Note
547 		 * that one other ABI assumption seems to be that the .plt
548 		 * relocations always follow any other relocations, the
549 		 * following range checking drops that assumption.
550 		 */
551 		relbgn = (ulong_t)(REL(lmp));
552 		relend = relbgn + (ulong_t)(RELSZ(lmp));
553 		if (pltbgn) {
554 			if (!relbgn || (relbgn > pltbgn))
555 				relbgn = pltbgn;
556 			if (!relbgn || (relend < pltend))
557 				relend = pltend;
558 		}
559 	}
560 	if (!relbgn || (relbgn == relend)) {
561 		DBG_CALL(Dbg_reloc_run(NAME(lmp), 0, plt, DBG_REL_NONE));
562 		return (1);
563 	}
564 	DBG_CALL(Dbg_reloc_run(NAME(lmp), M_REL_SHT_TYPE, plt, DBG_REL_START));
565 
566 	/*
567 	 * If we're processing a dynamic executable in lazy mode there is no
568 	 * need to scan the .rel.plt table, however if we're processing a shared
569 	 * object in lazy mode the .got addresses associated to each .plt must
570 	 * be relocated to reflect the location of the shared object.
571 	 */
572 	if (pltbgn && ((MODE(lmp) & RTLD_NOW) == 0) &&
573 	    (FLAGS(lmp) & FLG_RT_FIXED))
574 		noplt = 1;
575 
576 	/*
577 	 * Loop through relocations.
578 	 */
579 	while (relbgn < relend) {
580 		uint_t	sb_flags = 0;
581 
582 		rtype = ELF_R_TYPE(((Rela *)relbgn)->r_info);
583 
584 		/*
585 		 * If this is a RELATIVE relocation in a shared object (the
586 		 * common case), and if we are not debugging, then jump into a
587 		 * tighter relocation loop (elf_reloc_relative).  Only make the
588 		 * jump if we've been given a hint on the number of relocations.
589 		 */
590 		if ((rtype == R_AMD64_RELATIVE) &&
591 		    !(FLAGS(lmp) & FLG_RT_FIXED) && !dbg_mask) {
592 			/*
593 			 * It's possible that the relative relocation block
594 			 * has relocations against the text segment as well
595 			 * as the data segment.  Since our optimized relocation
596 			 * engine does not check which segment the relocation
597 			 * is against - just mprotect it now if it's been
598 			 * marked as containing TEXTREL's.
599 			 */
600 			if ((textrel == 0) && (FLAGS1(lmp) & FL1_RT_TEXTREL)) {
601 				if (elf_set_prot(lmp, PROT_WRITE) == 0) {
602 					ret = 0;
603 					break;
604 				}
605 				textrel = 1;
606 			}
607 			if (relacount) {
608 				relbgn = elf_reloc_relacount(relbgn, relacount,
609 				    relsiz, basebgn);
610 				relacount = 0;
611 			} else {
612 				relbgn = elf_reloc_relative(relbgn, relend,
613 				    relsiz, basebgn, etext, emap);
614 			}
615 			if (relbgn >= relend)
616 				break;
617 			rtype = ELF_R_TYPE(((Rela *)relbgn)->r_info);
618 		}
619 
620 		roffset = ((Rela *)relbgn)->r_offset;
621 
622 		/*
623 		 * If this is a shared object, add the base address to offset.
624 		 */
625 		if (!(FLAGS(lmp) & FLG_RT_FIXED)) {
626 
627 
628 			/*
629 			 * If we're processing lazy bindings, we have to step
630 			 * through the plt entries and add the base address
631 			 * to the corresponding got entry.
632 			 */
633 			if (plthint && (plt == 0) &&
634 			    (rtype == R_AMD64_JUMP_SLOT) &&
635 			    ((MODE(lmp) & RTLD_NOW) == 0)) {
636 				/*
637 				 * The PLT relocations (for lazy bindings)
638 				 * are additive to what's already in the GOT.
639 				 * This differs to what happens in
640 				 * elf_reloc_relacount() and that's why we
641 				 * just do it inline here.
642 				 */
643 				for (roffset = ((Rela *)relbgn)->r_offset;
644 				    plthint; plthint--) {
645 					roffset += basebgn;
646 
647 					/*
648 					 * Perform the actual relocation.
649 					 */
650 					*((ulong_t *)roffset) += basebgn;
651 
652 					relbgn += relsiz;
653 					roffset = ((Rela *)relbgn)->r_offset;
654 
655 				}
656 				continue;
657 			}
658 			roffset += basebgn;
659 		}
660 
661 		reladd = (long)(((Rela *)relbgn)->r_addend);
662 		rsymndx = ELF_R_SYM(((Rela *)relbgn)->r_info);
663 		rel = (Rela *)relbgn;
664 		relbgn += relsiz;
665 
666 		/*
667 		 * Optimizations.
668 		 */
669 		if (rtype == R_AMD64_NONE)
670 			continue;
671 		if (noplt && ((ulong_t)rel >= pltbgn) &&
672 		    ((ulong_t)rel < pltend)) {
673 			relbgn = pltend;
674 			continue;
675 		}
676 
677 		/*
678 		 * If this relocation is not against part of the image
679 		 * mapped into memory we skip it.
680 		 */
681 		if ((roffset < ADDR(lmp)) || (roffset > (ADDR(lmp) +
682 		    MSIZE(lmp)))) {
683 			elf_reloc_bad(lmp, (void *)rel, rtype, roffset,
684 			    rsymndx);
685 			continue;
686 		}
687 
688 		/*
689 		 * If we're promoting plts determine if this one has already
690 		 * been written.
691 		 */
692 		if (plt) {
693 			if ((*(ulong_t *)roffset < _pltbgn) ||
694 			    (*(ulong_t *)roffset > _pltend))
695 				continue;
696 		}
697 
698 		binfo = 0;
699 		/*
700 		 * If a symbol index is specified then get the symbol table
701 		 * entry, locate the symbol definition, and determine its
702 		 * address.
703 		 */
704 		if (rsymndx) {
705 			/*
706 			 * Get the local symbol table entry.
707 			 */
708 			symref = (Sym *)((ulong_t)SYMTAB(lmp) +
709 				(rsymndx * SYMENT(lmp)));
710 
711 			/*
712 			 * If this is a local symbol, just use the base address.
713 			 * (we should have no local relocations in the
714 			 * executable).
715 			 */
716 			if (ELF_ST_BIND(symref->st_info) == STB_LOCAL) {
717 				value = basebgn;
718 				name = (char *)0;
719 
720 				/*
721 				 * TLS relocation - value for DTPMOD64
722 				 * relocation is the TLS modid.
723 				 */
724 				if (rtype == R_AMD64_DTPMOD64)
725 					value = TLSMODID(lmp);
726 			} else {
727 				/*
728 				 * If the symbol index is equal to the previous
729 				 * symbol index relocation we processed then
730 				 * reuse the previous values. (Note that there
731 				 * have been cases where a relocation exists
732 				 * against a copy relocation symbol, our ld(1)
733 				 * should optimize this away, but make sure we
734 				 * don't use the same symbol information should
735 				 * this case exist).
736 				 */
737 				if ((rsymndx == psymndx) &&
738 				    (rtype != R_AMD64_COPY)) {
739 					/* LINTED */
740 					if (psymdef == 0) {
741 						DBG_CALL(Dbg_bind_weak(
742 						    NAME(lmp), (caddr_t)roffset,
743 						    (caddr_t)
744 						    (roffset - basebgn), name));
745 						continue;
746 					}
747 					/* LINTED */
748 					value = pvalue;
749 					/* LINTED */
750 					name = pname;
751 					/* LINTED */
752 					symdef = psymdef;
753 					/* LINTED */
754 					symref = psymref;
755 					/* LINTED */
756 					_lmp = plmp;
757 					/* LINTED */
758 					binfo = pbinfo;
759 
760 					if ((LIST(_lmp)->lm_tflags |
761 					    FLAGS1(_lmp)) &
762 					    LML_TFLG_AUD_SYMBIND) {
763 						value = audit_symbind(lmp, _lmp,
764 						    /* LINTED */
765 						    symdef, dsymndx, value,
766 						    &sb_flags);
767 					}
768 				} else {
769 					Slookup		sl;
770 					uchar_t		bind;
771 
772 					/*
773 					 * Lookup the symbol definition.
774 					 */
775 					name = (char *)(STRTAB(lmp) +
776 					    symref->st_name);
777 
778 					sl.sl_name = name;
779 					sl.sl_cmap = lmp;
780 					sl.sl_imap = 0;
781 					sl.sl_hash = 0;
782 					sl.sl_rsymndx = rsymndx;
783 
784 					if (rtype == R_AMD64_COPY)
785 						sl.sl_flags = LKUP_COPY;
786 					else
787 						sl.sl_flags = LKUP_DEFT;
788 
789 					sl.sl_flags |= LKUP_ALLCNTLIST;
790 
791 					if (rtype != R_AMD64_JUMP_SLOT)
792 						sl.sl_flags |= LKUP_SPEC;
793 
794 					bind = ELF_ST_BIND(symref->st_info);
795 					if (bind == STB_WEAK)
796 						sl.sl_flags |= LKUP_WEAK;
797 
798 					symdef = lookup_sym(&sl, &_lmp, &binfo);
799 
800 					/*
801 					 * If the symbol is not found and the
802 					 * reference was not to a weak symbol,
803 					 * report an error.  Weak references
804 					 * may be unresolved.
805 					 * chkmsg: MSG_INTL(MSG_LDD_SYM_NFOUND)
806 					 */
807 					if (symdef == 0) {
808 					    if (bind != STB_WEAK) {
809 						if (LIST(lmp)->lm_flags &
810 						    LML_FLG_IGNRELERR) {
811 						    continue;
812 						} else if (LIST(lmp)->lm_flags &
813 						    LML_FLG_TRC_WARN) {
814 						    (void) printf(MSG_INTL(
815 							MSG_LDD_SYM_NFOUND),
816 							demangle(name),
817 							NAME(lmp));
818 						    continue;
819 						} else {
820 						    eprintf(ERR_FATAL,
821 							MSG_INTL(MSG_REL_NOSYM),
822 							NAME(lmp),
823 							demangle(name));
824 						    ret = 0;
825 						    break;
826 						}
827 					    } else {
828 						psymndx = rsymndx;
829 						psymdef = 0;
830 
831 						DBG_CALL(Dbg_bind_weak(
832 						    NAME(lmp), (caddr_t)roffset,
833 						    (caddr_t)
834 						    (roffset - basebgn), name));
835 						continue;
836 					    }
837 					}
838 
839 					/*
840 					 * If symbol was found in an object
841 					 * other than the referencing object
842 					 * then record the binding.
843 					 */
844 					if ((lmp != _lmp) && ((FLAGS1(_lmp) &
845 					    FL1_RT_NOINIFIN) == 0)) {
846 						if (alist_test(&bound, _lmp,
847 						    sizeof (Rt_map *),
848 						    AL_CNT_RELBIND) == 0) {
849 							ret = 0;
850 							break;
851 						}
852 					}
853 
854 					/*
855 					 * Calculate the location of definition;
856 					 * symbol value plus base address of
857 					 * containing shared object.
858 					 */
859 					value = symdef->st_value;
860 					if (!(FLAGS(_lmp) & FLG_RT_FIXED) &&
861 					    (symdef->st_shndx != SHN_ABS) &&
862 					    (ELF_ST_TYPE(symdef->st_info) !=
863 					    STT_TLS))
864 						value += ADDR(_lmp);
865 
866 					/*
867 					 * Retain this symbol index and the
868 					 * value in case it can be used for the
869 					 * subsequent relocations.
870 					 */
871 					if (rtype != R_AMD64_COPY) {
872 						psymndx = rsymndx;
873 						pvalue = value;
874 						pname = name;
875 						psymdef = symdef;
876 						psymref = symref;
877 						plmp = _lmp;
878 						pbinfo = binfo;
879 					}
880 					if ((LIST(_lmp)->lm_tflags |
881 					    FLAGS1(_lmp)) &
882 					    LML_TFLG_AUD_SYMBIND) {
883 						dsymndx = (((uintptr_t)symdef -
884 						    (uintptr_t)SYMTAB(_lmp)) /
885 						    SYMENT(_lmp));
886 						value = audit_symbind(lmp, _lmp,
887 						    symdef, dsymndx, value,
888 						    &sb_flags);
889 					}
890 				}
891 
892 				/*
893 				 * If relocation is PC-relative, subtract
894 				 * offset address.
895 				 */
896 				if (IS_PC_RELATIVE(rtype))
897 					value -= roffset;
898 
899 				/*
900 				 * TLS relocation - value for DTPMOD64
901 				 * relocation is the TLS modid.
902 				 */
903 				if (rtype == R_AMD64_DTPMOD64)
904 					value = TLSMODID(_lmp);
905 				else if ((rtype == R_AMD64_TPOFF64) ||
906 				    (rtype == R_AMD64_TPOFF32))
907 					value = -(TLSSTATOFF(_lmp) - value);
908 			}
909 		} else {
910 			/*
911 			 * Special case:
912 			 *
913 			 * A DTPMOD32 relocation is a local binding to a TLS
914 			 * symbol.  Fill in the TLSMODID for the current object.
915 			 */
916 			if (rtype == R_AMD64_DTPMOD64)
917 				value = TLSMODID(lmp);
918 			else
919 				value = basebgn;
920 			name = (char *)0;
921 		}
922 
923 		/*
924 		 * If this object has relocations in the text segment, turn
925 		 * off the write protect.
926 		 */
927 		if ((roffset < etext) && (textrel == 0)) {
928 			if (elf_set_prot(lmp, PROT_WRITE) == 0) {
929 				ret = 0;
930 				break;
931 			}
932 			textrel = 1;
933 		}
934 
935 		/*
936 		 * Call relocation routine to perform required relocation.
937 		 */
938 		DBG_CALL(Dbg_reloc_in(M_MACH, M_REL_SHT_TYPE, rel, name, NULL));
939 
940 		switch (rtype) {
941 		case R_AMD64_COPY:
942 			if (elf_copy_reloc(name, symref, lmp, (void *)roffset,
943 			    symdef, _lmp, (const void *)value) == 0)
944 				ret = 0;
945 			break;
946 		case R_AMD64_JUMP_SLOT:
947 			if (((LIST(lmp)->lm_tflags | FLAGS1(lmp)) &
948 			    (LML_TFLG_AUD_PLTENTER | LML_TFLG_AUD_PLTEXIT)) &&
949 			    AUDINFO(lmp)->ai_dynplts) {
950 				int	fail = 0;
951 				int	pltndx = (((ulong_t)rel -
952 					(uintptr_t)JMPREL(lmp)) / relsiz);
953 				int	symndx = (((uintptr_t)symdef -
954 					    (uintptr_t)SYMTAB(_lmp)) /
955 					    SYMENT(_lmp));
956 
957 				(void) elf_plt_trace_write(roffset, lmp, _lmp,
958 				    symdef, symndx, pltndx, (caddr_t)value,
959 				    sb_flags, &fail);
960 				if (fail)
961 					ret = 0;
962 			} else {
963 				/*
964 				 * Write standard PLT entry to jump directly
965 				 * to newly bound function.
966 				 */
967 				DBG_CALL(Dbg_reloc_apply((Xword)roffset,
968 				    (Xword)value));
969 				*(ulong_t *)roffset = value;
970 			}
971 			break;
972 		default:
973 			value += reladd;
974 			/*
975 			 * Write the relocation out.
976 			 */
977 			if (do_reloc(rtype, (uchar_t *)roffset,
978 			    (Xword *)&value, name, NAME(lmp)) == 0)
979 				ret = 0;
980 
981 			DBG_CALL(Dbg_reloc_apply((Xword)roffset,
982 			    (Xword)value));
983 		}
984 
985 		if ((ret == 0) &&
986 		    ((LIST(lmp)->lm_flags & LML_FLG_TRC_WARN) == 0))
987 			break;
988 
989 		if (binfo) {
990 			DBG_CALL(Dbg_bind_global(NAME(lmp), (caddr_t)roffset,
991 			    (caddr_t)(roffset - basebgn), (Xword)(-1),
992 			    PLT_T_FULL, NAME(_lmp), (caddr_t)value,
993 			    (caddr_t)symdef->st_value, name, binfo));
994 		}
995 	}
996 
997 	return (relocate_finish(lmp, bound, textrel, ret));
998 }
999 
1000 /*
1001  * Initialize the first few got entries so that function calls go to
1002  * elf_rtbndr:
1003  *
1004  *	GOT[GOT_XLINKMAP] =	the address of the link map
1005  *	GOT[GOT_XRTLD] =	the address of rtbinder
1006  */
1007 void
1008 elf_plt_init(void *got, caddr_t l)
1009 {
1010 	uint64_t	*_got;
1011 	/* LINTED */
1012 	Rt_map		*lmp = (Rt_map *)l;
1013 
1014 	_got = (uint64_t *)got + M_GOT_XLINKMAP;
1015 	*_got = (uint64_t)lmp;
1016 	_got = (uint64_t *)got + M_GOT_XRTLD;
1017 	*_got = (uint64_t)elf_rtbndr;
1018 }
1019 
1020 /*
1021  * Plt writing interface to allow debugging initialization to be generic.
1022  */
1023 Pltbindtype
1024 /* ARGSUSED1 */
1025 elf_plt_write(uintptr_t addr, uintptr_t vaddr, void *rptr, uintptr_t symval,
1026 	Xword pltndx)
1027 {
1028 	Rela		*rel = (Rela*)rptr;
1029 	uintptr_t	pltaddr;
1030 
1031 	pltaddr = addr + rel->r_offset;
1032 	*(ulong_t *)pltaddr = (ulong_t)symval + rel->r_addend;
1033 	DBG_CALL(pltcntfull++);
1034 	return (PLT_T_FULL);
1035 }
1036 
1037 /*
1038  * Provide a machine specific interface to the conversion routine.  By calling
1039  * the machine specific version, rather than the generic version, we insure that
1040  * the data tables/strings for all known machine versions aren't dragged into
1041  * ld.so.1.
1042  */
1043 const char *
1044 _conv_reloc_type_str(uint_t rel)
1045 {
1046 	return (conv_reloc_amd64_type_str(rel));
1047 }
1048