xref: /titanic_44/usr/src/cmd/sgs/rtld/common/dlfcns.c (revision a787240632bcb1404b9fd4583516b875d3f02c8b)
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 (c) 1988 AT&T
24  *	  All Rights Reserved
25  *
26  */
27 
28 /*
29  * Copyright 2005 Sun Microsystems, Inc.  All rights reserved.
30  * Use is subject to license terms.
31  */
32 
33 #pragma ident	"%Z%%M%	%I%	%E% SMI"
34 
35 
36 /*
37  * Programmatic interface to the run_time linker.
38  */
39 #include	"_synonyms.h"
40 
41 #include	<string.h>
42 #include	<dlfcn.h>
43 #include	<synch.h>
44 #include	"debug.h"
45 #include	"_rtld.h"
46 #include	"_audit.h"
47 #include	"_elf.h"
48 #include	"msg.h"
49 
50 #include	<stdio.h>
51 
52 /*
53  * Determine who called us - given a pc determine in which object it resides.
54  *
55  * For dlopen() the link map of the caller must be passed to load_so() so that
56  * the appropriate search rules (4.x or 5.0) are used to locate any
57  * dependencies.  Also, if we've been called from a 4.x module it may be
58  * necessary to fix the specified pathname so that it conforms with the 5.0 elf
59  * rules.
60  *
61  * For dlsym() the link map of the caller is used to determine RTLD_NEXT
62  * requests, together with requests based off of a dlopen(0).
63  * For dladdr() this routines provides a generic means of scanning all loaded
64  * segments.
65  */
66 Rt_map *
67 _caller(caddr_t cpc, int flags)
68 {
69 	Lm_list *	lml;
70 	Listnode *	lnp;
71 
72 	for (LIST_TRAVERSE(&dynlm_list, lnp, lml)) {
73 		Aliste	off;
74 		Lm_cntl	*lmc;
75 
76 		for (ALIST_TRAVERSE(lml->lm_lists, off, lmc)) {
77 			Rt_map	*lmp;
78 
79 			for (lmp = lmc->lc_head; lmp;
80 			    lmp = (Rt_map *)NEXT(lmp)) {
81 				Mmap	*mmap;
82 
83 				/*
84 				 * Traverse this objects mappings testing
85 				 * whether the pc falls within its range.
86 				 */
87 				for (mmap = MMAPS(lmp); mmap->m_vaddr; mmap++) {
88 					if ((cpc >= mmap->m_vaddr) && (cpc <
89 					    (mmap->m_vaddr + mmap->m_msize)))
90 						return (lmp);
91 				}
92 			}
93 		}
94 	}
95 
96 	/*
97 	 * No mapping can be determined.  If asked for a default, assume this
98 	 * is from the executable.
99 	 */
100 	if (flags & CL_EXECDEF)
101 		return ((Rt_map *)lml_main.lm_head);
102 
103 	return (0);
104 }
105 
106 #pragma weak dlerror = _dlerror
107 
108 /*
109  * External entry for dlerror(3dl).  Returns a pointer to the string describing
110  * the last occurring error.  The last occurring error is cleared.
111  */
112 char *
113 _dlerror()
114 {
115 	char		*error;
116 	Rt_map		*clmp;
117 	int		entry;
118 
119 	entry = enter();
120 
121 	clmp = _caller(caller(), CL_EXECDEF);
122 
123 	error = lasterr;
124 	lasterr = (char *)0;
125 
126 	if (entry)
127 		leave(LIST(clmp));
128 	return (error);
129 }
130 
131 /*
132  * Add a dependency as a group descriptor to a group handle.  Returns 0 on
133  * failure, ALE_EXISTS if the dependency already exists, or ALE_CREATE if it
134  * is newly created.
135  */
136 int
137 hdl_add(Grp_hdl * ghp, Rt_map * lmp, uint_t flags)
138 {
139 	Grp_desc *	gdp;
140 	Aliste		off;
141 	int		found = ALE_CREATE;
142 
143 	/*
144 	 * Make sure this dependency hasn't already been recorded.
145 	 */
146 	for (ALIST_TRAVERSE(ghp->gh_depends, off, gdp)) {
147 		if (gdp->gd_depend == lmp) {
148 			found = ALE_EXISTS;
149 			break;
150 		}
151 	}
152 
153 	if (found == ALE_CREATE) {
154 		Grp_desc	gd;
155 
156 		/*
157 		 * Create a new handle descriptor.
158 		 */
159 		gd.gd_depend = lmp;
160 		gd.gd_flags = 0;
161 
162 		/*
163 		 * Indicate this object is a part of this handles group.
164 		 */
165 		if (alist_append(&GROUPS(lmp), &ghp,
166 		    sizeof (Grp_hdl *), AL_CNT_GROUPS) == 0)
167 			return (0);
168 
169 		/*
170 		 * Append the new dependency to this handle.
171 		 */
172 		if ((gdp = alist_append(&(ghp->gh_depends), &gd,
173 		    sizeof (Grp_desc), AL_CNT_DEPENDS)) == 0)
174 			return (0);
175 	}
176 
177 	gdp->gd_flags |= flags;
178 
179 	if (found == ALE_CREATE)
180 		DBG_CALL(Dbg_file_hdl_action(ghp, lmp, DBG_DEP_ADD));
181 
182 	return (found);
183 }
184 
185 /*
186  * Allocate a handle and record its existence on the handle list for future
187  * verification.
188  */
189 Grp_hdl *
190 hdl_alloc()
191 {
192 	Grp_hdl *	ghp;
193 	uint_t		ndx;
194 
195 	if ((ghp = calloc(sizeof (Grp_hdl), 1)) == 0)
196 		return (0);
197 
198 	/* LINTED */
199 	ndx = (uint64_t)ghp % HDLIST_SZ;
200 
201 	if (list_append(&hdl_list[ndx], ghp) == 0) {
202 		free(ghp);
203 		return (0);
204 	}
205 	return (ghp);
206 }
207 
208 /*
209  * Create a handle.
210  */
211 Grp_hdl *
212 hdl_create(Lm_list * lml, Rt_map * nlmp, Rt_map * clmp, uint_t flags)
213 {
214 	Grp_hdl *	ghp = 0, ** ghpp;
215 	uint_t		hflags;
216 	Alist **	alpp;
217 	Aliste		off;
218 
219 	/*
220 	 * For dlopen(0) the handle is maintained as part of the link-map list,
221 	 * otherwise it is associated with the referenced link-map.
222 	 */
223 	if (flags & GPH_ZERO)
224 		alpp = &(lml->lm_handle);
225 	else
226 		alpp = &(HANDLES(nlmp));
227 
228 	/*
229 	 * Objects can contain multiple handles depending on the flags supplied.
230 	 * Most RTLD flags pertain to the object itself and the bindings that it
231 	 * can achieve.  Multiple handles for these flags don't make sense.  But
232 	 * if the flag determines how the handle might be used, then multiple
233 	 * handles may exist.  Presently this only makes sense for RTLD_FIRST.
234 	 * Determine if an appropriate handle already exists.
235 	 */
236 	hflags = flags & GPH_FIRST;
237 	for (ALIST_TRAVERSE(*alpp, off, ghpp)) {
238 		if (((*ghpp)->gh_flags & GPH_FIRST) == hflags) {
239 			ghp = *ghpp;
240 			break;
241 		}
242 	}
243 
244 	if (ghp == 0) {
245 		DBG_CALL(Dbg_file_hdl_title(DBG_DEP_CREATE));
246 
247 		/*
248 		 * If this is the first dlopen() request for this handle
249 		 * allocate and initialize a new handle.
250 		 */
251 		if ((ghp = hdl_alloc()) == 0)
252 			return (0);
253 		if (alist_append(alpp, &ghp, sizeof (Grp_hdl *),
254 		    AL_CNT_GROUPS) == 0)
255 			return (0);
256 
257 		/*
258 		 * Indicate that this object has been referenced.  In truth a
259 		 * reference hasn't yet occurred, it's a dlsym() that makes the
260 		 * reference.  However, we assume that anyone performing a
261 		 * dlopen() will eventually call dlsym(), plus this makes for a
262 		 * better diagnostic location rather than having to call
263 		 * unused() after every dlsym() operation.
264 		 */
265 		if (nlmp)
266 			FLAGS1(nlmp) |= FL1_RT_USED;
267 
268 		ghp->gh_refcnt = 1;
269 		ghp->gh_flags = flags;
270 
271 		/*
272 		 * A dlopen(0) handle is identified by the GPH_ZERO flag, the
273 		 * head of the link-map list is defined as the owner.  There is
274 		 * no need to maintain a list of dependencies, for when this
275 		 * handle is used (for dlsym()) a dynamic search through the
276 		 * entire link-map list provides for searching all objects with
277 		 * GLOBAL visibility.
278 		 */
279 		if (flags & GPH_ZERO) {
280 			ghp->gh_owner = lml->lm_head;
281 		} else {
282 			uint_t	hflags = GPD_AVAIL;
283 
284 			ghp->gh_owner = nlmp;
285 
286 			/*
287 			 * As an optimization, a handle for ld.so.1 itself
288 			 * (required for libdl's filtering mechanism) shouldn't
289 			 * search any dependencies of ld.so.1.  Omitting
290 			 * GDP_ADDEPS prevents the addition of any ld.so.1
291 			 * dependencies to this handle.
292 			 */
293 			if ((flags & GPH_LDSO) == 0)
294 				hflags |= GPD_ADDEPS;
295 			if (hdl_add(ghp, nlmp, hflags) == 0)
296 				return (0);
297 		}
298 	} else {
299 		/*
300 		 * If a handle already exists bump its reference count.  If it's
301 		 * count was 0 then this handle previously existed but could not
302 		 * be removed as part of a dlclose().  Remove this handle from
303 		 * the orphan list as it's once again in use.  Note that handles
304 		 * associated with the link-map list itself (dlopen(0)) were
305 		 * never deleted or removed to the orphan list.
306 		 */
307 		if ((ghp->gh_refcnt++ == 0) &&
308 		    ((ghp->gh_flags & (GPH_ZERO | GPH_STICKY)) == 0)) {
309 			uint_t	ndx;
310 
311 			/* LINTED */
312 			ndx = (uint64_t)ghp % HDLIST_SZ;
313 
314 			list_delete(&hdl_list[HDLIST_ORP], ghp);
315 			(void) list_append(&hdl_list[ndx], ghp);
316 
317 			if (dbg_mask) {
318 				Aliste		off;
319 				Grp_desc *	gdp;
320 
321 				DBG_CALL(Dbg_file_hdl_title(DBG_DEP_REINST));
322 				for (ALIST_TRAVERSE(ghp->gh_depends, off, gdp))
323 					DBG_CALL(Dbg_file_hdl_action(ghp,
324 					    gdp->gd_depend, DBG_DEP_ADD));
325 			}
326 		}
327 
328 		/*
329 		 * Once a handle is referenced, remove any stick bit.
330 		 */
331 		ghp->gh_flags &= ~GPH_STICKY;
332 	}
333 
334 	/*
335 	 * If dlopen(..., RTLD_PARENT) add the caller to dependency list so that
336 	 * it becomes part of this group.  As we could be opened by different
337 	 * parents this test is carried out every time a handle is requested.
338 	 * Note that a parent doesn't provide symbols via dlsym() so it also
339 	 * isn't necessary to add its dependencies to the handle.
340 	 */
341 	if (flags & GPH_PARENT) {
342 		if (hdl_add(ghp, clmp, GPD_PARENT) == 0)
343 			return (0);
344 	}
345 	return (ghp);
346 }
347 
348 /*
349  * Initialize a handle that has been created for an object that is already
350  * loaded.  The handle is initialized with the present dependencies of that
351  * object.  Once this initialization has occurred, any new objects that might
352  * be loaded as dependencies (lazy-loading) are added to the handle as each new
353  * object is loaded.
354  */
355 int
356 hdl_initialize(Grp_hdl *ghp, Rt_map *nlmp, Rt_map *clmp, int mode, int promote)
357 {
358 	Aliste		off;
359 	Grp_desc	*gdp;
360 
361 	/*
362 	 * If the handle has already been initialized, and the initial object's
363 	 * mode hasn't been promoted, there's no need to recompute the modes of
364 	 * any dependencies.  If the object we've added has just been opened,
365 	 * the objects dependencies will not yet have been processed.  These
366 	 * dependencies will be added on later calls to load_one().  Otherwise,
367 	 * this object already exists, so add all of its dependencies to the
368 	 * handle were operating on.
369 	 */
370 	if (((ghp->gh_flags & GPH_INITIAL) && (promote == 0)) ||
371 	    ((FLAGS(nlmp) & FLG_RT_ANALYZED) == 0)) {
372 		ghp->gh_flags |= GPH_INITIAL;
373 		return (1);
374 	}
375 
376 	DBG_CALL(Dbg_file_hdl_title(DBG_DEP_ADD));
377 	for (ALIST_TRAVERSE(ghp->gh_depends, off, gdp)) {
378 		Rt_map *	lmp = gdp->gd_depend;
379 		Aliste		off1;
380 		Bnd_desc **	bdpp;
381 
382 		/*
383 		 * If this dependency doesn't indicate that its dependencies
384 		 * should be added to a handle, ignore it.  This case identifies
385 		 * a parent of a dlopen(RTLD_PARENT) request.
386 		 */
387 		if ((gdp->gd_flags & GPD_ADDEPS) == 0)
388 			continue;
389 
390 		for (ALIST_TRAVERSE(DEPENDS(lmp), off1, bdpp)) {
391 			Bnd_desc	*bdp = *bdpp;
392 			Rt_map		*dlmp = bdp->b_depend;
393 
394 			if ((bdp->b_flags & BND_NEEDED) == 0)
395 				continue;
396 
397 			if (hdl_add(ghp, dlmp, (GPD_AVAIL | GPD_ADDEPS)) != 0)
398 				(void) update_mode(dlmp, MODE(dlmp), mode);
399 			else {
400 				/*
401 				 * Something failed.  Remove the new handle.
402 				 */
403 				(void) dlclose_intn(ghp, clmp);
404 				return (0);
405 			}
406 		}
407 	}
408 	ghp->gh_flags |= GPH_INITIAL;
409 	return (1);
410 }
411 
412 /*
413  * Sanity check a program-provided handle.
414  */
415 static int
416 hdl_validate(Grp_hdl * ghp)
417 {
418 	Listnode *	lnp;
419 	Grp_hdl *	_ghp;
420 	uint_t		ndx;
421 
422 	/* LINTED */
423 	ndx = (uint64_t)ghp % HDLIST_SZ;
424 
425 	for (LIST_TRAVERSE(&hdl_list[ndx], lnp, _ghp))
426 		if ((_ghp == ghp) && (ghp->gh_refcnt != 0))
427 			return (1);
428 
429 	return (0);
430 }
431 
432 /*
433  * Core dlclose activity.
434  */
435 int
436 dlclose_core(Grp_hdl *ghp, Rt_map *clmp)
437 {
438 	/*
439 	 * If we're already at atexit() there's no point processing further,
440 	 * all objects have already been tsorted for fini processing.
441 	 */
442 	if ((rtld_flags & RT_FL_ATEXIT) != 0)
443 		return (0);
444 
445 	/*
446 	 * Diagnose what we're up to.
447 	 */
448 	if (ghp->gh_flags & GPH_ZERO) {
449 		DBG_CALL(Dbg_file_dlclose(MSG_ORIG(MSG_STR_ZERO),
450 		    DBG_DLCLOSE_IGNORE));
451 	} else {
452 		Rt_map		*olmp;
453 		const char	*owner;
454 
455 		/*
456 		 * Determine if we've an owner for this handle.
457 		 */
458 		if ((olmp = ghp->gh_owner) != 0)
459 			owner = NAME(olmp);
460 		else
461 			owner = MSG_INTL(MSG_STR_UNKNOWN);
462 
463 		DBG_CALL(Dbg_file_dlclose(owner, DBG_DLCLOSE_NULL));
464 	}
465 
466 	/*
467 	 * Decrement reference count of this object.
468 	 */
469 	if (--(ghp->gh_refcnt))
470 		return (0);
471 
472 	/*
473 	 * If this handle is special (dlopen(0)), then leave it around - it
474 	 * has little overhead.
475 	 */
476 	if (ghp->gh_flags & GPH_ZERO)
477 		return (0);
478 
479 	/*
480 	 * This handle is no longer being referenced, remove it.
481 	 */
482 	return (remove_hdl(ghp, clmp, 0));
483 }
484 
485 /*
486  * Internal dlclose activity.  Called from user level or directly for internal
487  * error cleanup.
488  */
489 int
490 dlclose_intn(Grp_hdl *ghp, Rt_map *clmp)
491 {
492 	Rt_map		*nlmp = 0;
493 	Lm_list		*olml = 0;
494 	Aliste		off;
495 	Grp_desc	*gdp;
496 	int		error;
497 
498 	/*
499 	 * Although we're deleting object(s) it's quite possible that additional
500 	 * objects get loaded from running the .fini section(s) of the objects
501 	 * being deleted.  These objects will have been added to the same
502 	 * link-map list as those objects being deleted.  Remember this list
503 	 * for later investigation.
504 	 */
505 	if (ghp->gh_owner)
506 		olml = LIST(ghp->gh_owner);
507 	else {
508 		for (ALIST_TRAVERSE(ghp->gh_depends, off, gdp)) {
509 			if ((olml = LIST(gdp->gd_depend)) != 0)
510 				break;
511 		}
512 	}
513 
514 	error = dlclose_core(ghp, clmp);
515 
516 	/*
517 	 * Determine whether the original link-map list still exists.  In the
518 	 * case of a dlclose of an alternative (dlmopen) link-map the whole
519 	 * list may have been removed.
520 	 */
521 	if (olml) {
522 		Listnode	*lnp;
523 		Lm_list		*lml;
524 
525 		for (LIST_TRAVERSE(&dynlm_list, lnp, lml)) {
526 			if (olml == lml) {
527 				nlmp = olml->lm_head;
528 				break;
529 			}
530 		}
531 	}
532 	load_completion(nlmp, clmp);
533 	return (error);
534 }
535 
536 /*
537  * Argument checking for dlclose.  Only called via external entry.
538  */
539 static int
540 dlclose_check(void *handle, Rt_map *clmp)
541 {
542 	Grp_hdl *	ghp = (Grp_hdl *)handle;
543 
544 	if (!hdl_validate(ghp)) {
545 		eprintf(ERR_FATAL, MSG_INTL(MSG_ARG_INVHNDL));
546 		return (1);
547 	}
548 	return (dlclose_intn(ghp, clmp));
549 }
550 
551 #pragma weak dlclose = _dlclose
552 
553 /*
554  * External entry for dlclose(3dl).  Returns 0 for success, non-zero otherwise.
555  */
556 int
557 _dlclose(void *handle)
558 {
559 	int		error, entry;
560 	uint_t		dbg_save;
561 	Word		lmflags;
562 	Rt_map		*clmp;
563 
564 	entry = enter();
565 
566 	clmp = _caller(caller(), CL_EXECDEF);
567 
568 	if ((lmflags = LIST(clmp)->lm_flags) & LML_FLG_RTLDLM) {
569 		dbg_save = dbg_mask;
570 		dbg_mask = 0;
571 	}
572 
573 	error = dlclose_check(handle, clmp);
574 
575 	if (lmflags & LML_FLG_RTLDLM)
576 		dbg_mask = dbg_save;
577 
578 	if (entry)
579 		leave(LIST(clmp));
580 	return (error);
581 }
582 
583 /*
584  * Core dlopen activity.
585  */
586 static Grp_hdl *
587 dlmopen_core(Lm_list * lml, const char *path, int mode, Rt_map * clmp,
588     uint_t flags)
589 {
590 	Rt_map	*nlmp;
591 	Grp_hdl	*ghp;
592 	Pnode	*pnp;
593 	Aliste	olmco, nlmco;
594 	Lm_cntl	*lmc;
595 
596 	DBG_CALL(Dbg_file_dlopen((path ? path : MSG_ORIG(MSG_STR_ZERO)),
597 	    NAME(clmp), mode));
598 
599 	/*
600 	 * Check for magic link-map list values:
601 	 *
602 	 *  LM_ID_BASE:		Operate on the PRIMARY (executables) link map
603 	 *  LM_ID_LDSO:		Operation on ld.so.1's link map
604 	 *  LM_ID_NEWLM: 	Create a new link-map.
605 	 */
606 	if (lml == (Lm_list *)LM_ID_NEWLM) {
607 		if ((lml = calloc(sizeof (Lm_list), 1)) == 0)
608 			return (0);
609 
610 		/*
611 		 * Establish the new link-map flags from the callers and those
612 		 * explicitly provided.
613 		 */
614 		lml->lm_tflags = LIST(clmp)->lm_tflags;
615 		if (flags & FLG_RT_AUDIT) {
616 			/*
617 			 * Unset any auditing flags - an auditor shouldn't be
618 			 * audited.  Insure all audit dependencies are loaded.
619 			 */
620 			lml->lm_tflags &= ~LML_TFLG_AUD_MASK;
621 			lml->lm_tflags |=
622 			    (LML_TFLG_NOLAZYLD | LML_TFLG_LOADFLTR);
623 			lml->lm_flags |= LML_FLG_NOAUDIT;
624 		}
625 
626 		if (list_append(&dynlm_list, lml) == 0) {
627 			free(lml);
628 			return (0);
629 		}
630 	} else if ((uintptr_t)lml < LM_ID_NUM) {
631 		if ((uintptr_t)lml == LM_ID_BASE)
632 			lml = &lml_main;
633 		else if ((uintptr_t)lml == LM_ID_LDSO)
634 			lml = &lml_rtld;
635 	}
636 
637 	/*
638 	 * If the path specified is null then we're operating on global
639 	 * objects.  Associate a dummy handle with the link-map list.
640 	 */
641 	if (path == 0) {
642 		Grp_hdl *ghp;
643 		uint_t	hflags = GPH_ZERO;
644 		int	promote = 0;
645 
646 		if (mode & RTLD_PARENT)
647 			hflags |=  GPH_PARENT;
648 		if (mode & RTLD_FIRST)
649 			hflags |=  GPH_FIRST;
650 
651 		if ((ghp = hdl_create(lml, 0, clmp, hflags)) == 0)
652 			return (0);
653 
654 		/*
655 		 * Traverse the main link-map control list, updating the mode
656 		 * of any objects as necessary.  Call the relocation engine if
657 		 * this mode promotes the existing state of any relocations.
658 		 * crle()'s first pass loads all objects necessary for building
659 		 * a configuration file, however none of them are relocated.
660 		 * crle()'s second pass relocates objects in preparation for
661 		 * dldump()'ing using dlopen(0, RTLD_NOW).
662 		 */
663 		if ((mode & (RTLD_NOW | RTLD_CONFGEN)) == RTLD_CONFGEN)
664 			return (ghp);
665 
666 		for (nlmp = lml->lm_head; nlmp; nlmp = (Rt_map *)NEXT(nlmp)) {
667 			if (((MODE(nlmp) & RTLD_GLOBAL) == 0) ||
668 			    (FLAGS(nlmp) & FLG_RT_DELETE))
669 				continue;
670 
671 			if (update_mode(nlmp, MODE(nlmp), mode))
672 				promote = 1;
673 		}
674 		if (promote)
675 			(void) relocate_lmc(lml, ALO_DATA, lml->lm_head);
676 
677 		return (ghp);
678 	}
679 
680 	/*
681 	 * Fix the pathname.  If this object expands to multiple paths (ie.
682 	 * $ISALIST or $HWCAP have been used), then make sure the user has also
683 	 * furnished the RTLD_FIRST flag.  As yet, we don't support opening
684 	 * more than one object at a time, so enforcing the RTLD_FIRST flag
685 	 * provides flexibility should we be able to support dlopening more
686 	 * than one object in the future.
687 	 */
688 	if ((pnp = LM_FIX_NAME(clmp)(path, clmp, PN_SER_DLOPEN)) == 0)
689 		return (0);
690 	if (((pnp->p_orig & (PN_TKN_ISALIST | PN_TKN_HWCAP)) || pnp->p_next) &&
691 	    ((mode & RTLD_FIRST) == 0)) {
692 		remove_pnode(pnp);
693 		eprintf(ERR_FATAL, MSG_INTL(MSG_ARG_ILLMODE_5));
694 		return (0);
695 	}
696 
697 	/*
698 	 * Create a new link-map control list for this request, and load the
699 	 * associated object.
700 	 */
701 	if ((lmc = alist_append(&(lml->lm_lists), 0, sizeof (Lm_cntl),
702 	    AL_CNT_LMLISTS)) == 0) {
703 		remove_pnode(pnp);
704 		return (0);
705 	}
706 	olmco = nlmco = (Aliste)((char *)lmc - (char *)lml->lm_lists);
707 
708 	nlmp = load_one(lml, nlmco, pnp, clmp, mode,
709 	    (flags | FLG_RT_HANDLE), &ghp);
710 
711 	/*
712 	 * Remove any expanded pathname infrastructure, and if the dependency
713 	 * couldn't be loaded, cleanup.
714 	 */
715 	remove_pnode(pnp);
716 	if (nlmp == 0) {
717 		remove_cntl(lml, olmco);
718 		remove_lml(lml);
719 		return (0);
720 	}
721 
722 	/*
723 	 * If loading an auditor was requested, and the auditor already existed,
724 	 * then the link-map returned will be to the original auditor.  The new
725 	 * link-map list that was initially created, and the associated link-map
726 	 * control list are no longer needed.  As the auditor is already loaded,
727 	 * we're probably done, but fall through in case additional relocations
728 	 * would be triggered by the mode of the caller.
729 	 */
730 	if ((flags & FLG_RT_AUDIT) && (LIST(nlmp) != lml)) {
731 		remove_cntl(lml, olmco);
732 		remove_lml(lml);
733 		lml = LIST(nlmp);
734 		olmco = 0;
735 		nlmco = ALO_DATA;
736 	}
737 
738 	/*
739 	 * Finish processing the objects associated with this request.
740 	 */
741 	if ((analyze_lmc(lml, nlmco, nlmp) == 0) ||
742 	    (relocate_lmc(lml, nlmco, nlmp) == 0)) {
743 		(void) dlclose_core(ghp, clmp);
744 		if (olmco && lm_salvage(lml, 1, olmco)) {
745 			remove_cntl(lml, olmco);
746 			remove_lml(lml);
747 		}
748 		return (0);
749 	}
750 
751 	/*
752 	 * After a successful load, any objects collected on the new link-map
753 	 * control list will have been moved to the callers link-map control
754 	 * list.  This control list can now be deleted.
755 	 */
756 	if (olmco)
757 		remove_cntl(lml, olmco);
758 
759 	return (ghp);
760 }
761 
762 /*
763  * Internal dlopen() activity.  Called from user level or directly for internal
764  * opens that require a handle.
765  */
766 Grp_hdl *
767 dlmopen_intn(Lm_list * lml, const char *path, int mode, Rt_map * clmp,
768     uint_t flags, int *loaded)
769 {
770 	Rt_map *	dlmp = 0;
771 	Grp_hdl *	ghp;
772 
773 	/*
774 	 * Determine the link-map that has just been loaded.
775 	 */
776 	if ((ghp = dlmopen_core(lml, path, mode, clmp, flags)) != 0) {
777 		/*
778 		 * Establish the new link-map from which .init processing will
779 		 * begin.  Ignore .init firing when constructing a configuration
780 		 * file (crle(1)).
781 		 */
782 		if ((mode & RTLD_CONFGEN) == 0)
783 			dlmp = ghp->gh_owner;
784 	}
785 
786 	/*
787 	 * Return the number of objects loaded if required.  This is used to
788 	 * trigger used() processing on return from a dlopen().
789 	 */
790 	if (loaded && dlmp)
791 		*loaded = LIST(dlmp)->lm_init;
792 
793 	load_completion(dlmp, clmp);
794 	return (ghp);
795 }
796 
797 /*
798  * Argument checking for dlopen.  Only called via external entry.
799  */
800 static Grp_hdl *
801 dlmopen_check(Lm_list * lml, const char *path, int mode, Rt_map * clmp,
802     int *loaded)
803 {
804 	/*
805 	 * Verify that a valid pathname has been supplied.
806 	 */
807 	if (path && (*path == '\0')) {
808 		eprintf(ERR_FATAL, MSG_INTL(MSG_ARG_ILLPATH));
809 		return (0);
810 	}
811 
812 	/*
813 	 * Historically we've always verified the mode is either RTLD_NOW or
814 	 * RTLD_LAZY.  RTLD_NOLOAD is valid by itself.  Use of LM_ID_NEWLM
815 	 * requires a specific pathname, and use of RTLD_PARENT is meaningless.
816 	 */
817 	if ((mode & (RTLD_NOW | RTLD_LAZY | RTLD_NOLOAD)) == 0) {
818 		eprintf(ERR_FATAL, MSG_INTL(MSG_ARG_ILLMODE_1));
819 		return (0);
820 	}
821 	if ((mode & (RTLD_NOW | RTLD_LAZY)) == (RTLD_NOW | RTLD_LAZY)) {
822 		eprintf(ERR_FATAL, MSG_INTL(MSG_ARG_ILLMODE_2));
823 		return (0);
824 	}
825 	if ((lml == (Lm_list *)LM_ID_NEWLM) && (path == 0)) {
826 		eprintf(ERR_FATAL, MSG_INTL(MSG_ARG_ILLMODE_3));
827 		return (0);
828 	}
829 	if ((lml == (Lm_list *)LM_ID_NEWLM) && (mode & RTLD_PARENT)) {
830 		eprintf(ERR_FATAL, MSG_INTL(MSG_ARG_ILLMODE_4));
831 		return (0);
832 	}
833 	if (((mode & (RTLD_GROUP | RTLD_WORLD)) == 0) && !(mode & RTLD_NOLOAD))
834 		mode |= (RTLD_GROUP | RTLD_WORLD);
835 
836 	return (dlmopen_intn(lml, path, mode, clmp, 0, loaded));
837 }
838 
839 #pragma weak dlopen = _dlopen
840 
841 /*
842  * External entry for dlopen(3dl).  On success, returns a pointer (handle) to
843  * the structure containing information about the newly added object, ie. can
844  * be used by dlsym(). On failure, returns a null pointer.
845  */
846 void *
847 _dlopen(const char *path, int mode)
848 {
849 	int		entry, loaded = 0;
850 	uint_t		dbg_save;
851 	Word		lmflags;
852 	Rt_map *	clmp;
853 	Grp_hdl *	ghp;
854 	Lm_list *	lml;
855 
856 	entry = enter();
857 
858 	clmp = _caller(caller(), CL_EXECDEF);
859 	lml = LIST(clmp);
860 
861 	if ((lmflags = lml->lm_flags) & LML_FLG_RTLDLM) {
862 		dbg_save = dbg_mask;
863 		dbg_mask = 0;
864 	}
865 
866 	ghp = dlmopen_check(lml, path, mode, clmp, &loaded);
867 
868 	if (entry && ghp && loaded)
869 		unused(lml);
870 
871 	if (lmflags & LML_FLG_RTLDLM)
872 		dbg_mask = dbg_save;
873 
874 	if (entry)
875 		leave(lml);
876 	return ((void *)ghp);
877 }
878 
879 /*
880  * External entry for dlmopen(3dl).
881  */
882 #pragma weak dlmopen = _dlmopen
883 
884 void *
885 _dlmopen(Lmid_t lmid, const char *path, int mode)
886 {
887 	int		entry, loaded = 0;
888 	uint_t		dbg_save;
889 	Word		lmflags;
890 	Rt_map *	clmp;
891 	Grp_hdl *	ghp;
892 
893 	entry = enter();
894 
895 	clmp = _caller(caller(), CL_EXECDEF);
896 
897 	if ((lmflags = LIST(clmp)->lm_flags) & LML_FLG_RTLDLM) {
898 		dbg_save = dbg_mask;
899 		dbg_mask = 0;
900 	}
901 
902 	ghp = dlmopen_check((Lm_list *)lmid, path, mode, clmp, &loaded);
903 
904 	if (entry && ghp && ghp->gh_owner && loaded)
905 		unused(LIST(ghp->gh_owner));
906 
907 	if (lmflags & LML_FLG_RTLDLM)
908 		dbg_mask = dbg_save;
909 
910 	if (entry)
911 		leave(LIST(clmp));
912 	return ((void *)ghp);
913 }
914 
915 /*
916  * Handle processing for dlsym.
917  */
918 Sym *
919 dlsym_handle(Grp_hdl * ghp, Slookup * slp, Rt_map ** _lmp, uint_t *binfo)
920 {
921 	Rt_map		*nlmp, * lmp = ghp->gh_owner;
922 	Rt_map		*clmp = slp->sl_cmap;
923 	const char	*name = slp->sl_name;
924 	Sym		*sym = 0;
925 	Slookup		sl = *slp;
926 
927 	sl.sl_flags = (LKUP_FIRST | LKUP_SPEC);
928 
929 	/*
930 	 * Continue processing a dlsym request.  Lookup the required symbol in
931 	 * each link-map specified by the handle.
932 	 *
933 	 * To leverage off of lazy loading, dlsym() requests can result in two
934 	 * passes.  The first descends the link-maps of any objects already in
935 	 * the address space.  If the symbol isn't located, and lazy
936 	 * dependencies still exist, then a second pass is made to load these
937 	 * dependencies if applicable.  This model means that in the case where
938 	 * a symbols exists in more than one object, the one located may not be
939 	 * constant - this is the standard issue with lazy loading. In addition,
940 	 * attempting to locate a symbol that doesn't exist will result in the
941 	 * loading of all lazy dependencies on the given handle, which can
942 	 * defeat some of the advantages of lazy loading (look out JVM).
943 	 */
944 	if (ghp->gh_flags & GPH_ZERO) {
945 		/*
946 		 * If this symbol lookup is triggered from a dlopen(0) handle,
947 		 * traverse the present link-map list looking for promiscuous
948 		 * entries.
949 		 */
950 		for (nlmp = lmp; nlmp; nlmp = (Rt_map *)NEXT(nlmp)) {
951 
952 			/*
953 			 * If this handle indicates we're only to look in the
954 			 * first object check whether we're done.
955 			 */
956 			if ((nlmp != lmp) && (ghp->gh_flags & GPH_FIRST))
957 				return ((Sym *)0);
958 
959 			if (!(MODE(nlmp) & RTLD_GLOBAL))
960 				continue;
961 			if ((FLAGS(nlmp) & FLG_RT_DELETE) &&
962 			    ((FLAGS(clmp) & FLG_RT_DELETE) == 0))
963 				continue;
964 
965 			sl.sl_imap = nlmp;
966 			if (sym = LM_LOOKUP_SYM(clmp)(&sl, _lmp, binfo))
967 				return (sym);
968 		}
969 
970 		/*
971 		 * If we're unable to locate the symbol and this link-map still
972 		 * has pending lazy dependencies, start loading them in an
973 		 * attempt to exhaust the search.  Note that as we're already
974 		 * traversing a dynamic linked list of link-maps there's no
975 		 * need for elf_lazy_find_sym() to descend the link-maps itself.
976 		 */
977 		if (LIST(lmp)->lm_lazy) {
978 			DBG_CALL(Dbg_syms_lazy_rescan(name));
979 
980 			sl.sl_flags |= LKUP_NODESCENT;
981 
982 			for (nlmp = lmp; nlmp; nlmp = (Rt_map *)NEXT(nlmp)) {
983 
984 				if (!(MODE(nlmp) & RTLD_GLOBAL) || !LAZY(nlmp))
985 					continue;
986 				if ((FLAGS(nlmp) & FLG_RT_DELETE) &&
987 				    ((FLAGS(clmp) & FLG_RT_DELETE) == 0))
988 					continue;
989 
990 				sl.sl_imap = nlmp;
991 				if (sym = elf_lazy_find_sym(&sl, _lmp, binfo))
992 					return (sym);
993 			}
994 		}
995 	} else {
996 		/*
997 		 * Traverse the dlopen() handle for the presently loaded
998 		 * link-maps.
999 		 */
1000 		Grp_desc *	gdp;
1001 		Aliste		off;
1002 
1003 		for (ALIST_TRAVERSE(ghp->gh_depends, off, gdp)) {
1004 			if ((gdp->gd_flags & GPD_AVAIL) == 0)
1005 				continue;
1006 
1007 			sl.sl_imap = gdp->gd_depend;
1008 			if (sym = LM_LOOKUP_SYM(clmp)(&sl, _lmp, binfo))
1009 				return (sym);
1010 
1011 			if (ghp->gh_flags & GPH_FIRST)
1012 				return ((Sym *)0);
1013 		}
1014 
1015 		/*
1016 		 * If we're unable to locate the symbol and this link-map still
1017 		 * has pending lazy dependencies, start loading them in an
1018 		 * attempt to exhaust the search.
1019 		 */
1020 		if (LIST(lmp)->lm_lazy) {
1021 			DBG_CALL(Dbg_syms_lazy_rescan(name));
1022 
1023 			for (ALIST_TRAVERSE(ghp->gh_depends, off, gdp)) {
1024 				nlmp = gdp->gd_depend;
1025 
1026 				if (((gdp->gd_flags & GPD_AVAIL) == 0) ||
1027 				    (LAZY(nlmp) == 0))
1028 					continue;
1029 				sl.sl_imap = nlmp;
1030 				if (sym = elf_lazy_find_sym(&sl, _lmp, binfo))
1031 					return (sym);
1032 			}
1033 		}
1034 	}
1035 	return ((Sym *)0);
1036 }
1037 
1038 /*
1039  * Core dlsym activity.  Selects symbol lookup method from handle.
1040  */
1041 void *
1042 dlsym_core(void *handle, const char *name, Rt_map *clmp, Rt_map **dlmp)
1043 {
1044 	Sym		*sym;
1045 	Slookup		sl;
1046 	uint_t		binfo;
1047 
1048 	sl.sl_name = name;
1049 	sl.sl_cmap = clmp;
1050 	sl.sl_hash = 0;
1051 	sl.sl_rsymndx = 0;
1052 
1053 	if (handle == RTLD_NEXT) {
1054 		Rt_map	*nlmp;
1055 
1056 		/*
1057 		 * If the handle is RTLD_NEXT start searching in the next link
1058 		 * map from the callers.  Determine permissions from the
1059 		 * present link map.  Indicate to lookup_sym() that we're on an
1060 		 * RTLD_NEXT request so that it will use the callers link map to
1061 		 * start any possible lazy dependency loading.
1062 		 */
1063 		sl.sl_imap = nlmp = (Rt_map *)NEXT(clmp);
1064 
1065 		DBG_CALL(Dbg_syms_dlsym(name, NAME(clmp), (nlmp ? NAME(nlmp) :
1066 		    MSG_INTL(MSG_STR_NULL)), DBG_DLSYM_NEXT));
1067 
1068 		if (nlmp == 0)
1069 			return (0);
1070 
1071 		sl.sl_flags = LKUP_NEXT;
1072 		sym = LM_LOOKUP_SYM(clmp)(&sl, dlmp, &binfo);
1073 
1074 	} else if (handle == RTLD_SELF) {
1075 		/*
1076 		 * If the handle is RTLD_SELF start searching from the caller.
1077 		 */
1078 		DBG_CALL(Dbg_syms_dlsym(name, NAME(clmp), NAME(clmp),
1079 		    DBG_DLSYM_SELF));
1080 
1081 		sl.sl_imap = clmp;
1082 		sl.sl_flags = LKUP_SPEC;
1083 		sym = LM_LOOKUP_SYM(clmp)(&sl, dlmp, &binfo);
1084 
1085 	} else if ((handle == RTLD_DEFAULT) || (handle == RTLD_PROBE)) {
1086 		Rt_map	*hlmp = LIST(clmp)->lm_head;
1087 
1088 		/*
1089 		 * If the handle is RTLD_DEFAULT or RTLD_PROBE, mimic the
1090 		 * symbol lookup that would be triggered by a relocation.
1091 		 * Determine if a specific object is registered to offer this
1092 		 * symbol from any Syminfo information.  If a registered object
1093 		 * is defined, it will be loaded, and directly bound to if
1094 		 * necessary via LM_LOOKUP_SYM().  Otherwise a serial symbol
1095 		 * search is carried out where permissions are determined from
1096 		 * the callers link map.
1097 		 * RTLD_PROBE is more optimal than RTLD_DEFAULT, as no fall back
1098 		 * loading of pending lazy dependencies occurs.
1099 		 */
1100 		DBG_CALL(Dbg_syms_dlsym(name, NAME(clmp), 0,
1101 		    ((handle == RTLD_DEFAULT) ? DBG_DLSYM_DEFAULT :
1102 		    DBG_DLSYM_PROBE)));
1103 
1104 		if (SYMINFO(clmp) == 0)
1105 			sym = 0;
1106 		else {
1107 			sl.sl_imap = clmp;
1108 			sl.sl_flags = (LKUP_FIRST | LKUP_SELF);
1109 
1110 			/*
1111 			 * If the symbol is defined within the caller as an
1112 			 * UNDEF (DBG_BINFO_FOUND isn't set), then determine
1113 			 * the associated syminfo index and continue the search.
1114 			 */
1115 			if (((sym =
1116 			    LM_LOOKUP_SYM(clmp)(&sl, dlmp, &binfo)) != 0) &&
1117 			    (FCT(clmp) == &elf_fct) &&
1118 			    ((binfo & DBG_BINFO_FOUND) == 0)) {
1119 				sl.sl_rsymndx =
1120 				    (((ulong_t)sym - (ulong_t)SYMTAB(clmp)) /
1121 				    SYMENT(clmp));
1122 				sym = 0;
1123 			}
1124 		}
1125 
1126 		if (sym == 0) {
1127 			sl.sl_imap = hlmp;
1128 			sl.sl_flags = LKUP_SPEC;
1129 			if (handle == RTLD_PROBE)
1130 				sl.sl_flags |= LKUP_NOFALBACK;
1131 			sym = LM_LOOKUP_SYM(clmp)(&sl, dlmp, &binfo);
1132 		}
1133 	} else {
1134 		Grp_hdl *ghp = (Grp_hdl *)handle;
1135 
1136 		/*
1137 		 * Look in the shared object specified by the handle and in all
1138 		 * of its dependencies.
1139 		 */
1140 		DBG_CALL(Dbg_syms_dlsym(name, NAME(clmp), NAME(ghp->gh_owner),
1141 		    DBG_DLSYM_DEF));
1142 		sym = LM_DLSYM(clmp)(ghp, &sl, dlmp, &binfo);
1143 	}
1144 
1145 	if (sym) {
1146 		Addr	addr = sym->st_value;
1147 
1148 		if (!(FLAGS(*dlmp) & FLG_RT_FIXED))
1149 			addr += ADDR(*dlmp);
1150 
1151 		DBG_CALL(Dbg_bind_global(NAME(clmp), 0, 0, (Xword)-1,
1152 		    PLT_T_NONE, NAME(*dlmp), (caddr_t)addr,
1153 		    (caddr_t)sym->st_value, name, binfo));
1154 
1155 		if ((LIST(clmp)->lm_tflags | FLAGS1(clmp)) &
1156 		    LML_TFLG_AUD_SYMBIND) {
1157 			uint_t	sb_flags = LA_SYMB_DLSYM;
1158 			/* LINTED */
1159 			uint_t	symndx = (uint_t)(((Xword)sym -
1160 			    (Xword)SYMTAB(*dlmp)) / SYMENT(*dlmp));
1161 			addr = audit_symbind(clmp, *dlmp, sym, symndx, addr,
1162 			    &sb_flags);
1163 		}
1164 		return ((void *)addr);
1165 	} else
1166 		return (0);
1167 }
1168 
1169 /*
1170  * Internal dlsym activity.  Called from user level or directly for internal
1171  * symbol lookup.
1172  */
1173 void *
1174 dlsym_intn(void *handle, const char *name, Rt_map *clmp, Rt_map **dlmp)
1175 {
1176 	Rt_map *	llmp = 0;
1177 	void *		error;
1178 	Aliste		off;
1179 	Grp_desc *	gdp;
1180 
1181 	/*
1182 	 * While looking for symbols it's quite possible that additional objects
1183 	 * get loaded from lazy loading.  These objects will have been added to
1184 	 * the same link-map list as those objects on the handle.  Remember this
1185 	 * list for later investigation.
1186 	 */
1187 	if ((handle == RTLD_NEXT) || (handle == RTLD_DEFAULT) ||
1188 	    (handle == RTLD_SELF) || (handle == RTLD_PROBE))
1189 		llmp = LIST(clmp)->lm_tail;
1190 	else {
1191 		Grp_hdl *	ghp = (Grp_hdl *)handle;
1192 
1193 		if (ghp->gh_owner)
1194 			llmp = LIST(ghp->gh_owner)->lm_tail;
1195 		else {
1196 			for (ALIST_TRAVERSE(ghp->gh_depends, off, gdp)) {
1197 				if ((llmp = LIST(gdp->gd_depend)->lm_tail) != 0)
1198 					break;
1199 			}
1200 		}
1201 	}
1202 
1203 	if ((error = dlsym_core(handle, name, clmp, dlmp)) == 0) {
1204 		/*
1205 		 * Cache the error message, as Java tends to fall through this
1206 		 * code many times.
1207 		 */
1208 		if (nosym_str == 0)
1209 			nosym_str = MSG_INTL(MSG_GEN_NOSYM);
1210 		eprintf(ERR_FATAL, nosym_str, name);
1211 	}
1212 
1213 	load_completion(llmp, clmp);
1214 
1215 	return (error);
1216 }
1217 
1218 /*
1219  * Argument checking for dlsym.  Only called via external entry.
1220  */
1221 static void *
1222 dlsym_check(void *handle, const char *name, Rt_map *clmp, Rt_map **dlmp)
1223 {
1224 	/*
1225 	 * Verify the arguments.
1226 	 */
1227 	if (name == 0) {
1228 		eprintf(ERR_FATAL, MSG_INTL(MSG_ARG_ILLSYM));
1229 		return (0);
1230 	}
1231 	if ((handle != RTLD_NEXT) && (handle != RTLD_DEFAULT) &&
1232 	    (handle != RTLD_SELF) && (handle != RTLD_PROBE) &&
1233 	    (hdl_validate((Grp_hdl *)handle) == 0)) {
1234 		eprintf(ERR_FATAL, MSG_INTL(MSG_ARG_INVHNDL));
1235 		return (0);
1236 	}
1237 	return (dlsym_intn(handle, name, clmp, dlmp));
1238 }
1239 
1240 
1241 #pragma weak dlsym = _dlsym
1242 
1243 /*
1244  * External entry for dlsym().  On success, returns the address of the specified
1245  * symbol.  On error returns a null.
1246  */
1247 void *
1248 _dlsym(void *handle, const char *name)
1249 {
1250 	int		entry;
1251 	uint_t		dbg_save;
1252 	Word		lmflags;
1253 	Rt_map		*clmp, *dlmp = 0;
1254 	void		*addr;
1255 
1256 	entry = enter();
1257 
1258 	clmp = _caller(caller(), CL_EXECDEF);
1259 
1260 	if ((lmflags = LIST(clmp)->lm_flags) & LML_FLG_RTLDLM) {
1261 		dbg_save = dbg_mask;
1262 		dbg_mask = 0;
1263 	}
1264 
1265 	addr = dlsym_check(handle, name, clmp, &dlmp);
1266 
1267 	if (dlmp)
1268 		is_dep_ready(dlmp, clmp, DBG_WAIT_SYMBOL);
1269 
1270 	if (entry && dlmp)
1271 		is_dep_init(dlmp, clmp);
1272 
1273 	if (lmflags & LML_FLG_RTLDLM)
1274 		dbg_mask = dbg_save;
1275 
1276 	if (entry)
1277 		leave(LIST(clmp));
1278 	return (addr);
1279 }
1280 
1281 /*
1282  * Core dladdr activity.
1283  */
1284 static void
1285 dladdr_core(Rt_map *clmp, void *addr, Dl_info *dlip, void **info, int flags)
1286 {
1287 	/*
1288 	 * Set up generic information and any defaults.
1289 	 */
1290 	dlip->dli_fname = PATHNAME(clmp);
1291 
1292 	dlip->dli_fbase = (void *)ADDR(clmp);
1293 	dlip->dli_sname = 0;
1294 	dlip->dli_saddr = 0;
1295 
1296 	/*
1297 	 * Determine the nearest symbol to this address.
1298 	 */
1299 	LM_DLADDR(clmp)((ulong_t)addr, clmp, dlip, info, flags);
1300 }
1301 
1302 #pragma weak dladdr = _dladdr
1303 
1304 /*
1305  * External entry for dladdr(3dl) and dladdr1(3dl).  Returns an information
1306  * structure that reflects the symbol closest to the address specified.
1307  */
1308 int
1309 _dladdr(void *addr, Dl_info *dlip)
1310 {
1311 	int		entry, error;
1312 	uint_t		dbg_save;
1313 	Word		lmflags;
1314 	Rt_map		*clmp;
1315 
1316 	entry = enter();
1317 
1318 	/*
1319 	 * Use our calling technique to determine what object is associated
1320 	 * with the supplied address.  If a caller can't be determined,
1321 	 * indicate the failure.
1322 	 */
1323 	if ((clmp = _caller((caddr_t)addr, CL_NONE)) == 0) {
1324 		eprintf(ERR_FATAL, MSG_INTL(MSG_ARG_INVADDR), EC_ADDR(addr));
1325 		error = 0;
1326 	} else {
1327 		if ((lmflags = LIST(clmp)->lm_flags) & LML_FLG_RTLDLM) {
1328 			dbg_save = dbg_mask;
1329 			dbg_mask = 0;
1330 		}
1331 
1332 		dladdr_core(clmp, addr, dlip, 0, 0);
1333 
1334 		if (lmflags & LML_FLG_RTLDLM)
1335 			dbg_mask = dbg_save;
1336 		error = 1;
1337 	}
1338 
1339 	if (entry)
1340 		leave(0);
1341 	return (error);
1342 }
1343 
1344 #pragma weak dladdr1 = _dladdr1
1345 
1346 int
1347 _dladdr1(void *addr, Dl_info *dlip, void **info, int flags)
1348 {
1349 	int		entry, error = 0;
1350 	uint_t		dbg_save;
1351 	Word		lmflags;
1352 	Rt_map		*clmp;
1353 
1354 	/*
1355 	 * Validate any flags.
1356 	 */
1357 	if (flags) {
1358 		int	request;
1359 
1360 		if (((request = (flags & RTLD_DL_MASK)) != RTLD_DL_SYMENT) &&
1361 		    (request != RTLD_DL_LINKMAP)) {
1362 			eprintf(ERR_FATAL, MSG_INTL(MSG_ARG_ILLFLAGS), flags);
1363 			return (0);
1364 		}
1365 		if (info == 0) {
1366 			eprintf(ERR_FATAL, MSG_INTL(MSG_ARG_ILLINFO), flags);
1367 			return (0);
1368 		}
1369 	}
1370 
1371 	entry = enter();
1372 
1373 	/*
1374 	 * Use our calling technique to determine what object is associated
1375 	 * with the supplied address.  If a caller can't be determined,
1376 	 * indicate the failure.
1377 	 */
1378 	if ((clmp = _caller((caddr_t)addr, CL_NONE)) == 0) {
1379 		eprintf(ERR_FATAL, MSG_INTL(MSG_ARG_INVADDR), EC_ADDR(addr));
1380 		error = 0;
1381 	} else {
1382 		if ((lmflags = LIST(clmp)->lm_flags) & LML_FLG_RTLDLM) {
1383 			dbg_save = dbg_mask;
1384 			dbg_mask = 0;
1385 		}
1386 
1387 		dladdr_core(clmp, addr, dlip, info, flags);
1388 
1389 		if (lmflags & LML_FLG_RTLDLM)
1390 			dbg_mask = dbg_save;
1391 		error = 1;
1392 	}
1393 	if (entry)
1394 		leave(0);
1395 	return (error);
1396 }
1397 
1398 /*
1399  * Core dldump activity.
1400  */
1401 static int
1402 dldump_core(const char *ipath, const char *opath, int flags)
1403 {
1404 	Addr		addr = 0;
1405 	Rt_map		*lmp;
1406 
1407 	/*
1408 	 * Verify any arguments first.
1409 	 */
1410 	if ((!opath || (*opath == '\0')) || (ipath && (*ipath == '\0'))) {
1411 		eprintf(ERR_FATAL, MSG_INTL(MSG_ARG_ILLPATH));
1412 		return (1);
1413 	}
1414 
1415 	/*
1416 	 * If an input file is specified make sure its one of our dependencies.
1417 	 */
1418 	if (ipath) {
1419 		if ((lmp = is_so_loaded(&lml_main, ipath, 0)) == 0)
1420 			lmp = is_so_loaded(&lml_main, ipath, 1);
1421 
1422 		if (lmp == 0) {
1423 			eprintf(ERR_FATAL, MSG_INTL(MSG_GEN_NOFILE), ipath);
1424 			return (1);
1425 		}
1426 		if (FLAGS(lmp) & FLG_RT_ALTER) {
1427 			eprintf(ERR_FATAL, MSG_INTL(MSG_GEN_ALTER), ipath);
1428 			return (1);
1429 		}
1430 		if (FLAGS(lmp) & FLG_RT_NODUMP) {
1431 			eprintf(ERR_FATAL, MSG_INTL(MSG_GEN_NODUMP), ipath);
1432 			return (1);
1433 		}
1434 	} else
1435 		lmp = lml_main.lm_head;
1436 
1437 
1438 	DBG_CALL(Dbg_file_dldump(NAME(lmp), opath, flags));
1439 
1440 	/*
1441 	 * If the object being dump'ed isn't fixed identify its mapping.
1442 	 */
1443 	if (!(FLAGS(lmp) & FLG_RT_FIXED))
1444 		addr = ADDR(lmp);
1445 
1446 	/*
1447 	 * As rt_dldump() will effectively lazy load the necessary support
1448 	 * libraries, make sure ld.so.1 is initialized for plt relocations.
1449 	 */
1450 	if (elf_rtld_load() == 0)
1451 		return (0);
1452 
1453 	/*
1454 	 * Dump the required image.
1455 	 */
1456 	return (rt_dldump(lmp, opath, flags, addr));
1457 }
1458 
1459 #pragma weak dldump = _dldump
1460 
1461 /*
1462  * External entry for dldump(3dl).  Returns 0 on success, non-zero otherwise.
1463  */
1464 int
1465 _dldump(const char *ipath, const char *opath, int flags)
1466 {
1467 	int		error, entry;
1468 	uint_t		dbg_save;
1469 	Word		lmflags;
1470 	Rt_map		*clmp;
1471 
1472 	entry = enter();
1473 
1474 	clmp = _caller(caller(), CL_EXECDEF);
1475 
1476 	if ((lmflags = LIST(clmp)->lm_flags) & LML_FLG_RTLDLM) {
1477 		dbg_save = dbg_mask;
1478 		dbg_mask = 0;
1479 	}
1480 
1481 	error = dldump_core(ipath, opath, flags);
1482 
1483 	if (lmflags & LML_FLG_RTLDLM)
1484 		dbg_mask = dbg_save;
1485 
1486 	if (entry)
1487 		leave(LIST(clmp));
1488 	return (error);
1489 }
1490 
1491 /*
1492  * get_linkmap_id() translates Lm_list * pointers to the Link_map id as used by
1493  * the rtld_db and dlmopen() interfaces.  It checks to see if the Link_map is
1494  * one of the primary ones and if so returns it's special token:
1495  *		LM_ID_BASE
1496  *		LM_ID_LDSO
1497  *
1498  * If it's not one of the primary link_map id's it will instead returns a
1499  * pointer to the Lm_list structure which uniquely identifies the Link_map.
1500  */
1501 Lmid_t
1502 get_linkmap_id(Lm_list *lml)
1503 {
1504 	if (lml->lm_flags & LML_FLG_BASELM)
1505 		return (LM_ID_BASE);
1506 	if (lml->lm_flags & LML_FLG_RTLDLM)
1507 		return (LM_ID_LDSO);
1508 
1509 	return ((Lmid_t)lml);
1510 }
1511 
1512 /*
1513  * Extract information for a dlopen() handle.
1514  */
1515 static int
1516 dlinfo_core(void *handle, int request, void *p, Rt_map *clmp)
1517 {
1518 	Rt_map	*lmp;
1519 
1520 	if ((request > RTLD_DI_MAX) || (p == 0)) {
1521 		eprintf(ERR_FATAL, MSG_INTL(MSG_ARG_ILLVAL));
1522 		return (-1);
1523 	}
1524 
1525 	/*
1526 	 * Return configuration cache name and address.
1527 	 */
1528 	if (request == RTLD_DI_CONFIGADDR) {
1529 		Dl_info	*dlip = (Dl_info *)p;
1530 
1531 		if ((config->c_name == 0) || (config->c_bgn == 0) ||
1532 		    (config->c_end == 0)) {
1533 			eprintf(ERR_FATAL, MSG_INTL(MSG_ARG_NOCONFIG));
1534 			return (-1);
1535 		}
1536 		dlip->dli_fname = config->c_name;
1537 		dlip->dli_fbase = (void *)config->c_bgn;
1538 		return (0);
1539 	}
1540 
1541 	/*
1542 	 * Return profiled object name (used by ldprof audit library).
1543 	 */
1544 	if (request == RTLD_DI_PROFILENAME) {
1545 		if (profile_name == 0) {
1546 			eprintf(ERR_FATAL, MSG_INTL(MSG_ARG_NOPROFNAME));
1547 			return (-1);
1548 		}
1549 
1550 		*(const char **)p = profile_name;
1551 		return (0);
1552 	}
1553 	if (request == RTLD_DI_PROFILEOUT) {
1554 		/*
1555 		 * If a profile destination directory hasn't been specified
1556 		 * provide a default.
1557 		 */
1558 		if (profile_out == 0)
1559 			profile_out = MSG_ORIG(MSG_PTH_VARTMP);
1560 
1561 		*(const char **)p = profile_out;
1562 		return (0);
1563 	}
1564 
1565 	/*
1566 	 * Obtain or establish a termination signal.
1567 	 */
1568 	if (request == RTLD_DI_GETSIGNAL) {
1569 		*(int *)p = killsig;
1570 		return (0);
1571 	}
1572 
1573 	if (request == RTLD_DI_SETSIGNAL) {
1574 		sigset_t	set;
1575 		int		sig = *(int *)p;
1576 
1577 		/*
1578 		 * Determine whether the signal is in range.
1579 		 */
1580 		(void) sigfillset(&set);
1581 		if (sigismember(&set, sig) != 1) {
1582 			eprintf(ERR_FATAL, MSG_INTL(MSG_ARG_INVSIG), sig);
1583 			return (-1);
1584 		}
1585 
1586 		killsig = sig;
1587 		return (0);
1588 	}
1589 
1590 	/*
1591 	 * For any other request a link-map is required.  Verify the handle.
1592 	 */
1593 	if (handle == RTLD_SELF)
1594 		lmp = clmp;
1595 	else {
1596 		Grp_hdl *	ghp = (Grp_hdl *)handle;
1597 
1598 		if (!hdl_validate(ghp)) {
1599 			eprintf(ERR_FATAL, MSG_INTL(MSG_ARG_INVHNDL));
1600 			return (-1);
1601 		}
1602 		lmp = ghp->gh_owner;
1603 	}
1604 
1605 	/*
1606 	 * Obtain the process arguments, environment and auxv.  Note, as the
1607 	 * environment can be modified by the user (putenv(3c)), reinitialize
1608 	 * the environment pointer on each request.
1609 	 */
1610 	if (request == RTLD_DI_ARGSINFO) {
1611 		Dl_argsinfo	*aip = (Dl_argsinfo *)p;
1612 		Lm_list		*lml = LIST(lmp);
1613 
1614 		*aip = argsinfo;
1615 		if (lml->lm_flags & LML_FLG_ENVIRON)
1616 			aip->dla_envp = *(lml->lm_environ);
1617 
1618 		return (0);
1619 	}
1620 
1621 	/*
1622 	 * Return Lmid_t of the Link-Map list that the specified object is
1623 	 * loaded on.
1624 	 */
1625 	if (request == RTLD_DI_LMID) {
1626 		*(Lmid_t *)p = get_linkmap_id(LIST(lmp));
1627 		return (0);
1628 	}
1629 
1630 	/*
1631 	 * Return a pointer to the Link-Map structure associated with the
1632 	 * specified object.
1633 	 */
1634 	if (request == RTLD_DI_LINKMAP) {
1635 		*(Link_map **)p = (Link_map *)lmp;
1636 		return (0);
1637 	}
1638 
1639 	/*
1640 	 * Return search path information, or the size of the buffer required
1641 	 * to store the information.
1642 	 */
1643 	if ((request == RTLD_DI_SERINFO) || (request == RTLD_DI_SERINFOSIZE)) {
1644 		Pnode		*dir, *dirlist = (Pnode *)0;
1645 		Dl_serinfo	*info;
1646 		Dl_serpath	*path;
1647 		char		*strs;
1648 		size_t		size = sizeof (Dl_serinfo);
1649 		uint_t		cnt = 0;
1650 
1651 		info = (Dl_serinfo *)p;
1652 		path = &info->dls_serpath[0];
1653 		strs = (char *)&info->dls_serpath[info->dls_cnt];
1654 
1655 		/*
1656 		 * Traverse search path entries for this object.
1657 		 */
1658 		while ((dir = get_next_dir(&dirlist, lmp, 0)) != 0) {
1659 			size_t	_size;
1660 
1661 			if (dir->p_name == 0)
1662 				continue;
1663 
1664 			/*
1665 			 * If configuration information exists, it's possible
1666 			 * this path has been identified as non-existent, if so
1667 			 * ignore it.
1668 			 */
1669 			if (dir->p_info) {
1670 				Rtc_obj	*dobj = (Rtc_obj *)dir->p_info;
1671 				if (dobj->co_flags & RTC_OBJ_NOEXIST)
1672 					continue;
1673 			}
1674 
1675 			/*
1676 			 * Keep track of search path count and total info size.
1677 			 */
1678 			if (cnt++)
1679 				size += sizeof (Dl_serpath);
1680 			_size = strlen(dir->p_name) + 1;
1681 			size += _size;
1682 
1683 			if (request == RTLD_DI_SERINFOSIZE)
1684 				continue;
1685 
1686 			/*
1687 			 * If we're filling in search path information, confirm
1688 			 * there's sufficient space.
1689 			 */
1690 			if (size > info->dls_size) {
1691 				eprintf(ERR_FATAL, MSG_INTL(MSG_ARG_SERSIZE),
1692 				    EC_OFF(info->dls_size));
1693 				return (-1);
1694 			}
1695 			if (cnt > info->dls_cnt) {
1696 				eprintf(ERR_FATAL, MSG_INTL(MSG_ARG_SERCNT),
1697 				    info->dls_cnt);
1698 				return (-1);
1699 			}
1700 
1701 			/*
1702 			 * Append the path to the information buffer.
1703 			 */
1704 			(void) strcpy(strs, dir->p_name);
1705 			path->dls_name = strs;
1706 			path->dls_flags = dir->p_orig;
1707 
1708 			strs = strs + _size;
1709 			path++;
1710 		}
1711 
1712 		/*
1713 		 * If we're here to size the search buffer fill it in.
1714 		 */
1715 		if (request == RTLD_DI_SERINFOSIZE) {
1716 			info->dls_size = size;
1717 			info->dls_cnt = cnt;
1718 		}
1719 	}
1720 
1721 	/*
1722 	 * Return the origin of the object associated with this link-map.
1723 	 * Basically return the dirname(1) of the objects fullpath.
1724 	 */
1725 	if (request == RTLD_DI_ORIGIN) {
1726 		char	*str = (char *)p;
1727 
1728 		if (DIRSZ(lmp) == 0)
1729 			(void) fullpath(lmp, 0);
1730 
1731 		(void) strncpy(str, ORIGNAME(lmp), DIRSZ(lmp));
1732 		str += DIRSZ(lmp);
1733 		*str = '\0';
1734 
1735 		return (0);
1736 	}
1737 
1738 	return (0);
1739 }
1740 
1741 #pragma weak dlinfo = _dlinfo
1742 
1743 /*
1744  * External entry for dlinfo(3dl).
1745  */
1746 int
1747 _dlinfo(void *handle, int request, void *p)
1748 {
1749 	int	error, entry;
1750 	uint_t	dbg_save;
1751 	Word	lmflags;
1752 	Rt_map	*clmp;
1753 
1754 	entry = enter();
1755 
1756 	clmp = _caller(caller(), CL_EXECDEF);
1757 
1758 	if ((lmflags = LIST(clmp)->lm_flags) & LML_FLG_RTLDLM) {
1759 		dbg_save = dbg_mask;
1760 		dbg_mask = 0;
1761 	}
1762 
1763 	error = dlinfo_core(handle, request, p, clmp);
1764 
1765 	if (lmflags & LML_FLG_RTLDLM)
1766 		dbg_mask = dbg_save;
1767 
1768 	if (entry)
1769 		leave(LIST(clmp));
1770 	return (error);
1771 }
1772