xref: /titanic_52/usr/src/cmd/sgs/rtld/common/remove.c (revision b9abf02b6b0b25b52da10e6715c0b6544d361d51)
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  * Copyright 2006 Sun Microsystems, Inc.  All rights reserved.
23  * Use is subject to license terms.
24  *
25  * Remove objects.  Objects need removal from a process as part of:
26  *
27  *  o	a dlclose() request
28  *
29  *  o	tearing down a dlopen(), lazy-load, or filter hierarchy that failed to
30  *	completely load
31  *
32  * Any other failure condition will result in process exit (in which case all
33  * we have to do is execute the fini's - tear down is unnecessary).
34  *
35  * Any removal of objects is therefore associated with a dlopen() handle.  There
36  * is a small window between creation of the first dlopen() object and creating
37  * its handle (in which case remove_so() can get rid of the new link-map if
38  * necessary), but other than this all object removal is driven by inspecting
39  * the components of a handle.
40  *
41  * Things to note.  The creation of a link-map, and its addition to the link-map
42  * list occurs in {elf|aout}_new_lm(), if this returns success the link-map is
43  * valid and added, otherwise any steps (allocations) in the process of creating
44  * the link-map would have been undone.  If a failure occurs between creating
45  * the link-map and adding it to a handle, remove_so() is called to remove the
46  * link-map.  If a failures occurs after a handle have been created,
47  * remove_hdl() is called to remove the handle and the link-map.
48  */
49 #pragma ident	"%Z%%M%	%I%	%E% SMI"
50 
51 #include	"_synonyms.h"
52 
53 #include	<string.h>
54 #include	<stdio.h>
55 #include	<unistd.h>
56 #include	<dlfcn.h>
57 #include	<sys/debug.h>
58 #include	<sys/avl.h>
59 #include	<libc_int.h>
60 #include	<debug.h>
61 #include	"_rtld.h"
62 #include	"_audit.h"
63 #include	"_elf.h"
64 #include	"msg.h"
65 
66 /*
67  * Atexit callback provided by libc.  As part of dlclose() determine the address
68  * ranges of all objects that are to be deleted.  Pass this information to
69  * libc's pre-atexit routine.  Libc will purge any registered atexit() calls
70  * related to those objects about to be deleted.
71  */
72 static int
73 purge_exit_handlers(Lm_list *lml, Rt_map **tobj)
74 {
75 	uint_t			num;
76 	Rt_map			**_tobj;
77 	Lc_addr_range_t		*addr, *_addr;
78 	int			error;
79 	int			(*fptr)(Lc_addr_range_t *, uint_t);
80 
81 	/*
82 	 * Has a callback been established?
83 	 */
84 	if ((fptr = lml->lm_lcs[CI_ATEXIT].lc_un.lc_func) == NULL)
85 		return (0);
86 
87 	/*
88 	 * Determine the total number of mapped segments that will be unloaded.
89 	 */
90 	for (num = 0, _tobj = tobj; *_tobj != NULL; _tobj++) {
91 		Rt_map *	lmp = *_tobj;
92 
93 		num += MMAPCNT(lmp);
94 	}
95 
96 	/*
97 	 * Account for a null entry at the end of the address range array.
98 	 */
99 	if (num++ == 0)
100 		return (0);
101 
102 	/*
103 	 * Allocate an array for the address range.
104 	 */
105 	if ((addr = malloc(num * sizeof (Lc_addr_range_t))) == 0)
106 		return (1);
107 
108 	/*
109 	 * Fill the address range with each loadable segments size and address.
110 	 */
111 	for (_tobj = tobj, _addr = addr; *_tobj != NULL; _tobj++) {
112 		Rt_map	*lmp = *_tobj;
113 		Mmap	*mmaps;
114 
115 		for (mmaps = MMAPS(lmp); mmaps->m_vaddr; mmaps++) {
116 			_addr->lb = (void *)mmaps->m_vaddr;
117 			_addr->ub = (void *)(mmaps->m_vaddr + mmaps->m_msize);
118 			_addr++;
119 		}
120 	}
121 	_addr->lb = _addr->ub = 0;
122 
123 	leave(LIST(*tobj));
124 	error = (*fptr)(addr, (num - 1));
125 	(void) enter();
126 
127 	/*
128 	 * If we fail to converse with libc, generate an error message to
129 	 * satisfy any dlerror() usage.
130 	 */
131 	if (error)
132 		eprintf(lml, ERR_FATAL, MSG_INTL(MSG_ARG_ATEXIT), error);
133 
134 	free(addr);
135 	return (error);
136 }
137 
138 /*
139  * Remove any rejection message allocations.
140  */
141 void
142 remove_rej(Rej_desc * rej)
143 {
144 	if (rej && (rej->rej_type)) {
145 		if (rej->rej_name)
146 			free((void *)rej->rej_name);
147 		if (rej->rej_str && (rej->rej_str != MSG_ORIG(MSG_EMG_ENOMEM)))
148 			free((void *)rej->rej_str);
149 	}
150 }
151 
152 /*
153  * Break down a Pnode list.
154  */
155 void
156 remove_pnode(Pnode * pnp)
157 {
158 	Pnode *	opnp;
159 
160 	for (opnp = 0; pnp; opnp = pnp, pnp = pnp->p_next) {
161 		if (pnp->p_name)
162 			free((void *)pnp->p_name);
163 		if (pnp->p_oname)
164 			free((void *)pnp->p_oname);
165 		if (opnp)
166 			free((void *)opnp);
167 	}
168 	if (opnp)
169 		free((void *)opnp);
170 }
171 
172 
173 /*
174  * Remove a link-map list descriptor.  This is called to finalize the removal
175  * of an entire link-map list, after all link-maps have been removed, or none
176  * got added.  As load_one() can process a list of potential candidates objects,
177  * the link-map descriptor must be maintained as each object is processed.  Only
178  * after all objects have been processed can a failure condition finally tear
179  * down the link-map list descriptor.
180  */
181 void
182 remove_lml(Lm_list *lml)
183 {
184 	if (lml && (lml->lm_head == 0)) {
185 		if (lml->lm_lmidstr)
186 			free(lml->lm_lmidstr);
187 		if (lml->lm_alp)
188 			free(lml->lm_alp);
189 		if (lml->lm_lists)
190 			free(lml->lm_lists);
191 
192 		/*
193 		 * Cleanup any pending RTLDINFO in the case where it was
194 		 * allocated but not called (see _relocate_lmc()).
195 		 */
196 		if (lml->lm_rti)
197 			free(lml->lm_rti);
198 		if (lml->lm_fpavl) {
199 			/*
200 			 * As we are freeing the link-map list, all nodes must
201 			 * have previously been removed.
202 			 */
203 			ASSERT(avl_numnodes(lml->lm_fpavl) == 0);
204 			free(lml->lm_fpavl);
205 		}
206 		list_delete(&dynlm_list, lml);
207 		free(lml);
208 	}
209 }
210 
211 /*
212  * Remove a link-map.  This removes a link-map from its associated list and
213  * free's up the link-map itself.  Note, all components that are freed are local
214  * to the link-map, no inter-link-map lists are operated on as these are all
215  * broken down by dlclose() while all objects are still mapped.
216  *
217  * This routine is called from dlclose() to zap individual link-maps after their
218  * interdependencies (DEPENDS(), CALLER(), handles, etc.) have been removed.
219  * This routine is also called from the bowels of load_one() in the case of a
220  * link-map creation failure.
221  */
222 void
223 remove_so(Lm_list *lml, Rt_map *lmp)
224 {
225 	Dyninfo *dip;
226 
227 	if (lmp == 0)
228 		return;
229 
230 	/*
231 	 * Unlink the link map from the link-map list.
232 	 */
233 	if (lml && lmp)
234 		lm_delete(lml, lmp);
235 
236 	/*
237 	 * If this object contributed any local external vectors for the current
238 	 * link-map list, remove the vectors.  If this object contributed any
239 	 * global external vectors we should find some new candidates, or leave
240 	 * this object lying around.
241 	 */
242 	if (lml) {
243 		int	tag;
244 
245 		for (tag = 0; tag < CI_MAX; tag++) {
246 			if (lml->lm_lcs[tag].lc_lmp == lmp) {
247 				lml->lm_lcs[tag].lc_lmp = 0;
248 				lml->lm_lcs[tag].lc_un.lc_val = 0;
249 			}
250 			if (glcs[tag].lc_lmp == lmp) {
251 				ASSERT(glcs[tag].lc_lmp != 0);
252 				glcs[tag].lc_lmp = 0;
253 				glcs[tag].lc_un.lc_val = 0;
254 			}
255 		}
256 	}
257 
258 	DBG_CALL(Dbg_file_delete(lmp));
259 
260 	/*
261 	 * Unmap the object.
262 	 */
263 	LM_UNMAP_SO(lmp)(lmp);
264 
265 	/*
266 	 * Remove any FullpathNode AVL names if they still exist.
267 	 */
268 	if (FPNODE(lmp))
269 		fpavl_remove(lmp);
270 
271 	/*
272 	 * Remove any alias names.
273 	 */
274 	if (ALIAS(lmp)) {
275 		Aliste	off;
276 		char **	cpp;
277 
278 		for (ALIST_TRAVERSE(ALIAS(lmp), off, cpp))
279 			free(*cpp);
280 		free(ALIAS(lmp));
281 	}
282 
283 	/*
284 	 * Free the various names, as these were duplicated so that they were
285 	 * available in core files.
286 	 * The original name is set to the pathname by default (see fullpath()),
287 	 * but is overridden if the file is an alternative.  The pathname is set
288 	 * to the name by default (see [aout|elf]_new_lm()), but is overridden
289 	 * if the fullpath/resolve path differs (see fullpath()).  The original
290 	 * name is always duplicated, as it typically exists as a text string
291 	 * (see DT_NEEDED pointer) or was passed in from user code.
292 	 */
293 	if (ORIGNAME(lmp) != PATHNAME(lmp))
294 		free(ORIGNAME(lmp));
295 	if (PATHNAME(lmp) != NAME(lmp))
296 		free(PATHNAME(lmp));
297 	free(NAME(lmp));
298 
299 	/*
300 	 * Remove any of this objects filtee infrastructure.  The filtees them-
301 	 * selves have already been removed.
302 	 */
303 	if (((dip = DYNINFO(lmp)) != 0) && (FLAGS1(lmp) & MSK_RT_FILTER)) {
304 		uint_t	cnt, max = DYNINFOCNT(lmp);
305 
306 		for (cnt = 0; cnt < max; cnt++, dip++) {
307 			if (dip->di_info && (dip->di_flags & MSK_DI_FILTER))
308 				remove_pnode((Pnode *)dip->di_info);
309 		}
310 	}
311 	if (dip)
312 		free(DYNINFO(lmp));
313 
314 	/*
315 	 * Deallocate any remaining cruft and free the link-map.
316 	 */
317 	if (RLIST(lmp))
318 		remove_pnode(RLIST(lmp));
319 
320 	if (REFNAME(lmp))
321 		free(REFNAME(lmp));
322 	if (ELFPRV(lmp))
323 		free(ELFPRV(lmp));
324 	if (AUDITORS(lmp))
325 		audit_desc_cleanup(AUDITORS(lmp), lmp);
326 	if (AUDINFO(lmp))
327 		audit_info_cleanup(AUDINFO(lmp));
328 
329 	if (CONDVAR(lmp))
330 		free(CONDVAR(lmp));
331 	if (COPY(lmp))
332 		free(COPY(lmp));
333 	if (MMAPS(lmp))
334 		free(MMAPS(lmp));
335 
336 	/*
337 	 * During a dlclose() any groups this object was a part of will have
338 	 * been torn down.  However, we can get here to remove an object that
339 	 * has failed to load, perhaps because its addition to a handle failed.
340 	 * Therefore if this object indicates that its part of a group tear
341 	 * these associations down.
342 	 */
343 	if (GROUPS(lmp)) {
344 		Aliste		off1;
345 		Grp_hdl **	ghpp;
346 
347 		for (ALIST_TRAVERSE(GROUPS(lmp), off1, ghpp)) {
348 			Grp_hdl *	ghp = *ghpp;
349 			Grp_desc *	gdp;
350 			Aliste		off2;
351 
352 			for (ALIST_TRAVERSE(ghp->gh_depends, off2, gdp)) {
353 				if (gdp->gd_depend != lmp)
354 					continue;
355 
356 				(void) alist_delete(ghp->gh_depends, 0, &off2);
357 				break;
358 			}
359 		}
360 		free(GROUPS(lmp));
361 	}
362 	if (HANDLES(lmp))
363 		free(HANDLES(lmp));
364 
365 	/*
366 	 * Clean up reglist if needed
367 	 */
368 	if (reglist != (Reglist *)0) {
369 		Reglist *	cur, * prv, * del;
370 
371 		cur = prv = reglist;
372 		while (cur != (Reglist *)0) {
373 			if (cur->rl_lmp == lmp) {
374 				del = cur;
375 				if (cur == reglist) {
376 					reglist = cur->rl_next;
377 					cur = prv = reglist;
378 				} else {
379 					prv->rl_next = cur->rl_next;
380 					cur = cur->rl_next;
381 				}
382 				free(del);
383 			} else {
384 				prv = cur;
385 				cur = cur->rl_next;
386 			}
387 		}
388 	}
389 
390 	free(lmp);
391 }
392 
393 
394 /*
395  * Traverse an objects dependency list removing callers and dependencies.
396  * There's a chicken and egg problem with tearing down link-maps.  Any
397  * relationship between link-maps is maintained on a DEPENDS, and associated
398  * CALLERS list.  These lists can't be broken down at the time a single link-
399  * map is removed as any related link-map may have already been removed.  Thus,
400  * lists between link-maps must be broken down before the individual link-maps
401  * themselves.
402  */
403 void
404 remove_lists(Rt_map * lmp, int lazy)
405 {
406 	Aliste		off1;
407 	Bnd_desc **	bdpp;
408 
409 	/*
410 	 * First, traverse this objects dependencies.
411 	 */
412 	for (ALIST_TRAVERSE(DEPENDS(lmp), off1, bdpp)) {
413 		Bnd_desc *	bdp = *bdpp;
414 		Rt_map *	dlmp = bdp->b_depend;
415 
416 		/*
417 		 * Remove this object from the dependencies callers.
418 		 */
419 		(void) alist_delete(CALLERS(dlmp), &bdp, 0);
420 		free(bdp);
421 	}
422 	if (DEPENDS(lmp)) {
423 		free(DEPENDS(lmp));
424 		DEPENDS(lmp) = 0;
425 	}
426 
427 	/*
428 	 * Second, traverse this objects callers.
429 	 */
430 	for (ALIST_TRAVERSE(CALLERS(lmp), off1,  bdpp)) {
431 		Bnd_desc *	bdp = *bdpp;
432 		Rt_map *	clmp = bdp->b_caller;
433 
434 		/*
435 		 * If we're removing an object that was triggered by a lazyload,
436 		 * remove the callers DYNINFO() entry and bump the lazy counts.
437 		 * This reinitialization of the lazy information allows a lazy
438 		 * object to be reloaded again later.  Although we may be
439 		 * breaking down a group of lazyloaded objects because one has
440 		 * failed to relocate, it's possible that one or more of the
441 		 * individual objects can be reloaded without a problem.
442 		 */
443 		if (lazy) {
444 			Dyninfo *	dip;
445 
446 			if ((dip = DYNINFO(clmp)) != 0) {
447 				uint_t	cnt, max = DYNINFOCNT(clmp);
448 
449 				for (cnt = 0; cnt < max; cnt++, dip++) {
450 					if ((dip->di_flags &
451 					    FLG_DI_NEEDED) == 0)
452 						continue;
453 
454 					if (dip->di_info == (void *)lmp) {
455 						dip->di_info = 0;
456 
457 						if (LAZY(clmp)++ == 0)
458 							LIST(clmp)->lm_lazy++;
459 					}
460 				}
461 			}
462 		}
463 
464 		(void) alist_delete(DEPENDS(clmp), &bdp, 0);
465 		free(bdp);
466 	}
467 	if (CALLERS(lmp)) {
468 		free(CALLERS(lmp));
469 		CALLERS(lmp) = 0;
470 	}
471 }
472 
473 /*
474  * Delete any temporary link-map control list.
475  */
476 void
477 remove_cntl(Lm_list *lml, Aliste lmco)
478 {
479 	if (lmco && (lmco != ALO_DATA)) {
480 		Aliste	_lmco = lmco;
481 #if	DEBUG
482 		Lm_cntl	*lmc = (Lm_cntl *)((char *)lml->lm_lists + lmco);
483 
484 		/*
485 		 * This element should be empty.
486 		 */
487 		ASSERT(lmc->lc_head == 0);
488 #endif
489 		(void) alist_delete(lml->lm_lists, 0, &_lmco);
490 	}
491 }
492 
493 /*
494  * If a lazy loaded object, or filtee fails to load, possibly because it, or
495  * one of its dependencies can't be relocated, then tear down any objects
496  * that are apart of this link-map control list.
497  */
498 void
499 remove_incomplete(Lm_list *lml, Aliste lmco)
500 {
501 	Rt_map	*lmp;
502 	Lm_cntl	*lmc;
503 
504 	/* LINTED */
505 	lmc = (Lm_cntl *)((char *)lml->lm_lists + lmco);
506 
507 	/*
508 	 * First, remove any lists that may point between objects.
509 	 */
510 	for (lmp = lmc->lc_head; lmp; lmp = (Rt_map *)NEXT(lmp))
511 		remove_lists(lmp, 1);
512 
513 	/*
514 	 * Finally, remove each object.  remove_so() calls lm_delete(), thus
515 	 * effectively the link-map control head gets updated to point to the
516 	 * next link-map.
517 	 */
518 	while ((lmp = lmc->lc_head) != 0)
519 		remove_so(lml, lmp);
520 
521 	lmc->lc_head = lmc->lc_tail = 0;
522 }
523 
524 /*
525  * Determine whether an object is deletable.
526  */
527 int
528 is_deletable(Alist ** lmalp, Alist ** ghalp, Rt_map * lmp)
529 {
530 	Aliste		off;
531 	Bnd_desc **	bdpp;
532 	Grp_hdl **	ghpp;
533 
534 	/*
535 	 * If the object hasn't yet been relocated take this as a sign that
536 	 * it's loading failed, thus we're here to cleanup.  If the object is
537 	 * relocated it will only be retained if it was marked non-deletable,
538 	 * and exists on the main link-map control list.
539 	 */
540 	if ((FLAGS(lmp) & FLG_RT_RELOCED) &&
541 	    (MODE(lmp) & RTLD_NODELETE) && (CNTL(lmp) == ALO_DATA))
542 		return (0);
543 
544 	/*
545 	 * If this object is the head of a handle that has not been captured as
546 	 * a candidate for deletion, then this object is in use from a dlopen()
547 	 * outside of the scope of this dlclose() family.  Dlopen'ed objects,
548 	 * and filtees, have group descriptors for their callers.  Typically
549 	 * this parent will have callers that are not apart of this dlclose()
550 	 * family, and thus would be caught by the CALLERS test below.  However,
551 	 * if the caller had itself been dlopen'ed, it may not have any explicit
552 	 * callers registered for itself.  Thus, but looking for objects with
553 	 * handles we can ferret out these outsiders.
554 	 */
555 	for (ALIST_TRAVERSE(HANDLES(lmp), off, ghpp)) {
556 		if (alist_test(ghalp, *ghpp,
557 		    sizeof (Grp_hdl *), 0) != ALE_EXISTS)
558 			return (0);
559 	}
560 
561 	/*
562 	 * If this object is called by any object outside of the family of
563 	 * objects selected for deletion, it can't be deleted.
564 	 */
565 	for (ALIST_TRAVERSE(CALLERS(lmp), off, bdpp)) {
566 		if (alist_test(lmalp, (*bdpp)->b_caller,
567 		    sizeof (Rt_map *), 0) != ALE_EXISTS)
568 			return (0);
569 	}
570 
571 	/*
572 	 * This object is a candidate for deletion.
573 	 */
574 	return (1);
575 }
576 
577 /*
578  * Collect the groups (handles) and associated objects that are candidates for
579  * deletion.  The criteria for deleting an object is whether it is only refer-
580  * enced from the objects within the groups that are candidates for deletion.
581  */
582 static int
583 gdp_collect(Alist **ghalpp, Alist **lmalpp, Grp_hdl *ghp1)
584 {
585 	Aliste		off;
586 	Grp_desc	*gdp;
587 	int		action;
588 
589 	/*
590 	 * Add this group to our group collection.  If it isn't added either an
591 	 * allocation has failed, or it already exists.
592 	 */
593 	if ((action = alist_test(ghalpp, ghp1, sizeof (Grp_hdl *),
594 	    AL_CNT_GRPCLCT)) != ALE_CREATE)
595 		return (action);
596 
597 	/*
598 	 * Traverse the dependencies of the group and collect the associated
599 	 * objects.
600 	 */
601 	for (ALIST_TRAVERSE(ghp1->gh_depends, off, gdp)) {
602 		Rt_map *	lmp = gdp->gd_depend;
603 
604 		/*
605 		 * We only want to process dependencies for deletion.  Although
606 		 * we want to purge group descriptors for parents, we don't want
607 		 * to analyze the parent itself for additional filters or
608 		 * deletion.
609 		 */
610 		if ((gdp->gd_flags & GPD_ADDEPS) == 0)
611 			continue;
612 
613 		if ((action = alist_test(lmalpp, lmp, sizeof (Rt_map *),
614 		    AL_CNT_GRPCLCT)) == 0)
615 			return (0);
616 		if (action == ALE_EXISTS)
617 			continue;
618 
619 		/*
620 		 * If this object hasn't yet been relocated take this as a sign
621 		 * that it's loading failed, thus we're here to cleanup.  Or,
622 		 * if this object isn't obviously non-deletable, determine
623 		 * whether it provides any filtees.  Add these groups to the
624 		 * group collection.
625 		 */
626 		if ((((FLAGS(lmp) & FLG_RT_RELOCED) == 0) ||
627 		    ((MODE(lmp) & RTLD_NODELETE) == 0)) &&
628 		    (FLAGS1(lmp) & MSK_RT_FILTER)) {
629 			Dyninfo *	dip = DYNINFO(lmp);
630 			uint_t		cnt, max = DYNINFOCNT(lmp);
631 
632 			for (cnt = 0; cnt < max; cnt++, dip++) {
633 				Pnode *	pnp;
634 
635 				if ((dip->di_info == 0) ||
636 				    ((dip->di_flags & MSK_DI_FILTER) == 0))
637 					continue;
638 
639 				for (pnp = (Pnode *)dip->di_info; pnp;
640 				    pnp = pnp->p_next) {
641 					Grp_hdl *	ghp2;
642 
643 					if ((pnp->p_len == 0) || ((ghp2 =
644 					    (Grp_hdl *)pnp->p_info) == 0))
645 						continue;
646 
647 					if (gdp_collect(ghalpp, lmalpp,
648 					    ghp2) == 0)
649 						return (0);
650 				}
651 			}
652 		}
653 	}
654 	return (1);
655 }
656 
657 /*
658  * Traverse the list of deletable candidates.  If an object can't be deleted
659  * then neither can its dependencies or filtees.  Any object that is cleared
660  * from being deleted drops the deletion count, plus, if there are no longer
661  * any deletions pending we can discontinue any further processing.
662  */
663 static int
664 remove_rescan(Alist * lmalp, Alist * ghalp, int *delcnt)
665 {
666 	Aliste		off1;
667 	Rt_map **	lmpp;
668 	int		rescan = 0;
669 
670 	for (ALIST_TRAVERSE(lmalp, off1, lmpp)) {
671 		Aliste		off2;
672 		Bnd_desc **	bdpp;
673 		Rt_map *	lmp = *lmpp;
674 		Dyninfo *	dip;
675 		uint_t		cnt, max;
676 
677 		if (FLAGS(lmp) & FLG_RT_DELETE)
678 			continue;
679 
680 		/*
681 		 * As this object can't be deleted, make sure its dependencies
682 		 * aren't deleted either.
683 		 */
684 		for (ALIST_TRAVERSE(DEPENDS(lmp), off2, bdpp)) {
685 			Rt_map *	dlmp = (*bdpp)->b_depend;
686 
687 			if (FLAGS(dlmp) & FLG_RT_DELETE) {
688 				FLAGS(dlmp) &= ~FLG_RT_DELETE;
689 				if (--(*delcnt) == 0)
690 					return (0);
691 				rescan = 1;
692 			}
693 		}
694 
695 		/*
696 		 * If this object is a filtee and one of its filters is outside
697 		 * of this dlclose family, then it can't be deleted either.
698 		 */
699 		if ((FLAGS1(lmp) & MSK_RT_FILTER) == 0)
700 			continue;
701 
702 		dip = DYNINFO(lmp);
703 		max = DYNINFOCNT(lmp);
704 
705 		for (cnt = 0; cnt < max; cnt++, dip++) {
706 			Pnode *	pnp;
707 
708 			if ((dip->di_info == 0) ||
709 			    ((dip->di_flags & MSK_DI_FILTER) == 0))
710 				continue;
711 
712 			for (pnp = (Pnode *)dip->di_info; pnp;
713 			    pnp = pnp->p_next) {
714 				Grp_hdl *	ghp;
715 				Grp_desc *	gdp;
716 
717 				if ((pnp->p_len == 0) ||
718 				    ((ghp = (Grp_hdl *)pnp->p_info) == 0))
719 					continue;
720 
721 				if (alist_test(&ghalp, ghp,
722 				    sizeof (Grp_hdl *), 0) == ALE_EXISTS)
723 					continue;
724 
725 				for (ALIST_TRAVERSE(ghp->gh_depends, off2,
726 				    gdp)) {
727 					Rt_map *	dlmp = gdp->gd_depend;
728 
729 					if (FLAGS(dlmp) & FLG_RT_DELETE) {
730 						FLAGS(dlmp) &= ~FLG_RT_DELETE;
731 						if (--(*delcnt) == 0)
732 							return (0);
733 						rescan = 1;
734 					}
735 				}
736 
737 				/*
738 				 * Remove this group handle from our dynamic
739 				 * deletion list.
740 				 */
741 				(void) alist_delete(ghalp, &ghp, 0);
742 			}
743 		}
744 	}
745 	return (rescan);
746 }
747 
748 /*
749  * Cleanup any collection alists we've created.
750  */
751 static void
752 remove_collect(Alist * ghalp, Alist * lmalp)
753 {
754 	if (ghalp)
755 		free(ghalp);
756 	if (lmalp)
757 		free(lmalp);
758 }
759 
760 /*
761  * Remove a handle, leaving the associated objects intact.  Besides the classic
762  * dlopen() usage, handles are used as a means of associating a group of objects
763  * and promoting modes.  Once object promotion is completed, the handle should
764  * be discarded while leaving the associated objects intact.  Leaving the handle
765  * would prevent the object from being deleted (as it looks like it's in use
766  * by another user).
767  */
768 void
769 free_hdl(Grp_hdl *ghp)
770 {
771 	if (--(ghp->gh_refcnt) == 0) {
772 		Grp_desc	*gdp;
773 		uintptr_t	ndx;
774 		Aliste		off;
775 
776 		for (ALIST_TRAVERSE(ghp->gh_depends, off, gdp)) {
777 			Rt_map	*lmp = gdp->gd_depend;
778 
779 			if (ghp->gh_ownlmp == lmp)
780 				(void) alist_delete(HANDLES(lmp), &ghp, 0);
781 			(void) alist_delete(GROUPS(lmp), &ghp, 0);
782 		}
783 		(void) free(ghp->gh_depends);
784 
785 		/* LINTED */
786 		ndx = (uintptr_t)ghp % HDLIST_SZ;
787 		list_delete(&hdl_list[ndx], ghp);
788 
789 		(void) free(ghp);
790 	}
791 }
792 
793 /*
794  * Remove a caller from a group handle.  This breaks the bond between a caller
795  * and a hierarchy of dependencies represented by a handle, thus the caller
796  * doesn't lock the hierarchy and prevent their deletion should their processing
797  * fail to complete.  If the handle count drops to zero, the handle is marked
798  * as sticky to prevent it's removal, or to confuse orphan handle processing.
799  * The caller may establish a binding to this handle again, once the hierarchy
800  * processing has completed, thus retaining the handle saves having to recreate
801  * it over and over again.
802  */
803 void
804 remove_caller(Grp_hdl *ghp, Rt_map *clmp)
805 {
806 	Grp_desc	*gdp;
807 	Aliste		off;
808 
809 	if (--(ghp->gh_refcnt) == 0)
810 		ghp->gh_flags |= GPH_STICKY;
811 
812 	for (ALIST_TRAVERSE(ghp->gh_depends, off, gdp)) {
813 		Rt_map	*lmp = gdp->gd_depend;
814 
815 		if (lmp == clmp) {
816 			(void) alist_delete(GROUPS(lmp), &ghp, 0);
817 			(void) alist_delete(ghp->gh_depends, 0, &off);
818 			break;
819 		}
820 	}
821 }
822 
823 /*
824  * Remove the objects associated with a handle.  There are two goals here, to
825  * delete the objects associated with the handle, and to remove the handle
826  * itself.  Things get a little more complex if the objects selected for
827  * deletion are filters, in this case we also need to collect their filtees,
828  * and process the combined groups as a whole.  But, care still must be exer-
829  * cised to make sure any filtees found aren't being used by filters outside of
830  * the groups we've collect.  The series of events is basically:
831  *
832  *  o	Determine the groups (handles) that might be deletable.
833  *
834  *  o	Determine the objects of these handles that can be deleted.
835  *
836  *  o	Fire the fini's of those objects selected for deletion.
837  *
838  *  o	Remove all inter-dependency linked lists while the objects link-maps
839  *	are still available.
840  *
841  *  o	Remove all deletable objects link-maps and unmap the objects themselves.
842  *
843  *  o	Remove the handle descriptors for each deleted object, and hopefully
844  *	the whole handle.
845  *
846  * An handle that can't be deleted is added to an orphans list.  This list is
847  * revisited any time another dlclose() request results in handle descriptors
848  * being deleted.  These deleted descriptors can be sufficient to allow the
849  * final deletion of the orphaned handles.
850  */
851 int
852 remove_hdl(Grp_hdl *ghp, Rt_map *clmp, int *removed)
853 {
854 	Rt_map *	lmp, ** lmpp;
855 	int		rescan = 0;
856 	int		delcnt = 0, rmcnt = 0, error = 0, orphans;
857 	Alist *		lmalp = 0, * ghalp = 0;
858 	Aliste		off1, off2;
859 	Grp_hdl **	ghpp;
860 	Grp_desc *	gdp;
861 	Lm_list *	lml = 0;
862 
863 	/*
864 	 * Generate the family of groups and objects that are candidates for
865 	 * deletion.  This consists of the objects that are explicitly defined
866 	 * as dependencies of this handle, plus any filtee handles and their
867 	 * associated objects.
868 	 */
869 	if (gdp_collect(&ghalp, &lmalp, ghp) == 0) {
870 		remove_collect(ghalp, lmalp);
871 		return (0);
872 	}
873 
874 	DBG_CALL(Dbg_file_hdl_title(DBG_DEP_DELETE));
875 
876 	/*
877 	 * Traverse the groups we've collected to determine if any filtees are
878 	 * included.  If so, and the filtee handle is in use by a filter outside
879 	 * of the family of objects collected for this deletion, it can not be
880 	 * removed.
881 	 */
882 	for (ALIST_TRAVERSE(ghalp, off1, ghpp)) {
883 		Grp_hdl *	ghp = *ghpp;
884 
885 		DBG_CALL(Dbg_file_hdl_collect(ghp, 0));
886 
887 		if ((ghp->gh_flags & GPH_FILTEE) == 0)
888 			continue;
889 
890 		/*
891 		 * Special case for ld.so.1.  There can be multiple instances of
892 		 * libdl.so.1 using this handle, so although we want the handles
893 		 * reference count to be decremented, we don't want the handle
894 		 * removed.
895 		 */
896 		if (ghp->gh_flags & GPH_LDSO) {
897 			DBG_CALL(Dbg_file_hdl_collect(ghp,
898 			    NAME(lml_rtld.lm_head)));
899 			(void) alist_delete(ghalp, 0, &off1);
900 			continue;
901 		}
902 
903 		for (ALIST_TRAVERSE(ghp->gh_depends, off2, gdp)) {
904 			Grp_hdl **	ghpp3;
905 			Aliste		off3;
906 
907 			/*
908 			 * Determine whether this dependency is the filtee's
909 			 * parent filter, and that it isn't also an explicit
910 			 * dependency (in which case it would have added its own
911 			 * dependencies to the handle).
912 			 */
913 			if ((gdp->gd_flags &
914 			    (GPD_FILTER | GPD_ADDEPS)) != GPD_FILTER)
915 				continue;
916 
917 			if (alist_test(&lmalp, gdp->gd_depend,
918 			    sizeof (Rt_map *), 0) == ALE_EXISTS)
919 				continue;
920 
921 			/*
922 			 * Remove this group handle from our dynamic deletion
923 			 * list.  In addition, recompute the list of objects
924 			 * that are candidates for deletion to continue this
925 			 * group verification.
926 			 */
927 			DBG_CALL(Dbg_file_hdl_collect(ghp,
928 			    NAME(gdp->gd_depend)));
929 			(void) alist_delete(ghalp, 0, &off1);
930 
931 			free(lmalp);
932 			lmalp = 0;
933 			for (ALIST_TRAVERSE(ghalp, off3, ghpp3)) {
934 				Aliste		off4;
935 				Grp_desc *	gdp4;
936 
937 				for (ALIST_TRAVERSE((*ghpp3)->gh_depends,
938 				    off4, gdp4))  {
939 					if ((gdp4->gd_flags & GPD_ADDEPS) == 0)
940 						continue;
941 					if (alist_test(&lmalp, gdp4->gd_depend,
942 					    sizeof (Rt_map *),
943 					    AL_CNT_GRPCLCT) == 0) {
944 						remove_collect(ghalp, lmalp);
945 						return (0);
946 					}
947 				}
948 			}
949 			break;
950 		}
951 	}
952 
953 	/*
954 	 * Now that we've collected all the handles dependencies, traverse the
955 	 * collection determining whether they are a candidate for deletion.
956 	 */
957 	for (ALIST_TRAVERSE(lmalp, off1, lmpp)) {
958 		lmp = *lmpp;
959 
960 		/*
961 		 * Establish which link-map list we're dealing with for later
962 		 * .fini processing.
963 		 */
964 		if (lml == 0)
965 			lml = LIST(lmp);
966 
967 		/*
968 		 * If an object isn't a candidate for deletion we'll have to
969 		 * rescan the handle insuring that this objects dependencies
970 		 * aren't deleted either.
971 		 */
972 		if (is_deletable(&lmalp, &ghalp, lmp)) {
973 			FLAGS(lmp) |= FLG_RT_DELETE;
974 			delcnt++;
975 		} else
976 			rescan = 1;
977 	}
978 
979 	/*
980 	 * Rescan the handle if any objects where found non-deletable.
981 	 */
982 	while (rescan)
983 		rescan = remove_rescan(lmalp, ghalp, &delcnt);
984 
985 	/*
986 	 * Now that we have determined the number of groups that are candidates
987 	 * for removal, mark each group descriptor as a candidate for removal
988 	 * from the group.
989 	 */
990 	for (ALIST_TRAVERSE(ghalp, off1, ghpp)) {
991 		for (ALIST_TRAVERSE((*ghpp)->gh_depends, off2, gdp))
992 			gdp->gd_flags |= GPD_REMOVE;
993 	}
994 
995 	/*
996 	 * Now that we know which objects on this handle can't be deleted
997 	 * determine whether they still need to remain identified as belonging
998 	 * to this group to be able to continue binding to one another.
999 	 */
1000 	for (ALIST_TRAVERSE(ghalp, off1, ghpp)) {
1001 		Grp_hdl *	ghp = *ghpp;
1002 
1003 		for (ALIST_TRAVERSE(ghp->gh_depends, off2, gdp)) {
1004 			Aliste		off3;
1005 			Bnd_desc **	bdpp;
1006 
1007 			lmp = gdp->gd_depend;
1008 
1009 			if (FLAGS(lmp) & FLG_RT_DELETE)
1010 				continue;
1011 
1012 			for (ALIST_TRAVERSE(DEPENDS(lmp), off3, bdpp)) {
1013 				Aliste 		off4;
1014 				Grp_desc *	gdp4;
1015 				Rt_map *	dlmp = (*bdpp)->b_depend;
1016 
1017 				/*
1018 				 * If this dependency (dlmp) can be referenced
1019 				 * by the caller (clmp) without being part of
1020 				 * this group (ghp) then belonging to this group
1021 				 * is no longer necessary.  This can occur when
1022 				 * objects are part of multiple handles, or if a
1023 				 * previously deleted handle was moved to the
1024 				 * orphan list and has been reopened.  Note,
1025 				 * first make sure the caller can reference the
1026 				 * dependency with this group, if it can't we
1027 				 * must be bound to a filtee, so there's no need
1028 				 * to remain a part of this group either.
1029 				 */
1030 				if ((callable(lmp, dlmp, 0) == 0) ||
1031 				    callable(lmp, dlmp, ghp))
1032 					continue;
1033 
1034 				if (gdp->gd_flags & GPD_REMOVE)
1035 					gdp->gd_flags &= ~GPD_REMOVE;
1036 
1037 				for (ALIST_TRAVERSE(ghp->gh_depends,
1038 				    off4, gdp4)) {
1039 					if (gdp4->gd_depend != dlmp)
1040 						continue;
1041 
1042 					if (gdp4->gd_flags & GPD_REMOVE)
1043 						gdp4->gd_flags &= ~GPD_REMOVE;
1044 				}
1045 			}
1046 		}
1047 	}
1048 
1049 	/*
1050 	 * If the owner of a handle can't be deleted and it's handle descriptor
1051 	 * must remain also, don't delete the handle at all.  Leave it for
1052 	 * possible later use.  Although it's left intact, it will still be
1053 	 * moved to the orphans list, as we might be able to revisit it on later
1054 	 * dlclose() operations and finally remove the underlying objects.  Note
1055 	 * that the handle still remains attached to the owner via the HANDLES
1056 	 * list, so that it can be re-associated to the owner if a dlopen()
1057 	 * of this object reoccurs.
1058 	 */
1059 	for (ALIST_TRAVERSE(ghalp, off1, ghpp)) {
1060 		Grp_hdl *	ghp = *ghpp;
1061 
1062 		/*
1063 		 * If this handle is already an orphan, or if it's owner is
1064 		 * deletable there's no need to inspect its dependencies.
1065 		 */
1066 		if ((ghp->gh_ownlmp == 0) ||
1067 		    (FLAGS(ghp->gh_ownlmp) & FLG_RT_DELETE))
1068 			continue;
1069 
1070 		/*
1071 		 * Make sure all handle dependencies aren't removed or the
1072 		 * dependencies themselves aren't deleted.
1073 		 */
1074 		for (ALIST_TRAVERSE(ghp->gh_depends, off2, gdp)) {
1075 			lmp = gdp->gd_depend;
1076 
1077 			/*
1078 			 * The first dependency of a non-orphaned handle is the
1079 			 * owner.  If the handle descriptor for this isn't
1080 			 * required there's no need to look at any other of the
1081 			 * handles dependencies.
1082 			 */
1083 			if ((lmp == ghp->gh_ownlmp) &&
1084 			    (gdp->gd_flags & GPD_REMOVE))
1085 				break;
1086 
1087 			if (gdp->gd_flags & GPD_REMOVE)
1088 				gdp->gd_flags &= ~GPD_REMOVE;
1089 			if (FLAGS(lmp) & FLG_RT_DELETE) {
1090 				FLAGS(lmp) &= ~FLG_RT_DELETE;
1091 				delcnt--;
1092 			}
1093 		}
1094 	}
1095 
1096 	/*
1097 	 * Final scan of objects to see if any objects are to to be deleted.
1098 	 * Also - display diagnostic information on what operations are to be
1099 	 * performed on the collected handles before firing .fini's (which
1100 	 * produces additional diagnostics).
1101 	 */
1102 	for (ALIST_TRAVERSE(ghalp, off1, ghpp)) {
1103 		Grp_hdl *	ghp = *ghpp;
1104 
1105 		DBG_CALL(Dbg_file_hdl_title(DBG_DEP_DELETE));
1106 
1107 		for (ALIST_TRAVERSE(ghp->gh_depends, off2, gdp)) {
1108 			int	flag;
1109 
1110 			lmp = gdp->gd_depend;
1111 
1112 			if (FLAGS(lmp) & FLG_RT_DELETE) {
1113 				flag = DBG_DEP_DELETE;
1114 				/*
1115 				 * Remove any pathnames from the FullpathNode
1116 				 * AVL tree.  As we're about to fire .fini's,
1117 				 * it's possible this object will be required
1118 				 * again, in which case we want to make sure a
1119 				 * new version of the object gets loaded.
1120 				 */
1121 				if (FPNODE(lmp))
1122 					fpavl_remove(lmp);
1123 			} else if (gdp->gd_flags & GPD_REMOVE)
1124 				flag = DBG_DEP_REMOVE;
1125 			else
1126 				flag = DBG_DEP_REMAIN;
1127 
1128 			DBG_CALL(Dbg_file_hdl_action(ghp, lmp, flag));
1129 		}
1130 	}
1131 
1132 	/*
1133 	 * If there are objects to be deleted process their .fini's.
1134 	 */
1135 	if (delcnt) {
1136 		Rt_map **	tobj;
1137 
1138 		/*
1139 		 * If we're being audited tell the audit library that we're
1140 		 * about to go deleting dependencies.
1141 		 */
1142 		if (clmp && ((LIST(clmp)->lm_tflags | FLAGS1(clmp)) &
1143 		    LML_TFLG_AUD_ACTIVITY))
1144 			audit_activity(clmp, LA_ACT_DELETE);
1145 
1146 		/*
1147 		 * Sort and fire all fini's of the objects selected for
1148 		 * deletion.  Note that we have to start our search from the
1149 		 * link-map head - there's no telling whether this object has
1150 		 * dependencies on objects that were loaded before it and which
1151 		 * can now be deleted.  If the tsort() fails because of an
1152 		 * allocation error then that might just be a symptom of why
1153 		 * we're here in the first place - forgo the fini's but
1154 		 * continue to try cleaning up.
1155 		 */
1156 		lml->lm_flags |= LML_FLG_OBJDELETED;
1157 
1158 		if (((tobj = tsort(lml->lm_head, delcnt,
1159 		    (RT_SORT_DELETE | RT_SORT_FWD))) != 0) &&
1160 		    (tobj != (Rt_map **)S_ERROR)) {
1161 			error = purge_exit_handlers(lml, tobj);
1162 			call_fini(lml, tobj);
1163 		}
1164 
1165 		/*
1166 		 * Audit the closure of the dlopen'ed object to any local
1167 		 * auditors.  Any global auditors would have been caught by
1168 		 * call_fini(), but as the link-maps CALLERS was removed
1169 		 * already we do the local auditors explicitly.
1170 		 */
1171 		for (ALIST_TRAVERSE(ghalp, off1, ghpp)) {
1172 			Grp_hdl *	ghp = *ghpp;
1173 			Rt_map *	dlmp = ghp->gh_ownlmp;
1174 
1175 			if (clmp && dlmp &&
1176 			    ((LIST(dlmp)->lm_flags & LML_FLG_NOAUDIT) == 0) &&
1177 			    (FLAGS1(clmp) & LML_TFLG_AUD_OBJCLOSE))
1178 				_audit_objclose(&(AUDITORS(clmp)->ad_list),
1179 				    dlmp);
1180 		}
1181 	}
1182 
1183 	/*
1184 	 * Now that .fini processing (which may have involved new bindings)
1185 	 * is complete, remove all inter-dependency lists from those objects
1186 	 * selected for deletion.
1187 	 */
1188 	for (ALIST_TRAVERSE(lmalp, off1, lmpp)) {
1189 		Dyninfo *	dip;
1190 		uint_t		cnt, max;
1191 
1192 		lmp = *lmpp;
1193 
1194 		if (FLAGS(lmp) & FLG_RT_DELETE)
1195 			remove_lists(lmp, 0);
1196 
1197 		/*
1198 		 * Determine whether we're dealing with a filter, and if so
1199 		 * process any inter-dependencies with its filtee's.
1200 		 */
1201 		if ((FLAGS1(lmp) & MSK_RT_FILTER) == 0)
1202 			continue;
1203 
1204 		dip = DYNINFO(lmp);
1205 		max = DYNINFOCNT(lmp);
1206 
1207 		for (cnt = 0; cnt < max; cnt++, dip++) {
1208 			Pnode *	pnp;
1209 
1210 			if ((dip->di_info == 0) ||
1211 			    ((dip->di_flags & MSK_DI_FILTER) == 0))
1212 				continue;
1213 
1214 			for (pnp = (Pnode *)dip->di_info; pnp;
1215 			    pnp = pnp->p_next) {
1216 				Grp_hdl *	ghp;
1217 
1218 				if ((pnp->p_len == 0) ||
1219 				    ((ghp = (Grp_hdl *)pnp->p_info) == 0))
1220 					continue;
1221 
1222 				/*
1223 				 * Determine whether this filtee's handle is a
1224 				 * part of the list of handles being deleted.
1225 				 */
1226 				if (alist_test(&ghalp, ghp,
1227 				    sizeof (Grp_hdl *), 0) == ALE_EXISTS) {
1228 					/*
1229 					 * If this handle exists on the deletion
1230 					 * list, then it has been removed.  If
1231 					 * this filter isn't going to be
1232 					 * deleted, server its reference to the
1233 					 * handle.
1234 					 */
1235 					pnp->p_info = 0;
1236 				} else {
1237 					/*
1238 					 * If this handle isn't on the deletion
1239 					 * list, then it must still exist.  If
1240 					 * this filter is being deleted, make
1241 					 * sure the filtees reference count
1242 					 * gets decremented.
1243 					 */
1244 					if (FLAGS(lmp) & FLG_RT_DELETE)
1245 					    (void) dlclose_core(ghp, lmp);
1246 				}
1247 			}
1248 		}
1249 	}
1250 
1251 	/*
1252 	 * If called from dlclose(), determine if there are already handles on
1253 	 * the orphans list that we can reinvestigate.
1254 	 */
1255 	if ((removed == 0) && hdl_list[HDLIST_ORP].head)
1256 		orphans = 1;
1257 	else
1258 		orphans = 0;
1259 
1260 	/*
1261 	 * Finally remove any handle infrastructure and remove any objects
1262 	 * marked for deletion.
1263 	 */
1264 	for (ALIST_TRAVERSE(ghalp, off1, ghpp)) {
1265 		Grp_hdl *	ghp = *ghpp;
1266 
1267 		/*
1268 		 * If we're not dealing with orphaned handles remove this handle
1269 		 * from its present handle list.
1270 		 */
1271 		if (removed == 0) {
1272 			uintptr_t ndx;
1273 
1274 			/* LINTED */
1275 			ndx = (uintptr_t)ghp % HDLIST_SZ;
1276 			list_delete(&hdl_list[ndx], ghp);
1277 		}
1278 
1279 		/*
1280 		 * Traverse each handle dependency.
1281 		 */
1282 		for (ALIST_TRAVERSE(ghp->gh_depends, off2, gdp)) {
1283 			if ((gdp->gd_flags & GPD_REMOVE) == 0)
1284 				continue;
1285 
1286 			lmp = gdp->gd_depend;
1287 			rmcnt++;
1288 
1289 			/*
1290 			 * If this object is the owner of the handle break that
1291 			 * association in case the handle is retained.
1292 			 */
1293 			if (ghp->gh_ownlmp == lmp) {
1294 				(void) alist_delete(HANDLES(lmp), &ghp, 0);
1295 				ghp->gh_ownlmp = 0;
1296 			}
1297 
1298 			(void) alist_delete(GROUPS(lmp), &ghp, 0);
1299 			(void) alist_delete(ghp->gh_depends, 0, &off2);
1300 
1301 			/*
1302 			 * Complete the link-map deletion if appropriate.
1303 			 */
1304 			if (FLAGS(lmp) & FLG_RT_DELETE) {
1305 				tls_modaddrem(lmp, TM_FLG_MODREM);
1306 				remove_so(LIST(lmp), lmp);
1307 			}
1308 		}
1309 
1310 		/*
1311 		 * If we've deleted all the dependencies of the handle finalize
1312 		 * the cleanup by removing the handle itself.
1313 		 *
1314 		 * Otherwise we're left with a handle containing one or more
1315 		 * objects that can not be deleted (they're in use by other
1316 		 * handles, non-deletable, etc.), but require to remain a part
1317 		 * of this group to allow them to continue binding to one
1318 		 * another.  Should any other dlclose() operation occur that
1319 		 * results in the removal of handle descriptors, these orphan
1320 		 * handles are re-examined to determine if their deletion can be
1321 		 * completed.
1322 		 */
1323 		if (ghp->gh_depends->al_data[0] == 0) {
1324 			remove_lml(lml);
1325 			free(ghp->gh_depends);
1326 			free(ghp);
1327 		} else if (removed == 0) {
1328 			/*
1329 			 * Move this handle to the orphans list (if it isn't
1330 			 * already there).
1331 			 */
1332 			(void) list_append(&hdl_list[HDLIST_ORP], ghp);
1333 
1334 			if (DBG_ENABLED) {
1335 				DBG_CALL(Dbg_file_hdl_title(DBG_DEP_ORPHAN));
1336 				for (ALIST_TRAVERSE(ghp->gh_depends, off1, gdp))
1337 					DBG_CALL(Dbg_file_hdl_action(ghp,
1338 					    gdp->gd_depend, DBG_DEP_REMAIN));
1339 			}
1340 		}
1341 	}
1342 
1343 	/*
1344 	 * If no handle descriptors got removed there's no point in looking for
1345 	 * orphans to process.
1346 	 */
1347 	if (rmcnt == 0)
1348 		orphans = 0;
1349 
1350 	/*
1351 	 * Cleanup any alists we've created.
1352 	 */
1353 	remove_collect(ghalp, lmalp);
1354 
1355 	/*
1356 	 * If orphan processing isn't required we're done.  If our processing
1357 	 * originated from investigating orphans, return the number of handle
1358 	 * descriptors removed as an indication whether orphan processing
1359 	 * should continue.
1360 	 */
1361 	if (orphans == 0) {
1362 		if (removed)
1363 			*removed = rmcnt;
1364 		return (error);
1365 	}
1366 
1367 	/*
1368 	 * Traverse the orphans list as many times as necessary until no
1369 	 * handle removals occur.
1370 	 */
1371 	do {
1372 		List		list;
1373 		Listnode	*lnp;
1374 		Grp_hdl		*ghp, *oghp = 0;
1375 		int		title = 0;
1376 
1377 		/*
1378 		 * Effectively clean the HDLIST_ORP list.  Any object that can't
1379 		 * be removed will be re-added to the list.
1380 		 */
1381 		list = hdl_list[HDLIST_ORP];
1382 		hdl_list[HDLIST_ORP].head = hdl_list[HDLIST_ORP].tail = 0;
1383 
1384 		rescan = 0;
1385 		for (LIST_TRAVERSE(&list, lnp, ghp)) {
1386 			int	_error, _remove;
1387 
1388 			if (title++ == 0)
1389 				DBG_CALL(Dbg_file_del_rescan(ghp->gh_ownlml));
1390 
1391 			if (oghp) {
1392 				list_delete(&list, oghp);
1393 				oghp = 0;
1394 			}
1395 
1396 			if (((_error = remove_hdl(ghp, clmp, &_remove)) != 0) &&
1397 			    (error == 0))
1398 				error = _error;
1399 
1400 			if (_remove)
1401 				rescan++;
1402 
1403 			oghp = ghp;
1404 		}
1405 		if (oghp) {
1406 			list_delete(&list, oghp);
1407 			oghp = 0;
1408 		}
1409 
1410 	} while (rescan && hdl_list[HDLIST_ORP].head);
1411 
1412 	return (error);
1413 }
1414