xref: /titanic_51/usr/src/lib/libc/port/threads/thr.c (revision cd37da7426f0c49c14ad9a8a07638ca971477566)
1 /*
2  * CDDL HEADER START
3  *
4  * The contents of this file are subject to the terms of the
5  * Common Development and Distribution License (the "License").
6  * You may not use this file except in compliance with the License.
7  *
8  * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE
9  * or http://www.opensolaris.org/os/licensing.
10  * See the License for the specific language governing permissions
11  * and limitations under the License.
12  *
13  * When distributing Covered Code, include this CDDL HEADER in each
14  * file and include the License file at usr/src/OPENSOLARIS.LICENSE.
15  * If applicable, add the following below this CDDL HEADER, with the
16  * fields enclosed by brackets "[]" replaced with your own identifying
17  * information: Portions Copyright [yyyy] [name of copyright owner]
18  *
19  * CDDL HEADER END
20  */
21 
22 /*
23  * Copyright 2007 Sun Microsystems, Inc.  All rights reserved.
24  * Use is subject to license terms.
25  */
26 
27 #pragma ident	"%Z%%M%	%I%	%E% SMI"
28 
29 #include "lint.h"
30 #include "thr_uberdata.h"
31 #include <procfs.h>
32 #include <sys/uio.h>
33 #include <ctype.h>
34 
35 #undef errno
36 extern int errno;
37 
38 /*
39  * Between Solaris 2.5 and Solaris 9, __threaded was used to indicate
40  * "we are linked with libthread".  The Sun Workshop 6 update 1 compilation
41  * system used it illegally (it is a consolidation private symbol).
42  * To accommodate this and possibly other abusers of the symbol,
43  * we make it always equal to 1 now that libthread has been folded
44  * into libc.  The new __libc_threaded symbol is used to indicate
45  * the new meaning, "more than one thread exists".
46  */
47 int __threaded = 1;		/* always equal to 1 */
48 int __libc_threaded = 0;	/* zero until first thr_create() */
49 
50 /*
51  * thr_concurrency and pthread_concurrency are not used by the library.
52  * They exist solely to hold and return the values set by calls to
53  * thr_setconcurrency() and pthread_setconcurrency().
54  * Because thr_concurrency is affected by the THR_NEW_LWP flag
55  * to thr_create(), thr_concurrency is protected by link_lock.
56  */
57 static	int	thr_concurrency = 1;
58 static	int	pthread_concurrency;
59 
60 #define	HASHTBLSZ	1024	/* must be a power of two */
61 #define	TIDHASH(tid, udp)	(tid & (udp)->hash_mask)
62 
63 /* initial allocation, just enough for one lwp */
64 #pragma align 64(init_hash_table)
65 thr_hash_table_t init_hash_table[1] = {
66 	{ DEFAULTMUTEX, DEFAULTCV, NULL },
67 };
68 
69 extern const Lc_interface rtld_funcs[];
70 
71 /*
72  * The weak version is known to libc_db and mdb.
73  */
74 #pragma weak _uberdata = __uberdata
75 uberdata_t __uberdata = {
76 	{ DEFAULTMUTEX, NULL, 0 },	/* link_lock */
77 	{ RECURSIVEMUTEX, NULL, 0 },	/* fork_lock */
78 	{ RECURSIVEMUTEX, NULL, 0 },	/* atfork_lock */
79 	{ RECURSIVEMUTEX, NULL, 0 },	/* callout_lock */
80 	{ DEFAULTMUTEX, NULL, 0 },	/* tdb_hash_lock */
81 	{ 0, },				/* tdb_hash_lock_stats */
82 	{ { 0 }, },			/* siguaction[NSIG] */
83 	{{ DEFAULTMUTEX, NULL, 0 },		/* bucket[NBUCKETS] */
84 	{ DEFAULTMUTEX, NULL, 0 },
85 	{ DEFAULTMUTEX, NULL, 0 },
86 	{ DEFAULTMUTEX, NULL, 0 },
87 	{ DEFAULTMUTEX, NULL, 0 },
88 	{ DEFAULTMUTEX, NULL, 0 },
89 	{ DEFAULTMUTEX, NULL, 0 },
90 	{ DEFAULTMUTEX, NULL, 0 },
91 	{ DEFAULTMUTEX, NULL, 0 },
92 	{ DEFAULTMUTEX, NULL, 0 }},
93 	{ RECURSIVEMUTEX, NULL, NULL },		/* atexit_root */
94 	{ DEFAULTMUTEX, 0, 0, NULL },		/* tsd_metadata */
95 	{ DEFAULTMUTEX, {0, 0}, {0, 0} },	/* tls_metadata */
96 	0,			/* primary_map */
97 	0,			/* bucket_init */
98 	0,			/* pad[0] */
99 	0,			/* pad[1] */
100 	{ 0 },			/* uberflags */
101 	NULL,			/* queue_head */
102 	init_hash_table,	/* thr_hash_table */
103 	1,			/* hash_size: size of the hash table */
104 	0,			/* hash_mask: hash_size - 1 */
105 	NULL,			/* ulwp_one */
106 	NULL,			/* all_lwps */
107 	NULL,			/* all_zombies */
108 	0,			/* nthreads */
109 	0,			/* nzombies */
110 	0,			/* ndaemons */
111 	0,			/* pid */
112 	sigacthandler,		/* sigacthandler */
113 	NULL,			/* lwp_stacks */
114 	NULL,			/* lwp_laststack */
115 	0,			/* nfreestack */
116 	10,			/* thread_stack_cache */
117 	NULL,			/* ulwp_freelist */
118 	NULL,			/* ulwp_lastfree */
119 	NULL,			/* ulwp_replace_free */
120 	NULL,			/* ulwp_replace_last */
121 	NULL,			/* atforklist */
122 	NULL,			/* robustlocks */
123 	NULL,			/* __tdb_bootstrap */
124 	{			/* tdb */
125 		NULL,		/* tdb_sync_addr_hash */
126 		0,		/* tdb_register_count */
127 		0,		/* tdb_hash_alloc_failed */
128 		NULL,		/* tdb_sync_addr_free */
129 		NULL,		/* tdb_sync_addr_last */
130 		0,		/* tdb_sync_alloc */
131 		{ 0, 0 },	/* tdb_ev_global_mask */
132 		tdb_events,	/* tdb_events array */
133 	},
134 };
135 
136 /*
137  * The weak version is known to libc_db and mdb.
138  */
139 #pragma weak _tdb_bootstrap = __tdb_bootstrap
140 uberdata_t **__tdb_bootstrap = NULL;
141 
142 int	thread_queue_fifo = 4;
143 int	thread_queue_dump = 0;
144 int	thread_cond_wait_defer = 0;
145 int	thread_error_detection = 0;
146 int	thread_async_safe = 0;
147 int	thread_stack_cache = 10;
148 
149 int	thread_door_noreserve = 0;
150 
151 static	ulwp_t	*ulwp_alloc(void);
152 static	void	ulwp_free(ulwp_t *);
153 
154 /*
155  * Insert the lwp into the hash table.
156  */
157 void
158 hash_in_unlocked(ulwp_t *ulwp, int ix, uberdata_t *udp)
159 {
160 	ulwp->ul_hash = udp->thr_hash_table[ix].hash_bucket;
161 	udp->thr_hash_table[ix].hash_bucket = ulwp;
162 	ulwp->ul_ix = ix;
163 }
164 
165 void
166 hash_in(ulwp_t *ulwp, uberdata_t *udp)
167 {
168 	int ix = TIDHASH(ulwp->ul_lwpid, udp);
169 	mutex_t *mp = &udp->thr_hash_table[ix].hash_lock;
170 
171 	lmutex_lock(mp);
172 	hash_in_unlocked(ulwp, ix, udp);
173 	lmutex_unlock(mp);
174 }
175 
176 /*
177  * Delete the lwp from the hash table.
178  */
179 void
180 hash_out_unlocked(ulwp_t *ulwp, int ix, uberdata_t *udp)
181 {
182 	ulwp_t **ulwpp;
183 
184 	for (ulwpp = &udp->thr_hash_table[ix].hash_bucket;
185 	    ulwp != *ulwpp;
186 	    ulwpp = &(*ulwpp)->ul_hash)
187 		;
188 	*ulwpp = ulwp->ul_hash;
189 	ulwp->ul_hash = NULL;
190 	ulwp->ul_ix = -1;
191 }
192 
193 void
194 hash_out(ulwp_t *ulwp, uberdata_t *udp)
195 {
196 	int ix;
197 
198 	if ((ix = ulwp->ul_ix) >= 0) {
199 		mutex_t *mp = &udp->thr_hash_table[ix].hash_lock;
200 
201 		lmutex_lock(mp);
202 		hash_out_unlocked(ulwp, ix, udp);
203 		lmutex_unlock(mp);
204 	}
205 }
206 
207 static void
208 ulwp_clean(ulwp_t *ulwp)
209 {
210 	ulwp->ul_self = NULL;
211 	ulwp->ul_rval = NULL;
212 	ulwp->ul_lwpid = 0;
213 	ulwp->ul_pri = 0;
214 	ulwp->ul_mappedpri = 0;
215 	ulwp->ul_policy = 0;
216 	ulwp->ul_pri_mapped = 0;
217 	ulwp->ul_mutator = 0;
218 	ulwp->ul_pleasestop = 0;
219 	ulwp->ul_stop = 0;
220 	ulwp->ul_dead = 0;
221 	ulwp->ul_unwind = 0;
222 	ulwp->ul_detached = 0;
223 	ulwp->ul_stopping = 0;
224 	ulwp->ul_sp = 0;
225 	ulwp->ul_critical = 0;
226 	ulwp->ul_cancelable = 0;
227 	ulwp->ul_preempt = 0;
228 	ulwp->ul_sigsuspend = 0;
229 	ulwp->ul_cancel_pending = 0;
230 	ulwp->ul_cancel_disabled = 0;
231 	ulwp->ul_cancel_async = 0;
232 	ulwp->ul_save_async = 0;
233 	ulwp->ul_cursig = 0;
234 	ulwp->ul_created = 0;
235 	ulwp->ul_replace = 0;
236 	ulwp->ul_schedctl_called = NULL;
237 	ulwp->ul_errno = 0;
238 	ulwp->ul_errnop = NULL;
239 	ulwp->ul_clnup_hdr = NULL;
240 	ulwp->ul_schedctl = NULL;
241 	ulwp->ul_bindflags = 0;
242 	(void) _private_memset(&ulwp->ul_td_evbuf, 0,
243 	    sizeof (ulwp->ul_td_evbuf));
244 	ulwp->ul_td_events_enable = 0;
245 	ulwp->ul_qtype = 0;
246 	ulwp->ul_usropts = 0;
247 	ulwp->ul_startpc = NULL;
248 	ulwp->ul_startarg = NULL;
249 	ulwp->ul_wchan = NULL;
250 	ulwp->ul_link = NULL;
251 	ulwp->ul_sleepq = NULL;
252 	ulwp->ul_mxchain = NULL;
253 	ulwp->ul_epri = 0;
254 	ulwp->ul_emappedpri = 0;
255 	/* PROBE_SUPPORT begin */
256 	ulwp->ul_tpdp = NULL;
257 	/* PROBE_SUPPORT end */
258 	ulwp->ul_siglink = NULL;
259 	(void) _private_memset(ulwp->ul_ftsd, 0,
260 	    sizeof (void *) * TSD_NFAST);
261 	ulwp->ul_stsd = NULL;
262 	(void) _private_memset(&ulwp->ul_spinlock, 0,
263 	    sizeof (ulwp->ul_spinlock));
264 	ulwp->ul_spin_lock_spin = 0;
265 	ulwp->ul_spin_lock_spin2 = 0;
266 	ulwp->ul_spin_lock_sleep = 0;
267 	ulwp->ul_spin_lock_wakeup = 0;
268 	ulwp->ul_ex_unwind = NULL;
269 }
270 
271 static int stackprot;
272 
273 /*
274  * Answer the question, "Is the lwp in question really dead?"
275  * We must inquire of the operating system to be really sure
276  * because the lwp may have called lwp_exit() but it has not
277  * yet completed the exit.
278  */
279 static int
280 dead_and_buried(ulwp_t *ulwp)
281 {
282 	if (ulwp->ul_lwpid == (lwpid_t)(-1))
283 		return (1);
284 	if (ulwp->ul_dead && ulwp->ul_detached &&
285 	    __lwp_kill(ulwp->ul_lwpid, 0) == ESRCH) {
286 		ulwp->ul_lwpid = (lwpid_t)(-1);
287 		return (1);
288 	}
289 	return (0);
290 }
291 
292 /*
293  * Attempt to keep the stack cache within the specified cache limit.
294  */
295 static void
296 trim_stack_cache(int cache_limit)
297 {
298 	ulwp_t *self = curthread;
299 	uberdata_t *udp = self->ul_uberdata;
300 	ulwp_t *prev = NULL;
301 	ulwp_t **ulwpp = &udp->lwp_stacks;
302 	ulwp_t *ulwp;
303 
304 	ASSERT(udp->nthreads <= 1 || MUTEX_OWNED(&udp->link_lock, self));
305 
306 	while (udp->nfreestack > cache_limit && (ulwp = *ulwpp) != NULL) {
307 		if (dead_and_buried(ulwp)) {
308 			*ulwpp = ulwp->ul_next;
309 			if (ulwp == udp->lwp_laststack)
310 				udp->lwp_laststack = prev;
311 			hash_out(ulwp, udp);
312 			udp->nfreestack--;
313 			(void) _private_munmap(ulwp->ul_stk, ulwp->ul_mapsiz);
314 			/*
315 			 * Now put the free ulwp on the ulwp freelist.
316 			 */
317 			ulwp->ul_mapsiz = 0;
318 			ulwp->ul_next = NULL;
319 			if (udp->ulwp_freelist == NULL)
320 				udp->ulwp_freelist = udp->ulwp_lastfree = ulwp;
321 			else {
322 				udp->ulwp_lastfree->ul_next = ulwp;
323 				udp->ulwp_lastfree = ulwp;
324 			}
325 		} else {
326 			prev = ulwp;
327 			ulwpp = &ulwp->ul_next;
328 		}
329 	}
330 }
331 
332 /*
333  * Find an unused stack of the requested size
334  * or create a new stack of the requested size.
335  * Return a pointer to the ulwp_t structure referring to the stack, or NULL.
336  * thr_exit() stores 1 in the ul_dead member.
337  * thr_join() stores -1 in the ul_lwpid member.
338  */
339 ulwp_t *
340 find_stack(size_t stksize, size_t guardsize)
341 {
342 	static size_t pagesize = 0;
343 
344 	uberdata_t *udp = curthread->ul_uberdata;
345 	size_t mapsize;
346 	ulwp_t *prev;
347 	ulwp_t *ulwp;
348 	ulwp_t **ulwpp;
349 	void *stk;
350 
351 	/*
352 	 * The stack is allocated PROT_READ|PROT_WRITE|PROT_EXEC
353 	 * unless overridden by the system's configuration.
354 	 */
355 	if (stackprot == 0) {	/* do this once */
356 		long lprot = _sysconf(_SC_STACK_PROT);
357 		if (lprot <= 0)
358 			lprot = (PROT_READ|PROT_WRITE|PROT_EXEC);
359 		stackprot = (int)lprot;
360 	}
361 	if (pagesize == 0)	/* do this once */
362 		pagesize = _sysconf(_SC_PAGESIZE);
363 
364 	/*
365 	 * One megabyte stacks by default, but subtract off
366 	 * two pages for the system-created red zones.
367 	 * Round up a non-zero stack size to a pagesize multiple.
368 	 */
369 	if (stksize == 0)
370 		stksize = DEFAULTSTACK - 2 * pagesize;
371 	else
372 		stksize = ((stksize + pagesize - 1) & -pagesize);
373 
374 	/*
375 	 * Round up the mapping size to a multiple of pagesize.
376 	 * Note: mmap() provides at least one page of red zone
377 	 * so we deduct that from the value of guardsize.
378 	 */
379 	if (guardsize != 0)
380 		guardsize = ((guardsize + pagesize - 1) & -pagesize) - pagesize;
381 	mapsize = stksize + guardsize;
382 
383 	lmutex_lock(&udp->link_lock);
384 	for (prev = NULL, ulwpp = &udp->lwp_stacks;
385 	    (ulwp = *ulwpp) != NULL;
386 	    prev = ulwp, ulwpp = &ulwp->ul_next) {
387 		if (ulwp->ul_mapsiz == mapsize &&
388 		    ulwp->ul_guardsize == guardsize &&
389 		    dead_and_buried(ulwp)) {
390 			/*
391 			 * The previous lwp is gone; reuse the stack.
392 			 * Remove the ulwp from the stack list.
393 			 */
394 			*ulwpp = ulwp->ul_next;
395 			ulwp->ul_next = NULL;
396 			if (ulwp == udp->lwp_laststack)
397 				udp->lwp_laststack = prev;
398 			hash_out(ulwp, udp);
399 			udp->nfreestack--;
400 			lmutex_unlock(&udp->link_lock);
401 			ulwp_clean(ulwp);
402 			return (ulwp);
403 		}
404 	}
405 
406 	/*
407 	 * None of the cached stacks matched our mapping size.
408 	 * Reduce the stack cache to get rid of possibly
409 	 * very old stacks that will never be reused.
410 	 */
411 	if (udp->nfreestack > udp->thread_stack_cache)
412 		trim_stack_cache(udp->thread_stack_cache);
413 	else if (udp->nfreestack > 0)
414 		trim_stack_cache(udp->nfreestack - 1);
415 	lmutex_unlock(&udp->link_lock);
416 
417 	/*
418 	 * Create a new stack.
419 	 */
420 	if ((stk = _private_mmap(NULL, mapsize, stackprot,
421 	    MAP_PRIVATE|MAP_NORESERVE|MAP_ANON, -1, (off_t)0)) != MAP_FAILED) {
422 		/*
423 		 * We have allocated our stack.  Now allocate the ulwp.
424 		 */
425 		ulwp = ulwp_alloc();
426 		if (ulwp == NULL)
427 			(void) _private_munmap(stk, mapsize);
428 		else {
429 			ulwp->ul_stk = stk;
430 			ulwp->ul_mapsiz = mapsize;
431 			ulwp->ul_guardsize = guardsize;
432 			ulwp->ul_stktop = (uintptr_t)stk + mapsize;
433 			ulwp->ul_stksiz = stksize;
434 			ulwp->ul_ix = -1;
435 			if (guardsize)	/* protect the extra red zone */
436 				(void) _private_mprotect(stk,
437 				    guardsize, PROT_NONE);
438 		}
439 	}
440 	return (ulwp);
441 }
442 
443 /*
444  * Get a ulwp_t structure from the free list or allocate a new one.
445  * Such ulwp_t's do not have a stack allocated by the library.
446  */
447 static ulwp_t *
448 ulwp_alloc(void)
449 {
450 	ulwp_t *self = curthread;
451 	uberdata_t *udp = self->ul_uberdata;
452 	size_t tls_size;
453 	ulwp_t *prev;
454 	ulwp_t *ulwp;
455 	ulwp_t **ulwpp;
456 	caddr_t data;
457 
458 	lmutex_lock(&udp->link_lock);
459 	for (prev = NULL, ulwpp = &udp->ulwp_freelist;
460 	    (ulwp = *ulwpp) != NULL;
461 	    prev = ulwp, ulwpp = &ulwp->ul_next) {
462 		if (dead_and_buried(ulwp)) {
463 			*ulwpp = ulwp->ul_next;
464 			ulwp->ul_next = NULL;
465 			if (ulwp == udp->ulwp_lastfree)
466 				udp->ulwp_lastfree = prev;
467 			hash_out(ulwp, udp);
468 			lmutex_unlock(&udp->link_lock);
469 			ulwp_clean(ulwp);
470 			return (ulwp);
471 		}
472 	}
473 	lmutex_unlock(&udp->link_lock);
474 
475 	tls_size = roundup64(udp->tls_metadata.static_tls.tls_size);
476 	data = lmalloc(sizeof (*ulwp) + tls_size);
477 	if (data != NULL) {
478 		/* LINTED pointer cast may result in improper alignment */
479 		ulwp = (ulwp_t *)(data + tls_size);
480 	}
481 	return (ulwp);
482 }
483 
484 /*
485  * Free a ulwp structure.
486  * If there is an associated stack, put it on the stack list and
487  * munmap() previously freed stacks up to the residual cache limit.
488  * Else put it on the ulwp free list and never call lfree() on it.
489  */
490 static void
491 ulwp_free(ulwp_t *ulwp)
492 {
493 	uberdata_t *udp = curthread->ul_uberdata;
494 
495 	ASSERT(udp->nthreads <= 1 || MUTEX_OWNED(&udp->link_lock, curthread));
496 	ulwp->ul_next = NULL;
497 	if (ulwp == udp->ulwp_one)	/* don't reuse the primoridal stack */
498 		/*EMPTY*/;
499 	else if (ulwp->ul_mapsiz != 0) {
500 		if (udp->lwp_stacks == NULL)
501 			udp->lwp_stacks = udp->lwp_laststack = ulwp;
502 		else {
503 			udp->lwp_laststack->ul_next = ulwp;
504 			udp->lwp_laststack = ulwp;
505 		}
506 		if (++udp->nfreestack > udp->thread_stack_cache)
507 			trim_stack_cache(udp->thread_stack_cache);
508 	} else {
509 		if (udp->ulwp_freelist == NULL)
510 			udp->ulwp_freelist = udp->ulwp_lastfree = ulwp;
511 		else {
512 			udp->ulwp_lastfree->ul_next = ulwp;
513 			udp->ulwp_lastfree = ulwp;
514 		}
515 	}
516 }
517 
518 /*
519  * Find a named lwp and return a pointer to its hash list location.
520  * On success, returns with the hash lock held.
521  */
522 ulwp_t **
523 find_lwpp(thread_t tid)
524 {
525 	uberdata_t *udp = curthread->ul_uberdata;
526 	int ix = TIDHASH(tid, udp);
527 	mutex_t *mp = &udp->thr_hash_table[ix].hash_lock;
528 	ulwp_t *ulwp;
529 	ulwp_t **ulwpp;
530 
531 	if (tid == 0)
532 		return (NULL);
533 
534 	lmutex_lock(mp);
535 	for (ulwpp = &udp->thr_hash_table[ix].hash_bucket;
536 	    (ulwp = *ulwpp) != NULL;
537 	    ulwpp = &ulwp->ul_hash) {
538 		if (ulwp->ul_lwpid == tid)
539 			return (ulwpp);
540 	}
541 	lmutex_unlock(mp);
542 	return (NULL);
543 }
544 
545 /*
546  * Wake up all lwps waiting on this lwp for some reason.
547  */
548 void
549 ulwp_broadcast(ulwp_t *ulwp)
550 {
551 	ulwp_t *self = curthread;
552 	uberdata_t *udp = self->ul_uberdata;
553 
554 	ASSERT(MUTEX_OWNED(ulwp_mutex(ulwp, udp), self));
555 	(void) cond_broadcast_internal(ulwp_condvar(ulwp, udp));
556 }
557 
558 /*
559  * Find a named lwp and return a pointer to it.
560  * Returns with the hash lock held.
561  */
562 ulwp_t *
563 find_lwp(thread_t tid)
564 {
565 	ulwp_t *self = curthread;
566 	uberdata_t *udp = self->ul_uberdata;
567 	ulwp_t *ulwp = NULL;
568 	ulwp_t **ulwpp;
569 
570 	if (self->ul_lwpid == tid) {
571 		ulwp = self;
572 		ulwp_lock(ulwp, udp);
573 	} else if ((ulwpp = find_lwpp(tid)) != NULL) {
574 		ulwp = *ulwpp;
575 	}
576 
577 	if (ulwp && ulwp->ul_dead) {
578 		ulwp_unlock(ulwp, udp);
579 		ulwp = NULL;
580 	}
581 
582 	return (ulwp);
583 }
584 
585 int
586 _thrp_create(void *stk, size_t stksize, void *(*func)(void *), void *arg,
587 	long flags, thread_t *new_thread, pri_t priority, int policy,
588 	size_t guardsize)
589 {
590 	ulwp_t *self = curthread;
591 	uberdata_t *udp = self->ul_uberdata;
592 	ucontext_t uc;
593 	uint_t lwp_flags;
594 	thread_t tid;
595 	int error = 0;
596 	ulwp_t *ulwp;
597 
598 	/*
599 	 * Enforce the restriction of not creating any threads
600 	 * until the primary link map has been initialized.
601 	 * Also, disallow thread creation to a child of vfork().
602 	 */
603 	if (!self->ul_primarymap || self->ul_vfork)
604 		return (ENOTSUP);
605 
606 	if (udp->hash_size == 1)
607 		finish_init();
608 
609 	if (((stk || stksize) && stksize < MINSTACK) ||
610 	    priority < THREAD_MIN_PRIORITY || priority > THREAD_MAX_PRIORITY)
611 		return (EINVAL);
612 
613 	if (stk == NULL) {
614 		if ((ulwp = find_stack(stksize, guardsize)) == NULL)
615 			return (ENOMEM);
616 		stksize = ulwp->ul_mapsiz - ulwp->ul_guardsize;
617 	} else {
618 		/* initialize the private stack */
619 		if ((ulwp = ulwp_alloc()) == NULL)
620 			return (ENOMEM);
621 		ulwp->ul_stk = stk;
622 		ulwp->ul_stktop = (uintptr_t)stk + stksize;
623 		ulwp->ul_stksiz = stksize;
624 		ulwp->ul_ix = -1;
625 	}
626 	ulwp->ul_errnop = &ulwp->ul_errno;
627 
628 	lwp_flags = LWP_SUSPENDED;
629 	if (flags & (THR_DETACHED|THR_DAEMON)) {
630 		flags |= THR_DETACHED;
631 		lwp_flags |= LWP_DETACHED;
632 	}
633 	if (flags & THR_DAEMON)
634 		lwp_flags |= LWP_DAEMON;
635 
636 	/* creating a thread: enforce mt-correctness in _mutex_lock() */
637 	self->ul_async_safe = 1;
638 
639 	/* per-thread copies of global variables, for speed */
640 	ulwp->ul_queue_fifo = self->ul_queue_fifo;
641 	ulwp->ul_cond_wait_defer = self->ul_cond_wait_defer;
642 	ulwp->ul_error_detection = self->ul_error_detection;
643 	ulwp->ul_async_safe = self->ul_async_safe;
644 	ulwp->ul_max_spinners = self->ul_max_spinners;
645 	ulwp->ul_adaptive_spin = self->ul_adaptive_spin;
646 	ulwp->ul_queue_spin = self->ul_queue_spin;
647 	ulwp->ul_door_noreserve = self->ul_door_noreserve;
648 
649 	ulwp->ul_primarymap = self->ul_primarymap;
650 	ulwp->ul_self = ulwp;
651 	ulwp->ul_uberdata = udp;
652 
653 	/* debugger support */
654 	ulwp->ul_usropts = flags;
655 
656 #ifdef __sparc
657 	/*
658 	 * We cache several instructions in the thread structure for use
659 	 * by the fasttrap DTrace provider. When changing this, read the
660 	 * comment in fasttrap.h for the all the other places that must
661 	 * be changed.
662 	 */
663 	ulwp->ul_dsave = 0x9de04000;	/* save %g1, %g0, %sp */
664 	ulwp->ul_drestore = 0x81e80000;	/* restore %g0, %g0, %g0 */
665 	ulwp->ul_dftret = 0x91d0203a;	/* ta 0x3a */
666 	ulwp->ul_dreturn = 0x81ca0000;	/* return %o0 */
667 #endif
668 
669 	ulwp->ul_startpc = func;
670 	ulwp->ul_startarg = arg;
671 	_fpinherit(ulwp);
672 	/*
673 	 * Defer signals on the new thread until its TLS constructors
674 	 * have been called.  _thr_setup() will call sigon() after
675 	 * it has called tls_setup().
676 	 */
677 	ulwp->ul_sigdefer = 1;
678 
679 	if (setup_context(&uc, _thr_setup, ulwp,
680 	    (caddr_t)ulwp->ul_stk + ulwp->ul_guardsize, stksize) != 0)
681 		error = EAGAIN;
682 
683 	/*
684 	 * Call enter_critical() to avoid being suspended until we
685 	 * have linked the new thread into the proper lists.
686 	 * This is necessary because forkall() and fork1() must
687 	 * suspend all threads and they must see a complete list.
688 	 */
689 	enter_critical(self);
690 	uc.uc_sigmask = ulwp->ul_sigmask = self->ul_sigmask;
691 	if (error != 0 ||
692 	    (error = __lwp_create(&uc, lwp_flags, &tid)) != 0) {
693 		exit_critical(self);
694 		ulwp->ul_lwpid = (lwpid_t)(-1);
695 		ulwp->ul_dead = 1;
696 		ulwp->ul_detached = 1;
697 		lmutex_lock(&udp->link_lock);
698 		ulwp_free(ulwp);
699 		lmutex_unlock(&udp->link_lock);
700 		return (error);
701 	}
702 	self->ul_nocancel = 0;	/* cancellation is now possible */
703 	ulwp->ul_nocancel = 0;
704 	udp->uberflags.uf_mt = 1;
705 	if (new_thread)
706 		*new_thread = tid;
707 	if (flags & THR_DETACHED)
708 		ulwp->ul_detached = 1;
709 	ulwp->ul_lwpid = tid;
710 	ulwp->ul_stop = TSTP_REGULAR;
711 	if (flags & THR_SUSPENDED)
712 		ulwp->ul_created = 1;
713 	ulwp->ul_policy = policy;
714 	ulwp->ul_pri = priority;
715 
716 	lmutex_lock(&udp->link_lock);
717 	ulwp->ul_forw = udp->all_lwps;
718 	ulwp->ul_back = udp->all_lwps->ul_back;
719 	ulwp->ul_back->ul_forw = ulwp;
720 	ulwp->ul_forw->ul_back = ulwp;
721 	hash_in(ulwp, udp);
722 	udp->nthreads++;
723 	if (flags & THR_DAEMON)
724 		udp->ndaemons++;
725 	if (flags & THR_NEW_LWP)
726 		thr_concurrency++;
727 	__libc_threaded = 1;		/* inform stdio */
728 	lmutex_unlock(&udp->link_lock);
729 
730 	if (__td_event_report(self, TD_CREATE, udp)) {
731 		self->ul_td_evbuf.eventnum = TD_CREATE;
732 		self->ul_td_evbuf.eventdata = (void *)(uintptr_t)tid;
733 		tdb_event(TD_CREATE, udp);
734 	}
735 
736 	exit_critical(self);
737 
738 	if (!(flags & THR_SUSPENDED))
739 		(void) _thrp_continue(tid, TSTP_REGULAR);
740 
741 	return (0);
742 }
743 
744 #pragma weak thr_create = _thr_create
745 int
746 _thr_create(void *stk, size_t stksize, void *(*func)(void *), void *arg,
747 	long flags, thread_t *new_thread)
748 {
749 	return (_thrp_create(stk, stksize, func, arg, flags, new_thread,
750 	    curthread->ul_pri, curthread->ul_policy, 0));
751 }
752 
753 /*
754  * A special cancellation cleanup hook for DCE.
755  * cleanuphndlr, when it is not NULL, will contain a callback
756  * function to be called before a thread is terminated in
757  * _thr_exit() as a result of being cancelled.
758  */
759 static void (*cleanuphndlr)(void) = NULL;
760 
761 /*
762  * _pthread_setcleanupinit: sets the cleanup hook.
763  */
764 int
765 _pthread_setcleanupinit(void (*func)(void))
766 {
767 	cleanuphndlr = func;
768 	return (0);
769 }
770 
771 void
772 _thrp_exit()
773 {
774 	ulwp_t *self = curthread;
775 	uberdata_t *udp = self->ul_uberdata;
776 	ulwp_t *replace = NULL;
777 
778 	if (__td_event_report(self, TD_DEATH, udp)) {
779 		self->ul_td_evbuf.eventnum = TD_DEATH;
780 		tdb_event(TD_DEATH, udp);
781 	}
782 
783 	ASSERT(self->ul_sigdefer != 0);
784 
785 	lmutex_lock(&udp->link_lock);
786 	udp->nthreads--;
787 	if (self->ul_usropts & THR_NEW_LWP)
788 		thr_concurrency--;
789 	if (self->ul_usropts & THR_DAEMON)
790 		udp->ndaemons--;
791 	else if (udp->nthreads == udp->ndaemons) {
792 		/*
793 		 * We are the last non-daemon thread exiting.
794 		 * Exit the process.  We retain our TSD and TLS so
795 		 * that atexit() application functions can use them.
796 		 */
797 		lmutex_unlock(&udp->link_lock);
798 		exit(0);
799 		thr_panic("_thrp_exit(): exit(0) returned");
800 	}
801 	lmutex_unlock(&udp->link_lock);
802 
803 	tsd_exit();		/* deallocate thread-specific data */
804 	tls_exit();		/* deallocate thread-local storage */
805 	heldlock_exit();	/* deal with left-over held locks */
806 
807 	/* block all signals to finish exiting */
808 	block_all_signals(self);
809 	/* also prevent ourself from being suspended */
810 	enter_critical(self);
811 	rwl_free(self);
812 	lmutex_lock(&udp->link_lock);
813 	ulwp_free(self);
814 	(void) ulwp_lock(self, udp);
815 
816 	if (self->ul_mapsiz && !self->ul_detached) {
817 		/*
818 		 * We want to free the stack for reuse but must keep
819 		 * the ulwp_t struct for the benefit of thr_join().
820 		 * For this purpose we allocate a replacement ulwp_t.
821 		 */
822 		if ((replace = udp->ulwp_replace_free) == NULL)
823 			replace = lmalloc(REPLACEMENT_SIZE);
824 		else if ((udp->ulwp_replace_free = replace->ul_next) == NULL)
825 			udp->ulwp_replace_last = NULL;
826 	}
827 
828 	if (udp->all_lwps == self)
829 		udp->all_lwps = self->ul_forw;
830 	if (udp->all_lwps == self)
831 		udp->all_lwps = NULL;
832 	else {
833 		self->ul_forw->ul_back = self->ul_back;
834 		self->ul_back->ul_forw = self->ul_forw;
835 	}
836 	self->ul_forw = self->ul_back = NULL;
837 	/* collect queue lock statistics before marking ourself dead */
838 	record_spin_locks(self);
839 	self->ul_dead = 1;
840 	self->ul_pleasestop = 0;
841 	if (replace != NULL) {
842 		int ix = self->ul_ix;		/* the hash index */
843 		(void) _private_memcpy(replace, self, REPLACEMENT_SIZE);
844 		replace->ul_self = replace;
845 		replace->ul_next = NULL;	/* clone not on stack list */
846 		replace->ul_mapsiz = 0;		/* allows clone to be freed */
847 		replace->ul_replace = 1;	/* requires clone to be freed */
848 		hash_out_unlocked(self, ix, udp);
849 		hash_in_unlocked(replace, ix, udp);
850 		ASSERT(!(self->ul_detached));
851 		self->ul_detached = 1;		/* this frees the stack */
852 		self->ul_schedctl = NULL;
853 		self->ul_schedctl_called = &udp->uberflags;
854 		set_curthread(self = replace);
855 		/*
856 		 * Having just changed the address of curthread, we
857 		 * must reset the ownership of the locks we hold so
858 		 * that assertions will not fire when we release them.
859 		 */
860 		udp->link_lock.mutex_owner = (uintptr_t)self;
861 		ulwp_mutex(self, udp)->mutex_owner = (uintptr_t)self;
862 		/*
863 		 * NOTE:
864 		 * On i386, %gs still references the original, not the
865 		 * replacement, ulwp structure.  Fetching the replacement
866 		 * curthread pointer via %gs:0 works correctly since the
867 		 * original ulwp structure will not be reallocated until
868 		 * this lwp has completed its lwp_exit() system call (see
869 		 * dead_and_buried()), but from here on out, we must make
870 		 * no references to %gs:<offset> other than %gs:0.
871 		 */
872 	}
873 	/*
874 	 * Put non-detached terminated threads in the all_zombies list.
875 	 */
876 	if (!self->ul_detached) {
877 		udp->nzombies++;
878 		if (udp->all_zombies == NULL) {
879 			ASSERT(udp->nzombies == 1);
880 			udp->all_zombies = self->ul_forw = self->ul_back = self;
881 		} else {
882 			self->ul_forw = udp->all_zombies;
883 			self->ul_back = udp->all_zombies->ul_back;
884 			self->ul_back->ul_forw = self;
885 			self->ul_forw->ul_back = self;
886 		}
887 	}
888 	/*
889 	 * Notify everyone waiting for this thread.
890 	 */
891 	ulwp_broadcast(self);
892 	(void) ulwp_unlock(self, udp);
893 	/*
894 	 * Prevent any more references to the schedctl data.
895 	 * We are exiting and continue_fork() may not find us.
896 	 * Do this just before dropping link_lock, since fork
897 	 * serializes on link_lock.
898 	 */
899 	self->ul_schedctl = NULL;
900 	self->ul_schedctl_called = &udp->uberflags;
901 	lmutex_unlock(&udp->link_lock);
902 
903 	ASSERT(self->ul_critical == 1);
904 	ASSERT(self->ul_preempt == 0);
905 	_lwp_terminate();	/* never returns */
906 	thr_panic("_thrp_exit(): _lwp_terminate() returned");
907 }
908 
909 void
910 collect_queue_statistics()
911 {
912 	uberdata_t *udp = curthread->ul_uberdata;
913 	ulwp_t *ulwp;
914 
915 	if (thread_queue_dump) {
916 		lmutex_lock(&udp->link_lock);
917 		if ((ulwp = udp->all_lwps) != NULL) {
918 			do {
919 				record_spin_locks(ulwp);
920 			} while ((ulwp = ulwp->ul_forw) != udp->all_lwps);
921 		}
922 		lmutex_unlock(&udp->link_lock);
923 	}
924 }
925 
926 void
927 _thr_exit_common(void *status, int unwind)
928 {
929 	ulwp_t *self = curthread;
930 	int cancelled = (self->ul_cancel_pending && status == PTHREAD_CANCELED);
931 
932 	ASSERT(self->ul_critical == 0 && self->ul_preempt == 0);
933 
934 	/*
935 	 * Disable cancellation and call the special DCE cancellation
936 	 * cleanup hook if it is enabled.  Do nothing else before calling
937 	 * the DCE cancellation cleanup hook; it may call longjmp() and
938 	 * never return here.
939 	 */
940 	self->ul_cancel_disabled = 1;
941 	self->ul_cancel_async = 0;
942 	self->ul_save_async = 0;
943 	self->ul_cancelable = 0;
944 	self->ul_cancel_pending = 0;
945 	if (cancelled && cleanuphndlr != NULL)
946 		(*cleanuphndlr)();
947 
948 	/*
949 	 * Block application signals while we are exiting.
950 	 * We call out to C++, TSD, and TLS destructors while exiting
951 	 * and these are application-defined, so we cannot be assured
952 	 * that they won't reset the signal mask.  We use sigoff() to
953 	 * defer any signals that may be received as a result of this
954 	 * bad behavior.  Such signals will be lost to the process
955 	 * when the thread finishes exiting.
956 	 */
957 	(void) _thr_sigsetmask(SIG_SETMASK, &maskset, NULL);
958 	sigoff(self);
959 
960 	self->ul_rval = status;
961 
962 	/*
963 	 * If thr_exit is being called from the places where
964 	 * C++ destructors are to be called such as cancellation
965 	 * points, then set this flag. It is checked in _t_cancel()
966 	 * to decide whether _ex_unwind() is to be called or not.
967 	 */
968 	if (unwind)
969 		self->ul_unwind = 1;
970 
971 	/*
972 	 * _thrp_unwind() will eventually call _thrp_exit().
973 	 * It never returns.
974 	 */
975 	_thrp_unwind(NULL);
976 	thr_panic("_thr_exit_common(): _thrp_unwind() returned");
977 }
978 
979 /*
980  * Called when a thread returns from its start function.
981  * We are at the top of the stack; no unwinding is necessary.
982  */
983 void
984 _thr_terminate(void *status)
985 {
986 	_thr_exit_common(status, 0);
987 }
988 
989 #pragma weak thr_exit = _thr_exit
990 #pragma weak pthread_exit = _thr_exit
991 #pragma weak _pthread_exit = _thr_exit
992 void
993 _thr_exit(void *status)
994 {
995 	_thr_exit_common(status, 1);
996 }
997 
998 int
999 _thrp_join(thread_t tid, thread_t *departed, void **status, int do_cancel)
1000 {
1001 	uberdata_t *udp = curthread->ul_uberdata;
1002 	mutex_t *mp;
1003 	void *rval;
1004 	thread_t found;
1005 	ulwp_t *ulwp;
1006 	ulwp_t **ulwpp;
1007 	int replace;
1008 	int error;
1009 
1010 	if (do_cancel)
1011 		error = lwp_wait(tid, &found);
1012 	else {
1013 		while ((error = __lwp_wait(tid, &found)) == EINTR)
1014 			;
1015 	}
1016 	if (error)
1017 		return (error);
1018 
1019 	/*
1020 	 * We must hold link_lock to avoid a race condition with find_stack().
1021 	 */
1022 	lmutex_lock(&udp->link_lock);
1023 	if ((ulwpp = find_lwpp(found)) == NULL) {
1024 		/*
1025 		 * lwp_wait() found an lwp that the library doesn't know
1026 		 * about.  It must have been created with _lwp_create().
1027 		 * Just return its lwpid; we can't know its status.
1028 		 */
1029 		lmutex_unlock(&udp->link_lock);
1030 		rval = NULL;
1031 	} else {
1032 		/*
1033 		 * Remove ulwp from the hash table.
1034 		 */
1035 		ulwp = *ulwpp;
1036 		*ulwpp = ulwp->ul_hash;
1037 		ulwp->ul_hash = NULL;
1038 		/*
1039 		 * Remove ulwp from all_zombies list.
1040 		 */
1041 		ASSERT(udp->nzombies >= 1);
1042 		if (udp->all_zombies == ulwp)
1043 			udp->all_zombies = ulwp->ul_forw;
1044 		if (udp->all_zombies == ulwp)
1045 			udp->all_zombies = NULL;
1046 		else {
1047 			ulwp->ul_forw->ul_back = ulwp->ul_back;
1048 			ulwp->ul_back->ul_forw = ulwp->ul_forw;
1049 		}
1050 		ulwp->ul_forw = ulwp->ul_back = NULL;
1051 		udp->nzombies--;
1052 		ASSERT(ulwp->ul_dead && !ulwp->ul_detached &&
1053 		    !(ulwp->ul_usropts & (THR_DETACHED|THR_DAEMON)));
1054 		/*
1055 		 * We can't call ulwp_unlock(ulwp) after we set
1056 		 * ulwp->ul_ix = -1 so we have to get a pointer to the
1057 		 * ulwp's hash table mutex now in order to unlock it below.
1058 		 */
1059 		mp = ulwp_mutex(ulwp, udp);
1060 		ulwp->ul_lwpid = (lwpid_t)(-1);
1061 		ulwp->ul_ix = -1;
1062 		rval = ulwp->ul_rval;
1063 		replace = ulwp->ul_replace;
1064 		lmutex_unlock(mp);
1065 		if (replace) {
1066 			ulwp->ul_next = NULL;
1067 			if (udp->ulwp_replace_free == NULL)
1068 				udp->ulwp_replace_free =
1069 				    udp->ulwp_replace_last = ulwp;
1070 			else {
1071 				udp->ulwp_replace_last->ul_next = ulwp;
1072 				udp->ulwp_replace_last = ulwp;
1073 			}
1074 		}
1075 		lmutex_unlock(&udp->link_lock);
1076 	}
1077 
1078 	if (departed != NULL)
1079 		*departed = found;
1080 	if (status != NULL)
1081 		*status = rval;
1082 	return (0);
1083 }
1084 
1085 #pragma weak thr_join = _thr_join
1086 int
1087 _thr_join(thread_t tid, thread_t *departed, void **status)
1088 {
1089 	int error = _thrp_join(tid, departed, status, 1);
1090 	return ((error == EINVAL)? ESRCH : error);
1091 }
1092 
1093 /*
1094  * pthread_join() differs from Solaris thr_join():
1095  * It does not return the departed thread's id
1096  * and hence does not have a "departed" argument.
1097  * It returns EINVAL if tid refers to a detached thread.
1098  */
1099 #pragma weak pthread_join = _pthread_join
1100 int
1101 _pthread_join(pthread_t tid, void **status)
1102 {
1103 	return ((tid == 0)? ESRCH : _thrp_join(tid, NULL, status, 1));
1104 }
1105 
1106 #pragma weak pthread_detach = _thr_detach
1107 #pragma weak _pthread_detach = _thr_detach
1108 int
1109 _thr_detach(thread_t tid)
1110 {
1111 	uberdata_t *udp = curthread->ul_uberdata;
1112 	ulwp_t *ulwp;
1113 	ulwp_t **ulwpp;
1114 	int error = 0;
1115 
1116 	if ((ulwpp = find_lwpp(tid)) == NULL)
1117 		return (ESRCH);
1118 	ulwp = *ulwpp;
1119 
1120 	if (ulwp->ul_dead) {
1121 		ulwp_unlock(ulwp, udp);
1122 		error = _thrp_join(tid, NULL, NULL, 0);
1123 	} else {
1124 		error = __lwp_detach(tid);
1125 		ulwp->ul_detached = 1;
1126 		ulwp->ul_usropts |= THR_DETACHED;
1127 		ulwp_unlock(ulwp, udp);
1128 	}
1129 	return (error);
1130 }
1131 
1132 /*
1133  * Static local string compare function to avoid calling strncmp()
1134  * (and hence the dynamic linker) during library initialization.
1135  */
1136 static int
1137 sncmp(const char *s1, const char *s2, size_t n)
1138 {
1139 	n++;
1140 	while (--n != 0 && *s1 == *s2++)
1141 		if (*s1++ == '\0')
1142 			return (0);
1143 	return (n == 0 ? 0 : *(uchar_t *)s1 - *(uchar_t *)--s2);
1144 }
1145 
1146 static const char *
1147 ematch(const char *ev, const char *match)
1148 {
1149 	int c;
1150 
1151 	while ((c = *match++) != '\0') {
1152 		if (*ev++ != c)
1153 			return (NULL);
1154 	}
1155 	if (*ev++ != '=')
1156 		return (NULL);
1157 	return (ev);
1158 }
1159 
1160 static int
1161 envvar(const char *ev, const char *match, int limit)
1162 {
1163 	int val = -1;
1164 	const char *ename;
1165 
1166 	if ((ename = ematch(ev, match)) != NULL) {
1167 		int c;
1168 		for (val = 0; (c = *ename) != '\0'; ename++) {
1169 			if (!isdigit(c)) {
1170 				val = -1;
1171 				break;
1172 			}
1173 			val = val * 10 + (c - '0');
1174 			if (val > limit) {
1175 				val = limit;
1176 				break;
1177 			}
1178 		}
1179 	}
1180 	return (val);
1181 }
1182 
1183 static void
1184 etest(const char *ev)
1185 {
1186 	int value;
1187 
1188 	if ((value = envvar(ev, "QUEUE_SPIN", 1000000)) >= 0)
1189 		thread_queue_spin = value;
1190 	if ((value = envvar(ev, "ADAPTIVE_SPIN", 1000000)) >= 0)
1191 		thread_adaptive_spin = value;
1192 	if ((value = envvar(ev, "MAX_SPINNERS", 255)) >= 0)
1193 		thread_max_spinners = value;
1194 	if ((value = envvar(ev, "QUEUE_FIFO", 8)) >= 0)
1195 		thread_queue_fifo = value;
1196 #if defined(THREAD_DEBUG)
1197 	if ((value = envvar(ev, "QUEUE_VERIFY", 1)) >= 0)
1198 		thread_queue_verify = value;
1199 #endif
1200 	if ((value = envvar(ev, "QUEUE_DUMP", 1)) >= 0)
1201 		thread_queue_dump = value;
1202 	if ((value = envvar(ev, "STACK_CACHE", 10000)) >= 0)
1203 		thread_stack_cache = value;
1204 	if ((value = envvar(ev, "COND_WAIT_DEFER", 1)) >= 0)
1205 		thread_cond_wait_defer = value;
1206 	if ((value = envvar(ev, "ERROR_DETECTION", 2)) >= 0)
1207 		thread_error_detection = value;
1208 	if ((value = envvar(ev, "ASYNC_SAFE", 1)) >= 0)
1209 		thread_async_safe = value;
1210 	if ((value = envvar(ev, "DOOR_NORESERVE", 1)) >= 0)
1211 		thread_door_noreserve = value;
1212 }
1213 
1214 /*
1215  * Look for and evaluate environment variables of the form "_THREAD_*".
1216  * For compatibility with the past, we also look for environment
1217  * names of the form "LIBTHREAD_*".
1218  */
1219 static void
1220 set_thread_vars()
1221 {
1222 	extern const char **_environ;
1223 	const char **pev;
1224 	const char *ev;
1225 	char c;
1226 
1227 	if ((pev = _environ) == NULL)
1228 		return;
1229 	while ((ev = *pev++) != NULL) {
1230 		c = *ev;
1231 		if (c == '_' && sncmp(ev, "_THREAD_", 8) == 0)
1232 			etest(ev + 8);
1233 		if (c == 'L' && sncmp(ev, "LIBTHREAD_", 10) == 0)
1234 			etest(ev + 10);
1235 	}
1236 }
1237 
1238 /* PROBE_SUPPORT begin */
1239 #pragma weak __tnf_probe_notify
1240 extern void __tnf_probe_notify(void);
1241 /* PROBE_SUPPORT end */
1242 
1243 /* same as atexit() but private to the library */
1244 extern int _atexit(void (*)(void));
1245 
1246 /* same as _cleanup() but private to the library */
1247 extern void __cleanup(void);
1248 
1249 extern void atfork_init(void);
1250 
1251 #ifdef __amd64
1252 extern void __amd64id(void);
1253 #endif
1254 
1255 /*
1256  * libc_init() is called by ld.so.1 for library initialization.
1257  * We perform minimal initialization; enough to work with the main thread.
1258  */
1259 void
1260 libc_init(void)
1261 {
1262 	uberdata_t *udp = &__uberdata;
1263 	ulwp_t *oldself = __curthread();
1264 	ucontext_t uc;
1265 	ulwp_t *self;
1266 	struct rlimit rl;
1267 	caddr_t data;
1268 	size_t tls_size;
1269 	int setmask;
1270 
1271 	/*
1272 	 * For the initial stage of initialization, we must be careful
1273 	 * not to call any function that could possibly call _cerror().
1274 	 * For this purpose, we call only the raw system call wrappers.
1275 	 */
1276 
1277 #ifdef __amd64
1278 	/*
1279 	 * Gather information about cache layouts for optimized
1280 	 * AMD assembler strfoo() and memfoo() functions.
1281 	 */
1282 	__amd64id();
1283 #endif
1284 
1285 	/*
1286 	 * Every libc, regardless of which link map, must register __cleanup().
1287 	 */
1288 	(void) _atexit(__cleanup);
1289 
1290 	/*
1291 	 * We keep our uberdata on one of (a) the first alternate link map
1292 	 * or (b) the primary link map.  We switch to the primary link map
1293 	 * and stay there once we see it.  All intermediate link maps are
1294 	 * subject to being unloaded at any time.
1295 	 */
1296 	if (oldself != NULL && (oldself->ul_primarymap || !primary_link_map)) {
1297 		__tdb_bootstrap = oldself->ul_uberdata->tdb_bootstrap;
1298 		mutex_setup();
1299 		atfork_init();	/* every link map needs atfork() processing */
1300 		return;
1301 	}
1302 
1303 	/*
1304 	 * To establish the main stack information, we have to get our context.
1305 	 * This is also convenient to use for getting our signal mask.
1306 	 */
1307 	uc.uc_flags = UC_ALL;
1308 	(void) __getcontext_syscall(&uc);
1309 	ASSERT(uc.uc_link == NULL);
1310 
1311 	tls_size = roundup64(udp->tls_metadata.static_tls.tls_size);
1312 	ASSERT(primary_link_map || tls_size == 0);
1313 	data = lmalloc(sizeof (ulwp_t) + tls_size);
1314 	if (data == NULL)
1315 		thr_panic("cannot allocate thread structure for main thread");
1316 	/* LINTED pointer cast may result in improper alignment */
1317 	self = (ulwp_t *)(data + tls_size);
1318 	init_hash_table[0].hash_bucket = self;
1319 
1320 	self->ul_sigmask = uc.uc_sigmask;
1321 	delete_reserved_signals(&self->ul_sigmask);
1322 	/*
1323 	 * Are the old and new sets different?
1324 	 * (This can happen if we are currently blocking SIGCANCEL.)
1325 	 * If so, we must explicitly set our signal mask, below.
1326 	 */
1327 	setmask =
1328 	    ((self->ul_sigmask.__sigbits[0] ^ uc.uc_sigmask.__sigbits[0]) |
1329 	    (self->ul_sigmask.__sigbits[1] ^ uc.uc_sigmask.__sigbits[1]));
1330 
1331 #ifdef __sparc
1332 	/*
1333 	 * We cache several instructions in the thread structure for use
1334 	 * by the fasttrap DTrace provider. When changing this, read the
1335 	 * comment in fasttrap.h for the all the other places that must
1336 	 * be changed.
1337 	 */
1338 	self->ul_dsave = 0x9de04000;	/* save %g1, %g0, %sp */
1339 	self->ul_drestore = 0x81e80000;	/* restore %g0, %g0, %g0 */
1340 	self->ul_dftret = 0x91d0203a;	/* ta 0x3a */
1341 	self->ul_dreturn = 0x81ca0000;	/* return %o0 */
1342 #endif
1343 
1344 	self->ul_stktop =
1345 	    (uintptr_t)uc.uc_stack.ss_sp + uc.uc_stack.ss_size;
1346 	(void) _private_getrlimit(RLIMIT_STACK, &rl);
1347 	self->ul_stksiz = rl.rlim_cur;
1348 	self->ul_stk = (caddr_t)(self->ul_stktop - self->ul_stksiz);
1349 
1350 	self->ul_forw = self->ul_back = self;
1351 	self->ul_hash = NULL;
1352 	self->ul_ix = 0;
1353 	self->ul_lwpid = 1; /* __lwp_self() */
1354 	self->ul_main = 1;
1355 	self->ul_self = self;
1356 	self->ul_uberdata = udp;
1357 	if (oldself != NULL) {
1358 		int i;
1359 
1360 		ASSERT(primary_link_map);
1361 		ASSERT(oldself->ul_main == 1);
1362 		self->ul_stsd = oldself->ul_stsd;
1363 		for (i = 0; i < TSD_NFAST; i++)
1364 			self->ul_ftsd[i] = oldself->ul_ftsd[i];
1365 		self->ul_tls = oldself->ul_tls;
1366 		/*
1367 		 * Retrieve all pointers to uberdata allocated
1368 		 * while running on previous link maps.
1369 		 * We would like to do a structure assignment here, but
1370 		 * gcc turns structure assignments into calls to memcpy(),
1371 		 * a function exported from libc.  We can't call any such
1372 		 * external functions until we establish curthread, below,
1373 		 * so we just call our private version of memcpy().
1374 		 */
1375 		(void) _private_memcpy(udp,
1376 		    oldself->ul_uberdata, sizeof (*udp));
1377 		/*
1378 		 * These items point to global data on the primary link map.
1379 		 */
1380 		udp->thr_hash_table = init_hash_table;
1381 		udp->sigacthandler = sigacthandler;
1382 		udp->tdb.tdb_events = tdb_events;
1383 		ASSERT(udp->nthreads == 1 && !udp->uberflags.uf_mt);
1384 		ASSERT(udp->lwp_stacks == NULL);
1385 		ASSERT(udp->ulwp_freelist == NULL);
1386 		ASSERT(udp->ulwp_replace_free == NULL);
1387 		ASSERT(udp->hash_size == 1);
1388 	}
1389 	udp->all_lwps = self;
1390 	udp->ulwp_one = self;
1391 	udp->pid = _private_getpid();
1392 	udp->nthreads = 1;
1393 	/*
1394 	 * In every link map, tdb_bootstrap points to the same piece of
1395 	 * allocated memory.  When the primary link map is initialized,
1396 	 * the allocated memory is assigned a pointer to the one true
1397 	 * uberdata.  This allows libc_db to initialize itself regardless
1398 	 * of which instance of libc it finds in the address space.
1399 	 */
1400 	if (udp->tdb_bootstrap == NULL)
1401 		udp->tdb_bootstrap = lmalloc(sizeof (uberdata_t *));
1402 	__tdb_bootstrap = udp->tdb_bootstrap;
1403 	if (primary_link_map) {
1404 		self->ul_primarymap = 1;
1405 		udp->primary_map = 1;
1406 		*udp->tdb_bootstrap = udp;
1407 	}
1408 	/*
1409 	 * Cancellation can't happen until:
1410 	 *	pthread_cancel() is called
1411 	 * or:
1412 	 *	another thread is created
1413 	 * For now, as a single-threaded process, set the flag that tells
1414 	 * PROLOGUE/EPILOGUE (in scalls.c) that cancellation can't happen.
1415 	 */
1416 	self->ul_nocancel = 1;
1417 
1418 #if defined(__amd64)
1419 	(void) ___lwp_private(_LWP_SETPRIVATE, _LWP_FSBASE, self);
1420 #elif defined(__i386)
1421 	(void) ___lwp_private(_LWP_SETPRIVATE, _LWP_GSBASE, self);
1422 #endif	/* __i386 || __amd64 */
1423 	set_curthread(self);		/* redundant on i386 */
1424 	/*
1425 	 * Now curthread is established and it is safe to call any
1426 	 * function in libc except one that uses thread-local storage.
1427 	 */
1428 	self->ul_errnop = &errno;
1429 	if (oldself != NULL) {
1430 		/* tls_size was zero when oldself was allocated */
1431 		lfree(oldself, sizeof (ulwp_t));
1432 	}
1433 	mutex_setup();
1434 	atfork_init();
1435 	signal_init();
1436 
1437 	/*
1438 	 * If the stack is unlimited, we set the size to zero to disable
1439 	 * stack checking.
1440 	 * XXX: Work harder here.  Get the stack size from /proc/self/rmap
1441 	 */
1442 	if (self->ul_stksiz == RLIM_INFINITY) {
1443 		self->ul_ustack.ss_sp = (void *)self->ul_stktop;
1444 		self->ul_ustack.ss_size = 0;
1445 	} else {
1446 		self->ul_ustack.ss_sp = self->ul_stk;
1447 		self->ul_ustack.ss_size = self->ul_stksiz;
1448 	}
1449 	self->ul_ustack.ss_flags = 0;
1450 	(void) _private_setustack(&self->ul_ustack);
1451 
1452 	/*
1453 	 * Get the variables that affect thread behavior from the environment.
1454 	 */
1455 	set_thread_vars();
1456 	udp->uberflags.uf_thread_error_detection = (char)thread_error_detection;
1457 	udp->thread_stack_cache = thread_stack_cache;
1458 
1459 	/*
1460 	 * Make per-thread copies of global variables, for speed.
1461 	 */
1462 	self->ul_queue_fifo = (char)thread_queue_fifo;
1463 	self->ul_cond_wait_defer = (char)thread_cond_wait_defer;
1464 	self->ul_error_detection = (char)thread_error_detection;
1465 	self->ul_async_safe = (char)thread_async_safe;
1466 	self->ul_door_noreserve = (char)thread_door_noreserve;
1467 	self->ul_max_spinners = (uint8_t)thread_max_spinners;
1468 	self->ul_adaptive_spin = thread_adaptive_spin;
1469 	self->ul_queue_spin = thread_queue_spin;
1470 
1471 	/*
1472 	 * When we have initialized the primary link map, inform
1473 	 * the dynamic linker about our interface functions.
1474 	 */
1475 	if (self->ul_primarymap)
1476 		_ld_libc((void *)rtld_funcs);
1477 
1478 	/*
1479 	 * Defer signals until TLS constructors have been called.
1480 	 */
1481 	sigoff(self);
1482 	tls_setup();
1483 	sigon(self);
1484 	if (setmask)
1485 		(void) restore_signals(self);
1486 
1487 	/* PROBE_SUPPORT begin */
1488 	if (self->ul_primarymap && __tnf_probe_notify != NULL)
1489 		__tnf_probe_notify();
1490 	/* PROBE_SUPPORT end */
1491 
1492 	init_sigev_thread();
1493 	init_aio();
1494 
1495 	/*
1496 	 * We need to reset __threaded dynamically at runtime, so that
1497 	 * __threaded can be bound to __threaded outside libc which may not
1498 	 * have initial value of 1 (without a copy relocation in a.out).
1499 	 */
1500 	__threaded = 1;
1501 }
1502 
1503 #pragma fini(libc_fini)
1504 void
1505 libc_fini()
1506 {
1507 	/*
1508 	 * If we are doing fini processing for the instance of libc
1509 	 * on the first alternate link map (this happens only when
1510 	 * the dynamic linker rejects a bad audit library), then clear
1511 	 * __curthread().  We abandon whatever memory was allocated by
1512 	 * lmalloc() while running on this alternate link-map but we
1513 	 * don't care (and can't find the memory in any case); we just
1514 	 * want to protect the application from this bad audit library.
1515 	 * No fini processing is done by libc in the normal case.
1516 	 */
1517 
1518 	uberdata_t *udp = curthread->ul_uberdata;
1519 
1520 	if (udp->primary_map == 0 && udp == &__uberdata)
1521 		set_curthread(NULL);
1522 }
1523 
1524 /*
1525  * finish_init is called when we are about to become multi-threaded,
1526  * that is, on the first call to thr_create().
1527  */
1528 void
1529 finish_init()
1530 {
1531 	ulwp_t *self = curthread;
1532 	uberdata_t *udp = self->ul_uberdata;
1533 	thr_hash_table_t *htp;
1534 	void *data;
1535 	int i;
1536 
1537 	/*
1538 	 * No locks needed here; we are single-threaded on the first call.
1539 	 * We can be called only after the primary link map has been set up.
1540 	 */
1541 	ASSERT(self->ul_primarymap);
1542 	ASSERT(self == udp->ulwp_one);
1543 	ASSERT(!udp->uberflags.uf_mt);
1544 	ASSERT(udp->hash_size == 1);
1545 
1546 	/*
1547 	 * First allocate the queue_head array if not already allocated.
1548 	 */
1549 	if (udp->queue_head == NULL)
1550 		queue_alloc();
1551 
1552 	/*
1553 	 * Now allocate the thread hash table.
1554 	 */
1555 	if ((data = _private_mmap(NULL, HASHTBLSZ * sizeof (thr_hash_table_t),
1556 	    PROT_READ | PROT_WRITE, MAP_PRIVATE | MAP_ANON, -1, (off_t)0))
1557 	    == MAP_FAILED)
1558 		thr_panic("cannot allocate thread hash table");
1559 
1560 	udp->thr_hash_table = htp = (thr_hash_table_t *)data;
1561 	udp->hash_size = HASHTBLSZ;
1562 	udp->hash_mask = HASHTBLSZ - 1;
1563 
1564 	for (i = 0; i < HASHTBLSZ; i++, htp++) {
1565 		htp->hash_lock.mutex_flag = LOCK_INITED;
1566 		htp->hash_lock.mutex_magic = MUTEX_MAGIC;
1567 		htp->hash_cond.cond_magic = COND_MAGIC;
1568 	}
1569 	hash_in_unlocked(self, TIDHASH(self->ul_lwpid, udp), udp);
1570 
1571 	/*
1572 	 * Set up the SIGCANCEL handler for threads cancellation.
1573 	 */
1574 	setup_cancelsig(SIGCANCEL);
1575 
1576 	/*
1577 	 * Arrange to do special things on exit --
1578 	 * - collect queue statistics from all remaining active threads.
1579 	 * - grab assert_lock to ensure that assertion failures
1580 	 *   and a core dump take precedence over _exit().
1581 	 * - dump queue statistics to stderr if _THREAD_QUEUE_DUMP is set.
1582 	 * (Functions are called in the reverse order of their registration.)
1583 	 */
1584 	(void) _atexit(dump_queue_statistics);
1585 	(void) _atexit(grab_assert_lock);
1586 	(void) _atexit(collect_queue_statistics);
1587 }
1588 
1589 /*
1590  * Used only by postfork1_child(), below.
1591  */
1592 static void
1593 mark_dead_and_buried(ulwp_t *ulwp)
1594 {
1595 	ulwp->ul_dead = 1;
1596 	ulwp->ul_lwpid = (lwpid_t)(-1);
1597 	ulwp->ul_hash = NULL;
1598 	ulwp->ul_ix = -1;
1599 	ulwp->ul_schedctl = NULL;
1600 	ulwp->ul_schedctl_called = NULL;
1601 }
1602 
1603 /*
1604  * This is called from fork1() in the child.
1605  * Reset our data structures to reflect one lwp.
1606  */
1607 void
1608 postfork1_child()
1609 {
1610 	ulwp_t *self = curthread;
1611 	uberdata_t *udp = self->ul_uberdata;
1612 	mutex_t *mp;
1613 	ulwp_t *next;
1614 	ulwp_t *ulwp;
1615 	int i;
1616 
1617 	/* daemon threads shouldn't call fork1(), but oh well... */
1618 	self->ul_usropts &= ~THR_DAEMON;
1619 	udp->nthreads = 1;
1620 	udp->ndaemons = 0;
1621 	udp->uberflags.uf_mt = 0;
1622 	__libc_threaded = 0;
1623 	for (i = 0; i < udp->hash_size; i++)
1624 		udp->thr_hash_table[i].hash_bucket = NULL;
1625 	self->ul_lwpid = __lwp_self();
1626 	hash_in_unlocked(self, TIDHASH(self->ul_lwpid, udp), udp);
1627 
1628 	/*
1629 	 * Some thread in the parent might have been suspended while
1630 	 * holding udp->callout_lock.  Reinitialize the child's copy.
1631 	 */
1632 	_private_mutex_init(&udp->callout_lock,
1633 	    USYNC_THREAD | LOCK_RECURSIVE, NULL);
1634 
1635 	/* no one in the child is on a sleep queue; reinitialize */
1636 	if (udp->queue_head) {
1637 		(void) _private_memset(udp->queue_head, 0,
1638 		    2 * QHASHSIZE * sizeof (queue_head_t));
1639 		for (i = 0; i < 2 * QHASHSIZE; i++) {
1640 			mp = &udp->queue_head[i].qh_lock;
1641 			mp->mutex_flag = LOCK_INITED;
1642 			mp->mutex_magic = MUTEX_MAGIC;
1643 		}
1644 	}
1645 
1646 	/*
1647 	 * All lwps except ourself are gone.  Mark them so.
1648 	 * First mark all of the lwps that have already been freed.
1649 	 * Then mark and free all of the active lwps except ourself.
1650 	 * Since we are single-threaded, no locks are required here.
1651 	 */
1652 	for (ulwp = udp->lwp_stacks; ulwp != NULL; ulwp = ulwp->ul_next)
1653 		mark_dead_and_buried(ulwp);
1654 	for (ulwp = udp->ulwp_freelist; ulwp != NULL; ulwp = ulwp->ul_next)
1655 		mark_dead_and_buried(ulwp);
1656 	for (ulwp = self->ul_forw; ulwp != self; ulwp = next) {
1657 		next = ulwp->ul_forw;
1658 		ulwp->ul_forw = ulwp->ul_back = NULL;
1659 		mark_dead_and_buried(ulwp);
1660 		tsd_free(ulwp);
1661 		tls_free(ulwp);
1662 		rwl_free(ulwp);
1663 		heldlock_free(ulwp);
1664 		ulwp_free(ulwp);
1665 	}
1666 	self->ul_forw = self->ul_back = udp->all_lwps = self;
1667 	if (self != udp->ulwp_one)
1668 		mark_dead_and_buried(udp->ulwp_one);
1669 	if ((ulwp = udp->all_zombies) != NULL) {
1670 		ASSERT(udp->nzombies != 0);
1671 		do {
1672 			next = ulwp->ul_forw;
1673 			ulwp->ul_forw = ulwp->ul_back = NULL;
1674 			mark_dead_and_buried(ulwp);
1675 			udp->nzombies--;
1676 			if (ulwp->ul_replace) {
1677 				ulwp->ul_next = NULL;
1678 				if (udp->ulwp_replace_free == NULL) {
1679 					udp->ulwp_replace_free =
1680 					    udp->ulwp_replace_last = ulwp;
1681 				} else {
1682 					udp->ulwp_replace_last->ul_next = ulwp;
1683 					udp->ulwp_replace_last = ulwp;
1684 				}
1685 			}
1686 		} while ((ulwp = next) != udp->all_zombies);
1687 		ASSERT(udp->nzombies == 0);
1688 		udp->all_zombies = NULL;
1689 		udp->nzombies = 0;
1690 	}
1691 	trim_stack_cache(0);
1692 
1693 	/*
1694 	 * Do post-fork1 processing for subsystems that need it.
1695 	 */
1696 	postfork1_child_tpool();
1697 	postfork1_child_sigev_aio();
1698 	postfork1_child_sigev_mq();
1699 	postfork1_child_sigev_timer();
1700 	postfork1_child_aio();
1701 }
1702 
1703 #pragma weak thr_setprio = _thr_setprio
1704 #pragma weak pthread_setschedprio = _thr_setprio
1705 #pragma weak _pthread_setschedprio = _thr_setprio
1706 int
1707 _thr_setprio(thread_t tid, int priority)
1708 {
1709 	struct sched_param param;
1710 
1711 	(void) _memset(&param, 0, sizeof (param));
1712 	param.sched_priority = priority;
1713 	return (_thread_setschedparam_main(tid, 0, &param, PRIO_SET_PRIO));
1714 }
1715 
1716 #pragma weak thr_getprio = _thr_getprio
1717 int
1718 _thr_getprio(thread_t tid, int *priority)
1719 {
1720 	uberdata_t *udp = curthread->ul_uberdata;
1721 	ulwp_t *ulwp;
1722 	int error = 0;
1723 
1724 	if ((ulwp = find_lwp(tid)) == NULL)
1725 		error = ESRCH;
1726 	else {
1727 		*priority = ulwp->ul_pri;
1728 		ulwp_unlock(ulwp, udp);
1729 	}
1730 	return (error);
1731 }
1732 
1733 lwpid_t
1734 lwp_self(void)
1735 {
1736 	return (curthread->ul_lwpid);
1737 }
1738 
1739 #pragma weak _ti_thr_self = _thr_self
1740 #pragma weak thr_self = _thr_self
1741 #pragma weak pthread_self = _thr_self
1742 #pragma weak _pthread_self = _thr_self
1743 thread_t
1744 _thr_self()
1745 {
1746 	return (curthread->ul_lwpid);
1747 }
1748 
1749 #pragma weak thr_main = _thr_main
1750 int
1751 _thr_main()
1752 {
1753 	ulwp_t *self = __curthread();
1754 
1755 	return ((self == NULL)? -1 : self->ul_main);
1756 }
1757 
1758 int
1759 _thrp_cancelled(void)
1760 {
1761 	return (curthread->ul_rval == PTHREAD_CANCELED);
1762 }
1763 
1764 int
1765 _thrp_stksegment(ulwp_t *ulwp, stack_t *stk)
1766 {
1767 	stk->ss_sp = (void *)ulwp->ul_stktop;
1768 	stk->ss_size = ulwp->ul_stksiz;
1769 	stk->ss_flags = 0;
1770 	return (0);
1771 }
1772 
1773 #pragma weak thr_stksegment = _thr_stksegment
1774 int
1775 _thr_stksegment(stack_t *stk)
1776 {
1777 	return (_thrp_stksegment(curthread, stk));
1778 }
1779 
1780 void
1781 force_continue(ulwp_t *ulwp)
1782 {
1783 #if defined(THREAD_DEBUG)
1784 	ulwp_t *self = curthread;
1785 	uberdata_t *udp = self->ul_uberdata;
1786 #endif
1787 	int error;
1788 	timespec_t ts;
1789 
1790 	ASSERT(MUTEX_OWNED(&udp->fork_lock, self));
1791 	ASSERT(MUTEX_OWNED(ulwp_mutex(ulwp, udp), self));
1792 
1793 	for (;;) {
1794 		error = __lwp_continue(ulwp->ul_lwpid);
1795 		if (error != 0 && error != EINTR)
1796 			break;
1797 		error = 0;
1798 		if (ulwp->ul_stopping) {	/* he is stopping himself */
1799 			ts.tv_sec = 0;		/* give him a chance to run */
1800 			ts.tv_nsec = 100000;	/* 100 usecs or clock tick */
1801 			(void) __nanosleep(&ts, NULL);
1802 		}
1803 		if (!ulwp->ul_stopping)		/* he is running now */
1804 			break;			/* so we are done */
1805 		/*
1806 		 * He is marked as being in the process of stopping
1807 		 * himself.  Loop around and continue him again.
1808 		 * He may not have been stopped the first time.
1809 		 */
1810 	}
1811 }
1812 
1813 /*
1814  * Suspend an lwp with lwp_suspend(), then move it to a safe
1815  * point, that is, to a point where ul_critical is zero.
1816  * On return, the ulwp_lock() is dropped as with ulwp_unlock().
1817  * If 'link_dropped' is non-NULL, then 'link_lock' is held on entry.
1818  * If we have to drop link_lock, we store 1 through link_dropped.
1819  * If the lwp exits before it can be suspended, we return ESRCH.
1820  */
1821 int
1822 safe_suspend(ulwp_t *ulwp, uchar_t whystopped, int *link_dropped)
1823 {
1824 	ulwp_t *self = curthread;
1825 	uberdata_t *udp = self->ul_uberdata;
1826 	cond_t *cvp = ulwp_condvar(ulwp, udp);
1827 	mutex_t *mp = ulwp_mutex(ulwp, udp);
1828 	thread_t tid = ulwp->ul_lwpid;
1829 	int ix = ulwp->ul_ix;
1830 	int error = 0;
1831 
1832 	ASSERT(whystopped == TSTP_REGULAR ||
1833 	    whystopped == TSTP_MUTATOR ||
1834 	    whystopped == TSTP_FORK);
1835 	ASSERT(ulwp != self);
1836 	ASSERT(!ulwp->ul_stop);
1837 	ASSERT(MUTEX_OWNED(&udp->fork_lock, self));
1838 	ASSERT(MUTEX_OWNED(mp, self));
1839 
1840 	if (link_dropped != NULL)
1841 		*link_dropped = 0;
1842 
1843 	/*
1844 	 * We must grab the target's spin lock before suspending it.
1845 	 * See the comments below and in _thrp_suspend() for why.
1846 	 */
1847 	spin_lock_set(&ulwp->ul_spinlock);
1848 	(void) ___lwp_suspend(tid);
1849 	spin_lock_clear(&ulwp->ul_spinlock);
1850 
1851 top:
1852 	if (ulwp->ul_critical == 0 || ulwp->ul_stopping) {
1853 		/* thread is already safe */
1854 		ulwp->ul_stop |= whystopped;
1855 	} else {
1856 		/*
1857 		 * Setting ul_pleasestop causes the target thread to stop
1858 		 * itself in _thrp_suspend(), below, after we drop its lock.
1859 		 * We must continue the critical thread before dropping
1860 		 * link_lock because the critical thread may be holding
1861 		 * the queue lock for link_lock.  This is delicate.
1862 		 */
1863 		ulwp->ul_pleasestop |= whystopped;
1864 		force_continue(ulwp);
1865 		if (link_dropped != NULL) {
1866 			*link_dropped = 1;
1867 			lmutex_unlock(&udp->link_lock);
1868 			/* be sure to drop link_lock only once */
1869 			link_dropped = NULL;
1870 		}
1871 
1872 		/*
1873 		 * The thread may disappear by calling thr_exit() so we
1874 		 * cannot rely on the ulwp pointer after dropping the lock.
1875 		 * Instead, we search the hash table to find it again.
1876 		 * When we return, we may find that the thread has been
1877 		 * continued by some other thread.  The suspend/continue
1878 		 * interfaces are prone to such race conditions by design.
1879 		 */
1880 		while (ulwp && !ulwp->ul_dead && !ulwp->ul_stop &&
1881 		    (ulwp->ul_pleasestop & whystopped)) {
1882 			(void) _cond_wait(cvp, mp);
1883 			for (ulwp = udp->thr_hash_table[ix].hash_bucket;
1884 			    ulwp != NULL; ulwp = ulwp->ul_hash) {
1885 				if (ulwp->ul_lwpid == tid)
1886 					break;
1887 			}
1888 		}
1889 
1890 		if (ulwp == NULL || ulwp->ul_dead)
1891 			error = ESRCH;
1892 		else {
1893 			/*
1894 			 * Do another lwp_suspend() to make sure we don't
1895 			 * return until the target thread is fully stopped
1896 			 * in the kernel.  Don't apply lwp_suspend() until
1897 			 * we know that the target is not holding any
1898 			 * queue locks, that is, that it has completed
1899 			 * ulwp_unlock(self) and has, or at least is
1900 			 * about to, call lwp_suspend() on itself.  We do
1901 			 * this by grabbing the target's spin lock.
1902 			 */
1903 			ASSERT(ulwp->ul_lwpid == tid);
1904 			spin_lock_set(&ulwp->ul_spinlock);
1905 			(void) ___lwp_suspend(tid);
1906 			spin_lock_clear(&ulwp->ul_spinlock);
1907 			/*
1908 			 * If some other thread did a thr_continue()
1909 			 * on the target thread we have to start over.
1910 			 */
1911 			if (!ulwp->ul_stopping || !(ulwp->ul_stop & whystopped))
1912 				goto top;
1913 		}
1914 	}
1915 
1916 	(void) cond_broadcast_internal(cvp);
1917 	lmutex_unlock(mp);
1918 	return (error);
1919 }
1920 
1921 int
1922 _thrp_suspend(thread_t tid, uchar_t whystopped)
1923 {
1924 	ulwp_t *self = curthread;
1925 	uberdata_t *udp = self->ul_uberdata;
1926 	ulwp_t *ulwp;
1927 	int error = 0;
1928 
1929 	ASSERT((whystopped & (TSTP_REGULAR|TSTP_MUTATOR|TSTP_FORK)) != 0);
1930 	ASSERT((whystopped & ~(TSTP_REGULAR|TSTP_MUTATOR|TSTP_FORK)) == 0);
1931 
1932 	/*
1933 	 * We can't suspend anyone except ourself while
1934 	 * some other thread is performing a fork.
1935 	 * This also allows only one suspension at a time.
1936 	 */
1937 	if (tid != self->ul_lwpid)
1938 		fork_lock_enter();
1939 
1940 	if ((ulwp = find_lwp(tid)) == NULL)
1941 		error = ESRCH;
1942 	else if (whystopped == TSTP_MUTATOR && !ulwp->ul_mutator) {
1943 		ulwp_unlock(ulwp, udp);
1944 		error = EINVAL;
1945 	} else if (ulwp->ul_stop) {	/* already stopped */
1946 		ulwp->ul_stop |= whystopped;
1947 		ulwp_broadcast(ulwp);
1948 		ulwp_unlock(ulwp, udp);
1949 	} else if (ulwp != self) {
1950 		/*
1951 		 * After suspending the other thread, move it out of a
1952 		 * critical section and deal with the schedctl mappings.
1953 		 * safe_suspend() suspends the other thread, calls
1954 		 * ulwp_broadcast(ulwp) and drops the ulwp lock.
1955 		 */
1956 		error = safe_suspend(ulwp, whystopped, NULL);
1957 	} else {
1958 		int schedctl_after_fork = 0;
1959 
1960 		/*
1961 		 * We are suspending ourself.  We must not take a signal
1962 		 * until we return from lwp_suspend() and clear ul_stopping.
1963 		 * This is to guard against siglongjmp().
1964 		 */
1965 		enter_critical(self);
1966 		self->ul_sp = stkptr();
1967 		_flush_windows();	/* sparc */
1968 		self->ul_pleasestop = 0;
1969 		self->ul_stop |= whystopped;
1970 		/*
1971 		 * Grab our spin lock before dropping ulwp_mutex(self).
1972 		 * This prevents the suspending thread from applying
1973 		 * lwp_suspend() to us before we emerge from
1974 		 * lmutex_unlock(mp) and have dropped mp's queue lock.
1975 		 */
1976 		spin_lock_set(&self->ul_spinlock);
1977 		self->ul_stopping = 1;
1978 		ulwp_broadcast(self);
1979 		ulwp_unlock(self, udp);
1980 		/*
1981 		 * From this point until we return from lwp_suspend(),
1982 		 * we must not call any function that might invoke the
1983 		 * dynamic linker, that is, we can only call functions
1984 		 * private to the library.
1985 		 *
1986 		 * Also, this is a nasty race condition for a process
1987 		 * that is undergoing a forkall() operation:
1988 		 * Once we clear our spinlock (below), we are vulnerable
1989 		 * to being suspended by the forkall() thread before
1990 		 * we manage to suspend ourself in ___lwp_suspend().
1991 		 * See safe_suspend() and force_continue().
1992 		 *
1993 		 * To avoid a SIGSEGV due to the disappearance
1994 		 * of the schedctl mappings in the child process,
1995 		 * which can happen in spin_lock_clear() if we
1996 		 * are suspended while we are in the middle of
1997 		 * its call to preempt(), we preemptively clear
1998 		 * our own schedctl pointer before dropping our
1999 		 * spinlock.  We reinstate it, in both the parent
2000 		 * and (if this really is a forkall()) the child.
2001 		 */
2002 		if (whystopped & TSTP_FORK) {
2003 			schedctl_after_fork = 1;
2004 			self->ul_schedctl = NULL;
2005 			self->ul_schedctl_called = &udp->uberflags;
2006 		}
2007 		spin_lock_clear(&self->ul_spinlock);
2008 		(void) ___lwp_suspend(tid);
2009 		/*
2010 		 * Somebody else continued us.
2011 		 * We can't grab ulwp_lock(self)
2012 		 * until after clearing ul_stopping.
2013 		 * force_continue() relies on this.
2014 		 */
2015 		self->ul_stopping = 0;
2016 		self->ul_sp = 0;
2017 		if (schedctl_after_fork) {
2018 			self->ul_schedctl_called = NULL;
2019 			self->ul_schedctl = NULL;
2020 			(void) setup_schedctl();
2021 		}
2022 		ulwp_lock(self, udp);
2023 		ulwp_broadcast(self);
2024 		ulwp_unlock(self, udp);
2025 		exit_critical(self);
2026 	}
2027 
2028 	if (tid != self->ul_lwpid)
2029 		fork_lock_exit();
2030 
2031 	return (error);
2032 }
2033 
2034 /*
2035  * Suspend all lwps other than ourself in preparation for fork.
2036  */
2037 void
2038 suspend_fork()
2039 {
2040 	ulwp_t *self = curthread;
2041 	uberdata_t *udp = self->ul_uberdata;
2042 	ulwp_t *ulwp;
2043 	int link_dropped;
2044 
2045 	ASSERT(MUTEX_OWNED(&udp->fork_lock, self));
2046 top:
2047 	lmutex_lock(&udp->link_lock);
2048 
2049 	for (ulwp = self->ul_forw; ulwp != self; ulwp = ulwp->ul_forw) {
2050 		ulwp_lock(ulwp, udp);
2051 		if (ulwp->ul_stop) {	/* already stopped */
2052 			ulwp->ul_stop |= TSTP_FORK;
2053 			ulwp_broadcast(ulwp);
2054 			ulwp_unlock(ulwp, udp);
2055 		} else {
2056 			/*
2057 			 * Move the stopped lwp out of a critical section.
2058 			 */
2059 			if (safe_suspend(ulwp, TSTP_FORK, &link_dropped) ||
2060 			    link_dropped)
2061 				goto top;
2062 		}
2063 	}
2064 
2065 	lmutex_unlock(&udp->link_lock);
2066 }
2067 
2068 void
2069 continue_fork(int child)
2070 {
2071 	ulwp_t *self = curthread;
2072 	uberdata_t *udp = self->ul_uberdata;
2073 	ulwp_t *ulwp;
2074 
2075 	ASSERT(MUTEX_OWNED(&udp->fork_lock, self));
2076 
2077 	/*
2078 	 * Clear the schedctl pointers in the child of forkall().
2079 	 */
2080 	if (child) {
2081 		for (ulwp = self->ul_forw; ulwp != self; ulwp = ulwp->ul_forw) {
2082 			ulwp->ul_schedctl_called =
2083 			    ulwp->ul_dead? &udp->uberflags : NULL;
2084 			ulwp->ul_schedctl = NULL;
2085 		}
2086 	}
2087 
2088 	/*
2089 	 * Set all lwps that were stopped for fork() running again.
2090 	 */
2091 	lmutex_lock(&udp->link_lock);
2092 	for (ulwp = self->ul_forw; ulwp != self; ulwp = ulwp->ul_forw) {
2093 		mutex_t *mp = ulwp_mutex(ulwp, udp);
2094 		lmutex_lock(mp);
2095 		ASSERT(ulwp->ul_stop & TSTP_FORK);
2096 		ulwp->ul_stop &= ~TSTP_FORK;
2097 		ulwp_broadcast(ulwp);
2098 		if (!ulwp->ul_stop)
2099 			force_continue(ulwp);
2100 		lmutex_unlock(mp);
2101 	}
2102 	lmutex_unlock(&udp->link_lock);
2103 }
2104 
2105 int
2106 _thrp_continue(thread_t tid, uchar_t whystopped)
2107 {
2108 	uberdata_t *udp = curthread->ul_uberdata;
2109 	ulwp_t *ulwp;
2110 	mutex_t *mp;
2111 	int error = 0;
2112 
2113 	ASSERT(whystopped == TSTP_REGULAR ||
2114 	    whystopped == TSTP_MUTATOR);
2115 
2116 	/*
2117 	 * We single-thread the entire thread suspend/continue mechanism.
2118 	 */
2119 	fork_lock_enter();
2120 
2121 	if ((ulwp = find_lwp(tid)) == NULL) {
2122 		fork_lock_exit();
2123 		return (ESRCH);
2124 	}
2125 
2126 	mp = ulwp_mutex(ulwp, udp);
2127 	if ((whystopped == TSTP_MUTATOR && !ulwp->ul_mutator)) {
2128 		error = EINVAL;
2129 	} else if (ulwp->ul_stop & whystopped) {
2130 		ulwp->ul_stop &= ~whystopped;
2131 		ulwp_broadcast(ulwp);
2132 		if (!ulwp->ul_stop) {
2133 			if (whystopped == TSTP_REGULAR && ulwp->ul_created) {
2134 				ulwp->ul_sp = 0;
2135 				ulwp->ul_created = 0;
2136 			}
2137 			force_continue(ulwp);
2138 		}
2139 	}
2140 	lmutex_unlock(mp);
2141 
2142 	fork_lock_exit();
2143 	return (error);
2144 }
2145 
2146 #pragma weak thr_suspend = _thr_suspend
2147 int
2148 _thr_suspend(thread_t tid)
2149 {
2150 	return (_thrp_suspend(tid, TSTP_REGULAR));
2151 }
2152 
2153 #pragma weak thr_continue = _thr_continue
2154 int
2155 _thr_continue(thread_t tid)
2156 {
2157 	return (_thrp_continue(tid, TSTP_REGULAR));
2158 }
2159 
2160 #pragma weak thr_yield = _thr_yield
2161 void
2162 _thr_yield()
2163 {
2164 	lwp_yield();
2165 }
2166 
2167 #pragma weak thr_kill = _thr_kill
2168 #pragma weak pthread_kill = _thr_kill
2169 #pragma weak _pthread_kill = _thr_kill
2170 int
2171 _thr_kill(thread_t tid, int sig)
2172 {
2173 	if (sig == SIGCANCEL)
2174 		return (EINVAL);
2175 	return (__lwp_kill(tid, sig));
2176 }
2177 
2178 /*
2179  * Exit a critical section, take deferred actions if necessary.
2180  */
2181 void
2182 do_exit_critical()
2183 {
2184 	ulwp_t *self = curthread;
2185 	int sig;
2186 
2187 	ASSERT(self->ul_critical == 0);
2188 	if (self->ul_dead)
2189 		return;
2190 
2191 	while (self->ul_pleasestop ||
2192 	    (self->ul_cursig != 0 && self->ul_sigdefer == 0)) {
2193 		/*
2194 		 * Avoid a recursive call to exit_critical() in _thrp_suspend()
2195 		 * by keeping self->ul_critical == 1 here.
2196 		 */
2197 		self->ul_critical++;
2198 		while (self->ul_pleasestop) {
2199 			/*
2200 			 * Guard against suspending ourself while on a sleep
2201 			 * queue.  See the comments in call_user_handler().
2202 			 */
2203 			unsleep_self();
2204 			set_parking_flag(self, 0);
2205 			(void) _thrp_suspend(self->ul_lwpid,
2206 			    self->ul_pleasestop);
2207 		}
2208 		self->ul_critical--;
2209 
2210 		if ((sig = self->ul_cursig) != 0 && self->ul_sigdefer == 0) {
2211 			/*
2212 			 * Clear ul_cursig before proceeding.
2213 			 * This protects us from the dynamic linker's
2214 			 * calls to bind_guard()/bind_clear() in the
2215 			 * event that it is invoked to resolve a symbol
2216 			 * like take_deferred_signal() below.
2217 			 */
2218 			self->ul_cursig = 0;
2219 			take_deferred_signal(sig);
2220 			ASSERT(self->ul_cursig == 0);
2221 		}
2222 	}
2223 	ASSERT(self->ul_critical == 0);
2224 }
2225 
2226 int
2227 _ti_bind_guard(int bindflag)
2228 {
2229 	ulwp_t *self = curthread;
2230 
2231 	if ((self->ul_bindflags & bindflag) == bindflag)
2232 		return (0);
2233 	enter_critical(self);
2234 	self->ul_bindflags |= bindflag;
2235 	return (1);
2236 }
2237 
2238 int
2239 _ti_bind_clear(int bindflag)
2240 {
2241 	ulwp_t *self = curthread;
2242 
2243 	if ((self->ul_bindflags & bindflag) == 0)
2244 		return (self->ul_bindflags);
2245 	self->ul_bindflags &= ~bindflag;
2246 	exit_critical(self);
2247 	return (self->ul_bindflags);
2248 }
2249 
2250 /*
2251  * sigoff() and sigon() enable cond_wait() to behave (optionally) like
2252  * it does in the old libthread (see the comments in cond_wait_queue()).
2253  * Also, signals are deferred at thread startup until TLS constructors
2254  * have all been called, at which time _thr_setup() calls sigon().
2255  *
2256  * _sigoff() and _sigon() are external consolidation-private interfaces to
2257  * sigoff() and sigon(), respectively, in libc.  These are used in libnsl.
2258  * Also, _sigoff() and _sigon() are called from dbx's run-time checking
2259  * (librtc.so) to defer signals during its critical sections (not to be
2260  * confused with libc critical sections [see exit_critical() above]).
2261  */
2262 void
2263 _sigoff(void)
2264 {
2265 	sigoff(curthread);
2266 }
2267 
2268 void
2269 _sigon(void)
2270 {
2271 	sigon(curthread);
2272 }
2273 
2274 void
2275 sigon(ulwp_t *self)
2276 {
2277 	int sig;
2278 
2279 	ASSERT(self->ul_sigdefer > 0);
2280 	if (--self->ul_sigdefer == 0) {
2281 		if ((sig = self->ul_cursig) != 0 && self->ul_critical == 0) {
2282 			self->ul_cursig = 0;
2283 			take_deferred_signal(sig);
2284 			ASSERT(self->ul_cursig == 0);
2285 		}
2286 	}
2287 }
2288 
2289 #pragma weak thr_getconcurrency = _thr_getconcurrency
2290 int
2291 _thr_getconcurrency()
2292 {
2293 	return (thr_concurrency);
2294 }
2295 
2296 #pragma weak pthread_getconcurrency = _pthread_getconcurrency
2297 int
2298 _pthread_getconcurrency()
2299 {
2300 	return (pthread_concurrency);
2301 }
2302 
2303 #pragma weak thr_setconcurrency = _thr_setconcurrency
2304 int
2305 _thr_setconcurrency(int new_level)
2306 {
2307 	uberdata_t *udp = curthread->ul_uberdata;
2308 
2309 	if (new_level < 0)
2310 		return (EINVAL);
2311 	if (new_level > 65536)		/* 65536 is totally arbitrary */
2312 		return (EAGAIN);
2313 	lmutex_lock(&udp->link_lock);
2314 	if (new_level > thr_concurrency)
2315 		thr_concurrency = new_level;
2316 	lmutex_unlock(&udp->link_lock);
2317 	return (0);
2318 }
2319 
2320 #pragma weak pthread_setconcurrency = _pthread_setconcurrency
2321 int
2322 _pthread_setconcurrency(int new_level)
2323 {
2324 	if (new_level < 0)
2325 		return (EINVAL);
2326 	if (new_level > 65536)		/* 65536 is totally arbitrary */
2327 		return (EAGAIN);
2328 	pthread_concurrency = new_level;
2329 	return (0);
2330 }
2331 
2332 #pragma weak thr_min_stack = _thr_min_stack
2333 #pragma weak __pthread_min_stack = _thr_min_stack
2334 size_t
2335 _thr_min_stack(void)
2336 {
2337 	return (MINSTACK);
2338 }
2339 
2340 int
2341 __nthreads(void)
2342 {
2343 	return (curthread->ul_uberdata->nthreads);
2344 }
2345 
2346 /*
2347  * XXX
2348  * The remainder of this file implements the private interfaces to java for
2349  * garbage collection.  It is no longer used, at least by java 1.2.
2350  * It can all go away once all old JVMs have disappeared.
2351  */
2352 
2353 int	suspendingallmutators;	/* when non-zero, suspending all mutators. */
2354 int	suspendedallmutators;	/* when non-zero, all mutators suspended. */
2355 int	mutatorsbarrier;	/* when non-zero, mutators barrier imposed. */
2356 mutex_t	mutatorslock = DEFAULTMUTEX;	/* used to enforce mutators barrier. */
2357 cond_t	mutatorscv = DEFAULTCV;		/* where non-mutators sleep. */
2358 
2359 /*
2360  * Get the available register state for the target thread.
2361  * Return non-volatile registers: TRS_NONVOLATILE
2362  */
2363 #pragma weak thr_getstate = _thr_getstate
2364 int
2365 _thr_getstate(thread_t tid, int *flag, lwpid_t *lwp, stack_t *ss, gregset_t rs)
2366 {
2367 	ulwp_t *self = curthread;
2368 	uberdata_t *udp = self->ul_uberdata;
2369 	ulwp_t **ulwpp;
2370 	ulwp_t *ulwp;
2371 	int error = 0;
2372 	int trs_flag = TRS_LWPID;
2373 
2374 	if (tid == 0 || self->ul_lwpid == tid) {
2375 		ulwp = self;
2376 		ulwp_lock(ulwp, udp);
2377 	} else if ((ulwpp = find_lwpp(tid)) != NULL) {
2378 		ulwp = *ulwpp;
2379 	} else {
2380 		if (flag)
2381 			*flag = TRS_INVALID;
2382 		return (ESRCH);
2383 	}
2384 
2385 	if (ulwp->ul_dead) {
2386 		trs_flag = TRS_INVALID;
2387 	} else if (!ulwp->ul_stop && !suspendedallmutators) {
2388 		error = EINVAL;
2389 		trs_flag = TRS_INVALID;
2390 	} else if (ulwp->ul_stop) {
2391 		trs_flag = TRS_NONVOLATILE;
2392 		getgregs(ulwp, rs);
2393 	}
2394 
2395 	if (flag)
2396 		*flag = trs_flag;
2397 	if (lwp)
2398 		*lwp = tid;
2399 	if (ss != NULL)
2400 		(void) _thrp_stksegment(ulwp, ss);
2401 
2402 	ulwp_unlock(ulwp, udp);
2403 	return (error);
2404 }
2405 
2406 /*
2407  * Set the appropriate register state for the target thread.
2408  * This is not used by java.  It exists solely for the MSTC test suite.
2409  */
2410 #pragma weak thr_setstate = _thr_setstate
2411 int
2412 _thr_setstate(thread_t tid, int flag, gregset_t rs)
2413 {
2414 	uberdata_t *udp = curthread->ul_uberdata;
2415 	ulwp_t *ulwp;
2416 	int error = 0;
2417 
2418 	if ((ulwp = find_lwp(tid)) == NULL)
2419 		return (ESRCH);
2420 
2421 	if (!ulwp->ul_stop && !suspendedallmutators)
2422 		error = EINVAL;
2423 	else if (rs != NULL) {
2424 		switch (flag) {
2425 		case TRS_NONVOLATILE:
2426 			/* do /proc stuff here? */
2427 			if (ulwp->ul_stop)
2428 				setgregs(ulwp, rs);
2429 			else
2430 				error = EINVAL;
2431 			break;
2432 		case TRS_LWPID:		/* do /proc stuff here? */
2433 		default:
2434 			error = EINVAL;
2435 			break;
2436 		}
2437 	}
2438 
2439 	ulwp_unlock(ulwp, udp);
2440 	return (error);
2441 }
2442 
2443 int
2444 getlwpstatus(thread_t tid, struct lwpstatus *sp)
2445 {
2446 	extern ssize_t _pread(int, void *, size_t, off_t);
2447 	char buf[100];
2448 	int fd;
2449 
2450 	/* "/proc/self/lwp/%u/lwpstatus" w/o stdio */
2451 	(void) strcpy(buf, "/proc/self/lwp/");
2452 	ultos((uint64_t)tid, 10, buf + strlen(buf));
2453 	(void) strcat(buf, "/lwpstatus");
2454 	if ((fd = _open(buf, O_RDONLY, 0)) >= 0) {
2455 		while (_pread(fd, sp, sizeof (*sp), 0) == sizeof (*sp)) {
2456 			if (sp->pr_flags & PR_STOPPED) {
2457 				(void) _close(fd);
2458 				return (0);
2459 			}
2460 			lwp_yield();	/* give him a chance to stop */
2461 		}
2462 		(void) _close(fd);
2463 	}
2464 	return (-1);
2465 }
2466 
2467 int
2468 putlwpregs(thread_t tid, prgregset_t prp)
2469 {
2470 	extern ssize_t _writev(int, const struct iovec *, int);
2471 	char buf[100];
2472 	int fd;
2473 	long dstop_sreg[2];
2474 	long run_null[2];
2475 	iovec_t iov[3];
2476 
2477 	/* "/proc/self/lwp/%u/lwpctl" w/o stdio */
2478 	(void) strcpy(buf, "/proc/self/lwp/");
2479 	ultos((uint64_t)tid, 10, buf + strlen(buf));
2480 	(void) strcat(buf, "/lwpctl");
2481 	if ((fd = _open(buf, O_WRONLY, 0)) >= 0) {
2482 		dstop_sreg[0] = PCDSTOP;	/* direct it to stop */
2483 		dstop_sreg[1] = PCSREG;		/* set the registers */
2484 		iov[0].iov_base = (caddr_t)dstop_sreg;
2485 		iov[0].iov_len = sizeof (dstop_sreg);
2486 		iov[1].iov_base = (caddr_t)prp;	/* from the register set */
2487 		iov[1].iov_len = sizeof (prgregset_t);
2488 		run_null[0] = PCRUN;		/* make it runnable again */
2489 		run_null[1] = 0;
2490 		iov[2].iov_base = (caddr_t)run_null;
2491 		iov[2].iov_len = sizeof (run_null);
2492 		if (_writev(fd, iov, 3) >= 0) {
2493 			(void) _close(fd);
2494 			return (0);
2495 		}
2496 		(void) _close(fd);
2497 	}
2498 	return (-1);
2499 }
2500 
2501 static ulong_t
2502 gettsp_slow(thread_t tid)
2503 {
2504 	char buf[100];
2505 	struct lwpstatus status;
2506 
2507 	if (getlwpstatus(tid, &status) != 0) {
2508 		/* "__gettsp(%u): can't read lwpstatus" w/o stdio */
2509 		(void) strcpy(buf, "__gettsp(");
2510 		ultos((uint64_t)tid, 10, buf + strlen(buf));
2511 		(void) strcat(buf, "): can't read lwpstatus");
2512 		thr_panic(buf);
2513 	}
2514 	return (status.pr_reg[R_SP]);
2515 }
2516 
2517 ulong_t
2518 __gettsp(thread_t tid)
2519 {
2520 	uberdata_t *udp = curthread->ul_uberdata;
2521 	ulwp_t *ulwp;
2522 	ulong_t result;
2523 
2524 	if ((ulwp = find_lwp(tid)) == NULL)
2525 		return (0);
2526 
2527 	if (ulwp->ul_stop && (result = ulwp->ul_sp) != 0) {
2528 		ulwp_unlock(ulwp, udp);
2529 		return (result);
2530 	}
2531 
2532 	result = gettsp_slow(tid);
2533 	ulwp_unlock(ulwp, udp);
2534 	return (result);
2535 }
2536 
2537 /*
2538  * This tells java stack walkers how to find the ucontext
2539  * structure passed to signal handlers.
2540  */
2541 #pragma weak thr_sighndlrinfo = _thr_sighndlrinfo
2542 void
2543 _thr_sighndlrinfo(void (**func)(), int *funcsize)
2544 {
2545 	*func = &__sighndlr;
2546 	*funcsize = (char *)&__sighndlrend - (char *)&__sighndlr;
2547 }
2548 
2549 /*
2550  * Mark a thread a mutator or reset a mutator to being a default,
2551  * non-mutator thread.
2552  */
2553 #pragma weak thr_setmutator = _thr_setmutator
2554 int
2555 _thr_setmutator(thread_t tid, int enabled)
2556 {
2557 	ulwp_t *self = curthread;
2558 	uberdata_t *udp = self->ul_uberdata;
2559 	ulwp_t *ulwp;
2560 	int error;
2561 
2562 	enabled = enabled?1:0;
2563 top:
2564 	if (tid == 0) {
2565 		ulwp = self;
2566 		ulwp_lock(ulwp, udp);
2567 	} else if ((ulwp = find_lwp(tid)) == NULL) {
2568 		return (ESRCH);
2569 	}
2570 
2571 	/*
2572 	 * The target thread should be the caller itself or a suspended thread.
2573 	 * This prevents the target from also changing its ul_mutator field.
2574 	 */
2575 	error = 0;
2576 	if (ulwp != self && !ulwp->ul_stop && enabled)
2577 		error = EINVAL;
2578 	else if (ulwp->ul_mutator != enabled) {
2579 		lmutex_lock(&mutatorslock);
2580 		if (mutatorsbarrier) {
2581 			ulwp_unlock(ulwp, udp);
2582 			while (mutatorsbarrier)
2583 				(void) _cond_wait(&mutatorscv, &mutatorslock);
2584 			lmutex_unlock(&mutatorslock);
2585 			goto top;
2586 		}
2587 		ulwp->ul_mutator = enabled;
2588 		lmutex_unlock(&mutatorslock);
2589 	}
2590 
2591 	ulwp_unlock(ulwp, udp);
2592 	return (error);
2593 }
2594 
2595 /*
2596  * Establish a barrier against new mutators.  Any non-mutator trying
2597  * to become a mutator is suspended until the barrier is removed.
2598  */
2599 #pragma weak thr_mutators_barrier = _thr_mutators_barrier
2600 void
2601 _thr_mutators_barrier(int enabled)
2602 {
2603 	int oldvalue;
2604 
2605 	lmutex_lock(&mutatorslock);
2606 
2607 	/*
2608 	 * Wait if trying to set the barrier while it is already set.
2609 	 */
2610 	while (mutatorsbarrier && enabled)
2611 		(void) _cond_wait(&mutatorscv, &mutatorslock);
2612 
2613 	oldvalue = mutatorsbarrier;
2614 	mutatorsbarrier = enabled;
2615 	/*
2616 	 * Wakeup any blocked non-mutators when barrier is removed.
2617 	 */
2618 	if (oldvalue && !enabled)
2619 		(void) cond_broadcast_internal(&mutatorscv);
2620 	lmutex_unlock(&mutatorslock);
2621 }
2622 
2623 /*
2624  * Suspend the set of all mutators except for the caller.  The list
2625  * of actively running threads is searched and only the mutators
2626  * in this list are suspended.  Actively running non-mutators remain
2627  * running.  Any other thread is suspended.
2628  */
2629 #pragma weak thr_suspend_allmutators = _thr_suspend_allmutators
2630 int
2631 _thr_suspend_allmutators(void)
2632 {
2633 	ulwp_t *self = curthread;
2634 	uberdata_t *udp = self->ul_uberdata;
2635 	ulwp_t *ulwp;
2636 	int link_dropped;
2637 
2638 	/*
2639 	 * We single-thread the entire thread suspend/continue mechanism.
2640 	 */
2641 	fork_lock_enter();
2642 
2643 top:
2644 	lmutex_lock(&udp->link_lock);
2645 
2646 	if (suspendingallmutators || suspendedallmutators) {
2647 		lmutex_unlock(&udp->link_lock);
2648 		fork_lock_exit();
2649 		return (EINVAL);
2650 	}
2651 	suspendingallmutators = 1;
2652 
2653 	for (ulwp = self->ul_forw; ulwp != self; ulwp = ulwp->ul_forw) {
2654 		ulwp_lock(ulwp, udp);
2655 		if (!ulwp->ul_mutator) {
2656 			ulwp_unlock(ulwp, udp);
2657 		} else if (ulwp->ul_stop) {	/* already stopped */
2658 			ulwp->ul_stop |= TSTP_MUTATOR;
2659 			ulwp_broadcast(ulwp);
2660 			ulwp_unlock(ulwp, udp);
2661 		} else {
2662 			/*
2663 			 * Move the stopped lwp out of a critical section.
2664 			 */
2665 			if (safe_suspend(ulwp, TSTP_MUTATOR, &link_dropped) ||
2666 			    link_dropped) {
2667 				suspendingallmutators = 0;
2668 				goto top;
2669 			}
2670 		}
2671 	}
2672 
2673 	suspendedallmutators = 1;
2674 	suspendingallmutators = 0;
2675 	lmutex_unlock(&udp->link_lock);
2676 	fork_lock_exit();
2677 	return (0);
2678 }
2679 
2680 /*
2681  * Suspend the target mutator.  The caller is permitted to suspend
2682  * itself.  If a mutator barrier is enabled, the caller will suspend
2683  * itself as though it had been suspended by thr_suspend_allmutators().
2684  * When the barrier is removed, this thread will be resumed.  Any
2685  * suspended mutator, whether suspended by thr_suspend_mutator(), or by
2686  * thr_suspend_allmutators(), can be resumed by thr_continue_mutator().
2687  */
2688 #pragma weak thr_suspend_mutator = _thr_suspend_mutator
2689 int
2690 _thr_suspend_mutator(thread_t tid)
2691 {
2692 	if (tid == 0)
2693 		tid = curthread->ul_lwpid;
2694 	return (_thrp_suspend(tid, TSTP_MUTATOR));
2695 }
2696 
2697 /*
2698  * Resume the set of all suspended mutators.
2699  */
2700 #pragma weak thr_continue_allmutators = _thr_continue_allmutators
2701 int
2702 _thr_continue_allmutators()
2703 {
2704 	ulwp_t *self = curthread;
2705 	uberdata_t *udp = self->ul_uberdata;
2706 	ulwp_t *ulwp;
2707 
2708 	/*
2709 	 * We single-thread the entire thread suspend/continue mechanism.
2710 	 */
2711 	fork_lock_enter();
2712 
2713 	lmutex_lock(&udp->link_lock);
2714 	if (!suspendedallmutators) {
2715 		lmutex_unlock(&udp->link_lock);
2716 		fork_lock_exit();
2717 		return (EINVAL);
2718 	}
2719 	suspendedallmutators = 0;
2720 
2721 	for (ulwp = self->ul_forw; ulwp != self; ulwp = ulwp->ul_forw) {
2722 		mutex_t *mp = ulwp_mutex(ulwp, udp);
2723 		lmutex_lock(mp);
2724 		if (ulwp->ul_stop & TSTP_MUTATOR) {
2725 			ulwp->ul_stop &= ~TSTP_MUTATOR;
2726 			ulwp_broadcast(ulwp);
2727 			if (!ulwp->ul_stop)
2728 				force_continue(ulwp);
2729 		}
2730 		lmutex_unlock(mp);
2731 	}
2732 
2733 	lmutex_unlock(&udp->link_lock);
2734 	fork_lock_exit();
2735 	return (0);
2736 }
2737 
2738 /*
2739  * Resume a suspended mutator.
2740  */
2741 #pragma weak thr_continue_mutator = _thr_continue_mutator
2742 int
2743 _thr_continue_mutator(thread_t tid)
2744 {
2745 	return (_thrp_continue(tid, TSTP_MUTATOR));
2746 }
2747 
2748 #pragma weak thr_wait_mutator = _thr_wait_mutator
2749 int
2750 _thr_wait_mutator(thread_t tid, int dontwait)
2751 {
2752 	uberdata_t *udp = curthread->ul_uberdata;
2753 	ulwp_t *ulwp;
2754 	int error = 0;
2755 
2756 top:
2757 	if ((ulwp = find_lwp(tid)) == NULL)
2758 		return (ESRCH);
2759 
2760 	if (!ulwp->ul_mutator)
2761 		error = EINVAL;
2762 	else if (dontwait) {
2763 		if (!(ulwp->ul_stop & TSTP_MUTATOR))
2764 			error = EWOULDBLOCK;
2765 	} else if (!(ulwp->ul_stop & TSTP_MUTATOR)) {
2766 		cond_t *cvp = ulwp_condvar(ulwp, udp);
2767 		mutex_t *mp = ulwp_mutex(ulwp, udp);
2768 
2769 		(void) _cond_wait(cvp, mp);
2770 		(void) lmutex_unlock(mp);
2771 		goto top;
2772 	}
2773 
2774 	ulwp_unlock(ulwp, udp);
2775 	return (error);
2776 }
2777 
2778 /* PROBE_SUPPORT begin */
2779 
2780 void
2781 thr_probe_setup(void *data)
2782 {
2783 	curthread->ul_tpdp = data;
2784 }
2785 
2786 static void *
2787 _thread_probe_getfunc()
2788 {
2789 	return (curthread->ul_tpdp);
2790 }
2791 
2792 void * (*thr_probe_getfunc_addr)(void) = _thread_probe_getfunc;
2793 
2794 /* ARGSUSED */
2795 void
2796 _resume(ulwp_t *ulwp, caddr_t sp, int dontsave)
2797 {
2798 	/* never called */
2799 }
2800 
2801 /* ARGSUSED */
2802 void
2803 _resume_ret(ulwp_t *oldlwp)
2804 {
2805 	/* never called */
2806 }
2807 
2808 /* PROBE_SUPPORT end */
2809