* interface.c: Fix previous checkin (an incomplete patch
[official-gcc.git] / boehm-gc / aix_irix_threads.c
blob5d27afd145ed2c711fc8e9321a9063a259fdab2f
1 /*
2 * Copyright (c) 1991-1995 by Xerox Corporation. All rights reserved.
3 * Copyright (c) 1996-1999 by Silicon Graphics. All rights reserved.
4 * Copyright (c) 1999-2003 by Hewlett-Packard Company. All rights reserved.
6 * THIS MATERIAL IS PROVIDED AS IS, WITH ABSOLUTELY NO WARRANTY EXPRESSED
7 * OR IMPLIED. ANY USE IS AT YOUR OWN RISK.
9 * Permission is hereby granted to use or copy this program
10 * for any purpose, provided the above notices are retained on all copies.
11 * Permission to modify the code and to distribute modified code is granted,
12 * provided the above notices are retained, and a notice that the code was
13 * modified is included with the above copyright notice.
16 * Support code for Irix (>=6.2) Pthreads and for AIX pthreads.
17 * This relies on properties
18 * not guaranteed by the Pthread standard. It may or may not be portable
19 * to other implementations.
21 * Note that there is a lot of code duplication between this file and
22 * (pthread_support.c, pthread_stop_world.c). They should be merged.
23 * Pthread_support.c should be directly usable.
25 * Please avoid adding new ports here; use the generic pthread support
26 * as a base instead.
29 # include "private/gc_priv.h"
31 # if defined(GC_IRIX_THREADS) || defined(GC_AIX_THREADS)
33 # include <pthread.h>
34 # include <assert.h>
35 # include <semaphore.h>
36 # include <time.h>
37 # include <errno.h>
38 # include <unistd.h>
39 # include <sys/mman.h>
40 # include <sys/time.h>
42 #undef pthread_create
43 #undef pthread_sigmask
44 #undef pthread_join
46 #if defined(GC_IRIX_THREADS) && !defined(MUTEX_RECURSIVE_NP)
47 #define MUTEX_RECURSIVE_NP PTHREAD_MUTEX_RECURSIVE
48 #endif
50 void GC_thr_init();
52 #if 0
53 void GC_print_sig_mask()
55 sigset_t blocked;
56 int i;
58 if (pthread_sigmask(SIG_BLOCK, NULL, &blocked) != 0)
59 ABORT("pthread_sigmask");
60 GC_printf0("Blocked: ");
61 for (i = 1; i <= MAXSIG; i++) {
62 if (sigismember(&blocked, i)) { GC_printf1("%ld ",(long) i); }
64 GC_printf0("\n");
66 #endif
68 /* We use the allocation lock to protect thread-related data structures. */
70 /* The set of all known threads. We intercept thread creation and */
71 /* joins. We never actually create detached threads. We allocate all */
72 /* new thread stacks ourselves. These allow us to maintain this */
73 /* data structure. */
74 /* Protected by GC_thr_lock. */
75 /* Some of this should be declared volatile, but that's incosnsistent */
76 /* with some library routine declarations. */
77 typedef struct GC_Thread_Rep {
78 struct GC_Thread_Rep * next; /* More recently allocated threads */
79 /* with a given pthread id come */
80 /* first. (All but the first are */
81 /* guaranteed to be dead, but we may */
82 /* not yet have registered the join.) */
83 pthread_t id;
84 word stop;
85 # define NOT_STOPPED 0
86 # define PLEASE_STOP 1
87 # define STOPPED 2
88 word flags;
89 # define FINISHED 1 /* Thread has exited. */
90 # define DETACHED 2 /* Thread is intended to be detached. */
91 ptr_t stack_cold; /* cold end of the stack */
92 ptr_t stack_hot; /* Valid only when stopped. */
93 /* But must be within stack region at */
94 /* all times. */
95 void * status; /* Used only to avoid premature */
96 /* reclamation of any data it might */
97 /* reference. */
98 } * GC_thread;
100 GC_thread GC_lookup_thread(pthread_t id);
103 * The only way to suspend threads given the pthread interface is to send
104 * signals. Unfortunately, this means we have to reserve
105 * a signal, and intercept client calls to change the signal mask.
107 #if 0 /* DOB: 6.1 */
108 # if defined(GC_AIX_THREADS)
109 # define SIG_SUSPEND SIGUSR1
110 # else
111 # define SIG_SUSPEND (SIGRTMIN + 6)
112 # endif
113 #endif
115 pthread_mutex_t GC_suspend_lock = PTHREAD_MUTEX_INITIALIZER;
116 /* Number of threads stopped so far */
117 pthread_cond_t GC_suspend_ack_cv = PTHREAD_COND_INITIALIZER;
118 pthread_cond_t GC_continue_cv = PTHREAD_COND_INITIALIZER;
120 void GC_suspend_handler(int sig)
122 int dummy;
123 GC_thread me;
124 sigset_t all_sigs;
125 sigset_t old_sigs;
126 int i;
128 if (sig != SIG_SUSPEND) ABORT("Bad signal in suspend_handler");
129 me = GC_lookup_thread(pthread_self());
130 /* The lookup here is safe, since I'm doing this on behalf */
131 /* of a thread which holds the allocation lock in order */
132 /* to stop the world. Thus concurrent modification of the */
133 /* data structure is impossible. */
134 if (PLEASE_STOP != me -> stop) {
135 /* Misdirected signal. */
136 pthread_mutex_unlock(&GC_suspend_lock);
137 return;
139 pthread_mutex_lock(&GC_suspend_lock);
140 me -> stack_hot = (ptr_t)(&dummy);
141 me -> stop = STOPPED;
142 pthread_cond_signal(&GC_suspend_ack_cv);
143 pthread_cond_wait(&GC_continue_cv, &GC_suspend_lock);
144 pthread_mutex_unlock(&GC_suspend_lock);
145 /* GC_printf1("Continuing 0x%x\n", pthread_self()); */
149 GC_bool GC_thr_initialized = FALSE;
152 # define THREAD_TABLE_SZ 128 /* Must be power of 2 */
153 volatile GC_thread GC_threads[THREAD_TABLE_SZ];
155 void GC_push_thread_structures GC_PROTO((void))
157 GC_push_all((ptr_t)(GC_threads), (ptr_t)(GC_threads)+sizeof(GC_threads));
160 /* Add a thread to GC_threads. We assume it wasn't already there. */
161 /* Caller holds allocation lock. */
162 GC_thread GC_new_thread(pthread_t id)
164 int hv = ((word)id) % THREAD_TABLE_SZ;
165 GC_thread result;
166 static struct GC_Thread_Rep first_thread;
167 static GC_bool first_thread_used = FALSE;
169 GC_ASSERT(I_HOLD_LOCK());
170 if (!first_thread_used) {
171 result = &first_thread;
172 first_thread_used = TRUE;
173 /* Dont acquire allocation lock, since we may already hold it. */
174 } else {
175 result = (struct GC_Thread_Rep *)
176 GC_generic_malloc_inner(sizeof(struct GC_Thread_Rep), NORMAL);
178 if (result == 0) return(0);
179 result -> id = id;
180 result -> next = GC_threads[hv];
181 GC_threads[hv] = result;
182 /* result -> flags = 0; */
183 /* result -> stop = 0; */
184 return(result);
187 /* Delete a thread from GC_threads. We assume it is there. */
188 /* (The code intentionally traps if it wasn't.) */
189 /* Caller holds allocation lock. */
190 /* We explicitly pass in the GC_thread we're looking for, since */
191 /* if a thread has been joined, but we have not yet */
192 /* been notified, then there may be more than one thread */
193 /* in the table with the same pthread id. */
194 /* This is OK, but we need a way to delete a specific one. */
195 void GC_delete_gc_thread(pthread_t id, GC_thread gc_id)
197 int hv = ((word)id) % THREAD_TABLE_SZ;
198 register GC_thread p = GC_threads[hv];
199 register GC_thread prev = 0;
201 GC_ASSERT(I_HOLD_LOCK());
202 while (p != gc_id) {
203 prev = p;
204 p = p -> next;
206 if (prev == 0) {
207 GC_threads[hv] = p -> next;
208 } else {
209 prev -> next = p -> next;
213 /* Return a GC_thread corresponding to a given thread_t. */
214 /* Returns 0 if it's not there. */
215 /* Caller holds allocation lock or otherwise inhibits */
216 /* updates. */
217 /* If there is more than one thread with the given id we */
218 /* return the most recent one. */
219 GC_thread GC_lookup_thread(pthread_t id)
221 int hv = ((word)id) % THREAD_TABLE_SZ;
222 register GC_thread p = GC_threads[hv];
224 /* I either hold the lock, or i'm being called from the stop-the-world
225 * handler. */
226 #if defined(GC_AIX_THREADS)
227 GC_ASSERT(I_HOLD_LOCK()); /* no stop-the-world handler needed on AIX */
228 #endif
229 while (p != 0 && !pthread_equal(p -> id, id)) p = p -> next;
230 return(p);
233 #if defined(GC_AIX_THREADS)
234 void GC_stop_world()
236 pthread_t my_thread = pthread_self();
237 register int i;
238 register GC_thread p;
239 register int result;
240 struct timespec timeout;
242 GC_ASSERT(I_HOLD_LOCK());
243 for (i = 0; i < THREAD_TABLE_SZ; i++) {
244 for (p = GC_threads[i]; p != 0; p = p -> next) {
245 if (p -> id != my_thread) {
246 pthread_suspend_np(p->id);
250 /* GC_printf1("World stopped 0x%x\n", pthread_self()); */
253 void GC_start_world()
255 GC_thread p;
256 unsigned i;
257 pthread_t my_thread = pthread_self();
259 /* GC_printf0("World starting\n"); */
260 GC_ASSERT(I_HOLD_LOCK());
261 for (i = 0; i < THREAD_TABLE_SZ; i++) {
262 for (p = GC_threads[i]; p != 0; p = p -> next) {
263 if (p -> id != my_thread) {
264 pthread_continue_np(p->id);
270 #else /* GC_AIX_THREADS */
272 /* Caller holds allocation lock. */
273 void GC_stop_world()
275 pthread_t my_thread = pthread_self();
276 register int i;
277 register GC_thread p;
278 register int result;
279 struct timespec timeout;
281 GC_ASSERT(I_HOLD_LOCK());
282 for (i = 0; i < THREAD_TABLE_SZ; i++) {
283 for (p = GC_threads[i]; p != 0; p = p -> next) {
284 if (p -> id != my_thread) {
285 if (p -> flags & FINISHED) {
286 p -> stop = STOPPED;
287 continue;
289 p -> stop = PLEASE_STOP;
290 result = pthread_kill(p -> id, SIG_SUSPEND);
291 /* GC_printf1("Sent signal to 0x%x\n", p -> id); */
292 switch(result) {
293 case ESRCH:
294 /* Not really there anymore. Possible? */
295 p -> stop = STOPPED;
296 break;
297 case 0:
298 break;
299 default:
300 ABORT("pthread_kill failed");
305 pthread_mutex_lock(&GC_suspend_lock);
306 for (i = 0; i < THREAD_TABLE_SZ; i++) {
307 for (p = GC_threads[i]; p != 0; p = p -> next) {
308 while (p -> id != my_thread && p -> stop != STOPPED) {
309 clock_gettime(CLOCK_REALTIME, &timeout);
310 timeout.tv_nsec += 50000000; /* 50 msecs */
311 if (timeout.tv_nsec >= 1000000000) {
312 timeout.tv_nsec -= 1000000000;
313 ++timeout.tv_sec;
315 result = pthread_cond_timedwait(&GC_suspend_ack_cv,
316 &GC_suspend_lock,
317 &timeout);
318 if (result == ETIMEDOUT) {
319 /* Signal was lost or misdirected. Try again. */
320 /* Duplicate signals should be benign. */
321 result = pthread_kill(p -> id, SIG_SUSPEND);
326 pthread_mutex_unlock(&GC_suspend_lock);
327 /* GC_printf1("World stopped 0x%x\n", pthread_self()); */
330 /* Caller holds allocation lock. */
331 void GC_start_world()
333 GC_thread p;
334 unsigned i;
336 /* GC_printf0("World starting\n"); */
337 GC_ASSERT(I_HOLD_LOCK());
338 for (i = 0; i < THREAD_TABLE_SZ; i++) {
339 for (p = GC_threads[i]; p != 0; p = p -> next) {
340 p -> stop = NOT_STOPPED;
343 pthread_mutex_lock(&GC_suspend_lock);
344 /* All other threads are at pthread_cond_wait in signal handler. */
345 /* Otherwise we couldn't have acquired the lock. */
346 pthread_mutex_unlock(&GC_suspend_lock);
347 pthread_cond_broadcast(&GC_continue_cv);
350 #endif /* GC_AIX_THREADS */
353 /* We hold allocation lock. Should do exactly the right thing if the */
354 /* world is stopped. Should not fail if it isn't. */
355 void GC_push_all_stacks()
357 register int i;
358 register GC_thread p;
359 register ptr_t hot, cold;
360 pthread_t me = pthread_self();
362 /* GC_init() should have been called before GC_push_all_stacks is
363 * invoked, and GC_init calls GC_thr_init(), which sets
364 * GC_thr_initialized. */
365 GC_ASSERT(GC_thr_initialized);
367 /* GC_printf1("Pushing stacks from thread 0x%x\n", me); */
368 GC_ASSERT(I_HOLD_LOCK());
369 for (i = 0; i < THREAD_TABLE_SZ; i++) {
370 for (p = GC_threads[i]; p != 0; p = p -> next) {
371 if (p -> flags & FINISHED) continue;
372 cold = p->stack_cold;
373 if (!cold) cold=GC_stackbottom; /* 0 indicates 'original stack' */
374 if (pthread_equal(p -> id, me)) {
375 hot = GC_approx_sp();
376 } else {
377 # ifdef GC_AIX_THREADS
378 /* AIX doesn't use signals to suspend, so we need to get an */
379 /* accurate hot stack pointer. */
380 /* See http://publib16.boulder.ibm.com/pseries/en_US/libs/basetrf1/pthread_getthrds_np.htm */
381 pthread_t id = p -> id;
382 struct __pthrdsinfo pinfo;
383 int regbuf[64];
384 int val = sizeof(regbuf);
385 int retval = pthread_getthrds_np(&id, PTHRDSINFO_QUERY_ALL, &pinfo,
386 sizeof(pinfo), regbuf, &val);
387 if (retval != 0) {
388 printf("ERROR: pthread_getthrds_np() failed in GC\n");
389 abort();
391 /* according to the AIX ABI,
392 "the lowest possible valid stack address is 288 bytes (144 + 144)
393 less than the current value of the stack pointer. Functions may
394 use this stack space as volatile storage which is not preserved
395 across function calls."
396 ftp://ftp.penguinppc64.org/pub/people/amodra/PPC-elf64abi.txt.gz
398 hot = (ptr_t)(unsigned long)pinfo.__pi_ustk-288;
399 cold = (ptr_t)pinfo.__pi_stackend; /* more precise */
400 /* push the registers too, because they won't be on stack */
401 GC_push_all_eager((ptr_t)&pinfo.__pi_context,
402 (ptr_t)((&pinfo.__pi_context)+1));
403 GC_push_all_eager((ptr_t)regbuf, ((ptr_t)regbuf)+val);
404 # else
405 hot = p -> stack_hot;
406 # endif
408 # ifdef STACK_GROWS_UP
409 GC_push_all_stack(cold, hot);
410 # else
411 /* printf("thread 0x%x: hot=0x%08x cold=0x%08x\n", p -> id, hot, cold); */
412 GC_push_all_stack(hot, cold);
413 # endif
419 /* We hold the allocation lock. */
420 void GC_thr_init()
422 GC_thread t;
423 struct sigaction act;
425 if (GC_thr_initialized) return;
426 GC_ASSERT(I_HOLD_LOCK());
427 GC_thr_initialized = TRUE;
428 #ifndef GC_AIX_THREADS
429 (void) sigaction(SIG_SUSPEND, 0, &act);
430 if (act.sa_handler != SIG_DFL)
431 ABORT("Previously installed SIG_SUSPEND handler");
432 /* Install handler. */
433 act.sa_handler = GC_suspend_handler;
434 act.sa_flags = SA_RESTART;
435 (void) sigemptyset(&act.sa_mask);
436 if (0 != sigaction(SIG_SUSPEND, &act, 0))
437 ABORT("Failed to install SIG_SUSPEND handler");
438 #endif
439 /* Add the initial thread, so we can stop it. */
440 t = GC_new_thread(pthread_self());
441 /* use '0' to indicate GC_stackbottom, since GC_init() has not
442 * completed by the time we are called (from GC_init_inner()) */
443 t -> stack_cold = 0; /* the original stack. */
444 t -> stack_hot = (ptr_t)(&t);
445 t -> flags = DETACHED;
448 int GC_pthread_sigmask(int how, const sigset_t *set, sigset_t *oset)
450 sigset_t fudged_set;
452 #ifdef GC_AIX_THREADS
453 return(pthread_sigmask(how, set, oset));
454 #endif
456 if (set != NULL && (how == SIG_BLOCK || how == SIG_SETMASK)) {
457 fudged_set = *set;
458 sigdelset(&fudged_set, SIG_SUSPEND);
459 set = &fudged_set;
461 return(pthread_sigmask(how, set, oset));
464 struct start_info {
465 void *(*start_routine)(void *);
466 void *arg;
467 word flags;
468 pthread_mutex_t registeredlock;
469 pthread_cond_t registered;
470 int volatile registereddone;
473 void GC_thread_exit_proc(void *arg)
475 GC_thread me;
477 LOCK();
478 me = GC_lookup_thread(pthread_self());
479 me -> flags |= FINISHED;
480 /* reclaim DETACHED thread right away; otherwise wait until join() */
481 if (me -> flags & DETACHED) {
482 GC_delete_gc_thread(pthread_self(), me);
484 UNLOCK();
487 int GC_pthread_join(pthread_t thread, void **retval)
489 int result;
490 GC_thread thread_gc_id;
492 LOCK();
493 thread_gc_id = GC_lookup_thread(thread);
494 /* This is guaranteed to be the intended one, since the thread id */
495 /* cant have been recycled by pthreads. */
496 UNLOCK();
497 GC_ASSERT(!(thread_gc_id->flags & DETACHED));
498 result = pthread_join(thread, retval);
499 /* Some versions of the Irix pthreads library can erroneously */
500 /* return EINTR when the call succeeds. */
501 if (EINTR == result) result = 0;
502 GC_ASSERT(thread_gc_id->flags & FINISHED);
503 LOCK();
504 /* Here the pthread thread id may have been recycled. */
505 GC_delete_gc_thread(thread, thread_gc_id);
506 UNLOCK();
507 return result;
510 void * GC_start_routine(void * arg)
512 int dummy;
513 struct start_info * si = arg;
514 void * result;
515 GC_thread me;
516 pthread_t my_pthread;
517 void *(*start)(void *);
518 void *start_arg;
520 my_pthread = pthread_self();
521 /* If a GC occurs before the thread is registered, that GC will */
522 /* ignore this thread. That's fine, since it will block trying to */
523 /* acquire the allocation lock, and won't yet hold interesting */
524 /* pointers. */
525 LOCK();
526 /* We register the thread here instead of in the parent, so that */
527 /* we don't need to hold the allocation lock during pthread_create. */
528 /* Holding the allocation lock there would make REDIRECT_MALLOC */
529 /* impossible. It probably still doesn't work, but we're a little */
530 /* closer ... */
531 /* This unfortunately means that we have to be careful the parent */
532 /* doesn't try to do a pthread_join before we're registered. */
533 me = GC_new_thread(my_pthread);
534 me -> flags = si -> flags;
535 me -> stack_cold = (ptr_t) &dummy; /* this now the 'start of stack' */
536 me -> stack_hot = me->stack_cold;/* this field should always be sensible */
537 UNLOCK();
538 start = si -> start_routine;
539 start_arg = si -> arg;
541 pthread_mutex_lock(&(si->registeredlock));
542 si->registereddone = 1;
543 pthread_cond_signal(&(si->registered));
544 pthread_mutex_unlock(&(si->registeredlock));
545 /* si went away as soon as we did this unlock */
547 pthread_cleanup_push(GC_thread_exit_proc, 0);
548 result = (*start)(start_arg);
549 me -> status = result;
550 pthread_cleanup_pop(1);
551 /* This involves acquiring the lock, ensuring that we can't exit */
552 /* while a collection that thinks we're alive is trying to stop */
553 /* us. */
554 return(result);
558 GC_pthread_create(pthread_t *new_thread,
559 const pthread_attr_t *attr,
560 void *(*start_routine)(void *), void *arg)
562 int result;
563 GC_thread t;
564 int detachstate;
565 word my_flags = 0;
566 struct start_info * si;
567 /* This is otherwise saved only in an area mmapped by the thread */
568 /* library, which isn't visible to the collector. */
570 LOCK();
571 /* GC_INTERNAL_MALLOC implicitly calls GC_init() if required */
572 si = (struct start_info *)GC_INTERNAL_MALLOC(sizeof(struct start_info),
573 NORMAL);
574 GC_ASSERT(GC_thr_initialized); /* initialized by GC_init() */
575 UNLOCK();
576 if (0 == si) return(ENOMEM);
577 pthread_mutex_init(&(si->registeredlock), NULL);
578 pthread_cond_init(&(si->registered),NULL);
579 pthread_mutex_lock(&(si->registeredlock));
580 si -> start_routine = start_routine;
581 si -> arg = arg;
583 pthread_attr_getdetachstate(attr, &detachstate);
584 if (PTHREAD_CREATE_DETACHED == detachstate) my_flags |= DETACHED;
585 si -> flags = my_flags;
586 result = pthread_create(new_thread, attr, GC_start_routine, si);
588 /* Wait until child has been added to the thread table. */
589 /* This also ensures that we hold onto si until the child is done */
590 /* with it. Thus it doesn't matter whether it is otherwise */
591 /* visible to the collector. */
593 if (0 == result) {
594 si->registereddone = 0;
595 while (!si->registereddone)
596 pthread_cond_wait(&(si->registered), &(si->registeredlock));
598 pthread_mutex_unlock(&(si->registeredlock));
600 pthread_cond_destroy(&(si->registered));
601 pthread_mutex_destroy(&(si->registeredlock));
602 LOCK();
603 GC_INTERNAL_FREE(si);
604 UNLOCK();
606 return(result);
609 /* For now we use the pthreads locking primitives on HP/UX */
611 VOLATILE GC_bool GC_collecting = 0; /* A hint that we're in the collector and */
612 /* holding the allocation lock for an */
613 /* extended period. */
615 /* Reasonably fast spin locks. Basically the same implementation */
616 /* as STL alloc.h. */
618 #define SLEEP_THRESHOLD 3
620 volatile unsigned int GC_allocate_lock = 0;
621 #define GC_TRY_LOCK() !GC_test_and_set(&GC_allocate_lock)
622 #define GC_LOCK_TAKEN GC_allocate_lock
624 void GC_lock()
626 # define low_spin_max 30 /* spin cycles if we suspect uniprocessor */
627 # define high_spin_max 1000 /* spin cycles for multiprocessor */
628 static unsigned spin_max = low_spin_max;
629 unsigned my_spin_max;
630 static unsigned last_spins = 0;
631 unsigned my_last_spins;
632 volatile unsigned junk;
633 # define PAUSE junk *= junk; junk *= junk; junk *= junk; junk *= junk
634 int i;
636 if (GC_TRY_LOCK()) {
637 return;
639 junk = 0;
640 my_spin_max = spin_max;
641 my_last_spins = last_spins;
642 for (i = 0; i < my_spin_max; i++) {
643 if (GC_collecting) goto yield;
644 if (i < my_last_spins/2 || GC_LOCK_TAKEN) {
645 PAUSE;
646 continue;
648 if (GC_TRY_LOCK()) {
650 * got it!
651 * Spinning worked. Thus we're probably not being scheduled
652 * against the other process with which we were contending.
653 * Thus it makes sense to spin longer the next time.
655 last_spins = i;
656 spin_max = high_spin_max;
657 return;
660 /* We are probably being scheduled against the other process. Sleep. */
661 spin_max = low_spin_max;
662 yield:
663 for (i = 0;; ++i) {
664 if (GC_TRY_LOCK()) {
665 return;
667 if (i < SLEEP_THRESHOLD) {
668 sched_yield();
669 } else {
670 struct timespec ts;
672 if (i > 26) i = 26;
673 /* Don't wait for more than about 60msecs, even */
674 /* under extreme contention. */
675 ts.tv_sec = 0;
676 ts.tv_nsec = 1 << i;
677 nanosleep(&ts, 0);
682 # else /* !GC_IRIX_THREADS && !GC_AIX_THREADS */
684 #ifndef LINT
685 int GC_no_Irix_threads;
686 #endif
688 # endif /* IRIX_THREADS */