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[/] [openrisc/] [trunk/] [gnu-dev/] [or1k-gcc/] [boehm-gc/] [darwin_stop_world.c] - Blame information for rev 790

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1 721 jeremybenn
#include "private/pthread_support.h"
2
 
3
/* This probably needs more porting work to ppc64. */
4
 
5
# if defined(GC_DARWIN_THREADS)
6
 
7
/* From "Inside Mac OS X - Mach-O Runtime Architecture" published by Apple
8
   Page 49:
9
   "The space beneath the stack pointer, where a new stack frame would normally
10
   be allocated, is called the red zone. This area as shown in Figure 3-2 may
11
   be used for any purpose as long as a new stack frame does not need to be
12
   added to the stack."
13
 
14
   Page 50: "If a leaf procedure's red zone usage would exceed 224 bytes, then
15
   it must set up a stack frame just like routines that call other routines."
16
*/
17
#if defined(__ppc__)
18
# define PPC_RED_ZONE_SIZE 224
19
#elif defined(__ppc64__)
20
# define PPC_RED_ZONE_SIZE 320
21
#endif
22
 
23
typedef struct StackFrame {
24
  unsigned long savedSP;
25
  unsigned long savedCR;
26
  unsigned long savedLR;
27
  unsigned long reserved[2];
28
  unsigned long savedRTOC;
29
} StackFrame;
30
 
31
unsigned long FindTopOfStack(unsigned long stack_start) {
32
  StackFrame    *frame;
33
 
34
  if (stack_start == 0) {
35
# ifdef POWERPC
36
#   if CPP_WORDSZ == 32
37
      __asm__ volatile("lwz     %0,0(r1)" : "=r" (frame));
38
#   else
39
      __asm__ volatile("ld      %0,0(r1)" : "=r" (frame));
40
#   endif
41
# endif
42
  } else {
43
    frame = (StackFrame *)stack_start;
44
  }
45
 
46
# ifdef DEBUG_THREADS
47
    /* GC_printf1("FindTopOfStack start at sp = %p\n", frame); */
48
# endif
49
  do {
50
    if (frame->savedSP == 0) break;
51
                /* if there are no more stack frames, stop */
52
 
53
    frame = (StackFrame*)frame->savedSP;
54
 
55
    /* we do these next two checks after going to the next frame
56
       because the LR for the first stack frame in the loop
57
       is not set up on purpose, so we shouldn't check it. */
58
    if ((frame->savedLR & ~3) == 0) break; /* if the next LR is bogus, stop */
59
    if ((~(frame->savedLR) & ~3) == 0) break; /* ditto */
60
  } while (1);
61
 
62
# ifdef DEBUG_THREADS
63
    /* GC_printf1("FindTopOfStack finish at sp = %p\n", frame); */
64
# endif
65
 
66
  return (unsigned long)frame;
67
}
68
 
69
#ifdef DARWIN_DONT_PARSE_STACK
70
void GC_push_all_stacks() {
71
  int i;
72
  kern_return_t r;
73
  GC_thread p;
74
  pthread_t me;
75
  ptr_t lo, hi;
76
  GC_THREAD_STATE_T state;
77
  mach_msg_type_number_t thread_state_count = GC_MACH_THREAD_STATE_COUNT;
78
 
79
  me = pthread_self();
80
  if (!GC_thr_initialized) GC_thr_init();
81
 
82
  for(i=0;i<THREAD_TABLE_SZ;i++) {
83
    for(p=GC_threads[i];p!=0;p=p->next) {
84
      if(p -> flags & FINISHED) continue;
85
      if(pthread_equal(p->id,me)) {
86
        lo = GC_approx_sp();
87
      } else {
88
        /* Get the thread state (registers, etc) */
89
        r = thread_get_state(p->stop_info.mach_thread, GC_MACH_THREAD_STATE,
90
                             (natural_t*)&state, &thread_state_count);
91
        if(r != KERN_SUCCESS) ABORT("thread_get_state failed");
92
 
93
#if defined(I386)
94
        lo = (void*)state . THREAD_FLD (esp);
95
 
96
        GC_push_one(state . THREAD_FLD (eax));
97
        GC_push_one(state . THREAD_FLD (ebx));
98
        GC_push_one(state . THREAD_FLD (ecx));
99
        GC_push_one(state . THREAD_FLD (edx));
100
        GC_push_one(state . THREAD_FLD (edi));
101
        GC_push_one(state . THREAD_FLD (esi));
102
        GC_push_one(state . THREAD_FLD (ebp));
103
 
104
#elif defined(X86_64)
105
        lo = (void*)state . THREAD_FLD (rsp);
106
 
107
        GC_push_one(state . THREAD_FLD (rax));
108
        GC_push_one(state . THREAD_FLD (rbx));
109
        GC_push_one(state . THREAD_FLD (rcx));
110
        GC_push_one(state . THREAD_FLD (rdx));
111
        GC_push_one(state . THREAD_FLD (rdi));
112
        GC_push_one(state . THREAD_FLD (rsi));
113
        GC_push_one(state . THREAD_FLD (rbp));
114
        GC_push_one(state . THREAD_FLD (rsp));
115
        GC_push_one(state . THREAD_FLD (r8));
116
        GC_push_one(state . THREAD_FLD (r9));
117
        GC_push_one(state . THREAD_FLD (r10));
118
        GC_push_one(state . THREAD_FLD (r11));
119
        GC_push_one(state . THREAD_FLD (r12));
120
        GC_push_one(state . THREAD_FLD (r13));
121
        GC_push_one(state . THREAD_FLD (r14));
122
        GC_push_one(state . THREAD_FLD (r15));
123
        GC_push_one(state . THREAD_FLD (rip));
124
        GC_push_one(state . THREAD_FLD (rflags));
125
        GC_push_one(state . THREAD_FLD (cs));
126
        GC_push_one(state . THREAD_FLD (fs));
127
        GC_push_one(state . THREAD_FLD (gs));
128
 
129
#elif defined(POWERPC)
130
        lo = (void*)(state . THREAD_FLD (r1) - PPC_RED_ZONE_SIZE);
131
 
132
        GC_push_one(state . THREAD_FLD (r0));
133
        GC_push_one(state . THREAD_FLD (r2));
134
        GC_push_one(state . THREAD_FLD (r3));
135
        GC_push_one(state . THREAD_FLD (r4));
136
        GC_push_one(state . THREAD_FLD (r5));
137
        GC_push_one(state . THREAD_FLD (r6));
138
        GC_push_one(state . THREAD_FLD (r7));
139
        GC_push_one(state . THREAD_FLD (r8));
140
        GC_push_one(state . THREAD_FLD (r9));
141
        GC_push_one(state . THREAD_FLD (r10));
142
        GC_push_one(state . THREAD_FLD (r11));
143
        GC_push_one(state . THREAD_FLD (r12));
144
        GC_push_one(state . THREAD_FLD (r13));
145
        GC_push_one(state . THREAD_FLD (r14));
146
        GC_push_one(state . THREAD_FLD (r15));
147
        GC_push_one(state . THREAD_FLD (r16));
148
        GC_push_one(state . THREAD_FLD (r17));
149
        GC_push_one(state . THREAD_FLD (r18));
150
        GC_push_one(state . THREAD_FLD (r19));
151
        GC_push_one(state . THREAD_FLD (r20));
152
        GC_push_one(state . THREAD_FLD (r21));
153
        GC_push_one(state . THREAD_FLD (r22));
154
        GC_push_one(state . THREAD_FLD (r23));
155
        GC_push_one(state . THREAD_FLD (r24));
156
        GC_push_one(state . THREAD_FLD (r25));
157
        GC_push_one(state . THREAD_FLD (r26));
158
        GC_push_one(state . THREAD_FLD (r27));
159
        GC_push_one(state . THREAD_FLD (r28));
160
        GC_push_one(state . THREAD_FLD (r29));
161
        GC_push_one(state . THREAD_FLD (r30));
162
        GC_push_one(state . THREAD_FLD (r31));
163
#else
164
# error FIXME for non-x86 || ppc architectures
165
#endif
166
      } /* p != me */
167
      if(p->flags & MAIN_THREAD)
168
        hi = GC_stackbottom;
169
      else
170
        hi = p->stack_end;
171
#if DEBUG_THREADS
172
      GC_printf3("Darwin: Stack for thread 0x%lx = [%lx,%lx)\n",
173
                 (unsigned long) p -> id,
174
                 (unsigned long) lo,
175
                 (unsigned long) hi
176
                 );
177
#endif
178
      GC_push_all_stack(lo,hi);
179
    } /* for(p=GC_threads[i]...) */
180
  } /* for(i=0;i<THREAD_TABLE_SZ...) */
181
}
182
 
183
#else /* !DARWIN_DONT_PARSE_STACK; Use FindTopOfStack() */
184
 
185
void GC_push_all_stacks() {
186
    int i;
187
    kern_return_t r;
188
    mach_port_t me;
189
    ptr_t lo, hi;
190
    thread_act_array_t act_list = 0;
191
    mach_msg_type_number_t listcount = 0;
192
 
193
    me = mach_thread_self();
194
    if (!GC_thr_initialized) GC_thr_init();
195
 
196
    r = task_threads(current_task(), &act_list, &listcount);
197
    if(r != KERN_SUCCESS) ABORT("task_threads failed");
198
    for(i = 0; i < listcount; i++) {
199
      thread_act_t thread = act_list[i];
200
      if (thread == me) {
201
        lo = GC_approx_sp();
202
        hi = (ptr_t)FindTopOfStack(0);
203
      } else {
204
#     if defined(__ppc__) || defined(__ppc64__)
205
        GC_THREAD_STATE_T info;
206
        mach_msg_type_number_t outCount = THREAD_STATE_MAX;
207
        r = thread_get_state(thread, GC_MACH_THREAD_STATE,
208
                             (natural_t *)&info, &outCount);
209
        if(r != KERN_SUCCESS) ABORT("task_get_state failed");
210
 
211
        lo = (void*)(info . THREAD_FLD (r1) - PPC_RED_ZONE_SIZE);
212
        hi = (ptr_t)FindTopOfStack(info . THREAD_FLD (r1));
213
 
214
        GC_push_one(info . THREAD_FLD (r0));
215
        GC_push_one(info . THREAD_FLD (r2));
216
        GC_push_one(info . THREAD_FLD (r3));
217
        GC_push_one(info . THREAD_FLD (r4));
218
        GC_push_one(info . THREAD_FLD (r5));
219
        GC_push_one(info . THREAD_FLD (r6));
220
        GC_push_one(info . THREAD_FLD (r7));
221
        GC_push_one(info . THREAD_FLD (r8));
222
        GC_push_one(info . THREAD_FLD (r9));
223
        GC_push_one(info . THREAD_FLD (r10));
224
        GC_push_one(info . THREAD_FLD (r11));
225
        GC_push_one(info . THREAD_FLD (r12));
226
        GC_push_one(info . THREAD_FLD (r13));
227
        GC_push_one(info . THREAD_FLD (r14));
228
        GC_push_one(info . THREAD_FLD (r15));
229
        GC_push_one(info . THREAD_FLD (r16));
230
        GC_push_one(info . THREAD_FLD (r17));
231
        GC_push_one(info . THREAD_FLD (r18));
232
        GC_push_one(info . THREAD_FLD (r19));
233
        GC_push_one(info . THREAD_FLD (r20));
234
        GC_push_one(info . THREAD_FLD (r21));
235
        GC_push_one(info . THREAD_FLD (r22));
236
        GC_push_one(info . THREAD_FLD (r23));
237
        GC_push_one(info . THREAD_FLD (r24));
238
        GC_push_one(info . THREAD_FLD (r25));
239
        GC_push_one(info . THREAD_FLD (r26));
240
        GC_push_one(info . THREAD_FLD (r27));
241
        GC_push_one(info . THREAD_FLD (r28));
242
        GC_push_one(info . THREAD_FLD (r29));
243
        GC_push_one(info . THREAD_FLD (r30));
244
        GC_push_one(info . THREAD_FLD (r31));
245
#      else
246
        /* FIXME: Remove after testing: */
247
        WARN("This is completely untested and likely will not work\n", 0);
248
        GC_THREAD_STATE_T info;
249
        mach_msg_type_number_t outCount = THREAD_STATE_MAX;
250
        r = thread_get_state(thread, GC_MACH_THREAD_STATE, (natural_t *)&info,
251
                             &outCount);
252
        if(r != KERN_SUCCESS) ABORT("task_get_state failed");
253
 
254
        lo = (void*)info . THREAD_FLD (esp);
255
        hi = (ptr_t)FindTopOfStack(info . THREAD_FLD (esp));
256
 
257
        GC_push_one(info . THREAD_FLD (eax));
258
        GC_push_one(info . THREAD_FLD (ebx));
259
        GC_push_one(info . THREAD_FLD (ecx));
260
        GC_push_one(info . THREAD_FLD (edx));
261
        GC_push_one(info . THREAD_FLD (edi));
262
        GC_push_one(info . THREAD_FLD (esi));
263
        /* GC_push_one(info . THREAD_FLD (ebp));  */
264
        /* GC_push_one(info . THREAD_FLD (esp));  */
265
        GC_push_one(info . THREAD_FLD (ss));
266
        GC_push_one(info . THREAD_FLD (eip));
267
        GC_push_one(info . THREAD_FLD (cs));
268
        GC_push_one(info . THREAD_FLD (ds));
269
        GC_push_one(info . THREAD_FLD (es));
270
        GC_push_one(info . THREAD_FLD (fs));
271
        GC_push_one(info . THREAD_FLD (gs));
272
#      endif /* !POWERPC */
273
      }
274
#     if DEBUG_THREADS
275
       GC_printf3("Darwin: Stack for thread 0x%lx = [%lx,%lx)\n",
276
                  (unsigned long) thread,
277
                  (unsigned long) lo,
278
                  (unsigned long) hi
279
                 );
280
#     endif
281
      GC_push_all_stack(lo, hi);
282
    } /* for(p=GC_threads[i]...) */
283
    vm_deallocate(current_task(), (vm_address_t)act_list, sizeof(thread_t) * listcount);
284
}
285
#endif /* !DARWIN_DONT_PARSE_STACK */
286
 
287
static mach_port_t GC_mach_handler_thread;
288
static int GC_use_mach_handler_thread = 0;
289
 
290
static struct GC_mach_thread GC_mach_threads[THREAD_TABLE_SZ];
291
static int GC_mach_threads_count;
292
 
293
void GC_stop_init() {
294
  int i;
295
 
296
  for (i = 0; i < THREAD_TABLE_SZ; i++) {
297
    GC_mach_threads[i].thread = 0;
298
    GC_mach_threads[i].already_suspended = 0;
299
  }
300
  GC_mach_threads_count = 0;
301
}
302
 
303
/* returns true if there's a thread in act_list that wasn't in old_list */
304
int GC_suspend_thread_list(thread_act_array_t act_list, int count,
305
                           thread_act_array_t old_list, int old_count) {
306
  mach_port_t my_thread = mach_thread_self();
307
  int i, j;
308
 
309
  int changed = 0;
310
 
311
  for(i = 0; i < count; i++) {
312
    thread_act_t thread = act_list[i];
313
#   if DEBUG_THREADS 
314
      GC_printf1("Attempting to suspend thread %p\n", thread);
315
#   endif
316
    /* find the current thread in the old list */
317
    int found = 0;
318
    for(j = 0; j < old_count; j++) {
319
      thread_act_t old_thread = old_list[j];
320
      if (old_thread == thread) {
321
        found = 1;
322
        break;
323
      }
324
    }
325
    if (!found) {
326
      /* add it to the GC_mach_threads list */
327
      GC_mach_threads[GC_mach_threads_count].thread = thread;
328
      /* default is not suspended */
329
      GC_mach_threads[GC_mach_threads_count].already_suspended = 0;
330
      changed = 1;
331
    }
332
 
333
    if (thread != my_thread &&
334
        (!GC_use_mach_handler_thread
335
         || (GC_use_mach_handler_thread
336
             && GC_mach_handler_thread != thread))) {
337
      struct thread_basic_info info;
338
      mach_msg_type_number_t outCount = THREAD_INFO_MAX;
339
      kern_return_t kern_result = thread_info(thread, THREAD_BASIC_INFO,
340
                                (thread_info_t)&info, &outCount);
341
      if(kern_result != KERN_SUCCESS) {
342
        /* the thread may have quit since the thread_threads () call
343
         * we mark already_suspended so it's not dealt with anymore later
344
         */
345
        if (!found) {
346
          GC_mach_threads[GC_mach_threads_count].already_suspended = TRUE;
347
          GC_mach_threads_count++;
348
        }
349
        continue;
350
      }
351
#     if DEBUG_THREADS
352
        GC_printf2("Thread state for 0x%lx = %d\n", thread, info.run_state);
353
#     endif
354
      if (!found) {
355
        GC_mach_threads[GC_mach_threads_count].already_suspended = info.suspend_count;
356
      }
357
      if (info.suspend_count) continue;
358
 
359
#     if DEBUG_THREADS
360
        GC_printf1("Suspending 0x%lx\n", thread);
361
#     endif
362
      /* Suspend the thread */
363
      kern_result = thread_suspend(thread);
364
      if(kern_result != KERN_SUCCESS) {
365
        /* the thread may have quit since the thread_threads () call
366
         * we mark already_suspended so it's not dealt with anymore later
367
         */
368
        if (!found) {
369
          GC_mach_threads[GC_mach_threads_count].already_suspended = TRUE;
370
          GC_mach_threads_count++;
371
        }
372
        continue;
373
      }
374
    }
375
    if (!found) GC_mach_threads_count++;
376
  }
377
  return changed;
378
}
379
 
380
 
381
/* Caller holds allocation lock.        */
382
void GC_stop_world()
383
{
384
  int i, changes;
385
    GC_thread p;
386
    mach_port_t my_thread = mach_thread_self();
387
    kern_return_t kern_result;
388
    thread_act_array_t act_list, prev_list;
389
    mach_msg_type_number_t listcount, prevcount;
390
 
391
#   if DEBUG_THREADS
392
      GC_printf1("Stopping the world from 0x%lx\n", mach_thread_self());
393
#   endif
394
 
395
    /* clear out the mach threads list table */
396
    GC_stop_init();
397
 
398
    /* Make sure all free list construction has stopped before we start. */
399
    /* No new construction can start, since free list construction is   */
400
    /* required to acquire and release the GC lock before it starts,    */
401
    /* and we have the lock.                                            */
402
#   ifdef PARALLEL_MARK
403
      GC_acquire_mark_lock();
404
      GC_ASSERT(GC_fl_builder_count == 0);
405
      /* We should have previously waited for it to become zero. */
406
#   endif /* PARALLEL_MARK */
407
 
408
      /* Loop stopping threads until you have gone over the whole list
409
         twice without a new one appearing. thread_create() won't
410
         return (and thus the thread stop) until the new thread
411
         exists, so there is no window whereby you could stop a
412
         thread, recognise it is stopped, but then have a new thread
413
         it created before stopping show up later.
414
      */
415
 
416
      changes = 1;
417
      prev_list = NULL;
418
      prevcount = 0;
419
      do {
420
        int result;
421
        kern_result = task_threads(current_task(), &act_list, &listcount);
422
        result = GC_suspend_thread_list(act_list, listcount,
423
                                        prev_list, prevcount);
424
        changes = result;
425
        prev_list = act_list;
426
        prevcount = listcount;
427
        vm_deallocate(current_task(), (vm_address_t)act_list, sizeof(thread_t) * listcount);
428
      } while (changes);
429
 
430
 
431
#   ifdef MPROTECT_VDB
432
      if(GC_incremental) {
433
        extern void GC_mprotect_stop();
434
        GC_mprotect_stop();
435
      }
436
#   endif
437
 
438
#   ifdef PARALLEL_MARK
439
      GC_release_mark_lock();
440
#   endif
441
    #if DEBUG_THREADS
442
      GC_printf1("World stopped from 0x%lx\n", my_thread);
443
    #endif
444
}
445
 
446
/* Caller holds allocation lock, and has held it continuously since     */
447
/* the world stopped.                                                   */
448
void GC_start_world()
449
{
450
  mach_port_t my_thread = mach_thread_self();
451
  int i, j;
452
  GC_thread p;
453
  kern_return_t kern_result;
454
  thread_act_array_t act_list;
455
  mach_msg_type_number_t listcount;
456
  struct thread_basic_info info;
457
  mach_msg_type_number_t outCount = THREAD_INFO_MAX;
458
 
459
#   if DEBUG_THREADS
460
      GC_printf0("World starting\n");
461
#   endif
462
 
463
#   ifdef MPROTECT_VDB
464
      if(GC_incremental) {
465
        extern void GC_mprotect_resume();
466
        GC_mprotect_resume();
467
      }
468
#   endif
469
 
470
    kern_result = task_threads(current_task(), &act_list, &listcount);
471
    for(i = 0; i < listcount; i++) {
472
      thread_act_t thread = act_list[i];
473
      if (thread != my_thread &&
474
          (!GC_use_mach_handler_thread ||
475
           (GC_use_mach_handler_thread && GC_mach_handler_thread != thread))) {
476
        for(j = 0; j < GC_mach_threads_count; j++) {
477
          if (thread == GC_mach_threads[j].thread) {
478
            if (GC_mach_threads[j].already_suspended) {
479
#             if DEBUG_THREADS
480
                GC_printf1("Not resuming already suspended thread %p\n", thread);
481
#             endif
482
              continue;
483
            }
484
            kern_result = thread_info(thread, THREAD_BASIC_INFO,
485
                                      (thread_info_t)&info, &outCount);
486
            if(kern_result != KERN_SUCCESS) ABORT("thread_info failed");
487
#           if DEBUG_THREADS
488
              GC_printf2("Thread state for 0x%lx = %d\n", thread,
489
                         info.run_state);
490
              GC_printf1("Resuming 0x%lx\n", thread);
491
#           endif
492
            /* Resume the thread */
493
            kern_result = thread_resume(thread);
494
            if(kern_result != KERN_SUCCESS) ABORT("thread_resume failed");
495
          }
496
        }
497
      }
498
    }
499
    vm_deallocate(current_task(), (vm_address_t)act_list, sizeof(thread_t) * listcount);
500
#   if DEBUG_THREADS
501
     GC_printf0("World started\n");
502
#   endif
503
}
504
 
505
void GC_darwin_register_mach_handler_thread(mach_port_t thread) {
506
  GC_mach_handler_thread = thread;
507
  GC_use_mach_handler_thread = 1;
508
}
509
 
510
#endif

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