xref: /trunk/main/sal/rtl/source/alloc_arena.c (revision cdf0e10c)
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27 
28 #define _BSD_SOURCE /* sys/mman.h: MAP_ANON */
29 #include "alloc_arena.h"
30 
31 #include "alloc_impl.h"
32 #include "internal/once.h"
33 #include "sal/macros.h"
34 #include "osl/diagnose.h"
35 
36 #include <string.h>
37 #include <stdio.h>
38 
39 #ifdef OS2
40 #undef OSL_TRACE
41 #define OSL_TRACE                  1 ? ((void)0) : _OSL_GLOBAL osl_trace
42 #define INCL_DOS
43 #include <os2.h>
44 #endif
45 
46 /* ================================================================= *
47  *
48  * arena internals.
49  *
50  * ================================================================= */
51 
52 /** g_arena_list
53  *  @internal
54  */
55 struct rtl_arena_list_st
56 {
57 	rtl_memory_lock_type m_lock;
58 	rtl_arena_type       m_arena_head;
59 };
60 
61 static struct rtl_arena_list_st g_arena_list;
62 
63 
64 /** gp_arena_arena
65  *  provided for arena_type allocations, and hash_table resizing.
66  *
67  *  @internal
68  */
69 static rtl_arena_type * gp_arena_arena = 0;
70 
71 
72 /** gp_machdep_arena
73  *
74  *  Low level virtual memory (pseudo) arena
75  *  (platform dependent implementation)
76  *
77  *  @internal
78  */
79 static rtl_arena_type * gp_machdep_arena = 0;
80 
81 
82 static void *
83 SAL_CALL rtl_machdep_alloc (
84 	rtl_arena_type * pArena,
85 	sal_Size *       pSize
86 );
87 
88 static void
89 SAL_CALL rtl_machdep_free (
90 	rtl_arena_type * pArena,
91 	void *           pAddr,
92 	sal_Size         nSize
93 );
94 
95 static sal_Size
96 rtl_machdep_pagesize (void);
97 
98 
99 /** gp_default_arena
100  */
101 rtl_arena_type * gp_default_arena = 0;
102 
103 
104 /** rtl_arena_init()
105  *  @internal
106  */
107 static int
108 rtl_arena_init (void);
109 
110 
111 /* ================================================================= */
112 
113 /** rtl_arena_segment_constructor()
114  */
115 static int
116 rtl_arena_segment_constructor (void * obj)
117 {
118 	rtl_arena_segment_type * segment = (rtl_arena_segment_type*)(obj);
119 
120 	QUEUE_START_NAMED(segment, s);
121 	QUEUE_START_NAMED(segment, f);
122 
123 	return (1);
124 }
125 
126 
127 /** rtl_arena_segment_destructor()
128  */
129 static void
130 rtl_arena_segment_destructor (void * obj)
131 {
132 #if OSL_DEBUG_LEVEL == 0
133     (void) obj; /* unused */
134 #else /* OSL_DEBUG_LEVEL */
135 	rtl_arena_segment_type * segment = (rtl_arena_segment_type*)(obj);
136 
137 	OSL_ASSERT(QUEUE_STARTED_NAMED(segment, s));
138 	OSL_ASSERT(QUEUE_STARTED_NAMED(segment, f));
139 #endif /* OSL_DEBUG_LEVEL */
140 }
141 
142 /* ================================================================= */
143 
144 /** rtl_arena_segment_populate()
145  *
146  *  @precond  arena->m_lock acquired.
147  */
148 static int
149 rtl_arena_segment_populate (
150 	rtl_arena_type * arena
151 )
152 {
153     rtl_arena_segment_type *span;
154 	sal_Size                size = rtl_machdep_pagesize();
155 
156     span = rtl_machdep_alloc(gp_machdep_arena, &size);
157 	if (span != 0)
158 	{
159         rtl_arena_segment_type *first, *last, *head;
160 		sal_Size                count = size / sizeof(rtl_arena_segment_type);
161 
162 		/* insert onto reserve span list */
163 		QUEUE_INSERT_TAIL_NAMED(&(arena->m_segment_reserve_span_head), span, s);
164 		QUEUE_START_NAMED(span, f);
165 		span->m_addr = (sal_uIntPtr)(span);
166 		span->m_size = size;
167 		span->m_type = RTL_ARENA_SEGMENT_TYPE_SPAN;
168 
169 		/* insert onto reserve list */
170 		head  = &(arena->m_segment_reserve_head);
171 		for (first = span + 1, last = span + count; first < last; ++first)
172 		{
173 		    QUEUE_INSERT_TAIL_NAMED(head, first, s);
174 			QUEUE_START_NAMED(first, f);
175 			first->m_addr = 0;
176 			first->m_size = 0;
177 			first->m_type = 0;
178 		}
179 	}
180 	return (span != 0);
181 }
182 
183 
184 /** rtl_arena_segment_get()
185  *
186  *  @precond  arena->m_lock acquired.
187  *  @precond  (*ppSegment == 0)
188  */
189 static RTL_MEMORY_INLINE void
190 rtl_arena_segment_get (
191 	rtl_arena_type *          arena,
192 	rtl_arena_segment_type ** ppSegment
193 )
194 {
195     rtl_arena_segment_type * head;
196 
197     OSL_ASSERT(*ppSegment == 0);
198 
199     head = &(arena->m_segment_reserve_head);
200     if ((head->m_snext != head) || rtl_arena_segment_populate (arena))
201     {
202 		(*ppSegment) = head->m_snext;
203 		QUEUE_REMOVE_NAMED((*ppSegment), s);
204     }
205 }
206 
207 #if defined(__SUNPRO_C) || defined(__SUNPRO_CC)
208 #pragma inline(rtl_arena_segment_get)
209 #endif
210 
211 
212 /** rtl_arena_segment_put()
213  *
214  *  @precond  arena->m_lock acquired.
215  *  @postcond (*ppSegment == 0)
216  */
217 static RTL_MEMORY_INLINE void
218 rtl_arena_segment_put (
219 	rtl_arena_type *          arena,
220 	rtl_arena_segment_type ** ppSegment
221 )
222 {
223 	rtl_arena_segment_type * head;
224 
225 	OSL_ASSERT(QUEUE_STARTED_NAMED((*ppSegment), s));
226 	OSL_ASSERT(QUEUE_STARTED_NAMED((*ppSegment), f));
227 
228 	(*ppSegment)->m_addr = 0;
229 	(*ppSegment)->m_size = 0;
230 
231 	OSL_ASSERT((*ppSegment)->m_type != RTL_ARENA_SEGMENT_TYPE_HEAD);
232 	(*ppSegment)->m_type = 0;
233 
234 	/* keep as reserve */
235 	head = &(arena->m_segment_reserve_head);
236 	QUEUE_INSERT_HEAD_NAMED(head, (*ppSegment), s);
237 
238 	/* clear */
239 	(*ppSegment) = 0;
240 }
241 
242 #if defined(__SUNPRO_C) || defined(__SUNPRO_CC)
243 #pragma inline(rtl_arena_segment_put)
244 #endif
245 
246 /* ================================================================= */
247 
248 /** rtl_arena_freelist_insert()
249  *
250  *  @precond arena->m_lock acquired.
251  */
252 static RTL_MEMORY_INLINE void
253 rtl_arena_freelist_insert (
254 	rtl_arena_type *         arena,
255 	rtl_arena_segment_type * segment
256 )
257 {
258 	rtl_arena_segment_type * head;
259 
260 	head = &(arena->m_freelist_head[highbit(segment->m_size) - 1]);
261 	QUEUE_INSERT_TAIL_NAMED(head, segment, f);
262 
263 	arena->m_freelist_bitmap |= head->m_size;
264 }
265 
266 #if defined(__SUNPRO_C) || defined(__SUNPRO_CC)
267 #pragma inline(rtl_arena_freelist_insert)
268 #endif /* __SUNPRO_C */
269 
270 
271 /** rtl_arena_freelist_remove()
272  *
273  *  @precond arena->m_lock acquired.
274  */
275 static RTL_MEMORY_INLINE void
276 rtl_arena_freelist_remove (
277 	rtl_arena_type *         arena,
278 	rtl_arena_segment_type * segment
279 )
280 {
281 	if ((segment->m_fnext->m_type == RTL_ARENA_SEGMENT_TYPE_HEAD) &&
282 		(segment->m_fprev->m_type == RTL_ARENA_SEGMENT_TYPE_HEAD)    )
283 	{
284 		rtl_arena_segment_type * head;
285 
286 		head = segment->m_fprev;
287 		OSL_ASSERT(arena->m_freelist_bitmap & head->m_size);
288 		arena->m_freelist_bitmap ^= head->m_size;
289 	}
290 	QUEUE_REMOVE_NAMED(segment, f);
291 }
292 
293 #if defined(__SUNPRO_C) || defined(__SUNPRO_CC)
294 #pragma inline(rtl_arena_freelist_remove)
295 #endif /* __SUNPRO_C */
296 
297 
298 /* ================================================================= */
299 
300 /** RTL_ARENA_HASH_INDEX()
301  */
302 #define	RTL_ARENA_HASH_INDEX_IMPL(a, s, q, m) \
303  	((((a) + ((a) >> (s)) + ((a) >> ((s) << 1))) >> (q)) & (m))
304 
305 #define	RTL_ARENA_HASH_INDEX(arena, addr) \
306     RTL_ARENA_HASH_INDEX_IMPL((addr), (arena)->m_hash_shift, (arena)->m_quantum_shift, ((arena)->m_hash_size - 1))
307 
308 /** rtl_arena_hash_rescale()
309  *
310  * @precond arena->m_lock released.
311  */
312 static void
313 rtl_arena_hash_rescale (
314 	rtl_arena_type * arena,
315 	sal_Size         new_size
316 )
317 {
318 	rtl_arena_segment_type ** new_table;
319 	sal_Size                  new_bytes;
320 
321 	new_bytes = new_size * sizeof(rtl_arena_segment_type*);
322 	new_table = (rtl_arena_segment_type **)rtl_arena_alloc (gp_arena_arena, &new_bytes);
323 
324 	if (new_table != 0)
325 	{
326 		rtl_arena_segment_type ** old_table;
327 		sal_Size                  old_size, i;
328 
329 		memset (new_table, 0, new_bytes);
330 
331 		RTL_MEMORY_LOCK_ACQUIRE(&(arena->m_lock));
332 
333 		old_table = arena->m_hash_table;
334 		old_size  = arena->m_hash_size;
335 
336 		OSL_TRACE(
337 			"rtl_arena_hash_rescale(\"%s\"): "
338 			"nseg: %"PRIu64" (ave: %"PRIu64"), frees: %"PRIu64" "
339 			"[old_size: %lu, new_size: %lu]",
340 			arena->m_name,
341 			arena->m_stats.m_alloc - arena->m_stats.m_free,
342 			(arena->m_stats.m_alloc - arena->m_stats.m_free) >> arena->m_hash_shift,
343 			arena->m_stats.m_free,
344 			old_size, new_size
345 		);
346 
347 #if 0  /* DBG */
348 		for (i = 0; i < arena->m_hash_size; i++)
349 		{
350 			sal_Size k = 0; rtl_arena_segment_type ** segpp = &(arena->m_hash_table[i]);
351 			while (*segpp)
352 			{
353 				k += 1;
354 				segpp = &((*segpp)->m_fnext);
355 			}
356 			fprintf(stdout, "%d, ", k);
357 		}
358 		fprintf(stdout, "\n");
359 #endif /* DBG */
360 
361 		arena->m_hash_table = new_table;
362 		arena->m_hash_size  = new_size;
363 		arena->m_hash_shift = highbit(arena->m_hash_size) - 1;
364 
365 		for (i = 0; i < old_size; i++)
366 		{
367 			rtl_arena_segment_type * curr = old_table[i];
368 			while (curr != 0)
369 			{
370 				rtl_arena_segment_type  * next = curr->m_fnext;
371 				rtl_arena_segment_type ** head;
372 
373 				head = &(arena->m_hash_table[RTL_ARENA_HASH_INDEX(arena, curr->m_addr)]);
374 				curr->m_fnext = (*head);
375 				(*head) = curr;
376 
377 				curr = next;
378 			}
379 			old_table[i] = 0;
380 		}
381 
382 		RTL_MEMORY_LOCK_RELEASE(&(arena->m_lock));
383 
384 		if (old_table != arena->m_hash_table_0)
385 		{
386 			sal_Size old_bytes = old_size * sizeof(rtl_arena_segment_type*);
387 			rtl_arena_free (gp_arena_arena, old_table, old_bytes);
388 		}
389 	}
390 }
391 
392 
393 /** rtl_arena_hash_insert()
394  *  ...and update stats.
395  */
396 static RTL_MEMORY_INLINE void
397 rtl_arena_hash_insert (
398 	rtl_arena_type *         arena,
399 	rtl_arena_segment_type * segment
400 )
401 {
402 	rtl_arena_segment_type ** ppSegment;
403 
404 	ppSegment = &(arena->m_hash_table[RTL_ARENA_HASH_INDEX(arena, segment->m_addr)]);
405 
406 	segment->m_fnext = (*ppSegment);
407 	(*ppSegment) = segment;
408 
409 	arena->m_stats.m_alloc     += 1;
410 	arena->m_stats.m_mem_alloc += segment->m_size;
411 }
412 
413 #if defined(__SUNPRO_C) || defined(__SUNPRO_CC)
414 #pragma inline(rtl_arena_hash_insert)
415 #endif /* __SUNPRO_C */
416 
417 
418 /** rtl_arena_hash_remove()
419  *  ...and update stats.
420  */
421 static rtl_arena_segment_type *
422 rtl_arena_hash_remove (
423 	rtl_arena_type * arena,
424 	sal_uIntPtr      addr,
425 	sal_Size         size
426 )
427 {
428 	rtl_arena_segment_type *segment, **segpp;
429 	sal_Size lookups = 0;
430 
431 #if OSL_DEBUG_LEVEL == 0
432     (void) size; /* unused */
433 #endif /* OSL_DEBUG_LEVEL */
434 
435 	segpp = &(arena->m_hash_table[RTL_ARENA_HASH_INDEX(arena, addr)]);
436 	while ((segment = *segpp) != 0)
437 	{
438 		if (segment->m_addr == addr)
439 		{
440 			*segpp = segment->m_fnext, segment->m_fnext = segment->m_fprev = segment;
441 			break;
442 		}
443 
444 		/* update lookup miss stats */
445 		lookups += 1;
446 		segpp = &(segment->m_fnext);
447 	}
448 
449 	OSL_POSTCOND(segment != 0, "rtl_arena_hash_remove(): bad free.");
450 	if (segment != 0)
451 	{
452 		OSL_POSTCOND(segment->m_size == size, "rtl_arena_hash_remove(): wrong size.");
453 
454 		arena->m_stats.m_free      += 1;
455 		arena->m_stats.m_mem_alloc -= segment->m_size;
456 
457 		if (lookups > 1)
458 		{
459 			sal_Size nseg = (sal_Size)(arena->m_stats.m_alloc - arena->m_stats.m_free);
460 			if (nseg > 4 * arena->m_hash_size)
461 			{
462 				if (!(arena->m_flags & RTL_ARENA_FLAG_RESCALE))
463 				{
464 					sal_Size ave = nseg >> arena->m_hash_shift;
465 					sal_Size new_size = arena->m_hash_size << (highbit(ave) - 1);
466 
467 					arena->m_flags |= RTL_ARENA_FLAG_RESCALE;
468 					RTL_MEMORY_LOCK_RELEASE(&(arena->m_lock));
469 					rtl_arena_hash_rescale (arena, new_size);
470 					RTL_MEMORY_LOCK_ACQUIRE(&(arena->m_lock));
471 					arena->m_flags &= ~RTL_ARENA_FLAG_RESCALE;
472 				}
473 			}
474 		}
475 	}
476 
477 	return (segment);
478 }
479 
480 /* ================================================================= */
481 
482 /** rtl_arena_segment_alloc()
483  *  allocate (and remove) segment from freelist
484  *
485  *  @precond arena->m_lock acquired
486  *  @precond (*ppSegment == 0)
487  */
488 static int
489 rtl_arena_segment_alloc (
490 	rtl_arena_type *          arena,
491 	sal_Size                  size,
492 	rtl_arena_segment_type ** ppSegment
493 )
494 {
495 	int index = 0;
496 
497 	OSL_ASSERT(*ppSegment == 0);
498 	if (!RTL_MEMORY_ISP2(size))
499 	{
500 		int msb = highbit(size);
501 		if (RTL_ARENA_FREELIST_SIZE == SAL_INT_CAST(size_t, msb))
502 		{
503 			/* highest possible freelist: fall back to first fit */
504 			rtl_arena_segment_type *head, *segment;
505 
506 			head = &(arena->m_freelist_head[msb - 1]);
507 			for (segment = head->m_fnext; segment != head; segment = segment->m_fnext)
508 			{
509 				if (segment->m_size >= size)
510 				{
511 					/* allocate first fit segment */
512 					(*ppSegment) = segment;
513 					break;
514 				}
515 			}
516 			goto dequeue_and_leave;
517 		}
518 
519 		/* roundup to next power of 2 */
520 		size = (1UL << msb);
521 	}
522 
523 	index = lowbit(RTL_MEMORY_P2ALIGN(arena->m_freelist_bitmap, size));
524 	if (index > 0)
525 	{
526 		/* instant fit: allocate first free segment */
527 		rtl_arena_segment_type *head;
528 
529 		head = &(arena->m_freelist_head[index - 1]);
530 		(*ppSegment) = head->m_fnext;
531 		OSL_ASSERT((*ppSegment) != head);
532 	}
533 
534 dequeue_and_leave:
535 	if (*ppSegment != 0)
536 	{
537 		/* remove from freelist */
538 		rtl_arena_freelist_remove (arena, (*ppSegment));
539 	}
540 	return (*ppSegment != 0);
541 }
542 
543 
544 /** rtl_arena_segment_create()
545  *  import new (span) segment from source arena
546  *
547  *  @precond arena->m_lock acquired
548  *  @precond (*ppSegment == 0)
549  */
550 static int
551 rtl_arena_segment_create (
552 	rtl_arena_type *          arena,
553 	sal_Size                  size,
554 	rtl_arena_segment_type ** ppSegment
555 )
556 {
557 	OSL_ASSERT((*ppSegment) == 0);
558 	if (arena->m_source_alloc != 0)
559 	{
560 		rtl_arena_segment_get (arena, ppSegment);
561 		if (*ppSegment != 0)
562 		{
563 			rtl_arena_segment_type * span = 0;
564 			rtl_arena_segment_get (arena, &span);
565 			if (span != 0)
566 			{
567 				/* import new span from source arena */
568 				RTL_MEMORY_LOCK_RELEASE(&(arena->m_lock));
569 
570 				span->m_size = size;
571 				span->m_addr = (sal_uIntPtr)(arena->m_source_alloc)(
572 					arena->m_source_arena, &(span->m_size));
573 
574 				RTL_MEMORY_LOCK_ACQUIRE(&(arena->m_lock));
575 				if (span->m_addr != 0)
576 				{
577 					/* insert onto segment list, update stats */
578 					span->m_type = RTL_ARENA_SEGMENT_TYPE_SPAN;
579 					QUEUE_INSERT_HEAD_NAMED(&(arena->m_segment_head), span, s);
580 					arena->m_stats.m_mem_total += span->m_size;
581 
582 					(*ppSegment)->m_addr = span->m_addr;
583 					(*ppSegment)->m_size = span->m_size;
584 					(*ppSegment)->m_type = RTL_ARENA_SEGMENT_TYPE_FREE;
585 					QUEUE_INSERT_HEAD_NAMED(span, (*ppSegment), s);
586 
587 					/* report success */
588 					return (1);
589 				}
590 				rtl_arena_segment_put (arena, &span);
591 			}
592 			rtl_arena_segment_put (arena, ppSegment);
593 		}
594 	}
595 	return (0);
596 }
597 
598 
599 /** rtl_arena_segment_coalesce()
600  *  mark as free and join with adjacent free segment(s)
601  *
602  *  @precond arena->m_lock acquired
603  *  @precond segment marked 'used'
604  */
605 static void
606 rtl_arena_segment_coalesce (
607 	rtl_arena_type *         arena,
608 	rtl_arena_segment_type * segment
609 )
610 {
611 	rtl_arena_segment_type *next, *prev;
612 
613 	/* mark segment free */
614 	OSL_ASSERT(segment->m_type == RTL_ARENA_SEGMENT_TYPE_USED);
615 	segment->m_type = RTL_ARENA_SEGMENT_TYPE_FREE;
616 
617 	/* try to merge w/ next segment */
618 	next = segment->m_snext;
619 	if (next->m_type == RTL_ARENA_SEGMENT_TYPE_FREE)
620 	{
621 		OSL_ASSERT(segment->m_addr + segment->m_size == next->m_addr);
622 		segment->m_size += next->m_size;
623 
624 		/* remove from freelist */
625 		rtl_arena_freelist_remove (arena, next);
626 
627 		/* remove from segment list */
628 		QUEUE_REMOVE_NAMED(next, s);
629 
630 		/* release segment descriptor */
631 		rtl_arena_segment_put (arena, &next);
632 	}
633 
634 	/* try to merge w/ prev segment */
635 	prev = segment->m_sprev;
636 	if (prev->m_type == RTL_ARENA_SEGMENT_TYPE_FREE)
637 	{
638 		OSL_ASSERT(prev->m_addr + prev->m_size == segment->m_addr);
639 		segment->m_addr  = prev->m_addr;
640 		segment->m_size += prev->m_size;
641 
642 		/* remove from freelist */
643 		rtl_arena_freelist_remove (arena, prev);
644 
645 		/* remove from segment list */
646 		QUEUE_REMOVE_NAMED(prev, s);
647 
648 		/* release segment descriptor */
649 		rtl_arena_segment_put (arena, &prev);
650 	}
651 }
652 
653 /* ================================================================= */
654 
655 /** rtl_arena_constructor()
656  */
657 static void
658 rtl_arena_constructor (void * obj)
659 {
660 	rtl_arena_type * arena = (rtl_arena_type*)(obj);
661 	rtl_arena_segment_type * head;
662 	size_t i;
663 
664 	memset (arena, 0, sizeof(rtl_arena_type));
665 
666 	QUEUE_START_NAMED(arena, arena_);
667 
668 	(void) RTL_MEMORY_LOCK_INIT(&(arena->m_lock));
669 
670 	head = &(arena->m_segment_reserve_span_head);
671 	rtl_arena_segment_constructor (head);
672 	head->m_type = RTL_ARENA_SEGMENT_TYPE_HEAD;
673 
674 	head = &(arena->m_segment_reserve_head);
675 	rtl_arena_segment_constructor (head);
676 	head->m_type = RTL_ARENA_SEGMENT_TYPE_HEAD;
677 
678 	head = &(arena->m_segment_head);
679 	rtl_arena_segment_constructor (head);
680 	head->m_type = RTL_ARENA_SEGMENT_TYPE_HEAD;
681 
682 	for (i = 0; i < RTL_ARENA_FREELIST_SIZE; i++)
683 	{
684 		head = &(arena->m_freelist_head[i]);
685 		rtl_arena_segment_constructor (head);
686 
687 		head->m_size = (1UL << i);
688 		head->m_type = RTL_ARENA_SEGMENT_TYPE_HEAD;
689 	}
690 
691 	arena->m_hash_table = arena->m_hash_table_0;
692 	arena->m_hash_size  = RTL_ARENA_HASH_SIZE;
693 	arena->m_hash_shift = highbit(arena->m_hash_size) - 1;
694 }
695 
696 
697 /** rtl_arena_destructor()
698  */
699 static void
700 rtl_arena_destructor (void * obj)
701 {
702 	rtl_arena_type * arena = (rtl_arena_type*)(obj);
703 	rtl_arena_segment_type * head;
704 	size_t i;
705 
706 	OSL_ASSERT(QUEUE_STARTED_NAMED(arena, arena_));
707 
708 	RTL_MEMORY_LOCK_DESTROY(&(arena->m_lock));
709 
710 	head = &(arena->m_segment_reserve_span_head);
711 	OSL_ASSERT(head->m_type == RTL_ARENA_SEGMENT_TYPE_HEAD);
712 	rtl_arena_segment_destructor (head);
713 
714 	head = &(arena->m_segment_reserve_head);
715 	OSL_ASSERT(head->m_type == RTL_ARENA_SEGMENT_TYPE_HEAD);
716 	rtl_arena_segment_destructor (head);
717 
718 	head = &(arena->m_segment_head);
719 	OSL_ASSERT(head->m_type == RTL_ARENA_SEGMENT_TYPE_HEAD);
720 	rtl_arena_segment_destructor (head);
721 
722 	for (i = 0; i < RTL_ARENA_FREELIST_SIZE; i++)
723 	{
724 		head = &(arena->m_freelist_head[i]);
725 
726 		OSL_ASSERT(head->m_size == (1UL << i));
727 		OSL_ASSERT(head->m_type == RTL_ARENA_SEGMENT_TYPE_HEAD);
728 
729 		rtl_arena_segment_destructor (head);
730 	}
731 
732 	OSL_ASSERT(arena->m_hash_table == arena->m_hash_table_0);
733 	OSL_ASSERT(arena->m_hash_size  == RTL_ARENA_HASH_SIZE);
734 	OSL_ASSERT(
735         arena->m_hash_shift ==
736         SAL_INT_CAST(unsigned, highbit(arena->m_hash_size) - 1));
737 }
738 
739 /* ================================================================= */
740 
741 /** rtl_arena_activate()
742  */
743 static rtl_arena_type *
744 rtl_arena_activate (
745 	rtl_arena_type *   arena,
746 	const char *       name,
747 	sal_Size           quantum,
748 	sal_Size           quantum_cache_max,
749 	rtl_arena_type *   source_arena,
750 	void * (SAL_CALL * source_alloc)(rtl_arena_type *, sal_Size *),
751 	void   (SAL_CALL * source_free) (rtl_arena_type *, void *, sal_Size)
752 )
753 {
754 	OSL_ASSERT(arena != 0);
755 	if (arena != 0)
756 	{
757 		(void) snprintf (arena->m_name, sizeof(arena->m_name), "%s", name);
758 
759 		if (!RTL_MEMORY_ISP2(quantum))
760 		{
761 			/* roundup to next power of 2 */
762 			quantum = (1UL << highbit(quantum));
763 		}
764 		quantum_cache_max = RTL_MEMORY_P2ROUNDUP(quantum_cache_max, quantum);
765 
766 		arena->m_quantum = quantum;
767 		arena->m_quantum_shift = highbit(arena->m_quantum) - 1;
768 		arena->m_qcache_max = quantum_cache_max;
769 
770 		arena->m_source_arena = source_arena;
771 		arena->m_source_alloc = source_alloc;
772 		arena->m_source_free  = source_free;
773 
774 		if (arena->m_qcache_max > 0)
775 		{
776 			char name[RTL_ARENA_NAME_LENGTH + 1];
777 			int  i, n = (arena->m_qcache_max >> arena->m_quantum_shift);
778 
779 			sal_Size size = n * sizeof(rtl_cache_type*);
780 			arena->m_qcache_ptr = (rtl_cache_type**)rtl_arena_alloc (gp_arena_arena, &size);
781 			if (!(arena->m_qcache_ptr))
782 			{
783 				/* out of memory */
784 				return (0);
785 			}
786 			for (i = 1; i <= n; i++)
787 			{
788 				size = i * arena->m_quantum;
789 				(void) snprintf (name, sizeof(name), "%s_%lu", arena->m_name, size);
790 				arena->m_qcache_ptr[i - 1] = rtl_cache_create(name, size, 0, NULL, NULL, NULL, NULL, arena, RTL_CACHE_FLAG_QUANTUMCACHE);
791 			}
792 		}
793 
794 		/* insert into arena list */
795 		RTL_MEMORY_LOCK_ACQUIRE(&(g_arena_list.m_lock));
796 		QUEUE_INSERT_TAIL_NAMED(&(g_arena_list.m_arena_head), arena, arena_);
797 		RTL_MEMORY_LOCK_RELEASE(&(g_arena_list.m_lock));
798 	}
799 	return (arena);
800 }
801 
802 /** rtl_arena_deactivate()
803  */
804 static void
805 rtl_arena_deactivate (
806 	rtl_arena_type * arena
807 )
808 {
809 	rtl_arena_segment_type * head, * segment;
810 
811 	/* remove from arena list */
812 	RTL_MEMORY_LOCK_ACQUIRE(&(g_arena_list.m_lock));
813 	QUEUE_REMOVE_NAMED(arena, arena_);
814 	RTL_MEMORY_LOCK_RELEASE(&(g_arena_list.m_lock));
815 
816 	/* cleanup quantum cache(s) */
817 	if ((arena->m_qcache_max > 0) && (arena->m_qcache_ptr != 0))
818 	{
819 		int  i, n = (arena->m_qcache_max >> arena->m_quantum_shift);
820 		for (i = 1; i <= n; i++)
821 		{
822 			if (arena->m_qcache_ptr[i - 1] != 0)
823 			{
824 				rtl_cache_destroy (arena->m_qcache_ptr[i - 1]);
825 				arena->m_qcache_ptr[i - 1] = 0;
826 			}
827 		}
828 		rtl_arena_free (
829 			gp_arena_arena,
830 			arena->m_qcache_ptr,
831 			n * sizeof(rtl_cache_type*));
832 
833 		arena->m_qcache_ptr = 0;
834 	}
835 
836 	/* check for leaked segments */
837 	OSL_TRACE(
838 		"rtl_arena_deactivate(\"%s\"): "
839 		"allocs: %"PRIu64", frees: %"PRIu64"; total: %lu, used: %lu",
840 		arena->m_name,
841 		arena->m_stats.m_alloc, arena->m_stats.m_free,
842 		arena->m_stats.m_mem_total, arena->m_stats.m_mem_alloc
843 	);
844 	if (arena->m_stats.m_alloc > arena->m_stats.m_free)
845 	{
846 		sal_Size i, n;
847 
848 		OSL_TRACE(
849 			"rtl_arena_deactivate(\"%s\"): "
850 			"cleaning up %"PRIu64" leaked segment(s) [%lu bytes]",
851 			arena->m_name,
852 			arena->m_stats.m_alloc - arena->m_stats.m_free,
853 			arena->m_stats.m_mem_alloc
854 		);
855 
856 		/* cleanup still used segment(s) */
857 		for (i = 0, n = arena->m_hash_size; i < n; i++)
858 		{
859 			while ((segment = arena->m_hash_table[i]) != 0)
860 			{
861 				/* pop from hash table */
862 				arena->m_hash_table[i] = segment->m_fnext, segment->m_fnext = segment->m_fprev = segment;
863 
864 				/* coalesce w/ adjacent free segment(s) */
865 				rtl_arena_segment_coalesce (arena, segment);
866 
867 				/* insert onto freelist */
868 				rtl_arena_freelist_insert (arena, segment);
869 			}
870 		}
871 	}
872 
873 	/* cleanup hash table */
874 	if (arena->m_hash_table != arena->m_hash_table_0)
875 	{
876 		rtl_arena_free (
877 			gp_arena_arena,
878 			arena->m_hash_table,
879 			arena->m_hash_size * sizeof(rtl_arena_segment_type*));
880 
881 		arena->m_hash_table = arena->m_hash_table_0;
882 		arena->m_hash_size  = RTL_ARENA_HASH_SIZE;
883 		arena->m_hash_shift = highbit(arena->m_hash_size) - 1;
884 	}
885 
886 	/* cleanup segment list */
887 	head = &(arena->m_segment_head);
888 	for (segment = head->m_snext; segment != head; segment = head->m_snext)
889 	{
890 		if (segment->m_type == RTL_ARENA_SEGMENT_TYPE_FREE)
891 		{
892 			/* remove from freelist */
893 			rtl_arena_freelist_remove (arena, segment);
894 		}
895 		else
896 		{
897 			/* can have only free and span segments here */
898 			OSL_ASSERT(segment->m_type == RTL_ARENA_SEGMENT_TYPE_SPAN);
899 		}
900 
901 		/* remove from segment list */
902 		QUEUE_REMOVE_NAMED(segment, s);
903 
904 		/* release segment descriptor */
905 		rtl_arena_segment_put (arena, &segment);
906 	}
907 
908 	/* cleanup segment reserve list */
909 	head = &(arena->m_segment_reserve_head);
910 	for (segment = head->m_snext; segment != head; segment = head->m_snext)
911 	{
912 		/* remove from segment list */
913 		QUEUE_REMOVE_NAMED(segment, s);
914 	}
915 
916 	/* cleanup segment reserve span(s) */
917 	head = &(arena->m_segment_reserve_span_head);
918 	for (segment = head->m_snext; segment != head; segment = head->m_snext)
919 	{
920 		/* can have only span segments here */
921 		OSL_ASSERT(segment->m_type == RTL_ARENA_SEGMENT_TYPE_SPAN);
922 
923 		/* remove from segment list */
924 		QUEUE_REMOVE_NAMED(segment, s);
925 
926 		/* return span to g_machdep_arena */
927 		rtl_machdep_free (gp_machdep_arena, (void*)(segment->m_addr), segment->m_size);
928 	}
929 }
930 
931 /* ================================================================= *
932  *
933  * arena implementation.
934  *
935  * ================================================================= */
936 
937 /** rtl_arena_create()
938  */
939 rtl_arena_type *
940 SAL_CALL rtl_arena_create (
941 	const char *       name,
942 	sal_Size           quantum,
943 	sal_Size           quantum_cache_max,
944 	rtl_arena_type *   source_arena,
945 	void * (SAL_CALL * source_alloc)(rtl_arena_type *, sal_Size *),
946 	void   (SAL_CALL * source_free) (rtl_arena_type *, void *, sal_Size),
947 	int                flags
948 ) SAL_THROW_EXTERN_C()
949 {
950 	rtl_arena_type * result = 0;
951 	sal_Size         size   = sizeof(rtl_arena_type);
952 
953     (void) flags; /* unused */
954 
955 try_alloc:
956 	result = (rtl_arena_type*)rtl_arena_alloc (gp_arena_arena, &size);
957 	if (result != 0)
958 	{
959 		rtl_arena_type * arena = result;
960 		VALGRIND_CREATE_MEMPOOL(arena, 0, 0);
961 		rtl_arena_constructor (arena);
962 
963 		if (!source_arena)
964 		{
965 			OSL_ASSERT(gp_default_arena != 0);
966 			source_arena = gp_default_arena;
967 		}
968 
969 		result = rtl_arena_activate (
970 			arena,
971 			name,
972 			quantum,
973 			quantum_cache_max,
974 			source_arena,
975 			source_alloc,
976 			source_free
977 		);
978 
979 		if (result == 0)
980 		{
981 			rtl_arena_deactivate (arena);
982 			rtl_arena_destructor (arena);
983 			VALGRIND_DESTROY_MEMPOOL(arena);
984 			rtl_arena_free (gp_arena_arena, arena, size);
985 		}
986 	}
987 	else if (gp_arena_arena == 0)
988 	{
989 		if (rtl_arena_init())
990 		{
991 			/* try again */
992 			goto try_alloc;
993 		}
994 	}
995 	return (result);
996 }
997 
998 /** rtl_arena_destroy()
999  */
1000 void
1001 SAL_CALL rtl_arena_destroy (
1002 	rtl_arena_type * arena
1003 )
1004 {
1005 	if (arena != 0)
1006 	{
1007 		rtl_arena_deactivate (arena);
1008 		rtl_arena_destructor (arena);
1009 		VALGRIND_DESTROY_MEMPOOL(arena);
1010 		rtl_arena_free (gp_arena_arena, arena, sizeof(rtl_arena_type));
1011 	}
1012 }
1013 
1014 /** rtl_arena_alloc()
1015  */
1016 void *
1017 SAL_CALL rtl_arena_alloc (
1018 	rtl_arena_type * arena,
1019 	sal_Size *       pSize
1020 ) SAL_THROW_EXTERN_C()
1021 {
1022 	void * addr = 0;
1023 
1024 	if ((arena != 0) && (pSize != 0))
1025 	{
1026 		sal_Size size = RTL_MEMORY_ALIGN((*pSize), arena->m_quantum);
1027 		if (size > arena->m_qcache_max)
1028 		{
1029 			/* allocate from segment list */
1030 			rtl_arena_segment_type *segment = 0;
1031 
1032 			RTL_MEMORY_LOCK_ACQUIRE(&(arena->m_lock));
1033 			if (rtl_arena_segment_alloc (arena, size, &segment) ||
1034 				rtl_arena_segment_create(arena, size, &segment)    )
1035 			{
1036 				/* shrink to fit */
1037 				sal_Size oversize;
1038 
1039 				/* mark segment used */
1040 				OSL_ASSERT(segment->m_type == RTL_ARENA_SEGMENT_TYPE_FREE);
1041 				segment->m_type = RTL_ARENA_SEGMENT_TYPE_USED;
1042 
1043 				/* resize */
1044 				OSL_ASSERT(segment->m_size >= size);
1045 				oversize = segment->m_size - size;
1046 				if (oversize >= SAL_MAX(arena->m_quantum, arena->m_qcache_max))
1047 				{
1048 					rtl_arena_segment_type * remainder = 0;
1049 					rtl_arena_segment_get (arena, &remainder);
1050 					if (remainder != 0)
1051 					{
1052 						segment->m_size = size;
1053 
1054 						remainder->m_addr = segment->m_addr + segment->m_size;
1055 						remainder->m_size = oversize;
1056 						remainder->m_type = RTL_ARENA_SEGMENT_TYPE_FREE;
1057 						QUEUE_INSERT_HEAD_NAMED(segment, remainder, s);
1058 
1059 						rtl_arena_freelist_insert (arena, remainder);
1060 					}
1061 				}
1062 
1063 				rtl_arena_hash_insert (arena, segment);
1064 
1065                 /* DEBUG ONLY: mark allocated, undefined */
1066 				OSL_DEBUG_ONLY(memset((void*)(segment->m_addr), 0x77777777, segment->m_size));
1067 				VALGRIND_MEMPOOL_ALLOC(arena, segment->m_addr, segment->m_size);
1068 
1069 				(*pSize) = segment->m_size;
1070 				addr = (void*)(segment->m_addr);
1071 			}
1072 			RTL_MEMORY_LOCK_RELEASE(&(arena->m_lock));
1073 		}
1074 		else if (size > 0)
1075 		{
1076 			/* allocate from quantum cache(s) */
1077 			int index = (size >> arena->m_quantum_shift) - 1;
1078 			OSL_ASSERT (arena->m_qcache_ptr[index] != 0);
1079 
1080 			addr = rtl_cache_alloc (arena->m_qcache_ptr[index]);
1081 			if (addr != 0)
1082 				(*pSize) = size;
1083 		}
1084 	}
1085 	return (addr);
1086 }
1087 
1088 /** rtl_arena_free()
1089  */
1090 void
1091 SAL_CALL rtl_arena_free (
1092 	rtl_arena_type * arena,
1093 	void *           addr,
1094 	sal_Size         size
1095 ) SAL_THROW_EXTERN_C()
1096 {
1097 	if (arena != 0)
1098 	{
1099 		size = RTL_MEMORY_ALIGN(size, arena->m_quantum);
1100 		if (size > arena->m_qcache_max)
1101 		{
1102 			/* free to segment list */
1103 			rtl_arena_segment_type * segment;
1104 
1105 			RTL_MEMORY_LOCK_ACQUIRE(&(arena->m_lock));
1106 
1107 			segment = rtl_arena_hash_remove (arena, (sal_uIntPtr)(addr), size);
1108 			if (segment != 0)
1109 			{
1110 				rtl_arena_segment_type *next, *prev;
1111 
1112 				/* DEBUG ONLY: mark unallocated, undefined */
1113 				VALGRIND_MEMPOOL_FREE(arena, segment->m_addr);
1114                 /* OSL_DEBUG_ONLY() */ VALGRIND_MAKE_MEM_UNDEFINED(segment->m_addr, segment->m_size);
1115                 OSL_DEBUG_ONLY(memset((void*)(segment->m_addr), 0x33333333, segment->m_size));
1116 
1117 				/* coalesce w/ adjacent free segment(s) */
1118 				rtl_arena_segment_coalesce (arena, segment);
1119 
1120 				/* determine (new) next and prev segment */
1121 				next = segment->m_snext, prev = segment->m_sprev;
1122 
1123 				/* entire span free when prev is a span, and next is either a span or a list head */
1124 				if (((prev->m_type == RTL_ARENA_SEGMENT_TYPE_SPAN)) &&
1125 					((next->m_type == RTL_ARENA_SEGMENT_TYPE_SPAN)  ||
1126 					 (next->m_type == RTL_ARENA_SEGMENT_TYPE_HEAD))    )
1127 				{
1128 					OSL_ASSERT((prev->m_addr == segment->m_addr) &&
1129 							   (prev->m_size == segment->m_size)    );
1130 
1131 					if (arena->m_source_free)
1132 					{
1133 						addr = (void*)(prev->m_addr);
1134 						size = prev->m_size;
1135 
1136 						/* remove from segment list */
1137 						QUEUE_REMOVE_NAMED(segment, s);
1138 
1139 						/* release segment descriptor */
1140 						rtl_arena_segment_put (arena, &segment);
1141 
1142 						/* remove from segment list */
1143 						QUEUE_REMOVE_NAMED(prev, s);
1144 
1145 						/* release (span) segment descriptor */
1146 						rtl_arena_segment_put (arena, &prev);
1147 
1148 						/* update stats, return span to source arena */
1149 						arena->m_stats.m_mem_total -= size;
1150 						RTL_MEMORY_LOCK_RELEASE(&(arena->m_lock));
1151 
1152 						(arena->m_source_free)(arena->m_source_arena, addr, size);
1153 						return;
1154 					}
1155 				}
1156 
1157 				/* insert onto freelist */
1158 				rtl_arena_freelist_insert (arena, segment);
1159 			}
1160 
1161 			RTL_MEMORY_LOCK_RELEASE(&(arena->m_lock));
1162 		}
1163 		else if (size > 0)
1164 		{
1165 			/* free to quantum cache(s) */
1166 			int index = (size >> arena->m_quantum_shift) - 1;
1167 			OSL_ASSERT (arena->m_qcache_ptr[index] != 0);
1168 
1169 			rtl_cache_free (arena->m_qcache_ptr[index], addr);
1170 		}
1171 	}
1172 }
1173 
1174 /* ================================================================= *
1175  *
1176  * machdep internals.
1177  *
1178  * ================================================================= */
1179 
1180 #if defined(SAL_UNX)
1181 #include <sys/mman.h>
1182 #elif defined(SAL_W32) || defined(SAL_OS2)
1183 #define MAP_FAILED 0
1184 #endif /* SAL_UNX || SAL_W32 */
1185 
1186 /** rtl_machdep_alloc()
1187  */
1188 static void *
1189 SAL_CALL rtl_machdep_alloc (
1190 	rtl_arena_type * pArena,
1191 	sal_Size *       pSize
1192 )
1193 {
1194 	void *   addr;
1195 	sal_Size size = (*pSize);
1196 
1197 	OSL_PRECOND(pArena == gp_machdep_arena, "rtl_machdep_alloc(): invalid argument");
1198 
1199 #if defined(SOLARIS) && defined(SPARC)
1200 	/* see @ mmap(2) man pages */
1201 	size += (pArena->m_quantum + pArena->m_quantum); /* "red-zone" pages */
1202 	if (size > (4 << 20))
1203 		size = RTL_MEMORY_P2ROUNDUP(size, (4 << 20));
1204 	else if (size > (512 << 10))
1205 		size = RTL_MEMORY_P2ROUNDUP(size, (512 << 10));
1206 	else
1207 		size = RTL_MEMORY_P2ROUNDUP(size, (64 << 10));
1208 	size -= (pArena->m_quantum + pArena->m_quantum); /* "red-zone" pages */
1209 #else
1210 	/* default allocation granularity */
1211 	size = RTL_MEMORY_P2ROUNDUP(size, SAL_MAX(pArena->m_quantum, 64 << 10));
1212 #endif
1213 
1214 #if defined(SAL_UNX)
1215 	addr = mmap (NULL, (size_t)(size), PROT_READ | PROT_WRITE, MAP_PRIVATE | MAP_ANON, -1, 0);
1216 #elif defined(SAL_W32)
1217 	addr = VirtualAlloc (NULL, (SIZE_T)(size), MEM_COMMIT, PAGE_READWRITE);
1218 #elif defined(SAL_OS2)
1219 	{
1220 	APIRET rc;
1221 	addr = 0;
1222 	// Use DosAlloc* to get a 4KB page aligned address.
1223 	rc = DosAllocMem( &addr, size, PAG_COMMIT | PAG_READ | PAG_WRITE | OBJ_ANY);
1224 	if (rc) {
1225 		fprintf( stderr, "sal3::DosAllocMem failed rc=%d\n", rc);
1226 		addr = 0;
1227 	}
1228 	}
1229 #endif /* (SAL_UNX || SAL_W32 || SAL_OS2) */
1230 
1231 	if (addr != MAP_FAILED)
1232 	{
1233 		pArena->m_stats.m_alloc += 1;
1234 		pArena->m_stats.m_mem_total += size;
1235 		pArena->m_stats.m_mem_alloc += size;
1236 
1237 		(*pSize) = size;
1238 		return (addr);
1239 	}
1240 	return (NULL);
1241 }
1242 
1243 /** rtl_machdep_free()
1244  */
1245 static void
1246 SAL_CALL rtl_machdep_free (
1247 	rtl_arena_type * pArena,
1248 	void *           pAddr,
1249 	sal_Size         nSize
1250 )
1251 {
1252 	OSL_PRECOND(pArena == gp_machdep_arena, "rtl_machdep_free(): invalid argument");
1253 
1254 	pArena->m_stats.m_free += 1;
1255 	pArena->m_stats.m_mem_total -= nSize;
1256 	pArena->m_stats.m_mem_alloc -= nSize;
1257 
1258 #if defined(SAL_UNX)
1259 	(void) munmap(pAddr, nSize);
1260 #elif defined(SAL_W32)
1261 	(void) VirtualFree ((LPVOID)(pAddr), (SIZE_T)(0), MEM_RELEASE);
1262 #elif defined(SAL_OS2)
1263 	(void) DosFreeMem( pAddr);
1264 #endif /* (SAL_UNX || SAL_W32) */
1265 }
1266 
1267 /** rtl_machdep_pagesize()
1268  */
1269 static sal_Size
1270 rtl_machdep_pagesize (void)
1271 {
1272 #if defined(SAL_UNX)
1273 #if defined(FREEBSD) || defined(NETBSD)
1274 	return ((sal_Size)getpagesize());
1275 #else  /* POSIX */
1276 	return ((sal_Size)sysconf(_SC_PAGESIZE));
1277 #endif /* xBSD || POSIX */
1278 #elif defined(SAL_W32)
1279 	SYSTEM_INFO info;
1280 	GetSystemInfo (&info);
1281 	return ((sal_Size)(info.dwPageSize));
1282 #elif defined(SAL_OS2)
1283 	ULONG ulPageSize;
1284 	DosQuerySysInfo(QSV_PAGE_SIZE, QSV_PAGE_SIZE, &ulPageSize, sizeof(ULONG));
1285 	return ((sal_Size)ulPageSize);
1286 #endif /* (SAL_UNX || SAL_W32) */
1287 }
1288 
1289 /* ================================================================= *
1290  *
1291  * arena initialization.
1292  *
1293  * ================================================================= */
1294 
1295 static void
1296 rtl_arena_once_init (void)
1297 {
1298 	{
1299 		/* list of arenas */
1300 		RTL_MEMORY_LOCK_INIT(&(g_arena_list.m_lock));
1301 		rtl_arena_constructor (&(g_arena_list.m_arena_head));
1302 	}
1303 	{
1304 		/* machdep (pseudo) arena */
1305 		static rtl_arena_type g_machdep_arena;
1306 
1307 		OSL_ASSERT(gp_machdep_arena == 0);
1308 		VALGRIND_CREATE_MEMPOOL(&g_machdep_arena, 0, 0);
1309 		rtl_arena_constructor (&g_machdep_arena);
1310 
1311 		gp_machdep_arena = rtl_arena_activate (
1312 			&g_machdep_arena,
1313 			"rtl_machdep_arena",
1314 			rtl_machdep_pagesize(),
1315 			0,       /* no quantum caching */
1316 			0, 0, 0  /* no source */
1317 		);
1318 		OSL_ASSERT(gp_machdep_arena != 0);
1319 	}
1320 	{
1321 		/* default arena */
1322 		static rtl_arena_type g_default_arena;
1323 
1324 		OSL_ASSERT(gp_default_arena == 0);
1325 		VALGRIND_CREATE_MEMPOOL(&g_default_arena, 0, 0);
1326 		rtl_arena_constructor (&g_default_arena);
1327 
1328 		gp_default_arena = rtl_arena_activate (
1329 			&g_default_arena,
1330 			"rtl_default_arena",
1331 			rtl_machdep_pagesize(),
1332 			0,                 /* no quantum caching */
1333 			gp_machdep_arena,  /* source */
1334 			rtl_machdep_alloc,
1335 			rtl_machdep_free
1336 		);
1337 		OSL_ASSERT(gp_default_arena != 0);
1338 	}
1339 	{
1340 		/* arena internal arena */
1341 		static rtl_arena_type g_arena_arena;
1342 
1343 		OSL_ASSERT(gp_arena_arena == 0);
1344 		VALGRIND_CREATE_MEMPOOL(&g_arena_arena, 0, 0);
1345 		rtl_arena_constructor (&g_arena_arena);
1346 
1347 		gp_arena_arena = rtl_arena_activate (
1348 			&g_arena_arena,
1349 			"rtl_arena_internal_arena",
1350 			64,                /* quantum */
1351 			0,                 /* no quantum caching */
1352 			gp_default_arena,  /* source */
1353 			rtl_arena_alloc,
1354 			rtl_arena_free
1355 		);
1356 		OSL_ASSERT(gp_arena_arena != 0);
1357 	}
1358 }
1359 
1360 static int
1361 rtl_arena_init (void)
1362 {
1363 	static sal_once_type g_once = SAL_ONCE_INIT;
1364 	SAL_ONCE(&g_once, rtl_arena_once_init);
1365 	return (gp_arena_arena != 0);
1366 }
1367 
1368 /* ================================================================= */
1369 
1370 /*
1371   Issue http://udk.openoffice.org/issues/show_bug.cgi?id=92388
1372 
1373   Mac OS X does not seem to support "__cxa__atexit", thus leading
1374   to the situation that "__attribute__((destructor))__" functions
1375   (in particular "rtl_{memory|cache|arena}_fini") become called
1376   _before_ global C++ object d'tors.
1377 
1378   Delegated the call to "rtl_arena_fini()" into a dummy C++ object,
1379   see alloc_fini.cxx .
1380 */
1381 #if defined(__GNUC__) && !defined(MACOSX)
1382 static void rtl_arena_fini (void) __attribute__((destructor));
1383 #elif defined(__SUNPRO_C) || defined(__SUNPRO_CC)
1384 #pragma fini(rtl_arena_fini)
1385 static void rtl_arena_fini (void);
1386 #endif /* __GNUC__ || __SUNPRO_C */
1387 
1388 void
1389 rtl_arena_fini (void)
1390 {
1391 	if (gp_arena_arena != 0)
1392 	{
1393 		rtl_arena_type * arena, * head;
1394 
1395 		RTL_MEMORY_LOCK_ACQUIRE(&(g_arena_list.m_lock));
1396 		head = &(g_arena_list.m_arena_head);
1397 
1398 		for (arena = head->m_arena_next; arena != head; arena = arena->m_arena_next)
1399 		{
1400 			OSL_TRACE(
1401 				"rtl_arena_fini(\"%s\"): "
1402 				"allocs: %"PRIu64", frees: %"PRIu64"; total: %lu, used: %lu",
1403 				arena->m_name,
1404 				arena->m_stats.m_alloc, arena->m_stats.m_free,
1405 				arena->m_stats.m_mem_total, arena->m_stats.m_mem_alloc
1406 			);
1407 		}
1408 		RTL_MEMORY_LOCK_RELEASE(&(g_arena_list.m_lock));
1409 	}
1410 }
1411 
1412 /* ================================================================= */
1413