xref: /titanic_50/usr/src/lib/libast/common/vmalloc/vmbest.c (revision 84ba300aaa958c8e8427c2ec66a932d86bee71c4)
1 /***********************************************************************
2 *                                                                      *
3 *               This software is part of the ast package               *
4 *          Copyright (c) 1985-2010 AT&T Intellectual Property          *
5 *                      and is licensed under the                       *
6 *                  Common Public License, Version 1.0                  *
7 *                    by AT&T Intellectual Property                     *
8 *                                                                      *
9 *                A copy of the License is available at                 *
10 *            http://www.opensource.org/licenses/cpl1.0.txt             *
11 *         (with md5 checksum 059e8cd6165cb4c31e351f2b69388fd9)         *
12 *                                                                      *
13 *              Information and Software Systems Research               *
14 *                            AT&T Research                             *
15 *                           Florham Park NJ                            *
16 *                                                                      *
17 *                 Glenn Fowler <gsf@research.att.com>                  *
18 *                  David Korn <dgk@research.att.com>                   *
19 *                   Phong Vo <kpv@research.att.com>                    *
20 *                                                                      *
21 ***********************************************************************/
22 #if defined(_UWIN) && defined(_BLD_ast)
23 
24 void _STUB_vmbest(){}
25 
26 #else
27 
28 #include	"vmhdr.h"
29 
30 /*	Best-fit allocation method. This is based on a best-fit strategy
31 **	using a splay tree for storage of lists of free blocks of the same
32 **	size. Recent free blocks may be cached for fast reuse.
33 **
34 **	Written by Kiem-Phong Vo, kpv@research.att.com, 01/16/94.
35 */
36 
37 #ifdef DEBUG
38 static int	N_free;		/* # of free calls			*/
39 static int	N_alloc;	/* # of alloc calls			*/
40 static int	N_resize;	/* # of resize calls			*/
41 static int	N_wild;		/* # allocated from the wild block	*/
42 static int	N_last;		/* # allocated from last free block	*/
43 static int	N_reclaim;	/* # of bestreclaim calls		*/
44 
45 #undef	VM_TRUST		/* always check for locking, etc.s	*/
46 #define	VM_TRUST	0
47 #endif /*DEBUG*/
48 
49 #if _BLD_posix
50 #define logmsg(d,a ...)	logsrc(d,__FILE__,__LINE__,a)
51 
52 extern int	logsrc(int, const char*, int, const char*, ...);
53 #endif /*_BLD_posix*/
54 
55 #define COMPACT		8	/* factor to decide when to compact	*/
56 
57 /* Check to see if a block is in the free tree */
58 #if __STD_C
59 static int vmintree(Block_t* node, Block_t* b)
60 #else
61 static int vmintree(node,b)
62 Block_t*	node;
63 Block_t*	b;
64 #endif
65 {	Block_t*	t;
66 
67 	for(t = node; t; t = LINK(t))
68 		if(t == b)
69 			return 1;
70 	if(LEFT(node) && vmintree(LEFT(node),b))
71 		return 1;
72 	if(RIGHT(node) && vmintree(RIGHT(node),b))
73 		return 1;
74 	return 0;
75 }
76 
77 #if __STD_C
78 static int vmonlist(Block_t* list, Block_t* b)
79 #else
80 static int vmonlist(list,b)
81 Block_t*	list;
82 Block_t*	b;
83 #endif
84 {
85 	for(; list; list = LINK(list))
86 		if(list == b)
87 			return 1;
88 	return 0;
89 }
90 
91 /* Check to see if a block is known to be free */
92 #if __STD_C
93 static int vmisfree(Vmdata_t* vd, Block_t* b)
94 #else
95 static int vmisfree(vd,b)
96 Vmdata_t*	vd;
97 Block_t*	b;
98 #endif
99 {
100 	if(SIZE(b) & (BUSY|JUNK|PFREE))
101 		return 0;
102 
103 	if(b == vd->wild)
104 		return 1;
105 
106 	if(SIZE(b) < MAXTINY)
107 		return vmonlist(TINY(vd)[INDEX(SIZE(b))], b);
108 
109 	if(vd->root)
110 		return vmintree(vd->root, b);
111 
112 	return 0;
113 }
114 
115 /* Check to see if a block is known to be junked */
116 #if __STD_C
117 static int vmisjunk(Vmdata_t* vd, Block_t* b)
118 #else
119 static int vmisjunk(vd,b)
120 Vmdata_t*	vd;
121 Block_t*	b;
122 #endif
123 {
124 	Block_t*	t;
125 
126 	if((SIZE(b)&BUSY) == 0 || (SIZE(b)&JUNK) == 0)
127 		return 0;
128 
129 	if(b == vd->free) /* recently freed */
130 		return 1;
131 
132 	/* check the list that b is supposed to be in */
133 	for(t = CACHE(vd)[C_INDEX(SIZE(b))]; t; t = LINK(t))
134 		if(t == b)
135 			return 1;
136 
137 	/* on occasions, b may be put onto the catch-all list */
138 	if(C_INDEX(SIZE(b)) < S_CACHE)
139 		for(t = CACHE(vd)[S_CACHE]; t; t = LINK(t))
140 			if(t == b)
141 				return 1;
142 
143 	return 0;
144 }
145 
146 /* check to see if the free tree is in good shape */
147 #if __STD_C
148 static int vmchktree(Block_t* node)
149 #else
150 static int vmchktree(node)
151 Block_t*	node;
152 #endif
153 {	Block_t*	t;
154 
155 	if(SIZE(node) & BITS)
156 		{ /**/ASSERT(0); return -1; }
157 
158 	for(t = LINK(node); t; t = LINK(t))
159 		if(SIZE(t) != SIZE(node))
160 			{ /**/ASSERT(0); return -1; }
161 
162 	if((t = LEFT(node)) )
163 	{	if(SIZE(t) >= SIZE(node) )
164 			{ /**/ASSERT(0); return -1; }
165 		else	return vmchktree(t);
166 	}
167 	if((t = RIGHT(node)) )
168 	{	if(SIZE(t) <= SIZE(node) )
169 			{ /**/ASSERT(0); return -1; }
170 		else	return vmchktree(t);
171 	}
172 
173 	return 0;
174 }
175 
176 #if __STD_C
177 int _vmbestcheck(Vmdata_t* vd, Block_t* freeb)
178 #else
179 int _vmbestcheck(vd, freeb)
180 Vmdata_t*	vd;
181 Block_t*	freeb; /* known to be free but not on any free list */
182 #endif
183 {
184 	reg Seg_t	*seg;
185 	reg Block_t	*b, *endb, *nextb;
186 	int		rv = 0;
187 
188 	if(!CHECK())
189 		return 0;
190 
191 	/* make sure the free tree is still in shape */
192 	if(vd->root && vmchktree(vd->root) < 0 )
193 		{ rv = -1; /**/ASSERT(0); }
194 
195 	for(seg = vd->seg; seg && rv == 0; seg = seg->next)
196 	{	b = SEGBLOCK(seg);
197 		endb = (Block_t*)(seg->baddr - sizeof(Head_t));
198 		for(; b < endb && rv == 0; b = nextb)
199 		{	nextb = (Block_t*)((Vmuchar_t*)DATA(b) + (SIZE(b)&~BITS) );
200 
201 			if(!ISBUSY(SIZE(b)) ) /* a completely free block */
202 			{	/* there should be no marked bits of any type */
203 				if(SIZE(b) & (BUSY|JUNK|PFREE) )
204 					{ rv = -1; /**/ASSERT(0); }
205 
206 				/* next block must be busy and marked PFREE */
207 				if(!ISBUSY(SIZE(nextb)) || !ISPFREE(SIZE(nextb)) )
208 					{ rv = -1; /**/ASSERT(0); }
209 
210 				/* must have a self-reference pointer */
211 				if(*SELF(b) != b)
212 					{ rv = -1; /**/ASSERT(0); }
213 
214 				/* segment pointer should be well-defined */
215 				if(!TINIEST(b) && SEG(b) != seg)
216 					{ rv = -1; /**/ASSERT(0); }
217 
218 				/* must be on a free list */
219 				if(b != freeb && !vmisfree(vd, b) )
220 					{ rv = -1; /**/ASSERT(0); }
221 			}
222 			else
223 			{	/* segment pointer should be well-defined */
224 				if(SEG(b) != seg)
225 					{ rv = -1; /**/ASSERT(0); }
226 
227 				/* next block should not be marked PFREE */
228 				if(ISPFREE(SIZE(nextb)) )
229 					{ rv = -1; /**/ASSERT(0); }
230 
231 				/* if PFREE, last block should be free */
232 				if(ISPFREE(SIZE(b)) && LAST(b) != freeb &&
233 				   !vmisfree(vd, LAST(b)) )
234 					{ rv = -1; /**/ASSERT(0); }
235 
236 				/* if free but unreclaimed, should be junk */
237 				if(ISJUNK(SIZE(b)) && !vmisjunk(vd, b))
238 					{ rv = -1; /**/ASSERT(0); }
239 			}
240 		}
241 	}
242 
243 	return rv;
244 }
245 
246 /* Tree rotation functions */
247 #define RROTATE(x,y)	(LEFT(x) = RIGHT(y), RIGHT(y) = (x), (x) = (y))
248 #define LROTATE(x,y)	(RIGHT(x) = LEFT(y), LEFT(y) = (x), (x) = (y))
249 #define RLINK(s,x)	((s) = LEFT(s) = (x))
250 #define LLINK(s,x)	((s) = RIGHT(s) = (x))
251 
252 /* Find and delete a suitable element in the free tree. */
253 #if __STD_C
254 static Block_t* bestsearch(Vmdata_t* vd, reg size_t size, Block_t* wanted)
255 #else
256 static Block_t* bestsearch(vd, size, wanted)
257 Vmdata_t*	vd;
258 reg size_t	size;
259 Block_t*	wanted;
260 #endif
261 {
262 	reg size_t	s;
263 	reg Block_t	*t, *root, *l, *r;
264 	Block_t		link;
265 
266 	/* extracting a tiniest block from its list */
267 	if((root = wanted) && size == TINYSIZE)
268 	{	reg Seg_t*	seg;
269 
270 		l = TLEFT(root);
271 		if((r = LINK(root)) )
272 			TLEFT(r) = l;
273 		if(l)
274 			LINK(l) = r;
275 		else	TINY(vd)[0] = r;
276 
277 		seg = vd->seg;
278 		if(!seg->next)
279 			SEG(root) = seg;
280 		else for(;; seg = seg->next)
281 		{	if((Vmuchar_t*)root > (Vmuchar_t*)seg->addr &&
282 			   (Vmuchar_t*)root < seg->baddr)
283 			{	SEG(root) = seg;
284 				break;
285 			}
286 		}
287 
288 		return root;
289 	}
290 
291 	/**/ASSERT(!vd->root || vmchktree(vd->root) == 0);
292 
293 	/* find the right one to delete */
294 	l = r = &link;
295 	if((root = vd->root) ) do
296 	{	/**/ ASSERT(!ISBITS(size) && !ISBITS(SIZE(root)));
297 		if(size == (s = SIZE(root)) )
298 			break;
299 		if(size < s)
300 		{	if((t = LEFT(root)) )
301 			{	if(size <= (s = SIZE(t)) )
302 				{	RROTATE(root,t);
303 					if(size == s)
304 						break;
305 					t = LEFT(root);
306 				}
307 				else
308 				{	LLINK(l,t);
309 					t = RIGHT(t);
310 				}
311 			}
312 			RLINK(r,root);
313 		}
314 		else
315 		{	if((t = RIGHT(root)) )
316 			{	if(size >= (s = SIZE(t)) )
317 				{	LROTATE(root,t);
318 					if(size == s)
319 						break;
320 					t = RIGHT(root);
321 				}
322 				else
323 				{	RLINK(r,t);
324 					t = LEFT(t);
325 				}
326 			}
327 			LLINK(l,root);
328 		}
329 		/**/ ASSERT(root != t);
330 	} while((root = t) );
331 
332 	if(root)	/* found it, now isolate it */
333 	{	RIGHT(l) = LEFT(root);
334 		LEFT(r) = RIGHT(root);
335 	}
336 	else		/* nothing exactly fit	*/
337 	{	LEFT(r) = NIL(Block_t*);
338 		RIGHT(l) = NIL(Block_t*);
339 
340 		/* grab the least one from the right tree */
341 		if((root = LEFT(&link)) )
342 		{	while((t = LEFT(root)) )
343 				RROTATE(root,t);
344 			LEFT(&link) = RIGHT(root);
345 		}
346 	}
347 
348 	if(root && (r = LINK(root)) )
349 	{	/* head of a link list, use next one for root */
350 		LEFT(r) = RIGHT(&link);
351 		RIGHT(r) = LEFT(&link);
352 	}
353 	else if(!(r = LEFT(&link)) )
354 		r = RIGHT(&link);
355 	else /* graft left tree to right tree */
356 	{	while((t = LEFT(r)) )
357 			RROTATE(r,t);
358 		LEFT(r) = RIGHT(&link);
359 	}
360 	vd->root = r; /**/ASSERT(!r || !ISBITS(SIZE(r)));
361 
362 	/**/ASSERT(!vd->root || vmchktree(vd->root) == 0);
363 	/**/ASSERT(!wanted || wanted == root);
364 
365 	return root;
366 }
367 
368 /* Reclaim all delayed free blocks into the free tree */
369 #if __STD_C
370 static int bestreclaim(reg Vmdata_t* vd, Block_t* wanted, int c)
371 #else
372 static int bestreclaim(vd, wanted, c)
373 reg Vmdata_t*	vd;
374 Block_t*	wanted;
375 int		c;
376 #endif
377 {
378 	reg size_t	size, s;
379 	reg Block_t	*fp, *np, *t, *list;
380 	reg int		n, saw_wanted;
381 	reg Seg_t	*seg;
382 
383 	/**/COUNT(N_reclaim);
384 	/**/ASSERT(_vmbestcheck(vd, NIL(Block_t*)) == 0);
385 
386 	if((fp = vd->free) )
387 	{	LINK(fp) = CACHE(vd)[S_CACHE]; CACHE(vd)[S_CACHE] = fp;
388 		vd->free = NIL(Block_t*);
389 	}
390 
391 	saw_wanted = wanted ? 0 : 1;
392 	for(n = S_CACHE; n >= c; --n)
393 	{	list = CACHE(vd)[n]; CACHE(vd)[n] = NIL(Block_t*);
394 		while((fp = list) )
395 		{	/* Note that below here we allow ISJUNK blocks to be
396 			** forward-merged even though they are not removed from
397 			** the list immediately. In this way, the list is
398 			** scanned only once. It works because the LINK and SIZE
399 			** fields are not destroyed during the merging. This can
400 			** be seen by observing that a tiniest block has a 2-word
401 			** header and a 2-word body. Merging a tiniest block
402 			** (1seg) and the next block (2seg) looks like this:
403 			**	1seg  size  link  left  2seg size link left ....
404 			**	1seg  size  link  left  rite xxxx xxxx .... self
405 			** After the merge, the 2seg word is replaced by the RIGHT
406 			** pointer of the new block and somewhere beyond the
407 			** two xxxx fields, the SELF pointer will replace some
408 			** other word. The important part is that the two xxxx
409 			** fields are kept intact.
410 			*/
411 			list = LINK(list); /**/ASSERT(!vmonlist(list,fp));
412 
413 			size = SIZE(fp);
414 			if(!ISJUNK(size))	/* already done */
415 				continue;
416 
417 			if(_Vmassert & VM_region)
418 			{	/* see if this address is from region */
419 				for(seg = vd->seg; seg; seg = seg->next)
420 					if(fp >= SEGBLOCK(seg) && fp < (Block_t*)seg->baddr )
421 						break;
422 				if(!seg) /* must be a bug in application code! */
423 				{	/**/ ASSERT(seg != NIL(Seg_t*));
424 					continue;
425 				}
426 			}
427 
428 			if(ISPFREE(size))	/* backward merge */
429 			{	fp = LAST(fp);
430 #if _BLD_posix
431 				if (fp < (Block_t*)0x00120000)
432 				{
433 					logmsg(0, "bestreclaim fp=%p", fp);
434 					ASSERT(!fp);
435 				}
436 #endif
437 				s = SIZE(fp); /**/ASSERT(!(s&BITS));
438 				REMOVE(vd,fp,INDEX(s),t,bestsearch);
439 				size = (size&~BITS) + s + sizeof(Head_t);
440 			}
441 			else	size &= ~BITS;
442 
443 			for(;;)	/* forward merge */
444 			{	np = (Block_t*)((Vmuchar_t*)fp+size+sizeof(Head_t));
445 #if _BLD_posix
446 				if (np < (Block_t*)0x00120000)
447 				{
448 					logmsg(0, "bestreclaim np=%p", np);
449 					ASSERT(!np);
450 				}
451 #endif
452 				s = SIZE(np);	/**/ASSERT(s > 0);
453 				if(!ISBUSY(s))
454 				{	/**/ASSERT((s&BITS) == 0);
455 					if(np == vd->wild)
456 						vd->wild = NIL(Block_t*);
457 					else	REMOVE(vd,np,INDEX(s),t,bestsearch);
458 				}
459 				else if(ISJUNK(s))
460 				{	/* reclaim any touched junk list */
461 					if((int)C_INDEX(s) < c)
462 						c = C_INDEX(s);
463 					SIZE(np) = 0;
464 					CLRBITS(s);
465 				}
466 				else	break;
467 				size += s + sizeof(Head_t);
468 			}
469 			SIZE(fp) = size;
470 
471 			/* tell next block that this one is free */
472 			np = NEXT(fp);	/**/ASSERT(ISBUSY(SIZE(np)));
473 					/**/ASSERT(!ISJUNK(SIZE(np)));
474 			SETPFREE(SIZE(np));
475 			*(SELF(fp)) = fp;
476 
477 			if(fp == wanted) /* to be consumed soon */
478 			{	/**/ASSERT(!saw_wanted); /* should be seen just once */
479 				saw_wanted = 1;
480 				continue;
481 			}
482 
483 			/* wilderness preservation */
484 			if(np->body.data >= vd->seg->baddr)
485 			{	vd->wild = fp;
486 				continue;
487 			}
488 
489 			/* tiny block goes to tiny list */
490 			if(size < MAXTINY)
491 			{	s = INDEX(size);
492 				np = LINK(fp) = TINY(vd)[s];
493 				if(s == 0)	/* TINIEST block */
494 				{	if(np)
495 						TLEFT(np) = fp;
496 					TLEFT(fp) = NIL(Block_t*);
497 				}
498 				else
499 				{	if(np)
500 						LEFT(np)  = fp;
501 					LEFT(fp) = NIL(Block_t*);
502 					SETLINK(fp);
503 				}
504 				TINY(vd)[s] = fp;
505 				continue;
506 			}
507 
508 			LEFT(fp) = RIGHT(fp) = LINK(fp) = NIL(Block_t*);
509 			if(!(np = vd->root) )	/* inserting into an empty tree	*/
510 			{	vd->root = fp;
511 				continue;
512 			}
513 
514 			size = SIZE(fp);
515 			while(1)	/* leaf insertion */
516 			{	/**/ASSERT(np != fp);
517 				if((s = SIZE(np)) > size)
518 				{	if((t = LEFT(np)) )
519 					{	/**/ ASSERT(np != t);
520 						np = t;
521 					}
522 					else
523 					{	LEFT(np) = fp;
524 						break;
525 					}
526 				}
527 				else if(s < size)
528 				{	if((t = RIGHT(np)) )
529 					{	/**/ ASSERT(np != t);
530 						np = t;
531 					}
532 					else
533 					{	RIGHT(np) = fp;
534 						break;
535 					}
536 				}
537 				else /* s == size */
538 				{	if((t = LINK(np)) )
539 					{	LINK(fp) = t;
540 						LEFT(t) = fp;
541 					}
542 					LINK(np) = fp;
543 					LEFT(fp) = np;
544 					SETLINK(fp);
545 					break;
546 				}
547 			}
548 		}
549 	}
550 
551 	/**/ASSERT(!wanted || saw_wanted == 1);
552 	/**/ASSERT(_vmbestcheck(vd, wanted) == 0);
553 	return saw_wanted;
554 }
555 
556 #if __STD_C
557 static int bestcompact(Vmalloc_t* vm)
558 #else
559 static int bestcompact(vm)
560 Vmalloc_t*	vm;
561 #endif
562 {
563 	reg Seg_t	*seg, *next;
564 	reg Block_t	*bp, *t;
565 	reg size_t	size, segsize, round;
566 	reg int		local, inuse;
567 	reg Vmdata_t*	vd = vm->data;
568 
569 	SETINUSE(vd, inuse);
570 
571 	if(!(local = vd->mode&VM_TRUST) )
572 	{	GETLOCAL(vd,local);
573 		if(ISLOCK(vd,local))
574 		{	CLRINUSE(vd, inuse);
575 			return -1;
576 		}
577 		SETLOCK(vd,local);
578 	}
579 
580 	bestreclaim(vd,NIL(Block_t*),0);
581 
582 	for(seg = vd->seg; seg; seg = next)
583 	{	next = seg->next;
584 
585 		bp = BLOCK(seg->baddr);
586 		if(!ISPFREE(SIZE(bp)) )
587 			continue;
588 
589 		bp = LAST(bp);	/**/ASSERT(vmisfree(vd,bp));
590 		size = SIZE(bp);
591 		if(bp == vd->wild)
592 		{	/* During large block allocations, _Vmextend might
593 			** have been enlarged the rounding factor. Reducing
594 			** it a bit help avoiding getting large raw memory.
595 			*/
596 			if((round = vm->disc->round) == 0)
597 				round = _Vmpagesize;
598 			if(size > COMPACT*vd->incr && vd->incr > round)
599 				vd->incr /= 2;
600 
601 			/* for the bottom segment, we don't necessarily want
602 			** to return raw memory too early. vd->pool has an
603 			** approximation of the average size of recently freed
604 			** blocks. If this is large, the application is managing
605 			** large blocks so we throttle back memory chopping
606 			** to avoid thrashing the underlying memory system.
607 			*/
608 			if(size <= COMPACT*vd->incr || size <= COMPACT*vd->pool)
609 				continue;
610 
611 			vd->wild = NIL(Block_t*);
612 			vd->pool = 0;
613 		}
614 		else	REMOVE(vd,bp,INDEX(size),t,bestsearch);
615 		CLRPFREE(SIZE(NEXT(bp)));
616 
617 		if(size < (segsize = seg->size))
618 			size += sizeof(Head_t);
619 
620 		if((size = (*_Vmtruncate)(vm,seg,size,0)) > 0)
621 		{	if(size >= segsize) /* entire segment deleted */
622 				continue;
623 			/**/ASSERT(SEG(BLOCK(seg->baddr)) == seg);
624 
625 			if((size = (seg->baddr - ((Vmuchar_t*)bp) - sizeof(Head_t))) > 0)
626 				SIZE(bp) = size - sizeof(Head_t);
627 			else	bp = NIL(Block_t*);
628 		}
629 
630 		if(bp)
631 		{	/**/ ASSERT(SIZE(bp) >= BODYSIZE);
632 			/**/ ASSERT(SEGWILD(bp));
633 			/**/ ASSERT(!vd->root || !vmintree(vd->root,bp));
634 			SIZE(bp) |= BUSY|JUNK;
635 			LINK(bp) = CACHE(vd)[C_INDEX(SIZE(bp))];
636 			CACHE(vd)[C_INDEX(SIZE(bp))] = bp;
637 		}
638 	}
639 
640 	if(!local && _Vmtrace && (vd->mode&VM_TRACE) && VMETHOD(vd) == VM_MTBEST)
641 		(*_Vmtrace)(vm, (Vmuchar_t*)0, (Vmuchar_t*)0, 0, 0);
642 
643 	CLRLOCK(vd,local); /**/ASSERT(_vmbestcheck(vd, NIL(Block_t*)) == 0);
644 
645 	CLRINUSE(vd, inuse);
646 	return 0;
647 }
648 
649 #if __STD_C
650 static Void_t* bestalloc(Vmalloc_t* vm, reg size_t size )
651 #else
652 static Void_t* bestalloc(vm,size)
653 Vmalloc_t*	vm;	/* region allocating from	*/
654 reg size_t	size;	/* desired block size		*/
655 #endif
656 {
657 	reg Vmdata_t*	vd = vm->data;
658 	reg size_t	s;
659 	reg int		n;
660 	reg Block_t	*tp, *np;
661 	reg int		local, inuse;
662 	size_t		orgsize = 0;
663 
664 	VMOPTIONS();
665 
666 	/**/COUNT(N_alloc);
667 
668 	SETINUSE(vd, inuse);
669 
670 	if(!(local = vd->mode&VM_TRUST))
671 	{	GETLOCAL(vd,local);	/**/ASSERT(!ISLOCK(vd,local));
672 		if(ISLOCK(vd,local) )
673 		{	CLRINUSE(vd, inuse);
674 			return NIL(Void_t*);
675 		}
676 		SETLOCK(vd,local);
677 		orgsize = size;
678 	}
679 
680 	/**/ASSERT(_vmbestcheck(vd, NIL(Block_t*)) == 0);
681 	/**/ ASSERT(HEADSIZE == sizeof(Head_t));
682 	/**/ ASSERT(BODYSIZE == sizeof(Body_t));
683 	/**/ ASSERT((ALIGN%(BITS+1)) == 0 );
684 	/**/ ASSERT((sizeof(Head_t)%ALIGN) == 0 );
685 	/**/ ASSERT((sizeof(Body_t)%ALIGN) == 0 );
686 	/**/ ASSERT((BODYSIZE%ALIGN) == 0 );
687 	/**/ ASSERT(sizeof(Block_t) == (sizeof(Body_t)+sizeof(Head_t)) );
688 
689 	/* for ANSI requirement that malloc(0) returns non-NULL pointer */
690 	size = size <= BODYSIZE ? BODYSIZE : ROUND(size,ALIGN);
691 
692 	if((tp = vd->free) )	/* reuse last free piece if appropriate */
693 	{	/**/ASSERT(ISBUSY(SIZE(tp)) );
694 		/**/ASSERT(ISJUNK(SIZE(tp)) );
695 		/**/COUNT(N_last);
696 
697 		vd->free = NIL(Block_t*);
698 		if((s = SIZE(tp)) >= size && s < (size << 1) )
699 		{	if(s >= size + (sizeof(Head_t)+BODYSIZE) )
700 			{	SIZE(tp) = size;
701 				np = NEXT(tp);
702 				SEG(np) = SEG(tp);
703 				SIZE(np) = ((s&~BITS) - (size+sizeof(Head_t)))|JUNK|BUSY;
704 				vd->free = np;
705 				SIZE(tp) |= s&BITS;
706 			}
707 			CLRJUNK(SIZE(tp));
708 			goto done;
709 		}
710 
711 		LINK(tp) = CACHE(vd)[S_CACHE];
712 		CACHE(vd)[S_CACHE] = tp;
713 	}
714 
715 	for(;;)
716 	{	for(n = S_CACHE; n >= 0; --n)	/* best-fit except for coalescing */
717 		{	bestreclaim(vd,NIL(Block_t*),n);
718 			if(vd->root && (tp = bestsearch(vd,size,NIL(Block_t*))) )
719 				goto got_block;
720 		}
721 
722 		/**/ASSERT(!vd->free);
723 		if((tp = vd->wild) && SIZE(tp) >= size)
724 		{	/**/COUNT(N_wild);
725 			vd->wild = NIL(Block_t*);
726 			goto got_block;
727 		}
728 
729 		KPVCOMPACT(vm,bestcompact);
730 		if((tp = (*_Vmextend)(vm,size,bestsearch)) )
731 			goto got_block;
732 		else if(vd->mode&VM_AGAIN)
733 			vd->mode &= ~VM_AGAIN;
734 		else
735 		{	CLRLOCK(vd,local);
736 			CLRINUSE(vd, inuse);
737 			return NIL(Void_t*);
738 		}
739 	}
740 
741 got_block:
742 	/**/ ASSERT(!ISBITS(SIZE(tp)));
743 	/**/ ASSERT(SIZE(tp) >= size);
744 	/**/ ASSERT((SIZE(tp)%ALIGN) == 0);
745 	/**/ ASSERT(!vd->free);
746 
747 	/* tell next block that we are no longer a free block */
748 	CLRPFREE(SIZE(NEXT(tp)));	/**/ ASSERT(ISBUSY(SIZE(NEXT(tp))));
749 
750 	if((s = SIZE(tp)-size) >= (sizeof(Head_t)+BODYSIZE) )
751 	{	SIZE(tp) = size;
752 
753 		np = NEXT(tp);
754 		SEG(np) = SEG(tp);
755 		SIZE(np) = (s - sizeof(Head_t)) | BUSY|JUNK;
756 
757 		if(VMWILD(vd,np))
758 		{	SIZE(np) &= ~BITS;
759 			*SELF(np) = np; /**/ASSERT(ISBUSY(SIZE(NEXT(np))));
760 			SETPFREE(SIZE(NEXT(np)));
761 			vd->wild = np;
762 		}
763 		else	vd->free = np;
764 	}
765 
766 	SETBUSY(SIZE(tp));
767 
768 done:
769 	if(!local && (vd->mode&VM_TRACE) && _Vmtrace && VMETHOD(vd) == VM_MTBEST)
770 		(*_Vmtrace)(vm,NIL(Vmuchar_t*),(Vmuchar_t*)DATA(tp),orgsize,0);
771 
772 	/**/ASSERT(_vmbestcheck(vd, NIL(Block_t*)) == 0);
773 	CLRLOCK(vd,local);
774 	ANNOUNCE(local, vm, VM_ALLOC, DATA(tp), vm->disc);
775 
776 	CLRINUSE(vd, inuse);
777 	return DATA(tp);
778 }
779 
780 #if __STD_C
781 static long bestaddr(Vmalloc_t* vm, Void_t* addr )
782 #else
783 static long bestaddr(vm, addr)
784 Vmalloc_t*	vm;	/* region allocating from	*/
785 Void_t*		addr;	/* address to check		*/
786 #endif
787 {
788 	reg Seg_t*	seg;
789 	reg Block_t	*b, *endb;
790 	reg long	offset;
791 	reg Vmdata_t*	vd = vm->data;
792 	reg int		local, inuse;
793 
794 	SETINUSE(vd, inuse);
795 
796 	if(!(local = vd->mode&VM_TRUST) )
797 	{	GETLOCAL(vd,local); /**/ASSERT(!ISLOCK(vd,local));
798 		if(ISLOCK(vd,local))
799 		{	CLRINUSE(vd, inuse);
800 			return -1L;
801 		}
802 		SETLOCK(vd,local);
803 	}
804 
805 	offset = -1L; b = endb = NIL(Block_t*);
806 	for(seg = vd->seg; seg; seg = seg->next)
807 	{	b = SEGBLOCK(seg);
808 		endb = (Block_t*)(seg->baddr - sizeof(Head_t));
809 		if((Vmuchar_t*)addr > (Vmuchar_t*)b &&
810 		   (Vmuchar_t*)addr < (Vmuchar_t*)endb)
811 			break;
812 	}
813 
814 	if(local && !(vd->mode&VM_TRUST) ) /* from bestfree or bestresize */
815 	{	b = BLOCK(addr);
816 		if(seg && SEG(b) == seg && ISBUSY(SIZE(b)) && !ISJUNK(SIZE(b)) )
817 			offset = 0;
818 		if(offset != 0 && vm->disc->exceptf)
819 			(void)(*vm->disc->exceptf)(vm,VM_BADADDR,addr,vm->disc);
820 	}
821 	else if(seg)
822 	{	while(b < endb)
823 		{	reg Vmuchar_t*	data = (Vmuchar_t*)DATA(b);
824 			reg size_t	size = SIZE(b)&~BITS;
825 
826 			if((Vmuchar_t*)addr >= data && (Vmuchar_t*)addr < data+size)
827 			{	if(ISJUNK(SIZE(b)) || !ISBUSY(SIZE(b)))
828 					offset = -1L;
829 				else	offset = (Vmuchar_t*)addr - data;
830 				goto done;
831 			}
832 
833 			b = (Block_t*)((Vmuchar_t*)DATA(b) + size);
834 		}
835 	}
836 
837 done:
838 	CLRLOCK(vd,local);
839 	CLRINUSE(vd, inuse);
840 	return offset;
841 }
842 
843 #if __STD_C
844 static int bestfree(Vmalloc_t* vm, Void_t* data )
845 #else
846 static int bestfree(vm, data )
847 Vmalloc_t*	vm;
848 Void_t*		data;
849 #endif
850 {
851 	reg Vmdata_t*	vd = vm->data;
852 	reg Block_t	*bp;
853 	reg size_t	s;
854 	reg int		local, inuse;
855 
856 #ifdef DEBUG
857 	if((local = (int)integralof(data)) >= 0 && local <= 0xf)
858 	{	int	vmassert = _Vmassert;
859 		_Vmassert = local ? local : vmassert ? vmassert : (VM_check|VM_abort);
860 		_vmbestcheck(vd, NIL(Block_t*));
861 		_Vmassert = local ? local : vmassert;
862 		return 0;
863 	}
864 #endif
865 
866 	if(!data) /* ANSI-ism */
867 		return 0;
868 
869 	/**/COUNT(N_free);
870 
871 	SETINUSE(vd, inuse);
872 
873 	if(!(local = vd->mode&VM_TRUST) )
874 	{	GETLOCAL(vd,local);	/**/ASSERT(!ISLOCK(vd,local));
875 		if(ISLOCK(vd,local) || KPVADDR(vm,data,bestaddr) != 0 )
876 		{	CLRINUSE(vd, inuse);
877 			return -1;
878 		}
879 		SETLOCK(vd,local);
880 	}
881 
882 	/**/ASSERT(_vmbestcheck(vd, NIL(Block_t*)) == 0);
883 	bp = BLOCK(data); s = SIZE(bp);
884 
885 	/* Keep an approximate average free block size.
886 	** This is used in bestcompact() to decide when to release
887 	** raw memory back to the underlying memory system.
888 	*/
889 	vd->pool = (vd->pool + (s&~BITS))/2;
890 
891 	if(ISBUSY(s) && !ISJUNK(s))
892 	{	SETJUNK(SIZE(bp));
893 	        if(s < MAXCACHE)
894 	        {       /**/ASSERT(!vmonlist(CACHE(vd)[INDEX(s)], bp) );
895 	                LINK(bp) = CACHE(vd)[INDEX(s)];
896 	                CACHE(vd)[INDEX(s)] = bp;
897 	        }
898 	        else if(!vd->free)
899 	                vd->free = bp;
900 	        else
901 	        {       /**/ASSERT(!vmonlist(CACHE(vd)[S_CACHE], bp) );
902 	                LINK(bp) = CACHE(vd)[S_CACHE];
903 	                CACHE(vd)[S_CACHE] = bp;
904 	        }
905 
906 		/* coalesce on freeing large blocks to avoid fragmentation */
907 		if(SIZE(bp) >= 2*vd->incr)
908 		{	bestreclaim(vd,NIL(Block_t*),0);
909 			if(vd->wild && SIZE(vd->wild) >= COMPACT*vd->incr)
910 				KPVCOMPACT(vm,bestcompact);
911 		}
912 	}
913 
914 	if(!local && _Vmtrace && (vd->mode&VM_TRACE) && VMETHOD(vd) == VM_MTBEST )
915 		(*_Vmtrace)(vm,(Vmuchar_t*)data,NIL(Vmuchar_t*), (s&~BITS), 0);
916 
917 	/**/ASSERT(_vmbestcheck(vd, NIL(Block_t*)) == 0);
918 	CLRLOCK(vd,local);
919 	ANNOUNCE(local, vm, VM_FREE, data, vm->disc);
920 
921 	CLRINUSE(vd, inuse);
922 	return 0;
923 }
924 
925 #if __STD_C
926 static Void_t* bestresize(Vmalloc_t* vm, Void_t* data, reg size_t size, int type)
927 #else
928 static Void_t* bestresize(vm,data,size,type)
929 Vmalloc_t*	vm;		/* region allocating from	*/
930 Void_t*		data;		/* old block of data		*/
931 reg size_t	size;		/* new size			*/
932 int		type;		/* !=0 to move, <0 for not copy */
933 #endif
934 {
935 	reg Block_t	*rp, *np, *t;
936 	int		local, inuse;
937 	size_t		s, bs, oldsize = 0, orgsize = 0;
938 	Void_t		*oldd, *orgdata = NIL(Void_t*);
939 	Vmdata_t	*vd = vm->data;
940 
941 	/**/COUNT(N_resize);
942 
943 	SETINUSE(vd, inuse);
944 
945 	if(!data)
946 	{	if((data = bestalloc(vm,size)) )
947 		{	oldsize = 0;
948 			size = size <= BODYSIZE ? BODYSIZE : ROUND(size,ALIGN);
949 		}
950 		goto done;
951 	}
952 	if(size == 0)
953 	{	(void)bestfree(vm,data);
954 		CLRINUSE(vd, inuse);
955 		return NIL(Void_t*);
956 	}
957 
958 	if(!(local = vd->mode&VM_TRUST) )
959 	{	GETLOCAL(vd,local); /**/ASSERT(!ISLOCK(vd,local));
960 		if(ISLOCK(vd,local) || (!local && KPVADDR(vm,data,bestaddr) != 0 ) )
961 		{	CLRINUSE(vd, inuse);
962 			return NIL(Void_t*);
963 		}
964 		SETLOCK(vd,local);
965 
966 		orgdata = data;	/* for tracing */
967 		orgsize = size;
968 	}
969 
970 	/**/ASSERT(_vmbestcheck(vd, NIL(Block_t*)) == 0);
971 	size = size <= BODYSIZE ? BODYSIZE : ROUND(size,ALIGN);
972 	rp = BLOCK(data);	/**/ASSERT(ISBUSY(SIZE(rp)) && !ISJUNK(SIZE(rp)));
973 	oldsize = SIZE(rp); CLRBITS(oldsize);
974 	if(oldsize < size)
975 	{	np = (Block_t*)((Vmuchar_t*)rp + oldsize + sizeof(Head_t));
976 		do	/* forward merge as much as possible */
977 		{	s = SIZE(np); /**/ASSERT(!ISPFREE(s));
978 			if(np == vd->free)
979 			{	vd->free = NIL(Block_t*);
980 				CLRBITS(s);
981 			}
982 			else if(ISJUNK(s) )
983 			{	if(!bestreclaim(vd,np,C_INDEX(s)) )
984 					/**/ASSERT(0); /* oops: did not see np! */
985 				s = SIZE(np); /**/ASSERT(s%ALIGN == 0);
986 			}
987 			else if(!ISBUSY(s) )
988 			{	if(np == vd->wild)
989 					vd->wild = NIL(Block_t*);
990 				else	REMOVE(vd,np,INDEX(s),t,bestsearch);
991 			}
992 			else	break;
993 
994 			SIZE(rp) += (s += sizeof(Head_t)); /**/ASSERT((s%ALIGN) == 0);
995 			np = (Block_t*)((Vmuchar_t*)np + s);
996 			CLRPFREE(SIZE(np));
997 		} while(SIZE(rp) < size);
998 
999 		if(SIZE(rp) < size && size > vd->incr && SEGWILD(rp) )
1000 		{	reg Seg_t*	seg;
1001 
1002 			s = (size - SIZE(rp)) + sizeof(Head_t); s = ROUND(s,vd->incr);
1003 			seg = SEG(rp);
1004 			if((*vm->disc->memoryf)(vm,seg->addr,seg->extent,seg->extent+s,
1005 				      vm->disc) == seg->addr )
1006 			{	SIZE(rp) += s;
1007 				seg->extent += s;
1008 				seg->size += s;
1009 				seg->baddr += s;
1010 				s  = (SIZE(rp)&~BITS) + sizeof(Head_t);
1011 				np = (Block_t*)((Vmuchar_t*)rp + s);
1012 				SEG(np) = seg;
1013 				SIZE(np) = BUSY;
1014 			}
1015 		}
1016 	}
1017 
1018 	if((s = SIZE(rp)) >= (size + (BODYSIZE+sizeof(Head_t))) )
1019 	{	SIZE(rp) = size;
1020 		np = NEXT(rp);
1021 		SEG(np) = SEG(rp);
1022 		SIZE(np) = (((s&~BITS)-size) - sizeof(Head_t))|BUSY|JUNK;
1023 		CPYBITS(SIZE(rp),s);
1024 		rp = np;
1025 		goto do_free;
1026 	}
1027 	else if((bs = s&~BITS) < size)
1028 	{	if(!(type&(VM_RSMOVE|VM_RSCOPY)) )
1029 			data = NIL(Void_t*); /* old data is not moveable */
1030 		else
1031 		{	oldd = data;
1032 			if((data = KPVALLOC(vm,size,bestalloc)) )
1033 			{	if(type&VM_RSCOPY)
1034 					memcpy(data, oldd, bs);
1035 
1036 			do_free: /* reclaim these right away */
1037 				SETJUNK(SIZE(rp));
1038 				LINK(rp) = CACHE(vd)[S_CACHE];
1039 				CACHE(vd)[S_CACHE] = rp;
1040 				bestreclaim(vd, NIL(Block_t*), S_CACHE);
1041 			}
1042 		}
1043 	}
1044 
1045 	if(!local && _Vmtrace && data && (vd->mode&VM_TRACE) && VMETHOD(vd) == VM_MTBEST)
1046 		(*_Vmtrace)(vm, (Vmuchar_t*)orgdata, (Vmuchar_t*)data, orgsize, 0);
1047 
1048 	/**/ASSERT(_vmbestcheck(vd, NIL(Block_t*)) == 0);
1049 	CLRLOCK(vd,local);
1050 	ANNOUNCE(local, vm, VM_RESIZE, data, vm->disc);
1051 
1052 done:	if(data && (type&VM_RSZERO) && (size = SIZE(BLOCK(data))&~BITS) > oldsize )
1053 		memset((Void_t*)((Vmuchar_t*)data + oldsize), 0, size-oldsize);
1054 
1055 	CLRINUSE(vd, inuse);
1056 	return data;
1057 }
1058 
1059 #if __STD_C
1060 static long bestsize(Vmalloc_t* vm, Void_t* addr )
1061 #else
1062 static long bestsize(vm, addr)
1063 Vmalloc_t*	vm;	/* region allocating from	*/
1064 Void_t*		addr;	/* address to check		*/
1065 #endif
1066 {
1067 	reg Seg_t*	seg;
1068 	reg Block_t	*b, *endb;
1069 	reg long	size;
1070 	reg Vmdata_t*	vd = vm->data;
1071 	reg int		inuse;
1072 
1073 	SETINUSE(vd, inuse);
1074 
1075 	if(!(vd->mode&VM_TRUST) )
1076 	{	if(ISLOCK(vd,0))
1077 		{	CLRINUSE(vd, inuse);
1078 			return -1L;
1079 		}
1080 		SETLOCK(vd,0);
1081 	}
1082 
1083 	size = -1L;
1084 	for(seg = vd->seg; seg; seg = seg->next)
1085 	{	b = SEGBLOCK(seg);
1086 		endb = (Block_t*)(seg->baddr - sizeof(Head_t));
1087 		if((Vmuchar_t*)addr <= (Vmuchar_t*)b ||
1088 		   (Vmuchar_t*)addr >= (Vmuchar_t*)endb)
1089 			continue;
1090 		while(b < endb)
1091 		{	if(addr == DATA(b))
1092 			{	if(!ISBUSY(SIZE(b)) || ISJUNK(SIZE(b)) )
1093 					size = -1L;
1094 				else	size = (long)SIZE(b)&~BITS;
1095 				goto done;
1096 			}
1097 			else if((Vmuchar_t*)addr <= (Vmuchar_t*)b)
1098 				break;
1099 
1100 			b = (Block_t*)((Vmuchar_t*)DATA(b) + (SIZE(b)&~BITS) );
1101 		}
1102 	}
1103 
1104 done:
1105 	CLRLOCK(vd,0);
1106 	CLRINUSE(vd, inuse);
1107 	return size;
1108 }
1109 
1110 #if __STD_C
1111 static Void_t* bestalign(Vmalloc_t* vm, size_t size, size_t align)
1112 #else
1113 static Void_t* bestalign(vm, size, align)
1114 Vmalloc_t*	vm;
1115 size_t		size;
1116 size_t		align;
1117 #endif
1118 {
1119 	reg Vmuchar_t	*data;
1120 	reg Block_t	*tp, *np;
1121 	reg Seg_t*	seg;
1122 	reg int		local, inuse;
1123 	reg size_t	s, extra, orgsize = 0, orgalign = 0;
1124 	reg Vmdata_t*	vd = vm->data;
1125 
1126 	if(size <= 0 || align <= 0)
1127 		return NIL(Void_t*);
1128 
1129 	SETINUSE(vd, inuse);
1130 
1131 	if(!(local = vd->mode&VM_TRUST) )
1132 	{	GETLOCAL(vd,local); /**/ASSERT(!ISLOCK(vd,local));
1133 		if(ISLOCK(vd,local) )
1134 		{	CLRINUSE(vd, inuse);
1135 			return NIL(Void_t*);
1136 		}
1137 		SETLOCK(vd,local);
1138 		orgsize = size;
1139 		orgalign = align;
1140 	}
1141 
1142 	/**/ASSERT(_vmbestcheck(vd, NIL(Block_t*)) == 0);
1143 	size = size <= BODYSIZE ? BODYSIZE : ROUND(size,ALIGN);
1144 	align = MULTIPLE(align,ALIGN);
1145 
1146 	/* hack so that dbalign() can store header data */
1147 	if(VMETHOD(vd) != VM_MTDEBUG)
1148 		extra = 0;
1149 	else
1150 	{	extra = DB_HEAD;
1151 		while(align < extra || (align - extra) < sizeof(Block_t))
1152 			align *= 2;
1153 	}
1154 
1155 	/* reclaim all free blocks now to avoid fragmentation */
1156 	bestreclaim(vd,NIL(Block_t*),0);
1157 
1158 	s = size + 2*(align+sizeof(Head_t)+extra);
1159 	if(!(data = (Vmuchar_t*)KPVALLOC(vm,s,bestalloc)) )
1160 		goto done;
1161 
1162 	tp = BLOCK(data);
1163 	seg = SEG(tp);
1164 
1165 	/* get an aligned address that we can live with */
1166 	if((s = (size_t)((VLONG(data)+extra)%align)) != 0)
1167 		data += align-s; /**/ASSERT(((VLONG(data)+extra)%align) == 0);
1168 
1169 	if((np = BLOCK(data)) != tp ) /* need to free left part */
1170 	{	if(((Vmuchar_t*)np - (Vmuchar_t*)tp) < (ssize_t)(sizeof(Block_t)+extra) )
1171 		{	data += align;
1172 			np = BLOCK(data);
1173 		} /**/ASSERT(((VLONG(data)+extra)%align) == 0);
1174 
1175 		s  = (Vmuchar_t*)np - (Vmuchar_t*)tp;
1176 		SIZE(np) = ((SIZE(tp)&~BITS) - s)|BUSY;
1177 		SEG(np) = seg;
1178 
1179 		SIZE(tp) = (s - sizeof(Head_t)) | (SIZE(tp)&BITS) | JUNK;
1180 		/**/ ASSERT(SIZE(tp) >= sizeof(Body_t) );
1181 		LINK(tp) = CACHE(vd)[C_INDEX(SIZE(tp))];
1182 		CACHE(vd)[C_INDEX(SIZE(tp))] = tp;
1183 	}
1184 
1185 	/* free left-over if too big */
1186 	if((s = SIZE(np) - size) >= sizeof(Block_t))
1187 	{	SIZE(np) = size;
1188 
1189 		tp = NEXT(np);
1190 		SIZE(tp) = ((s & ~BITS) - sizeof(Head_t)) | BUSY | JUNK;
1191 		SEG(tp) = seg;
1192 		LINK(tp) = CACHE(vd)[C_INDEX(SIZE(tp))];
1193 		CACHE(vd)[C_INDEX(SIZE(tp))] = tp;
1194 
1195 		SIZE(np) |= s&BITS;
1196 	}
1197 
1198 	bestreclaim(vd,NIL(Block_t*),0); /* coalesce all free blocks */
1199 
1200 	if(!local && !(vd->mode&VM_TRUST) && _Vmtrace && (vd->mode&VM_TRACE) )
1201 		(*_Vmtrace)(vm,NIL(Vmuchar_t*),data,orgsize,orgalign);
1202 
1203 done:
1204 	/**/ASSERT(_vmbestcheck(vd, NIL(Block_t*)) == 0);
1205 	CLRLOCK(vd,local);
1206 	ANNOUNCE(local, vm, VM_ALLOC, (Void_t*)data, vm->disc);
1207 
1208 	CLRINUSE(vd, inuse);
1209 	return (Void_t*)data;
1210 }
1211 
1212 
1213 #if _mem_win32
1214 #if _PACKAGE_ast
1215 #include		<ast_windows.h>
1216 #else
1217 #include		<windows.h>
1218 #endif
1219 #endif /* _lib_win32 */
1220 
1221 #if _mem_mmap_anon
1222 #include		<sys/mman.h>
1223 #ifndef MAP_ANON
1224 #define	MAP_ANON	MAP_ANONYMOUS
1225 #endif
1226 #endif /* _mem_mmap_anon */
1227 
1228 #if _mem_mmap_zero
1229 #include		<sys/fcntl.h>
1230 #include		<sys/mman.h>
1231 typedef struct _mmapdisc_s
1232 {	Vmdisc_t	disc;
1233 	int		fd;
1234 	off_t		offset;
1235 } Mmapdisc_t;
1236 
1237 #ifndef OPEN_MAX
1238 #define	OPEN_MAX	64
1239 #endif
1240 #define OPEN_PRIVATE	(3*OPEN_MAX/4)
1241 #endif /* _mem_mmap_zero */
1242 
1243 /* failure mode of mmap, sbrk and brk */
1244 #ifndef MAP_FAILED
1245 #define MAP_FAILED	((Void_t*)(-1))
1246 #endif
1247 #define BRK_FAILED	((Void_t*)(-1))
1248 
1249 /* make sure that allocated memory are addressable */
1250 
1251 #if _PACKAGE_ast
1252 #include	<sig.h>
1253 #else
1254 #include	<signal.h>
1255 typedef void	(*Sig_handler_t)(int);
1256 #endif
1257 
1258 static int	Gotsegv = 0;
1259 
1260 #if __STD_C
1261 static void sigsegv(int sig)
1262 #else
1263 static void sigsegv(sig)
1264 int	sig;
1265 #endif
1266 {
1267 	if(sig == SIGSEGV)
1268 		Gotsegv = 1;
1269 }
1270 
1271 #if __STD_C
1272 static int okaddr(Void_t* addr, size_t nsize)
1273 #else
1274 static int okaddr(addr, nsize)
1275 Void_t*	addr;
1276 size_t	nsize;
1277 #endif
1278 {
1279 	Sig_handler_t	segv;
1280 	int		rv;
1281 
1282 	Gotsegv = 0; /* catch segment fault */
1283 	segv = signal(SIGSEGV, sigsegv);
1284 
1285 	if(Gotsegv == 0)
1286 		rv = *((char*)addr);
1287 	if(Gotsegv == 0)
1288 		rv += *(((char*)addr)+nsize-1);
1289 	if(Gotsegv == 0)
1290 		rv = rv == 0 ? 0 : 1;
1291 	else	rv = -1;
1292 
1293 	signal(SIGSEGV, segv); /* restore signal catcher */
1294 	Gotsegv = 0;
1295 
1296 	return rv;
1297 }
1298 
1299 /* A discipline to get raw memory using sbrk/VirtualAlloc/mmap */
1300 #if __STD_C
1301 static Void_t* sbrkmem(Vmalloc_t* vm, Void_t* caddr,
1302 			size_t csize, size_t nsize, Vmdisc_t* disc)
1303 #else
1304 static Void_t* sbrkmem(vm, caddr, csize, nsize, disc)
1305 Vmalloc_t*	vm;	/* region doing allocation from		*/
1306 Void_t*		caddr;	/* current address			*/
1307 size_t		csize;	/* current size				*/
1308 size_t		nsize;	/* new size				*/
1309 Vmdisc_t*	disc;	/* discipline structure			*/
1310 #endif
1311 {
1312 #undef _done_sbrkmem
1313 
1314 #if !defined(_done_sbrkmem) && defined(_mem_win32)
1315 #define _done_sbrkmem	1
1316 	NOTUSED(vm);
1317 	NOTUSED(disc);
1318 	if(csize == 0)
1319 		return (Void_t*)VirtualAlloc(0,nsize,MEM_COMMIT,PAGE_READWRITE);
1320 	else if(nsize == 0)
1321 		return VirtualFree((LPVOID)caddr,0,MEM_RELEASE) ? caddr : NIL(Void_t*);
1322 	else	return NIL(Void_t*);
1323 #endif /* MUST_WIN32 */
1324 
1325 #if !defined(_done_sbrkmem) && (_mem_sbrk || _mem_mmap_zero || _mem_mmap_anon)
1326 #define _done_sbrkmem	1
1327 	Vmuchar_t	*addr;
1328 #if _mem_mmap_zero
1329 	Mmapdisc_t	*mmdc = (Mmapdisc_t*)disc;
1330 #else
1331 	NOTUSED(disc);
1332 #endif
1333 	NOTUSED(vm);
1334 
1335 	if(csize == 0) /* allocating new memory */
1336 	{
1337 
1338 #if _mem_sbrk	/* try using sbrk() and brk() */
1339 		if(!(_Vmassert & VM_mmap))
1340 		{
1341 			addr = (Vmuchar_t*)sbrk(0); /* old break value */
1342 			if(addr && addr != (Vmuchar_t*)BRK_FAILED )
1343 			{
1344 				if((addr+nsize) < addr)
1345 					return NIL(Void_t*);
1346 				if(brk(addr+nsize) == 0 )
1347 				{	if(okaddr(addr,nsize) >= 0)
1348 						return addr;
1349 					(void)brk(addr); /* release reserved address */
1350 				}
1351 			}
1352 		}
1353 #endif /* _mem_sbrk */
1354 
1355 #if _mem_mmap_anon /* anonymous mmap */
1356 		addr = (Vmuchar_t*)mmap(0, nsize, PROT_READ|PROT_WRITE,
1357                                         MAP_ANON|MAP_PRIVATE, -1, 0);
1358 		if(addr && addr != (Vmuchar_t*)MAP_FAILED)
1359 		{	if(okaddr(addr,nsize) >= 0)
1360 				return addr;
1361 			(void)munmap((char*)addr, nsize); /* release reserved address */
1362 		}
1363 #endif /* _mem_mmap_anon */
1364 
1365 #if _mem_mmap_zero /* mmap from /dev/zero */
1366 		if(mmdc->fd < 0)
1367 		{	int	fd;
1368 			if(mmdc->fd != -1)
1369 				return NIL(Void_t*);
1370 			if((fd = open("/dev/zero", O_RDONLY)) < 0 )
1371 			{	mmdc->fd = -2;
1372 				return NIL(Void_t*);
1373 			}
1374 			if(fd >= OPEN_PRIVATE || (mmdc->fd = dup2(fd,OPEN_PRIVATE)) < 0 )
1375 				mmdc->fd = fd;
1376 			else	close(fd);
1377 #ifdef FD_CLOEXEC
1378 			fcntl(mmdc->fd, F_SETFD, FD_CLOEXEC);
1379 #endif
1380 		}
1381 		addr = (Vmuchar_t*)mmap(0, nsize, PROT_READ|PROT_WRITE,
1382 					MAP_PRIVATE, mmdc->fd, mmdc->offset);
1383 		if(addr && addr != (Vmuchar_t*)MAP_FAILED)
1384 		{	if(okaddr(addr, nsize) >= 0)
1385 			{	mmdc->offset += nsize;
1386 				return addr;
1387 			}
1388 			(void)munmap((char*)addr, nsize); /* release reserved address */
1389 		}
1390 #endif /* _mem_mmap_zero */
1391 
1392 		return NIL(Void_t*);
1393 	}
1394 	else
1395 	{
1396 
1397 #if _mem_sbrk
1398 		addr = (Vmuchar_t*)sbrk(0);
1399 		if(!addr || addr == (Vmuchar_t*)BRK_FAILED)
1400 			addr = caddr;
1401 		else if(((Vmuchar_t*)caddr+csize) == addr) /* in sbrk-space */
1402 		{	if(nsize <= csize)
1403 				addr -= csize-nsize;
1404 			else if((addr += nsize-csize) < (Vmuchar_t*)caddr)
1405 				return NIL(Void_t*); /* wrapped around address */
1406 			else	return brk(addr) == 0 ? caddr : NIL(Void_t*);
1407 		}
1408 #else
1409 		addr = caddr;
1410 #endif /* _mem_sbrk */
1411 
1412 #if _mem_mmap_zero || _mem_mmap_anon
1413 		if(((Vmuchar_t*)caddr+csize) > addr) /* in mmap-space */
1414 			if(nsize == 0 && munmap(caddr,csize) == 0)
1415 				return caddr;
1416 #endif /* _mem_mmap_zero || _mem_mmap_anon */
1417 
1418 		return NIL(Void_t*);
1419 	}
1420 #endif /*_done_sbrkmem*/
1421 
1422 #if !_done_sbrkmem /* use native malloc/free as a last resort */
1423 	/**/ASSERT(_std_malloc); /* _std_malloc should be well-defined */
1424 	NOTUSED(vm);
1425 	NOTUSED(disc);
1426 	if(csize == 0)
1427 		return (Void_t*)malloc(nsize);
1428 	else if(nsize == 0)
1429 	{	free(caddr);
1430 		return caddr;
1431 	}
1432 	else	return NIL(Void_t*);
1433 #endif /* _done_sbrkmem */
1434 }
1435 
1436 #if _mem_mmap_zero
1437 static Mmapdisc_t _Vmdcsbrk = { { sbrkmem, NIL(Vmexcept_f), 64*1024 }, -1, 0 };
1438 #else
1439 static Vmdisc_t _Vmdcsbrk = { sbrkmem, NIL(Vmexcept_f), 0 };
1440 #endif
1441 
1442 static Vmethod_t _Vmbest =
1443 {
1444 	bestalloc,
1445 	bestresize,
1446 	bestfree,
1447 	bestaddr,
1448 	bestsize,
1449 	bestcompact,
1450 	bestalign,
1451 	VM_MTBEST
1452 };
1453 
1454 /* The heap region */
1455 static Vmdata_t	_Vmdata =
1456 {
1457 	VM_MTBEST|VM_TRUST,		/* mode		*/
1458 	0,				/* incr		*/
1459 	0,				/* pool		*/
1460 	NIL(Seg_t*),			/* seg		*/
1461 	NIL(Block_t*),			/* free		*/
1462 	NIL(Block_t*),			/* wild		*/
1463 	NIL(Block_t*),			/* root		*/
1464 };
1465 Vmalloc_t _Vmheap =
1466 {
1467 	{ bestalloc,
1468 	  bestresize,
1469 	  bestfree,
1470 	  bestaddr,
1471 	  bestsize,
1472 	  bestcompact,
1473 	  bestalign,
1474 	  VM_MTBEST
1475 	},
1476 	NIL(char*),			/* file		*/
1477 	0,				/* line		*/
1478 	0,				/* func		*/
1479 	(Vmdisc_t*)(&_Vmdcsbrk),	/* disc		*/
1480 	&_Vmdata,			/* data		*/
1481 	NIL(Vmalloc_t*)			/* next		*/
1482 };
1483 
1484 __DEFINE__(Vmalloc_t*, Vmheap, &_Vmheap);
1485 __DEFINE__(Vmalloc_t*, Vmregion, &_Vmheap);
1486 __DEFINE__(Vmethod_t*, Vmbest, &_Vmbest);
1487 __DEFINE__(Vmdisc_t*,  Vmdcsbrk, (Vmdisc_t*)(&_Vmdcsbrk) );
1488 
1489 #ifdef NoF
1490 NoF(vmbest)
1491 #endif
1492 
1493 #endif
1494