xref: /titanic_50/usr/src/lib/libast/common/vmalloc/vmprivate.c (revision 1886f67eb9de99edbcda88765f2c603a30c87fc2)
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_vmprivate(){}
25 
26 #else
27 
28 #include	"vmhdr.h"
29 
30 static char*	Version = "\n@(#)$Id: Vmalloc (AT&T Research) 2010-01-01 $\0\n";
31 
32 /*	Private code used in the vmalloc library
33 **
34 **	Written by Kiem-Phong Vo, kpv@research.att.com, 01/16/94.
35 */
36 
37 /* Get more memory for a region */
38 #if __STD_C
39 static Block_t* vmextend(reg Vmalloc_t* vm, size_t size, Vmsearch_f searchf )
40 #else
41 static Block_t* vmextend(vm, size, searchf )
42 reg Vmalloc_t*	vm;		/* region to increase in size	*/
43 size_t		size;		/* desired amount of space	*/
44 Vmsearch_f	searchf;	/* tree search function		*/
45 #endif
46 {
47 	reg size_t	s;
48 	reg Seg_t*	seg;
49 	reg Block_t	*bp, *t;
50 	reg Vmuchar_t*	addr = (Vmuchar_t*)Version; /* shut compiler warning */
51 	reg Vmdata_t*	vd = vm->data;
52 	reg Vmemory_f	memoryf = vm->disc->memoryf;
53 	reg Vmexcept_f	exceptf = vm->disc->exceptf;
54 
55 	GETPAGESIZE(_Vmpagesize);
56 
57 #if DEBUG /* trace all allocation calls through the heap */
58 	if(!_Vmtrace && vm == Vmheap && (vd->mode&VM_TRUST) )
59 		VMOPTIONS();
60 #endif
61 
62 	if(vd->incr <= 0) /* this is just _Vmheap on the first call */
63 		vd->incr = VMHEAPINCR;
64 
65 	/* Get slightly more for administrative data */
66 	s = size + sizeof(Seg_t) + sizeof(Block_t) + sizeof(Head_t) + 2*ALIGN;
67 	if(s <= size)	/* size was too large and we have wrapped around */
68 		return NIL(Block_t*);
69 	if((size = ROUND(s,vd->incr)) < s)
70 		return NIL(Block_t*);
71 
72 	/* increase the rounding factor to reduce # of future extensions */
73 	if(size > 2*vd->incr && vm->disc->round < vd->incr)
74 		vd->incr *= 2;
75 
76 	/* see if we can extend the current segment */
77 	if(!(seg = vd->seg) )
78 		addr = NIL(Vmuchar_t*);
79 	else
80 	{	if(!vd->wild || SEG(vd->wild) != seg)
81 			s = 0;
82 		else
83 		{	s = SIZE(vd->wild) + sizeof(Head_t);
84 			if((s = (s/vd->incr)*vd->incr) == size)
85 				size += vd->incr;
86 		}
87 		addr = (Vmuchar_t*)(*memoryf)(vm,seg->addr,seg->extent,
88 					  seg->extent+size-s,vm->disc);
89 		if(!addr)
90 			seg = NIL(Seg_t*);
91 		else
92 		{	/**/ASSERT(addr == (Vmuchar_t*)seg->addr);
93 			addr += seg->extent;
94 			size -= s;
95 		}
96 	}
97 
98 	while(!addr)	/* try to get space */
99 	{	if((addr = (Vmuchar_t*)(*memoryf)(vm,NIL(Void_t*),0,size,vm->disc)) )
100 			break;
101 
102 		/* check with exception handler to see if we should continue */
103 		if(!exceptf)
104 			return NIL(Block_t*);
105 		else
106 		{	int	rv, lock;
107 			lock = vd->mode&VM_LOCK;
108 			vd->mode &= ~VM_LOCK;
109 			rv = (*exceptf)(vm,VM_NOMEM,(Void_t*)size,vm->disc);
110 			vd->mode |= lock;
111 			if(rv <= 0)
112 			{	if(rv == 0)
113 					vd->mode |= VM_AGAIN;
114 				return NIL(Block_t*);
115 			}
116 		}
117 	}
118 
119 	if(seg)
120 	{	/* extending current segment */
121 		bp = BLOCK(seg->baddr);
122 
123 		if(vd->mode&(VM_MTBEST|VM_MTDEBUG|VM_MTPROFILE) )
124 		{	/**/ ASSERT((SIZE(bp)&~BITS) == 0);
125 			/**/ ASSERT(SEG(bp) == seg);
126 			if(!ISPFREE(SIZE(bp)) )
127 				SIZE(bp) = size - sizeof(Head_t);
128 			else
129 			{	/**/ ASSERT(searchf);
130 				bp = LAST(bp);
131 				if(bp == vd->wild)
132 					vd->wild = NIL(Block_t*);
133 				else	REMOVE(vd,bp,INDEX(SIZE(bp)),t,(*searchf));
134 				SIZE(bp) += size;
135 			}
136 		}
137 		else
138 		{	if(seg->free)
139 			{	bp = seg->free;
140 				seg->free = NIL(Block_t*);
141 				SIZE(bp) += size;
142 			}
143 			else
144 			{	SEG(bp) = seg;
145 				SIZE(bp) = size - sizeof(Head_t);
146 			}
147 		}
148 
149 		seg->size += size;
150 		seg->extent += size;
151 		seg->baddr += size;
152 	}
153 	else
154 	{	/* creating a new segment */
155 		reg Seg_t	*sp, *lastsp;
156 
157 		if((s = (size_t)(VLONG(addr)%ALIGN)) != 0)
158 			addr += ALIGN-s;
159 
160 		seg = (Seg_t*)addr;
161 		seg->vmdt = vd;
162 		seg->addr = (Void_t*)(addr - (s ? ALIGN-s : 0));
163 		seg->extent = size;
164 		seg->baddr = addr + size - (s ? 2*ALIGN : 0);
165 		seg->free = NIL(Block_t*);
166 		bp = SEGBLOCK(seg);
167 		SEG(bp) = seg;
168 		SIZE(bp) = seg->baddr - (Vmuchar_t*)bp - 2*sizeof(Head_t);
169 
170 		/* NOTE: for Vmbest, Vmdebug and Vmprofile the region's segment list
171 		   is reversely ordered by addresses. This is so that we can easily
172 		   check for the wild block.
173 		*/
174 		lastsp = NIL(Seg_t*);
175 		sp = vd->seg;
176 		if(vd->mode&(VM_MTBEST|VM_MTDEBUG|VM_MTPROFILE))
177 			for(; sp; lastsp = sp, sp = sp->next)
178 				if(seg->addr > sp->addr)
179 					break;
180 		seg->next = sp;
181 		if(lastsp)
182 			lastsp->next = seg;
183 		else	vd->seg = seg;
184 
185 		seg->size = SIZE(bp);
186 	}
187 
188 	/* make a fake header for possible segmented memory */
189 	t = NEXT(bp);
190 	SEG(t) = seg;
191 	SIZE(t) = BUSY;
192 
193 	/* see if the wild block is still wild */
194 	if((t = vd->wild) && (seg = SEG(t)) != vd->seg)
195 	{	CLRPFREE(SIZE(NEXT(t)));
196 		if(vd->mode&(VM_MTBEST|VM_MTDEBUG|VM_MTPROFILE) )
197 		{	SIZE(t) |= BUSY|JUNK;
198 			LINK(t) = CACHE(vd)[C_INDEX(SIZE(t))];
199 			CACHE(vd)[C_INDEX(SIZE(t))] = t;
200 		}
201 		else	seg->free = t;
202 
203 		vd->wild = NIL(Block_t*);
204 	}
205 
206 	return bp;
207 }
208 
209 /* Truncate a segment if possible */
210 #if __STD_C
211 static ssize_t vmtruncate(Vmalloc_t* vm, Seg_t* seg, size_t size, int exact)
212 #else
213 static ssize_t vmtruncate(vm, seg, size, exact)
214 Vmalloc_t*	vm;	/* containing region		*/
215 Seg_t*		seg;	/* the one to be truncated	*/
216 size_t		size;	/* amount of free space		*/
217 int		exact;
218 #endif
219 {
220 	reg Void_t*	caddr;
221 	reg Seg_t*	last;
222 	reg Vmdata_t*	vd = vm->data;
223 	reg Vmemory_f	memoryf = vm->disc->memoryf;
224 
225 	caddr = seg->addr;
226 
227 	if(size < seg->size)
228 	{	reg ssize_t	less;
229 
230 		if(exact)
231 			less = size;
232 		else /* keep truncated amount to discipline requirements */
233 		{	if((less = vm->disc->round) <= 0)
234 				less = _Vmpagesize;
235 			less = (size/less)*less;
236 			less = (less/vd->incr)*vd->incr;
237 			if(less > 0 && size > (size_t)less && (size-(size_t)less) < sizeof(Block_t) )
238 				less = (size_t)less <= vd->incr ? 0 : (size_t)less - vd->incr;
239 		}
240 
241 		if(less <= 0 ||
242 		   (*memoryf)(vm,caddr,seg->extent,seg->extent-less,vm->disc) != caddr)
243 			return 0;
244 
245 		seg->extent -= less;
246 		seg->size -= less;
247 		seg->baddr -= less;
248 		SEG(BLOCK(seg->baddr)) = seg;
249 		SIZE(BLOCK(seg->baddr)) = BUSY;
250 
251 		return less;
252 	}
253 	else
254 	{	/* unlink segment from region */
255 		if(seg == vd->seg)
256 		{	vd->seg = seg->next;
257 			last = NIL(Seg_t*);
258 		}
259 		else
260 		{	for(last = vd->seg; last->next != seg; last = last->next)
261 				;
262 			last->next = seg->next;
263 		}
264 
265 		/* now delete it */
266 		if((*memoryf)(vm,caddr,seg->extent,0,vm->disc) == caddr)
267 			return size;
268 
269 		/* space reduction failed, reinsert segment */
270 		if(last)
271 		{	seg->next = last->next;
272 			last->next = seg;
273 		}
274 		else
275 		{	seg->next = vd->seg;
276 			vd->seg = seg;
277 		}
278 		return 0;
279 	}
280 }
281 
282 /* Externally visible names but local to library */
283 Vmextern_t	_Vmextern =
284 {	vmextend,						/* _Vmextend	*/
285 	vmtruncate,						/* _Vmtruncate	*/
286 	0,							/* _Vmpagesize	*/
287 	NIL(char*(*)_ARG_((char*,const char*,int))),		/* _Vmstrcpy	*/
288 	NIL(char*(*)_ARG_((Vmulong_t,int))),			/* _Vmitoa	*/
289 	NIL(void(*)_ARG_((Vmalloc_t*,
290 			  Vmuchar_t*,Vmuchar_t*,size_t,size_t))), /* _Vmtrace	*/
291 	NIL(void(*)_ARG_((Vmalloc_t*)))				/* _Vmpfclose	*/
292 };
293 
294 #endif
295