2 * Copyright 2002 Niels Provos <provos@citi.umich.edu>
5 * Redistribution and use in source and binary forms, with or without
6 * modification, are permitted provided that the following conditions
8 * 1. Redistributions of source code must retain the above copyright
9 * notice, this list of conditions and the following disclaimer.
10 * 2. Redistributions in binary form must reproduce the above copyright
11 * notice, this list of conditions and the following disclaimer in the
12 * documentation and/or other materials provided with the distribution.
14 * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
15 * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
16 * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
17 * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT,
18 * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT
19 * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
20 * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
21 * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
22 * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF
23 * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
27 RCSID("$OpenBSD: monitor_mm.c,v 1.9 2004/05/11 19:01:43 deraadt Exp $");
29 #ifdef HAVE_SYS_MMAN_H
36 #include "monitor_mm.h"
39 mm_compare(struct mm_share *a, struct mm_share *b)
41 long diff = (char *)a->address - (char *)b->address;
51 RB_GENERATE(mmtree, mm_share, next, mm_compare)
53 static struct mm_share *
54 mm_make_entry(struct mm_master *mm, struct mmtree *head,
55 void *address, size_t size)
57 struct mm_share *tmp, *tmp2;
59 if (mm->mmalloc == NULL)
60 tmp = xmalloc(sizeof(struct mm_share));
62 tmp = mm_xmalloc(mm->mmalloc, sizeof(struct mm_share));
63 tmp->address = address;
66 tmp2 = RB_INSERT(mmtree, head, tmp);
68 fatal("mm_make_entry(%p): double address %p->%p(%lu)",
69 mm, tmp2, address, (u_long)size);
74 /* Creates a shared memory area of a certain size */
77 mm_create(struct mm_master *mmalloc, size_t size)
83 mm = xmalloc(sizeof(struct mm_master));
85 mm = mm_xmalloc(mmalloc, sizeof(struct mm_master));
88 * If the memory map has a mm_master it can be completely
89 * shared including authentication between the child
92 mm->mmalloc = mmalloc;
94 address = xmmap(size);
95 if (address == MAP_FAILED)
96 fatal("mmap(%lu): %s", (u_long)size, strerror(errno));
98 mm->address = address;
101 RB_INIT(&mm->rb_free);
102 RB_INIT(&mm->rb_allocated);
104 mm_make_entry(mm, &mm->rb_free, address, size);
109 /* Frees either the allocated or the free list */
112 mm_freelist(struct mm_master *mmalloc, struct mmtree *head)
114 struct mm_share *mms, *next;
116 for (mms = RB_ROOT(head); mms; mms = next) {
117 next = RB_NEXT(mmtree, head, mms);
118 RB_REMOVE(mmtree, head, mms);
122 mm_free(mmalloc, mms);
126 /* Destroys a memory mapped area */
129 mm_destroy(struct mm_master *mm)
131 mm_freelist(mm->mmalloc, &mm->rb_free);
132 mm_freelist(mm->mmalloc, &mm->rb_allocated);
135 if (munmap(mm->address, mm->size) == -1)
136 fatal("munmap(%p, %lu): %s", mm->address, (u_long)mm->size,
139 fatal("%s: UsePrivilegeSeparation=yes and Compression=yes not supported",
142 if (mm->mmalloc == NULL)
145 mm_free(mm->mmalloc, mm);
149 mm_xmalloc(struct mm_master *mm, size_t size)
153 address = mm_malloc(mm, size);
155 fatal("%s: mm_malloc(%lu)", __func__, (u_long)size);
160 /* Allocates data from a memory mapped area */
163 mm_malloc(struct mm_master *mm, size_t size)
165 struct mm_share *mms, *tmp;
168 fatal("mm_malloc: try to allocate 0 space");
169 if (size > SIZE_T_MAX - MM_MINSIZE + 1)
170 fatal("mm_malloc: size too big");
172 size = ((size + (MM_MINSIZE - 1)) / MM_MINSIZE) * MM_MINSIZE;
174 RB_FOREACH(mms, mmtree, &mm->rb_free) {
175 if (mms->size >= size)
183 memset(mms->address, 0xd0, size);
185 tmp = mm_make_entry(mm, &mm->rb_allocated, mms->address, size);
187 /* Does not change order in RB tree */
189 mms->address = (u_char *)mms->address + size;
191 if (mms->size == 0) {
192 RB_REMOVE(mmtree, &mm->rb_free, mms);
193 if (mm->mmalloc == NULL)
196 mm_free(mm->mmalloc, mms);
199 return (tmp->address);
202 /* Frees memory in a memory mapped area */
205 mm_free(struct mm_master *mm, void *address)
207 struct mm_share *mms, *prev, tmp;
209 tmp.address = address;
210 mms = RB_FIND(mmtree, &mm->rb_allocated, &tmp);
212 fatal("mm_free(%p): can not find %p", mm, address);
215 memset(mms->address, 0xd0, mms->size);
217 /* Remove from allocated list and insert in free list */
218 RB_REMOVE(mmtree, &mm->rb_allocated, mms);
219 if (RB_INSERT(mmtree, &mm->rb_free, mms) != NULL)
220 fatal("mm_free(%p): double address %p", mm, address);
222 /* Find previous entry */
224 if (RB_LEFT(prev, next)) {
225 prev = RB_LEFT(prev, next);
226 while (RB_RIGHT(prev, next))
227 prev = RB_RIGHT(prev, next);
229 if (RB_PARENT(prev, next) &&
230 (prev == RB_RIGHT(RB_PARENT(prev, next), next)))
231 prev = RB_PARENT(prev, next);
233 while (RB_PARENT(prev, next) &&
234 (prev == RB_LEFT(RB_PARENT(prev, next), next)))
235 prev = RB_PARENT(prev, next);
236 prev = RB_PARENT(prev, next);
240 /* Check if range does not overlap */
241 if (prev != NULL && MM_ADDRESS_END(prev) > address)
242 fatal("mm_free: memory corruption: %p(%lu) > %p",
243 prev->address, (u_long)prev->size, address);
245 /* See if we can merge backwards */
246 if (prev != NULL && MM_ADDRESS_END(prev) == address) {
247 prev->size += mms->size;
248 RB_REMOVE(mmtree, &mm->rb_free, mms);
249 if (mm->mmalloc == NULL)
252 mm_free(mm->mmalloc, mms);
259 /* Check if we can merge forwards */
260 mms = RB_NEXT(mmtree, &mm->rb_free, prev);
264 if (MM_ADDRESS_END(prev) > mms->address)
265 fatal("mm_free: memory corruption: %p < %p(%lu)",
266 mms->address, prev->address, (u_long)prev->size);
267 if (MM_ADDRESS_END(prev) != mms->address)
270 prev->size += mms->size;
271 RB_REMOVE(mmtree, &mm->rb_free, mms);
273 if (mm->mmalloc == NULL)
276 mm_free(mm->mmalloc, mms);
280 mm_sync_list(struct mmtree *oldtree, struct mmtree *newtree,
281 struct mm_master *mm, struct mm_master *mmold)
283 struct mm_master *mmalloc = mm->mmalloc;
284 struct mm_share *mms, *new;
287 RB_FOREACH(mms, mmtree, oldtree) {
288 /* Check the values */
289 mm_memvalid(mmold, mms, sizeof(struct mm_share));
290 mm_memvalid(mm, mms->address, mms->size);
292 new = mm_xmalloc(mmalloc, sizeof(struct mm_share));
293 memcpy(new, mms, sizeof(struct mm_share));
294 RB_INSERT(mmtree, newtree, new);
299 mm_share_sync(struct mm_master **pmm, struct mm_master **pmmalloc)
301 struct mm_master *mm;
302 struct mm_master *mmalloc;
303 struct mm_master *mmold;
304 struct mmtree rb_free, rb_allocated;
306 debug3("%s: Share sync", __func__);
310 mm_memvalid(mmold, mm, sizeof(*mm));
312 mmalloc = mm_create(NULL, mm->size);
313 mm = mm_xmalloc(mmalloc, sizeof(struct mm_master));
314 memcpy(mm, *pmm, sizeof(struct mm_master));
315 mm->mmalloc = mmalloc;
317 rb_free = mm->rb_free;
318 rb_allocated = mm->rb_allocated;
320 RB_INIT(&mm->rb_free);
321 RB_INIT(&mm->rb_allocated);
323 mm_sync_list(&rb_free, &mm->rb_free, mm, mmold);
324 mm_sync_list(&rb_allocated, &mm->rb_allocated, mm, mmold);
331 debug3("%s: Share sync end", __func__);
335 mm_memvalid(struct mm_master *mm, void *address, size_t size)
337 void *end = (u_char *)address + size;
339 if (address < mm->address)
340 fatal("mm_memvalid: address too small: %p", address);
342 fatal("mm_memvalid: end < address: %p < %p", end, address);
343 if (end > (void *)((u_char *)mm->address + mm->size))
344 fatal("mm_memvalid: address too large: %p", address);
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