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1/*
2 * Copyright (c) 2000 Apple Computer, Inc. All rights reserved.
3 *
4 * @APPLE_LICENSE_HEADER_START@
5 *
43866e37 6 * Copyright (c) 1999-2003 Apple Computer, Inc. All Rights Reserved.
1c79356b 7 *
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8 * This file contains Original Code and/or Modifications of Original Code
9 * as defined in and that are subject to the Apple Public Source License
10 * Version 2.0 (the 'License'). You may not use this file except in
11 * compliance with the License. Please obtain a copy of the License at
12 * http://www.opensource.apple.com/apsl/ and read it before using this
13 * file.
14 *
15 * The Original Code and all software distributed under the License are
16 * distributed on an 'AS IS' basis, WITHOUT WARRANTY OF ANY KIND, EITHER
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17 * EXPRESS OR IMPLIED, AND APPLE HEREBY DISCLAIMS ALL SUCH WARRANTIES,
18 * INCLUDING WITHOUT LIMITATION, ANY WARRANTIES OF MERCHANTABILITY,
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19 * FITNESS FOR A PARTICULAR PURPOSE, QUIET ENJOYMENT OR NON-INFRINGEMENT.
20 * Please see the License for the specific language governing rights and
21 * limitations under the License.
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22 *
23 * @APPLE_LICENSE_HEADER_END@
24 */
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25#include <string.h>
26
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27#include <kern/queue.h>
28#include <kern/kalloc.h>
29#include <kern/lock.h>
30#include <kern/assert.h>
31#include <vm/vm_kern.h>
de355530 32
55e303ae 33#include "libsa/malloc.h"
1c79356b 34
55e303ae 35extern void panic(const char *string, ...);
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36
37/*********************************************************************
38* Structure for a client memory block. Contains linked-list pointers,
39* a size field giving the TOTAL size of the block, including this
40* header, and the address of the client's block. The client block
41* field is guaranteed to lie on a 16-byte boundary.
42*********************************************************************/
43typedef struct malloc_block {
1c79356b 44
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45 struct malloc_block *malFwd;
46 struct malloc_block *malBwd;
47 unsigned int malSize;
48 unsigned int malActl;
49} malloc_block;
de355530 50
55e303ae 51static malloc_block malAnchor = {&malAnchor, &malAnchor, 0, 0};
de355530 52
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53static int malInited = 0;
54static mutex_t *malloc_lock;
de355530 55
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56__private_extern__
57void * malloc(size_t size) {
de355530 58
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59 unsigned int nsize;
60 unsigned int nmem, rmem;
61 malloc_block *amem;
62
63 assert(malInited);
64
65 nsize = size + sizeof(malloc_block) + 15; /* Make sure we get enough to fit */
66
67 nmem = (unsigned int)kalloc(nsize); /* Get some */
68 if(!nmem) { /* Got any? */
69 panic("malloc: no memory for a %08X sized request\n", nsize);
70 }
71
72 rmem = (nmem + 15) & -16; /* Round to 16 byte boundary */
73 amem = (malloc_block *)rmem; /* Point to the block */
74 amem->malActl = (unsigned int)nmem; /* Set the actual address */
75 amem->malSize = nsize; /* Size */
76
77 mutex_lock(malloc_lock);
78
79 amem->malFwd = malAnchor.malFwd; /* Move anchor to our forward */
80 amem->malBwd = &malAnchor; /* We point back to anchor */
81 malAnchor.malFwd->malBwd = amem; /* The old forward's back points to us */
82 malAnchor.malFwd = amem; /* Now we point the anchor to us */
83
84 mutex_unlock(malloc_lock); /* Unlock now */
85
86 return (void *)(rmem + 16); /* Return the block */
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87
88} /* malloc() */
89
90
91/*********************************************************************
92* free()
93*
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94*********************************************************************/
95__private_extern__
96void free(void * address) {
1c79356b 97
1c79356b 98
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99 malloc_block *amem, *fore, *aft;
100
101 if(!(unsigned int)address) return; /* Leave if they try to free nothing */
102
103
104 amem = (malloc_block *)((unsigned int)address - sizeof(malloc_block)); /* Point to the header */
1c79356b 105
55e303ae 106 mutex_lock(malloc_lock);
1c79356b 107
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108 fore = amem->malFwd; /* Get the guy in front */
109 aft = amem->malBwd; /* And the guy behind */
110 fore->malBwd = aft; /* The next guy's previous is now my previous */
111 aft->malFwd = fore; /* The previous guy's forward is now mine */
de355530 112
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113 mutex_unlock(malloc_lock); /* Unlock now */
114
115 kfree(amem->malActl, amem->malSize); /* Toss it */
de355530 116
55e303ae 117 return;
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118
119} /* free() */
d7e50217 120
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121/*********************************************************************
122* malloc_reset()
123*
124* Allocate the mutual exclusion lock that protect malloc's data.
125*********************************************************************/
126__private_extern__ void
127malloc_init(void)
128{
129 malloc_lock = mutex_alloc(ETAP_IO_AHA);
130 malInited = 1;
131}
132
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133
134/*********************************************************************
135* malloc_reset()
136*
137* Walks through the list of VM-allocated regions, destroying them
138* all. Any subsequent access by clients to allocated data will cause
139* a segmentation fault.
140*********************************************************************/
141__private_extern__
142void malloc_reset(void) {
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143
144 malloc_block *amem, *bmem;
145
146 mutex_lock(malloc_lock);
147
148 amem = malAnchor.malFwd; /* Get the first one */
149
150 while(amem != &malAnchor) { /* Go until we hit the anchor */
151
152 bmem = amem->malFwd; /* Next one */
153 kfree(amem->malActl, amem->malSize); /* Toss it */
154 amem = bmem; /* Skip to it */
155
156 }
157
158 malAnchor.malFwd = (struct malloc_block *) 0x666; /* Cause a fault if we try again */
159 malAnchor.malBwd = (struct malloc_block *) 0x666; /* Cause a fault if we try again */
160
161 mutex_unlock(malloc_lock); /* Unlock now */
162
163 mutex_free(malloc_lock);
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164 return;
165
166} /* malloc_reset() */
167
168
169/*********************************************************************
170* realloc()
171*
172* This function simply allocates a new block and copies the existing
173* data into it. Nothing too clever here, as cleanup and efficient
174* memory usage are not important in this allocator package.
175*********************************************************************/
176__private_extern__
177void * realloc(void * address, size_t new_client_size) {
1c79356b 178 void * new_address;
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179 malloc_block *amem;
180
181 amem = (malloc_block *)((unsigned int)address - sizeof(malloc_block)); /* Point to allocation block */
182
183 new_address = malloc(new_client_size); /* get a new one */
184 if(!new_address) { /* Did we get it? */
185 panic("realloc: can not reallocate one of %08X size\n", new_client_size);
186 }
187
188 memcpy(new_address, address, amem->malSize - sizeof(malloc_block)); /* Copy the old in */
189
190 free(address); /* Toss the old one */
191
192 return new_address;
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193
194} /* realloc() */
195
196