kern: ebca81749ef5 src/klibc/malloc.c

kern

view src/klibc/malloc.c @ 67:ebca81749ef5

added strcmp

author	John Tsiombikas <nuclear@mutantstargoat.com>
date	Sun, 09 Oct 2011 20:38:35 +0300
parents	bdd9bf70269d
children

line source

1 #include <stdlib.h>

2 #include "intr.h"

3 #include "vm.h"

4 #include "panic.h"

6 #define MAGIC 0xbaadbeef

8 struct mem_range {

9 uint32_t start;

10 size_t size;

11 struct mem_range *next;

12 };

14 struct alloc_desc {

15 size_t size;

16 uint32_t magic;

17 };

19 static void add_range(struct mem_range *rng);

20 static void coalesce(struct mem_range *low, struct mem_range *mid, struct mem_range *high);

21 static struct mem_range *alloc_node(void);

22 static void free_node(struct mem_range *node);

24 struct mem_range *free_list;

25 struct mem_range *node_pool;

28 void *malloc(size_t sz)

29 {

30 void *res = 0;

31 struct mem_range *node, *prev, dummy;

32 int intr_state;

33 struct alloc_desc *desc;

34 size_t alloc_size = sz + sizeof *desc;

36 if(!sz) {

37 return 0;

38 }

40 /* entering the critical section, do not disturb */

41 intr_state = get_intr_state();

42 disable_intr();

44 find_range:

45 prev = &dummy;

46 dummy.next = node = free_list;

47 while(node) {

48 /* find a node in the free_list with enough space ... */

49 if(node->size >= alloc_size) {

50 /* insert the allocation descriptor at the beginning */

51 desc = (void*)node->start;

52 desc->size = alloc_size;

53 desc->magic = MAGIC;

54 res = desc + 1; /* that's what we'll return to the user */

56 /* modify the node to reflect the new range after we

57 * grabbed a part at the beginning...

58 */

59 node->size -= alloc_size;

60 node->start += alloc_size;

62 /* if the range represented by this node now has zero size,

63 * remove and free the node (it goes into the node_pool)

64 */

65 if(!node->size) {

66 prev->next = node->next;

67 if(free_list == node) {

68 free_list = node->next;

69 }

70 free_node(node);

71 }

72 break;

73 }

74 prev = node;

75 node = node->next;

76 }

78 /* we didn't find a range big enough in the free_list. In that case

79 * we need to allocate some pages, add them to the free_list and try

80 * again.

81 */

82 if(!res) {

83 struct mem_range *range;

84 int pg, pgcount = (PGSIZE - 1 + alloc_size) / PGSIZE;

86 if((pg = pgalloc(pgcount, MEM_KERNEL)) == -1) {

87 set_intr_state(intr_state);

88 return 0;

89 }

91 range = alloc_node();

92 range->start = PAGE_TO_ADDR(pg);

93 range->size = pgcount * PGSIZE;

94 add_range(range);

95 goto find_range;

96 }

98 set_intr_state(intr_state);

99 return res;

100 }

101

102 void free(void *ptr)

103 {

104 int intr_state;

105 struct alloc_desc *desc;

106 struct mem_range *rng;

107

108 if(!ptr) return;

109

110 intr_state = get_intr_state();

111 disable_intr();

112

113 desc = (struct alloc_desc*)ptr - 1;

114 if(desc->magic != MAGIC) {

115 panic("free(%x) magic missmatch, invalid address.\n", (unsigned int)ptr);

116 }

117

118 rng = alloc_node();

119 rng->start = (uint32_t)desc;

120 rng->size = desc->size;

121 add_range(rng);

122

123 set_intr_state(intr_state);

124 }

125

126 static void add_range(struct mem_range *rng)

127 {

128 struct mem_range *node, *prev = 0;

129

130 if(!free_list || free_list->start > rng->start) {

131 rng->next = free_list;

132 free_list = rng;

133

134 } else {

135 node = free_list;

136

137 while(node) {

138 if(!node->next || node->next->start > rng->start) {

139 rng->next = node->next;

140 node->next = rng;

141 prev = node; /* needed by coalesce after the loop */

142 break;

143 }

144

145 prev = node;

146 node = node->next;

147 }

148 }

149

150 coalesce(prev, rng, rng->next);

151 }

152

153 static void coalesce(struct mem_range *low, struct mem_range *mid, struct mem_range *high)

154 {

155 if(high) {

156 if(mid->start + mid->size >= high->start) {

157 mid->size = high->size - mid->start;

158 mid->next = high->next;

159 free_node(high);

160 }

161 }

162

163 if(low) {

164 if(low->start + low->size >= mid->start) {

165 low->size = mid->size - low->start;

166 low->next = mid->next;

167 free_node(mid);

168 }

169 }

170 }

171

172 static struct mem_range *alloc_node(void)

173 {

174 struct mem_range *node;

175

176 /* no nodes available for reuse...

177 * grab a page, slice it into nodes, link them up and hang them in the pool

178 */

179 if(!node_pool) {

180 int i, num_nodes, pg;

181 struct mem_range *nodepage;

182

183 pg = pgalloc(1, MEM_KERNEL);

184 if(pg == -1) {

185 panic("failed to allocate page for the malloc node pool\n");

186 return 0; /* unreachable */

187 }

188

189 nodepage = (struct mem_range*)PAGE_TO_ADDR(pg);

190 num_nodes = PGSIZE / sizeof *nodepage;

191

192 for(i=1; i<num_nodes; i++) {

193 nodepage[i - 1].next = nodepage + i;

194 }

195 nodepage[i - 1].next = 0;

196 node_pool = nodepage;

197 }

198

199 node = node_pool;

200 node_pool = node->next;

201 node->next = 0;

202 return node;

203 }

204

205 static void free_node(struct mem_range *node)

206 {

207 node->next = node_pool;

208 node_pool = node;

209 }