generic-radix-tree.c 4.9 KB

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  1. #include <linux/atomic.h>
  2. #include <linux/export.h>
  3. #include <linux/generic-radix-tree.h>
  4. #include <linux/gfp.h>
  5. #include <linux/kmemleak.h>
  6. /*
  7. * Returns pointer to the specified byte @offset within @radix, or NULL if not
  8. * allocated
  9. */
  10. void *__genradix_ptr(struct __genradix *radix, size_t offset)
  11. {
  12. return __genradix_ptr_inlined(radix, offset);
  13. }
  14. EXPORT_SYMBOL(__genradix_ptr);
  15. /*
  16. * Returns pointer to the specified byte @offset within @radix, allocating it if
  17. * necessary - newly allocated slots are always zeroed out:
  18. */
  19. void *__genradix_ptr_alloc(struct __genradix *radix, size_t offset,
  20. struct genradix_node **preallocated,
  21. gfp_t gfp_mask)
  22. {
  23. struct genradix_root *v = READ_ONCE(radix->root);
  24. struct genradix_node *n, *new_node = NULL;
  25. unsigned level;
  26. if (preallocated)
  27. swap(new_node, *preallocated);
  28. /* Increase tree depth if necessary: */
  29. while (1) {
  30. struct genradix_root *r = v, *new_root;
  31. n = genradix_root_to_node(r);
  32. level = genradix_root_to_depth(r);
  33. if (n && ilog2(offset) < genradix_depth_shift(level))
  34. break;
  35. if (!new_node) {
  36. new_node = genradix_alloc_node(gfp_mask);
  37. if (!new_node)
  38. return NULL;
  39. }
  40. new_node->children[0] = n;
  41. new_root = ((struct genradix_root *)
  42. ((unsigned long) new_node | (n ? level + 1 : 0)));
  43. if ((v = cmpxchg_release(&radix->root, r, new_root)) == r) {
  44. v = new_root;
  45. new_node = NULL;
  46. } else {
  47. new_node->children[0] = NULL;
  48. }
  49. }
  50. while (level--) {
  51. struct genradix_node **p =
  52. &n->children[offset >> genradix_depth_shift(level)];
  53. offset &= genradix_depth_size(level) - 1;
  54. n = READ_ONCE(*p);
  55. if (!n) {
  56. if (!new_node) {
  57. new_node = genradix_alloc_node(gfp_mask);
  58. if (!new_node)
  59. return NULL;
  60. }
  61. if (!(n = cmpxchg_release(p, NULL, new_node)))
  62. swap(n, new_node);
  63. }
  64. }
  65. if (new_node)
  66. genradix_free_node(new_node);
  67. return &n->data[offset];
  68. }
  69. EXPORT_SYMBOL(__genradix_ptr_alloc);
  70. void *__genradix_iter_peek(struct genradix_iter *iter,
  71. struct __genradix *radix,
  72. size_t objs_per_page)
  73. {
  74. struct genradix_root *r;
  75. struct genradix_node *n;
  76. unsigned level, i;
  77. if (iter->offset == SIZE_MAX)
  78. return NULL;
  79. restart:
  80. r = READ_ONCE(radix->root);
  81. if (!r)
  82. return NULL;
  83. n = genradix_root_to_node(r);
  84. level = genradix_root_to_depth(r);
  85. if (ilog2(iter->offset) >= genradix_depth_shift(level))
  86. return NULL;
  87. while (level) {
  88. level--;
  89. i = (iter->offset >> genradix_depth_shift(level)) &
  90. (GENRADIX_ARY - 1);
  91. while (!n->children[i]) {
  92. size_t objs_per_ptr = genradix_depth_size(level);
  93. if (iter->offset + objs_per_ptr < iter->offset) {
  94. iter->offset = SIZE_MAX;
  95. iter->pos = SIZE_MAX;
  96. return NULL;
  97. }
  98. i++;
  99. iter->offset = round_down(iter->offset + objs_per_ptr,
  100. objs_per_ptr);
  101. iter->pos = (iter->offset >> GENRADIX_NODE_SHIFT) *
  102. objs_per_page;
  103. if (i == GENRADIX_ARY)
  104. goto restart;
  105. }
  106. n = n->children[i];
  107. }
  108. return &n->data[iter->offset & (GENRADIX_NODE_SIZE - 1)];
  109. }
  110. EXPORT_SYMBOL(__genradix_iter_peek);
  111. void *__genradix_iter_peek_prev(struct genradix_iter *iter,
  112. struct __genradix *radix,
  113. size_t objs_per_page,
  114. size_t obj_size_plus_page_remainder)
  115. {
  116. struct genradix_root *r;
  117. struct genradix_node *n;
  118. unsigned level, i;
  119. if (iter->offset == SIZE_MAX)
  120. return NULL;
  121. restart:
  122. r = READ_ONCE(radix->root);
  123. if (!r)
  124. return NULL;
  125. n = genradix_root_to_node(r);
  126. level = genradix_root_to_depth(r);
  127. if (ilog2(iter->offset) >= genradix_depth_shift(level)) {
  128. iter->offset = genradix_depth_size(level);
  129. iter->pos = (iter->offset >> GENRADIX_NODE_SHIFT) * objs_per_page;
  130. iter->offset -= obj_size_plus_page_remainder;
  131. iter->pos--;
  132. }
  133. while (level) {
  134. level--;
  135. i = (iter->offset >> genradix_depth_shift(level)) &
  136. (GENRADIX_ARY - 1);
  137. while (!n->children[i]) {
  138. size_t objs_per_ptr = genradix_depth_size(level);
  139. iter->offset = round_down(iter->offset, objs_per_ptr);
  140. iter->pos = (iter->offset >> GENRADIX_NODE_SHIFT) * objs_per_page;
  141. if (!iter->offset)
  142. return NULL;
  143. iter->offset -= obj_size_plus_page_remainder;
  144. iter->pos--;
  145. if (!i)
  146. goto restart;
  147. --i;
  148. }
  149. n = n->children[i];
  150. }
  151. return &n->data[iter->offset & (GENRADIX_NODE_SIZE - 1)];
  152. }
  153. EXPORT_SYMBOL(__genradix_iter_peek_prev);
  154. static void genradix_free_recurse(struct genradix_node *n, unsigned level)
  155. {
  156. if (level) {
  157. unsigned i;
  158. for (i = 0; i < GENRADIX_ARY; i++)
  159. if (n->children[i])
  160. genradix_free_recurse(n->children[i], level - 1);
  161. }
  162. genradix_free_node(n);
  163. }
  164. int __genradix_prealloc(struct __genradix *radix, size_t size,
  165. gfp_t gfp_mask)
  166. {
  167. size_t offset;
  168. for (offset = 0; offset < size; offset += GENRADIX_NODE_SIZE)
  169. if (!__genradix_ptr_alloc(radix, offset, NULL, gfp_mask))
  170. return -ENOMEM;
  171. return 0;
  172. }
  173. EXPORT_SYMBOL(__genradix_prealloc);
  174. void __genradix_free(struct __genradix *radix)
  175. {
  176. struct genradix_root *r = xchg(&radix->root, NULL);
  177. genradix_free_recurse(genradix_root_to_node(r),
  178. genradix_root_to_depth(r));
  179. }
  180. EXPORT_SYMBOL(__genradix_free);