nginx/src/core/ngx_radix_tree.c

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/*
* Copyright (C) Igor Sysoev
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* Copyright (C) Nginx, Inc.
*/
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#include <ngx_config.h>
#include <ngx_core.h>
static ngx_radix_node_t *ngx_radix_alloc(ngx_radix_tree_t *tree);
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ngx_radix_tree_t *
ngx_radix_tree_create(ngx_pool_t *pool, ngx_int_t preallocate)
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{
uint32_t key, mask, inc;
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ngx_radix_tree_t *tree;
tree = ngx_palloc(pool, sizeof(ngx_radix_tree_t));
if (tree == NULL) {
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return NULL;
}
tree->pool = pool;
tree->free = NULL;
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tree->start = NULL;
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tree->size = 0;
tree->root = ngx_radix_alloc(tree);
if (tree->root == NULL) {
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return NULL;
}
tree->root->right = NULL;
tree->root->left = NULL;
tree->root->parent = NULL;
tree->root->value = NGX_RADIX_NO_VALUE;
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if (preallocate == 0) {
return tree;
}
/*
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* Preallocation of first nodes : 0, 1, 00, 01, 10, 11, 000, 001, etc.
* increases TLB hits even if for first lookup iterations.
* On 32-bit platforms the 7 preallocated bits takes continuous 4K,
* 8 - 8K, 9 - 16K, etc. On 64-bit platforms the 6 preallocated bits
* takes continuous 4K, 7 - 8K, 8 - 16K, etc. There is no sense to
* to preallocate more than one page, because further preallocation
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* distributes the only bit per page. Instead, a random insertion
* may distribute several bits per page.
*
* Thus, by default we preallocate maximum
* 6 bits on amd64 (64-bit platform and 4K pages)
* 7 bits on i386 (32-bit platform and 4K pages)
* 7 bits on sparc64 in 64-bit mode (8K pages)
* 8 bits on sparc64 in 32-bit mode (8K pages)
*/
if (preallocate == -1) {
switch (ngx_pagesize / sizeof(ngx_radix_node_t)) {
/* amd64 */
case 128:
preallocate = 6;
break;
/* i386, sparc64 */
case 256:
preallocate = 7;
break;
/* sparc64 in 32-bit mode */
default:
preallocate = 8;
}
}
mask = 0;
inc = 0x80000000;
while (preallocate--) {
key = 0;
mask >>= 1;
mask |= 0x80000000;
do {
if (ngx_radix32tree_insert(tree, key, mask, NGX_RADIX_NO_VALUE)
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!= NGX_OK)
{
return NULL;
}
key += inc;
} while (key);
inc >>= 1;
}
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return tree;
}
ngx_int_t
ngx_radix32tree_insert(ngx_radix_tree_t *tree, uint32_t key, uint32_t mask,
uintptr_t value)
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{
uint32_t bit;
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ngx_radix_node_t *node, *next;
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bit = 0x80000000;
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node = tree->root;
next = tree->root;
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while (bit & mask) {
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if (key & bit) {
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next = node->right;
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} else {
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next = node->left;
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}
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if (next == NULL) {
break;
}
bit >>= 1;
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node = next;
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}
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if (next) {
if (node->value != NGX_RADIX_NO_VALUE) {
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return NGX_BUSY;
}
node->value = value;
return NGX_OK;
}
while (bit & mask) {
next = ngx_radix_alloc(tree);
if (next == NULL) {
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return NGX_ERROR;
}
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next->right = NULL;
next->left = NULL;
next->parent = node;
next->value = NGX_RADIX_NO_VALUE;
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if (key & bit) {
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node->right = next;
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} else {
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node->left = next;
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}
bit >>= 1;
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node = next;
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}
node->value = value;
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return NGX_OK;
}
ngx_int_t
ngx_radix32tree_delete(ngx_radix_tree_t *tree, uint32_t key, uint32_t mask)
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{
uint32_t bit;
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ngx_radix_node_t *node;
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bit = 0x80000000;
node = tree->root;
while (node && (bit & mask)) {
if (key & bit) {
node = node->right;
} else {
node = node->left;
}
bit >>= 1;
}
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if (node == NULL) {
return NGX_ERROR;
}
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if (node->right || node->left) {
if (node->value != NGX_RADIX_NO_VALUE) {
node->value = NGX_RADIX_NO_VALUE;
return NGX_OK;
}
return NGX_ERROR;
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}
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for ( ;; ) {
if (node->parent->right == node) {
node->parent->right = NULL;
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} else {
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node->parent->left = NULL;
}
node->right = tree->free;
tree->free = node;
node = node->parent;
if (node->right || node->left) {
break;
}
if (node->value != NGX_RADIX_NO_VALUE) {
break;
}
if (node->parent == NULL) {
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break;
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}
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}
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return NGX_OK;
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}
uintptr_t
ngx_radix32tree_find(ngx_radix_tree_t *tree, uint32_t key)
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{
uint32_t bit;
uintptr_t value;
ngx_radix_node_t *node;
bit = 0x80000000;
value = NGX_RADIX_NO_VALUE;
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node = tree->root;
while (node) {
if (node->value != NGX_RADIX_NO_VALUE) {
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value = node->value;
}
if (key & bit) {
node = node->right;
} else {
node = node->left;
}
bit >>= 1;
}
return value;
}
#if (NGX_HAVE_INET6)
ngx_int_t
ngx_radix128tree_insert(ngx_radix_tree_t *tree, u_char *key, u_char *mask,
uintptr_t value)
{
u_char bit;
ngx_uint_t i;
ngx_radix_node_t *node, *next;
i = 0;
bit = 0x80;
node = tree->root;
next = tree->root;
while (bit & mask[i]) {
if (key[i] & bit) {
next = node->right;
} else {
next = node->left;
}
if (next == NULL) {
break;
}
bit >>= 1;
node = next;
if (bit == 0) {
if (++i == 16) {
break;
}
bit = 0x80;
}
}
if (next) {
if (node->value != NGX_RADIX_NO_VALUE) {
return NGX_BUSY;
}
node->value = value;
return NGX_OK;
}
while (bit & mask[i]) {
next = ngx_radix_alloc(tree);
if (next == NULL) {
return NGX_ERROR;
}
next->right = NULL;
next->left = NULL;
next->parent = node;
next->value = NGX_RADIX_NO_VALUE;
if (key[i] & bit) {
node->right = next;
} else {
node->left = next;
}
bit >>= 1;
node = next;
if (bit == 0) {
if (++i == 16) {
break;
}
bit = 0x80;
}
}
node->value = value;
return NGX_OK;
}
ngx_int_t
ngx_radix128tree_delete(ngx_radix_tree_t *tree, u_char *key, u_char *mask)
{
u_char bit;
ngx_uint_t i;
ngx_radix_node_t *node;
i = 0;
bit = 0x80;
node = tree->root;
while (node && (bit & mask[i])) {
if (key[i] & bit) {
node = node->right;
} else {
node = node->left;
}
bit >>= 1;
if (bit == 0) {
if (++i == 16) {
break;
}
bit = 0x80;
}
}
if (node == NULL) {
return NGX_ERROR;
}
if (node->right || node->left) {
if (node->value != NGX_RADIX_NO_VALUE) {
node->value = NGX_RADIX_NO_VALUE;
return NGX_OK;
}
return NGX_ERROR;
}
for ( ;; ) {
if (node->parent->right == node) {
node->parent->right = NULL;
} else {
node->parent->left = NULL;
}
node->right = tree->free;
tree->free = node;
node = node->parent;
if (node->right || node->left) {
break;
}
if (node->value != NGX_RADIX_NO_VALUE) {
break;
}
if (node->parent == NULL) {
break;
}
}
return NGX_OK;
}
uintptr_t
ngx_radix128tree_find(ngx_radix_tree_t *tree, u_char *key)
{
u_char bit;
uintptr_t value;
ngx_uint_t i;
ngx_radix_node_t *node;
i = 0;
bit = 0x80;
value = NGX_RADIX_NO_VALUE;
node = tree->root;
while (node) {
if (node->value != NGX_RADIX_NO_VALUE) {
value = node->value;
}
if (key[i] & bit) {
node = node->right;
} else {
node = node->left;
}
bit >>= 1;
if (bit == 0) {
i++;
bit = 0x80;
}
}
return value;
}
#endif
static ngx_radix_node_t *
ngx_radix_alloc(ngx_radix_tree_t *tree)
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{
ngx_radix_node_t *p;
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if (tree->free) {
p = tree->free;
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tree->free = tree->free->right;
return p;
}
if (tree->size < sizeof(ngx_radix_node_t)) {
tree->start = ngx_pmemalign(tree->pool, ngx_pagesize, ngx_pagesize);
if (tree->start == NULL) {
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return NULL;
}
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tree->size = ngx_pagesize;
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}
p = (ngx_radix_node_t *) tree->start;
tree->start += sizeof(ngx_radix_node_t);
tree->size -= sizeof(ngx_radix_node_t);
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return p;
}