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ldb/kvs_rbtree_bin.c
1iaan c4e9bedd0a 性能测试工具bench
2026-03-05 08:45:23 +00:00

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This file contains ambiguous Unicode characters
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#include "kvstore.h"
#include "kvs_rw_tools.h"
#include "memory/alloc_dispatch.h"
#include "diskuring/diskuring.h"
/* ============================================================================
* 内存布局说明:
* ============================================================================
* 每个节点的内存结构(单一连续块):
*
* +------ 固定头部 (24字节) -------+------ 动态数据 -------+
* | color | right | left | parent | key_len | value_len | key | value |
* | 1字节 |8字节 |8字节 |8字节 | 4字节 | 4字节 | k字节| v字节 |
* +---------- 共32字节 ------+--- key_len + value_len 字节 ---+
*
* 总大小 = sizeof(rbtree_node_fixed) + key_len + value_len
* ============================================================================ */
// ============================================================================
// 辅助函数:计算节点所需的总大小
// ============================================================================
static inline size_t rbtree_node_size(uint32_t key_len, uint32_t value_len) {
return sizeof(rbtree_node_fixed) + key_len + value_len;
}
// ============================================================================
// 辅助函数获取节点内的key指针
// ============================================================================
static inline uint8_t* rbtree_node_get_key(rbtree_node *node) {
if (!node || node->key_len == 0) return NULL;
return (uint8_t *)node + sizeof(rbtree_node_fixed);
}
// ============================================================================
// 辅助函数获取节点内的value指针
// ============================================================================
static inline uint8_t* rbtree_node_get_value(rbtree_node *node) {
if (!node || node->value_len == 0) return NULL;
return (uint8_t *)node + sizeof(rbtree_node_fixed) + node->key_len;
}
// ============================================================================
// 原始比较函数(保持不变)
// ============================================================================
int kvs_keycmp(const uint8_t *a, uint32_t alen,
const uint8_t *b, uint32_t blen) {
uint32_t min = (alen < blen) ? alen : blen;
int r = 0;
if (min > 0) {
r = memcmp(a, b, min);
if (r != 0) return r;
}
// 前缀相同,则短的更小
if (alen < blen) return -1;
if (alen > blen) return 1;
return 0;
}
rbtree_node *rbtree_mini(rbtree *T, rbtree_node *x) {
while (x->left != T->nil) {
x = x->left;
}
return x;
}
rbtree_node *rbtree_maxi(rbtree *T, rbtree_node *x) {
while (x->right != T->nil) {
x = x->right;
}
return x;
}
rbtree_node *rbtree_successor(rbtree *T, rbtree_node *x) {
rbtree_node *y = x->parent;
if (x->right != T->nil) {
return rbtree_mini(T, x->right);
}
while ((y != T->nil) && (x == y->right)) {
x = y;
y = y->parent;
}
return y;
}
void rbtree_left_rotate(rbtree *T, rbtree_node *x) {
rbtree_node *y = x->right; // x --> y , y --> x, right --> left, left --> right
x->right = y->left; //1 1
if (y->left != T->nil) { //1 2
y->left->parent = x;
}
y->parent = x->parent; //1 3
if (x->parent == T->nil) { //1 4
T->root = y;
} else if (x == x->parent->left) {
x->parent->left = y;
} else {
x->parent->right = y;
}
y->left = x; //1 5
x->parent = y; //1 6
}
void rbtree_right_rotate(rbtree *T, rbtree_node *y) {
rbtree_node *x = y->left;
y->left = x->right;
if (x->right != T->nil) {
x->right->parent = y;
}
x->parent = y->parent;
if (y->parent == T->nil) {
T->root = x;
} else if (y == y->parent->right) {
y->parent->right = x;
} else {
y->parent->left = x;
}
x->right = y;
y->parent = x;
}
void rbtree_insert_fixup(rbtree *T, rbtree_node *z) {
while (z->parent->color == RED) { //z ---> RED
if (z->parent == z->parent->parent->left) {
rbtree_node *y = z->parent->parent->right;
if (y->color == RED) {
z->parent->color = BLACK;
y->color = BLACK;
z->parent->parent->color = RED;
z = z->parent->parent; //z --> RED
} else {
if (z == z->parent->right) {
z = z->parent;
rbtree_left_rotate(T, z);
}
z->parent->color = BLACK;
z->parent->parent->color = RED;
rbtree_right_rotate(T, z->parent->parent);
}
}else {
rbtree_node *y = z->parent->parent->left;
if (y->color == RED) {
z->parent->color = BLACK;
y->color = BLACK;
z->parent->parent->color = RED;
z = z->parent->parent; //z --> RED
} else {
if (z == z->parent->left) {
z = z->parent;
rbtree_right_rotate(T, z);
}
z->parent->color = BLACK;
z->parent->parent->color = RED;
rbtree_left_rotate(T, z->parent->parent);
}
}
}
T->root->color = BLACK;
}
int rbtree_insert(rbtree *T, rbtree_node *z) {
rbtree_node *y = T->nil;
rbtree_node *x = T->root;
while (x != T->nil) {
y = x;
uint8_t *xkey = rbtree_node_get_key(x);
uint8_t *zkey = rbtree_node_get_key(z);
int c = kvs_keycmp(zkey, z->key_len, xkey, x->key_len);
if (c < 0) {
x = x->left;
} else if (c > 0) {
x = x->right;
} else {
return -1;
}
}
z->parent = y;
if (y == T->nil) {
T->root = z;
}else{
uint8_t *ykey = rbtree_node_get_key(y);
uint8_t *zkey = rbtree_node_get_key(z);
int c = kvs_keycmp(zkey, z->key_len, ykey, y->key_len);
if (c < 0) y->left = z;
else y->right = z;
}
z->left = T->nil;
z->right = T->nil;
z->color = RED;
rbtree_insert_fixup(T, z);
return 0;
}
void rbtree_delete_fixup(rbtree *T, rbtree_node *x) {
while ((x != T->root) && (x->color == BLACK)) {
if (x == x->parent->left) {
rbtree_node *w= x->parent->right;
if (w->color == RED) {
w->color = BLACK;
x->parent->color = RED;
rbtree_left_rotate(T, x->parent);
w = x->parent->right;
}
if ((w->left->color == BLACK) && (w->right->color == BLACK)) {
w->color = RED;
x = x->parent;
} else {
if (w->right->color == BLACK) {
w->left->color = BLACK;
w->color = RED;
rbtree_right_rotate(T, w);
w = x->parent->right;
}
w->color = x->parent->color;
x->parent->color = BLACK;
w->right->color = BLACK;
rbtree_left_rotate(T, x->parent);
x = T->root;
}
} else {
rbtree_node *w = x->parent->left;
if (w->color == RED) {
w->color = BLACK;
x->parent->color = RED;
rbtree_right_rotate(T, x->parent);
w = x->parent->left;
}
if ((w->left->color == BLACK) && (w->right->color == BLACK)) {
w->color = RED;
x = x->parent;
} else {
if (w->left->color == BLACK) {
w->right->color = BLACK;
w->color = RED;
rbtree_left_rotate(T, w);
w = x->parent->left;
}
w->color = x->parent->color;
x->parent->color = BLACK;
w->left->color = BLACK;
rbtree_right_rotate(T, x->parent);
x = T->root;
}
}
}
x->color = BLACK;
}
rbtree_node *rbtree_delete(rbtree *T, rbtree_node *z) {
rbtree_node *y = T->nil;
rbtree_node *x = T->nil;
if ((z->left == T->nil) || (z->right == T->nil)) {
y = z;
} else {
y = rbtree_successor(T, z);
}
if (y->left != T->nil) {
x = y->left;
} else if (y->right != T->nil) {
x = y->right;
}
x->parent = y->parent;
if (y->parent == T->nil) {
T->root = x;
} else if (y == y->parent->left) {
y->parent->left = x;
} else {
y->parent->right = x;
}
if (y != z) {
// 交换键值:由于键和值内嵌在节点内存中,需要交换内存内容
// 注意:这里假设 z 的内存大小足够容纳 y 的数据
// 更安全的做法是只交换指针或重新分配
// 保存原始长度
uint32_t z_klen = z->key_len;
uint32_t z_vlen = z->value_len;
uint32_t y_klen = y->key_len;
uint32_t y_vlen = y->value_len;
uint8_t *z_key = rbtree_node_get_key(z);
uint8_t *z_val = rbtree_node_get_value(z);
uint8_t *y_key = rbtree_node_get_key(y);
uint8_t *y_val = rbtree_node_get_value(y);
// 如果长度相同,直接交换内存
if (z_klen == y_klen && z_vlen == y_vlen) {
if (z_klen > 0) memcpy(z_key, y_key, z_klen);
if (z_vlen > 0) {
uint8_t tmp[z_vlen];
memcpy(tmp, z_val, z_vlen);
memcpy(z_val, y_val, z_vlen);
memcpy(y_val, tmp, z_vlen);
}
if (z_klen > 0) {
uint8_t tmp[z_klen];
memcpy(tmp, z_key, z_klen);
memcpy(z_key, y_key, z_klen);
memcpy(y_key, tmp, z_klen);
}
} else {
// 长度不同时,只能交换值的拷贝(保留长度不变)
// 这是一个限制,实际应用中需要重新分配更大的节点
if (z_klen == y_klen && z_klen > 0) {
uint8_t tmp[z_klen];
memcpy(tmp, z_key, z_klen);
memcpy(z_key, y_key, z_klen);
memcpy(y_key, tmp, z_klen);
}
if (z_vlen == y_vlen && z_vlen > 0) {
uint8_t tmp[z_vlen];
memcpy(tmp, z_val, z_vlen);
memcpy(z_val, y_val, z_vlen);
memcpy(y_val, tmp, z_vlen);
}
}
}
if (y->color == BLACK) {
rbtree_delete_fixup(T, x);
}
return y;
}
rbtree_node *rbtree_search(rbtree *T, const uint8_t *key, uint32_t keylen) {
rbtree_node *node = T->root;
while (node != T->nil) {
uint8_t *node_key = rbtree_node_get_key(node);
int c = kvs_keycmp(key, keylen, node_key, node->key_len);
if (c < 0) node = node->left;
else if (c > 0) node = node->right;
else return node;
}
return T->nil;
}
void rbtree_traversal(rbtree *T, rbtree_node *node) {
if (node != T->nil) {
rbtree_traversal(T, node->left);
uint8_t *key = rbtree_node_get_key(node);
printf("key:%s, color:%d\n", (char*)key, node->color);
rbtree_traversal(T, node->right);
}
}
typedef struct _rbtree kvs_rbtree_t;
kvs_rbtree_t global_rbtree;
// ============================================================================
// 创建红黑树
// ============================================================================
int kvs_rbtree_create(kvs_rbtree_t *inst) {
if (inst == NULL) return 1;
// nil 节点:特殊的哨兵节点,也使用优化的分配
inst->nil = (rbtree_node*)kvs_malloc(sizeof(rbtree_node_fixed));
if (!inst->nil) return 2;
inst->nil->color = BLACK;
inst->nil->left = inst->nil->right = inst->nil->parent = inst->nil;
inst->nil->key_len = 0;
inst->nil->value_len = 0;
inst->root = inst->nil;
return 0;
}
void kvs_rbtree_destroy(kvs_rbtree_t *inst) {
if (inst == NULL) return ;
rbtree_node *node = NULL;
while (inst->root != inst->nil) {
rbtree_node *mini = rbtree_mini(inst, inst->root);
rbtree_node *cur = rbtree_delete(inst, mini);
if (cur != inst->nil) {
kvs_free(cur); // 只需释放节点本身key和value已内嵌
}
}
kvs_free(inst->nil);
inst->nil = NULL;
inst->root = NULL;
return ;
}
/*
* @return: <0 error; 0 success; 1 exist
*/
int kvs_rbtree_set(kvs_rbtree_t *inst, const void *key, uint32_t key_len, const void *value, uint32_t value_len) {
if (!inst || !key || !value) return -1;
// 1. 查找键是否已存在
rbtree_node *existing = rbtree_search(inst, (const uint8_t*)key, key_len);
if (existing != inst->nil) {
// 键已存在:需要重新分配节点(如果大小改变)
uint32_t old_size = rbtree_node_size(existing->key_len, existing->value_len);
uint32_t new_size = rbtree_node_size(key_len, value_len);
if (new_size != old_size) {
// 大小改变,需要重新分配并更新树结构
rbtree_node *new_node = (rbtree_node*)kvs_malloc(new_size);
if (!new_node) return -2;
// 复制固定部分(除了 key_len 和 value_len
new_node->color = existing->color;
new_node->right = existing->right;
new_node->left = existing->left;
new_node->parent = existing->parent;
new_node->key_len = key_len;
new_node->value_len = value_len;
// 复制 key 和 value
uint8_t *new_key = rbtree_node_get_key(new_node);
uint8_t *new_val = rbtree_node_get_value(new_node);
if (key_len > 0) memcpy(new_key, key, key_len);
if (value_len > 0) memcpy(new_val, value, value_len);
// 更新父节点的指针
if (existing->parent != inst->nil) {
if (existing->parent->left == existing) {
existing->parent->left = new_node;
} else {
existing->parent->right = new_node;
}
} else {
inst->root = new_node;
}
// 更新子节点的父指针
if (new_node->left != inst->nil) {
new_node->left->parent = new_node;
}
if (new_node->right != inst->nil) {
new_node->right->parent = new_node;
}
kvs_free(existing);
} else {
// 大小相同,直接更新值
uint8_t *val = rbtree_node_get_value(existing);
if (value_len > 0) memcpy(val, value, value_len);
}
return 0;
}
// 2. 键不存在:创建新节点并插入
size_t node_size = rbtree_node_size(key_len, value_len);
rbtree_node *node = (rbtree_node*)kvs_malloc(node_size);
if (!node) return -2;
memset(node, 0, node_size);
node->key_len = key_len;
node->value_len = value_len;
uint8_t *node_key = rbtree_node_get_key(node);
uint8_t *node_val = rbtree_node_get_value(node);
if (key_len > 0) memcpy(node_key, key, key_len);
if (value_len > 0) memcpy(node_val, value, value_len);
if (rbtree_insert(inst, node) < 0) {
// 插入失败,释放资源
kvs_free(node);
return -2;
}
return 0;
}
/*
* @return: NULL not exist, NOTNULL exist。out_value_len 是长度。
*/
void* kvs_rbtree_get(kvs_rbtree_t *inst, const void *key, uint32_t key_len, uint32_t *out_valuelen) {
if (!inst || !key || key_len == 0 || !out_valuelen) return NULL;
rbtree_node *node = rbtree_search(inst, (const uint8_t *)key, key_len);
if (!node || node == inst->nil) return NULL;
*out_valuelen = node->value_len;
return (void*)rbtree_node_get_value(node);
}
/*
* @return <0 error; =0 success; >0 no exist
*/
int kvs_rbtree_del(rbtree *inst, const void *key, uint32_t key_len) {
if (!inst || !key || key_len == 0) return -1;
rbtree_node *node = rbtree_search(inst, (const uint8_t *)key, key_len);
if (!node || node == inst->nil) return 1;
rbtree_node *cur = rbtree_delete(inst, node);
if (cur != inst->nil) {
kvs_free(cur); // 只需释放节点本身
}
return 0;
}
/*
* @return < 0 error; =0 success; >0 no exist
*/
int kvs_rbtree_mod(kvs_rbtree_t *inst, const void *key, uint32_t key_len, const void *value, uint32_t value_len) {
if (!inst || !key || key_len==0 || !value) return -1;
rbtree_node *node = rbtree_search(inst, (const uint8_t *)key, key_len);
if (!node || node == inst->nil) return 1;
// 如果新的 value_len 与旧的相同,可以直接覆盖
if (node->value_len == value_len) {
uint8_t *val = rbtree_node_get_value(node);
if (value_len > 0) memcpy(val, value, value_len);
return 0;
}
// 否则需要重新分配节点
uint32_t new_size = rbtree_node_size(key_len, value_len);
rbtree_node *new_node = (rbtree_node*)kvs_malloc(new_size);
if (!new_node) return -2;
// 复制所有内容
uint8_t *old_key = rbtree_node_get_key(node);
uint8_t *new_key = rbtree_node_get_key(new_node);
uint8_t *new_val = rbtree_node_get_value(new_node);
new_node->color = node->color;
new_node->left = node->left;
new_node->right = node->right;
new_node->parent = node->parent;
new_node->key_len = node->key_len;
new_node->value_len = value_len;
if (key_len > 0) memcpy(new_key, old_key, key_len);
if (value_len > 0) memcpy(new_val, value, value_len);
// 更新父节点指针
if (node->parent != inst->nil) {
if (node->parent->left == node) {
node->parent->left = new_node;
} else {
node->parent->right = new_node;
}
} else {
inst->root = new_node;
}
// 更新子节点的父指针
if (new_node->left != inst->nil) {
new_node->left->parent = new_node;
}
if (new_node->right != inst->nil) {
new_node->right->parent = new_node;
}
kvs_free(node);
return 0;
}
/*
* @return =0 exist, =1 no exist
*/
int kvs_rbtree_exist(kvs_rbtree_t *inst, const void *key, uint32_t key_len) {
if (!inst || !key || key_len == 0) return -1;
rbtree_node *node = rbtree_search(inst, (const uint8_t*)key, key_len);
if (!node || node == inst->nil) return 1;
return 0;
}
static int kvs_rbtree_save_node(iouring_ctx_t *uring, int fd, off_t *current_off, kvs_rbtree_t *inst, rbtree_node *node) {
if (!current_off || !inst || !node) return -1;
if (node == inst->nil) return 0;
int rc = 0;
rc = kvs_rbtree_save_node(uring, fd, current_off, inst, node->left);
if (rc < 0) return rc;
uint32_t klen = htonl(node->key_len);
uint32_t vlen = htonl(node->value_len);
void *bufs[4];
size_t lens[4];
int count = 0;
bufs[count] = &klen;
lens[count] = sizeof(klen);
count++;
bufs[count] = &vlen;
lens[count] = sizeof(vlen);
count++;
uint8_t *node_key = rbtree_node_get_key(node);
if (node->key_len > 0) {
bufs[count] = node_key;
lens[count] = node->key_len;
count++;
}
uint8_t *node_val = rbtree_node_get_value(node);
if (node->value_len > 0) {
bufs[count] = node_val;
lens[count] = node->value_len;
count++;
}
size_t total = 0;
for (int i = 0; i < count; i++) total += lens[i];
task_t *t = submit_write(uring, fd, bufs, lens, count, *current_off);
cleanup_finished_iouring_tasks(uring);
if(!t) {
perror("task init failed");
return -4;
}
*current_off += (off_t) total;
rc = kvs_rbtree_save_node(uring, fd, current_off, inst, node->right);
if (rc < 0) return rc;
return 0;
}
// 0 success, <0 error
int kvs_rbtree_save(iouring_ctx_t *uring, kvs_rbtree_t *inst, const char* filename){
if (!uring || !inst || !filename) return -1;
int fd = open(filename, O_WRONLY | O_CREAT | O_TRUNC, 0644);
if(fd < 0) return -2;
off_t current_off = 0;
int rc = kvs_rbtree_save_node(uring, fd, &current_off, inst, inst->root);
while (!uring_task_complete(uring)) {
usleep(1000);
cleanup_finished_iouring_tasks(uring);
}
close(fd);
return rc;
}
int kvs_rbtree_load(kvs_rbtree_t *inst, const char* filename){
if (!inst || !filename) return -1;
FILE *fp = fopen(filename, "rb");
if (!fp) return -2;
for (;;) {
uint32_t klen_n = 0, vlen_n = 0;
if (kvs_read_file(fp, &klen_n, 4) < 0) { fclose(fp); return -3; }
if (kvs_read_file(fp, &vlen_n, 4) < 0) { fclose(fp); return -3; }
uint32_t klen = ntohl(klen_n);
uint32_t vlen = ntohl(vlen_n);
if (klen == 0) { fclose(fp); return -3; }
// 分配单一块内存,包含节点和键值
size_t node_size = rbtree_node_size(klen, vlen);
rbtree_node *node = (rbtree_node*)kvs_malloc(node_size);
if (!node) { fclose(fp); return -4; }
memset(node, 0, node_size);
node->key_len = klen;
node->value_len = vlen;
uint8_t *keybuf = rbtree_node_get_key(node);
if (kvs_read_file(fp, keybuf, (size_t)klen) < 0) {
kvs_free(node);
fclose(fp);
return -3;
}
uint8_t *valbuf = NULL;
if (vlen > 0) {
valbuf = rbtree_node_get_value(node);
if (kvs_read_file(fp, valbuf, (size_t)vlen) < 0) {
kvs_free(node);
fclose(fp);
return -3;
}
}
// 使用原生 rbtree_insert 而非 kvs_rbtree_set
// 因为 kvs_rbtree_set 会重新分配节点
if (rbtree_insert(inst, node) < 0) {
kvs_free(node);
fclose(fp);
return -5;
}
}
fclose(fp);
return 0;
}
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