#include "bloomfilter.h"
#include <stdio.h>
#define MAX_ITEMS 6000000 // 设置最大元素个数
#define ADD_ITEMS 1000 // 添加测试元素
#define P_ERROR 0.0001 // 设置误差
int main(int argc, char** argv)
{
// 1. 定义BaseBloomFilter
static BaseBloomFilter stBloomFilter = {0};
// 2. 初始化stBloomFilter,调用时传入hash种子,存储容量,以及允许的误判率
InitBloomFilter(&stBloomFilter, 0, MAX_ITEMS, P_ERROR);
// 3. 向BloomFilter中新增数值
char url[128] = {0};
for(int i = 0; i < ADD_ITEMS; i++){
sprintf(url, "https://%d.html", i);
if(0 == BloomFilter_Add(&stBloomFilter, (const void*)url, strlen(url))){
// printf("add %s success", url);
}else{
printf("add %s failed", url);
}
memset(url, 0, sizeof(url));
}
// 4. check url exist or not
char* str = "https://0.html";
if (0 == BloomFilter_Check(&stBloomFilter, (const void*)str, strlen(str)) ){
printf("https://0.html exist\n");
}
char* str2 = "https://10001.html";
if (0 != BloomFilter_Check(&stBloomFilter, (const void*)str2, strlen(str2)) ){
printf("https://10001.html not exist\n");
}
// 5. free bloomfilter
FreeBloomFilter(&stBloomFilter);
getchar();
return 0;
}
```cpp
#ifndef __MICRO_BLOOMFILTER_H__
#define __MICRO_BLOOMFILTER_H__
/**
*
* 仿照Cassandra中的BloomFilter实现,Hash选用MurmurHash2,通过双重散列公式生成散列函数,参考:http://hur.st/bloomfilter
* Hash(key, i) = (H1(key) + i * H2(key)) % m
*
**/
#include <stdio.h>
#include <stdlib.h>
#include <stdint.h>
#include <string.h>
#include <math.h>
#define __BLOOMFILTER_VERSION__ "1.1"
#define __MGAIC_CODE__ (0x01464C42)
/**
* BloomFilter使用例子:
* static BaseBloomFilter stBloomFilter = {0};
*
* 初始化BloomFilter(最大100000元素,不超过0.00001的错误率):
* InitBloomFilter(&stBloomFilter, 0, 100000, 0.00001);
* 重置BloomFilter:
* ResetBloomFilter(&stBloomFilter);
* 释放BloomFilter:
* FreeBloomFilter(&stBloomFilter);
*
* 向BloomFilter中新增一个数值(0-正常,1-加入数值过多):
* uint32_t dwValue;
* iRet = BloomFilter_Add(&stBloomFilter, &dwValue, sizeof(uint32_t));
* 检查数值是否在BloomFilter内(0-存在,1-不存在):
* iRet = BloomFilter_Check(&stBloomFilter, &dwValue, sizeof(uint32_t));
*
* (1.1新增) 将生成好的BloomFilter写入文件:
* iRet = SaveBloomFilterToFile(&stBloomFilter, "dump.bin")
* (1.1新增) 从文件读取生成好的BloomFilter:
* iRet = LoadBloomFilterFromFile(&stBloomFilter, "dump.bin")
**/
// 注意,要让Add/Check函数内联,必须使用 -O2 或以上的优化等级
#define FORCE_INLINE __attribute__((always_inline))
#define BYTE_BITS (8)
#define MIX_UINT64(v) ((uint32_t)((v>>32)^(v)))
#define SETBIT(filter, n) (filter->pstFilter[n/BYTE_BITS] |= (1 << (n%BYTE_BITS)))
#define GETBIT(filter, n) (filter->pstFilter[n/BYTE_BITS] & (1 << (n%BYTE_BITS)))
#pragma pack(1)
// BloomFilter结构定义
typedef struct
{
uint8_t cInitFlag; // 初始化标志,为0时的第一次Add()会对stFilter[]做初始化
uint8_t cResv[3];
uint32_t dwMaxItems; // n - BloomFilter中最大元素个数 (输入量)
double dProbFalse; // p - 假阳概率(误判率) (输入量,比如万分之一:0.00001)
uint32_t dwFilterBits; // m = ; - BloomFilter的比特数
uint32_t dwHashFuncs; // k = round(log(2.0) * m / n); - 哈希函数个数
uint32_t dwSeed; // MurmurHash的种子偏移量
uint32_t dwCount; // Add()的计数,超过MAX_BLOOMFILTER_N则返回失败
uint32_t dwFilterSize; // dwFilterBits / BYTE_BITS
unsigned char *pstFilter; // BloomFilter存储指针,使用malloc分配
uint32_t *pdwHashPos; // 存储上次hash得到的K个bit位置数组(由bloom_hash填充)
} BaseBloomFilter;
// BloomFilter文件头部定义
typedef struct
{
uint32_t dwMagicCode; // 文件头部标识,填充 __MGAIC_CODE__
uint32_t dwSeed;
uint32_t dwCount;
uint32_t dwMaxItems; // n - BloomFilter中最大元素个数 (输入量)
double dProbFalse; // p - 假阳概率 (输入量,比如万分之一:0.00001)
uint32_t dwFilterBits; // m = ceil((n * log(p)) / log(1.0 / (pow(2.0, log(2.0))))); - BloomFilter的比特数
uint32_t dwHashFuncs; // k = round(log(2.0) * m / n); - 哈希函数个数
uint32_t dwResv[6];
uint32_t dwFileCrc; // (未使用)整个文件的校验和
uint32_t dwFilterSize; // 后面Filter的Buffer长度
} BloomFileHead;
#pragma pack()
// 计算BloomFilter的参数m,k
static inline void _CalcBloomFilterParam(uint32_t n, double p, uint32_t *pm, uint32_t *pk)
{
/**
* n - Number of items in the filter
* p - Probability of false positives, float between 0 and 1 or a number indicating 1-in-p
* m - Number of bits in the filter
* k - Number of hash functions
*
* f = ln(2) × ln(1/2) × m / n = (0.6185) ^ (m/n)
* m = -1 * ln(p) × n / 0.6185 , 这里有错误
* k = ln(2) × m / n = 0.6931 * m / n
* darren修正:
* m = -1*n*ln(p)/((ln(2))^2) = -1*n*ln(p)/(ln(2)*ln(2)) = -1*n*ln(p)/(0.69314718055995*0.69314718055995))
* = -1*n*ln(p)/0.4804530139182079271955440025
* k = ln(2)*m/n
**/
uint32_t m, k, m2;
// printf("ln(2):%lf, ln(p):%lf\n", log(2), log(p)); // 用来验证函数正确性
// 计算指定假阳(误差)概率下需要的比特数
m =(uint32_t) ceil(-1.0 * n * log(p) / 0.480453); //darren 修正
m = (m - m % 64) + 64; // 8字节对齐
// m2 =(uint32_t) ceil(-1 * n * log(p) / 0.480453); //错误写法
// 计算哈希函数个数
double double_k = (0.69314 * m / n); // ln(2)*m/n // 这里只是为了debug出来看看具体的浮点数值
k = round(double_k); // 返回x的四舍五入整数值。
printf("orig_k:%lf, k:%u\n", double_k, k);
*pm = m;
*pk = k;
return;
}
// 根据目标精度和数据个数,初始化BloomFilter结构
/**
* @brief 初始化布隆过滤器
* @param pstBloomfilter 布隆过滤器实例
* @param dwSeed hash种子
* @param dwMaxItems 存储容量
* @param dProbFalse 允许的误判率
* @return 返回值
* -1 传入的布隆过滤器为空
* -2 hash种子错误或误差>=1
*/
inline int InitBloomFilter(BaseBloomFilter *pstBloomfilter,
uint32_t dwSeed,
uint32_t dwMaxItems, double dProbFalse)
{
if (pstBloomfilter == NULL)
return -1;
if ((dProbFalse <= 0) || (dProbFalse >= 1))
return -2;
// 先检查是否重复Init,释放内存
if (pstBloomfilter->pstFilter != NULL)
free(pstBloomfilter->pstFilter);
if (pstBloomfilter->pdwHashPos != NULL)
free(pstBloomfilter->pdwHashPos);
memset(pstBloomfilter, 0, sizeof(BaseBloomFilter));
// 初始化内存结构,并计算BloomFilter需要的空间
pstBloomfilter->dwMaxItems = dwMaxItems; // 最大存储
pstBloomfilter->dProbFalse = dProbFalse; // 误差
pstBloomfilter->dwSeed = dwSeed; // hash种子
// 计算 m, k
_CalcBloomFilterParam(pstBloomfilter->dwMaxItems, pstBloomfilter->dProbFalse,
&pstBloomfilter->dwFilterBits, &pstBloomfilter->dwHashFuncs);
// 分配BloomFilter的存储空间
pstBloomfilter->dwFilterSize = pstBloomfilter->dwFilterBits / BYTE_BITS;
pstBloomfilter->pstFilter = (unsigned char *) malloc(pstBloomfilter->dwFilterSize);
if (NULL == pstBloomfilter->pstFilter)
return -100;
// 哈希结果数组,每个哈希函数一个
pstBloomfilter->pdwHashPos = (uint32_t*) malloc(pstBloomfilter->dwHashFuncs * sizeof(uint32_t));
if (NULL == pstBloomfilter->pdwHashPos)
return -200;
printf(">>> Init BloomFilter(n=%u, p=%e, m=%u, k=%d), malloc() size=%.6fMB, items:bits=1:%0.1lf\n",
pstBloomfilter->dwMaxItems, pstBloomfilter->dProbFalse, pstBloomfilter->dwFilterBits,
pstBloomfilter->dwHashFuncs, (double)pstBloomfilter->dwFilterSize/1024/1024,
pstBloomfilter->dwFilterBits*1.0/pstBloomfilter->dwMaxItems);
// 初始化BloomFilter的内存
memset(pstBloomfilter->pstFilter, 0, pstBloomfilter->dwFilterSize);
pstBloomfilter->cInitFlag = 1;
return 0;
}
// 释放BloomFilter
inline int FreeBloomFilter(BaseBloomFilter *pstBloomfilter)
{
if (pstBloomfilter == NULL)
return -1;
pstBloomfilter->cInitFlag = 0;
pstBloomfilter->dwCount = 0;
free(pstBloomfilter->pstFilter);
pstBloomfilter->pstFilter = NULL;
free(pstBloomfilter->pdwHashPos);
pstBloomfilter->pdwHashPos = NULL;
return 0;
}
// 重置BloomFilter
// 注意: Reset()函数不会立即初始化stFilter,而是当一次Add()时去memset
inline int ResetBloomFilter(BaseBloomFilter *pstBloomfilter)
{
if (pstBloomfilter == NULL)
return -1;
pstBloomfilter->cInitFlag = 0;
pstBloomfilter->dwCount = 0;
return 0;
}
// 和ResetBloomFilter不同,调用后立即memset内存
inline int RealResetBloomFilter(BaseBloomFilter *pstBloomfilter)
{
if (pstBloomfilter == NULL)
return -1;
memset(pstBloomfilter->pstFilter, 0, pstBloomfilter->dwFilterSize);
pstBloomfilter->cInitFlag = 1;
pstBloomfilter->dwCount = 0;
return 0;
}
///
/// 函数FORCE_INLINE,加速执行
///
// MurmurHash2, 64-bit versions, by Austin Appleby
// https://sites.google.com/site/murmurhash/
FORCE_INLINE uint64_t MurmurHash2_x64 ( const void * key, int len, uint32_t seed )
{
const uint64_t m = 0xc6a4a7935bd1e995;
const int r = 47;
uint64_t h = seed ^ (len * m);
const uint64_t * data = (const uint64_t *)key;
const uint64_t * end = data + (len/8);
while(data != end)
{
uint64_t k = *data++;
k *= m;
k ^= k >> r;
k *= m;
h ^= k;
h *= m;
}
const uint8_t * data2 = (const uint8_t*)data;
switch(len & 7)
{
case 7: h ^= ((uint64_t)data2[6]) << 48;
case 6: h ^= ((uint64_t)data2[5]) << 40;
case 5: h ^= ((uint64_t)data2[4]) << 32;
case 4: h ^= ((uint64_t)data2[3]) << 24;
case 3: h ^= ((uint64_t)data2[2]) << 16;
case 2: h ^= ((uint64_t)data2[1]) << 8;
case 1: h ^= ((uint64_t)data2[0]);
h *= m;
};
h ^= h >> r;
h *= m;
h ^= h >> r;
return h;
}
// 双重散列封装,k个函数函数, 比如要20个
FORCE_INLINE void bloom_hash(BaseBloomFilter *pstBloomfilter, const void * key, int len)
{
//if (pstBloomfilter == NULL) return;
int i;
uint32_t dwFilterBits = pstBloomfilter->dwFilterBits;
uint64_t hash1 = MurmurHash2_x64(key, len, pstBloomfilter->dwSeed);
uint64_t hash2 = MurmurHash2_x64(key, len, MIX_UINT64(hash1));
for (i = 0; i < (int)pstBloomfilter->dwHashFuncs; i++)
{
pstBloomfilter->pdwHashPos[i] = (hash1 + i*hash2) % dwFilterBits;
}
return;
}
// 向BloomFilter中新增一个元素
// 成功返回0,当添加数据超过限制值时返回1提示用户
FORCE_INLINE int BloomFilter_Add(BaseBloomFilter *pstBloomfilter, const void * key, int len)
{
if ((pstBloomfilter == NULL) || (key == NULL) || (len <= 0))
return -1;
int i;
if (pstBloomfilter->cInitFlag != 1)
{
// Reset后没有初始化,使用前需要memset
memset(pstBloomfilter->pstFilter, 0, pstBloomfilter->dwFilterSize);
pstBloomfilter->cInitFlag = 1;
}
// hash key到bloomfilter中, 为了计算不同hash命中的位置,保存pdwHashPos数组
bloom_hash(pstBloomfilter, key, len);
for (i = 0; i < (int)pstBloomfilter->dwHashFuncs; i++)
{
SETBIT(pstBloomfilter, pstBloomfilter->pdwHashPos[i]);
}
// 增加count数
pstBloomfilter->dwCount++;
if (pstBloomfilter->dwCount <= pstBloomfilter->dwMaxItems)
return 0;
else
return 1; // 超过N最大值,可能出现准确率下降等情况
}
// 检查一个元素是否在bloomfilter中
// 返回:0-存在,1-不存在,负数表示失败
FORCE_INLINE int BloomFilter_Check(BaseBloomFilter *pstBloomfilter, const void * key, int len)
{
if ((pstBloomfilter == NULL) || (key == NULL) || (len <= 0))
return -1;
int i;
bloom_hash(pstBloomfilter, key, len);
for (i = 0; i < (int)pstBloomfilter->dwHashFuncs; i++)
{
// 如果有任意bit不为1,说明key不在bloomfilter中
// 注意: GETBIT()返回不是0|1,高位可能出现128之类的情况
if (GETBIT(pstBloomfilter, pstBloomfilter->pdwHashPos[i]) == 0)
return 1;
}
return 0;
}
/* 文件相关封装 */
// 将生成好的BloomFilter写入文件
inline int SaveBloomFilterToFile(BaseBloomFilter *pstBloomfilter, char *szFileName)
{
if ((pstBloomfilter == NULL) || (szFileName == NULL))
return -1;
int iRet;
FILE *pFile;
static BloomFileHead stFileHeader = {0};
pFile = fopen(szFileName, "wb");
if (pFile == NULL)
{
perror("fopen");
return -11;
}
// 先写入文件头
stFileHeader.dwMagicCode = __MGAIC_CODE__;
stFileHeader.dwSeed = pstBloomfilter->dwSeed;
stFileHeader.dwCount = pstBloomfilter->dwCount;
stFileHeader.dwMaxItems = pstBloomfilter->dwMaxItems;
stFileHeader.dProbFalse = pstBloomfilter->dProbFalse;
stFileHeader.dwFilterBits = pstBloomfilter->dwFilterBits;
stFileHeader.dwHashFuncs = pstBloomfilter->dwHashFuncs;
stFileHeader.dwFilterSize = pstBloomfilter->dwFilterSize;
iRet = fwrite((const void*)&stFileHeader, sizeof(stFileHeader), 1, pFile);
if (iRet != 1)
{
perror("fwrite(head)");
return -21;
}
// 接着写入BloomFilter的内容
iRet = fwrite(pstBloomfilter->pstFilter, 1, pstBloomfilter->dwFilterSize, pFile);
if ((uint32_t)iRet != pstBloomfilter->dwFilterSize)
{
perror("fwrite(data)");
return -31;
}
fclose(pFile);
return 0;
}
// 从文件读取生成好的BloomFilter
inline int LoadBloomFilterFromFile(BaseBloomFilter *pstBloomfilter, char *szFileName)
{
if ((pstBloomfilter == NULL) || (szFileName == NULL))
return -1;
int iRet;
FILE *pFile;
static BloomFileHead stFileHeader = {0};
if (pstBloomfilter->pstFilter != NULL)
free(pstBloomfilter->pstFilter);
if (pstBloomfilter->pdwHashPos != NULL)
free(pstBloomfilter->pdwHashPos);
//
pFile = fopen(szFileName, "rb");
if (pFile == NULL)
{
perror("fopen");
return -11;
}
// 读取并检查文件头
iRet = fread((void*)&stFileHeader, sizeof(stFileHeader), 1, pFile);
if (iRet != 1)
{
perror("fread(head)");
return -21;
}
if ((stFileHeader.dwMagicCode != __MGAIC_CODE__)
|| (stFileHeader.dwFilterBits != stFileHeader.dwFilterSize*BYTE_BITS))
return -50;
// 初始化传入的 BaseBloomFilter 结构
pstBloomfilter->dwMaxItems = stFileHeader.dwMaxItems;
pstBloomfilter->dProbFalse = stFileHeader.dProbFalse;
pstBloomfilter->dwFilterBits = stFileHeader.dwFilterBits;
pstBloomfilter->dwHashFuncs = stFileHeader.dwHashFuncs;
pstBloomfilter->dwSeed = stFileHeader.dwSeed;
pstBloomfilter->dwCount = stFileHeader.dwCount;
pstBloomfilter->dwFilterSize = stFileHeader.dwFilterSize;
pstBloomfilter->pstFilter = (unsigned char *) malloc(pstBloomfilter->dwFilterSize);
if (NULL == pstBloomfilter->pstFilter)
return -100;
pstBloomfilter->pdwHashPos = (uint32_t*) malloc(pstBloomfilter->dwHashFuncs * sizeof(uint32_t));
if (NULL == pstBloomfilter->pdwHashPos)
return -200;
// 将后面的Data部分读入 pstFilter
iRet = fread((void*)(pstBloomfilter->pstFilter), 1, pstBloomfilter->dwFilterSize, pFile);
if ((uint32_t)iRet != pstBloomfilter->dwFilterSize)
{
perror("fread(data)");
return -31;
}
pstBloomfilter->cInitFlag = 1;
printf(">>> Load BloomFilter(n=%u, p=%f, m=%u, k=%d), malloc() size=%.2fMB\n",
pstBloomfilter->dwMaxItems, pstBloomfilter->dProbFalse, pstBloomfilter->dwFilterBits,
pstBloomfilter->dwHashFuncs, (double)pstBloomfilter->dwFilterSize/1024/1024);
fclose(pFile);
return 0;
}
#endif