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wavesketch.cpp
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wavesketch.cpp
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#include <stdio.h>
#include <stdlib.h>
#include <vector>
#include <string.h>
#include <stdint.h>
#include <random>
#include <string>
#include <memory>
#include <iostream>
#include <cmath>
#include <math.h>
#include<time.h>
#include<unordered_map>
#include<algorithm>
#include<fstream>
#include <bitset>
using namespace std;
#define START_FILE_NO 1
#define END_FILE_NO 10
#define landa_d 16
#define b 1.08
#define test_cycles 1
#define k 1000
#define hh 0.0002
#define hc 0.0005
#define epoch 10
#define BUCKET_NUM (HEAVY_MEM / 134)
#define TOT_MEM_IN_BYTES (600 * 1024)
#define INT_MAX ((int)(~0U>>1))
struct FIVE_TUPLE { char key[13]; };
typedef vector<FIVE_TUPLE> TRACE;
TRACE traces[END_FILE_NO - START_FILE_NO + 1];
static const int COUNT[2] = {1, -1};
static const int factor = 1;
static int HEAVY_MEM = 5 * 1024;
inline unsigned int BKDRHash(char* str)
{
unsigned int seed = 131;
unsigned int hash = 0;
while (*str)
{
hash = hash * seed + (*str++);
}
return (hash & 0x7FFFFFFF);
}
inline unsigned int finger_print(unsigned int hash)
{
hash ^= hash >> 16;
hash *= 0x85ebca6b;
hash ^= hash >> 13;
hash *= 0xc2b2ae35;
hash ^= hash >> 16;
return hash & 0x7FFFFFFF;
}
class hg_node
{
public:
vector<unsigned int>items; //32*16
vector<int>counters; //32*16
bitset<landa_d>real; //16
int incast; //32
hg_node()
{
items = vector<unsigned int>(landa_d, 0);
counters = vector<int>(landa_d, 0);
incast = 0;
real.reset();
}
void insert(unsigned int item, int hash)
{
unsigned int choice = item & 1;
int min_num = INT_MAX;
unsigned int min_pos = -1;
for(unsigned int i = 0; i < landa_d; ++i){
if(counters[i] == 0){
items[i] = item;
counters[i] = 1;
real[i] = 1;
return;
}
else if(items[i] == item){
if(real[i])
counters[i]++;
else{
counters[i]++;
incast += COUNT[choice];
}
return;
}
if(counters[i] < min_num){
min_num = counters[i];
min_pos = i;
}
}
/*
if(incast * COUNT[choice] >= min_num){
//count_type pre_incast = incast;
if(real[min_pos]){
uint32_t min_choice = hash_(items[min_pos], 17) & 1;
incast += COUNT[min_choice] * counters[min_pos];
}
items[min_pos] = item;
counters[min_pos] += 1;
real[min_pos] = 0;
}
incast += COUNT[choice];
*/
if(incast * COUNT[choice] >= int(min_num * factor)){
//count_type pre_incast = incast;
if(real[min_pos]){
unsigned int min_choice = items[min_pos] & 1;
incast += COUNT[min_choice] * counters[min_pos];
}
items[min_pos] = item;
counters[min_pos] += 1;
real[min_pos] = 0;
}
incast += COUNT[choice];
}
int query(unsigned int item, int hash)
{
unsigned int choice = item & 1;
for(unsigned int i = 0; i < landa_d; ++i){
if(items[i] == item){
return counters[i];
}
}
return 0;//incast * COUNT[choice];
}
};
void ReadInTraces(const char* trace_prefix)
{
for (int datafileCnt = START_FILE_NO; datafileCnt <= END_FILE_NO; ++datafileCnt)
{
char datafileName[100];
sprintf(datafileName, "%s%d.dat", trace_prefix, datafileCnt - 1);
FILE* fin = fopen(datafileName, "rb");
FIVE_TUPLE tmp_five_tuple;
traces[datafileCnt - 1].clear();
while (fread(&tmp_five_tuple, 1, 13, fin) == 13)
{
traces[datafileCnt - 1].push_back(tmp_five_tuple);
}
fclose(fin);
printf("Successfully read in %s, %ld packets\n", datafileName, traces[datafileCnt - 1].size());
}
printf("\n");
}
bool cmp1(pair<int,int>p1, pair<int,int>p2)
{
return p1.first > p2.first;
}
bool cmp2(pair<int,int>p1, pair<int,int>p2)
{
return p1.second > p2.second;
}
int main()
{
ReadInTraces("data/");
ofstream out("./ws.txt");
for(int i = 0; i<10; i++)
{
out<<"memory: "<<HEAVY_MEM<<endl;
vector<double> gb_heavy_changer(10, 0);
vector<int>hc_cnt(10,0);
vector<double> gb_heavy_hitter(10, 0);
vector<int>hh_cnt(10,0);
double gb_ARE = 0;
double gb_WMRE = 0;
double gb_entropy = 0;
double gb_fscore = 0;
double gb_throughput = 0;
srand((unsigned)time(NULL));
for (int datafileCnt = START_FILE_NO; datafileCnt <= END_FILE_NO; ++datafileCnt)
{
unordered_map<int,int>gb_cnt;
unordered_map<int,int>lc_cnt;
unordered_map<int,int>pre_cnt;
unordered_map<int,int>hit_cnt;
unordered_map<int,int>ph_cnt;
unordered_map<int,int>freq;
unordered_map<int,int>freq_e;
timespec time1, time2;
long long resns;
int packet_cnt = (int)traces[datafileCnt - 1].size();
int window = packet_cnt / epoch;
//printf("packet count:%d\n", packet_cnt);
char** keys = new char * [(int)traces[datafileCnt - 1].size()];
for (int i = 0; i < (int)traces[datafileCnt - 1].size(); ++i)
{
keys[i] = new char[13];
memcpy(keys[i], traces[datafileCnt - 1][i].key, 13);
}
clock_gettime(CLOCK_MONOTONIC, &time1);
double th;
for (int t = 0; t < test_cycles; ++t)
{
vector<hg_node>hg(BUCKET_NUM);
for (int i = 0; i < packet_cnt; ++i)
{
int hash = BKDRHash(keys[i]);
gb_cnt[hash] += 1;
lc_cnt[hash] += 1;
if(hit_cnt.count(hash) == 0)hit_cnt[hash] = hg[hash % BUCKET_NUM].query(finger_print(hash), hash);
hg[hash % BUCKET_NUM].insert(finger_print(hash), hash);
//if (i % 100000 == 0)printf("flow frequency:%d\n", hg[hash % BUCKET_NUM].query(finger_print(hash), hash));
//hg[hash % BUCKET_NUM].query(finger_print(hash), hash);
if(i && i % window == 0)
{
//heavy hitter
if(1)
{
double th = window * hh;
int tp = 0, fp =0, tn = 0, fn = 0;
for(auto it:gb_cnt)
{
bool f1 = 0, f2 = 0;
if(it.second >= th)f1 = 1;
int hash = it.first;
int efreq = hg[hash % BUCKET_NUM].query(finger_print(hash), hash);
if(efreq >= th)f2 = 1;
if(f1 && f2)tp++;
else if(f1 && !f2)fn++;
else if(!f1 && f2)fp++;
else if(!f1 && !f2)tn++;
}
double recall = (double)tp/(tp+fn);
double precision = (double)tp/(tp+fp);
double fscore = 2*(recall*precision)/(recall + precision);
//cout<<recall<<" "<<precision<<endl;
//out<<i/window <<"th heavy hitter FSOCRE:"<<fscore<<endl;
gb_heavy_hitter[i/window-1] += fscore;
hh_cnt[i/window-1] += 1;
}
//heavy changer
if(1)
{
double th = window * hc;
int tp = 0, fp =0, tn = 0, fn = 0;
for(auto it:lc_cnt)
{
bool f1 = 0, f2 = 0;
if(it.second >= th)f1 = 1;
int hash = it.first;
int efreq = hg[hash % BUCKET_NUM].query(finger_print(hash), hash) - hit_cnt[hash];
ph_cnt[hash] = efreq;
if(efreq >= th)f2 = 1;
if(f1 && f2)tp++;
else if(f1 && !f2)fn++;
else if(!f1 && f2)fp++;
else if(!f1 && !f2)tn++;
}
double recall = (double)tp/(tp+fn);
double precision = (double)tp/(tp+fp);
double fscore = 2*(recall*precision)/(recall + precision);
//cout<<recall<<" "<<precision<<endl;
//out<<i/window <<"th heavy hitter FSOCRE:"<<fscore<<endl;
gb_heavy_changer[i/window-1] += fscore;
hc_cnt[i/window-1] += 1;
}
lc_cnt = unordered_map<int,int>();
hit_cnt = unordered_map<int,int>();
}
}
clock_gettime(CLOCK_MONOTONIC, &time2);
resns = (long long)(time2.tv_sec - time1.tv_sec) * 1000000000LL + (time2.tv_nsec - time1.tv_nsec);
th = (double)1000.0 * test_cycles * packet_cnt / resns;
//ARE
vector<pair<int,int>>topk;
for(auto it:gb_cnt)
{
topk.push_back(make_pair(it.first, it.second));
}
sort(topk.begin(), topk.end(), cmp2);
double ARE = 0;
for(int i =0; i<k; i++)
{
int hash = topk[i].first;
int efq = hg[hash % BUCKET_NUM].query(finger_print(hash), hash);
ARE += (double)abs(topk[i].second - efq)/topk[i].second;
}
ARE /= k;
//out<<"ARE:"<<ARE<<endl;
cout<<"ARE:"<<ARE<<endl;
gb_ARE += ARE;
//WMRE
int max_freq = 0;
for(auto it:gb_cnt)
{
freq[it.second] += 1;
int hash = it.first;
int efreq = hg[hash % BUCKET_NUM].query(finger_print(hash), hash);
freq_e[efreq] += 1;
max_freq = max(max_freq, it.second);
max_freq = max(max_freq, efreq);
}
double wmre = 0, wmd = 0;
for(int i = 1; i<=max_freq; i++)
{
wmre += (double)abs(freq[i] - freq_e[i]);
wmd += ((double)freq[i] + freq_e[i])/2;
}
//out<<"WMRE:"<<wmre/wmd<<endl;
cout<<"WMRE:"<<wmre/wmd<<endl;
gb_WMRE += wmre/wmd;
//entropy
int flow_num = gb_cnt.size();
cout<<"flow_num:"<<flow_num<<endl;
double e = 0, ee = 0;
for(int i = 1; i<=max_freq; i++)
{
e += freq[i]?-1*((double)i*freq[i]/flow_num)*log2((double)freq[i]/flow_num):0;
ee += freq_e[i]?-1*((double)i*freq_e[i]/flow_num)*log2((double)freq_e[i]/flow_num):0;
}
//out<<"entropy ARE:"<<fabs(e-ee)/e<<endl;
cout<<"entropy ARE:"<<fabs(e-ee)/e<<endl;
//out<<"real entropy:"<<e<<endl;
gb_entropy += fabs(e-ee)/e;
//FSCORE
unordered_map<int,bool>ef;
double th = packet_cnt * hh;
int tp = 0, fp =0, tn = 0, fn = 0;
for(auto it:gb_cnt)
{
bool f1 = 0, f2 = 0;
if(it.second >= th)f1 = 1;
int hash = it.first;
int efreq = hg[hash % BUCKET_NUM].query(finger_print(hash), hash);
if(efreq >= th)f2 = 1;
if(f1 && f2)tp++;
else if(f1 && !f2)fn++;
else if(!f1 && f2)fp++;
else if(!f1 && !f2)tn++;
}
double recall = (double)tp/(tp+fn);
double precision = (double)tp/(tp+fp);
double fscore = 2*(recall*precision)/(recall + precision);
//cout<<recall<<" "<<precision<<endl;
//out<<"Total FSOCRE:"<<fscore<<endl;
cout<<"Total FSOCRE:"<<fscore<<endl;
gb_fscore += fscore;
}
/* free memory */
for (int i = 0; i < (int)traces[datafileCnt - 1].size(); ++i)
delete[] keys[i];
delete[] keys;
printf("throughput is %lf mbps\n", th);
//out<<"throughput:"<<th<<"\n"<<endl;
gb_throughput += th;
}
out<<"heavy changer FSOCRE:"<<endl;
for(int i = 0; i<10; i++)
{
if(hc_cnt[i] > 0)out<<gb_heavy_changer[i]/hc_cnt[i]<<endl;
}
out<<"heavy hitter FSOCRE:"<<endl;
for(int i = 0; i<10; i++)
{
if(hh_cnt[i] > 0)out<<gb_heavy_hitter[i]/hh_cnt[i]<<endl;
}
out<<"ARE:"<<gb_ARE/10<<endl;
out<<"WMRE:"<<gb_WMRE/10<<endl;
out<<"entropy ARE:"<<gb_entropy/10<<endl;
out<<"Total FSOCRE:"<<gb_fscore/10<<endl;
out<<"throughput:"<<gb_throughput/10<<endl;
out<<endl;
HEAVY_MEM += 5*1024;
}
}