modification for the speed display

[Cipher_code.git] / OneRoundIoT / OneRound / one_round_hash_new.cpp

//gcc pixmap_io.c  -c 
//g++ -O3 one_round_hash_new.cpp pixmap_io.o  -o one_round_hash_new -std=c++11   

//


#include <iostream>
#include <list>
#include<math.h>
#include<stdlib.h>
#include<stdio.h>
#include<string.h>
#include <fstream>
#include <sys/time.h>

/*#include <cryptopp/hex.h>
#include <cryptopp/sha.h>
#include <cryptopp/osrng.h>
#include <cryptopp/secblock.h>
*/


extern "C" {
  int load_RGB_pixmap(char *filename, int *width, int *height, unsigned char**R_data, unsigned char**G_data, unsigned char**B_data);
  void store_RGB_pixmap(char *filename, unsigned char *R_data, unsigned char *G_data, unsigned char *B_data, int width, int height);
}


//using namespace CryptoPP;
using namespace std;


int key_size=256;
int nb_test=1;
int ctr=0;







typedef unsigned char   uchar;


double TimeStart()
{
  struct timeval tstart;
  gettimeofday(&tstart,0);
  return( (double) (tstart.tv_sec + tstart.tv_usec*1e-6) );
}

double TimeStop(double t)
{
  struct timeval tend;

  gettimeofday(&tend,0);
  t = (double) (tend.tv_sec + tend.tv_usec*1e-6) - t;
  return (t);
}






void inverse_tables(uchar *tab, int size_tab,uchar *inv_perm_tabs) {

  for(int i=0;i<size_tab;i++) {
    inv_perm_tabs[tab[i]] = i;
  }

}

void inverse_tables_int(int *tab, int size_tab,int *inv_perm_tabs) {

  for(int i=0;i<size_tab;i++) {
    inv_perm_tabs[tab[i]] = i;
  }

}



void rc4key(uchar *key, uchar *sc, int size_DK) {

  for(int i=0;i<256;i++) {
    sc[i]=i;
  }


  uchar j0 = 0;
  for(int i0=0; i0<256; i0++) {
    j0 = (j0 + sc[i0] + key[i0%size_DK] )&0xFF;
    uchar tmp = sc[i0];
    sc[i0] = sc[j0 ];
    sc[j0] = tmp;
  }
}



void rc4keyperm(uchar *key,int len, int rp,int *sc, int size_DK) {

  //sc=1:len;


  
  for (int i=0;i<len;i++) {
    sc[i]=i;
  }
  for (int it = 0; it < rp; it++) {
    int j0 = 1;
    for(int i0 = 0; i0<len; i0++) {
      j0 = (j0 + sc[i0] + sc[j0] + key[i0%size_DK] )% len;
      int tmp = sc[i0];
      sc[i0] = sc[j0];
      sc[j0] = tmp;
    }

  }
}

void prga(uchar *sc, int ldata, uchar *r) {
  uchar i0=0;
  uchar j0=0;

  for (int it=0; it<ldata; it++) {
    i0 = ((i0+1)&0xFE); //%255);
    j0 = (j0 + sc[i0])&0xFF;
    uchar tmp = sc[i0];
    sc[i0] = sc[j0];
    sc[j0] = tmp;
    r[it]=sc[(sc[i0]+sc[j0])&0xFF];
  }
}




//the proposed hash function, which is based on DSD structure. Sensitivity is ensured by employing the binary diffusion

void hash_DSD_BIN(uchar* seq_in, uchar* RM1,int len, int *PboxRM, uchar *Sbox1, uchar *Sbox2, int h) {


  // Goal: Calculate the hash value
  // Output: RM (hash value)

//  uchar *X=new uchar[h2];
//  uchar *fX=new uchar[h2];
  uchar X[h];
  int ind2;

  uchar Y[h];
  uchar Z[h];

  
  for(int it=0;it<len;it++) {
   
    ind2=it*h;

    // Mix with dynamic RM
    
    for(int a=0;a<h;a+=4) {
      X[a]=RM1[a]^seq_in[ind2+a];
      X[a+1]=RM1[a+1]^seq_in[ind2+a+1];
      X[a+2]=RM1[a+2]^seq_in[ind2+a+2];
      X[a+3]=RM1[a+3]^seq_in[ind2+a+3];
    }

/*    Y[0]=Sbox1[X[0]^X[h-1]];
    for(int a=1;a<h;a++) {
      Y[a]=Sbox1[Y[a-1]^X[a-1]];
    }

    Z[h-1]=Sbox2[Y[h-1]^Y[0]];
    for(int a=h-1;a>0;a--) {
      Z[a-1]=Sbox2[Z[a]^Y[a]];
    }
*/

    Y[0]=X[0]^X[h-1];
    for(int a=1;a<h;a++) {
      Y[a]=Y[a-1]^X[a-1];
    }

    for(int a=0;a<h;a+=4) {
      Y[a]=Sbox1[Y[a]];
    }
    
    Z[h-1]=Y[h-1]^Y[0];
    for(int a=h-1;a>0;a--) {
      Z[a-1]=Z[a]^Y[a];
    }

    for(int a=0;a<h;a+=4) {
      Z[a]=Sbox2[Z[a]];
    }

    
    
    for(int a=0;a<h;a+=4) {
      /*     RM1[a]=Z[a];
      RM1[a+1]=Z[a+1];
      RM1[a+2]=Z[a+2];
      RM1[a+3]=Z[a+3];
      */

      RM1[a]=Z[a]^RM1[PboxRM[a]];
      RM1[a+1]=Z[a+1]^RM1[PboxRM[a+1]];
      RM1[a+2]=Z[a+2]^RM1[PboxRM[a+2]];
      RM1[a+3]=Z[a+3]^RM1[PboxRM[a+3]];
      
    }
    
  }


}





  



  
int main(int argc, char** argv) {


  int h=16;
  int lena=0;
  int size_buf=1;
  int change=0;

  
  for(int i=1; i<argc; i++){
    if(strncmp(argv[i],"nb",2)==0)    nb_test = atoi(&(argv[i][2]));    //nb of test         
    if(strncmp(argv[i],"ctr",3)==0) ctr = atoi(&(argv[i][3]));          //CTR ? 1  otherwise CBC like
    if(strncmp(argv[i],"h",1)==0) h = atoi(&(argv[i][1]));          //size of block
    if(strncmp(argv[i],"sizebuf",7)==0) size_buf = atoi(&(argv[i][7]));          //SIZE of the buffer
    if(strncmp(argv[i],"lena",4)==0) lena = atoi(&(argv[i][4]));          //Use Lena or buffer
    if(strncmp(argv[i],"c",1)==0) change = atoi(&(argv[i][1]));          //Use Lena or buffer
  }


  cout<<size_buf<<endl;
      
  int seed=time(NULL);
//  cout<<seed<<endl;
  srand48(12);

  uchar Secretkey[key_size];

  uchar counter[key_size];

  for(int i=0;i<key_size;i++) {
    Secretkey[i]=lrand48()&0xFF;
    counter[i]=lrand48()&0xFF;
  }

  
  int size = 64;
  uchar DK[size];




  int width;
  int height;

  uchar *data_R, *data_G, *data_B;
  int imsize;
  uchar *buffer;
  
  if(lena==1) {
    load_RGB_pixmap("lena.ppm", &width, &height, &data_R, &data_G, &data_B);
    imsize=width*height*3;
//  load_RGB_pixmap("No_ecb_mode_picture.ppm", &width, &height, &data_R, &data_G, &data_B);
  }
  else {
    imsize=size_buf;
    buffer=new uchar[imsize];
    for(int i=0;i<imsize;i++) {
      buffer[i]=lrand48();
    }
  }


  
  
  uchar* seq= new uchar[imsize];
  uchar* seq2= new uchar[imsize];

  int oneD;
  if(lena) {
    oneD=width*height;
    for(int i=0;i<oneD;i++) {
      seq[i]=data_R[i];
      seq[oneD+i]=data_G[i];
      seq[2*oneD+i]=data_B[i];
    }
  }
  else {
    oneD=imsize;
    for(int i=0;i<oneD;i++) {
      seq[i]=buffer[i];
    }
  }


  if(change==1) {
    
    seq[4]++;
  }
  if(change==2) {
    
    seq[9]++;
  }


  
  

  int total_len=imsize;
  int rp=1;
  int len= total_len/h;
  cout<<len<<endl;

  
  uchar *mix=new uchar[256];



    
  for (int i = 0; i < 256 ; i++) {
    mix[i]=Secretkey[i]^counter[i];
  }

  
//  cout<<"hash "<<endl;
  for (int i = 0; i < 64 ; i++) {
//    DK[i]=digest[i];
    DK[i]=mix[i];
  }




  int *PboxRM=new int[h];
  uchar Sbox1[256];
  uchar Sbox2[256];
  uchar sc[256];  
  uchar RM1[h];
  uchar RM2[h];




  double time=0;
  double t=TimeStart();  
  rc4key(DK, Sbox1, 8);
  rc4key(&DK[8], Sbox2, 8);
  
  rc4key(&DK[16], sc, 8);
  
  
  prga(sc, h, RM1);
  
  
  
  rc4keyperm(&DK[24], h, rp, PboxRM, 8);
  
  time+=TimeStop(t);
  cout<<"Time initializaton "<<time<<endl;










  
  for(int i=0;i<h;i++){
    RM2[i]=RM1[i];
  }

  cout<<"imsize "<<imsize<<endl;
  
/*  for(int i=0;i<imsize;i++){
    cout<<(int)seq[i]<<" ";
  }
  cout<<endl;
*/
  
  time=0;
  t=TimeStart();
  for(int i=0;i<nb_test;i++)
  {
    hash_DSD_BIN(seq, RM1,len,PboxRM,Sbox1,Sbox2,h);
  }


  
  
  time+=TimeStop(t);
  cout<<"Hash Time  "<<time<<endl;
  cout<<(double)imsize*nb_test/time<<"\t";

  for(int i=0;i<h;i++){
    cout<<(int)RM1[i]<<" ";
  }
  cout<<endl;

  

  return 0;
}