char * encrypted_mul(char * encrypted_a, char * encrypted_b, int base, paillier_pubkey_t* public_key) {
paillier_ciphertext_t cipher_a;
mpz_init(cipher_a.c);
mpz_set_str(cipher_a.c, encrypted_a, base);
paillier_ciphertext_t cipher_b;
mpz_init(cipher_b.c);
mpz_set_str(cipher_b.c, encrypted_b, base);
paillier_ciphertext_t cipher_result;
mpz_init(cipher_result.c);
paillier_mul(public_key, &cipher_result, &cipher_a, &cipher_b);
return mpz_get_str(NULL, base, cipher_result.c);
}
int main(int argc, char **argv) {
FILE *fpairing, *ftag, *fdata, *fresult, *fplain, *fkey, *fcipher, *fpub;
pairing_t pairing;
paillier_pubkey_t *pub;
paillier_prvkey_t *priv;
element_t g, h, u, sig1, sig2, sig3, temp_pow, m, g1, g2;
element_t public_key, tag, tag_prod;
element_t secret_key;
paillier_get_rand_t get_rand;
paillier_ciphertext_t *cipher1, *cipher2;
paillier_plaintext_t *plain1, *plain2;
mpz_t pub_n, a, b, data2, nsquare;
int count = 0, val=5;
pairing_init_set_str(pairing, param_str);
//mpz_init_set_str(data_sum, "0", 10);
plain1 = (paillier_plaintext_t*) malloc(sizeof(paillier_plaintext_t));
plain2 = (paillier_plaintext_t*) malloc(sizeof(paillier_plaintext_t));
cipher1 = (paillier_ciphertext_t*) malloc(sizeof(paillier_ciphertext_t));
cipher2 = (paillier_ciphertext_t*) malloc(sizeof(paillier_ciphertext_t));
//pbc_demo_pairing_init(pairing, argc, argv);
element_init_G1(g1, pairing);
element_init_G1(g2, pairing);
element_init_G2(g, pairing);
element_init_G2(public_key, pairing);
element_init_G1(u, pairing);
element_init_G1(temp_pow, pairing);
element_init_G2(public_key, pairing);
element_init_G1(h, pairing);
element_init_G1(m, pairing);
element_init_G1(sig1, pairing);
element_init_G1(sig2, pairing);
element_init_G1(sig3, pairing);
element_init_G1(tag, pairing);
element_init_G1(tag_prod, pairing);
element_init_Zr(secret_key, pairing);
// mpz_init(pub_n);
char *len;
mpz_init(a);
mpz_init(b);
mpz_init(data2);
printf("Short signature test\n");
len = (char *)malloc(2048*sizeof(char));
if((fpub = fopen("pub.txt", "r")))
{
pub = (paillier_pubkey_t*) malloc(sizeof(paillier_pubkey_t));
priv = (paillier_prvkey_t*) malloc(sizeof(paillier_prvkey_t));
mpz_init(pub->n_squared);
mpz_init(pub->n);
fgets(len, 1000, fpub);
mpz_init_set_str(pub->p, len, 10);
fgets(len, 1000, fpub);
mpz_init_set_str(pub->q, len, 10);
fgets(len, 1000, fpub);
mpz_init_set_str(pub->n_plusone, len, 10);
//printf("value of nplusone : \n");
//mpz_out_str(stdout, 10, pub->n_plusone);
paillier_keygen(&pub, &priv, get_rand, 0);
pub->bits = mpz_sizeinbase(pub->n, 2);
fclose(fpub);
}
//setting already known pairing parameters
if((fpairing = fopen("pairing.txt", "r")))
{
fgets(len, 1000, fpairing);
//printf("\n %s\n", len);
element_set_str(g, len, 10);
//element_printf(" g = %B\n", g);
fgets(len, 1000, fpairing);
//printf("\n %s\n", len);
element_set_str(u, len, 10);
//element_printf("\n u= %B\n", u);
fgets(len, 1000, fpairing);
element_set_str(secret_key, len, 10);
//element_printf(" secretkey %B\n",secret_key);
fgets(len, 1000, fpairing);
element_set_str(public_key, len, 10);
//element_printf(" publickey %B\n", public_key);
fgets(len, 1000, fpairing);
element_set_str(h, len, 10);
//element_printf(" \nh = %B\n", h);
fgets(len, 1000, fpairing);
mpz_init_set_str(pub_n, len, 10);
//printf("\n n = ");
//mpz_out_str(stdout, 10, pub_n);
fclose(fpairing);
}
element_set1(tag_prod);
ftag = fopen("./tag/output5.txt", "r");
fgets(len, 1000, ftag);
element_set_str(g1, len, 10);
element_printf("\ng1 = %B\n", g1);
fclose(ftag);
ftag = fopen("./tag/output6.txt", "r");
fgets(len, 1000, ftag);
element_set_str(g2, len, 10);
element_printf("\ng2 = %B\n", g2);
fclose(ftag);
fplain = fopen("./split/output5.txt", "r");
fgets(len, 1000, fplain);
// printf("\nlen %s", len);
mpz_set_str(a, len, 10);
//element_printf("\na = %Zd\n", a);
fclose(fplain);
fplain = fopen("./split/output6.txt", "r");
fgets(len, 1000, fplain);
mpz_set_str(b, len, 10);
fcipher = fopen("./cipher/copy1/output5.txt", "r");
fgets(len, 1000, fcipher);
mpz_init_set_str(cipher1->c, len, 10);
fclose(fcipher);
fcipher = fopen("./cipher/copy1/output6.txt", "r");
fgets(len, 1000, fcipher);
mpz_init_set_str(cipher2->c, len, 10);
fclose(fcipher);
paillier_mul(pub, cipher2, cipher2, cipher1);
plain1 = paillier_dec(plain1, pub, priv, cipher2);
//tag
mpz_t an;
mpz_init(an);
mpz_init(nsquare);
// mpz_mul(an, a, pub_n);
mpz_mul(nsquare, pub_n, pub_n);
element_pow_mpz(temp_pow,u, plain1->m);
element_mul(temp_pow, temp_pow, h);
element_pow_zn(sig1, temp_pow, secret_key);
element_printf("\n signature of plain = %B\n", sig1);
//mpz_mul(an, b, pub_n);
// mpz_mul(nsquare, pub_n, pub_n);
element_pow_mpz(temp_pow,u, b);
element_mul(temp_pow, temp_pow, h);
element_pow_zn(sig2, temp_pow, secret_key);
element_printf("\n signature of b = %B\n", sig2);
//element_printf("\nb = %Zd\n", b);
fclose(fplain);
mpz_add(a, a, b);
// mpz_mod(a, a, pub_n);
// mpz_mul(a, a, pub_n);
// mpz_mod(a, a, nsquare);
count = 2;
element_pow_mpz(temp_pow,u, a);
mpz_set_ui(data2, count);
// itoa(count, len, 10);+
//element_printf(" \nh = %B\n", h);
element_pow_mpz(h, h, data2);
element_mul(temp_pow, temp_pow, h);
//element_printf("\n h. u^bN = %B\n", temp_pow);
element_pow_zn(sig3, temp_pow, secret_key);
element_printf("\n sig 3 %B\n", sig3);
element_mul(g2, g2, g1);
element_printf("\n Direct Product %B\n", g2);
element_mul(sig2, sig1, sig2);
element_printf("\n Direct Product %B\n", sig2);
return 0;
}
int main(int argc, char *argv[])
{
DIR *d;
FILE *fpub, *fciph, *fplain, *fprod, *fkey;
paillier_pubkey_t *pub;
paillier_plaintext_t *plain, *plain_sum, *plain_temp;
paillier_prvkey_t *priv;
paillier_get_rand_t get_rand;
paillier_ciphertext_t *cipher, *cipher_prod, *cipher_total;
int count = 0, count1=0, val = 163000, no_of_copies = 10;
long int key_int, key_int1, key_rnd;
struct dirent *dir;
char* len;
mpz_t rndKey, randNum, rnd,rnd_sum, rndno, sum, pl_sum; /* Hold our random numbers */
mpz_t rndBnd; /* Bound for mpz_urandomm */
mpz_t key, key1; //key for PRF
mpz_t plain_total, plain_nomod;
gmp_randstate_t gmpRandState, gmpRandState1, gmpRandState2; /* Random generator state object */
mpz_init(sum);
mpz_init(pl_sum);
mpz_init(rnd);
mpz_init(rndno);
mpz_init(rndBnd);
mpz_init(randNum);
mpz_init(key);
mpz_init(key1);
mpz_init(rnd_sum);
mpz_init(plain_total);
mpz_init(rnd);
mpz_init(rndKey);
mpz_init(plain_nomod);
mpz_set_ui(plain_total, 0);
plain = (paillier_plaintext_t*) malloc(sizeof(paillier_plaintext_t));
plain_sum = (paillier_plaintext_t*) malloc(sizeof(paillier_plaintext_t));
plain_temp = (paillier_plaintext_t*) malloc(sizeof(paillier_plaintext_t));
cipher_prod = (paillier_ciphertext_t*) malloc(sizeof(paillier_ciphertext_t));
cipher_total = (paillier_ciphertext_t*) malloc(sizeof(paillier_ciphertext_t));
cipher = (paillier_ciphertext_t*) malloc(sizeof(paillier_ciphertext_t));
len = (char *)malloc(2048*sizeof(char));
//mpz_init(cipher_prod->c);
mpz_init(cipher_total->c);
mpz_set_ui(rnd_sum, 0);
mpz_init_set_str(cipher_prod->c, "1", 10);
mpz_init_set_str(cipher_total->c, "1", 10);
mpz_init_set_str(plain_sum->m, "0", 10);
// printf("\nloading pailler keys");
if((fpub = fopen("pub.txt", "r")))
{
pub = (paillier_pubkey_t*) malloc(sizeof(paillier_pubkey_t));
priv = (paillier_prvkey_t*) malloc(sizeof(paillier_prvkey_t));
mpz_init(pub->n_squared);
mpz_init(pub->n);
fgets(len, 1000, fpub);
mpz_init_set_str(pub->p, len, 10);
fgets(len, 1000, fpub);
mpz_init_set_str(pub->q, len, 10);
fgets(len, 1000, fpub);
mpz_init_set_str(pub->n_plusone, len, 10);
//printf("value of nplusone : \n");
//mpz_out_str(stdout, 10, pub->n_plusone);
paillier_keygen(&pub, &priv, get_rand, 0);
pub->bits = mpz_sizeinbase(pub->n, 2);
fclose(fpub);
}
gmp_randinit_default(gmpRandState);
mpz_set_str(rndBnd, "163000", 10);
mpz_set_ui(rndKey, time(NULL));
gmp_randseed(gmpRandState, rndKey);
fkey = fopen("prf_key.txt", "w");
mpz_urandomm(rndno, gmpRandState, pub->n);
mpz_set(key, rndno);
element_fprintf(fkey, "%Zd\n", key);
mpz_urandomm(rndno, gmpRandState, pub->n);
mpz_set(key1, rndno);
element_fprintf(fkey, "%Zd", key1);
fclose(fkey);
gmp_randseed(gmpRandState, key);
//mpz_out_str(stdout, 10, rnd);
//****Opening files to read files and encrypt*****
int i, j;
mpz_t rand_val[val], rand_init[no_of_copies], mpz_result[no_of_copies];
char fileName[1000], file[1000];
//strcpy(fileName, "./cipher/copy3/output");
mpz_set_str(sum, "0", 10);
mpz_set_str(pl_sum, "0", 10);
for(j =0; j < no_of_copies; j++)
{
mpz_init(rand_init[j]);
mpz_urandomm(rand_init[j], gmpRandState, pub->n);
mpz_add(sum, sum, rand_init[j]);
// mpz_mod(sum, sum, pub->n);
//printf("\n 1st rand \n");
//mpz_out_str(stdout, 10, rand_init[j]);
}
// printf("\nsum\n");
// mpz_out_str(stdout, 10, sum);
mpz_set_str(pl_sum, "0", 10);
gmp_randseed(gmpRandState, key1);
for(j =0; j < no_of_copies; j++)
{
mpz_set_ui(cipher_prod->c, 1);
for(i = 0; i < val; i++)
{
sprintf(fileName, "./cipher/copy%d/output", (j+1));
if(j == 0)
{
do
mpz_urandomm(randNum, gmpRandState, rndBnd);
while(mpz_cmp_ui(randNum,0) ==0);
mpz_init(rand_val[i]);
mpz_set(rand_val[i], randNum);
//printf("\n2ndrand\n");
//mpz_out_str(stdout, 10, randNum);
// printf("random\n");
// mpz_out_str(stdout, 10, rand_val[i]);
}
else
{
mpz_set(randNum, rand_val[i]);
}
// sprintf(num, "output%d.txt", (j+1));
mpz_get_str(file, 10, randNum);
strcat(fileName, file);
strcat(fileName,".txt");
count = 0;
// printf("\n%s", fileName);
//mpz_out_str(stdout, 10, randNum);
if(!(fciph = fopen(fileName, "r")))
{
printf("\n not able to read %s", fileName);
// fputs("not possible to read file!\n", stderr);
}
else
{
fgets(len, 1000, fciph);
mpz_init_set_str(cipher->c, len, 10);
//if(strstr(dir->d_name, "output") != NULL)
//{
// printf("\ncipher\n");
//mpz_out_str(stdout, 10, cipher->c);
paillier_mul(pub, cipher_prod, cipher_prod, cipher);
// printf("\ncipher after product\n");
//mpz_out_str(stdout, 10, cipher_prod->c);
//}
fclose(fciph);
}
if(j == 0)
{
strcpy(fileName, "./split/output");
strcat(fileName, file);
strcat(fileName,".txt");
if(!(fplain = fopen(fileName, "r")))
{
printf("\n not read %s", fileName);
count1++;
}
else
{
fgets(len, 1000, fplain);
// printf("\npleain sum\n");
// mpz_out_str(stdout, 10, plain_sum->m);
mpz_init_set_str(plain->m, len, 10);
// if(strstr(dir->d_name, "output") != NULL)
//{
mpz_add(plain_sum->m, plain_sum->m, plain->m);
//mpz_mod(pla in_sum->m, plain_sum->m, pub->n);
//}
fclose(fplain);
}
}
}
mpz_powm(cipher_prod->c, cipher_prod->c, rand_init[j], pub->n_squared);
paillier_mul(pub, cipher_total, cipher_total, cipher_prod);
mpz_mul(plain_temp->m, plain_sum->m, rand_init[j]);
mpz_add(plain_total, plain_total, plain_temp->m);
mpz_mod(plain_total, plain_total, pub->n);
}
plain = paillier_dec(plain, pub, priv, cipher_total);
printf("\n decrypt \n");
mpz_out_str(stdout, 10, plain->m);
// printf("\n plain total \n");
//mpz_out_str(stdout, 10, plain_total);
printf("\n plain text total\n");
mpz_out_str(stdout, 10, plain_sum->m);
mpz_mul(pl_sum, plain_sum->m, sum);
mpz_mul(pl_sum, pl_sum, pub->n);
mpz_mul(pl_sum, pl_sum, priv->lambda);
// mpz_mod(pl_sum, pl_sum, pub->n);
printf("\n plain text * rnd\n");
mpz_out_str(stdout, 10, pl_sum);
if((fprod = fopen("result/cipher_result.txt", "w")))
{
printf("\nWriting the result to file \n");
gmp_fprintf(fprod, "%Zd\n", cipher_total->c);
fclose(fprod);
}
return 0;
}
