I am writing a program that uses Paillier Cryptosystem to encrypt a matrix. To encrypt a 50 x 50 matrix it takes about 12 seconds! That's painfully long considering I intend to encrypt matrices of sizes 5000 x 5000 and above. Profiling the program on Xcode I figured out that this paillier_get_rand_devurandom() is the culprit.

This is the call trace snapshot :

Here's the source code of this particular Paillier C library function

```
void paillier_get_rand_devurandom( void* buf, int len )
{
paillier_get_rand_file(buf, len, "/dev/urandom");
}
void paillier_get_rand_file( void* buf, int len, char* file )
{
FILE* fp;
void* p;
fp = fopen(file, "r");
p = buf;
while( len )
{
size_t s;
s = fread(p, 1, len, fp);
p += s;
len -= s;
}
fclose(fp);
}
```

And in case,

```
<http://www.en.wikipedia.org/wiki/Paillier_cryptosystem>
Paillier Cryptosytem C library : <http://acsc.cs.utexas.edu/libpaillier/>
```

I have read that random number generation using dev/random is slow whereas with dev/urandom its much faster. In my case both are equally slow. Can this random number generation be made faster?

EDIT: Here's an example

```
#include <stdio.h>
#include <stdlib.h>
#include <gmp.h>
#include<paillier.h>
int main(void)
{
paillier_pubkey_t* pub;//The public key
paillier_prvkey_t* prv;//The private key
paillier_keygen(1024, &pub, &prv,paillier_get_rand_devurandom);
paillier_ciphertext_t* ca;
paillier_ciphertext_t* cb;
paillier_ciphertext_t* res;
paillier_plaintext_t* a;
paillier_plaintext_t* b;
paillier_plaintext_t* sum;
a=paillier_plaintext_from_ui(45);
b=paillier_plaintext_from_ui(100);
//This is the encryption function
ca=paillier_enc(0, pub, a, paillier_get_rand_devurandom);
cb=paillier_enc(0, pub, b, paillier_get_rand_devurandom);
res=paillier_create_enc_zero();
paillier_mul(pub, res,ca, cb);
sum=paillier_dec(0, pub, prv, res);
gmp_printf("The sum is : %Zd\n",sum);
return 0;
}
```

And this is the encryption function signature

```
/*
Encrypt the given plaintext with the given public key using
randomness from get_rand for blinding. If res is not null, its
contents will be overwritten with the result. Otherwise, a new
paillier_ciphertext_t will be allocated and returned.
*/
paillier_ciphertext_t* paillier_enc( paillier_ciphertext_t* res,
paillier_pubkey_t* pub,
paillier_plaintext_t* pt,
paillier_get_rand_t get_rand );
```

Sorry this question is only getting longer

```
The actual scale_encrypt_T()
void scale_encrypt_T(char *scaledTfile)
{
...
...
//Printing scaled and then encrypted T[][] in a file
for(i=0;i<n;i++)
{
for(j=0;j<n;j++)
{
void *buf2;
//T[][] is the 50 x 50 matrix
temp=(int)(T[i][j]*pow(10,6)); //Scale factor q = 10 to the power of 6
p0=paillier_plaintext_from_ui(temp);
//c0 is the cipher text
/***So this is where its taking so long***/
c0=paillier_enc(0, pub, p0, paillier_get_rand_devurandom);
buf2=paillier_ciphertext_to_bytes(PAILLIER_BITS_TO_BYTES(pub->bits)*2, c0);
fwrite(buf2, 1, PAILLIER_BITS_TO_BYTES(pub->bits)*2, fpt);
free(buf2);
}
}
```