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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 :

enter image description here

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;


And in case,

    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>

   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;


     //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);


     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 
        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


        //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);


share|improve this question
How long is each read from /dev/urandom? How many of them are you doing? Is your program otherwise working? Is your program reading from /dev/urandom for a purpose other than initial key generation? What purpose? Can you supply a self-contained compilable example? –  Eric Postpischil May 29 '13 at 19:26
You should only use /dev/random or /dev/urandom for seeding or for producing cryptographic keys. –  Jim Balter May 29 '13 at 19:39
@Eric dev/urandom is called for each encryption –  segmentation_fault May 29 '13 at 19:43
@Jim Balter Well, the function signature asks for the random number generator function as one of its arguments. –  segmentation_fault May 29 '13 at 19:46
I ran that program of yours such that there would be 2500 calls to paillier_enc - it takes 3.8ms per call on my weak AMD fanless box running Linux. If I make the FILE* fp static and only open it once I can reliably shave off another 0.3ms per call! I am wondering if OS X is slow at system calls and can do better if you avoid the repeated open and close of /dev/urandom. –  parry May 29 '13 at 21:11

1 Answer 1

Supposing that n is 50, your code is doing 2500 separate encryptions. Each encryption may require some random data.

It will be more efficient to do one encryption by encrypting the entire array in one call to paillier_enc. I am not familiar with the libpaillier API, but it looks like you would do this by arranging for all the data of the 50-by-50 array to be in contiguous memory, then use paillier_plaintext_from_bytes to package the entire array into a paillier_plaintext_t object, then use pallier_enc with that object.

share|improve this answer
Thanks a lot. I'll try this and get back. –  segmentation_fault May 30 '13 at 10:04

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