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/*
* Prime Generation
* (C) 1999-2007 Jack Lloyd
*
* Distributed under the terms of the Botan license
*/
#include <botan/numthry.h>
#include <botan/parsing.h>
#include <algorithm>
namespace Botan {
/*
* Generate a random prime
*/
BigInt random_prime(RandomNumberGenerator& rng,
u32bit bits, const BigInt& coprime,
u32bit equiv, u32bit modulo)
{
if(bits <= 1)
throw Invalid_Argument("random_prime: Can't make a prime of " +
to_string(bits) + " bits");
else if(bits == 2)
return ((rng.next_byte() % 2) ? 2 : 3);
else if(bits == 3)
return ((rng.next_byte() % 2) ? 5 : 7);
else if(bits == 4)
return ((rng.next_byte() % 2) ? 11 : 13);
if(coprime <= 0)
throw Invalid_Argument("random_prime: coprime must be > 0");
if(modulo % 2 == 1 || modulo == 0)
throw Invalid_Argument("random_prime: Invalid modulo value");
if(equiv >= modulo || equiv % 2 == 0)
throw Invalid_Argument("random_prime: equiv must be < modulo, and odd");
while(true)
{
BigInt p(rng, bits);
// Force lowest and two top bits on
p.set_bit(bits - 1);
p.set_bit(bits - 2);
p.set_bit(0);
if(p % modulo != equiv)
p += (modulo - p % modulo) + equiv;
const u32bit sieve_size = std::min(bits / 2, PRIME_TABLE_SIZE);
SecureVector<u32bit> sieve(sieve_size);
for(u32bit j = 0; j != sieve.size(); ++j)
sieve[j] = p % PRIMES[j];
u32bit counter = 0;
while(true)
{
if(counter == 4096 || p.bits() > bits)
break;
bool passes_sieve = true;
++counter;
p += modulo;
if(p.bits() > bits)
break;
for(u32bit j = 0; j != sieve.size(); ++j)
{
sieve[j] = (sieve[j] + modulo) % PRIMES[j];
if(sieve[j] == 0)
passes_sieve = false;
}
if(!passes_sieve || gcd(p - 1, coprime) != 1)
continue;
if(passes_mr_tests(rng, p))
return p;
}
}
}
/*
* Generate a random safe prime
*/
BigInt random_safe_prime(RandomNumberGenerator& rng, u32bit bits)
{
if(bits <= 64)
throw Invalid_Argument("random_safe_prime: Can't make a prime of " +
to_string(bits) + " bits");
BigInt p;
do
p = (random_prime(rng, bits - 1) << 1) + 1;
while(!is_prime(p, rng));
return p;
}
}
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