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/*
* Modular Exponentiation Proxy
* (C) 1999-2007 Jack Lloyd
*
* Botan is released under the Simplified BSD License (see license.txt)
*/
#include <botan/pow_mod.h>
#include <botan/internal/def_powm.h>
namespace Botan {
/*
* Power_Mod Constructor
*/
Power_Mod::Power_Mod(const BigInt& n, Usage_Hints hints, bool disable_monty)
{
set_modulus(n, hints, disable_monty);
}
/*
* Power_Mod Copy Constructor
*/
Power_Mod::Power_Mod(const Power_Mod& other)
{
if(other.m_core.get())
m_core.reset(other.m_core->copy());
}
/*
* Power_Mod Assignment Operator
*/
Power_Mod& Power_Mod::operator=(const Power_Mod& other)
{
if(this != &other)
{
if(other.m_core)
m_core.reset(other.m_core->copy());
else
m_core.reset();
}
return (*this);
}
/*
* Set the modulus
*/
void Power_Mod::set_modulus(const BigInt& n, Usage_Hints hints, bool disable_monty) const
{
// Allow set_modulus(0) to mean "drop old state"
m_core.reset();
if(n != 0)
{
if(n.is_odd() && disable_monty == false)
m_core.reset(new Montgomery_Exponentiator(n, hints));
else
m_core.reset(new Fixed_Window_Exponentiator(n, hints));
}
}
/*
* Set the base
*/
void Power_Mod::set_base(const BigInt& b) const
{
if(b.is_zero() || b.is_negative())
throw Invalid_Argument("Power_Mod::set_base: arg must be > 0");
if(!m_core)
throw Internal_Error("Power_Mod::set_base: m_core was NULL");
m_core->set_base(b);
}
/*
* Set the exponent
*/
void Power_Mod::set_exponent(const BigInt& e) const
{
if(e.is_negative())
throw Invalid_Argument("Power_Mod::set_exponent: arg must be > 0");
if(!m_core)
throw Internal_Error("Power_Mod::set_exponent: m_core was NULL");
m_core->set_exponent(e);
}
/*
* Compute the result
*/
BigInt Power_Mod::execute() const
{
if(!m_core)
throw Internal_Error("Power_Mod::execute: m_core was NULL");
return m_core->execute();
}
/*
* Try to choose a good window size
*/
size_t Power_Mod::window_bits(size_t exp_bits, size_t,
Power_Mod::Usage_Hints hints)
{
static const size_t wsize[][2] = {
{ 1434, 7 },
{ 539, 6 },
{ 197, 4 },
{ 70, 3 },
{ 17, 2 },
{ 0, 0 }
};
size_t window_bits = 1;
if(exp_bits)
{
for(size_t j = 0; wsize[j][0]; ++j)
{
if(exp_bits >= wsize[j][0])
{
window_bits += wsize[j][1];
break;
}
}
}
if(hints & Power_Mod::BASE_IS_FIXED)
window_bits += 2;
if(hints & Power_Mod::EXP_IS_LARGE)
++window_bits;
return window_bits;
}
namespace {
/*
* Choose potentially useful hints
*/
Power_Mod::Usage_Hints choose_base_hints(const BigInt& b, const BigInt& n)
{
if(b == 2)
return Power_Mod::Usage_Hints(Power_Mod::BASE_IS_2 |
Power_Mod::BASE_IS_SMALL);
const size_t b_bits = b.bits();
const size_t n_bits = n.bits();
if(b_bits < n_bits / 32)
return Power_Mod::BASE_IS_SMALL;
if(b_bits > n_bits / 4)
return Power_Mod::BASE_IS_LARGE;
return Power_Mod::NO_HINTS;
}
/*
* Choose potentially useful hints
*/
Power_Mod::Usage_Hints choose_exp_hints(const BigInt& e, const BigInt& n)
{
const size_t e_bits = e.bits();
const size_t n_bits = n.bits();
if(e_bits < n_bits / 32)
return Power_Mod::BASE_IS_SMALL;
if(e_bits > n_bits / 4)
return Power_Mod::BASE_IS_LARGE;
return Power_Mod::NO_HINTS;
}
}
/*
* Fixed_Exponent_Power_Mod Constructor
*/
Fixed_Exponent_Power_Mod::Fixed_Exponent_Power_Mod(const BigInt& e,
const BigInt& n,
Usage_Hints hints) :
Power_Mod(n, Usage_Hints(hints | EXP_IS_FIXED | choose_exp_hints(e, n)))
{
set_exponent(e);
}
/*
* Fixed_Base_Power_Mod Constructor
*/
Fixed_Base_Power_Mod::Fixed_Base_Power_Mod(const BigInt& b, const BigInt& n,
Usage_Hints hints) :
Power_Mod(n, Usage_Hints(hints | BASE_IS_FIXED | choose_base_hints(b, n)))
{
set_base(b);
}
}
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