/************************************************* * Modular Exponentiation Proxy Source File * * (C) 1999-2006 The Botan Project * *************************************************/ #include #include namespace Botan { /************************************************* * Power_Mod Constructor * *************************************************/ Power_Mod::Power_Mod(const BigInt& n, Usage_Hints hints) { core = 0; set_modulus(n, hints); } /************************************************* * Power_Mod Copy Constructor * *************************************************/ Power_Mod::Power_Mod(const Power_Mod& other) { core = 0; if(other.core) core = other.core->copy(); } /************************************************* * Power_Mod Assignment Operator * *************************************************/ Power_Mod& Power_Mod::operator=(const Power_Mod& other) { delete core; core = 0; if(other.core) core = other.core->copy(); return (*this); } /************************************************* * Power_Mod Destructor * *************************************************/ Power_Mod::~Power_Mod() { delete core; } /************************************************* * Set the modulus * *************************************************/ void Power_Mod::set_modulus(const BigInt& n, Usage_Hints hints) const { delete core; core = ((n == 0) ? 0 : Engine_Core::mod_exp(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(!core) throw Internal_Error("Power_Mod::set_base: core was NULL"); 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(!core) throw Internal_Error("Power_Mod::set_exponent: core was NULL"); core->set_exponent(e); } /************************************************* * Compute the result * *************************************************/ BigInt Power_Mod::execute() const { if(!core) throw Internal_Error("Power_Mod::execute: core was NULL"); return core->execute(); } 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 u32bit b_bits = b.bits(); const u32bit 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 u32bit e_bits = e.bits(); const u32bit 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); } }