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/*************************************************
* Arithmetic over GF(p) *
* *
* (C) 2007 Martin Doering *
* Christoph Ludwig *
* Falko Strenzke *
* (C) 2008 Jack Lloyd *
*************************************************/
#ifndef BOTAN_POINT_GFP_H__
#define BOTAN_POINT_GFP_H__
#include <botan/curve_gfp.h>
#include <botan/gfp_element.h>
#include <botan/bigint.h>
#include <botan/exceptn.h>
#include <vector>
namespace Botan {
struct Illegal_Point : public Exception
{
Illegal_Point(const std::string& err = "") : Exception(err) {}
};
/**
* This class represents one point on a curve of GF(p).
*/
class BOTAN_DLL PointGFp
{
public:
/**
* uncompressed encoding byte value
*/
static const int UNCOMPRESSED = 0;
/**
* compressed encoding byte value
*/
static const int COMPRESSED = 1;
/**
* hybrid encoding byte value
*/
static const int HYBRID = 2;
/**
* Construct the point O
* @param curve The base curve
*/
explicit PointGFp(const CurveGFp& curve);
/**
* Construct a point given its affine coordinates
* @param curve the base curve
* @param x affine x coordinate
* @param y affine y coordinate
*/
explicit PointGFp(const CurveGFp& curve, GFpElement const& x,
GFpElement const& y);
/**
* Construct a point given its jacobian projective coordinates
* @param curve the base curve
* @param x jacobian projective x coordinate
* @param y jacobian projective y coordinate
* @param z jacobian projective y coordinate
*/
explicit PointGFp(const CurveGFp& curve, GFpElement const& x,
GFpElement const& y, GFpElement const& z);
/**
* copy constructor
* @param other the value to clone
*/
PointGFp(const PointGFp& other);
/**
* assignment operator
* @param other The point to use as source for the assignment
*/
const PointGFp& operator=(const PointGFp& other);
/**
* assign another point which is on the same curve as *this
* @param other The point to use as source for the assignment
*/
const PointGFp& assign_within_same_curve(const PointGFp& other);
/**
* += Operator
* @param rhs the PointGFp to add to the local value
* @result resulting PointGFp
*/
PointGFp& operator+=(const PointGFp& rhs);
/**
* -= Operator
* @param rhs the PointGFp to subtract from the local value
* @result resulting PointGFp
*/
PointGFp& operator-=(const PointGFp& rhs);
/**
* *= Operator
* This function turns on the the special reduction multiplication
* itself for fast computation, turns it off again when finished.
* @param scalar the PointGFp to multiply with *this
* @result resulting PointGFp
*/
PointGFp& operator*=(const BigInt& scalar);
/**
* the equivalent to operator*= with countermeasures against
* sidechannel attacks, using the randomized exponent
* and add-and-double-always
* countermeasures (suitable for ECDSA and ECKAEG)
* @param scalar the scalar to multiply the point with
* @param point_order a multiple of the order of the point
*(= n * k in the general case; k is the cofactor)
* @param max_secr the maximal size of the scalar
* (will usually be n-1 )
* @result resulting PointGFp
*/
PointGFp& mult_this_secure(const BigInt& scalar,
const BigInt& point_order,
const BigInt& max_secr
);
/**
* Negate internal value(*this *= -1 )
* @return *this
*/
PointGFp& negate();
/**
* Multiply the point by two(*this *= 2 )
* @return *this
*/
PointGFp& mult2_in_place();
/**
* Set z coordinate to one.
* @return *this
*/
const PointGFp& set_z_to_one() const;
/**
* Turn on the special reduction multiplication (i.e. the
* Montgomery multiplication in the current implementation) for
* the coordinates. This enables fast execution of mult2_in_place()
* and operator+=().
*/
void turn_on_sp_red_mul() const;
/**
* Return a point
* where the coordinates are transformed
* so that z equals one,
* thus x and y have just the affine values.
* @result *this
*/
PointGFp const get_z_to_one() const;
/**
* Return base curve of this point
* @result the curve over GF(p) of this point
*/
CurveGFp const get_curve() const;
/**
* get affine x coordinate
* @result affine x coordinate
*/
GFpElement const get_affine_x() const;
/**
* get affine y coordinate
* @result affine y coordinate
*/
GFpElement const get_affine_y() const;
/**
* get the jacobian projective x coordinate
* @result jacobian projective x coordinate
*/
GFpElement const get_jac_proj_x() const;
/**
* get the jacobian projective y coordinate
* @result jacobian projective y coordinate
*/
GFpElement const get_jac_proj_y() const;
/**
* get the jacobian projective z coordinate
* @result jacobian projective z coordinate
*/
GFpElement const get_jac_proj_z() const;
/**
* Is this the point at infinity?
* @result true, if this point is at infinity, false otherwise.
*/
bool is_zero() const;
/**
* Checks whether the point is to be found on the underlying curve.
* Throws an Invalid_Point exception in case of detecting that the point
* does not satisfy the curve equation.
* To be used to ensure against fault attacks.
*/
void check_invariants() const;
/**
* swaps the states of *this and other, does not throw!
* @param other the object to swap values with
*/
void swap(PointGFp& other);
/**
* Sets the shared pointer to the GFpModulus that will be
* held in *this, specifically the various members of *this.
* Warning: do not use this function unless you know in detail about
* the implications of using
* the shared GFpModulus objects!
* Do NOT spread a shared pointer to GFpModulus over different
* threads!
* @param mod a shared pointer to a GFpModulus that will
* be held in the members *this
*/
void set_shrd_mod(std::tr1::shared_ptr<GFpModulus> p_mod);
static GFpElement decompress(bool yMod2, GFpElement const& x, const CurveGFp& curve);
private:
static const u32bit GFPEL_WKSP_SIZE = 9;
void ensure_worksp() const;
inline std::tr1::shared_ptr<PointGFp> mult_loop(int l, const BigInt& m,
std::tr1::shared_ptr<PointGFp> H,
std::tr1::shared_ptr<PointGFp> tmp,
const PointGFp& P);
CurveGFp mC;
mutable GFpElement mX; // NOTE: these values must be mutable (affine<->proj)
mutable GFpElement mY;
mutable GFpElement mZ;
mutable GFpElement mZpow2; // mZ^2
mutable GFpElement mZpow3; // mZ^3
mutable GFpElement mAZpow4; // mA*mZ^4
mutable bool mZpow2_set;
mutable bool mZpow3_set;
mutable bool mAZpow4_set;
mutable std::tr1::shared_ptr<std::vector<GFpElement> > mp_worksp_gfp_el;
};
// relational operators
bool operator==(const PointGFp& lhs, const PointGFp& rhs);
inline bool operator!=(const PointGFp& lhs, const PointGFp& rhs )
{
return !operator==(lhs, rhs);
}
// arithmetic operators
PointGFp operator+(const PointGFp& lhs, const PointGFp& rhs);
PointGFp operator-(const PointGFp& lhs, const PointGFp& rhs);
PointGFp operator-(const PointGFp& lhs);
PointGFp operator*(const BigInt& scalar, const PointGFp& point);
PointGFp operator*(const PointGFp& point, const BigInt& scalar);
PointGFp mult_point_secure(const PointGFp& point, const BigInt& scalar, const BigInt& point_order, const BigInt& max_secret);
PointGFp const mult2(const PointGFp& point);
PointGFp const create_random_point(RandomNumberGenerator& rng,
const CurveGFp& curve);
// encoding and decoding
SecureVector<byte> EC2OSP(const PointGFp& point, byte format);
PointGFp OS2ECP(MemoryRegion<byte> const& os, const CurveGFp& curve);
SecureVector<byte> encode_uncompressed(const PointGFp& point); // maybe make private
SecureVector<byte> encode_hybrid(const PointGFp& point); // maybe make private
SecureVector<byte> encode_compressed(const PointGFp& point); // maybe make private
// swaps the states of point1 and point2, does not throw!
// cf. Meyers, Item 25
inline
void swap(PointGFp& point1, PointGFp& point2 )
{
point1.swap(point2);
}
} // namespace Botan
namespace std {
// swaps the states of point1 and point2, does not throw!
// cf. Meyers, Item 25
template<> inline void
swap<Botan::PointGFp>(Botan::PointGFp& x, Botan::PointGFp& y) { x.swap(y); }
} // namespace std
#endif
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