ext-cryptopp/ecp.h

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// ecp.h - originally written and placed in the public domain by Wei Dai
/// \file ecp.h
/// \brief Classes for Elliptic Curves over prime fields
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#ifndef CRYPTOPP_ECP_H
#define CRYPTOPP_ECP_H
#include "cryptlib.h"
#include "integer.h"
#include "algebra.h"
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#include "modarith.h"
#include "ecpoint.h"
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#include "eprecomp.h"
#include "smartptr.h"
#include "pubkey.h"
#if CRYPTOPP_MSC_VERSION
# pragma warning(push)
# pragma warning(disable: 4231 4275)
#endif
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NAMESPACE_BEGIN(CryptoPP)
/// \brief Elliptic Curve over GF(p), where p is prime
class CRYPTOPP_DLL ECP : public AbstractGroup<ECPPoint>, public EncodedPoint<ECPPoint>
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{
public:
typedef ModularArithmetic Field;
typedef Integer FieldElement;
typedef ECPPoint Point;
virtual ~ECP() {}
/// \brief Construct an ECP
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ECP() {}
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/// \brief Construct an ECP
/// \param ecp the other ECP object
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/// \param convertToMontgomeryRepresentation flag indicating if the curve
/// should be converted to a MontgomeryRepresentation.
/// \details Prior to Crypto++ 8.3 the default value for
/// convertToMontgomeryRepresentation was false. it was changed due to
/// two audit tools finding, "Signature-compatible with a copy constructor".
/// \sa ModularArithmetic, MontgomeryRepresentation
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ECP(const ECP &ecp, bool convertToMontgomeryRepresentation);
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/// \brief Construct an ECP
/// \param modulus the prime modulus
/// \param a Field::Element
/// \param b Field::Element
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ECP(const Integer &modulus, const FieldElement &a, const FieldElement &b)
: m_fieldPtr(new Field(modulus)), m_a(a.IsNegative() ? modulus+a : a), m_b(b) {}
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/// \brief Construct an ECP from BER encoded parameters
/// \param bt BufferedTransformation derived object
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/// \details This constructor will decode and extract the fields
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/// fieldID and curve of the sequence ECParameters
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ECP(BufferedTransformation &bt);
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/// \brief DER Encode
/// \param bt BufferedTransformation derived object
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/// \details DEREncode encode the fields fieldID and curve of the sequence
/// ECParameters
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void DEREncode(BufferedTransformation &bt) const;
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/// \brief Compare two points
/// \param P the first point
/// \param Q the second point
/// \return true if equal, false otherwise
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bool Equal(const Point &P, const Point &Q) const;
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const Point& Identity() const;
const Point& Inverse(const Point &P) const;
bool InversionIsFast() const {return true;}
const Point& Add(const Point &P, const Point &Q) const;
const Point& Double(const Point &P) const;
Point ScalarMultiply(const Point &P, const Integer &k) const;
Point CascadeScalarMultiply(const Point &P, const Integer &k1, const Point &Q, const Integer &k2) const;
void SimultaneousMultiply(Point *results, const Point &base, const Integer *exponents, unsigned int exponentsCount) const;
Point Multiply(const Integer &k, const Point &P) const
{return ScalarMultiply(P, k);}
Point CascadeMultiply(const Integer &k1, const Point &P, const Integer &k2, const Point &Q) const
{return CascadeScalarMultiply(P, k1, Q, k2);}
bool ValidateParameters(RandomNumberGenerator &rng, unsigned int level=3) const;
bool VerifyPoint(const Point &P) const;
unsigned int EncodedPointSize(bool compressed = false) const
{return 1 + (compressed?1:2)*GetField().MaxElementByteLength();}
// returns false if point is compressed and not valid (doesn't check if uncompressed)
bool DecodePoint(Point &P, BufferedTransformation &bt, size_t len) const;
bool DecodePoint(Point &P, const byte *encodedPoint, size_t len) const;
void EncodePoint(byte *encodedPoint, const Point &P, bool compressed) const;
void EncodePoint(BufferedTransformation &bt, const Point &P, bool compressed) const;
Point BERDecodePoint(BufferedTransformation &bt) const;
void DEREncodePoint(BufferedTransformation &bt, const Point &P, bool compressed) const;
Integer FieldSize() const {return GetField().GetModulus();}
const Field & GetField() const {return *m_fieldPtr;}
const FieldElement & GetA() const {return m_a;}
const FieldElement & GetB() const {return m_b;}
bool operator==(const ECP &rhs) const
{return GetField() == rhs.GetField() && m_a == rhs.m_a && m_b == rhs.m_b;}
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private:
clonable_ptr<Field> m_fieldPtr;
FieldElement m_a, m_b;
mutable Point m_R;
};
CRYPTOPP_DLL_TEMPLATE_CLASS DL_FixedBasePrecomputationImpl<ECP::Point>;
CRYPTOPP_DLL_TEMPLATE_CLASS DL_GroupPrecomputation<ECP::Point>;
/// \brief Elliptic Curve precomputation
/// \tparam EC elliptic curve field
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template <class EC> class EcPrecomputation;
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/// \brief ECP precomputation specialization
/// \details Implementation of <tt>DL_GroupPrecomputation<ECP::Point></tt> with input and output
/// conversions for Montgomery modular multiplication.
/// \sa DL_GroupPrecomputation, ModularArithmetic, MontgomeryRepresentation
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template<> class EcPrecomputation<ECP> : public DL_GroupPrecomputation<ECP::Point>
{
public:
typedef ECP EllipticCurve;
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virtual ~EcPrecomputation() {}
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// DL_GroupPrecomputation
bool NeedConversions() const {return true;}
Element ConvertIn(const Element &P) const
{return P.identity ? P : ECP::Point(m_ec->GetField().ConvertIn(P.x), m_ec->GetField().ConvertIn(P.y));};
Element ConvertOut(const Element &P) const
{return P.identity ? P : ECP::Point(m_ec->GetField().ConvertOut(P.x), m_ec->GetField().ConvertOut(P.y));}
const AbstractGroup<Element> & GetGroup() const {return *m_ec;}
Element BERDecodeElement(BufferedTransformation &bt) const {return m_ec->BERDecodePoint(bt);}
void DEREncodeElement(BufferedTransformation &bt, const Element &v) const {m_ec->DEREncodePoint(bt, v, false);}
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/// \brief Set the elliptic curve
/// \param ec ECP derived class
/// \details SetCurve() is not inherited
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void SetCurve(const ECP &ec)
{
m_ec.reset(new ECP(ec, true));
m_ecOriginal = ec;
}
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/// \brief Get the elliptic curve
/// \return ECP curve
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/// \details GetCurve() is not inherited
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const ECP & GetCurve() const {return *m_ecOriginal;}
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private:
value_ptr<ECP> m_ec, m_ecOriginal;
};
NAMESPACE_END
#if CRYPTOPP_MSC_VERSION
# pragma warning(pop)
#endif
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#endif