/*************************************************************************** * Copyright 2013 CertiVox UK Ltd. * * This file is part of CertiVox MIRACL Crypto SDK. * * The CertiVox MIRACL Crypto SDK provides developers with an * extensive and efficient set of cryptographic functions. * For further information about its features and functionalities please * refer to http://www.certivox.com * * * The CertiVox MIRACL Crypto SDK is free software: you can * redistribute it and/or modify it under the terms of the * GNU Affero General Public License as published by the * Free Software Foundation, either version 3 of the License, * or (at your option) any later version. * * * The CertiVox MIRACL Crypto SDK is distributed in the hope * that it will be useful, but WITHOUT ANY WARRANTY; without even the * implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. * See the GNU Affero General Public License for more details. * * * You should have received a copy of the GNU Affero General Public * License along with CertiVox MIRACL Crypto SDK. * If not, see . * * You can be released from the requirements of the license by purchasing * a commercial license. Buying such a license is mandatory as soon as you * develop commercial activities involving the CertiVox MIRACL Crypto SDK * without disclosing the source code of your own applications, or shipping * the CertiVox MIRACL Crypto SDK with a closed source product. * * ***************************************************************************/ /* * MIRACL C++ Header file ZZn6.h * * AUTHOR : M. Scott * * NOTE: : Must be used in conjunction with zzn6.cpp zzn3.cpp big.cpp and zzn.cpp * : This is designed as a "towering extension", so a ZZn6 consists * : of a pair of ZZn3. An element looks like (a+x^2.b+x^4.c) + x(d+x^2.e+x^4.f) * : where x is the cubic (and quadratic) non-residue * * PURPOSE : Definition of class zzn6 (Arithmetic over n^6) * * WARNING: This class has been cobbled together for a specific use with * the MIRACL library. It is not complete, and may not work in other * applications * * p = 1 mod 6 * irreducible poly is x^6+n * */ #ifndef ZZN6_H #define ZZN6_H #include "zzn3.h" class ZZn6 { ZZn3 a,b; BOOL unitary; public: ZZn6() {unitary=FALSE;} ZZn6(int w) {a=(ZZn3)w; b=0; if (w==1) unitary=TRUE; else unitary=FALSE;} ZZn6(const ZZn6& w) {a=w.a; b=w.b; unitary=w.unitary;} ZZn6(const ZZn3 &x,const ZZn3& y) {a=x; b=y; unitary=FALSE; } ZZn6(const ZZn3 &x) {a=x; b=0; unitary=FALSE; } ZZn6(const ZZn &x) {a=x; b=0; unitary=FALSE;} ZZn6(const Big &x) {a=(ZZn)x; b=0; unitary=FALSE;} void set(const ZZn3 &x,const ZZn3 &y) {a=x; b=y; unitary=FALSE;} void set(const ZZn3 &x) {a=x; b.clear(); unitary=FALSE;} void seti(const ZZn3 &x) {a.clear(); b=x; unitary=FALSE;} void set(const Big &x) {a=(ZZn)x; b.clear(); unitary=FALSE;} void get(ZZn3 &,ZZn3 &) const; void geti(ZZn3&) const; void get(ZZn3 &) const; void clear() {a=0; b=0; unitary=FALSE;} void mark_as_unitary() {unitary=TRUE;} BOOL is_unitary() {return unitary;} BOOL iszero() const {if (a.iszero() && b.iszero()) return TRUE; return FALSE; } BOOL isunity() const {if (a.isunity() && b.iszero()) return TRUE; return FALSE; } // BOOL isminusone() const {if (a.isminusone() && b.iszero()) return TRUE; return FALSE; } ZZn6& powq(void); ZZn6& operator=(int i) {a=i; b=0; if (i==1) unitary=TRUE; else unitary=FALSE; return *this;} ZZn6& operator=(const ZZn& x) {a=x; b=0; unitary=FALSE; return *this; } ZZn6& operator=(const ZZn3& x) {a=x; b=0; unitary=FALSE; return *this; } ZZn6& operator=(const ZZn6& x) {a=x.a; b=x.b; unitary=x.unitary; return *this; } ZZn6& operator+=(const ZZn& x) {a+=x; unitary=FALSE; return *this; } ZZn6& operator+=(const ZZn3& x) {a+=x; unitary=FALSE; return *this; } ZZn6& operator+=(const ZZn6& x) {a+=x.a; b+=x.b; unitary=FALSE; return *this; } ZZn6& operator-=(const ZZn& x) {a-=x; unitary=FALSE; return *this; } ZZn6& operator-=(const ZZn3& x) {a-=x; unitary=FALSE; return *this; } ZZn6& operator-=(const ZZn6& x) {a-=x.a; b-=x.b; unitary=FALSE; return *this; } ZZn6& operator*=(const ZZn6&); ZZn6& operator*=(const ZZn3& x) {a*=x; b*=x; unitary=FALSE; return *this; } ZZn6& operator*=(const ZZn& x) {a*=x; b*=x; unitary=FALSE; return *this; } ZZn6& operator*=(int x) {a*=x; b*=x; unitary=FALSE; return *this;} ZZn6& operator/=(const ZZn6&); ZZn6& operator/=(const ZZn3&); ZZn6& operator/=(const ZZn&); ZZn6& operator/=(int); ZZn6& conj() {b=-b; return *this;} friend ZZn6 operator+(const ZZn6&,const ZZn6&); friend ZZn6 operator+(const ZZn6&,const ZZn3&); friend ZZn6 operator+(const ZZn6&,const ZZn&); friend ZZn6 operator-(const ZZn6&,const ZZn6&); friend ZZn6 operator-(const ZZn6&,const ZZn3&); friend ZZn6 operator-(const ZZn6&,const ZZn&); friend ZZn6 operator-(const ZZn6&); friend ZZn6 operator*(const ZZn6&,const ZZn6&); friend ZZn6 operator*(const ZZn6&,const ZZn3&); friend ZZn6 operator*(const ZZn6&,const ZZn&); friend ZZn6 operator*(const ZZn&,const ZZn6&); friend ZZn6 operator*(const ZZn3&,const ZZn6&); friend ZZn6 operator*(int,const ZZn6&); friend ZZn6 operator*(const ZZn6&,int); friend ZZn6 operator/(const ZZn6&,const ZZn6&); friend ZZn6 operator/(const ZZn6&,const ZZn3&); friend ZZn6 operator/(const ZZn6&,const ZZn&); friend ZZn6 operator/(const ZZn6&,int); friend ZZn6 rhs(const ZZn6&); friend ZZn3 real(const ZZn6& x) {return x.a;} friend ZZn3 imaginary(const ZZn6& x) {return x.b;} friend ZZn6 pow(const ZZn6&,const Big&); friend ZZn6 powu(const ZZn6&,const Big&); friend ZZn6 pow(int,const ZZn6*,const Big*); friend ZZn6 powl(const ZZn6&,const Big&); friend ZZn6 conj(const ZZn6&); friend ZZn6 inverse(const ZZn6&); friend ZZn6 tx(const ZZn6&); friend ZZn6 tx2(const ZZn6&); friend ZZn6 tx4(const ZZn6&); friend ZZn6 txd(const ZZn6&); #ifndef MR_NO_RAND friend ZZn6 randn6(void); // random ZZn6 #endif friend BOOL qr(const ZZn6&); friend ZZn6 sqrt(const ZZn6&); // square root - 0 if none exists friend BOOL operator==(const ZZn6& x,const ZZn6& y) {if (x.a==y.a && x.b==y.b) return TRUE; else return FALSE; } friend BOOL operator!=(const ZZn6& x,const ZZn6& y) {if (x.a!=y.a || x.b!=y.b) return TRUE; else return FALSE; } #ifndef MR_NO_STANDARD_IO friend ostream& operator<<(ostream&,const ZZn6&); #endif ~ZZn6() {} }; #ifndef MR_NO_RAND extern ZZn6 randn6(void); #endif #endif