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// cryptlib.cpp - written and placed in the public domain by Wei Dai

#include "pch.h"
#include "xtr.h"
#include "nbtheory.h"

#include "algebra.cpp"

NAMESPACE_BEGIN(CryptoPP)

const GFP2Element & GFP2Element::Zero()
{
	return Singleton<GFP2Element>().Ref();
}

void XTR_FindPrimesAndGenerator(RandomNumberGenerator &rng, Integer &p, Integer &q, GFP2Element &g, unsigned int pbits, unsigned int qbits)
{
	assert(qbits > 9);	// no primes exist for pbits = 10, qbits = 9
	assert(pbits > qbits);

	const Integer minQ = Integer::Power2(qbits - 1);
	const Integer maxQ = Integer::Power2(qbits) - 1;
	const Integer minP = Integer::Power2(pbits - 1);
	const Integer maxP = Integer::Power2(pbits) - 1;

	Integer r1, r2;
	do
	{
		bool qFound = q.Randomize(rng, minQ, maxQ, Integer::PRIME, 7, 12);
		assert(qFound);
		bool solutionsExist = SolveModularQuadraticEquation(r1, r2, 1, -1, 1, q);
		assert(solutionsExist);
	} while (!p.Randomize(rng, minP, maxP, Integer::PRIME, CRT(rng.GenerateBit()?r1:r2, q, 2, 3), 3*q));
	assert(((p.Squared() - p + 1) % q).IsZero());

	GFP2_ONB<ModularArithmetic> gfp2(p);
	GFP2Element three = gfp2.ConvertIn(3), t;

	while (true)
	{
		g.c1.Randomize(rng, Integer::Zero(), p-1);
		g.c2.Randomize(rng, Integer::Zero(), p-1);
		t = XTR_Exponentiate(g, p+1, p);
		if (t.c1 == t.c2)
			continue;
		g = XTR_Exponentiate(g, (p.Squared()-p+1)/q, p);
		if (g != three)
			break;
	}
	assert(XTR_Exponentiate(g, q, p) == three);
}

GFP2Element XTR_Exponentiate(const GFP2Element &b, const Integer &e, const Integer &p)
{
	unsigned int bitCount = e.BitCount();
	if (bitCount == 0)
		return GFP2Element(-3, -3);

	// find the lowest bit of e that is 1
	unsigned int lowest1bit;
	for (lowest1bit=0; e.GetBit(lowest1bit) == 0; lowest1bit++) {}

	GFP2_ONB<MontgomeryRepresentation> gfp2(p);
	GFP2Element c = gfp2.ConvertIn(b);
	GFP2Element cp = gfp2.PthPower(c);
	GFP2Element S[5] = {gfp2.ConvertIn(3), c, gfp2.SpecialOperation1(c)};

	// do all exponents bits except the lowest zeros starting from the top
	unsigned int i;
	for (i = e.BitCount() - 1; i>lowest1bit; i--)
	{
		if (e.GetBit(i))
		{
			gfp2.RaiseToPthPower(S[0]);
			gfp2.Accumulate(S[0], gfp2.SpecialOperation2(S[2], c, S[1]));
			S[1] = gfp2.SpecialOperation1(S[1]);
			S[2] = gfp2.SpecialOperation1(S[2]);
			S[0].swap(S[1]);
		}
		else
		{
			gfp2.RaiseToPthPower(S[2]);
			gfp2.Accumulate(S[2], gfp2.SpecialOperation2(S[0], cp, S[1]));
			S[1] = gfp2.SpecialOperation1(S[1]);
			S[0] = gfp2.SpecialOperation1(S[0]);
			S[2].swap(S[1]);
		}
	}

	// now do the lowest zeros
	while (i--)
		S[1] = gfp2.SpecialOperation1(S[1]);

	return gfp2.ConvertOut(S[1]);
}

template class AbstractRing<GFP2Element>;
template class AbstractGroup<GFP2Element>;

NAMESPACE_END

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This article, along with any associated source code and files, is licensed under The Code Project Open License (CPOL)


Written By
ErnestoNet
Software Developer
Argentina Argentina
System developer from Argentina.

Programmed in VB 5,6,.NET, C#, Java, PL-SQL, Transac-SQL, C, C++ and even some "calculator" language.

Love to build small, useful applications.
Usually building big and complicated apps based on solid, reliable components.

Hobbies: reading, photography, chess, paddle, running.

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Posted 1 Aug 2009

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