/*
* Copyright (c) 2003-2009 Nokia Corporation and/or its subsidiary(-ies).
* All rights reserved.
* This component and the accompanying materials are made available
* under the terms of the License "Eclipse Public License v1.0"
* which accompanies this distribution, and is available
* at the URL "http://www.eclipse.org/legal/epl-v10.html".
*
* Initial Contributors:
* Nokia Corporation - initial contribution.
*
* Contributors:
*
* Description:
*
*/
#include <bigint.h>
#include <asymmetrickeys.h>
#include "rsafunction.h"
#include "../bigint/mont.h"
//Public Encrypt
void RSAFunction::EncryptL(const CRSAPublicKey& aPublicKey,
const TInteger& aInput, RInteger& aOutput)
{
FunctionL(aPublicKey.N(), aPublicKey.E(), aInput, aOutput);
}
//Private Decrypt
void RSAFunction::DecryptL(const CRSAPrivateKey& aPrivateKey,
const TInteger& aInput, RInteger& aOutput)
{
if (aPrivateKey.PrivateKeyType()==EStandard)
{
const CRSAPrivateKeyStandard* stdKey =
static_cast<const CRSAPrivateKeyStandard*>(&aPrivateKey);
FunctionL(aPrivateKey.N(), stdKey->D(), aInput, aOutput);
}
else if (aPrivateKey.PrivateKeyType()==EStandardCRT)
{
FunctionCRTL(static_cast<const CRSAPrivateKeyCRT&>(aPrivateKey), aInput,
aOutput);
}
else
{
User::Leave(KErrNotSupported);
}
}
//Private Encrypt
void RSAFunction::SignL(const CRSAPrivateKey& aPrivateKey,
const TInteger& aInput, RInteger& aOutput)
{
if (aPrivateKey.PrivateKeyType()==EStandard)
{
const CRSAPrivateKeyStandard* stdKey =
static_cast<const CRSAPrivateKeyStandard*>(&aPrivateKey);
FunctionL(aPrivateKey.N(), stdKey->D(), aInput, aOutput);
}
else if (aPrivateKey.PrivateKeyType()==EStandardCRT)
{
FunctionCRTL(static_cast<const CRSAPrivateKeyCRT&>(aPrivateKey), aInput,
aOutput);
}
else
{
User::Leave(KErrNotSupported);
}
}
//Public Decrypt
void RSAFunction::VerifyL(const CRSAPublicKey& aPublicKey,
const TInteger& aInput, RInteger& aOutput)
{
FunctionL(aPublicKey.N(), aPublicKey.E(), aInput, aOutput);
}
//The RSA Trapdoor Function
void RSAFunction::FunctionL(const TInteger& aModulus, const TInteger& aExponent,
const TInteger& aBase, RInteger& aOutput)
{
IsInputValidL(aBase, aModulus);
aOutput = TInteger::ModularExponentiateL(aBase, aExponent, aModulus);
}
//The CRT version of the RSA Trapdoor Function
void RSAFunction::FunctionCRTL(const CRSAPrivateKeyCRT& aPrivateKey,
const TInteger& aInput, RInteger& aOutput)
{
IsInputValidL(aInput, aPrivateKey.N());
CMontgomeryStructure* montP = CMontgomeryStructure::NewLC(aPrivateKey.P());
CMontgomeryStructure* montQ = CMontgomeryStructure::NewLC(aPrivateKey.Q());
const TInteger& p = aPrivateKey.P();
const TInteger& q = aPrivateKey.Q();
const TInteger& u = aPrivateKey.QInv();
//m1 = c^(dP) mod(p)
RInteger inputReduced = aInput.ModuloL(aPrivateKey.P());
CleanupStack::PushL(inputReduced);
const TInteger& m1 = montP->ExponentiateL(inputReduced, aPrivateKey.DP());
CleanupStack::PopAndDestroy(&inputReduced);
//m2 = c^(dQ) mod(Q)
inputReduced = aInput.ModuloL(aPrivateKey.Q());
CleanupStack::PushL(inputReduced);
const TInteger& m2 = montQ->ExponentiateL(inputReduced, aPrivateKey.DQ());
CleanupStack::PopAndDestroy(&inputReduced);
//Calculate CRT
//h = (m1-m2) qInv mod(p)
RInteger h = m1.MinusL(m2);
CleanupStack::PushL(h);
h *= u;
h %= p;
//m = m2 + q * h
h *= q;
h += m2;
aOutput = h;
CleanupStack::Pop(&h);
CleanupStack::PopAndDestroy(montQ);
CleanupStack::PopAndDestroy(montP);
}