/*
* Copyright (c) 2007-2009 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 "dhkeypairshim.h"
#include <bigint.h>
#include "cryptokeypairgeneratorapi.h"
#include "keypair.h"
#include <cryptospi/cryptoparams.h>
#include <cryptospi/cryptospidef.h>
using namespace CryptoSpi;
/* CDHKeyPair */
CDHKeyPairShim* CDHKeyPairShim::NewLC(RInteger& aN, RInteger& aG)
{
CDHKeyPairShim* self = new(ELeave) CDHKeyPairShim();
CleanupStack::PushL(self);
self->ConstructL(aN, aG);
return self;
}
CDHKeyPairShim* CDHKeyPairShim::NewLC(RInteger& aN, RInteger& aG, RInteger& ax)
{
CDHKeyPairShim* self = new(ELeave) CDHKeyPairShim();
CleanupStack::PushL(self);
self->ConstructL(aN, aG, ax);
return self;
}
CDHKeyPairShim::~CDHKeyPairShim(void)
{
}
CDHKeyPairShim::CDHKeyPairShim(void)
{
}
void CDHKeyPairShim::ConstructL(RInteger& aN, RInteger& aG)
{
RInteger x = RInteger::NewL();
CleanupClosePushL(x);
KeyConstructorL(aN, aG, x, EFalse);
CleanupStack::PopAndDestroy(1, &x);
}
void CDHKeyPairShim::ConstructL(RInteger& aN, RInteger& aG, RInteger& ax)
{
KeyConstructorL(aN, aG, ax, ETrue);
}
void CDHKeyPairShim::KeyConstructorL(RInteger& aN, RInteger& aG, RInteger& ax, TBool xIncluded)
{
RInteger& nminus2 = aN;
/*
* do some sanity checks
*/
--nminus2;
--nminus2;
if( aG < TInteger::Two() || aG > nminus2 )
{
User::Leave(KErrArgument);
}
if (xIncluded)
{
if( ax < TInteger::One() || ax > nminus2 )
{
User::Leave(KErrArgument);
}
}
/*
*find out how big the key should be - the key must be in the range x | 1 <= x <= n-2
* nminus2 is the largest the key can be so get the number of bits required to represent that number
*/
const TInt keySize = nminus2.BitCount();
// increment aN back to its original value
++nminus2;
++nminus2;
// obtain an RSA key pair generator interface
CKeyPairGenerator* keyPairGeneratorImpl=NULL;
CKeyPairGeneratorFactory::CreateKeyPairGeneratorL(
keyPairGeneratorImpl,
KDHKeyPairGeneratorUid,
NULL);
CleanupStack::PushL(keyPairGeneratorImpl);
/*
* put the DH parameters into an array
*/
CCryptoParams* keyParameters = CCryptoParams::NewLC();
keyParameters->AddL(aN, KDhKeyParameterNUid);
keyParameters->AddL(aG, KDhKeyParameterGUid);
if (xIncluded)
{
// the private key x has been supplied so add it to the params array so the key generator algo can use it
keyParameters->AddL(ax, KDhKeyParameterxUid);
ax.Close();
}
/*
* call the api to create a DH key pair
*/
CKeyPair* keyPair = 0;
keyPairGeneratorImpl->GenerateKeyPairL(keySize, *keyParameters, keyPair);
CleanupStack::PushL(keyPair);
/*
* for compatibility convert the CKeyPair to CDHPrivateKey and CDHPublicKey
*/
// create new RInteger copies of aN, aG and x so the private key can own them
RInteger NCopy = RInteger::NewL(aN);
CleanupClosePushL(NCopy);
RInteger GCopy = RInteger::NewL(aG);
CleanupClosePushL(GCopy);
RInteger x = RInteger::NewL(keyPair->PrivateKey().GetBigIntL(KDhKeyParameterxUid));
CleanupClosePushL(x);
iPrivate = CDHPrivateKey::NewL(NCopy, GCopy, x);
CleanupStack::Pop(3, &NCopy);
// the public key becomes the owner of aN, aG and X
RInteger X = RInteger::NewL(keyPair->PublicKey().GetBigIntL(KDhKeyParameterXUid));
CleanupClosePushL(X);
iPublic = CDHPublicKey::NewL(aN, aG, X);
CleanupStack::Pop(&X);
/*
* cleanup stack - it should contain keyPairGeneratorImpl, keyParameters, keyPair, X, NCopy, GCopy and x
*/
CleanupStack::PopAndDestroy(3, keyPairGeneratorImpl);
}