/*
* Copyright (c) 2006-2010 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:
* crypto symmetric cipher API implementation
* crypto symmetric cipher API implementation
*
*/
/**
@file
*/
#include <cryptospi/cryptosymmetriccipherapi.h>
#include "legacyselector.h"
#include <cryptospi/symmetriccipherplugin.h>
using namespace CryptoSpi;
//
// Implementation of Symmetric Cipher Base Class
//
CSymmetricCipherBase::CSymmetricCipherBase(MSymmetricCipherBase* aSymmetricCipher, TInt aHandle)
: CCryptoBase(aSymmetricCipher, aHandle)
{
}
CSymmetricCipherBase::~CSymmetricCipherBase()
{
}
EXPORT_C void CSymmetricCipherBase::SetKeyL(const CKey& aKey)
{
MSymmetricCipherBase* ptr=static_cast<MSymmetricCipherBase*>(iPlugin);
ptr->SetKeyL(aKey);
}
EXPORT_C void CSymmetricCipherBase::SetOperationModeL(TUid aOperationMode)
{
MSymmetricCipherBase* ptr=static_cast<MSymmetricCipherBase*>(iPlugin);
ptr->SetOperationModeL(aOperationMode);
}
EXPORT_C void CSymmetricCipherBase::SetCryptoModeL(TUid aCryptoMode)
{
MSymmetricCipherBase* ptr=static_cast<MSymmetricCipherBase*>(iPlugin);
ptr->SetCryptoModeL(aCryptoMode);
}
EXPORT_C void CSymmetricCipherBase::SetPaddingModeL(TUid aPaddingMode)
{
MSymmetricCipherBase* ptr=static_cast<MSymmetricCipherBase*>(iPlugin);
ptr->SetPaddingModeL(aPaddingMode);
}
EXPORT_C void CSymmetricCipherBase::SetIvL(const TDesC8& aIv)
{
MSymmetricCipherBase* ptr=static_cast<MSymmetricCipherBase*>(iPlugin);
ptr->SetIvL(aIv);
}
EXPORT_C TInt CSymmetricCipherBase::BlockSize()
{
MSymmetricCipherBase* ptr=static_cast<MSymmetricCipherBase*>(iPlugin);
return ptr->BlockSize();
}
EXPORT_C TInt CSymmetricCipherBase::KeySize()
{
MSymmetricCipherBase* ptr=static_cast<MSymmetricCipherBase*>(iPlugin);
return ptr->KeySize();
}
EXPORT_C TInt CSymmetricCipherBase::MaxOutputLength(TInt aInputLength)
{
MSymmetricCipherBase* ptr=static_cast<MSymmetricCipherBase*>(iPlugin);
return ptr->MaxOutputLength(aInputLength);
}
EXPORT_C TInt CSymmetricCipherBase::MaxFinalOutputLength(TInt aInputLength)
{
MSymmetricCipherBase* ptr=static_cast<MSymmetricCipherBase*>(iPlugin);
return ptr->MaxFinalOutputLength(aInputLength);
}
//
// Implementation of Symmetric Cipher
//
CSymmetricCipher* CSymmetricCipher::NewL(MSymmetricCipher* aSymmetricCipher, TInt aHandle)
{
CSymmetricCipher* self=new(ELeave) CSymmetricCipher(aSymmetricCipher, aHandle);
return self;
}
CSymmetricCipher::CSymmetricCipher(MSymmetricCipher* aSymmetricCipher, TInt aHandle)
: CSymmetricCipherBase(aSymmetricCipher, aHandle)
{
}
EXPORT_C CSymmetricCipher::~CSymmetricCipher()
{
}
EXPORT_C void CSymmetricCipher::ProcessL(const TDesC8& aInput, TDes8& aOutput)
{
MSymmetricCipher* ptr=static_cast<MSymmetricCipher*>(iPlugin);
ptr->ProcessL(aInput, aOutput);
}
EXPORT_C void CSymmetricCipher::ProcessFinalL(const TDesC8& aInput, TDes8& aOutput)
{
MSymmetricCipher* ptr=static_cast<MSymmetricCipher*>(iPlugin);
ptr->ProcessFinalL(aInput, aOutput);
}
//
// Implementation of Symmetric Cipher Factory
//
EXPORT_C void CSymmetricCipherFactory::CreateSymmetricCipherL(CSymmetricCipher*& aCipher,
TUid aAlgorithmUid,
const CKey& aKey,
TUid aCryptoMode,
TUid aOperationMode,
TUid aPaddingMode,
const CCryptoParams* aAlgorithmParams)
{
MPluginSelector* selector=reinterpret_cast<MPluginSelector *>(Dll::Tls());
if (selector)
{
selector->CreateSymmetricCipherL(aCipher, aAlgorithmUid, aKey, aCryptoMode, aOperationMode, aPaddingMode, aAlgorithmParams);
}
else
{
CLegacySelector* legacySelector=CLegacySelector::NewLC();
legacySelector->CreateSymmetricCipherL(aCipher, aAlgorithmUid, aKey, aCryptoMode, aOperationMode, aPaddingMode, aAlgorithmParams);
CleanupStack::PopAndDestroy(legacySelector); //selector
}
}
//
// Implementation of Asynchronous Symmetric Cipher
// (async methods not implemented, so no coverage)
//
#ifdef _BullseyeCoverage
#pragma suppress_warnings on
#pragma BullseyeCoverage off
#pragma suppress_warnings off
#endif
CAsyncSymmetricCipher* CAsyncSymmetricCipher::NewL(MAsyncSymmetricCipher* aAsyncSymmetricCipher, TInt aHandle)
{
CAsyncSymmetricCipher* self=new(ELeave) CAsyncSymmetricCipher(aAsyncSymmetricCipher, aHandle);
return self;
}
CAsyncSymmetricCipher::CAsyncSymmetricCipher(MAsyncSymmetricCipher* aAsyncSymmetricCipher, TInt aHandle)
: CSymmetricCipherBase(aAsyncSymmetricCipher, aHandle)
{
}
EXPORT_C CAsyncSymmetricCipher::~CAsyncSymmetricCipher()
{
}
EXPORT_C void CAsyncSymmetricCipher::ProcessL(const TDesC8& aInput, TDes8& aOutput, TRequestStatus& aRequestStatus)
{
MAsyncSymmetricCipher* ptr=static_cast<MAsyncSymmetricCipher*>(iPlugin);
ptr->ProcessL(aInput, aOutput, aRequestStatus);
}
EXPORT_C void CAsyncSymmetricCipher::ProcessFinalL(const TDesC8& aInput, TDes8& aOutput, TRequestStatus& aRequestStatus)
{
MAsyncSymmetricCipher* ptr=static_cast<MAsyncSymmetricCipher*>(iPlugin);
ptr->ProcessFinalL(aInput, aOutput, aRequestStatus);
}
EXPORT_C void CAsyncSymmetricCipher::Cancel()
{
MAsyncSymmetricCipher* ptr=static_cast<MAsyncSymmetricCipher*>(iPlugin);
ptr->Cancel();
}
//
// Implementation of Symmetric Cipher Factory
//
EXPORT_C void CSymmetricCipherFactory::CreateAsyncSymmetricCipherL(CAsyncSymmetricCipher*& aCipher,
TUid aAlgorithmUid,
const CKey& aKey,
TUid aCryptoMode,
TUid aOperationMode,
TUid aPaddingMode,
const CCryptoParams* aAlgorithmParams)
{
MPluginSelector* selector=reinterpret_cast<MPluginSelector *>(Dll::Tls());
if (selector)
{
selector->CreateAsyncSymmetricCipherL(aCipher, aAlgorithmUid, aKey, aCryptoMode, aOperationMode, aPaddingMode, aAlgorithmParams);
}
else
{
CLegacySelector* legacySelector=CLegacySelector::NewLC();
legacySelector->CreateAsyncSymmetricCipherL(aCipher, aAlgorithmUid, aKey, aCryptoMode, aOperationMode, aPaddingMode, aAlgorithmParams);
CleanupStack::PopAndDestroy(legacySelector); //selector
}
}