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/*
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* Copyright (c) 1998-2009 Nokia Corporation and/or its subsidiary(-ies).
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* All rights reserved.
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* This component and the accompanying materials are made available
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* under the terms of the License "Eclipse Public License v1.0"
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* which accompanies this distribution, and is available
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* at the URL "http://www.eclipse.org/legal/epl-v10.html".
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*
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* Initial Contributors:
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* Nokia Corporation - initial contribution.
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*
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* Contributors:
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*
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* Description:
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*
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*/
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#include "cryptotestaction.h"
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#include <securityerr.h>
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#include <cryptostrength.h>
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#include "../common/inlines.h"
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#include "t_output.h"
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CCryptoTestAction::CCryptoTestAction(RFs& aFs, CConsoleBase& aConsole, Output& aOut)
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: CTestAction(aConsole, aOut), iFs(aFs), iEffectiveKeyLen(128)
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{}
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CCryptoTestAction::~CCryptoTestAction()
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{
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delete iBody;
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}
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void CCryptoTestAction::ConstructL(const TTestActionSpec& aTestActionSpec)
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{
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CTestAction::ConstructL(aTestActionSpec);
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iBody = HBufC8::NewL(aTestActionSpec.iActionBody.Length());
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iBody->Des().Copy(aTestActionSpec.iActionBody);
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}
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void CCryptoTestAction::DoPerformPrerequisite(TRequestStatus& aStatus)
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{
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TRequestStatus* status = &aStatus;
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TRAPD(r, DoPerformPrerequisiteL());
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if ((r != iExpectedWeakResult) && (TCrypto::Strength() == TCrypto::EWeak))
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{
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r = KErrUnknown;
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}
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User::RequestComplete(status, r);
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if (KErrNone==r)
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{
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iActionState = CTestAction::EAction;
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}
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else if (r==KErrKeyNotWeakEnough)
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{
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iResult = ETrue;
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iConsole.Printf(_L("Crypto libraries returned KErrKeyNotWeakEnough! Passing test automatically.\n\r"));
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iOut.writeString(_L("Crypto libraries returned KErrKeyNotWeakEnough! Passing test automatically.\r\n"));
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iActionState = CTestAction::EPostrequisite;
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}
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else if (r==KErrWeakKey)
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{
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iResult = ETrue;
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iConsole.Printf(_L("Crypto libraries returned KErrWeakKey! Passing test automatically.\n\r"));
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iOut.writeString(_L("Crypto libraries returned KErrWeakKey! Passing test automatically.\r\n"));
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iActionState = CTestAction::EPostrequisite;
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}
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else
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{
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iActionState = CTestAction::EPostrequisite;
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}
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}
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void CCryptoTestAction::DoPerformPostrequisite(TRequestStatus& aStatus)
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{
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TRequestStatus* status = &aStatus;
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TRAPD(r, DoPerformPostrequisiteL());
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delete iKey;
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delete iInput;
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delete iOutput;
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delete iIV;
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delete iEResult;
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delete iDResult;
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iFinished = ETrue;
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User::RequestComplete(status, r);
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}
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void CCryptoTestAction::DoReportAction(void)
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{}
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void CCryptoTestAction::DoCheckResult(TInt)
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{
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if (iResult==EFalse)
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iConsole.Printf(_L("X"));
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else
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iConsole.Printf(_L("."));
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}
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void CCryptoTestAction::PerformAction(TRequestStatus& aStatus)
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{
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TRequestStatus* status = &aStatus;
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TRAPD(res, DoPerformActionL());
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if (res==KErrNoMemory)
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{
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User::Leave(res); // For OOM testing
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}
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iActionState = CTestAction::EPostrequisite;
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User::RequestComplete(status, res);
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}
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void CCryptoTestAction::DoInputParseL(TDesC8& aScriptBuffer)
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{
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TInt err = KErrNone;
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TInt pos = 0;
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TPtrC8 keyTemp = Input::ParseElement(aScriptBuffer, KKeyStart, KKeyEnd, pos, err);
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iKey = HBufC8::NewL(keyTemp.Length());
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*iKey = keyTemp;
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Hex(*iKey);
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pos = 0;
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TPtrC8 inputTemp = Input::ParseElement(aScriptBuffer, KInputStart, KInputEnd, pos, err);
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iInput = HBufC8::NewL(inputTemp.Length());
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*iInput = inputTemp;
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Hex(*iInput);
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pos = 0;
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TPtrC8 ivTemp = Input::ParseElement(aScriptBuffer, KIVStart, KIVEnd, pos, err);
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iIV = HBufC8::NewL(ivTemp.Length());
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*iIV = ivTemp;
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Hex(*iIV);
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pos = 0;
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TPtrC8 outputTemp = Input::ParseElement(aScriptBuffer, KOutputStart, KOutputEnd, pos, err);
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iOutput = HBufC8::NewL(outputTemp.Length());
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*iOutput = outputTemp;
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Hex(*iOutput);
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pos = 0;
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TPtrC8 cipherType = Input::ParseElement(aScriptBuffer, KCipherTypeStart, KCipherTypeEnd, pos, err);
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iExpectedWeakResult = KErrNone;
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if( cipherType == _L8("DESECB") )
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{
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iCipherType = EDESECB;
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}
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else if( cipherType == _L8("DESCBC") )
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{
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iCipherType = EDESCBC;
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}
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else if( cipherType == _L8("3DESECB") )
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{
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iCipherType = E3DESECB;
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iExpectedWeakResult = KErrKeyNotWeakEnough;
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}
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else if( cipherType == _L8("3DESCBC") )
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{
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iCipherType = E3DESCBC;
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iExpectedWeakResult = KErrKeyNotWeakEnough;
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}
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else if( cipherType == _L8("AESECB") )
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{
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iCipherType = EAESECB;
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iExpectedWeakResult = KErrKeyNotWeakEnough;
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}
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else if (cipherType==_L8("AESENC_ECB") )
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{
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iCipherType = EAESMonteCarloEncryptECB;
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iExpectedWeakResult = KErrKeyNotWeakEnough;
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}
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else if (cipherType==_L8("AESDEC_ECB") )
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{
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iCipherType = EAESMonteCarloDecryptECB;
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iExpectedWeakResult = KErrKeyNotWeakEnough;
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}
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else if (cipherType==_L8("AESENC_CBC") )
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{
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iCipherType = EAESMonteCarloEncryptCBC;
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iExpectedWeakResult = KErrKeyNotWeakEnough;
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}
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else if (cipherType==_L8("AESDEC_CBC") )
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{
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iCipherType = EAESMonteCarloDecryptCBC;
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iExpectedWeakResult = KErrKeyNotWeakEnough;
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}
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else if( cipherType == _L8("RC2ECB") )
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{
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iCipherType = ERC2ECB;
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// weak enough if either aKey or aEffectiveKeyLen is weak
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TInt minKeySize = Min(iEffectiveKeyLen, BytesToBits(iKey->Size()));
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TRAP(iExpectedWeakResult, TCrypto::IsSymmetricWeakEnoughL(minKeySize));
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}
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else if( cipherType == _L8("RC2CBC") )
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{
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iCipherType = ERC2CBC;
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// weak enough if either aKey or aEffectiveKeyLen is weak
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TInt minKeySize = Min(iEffectiveKeyLen, BytesToBits(iKey->Size()));
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TRAP(iExpectedWeakResult, TCrypto::IsSymmetricWeakEnoughL(minKeySize));
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}
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else if( cipherType == _L8("RC4") )
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{
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iCipherType = ERC4;
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TRAP(iExpectedWeakResult, TCrypto::IsSymmetricWeakEnoughL(BytesToBits(iKey->Size())));
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}
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else if( cipherType == _L8("NULL") )
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{
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iCipherType = ECipherNull;
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}
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else if( cipherType == _L8("DESECB_WKT"))
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{
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iCipherType = EDESECB;
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iExpectedWeakResult = KErrWeakKey;
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}
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else if( cipherType == _L8("DESCBC_WKT"))
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{
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iCipherType = EDESCBC;
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iExpectedWeakResult = KErrWeakKey;
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}
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else
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{
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TBuf<64> cipherName(0);
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cipherName.Copy(cipherType);
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TBuf<256> formattable;
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formattable.Format(_L("\nBad Cipher Type: %S"), &cipherName);
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iConsole.Printf(formattable);
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iActionState = CTestAction::EPostrequisite;
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User::Leave(KErrNotSupported);
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}
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if ( (iCipherType==ERC2ECB) || (iCipherType==ERC2CBC) )
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{
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pos = 0;
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TPtrC8 effKeyLenTemp = Input::ParseElement(aScriptBuffer, KEffKeyLenStart, KEffKeyLenEnd, pos, err);
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if (effKeyLenTemp.Length() != 0)
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{
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TLex8 lex;
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lex.Assign(effKeyLenTemp);
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User::LeaveIfError(lex.Val(iEffectiveKeyLen));
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}
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}
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pos = 0;
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TPtrC8 iterationsTemp = Input::ParseElement(aScriptBuffer, KIterationsStart, KIterationsEnd, pos, err);
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TLex8 lex;
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lex.Assign(iterationsTemp);
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err = lex.Val(iIterationTime);
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pos = 0;
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TPtrC8 randTemp = Input::ParseElement(aScriptBuffer, KRandDataSizeStart, KRandDataSizeEnd, pos, err);
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TLex8 randlex;
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randlex.Assign(randTemp);
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err = randlex.Val(iRandDataSize);
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delete iBody;
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iBody = NULL;
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}
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void CCryptoTestAction::Hex(HBufC8& aString)
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{
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TPtr8 ptr=aString.Des();
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if (aString.Length()%2)
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{
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ptr.SetLength(0);
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return;
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}
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TInt i;
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for (i=0;i<aString.Length();i+=2)
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{
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TUint8 tmp;
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tmp=(TUint8)(aString[i]-(aString[i]>'9'?('A'-10):'0'));
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tmp*=16;
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tmp|=(TUint8)(aString[i+1]-(aString[i+1]>'9'?('A'-10):'0'));
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ptr[i/2]=tmp;
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}
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ptr.SetLength(aString.Length()/2);
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}
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