/*
* Copyright (c) 1998-2009 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 <pbedata.h>
#include <stdlib.h>
#include <s32mem.h>
#include <s32std.h>
#include "tpbe.h"
#include "tactionelement.h"
#include "t_input.h"
_LIT8(KElementStart, "<element>");
_LIT8(KElementEnd, "</element>");
CTestAction* CActionElement::NewL(RFs& aFs,
CConsoleBase& aConsole,
Output& aOut,
const TTestActionSpec& aTestActionSpec)
{
CTestAction* self = CActionElement::NewLC(aFs, aConsole,
aOut, aTestActionSpec);
CleanupStack::Pop();
return self;
}
CTestAction* CActionElement::NewLC(RFs& aFs,
CConsoleBase& aConsole,
Output& aOut,
const TTestActionSpec& aTestActionSpec)
{
CActionElement* self = new(ELeave) CActionElement(aFs, aConsole, aOut);
CleanupStack::PushL(self);
self->ConstructL(aTestActionSpec);
return self;
}
CActionElement::~CActionElement()
{
delete iBody;
}
CActionElement::CActionElement(RFs& aFs,
CConsoleBase& aConsole,
Output& aOut)
: CTestAction(aConsole, aOut), iFs(aFs)
{
}
void CActionElement::ConstructL(const TTestActionSpec& aTestActionSpec)
{
CTestAction::ConstructL(aTestActionSpec);
iBody = HBufC8::NewL(aTestActionSpec.iActionBody.Length());
iBody->Des().Copy(aTestActionSpec.iActionBody);
}
void CActionElement::DoPerformPrerequisite(TRequestStatus& aStatus)
{
TRequestStatus* status = &aStatus;
TInt err = KErrNone;
TInt pos = 0;
TPtrC8 encryptElement = Input::ParseElement(*iBody, KElementStart,
KElementEnd, pos, err);
pos = 0;
TPtrC8 kdf = Input::ParseElement(*iBody, KKdfStart, KKdfEnd, pos, err);
if (err == KErrNone)
iKdf = kdf.AllocL();
pos = 0;
TPtrC8 saltLenBytes = Input::ParseElement(*iBody, KSaltLenBytesStart, KSaltLenBytesEnd, pos, err);
if (err == KErrNone)
iSaltLenBytes = saltLenBytes.AllocL();
pos = 0;
TPtrC8 iterCount = Input::ParseElement(*iBody, KIterCountStart, KIterCountEnd, pos, err);
if (err == KErrNone)
iIterCount = iterCount.AllocL();
pos = 0;
TPtrC8 passwdTemp = Input::ParseElement(encryptElement, KPasswdStart,
KPasswdEnd, pos, err);
iPasswd = HBufC::NewL(passwdTemp.Length());
TPtr16 passwdTemp3( iPasswd->Des());
passwdTemp3.Copy(passwdTemp);
pos = 0;
TPtrC8 inputTemp = Input::ParseElement(encryptElement, KInputStart,
KInputEnd, pos, err);
iInput = HBufC8::NewL(inputTemp.Length());
*iInput = inputTemp;
TPtrC8 cipher = Input::ParseElement(*iBody, KCipherStart, KCipherEnd);
if (cipher.Compare(KECipherAES_CBC_128) == 0)
{
iCipher = ECipherAES_CBC_128;
}
else if (cipher.Compare(KECipherAES_CBC_192) == 0)
{
iCipher = ECipherAES_CBC_192;
}
else if (cipher.Compare(KECipherAES_CBC_256) == 0)
{
iCipher = ECipherAES_CBC_256;
}
else if (cipher.Compare(KECipherDES_CBC) == 0)
{
iCipher = ECipherDES_CBC;
}
else if (cipher.Compare(KECipher3DES_CBC) == 0)
{
iCipher = ECipher3DES_CBC;
}
else if (cipher.Compare(KECipherRC2_CBC_40) == 0)
{
iCipher = ECipherRC2_CBC_40;
}
else if (cipher.Compare(KECipherRC2_CBC_128) == 0)
{
iCipher = ECipherRC2_CBC_128;
}
else if (cipher.Compare(KECipherRC2_CBC_40_16) == 0)
{
iCipher = ECipherRC2_CBC_40_16;
}
else if (cipher.Compare(KECipherRC2_CBC_128_16) == 0)
{
iCipher = ECipherRC2_CBC_128_16;
}
else if(cipher.Compare(KECipherARC4_128) == 0)
{
iCipher = ECipherARC4_128;
}
else if(cipher.Compare(KECipherARC4_40) == 0)
{
iCipher = ECipherARC4_40;
}
else if(cipher.Compare(KECipher2Key3DES_CBC) == 0)
{
iCipher = ECipher2Key3DES_CBC;
}
else if(cipher.Compare(KECipherRC2_CBC_40_5) == 0)
{
iCipher = ECipherRC2_CBC_40_5;
}
else
{
iCipher = ECipherAES_CBC_128;
}
User::RequestComplete(status, KErrNone);
iActionState = CTestAction::EAction;
}
void CActionElement::DoPerformPostrequisite(TRequestStatus& aStatus)
{
TRequestStatus* status = &aStatus;
delete iPasswd;
delete iInput;
delete iKdf;
iKdf = 0;
delete iSaltLenBytes;
iSaltLenBytes = 0;
delete iIterCount;
iIterCount = 0;
iFinished = ETrue;
User::RequestComplete(status, KErrNone);
}
void CActionElement::DoReportAction(void)
{
}
void CActionElement::DoCheckResult(TInt)
{
}
void CActionElement::PerformAction(TRequestStatus& aStatus)
{
__UHEAP_MARK;
TRequestStatus* status = &aStatus;
iResult = EFalse;
HBufC8* pkcs12Pwd = 0;
// default value is NULL to avoid RVCT warning
// C2874W: encryption may be used before being set
CPBEncryptElement* encryption = 0;
if (iKdf == 0)
{
CleanupStack::PushL(pkcs12Pwd);
encryption = CPBEncryptElement::NewLC(*iPasswd, iCipher);
}
else
{
// if supply KDF, must also supply salt len and iteration count
ASSERT(iSaltLenBytes != 0 && iIterCount != 0);
CPBEncryptParms* ep = CPBEncryptParms::NewLC();
ep->SetCipher(iCipher);
TInt saltLenBytes;
TInt r = TLex8(*iSaltLenBytes).Val(saltLenBytes);
ASSERT(r == KErrNone);
ep->ResizeSaltL(saltLenBytes);
TInt iterCount;
r = TLex8(*iIterCount).Val(iterCount);
ASSERT(r == KErrNone);
ep->SetIterations(iterCount);
CleanupStack::PushL((CBase*)0);
CleanupStack::Pop((CBase*)0);
if (*iKdf == _L8("PKCS#5"))
{
ep->SetKdf(CPBEncryptParms::EKdfPkcs5);
encryption = CPBEncryptElement::NewL(*iPasswd, *ep);
}
else if (*iKdf == _L8("PKCS#12"))
{
pkcs12Pwd = PKCS12KDF::GeneratePasswordLC(*iPasswd);
ep->SetKdf(CPBEncryptParms::EKdfPkcs12);
encryption = CPBEncryptElement::NewL(*pkcs12Pwd, *ep);
CleanupStack::Pop(pkcs12Pwd);
}
else
User::Panic(_L("Unrec KDF"), 0);
CleanupStack::PopAndDestroy(ep);
// encryption could leak here, but for reservation above
CleanupStack::PushL(pkcs12Pwd);
CleanupStack::PushL(encryption);
}
CPBEncryptor* encryptor = encryption->NewEncryptLC();
HBufC8* ciphertextTemp = HBufC8::NewLC(encryptor->MaxFinalOutputLength(iInput->Length()));
TPtr8 ciphertext = ciphertextTemp->Des();
encryptor->ProcessFinalL(*iInput, ciphertext);
//create a mem buffer store
CBufStore* store = CBufStore::NewLC(100);
RStoreWriteStream write;
//write the encryption data to a stream
TStreamId dataStreamId = write.CreateLC(*store);
encryption->EncryptionData().ExternalizeL(write);
write.CommitL();
CleanupStack::PopAndDestroy(); //CreateLC()
//prepare to read the stream back in
RStoreReadStream read;
read.OpenLC(*store, dataStreamId);
//read in Encryption Data
CPBEncryptionData* data = CPBEncryptionData::NewL(read);
CleanupStack::PopAndDestroy(); //OpenLC()
CleanupStack::PushL(data);
CPBEncryptElement* encryption1 =
(pkcs12Pwd == 0)
? CPBEncryptElement::NewLC(*data, *iPasswd)
: CPBEncryptElement::NewLC(*data, *pkcs12Pwd);
CPBDecryptor* decryptor = encryption1->NewDecryptLC();
HBufC8* plaintextTemp = HBufC8::NewLC(decryptor->MaxOutputLength(ciphertext.Size()));
TPtr8 plaintext = plaintextTemp->Des();
decryptor->Process(ciphertext, plaintext);
//this Mid call is due to get rid of the decrypted padding at the end
if(plaintext.Mid(0,iInput->Length()) == *iInput)
{
iResult = ETrue;
}
CleanupStack::PopAndDestroy(5); //plaintextTemp,decryptor,encryption1,data,store
CPBEncryptionData* data1 = CPBEncryptionData::NewLC(encryption->EncryptionData());
CPBEncryptElement* encryption2 =
(pkcs12Pwd == 0)
? CPBEncryptElement::NewLC(*data1, *iPasswd)
: CPBEncryptElement::NewLC(*data1, *pkcs12Pwd);
CPBDecryptor* decryptor1 = encryption2->NewDecryptLC();
HBufC8* plaintextTemp2 = HBufC8::NewLC(decryptor1->MaxOutputLength(ciphertext.Size()));
TPtr8 plaintext2 = plaintextTemp2->Des();
decryptor1->Process(ciphertext, plaintext2);
//this Mid call is due to get rid of the decrypted padding at the end
if(!(plaintext2.Mid(0,iInput->Length()) == *iInput))
{
iResult = EFalse;
}
CleanupStack::PopAndDestroy(plaintextTemp2);
CleanupStack::PopAndDestroy(decryptor1);
CleanupStack::PopAndDestroy(encryption2);
CleanupStack::PopAndDestroy(data1);
CleanupStack::PopAndDestroy(ciphertextTemp);
CleanupStack::PopAndDestroy(encryptor);
CleanupStack::PopAndDestroy(encryption);
CleanupStack::PopAndDestroy(pkcs12Pwd);
User::RequestComplete(status, KErrNone);
iActionState = CTestAction::EPostrequisite;
__UHEAP_MARKEND;
}
void CActionElement::Hex(HBufC8& aString)
{
TPtr8 ptr=aString.Des();
if (aString.Length()%2)
{
ptr.SetLength(0);
return;
}
TInt i;
for (i=0;i<aString.Length();i+=2)
{
TUint8 tmp;
tmp=(TUint8)(aString[i]-(aString[i]>'9'?('A'-10):'0'));
tmp*=16;
tmp|=(TUint8)(aString[i+1]-(aString[i+1]>'9'?('A'-10):'0'));
ptr[i/2]=tmp;
}
ptr.SetLength(aString.Length()/2);
}