Move the Security package to EPL, and add the implementations of the cryptographic algorithms
/*
* Copyright (c) 2001-2009 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:
* Methods for encoding object identifiers
*
*/
#include "base128enc.h"
#include "panic.h"
#include <asn1enc.h>
const TInt KArrayGranularity = 5;
const TUint KSecondTermBigLimit = 175;
const TUint KFirstTermMultiplier = 40;
const TUint KFirstTermMax = 2;
EXPORT_C CASN1EncObjectIdentifier* CASN1EncObjectIdentifier::NewLC(const TDesC& aStr)
{
CASN1EncObjectIdentifier* self = new (ELeave) CASN1EncObjectIdentifier();
CleanupStack::PushL(self);
self->ConstructL(aStr);
return self;
}
EXPORT_C CASN1EncObjectIdentifier* CASN1EncObjectIdentifier::NewL(const TDesC& aStr)
{
CASN1EncObjectIdentifier* self = NewLC(aStr);
CleanupStack::Pop(self);
return self;
}
EXPORT_C CASN1EncObjectIdentifier::~CASN1EncObjectIdentifier()
{
iData.Close();
}
CASN1EncObjectIdentifier::CASN1EncObjectIdentifier()
: CASN1EncPrimitive(EASN1ObjectIdentifier), iData(KArrayGranularity)
{
}
// Takes ints in a string, delimited by '.' characters in between (not at ends)
void CASN1EncObjectIdentifier::ConstructL(const TDesC& aStr)
{
iData.Reset();
TInt index = 0;
TLex lex(aStr);
// First term
__ASSERT_ALWAYS(!lex.Eos(), User::Leave(KErrBadDescriptor));
TUint first;
User::LeaveIfError(lex.Val(first));
__ASSERT_ALWAYS(first <= KFirstTermMax, User::Leave(KErrBadDescriptor));
// Static cast takes 8 least sig bits
iFirstOctet = STATIC_CAST(TUint8, KFirstTermMultiplier * first);
// A '.' to delimit
__ASSERT_ALWAYS(!lex.Eos() && lex.Get() == '.', User::Leave(KErrBadDescriptor));
// Second term
__ASSERT_ALWAYS(!lex.Eos(), User::Leave(KErrBadDescriptor));
TUint second;
User::LeaveIfError(lex.Val(second));
__ASSERT_ALWAYS((first < KFirstTermMax && second < KFirstTermMultiplier)
|| (first == KFirstTermMax && second <= KSecondTermBigLimit),
User::Leave(KErrBadDescriptor));
// Static cast takes 8 least sig bits
iFirstOctet = STATIC_CAST(TUint8, iFirstOctet + second);
// Remaining terms
while (!lex.Eos())
{
// Delimiter, and check we're not at end after that
__ASSERT_ALWAYS(lex.Get() == '.' && !lex.Eos(), User::Leave(KErrBadDescriptor));
TUint value;
User::LeaveIfError(lex.Val(value));
++index;
// Store the data away for later
TASN1EncBase128DER encoder(value);
User::LeaveIfError(iData.Append(encoder));
}
// Remainder of ConstructL is here - safe to call CalculateContentsLengthDER now.
CASN1EncPrimitive::ConstructL();
}
void CASN1EncObjectIdentifier::CalculateContentsLengthDER()
{
iContentsLengthDER = 1;
for (TInt i = iData.Count() - 1; i >= 0; --i)
{
iContentsLengthDER += iData[i].LengthDER();
}
}
void CASN1EncObjectIdentifier::WriteContentsDERL(TDes8& aBuf) const
{
aBuf[0] = iFirstOctet;
TUint cursor = 1;
TInt count = iData.Count();
for (TInt i = 0; i < count; ++i)
{
iData[i].WriteDERL(aBuf, cursor);
}
}