Fix for bug 1301. Added bld.inf to rootcertificates component for exporting the SWI certificate store.
/*
* 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:
* software md4 implementation
* software md4 implementation
*
*/
/**
@file
*/
#include "md4impl.h"
#include <cryptospi/hashplugin.h>
#include "pluginconfig.h"
using namespace SoftwareCrypto;
CMD4Impl* CMD4Impl::NewL()
{
CMD4Impl* self=new (ELeave) CMD4Impl();
self->Reset();
return self;
}
CMD4Impl* CMD4Impl::NewLC()
{
CMD4Impl* self=NewL();
CleanupStack::PushL(self);
return self;
}
CMD4Impl::CMD4Impl() : iHash(KMD4HashSize)
{
}
CMD4Impl::CMD4Impl(const CMD4Impl& aCMD4Impl)
: iHash(aCMD4Impl.iHash),iA(aCMD4Impl.iA),iB(aCMD4Impl.iB),iC(aCMD4Impl.iC),iD(aCMD4Impl.iD),
iNl(aCMD4Impl.iNl),iNh(aCMD4Impl.iNh)
{
(void)Mem::Copy(iData, aCMD4Impl.iData, sizeof(iData));
}
CMD4Impl::~CMD4Impl()
{
}
void CMD4Impl::Reset()
{
iA=0x67452301;
iB=0xefcdab89;
iC=0x98badcfe;
iD=0x10325476;
iNh=0;
iNl=0;
}
void CMD4Impl::Close()
{
delete this;
}
void CMD4Impl::GetCharacteristicsL(const TCharacteristics*& aPluginCharacteristics)
{
aPluginCharacteristics=NULL;
TInt hashNum=sizeof(KHashCharacteristics)/sizeof(THashCharacteristics*);
for (TInt i=0;i<hashNum;i++)
{
if (KHashCharacteristics[i]->cmn.iImplementationUID == ImplementationUid().iUid)
{
aPluginCharacteristics = KHashCharacteristics[i];
break;
}
}
}
CExtendedCharacteristics* CMD4Impl::CreateExtendedCharacteristicsL()
{
// All Symbian software plug-ins have unlimited concurrency, cannot be reserved
// for exclusive use and are not CERTIFIED to be standards compliant.
return CExtendedCharacteristics::NewL(KMaxTInt, EFalse);
}
const CExtendedCharacteristics* CMD4Impl::GetExtendedCharacteristicsL()
{
return CMD4Impl::CreateExtendedCharacteristicsL();
}
TPtrC8 CMD4Impl::Hash(const TDesC8& aMessage)
{
DoUpdate(aMessage.Ptr(),aMessage.Size());
StoreState();
DoFinal();
RestoreState();
return iHash;
}
void CMD4Impl::Update(const TDesC8& aMessage)
{
DoUpdate(aMessage.Ptr(),aMessage.Size());
}
TPtrC8 CMD4Impl::Final(const TDesC8& aMessage)
{
if (aMessage!=KNullDesC8())
{
DoUpdate(aMessage.Ptr(),aMessage.Size());
}
DoFinal();
Reset();
return iHash;
}
MHash* CMD4Impl::ReplicateL()
{
return CMD4Impl::NewL();
}
MHash* CMD4Impl::CopyL()
{
return new(ELeave) CMD4Impl(*this);
}
TUid CMD4Impl::ImplementationUid()
{
return KCryptoPluginMd4Uid;
}
void CMD4Impl::DoUpdate(const TUint8* aData,TUint aLength)
{
const TUint8* pend=aData+aLength;
for (const TUint8* paData=aData;paData<pend;paData++)
{
const TUint8 byte=*paData;
switch (iNl&3)
{
case 0:
iData[iNl>>2]=byte;
break;
case 1:
iData[iNl>>2]|=byte<<8;
break;
case 2:
iData[iNl>>2]|=byte<<16;
break;
case 3:
iData[iNl>>2]|=byte<<24;
break;
default:
break;
};
if(++iNl==64)
{
Block();
iNh+=64;
iNl=0;
}
}
}
static inline TUint CMD4_F(TUint x,TUint y,TUint z)
{
return (x&y) | (~x&z);
}
static inline TUint CMD4_G(TUint x,TUint y,TUint z)
{
return (x&y) | (x&z) | (y&z);
}
static inline TUint CMD4_H(TUint x,TUint y,TUint z)
{
return x^y^z;
}
#ifdef NOREFS
static inline TUint CMD4_FF(TUint a,const TUint b,const TUint c,const TUint d,const TUint x,const TUint s)
{
a+=CMD4_F(b,c,d) + x;
a=CMD_R(a,s);
return a;
}
static inline TUint CMD4_GG(TUint a,const TUint b,const TUint c,const TUint d,const TUint x,const TUint s)
{
a+=CMD4_G(b,c,d) + x + (TUint32)0x5a827999;
a=CMD_R(a,s);
return a;
}
static inline TUint CMD4_HH(TUint a,const TUint b,const TUint c,const TUint d,const TUint x,const TUint s)
{
a+=CMD4_H(b,c,d) + x + (TUint32)0x6ed9eba1;
a=CMD_R(a,s);
return a;
}
void CMD4Impl::Block()
{
register TUint tempA=iA;
register TUint tempB=iB;
register TUint tempC=iC;
register TUint tempD=iD;
tempA = CMD4_FF(tempA,tempB,tempC,tempD,iData[ 0],3);
tempD = CMD4_FF(tempD,tempA,tempB,tempC,iData[ 1],7);
tempC = CMD4_FF(tempC,tempD,tempA,tempB,iData[ 2],11);
tempB = CMD4_FF(tempB,tempC,tempD,tempA,iData[ 3],19);
tempA = CMD4_FF(tempA,tempB,tempC,tempD,iData[ 4],3);
tempD = CMD4_FF(tempD,tempA,tempB,tempC,iData[ 5],7);
tempC = CMD4_FF(tempC,tempD,tempA,tempB,iData[ 6],11);
tempB = CMD4_FF(tempB,tempC,tempD,tempA,iData[ 7],19);
tempA = CMD4_FF(tempA,tempB,tempC,tempD,iData[ 8],3);
tempD = CMD4_FF(tempD,tempA,tempB,tempC,iData[ 9],7);
tempC = CMD4_FF(tempC,tempD,tempA,tempB,iData[10],11);
tempB = CMD4_FF(tempB,tempC,tempD,tempA,iData[11],19);
tempA = CMD4_FF(tempA,tempB,tempC,tempD,iData[12],3);
tempD = CMD4_FF(tempD,tempA,tempB,tempC,iData[13],7);
tempC = CMD4_FF(tempC,tempD,tempA,tempB,iData[14],11);
tempB = CMD4_FF(tempB,tempC,tempD,tempA,iData[15],19);
tempA = CMD4_GG(tempA,tempB,tempC,tempD,iData[ 0],3);
tempD = CMD4_GG(tempD,tempA,tempB,tempC,iData[ 4],5);
tempC = CMD4_GG(tempC,tempD,tempA,tempB,iData[ 8],9);
tempB = CMD4_GG(tempB,tempC,tempD,tempA,iData[12],13);
tempA = CMD4_GG(tempA,tempB,tempC,tempD,iData[ 1],3);
tempD = CMD4_GG(tempD,tempA,tempB,tempC,iData[ 5],5);
tempC = CMD4_GG(tempC,tempD,tempA,tempB,iData[ 9],9);
tempB = CMD4_GG(tempB,tempC,tempD,tempA,iData[13],13);
tempA = CMD4_GG(tempA,tempB,tempC,tempD,iData[ 2],3);
tempD = CMD4_GG(tempD,tempA,tempB,tempC,iData[ 6],5);
tempC = CMD4_GG(tempC,tempD,tempA,tempB,iData[10],9);
tempB = CMD4_GG(tempB,tempC,tempD,tempA,iData[14],13);
tempA = CMD4_GG(tempA,tempB,tempC,tempD,iData[ 3],3);
tempD = CMD4_GG(tempD,tempA,tempB,tempC,iData[ 7],5);
tempC = CMD4_GG(tempC,tempD,tempA,tempB,iData[11],9);
tempB = CMD4_GG(tempB,tempC,tempD,tempA,iData[15],13);
tempA = CMD4_HH(tempA,tempB,tempC,tempD,iData[ 0],3);
tempD = CMD4_HH(tempD,tempA,tempB,tempC,iData[ 8],9);
tempC = CMD4_HH(tempC,tempD,tempA,tempB,iData[ 4],11);
tempB = CMD4_HH(tempB,tempC,tempD,tempA,iData[12],15);
tempA = CMD4_HH(tempA,tempB,tempC,tempD,iData[ 2],3);
tempD = CMD4_HH(tempD,tempA,tempB,tempC,iData[10],9);
tempC = CMD4_HH(tempC,tempD,tempA,tempB,iData[ 6],11);
tempB = CMD4_HH(tempB,tempC,tempD,tempA,iData[14],15);
tempA = CMD4_HH(tempA,tempB,tempC,tempD,iData[ 1],3);
tempD = CMD4_HH(tempD,tempA,tempB,tempC,iData[ 9],9);
tempC = CMD4_HH(tempC,tempD,tempA,tempB,iData[ 5],11);
tempB = CMD4_HH(tempB,tempC,tempD,tempA,iData[13],15);
tempA = CMD4_HH(tempA,tempB,tempC,tempD,iData[ 3],3);
tempD = CMD4_HH(tempD,tempA,tempB,tempC,iData[11],9);
tempC = CMD4_HH(tempC,tempD,tempA,tempB,iData[ 7],11);
tempB = CMD4_HH(tempB,tempC,tempD,tempA,iData[15],15);
iA+=tempA;
iB+=tempB;
iC+=tempC;
iD+=tempD;
}
#else
#ifdef MACRO
#define CMD4_FF(a, b, c, d, x, s) (CMD_R(a += CMD4_F(b,c,d) + x, s))
#define CMD4_GG(a, b, c, d, x, s) (CMD_R(a += CMD4_G(b,c,d) + x + (TUint32)0x5a827999, s))
#define CMD4_HH(a, b, c, d, x, s) (CMD_R(a += CMD4_H(b,c,d) + x + (TUint32)0x6ed9eba1, s))
void CMD4Impl::Block()
{
register TUint tempA=iA;
register TUint tempB=iB;
register TUint tempC=iC;
register TUint tempD=iD;
tempA = CMD4_FF(tempA,tempB,tempC,tempD,iData[ 0],3);
tempD = CMD4_FF(tempD,tempA,tempB,tempC,iData[ 1],7);
tempC = CMD4_FF(tempC,tempD,tempA,tempB,iData[ 2],11);
tempB = CMD4_FF(tempB,tempC,tempD,tempA,iData[ 3],19);
tempA = CMD4_FF(tempA,tempB,tempC,tempD,iData[ 4],3);
tempD = CMD4_FF(tempD,tempA,tempB,tempC,iData[ 5],7);
tempC = CMD4_FF(tempC,tempD,tempA,tempB,iData[ 6],11);
tempB = CMD4_FF(tempB,tempC,tempD,tempA,iData[ 7],19);
tempA = CMD4_FF(tempA,tempB,tempC,tempD,iData[ 8],3);
tempD = CMD4_FF(tempD,tempA,tempB,tempC,iData[ 9],7);
tempC = CMD4_FF(tempC,tempD,tempA,tempB,iData[10],11);
tempB = CMD4_FF(tempB,tempC,tempD,tempA,iData[11],19);
tempA = CMD4_FF(tempA,tempB,tempC,tempD,iData[12],3);
tempD = CMD4_FF(tempD,tempA,tempB,tempC,iData[13],7);
tempC = CMD4_FF(tempC,tempD,tempA,tempB,iData[14],11);
tempB = CMD4_FF(tempB,tempC,tempD,tempA,iData[15],19);
tempA = CMD4_GG(tempA,tempB,tempC,tempD,iData[ 0],3);
tempD = CMD4_GG(tempD,tempA,tempB,tempC,iData[ 4],5);
tempC = CMD4_GG(tempC,tempD,tempA,tempB,iData[ 8],9);
tempB = CMD4_GG(tempB,tempC,tempD,tempA,iData[12],13);
tempA = CMD4_GG(tempA,tempB,tempC,tempD,iData[ 1],3);
tempD = CMD4_GG(tempD,tempA,tempB,tempC,iData[ 5],5);
tempC = CMD4_GG(tempC,tempD,tempA,tempB,iData[ 9],9);
tempB = CMD4_GG(tempB,tempC,tempD,tempA,iData[13],13);
tempA = CMD4_GG(tempA,tempB,tempC,tempD,iData[ 2],3);
tempD = CMD4_GG(tempD,tempA,tempB,tempC,iData[ 6],5);
tempC = CMD4_GG(tempC,tempD,tempA,tempB,iData[10],9);
tempB = CMD4_GG(tempB,tempC,tempD,tempA,iData[14],13);
tempA = CMD4_GG(tempA,tempB,tempC,tempD,iData[ 3],3);
tempD = CMD4_GG(tempD,tempA,tempB,tempC,iData[ 7],5);
tempC = CMD4_GG(tempC,tempD,tempA,tempB,iData[11],9);
tempB = CMD4_GG(tempB,tempC,tempD,tempA,iData[15],13);
tempA = CMD4_HH(tempA,tempB,tempC,tempD,iData[ 0],3);
tempD = CMD4_HH(tempD,tempA,tempB,tempC,iData[ 8],9);
tempC = CMD4_HH(tempC,tempD,tempA,tempB,iData[ 4],11);
tempB = CMD4_HH(tempB,tempC,tempD,tempA,iData[12],15);
tempA = CMD4_HH(tempA,tempB,tempC,tempD,iData[ 2],3);
tempD = CMD4_HH(tempD,tempA,tempB,tempC,iData[10],9);
tempC = CMD4_HH(tempC,tempD,tempA,tempB,iData[ 6],11);
tempB = CMD4_HH(tempB,tempC,tempD,tempA,iData[14],15);
tempA = CMD4_HH(tempA,tempB,tempC,tempD,iData[ 1],3);
tempD = CMD4_HH(tempD,tempA,tempB,tempC,iData[ 9],9);
tempC = CMD4_HH(tempC,tempD,tempA,tempB,iData[ 5],11);
tempB = CMD4_HH(tempB,tempC,tempD,tempA,iData[13],15);
tempA = CMD4_HH(tempA,tempB,tempC,tempD,iData[ 3],3);
tempD = CMD4_HH(tempD,tempA,tempB,tempC,iData[11],9);
tempC = CMD4_HH(tempC,tempD,tempA,tempB,iData[ 7],11);
tempB = CMD4_HH(tempB,tempC,tempD,tempA,iData[15],15);
iA+=tempA;
iB+=tempB;
iC+=tempC;
iD+=tempD;
}
#else
static inline void CMD4_FF(TUint& a,const TUint b,const TUint c,const TUint d,const TUint x,const TUint s)
{
a+=CMD4_F(b,c,d) + x;
a=CMD_R(a,s);
}
static inline void CMD4_GG(TUint& a,const TUint b,const TUint c,const TUint d,const TUint x,const TUint s)
{
a+=CMD4_G(b,c,d) + x + (TUint32)0x5a827999;
a=CMD_R(a,s);
}
static inline void CMD4_HH(TUint& a,const TUint b,const TUint c,const TUint d,const TUint x,const TUint s)
{
a+=CMD4_H(b,c,d) + x + (TUint32)0x6ed9eba1;
a=CMD_R(a,s);
}
void CMD4Impl::Block()
{
register TUint tempA=iA;
register TUint tempB=iB;
register TUint tempC=iC;
register TUint tempD=iD;
CMD4_FF(tempA,tempB,tempC,tempD,iData[ 0],3);
CMD4_FF(tempD,tempA,tempB,tempC,iData[ 1],7);
CMD4_FF(tempC,tempD,tempA,tempB,iData[ 2],11);
CMD4_FF(tempB,tempC,tempD,tempA,iData[ 3],19);
CMD4_FF(tempA,tempB,tempC,tempD,iData[ 4],3);
CMD4_FF(tempD,tempA,tempB,tempC,iData[ 5],7);
CMD4_FF(tempC,tempD,tempA,tempB,iData[ 6],11);
CMD4_FF(tempB,tempC,tempD,tempA,iData[ 7],19);
CMD4_FF(tempA,tempB,tempC,tempD,iData[ 8],3);
CMD4_FF(tempD,tempA,tempB,tempC,iData[ 9],7);
CMD4_FF(tempC,tempD,tempA,tempB,iData[10],11);
CMD4_FF(tempB,tempC,tempD,tempA,iData[11],19);
CMD4_FF(tempA,tempB,tempC,tempD,iData[12],3);
CMD4_FF(tempD,tempA,tempB,tempC,iData[13],7);
CMD4_FF(tempC,tempD,tempA,tempB,iData[14],11);
CMD4_FF(tempB,tempC,tempD,tempA,iData[15],19);
CMD4_GG(tempA,tempB,tempC,tempD,iData[ 0],3);
CMD4_GG(tempD,tempA,tempB,tempC,iData[ 4],5);
CMD4_GG(tempC,tempD,tempA,tempB,iData[ 8],9);
CMD4_GG(tempB,tempC,tempD,tempA,iData[12],13);
CMD4_GG(tempA,tempB,tempC,tempD,iData[ 1],3);
CMD4_GG(tempD,tempA,tempB,tempC,iData[ 5],5);
CMD4_GG(tempC,tempD,tempA,tempB,iData[ 9],9);
CMD4_GG(tempB,tempC,tempD,tempA,iData[13],13);
CMD4_GG(tempA,tempB,tempC,tempD,iData[ 2],3);
CMD4_GG(tempD,tempA,tempB,tempC,iData[ 6],5);
CMD4_GG(tempC,tempD,tempA,tempB,iData[10],9);
CMD4_GG(tempB,tempC,tempD,tempA,iData[14],13);
CMD4_GG(tempA,tempB,tempC,tempD,iData[ 3],3);
CMD4_GG(tempD,tempA,tempB,tempC,iData[ 7],5);
CMD4_GG(tempC,tempD,tempA,tempB,iData[11],9);
CMD4_GG(tempB,tempC,tempD,tempA,iData[15],13);
CMD4_HH(tempA,tempB,tempC,tempD,iData[ 0],3);
CMD4_HH(tempD,tempA,tempB,tempC,iData[ 8],9);
CMD4_HH(tempC,tempD,tempA,tempB,iData[ 4],11);
CMD4_HH(tempB,tempC,tempD,tempA,iData[12],15);
CMD4_HH(tempA,tempB,tempC,tempD,iData[ 2],3);
CMD4_HH(tempD,tempA,tempB,tempC,iData[10],9);
CMD4_HH(tempC,tempD,tempA,tempB,iData[ 6],11);
CMD4_HH(tempB,tempC,tempD,tempA,iData[14],15);
CMD4_HH(tempA,tempB,tempC,tempD,iData[ 1],3);
CMD4_HH(tempD,tempA,tempB,tempC,iData[ 9],9);
CMD4_HH(tempC,tempD,tempA,tempB,iData[ 5],11);
CMD4_HH(tempB,tempC,tempD,tempA,iData[13],15);
CMD4_HH(tempA,tempB,tempC,tempD,iData[ 3],3);
CMD4_HH(tempD,tempA,tempB,tempC,iData[11],9);
CMD4_HH(tempC,tempD,tempA,tempB,iData[ 7],11);
CMD4_HH(tempB,tempC,tempD,tempA,iData[15],15);
iA+=tempA;
iB+=tempB;
iC+=tempC;
iD+=tempD;
}
#endif
#endif
void CMD4Impl::DoFinal(void)
{
iNh += iNl;
const TUint ul128=128;
switch (iNl&3)
{
case 0:
iData[iNl>>2] = ul128;
break;
case 1:
iData[iNl>>2] += ul128<<8;
break;
case 2:
iData[iNl>>2] += ul128<<16;
break;
case 3:
iData[iNl>>2] += ul128<<24;
break;
default:
break;
};
if (iNl>=56)
{
if (iNl<60)
iData[15]=0;
Block();
Mem::FillZ(iData,14*sizeof(TUint));
}
else
{
const TUint offset=(iNl+4)>>2;
Mem::FillZ(iData+offset,(14-offset)*sizeof(TUint));
}
iData[14]=iNh<<3;//number in bits
// this will fail if the total input length is longer than 2^32 in bits
//(2^31 in bytes) which is roughly half a gig.
iData[15]=0;
Block();
//
// Generate hash value into iHash
//
TUint tmp=iA;
iHash[0]=(TUint8)(tmp & 255);
iHash[1]=(TUint8)((tmp >>= 8) & 255);
iHash[2]=(TUint8)((tmp >>= 8) & 255);
iHash[3]=(TUint8)((tmp >>= 8) & 255);
tmp=iB;
iHash[4]=(TUint8)(tmp & 255);
iHash[5]=(TUint8)((tmp >>= 8) & 255);
iHash[6]=(TUint8)((tmp >>= 8) & 255);
iHash[7]=(TUint8)((tmp >>= 8) & 255);
tmp=iC;
iHash[8] =(TUint8)(tmp & 255);
iHash[9] =(TUint8)((tmp >>= 8) & 255);
iHash[10]=(TUint8)((tmp >>= 8) & 255);
iHash[11]=(TUint8)((tmp >>= 8) & 255);
tmp=iD;
iHash[12]=(TUint8)(tmp & 255);
iHash[13]=(TUint8)((tmp >>= 8) & 255);
iHash[14]=(TUint8)((tmp >>= 8) & 255);
iHash[15]=(TUint8)((tmp >>= 8) & 255);
}
void CMD4Impl::RestoreState()
{
iA = iACopy;
iB = iBCopy;
iC = iCCopy;
iD = iDCopy;
iNl = iNlCopy;
iNh = iNhCopy;
Mem::Copy(&iData[0], &iDataCopy[0], KMD4BlockSize*sizeof(TUint));
}
void CMD4Impl::StoreState()
{
iACopy = iA;
iBCopy = iB;
iCCopy = iC;
iDCopy = iD;
iNlCopy = iNl;
iNhCopy = iNh;
Mem::Copy(&iDataCopy[0], &iData[0], KMD4BlockSize*sizeof(TUint));
}
// Implemented in hmacimpl.cpp or softwarehashbase.cpp
// but required as derived from MHash. No coverage here.
#ifdef _BullseyeCoverage
#pragma suppress_warnings on
#pragma BullseyeCoverage off
#pragma suppress_warnings off
#endif
TAny* CMD4Impl::GetExtension(TUid /*aExtensionId*/)
{
return NULL;
}
void CMD4Impl::SetOperationModeL(TUid /*aOperationMode*/)
{
User::Leave(KErrNotSupported);
}
void CMD4Impl::SetKeyL(const CKey& /*aKey*/)
{
User::Leave(KErrNotSupported);
}