--- /dev/null Thu Jan 01 00:00:00 1970 +0000
+++ b/cryptoplugins/cryptospiplugins/source/softwarecrypto/dsasignerimpl.cpp Fri Nov 06 13:21:00 2009 +0200
@@ -0,0 +1,137 @@
+/*
+* Copyright (c) 2006-2009 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 "dsasignerimpl.h"
+#include "pluginconfig.h"
+
+using namespace SoftwareCrypto;
+
+// Implementation of CDSASignerImpl
+CDSASignerImpl* CDSASignerImpl::NewL(const CKey& aKey)
+ {
+ CDSASignerImpl* self = CDSASignerImpl::NewLC(aKey);
+ CleanupStack::Pop(self);
+ return self;
+ }
+
+CDSASignerImpl* CDSASignerImpl::NewLC(const CKey& aKey)
+ {
+ CDSASignerImpl* self = new(ELeave) CDSASignerImpl();
+ CleanupStack::PushL(self);
+ self->ConstructL(aKey);
+ return self;
+ }
+
+CDSASignerImpl::CDSASignerImpl()
+ {
+ }
+
+CDSASignerImpl::~CDSASignerImpl()
+ {
+ }
+
+void CDSASignerImpl::ConstructL(const CKey& aKey)
+ {
+ CSignerImpl::ConstructL(aKey);
+ }
+
+CExtendedCharacteristics* CDSASignerImpl::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* CDSASignerImpl::GetExtendedCharacteristicsL()
+ {
+ return CDSASignerImpl::CreateExtendedCharacteristicsL();
+ }
+
+TUid CDSASignerImpl::ImplementationUid() const
+ {
+ return KCryptoPluginDsaSignerUid;
+ }
+
+void CDSASignerImpl::SetKeyL(const CKey& aPrivateKey)
+ {
+ DoSetKeyL(aPrivateKey);
+ Reset();
+ }
+
+TInt CDSASignerImpl::GetMaximumInputLengthL() const
+ {
+ return KSha1HashLength;
+ }
+
+void CDSASignerImpl::SignL(const TDesC8& aInput, CCryptoParams& aSignature)
+ {
+
+ //see HAC 11.56 or DSS section 5
+ //I'll follow HAC as I like its description better
+ //We don't check that r and s are non both non-null like the DSS
+ //states you _optionally_ can. The chances of this are _incredibly_ small.
+ //You've got a much better chance of a bit failure ocurring in the hardware
+ //than this.
+
+ const TInteger& tQ=iKey->GetBigIntL(KDsaKeyParameterQUid);
+
+ // a) Select a random secret integer (k | 0 < k < q)
+ RInteger qminus1 = RInteger::NewL(tQ);
+ CleanupStack::PushL(qminus1);
+ --qminus1;
+ RInteger k = RInteger::NewRandomL(TInteger::One(), qminus1);
+ CleanupStack::PopAndDestroy(&qminus1);
+ CleanupStack::PushL(k);
+
+
+ // b) compute r = (g^k mod p) mod q
+
+ const TInteger& tG=iKey->GetBigIntL(KDsaKeyParameterGUid);
+ const TInteger& tP=iKey->GetBigIntL(KDsaKeyParameterPUid);
+ RInteger r = TInteger::ModularExponentiateL(tG, k, tP);
+ CleanupStack::PushL(r);
+ r %=tQ;
+
+
+ // c) compute k^(-1) mod q
+
+ RInteger kinv = k.InverseModL(tQ);
+ CleanupStack::PushL(kinv);
+
+
+ // d) compute s = k^(-1) * {h(m) + xr} mod q
+ // Note that in order to be interoperable, compliant with the DSS, and
+ // secure, aInput must be the result of a SHA-1 hash
+
+ RInteger hm = RInteger::NewL(aInput);
+ CleanupStack::PushL(hm);
+
+ const TInteger& tX=iKey->GetBigIntL(KDsaKeyParameterXUid);
+ RInteger s = tX.TimesL(r);
+ CleanupStack::PushL(s);
+ s += hm;
+ s *= kinv;
+ s %= tQ;
+
+
+ // e) signature for m is the pair (r,s)
+ aSignature.AddL(r, KDsaSignatureParameterRUid);
+ aSignature.AddL(s, KDsaSignatureParameterSUid);
+
+ CleanupStack::PopAndDestroy(5, &k);
+ }