FCL/sf/mw/vpnclient: comparison vpnengine/ikev2lib/src/ikev2message.cpp

equal deleted inserted replaced

--1:000000000000
+:33413c0669b9
+/*
+* Copyright (c) 2009 Nokia Corporation and/or its subsidiary(-ies).
+* All rights reserved.
+* This component and the accompanying materials are made available
+* under the terms of "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 <es_sock.h>
+#include <badesca.h>
+#include <random.h>
+#include "ikev2message.h"
+#include "ikev2const.h"
+#include "ikecalist.h"
+#include "ikecaelem.h"
+#include "ikev2trafficselector.h"
+#include "ikecrypto.h"
+#include "ikev2identity.h"
+#include "ikemsgheader.h"
+#include "ikedebug.h"
+static const TUint8 KMessageIdFieldOffset = 20;
+static const TUint KIkePayloadGenericHeaderLength = 4;
+static const TUint8 KLengthFieldOffset = 2;
+static const TUint32 KSha1Length = 20;
+static const TUint32 KCertReqHeaderLength = 5;
+static const TUint32 KCertHeaderLength = 5;
+static const TUint32 KSaHeaderLength = 4;
+static const TUint32 KKeHeaderLength = 8;
+static const TUint32 KNonceHeaderLength = 4;
+static const TUint32 KAuthHeaderLength = 8;
+static const TUint32 KNotifyHeaderLength = 8;
+static const TUint32 KConfigurationHeaderLength = 8;
+static const TUint32 KVendorIdHeaderLength = 4;
+static const TUint32 KDeleteHeaderLength = 8;
+static const TUint32 KEapHeaderLength = 4;
+static const TUint32 KTsHeaderLength = 8;
+static const TUint32 KEncryptedHeaderLength = 4;
+_LIT8(KNonEspMarker, "\0\0\0\0");
+CIkeV2Payload::CIkeV2Payload(TUint8 aPayloadType)
+:iPayloadType(aPayloadType)
+{
+}
+CIkeV2Payload::~CIkeV2Payload()
+{
+delete iPayloadData;
+}
+TUint8 CIkeV2Payload::PayloadType() const
+{
+return iPayloadType;
+}
+TUint8 CIkeV2Payload::NextPayload() const
+{
+__ASSERT_DEBUG(iPayloadData->Length() >= KIkePayloadGenericHeaderLength,
+User::Invariant());
+return (*iPayloadData)[0];
+}
+void CIkeV2Payload::SetNextPayload(TUint8 aNextPayload)
+{
+__ASSERT_DEBUG(iPayloadData->Length() >= KIkePayloadGenericHeaderLength,
+User::Invariant());
+TPtr8 payloadDataPtr(iPayloadData->Des());
+payloadDataPtr[0] = aNextPayload;
+}
+TUint16 CIkeV2Payload::PayloadLength() const
+{
+__ASSERT_DEBUG(iPayloadData->Length() >= KIkePayloadGenericHeaderLength,
+User::Invariant());
+return BigEndian::Get16(iPayloadData->Ptr() + KLengthFieldOffset);
+}
+void CIkeV2Payload::SetPayloadLength(TUint16 aLength)
+{
+__ASSERT_DEBUG(iPayloadData->Length() >= KIkePayloadGenericHeaderLength,
+User::Invariant());
+const TUint KLengthPosition = 2;
+BigEndian::Put16(reinterpret_cast<TUint8*>(&aLength), aLength);
+TPtrC8 length(reinterpret_cast<TUint8*>(&aLength), sizeof(aLength));
+TPtr8 lengthPtr(iPayloadData->Des().MidTPtr(KLengthPosition,
+length.Length()));
+lengthPtr = length;
+}
+TPtrC8 CIkeV2Payload::PayloadData() const
+{
+return TPtrC8(*iPayloadData);
+}
+CIkevV2CertReqPayload* CIkevV2CertReqPayload::NewL(const CIkeCaList& aCaList)
+{
+CIkevV2CertReqPayload* self = new (ELeave) CIkevV2CertReqPayload;
+CleanupStack::PushL(self);
+self->ConstructL(aCaList);
+CleanupStack::Pop(self);
+return self;
+}
+CIkevV2CertReqPayload::CIkevV2CertReqPayload()
+:CIkeV2Payload(IKEV2_PAYLOAD_CR)
+{
+}
+void CIkevV2CertReqPayload::ConstructL(const CIkeCaList& aCaList)
+{
+__ASSERT_DEBUG(aCaList.Count() > 0, User::Invariant());
+TUint16 length = (aCaList.Count() * KSha1Length) + KCertReqHeaderLength;
+iPayloadData = HBufC8::NewL(length);
+TPtr8 payloadDataPtr(iPayloadData->Des());
+payloadDataPtr.SetLength(KIkePayloadGenericHeaderLength);
+payloadDataPtr.FillZ();
+SetPayloadLength(length);
+TUint8 encoding = X509_CERTIFICATE_SIGN;
+TPtrC8 encodingPtr(&encoding, sizeof(encoding));
+payloadDataPtr.Append(encodingPtr);
+for (TUint i = 0; i < aCaList.Count(); ++i)
+{
+payloadDataPtr.Append(aCaList[i]->KeyHash());
+}
+__ASSERT_DEBUG(PayloadLength() == iPayloadData->Length(), User::Invariant());
+}
+CIkevV2CertPayload* CIkevV2CertPayload::NewL(const TDesC8& aCertData)
+{
+CIkevV2CertPayload* self = new (ELeave) CIkevV2CertPayload;
+CleanupStack::PushL(self);
+self->ConstructL(aCertData);
+CleanupStack::Pop(self);
+return self;
+}
+CIkevV2CertPayload::CIkevV2CertPayload()
+:CIkeV2Payload(IKEV2_PAYLOAD_CERT)
+{
+}
+void CIkevV2CertPayload::ConstructL(const TDesC8& aCertData)
+{
+TUint16 length = aCertData.Length() + KCertHeaderLength;
+iPayloadData = HBufC8::NewL(length);
+TPtr8 payloadDataPtr(iPayloadData->Des());
+payloadDataPtr.SetLength(KIkePayloadGenericHeaderLength);
+payloadDataPtr.FillZ();
+SetPayloadLength(length);
+TUint8 encoding = X509_CERTIFICATE_SIGN;
+TPtrC8 encodingPtr(&encoding, sizeof(encoding));
+payloadDataPtr.Append(encodingPtr);
+payloadDataPtr.Append(aCertData);
+__ASSERT_DEBUG(PayloadLength() == iPayloadData->Length(), User::Invariant());
+}
+CIkevV2SaPayload* CIkevV2SaPayload::NewL(const TDesC8& aSaData)
+{
+CIkevV2SaPayload* self = new (ELeave) CIkevV2SaPayload;
+CleanupStack::PushL(self);
+self->ConstructL(aSaData);
+CleanupStack::Pop(self);
+return self;
+}
+CIkevV2SaPayload::CIkevV2SaPayload()
+:CIkeV2Payload(IKEV2_PAYLOAD_SA)
+{
+}
+void CIkevV2SaPayload::ConstructL(const TDesC8& aSaData)
+{
+TUint16 length = aSaData.Length() + KSaHeaderLength;
+iPayloadData = HBufC8::NewL(length);
+TPtr8 payloadDataPtr(iPayloadData->Des());
+payloadDataPtr.SetLength(KIkePayloadGenericHeaderLength);
+payloadDataPtr.FillZ();
+SetPayloadLength(length);
+payloadDataPtr.Append(aSaData);
+__ASSERT_DEBUG(PayloadLength() == iPayloadData->Length(), User::Invariant());
+}
+CIkevV2KePayload* CIkevV2KePayload::NewL(TUint16 aDHGroup, const TDesC8& aKeData)
+{
+CIkevV2KePayload* self = new (ELeave) CIkevV2KePayload;
+CleanupStack::PushL(self);
+self->ConstructL(aDHGroup, aKeData);
+CleanupStack::Pop(self);
+return self;
+}
+CIkevV2KePayload::CIkevV2KePayload()
+:CIkeV2Payload(IKEV2_PAYLOAD_KE)
+{
+}
+void CIkevV2KePayload::ConstructL(TUint16 aDHGroup, const TDesC8& aKeData)
+{
+static const TUint8 KReservedFieldLength = 2;
+TUint16 length = aKeData.Length() + KKeHeaderLength;
+iPayloadData = HBufC8::NewL(length);
+TPtr8 payloadDataPtr(iPayloadData->Des());
+payloadDataPtr.SetLength(KIkePayloadGenericHeaderLength);
+payloadDataPtr.FillZ();
+SetPayloadLength(length);
+BigEndian::Put16(reinterpret_cast<TUint8*>(&aDHGroup), aDHGroup);
+TPtrC8 dhGroupPtr(reinterpret_cast<TUint8*>(&aDHGroup), sizeof(aDHGroup));
+payloadDataPtr.Append(dhGroupPtr);
+//Leave reserved bytes zero
+payloadDataPtr.SetLength(payloadDataPtr.Length() + KReservedFieldLength);
+TPtr8 reservedBytes = payloadDataPtr.RightTPtr(KReservedFieldLength);
+reservedBytes.FillZ();
+payloadDataPtr.Append(aKeData);
+__ASSERT_DEBUG(PayloadLength() == iPayloadData->Length(), User::Invariant());
+}
+CIkevV2NoncePayload* CIkevV2NoncePayload::NewL(const TDesC8& aNonceData)
+{
+CIkevV2NoncePayload* self = new (ELeave) CIkevV2NoncePayload;
+CleanupStack::PushL(self);
+self->ConstructL(aNonceData);
+CleanupStack::Pop(self);
+return self;
+}
+CIkevV2NoncePayload::CIkevV2NoncePayload()
+:CIkeV2Payload(IKEV2_PAYLOAD_NONCE)
+{
+}
+void CIkevV2NoncePayload::ConstructL(const TDesC8& aNonceData)
+{
+TUint16 length = aNonceData.Length() + KNonceHeaderLength;
+iPayloadData = HBufC8::NewL(length);
+TPtr8 payloadDataPtr(iPayloadData->Des());
+payloadDataPtr.SetLength(KIkePayloadGenericHeaderLength);
+payloadDataPtr.FillZ();
+SetPayloadLength(length);
+payloadDataPtr.Append(aNonceData);
+__ASSERT_DEBUG(PayloadLength() == iPayloadData->Length(), User::Invariant());
+}
+CIkevV2IdPayload::CIkevV2IdPayload(TUint8 aPayloadType)
+:CIkeV2Payload(aPayloadType)
+{
+}
+void CIkevV2IdPayload::ConstructL(const CIkeV2Identity& aIdentity)
+{
+TPtrC8 idPayloadData = aIdentity.PayloadData();
+TUint32 length = idPayloadData.Length() + KIkePayloadGenericHeaderLength;
+iPayloadData = HBufC8::NewL(length);
+TPtr8 payloadDataPtr(iPayloadData->Des());
+payloadDataPtr.SetLength(KIkePayloadGenericHeaderLength);
+payloadDataPtr.FillZ();
+SetPayloadLength(length);
+payloadDataPtr.Append(idPayloadData);
+__ASSERT_DEBUG(PayloadLength() == iPayloadData->Length(), User::Invariant());
+}
+CIkevV2IdiPayload* CIkevV2IdiPayload::NewL(const CIkeV2Identity& aIdentity)
+{
+CIkevV2IdiPayload* self = new (ELeave) CIkevV2IdiPayload;
+CleanupStack::PushL(self);
+self->ConstructL(aIdentity);
+CleanupStack::Pop(self);
+return self;
+}
+CIkevV2IdiPayload::CIkevV2IdiPayload()
+:CIkevV2IdPayload(IKEV2_PAYLOAD_ID_I)
+{
+}
+CIkevV2IdrPayload* CIkevV2IdrPayload::NewL(const CIkeV2Identity& aIdentity)
+{
+CIkevV2IdrPayload* self = new (ELeave) CIkevV2IdrPayload;
+CleanupStack::PushL(self);
+self->ConstructL(aIdentity);
+CleanupStack::Pop(self);
+return self;
+}
+CIkevV2IdrPayload::CIkevV2IdrPayload()
+:CIkevV2IdPayload(IKEV2_PAYLOAD_ID_R)
+{
+}
+CIkeV2AuthPayload* CIkeV2AuthPayload::NewL(TUint8 aAuthMethod, const TDesC8& aAuthData)
+{
+CIkeV2AuthPayload* self = new (ELeave) CIkeV2AuthPayload;
+CleanupStack::PushL(self);
+self->ConstructL(aAuthMethod, aAuthData);
+CleanupStack::Pop(self);
+return self;
+}
+CIkeV2AuthPayload::CIkeV2AuthPayload()
+:CIkeV2Payload(IKEV2_PAYLOAD_AUTH)
+{
+}
+void CIkeV2AuthPayload::ConstructL(TUint8 aAuthMethod, const TDesC8& aAuthData)
+{
+static const TUint8 KReservedFieldLength = 3;
+TUint32 length = aAuthData.Length() + KAuthHeaderLength;
+iPayloadData = HBufC8::NewL(length);
+TPtr8 payloadDataPtr(iPayloadData->Des());
+payloadDataPtr.SetLength(KIkePayloadGenericHeaderLength);
+payloadDataPtr.FillZ();
+SetPayloadLength(length);
+TPtrC8 authTypePtr(&aAuthMethod, sizeof(aAuthMethod));
+payloadDataPtr.Append(authTypePtr);
+//Leave reserved bytes zero
+payloadDataPtr.SetLength(payloadDataPtr.Length() + KReservedFieldLength);
+TPtr8 reservedField = payloadDataPtr.RightTPtr(KReservedFieldLength);
+reservedField.FillZ();
+payloadDataPtr.Append(aAuthData);
+__ASSERT_DEBUG(PayloadLength() == iPayloadData->Length(), User::Invariant());
+}
+CIkeV2NotifyPayload* CIkeV2NotifyPayload::NewL(TUint8 aProtocolId,
+const TDesC8& aSpi,
+TUint16 aNotifyType,
+const TDesC8& aNotifyData)
+{
+CIkeV2NotifyPayload* self = new (ELeave) CIkeV2NotifyPayload;
+CleanupStack::PushL(self);
+self->ConstructL(aProtocolId, aSpi, aNotifyType, aNotifyData);
+CleanupStack::Pop(self);
+return self;
+}
+CIkeV2NotifyPayload::CIkeV2NotifyPayload()
+:CIkeV2Payload(IKEV2_PAYLOAD_NOTIF)
+{
+}
+void CIkeV2NotifyPayload::ConstructL(TUint8 aProtocolId,
+const TDesC8& aSpi,
+TUint16 aNotifyType,
+const TDesC8& aNotifyData)
+{
+TUint32 length = aSpi.Length() + aNotifyData.Length() + KNotifyHeaderLength;
+iPayloadData = HBufC8::NewL(length);
+TPtr8 payloadDataPtr(iPayloadData->Des());
+payloadDataPtr.SetLength(KIkePayloadGenericHeaderLength);
+payloadDataPtr.FillZ();
+SetPayloadLength(length);
+TPtrC8 protocolIdPtr(&aProtocolId, sizeof(aProtocolId));
+TUint8 spiSize = aSpi.Length();
+TPtrC8 spiSizePtr(&spiSize, sizeof(spiSize));
+BigEndian::Put16(reinterpret_cast<TUint8*>(&aNotifyType), aNotifyType);
+TPtrC8 notifyTypePtr(reinterpret_cast<TUint8*>(&aNotifyType), sizeof(aNotifyType));
+payloadDataPtr.Append(protocolIdPtr);
+payloadDataPtr.Append(spiSizePtr);
+payloadDataPtr.Append(notifyTypePtr);
+payloadDataPtr.Append(aSpi);
+payloadDataPtr.Append(aNotifyData);
+__ASSERT_DEBUG(PayloadLength() == iPayloadData->Length(), User::Invariant());
+}
+CIkeV2ConfigurationPayload* CIkeV2ConfigurationPayload::NewL(TUint8 aCfgType,
+const TDesC8& aConfigurationData)
+{
+CIkeV2ConfigurationPayload* self = new (ELeave) CIkeV2ConfigurationPayload;
+CleanupStack::PushL(self);
+self->ConstructL(aCfgType, aConfigurationData);
+CleanupStack::Pop(self);
+return self;
+}
+CIkeV2ConfigurationPayload::CIkeV2ConfigurationPayload()
+: CIkeV2Payload(IKEV2_PAYLOAD_CONFIG)
+{
+}
+void CIkeV2ConfigurationPayload::ConstructL(TUint8 aCfgType,
+const TDesC8& aConfigurationData)
+{
+static const TUint8 KReservedFieldLength = 3;
+TUint32 length = aConfigurationData.Length() + KConfigurationHeaderLength;
+iPayloadData = HBufC8::NewL(length);
+TPtr8 payloadDataPtr(iPayloadData->Des());
+payloadDataPtr.SetLength(KIkePayloadGenericHeaderLength);
+payloadDataPtr.FillZ();
+SetPayloadLength(length);
+TPtrC8 cfgTypePtr(reinterpret_cast<TUint8*>(&aCfgType), sizeof(aCfgType));
+payloadDataPtr.Append(cfgTypePtr);
+//Leave reserved bytes zero
+payloadDataPtr.SetLength(payloadDataPtr.Length() + KReservedFieldLength);
+TPtr8 reservedField = payloadDataPtr.RightTPtr(KReservedFieldLength);
+reservedField.FillZ();
+payloadDataPtr.Append(aConfigurationData);
+__ASSERT_DEBUG(PayloadLength() == iPayloadData->Length(), User::Invariant());
+}
+CIkeV2VendorIdPayload* CIkeV2VendorIdPayload::NewL(const TDesC8& aVendorIdData)
+{
+CIkeV2VendorIdPayload* self = new (ELeave) CIkeV2VendorIdPayload;
+CleanupStack::PushL(self);
+self->ConstructL(aVendorIdData);
+CleanupStack::Pop(self);
+return self;
+}
+CIkeV2VendorIdPayload::CIkeV2VendorIdPayload()
+:CIkeV2Payload(IKEV2_PAYLOAD_VID)
+{
+}
+void CIkeV2VendorIdPayload::ConstructL(const TDesC8& aVendorIdData)
+{
+TUint32 length = aVendorIdData.Length() + KVendorIdHeaderLength;
+iPayloadData = HBufC8::NewL(length);
+TPtr8 payloadDataPtr(iPayloadData->Des());
+payloadDataPtr.SetLength(KIkePayloadGenericHeaderLength);
+payloadDataPtr.FillZ();
+SetPayloadLength(length);
+payloadDataPtr.Append(aVendorIdData);
+__ASSERT_DEBUG(PayloadLength() == iPayloadData->Length(), User::Invariant());
+}
+CIkeV2DeletePayload* CIkeV2DeletePayload::NewL(TUint8 aProtocolId,
+const CDesC8Array& aSpiList)
+{
+CIkeV2DeletePayload* self = new (ELeave) CIkeV2DeletePayload;
+CleanupStack::PushL(self);
+self->ConstructL(aProtocolId, aSpiList);
+CleanupStack::Pop(self);
+return self;
+}
+CIkeV2DeletePayload::CIkeV2DeletePayload()
+:CIkeV2Payload(IKEV2_PAYLOAD_DELETE)
+{
+}
+void CIkeV2DeletePayload::ConstructL(TUint8 aProtocolId, const CDesC8Array& aSpiList)
+{
+TUint16 spiCount = aSpiList.Count();
+TUint8 spiLength = (spiCount > 0) ? aSpiList[0].Length() : 0;
+TUint32 length = KDeleteHeaderLength + (spiCount * spiLength);
+iPayloadData = HBufC8::NewL(length);
+TPtr8 payloadDataPtr(iPayloadData->Des());
+payloadDataPtr.SetLength(KIkePayloadGenericHeaderLength);
+payloadDataPtr.FillZ();
+SetPayloadLength(length);
+TPtrC8 protocolIdPtr(&aProtocolId, sizeof(aProtocolId));
+TPtrC8 spiLengthPtr(&spiLength, sizeof(spiLength));
+BigEndian::Put16(reinterpret_cast<TUint8*>(&spiCount), spiCount);
+TPtrC8 spiCountPtr(reinterpret_cast<TUint8*>(&spiCount), sizeof(spiCount));
+payloadDataPtr.Append(protocolIdPtr);
+payloadDataPtr.Append(spiLengthPtr);
+payloadDataPtr.Append(spiCountPtr);
+for (TInt i = 0; i < aSpiList.Count(); ++i)
+{
+const TDesC8& spi = aSpiList[i];
+__ASSERT_DEBUG(spi.Length() == spiLength, User::Invariant());
+payloadDataPtr.Append(spi);
+}
+__ASSERT_DEBUG(PayloadLength() == iPayloadData->Length(), User::Invariant());
+}
+CIkeV2EapPayload* CIkeV2EapPayload::NewL(const TDesC8& aEapData)
+{
+CIkeV2EapPayload* self = new (ELeave) CIkeV2EapPayload;
+CleanupStack::PushL(self);
+self->ConstructL(aEapData);
+CleanupStack::Pop(self);
+return self;
+}
+CIkeV2EapPayload::CIkeV2EapPayload()
+:CIkeV2Payload(IKEV2_PAYLOAD_EAP)
+{
+}
+void CIkeV2EapPayload::ConstructL(const TDesC8& aEapData)
+{
+TUint32 length = aEapData.Length() + KEapHeaderLength;
+iPayloadData = HBufC8::NewL(length);
+TPtr8 payloadDataPtr(iPayloadData->Des());
+payloadDataPtr.SetLength(KIkePayloadGenericHeaderLength);
+payloadDataPtr.FillZ();
+SetPayloadLength(length);
+payloadDataPtr.Append(aEapData);
+__ASSERT_DEBUG(PayloadLength() == iPayloadData->Length(), User::Invariant());
+}
+CIkeV2TsPayload::CIkeV2TsPayload(TUint aPayloadType)
+:CIkeV2Payload(aPayloadType)
+{
+}
+void CIkeV2TsPayload::ConstructL(const CArrayFix<TIkeV2TrafficSelector>& aTsList)
+{
+//selector format:
+//                       1                   2                   3
+//   0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1
+//   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
+//   !   TS Type     !IP Protocol ID*|       Selector Length         |
+//   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
+//   |           Start Port*         |           End Port*           |
+//   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
+//   !                                                               !
+//   ~                         Starting Address*                     ~
+//   !                                                               !
+//   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
+//   !                                                               !
+//   ~                         Ending Address*                       ~
+//   !                                                               !
+//   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
+const TUint16 KIpv4SelectorLength = 2*4 + 2*4; //fixed selector header + 2*IPv4 address length
+const TUint16 KIpv6SelectorLength = 2*4 + 2*16;//fixed selector header + 2*IPv6 address length
+TUint8 tsCount = aTsList.Count();
+__ASSERT_DEBUG(tsCount > 0, User::Invariant());
+TUint32 length = KTsHeaderLength;
+TUint i;
+for (i = 0; i < aTsList.Count(); ++i)
+{
+if (aTsList[i].Type() == TS_IPV4_ADDR_RANGE)
+{
+length += KIpv4SelectorLength; //fixed selector header + 2*IPv4 address length
+}
+else
+{
+__ASSERT_DEBUG(aTsList[i].Type() == TS_IPV6_ADDR_RANGE, User::Invariant());
+length += KIpv6SelectorLength; //fixed selector header + 2*IPv6 address length
+}
+}
+iPayloadData = HBufC8::NewL(length);
+TPtr8 payloadDataPtr(iPayloadData->Des());
+payloadDataPtr.SetLength(KIkePayloadGenericHeaderLength);
+payloadDataPtr.FillZ();
+SetPayloadLength(length);
+const TPtrC8 tsCountPtr(&tsCount, sizeof(tsCount));
+payloadDataPtr.Append(tsCountPtr);
+_LIT(KReservedField, "\0\0\0");
+payloadDataPtr.Append(KReservedField);
+for (i = 0; i < aTsList.Count(); ++i)
+{
+TBuf8<KIpv6SelectorLength> selector;
+selector.Zero();
+const TIkeV2TrafficSelector& selectorData = aTsList[i];
+TUint8 type = selectorData.Type();
+selector.Append(&type, sizeof(type));
+TUint8 protocol = selectorData.ProtocolId();
+selector.Append(&protocol, sizeof(protocol));
+TUint16 selectorLength = 0;
+if (selectorData.Type() == TS_IPV4_ADDR_RANGE)
+{
+BigEndian::Put16(reinterpret_cast<TUint8*>(&selectorLength), KIpv4SelectorLength);
+}
+else
+{
+BigEndian::Put16(reinterpret_cast<TUint8*>(&selectorLength), KIpv6SelectorLength);
+}
+selector.Append(reinterpret_cast<TUint8*>(&selectorLength), sizeof(selectorLength));
+TInetAddr startAddress = selectorData.StartingAddress();
+TInetAddr endAddress = selectorData.EndingAddress();
+TUint16 startPort = startAddress.Port();
+TUint16 endPort = endAddress.Port();
+BigEndian::Put16(reinterpret_cast<TUint8*>(&startPort), startPort);
+BigEndian::Put16(reinterpret_cast<TUint8*>(&endPort), endPort);
+selector.Append(reinterpret_cast<TUint8*>(&startPort), sizeof(startPort));
+selector.Append(reinterpret_cast<TUint8*>(&endPort), sizeof(endPort));
+if (selectorData.Type() == TS_IPV4_ADDR_RANGE)
+{
+TUint32 start = 0;
+TUint32 end = 0;
+BigEndian::Put32(reinterpret_cast<TUint8*>(&start), startAddress.Address());
+BigEndian::Put32(reinterpret_cast<TUint8*>(&end), endAddress.Address());
+selector.Append(reinterpret_cast<TUint8*>(&start), sizeof(start));
+selector.Append(reinterpret_cast<TUint8*>(&end), sizeof(end));
+}
+else
+{
+TPtrC8 start(&startAddress.Ip6Address().u.iAddr8[0], 16);
+TPtrC8 end(&endAddress.Ip6Address().u.iAddr8[0], 16);
+selector.Append(start);
+selector.Append(end);
+}
+payloadDataPtr.Append(selector);
+}
+__ASSERT_DEBUG(PayloadLength() == iPayloadData->Length(), User::Invariant());
+}
+CIkeV2TsiPayload* CIkeV2TsiPayload::NewL(const CArrayFix<TIkeV2TrafficSelector>& aTsList)
+{
+CIkeV2TsiPayload* self = new (ELeave) CIkeV2TsiPayload();
+CleanupStack::PushL(self);
+self->ConstructL(aTsList);
+CleanupStack::Pop(self);
+return self;
+}
+CIkeV2TsiPayload::CIkeV2TsiPayload()
+:CIkeV2TsPayload(IKEV2_PAYLOAD_TS_I)
+{
+}
+CIkeV2TsrPayload* CIkeV2TsrPayload::NewL(const CArrayFix<TIkeV2TrafficSelector>& aTsList)
+{
+CIkeV2TsrPayload* self = new (ELeave) CIkeV2TsrPayload();
+CleanupStack::PushL(self);
+self->ConstructL(aTsList);
+CleanupStack::Pop(self);
+return self;
+}
+CIkeV2TsrPayload::CIkeV2TsrPayload()
+:CIkeV2TsPayload(IKEV2_PAYLOAD_TS_R)
+{
+}
+CIkeV2EncryptedPayload* CIkeV2EncryptedPayload::NewL(TUint aBlockSize)
+{
+CIkeV2EncryptedPayload* self = new (ELeave) CIkeV2EncryptedPayload;
+CleanupStack::PushL(self);
+self->ConstructL(aBlockSize);
+CleanupStack::Pop(self);
+return self;
+}
+CIkeV2EncryptedPayload::CIkeV2EncryptedPayload()
+:CIkeV2TsPayload(IKEV2_PAYLOAD_ENCR)
+{
+}
+void CIkeV2EncryptedPayload::ConstructL(TUint aBlockSize)
+{
+TUint32 length = aBlockSize + KEncryptedHeaderLength;
+iPayloadData = HBufC8::NewL(length);
+TPtr8 payloadDataPtr(iPayloadData->Des());
+payloadDataPtr.SetLength(KIkePayloadGenericHeaderLength);
+payloadDataPtr.FillZ();
+SetPayloadLength(length);
+payloadDataPtr.SetLength(length);
+TPtr8 Iv = payloadDataPtr.MidTPtr(KEncryptedHeaderLength);
+Iv.SetLength(aBlockSize);
+TRandom::RandomL(Iv);
+iBlockSize = aBlockSize;
+__ASSERT_DEBUG(PayloadLength() == iPayloadData->Length(), User::Invariant());
+}
+TUint CIkeV2EncryptedPayload::BlockSize() const
+{
+return iBlockSize;
+}
+TPtrC8 CIkeV2EncryptedPayload::InitializationVector() const
+{
+return iPayloadData->Right(iBlockSize);
+}
+void CIkeV2EncryptedPayload::SetContentLength(TUint16 aLength)
+{
+//Set the payload length to be: header + Iv + content
+SetPayloadLength(aLength + iPayloadData->Length());
+}
+static const TUint   KDefaultMessageSize = 4096;
+static const TUint32 KIkeV2MsgHeaderLength = 28;
+static const TUint8  KIkeV2Version = 2 << 4;
+CIkeV2Message* CIkeV2Message::NewL(const TDesC8& aInitiatorSpi,
+const TDesC8& aResponderSpi,
+TUint8 aExchangeType,
+TBool aIntiator,
+TBool aResponse,
+TUint32 aMessageId,
+MIkeDebug& aDebug)
+{
+CIkeV2Message* self = new (ELeave)CIkeV2Message(aDebug);
+CleanupStack::PushL(self);
+self->ConstructL(aInitiatorSpi,
+aResponderSpi,
+aExchangeType,
+aIntiator,
+aResponse,
+aMessageId);
+CleanupStack::Pop(self);
+return self;
+}
+CIkeV2Message::CIkeV2Message(MIkeDebug& aDebug)
+:iDebug(aDebug), iModified(ETrue)
+{
+}
+void CIkeV2Message::ConstructL(const TDesC8& aInitiatorSpi,
+const TDesC8& aResponderSpi,
+TUint8 aExchangeType,
+TBool aIntiator,
+TBool aResponse,
+TUint32 aMessageId)
+{
+__ASSERT_DEBUG(aInitiatorSpi.Length() == 8, User::Invariant());
+__ASSERT_DEBUG(aResponderSpi.Length() == 8, User::Invariant());
+iIkeV2MessageHeader = HBufC8::NewL(KDefaultMessageSize);
+TPtr8 messageDataPtr = iIkeV2MessageHeader->Des();
+const TPtrC8 versionPtr(&KIkeV2Version, sizeof(TUint8));
+const TPtrC8 exchangeTypePtr(&aExchangeType, sizeof(TUint8));
+TUint8 flags = (aIntiator) ? IKEV2_INITIATOR : 0;
+flags |= (aResponse) ? IKEV2_RESPONSE_MSG : 0;
+const TPtrC8 flagsPtr(&flags, sizeof(flags));
+BigEndian::Put32(reinterpret_cast<TUint8*>(&aMessageId), aMessageId);
+const TPtrC8 messageIdPtr(reinterpret_cast<TUint8*>(&aMessageId), sizeof(TUint32));
+TUint32 length;
+BigEndian::Put32(reinterpret_cast<TUint8*>(&length), KIkeV2MsgHeaderLength);
+const TPtrC8 lengthPtr(reinterpret_cast<TUint8*>(&length), sizeof(TUint32));
+//Add SPIs
+messageDataPtr.Append(aInitiatorSpi);
+messageDataPtr.Append(aResponderSpi);
+//Left next payload as zero
+TUint8 nextPayload = 0;
+TPtrC8 nextPayloadPtr(&nextPayload, sizeof(nextPayload));
+messageDataPtr.Append(nextPayloadPtr);
+messageDataPtr.Append(versionPtr);
+messageDataPtr.Append(exchangeTypePtr);
+messageDataPtr.Append(flagsPtr);
+messageDataPtr.Append(messageIdPtr);
+messageDataPtr.Append(lengthPtr);
+__ASSERT_DEBUG(iIkeV2MessageHeader->Length() == KIkeV2MsgHeaderLength, User::Invariant());
+}
+CIkeV2Message::~CIkeV2Message()
+{
+delete iIkeV2Datagram;
+delete iIkeV2MessageHeader;
+iPayloads.ResetAndDestroy();
+iPayloads.Close();
+}
+TPtrC8 CIkeV2Message::InitiatorSpi()const
+{
+TUint KInitiatorSpiPosition = 0;
+TUint KSpiLength = 8;
+return iIkeV2MessageHeader->Mid(KInitiatorSpiPosition, KSpiLength);
+}
+TPtrC8 CIkeV2Message::ResponderSpi() const
+{
+TUint KResponderSpiPosition = 8;
+TUint KSpiLength = 8;
+return iIkeV2MessageHeader->Mid(KResponderSpiPosition, KSpiLength);
+}
+TUint8 CIkeV2Message::Flags() const
+{
+TUint KFlagsPosition = 19;
+return (*iIkeV2MessageHeader)[KFlagsPosition];
+}
+TUint32 CIkeV2Message::MessageId() const
+{
+__ASSERT_DEBUG(iIkeV2MessageHeader->Length() >= KIkeV2MsgHeaderLength, User::Invariant());
+const TUint8* messageIdPtr = iIkeV2MessageHeader->Ptr() + KMessageIdFieldOffset;
+return BigEndian::Get32(messageIdPtr);
+}
+void CIkeV2Message::AppendCertReqPayloadL(const CIkeCaList& aCaList)
+{
+__ASSERT_DEBUG(aCaList.Count() > 0, User::Invariant());
+CIkevV2CertReqPayload* certReqPayload = CIkevV2CertReqPayload::NewL(aCaList);
+AppendPayloadL(certReqPayload);
+}
+void CIkeV2Message::AppendCertPayloadL(const TDesC8& aCertificateData)
+{
+CIkevV2CertPayload* certPayload = CIkevV2CertPayload::NewL(aCertificateData);
+AppendPayloadL(certPayload);
+}
+void CIkeV2Message::AppendSaPayloadL(const TDesC8& aSaData)
+{
+CIkevV2SaPayload* saPayload = CIkevV2SaPayload::NewL(aSaData);
+AppendPayloadL(saPayload);
+}
+void CIkeV2Message::AppendKePayloadL(TUint16 aDHGroup, const TDesC8& aKeData)
+{
+CIkevV2KePayload* kePayload = CIkevV2KePayload::NewL(aDHGroup, aKeData);
+AppendPayloadL(kePayload);
+}
+void CIkeV2Message::AppendNoncePayloadL(const TDesC8& aNonceData)
+{
+CIkevV2NoncePayload* noncePayload = CIkevV2NoncePayload::NewL(aNonceData);
+AppendPayloadL(noncePayload);
+}
+void CIkeV2Message::AppendIdiPayloadL(const CIkeV2Identity& aIdentity)
+{
+CIkevV2IdiPayload* idiPayload = CIkevV2IdiPayload::NewL(aIdentity);
+AppendPayloadL(idiPayload);
+}
+void CIkeV2Message::AppendIdrPayloadL(const CIkeV2Identity& aIdentity)
+{
+CIkevV2IdrPayload* idrPayload = CIkevV2IdrPayload::NewL(aIdentity);
+AppendPayloadL(idrPayload);
+}
+void CIkeV2Message::AppendAuthPayloadL(TUint8 aAuthMethod, const TDesC8& aAuthData)
+{
+CIkeV2AuthPayload* authPayload = CIkeV2AuthPayload::NewL(aAuthMethod, aAuthData);
+AppendPayloadL(authPayload);
+}
+void CIkeV2Message::AppendNotifyPayloadL(TUint8 aProtocolId,
+const TDesC8& aSpi,
+TUint16 aNotifyType,
+const TDesC8& aNotifyData)
+{
+CIkeV2NotifyPayload* notifyPayload = CIkeV2NotifyPayload::NewL(aProtocolId, aSpi,
+aNotifyType, aNotifyData);
+AppendPayloadL(notifyPayload);
+}
+void CIkeV2Message::PrependCookieNotifyPayloadL(const TDesC8& aCookieData)
+{
+_LIT8(KZeroDesc, "");
+CIkeV2NotifyPayload* notifyPayload = CIkeV2NotifyPayload::NewL(0, KZeroDesc,
+COOKIE, aCookieData);
+delete iIkeV2Datagram;
+iIkeV2Datagram = NULL;
+iModified = ETrue;
+if (iPayloads.Count() > 0)
+{
+notifyPayload->SetNextPayload(iPayloads[0]->PayloadType());
+}
+TInt err = iPayloads.Insert(notifyPayload, 0);
+if (err != KErrNone)
+{
+delete notifyPayload;
+User::Leave(err);
+}
+SetNextPayload(notifyPayload->PayloadType());
+}
+void CIkeV2Message::AppendConfigurationPayloadL(TUint8 aCfgType,
+const TDesC8& aConfigurationData)
+{
+CIkeV2ConfigurationPayload* configPayload =
+CIkeV2ConfigurationPayload::NewL(aCfgType, aConfigurationData);
+AppendPayloadL(configPayload);
+}
+void CIkeV2Message::AppendVendorIdPayloadL(const TDesC8& aVendorIdData)
+{
+CIkeV2VendorIdPayload* vendorIdPayload = CIkeV2VendorIdPayload::NewL(aVendorIdData);
+AppendPayloadL(vendorIdPayload);
+}
+void CIkeV2Message::AppendDeletePayloadL(TUint8 aProtocolId, const CDesC8Array& aSpiList)
+{
+CIkeV2DeletePayload* deletePayload = CIkeV2DeletePayload::NewL(aProtocolId, aSpiList);
+AppendPayloadL(deletePayload);
+}
+void CIkeV2Message::AppendEapPayloadL(const TDesC8& aEapData)
+{
+CIkeV2EapPayload* eapPayload = CIkeV2EapPayload::NewL(aEapData);
+AppendPayloadL(eapPayload);
+}
+void CIkeV2Message::AppendTsiPayloadL(const CArrayFix<TIkeV2TrafficSelector>& aTsList)
+{
+CIkeV2TsiPayload* tsPayload = CIkeV2TsiPayload::NewL(aTsList);
+AppendPayloadL(tsPayload);
+}
+void CIkeV2Message::AppendTsrPayloadL(const CArrayFix<TIkeV2TrafficSelector>& aTsList)
+{
+CIkeV2TsrPayload* tsPayload = CIkeV2TsrPayload::NewL(aTsList);
+AppendPayloadL(tsPayload);
+}
+void CIkeV2Message::AppendEncryptedPayloadL(TUint aBlockSize)
+{
+__ASSERT_DEBUG(iPayloads.Count() == 0, User::Invariant());
+CIkeV2EncryptedPayload* encryptedPayload = CIkeV2EncryptedPayload::NewL(aBlockSize);
+AppendPayloadL(encryptedPayload);
+}
+void CIkeV2Message::PrepareIkeMessageDatagramL(TUint16 aEncryptionAlgorith,
+const TDesC8& aEncryptionKey,
+TUint16 aIntegrityAlgorithm,
+const TDesC8& aIntegrityKey,
+#ifdef _DEBUG
+const TInetAddr& aSourceAddress,
+#else
+const TInetAddr& /*aSourceAddress*/,
+#endif
+const TInetAddr& aDestinationAddress)
+{
+__ASSERT_DEBUG(iPayloads.Count() > 0, User::Invariant());
+if (iModified)
+{
+__ASSERT_DEBUG(iIkeV2Datagram == NULL, User::Invariant());
+if (iPayloads[0]->PayloadType() == IKEV2_PAYLOAD_ENCR)
+{
+//Datagram is should be encrypted
+//Calculate the length of the padding
+CIkeV2EncryptedPayload* encryptedPayload = static_cast<CIkeV2EncryptedPayload*>(iPayloads[0]);
+TUint encryptedDataLength = 0;
+for(TInt i = 1; i < iPayloads.Count(); ++i)
+{
+encryptedDataLength += iPayloads[i]->PayloadLength();
+}
+//If the data length is multiple of the blocksize, we add full block length
+//of padding. Otherwise we just add padding enough to fill the block.
+TUint8 paddingLength = encryptedPayload->BlockSize() -
+encryptedDataLength % encryptedPayload->BlockSize();
+//The last octet of the padding tells the length of the padding.
+//we just use that value to fill the entire padding.
+TInt integrityCheckSumLength = 0;
+IkeCrypto::AlgorithmInfo(IKEV2_INTEG, aIntegrityAlgorithm, &integrityCheckSumLength);
+//The length of the whole datagram:
+TUint32 datagramLength = iIkeV2MessageHeader->Length() +
+encryptedPayload->PayloadLength() +
+encryptedDataLength +
+paddingLength +
+integrityCheckSumLength;
+//Update header fields
+SetLength(datagramLength);
+encryptedPayload->SetContentLength((TUint16)(encryptedDataLength +
+paddingLength +
+integrityCheckSumLength));
+//Allocate buffer, which has space for the whole datagram. (+ Non ESP marker)
+HBufC8* datagram = HBufC8::NewLC(datagramLength + KNonEspMarker().Length());
+TPtr8 datagramPtr = datagram->Des();
+datagramPtr = *iIkeV2MessageHeader;
+datagramPtr.Append(encryptedPayload->PayloadData());
+//buffer for data, which is encrypted
+HBufC8* encryptionSource = HBufC8::NewLC(encryptedDataLength +
+paddingLength);
+TPtr8 encryptionSourcePtr = encryptionSource->Des();
+for (TInt i = 1; i < iPayloads.Count(); ++i)
+{
+const CIkeV2Payload* pl = iPayloads[i];
+__ASSERT_DEBUG(pl->PayloadData().Length() == pl->PayloadLength(), User::Invariant());
+encryptionSourcePtr.Append(pl->PayloadData());
+datagramPtr.Append(pl->PayloadData()); //This is because we want to trace the datagram
+}
+//Last byte of the padding has to be the length of the padding.
+//We fillup the whole padding with this same number
+TUint8 paddingValue = paddingLength - 1;
+for (TInt i = 0; i < paddingLength; ++i)
+{
+encryptionSourcePtr.Append(&paddingValue, 1);
+datagramPtr.Append(&paddingValue, 1);
+}
+datagramPtr.SetLength(datagram->Length() + integrityCheckSumLength);
+TRACE_MSG(*datagram, aSourceAddress, aDestinationAddress,
+(CIkePcapTrace::TEncryptionType)aEncryptionAlgorith);
+datagramPtr.SetLength(datagram->Length() - integrityCheckSumLength);
+//Extracts the data, which is encrypted.
+//(Excludes IKE hdr, Encrypted payload hdr and Iv)
+TPtr8 encryptionBuffer = datagramPtr.MidTPtr(iIkeV2MessageHeader->Length() +
+KEncryptedHeaderLength +
+encryptedPayload->BlockSize());
+__ASSERT_DEBUG(encryptionBuffer.Length() == encryptionSource->Length(), User::Invariant());
+encryptionBuffer.SetLength(0);
+IkeCrypto::EncryptL(*encryptionSource, encryptionBuffer,
+encryptedPayload->InitializationVector(),
+aEncryptionKey, aEncryptionAlgorith);
+CleanupStack::PopAndDestroy(encryptionSource);
+//Extracts the space for the checksum from the end of the buffer
+TUint lengthWithoutItegrityCheckSum = datagramPtr.Length();
+datagramPtr.SetLength(lengthWithoutItegrityCheckSum + integrityCheckSumLength);
+TPtr8 checksum = datagramPtr.MidTPtr(lengthWithoutItegrityCheckSum);
+//Extracts the source for the integrity checksum calculation
+TPtrC8 integrityCheckSumSource = datagram->Left(lengthWithoutItegrityCheckSum);
+IkeCrypto::IntegHMACL(integrityCheckSumSource, checksum, aIntegrityKey, aIntegrityAlgorithm);
+CleanupStack::Pop(datagram);
+iIkeV2Datagram = datagram;
+}
+else
+{
+//calculate the length of unencrypted datagram
+TUint datagramLength = iIkeV2MessageHeader->Length();
+for (TInt i = 0; i < iPayloads.Count(); ++i)
+{
+datagramLength += iPayloads[i]->PayloadLength();
+}
+SetLength(datagramLength);
+iIkeV2Datagram = HBufC8::NewL(datagramLength + KNonEspMarker().Length());
+TPtr8 ikeV2DatargramPtr = iIkeV2Datagram->Des();
+ikeV2DatargramPtr.Append(*iIkeV2MessageHeader);
+for (TInt i = 0; i < iPayloads.Count(); ++i)
+{
+ikeV2DatargramPtr.Append(iPayloads[i]->PayloadData());
+}
+TRACE_MSG(*iIkeV2Datagram, aSourceAddress, aDestinationAddress,
+(CIkePcapTrace::TEncryptionType)aEncryptionAlgorith);
+}
+if (aDestinationAddress.Port() == FLOATED_IKE_PORT)
+{
+//insert non esp marker
+iIkeV2Datagram->Des().Insert(0, KNonEspMarker);
+}
+iModified = EFalse;
+}
+__ASSERT_DEBUG(!iModified && iIkeV2Datagram != NULL, User::Invariant());
+}
+TPtrC8 CIkeV2Message::IkeMessageDatagram() const
+{
+__ASSERT_DEBUG(!iModified && iIkeV2Datagram != NULL, User::Invariant());
+return *iIkeV2Datagram;
+}
+void CIkeV2Message::AppendPayloadL(CIkeV2Payload* aPayload)
+{
+TInt err = iPayloads.Append(aPayload);
+if (err != KErrNone)
+{
+delete aPayload;
+User::Leave(err);
+}
+if (iPayloads.Count() > 1)
+{
+iPayloads[iPayloads.Count() - 2]->SetNextPayload(aPayload->PayloadType());
+}
+else
+{
+SetNextPayload(aPayload->PayloadType());
+}
+delete iIkeV2Datagram;
+iIkeV2Datagram = NULL;
+iModified = ETrue;
+}
+void CIkeV2Message::SetLength(TUint32 aDatagramLength)
+{
+static const TUint KLengthFieldPosition = 6*4;
+BigEndian::Put32(reinterpret_cast<TUint8*>(&aDatagramLength), aDatagramLength);
+TPtr8 lengthField = iIkeV2MessageHeader->Des().MidTPtr(KLengthFieldPosition, sizeof(aDatagramLength));
+lengthField = TPtrC8(reinterpret_cast<TUint8*>(&aDatagramLength), sizeof(aDatagramLength));
+}
+void CIkeV2Message::SetNextPayload(TUint8 aNextPayload)
+{
+const TUint KNextPayloadPosition =  16;
+TPtr8 ikeHeaderPtr = iIkeV2MessageHeader->Des();
+ikeHeaderPtr[KNextPayloadPosition] = aNextPayload;
+}

changeset 0	33413c0669b9
child 1	c9c2ad51f972