/*
* 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 "tcertwriter.h"
#include <x509keys.h>
#include <asn1dec.h>
EXPORT_C CertWriter::CertWriter(Output* aOut)
:iOut(aOut)
{
}
EXPORT_C void CertWriter::SetOut(Output* aOut)
{
iOut = aOut;
}
EXPORT_C void CertWriter::WriteCert(const CX509Certificate& aCertificate)
{
CX509Certificate* cert = CX509Certificate::NewLC(aCertificate);
// iOut->writeString(_L("\n Certificate Version = ")):
// iOut->writeNum(cert->Version());
// iOut.writeNewLine();
WriteEncodings(*cert);
iOut->writeNewLine();
ShowSerialNumber(cert->SerialNumber());
ShowValidityPeriod(*cert);
iOut->writeString(_L("Issuer Name = "));
iOut->writeNewLine();
ShowDN(cert->IssuerName());
iOut->writeString(_L("Subject Name = "));
iOut->writeNewLine();
ShowDN(cert->SubjectName());
ShowSigningAlgorithm(cert->SigningAlgorithm());
ShowExtensions(*cert);
ShowPublicKey(*cert);
iOut->writeNewLine();
ShowFingerprint(*cert);
ShowSignature(*cert);
/* CalculateSignature(*cert);
if (IsSelfSigned(*cert))
{
iOut->writeString(_L("\nSelf-signed\n"));
}
else
{
iOut->writeString(_L("\nNot self-signed\n"));
}
*/
iOut->writeString(_L("Short Issuer Name = "));
HBufC* issuer = cert->IssuerL();
iOut->writeString(*issuer);
iOut->writeNewLine();
delete issuer;
iOut->writeString(_L("Short Subject Name = "));
HBufC* subject = cert->SubjectL();
iOut->writeString(*subject);
iOut->writeNewLine();
delete subject;
iOut->writeNewLine();
CleanupStack::PopAndDestroy();//cert
}
EXPORT_C void CertWriter::ShowPublicKey(const CX509Certificate& aCertificate)
{
const CSubjectPublicKeyInfo& spki = aCertificate.PublicKey();
switch(spki.AlgorithmId())
{
case ERSA:
ShowRSAKey(spki);
break;
case EDSA:
ShowDSAKey(spki);
break;
case EDH:
ShowDHKey(spki);
break;
default:
User::Panic(_L("CertWriter"), 1);
break;
}
}
void CertWriter::ShowRSAKey(const CSubjectPublicKeyInfo& aSpki)
{
CX509RSAPublicKey* key = CX509RSAPublicKey::NewLC(aSpki.KeyData());
iOut->writeString(_L("RSA Key:"));
iOut->writeNewLine();
iOut->writeSpaces(4);
iOut->writeString(_L("Modulus = "));
iOut->writeNewLine();
const TInteger& mod = key->N();
HBufC8* mBuf = mod.BufferLC();
iOut->writeOctetStringL(mBuf->Des());
iOut->writeNewLine();
iOut->writeSpaces(4);
iOut->writeString(_L("Exponent = "));
iOut->writeNewLine();
const TInteger& exp = key->E();
HBufC8* eBuf = exp.BufferLC();
iOut->writeOctetStringL(eBuf->Des());
iOut->writeNewLine();
CleanupStack::PopAndDestroy(eBuf);
CleanupStack::PopAndDestroy(mBuf);
CleanupStack::PopAndDestroy(key);
}
void CertWriter::ShowDSAKey(const CSubjectPublicKeyInfo& aSpki)
{
const TDesC8& encParams = aSpki.EncodedParams();
if (encParams.Length() != 0)
{
CDSAPublicKey* key = CX509DSAPublicKey::NewLC(encParams, aSpki.KeyData());
iOut->writeString(_L("DSA Key:"));
iOut->writeNewLine();
iOut->writeSpaces(4);
iOut->writeString(_L("Y = "));
iOut->writeNewLine();
const TInteger& y = key->Y();
HBufC8* yBuf = y.BufferLC();
iOut->writeOctetStringL(yBuf->Des());
iOut->writeNewLine();
iOut->writeSpaces(4);
iOut->writeString(_L("Params = "));
iOut->writeNewLine();
iOut->writeSpaces(8);
iOut->writeString(_L("P = "));
iOut->writeNewLine();
const TInteger& p = key->P();
HBufC8* pBuf = p.BufferLC();
iOut->writeOctetStringL(pBuf->Des());
iOut->writeNewLine();
iOut->writeSpaces(8);
iOut->writeString(_L("Q = "));
iOut->writeNewLine();
const TInteger& q = key->Q();
HBufC8* qBuf = q.BufferLC();
iOut->writeOctetStringL(qBuf->Des());
iOut->writeNewLine();
iOut->writeSpaces(8);
iOut->writeString(_L("G = "));
iOut->writeNewLine();
const TInteger& g = key->G();
HBufC8* gBuf = g.BufferLC();
iOut->writeOctetStringL(gBuf->Des());
iOut->writeNewLine();
CleanupStack::PopAndDestroy(5);
}
}
void CertWriter::ShowDHKey(const CSubjectPublicKeyInfo& aSpki)
{
TASN1DecInteger encInt;
TInt pos = 0;
RInteger keyVal = encInt.DecodeDERLongL(aSpki.KeyData(), pos);
CleanupStack::PushL(keyVal);
HBufC8* keyValBuf = keyVal.BufferLC();
iOut->writeString(_L("Y = "));
iOut->writeNewLine();
iOut->writeOctetStringL(keyValBuf->Des());
CleanupStack::PopAndDestroy(2, &keyVal);
CX509DHDomainParams* params = CX509DHDomainParams::NewLC(aSpki.EncodedParams());
const TInteger& p = params->P();
const TInteger& g = params->G();
const TInteger& q = params->Q();
const TInteger& j = params->J();
const CX509DHValidationParams* valParams = params->ValidationParams();
iOut->writeNewLine();
iOut->writeString(_L("Params = "));
iOut->writeNewLine();
iOut->writeString(_L("P = "));
iOut->writeNewLine();
HBufC8* pBuf = p.BufferLC();
iOut->writeOctetStringL(pBuf->Des());
iOut->writeNewLine();
CleanupStack::PopAndDestroy();
iOut->writeString(_L("G = "));
iOut->writeNewLine();
HBufC8* gBuf = g.BufferLC();
iOut->writeOctetStringL(gBuf->Des());
iOut->writeNewLine();
CleanupStack::PopAndDestroy();
iOut->writeString(_L("Q = "));
iOut->writeNewLine();
HBufC8* qBuf = q.BufferLC();
iOut->writeOctetStringL(qBuf->Des());
iOut->writeNewLine();
CleanupStack::PopAndDestroy();
iOut->writeString(_L("J = "));
iOut->writeNewLine();
HBufC8* jBuf = j.BufferLC();
iOut->writeOctetStringL(jBuf->Des());
iOut->writeNewLine();
CleanupStack::PopAndDestroy();
if (valParams)
{
iOut->writeString(_L("Seed = "));
iOut->writeNewLine();
iOut->writeOctetStringL(valParams->Seed());
iOut->writeNewLine();
const TInteger& pGC = valParams->PGenCounter();
HBufC8* pgBuf = pGC.BufferLC();
iOut->writeString(_L("pGenCounter = "));
iOut->writeNewLine();
iOut->writeOctetStringL(pgBuf->Des());
iOut->writeNewLine();
CleanupStack::PopAndDestroy();
}
CleanupStack::PopAndDestroy();
}
EXPORT_C void CertWriter::ShowSigningAlgorithm(const CSigningAlgorithmIdentifier& aSigningAlgorithm)
{
iOut->writeString(_L("Signed using: "));
iOut->writeNewLine();
iOut->writeSpaces(4);
iOut->writeString(_L("Asymmetric algorithm = "));
const CAlgorithmIdentifier& algId = aSigningAlgorithm.AsymmetricAlgorithm();
switch(algId.Algorithm())
{
case ERSA:
iOut->writeString(_L("RSA"));
break;
case EDSA:
iOut->writeString(_L("DSA"));
break;
case EDH:
iOut->writeString(_L("DH"));
break;
default:
User::Panic(_L("CertWriter"), 1);
break;
}
iOut->writeNewLine();
iOut->writeSpaces(4);
iOut->writeString(_L("Digest algorithm = "));
const CAlgorithmIdentifier& digestId = aSigningAlgorithm.DigestAlgorithm();
switch(digestId.Algorithm())
{
case EMD2:
iOut->writeString(_L("MD2"));
break;
case EMD5:
iOut->writeString(_L("MD5"));
break;
case ESHA1:
iOut->writeString(_L("SHA1"));
break;
default:
User::Panic(_L("CertWriter"), 1);
break;
}
iOut->writeNewLine();
}
EXPORT_C void CertWriter::ShowSerialNumber(const TPtrC8& aSerialNumber)
{
iOut->writeString(_L("Serial Number = "));
iOut->writeOctetStringL(aSerialNumber);
iOut->writeNewLine();
}
//dn display code
EXPORT_C void CertWriter::ShowAVA(const CX520AttributeTypeAndValue& aAva)
{
iOut->writeString(aAva.Type());
HBufC* val = aAva.ValueL();
CleanupStack::PushL(val);
iOut->writeString(_L(" = "));
iOut->writeString(val->Des());
CleanupStack::PopAndDestroy();
}
EXPORT_C void CertWriter::ShowDN(const CX500DistinguishedName& aName)
{
iOut->writeNewLine();
TInt count = aName.Count();
for (TInt i = 0; i < count; i++)
{
const CX520AttributeTypeAndValue& ava = aName.Element(i);
iOut->writeSpaces(4);
ShowAVA(ava);
iOut->writeNewLine();
}
}
EXPORT_C void CertWriter::ShowAKI(const CX509Certificate& aCert)
{
const CX509CertExtension* akiExt = aCert.Extension(KAuthorityKeyId);
if (akiExt)
{
iOut->writeString(_L("Authority Key ID = "));
iOut->writeNewLine();
const CX509AuthorityKeyIdExt* ext = CX509AuthorityKeyIdExt::NewLC(akiExt->Data());
const CArrayPtrFlat<CX509GeneralName>& authorityName = ext->AuthorityName();
TInt count = authorityName.Count();
if (count > 0)
{
iOut->writeSpaces(4);
iOut->writeString(_L("Authority name = "));
iOut->writeNewLine();
for (TInt i = 0; i < count; i++)
{
ShowGN(*(authorityName.At(i)));
}
}
if (ext->AuthorityCertSerialNumber().Length() > 0)
{
iOut->writeSpaces(4);
iOut->writeString(_L("Authority cert serial no = "));
iOut->writeOctetStringL(ext->AuthorityCertSerialNumber());
iOut->writeNewLine();
}
iOut->writeSpaces(4);
iOut->writeString(_L("Key Id = "));
iOut->writeOctetStringL(ext->KeyId());
iOut->writeNewLine();
CleanupStack::PopAndDestroy();
}
}
EXPORT_C void CertWriter::ShowSKI(const CX509Certificate& aCert)
{
const CX509CertExtension* skiExt = aCert.Extension(KSubjectKeyId);
if (skiExt)
{
iOut->writeString(_L("Subject Key ID = "));
iOut->writeNewLine();
const CX509SubjectKeyIdExt* ext = CX509SubjectKeyIdExt::NewLC(skiExt->Data());
iOut->writeSpaces(4);
iOut->writeString(_L("Key Id = "));
iOut->writeOctetStringL(ext->KeyId());
iOut->writeNewLine();
CleanupStack::PopAndDestroy();
}
}
EXPORT_C void CertWriter::ShowGN(const CX509GeneralName& aName)
{
iOut->writeSpaces(4);
switch(aName.Tag())
{
case 1:
{
//rfc822
CX509RFC822NameSubtree* email = CX509RFC822NameSubtree::NewLC(aName.Data());
iOut->writeString(email->Name());
iOut->writeNewLine();
CleanupStack::PopAndDestroy();//email
break;
}
case 2:
{
//dns name
CX509DNSNameSubtree* dns = CX509DNSNameSubtree::NewLC(aName.Data());
iOut->writeString(dns->Name());
CleanupStack::PopAndDestroy();//dns
break;
}
case 4:
{
//DN
CX500DistinguishedName* dN = CX500DistinguishedName::NewLC(aName.Data());
ShowDN(*dN);
CleanupStack::PopAndDestroy();
break;
}
case 6:
{
//uri
CX509IPBasedURI* uri = CX509IPBasedURI::NewLC(aName.Data());
iOut->writeString(uri->Name());
iOut->writeNewLine();
iOut->writeString(_L("Host="));
iOut->writeString(uri->Host().Name());
iOut->writeNewLine();
CleanupStack::PopAndDestroy();//uri
break;
}
case 7:
{
CX509IPAddress* ip = CX509IPAddress::NewLC(aName.Data());
TPtrC8 addressStr(ip->Address());
// IPv6 output not implemented yet
iOut->write(_L("IP=%d.%d.%d.%d"), addressStr[0], addressStr[1], addressStr[2], addressStr[3]);
iOut->writeNewLine();
CleanupStack::PopAndDestroy();
break;
}
}
}
EXPORT_C void CertWriter::ShowFingerprint(const CX509Certificate& aCertificate)
{
iOut->writeString(_L("Fingerprint:"));
iOut->writeNewLine();
iOut->writeOctetString(aCertificate.Fingerprint());
iOut->writeNewLine();
}
EXPORT_C void CertWriter::ShowValidityPeriod(const CX509Certificate& aCertificate)
{
const CValidityPeriod& vp = aCertificate.ValidityPeriod();
iOut->writeString(_L("Validity Period = "));
iOut->writeNewLine();
const TTime& start = vp.Start();
const TTime& finish = vp.Finish();
TBuf<30> dateString1;
start.FormatL(dateString1,(_L("%H%:1%T:%S %*E%*D %X%*N%Y %1 %2 %3")));
iOut->writeSpaces(4);
iOut->writeString(_L("Valid From = "));
iOut->writeString(dateString1);
iOut->writeNewLine();
TBuf<30> dateString2;
finish.FormatL(dateString2,(_L("%H%:1%T:%S %*E%*D %X%*N%Y %1 %2 %3")));
iOut->writeSpaces(4);
iOut->writeString(_L("Valid Until = "));
iOut->writeString(dateString2);
iOut->writeNewLine();
}
//extensions
EXPORT_C void CertWriter::ShowExtensions(const CX509Certificate& aCertificate)
{
const CArrayPtrFlat<CX509CertExtension>& exts = aCertificate.Extensions();
TInt count = exts.Count();
for (TInt i = 0; i < count; i++)
{
const CX509CertExtension* ext = exts.At(i);
iOut->writeString(_L("extension"));
iOut->writeNum(i);
if (!(ext->Critical()))
{
iOut->writeString(_L(" not"));
}
iOut->writeString(_L(" critical"));
iOut->writeString(_L(" ID = "));
TPtrC id(ext->Id());
iOut->writeString(id);
iOut->writeNewLine();
if (id == KBasicConstraints)
{
ShowBC(*ext);
}
if (id == KSubjectAltName)
{
iOut->writeString(_L("SubjectAltName: "));
iOut->writeNewLine();
ShowAltName(*ext);
}
if (id == KIssuerAltName)
{
iOut->writeString(_L("IssuerAltName: "));
iOut->writeNewLine();
ShowAltName(*ext);
}
if (id == KKeyUsage)
{
ShowKU(*ext);
}
if (id == KNameConstraints)
{
ShowNC(*ext);
}
if (id == KPolicyConstraints)
{
ShowPC(*ext);
}
if (id == KCertPolicies)
{
ShowCP(*ext);
}
if (id == KPolicyMapping)
{
ShowPM(*ext);
}
if (id == KAuthorityKeyId)
{
ShowAKI(aCertificate);
}
if (id == KSubjectKeyId)
{
ShowSKI(aCertificate);
}
if (id == KExtendedKeyUsage)
{
ShowEKU(*ext);
}
}
}
EXPORT_C void CertWriter::ShowBC(const CX509CertExtension& aExt)
{
iOut->writeString(_L("Basic Constraints:"));
iOut->writeNewLine();
CX509BasicConstraintsExt* ext = CX509BasicConstraintsExt::NewLC(aExt.Data());
if (ext->IsCA())
{
iOut->writeSpaces(4);
iOut->writeString(_L("CA cert"));
iOut->writeNewLine();
if (ext->MaxChainLength() < KMaxTInt)
{
iOut->writeSpaces(4);
iOut->writeString(_L("Max Chain Length = "));
iOut->writeNum(ext->MaxChainLength());
iOut->writeNewLine();
}
}
else
{
iOut->writeSpaces(4);
iOut->writeString(_L("EE cert"));
iOut->writeNewLine();
}
CleanupStack::PopAndDestroy();
}
EXPORT_C void CertWriter::ShowAltName(const CX509CertExtension& aExt)
{
CX509AltNameExt* ext = CX509AltNameExt::NewLC(aExt.Data());
const CArrayPtrFlat<CX509GeneralName>& names = ext->AltName();
TInt count = names.Count();
for (TInt i = 0; i < count; i++)
{
ShowGN(*(names.At(i)));
}
CleanupStack::PopAndDestroy();
}
_LIT(KDigSig, "digital signature");
_LIT(KNonRep, "non-repudiation");
_LIT(KKeyEnc, "key encipherment");
_LIT(KDataEnc, "data encipherment");
_LIT(KKeyAgree, "key agreement");
_LIT(KCertSign, "key cert sign");
_LIT(KCRLSign, "crl sign");
_LIT(KEnciph, "encipher only");
_LIT(KDeciph, "decipher only");
EXPORT_C void CertWriter::ShowKU(const CX509CertExtension& aExt)
{
iOut->writeString(_L("Key Usage:"));
iOut->writeNewLine();
CX509KeyUsageExt* ext = CX509KeyUsageExt::NewLC(aExt.Data());
if (ext->IsSet(EX509DigitalSignature))
{
iOut->writeSpaces(4);
iOut->writeString(KDigSig);
iOut->writeNewLine();
}
if (ext->IsSet(EX509NonRepudiation))
{
iOut->writeSpaces(4);
iOut->writeString(KNonRep);
iOut->writeNewLine();
}
if (ext->IsSet(EX509KeyEncipherment))
{
iOut->writeSpaces(4);
iOut->writeString(KKeyEnc);
iOut->writeNewLine();
}
if (ext->IsSet(EX509DataEncipherment))
{
iOut->writeSpaces(4);
iOut->writeString(KDataEnc);
iOut->writeNewLine();
}
if (ext->IsSet(EX509KeyAgreement))
{
iOut->writeSpaces(4);
iOut->writeString(KKeyAgree);
iOut->writeNewLine();
}
if (ext->IsSet(EX509KeyCertSign))
{
iOut->writeSpaces(4);
iOut->writeString(KCertSign);
iOut->writeNewLine();
}
if (ext->IsSet(EX509CRLSign))
{
iOut->writeSpaces(4);
iOut->writeString(KCRLSign);
iOut->writeNewLine();
}
if (ext->IsSet(EX509EncipherOnly))
{
iOut->writeSpaces(4);
iOut->writeString(KEnciph);
iOut->writeNewLine();
}
if (ext->IsSet(EX509DecipherOnly))
{
iOut->writeSpaces(4);
iOut->writeString(KDeciph);
iOut->writeNewLine();
}
CleanupStack::PopAndDestroy();//ext
}
EXPORT_C void CertWriter::ShowSubtrees(const CArrayPtrFlat<CX509GeneralSubtree>& aSubtrees)
{
TInt count = aSubtrees.Count();
for (TInt i = 0; i < count; i++)
{
const CX509GeneralSubtree* subtree = aSubtrees.At(i);
ShowGN(subtree->Name());
///!!!!!don't write these outFile either!!
}
}
EXPORT_C void CertWriter::ShowNC(const CX509CertExtension& aExt)
{//!!!!don't write these outFile
CX509NameConstraintsExt* ext = CX509NameConstraintsExt::NewLC(aExt.Data());
ShowSubtrees(ext->ExcludedSubtrees());
ShowSubtrees(ext->PermittedSubtrees());
CleanupStack::PopAndDestroy();
}
EXPORT_C void CertWriter::ShowPC(const CX509CertExtension& /*aExt*/)
{//!!!!don't write these outFile
// CX509PolicyConstraintsExt* ext = CX509PolicyConstraintsExt::NewLC(aExt.Data());
// TX509PolicyConstraint required = ext->ExplicitPolicyRequired();
// TX509PolicyConstraint mapping = ext->InhibitPolicyMapping();
// CleanupStack::PopAndDestroy();
}
EXPORT_C void CertWriter::ShowCP(const CX509CertExtension& aExt)
{
iOut->writeString(_L("Cert Policies = "));
iOut->writeNewLine();
CX509CertPoliciesExt* ext = CX509CertPoliciesExt::NewLC(aExt.Data());
const CArrayPtrFlat<CX509CertPolicyInfo>& policies = ext->Policies();
TInt count = policies.Count();
for (TInt i = 0; i < count; i++)
{
const CX509CertPolicyInfo* policy = policies.At(i);
iOut->writeSpaces(4);
iOut->writeString(_L("Policy ID = "));
iOut->writeString(policy->Id());
iOut->writeNewLine();
const CArrayPtrFlat<CX509PolicyQualifierInfo>& qualifiers = policy->Qualifiers();
TInt qCount = qualifiers.Count();
if (qCount > 0)
{
iOut->writeSpaces(4);
iOut->writeString(_L("Qualified by: "));
iOut->writeNewLine();
}
for (TInt i = 0; i < qCount; i++)
{
iOut->writeSpaces(8);
iOut->writeString(_L("Qualifier ID = "));
iOut->writeString(policy->Id());
iOut->writeNewLine();
}
}
CleanupStack::PopAndDestroy();//ext
}
EXPORT_C void CertWriter::ShowPM(const CX509CertExtension& aExt)
{
iOut->writeString(_L("Policy Mappings = "));
CX509PolicyMappingExt* ext = CX509PolicyMappingExt::NewLC(aExt.Data());
const CArrayPtrFlat<CX509PolicyMapping>& mappings = ext->Mappings();
TInt count = mappings.Count();
for (TInt i = 0; i < count; i++)
{
const CX509PolicyMapping* mapping = mappings.At(i);
iOut->writeString(_L("Issuer Policy = "));
iOut->writeString(mapping->IssuerPolicy());
iOut->writeNewLine();
iOut->writeString(_L("Subject Policy = "));
iOut->writeString(mapping->SubjectPolicy());
iOut->writeNewLine();
}
iOut->writeNewLine();
CleanupStack::PopAndDestroy();
}
EXPORT_C void CertWriter::ShowEKU(const CX509CertExtension& aExt)
{
iOut->writeString(_L("Extended Key Usage = "));
iOut->writeNewLine();
CX509ExtendedKeyUsageExt* ext = CX509ExtendedKeyUsageExt::NewLC(aExt.Data());
const CArrayPtrFlat<HBufC>& usages = ext->KeyUsages();
TInt count = usages.Count();
for (TInt i = 0; i < count; i++)
{
iOut->writeSpaces(4);
iOut->writeString(usages.At(i)->Des());
iOut->writeNewLine();
}
CleanupStack::PopAndDestroy();
}
EXPORT_C void CertWriter::ShowSignature(const CX509Certificate& aCert)
{
iOut->writeString(_L("Signature:"));
iOut->writeNewLine();
const TPtrC8 sig = aCert.Signature();
iOut->writeOctetStringL(sig);
iOut->writeNewLine();
}
void CertWriter::CalculateSignature(const CX509Certificate& aCert)
{
TBool res = EFalse;;
TRAPD(err, res = aCert.VerifySignatureL(aCert.PublicKey().KeyData()));
if (err != KErrNone)
{
iOut->writeString(_L("\nsignature verification could not be performed\n"));
if (err != KErrArgument)
{
User::Leave(err);
}
}
else
{
if (res)
{
iOut->writeString(_L("\nself-signed\n"));
}
else
{
iOut->writeString(_L("\n not self-signed\n"));
}
}
}
EXPORT_C TBool CertWriter::IsSelfSigned(const CX509Certificate& aCert)
{
TBool res = EFalse;
const CX500DistinguishedName& subject = aCert.SubjectName();
if (subject.Count() > 0)
{
res = subject.ExactMatchL(aCert.IssuerName());
}
else
{
const CX509CertExtension* subjectExt = aCert.Extension(KIssuerAltName);
const CX509CertExtension* issuerExt = aCert.Extension(KSubjectAltName);
if ((!subjectExt) || (!issuerExt))
{
}
else
{
const CX509AltNameExt* issuerAltName = CX509AltNameExt::NewLC(subjectExt->Data());
const CX509AltNameExt* subjectAltName = CX509AltNameExt::NewLC(issuerExt->Data());
if (subjectAltName->Match(*issuerAltName))
{
res = ETrue;
}
CleanupStack::PopAndDestroy(2);//subjectAltName, issuerAltName
}
}
return res;
}
/* EVersionNumber = 0,
ESerialNumber = 1,
EAlgorithmId = 2,
EIssuerName = 3,
EValidityPeriod = 4,
ESubjectName = 5,
ESubjectPublicKeyInfo = 6,
EIssuerUID = 7,
ESubjectUID = 8,
EExtensionList = 9
*/
void CertWriter::WriteEncodings(const CX509Certificate& aCertificate)
{
iOut->writeString(_L("Version:"));
iOut->writeNewLine();
WriteEncoding(aCertificate, CX509Certificate::EVersionNumber);
iOut->writeNewLine();
iOut->writeString(_L("Serial Number:"));
iOut->writeNewLine();
WriteEncoding(aCertificate, CX509Certificate::ESerialNumber);
iOut->writeNewLine();
iOut->writeString(_L("Algorithm:"));
iOut->writeNewLine();
WriteEncoding(aCertificate, CX509Certificate::EAlgorithmId);
iOut->writeNewLine();
iOut->writeString(_L("Issuer:"));
iOut->writeNewLine();
WriteEncoding(aCertificate, CX509Certificate::EIssuerName);
iOut->writeNewLine();
iOut->writeString(_L("Validity:"));
iOut->writeNewLine();
WriteEncoding(aCertificate, CX509Certificate::EValidityPeriod);
iOut->writeNewLine();
iOut->writeString(_L("Subject:"));
iOut->writeNewLine();
WriteEncoding(aCertificate, CX509Certificate::ESubjectName);
iOut->writeNewLine();
iOut->writeString(_L("Public Key:"));
iOut->writeNewLine();
WriteEncoding(aCertificate, CX509Certificate::ESubjectPublicKeyInfo);
iOut->writeNewLine();
iOut->writeString(_L("Issuer ID:"));
iOut->writeNewLine();
WriteEncoding(aCertificate, CX509Certificate::EIssuerUID);
iOut->writeNewLine();
iOut->writeString(_L("Subject ID:"));
iOut->writeNewLine();
WriteEncoding(aCertificate, CX509Certificate::ESubjectUID);
iOut->writeNewLine();
iOut->writeString(_L("Extensions:"));
iOut->writeNewLine();
WriteEncoding(aCertificate, CX509Certificate::EExtensionList);
iOut->writeNewLine();
}
void CertWriter::WriteEncoding(const CX509Certificate& aCertificate, const TUint aIndex)
{
if (aCertificate.DataElementEncoding(aIndex))
{
iOut->writeOctetStringL(*(aCertificate.DataElementEncoding(aIndex)));
}
}