internal static void AdditionalChecks( IX509AttributeCertificate attrCert, PkixParameters pkixParams) { // 1 foreach (string oid in pkixParams.GetProhibitedACAttributes()) { if (attrCert.GetAttributes(oid) != null) { throw new PkixCertPathValidatorException( "Attribute certificate contains prohibited attribute: " + oid + "."); } } foreach (string oid in pkixParams.GetNecessaryACAttributes()) { if (attrCert.GetAttributes(oid) == null) { throw new PkixCertPathValidatorException( "Attribute certificate does not contain necessary attribute: " + oid + "."); } } }
public virtual object Clone() { // FIXME Check this whole method against the Java implementation! PkixParameters parameters = new PkixParameters(GetTrustAnchors()); parameters.SetParams(this); return(parameters); // PkixParameters obj = new PkixParameters(new HashSet()); //// (PkixParameters) this.MemberwiseClone(); // obj.x509Stores = new ArrayList(x509Stores); // obj.certPathCheckers = new ArrayList(certPathCheckers); // // //Iterator iter = certPathCheckers.iterator(); // //obj.certPathCheckers = new ArrayList(); // //while (iter.hasNext()) // //{ // // obj.certPathCheckers.add(((PKIXCertPathChecker)iter.next()) // // .clone()); // //} // //if (initialPolicies != null) // //{ // // obj.initialPolicies = new HashSet(initialPolicies); // //} //// if (trustAnchors != null) //// { //// obj.trustAnchors = new HashSet(trustAnchors); //// } //// if (certSelector != null) //// { //// obj.certSelector = (X509CertStoreSelector) certSelector.Clone(); //// } // return obj; }
/** * Fetches delta CRLs according to RFC 3280 section 5.2.4. * * @param currentDate The date for which the delta CRLs must be valid. * @param paramsPKIX The extended PKIX parameters. * @param completeCRL The complete CRL the delta CRL is for. * @return A <code>Set</code> of <code>X509CRL</code>s with delta CRLs. * @throws Exception if an exception occurs while picking the delta * CRLs. */ internal static ISet GetDeltaCrls( DateTime currentDate, PkixParameters paramsPKIX, X509Crl completeCRL) { X509CrlStoreSelector deltaSelect = new X509CrlStoreSelector(); // 5.2.4 (a) try { IList deltaSelectIssuer = Platform.CreateArrayList(); deltaSelectIssuer.Add(completeCRL.IssuerDN); deltaSelect.Issuers = deltaSelectIssuer; } catch (IOException e) { new Exception("Cannot extract issuer from CRL.", e); } BigInteger completeCRLNumber = null; try { Asn1Object asn1Object = GetExtensionValue(completeCRL, X509Extensions.CrlNumber); if (asn1Object != null) { completeCRLNumber = CrlNumber.GetInstance(asn1Object).PositiveValue; } } catch (Exception e) { throw new Exception( "CRL number extension could not be extracted from CRL.", e); } // 5.2.4 (b) byte[] idp = null; try { Asn1Object obj = GetExtensionValue(completeCRL, X509Extensions.IssuingDistributionPoint); if (obj != null) { idp = obj.GetDerEncoded(); } } catch (Exception e) { throw new Exception( "Issuing distribution point extension value could not be read.", e); } // 5.2.4 (d) deltaSelect.MinCrlNumber = (completeCRLNumber == null) ? null : completeCRLNumber.Add(BigInteger.One); deltaSelect.IssuingDistributionPoint = idp; deltaSelect.IssuingDistributionPointEnabled = true; // 5.2.4 (c) deltaSelect.MaxBaseCrlNumber = completeCRLNumber; // find delta CRLs ISet temp = CrlUtilities.FindCrls(deltaSelect, paramsPKIX, currentDate); ISet result = new HashSet(); foreach (X509Crl crl in temp) { if (isDeltaCrl(crl)) { result.Add(crl); } } return(result); }
/** * Add the CRL issuers from the cRLIssuer field of the distribution point or * from the certificate if not given to the issuer criterion of the * <code>selector</code>. * <p> * The <code>issuerPrincipals</code> are a collection with a single * <code>X500Principal</code> for <code>X509Certificate</code>s. For * {@link X509AttributeCertificate}s the issuer may contain more than one * <code>X500Principal</code>. * </p> * * @param dp The distribution point. * @param issuerPrincipals The issuers of the certificate or attribute * certificate which contains the distribution point. * @param selector The CRL selector. * @param pkixParams The PKIX parameters containing the cert stores. * @throws Exception if an exception occurs while processing. * @throws ClassCastException if <code>issuerPrincipals</code> does not * contain only <code>X500Principal</code>s. */ internal static void GetCrlIssuersFromDistributionPoint( DistributionPoint dp, ICollection issuerPrincipals, X509CrlStoreSelector selector, PkixParameters pkixParams) { IList issuers = Platform.CreateArrayList(); // indirect CRL if (dp.CrlIssuer != null) { GeneralName[] genNames = dp.CrlIssuer.GetNames(); // look for a DN for (int j = 0; j < genNames.Length; j++) { if (genNames[j].TagNo == GeneralName.DirectoryName) { try { issuers.Add(X509Name.GetInstance(genNames[j].Name.ToAsn1Object())); } catch (IOException e) { throw new Exception( "CRL issuer information from distribution point cannot be decoded.", e); } } } } else { /* * certificate issuer is CRL issuer, distributionPoint field MUST be * present. */ if (dp.DistributionPointName == null) { throw new Exception( "CRL issuer is omitted from distribution point but no distributionPoint field present."); } // add and check issuer principals for (IEnumerator it = issuerPrincipals.GetEnumerator(); it.MoveNext();) { issuers.Add((X509Name)it.Current); } } // TODO: is not found although this should correctly add the rel name. selector of Sun is buggy here or PKI test case is invalid // distributionPoint // if (dp.getDistributionPoint() != null) // { // // look for nameRelativeToCRLIssuer // if (dp.getDistributionPoint().getType() == DistributionPointName.NAME_RELATIVE_TO_CRL_ISSUER) // { // // append fragment to issuer, only one // // issuer can be there, if this is given // if (issuers.size() != 1) // { // throw new AnnotatedException( // "nameRelativeToCRLIssuer field is given but more than one CRL issuer is given."); // } // DEREncodable relName = dp.getDistributionPoint().getName(); // Iterator it = issuers.iterator(); // List issuersTemp = new ArrayList(issuers.size()); // while (it.hasNext()) // { // Enumeration e = null; // try // { // e = ASN1Sequence.getInstance( // new ASN1InputStream(((X500Principal) it.next()) // .getEncoded()).readObject()).getObjects(); // } // catch (IOException ex) // { // throw new AnnotatedException( // "Cannot decode CRL issuer information.", ex); // } // ASN1EncodableVector v = new ASN1EncodableVector(); // while (e.hasMoreElements()) // { // v.add((DEREncodable) e.nextElement()); // } // v.add(relName); // issuersTemp.add(new X500Principal(new DERSequence(v) // .getDEREncoded())); // } // issuers.clear(); // issuers.addAll(issuersTemp); // } // } selector.Issuers = issuers; }
/** * Checks if an attribute certificate is revoked. * * @param attrCert Attribute certificate to check if it is revoked. * @param paramsPKIX PKIX parameters. * @param issuerCert The issuer certificate of the attribute certificate * <code>attrCert</code>. * @param validDate The date when the certificate revocation status should * be checked. * @param certPathCerts The certificates of the certification path to be * checked. * * @throws CertPathValidatorException if the certificate is revoked or the * status cannot be checked or some error occurs. */ internal static void CheckCrls( IX509AttributeCertificate attrCert, PkixParameters paramsPKIX, X509Certificate issuerCert, DateTime validDate, IList certPathCerts) { if (paramsPKIX.IsRevocationEnabled) { // check if revocation is available if (attrCert.GetExtensionValue(X509Extensions.NoRevAvail) == null) { CrlDistPoint crldp = null; try { crldp = CrlDistPoint.GetInstance( PkixCertPathValidatorUtilities.GetExtensionValue( attrCert, X509Extensions.CrlDistributionPoints)); } catch (Exception e) { throw new PkixCertPathValidatorException( "CRL distribution point extension could not be read.", e); } try { PkixCertPathValidatorUtilities .AddAdditionalStoresFromCrlDistributionPoint(crldp, paramsPKIX); } catch (Exception e) { throw new PkixCertPathValidatorException( "No additional CRL locations could be decoded from CRL distribution point extension.", e); } CertStatus certStatus = new CertStatus(); ReasonsMask reasonsMask = new ReasonsMask(); Exception lastException = null; bool validCrlFound = false; // for each distribution point if (crldp != null) { DistributionPoint[] dps = null; try { dps = crldp.GetDistributionPoints(); } catch (Exception e) { throw new PkixCertPathValidatorException( "Distribution points could not be read.", e); } try { for (int i = 0; i < dps.Length && certStatus.Status == CertStatus.Unrevoked && !reasonsMask.IsAllReasons; i++) { PkixParameters paramsPKIXClone = (PkixParameters)paramsPKIX .Clone(); CheckCrl(dps[i], attrCert, paramsPKIXClone, validDate, issuerCert, certStatus, reasonsMask, certPathCerts); validCrlFound = true; } } catch (Exception e) { lastException = new Exception( "No valid CRL for distribution point found.", e); } } /* * If the revocation status has not been determined, repeat the * process above with any available CRLs not specified in a * distribution point but issued by the certificate issuer. */ if (certStatus.Status == CertStatus.Unrevoked && !reasonsMask.IsAllReasons) { try { /* * assume a DP with both the reasons and the cRLIssuer * fields omitted and a distribution point name of the * certificate issuer. */ Asn1Object issuer = null; try { issuer = new Asn1InputStream( attrCert.Issuer.GetPrincipals()[0].GetEncoded()).ReadObject(); } catch (Exception e) { throw new Exception( "Issuer from certificate for CRL could not be reencoded.", e); } DistributionPoint dp = new DistributionPoint( new DistributionPointName(0, new GeneralNames( new GeneralName(GeneralName.DirectoryName, issuer))), null, null); PkixParameters paramsPKIXClone = (PkixParameters)paramsPKIX.Clone(); CheckCrl(dp, attrCert, paramsPKIXClone, validDate, issuerCert, certStatus, reasonsMask, certPathCerts); validCrlFound = true; } catch (Exception e) { lastException = new Exception( "No valid CRL for distribution point found.", e); } } if (!validCrlFound) { throw new PkixCertPathValidatorException( "No valid CRL found.", lastException); } if (certStatus.Status != CertStatus.Unrevoked) { // TODO This format is forced by the NistCertPath tests string formattedDate = certStatus.RevocationDate.Value.ToString( "G", new CultureInfo("en-us")); string message = "Attribute certificate revocation after " + formattedDate; message += ", reason: " + Rfc3280CertPathUtilities.CrlReasons[certStatus.Status]; throw new PkixCertPathValidatorException(message); } if (!reasonsMask.IsAllReasons && certStatus.Status == CertStatus.Unrevoked) { certStatus.Status = CertStatus.Undetermined; } if (certStatus.Status == CertStatus.Undetermined) { throw new PkixCertPathValidatorException( "Attribute certificate status could not be determined."); } } else { if (attrCert.GetExtensionValue(X509Extensions.CrlDistributionPoints) != null || attrCert.GetExtensionValue(X509Extensions.AuthorityInfoAccess) != null) { throw new PkixCertPathValidatorException( "No rev avail extension is set, but also an AC revocation pointer."); } } } }
/** * * Checks a distribution point for revocation information for the * certificate <code>attrCert</code>. * * @param dp The distribution point to consider. * @param attrCert The attribute certificate which should be checked. * @param paramsPKIX PKIX parameters. * @param validDate The date when the certificate revocation status should * be checked. * @param issuerCert Certificate to check if it is revoked. * @param reasonMask The reasons mask which is already checked. * @param certPathCerts The certificates of the certification path to be * checked. * @throws Exception if the certificate is revoked or the status * cannot be checked or some error occurs. */ private static void CheckCrl( DistributionPoint dp, IX509AttributeCertificate attrCert, PkixParameters paramsPKIX, DateTime validDate, X509Certificate issuerCert, CertStatus certStatus, ReasonsMask reasonMask, IList certPathCerts) { /* * 4.3.6 No Revocation Available * * The noRevAvail extension, defined in [X.509-2000], allows an AC * issuer to indicate that no revocation information will be made * available for this AC. */ if (attrCert.GetExtensionValue(X509Extensions.NoRevAvail) != null) { return; } DateTime currentDate = DateTime.UtcNow; if (validDate.CompareTo(currentDate) > 0) { throw new Exception("Validation time is in future."); } // (a) /* * We always get timely valid CRLs, so there is no step (a) (1). * "locally cached" CRLs are assumed to be in getStore(), additional * CRLs must be enabled in the ExtendedPkixParameters and are in * getAdditionalStore() */ ISet crls = PkixCertPathValidatorUtilities.GetCompleteCrls(dp, attrCert, currentDate, paramsPKIX); bool validCrlFound = false; Exception lastException = null; IEnumerator crl_iter = crls.GetEnumerator(); while (crl_iter.MoveNext() && certStatus.Status == CertStatus.Unrevoked && !reasonMask.IsAllReasons) { try { X509Crl crl = (X509Crl)crl_iter.Current; // (d) ReasonsMask interimReasonsMask = Rfc3280CertPathUtilities.ProcessCrlD(crl, dp); // (e) /* * The reasons mask is updated at the end, so only valid CRLs * can update it. If this CRL does not contain new reasons it * must be ignored. */ if (!interimReasonsMask.HasNewReasons(reasonMask)) { continue; } // (f) ISet keys = Rfc3280CertPathUtilities.ProcessCrlF(crl, attrCert, null, null, paramsPKIX, certPathCerts); // (g) AsymmetricKeyParameter pubKey = Rfc3280CertPathUtilities.ProcessCrlG(crl, keys); X509Crl deltaCRL = null; if (paramsPKIX.IsUseDeltasEnabled) { // get delta CRLs ISet deltaCRLs = PkixCertPathValidatorUtilities.GetDeltaCrls( currentDate, paramsPKIX, crl); // we only want one valid delta CRL // (h) deltaCRL = Rfc3280CertPathUtilities.ProcessCrlH(deltaCRLs, pubKey); } /* * CRL must be be valid at the current time, not the validation * time. If a certificate is revoked with reason keyCompromise, * cACompromise, it can be used for forgery, also for the past. * This reason may not be contained in older CRLs. */ /* * in the chain model signatures stay valid also after the * certificate has been expired, so they do not have to be in * the CRL vality time */ if (paramsPKIX.ValidityModel != PkixParameters.ChainValidityModel) { /* * if a certificate has expired, but was revoked, it is not * more in the CRL, so it would be regarded as valid if the * first check is not done */ if (attrCert.NotAfter.CompareTo(crl.ThisUpdate) < 0) { throw new Exception( "No valid CRL for current time found."); } } Rfc3280CertPathUtilities.ProcessCrlB1(dp, attrCert, crl); // (b) (2) Rfc3280CertPathUtilities.ProcessCrlB2(dp, attrCert, crl); // (c) Rfc3280CertPathUtilities.ProcessCrlC(deltaCRL, crl, paramsPKIX); // (i) Rfc3280CertPathUtilities.ProcessCrlI(validDate, deltaCRL, attrCert, certStatus, paramsPKIX); // (j) Rfc3280CertPathUtilities.ProcessCrlJ(validDate, crl, attrCert, certStatus); // (k) if (certStatus.Status == CrlReason.RemoveFromCrl) { certStatus.Status = CertStatus.Unrevoked; } // update reasons mask reasonMask.AddReasons(interimReasonsMask); validCrlFound = true; } catch (Exception e) { lastException = e; } } if (!validCrlFound) { throw lastException; } }
/** * Searches for a holder public key certificate and verifies its * certification path. * * @param attrCert the attribute certificate. * @param pkixParams The PKIX parameters. * @return The certificate path of the holder certificate. * @throws Exception if * <ul> * <li>no public key certificate can be found although holder * information is given by an entity name or a base certificate * ID</li> * <li>support classes cannot be created</li> * <li>no certification path for the public key certificate can * be built</li> * </ul> */ internal static PkixCertPath ProcessAttrCert1( IX509AttributeCertificate attrCert, PkixParameters pkixParams) { PkixCertPathBuilderResult result = null; // find holder PKCs ISet holderPKCs = new HashSet(); if (attrCert.Holder.GetIssuer() != null) { X509CertStoreSelector selector = new X509CertStoreSelector(); selector.SerialNumber = attrCert.Holder.SerialNumber; X509Name[] principals = attrCert.Holder.GetIssuer(); for (int i = 0; i < principals.Length; i++) { try { // if (principals[i] is X500Principal) { selector.Issuer = principals[i]; } holderPKCs.AddAll(PkixCertPathValidatorUtilities .FindCertificates(selector, pkixParams.GetStores())); } catch (Exception e) { throw new PkixCertPathValidatorException( "Public key certificate for attribute certificate cannot be searched.", e); } } if (holderPKCs.IsEmpty) { throw new PkixCertPathValidatorException( "Public key certificate specified in base certificate ID for attribute certificate cannot be found."); } } if (attrCert.Holder.GetEntityNames() != null) { X509CertStoreSelector selector = new X509CertStoreSelector(); X509Name[] principals = attrCert.Holder.GetEntityNames(); for (int i = 0; i < principals.Length; i++) { try { // if (principals[i] is X500Principal) { selector.Issuer = principals[i]; } holderPKCs.AddAll(PkixCertPathValidatorUtilities .FindCertificates(selector, pkixParams.GetStores())); } catch (Exception e) { throw new PkixCertPathValidatorException( "Public key certificate for attribute certificate cannot be searched.", e); } } if (holderPKCs.IsEmpty) { throw new PkixCertPathValidatorException( "Public key certificate specified in entity name for attribute certificate cannot be found."); } } // verify cert paths for PKCs PkixBuilderParameters parameters = (PkixBuilderParameters) PkixBuilderParameters.GetInstance(pkixParams); PkixCertPathValidatorException lastException = null; foreach (X509Certificate cert in holderPKCs) { X509CertStoreSelector selector = new X509CertStoreSelector(); selector.Certificate = cert; parameters.SetTargetConstraints(selector); PkixCertPathBuilder builder = new PkixCertPathBuilder(); try { result = builder.Build(PkixBuilderParameters.GetInstance(parameters)); } catch (PkixCertPathBuilderException e) { lastException = new PkixCertPathValidatorException( "Certification path for public key certificate of attribute certificate could not be build.", e); } } if (lastException != null) { throw lastException; } return(result.CertPath); }
public virtual PkixCertPathValidatorResult Validate( PkixCertPath certPath, PkixParameters paramsPkix) { if (paramsPkix.GetTrustAnchors() == null) { throw new ArgumentException( "trustAnchors is null, this is not allowed for certification path validation.", "parameters"); } // // 6.1.1 - inputs // // // (a) // IList certs = certPath.Certificates; int n = certs.Count; if (certs.Count == 0) { throw new PkixCertPathValidatorException("Certification path is empty.", null, certPath, 0); } // // (b) // // DateTime validDate = PkixCertPathValidatorUtilities.GetValidDate(paramsPkix); // // (c) // ISet userInitialPolicySet = paramsPkix.GetInitialPolicies(); // // (d) // TrustAnchor trust; try { trust = PkixCertPathValidatorUtilities.FindTrustAnchor( (X509Certificate)certs[certs.Count - 1], paramsPkix.GetTrustAnchors()); } catch (Exception e) { throw new PkixCertPathValidatorException(e.Message, e, certPath, certs.Count - 1); } if (trust == null) { throw new PkixCertPathValidatorException("Trust anchor for certification path not found.", null, certPath, -1); } // // (e), (f), (g) are part of the paramsPkix object. // IEnumerator certIter; int index = 0; int i; // Certificate for each interation of the validation loop // Signature information for each iteration of the validation loop // // 6.1.2 - setup // // // (a) // IList[] policyNodes = new IList[n + 1]; for (int j = 0; j < policyNodes.Length; j++) { policyNodes[j] = Platform.CreateArrayList(); } ISet policySet = new HashSet(); policySet.Add(Rfc3280CertPathUtilities.ANY_POLICY); PkixPolicyNode validPolicyTree = new PkixPolicyNode(Platform.CreateArrayList(), 0, policySet, null, new HashSet(), Rfc3280CertPathUtilities.ANY_POLICY, false); policyNodes[0].Add(validPolicyTree); // // (b) and (c) // PkixNameConstraintValidator nameConstraintValidator = new PkixNameConstraintValidator(); // (d) // int explicitPolicy; ISet acceptablePolicies = new HashSet(); if (paramsPkix.IsExplicitPolicyRequired) { explicitPolicy = 0; } else { explicitPolicy = n + 1; } // // (e) // int inhibitAnyPolicy; if (paramsPkix.IsAnyPolicyInhibited) { inhibitAnyPolicy = 0; } else { inhibitAnyPolicy = n + 1; } // // (f) // int policyMapping; if (paramsPkix.IsPolicyMappingInhibited) { policyMapping = 0; } else { policyMapping = n + 1; } // // (g), (h), (i), (j) // AsymmetricKeyParameter workingPublicKey; X509Name workingIssuerName; X509Certificate sign = trust.TrustedCert; try { if (sign != null) { workingIssuerName = sign.SubjectDN; workingPublicKey = sign.GetPublicKey(); } else { workingIssuerName = new X509Name(trust.CAName); workingPublicKey = trust.CAPublicKey; } } catch (ArgumentException ex) { throw new PkixCertPathValidatorException("Subject of trust anchor could not be (re)encoded.", ex, certPath, -1); } AlgorithmIdentifier workingAlgId = null; try { workingAlgId = PkixCertPathValidatorUtilities.GetAlgorithmIdentifier(workingPublicKey); } catch (PkixCertPathValidatorException e) { throw new PkixCertPathValidatorException( "Algorithm identifier of public key of trust anchor could not be read.", e, certPath, -1); } // DerObjectIdentifier workingPublicKeyAlgorithm = workingAlgId.ObjectID; // Asn1Encodable workingPublicKeyParameters = workingAlgId.Parameters; // // (k) // int maxPathLength = n; // // 6.1.3 // X509CertStoreSelector certConstraints = paramsPkix.GetTargetCertConstraints(); if (certConstraints != null && !certConstraints.Match((X509Certificate)certs[0])) { throw new PkixCertPathValidatorException( "Target certificate in certification path does not match targetConstraints.", null, certPath, 0); } // // initialize CertPathChecker's // IList pathCheckers = paramsPkix.GetCertPathCheckers(); certIter = pathCheckers.GetEnumerator(); while (certIter.MoveNext()) { ((PkixCertPathChecker)certIter.Current).Init(false); } X509Certificate cert = null; for (index = certs.Count - 1; index >= 0; index--) { // try // { // // i as defined in the algorithm description // i = n - index; // // set certificate to be checked in this round // sign and workingPublicKey and workingIssuerName are set // at the end of the for loop and initialized the // first time from the TrustAnchor // cert = (X509Certificate)certs[index]; // // 6.1.3 // Rfc3280CertPathUtilities.ProcessCertA(certPath, paramsPkix, index, workingPublicKey, workingIssuerName, sign); Rfc3280CertPathUtilities.ProcessCertBC(certPath, index, nameConstraintValidator); validPolicyTree = Rfc3280CertPathUtilities.ProcessCertD(certPath, index, acceptablePolicies, validPolicyTree, policyNodes, inhibitAnyPolicy); validPolicyTree = Rfc3280CertPathUtilities.ProcessCertE(certPath, index, validPolicyTree); Rfc3280CertPathUtilities.ProcessCertF(certPath, index, validPolicyTree, explicitPolicy); // // 6.1.4 // if (i != n) { if (cert != null && cert.Version == 1) { throw new PkixCertPathValidatorException( "Version 1 certificates can't be used as CA ones.", null, certPath, index); } Rfc3280CertPathUtilities.PrepareNextCertA(certPath, index); validPolicyTree = Rfc3280CertPathUtilities.PrepareCertB(certPath, index, policyNodes, validPolicyTree, policyMapping); Rfc3280CertPathUtilities.PrepareNextCertG(certPath, index, nameConstraintValidator); // (h) explicitPolicy = Rfc3280CertPathUtilities.PrepareNextCertH1(certPath, index, explicitPolicy); policyMapping = Rfc3280CertPathUtilities.PrepareNextCertH2(certPath, index, policyMapping); inhibitAnyPolicy = Rfc3280CertPathUtilities.PrepareNextCertH3(certPath, index, inhibitAnyPolicy); // // (i) // explicitPolicy = Rfc3280CertPathUtilities.PrepareNextCertI1(certPath, index, explicitPolicy); policyMapping = Rfc3280CertPathUtilities.PrepareNextCertI2(certPath, index, policyMapping); // (j) inhibitAnyPolicy = Rfc3280CertPathUtilities.PrepareNextCertJ(certPath, index, inhibitAnyPolicy); // (k) Rfc3280CertPathUtilities.PrepareNextCertK(certPath, index); // (l) maxPathLength = Rfc3280CertPathUtilities.PrepareNextCertL(certPath, index, maxPathLength); // (m) maxPathLength = Rfc3280CertPathUtilities.PrepareNextCertM(certPath, index, maxPathLength); // (n) Rfc3280CertPathUtilities.PrepareNextCertN(certPath, index); ISet criticalExtensions1 = cert.GetCriticalExtensionOids(); if (criticalExtensions1 != null) { criticalExtensions1 = new HashSet(criticalExtensions1); // these extensions are handled by the algorithm criticalExtensions1.Remove(X509Extensions.KeyUsage.Id); criticalExtensions1.Remove(X509Extensions.CertificatePolicies.Id); criticalExtensions1.Remove(X509Extensions.PolicyMappings.Id); criticalExtensions1.Remove(X509Extensions.InhibitAnyPolicy.Id); criticalExtensions1.Remove(X509Extensions.IssuingDistributionPoint.Id); criticalExtensions1.Remove(X509Extensions.DeltaCrlIndicator.Id); criticalExtensions1.Remove(X509Extensions.PolicyConstraints.Id); criticalExtensions1.Remove(X509Extensions.BasicConstraints.Id); criticalExtensions1.Remove(X509Extensions.SubjectAlternativeName.Id); criticalExtensions1.Remove(X509Extensions.NameConstraints.Id); } else { criticalExtensions1 = new HashSet(); } // (o) Rfc3280CertPathUtilities.PrepareNextCertO(certPath, index, criticalExtensions1, pathCheckers); // set signing certificate for next round sign = cert; // (c) workingIssuerName = sign.SubjectDN; // (d) try { workingPublicKey = PkixCertPathValidatorUtilities.GetNextWorkingKey(certPath.Certificates, index); } catch (PkixCertPathValidatorException e) { throw new PkixCertPathValidatorException("Next working key could not be retrieved.", e, certPath, index); } workingAlgId = PkixCertPathValidatorUtilities.GetAlgorithmIdentifier(workingPublicKey); // (f) // workingPublicKeyAlgorithm = workingAlgId.ObjectID; // (e) // workingPublicKeyParameters = workingAlgId.Parameters; } } // // 6.1.5 Wrap-up procedure // explicitPolicy = Rfc3280CertPathUtilities.WrapupCertA(explicitPolicy, cert); explicitPolicy = Rfc3280CertPathUtilities.WrapupCertB(certPath, index + 1, explicitPolicy); // // (c) (d) and (e) are already done // // // (f) // ISet criticalExtensions = cert.GetCriticalExtensionOids(); if (criticalExtensions != null) { criticalExtensions = new HashSet(criticalExtensions); // Requires .Id // these extensions are handled by the algorithm criticalExtensions.Remove(X509Extensions.KeyUsage.Id); criticalExtensions.Remove(X509Extensions.CertificatePolicies.Id); criticalExtensions.Remove(X509Extensions.PolicyMappings.Id); criticalExtensions.Remove(X509Extensions.InhibitAnyPolicy.Id); criticalExtensions.Remove(X509Extensions.IssuingDistributionPoint.Id); criticalExtensions.Remove(X509Extensions.DeltaCrlIndicator.Id); criticalExtensions.Remove(X509Extensions.PolicyConstraints.Id); criticalExtensions.Remove(X509Extensions.BasicConstraints.Id); criticalExtensions.Remove(X509Extensions.SubjectAlternativeName.Id); criticalExtensions.Remove(X509Extensions.NameConstraints.Id); criticalExtensions.Remove(X509Extensions.CrlDistributionPoints.Id); } else { criticalExtensions = new HashSet(); } Rfc3280CertPathUtilities.WrapupCertF(certPath, index + 1, pathCheckers, criticalExtensions); PkixPolicyNode intersection = Rfc3280CertPathUtilities.WrapupCertG(certPath, paramsPkix, userInitialPolicySet, index + 1, policyNodes, validPolicyTree, acceptablePolicies); if ((explicitPolicy > 0) || (intersection != null)) { return(new PkixCertPathValidatorResult(trust, intersection, cert.GetPublicKey())); } throw new PkixCertPathValidatorException("Path processing failed on policy.", null, certPath, index); }