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The Long Term Stable (LTS) Bouncy Castle Crypto package is a Java implementation of cryptographic algorithms. This jar contains the JCA/JCE provider and low-level API for the BC LTS version 2.73.7 for Java 8 and later.

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package org.bouncycastle.jce.provider;

import java.io.IOException;
import java.security.GeneralSecurityException;
import java.security.PublicKey;
import java.security.cert.CertPath;
import java.security.cert.CertPathBuilderException;
import java.security.cert.CertPathBuilderSpi;
import java.security.cert.CertPathValidatorException;
import java.security.cert.CertificateExpiredException;
import java.security.cert.CertificateNotYetValidException;
import java.security.cert.PKIXCertPathChecker;
import java.security.cert.X509CRL;
import java.security.cert.X509CertSelector;
import java.security.cert.X509Certificate;
import java.security.cert.X509Extension;
import java.text.SimpleDateFormat;
import java.util.ArrayList;
import java.util.Date;
import java.util.Enumeration;
import java.util.HashMap;
import java.util.HashSet;
import java.util.Iterator;
import java.util.LinkedHashSet;
import java.util.List;
import java.util.Map;
import java.util.Set;
import java.util.TimeZone;

import org.bouncycastle.asn1.ASN1Encodable;
import org.bouncycastle.asn1.ASN1EncodableVector;
import org.bouncycastle.asn1.ASN1Integer;
import org.bouncycastle.asn1.ASN1ObjectIdentifier;
import org.bouncycastle.asn1.ASN1Primitive;
import org.bouncycastle.asn1.ASN1Sequence;
import org.bouncycastle.asn1.ASN1String;
import org.bouncycastle.asn1.ASN1TaggedObject;
import org.bouncycastle.asn1.DERSequence;
import org.bouncycastle.asn1.x500.RDN;
import org.bouncycastle.asn1.x500.X500Name;
import org.bouncycastle.asn1.x500.style.BCStyle;
import org.bouncycastle.asn1.x509.BasicConstraints;
import org.bouncycastle.asn1.x509.CRLDistPoint;
import org.bouncycastle.asn1.x509.CRLReason;
import org.bouncycastle.asn1.x509.DistributionPoint;
import org.bouncycastle.asn1.x509.DistributionPointName;
import org.bouncycastle.asn1.x509.Extension;
import org.bouncycastle.asn1.x509.GeneralName;
import org.bouncycastle.asn1.x509.GeneralNames;
import org.bouncycastle.asn1.x509.GeneralSubtree;
import org.bouncycastle.asn1.x509.IssuingDistributionPoint;
import org.bouncycastle.asn1.x509.NameConstraints;
import org.bouncycastle.asn1.x509.PolicyInformation;
import org.bouncycastle.jcajce.PKIXCRLStore;
import org.bouncycastle.jcajce.PKIXCertRevocationChecker;
import org.bouncycastle.jcajce.PKIXCertRevocationCheckerParameters;
import org.bouncycastle.jcajce.PKIXCertStoreSelector;
import org.bouncycastle.jcajce.PKIXExtendedBuilderParameters;
import org.bouncycastle.jcajce.PKIXExtendedParameters;
import org.bouncycastle.jcajce.provider.symmetric.util.ClassUtil;
import org.bouncycastle.jcajce.util.JcaJceHelper;
import org.bouncycastle.jce.exception.ExtCertPathValidatorException;
import org.bouncycastle.util.Arrays;

class RFC3280CertPathUtilities
{
    private static final Class revChkClass = ClassUtil.loadClass(RFC3280CertPathUtilities.class, "java.security.cert.PKIXRevocationChecker");

    /**
     * If the complete CRL includes an issuing distribution point (IDP) CRL
     * extension check the following:
     * 

* (i) If the distribution point name is present in the IDP CRL extension * and the distribution field is present in the DP, then verify that one of * the names in the IDP matches one of the names in the DP. If the * distribution point name is present in the IDP CRL extension and the * distribution field is omitted from the DP, then verify that one of the * names in the IDP matches one of the names in the cRLIssuer field of the * DP. *

*

* (ii) If the onlyContainsUserCerts boolean is asserted in the IDP CRL * extension, verify that the certificate does not include the basic * constraints extension with the cA boolean asserted. *

*

* (iii) If the onlyContainsCACerts boolean is asserted in the IDP CRL * extension, verify that the certificate includes the basic constraints * extension with the cA boolean asserted. *

*

* (iv) Verify that the onlyContainsAttributeCerts boolean is not asserted. *

* * @param dp The distribution point. * @param cert The certificate. * @param crl The CRL. * @throws AnnotatedException if one of the conditions is not met or an error occurs. */ protected static void processCRLB2( DistributionPoint dp, Object cert, X509CRL crl) throws AnnotatedException { IssuingDistributionPoint idp = null; try { idp = IssuingDistributionPoint.getInstance(CertPathValidatorUtilities.getExtensionValue(crl, RFC3280CertPathUtilities.ISSUING_DISTRIBUTION_POINT)); } catch (Exception e) { throw new AnnotatedException("Issuing distribution point extension could not be decoded.", e); } // (b) (2) (i) // distribution point name is present if (idp != null) { if (idp.getDistributionPoint() != null) { // make list of names DistributionPointName dpName = IssuingDistributionPoint.getInstance(idp).getDistributionPoint(); List names = new ArrayList(); if (dpName.getType() == DistributionPointName.FULL_NAME) { GeneralName[] genNames = GeneralNames.getInstance(dpName.getName()).getNames(); for (int j = 0; j < genNames.length; j++) { names.add(genNames[j]); } } if (dpName.getType() == DistributionPointName.NAME_RELATIVE_TO_CRL_ISSUER) { ASN1EncodableVector vec = new ASN1EncodableVector(); try { Enumeration e = ASN1Sequence.getInstance(PrincipalUtils.getIssuerPrincipal(crl)).getObjects(); while (e.hasMoreElements()) { vec.add((ASN1Encodable)e.nextElement()); } } catch (Exception e) { throw new AnnotatedException("Could not read CRL issuer.", e); } vec.add(dpName.getName()); names.add(new GeneralName(X500Name.getInstance(new DERSequence(vec)))); } boolean matches = false; // verify that one of the names in the IDP matches one // of the names in the DP. if (dp.getDistributionPoint() != null) { dpName = dp.getDistributionPoint(); GeneralName[] genNames = null; if (dpName.getType() == DistributionPointName.FULL_NAME) { genNames = GeneralNames.getInstance(dpName.getName()).getNames(); } if (dpName.getType() == DistributionPointName.NAME_RELATIVE_TO_CRL_ISSUER) { if (dp.getCRLIssuer() != null) { genNames = dp.getCRLIssuer().getNames(); } else { genNames = new GeneralName[1]; try { genNames[0] = new GeneralName(PrincipalUtils.getEncodedIssuerPrincipal(cert)); } catch (Exception e) { throw new AnnotatedException("Could not read certificate issuer.", e); } } for (int j = 0; j < genNames.length; j++) { Enumeration e = ASN1Sequence.getInstance(genNames[j].getName().toASN1Primitive()).getObjects(); ASN1EncodableVector vec = new ASN1EncodableVector(); while (e.hasMoreElements()) { vec.add((ASN1Encodable)e.nextElement()); } vec.add(dpName.getName()); genNames[j] = new GeneralName(X500Name.getInstance(new DERSequence(vec))); } } if (genNames != null) { for (int j = 0; j < genNames.length; j++) { if (names.contains(genNames[j])) { matches = true; break; } } } if (!matches) { throw new AnnotatedException( "No match for certificate CRL issuing distribution point name to cRLIssuer CRL distribution point."); } } // verify that one of the names in // the IDP matches one of the names in the cRLIssuer field of // the DP else { if (dp.getCRLIssuer() == null) { throw new AnnotatedException("Either the cRLIssuer or the distributionPoint field must " + "be contained in DistributionPoint."); } GeneralName[] genNames = dp.getCRLIssuer().getNames(); for (int j = 0; j < genNames.length; j++) { if (names.contains(genNames[j])) { matches = true; break; } } if (!matches) { throw new AnnotatedException( "No match for certificate CRL issuing distribution point name to cRLIssuer CRL distribution point."); } } } BasicConstraints bc = null; try { bc = BasicConstraints.getInstance(CertPathValidatorUtilities.getExtensionValue((X509Extension)cert, BASIC_CONSTRAINTS)); } catch (Exception e) { throw new AnnotatedException("Basic constraints extension could not be decoded.", e); } if (cert instanceof X509Certificate) { // (b) (2) (ii) if (idp.onlyContainsUserCerts() && (bc != null && bc.isCA())) { throw new AnnotatedException("CA Cert CRL only contains user certificates."); } // (b) (2) (iii) if (idp.onlyContainsCACerts() && (bc == null || !bc.isCA())) { throw new AnnotatedException("End CRL only contains CA certificates."); } } // (b) (2) (iv) if (idp.onlyContainsAttributeCerts()) { throw new AnnotatedException("onlyContainsAttributeCerts boolean is asserted."); } } } /** * If the DP includes cRLIssuer, then verify that the issuer field in the * complete CRL matches cRLIssuer in the DP and that the complete CRL * contains an issuing distribution point extension with the indirectCRL * boolean asserted. Otherwise, verify that the CRL issuer matches the * certificate issuer. * * @param dp The distribution point. * @param cert The certificate ot attribute certificate. * @param crl The CRL for cert. * @throws AnnotatedException if one of the above conditions does not apply or an error * occurs. */ protected static void processCRLB1( DistributionPoint dp, Object cert, X509CRL crl) throws AnnotatedException { ASN1Primitive idp = CertPathValidatorUtilities.getExtensionValue(crl, ISSUING_DISTRIBUTION_POINT); boolean isIndirect = false; if (idp != null) { if (IssuingDistributionPoint.getInstance(idp).isIndirectCRL()) { isIndirect = true; } } byte[] issuerBytes; try { issuerBytes = PrincipalUtils.getIssuerPrincipal(crl).getEncoded(); } catch (IOException e) { throw new AnnotatedException("Exception encoding CRL issuer: " + e.getMessage(), e); } boolean matchIssuer = false; if (dp.getCRLIssuer() != null) { GeneralName genNames[] = dp.getCRLIssuer().getNames(); for (int j = 0; j < genNames.length; j++) { if (genNames[j].getTagNo() == GeneralName.directoryName) { try { if (Arrays.areEqual(genNames[j].getName().toASN1Primitive().getEncoded(), issuerBytes)) { matchIssuer = true; } } catch (IOException e) { throw new AnnotatedException( "CRL issuer information from distribution point cannot be decoded.", e); } } } if (matchIssuer && !isIndirect) { throw new AnnotatedException("Distribution point contains cRLIssuer field but CRL is not indirect."); } if (!matchIssuer) { throw new AnnotatedException("CRL issuer of CRL does not match CRL issuer of distribution point."); } } else { if (PrincipalUtils.getIssuerPrincipal(crl).equals( PrincipalUtils.getEncodedIssuerPrincipal(cert))) { matchIssuer = true; } } if (!matchIssuer) { throw new AnnotatedException("Cannot find matching CRL issuer for certificate."); } } protected static ReasonsMask processCRLD( X509CRL crl, DistributionPoint dp) throws AnnotatedException { IssuingDistributionPoint idp = null; try { idp = IssuingDistributionPoint.getInstance(CertPathValidatorUtilities.getExtensionValue(crl, RFC3280CertPathUtilities.ISSUING_DISTRIBUTION_POINT)); } catch (Exception e) { throw new AnnotatedException("Issuing distribution point extension could not be decoded.", e); } // (d) (1) if (idp != null && idp.getOnlySomeReasons() != null && dp.getReasons() != null) { return new ReasonsMask(dp.getReasons()).intersect(new ReasonsMask(idp.getOnlySomeReasons())); } // (d) (4) if ((idp == null || idp.getOnlySomeReasons() == null) && dp.getReasons() == null) { return ReasonsMask.allReasons; } // (d) (2) and (d)(3) return (dp.getReasons() == null ? ReasonsMask.allReasons : new ReasonsMask(dp.getReasons())).intersect(idp == null ? ReasonsMask.allReasons : new ReasonsMask(idp.getOnlySomeReasons())); } public static final String CERTIFICATE_POLICIES = Extension.certificatePolicies.getId(); public static final String POLICY_MAPPINGS = Extension.policyMappings.getId(); public static final String INHIBIT_ANY_POLICY = Extension.inhibitAnyPolicy.getId(); public static final String ISSUING_DISTRIBUTION_POINT = Extension.issuingDistributionPoint.getId(); public static final String FRESHEST_CRL = Extension.freshestCRL.getId(); public static final String DELTA_CRL_INDICATOR = Extension.deltaCRLIndicator.getId(); public static final String POLICY_CONSTRAINTS = Extension.policyConstraints.getId(); public static final String BASIC_CONSTRAINTS = Extension.basicConstraints.getId(); public static final String CRL_DISTRIBUTION_POINTS = Extension.cRLDistributionPoints.getId(); public static final String SUBJECT_ALTERNATIVE_NAME = Extension.subjectAlternativeName.getId(); public static final String NAME_CONSTRAINTS = Extension.nameConstraints.getId(); public static final String AUTHORITY_KEY_IDENTIFIER = Extension.authorityKeyIdentifier.getId(); public static final String KEY_USAGE = Extension.keyUsage.getId(); public static final String CRL_NUMBER = Extension.cRLNumber.getId(); public static final String ANY_POLICY = "2.5.29.32.0"; /* * key usage bits */ protected static final int KEY_CERT_SIGN = 5; protected static final int CRL_SIGN = 6; /** * Obtain and validate the certification path for the complete CRL issuer. * If a key usage extension is present in the CRL issuer's certificate, * verify that the cRLSign bit is set. * * @param crl CRL which contains revocation information for the certificate * cert. * @param cert The attribute certificate or certificate to check if it is * revoked. * @param defaultCRLSignCert The issuer certificate of the certificate cert. * @param defaultCRLSignKey The public key of the issuer certificate * defaultCRLSignCert. * @param paramsPKIX paramsPKIX PKIX parameters. * @param certPathCerts The certificates on the certification path. * @return A Set with all keys of possible CRL issuer * certificates. * @throws AnnotatedException if the CRL is not valid or the status cannot be checked or * some error occurs. */ protected static Set processCRLF( X509CRL crl, Object cert, X509Certificate defaultCRLSignCert, PublicKey defaultCRLSignKey, PKIXExtendedParameters paramsPKIX, List certPathCerts, JcaJceHelper helper) throws AnnotatedException { // (f) // get issuer from CRL X509CertSelector certSelector = new X509CertSelector(); try { byte[] issuerPrincipal = PrincipalUtils.getIssuerPrincipal(crl).getEncoded(); certSelector.setSubject(issuerPrincipal); } catch (IOException e) { throw new AnnotatedException( "Subject criteria for certificate selector to find issuer certificate for CRL could not be set.", e); } PKIXCertStoreSelector selector = new PKIXCertStoreSelector.Builder(certSelector).build(); // get CRL signing certs LinkedHashSet coll = new LinkedHashSet(); try { CertPathValidatorUtilities.findCertificates(coll, selector, paramsPKIX.getCertificateStores()); CertPathValidatorUtilities.findCertificates(coll, selector, paramsPKIX.getCertStores()); } catch (AnnotatedException e) { throw new AnnotatedException("Issuer certificate for CRL cannot be searched.", e); } coll.add(defaultCRLSignCert); Iterator cert_it = coll.iterator(); List validCerts = new ArrayList(); List validKeys = new ArrayList(); while (cert_it.hasNext()) { X509Certificate signingCert = (X509Certificate)cert_it.next(); /* * CA of the certificate, for which this CRL is checked, has also * signed CRL, so skip the path validation, because is already done */ if (signingCert.equals(defaultCRLSignCert)) { validCerts.add(signingCert); validKeys.add(defaultCRLSignKey); continue; } try { CertPathBuilderSpi builder = (revChkClass != null) ? new PKIXCertPathBuilderSpi_8(true) : new PKIXCertPathBuilderSpi(true); X509CertSelector tmpCertSelector = new X509CertSelector(); tmpCertSelector.setCertificate(signingCert); PKIXExtendedParameters.Builder paramsBuilder = new PKIXExtendedParameters.Builder(paramsPKIX) .setTargetConstraints(new PKIXCertStoreSelector.Builder(tmpCertSelector).build()); /* * if signingCert is placed not higher on the cert path a * dependency loop results. CRL for cert is checked, but * signingCert is needed for checking the CRL which is dependent * on checking cert because it is higher in the cert path and so * signing signingCert transitively. so, revocation is disabled, * forgery attacks of the CRL are detected in this outer loop * for all other it must be enabled to prevent forgery attacks */ if (certPathCerts.contains(signingCert)) { paramsBuilder.setRevocationEnabled(false); } else { paramsBuilder.setRevocationEnabled(true); } PKIXExtendedBuilderParameters extParams = new PKIXExtendedBuilderParameters.Builder(paramsBuilder.build()).build(); List certs = builder.engineBuild(extParams).getCertPath().getCertificates(); validCerts.add(signingCert); validKeys.add(CertPathValidatorUtilities.getNextWorkingKey(certs, 0, helper)); } catch (CertPathBuilderException e) { throw new AnnotatedException("CertPath for CRL signer failed to validate.", e); } catch (CertPathValidatorException e) { throw new AnnotatedException("Public key of issuer certificate of CRL could not be retrieved.", e); } catch (Exception e) { throw new AnnotatedException(e.getMessage()); } } Set checkKeys = new HashSet(); AnnotatedException lastException = null; for (int i = 0; i < validCerts.size(); i++) { X509Certificate signCert = (X509Certificate)validCerts.get(i); boolean[] keyUsage = signCert.getKeyUsage(); if (keyUsage != null && (keyUsage.length <= CRL_SIGN || !keyUsage[CRL_SIGN])) { lastException = new AnnotatedException( "Issuer certificate key usage extension does not permit CRL signing."); } else { checkKeys.add(validKeys.get(i)); } } if (checkKeys.isEmpty() && lastException == null) { throw new AnnotatedException("Cannot find a valid issuer certificate."); } if (checkKeys.isEmpty() && lastException != null) { throw lastException; } return checkKeys; } protected static PublicKey processCRLG( X509CRL crl, Set keys) throws AnnotatedException { Exception lastException = null; for (Iterator it = keys.iterator(); it.hasNext();) { PublicKey key = (PublicKey)it.next(); try { crl.verify(key); return key; } catch (Exception e) { lastException = e; } } throw new AnnotatedException("Cannot verify CRL.", lastException); } protected static X509CRL processCRLH( Set deltacrls, PublicKey key) throws AnnotatedException { Exception lastException = null; for (Iterator it = deltacrls.iterator(); it.hasNext();) { X509CRL crl = (X509CRL)it.next(); try { crl.verify(key); return crl; } catch (Exception e) { lastException = e; } } if (lastException != null) { throw new AnnotatedException("Cannot verify delta CRL.", lastException); } return null; } /** * If use-deltas is set, verify the issuer and scope of the delta CRL. * * @param deltaCRL The delta CRL. * @param completeCRL The complete CRL. * @param pkixParams The PKIX paramaters. * @throws AnnotatedException if an exception occurs. */ protected static void processCRLC( X509CRL deltaCRL, X509CRL completeCRL, PKIXExtendedParameters pkixParams) throws AnnotatedException { if (deltaCRL == null) { return; } if (deltaCRL.hasUnsupportedCriticalExtension()) { throw new AnnotatedException("delta CRL has unsupported critical extensions"); } IssuingDistributionPoint completeidp = null; try { completeidp = IssuingDistributionPoint.getInstance(CertPathValidatorUtilities.getExtensionValue( completeCRL, RFC3280CertPathUtilities.ISSUING_DISTRIBUTION_POINT)); } catch (Exception e) { throw new AnnotatedException("Issuing distribution point extension could not be decoded.", e); } if (pkixParams.isUseDeltasEnabled()) { // (c) (1) if (!PrincipalUtils.getIssuerPrincipal(deltaCRL).equals(PrincipalUtils.getIssuerPrincipal(completeCRL))) { throw new AnnotatedException("Complete CRL issuer does not match delta CRL issuer."); } // (c) (2) IssuingDistributionPoint deltaidp = null; try { deltaidp = IssuingDistributionPoint.getInstance(CertPathValidatorUtilities.getExtensionValue( deltaCRL, ISSUING_DISTRIBUTION_POINT)); } catch (Exception e) { throw new AnnotatedException( "Issuing distribution point extension from delta CRL could not be decoded.", e); } boolean match = false; if (completeidp == null) { if (deltaidp == null) { match = true; } } else { if (completeidp.equals(deltaidp)) { match = true; } } if (!match) { throw new AnnotatedException( "Issuing distribution point extension from delta CRL and complete CRL does not match."); } // (c) (3) ASN1Primitive completeKeyIdentifier = null; try { completeKeyIdentifier = CertPathValidatorUtilities.getExtensionValue( completeCRL, AUTHORITY_KEY_IDENTIFIER); } catch (AnnotatedException e) { throw new AnnotatedException( "Authority key identifier extension could not be extracted from complete CRL.", e); } ASN1Primitive deltaKeyIdentifier = null; try { deltaKeyIdentifier = CertPathValidatorUtilities.getExtensionValue( deltaCRL, AUTHORITY_KEY_IDENTIFIER); } catch (AnnotatedException e) { throw new AnnotatedException( "Authority key identifier extension could not be extracted from delta CRL.", e); } if (completeKeyIdentifier == null) { throw new AnnotatedException("CRL authority key identifier is null."); } if (deltaKeyIdentifier == null) { throw new AnnotatedException("Delta CRL authority key identifier is null."); } if (!completeKeyIdentifier.equals(deltaKeyIdentifier)) { throw new AnnotatedException( "Delta CRL authority key identifier does not match complete CRL authority key identifier."); } } } protected static void processCRLI( Date validDate, X509CRL deltacrl, Object cert, CertStatus certStatus, PKIXExtendedParameters pkixParams) throws AnnotatedException { if (pkixParams.isUseDeltasEnabled() && deltacrl != null) { CertPathValidatorUtilities.getCertStatus(validDate, deltacrl, cert, certStatus); } } protected static void processCRLJ( Date validDate, X509CRL completecrl, Object cert, CertStatus certStatus) throws AnnotatedException { if (certStatus.getCertStatus() == CertStatus.UNREVOKED) { CertPathValidatorUtilities.getCertStatus(validDate, completecrl, cert, certStatus); } } protected static PKIXPolicyNode prepareCertB( CertPath certPath, int index, List[] policyNodes, PKIXPolicyNode validPolicyTree, int policyMapping) throws CertPathValidatorException { List certs = certPath.getCertificates(); X509Certificate cert = (X509Certificate)certs.get(index); int n = certs.size(); // i as defined in the algorithm description int i = n - index; // (b) // ASN1Sequence pm = null; try { pm = ASN1Sequence.getInstance(CertPathValidatorUtilities.getExtensionValue(cert, RFC3280CertPathUtilities.POLICY_MAPPINGS)); } catch (AnnotatedException ex) { throw new ExtCertPathValidatorException("Policy mappings extension could not be decoded.", ex, certPath, index); } PKIXPolicyNode _validPolicyTree = validPolicyTree; if (pm != null) { ASN1Sequence mappings = (ASN1Sequence)pm; Map m_idp = new HashMap(); Set s_idp = new HashSet(); for (int j = 0; j < mappings.size(); j++) { ASN1Sequence mapping = (ASN1Sequence)mappings.getObjectAt(j); String id_p = ((ASN1ObjectIdentifier)mapping.getObjectAt(0)).getId(); String sd_p = ((ASN1ObjectIdentifier)mapping.getObjectAt(1)).getId(); Set tmp; if (!m_idp.containsKey(id_p)) { tmp = new HashSet(); tmp.add(sd_p); m_idp.put(id_p, tmp); s_idp.add(id_p); } else { tmp = (Set)m_idp.get(id_p); tmp.add(sd_p); } } Iterator it_idp = s_idp.iterator(); while (it_idp.hasNext()) { String id_p = (String)it_idp.next(); // // (1) // if (policyMapping > 0) { boolean idp_found = false; Iterator nodes_i = policyNodes[i].iterator(); while (nodes_i.hasNext()) { PKIXPolicyNode node = (PKIXPolicyNode)nodes_i.next(); if (node.getValidPolicy().equals(id_p)) { idp_found = true; node.expectedPolicies = (Set)m_idp.get(id_p); break; } } if (!idp_found) { nodes_i = policyNodes[i].iterator(); while (nodes_i.hasNext()) { PKIXPolicyNode node = (PKIXPolicyNode)nodes_i.next(); if (RFC3280CertPathUtilities.ANY_POLICY.equals(node.getValidPolicy())) { Set pq = null; ASN1Sequence policies = null; try { policies = (ASN1Sequence)CertPathValidatorUtilities.getExtensionValue(cert, RFC3280CertPathUtilities.CERTIFICATE_POLICIES); } catch (AnnotatedException e) { throw new ExtCertPathValidatorException( "Certificate policies extension could not be decoded.", e, certPath, index); } Enumeration e = policies.getObjects(); while (e.hasMoreElements()) { PolicyInformation pinfo = null; try { pinfo = PolicyInformation.getInstance(e.nextElement()); } catch (Exception ex) { throw new CertPathValidatorException( "Policy information could not be decoded.", ex, certPath, index); } if (RFC3280CertPathUtilities.ANY_POLICY.equals(pinfo.getPolicyIdentifier().getId())) { try { pq = CertPathValidatorUtilities .getQualifierSet(pinfo.getPolicyQualifiers()); } catch (CertPathValidatorException ex) { throw new ExtCertPathValidatorException( "Policy qualifier info set could not be decoded.", ex, certPath, index); } break; } } boolean ci = false; if (cert.getCriticalExtensionOIDs() != null) { ci = cert.getCriticalExtensionOIDs().contains( RFC3280CertPathUtilities.CERTIFICATE_POLICIES); } PKIXPolicyNode p_node = (PKIXPolicyNode)node.getParent(); if (RFC3280CertPathUtilities.ANY_POLICY.equals(p_node.getValidPolicy())) { PKIXPolicyNode c_node = new PKIXPolicyNode(new ArrayList(), i, (Set)m_idp .get(id_p), p_node, pq, id_p, ci); p_node.addChild(c_node); policyNodes[i].add(c_node); } break; } } } // // (2) // } else if (policyMapping <= 0) { Iterator nodes_i = policyNodes[i].iterator(); while (nodes_i.hasNext()) { PKIXPolicyNode node = (PKIXPolicyNode)nodes_i.next(); if (node.getValidPolicy().equals(id_p)) { PKIXPolicyNode p_node = (PKIXPolicyNode)node.getParent(); p_node.removeChild(node); nodes_i.remove(); for (int k = (i - 1); k >= 0; k--) { List nodes = policyNodes[k]; for (int l = 0; l < nodes.size(); l++) { PKIXPolicyNode node2 = (PKIXPolicyNode)nodes.get(l); if (!node2.hasChildren()) { _validPolicyTree = CertPathValidatorUtilities.removePolicyNode( _validPolicyTree, policyNodes, node2); if (_validPolicyTree == null) { break; } } } } } } } } } return _validPolicyTree; } protected static void prepareNextCertA( CertPath certPath, int index) throws CertPathValidatorException { List certs = certPath.getCertificates(); X509Certificate cert = (X509Certificate)certs.get(index); // // // (a) check the policy mappings // ASN1Sequence pm = null; try { pm = ASN1Sequence.getInstance(CertPathValidatorUtilities.getExtensionValue(cert, RFC3280CertPathUtilities.POLICY_MAPPINGS)); } catch (AnnotatedException ex) { throw new ExtCertPathValidatorException("Policy mappings extension could not be decoded.", ex, certPath, index); } if (pm != null) { ASN1Sequence mappings = pm; for (int j = 0; j < mappings.size(); j++) { ASN1ObjectIdentifier issuerDomainPolicy = null; ASN1ObjectIdentifier subjectDomainPolicy = null; try { ASN1Sequence mapping = ASN1Sequence.getInstance(mappings.getObjectAt(j)); issuerDomainPolicy = ASN1ObjectIdentifier.getInstance(mapping.getObjectAt(0)); subjectDomainPolicy = ASN1ObjectIdentifier.getInstance(mapping.getObjectAt(1)); } catch (Exception e) { throw new ExtCertPathValidatorException("Policy mappings extension contents could not be decoded.", e, certPath, index); } if (RFC3280CertPathUtilities.ANY_POLICY.equals(issuerDomainPolicy.getId())) { throw new CertPathValidatorException("IssuerDomainPolicy is anyPolicy", null, certPath, index); } if (RFC3280CertPathUtilities.ANY_POLICY.equals(subjectDomainPolicy.getId())) { throw new CertPathValidatorException("SubjectDomainPolicy is anyPolicy", null, certPath, index); } } } } protected static void processCertF( CertPath certPath, int index, PKIXPolicyNode validPolicyTree, int explicitPolicy) throws CertPathValidatorException { // // (f) // if (explicitPolicy <= 0 && validPolicyTree == null) { throw new ExtCertPathValidatorException("No valid policy tree found when one expected.", null, certPath, index); } } protected static PKIXPolicyNode processCertE( CertPath certPath, int index, PKIXPolicyNode validPolicyTree) throws CertPathValidatorException { List certs = certPath.getCertificates(); X509Certificate cert = (X509Certificate)certs.get(index); // // (e) // ASN1Sequence certPolicies = null; try { certPolicies = ASN1Sequence.getInstance(CertPathValidatorUtilities.getExtensionValue(cert, RFC3280CertPathUtilities.CERTIFICATE_POLICIES)); } catch (AnnotatedException e) { throw new ExtCertPathValidatorException("Could not read certificate policies extension from certificate.", e, certPath, index); } if (certPolicies == null) { validPolicyTree = null; } return validPolicyTree; } protected static void processCertBC( CertPath certPath, int index, PKIXNameConstraintValidator nameConstraintValidator, boolean isForCRLCheck) throws CertPathValidatorException { List certs = certPath.getCertificates(); X509Certificate cert = (X509Certificate)certs.get(index); int n = certs.size(); // i as defined in the algorithm description int i = n - index; // // (b), (c) permitted and excluded subtree checking. // // 4.2.1.10 Name constraints are not applied to self-issued certificates (unless // the certificate is the final certificate in the path) // as we use the validator for path CRL checking, we need to flag when the // certificate is self issued, but not really the last one in the path we are actually // checking. if (!(CertPathValidatorUtilities.isSelfIssued(cert) && ((i < n) || isForCRLCheck))) { X500Name principal = PrincipalUtils.getSubjectPrincipal(cert); ASN1Sequence dns; try { dns = ASN1Sequence.getInstance(principal); } catch (Exception e) { throw new CertPathValidatorException("Exception extracting subject name when checking subtrees.", e, certPath, index); } try { nameConstraintValidator.checkPermittedDN(dns); nameConstraintValidator.checkExcludedDN(dns); } catch (PKIXNameConstraintValidatorException e) { throw new CertPathValidatorException("Subtree check for certificate subject failed.", e, certPath, index); } GeneralNames altName = null; try { altName = GeneralNames.getInstance(CertPathValidatorUtilities.getExtensionValue(cert, RFC3280CertPathUtilities.SUBJECT_ALTERNATIVE_NAME)); } catch (Exception e) { throw new CertPathValidatorException("Subject alternative name extension could not be decoded.", e, certPath, index); } RDN[] emails = X500Name.getInstance(dns).getRDNs(BCStyle.EmailAddress); for (int eI = 0; eI != emails.length; eI++) { // TODO: this should take into account multi-valued RDNs String email = ((ASN1String)emails[eI].getFirst().getValue()).getString(); GeneralName emailAsGeneralName = new GeneralName(GeneralName.rfc822Name, email); try { nameConstraintValidator.checkPermitted(emailAsGeneralName); nameConstraintValidator.checkExcluded(emailAsGeneralName); } catch (PKIXNameConstraintValidatorException ex) { throw new CertPathValidatorException( "Subtree check for certificate subject alternative email failed.", ex, certPath, index); } } if (altName != null) { GeneralName[] genNames = null; try { genNames = altName.getNames(); } catch (Exception e) { throw new CertPathValidatorException("Subject alternative name contents could not be decoded.", e, certPath, index); } for (int j = 0; j < genNames.length; j++) { try { nameConstraintValidator.checkPermitted(genNames[j]); nameConstraintValidator.checkExcluded(genNames[j]); } catch (PKIXNameConstraintValidatorException e) { throw new CertPathValidatorException( "Subtree check for certificate subject alternative name failed.", e, certPath, index); } } } } } protected static PKIXPolicyNode processCertD( CertPath certPath, int index, Set acceptablePolicies, PKIXPolicyNode validPolicyTree, List[] policyNodes, int inhibitAnyPolicy, boolean isForCRLCheck) throws CertPathValidatorException { List certs = certPath.getCertificates(); X509Certificate cert = (X509Certificate)certs.get(index); int n = certs.size(); // i as defined in the algorithm description int i = n - index; // // (d) policy Information checking against initial policy and // policy mapping // ASN1Sequence certPolicies = null; try { certPolicies = ASN1Sequence.getInstance(CertPathValidatorUtilities.getExtensionValue(cert, RFC3280CertPathUtilities.CERTIFICATE_POLICIES)); } catch (AnnotatedException e) { throw new ExtCertPathValidatorException("Could not read certificate policies extension from certificate.", e, certPath, index); } if (certPolicies != null && validPolicyTree != null) { // // (d) (1) // Enumeration e = certPolicies.getObjects(); Set pols = new HashSet(); while (e.hasMoreElements()) { PolicyInformation pInfo = PolicyInformation.getInstance(e.nextElement()); ASN1ObjectIdentifier pOid = pInfo.getPolicyIdentifier(); pols.add(pOid.getId()); if (!RFC3280CertPathUtilities.ANY_POLICY.equals(pOid.getId())) { Set pq = null; try { pq = CertPathValidatorUtilities.getQualifierSet(pInfo.getPolicyQualifiers()); } catch (CertPathValidatorException ex) { throw new ExtCertPathValidatorException("Policy qualifier info set could not be build.", ex, certPath, index); } boolean match = CertPathValidatorUtilities.processCertD1i(i, policyNodes, pOid, pq); if (!match) { CertPathValidatorUtilities.processCertD1ii(i, policyNodes, pOid, pq); } } } if (acceptablePolicies.isEmpty() || acceptablePolicies.contains(RFC3280CertPathUtilities.ANY_POLICY)) { acceptablePolicies.clear(); acceptablePolicies.addAll(pols); } else { Iterator it = acceptablePolicies.iterator(); Set t1 = new HashSet(); while (it.hasNext()) { Object o = it.next(); if (pols.contains(o)) { t1.add(o); } } acceptablePolicies.clear(); acceptablePolicies.addAll(t1); } // // (d) (2) // if ((inhibitAnyPolicy > 0) || ((i < n || isForCRLCheck) && CertPathValidatorUtilities.isSelfIssued(cert))) { e = certPolicies.getObjects(); while (e.hasMoreElements()) { PolicyInformation pInfo = PolicyInformation.getInstance(e.nextElement()); if (RFC3280CertPathUtilities.ANY_POLICY.equals(pInfo.getPolicyIdentifier().getId())) { Set _apq = CertPathValidatorUtilities.getQualifierSet(pInfo.getPolicyQualifiers()); List _nodes = policyNodes[i - 1]; for (int k = 0; k < _nodes.size(); k++) { PKIXPolicyNode _node = (PKIXPolicyNode)_nodes.get(k); Iterator _policySetIter = _node.getExpectedPolicies().iterator(); while (_policySetIter.hasNext()) { Object _tmp = _policySetIter.next(); String _policy; if (_tmp instanceof String) { _policy = (String)_tmp; } else if (_tmp instanceof ASN1ObjectIdentifier) { _policy = ((ASN1ObjectIdentifier)_tmp).getId(); } else { continue; } boolean _found = false; Iterator _childrenIter = _node.getChildren(); while (_childrenIter.hasNext()) { PKIXPolicyNode _child = (PKIXPolicyNode)_childrenIter.next(); if (_policy.equals(_child.getValidPolicy())) { _found = true; } } if (!_found) { Set _newChildExpectedPolicies = new HashSet(); _newChildExpectedPolicies.add(_policy); PKIXPolicyNode _newChild = new PKIXPolicyNode(new ArrayList(), i, _newChildExpectedPolicies, _node, _apq, _policy, false); _node.addChild(_newChild); policyNodes[i].add(_newChild); } } } break; } } } PKIXPolicyNode _validPolicyTree = validPolicyTree; // // (d) (3) // for (int j = (i - 1); j >= 0; j--) { List nodes = policyNodes[j]; for (int k = 0; k < nodes.size(); k++) { PKIXPolicyNode node = (PKIXPolicyNode)nodes.get(k); if (!node.hasChildren()) { _validPolicyTree = CertPathValidatorUtilities.removePolicyNode(_validPolicyTree, policyNodes, node); if (_validPolicyTree == null) { break; } } } } // // d (4) // Set criticalExtensionOids = cert.getCriticalExtensionOIDs(); if (criticalExtensionOids != null) { boolean critical = criticalExtensionOids.contains(RFC3280CertPathUtilities.CERTIFICATE_POLICIES); List nodes = policyNodes[i]; for (int j = 0; j < nodes.size(); j++) { PKIXPolicyNode node = (PKIXPolicyNode)nodes.get(j); node.setCritical(critical); } } return _validPolicyTree; } return null; } protected static void processCertA( CertPath certPath, PKIXExtendedParameters paramsPKIX, Date validityDate, PKIXCertRevocationChecker revocationChecker, int index, PublicKey workingPublicKey, boolean verificationAlreadyPerformed, X500Name workingIssuerName, X509Certificate sign) throws CertPathValidatorException { List certs = certPath.getCertificates(); X509Certificate cert = (X509Certificate)certs.get(index); // // (a) verify // if (!verificationAlreadyPerformed) { try { // (a) (1) // CertPathValidatorUtilities.verifyX509Certificate(cert, workingPublicKey, paramsPKIX.getSigProvider()); } catch (GeneralSecurityException e) { throw new ExtCertPathValidatorException("Could not validate certificate signature.", e, certPath, index); } } final Date validCertDate; try { validCertDate = CertPathValidatorUtilities.getValidCertDateFromValidityModel(validityDate, paramsPKIX.getValidityModel(), certPath, index); } catch (AnnotatedException e) { throw new ExtCertPathValidatorException("Could not validate time of certificate.", e, certPath, index); } // (a) (2) // try { cert.checkValidity(validCertDate); } catch (CertificateExpiredException e) { throw new ExtCertPathValidatorException("Could not validate certificate: " + e.getMessage(), e, certPath, index); } catch (CertificateNotYetValidException e) { throw new ExtCertPathValidatorException("Could not validate certificate: " + e.getMessage(), e, certPath, index); } // // (a) (3) // if (revocationChecker != null) { revocationChecker.initialize(new PKIXCertRevocationCheckerParameters(paramsPKIX, validCertDate, certPath, index, sign, workingPublicKey)); revocationChecker.check(cert); } // // (a) (4) name chaining // X500Name issuer = PrincipalUtils.getIssuerPrincipal(cert); if (!issuer.equals(workingIssuerName)) { throw new ExtCertPathValidatorException("IssuerName(" + issuer + ") does not match SubjectName(" + workingIssuerName + ") of signing certificate.", null, certPath, index); } } protected static int prepareNextCertI1( CertPath certPath, int index, int explicitPolicy) throws CertPathValidatorException { List certs = certPath.getCertificates(); X509Certificate cert = (X509Certificate)certs.get(index); // // (i) // ASN1Sequence pc = null; try { pc = ASN1Sequence.getInstance(CertPathValidatorUtilities.getExtensionValue(cert, RFC3280CertPathUtilities.POLICY_CONSTRAINTS)); } catch (Exception e) { throw new ExtCertPathValidatorException("Policy constraints extension cannot be decoded.", e, certPath, index); } int tmpInt; if (pc != null) { Enumeration policyConstraints = pc.getObjects(); while (policyConstraints.hasMoreElements()) { try { ASN1TaggedObject constraint = ASN1TaggedObject.getInstance(policyConstraints.nextElement()); if (constraint.getTagNo() == 0) { tmpInt = ASN1Integer.getInstance(constraint, false).intValueExact(); if (tmpInt < explicitPolicy) { return tmpInt; } break; } } catch (IllegalArgumentException e) { throw new ExtCertPathValidatorException("Policy constraints extension contents cannot be decoded.", e, certPath, index); } } } return explicitPolicy; } protected static int prepareNextCertI2( CertPath certPath, int index, int policyMapping) throws CertPathValidatorException { List certs = certPath.getCertificates(); X509Certificate cert = (X509Certificate)certs.get(index); // // (i) // ASN1Sequence pc = null; try { pc = ASN1Sequence.getInstance(CertPathValidatorUtilities.getExtensionValue(cert, RFC3280CertPathUtilities.POLICY_CONSTRAINTS)); } catch (Exception e) { throw new ExtCertPathValidatorException("Policy constraints extension cannot be decoded.", e, certPath, index); } int tmpInt; if (pc != null) { Enumeration policyConstraints = pc.getObjects(); while (policyConstraints.hasMoreElements()) { try { ASN1TaggedObject constraint = ASN1TaggedObject.getInstance(policyConstraints.nextElement()); if (constraint.getTagNo() == 1) { tmpInt = ASN1Integer.getInstance(constraint, false).intValueExact(); if (tmpInt < policyMapping) { return tmpInt; } break; } } catch (IllegalArgumentException e) { throw new ExtCertPathValidatorException("Policy constraints extension contents cannot be decoded.", e, certPath, index); } } } return policyMapping; } protected static void prepareNextCertG( CertPath certPath, int index, PKIXNameConstraintValidator nameConstraintValidator) throws CertPathValidatorException { List certs = certPath.getCertificates(); X509Certificate cert = (X509Certificate)certs.get(index); // // (g) handle the name constraints extension // NameConstraints nc = null; try { ASN1Sequence ncSeq = ASN1Sequence.getInstance(CertPathValidatorUtilities.getExtensionValue(cert, RFC3280CertPathUtilities.NAME_CONSTRAINTS)); if (ncSeq != null) { nc = NameConstraints.getInstance(ncSeq); } } catch (Exception e) { throw new ExtCertPathValidatorException("Name constraints extension could not be decoded.", e, certPath, index); } if (nc != null) { // // (g) (1) permitted subtrees // GeneralSubtree[] permitted = nc.getPermittedSubtrees(); if (permitted != null) { try { nameConstraintValidator.intersectPermittedSubtree(permitted); } catch (Exception ex) { throw new ExtCertPathValidatorException( "Permitted subtrees cannot be build from name constraints extension.", ex, certPath, index); } } // // (g) (2) excluded subtrees // GeneralSubtree[] excluded = nc.getExcludedSubtrees(); if (excluded != null) { for (int i = 0; i != excluded.length; i++) try { nameConstraintValidator.addExcludedSubtree(excluded[i]); } catch (Exception ex) { throw new ExtCertPathValidatorException( "Excluded subtrees cannot be build from name constraints extension.", ex, certPath, index); } } } } /** * Checks a distribution point for revocation information for the certificate cert. * * @param dp * The distribution point to consider. * @param paramsPKIX * PKIX parameters. * @param currentDate * The date at which this check is being run. * @param validityDate * The date when the certificate revocation status should be checked. * @param cert * Certificate to check if it is revoked. * @param defaultCRLSignCert * The issuer certificate of the certificate cert. * @param defaultCRLSignKey * The public key of the issuer certificate defaultCRLSignCert. * @param certStatus * The current certificate revocation status. * @param reasonMask * The reasons mask which is already checked. * @param certPathCerts * The certificates of the certification path. * @throws AnnotatedException * if the certificate is revoked or the status cannot be checked or some error * occurs. */ private static void checkCRL( PKIXCertRevocationCheckerParameters params, DistributionPoint dp, PKIXExtendedParameters paramsPKIX, Date currentDate, Date validityDate, X509Certificate cert, X509Certificate defaultCRLSignCert, PublicKey defaultCRLSignKey, CertStatus certStatus, ReasonsMask reasonMask, List certPathCerts, JcaJceHelper helper) throws AnnotatedException, RecoverableCertPathValidatorException { if (currentDate == null) { boolean debug = true; } if (validityDate.getTime() > currentDate.getTime()) { throw new AnnotatedException("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() */ Set crls = CertPathValidatorUtilities.getCompleteCRLs(params, dp, cert, paramsPKIX, validityDate); boolean validCrlFound = false; AnnotatedException lastException = null; Iterator crl_iter = crls.iterator(); while (crl_iter.hasNext() && certStatus.getCertStatus() == CertStatus.UNREVOKED && !reasonMask.isAllReasons()) { try { X509CRL crl = (X509CRL)crl_iter.next(); // (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) Set keys = RFC3280CertPathUtilities.processCRLF(crl, cert, defaultCRLSignCert, defaultCRLSignKey, paramsPKIX, certPathCerts, helper); // (g) PublicKey key = RFC3280CertPathUtilities.processCRLG(crl, keys); X509CRL deltaCRL = null; if (paramsPKIX.isUseDeltasEnabled()) { // get delta CRLs Set deltaCRLs = CertPathValidatorUtilities.getDeltaCRLs(validityDate, crl, paramsPKIX.getCertStores(), paramsPKIX.getCRLStores(), helper); // we only want one valid delta CRL // (h) deltaCRL = RFC3280CertPathUtilities.processCRLH(deltaCRLs, key); } /* * 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 validity time */ if (paramsPKIX.getValidityModel() != PKIXExtendedParameters.CHAIN_VALIDITY_MODEL) { /* * 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 (cert.getNotAfter().getTime() < crl.getThisUpdate().getTime()) { throw new AnnotatedException("No valid CRL for current time found."); } } RFC3280CertPathUtilities.processCRLB1(dp, cert, crl); // (b) (2) RFC3280CertPathUtilities.processCRLB2(dp, cert, crl); // (c) RFC3280CertPathUtilities.processCRLC(deltaCRL, crl, paramsPKIX); // (i) RFC3280CertPathUtilities.processCRLI(validityDate, deltaCRL, cert, certStatus, paramsPKIX); // (j) RFC3280CertPathUtilities.processCRLJ(validityDate, crl, cert, certStatus); // (k) if (certStatus.getCertStatus() == CRLReason.removeFromCRL) { certStatus.setCertStatus(CertStatus.UNREVOKED); } // update reasons mask reasonMask.addReasons(interimReasonsMask); Set criticalExtensions = crl.getCriticalExtensionOIDs(); if (criticalExtensions != null) { criticalExtensions = new HashSet(criticalExtensions); criticalExtensions.remove(Extension.issuingDistributionPoint.getId()); criticalExtensions.remove(Extension.deltaCRLIndicator.getId()); if (!criticalExtensions.isEmpty()) { throw new AnnotatedException("CRL contains unsupported critical extensions."); } } if (deltaCRL != null) { criticalExtensions = deltaCRL.getCriticalExtensionOIDs(); if (criticalExtensions != null) { criticalExtensions = new HashSet(criticalExtensions); criticalExtensions.remove(Extension.issuingDistributionPoint.getId()); criticalExtensions.remove(Extension.deltaCRLIndicator.getId()); if (!criticalExtensions.isEmpty()) { throw new AnnotatedException("Delta CRL contains unsupported critical extension."); } } } validCrlFound = true; } catch (AnnotatedException e) { lastException = e; } } if (!validCrlFound) { throw lastException; } } /** * Checks a certificate if it is revoked. * * @param paramsPKIX * PKIX parameters. * @param currentDate * The date at which this check is being run. * @param validityDate * The date when the certificate revocation status should be checked. * @param cert * Certificate to check if it is revoked. * @param sign * The issuer certificate of the certificate cert. * @param workingPublicKey * The public key of the issuer certificate sign. * @param certPathCerts * The certificates of the certification path. * @throws AnnotatedException * if the certificate is revoked or the status cannot be checked or some error * occurs. */ protected static void checkCRLs( PKIXCertRevocationCheckerParameters params, PKIXExtendedParameters paramsPKIX, Date currentDate, Date validityDate, X509Certificate cert, X509Certificate sign, PublicKey workingPublicKey, List certPathCerts, JcaJceHelper helper) throws AnnotatedException, RecoverableCertPathValidatorException { AnnotatedException lastException = null; CRLDistPoint crldp = null; try { crldp = CRLDistPoint.getInstance(CertPathValidatorUtilities.getExtensionValue(cert, RFC3280CertPathUtilities.CRL_DISTRIBUTION_POINTS)); } catch (Exception e) { throw new AnnotatedException("CRL distribution point extension could not be read.", e); } PKIXExtendedParameters.Builder paramsBldr = new PKIXExtendedParameters.Builder(paramsPKIX); try { List extras = CertPathValidatorUtilities.getAdditionalStoresFromCRLDistributionPoint(crldp, paramsPKIX.getNamedCRLStoreMap(), validityDate, helper); for (Iterator it = extras.iterator(); it.hasNext();) { paramsBldr.addCRLStore((PKIXCRLStore)it.next()); } } catch (AnnotatedException e) { throw new AnnotatedException( "No additional CRL locations could be decoded from CRL distribution point extension.", e); } CertStatus certStatus = new CertStatus(); ReasonsMask reasonsMask = new ReasonsMask(); PKIXExtendedParameters finalParams = paramsBldr.build(); boolean validCrlFound = false; // for each distribution point if (crldp != null) { DistributionPoint dps[] = null; try { dps = crldp.getDistributionPoints(); } catch (Exception e) { throw new AnnotatedException("Distribution points could not be read.", e); } if (dps != null) { for (int i = 0; i < dps.length && certStatus.getCertStatus() == CertStatus.UNREVOKED && !reasonsMask.isAllReasons(); i++) { try { checkCRL(params, dps[i], finalParams, currentDate, validityDate, cert, sign, workingPublicKey, certStatus, reasonsMask, certPathCerts, helper); validCrlFound = true; } catch (AnnotatedException e) { lastException = 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.getCertStatus() == 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. */ X500Name issuer; try { issuer = PrincipalUtils.getIssuerPrincipal(cert); } catch (RuntimeException e) { throw new AnnotatedException("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); PKIXExtendedParameters paramsPKIXClone = (PKIXExtendedParameters)paramsPKIX.clone(); checkCRL(params, dp, paramsPKIXClone, currentDate, validityDate, cert, sign, workingPublicKey, certStatus, reasonsMask, certPathCerts, helper); validCrlFound = true; } catch (AnnotatedException e) { lastException = e; } } if (!validCrlFound) { if (lastException instanceof AnnotatedException) { throw lastException; } throw new AnnotatedException("No valid CRL found.", lastException); } if (certStatus.getCertStatus() != CertStatus.UNREVOKED) { SimpleDateFormat df = new SimpleDateFormat("yyyy-MM-dd HH:mm:ss Z"); df.setTimeZone(TimeZone.getTimeZone("UTC")); String message = "Certificate revocation after " + df.format(certStatus.getRevocationDate()); message += ", reason: " + crlReasons[certStatus.getCertStatus()]; throw new AnnotatedException(message); } if (!reasonsMask.isAllReasons() && certStatus.getCertStatus() == CertStatus.UNREVOKED) { certStatus.setCertStatus(CertStatus.UNDETERMINED); } if (certStatus.getCertStatus() == CertStatus.UNDETERMINED) { throw new AnnotatedException("Certificate status could not be determined."); } } protected static int prepareNextCertJ( CertPath certPath, int index, int inhibitAnyPolicy) throws CertPathValidatorException { List certs = certPath.getCertificates(); X509Certificate cert = (X509Certificate)certs.get(index); // // (j) // ASN1Integer iap = null; try { iap = ASN1Integer.getInstance(CertPathValidatorUtilities.getExtensionValue(cert, RFC3280CertPathUtilities.INHIBIT_ANY_POLICY)); } catch (Exception e) { throw new ExtCertPathValidatorException("Inhibit any-policy extension cannot be decoded.", e, certPath, index); } if (iap != null) { int _inhibitAnyPolicy = iap.intValueExact(); if (_inhibitAnyPolicy < inhibitAnyPolicy) { return _inhibitAnyPolicy; } } return inhibitAnyPolicy; } protected static void prepareNextCertK( CertPath certPath, int index) throws CertPathValidatorException { List certs = certPath.getCertificates(); X509Certificate cert = (X509Certificate)certs.get(index); // // (k) // BasicConstraints bc = null; try { bc = BasicConstraints.getInstance(CertPathValidatorUtilities.getExtensionValue(cert, RFC3280CertPathUtilities.BASIC_CONSTRAINTS)); } catch (Exception e) { throw new ExtCertPathValidatorException("Basic constraints extension cannot be decoded.", e, certPath, index); } if (bc != null) { if (!(bc.isCA())) { throw new CertPathValidatorException("Not a CA certificate", null, certPath, index); } } else { throw new CertPathValidatorException("Intermediate certificate lacks BasicConstraints", null, certPath, index); } } protected static int prepareNextCertL( CertPath certPath, int index, int maxPathLength) throws CertPathValidatorException { List certs = certPath.getCertificates(); X509Certificate cert = (X509Certificate)certs.get(index); // // (l) // if (!CertPathValidatorUtilities.isSelfIssued(cert)) { if (maxPathLength <= 0) { throw new ExtCertPathValidatorException("Max path length not greater than zero", null, certPath, index); } return maxPathLength - 1; } return maxPathLength; } protected static int prepareNextCertM( CertPath certPath, int index, int maxPathLength) throws CertPathValidatorException { List certs = certPath.getCertificates(); X509Certificate cert = (X509Certificate)certs.get(index); // // (m) // BasicConstraints bc = null; try { bc = BasicConstraints.getInstance(CertPathValidatorUtilities.getExtensionValue(cert, RFC3280CertPathUtilities.BASIC_CONSTRAINTS)); } catch (Exception e) { throw new ExtCertPathValidatorException("Basic constraints extension cannot be decoded.", e, certPath, index); } if (bc != null && bc.isCA()) // if there is a path len constraint and we're not a CA, ignore it! (yes, it happens). { ASN1Integer pathLenConstraint = bc.getPathLenConstraintInteger(); if (pathLenConstraint != null) { maxPathLength = Math.min(maxPathLength, pathLenConstraint.intPositiveValueExact()); } } return maxPathLength; } protected static void prepareNextCertN( CertPath certPath, int index) throws CertPathValidatorException { List certs = certPath.getCertificates(); X509Certificate cert = (X509Certificate)certs.get(index); // // (n) // boolean[] keyUsage = cert.getKeyUsage(); if (keyUsage != null && (keyUsage.length <= KEY_CERT_SIGN || !keyUsage[KEY_CERT_SIGN])) { throw new ExtCertPathValidatorException( "Issuer certificate keyusage extension is critical and does not permit key signing.", null, certPath, index); } } protected static void prepareNextCertO( CertPath certPath, int index, Set criticalExtensions, List pathCheckers) throws CertPathValidatorException { List certs = certPath.getCertificates(); X509Certificate cert = (X509Certificate)certs.get(index); // // (o) // Iterator tmpIter; tmpIter = pathCheckers.iterator(); while (tmpIter.hasNext()) { try { ((PKIXCertPathChecker)tmpIter.next()).check(cert, criticalExtensions); } catch (CertPathValidatorException e) { throw new CertPathValidatorException(e.getMessage(), e.getCause(), certPath, index); } } if (!criticalExtensions.isEmpty()) { throw new ExtCertPathValidatorException("Certificate has unsupported critical extension: " + criticalExtensions, null, certPath, index); } } protected static int prepareNextCertH1( CertPath certPath, int index, int explicitPolicy) { List certs = certPath.getCertificates(); X509Certificate cert = (X509Certificate)certs.get(index); // // (h) // if (!CertPathValidatorUtilities.isSelfIssued(cert)) { // // (1) // if (explicitPolicy != 0) { return explicitPolicy - 1; } } return explicitPolicy; } protected static int prepareNextCertH2( CertPath certPath, int index, int policyMapping) { List certs = certPath.getCertificates(); X509Certificate cert = (X509Certificate)certs.get(index); // // (h) // if (!CertPathValidatorUtilities.isSelfIssued(cert)) { // // (2) // if (policyMapping != 0) { return policyMapping - 1; } } return policyMapping; } protected static int prepareNextCertH3( CertPath certPath, int index, int inhibitAnyPolicy) { List certs = certPath.getCertificates(); X509Certificate cert = (X509Certificate)certs.get(index); // // (h) // if (!CertPathValidatorUtilities.isSelfIssued(cert)) { // // (3) // if (inhibitAnyPolicy != 0) { return inhibitAnyPolicy - 1; } } return inhibitAnyPolicy; } protected static final String[] crlReasons = new String[] { "unspecified", "keyCompromise", "cACompromise", "affiliationChanged", "superseded", "cessationOfOperation", "certificateHold", "unknown", "removeFromCRL", "privilegeWithdrawn", "aACompromise"}; protected static int wrapupCertA( int explicitPolicy, X509Certificate cert) { // // (a) // if (!CertPathValidatorUtilities.isSelfIssued(cert) && (explicitPolicy != 0)) { explicitPolicy--; } return explicitPolicy; } protected static int wrapupCertB( CertPath certPath, int index, int explicitPolicy) throws CertPathValidatorException { List certs = certPath.getCertificates(); X509Certificate cert = (X509Certificate)certs.get(index); // // (b) // int tmpInt; ASN1Sequence pc = null; try { pc = ASN1Sequence.getInstance(CertPathValidatorUtilities.getExtensionValue(cert, RFC3280CertPathUtilities.POLICY_CONSTRAINTS)); } catch (AnnotatedException e) { throw new ExtCertPathValidatorException("Policy constraints could not be decoded.", e, certPath, index); } if (pc != null) { Enumeration policyConstraints = pc.getObjects(); while (policyConstraints.hasMoreElements()) { ASN1TaggedObject constraint = (ASN1TaggedObject)policyConstraints.nextElement(); switch (constraint.getTagNo()) { case 0: try { tmpInt = ASN1Integer.getInstance(constraint, false).intValueExact(); } catch (Exception e) { throw new ExtCertPathValidatorException( "Policy constraints requireExplicitPolicy field could not be decoded.", e, certPath, index); } if (tmpInt == 0) { return 0; } break; } } } return explicitPolicy; } protected static void wrapupCertF( CertPath certPath, int index, List pathCheckers, Set criticalExtensions) throws CertPathValidatorException { List certs = certPath.getCertificates(); X509Certificate cert = (X509Certificate)certs.get(index); Iterator tmpIter; tmpIter = pathCheckers.iterator(); while (tmpIter.hasNext()) { try { ((PKIXCertPathChecker)tmpIter.next()).check(cert, criticalExtensions); } catch (CertPathValidatorException e) { throw new ExtCertPathValidatorException(e.getMessage(), e, certPath, index); } catch (Exception e) { throw new CertPathValidatorException("Additional certificate path checker failed.", e, certPath, index); } } if (!criticalExtensions.isEmpty()) { throw new ExtCertPathValidatorException("Certificate has unsupported critical extension: " + criticalExtensions, null, certPath, index); } } protected static PKIXPolicyNode wrapupCertG( CertPath certPath, PKIXExtendedParameters paramsPKIX, Set userInitialPolicySet, int index, List[] policyNodes, PKIXPolicyNode validPolicyTree, Set acceptablePolicies) throws CertPathValidatorException { int n = certPath.getCertificates().size(); // // (g) // PKIXPolicyNode intersection; // // (g) (i) // if (validPolicyTree == null) { if (paramsPKIX.isExplicitPolicyRequired()) { throw new ExtCertPathValidatorException("Explicit policy requested but none available.", null, certPath, index); } intersection = null; } else if (CertPathValidatorUtilities.isAnyPolicy(userInitialPolicySet)) // (g) // (ii) { if (paramsPKIX.isExplicitPolicyRequired()) { if (acceptablePolicies.isEmpty()) { throw new ExtCertPathValidatorException("Explicit policy requested but none available.", null, certPath, index); } else { Set _validPolicyNodeSet = new HashSet(); for (int j = 0; j < policyNodes.length; j++) { List _nodeDepth = policyNodes[j]; for (int k = 0; k < _nodeDepth.size(); k++) { PKIXPolicyNode _node = (PKIXPolicyNode)_nodeDepth.get(k); if (RFC3280CertPathUtilities.ANY_POLICY.equals(_node.getValidPolicy())) { Iterator _iter = _node.getChildren(); while (_iter.hasNext()) { _validPolicyNodeSet.add(_iter.next()); } } } } Iterator _vpnsIter = _validPolicyNodeSet.iterator(); while (_vpnsIter.hasNext()) { PKIXPolicyNode _node = (PKIXPolicyNode)_vpnsIter.next(); String _validPolicy = _node.getValidPolicy(); if (!acceptablePolicies.contains(_validPolicy)) { // validPolicyTree = // removePolicyNode(validPolicyTree, policyNodes, // _node); } } if (validPolicyTree != null) { for (int j = (n - 1); j >= 0; j--) { List nodes = policyNodes[j]; for (int k = 0; k < nodes.size(); k++) { PKIXPolicyNode node = (PKIXPolicyNode)nodes.get(k); if (!node.hasChildren()) { validPolicyTree = CertPathValidatorUtilities.removePolicyNode(validPolicyTree, policyNodes, node); } } } } } } intersection = validPolicyTree; } else { // // (g) (iii) // // This implementation is not exactly same as the one described in // RFC3280. // However, as far as the validation result is concerned, both // produce // adequate result. The only difference is whether AnyPolicy is // remain // in the policy tree or not. // // (g) (iii) 1 // Set _validPolicyNodeSet = new HashSet(); for (int j = 0; j < policyNodes.length; j++) { List _nodeDepth = policyNodes[j]; for (int k = 0; k < _nodeDepth.size(); k++) { PKIXPolicyNode _node = (PKIXPolicyNode)_nodeDepth.get(k); if (RFC3280CertPathUtilities.ANY_POLICY.equals(_node.getValidPolicy())) { Iterator _iter = _node.getChildren(); while (_iter.hasNext()) { PKIXPolicyNode _c_node = (PKIXPolicyNode)_iter.next(); if (!RFC3280CertPathUtilities.ANY_POLICY.equals(_c_node.getValidPolicy())) { _validPolicyNodeSet.add(_c_node); } } } } } // // (g) (iii) 2 // Iterator _vpnsIter = _validPolicyNodeSet.iterator(); while (_vpnsIter.hasNext()) { PKIXPolicyNode _node = (PKIXPolicyNode)_vpnsIter.next(); String _validPolicy = _node.getValidPolicy(); if (!userInitialPolicySet.contains(_validPolicy)) { validPolicyTree = CertPathValidatorUtilities.removePolicyNode(validPolicyTree, policyNodes, _node); } } // // (g) (iii) 4 // if (validPolicyTree != null) { for (int j = (n - 1); j >= 0; j--) { List nodes = policyNodes[j]; for (int k = 0; k < nodes.size(); k++) { PKIXPolicyNode node = (PKIXPolicyNode)nodes.get(k); if (!node.hasChildren()) { validPolicyTree = CertPathValidatorUtilities.removePolicyNode(validPolicyTree, policyNodes, node); } } } } intersection = validPolicyTree; } return intersection; } }




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