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The Bouncy Castle Crypto package is a Java implementation of cryptographic algorithms. This jar contains JCE provider and lightweight API for the Bouncy Castle Cryptography APIs for JDK 1.4.

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package org.bouncycastle.x509;

import java.io.ByteArrayInputStream;
import java.io.IOException;
import java.math.BigInteger;
import java.net.HttpURLConnection;
import java.net.InetAddress;
import java.net.URL;
import java.security.GeneralSecurityException;
import java.security.PublicKey;
import java.security.SignatureException;
import java.security.cert.CertPath;
import java.security.cert.CertPathValidatorException;
import java.security.cert.CertificateExpiredException;
import java.security.cert.CertificateFactory;
import java.security.cert.CertificateNotYetValidException;
import java.security.cert.PKIXCertPathChecker;
import java.security.cert.PKIXParameters;
import java.security.cert.PolicyNode;
import java.security.cert.TrustAnchor;
import java.security.cert.X509CRL;
import java.security.cert.X509CRLEntry;
import java.security.cert.X509CertSelector;
import java.security.cert.X509Certificate;
import java.util.ArrayList;
import java.util.Collection;
import java.util.Date;
import java.util.Enumeration;
import java.util.HashMap;
import java.util.HashSet;
import java.util.Iterator;
import java.util.List;
import java.util.Map;
import java.util.Set;
import java.util.Vector;

import javax.security.auth.x500.X500Principal;

import org.bouncycastle.asn1.ASN1Encodable;
import org.bouncycastle.asn1.ASN1Enumerated;
import org.bouncycastle.asn1.ASN1InputStream;
import org.bouncycastle.asn1.ASN1Integer;
import org.bouncycastle.asn1.ASN1ObjectIdentifier;
import org.bouncycastle.asn1.ASN1OctetString;
import org.bouncycastle.asn1.ASN1Primitive;
import org.bouncycastle.asn1.ASN1Sequence;
import org.bouncycastle.asn1.ASN1TaggedObject;
import org.bouncycastle.asn1.DERIA5String;
import org.bouncycastle.asn1.DEROctetString;
import org.bouncycastle.asn1.x509.AccessDescription;
import org.bouncycastle.asn1.x509.AlgorithmIdentifier;
import org.bouncycastle.asn1.x509.AuthorityInformationAccess;
import org.bouncycastle.asn1.x509.AuthorityKeyIdentifier;
import org.bouncycastle.asn1.x509.BasicConstraints;
import org.bouncycastle.asn1.x509.CRLDistPoint;
import org.bouncycastle.asn1.x509.DistributionPoint;
import org.bouncycastle.asn1.x509.DistributionPointName;
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.asn1.x509.X509Extensions;
import org.bouncycastle.asn1.x509.qualified.Iso4217CurrencyCode;
import org.bouncycastle.asn1.x509.qualified.MonetaryValue;
import org.bouncycastle.asn1.x509.qualified.QCStatement;
import org.bouncycastle.i18n.ErrorBundle;
import org.bouncycastle.i18n.LocaleString;
import org.bouncycastle.i18n.filter.TrustedInput;
import org.bouncycastle.i18n.filter.UntrustedInput;
import org.bouncycastle.i18n.filter.UntrustedUrlInput;
import org.bouncycastle.jce.provider.AnnotatedException;
import org.bouncycastle.jce.provider.PKIXNameConstraintValidator;
import org.bouncycastle.jce.provider.PKIXNameConstraintValidatorException;
import org.bouncycastle.jce.provider.PKIXPolicyNode;
import org.bouncycastle.util.Integers;
import org.bouncycastle.x509.extension.X509ExtensionUtil;

/**
 * PKIXCertPathReviewer
* Validation of X.509 Certificate Paths. Tries to find as much errors in the Path as possible. */ public class PKIXCertPathReviewer extends CertPathValidatorUtilities { private static final String QC_STATEMENT = X509Extensions.QCStatements.getId(); private static final String CRL_DIST_POINTS = X509Extensions.CRLDistributionPoints.getId(); private static final String AUTH_INFO_ACCESS = X509Extensions.AuthorityInfoAccess.getId(); private static final String RESOURCE_NAME = "org.bouncycastle.x509.CertPathReviewerMessages"; // input parameters protected CertPath certPath; protected PKIXParameters pkixParams; protected Date validDate; // state variables protected List certs; protected int n; // output variables protected List[] notifications; protected List[] errors; protected TrustAnchor trustAnchor; protected PublicKey subjectPublicKey; protected PolicyNode policyTree; private boolean initialized; /** * Initializes the PKIXCertPathReviewer with the given {@link CertPath} and {@link PKIXParameters} params * @param certPath the {@link CertPath} to validate * @param params the {@link PKIXParameters} to use * @throws CertPathReviewerException if the certPath is empty * @throws IllegalStateException if the {@link PKIXCertPathReviewer} is already initialized */ public void init(CertPath certPath, PKIXParameters params) throws CertPathReviewerException { if (initialized) { throw new IllegalStateException("object is already initialized!"); } initialized = true; // check input parameters if (certPath == null) { throw new NullPointerException("certPath was null"); } this.certPath = certPath; certs = certPath.getCertificates(); n = certs.size(); if (certs.isEmpty()) { throw new CertPathReviewerException( new ErrorBundle(RESOURCE_NAME,"CertPathReviewer.emptyCertPath")); } pkixParams = (PKIXParameters) params.clone(); // 6.1.1 - Inputs // a) done // b) validDate = getValidDate(pkixParams); // c) part of pkixParams // d) done at the beginning of checkSignatures // e) f) g) part of pkixParams // initialize output parameters notifications = null; errors = null; trustAnchor = null; subjectPublicKey = null; policyTree = null; } /** * Creates a PKIXCertPathReviewer and initializes it with the given {@link CertPath} and {@link PKIXParameters} params * @param certPath the {@link CertPath} to validate * @param params the {@link PKIXParameters} to use * @throws CertPathReviewerException if the certPath is empty */ public PKIXCertPathReviewer(CertPath certPath, PKIXParameters params) throws CertPathReviewerException { init(certPath, params); } /** * Creates an empty PKIXCertPathReviewer. Don't forget to call init() to initialize the object. */ public PKIXCertPathReviewer() { // do nothing } /** * * @return the CertPath that was validated */ public CertPath getCertPath() { return certPath; } /** * * @return the size of the CertPath */ public int getCertPathSize() { return n; } /** * Returns an Array of Lists which contains a List of global error messages * and a List of error messages for each certificate in the path. * The global error List is at index 0. The error lists for each certificate at index 1 to n. * The error messages are of type. * @return the Array of Lists which contain the error messages * @throws IllegalStateException if the {@link PKIXCertPathReviewer} was not initialized */ public List[] getErrors() { doChecks(); return errors; } /** * Returns an List of error messages for the certificate at the given index in the CertPath. * If index == -1 then the list of global errors is returned with errors not specific to a certificate. * @param index the index of the certificate in the CertPath * @return List of error messages for the certificate * @throws IllegalStateException if the {@link PKIXCertPathReviewer} was not initialized */ public List getErrors(int index) { doChecks(); return errors[index + 1]; } /** * Returns an Array of Lists which contains a List of global notification messages * and a List of botification messages for each certificate in the path. * The global notificatio List is at index 0. The notification lists for each certificate at index 1 to n. * The error messages are of type. * @return the Array of Lists which contain the notification messages * @throws IllegalStateException if the {@link PKIXCertPathReviewer} was not initialized */ public List[] getNotifications() { doChecks(); return notifications; } /** * Returns an List of notification messages for the certificate at the given index in the CertPath. * If index == -1 then the list of global notifications is returned with notifications not specific to a certificate. * @param index the index of the certificate in the CertPath * @return List of notification messages for the certificate * @throws IllegalStateException if the {@link PKIXCertPathReviewer} was not initialized */ public List getNotifications(int index) { doChecks(); return notifications[index + 1]; } /** * * @return the valid policy tree, null if no valid policy exists. * @throws IllegalStateException if the {@link PKIXCertPathReviewer} was not initialized */ public PolicyNode getPolicyTree() { doChecks(); return policyTree; } /** * * @return the PublicKey if the last certificate in the CertPath * @throws IllegalStateException if the {@link PKIXCertPathReviewer} was not initialized */ public PublicKey getSubjectPublicKey() { doChecks(); return subjectPublicKey; } /** * * @return the TrustAnchor for the CertPath, null if no valid TrustAnchor was found. * @throws IllegalStateException if the {@link PKIXCertPathReviewer} was not initialized */ public TrustAnchor getTrustAnchor() { doChecks(); return trustAnchor; } /** * * @return if the CertPath is valid * @throws IllegalStateException if the {@link PKIXCertPathReviewer} was not initialized */ public boolean isValidCertPath() { doChecks(); boolean valid = true; for (int i = 0; i < errors.length; i++) { if (!errors[i].isEmpty()) { valid = false; break; } } return valid; } protected void addNotification(ErrorBundle msg) { notifications[0].add(msg); } protected void addNotification(ErrorBundle msg, int index) { if (index < -1 || index >= n) { throw new IndexOutOfBoundsException(); } notifications[index + 1].add(msg); } protected void addError(ErrorBundle msg) { errors[0].add(msg); } protected void addError(ErrorBundle msg, int index) { if (index < -1 || index >= n) { throw new IndexOutOfBoundsException(); } errors[index + 1].add(msg); } protected void doChecks() { if (!initialized) { throw new IllegalStateException("Object not initialized. Call init() first."); } if (notifications == null) { // initialize lists notifications = new List[n+1]; errors = new List[n+1]; for (int i = 0; i < notifications.length; i++) { notifications[i] = new ArrayList(); errors[i] = new ArrayList(); } // check Signatures checkSignatures(); // check Name Constraints checkNameConstraints(); // check Path Length checkPathLength(); // check Policy checkPolicy(); // check other critical extensions checkCriticalExtensions(); } } private void checkNameConstraints() { X509Certificate cert = null; // // Setup // // (b) and (c) PKIXNameConstraintValidator nameConstraintValidator = new PKIXNameConstraintValidator(); // // process each certificate except the last in the path // int index; int i; try { for (index = certs.size()-1; index>0; index--) { i = n - index; // // certificate processing // cert = (X509Certificate) certs.get(index); // b),c) if (!isSelfIssued(cert)) { X500Principal principal = getSubjectPrincipal(cert); ASN1InputStream aIn = new ASN1InputStream(new ByteArrayInputStream(principal.getEncoded())); ASN1Sequence dns; try { dns = (ASN1Sequence)aIn.readObject(); } catch (IOException e) { ErrorBundle msg = new ErrorBundle(RESOURCE_NAME,"CertPathReviewer.ncSubjectNameError", new Object[] {new UntrustedInput(principal)}); throw new CertPathReviewerException(msg,e,certPath,index); } try { nameConstraintValidator.checkPermittedDN(dns); } catch (PKIXNameConstraintValidatorException cpve) { ErrorBundle msg = new ErrorBundle(RESOURCE_NAME,"CertPathReviewer.notPermittedDN", new Object[] {new UntrustedInput(principal.getName())}); throw new CertPathReviewerException(msg,cpve,certPath,index); } try { nameConstraintValidator.checkExcludedDN(dns); } catch (PKIXNameConstraintValidatorException cpve) { ErrorBundle msg = new ErrorBundle(RESOURCE_NAME,"CertPathReviewer.excludedDN", new Object[] {new UntrustedInput(principal.getName())}); throw new CertPathReviewerException(msg,cpve,certPath,index); } ASN1Sequence altName; try { altName = (ASN1Sequence)getExtensionValue(cert, SUBJECT_ALTERNATIVE_NAME); } catch (AnnotatedException ae) { ErrorBundle msg = new ErrorBundle(RESOURCE_NAME,"CertPathReviewer.subjAltNameExtError"); throw new CertPathReviewerException(msg,ae,certPath,index); } if (altName != null) { for (int j = 0; j < altName.size(); j++) { GeneralName name = GeneralName.getInstance(altName.getObjectAt(j)); try { nameConstraintValidator.checkPermitted(name); nameConstraintValidator.checkExcluded(name); } catch (PKIXNameConstraintValidatorException cpve) { ErrorBundle msg = new ErrorBundle(RESOURCE_NAME,"CertPathReviewer.notPermittedEmail", new Object[] {new UntrustedInput(name)}); throw new CertPathReviewerException(msg,cpve,certPath,index); } // switch(o.getTagNo()) TODO - move resources to PKIXNameConstraints // { // case 1: // String email = DERIA5String.getInstance(o, true).getString(); // // try // { // checkPermittedEmail(permittedSubtreesEmail, email); // } // catch (CertPathValidatorException cpve) // { // ErrorBundle msg = new ErrorBundle(RESOURCE_NAME,"CertPathReviewer.notPermittedEmail", // new Object[] {new UntrustedInput(email)}); // throw new CertPathReviewerException(msg,cpve,certPath,index); // } // // try // { // checkExcludedEmail(excludedSubtreesEmail, email); // } // catch (CertPathValidatorException cpve) // { // ErrorBundle msg = new ErrorBundle(RESOURCE_NAME,"CertPathReviewer.excludedEmail", // new Object[] {new UntrustedInput(email)}); // throw new CertPathReviewerException(msg,cpve,certPath,index); // } // // break; // case 4: // ASN1Sequence altDN = ASN1Sequence.getInstance(o, true); // // try // { // checkPermittedDN(permittedSubtreesDN, altDN); // } // catch (CertPathValidatorException cpve) // { // X509Name altDNName = new X509Name(altDN); // ErrorBundle msg = new ErrorBundle(RESOURCE_NAME,"CertPathReviewer.notPermittedDN", // new Object[] {new UntrustedInput(altDNName)}); // throw new CertPathReviewerException(msg,cpve,certPath,index); // } // // try // { // checkExcludedDN(excludedSubtreesDN, altDN); // } // catch (CertPathValidatorException cpve) // { // X509Name altDNName = new X509Name(altDN); // ErrorBundle msg = new ErrorBundle(RESOURCE_NAME,"CertPathReviewer.excludedDN", // new Object[] {new UntrustedInput(altDNName)}); // throw new CertPathReviewerException(msg,cpve,certPath,index); // } // // break; // case 7: // byte[] ip = ASN1OctetString.getInstance(o, true).getOctets(); // // try // { // checkPermittedIP(permittedSubtreesIP, ip); // } // catch (CertPathValidatorException cpve) // { // ErrorBundle msg = new ErrorBundle(RESOURCE_NAME,"CertPathReviewer.notPermittedIP", // new Object[] {IPtoString(ip)}); // throw new CertPathReviewerException(msg,cpve,certPath,index); // } // // try // { // checkExcludedIP(excludedSubtreesIP, ip); // } // catch (CertPathValidatorException cpve) // { // ErrorBundle msg = new ErrorBundle(RESOURCE_NAME,"CertPathReviewer.excludedIP", // new Object[] {IPtoString(ip)}); // throw new CertPathReviewerException(msg,cpve,certPath,index); // } // } } } } // // prepare for next certificate // // // (g) handle the name constraints extension // ASN1Sequence ncSeq; try { ncSeq = (ASN1Sequence)getExtensionValue(cert, NAME_CONSTRAINTS); } catch (AnnotatedException ae) { ErrorBundle msg = new ErrorBundle(RESOURCE_NAME,"CertPathReviewer.ncExtError"); throw new CertPathReviewerException(msg,ae,certPath,index); } if (ncSeq != null) { NameConstraints nc = NameConstraints.getInstance(ncSeq); // // (g) (1) permitted subtrees // GeneralSubtree[] permitted = nc.getPermittedSubtrees(); if (permitted != null) { nameConstraintValidator.intersectPermittedSubtree(permitted); } // // (g) (2) excluded subtrees // GeneralSubtree[] excluded = nc.getExcludedSubtrees(); if (excluded != null) { for (int c = 0; c != excluded.length; c++) { nameConstraintValidator.addExcludedSubtree(excluded[c]); } } } } // for } catch (CertPathReviewerException cpre) { addError(cpre.getErrorMessage(),cpre.getIndex()); } } /* * checks: - path length constraints and reports - total path length */ private void checkPathLength() { // init int maxPathLength = n; int totalPathLength = 0; X509Certificate cert = null; int i; for (int index = certs.size() - 1; index > 0; index--) { i = n - index; cert = (X509Certificate) certs.get(index); // l) if (!isSelfIssued(cert)) { if (maxPathLength <= 0) { ErrorBundle msg = new ErrorBundle(RESOURCE_NAME,"CertPathReviewer.pathLengthExtended"); addError(msg); } maxPathLength--; totalPathLength++; } // m) BasicConstraints bc; try { bc = BasicConstraints.getInstance(getExtensionValue(cert, BASIC_CONSTRAINTS)); } catch (AnnotatedException ae) { ErrorBundle msg = new ErrorBundle(RESOURCE_NAME,"CertPathReviewer.processLengthConstError"); addError(msg,index); bc = null; } if (bc != null) { BigInteger _pathLengthConstraint = bc.getPathLenConstraint(); if (_pathLengthConstraint != null) { int _plc = _pathLengthConstraint.intValue(); if (_plc < maxPathLength) { maxPathLength = _plc; } } } } ErrorBundle msg = new ErrorBundle(RESOURCE_NAME,"CertPathReviewer.totalPathLength", new Object[]{Integers.valueOf(totalPathLength)}); addNotification(msg); } /* * checks: - signatures - name chaining - validity of certificates - todo: * if certificate revoked (if specified in the parameters) */ private void checkSignatures() { // 1.6.1 - Inputs // d) TrustAnchor trust = null; X500Principal trustPrincipal = null; // validation date { ErrorBundle msg = new ErrorBundle(RESOURCE_NAME,"CertPathReviewer.certPathValidDate", new Object[] {new TrustedInput(validDate), new TrustedInput(new Date())}); addNotification(msg); } // find trust anchors try { X509Certificate cert = (X509Certificate) certs.get(certs.size() - 1); Collection trustColl = getTrustAnchors(cert,pkixParams.getTrustAnchors()); if (trustColl.size() > 1) { // conflicting trust anchors ErrorBundle msg = new ErrorBundle(RESOURCE_NAME, "CertPathReviewer.conflictingTrustAnchors", new Object[]{Integers.valueOf(trustColl.size()), new UntrustedInput(cert.getIssuerX500Principal())}); addError(msg); } else if (trustColl.isEmpty()) { ErrorBundle msg = new ErrorBundle(RESOURCE_NAME, "CertPathReviewer.noTrustAnchorFound", new Object[]{new UntrustedInput(cert.getIssuerX500Principal()), Integers.valueOf(pkixParams.getTrustAnchors().size())}); addError(msg); } else { PublicKey trustPublicKey; trust = (TrustAnchor) trustColl.iterator().next(); if (trust.getTrustedCert() != null) { trustPublicKey = trust.getTrustedCert().getPublicKey(); } else { trustPublicKey = trust.getCAPublicKey(); } try { CertPathValidatorUtilities.verifyX509Certificate(cert, trustPublicKey, pkixParams.getSigProvider()); } catch (SignatureException e) { ErrorBundle msg = new ErrorBundle(RESOURCE_NAME,"CertPathReviewer.trustButInvalidCert"); addError(msg); } catch (Exception e) { // do nothing, error occurs again later } } } catch (CertPathReviewerException cpre) { addError(cpre.getErrorMessage()); } catch (Throwable t) { ErrorBundle msg = new ErrorBundle(RESOURCE_NAME, "CertPathReviewer.unknown", new Object[] {new UntrustedInput(t.getMessage()), new UntrustedInput(t)}); addError(msg); } if (trust != null) { // get the name of the trustAnchor X509Certificate sign = trust.getTrustedCert(); try { if (sign != null) { trustPrincipal = getSubjectPrincipal(sign); } else { trustPrincipal = new X500Principal(trust.getCAName()); } } catch (IllegalArgumentException ex) { ErrorBundle msg = new ErrorBundle(RESOURCE_NAME,"CertPathReviewer.trustDNInvalid", new Object[] {new UntrustedInput(trust.getCAName())}); addError(msg); } // test key usages of the trust anchor if (sign != null) { boolean[] ku = sign.getKeyUsage(); if (ku != null && !ku[5]) { ErrorBundle msg = new ErrorBundle(RESOURCE_NAME, "CertPathReviewer.trustKeyUsage"); addNotification(msg); } } } // 1.6.2 - Initialization PublicKey workingPublicKey = null; X500Principal workingIssuerName = trustPrincipal; X509Certificate sign = null; AlgorithmIdentifier workingAlgId = null; ASN1ObjectIdentifier workingPublicKeyAlgorithm = null; ASN1Encodable workingPublicKeyParameters = null; if (trust != null) { sign = trust.getTrustedCert(); if (sign != null) { workingPublicKey = sign.getPublicKey(); } else { workingPublicKey = trust.getCAPublicKey(); } try { workingAlgId = getAlgorithmIdentifier(workingPublicKey); workingPublicKeyAlgorithm = workingAlgId.getAlgorithm(); workingPublicKeyParameters = workingAlgId.getParameters(); } catch (CertPathValidatorException ex) { ErrorBundle msg = new ErrorBundle(RESOURCE_NAME,"CertPathReviewer.trustPubKeyError"); addError(msg); workingAlgId = null; } } // Basic cert checks X509Certificate cert = null; int i; for (int index = certs.size() - 1; index >= 0; index--) { // // 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 initialied the // first time from the TrustAnchor // cert = (X509Certificate) certs.get(index); // verify signature if (workingPublicKey != null) { try { CertPathValidatorUtilities.verifyX509Certificate(cert, workingPublicKey, pkixParams.getSigProvider()); } catch (GeneralSecurityException ex) { ErrorBundle msg = new ErrorBundle(RESOURCE_NAME,"CertPathReviewer.signatureNotVerified", new Object[] {ex.getMessage(),ex,ex.getClass().getName()}); addError(msg,index); } } else if (isSelfIssued(cert)) { try { CertPathValidatorUtilities.verifyX509Certificate(cert, cert.getPublicKey(), pkixParams.getSigProvider()); ErrorBundle msg = new ErrorBundle(RESOURCE_NAME,"CertPathReviewer.rootKeyIsValidButNotATrustAnchor"); addError(msg, index); } catch (GeneralSecurityException ex) { ErrorBundle msg = new ErrorBundle(RESOURCE_NAME,"CertPathReviewer.signatureNotVerified", new Object[] {ex.getMessage(),ex,ex.getClass().getName()}); addError(msg,index); } } else { ErrorBundle msg = new ErrorBundle(RESOURCE_NAME,"CertPathReviewer.NoIssuerPublicKey"); // if there is an authority key extension add the serial and issuer of the missing certificate byte[] akiBytes = cert.getExtensionValue(X509Extensions.AuthorityKeyIdentifier.getId()); if (akiBytes != null) { try { AuthorityKeyIdentifier aki = AuthorityKeyIdentifier.getInstance( X509ExtensionUtil.fromExtensionValue(akiBytes)); GeneralNames issuerNames = aki.getAuthorityCertIssuer(); if (issuerNames != null) { GeneralName name = issuerNames.getNames()[0]; BigInteger serial = aki.getAuthorityCertSerialNumber(); if (serial != null) { Object[] extraArgs = {new LocaleString(RESOURCE_NAME, "missingIssuer"), " \"", name , "\" ", new LocaleString(RESOURCE_NAME, "missingSerial") , " ", serial}; msg.setExtraArguments(extraArgs); } } } catch (IOException e) { // ignore } } addError(msg,index); } // certificate valid? try { cert.checkValidity(validDate); } catch (CertificateNotYetValidException cnve) { ErrorBundle msg = new ErrorBundle(RESOURCE_NAME,"CertPathReviewer.certificateNotYetValid", new Object[] {new TrustedInput(cert.getNotBefore())}); addError(msg,index); } catch (CertificateExpiredException cee) { ErrorBundle msg = new ErrorBundle(RESOURCE_NAME,"CertPathReviewer.certificateExpired", new Object[] {new TrustedInput(cert.getNotAfter())}); addError(msg,index); } // certificate revoked? if (pkixParams.isRevocationEnabled()) { // read crl distribution points extension CRLDistPoint crlDistPoints = null; try { ASN1Primitive crl_dp = getExtensionValue(cert,CRL_DIST_POINTS); if (crl_dp != null) { crlDistPoints = CRLDistPoint.getInstance(crl_dp); } } catch (AnnotatedException ae) { ErrorBundle msg = new ErrorBundle(RESOURCE_NAME,"CertPathReviewer.crlDistPtExtError"); addError(msg,index); } // read authority information access extension AuthorityInformationAccess authInfoAcc = null; try { ASN1Primitive auth_info_acc = getExtensionValue(cert,AUTH_INFO_ACCESS); if (auth_info_acc != null) { authInfoAcc = AuthorityInformationAccess.getInstance(auth_info_acc); } } catch (AnnotatedException ae) { ErrorBundle msg = new ErrorBundle(RESOURCE_NAME,"CertPathReviewer.crlAuthInfoAccError"); addError(msg,index); } Vector crlDistPointUrls = getCRLDistUrls(crlDistPoints); Vector ocspUrls = getOCSPUrls(authInfoAcc); // add notifications with the crl distribution points // output crl distribution points Iterator urlIt = crlDistPointUrls.iterator(); while (urlIt.hasNext()) { ErrorBundle msg = new ErrorBundle(RESOURCE_NAME,"CertPathReviewer.crlDistPoint", new Object[] {new UntrustedUrlInput(urlIt.next())}); addNotification(msg,index); } // output ocsp urls urlIt = ocspUrls.iterator(); while (urlIt.hasNext()) { ErrorBundle msg = new ErrorBundle(RESOURCE_NAME,"CertPathReviewer.ocspLocation", new Object[] {new UntrustedUrlInput(urlIt.next())}); addNotification(msg,index); } // TODO also support Netscapes revocation-url and/or OCSP instead of CRLs for revocation checking // check CRLs try { checkRevocation(pkixParams, cert, validDate, sign, workingPublicKey, crlDistPointUrls, ocspUrls, index); } catch (CertPathReviewerException cpre) { addError(cpre.getErrorMessage(),index); } } // certificate issuer correct if (workingIssuerName != null && !cert.getIssuerX500Principal().equals(workingIssuerName)) { ErrorBundle msg = new ErrorBundle(RESOURCE_NAME,"CertPathReviewer.certWrongIssuer", new Object[] {workingIssuerName.getName(), cert.getIssuerX500Principal().getName()}); addError(msg,index); } // // prepare for next certificate // if (i != n) { if (cert != null && cert.getVersion() == 1) { ErrorBundle msg = new ErrorBundle(RESOURCE_NAME,"CertPathReviewer.noCACert"); addError(msg,index); } // k) BasicConstraints bc; try { bc = BasicConstraints.getInstance(getExtensionValue(cert, BASIC_CONSTRAINTS)); if (bc != null) { if (!bc.isCA()) { ErrorBundle msg = new ErrorBundle(RESOURCE_NAME,"CertPathReviewer.noCACert"); addError(msg,index); } } else { ErrorBundle msg = new ErrorBundle(RESOURCE_NAME,"CertPathReviewer.noBasicConstraints"); addError(msg,index); } } catch (AnnotatedException ae) { ErrorBundle msg = new ErrorBundle(RESOURCE_NAME,"CertPathReviewer.errorProcesingBC"); addError(msg,index); } // n) boolean[] _usage = cert.getKeyUsage(); if ((_usage != null) && !_usage[KEY_CERT_SIGN]) { ErrorBundle msg = new ErrorBundle(RESOURCE_NAME,"CertPathReviewer.noCertSign"); addError(msg,index); } } // if // set signing certificate for next round sign = cert; // c) workingIssuerName = cert.getSubjectX500Principal(); // d) e) f) try { workingPublicKey = getNextWorkingKey(certs, index); workingAlgId = getAlgorithmIdentifier(workingPublicKey); workingPublicKeyAlgorithm = workingAlgId.getAlgorithm(); workingPublicKeyParameters = workingAlgId.getParameters(); } catch (CertPathValidatorException ex) { ErrorBundle msg = new ErrorBundle(RESOURCE_NAME,"CertPathReviewer.pubKeyError"); addError(msg,index); workingAlgId = null; workingPublicKeyAlgorithm = null; workingPublicKeyParameters = null; } } // for trustAnchor = trust; subjectPublicKey = workingPublicKey; } private void checkPolicy() { // // 6.1.1 Inputs // // c) Initial Policy Set Set userInitialPolicySet = pkixParams.getInitialPolicies(); // e) f) g) are part of pkixParams // // 6.1.2 Initialization // // a) valid policy tree List[] policyNodes = new ArrayList[n + 1]; for (int j = 0; j < policyNodes.length; j++) { policyNodes[j] = new ArrayList(); } Set policySet = new HashSet(); policySet.add(ANY_POLICY); PKIXPolicyNode validPolicyTree = new PKIXPolicyNode(new ArrayList(), 0, policySet, null, new HashSet(), ANY_POLICY, false); policyNodes[0].add(validPolicyTree); // d) explicit policy int explicitPolicy; if (pkixParams.isExplicitPolicyRequired()) { explicitPolicy = 0; } else { explicitPolicy = n + 1; } // e) inhibit any policy int inhibitAnyPolicy; if (pkixParams.isAnyPolicyInhibited()) { inhibitAnyPolicy = 0; } else { inhibitAnyPolicy = n + 1; } // f) policy mapping int policyMapping; if (pkixParams.isPolicyMappingInhibited()) { policyMapping = 0; } else { policyMapping = n + 1; } Set acceptablePolicies = null; // // 6.1.3 Basic Certificate processing // X509Certificate cert = null; int index; int i; try { for (index = certs.size() - 1; index >= 0; index--) { // i as defined in the algorithm description i = n - index; // set certificate to be checked in this round cert = (X509Certificate) certs.get(index); // d) process policy information ASN1Sequence certPolicies; try { certPolicies = (ASN1Sequence) getExtensionValue( cert, CERTIFICATE_POLICIES); } catch (AnnotatedException ae) { ErrorBundle msg = new ErrorBundle(RESOURCE_NAME,"CertPathReviewer.policyExtError"); throw new CertPathReviewerException(msg,ae,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 (!ANY_POLICY.equals(pOid.getId())) { Set pq; try { pq = getQualifierSet(pInfo.getPolicyQualifiers()); } catch (CertPathValidatorException cpve) { ErrorBundle msg = new ErrorBundle(RESOURCE_NAME,"CertPathReviewer.policyQualifierError"); throw new CertPathReviewerException(msg,cpve,certPath,index); } boolean match = processCertD1i(i, policyNodes, pOid, pq); if (!match) { processCertD1ii(i, policyNodes, pOid, pq); } } } if (acceptablePolicies == null || acceptablePolicies.contains(ANY_POLICY)) { acceptablePolicies = 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 = t1; } // d) 2) if ((inhibitAnyPolicy > 0) || ((i < n) && isSelfIssued(cert))) { e = certPolicies.getObjects(); while (e.hasMoreElements()) { PolicyInformation pInfo = PolicyInformation.getInstance(e.nextElement()); if (ANY_POLICY.equals(pInfo.getPolicyIdentifier().getId())) { Set _apq; try { _apq = getQualifierSet(pInfo.getPolicyQualifiers()); } catch (CertPathValidatorException cpve) { ErrorBundle msg = new ErrorBundle(RESOURCE_NAME,"CertPathReviewer.policyQualifierError"); throw new CertPathReviewerException(msg,cpve,certPath,index); } 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; } } } // // (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 = removePolicyNode( validPolicyTree, policyNodes, node); if (validPolicyTree == null) { break; } } } } // // d (4) // Set criticalExtensionOids = cert.getCriticalExtensionOIDs(); if (criticalExtensionOids != null) { boolean critical = criticalExtensionOids.contains(CERTIFICATE_POLICIES); List nodes = policyNodes[i]; for (int j = 0; j < nodes.size(); j++) { PKIXPolicyNode node = (PKIXPolicyNode) nodes.get(j); node.setCritical(critical); } } } // e) if (certPolicies == null) { validPolicyTree = null; } // f) if (explicitPolicy <= 0 && validPolicyTree == null) { ErrorBundle msg = new ErrorBundle(RESOURCE_NAME,"CertPathReviewer.noValidPolicyTree"); throw new CertPathReviewerException(msg); } // // 6.1.4 preparation for next Certificate // if (i != n) { // a) ASN1Primitive pm; try { pm = getExtensionValue(cert, POLICY_MAPPINGS); } catch (AnnotatedException ae) { ErrorBundle msg = new ErrorBundle(RESOURCE_NAME,"CertPathReviewer.policyMapExtError"); throw new CertPathReviewerException(msg,ae,certPath,index); } if (pm != null) { ASN1Sequence mappings = (ASN1Sequence) pm; for (int j = 0; j < mappings.size(); j++) { ASN1Sequence mapping = (ASN1Sequence) mappings.getObjectAt(j); ASN1ObjectIdentifier ip_id = (ASN1ObjectIdentifier) mapping.getObjectAt(0); ASN1ObjectIdentifier sp_id = (ASN1ObjectIdentifier) mapping.getObjectAt(1); if (ANY_POLICY.equals(ip_id.getId())) { ErrorBundle msg = new ErrorBundle(RESOURCE_NAME,"CertPathReviewer.invalidPolicyMapping"); throw new CertPathReviewerException(msg,certPath,index); } if (ANY_POLICY.equals(sp_id.getId())) { ErrorBundle msg = new ErrorBundle(RESOURCE_NAME,"CertPathReviewer.invalidPolicyMapping"); throw new CertPathReviewerException(msg,certPath,index); } } } // b) 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) { try { prepareNextCertB1(i,policyNodes,id_p,m_idp,cert); } catch (AnnotatedException ae) { // error processing certificate policies extension ErrorBundle msg = new ErrorBundle(RESOURCE_NAME,"CertPathReviewer.policyExtError"); throw new CertPathReviewerException(msg,ae,certPath,index); } catch (CertPathValidatorException cpve) { // error building qualifier set ErrorBundle msg = new ErrorBundle(RESOURCE_NAME,"CertPathReviewer.policyQualifierError"); throw new CertPathReviewerException(msg,cpve,certPath,index); } // // (2) // } else if (policyMapping <= 0) { validPolicyTree = prepareNextCertB2(i,policyNodes,id_p,validPolicyTree); } } } // // h) // if (!isSelfIssued(cert)) { // (1) if (explicitPolicy != 0) { explicitPolicy--; } // (2) if (policyMapping != 0) { policyMapping--; } // (3) if (inhibitAnyPolicy != 0) { inhibitAnyPolicy--; } } // // i) // try { ASN1Sequence pc = (ASN1Sequence) getExtensionValue(cert,POLICY_CONSTRAINTS); if (pc != null) { Enumeration policyConstraints = pc.getObjects(); while (policyConstraints.hasMoreElements()) { ASN1TaggedObject constraint = (ASN1TaggedObject) policyConstraints.nextElement(); int tmpInt; switch (constraint.getTagNo()) { case 0: tmpInt = ASN1Integer.getInstance(constraint, false).getValue().intValue(); if (tmpInt < explicitPolicy) { explicitPolicy = tmpInt; } break; case 1: tmpInt = ASN1Integer.getInstance(constraint, false).getValue().intValue(); if (tmpInt < policyMapping) { policyMapping = tmpInt; } break; } } } } catch (AnnotatedException ae) { ErrorBundle msg = new ErrorBundle(RESOURCE_NAME,"CertPathReviewer.policyConstExtError"); throw new CertPathReviewerException(msg,certPath,index); } // // j) // try { ASN1Integer iap = (ASN1Integer)getExtensionValue(cert, INHIBIT_ANY_POLICY); if (iap != null) { int _inhibitAnyPolicy = iap.getValue().intValue(); if (_inhibitAnyPolicy < inhibitAnyPolicy) { inhibitAnyPolicy = _inhibitAnyPolicy; } } } catch (AnnotatedException ae) { ErrorBundle msg = new ErrorBundle(RESOURCE_NAME,"CertPathReviewer.policyInhibitExtError"); throw new CertPathReviewerException(msg,certPath,index); } } } // // 6.1.5 Wrap up // // // a) // if (!isSelfIssued(cert) && explicitPolicy > 0) { explicitPolicy--; } // // b) // try { ASN1Sequence pc = (ASN1Sequence) getExtensionValue(cert, POLICY_CONSTRAINTS); if (pc != null) { Enumeration policyConstraints = pc.getObjects(); while (policyConstraints.hasMoreElements()) { ASN1TaggedObject constraint = (ASN1TaggedObject)policyConstraints.nextElement(); switch (constraint.getTagNo()) { case 0: int tmpInt = ASN1Integer.getInstance(constraint, false).getValue().intValue(); if (tmpInt == 0) { explicitPolicy = 0; } break; } } } } catch (AnnotatedException e) { ErrorBundle msg = new ErrorBundle(RESOURCE_NAME,"CertPathReviewer.policyConstExtError"); throw new CertPathReviewerException(msg,certPath,index); } // // (g) // PKIXPolicyNode intersection; // // (g) (i) // if (validPolicyTree == null) { if (pkixParams.isExplicitPolicyRequired()) { ErrorBundle msg = new ErrorBundle(RESOURCE_NAME,"CertPathReviewer.explicitPolicy"); throw new CertPathReviewerException(msg,certPath,index); } intersection = null; } else if (isAnyPolicy(userInitialPolicySet)) // (g) (ii) { if (pkixParams.isExplicitPolicyRequired()) { if (acceptablePolicies.isEmpty()) { ErrorBundle msg = new ErrorBundle(RESOURCE_NAME,"CertPathReviewer.explicitPolicy"); throw new CertPathReviewerException(msg,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 (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 = 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 (ANY_POLICY.equals(_node.getValidPolicy())) { Iterator _iter = _node.getChildren(); while (_iter.hasNext()) { PKIXPolicyNode _c_node = (PKIXPolicyNode)_iter.next(); if (!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 = 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 = removePolicyNode(validPolicyTree, policyNodes, node); } } } } intersection = validPolicyTree; } if ((explicitPolicy <= 0) && (intersection == null)) { ErrorBundle msg = new ErrorBundle(RESOURCE_NAME,"CertPathReviewer.invalidPolicy"); throw new CertPathReviewerException(msg); } validPolicyTree = intersection; } catch (CertPathReviewerException cpre) { addError(cpre.getErrorMessage(),cpre.getIndex()); validPolicyTree = null; } } private void checkCriticalExtensions() { // // initialise CertPathChecker's // List pathCheckers = pkixParams.getCertPathCheckers(); Iterator certIter = pathCheckers.iterator(); try { try { while (certIter.hasNext()) { ((PKIXCertPathChecker)certIter.next()).init(false); } } catch (CertPathValidatorException cpve) { ErrorBundle msg = new ErrorBundle(RESOURCE_NAME,"CertPathReviewer.certPathCheckerError", new Object[] {cpve.getMessage(),cpve,cpve.getClass().getName()}); throw new CertPathReviewerException(msg,cpve); } // // process critical extesions for each certificate // X509Certificate cert = null; int index; for (index = certs.size()-1; index >= 0; index--) { cert = (X509Certificate) certs.get(index); Set criticalExtensions = cert.getCriticalExtensionOIDs(); if (criticalExtensions == null || criticalExtensions.isEmpty()) { continue; } // remove already processed extensions criticalExtensions.remove(KEY_USAGE); criticalExtensions.remove(CERTIFICATE_POLICIES); criticalExtensions.remove(POLICY_MAPPINGS); criticalExtensions.remove(INHIBIT_ANY_POLICY); criticalExtensions.remove(ISSUING_DISTRIBUTION_POINT); criticalExtensions.remove(DELTA_CRL_INDICATOR); criticalExtensions.remove(POLICY_CONSTRAINTS); criticalExtensions.remove(BASIC_CONSTRAINTS); criticalExtensions.remove(SUBJECT_ALTERNATIVE_NAME); criticalExtensions.remove(NAME_CONSTRAINTS); // process qcStatements extension if (criticalExtensions.contains(QC_STATEMENT)) { if (processQcStatements(cert,index)) { criticalExtensions.remove(QC_STATEMENT); } } Iterator tmpIter = pathCheckers.iterator(); while (tmpIter.hasNext()) { try { ((PKIXCertPathChecker)tmpIter.next()).check(cert, criticalExtensions); } catch (CertPathValidatorException e) { ErrorBundle msg = new ErrorBundle(RESOURCE_NAME,"CertPathReviewer.criticalExtensionError", new Object[] {e.getMessage(),e,e.getClass().getName()}); throw new CertPathReviewerException(msg,e.getCause(),certPath,index); } } if (!criticalExtensions.isEmpty()) { ErrorBundle msg; Iterator it = criticalExtensions.iterator(); while (it.hasNext()) { msg = new ErrorBundle(RESOURCE_NAME,"CertPathReviewer.unknownCriticalExt", new Object[] {new ASN1ObjectIdentifier((String) it.next())}); addError(msg, index); } } } } catch (CertPathReviewerException cpre) { addError(cpre.getErrorMessage(),cpre.getIndex()); } } private boolean processQcStatements( X509Certificate cert, int index) { try { boolean unknownStatement = false; ASN1Sequence qcSt = (ASN1Sequence) getExtensionValue(cert,QC_STATEMENT); for (int j = 0; j < qcSt.size(); j++) { QCStatement stmt = QCStatement.getInstance(qcSt.getObjectAt(j)); if (QCStatement.id_etsi_qcs_QcCompliance.equals(stmt.getStatementId())) { // process statement - just write a notification that the certificate contains this statement ErrorBundle msg = new ErrorBundle(RESOURCE_NAME,"CertPathReviewer.QcEuCompliance"); addNotification(msg,index); } else if (QCStatement.id_qcs_pkixQCSyntax_v1.equals(stmt.getStatementId())) { // process statement - just recognize the statement } else if (QCStatement.id_etsi_qcs_QcSSCD.equals(stmt.getStatementId())) { // process statement - just write a notification that the certificate contains this statement ErrorBundle msg = new ErrorBundle(RESOURCE_NAME,"CertPathReviewer.QcSSCD"); addNotification(msg,index); } else if (QCStatement.id_etsi_qcs_LimiteValue.equals(stmt.getStatementId())) { // process statement - write a notification containing the limit value MonetaryValue limit = MonetaryValue.getInstance(stmt.getStatementInfo()); Iso4217CurrencyCode currency = limit.getCurrency(); double value = limit.getAmount().doubleValue() * Math.pow(10,limit.getExponent().doubleValue()); ErrorBundle msg; if (limit.getCurrency().isAlphabetic()) { msg = new ErrorBundle(RESOURCE_NAME,"CertPathReviewer.QcLimitValueAlpha", new Object[] {limit.getCurrency().getAlphabetic(), new TrustedInput(new Double(value)), limit}); } else { msg = new ErrorBundle(RESOURCE_NAME,"CertPathReviewer.QcLimitValueNum", new Object[]{Integers.valueOf(limit.getCurrency().getNumeric()), new TrustedInput(new Double(value)), limit}); } addNotification(msg,index); } else { ErrorBundle msg = new ErrorBundle(RESOURCE_NAME,"CertPathReviewer.QcUnknownStatement", new Object[] {stmt.getStatementId(),new UntrustedInput(stmt)}); addNotification(msg,index); unknownStatement = true; } } return !unknownStatement; } catch (AnnotatedException ae) { ErrorBundle msg = new ErrorBundle(RESOURCE_NAME,"CertPathReviewer.QcStatementExtError"); addError(msg,index); } return false; } private String IPtoString(byte[] ip) { String result; try { result = InetAddress.getByAddress(ip).getHostAddress(); } catch (Exception e) { StringBuffer b = new StringBuffer(); for (int i = 0; i != ip.length; i++) { b.append(Integer.toHexString(ip[i] & 0xff)); b.append(' '); } result = b.toString(); } return result; } protected void checkRevocation(PKIXParameters paramsPKIX, X509Certificate cert, Date validDate, X509Certificate sign, PublicKey workingPublicKey, Vector crlDistPointUrls, Vector ocspUrls, int index) throws CertPathReviewerException { checkCRLs(paramsPKIX, cert, validDate, sign, workingPublicKey, crlDistPointUrls, index); } protected void checkCRLs( PKIXParameters paramsPKIX, X509Certificate cert, Date validDate, X509Certificate sign, PublicKey workingPublicKey, Vector crlDistPointUrls, int index) throws CertPathReviewerException { X509CRLStoreSelector crlselect; crlselect = new X509CRLStoreSelector(); try { crlselect.addIssuerName(getEncodedIssuerPrincipal(cert).getEncoded()); } catch (IOException e) { ErrorBundle msg = new ErrorBundle(RESOURCE_NAME,"CertPathReviewer.crlIssuerException"); throw new CertPathReviewerException(msg,e); } crlselect.setCertificateChecking(cert); Iterator crl_iter; try { Collection crl_coll = CRL_UTIL.findCRLs(crlselect, paramsPKIX); crl_iter = crl_coll.iterator(); if (crl_coll.isEmpty()) { // notifcation - no local crls found crl_coll = CRL_UTIL.findCRLs(new X509CRLStoreSelector(),paramsPKIX); Iterator it = crl_coll.iterator(); List nonMatchingCrlNames = new ArrayList(); while (it.hasNext()) { nonMatchingCrlNames.add(((X509CRL) it.next()).getIssuerX500Principal()); } int numbOfCrls = nonMatchingCrlNames.size(); ErrorBundle msg = new ErrorBundle(RESOURCE_NAME, "CertPathReviewer.noCrlInCertstore", new Object[]{new UntrustedInput(crlselect.getIssuerNames()), new UntrustedInput(nonMatchingCrlNames), Integers.valueOf(numbOfCrls)}); addNotification(msg,index); } } catch (AnnotatedException ae) { ErrorBundle msg = new ErrorBundle(RESOURCE_NAME,"CertPathReviewer.crlExtractionError", new Object[] {ae.getCause().getMessage(),ae.getCause(),ae.getCause().getClass().getName()}); addError(msg,index); crl_iter = new ArrayList().iterator(); } boolean validCrlFound = false; X509CRL crl = null; while (crl_iter.hasNext()) { crl = (X509CRL)crl_iter.next(); if (crl.getNextUpdate() == null || paramsPKIX.getDate().before(crl.getNextUpdate())) { validCrlFound = true; ErrorBundle msg = new ErrorBundle(RESOURCE_NAME, "CertPathReviewer.localValidCRL", new Object[] {new TrustedInput(crl.getThisUpdate()), new TrustedInput(crl.getNextUpdate())}); addNotification(msg,index); break; } else { ErrorBundle msg = new ErrorBundle(RESOURCE_NAME, "CertPathReviewer.localInvalidCRL", new Object[] {new TrustedInput(crl.getThisUpdate()), new TrustedInput(crl.getNextUpdate())}); addNotification(msg,index); } } // if no valid crl was found in the CertStores try to get one from a // crl distribution point if (!validCrlFound) { X509CRL onlineCRL = null; Iterator urlIt = crlDistPointUrls.iterator(); while (urlIt.hasNext()) { try { String location = (String) urlIt.next(); onlineCRL = getCRL(location); if (onlineCRL != null) { // check if crl issuer is correct if (!cert.getIssuerX500Principal().equals(onlineCRL.getIssuerX500Principal())) { ErrorBundle msg = new ErrorBundle(RESOURCE_NAME, "CertPathReviewer.onlineCRLWrongCA", new Object[] {new UntrustedInput(onlineCRL.getIssuerX500Principal().getName()), new UntrustedInput(cert.getIssuerX500Principal().getName()), new UntrustedUrlInput(location)}); addNotification(msg,index); continue; } if (onlineCRL.getNextUpdate() == null || pkixParams.getDate().before(onlineCRL.getNextUpdate())) { validCrlFound = true; ErrorBundle msg = new ErrorBundle(RESOURCE_NAME, "CertPathReviewer.onlineValidCRL", new Object[] {new TrustedInput(onlineCRL.getThisUpdate()), new TrustedInput(onlineCRL.getNextUpdate()), new UntrustedUrlInput(location)}); addNotification(msg,index); crl = onlineCRL; break; } else { ErrorBundle msg = new ErrorBundle(RESOURCE_NAME, "CertPathReviewer.onlineInvalidCRL", new Object[] {new TrustedInput(onlineCRL.getThisUpdate()), new TrustedInput(onlineCRL.getNextUpdate()), new UntrustedUrlInput(location)}); addNotification(msg,index); } } } catch (CertPathReviewerException cpre) { addNotification(cpre.getErrorMessage(),index); } } } // check the crl X509CRLEntry crl_entry; if (crl != null) { if (sign != null) { boolean[] keyusage = sign.getKeyUsage(); if (keyusage != null && (keyusage.length < 7 || !keyusage[CRL_SIGN])) { ErrorBundle msg = new ErrorBundle(RESOURCE_NAME,"CertPathReviewer.noCrlSigningPermited"); throw new CertPathReviewerException(msg); } } if (workingPublicKey != null) { try { crl.verify(workingPublicKey, "BC"); } catch (Exception e) { ErrorBundle msg = new ErrorBundle(RESOURCE_NAME,"CertPathReviewer.crlVerifyFailed"); throw new CertPathReviewerException(msg,e); } } else // issuer public key not known { ErrorBundle msg = new ErrorBundle(RESOURCE_NAME,"CertPathReviewer.crlNoIssuerPublicKey"); throw new CertPathReviewerException(msg); } crl_entry = crl.getRevokedCertificate(cert.getSerialNumber()); if (crl_entry != null) { String reason = null; if (crl_entry.hasExtensions()) { ASN1Enumerated reasonCode; try { reasonCode = ASN1Enumerated.getInstance(getExtensionValue(crl_entry, X509Extensions.ReasonCode.getId())); } catch (AnnotatedException ae) { ErrorBundle msg = new ErrorBundle(RESOURCE_NAME,"CertPathReviewer.crlReasonExtError"); throw new CertPathReviewerException(msg,ae); } if (reasonCode != null) { reason = crlReasons[reasonCode.getValue().intValue()]; } } if (reason == null) { reason = crlReasons[7]; // unknown } // i18n reason LocaleString ls = new LocaleString(RESOURCE_NAME, reason); if (!validDate.before(crl_entry.getRevocationDate())) { ErrorBundle msg = new ErrorBundle(RESOURCE_NAME,"CertPathReviewer.certRevoked", new Object[] {new TrustedInput(crl_entry.getRevocationDate()),ls}); throw new CertPathReviewerException(msg); } else // cert was revoked after validation date { ErrorBundle msg = new ErrorBundle(RESOURCE_NAME,"CertPathReviewer.revokedAfterValidation", new Object[] {new TrustedInput(crl_entry.getRevocationDate()),ls}); addNotification(msg,index); } } else // cert is not revoked { ErrorBundle msg = new ErrorBundle(RESOURCE_NAME,"CertPathReviewer.notRevoked"); addNotification(msg,index); } // // warn if a new crl is available // if (crl.getNextUpdate() != null && crl.getNextUpdate().before(pkixParams.getDate())) { ErrorBundle msg = new ErrorBundle(RESOURCE_NAME,"CertPathReviewer.crlUpdateAvailable", new Object[] {new TrustedInput(crl.getNextUpdate())}); addNotification(msg,index); } // // check the DeltaCRL indicator, base point and the issuing distribution point // ASN1Primitive idp; try { idp = getExtensionValue(crl, ISSUING_DISTRIBUTION_POINT); } catch (AnnotatedException ae) { ErrorBundle msg = new ErrorBundle(RESOURCE_NAME,"CertPathReviewer.distrPtExtError"); throw new CertPathReviewerException(msg); } ASN1Primitive dci; try { dci = getExtensionValue(crl, DELTA_CRL_INDICATOR); } catch (AnnotatedException ae) { ErrorBundle msg = new ErrorBundle(RESOURCE_NAME,"CertPathReviewer.deltaCrlExtError"); throw new CertPathReviewerException(msg); } if (dci != null) { X509CRLStoreSelector baseSelect = new X509CRLStoreSelector(); try { baseSelect.addIssuerName(getIssuerPrincipal(crl).getEncoded()); } catch (IOException e) { ErrorBundle msg = new ErrorBundle(RESOURCE_NAME,"CertPathReviewer.crlIssuerException"); throw new CertPathReviewerException(msg,e); } baseSelect.setMinCRLNumber(((ASN1Integer)dci).getPositiveValue()); try { baseSelect.setMaxCRLNumber(((ASN1Integer)getExtensionValue(crl, CRL_NUMBER)).getPositiveValue().subtract(BigInteger.valueOf(1))); } catch (AnnotatedException ae) { ErrorBundle msg = new ErrorBundle(RESOURCE_NAME,"CertPathReviewer.crlNbrExtError"); throw new CertPathReviewerException(msg,ae); } boolean foundBase = false; Iterator it; try { it = CRL_UTIL.findCRLs(baseSelect, paramsPKIX).iterator(); } catch (AnnotatedException ae) { ErrorBundle msg = new ErrorBundle(RESOURCE_NAME,"CertPathReviewer.crlExtractionError"); throw new CertPathReviewerException(msg,ae); } while (it.hasNext()) { X509CRL base = (X509CRL)it.next(); ASN1Primitive baseIdp; try { baseIdp = getExtensionValue(base, ISSUING_DISTRIBUTION_POINT); } catch (AnnotatedException ae) { ErrorBundle msg = new ErrorBundle(RESOURCE_NAME,"CertPathReviewer.distrPtExtError"); throw new CertPathReviewerException(msg,ae); } if (idp == null) { if (baseIdp == null) { foundBase = true; break; } } else { if (idp.equals(baseIdp)) { foundBase = true; break; } } } if (!foundBase) { ErrorBundle msg = new ErrorBundle(RESOURCE_NAME,"CertPathReviewer.noBaseCRL"); throw new CertPathReviewerException(msg); } } if (idp != null) { IssuingDistributionPoint p = IssuingDistributionPoint.getInstance(idp); BasicConstraints bc = null; try { bc = BasicConstraints.getInstance(getExtensionValue(cert, BASIC_CONSTRAINTS)); } catch (AnnotatedException ae) { ErrorBundle msg = new ErrorBundle(RESOURCE_NAME,"CertPathReviewer.crlBCExtError"); throw new CertPathReviewerException(msg,ae); } if (p.onlyContainsUserCerts() && (bc != null && bc.isCA())) { ErrorBundle msg = new ErrorBundle(RESOURCE_NAME,"CertPathReviewer.crlOnlyUserCert"); throw new CertPathReviewerException(msg); } if (p.onlyContainsCACerts() && (bc == null || !bc.isCA())) { ErrorBundle msg = new ErrorBundle(RESOURCE_NAME,"CertPathReviewer.crlOnlyCaCert"); throw new CertPathReviewerException(msg); } if (p.onlyContainsAttributeCerts()) { ErrorBundle msg = new ErrorBundle(RESOURCE_NAME,"CertPathReviewer.crlOnlyAttrCert"); throw new CertPathReviewerException(msg); } } } if (!validCrlFound) { ErrorBundle msg = new ErrorBundle(RESOURCE_NAME,"CertPathReviewer.noValidCrlFound"); throw new CertPathReviewerException(msg); } } protected Vector getCRLDistUrls(CRLDistPoint crlDistPoints) { Vector urls = new Vector(); if (crlDistPoints != null) { DistributionPoint[] distPoints = crlDistPoints.getDistributionPoints(); for (int i = 0; i < distPoints.length; i++) { DistributionPointName dp_name = distPoints[i].getDistributionPoint(); if (dp_name.getType() == DistributionPointName.FULL_NAME) { GeneralName[] generalNames = GeneralNames.getInstance(dp_name.getName()).getNames(); for (int j = 0; j < generalNames.length; j++) { if (generalNames[j].getTagNo() == GeneralName.uniformResourceIdentifier) { String url = ((DERIA5String) generalNames[j].getName()).getString(); urls.add(url); } } } } } return urls; } protected Vector getOCSPUrls(AuthorityInformationAccess authInfoAccess) { Vector urls = new Vector(); if (authInfoAccess != null) { AccessDescription[] ads = authInfoAccess.getAccessDescriptions(); for (int i = 0; i < ads.length; i++) { if (ads[i].getAccessMethod().equals(AccessDescription.id_ad_ocsp)) { GeneralName name = ads[i].getAccessLocation(); if (name.getTagNo() == GeneralName.uniformResourceIdentifier) { String url = ((DERIA5String) name.getName()).getString(); urls.add(url); } } } } return urls; } private X509CRL getCRL(String location) throws CertPathReviewerException { X509CRL result = null; try { URL url = new URL(location); if (url.getProtocol().equals("http") || url.getProtocol().equals("https")) { HttpURLConnection conn = (HttpURLConnection) url.openConnection(); conn.setUseCaches(false); //conn.setConnectTimeout(2000); conn.setDoInput(true); conn.connect(); if (conn.getResponseCode() == HttpURLConnection.HTTP_OK) { CertificateFactory cf = CertificateFactory.getInstance("X.509","BC"); result = (X509CRL) cf.generateCRL(conn.getInputStream()); } else { throw new Exception(conn.getResponseMessage()); } } } catch (Exception e) { ErrorBundle msg = new ErrorBundle(RESOURCE_NAME, "CertPathReviewer.loadCrlDistPointError", new Object[] {new UntrustedInput(location), e.getMessage(),e,e.getClass().getName()}); throw new CertPathReviewerException(msg); } return result; } protected Collection getTrustAnchors(X509Certificate cert, Set trustanchors) throws CertPathReviewerException { Collection trustColl = new ArrayList(); Iterator it = trustanchors.iterator(); X509CertSelector certSelectX509 = new X509CertSelector(); try { certSelectX509.setSubject(getEncodedIssuerPrincipal(cert).getEncoded()); byte[] ext = cert.getExtensionValue(X509Extensions.AuthorityKeyIdentifier.getId()); if (ext != null) { ASN1OctetString oct = (ASN1OctetString)ASN1Primitive.fromByteArray(ext); AuthorityKeyIdentifier authID = AuthorityKeyIdentifier.getInstance(ASN1Primitive.fromByteArray(oct.getOctets())); certSelectX509.setSerialNumber(authID.getAuthorityCertSerialNumber()); byte[] keyID = authID.getKeyIdentifier(); if (keyID != null) { certSelectX509.setSubjectKeyIdentifier(new DEROctetString(keyID).getEncoded()); } } } catch (IOException ex) { ErrorBundle msg = new ErrorBundle(RESOURCE_NAME,"CertPathReviewer.trustAnchorIssuerError"); throw new CertPathReviewerException(msg); } while (it.hasNext()) { TrustAnchor trust = (TrustAnchor) it.next(); if (trust.getTrustedCert() != null) { if (certSelectX509.match(trust.getTrustedCert())) { trustColl.add(trust); } } else if (trust.getCAName() != null && trust.getCAPublicKey() != null) { X500Principal certIssuer = getEncodedIssuerPrincipal(cert); X500Principal caName = new X500Principal(trust.getCAName()); if (certIssuer.equals(caName)) { trustColl.add(trust); } } } return trustColl; } }




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