Search in sources :

Example 6 with ExtendedPKIXParameters

use of com.github.zhenwei.provider.x509.ExtendedPKIXParameters in project LinLong-Java by zhenwei1108.

the class PKIXCertPathBuilderSpi method engineBuild.

/**
 * Build and validate a CertPath using the given parameter.
 *
 * @param params PKIXBuilderParameters object containing all information to build the CertPath
 */
public CertPathBuilderResult engineBuild(CertPathParameters params) throws CertPathBuilderException, InvalidAlgorithmParameterException {
    PKIXExtendedBuilderParameters paramsPKIX;
    if (params instanceof PKIXBuilderParameters) {
        PKIXExtendedParameters.Builder paramsPKIXBldr = new PKIXExtendedParameters.Builder((PKIXBuilderParameters) params);
        PKIXExtendedBuilderParameters.Builder paramsBldrPKIXBldr;
        if (params instanceof ExtendedPKIXParameters) {
            ExtendedPKIXBuilderParameters extPKIX = (ExtendedPKIXBuilderParameters) params;
            for (Iterator it = extPKIX.getAdditionalStores().iterator(); it.hasNext(); ) {
                paramsPKIXBldr.addCertificateStore((PKIXCertStore) it.next());
            }
            paramsBldrPKIXBldr = new PKIXExtendedBuilderParameters.Builder(paramsPKIXBldr.build());
            paramsBldrPKIXBldr.addExcludedCerts(extPKIX.getExcludedCerts());
            paramsBldrPKIXBldr.setMaxPathLength(extPKIX.getMaxPathLength());
        } else {
            paramsBldrPKIXBldr = new PKIXExtendedBuilderParameters.Builder((PKIXBuilderParameters) params);
        }
        paramsPKIX = paramsBldrPKIXBldr.build();
    } else if (params instanceof PKIXExtendedBuilderParameters) {
        paramsPKIX = (PKIXExtendedBuilderParameters) params;
    } else {
        throw new InvalidAlgorithmParameterException("Parameters must be an instance of " + PKIXBuilderParameters.class.getName() + " or " + PKIXExtendedBuilderParameters.class.getName() + ".");
    }
    Collection targets;
    Iterator targetIter;
    List certPathList = new ArrayList();
    X509Certificate cert;
    // search target certificates
    targets = CertPathValidatorUtilities.findTargets(paramsPKIX);
    CertPathBuilderResult result = null;
    // check all potential target certificates
    targetIter = targets.iterator();
    while (targetIter.hasNext() && result == null) {
        cert = (X509Certificate) targetIter.next();
        result = build(cert, paramsPKIX, certPathList);
    }
    if (result == null && certPathException != null) {
        if (certPathException instanceof AnnotatedException) {
            throw new CertPathBuilderException(certPathException.getMessage(), certPathException.getCause());
        }
        throw new CertPathBuilderException("Possible certificate chain could not be validated.", certPathException);
    }
    if (result == null && certPathException == null) {
        throw new CertPathBuilderException("Unable to find certificate chain.");
    }
    return result;
}
Also used : InvalidAlgorithmParameterException(java.security.InvalidAlgorithmParameterException) ExtendedPKIXBuilderParameters(com.github.zhenwei.provider.x509.ExtendedPKIXBuilderParameters) PKIXBuilderParameters(java.security.cert.PKIXBuilderParameters) ExtendedPKIXBuilderParameters(com.github.zhenwei.provider.x509.ExtendedPKIXBuilderParameters) CertPathBuilderResult(java.security.cert.CertPathBuilderResult) PKIXCertPathBuilderResult(java.security.cert.PKIXCertPathBuilderResult) ArrayList(java.util.ArrayList) X509Certificate(java.security.cert.X509Certificate) PKIXExtendedParameters(com.github.zhenwei.provider.jcajce.PKIXExtendedParameters) ExtendedPKIXParameters(com.github.zhenwei.provider.x509.ExtendedPKIXParameters) PKIXExtendedBuilderParameters(com.github.zhenwei.provider.jcajce.PKIXExtendedBuilderParameters) CertPathBuilderException(java.security.cert.CertPathBuilderException) Iterator(java.util.Iterator) Collection(java.util.Collection) ArrayList(java.util.ArrayList) List(java.util.List)

Example 7 with ExtendedPKIXParameters

use of com.github.zhenwei.provider.x509.ExtendedPKIXParameters in project LinLong-Java by zhenwei1108.

the class PKIXCertPathValidatorSpi_8 method engineValidate.

public CertPathValidatorResult engineValidate(CertPath certPath, CertPathParameters params) throws CertPathValidatorException, InvalidAlgorithmParameterException {
    PKIXExtendedParameters paramsPKIX;
    if (params instanceof PKIXParameters) {
        PKIXExtendedParameters.Builder paramsPKIXBldr = new PKIXExtendedParameters.Builder((PKIXParameters) params);
        if (params instanceof ExtendedPKIXParameters) {
            ExtendedPKIXParameters extPKIX = (ExtendedPKIXParameters) params;
            paramsPKIXBldr.setUseDeltasEnabled(extPKIX.isUseDeltasEnabled());
            paramsPKIXBldr.setValidityModel(extPKIX.getValidityModel());
        }
        paramsPKIX = paramsPKIXBldr.build();
    } else if (params instanceof PKIXExtendedBuilderParameters) {
        paramsPKIX = ((PKIXExtendedBuilderParameters) params).getBaseParameters();
    } else if (params instanceof PKIXExtendedParameters) {
        paramsPKIX = (PKIXExtendedParameters) params;
    } else {
        throw new InvalidAlgorithmParameterException("Parameters must be a " + PKIXParameters.class.getName() + " instance.");
    }
    if (paramsPKIX.getTrustAnchors() == null) {
        throw new InvalidAlgorithmParameterException("trustAnchors is null, this is not allowed for certification path validation.");
    }
    // 
    // 6.1.1 - inputs
    // 
    // 
    // (a)
    // 
    List certs = certPath.getCertificates();
    int n = certs.size();
    if (certs.isEmpty()) {
        throw new CertPathValidatorException("Certification path is empty.", null, certPath, -1);
    }
    // 
    // (b)
    // 
    final Date currentDate = new Date();
    final Date validityDate = CertPathValidatorUtilities.getValidityDate(paramsPKIX, currentDate);
    // 
    // (c)
    // 
    Set userInitialPolicySet = paramsPKIX.getInitialPolicies();
    // 
    // (d)
    // 
    TrustAnchor trust;
    try {
        trust = CertPathValidatorUtilities.findTrustAnchor((X509Certificate) certs.get(certs.size() - 1), paramsPKIX.getTrustAnchors(), paramsPKIX.getSigProvider());
        if (trust == null) {
            throw new CertPathValidatorException("Trust anchor for certification path not found.", null, certPath, -1);
        }
        checkCertificate(trust.getTrustedCert());
    } catch (AnnotatedException e) {
        throw new CertPathValidatorException(e.getMessage(), e.getUnderlyingException(), certPath, certs.size() - 1);
    }
    // RFC 5280 - CRLs must originate from the same trust anchor as the target certificate.
    paramsPKIX = new PKIXExtendedParameters.Builder(paramsPKIX).setTrustAnchor(trust).build();
    PKIXCertRevocationChecker revocationChecker = null;
    List pathCheckers = new ArrayList();
    Iterator certIter = paramsPKIX.getCertPathCheckers().iterator();
    while (certIter.hasNext()) {
        PKIXCertPathChecker checker = (PKIXCertPathChecker) certIter.next();
        checker.init(false);
        if (checker instanceof PKIXRevocationChecker) {
            if (revocationChecker != null) {
                throw new CertPathValidatorException("only one PKIXRevocationChecker allowed");
            }
            revocationChecker = (checker instanceof PKIXCertRevocationChecker) ? (PKIXCertRevocationChecker) checker : new WrappedRevocationChecker(checker);
        } else {
            pathCheckers.add(checker);
        }
    }
    if (paramsPKIX.isRevocationEnabled() && revocationChecker == null) {
        revocationChecker = new ProvRevocationChecker(helper);
    }
    // 
    // (e), (f), (g) are part of the paramsPKIX object.
    // 
    int index = 0;
    int i;
    // Certificate for each interation of the validation loop
    // Signature information for each iteration of the validation loop
    // 
    // 6.1.2 - setup
    // 
    // 
    // (a)
    // 
    List[] policyNodes = new ArrayList[n + 1];
    for (int j = 0; j < policyNodes.length; j++) {
        policyNodes[j] = new ArrayList();
    }
    Set policySet = new HashSet();
    policySet.add(RFC3280CertPathUtilities.ANY_POLICY);
    PKIXPolicyNode validPolicyTree = new PKIXPolicyNode(new ArrayList(), 0, policySet, null, new HashSet(), RFC3280CertPathUtilities.ANY_POLICY, false);
    policyNodes[0].add(validPolicyTree);
    // 
    // (b) and (c)
    // 
    PKIXNameConstraintValidator nameConstraintValidator = new PKIXNameConstraintValidator();
    // (d)
    // 
    int explicitPolicy;
    Set acceptablePolicies = new HashSet();
    if (paramsPKIX.isExplicitPolicyRequired()) {
        explicitPolicy = 0;
    } else {
        explicitPolicy = n + 1;
    }
    // 
    // (e)
    // 
    int inhibitAnyPolicy;
    if (paramsPKIX.isAnyPolicyInhibited()) {
        inhibitAnyPolicy = 0;
    } else {
        inhibitAnyPolicy = n + 1;
    }
    // 
    // (f)
    // 
    int policyMapping;
    if (paramsPKIX.isPolicyMappingInhibited()) {
        policyMapping = 0;
    } else {
        policyMapping = n + 1;
    }
    // 
    // (g), (h), (i), (j)
    // 
    PublicKey workingPublicKey;
    X500Name workingIssuerName;
    X509Certificate sign = trust.getTrustedCert();
    try {
        if (sign != null) {
            workingIssuerName = PrincipalUtils.getSubjectPrincipal(sign);
            workingPublicKey = sign.getPublicKey();
        } else {
            workingIssuerName = PrincipalUtils.getCA(trust);
            workingPublicKey = trust.getCAPublicKey();
        }
    } catch (RuntimeException ex) {
        throw new ExtCertPathValidatorException("Subject of trust anchor could not be (re)encoded.", ex, certPath, -1);
    }
    AlgorithmIdentifier workingAlgId = null;
    try {
        workingAlgId = CertPathValidatorUtilities.getAlgorithmIdentifier(workingPublicKey);
    } catch (CertPathValidatorException e) {
        throw new ExtCertPathValidatorException("Algorithm identifier of public key of trust anchor could not be read.", e, certPath, -1);
    }
    ASN1ObjectIdentifier workingPublicKeyAlgorithm = workingAlgId.getAlgorithm();
    ASN1Encodable workingPublicKeyParameters = workingAlgId.getParameters();
    // 
    // (k)
    // 
    int maxPathLength = n;
    if (paramsPKIX.getTargetConstraints() != null && !paramsPKIX.getTargetConstraints().match((X509Certificate) certs.get(0))) {
        throw new ExtCertPathValidatorException("Target certificate in certification path does not match targetConstraints.", null, certPath, 0);
    }
    // 
    // initialize CertPathChecker's
    // 
    X509Certificate cert = null;
    for (index = certs.size() - 1; index >= 0; index--) {
        // try
        // {
        // 
        // i as defined in the algorithm description
        // 
        i = n - index;
        // 
        // set certificate to be checked in this round
        // sign and workingPublicKey and workingIssuerName are set
        // at the end of the for loop and initialized the
        // first time from the TrustAnchor
        // 
        cert = (X509Certificate) certs.get(index);
        boolean verificationAlreadyPerformed = (index == certs.size() - 1);
        try {
            checkCertificate(cert);
        } catch (AnnotatedException e) {
            throw new CertPathValidatorException(e.getMessage(), e.getUnderlyingException(), certPath, index);
        }
        // 
        // 6.1.3
        // 
        RFC3280CertPathUtilities.processCertA(certPath, paramsPKIX, validityDate, revocationChecker, index, workingPublicKey, verificationAlreadyPerformed, workingIssuerName, sign);
        RFC3280CertPathUtilities.processCertBC(certPath, index, nameConstraintValidator, isForCRLCheck);
        validPolicyTree = RFC3280CertPathUtilities.processCertD(certPath, index, acceptablePolicies, validPolicyTree, policyNodes, inhibitAnyPolicy, isForCRLCheck);
        validPolicyTree = RFC3280CertPathUtilities.processCertE(certPath, index, validPolicyTree);
        RFC3280CertPathUtilities.processCertF(certPath, index, validPolicyTree, explicitPolicy);
        // 
        if (i != n) {
            if (cert != null && cert.getVersion() == 1) {
                // we've found the trust anchor at the top of the path, ignore and keep going
                if ((i == 1) && cert.equals(trust.getTrustedCert())) {
                    continue;
                }
                throw new CertPathValidatorException("Version 1 certificates can't be used as CA ones.", null, certPath, index);
            }
            RFC3280CertPathUtilities.prepareNextCertA(certPath, index);
            validPolicyTree = RFC3280CertPathUtilities.prepareCertB(certPath, index, policyNodes, validPolicyTree, policyMapping);
            RFC3280CertPathUtilities.prepareNextCertG(certPath, index, nameConstraintValidator);
            // (h)
            explicitPolicy = RFC3280CertPathUtilities.prepareNextCertH1(certPath, index, explicitPolicy);
            policyMapping = RFC3280CertPathUtilities.prepareNextCertH2(certPath, index, policyMapping);
            inhibitAnyPolicy = RFC3280CertPathUtilities.prepareNextCertH3(certPath, index, inhibitAnyPolicy);
            // 
            // (i)
            // 
            explicitPolicy = RFC3280CertPathUtilities.prepareNextCertI1(certPath, index, explicitPolicy);
            policyMapping = RFC3280CertPathUtilities.prepareNextCertI2(certPath, index, policyMapping);
            // (j)
            inhibitAnyPolicy = RFC3280CertPathUtilities.prepareNextCertJ(certPath, index, inhibitAnyPolicy);
            // (k)
            RFC3280CertPathUtilities.prepareNextCertK(certPath, index);
            // (l)
            maxPathLength = RFC3280CertPathUtilities.prepareNextCertL(certPath, index, maxPathLength);
            // (m)
            maxPathLength = RFC3280CertPathUtilities.prepareNextCertM(certPath, index, maxPathLength);
            // (n)
            RFC3280CertPathUtilities.prepareNextCertN(certPath, index);
            Set criticalExtensions = cert.getCriticalExtensionOIDs();
            if (criticalExtensions != null) {
                criticalExtensions = new HashSet(criticalExtensions);
                // these extensions are handled by the algorithm
                criticalExtensions.remove(RFC3280CertPathUtilities.KEY_USAGE);
                criticalExtensions.remove(RFC3280CertPathUtilities.CERTIFICATE_POLICIES);
                criticalExtensions.remove(RFC3280CertPathUtilities.POLICY_MAPPINGS);
                criticalExtensions.remove(RFC3280CertPathUtilities.INHIBIT_ANY_POLICY);
                criticalExtensions.remove(RFC3280CertPathUtilities.ISSUING_DISTRIBUTION_POINT);
                criticalExtensions.remove(RFC3280CertPathUtilities.DELTA_CRL_INDICATOR);
                criticalExtensions.remove(RFC3280CertPathUtilities.POLICY_CONSTRAINTS);
                criticalExtensions.remove(RFC3280CertPathUtilities.BASIC_CONSTRAINTS);
                criticalExtensions.remove(RFC3280CertPathUtilities.SUBJECT_ALTERNATIVE_NAME);
                criticalExtensions.remove(RFC3280CertPathUtilities.NAME_CONSTRAINTS);
            } else {
                criticalExtensions = new HashSet();
            }
            // (o)
            RFC3280CertPathUtilities.prepareNextCertO(certPath, index, criticalExtensions, pathCheckers);
            // set signing certificate for next round
            sign = cert;
            // (c)
            workingIssuerName = PrincipalUtils.getSubjectPrincipal(sign);
            // (d)
            try {
                workingPublicKey = CertPathValidatorUtilities.getNextWorkingKey(certPath.getCertificates(), index, helper);
            } catch (CertPathValidatorException e) {
                throw new CertPathValidatorException("Next working key could not be retrieved.", e, certPath, index);
            }
            workingAlgId = CertPathValidatorUtilities.getAlgorithmIdentifier(workingPublicKey);
            // (f)
            workingPublicKeyAlgorithm = workingAlgId.getAlgorithm();
            // (e)
            workingPublicKeyParameters = workingAlgId.getParameters();
        }
    }
    // 
    // 6.1.5 Wrap-up procedure
    // 
    explicitPolicy = RFC3280CertPathUtilities.wrapupCertA(explicitPolicy, cert);
    explicitPolicy = RFC3280CertPathUtilities.wrapupCertB(certPath, index + 1, explicitPolicy);
    // 
    // (c) (d) and (e) are already done
    // 
    // 
    // (f)
    // 
    Set criticalExtensions = cert.getCriticalExtensionOIDs();
    if (criticalExtensions != null) {
        criticalExtensions = new HashSet(criticalExtensions);
        // these extensions are handled by the algorithm
        criticalExtensions.remove(RFC3280CertPathUtilities.KEY_USAGE);
        criticalExtensions.remove(RFC3280CertPathUtilities.CERTIFICATE_POLICIES);
        criticalExtensions.remove(RFC3280CertPathUtilities.POLICY_MAPPINGS);
        criticalExtensions.remove(RFC3280CertPathUtilities.INHIBIT_ANY_POLICY);
        criticalExtensions.remove(RFC3280CertPathUtilities.ISSUING_DISTRIBUTION_POINT);
        criticalExtensions.remove(RFC3280CertPathUtilities.DELTA_CRL_INDICATOR);
        criticalExtensions.remove(RFC3280CertPathUtilities.POLICY_CONSTRAINTS);
        criticalExtensions.remove(RFC3280CertPathUtilities.BASIC_CONSTRAINTS);
        criticalExtensions.remove(RFC3280CertPathUtilities.SUBJECT_ALTERNATIVE_NAME);
        criticalExtensions.remove(RFC3280CertPathUtilities.NAME_CONSTRAINTS);
        criticalExtensions.remove(RFC3280CertPathUtilities.CRL_DISTRIBUTION_POINTS);
        criticalExtensions.remove(Extension.extendedKeyUsage.getId());
    } else {
        criticalExtensions = new HashSet();
    }
    RFC3280CertPathUtilities.wrapupCertF(certPath, index + 1, pathCheckers, criticalExtensions);
    PKIXPolicyNode intersection = RFC3280CertPathUtilities.wrapupCertG(certPath, paramsPKIX, userInitialPolicySet, index + 1, policyNodes, validPolicyTree, acceptablePolicies);
    if ((explicitPolicy > 0) || (intersection != null)) {
        return new PKIXCertPathValidatorResult(trust, intersection, cert.getPublicKey());
    }
    throw new CertPathValidatorException("Path processing failed on policy.", null, certPath, index);
}
Also used : PKIXCertRevocationChecker(com.github.zhenwei.provider.jcajce.PKIXCertRevocationChecker) HashSet(java.util.HashSet) Set(java.util.Set) ArrayList(java.util.ArrayList) X500Name(com.github.zhenwei.core.asn1.x500.X500Name) AlgorithmIdentifier(com.github.zhenwei.core.asn1.x509.AlgorithmIdentifier) ExtendedPKIXParameters(com.github.zhenwei.provider.x509.ExtendedPKIXParameters) PKIXParameters(java.security.cert.PKIXParameters) PKIXExtendedBuilderParameters(com.github.zhenwei.provider.jcajce.PKIXExtendedBuilderParameters) PKIXCertPathChecker(java.security.cert.PKIXCertPathChecker) Iterator(java.util.Iterator) ArrayList(java.util.ArrayList) List(java.util.List) ASN1Encodable(com.github.zhenwei.core.asn1.ASN1Encodable) HashSet(java.util.HashSet) InvalidAlgorithmParameterException(java.security.InvalidAlgorithmParameterException) PublicKey(java.security.PublicKey) TrustAnchor(java.security.cert.TrustAnchor) Date(java.util.Date) X509Certificate(java.security.cert.X509Certificate) BCX509Certificate(com.github.zhenwei.provider.jcajce.interfaces.BCX509Certificate) CertPathValidatorException(java.security.cert.CertPathValidatorException) ExtCertPathValidatorException(com.github.zhenwei.provider.jce.exception.ExtCertPathValidatorException) PKIXExtendedParameters(com.github.zhenwei.provider.jcajce.PKIXExtendedParameters) ExtCertPathValidatorException(com.github.zhenwei.provider.jce.exception.ExtCertPathValidatorException) ExtendedPKIXParameters(com.github.zhenwei.provider.x509.ExtendedPKIXParameters) PKIXCertPathValidatorResult(java.security.cert.PKIXCertPathValidatorResult) PKIXRevocationChecker(java.security.cert.PKIXRevocationChecker) ASN1ObjectIdentifier(com.github.zhenwei.core.asn1.ASN1ObjectIdentifier)

Example 8 with ExtendedPKIXParameters

use of com.github.zhenwei.provider.x509.ExtendedPKIXParameters in project XobotOS by xamarin.

the class PKIXCertPathValidatorSpi method engineValidate.

// END android-added
public CertPathValidatorResult engineValidate(CertPath certPath, CertPathParameters params) throws CertPathValidatorException, InvalidAlgorithmParameterException {
    if (!(params instanceof PKIXParameters)) {
        throw new InvalidAlgorithmParameterException("Parameters must be a " + PKIXParameters.class.getName() + " instance.");
    }
    ExtendedPKIXParameters paramsPKIX;
    if (params instanceof ExtendedPKIXParameters) {
        paramsPKIX = (ExtendedPKIXParameters) params;
    } else {
        paramsPKIX = ExtendedPKIXParameters.getInstance((PKIXParameters) params);
    }
    if (paramsPKIX.getTrustAnchors() == null) {
        throw new InvalidAlgorithmParameterException("trustAnchors is null, this is not allowed for certification path validation.");
    }
    //
    // 6.1.1 - inputs
    //
    //
    // (a)
    //
    List certs = certPath.getCertificates();
    int n = certs.size();
    if (certs.isEmpty()) {
        throw new CertPathValidatorException("Certification path is empty.", null, certPath, 0);
    }
    // BEGIN android-added
    {
        X509Certificate cert = (X509Certificate) certs.get(0);
        if (cert != null) {
            BigInteger serial = cert.getSerialNumber();
            if (serial != null && SERIAL_BLACKLIST.contains(serial)) {
                // emulate CRL exception message in RFC3280CertPathUtilities.checkCRLs
                String message = "Certificate revocation of serial 0x" + serial.toString(16);
                System.out.println(message);
                AnnotatedException e = new AnnotatedException(message);
                throw new CertPathValidatorException(e.getMessage(), e, certPath, 0);
            }
        }
    }
    // END android-added
    //
    // (b)
    //
    // Date validDate = CertPathValidatorUtilities.getValidDate(paramsPKIX);
    //
    // (c)
    //
    Set userInitialPolicySet = paramsPKIX.getInitialPolicies();
    //
    // (d)
    // 
    TrustAnchor trust;
    try {
        trust = CertPathValidatorUtilities.findTrustAnchor((X509Certificate) certs.get(certs.size() - 1), paramsPKIX.getTrustAnchors(), paramsPKIX.getSigProvider());
    } catch (AnnotatedException e) {
        throw new CertPathValidatorException(e.getMessage(), e, certPath, certs.size() - 1);
    }
    if (trust == null) {
        throw new CertPathValidatorException("Trust anchor for certification path not found.", null, certPath, -1);
    }
    //
    // (e), (f), (g) are part of the paramsPKIX object.
    //
    Iterator certIter;
    int index = 0;
    int i;
    // Certificate for each interation of the validation loop
    // Signature information for each iteration of the validation loop
    //
    // 6.1.2 - setup
    //
    //
    // (a)
    //
    List[] policyNodes = new ArrayList[n + 1];
    for (int j = 0; j < policyNodes.length; j++) {
        policyNodes[j] = new ArrayList();
    }
    Set policySet = new HashSet();
    policySet.add(RFC3280CertPathUtilities.ANY_POLICY);
    PKIXPolicyNode validPolicyTree = new PKIXPolicyNode(new ArrayList(), 0, policySet, null, new HashSet(), RFC3280CertPathUtilities.ANY_POLICY, false);
    policyNodes[0].add(validPolicyTree);
    //
    // (b) and (c)
    //
    PKIXNameConstraintValidator nameConstraintValidator = new PKIXNameConstraintValidator();
    // (d)
    //
    int explicitPolicy;
    Set acceptablePolicies = new HashSet();
    if (paramsPKIX.isExplicitPolicyRequired()) {
        explicitPolicy = 0;
    } else {
        explicitPolicy = n + 1;
    }
    //
    // (e)
    //
    int inhibitAnyPolicy;
    if (paramsPKIX.isAnyPolicyInhibited()) {
        inhibitAnyPolicy = 0;
    } else {
        inhibitAnyPolicy = n + 1;
    }
    //
    // (f)
    //
    int policyMapping;
    if (paramsPKIX.isPolicyMappingInhibited()) {
        policyMapping = 0;
    } else {
        policyMapping = n + 1;
    }
    //
    // (g), (h), (i), (j)
    //
    PublicKey workingPublicKey;
    X500Principal workingIssuerName;
    X509Certificate sign = trust.getTrustedCert();
    try {
        if (sign != null) {
            workingIssuerName = CertPathValidatorUtilities.getSubjectPrincipal(sign);
            workingPublicKey = sign.getPublicKey();
        } else {
            workingIssuerName = new X500Principal(trust.getCAName());
            workingPublicKey = trust.getCAPublicKey();
        }
    } catch (IllegalArgumentException ex) {
        throw new ExtCertPathValidatorException("Subject of trust anchor could not be (re)encoded.", ex, certPath, -1);
    }
    AlgorithmIdentifier workingAlgId = null;
    try {
        workingAlgId = CertPathValidatorUtilities.getAlgorithmIdentifier(workingPublicKey);
    } catch (CertPathValidatorException e) {
        throw new ExtCertPathValidatorException("Algorithm identifier of public key of trust anchor could not be read.", e, certPath, -1);
    }
    DERObjectIdentifier workingPublicKeyAlgorithm = workingAlgId.getObjectId();
    DEREncodable workingPublicKeyParameters = workingAlgId.getParameters();
    //
    // (k)
    //
    int maxPathLength = n;
    if (paramsPKIX.getTargetConstraints() != null && !paramsPKIX.getTargetConstraints().match((X509Certificate) certs.get(0))) {
        throw new ExtCertPathValidatorException("Target certificate in certification path does not match targetConstraints.", null, certPath, 0);
    }
    // 
    // initialize CertPathChecker's
    //
    List pathCheckers = paramsPKIX.getCertPathCheckers();
    certIter = pathCheckers.iterator();
    while (certIter.hasNext()) {
        ((PKIXCertPathChecker) certIter.next()).init(false);
    }
    X509Certificate cert = null;
    for (index = certs.size() - 1; index >= 0; index--) {
        // BEGIN android-added
        if (isPublicKeyBlackListed(workingPublicKey)) {
            // emulate CRL exception message in RFC3280CertPathUtilities.checkCRLs
            String message = "Certificate revocation of public key " + workingPublicKey;
            System.out.println(message);
            AnnotatedException e = new AnnotatedException(message);
            throw new CertPathValidatorException(e.getMessage(), e, certPath, index);
        }
        // END android-added
        // try
        // {
        //
        // i as defined in the algorithm description
        //
        i = n - index;
        //
        // set certificate to be checked in this round
        // sign and workingPublicKey and workingIssuerName are set
        // at the end of the for loop and initialized the
        // first time from the TrustAnchor
        //
        cert = (X509Certificate) certs.get(index);
        boolean verificationAlreadyPerformed = (index == certs.size() - 1);
        //
        // 6.1.3
        //
        RFC3280CertPathUtilities.processCertA(certPath, paramsPKIX, index, workingPublicKey, verificationAlreadyPerformed, workingIssuerName, sign);
        RFC3280CertPathUtilities.processCertBC(certPath, index, nameConstraintValidator);
        validPolicyTree = RFC3280CertPathUtilities.processCertD(certPath, index, acceptablePolicies, validPolicyTree, policyNodes, inhibitAnyPolicy);
        validPolicyTree = RFC3280CertPathUtilities.processCertE(certPath, index, validPolicyTree);
        RFC3280CertPathUtilities.processCertF(certPath, index, validPolicyTree, explicitPolicy);
        if (i != n) {
            if (cert != null && cert.getVersion() == 1) {
                throw new CertPathValidatorException("Version 1 certificates can't be used as CA ones.", null, certPath, index);
            }
            RFC3280CertPathUtilities.prepareNextCertA(certPath, index);
            validPolicyTree = RFC3280CertPathUtilities.prepareCertB(certPath, index, policyNodes, validPolicyTree, policyMapping);
            RFC3280CertPathUtilities.prepareNextCertG(certPath, index, nameConstraintValidator);
            // (h)
            explicitPolicy = RFC3280CertPathUtilities.prepareNextCertH1(certPath, index, explicitPolicy);
            policyMapping = RFC3280CertPathUtilities.prepareNextCertH2(certPath, index, policyMapping);
            inhibitAnyPolicy = RFC3280CertPathUtilities.prepareNextCertH3(certPath, index, inhibitAnyPolicy);
            //
            // (i)
            //
            explicitPolicy = RFC3280CertPathUtilities.prepareNextCertI1(certPath, index, explicitPolicy);
            policyMapping = RFC3280CertPathUtilities.prepareNextCertI2(certPath, index, policyMapping);
            // (j)
            inhibitAnyPolicy = RFC3280CertPathUtilities.prepareNextCertJ(certPath, index, inhibitAnyPolicy);
            // (k)
            RFC3280CertPathUtilities.prepareNextCertK(certPath, index);
            // (l)
            maxPathLength = RFC3280CertPathUtilities.prepareNextCertL(certPath, index, maxPathLength);
            // (m)
            maxPathLength = RFC3280CertPathUtilities.prepareNextCertM(certPath, index, maxPathLength);
            // (n)
            RFC3280CertPathUtilities.prepareNextCertN(certPath, index);
            Set criticalExtensions = cert.getCriticalExtensionOIDs();
            if (criticalExtensions != null) {
                criticalExtensions = new HashSet(criticalExtensions);
                // these extensions are handled by the algorithm
                criticalExtensions.remove(RFC3280CertPathUtilities.KEY_USAGE);
                criticalExtensions.remove(RFC3280CertPathUtilities.CERTIFICATE_POLICIES);
                criticalExtensions.remove(RFC3280CertPathUtilities.POLICY_MAPPINGS);
                criticalExtensions.remove(RFC3280CertPathUtilities.INHIBIT_ANY_POLICY);
                criticalExtensions.remove(RFC3280CertPathUtilities.ISSUING_DISTRIBUTION_POINT);
                criticalExtensions.remove(RFC3280CertPathUtilities.DELTA_CRL_INDICATOR);
                criticalExtensions.remove(RFC3280CertPathUtilities.POLICY_CONSTRAINTS);
                criticalExtensions.remove(RFC3280CertPathUtilities.BASIC_CONSTRAINTS);
                criticalExtensions.remove(RFC3280CertPathUtilities.SUBJECT_ALTERNATIVE_NAME);
                criticalExtensions.remove(RFC3280CertPathUtilities.NAME_CONSTRAINTS);
            } else {
                criticalExtensions = new HashSet();
            }
            // (o)
            RFC3280CertPathUtilities.prepareNextCertO(certPath, index, criticalExtensions, pathCheckers);
            // set signing certificate for next round
            sign = cert;
            // (c)
            workingIssuerName = CertPathValidatorUtilities.getSubjectPrincipal(sign);
            // (d)
            try {
                workingPublicKey = CertPathValidatorUtilities.getNextWorkingKey(certPath.getCertificates(), index);
            } catch (CertPathValidatorException e) {
                throw new CertPathValidatorException("Next working key could not be retrieved.", e, certPath, index);
            }
            workingAlgId = CertPathValidatorUtilities.getAlgorithmIdentifier(workingPublicKey);
            // (f)
            workingPublicKeyAlgorithm = workingAlgId.getObjectId();
            // (e)
            workingPublicKeyParameters = workingAlgId.getParameters();
        }
    }
    //
    // 6.1.5 Wrap-up procedure
    //
    explicitPolicy = RFC3280CertPathUtilities.wrapupCertA(explicitPolicy, cert);
    explicitPolicy = RFC3280CertPathUtilities.wrapupCertB(certPath, index + 1, explicitPolicy);
    //
    // (c) (d) and (e) are already done
    //
    //
    // (f)
    //
    Set criticalExtensions = cert.getCriticalExtensionOIDs();
    if (criticalExtensions != null) {
        criticalExtensions = new HashSet(criticalExtensions);
        // these extensions are handled by the algorithm
        criticalExtensions.remove(RFC3280CertPathUtilities.KEY_USAGE);
        criticalExtensions.remove(RFC3280CertPathUtilities.CERTIFICATE_POLICIES);
        criticalExtensions.remove(RFC3280CertPathUtilities.POLICY_MAPPINGS);
        criticalExtensions.remove(RFC3280CertPathUtilities.INHIBIT_ANY_POLICY);
        criticalExtensions.remove(RFC3280CertPathUtilities.ISSUING_DISTRIBUTION_POINT);
        criticalExtensions.remove(RFC3280CertPathUtilities.DELTA_CRL_INDICATOR);
        criticalExtensions.remove(RFC3280CertPathUtilities.POLICY_CONSTRAINTS);
        criticalExtensions.remove(RFC3280CertPathUtilities.BASIC_CONSTRAINTS);
        criticalExtensions.remove(RFC3280CertPathUtilities.SUBJECT_ALTERNATIVE_NAME);
        criticalExtensions.remove(RFC3280CertPathUtilities.NAME_CONSTRAINTS);
        criticalExtensions.remove(RFC3280CertPathUtilities.CRL_DISTRIBUTION_POINTS);
    } else {
        criticalExtensions = new HashSet();
    }
    RFC3280CertPathUtilities.wrapupCertF(certPath, index + 1, pathCheckers, criticalExtensions);
    PKIXPolicyNode intersection = RFC3280CertPathUtilities.wrapupCertG(certPath, paramsPKIX, userInitialPolicySet, index + 1, policyNodes, validPolicyTree, acceptablePolicies);
    if ((explicitPolicy > 0) || (intersection != null)) {
        return new PKIXCertPathValidatorResult(trust, intersection, cert.getPublicKey());
    }
    throw new CertPathValidatorException("Path processing failed on policy.", null, certPath, index);
}
Also used : HashSet(java.util.HashSet) Set(java.util.Set) ArrayList(java.util.ArrayList) AlgorithmIdentifier(org.bouncycastle.asn1.x509.AlgorithmIdentifier) ExtendedPKIXParameters(org.bouncycastle.x509.ExtendedPKIXParameters) PKIXParameters(java.security.cert.PKIXParameters) PKIXCertPathChecker(java.security.cert.PKIXCertPathChecker) Iterator(java.util.Iterator) ArrayList(java.util.ArrayList) List(java.util.List) HashSet(java.util.HashSet) InvalidAlgorithmParameterException(java.security.InvalidAlgorithmParameterException) PublicKey(java.security.PublicKey) TrustAnchor(java.security.cert.TrustAnchor) DERObjectIdentifier(org.bouncycastle.asn1.DERObjectIdentifier) X509Certificate(java.security.cert.X509Certificate) CertPathValidatorException(java.security.cert.CertPathValidatorException) ExtCertPathValidatorException(org.bouncycastle.jce.exception.ExtCertPathValidatorException) ExtCertPathValidatorException(org.bouncycastle.jce.exception.ExtCertPathValidatorException) ExtendedPKIXParameters(org.bouncycastle.x509.ExtendedPKIXParameters) PKIXCertPathValidatorResult(java.security.cert.PKIXCertPathValidatorResult) DEREncodable(org.bouncycastle.asn1.DEREncodable) BigInteger(java.math.BigInteger) X500Principal(javax.security.auth.x500.X500Principal)

Example 9 with ExtendedPKIXParameters

use of com.github.zhenwei.provider.x509.ExtendedPKIXParameters in project XobotOS by xamarin.

the class RFC3280CertPathUtilities method checkCRLs.

/**
     * Checks a certificate if it is revoked.
     *
     * @param paramsPKIX       PKIX parameters.
     * @param cert             Certificate to check if it is revoked.
     * @param validDate        The date when the certificate revocation status should be
     *                         checked.
     * @param sign             The issuer certificate of the certificate <code>cert</code>.
     * @param workingPublicKey The public key of the issuer certificate <code>sign</code>.
     * @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(ExtendedPKIXParameters paramsPKIX, X509Certificate cert, Date validDate, X509Certificate sign, PublicKey workingPublicKey, List certPathCerts) throws AnnotatedException {
    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);
    }
    try {
        CertPathValidatorUtilities.addAdditionalStoresFromCRLDistributionPoint(crldp, paramsPKIX);
    } 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();
    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++) {
                ExtendedPKIXParameters paramsPKIXClone = (ExtendedPKIXParameters) paramsPKIX.clone();
                try {
                    checkCRL(dps[i], paramsPKIXClone, cert, validDate, sign, workingPublicKey, certStatus, reasonsMask, certPathCerts);
                    validCrlFound = true;
                } catch (AnnotatedException e) {
                    lastException = e;
                }
            }
        }
    }
    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.
                 */
            DERObject issuer = null;
            try {
                issuer = new ASN1InputStream(CertPathValidatorUtilities.getEncodedIssuerPrincipal(cert).getEncoded()).readObject();
            } catch (Exception 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);
            ExtendedPKIXParameters paramsPKIXClone = (ExtendedPKIXParameters) paramsPKIX.clone();
            checkCRL(dp, paramsPKIXClone, cert, validDate, sign, workingPublicKey, certStatus, reasonsMask, certPathCerts);
            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) {
        String message = "Certificate revocation after " + 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.");
    }
}
Also used : ASN1InputStream(org.bouncycastle.asn1.ASN1InputStream) DistributionPointName(org.bouncycastle.asn1.x509.DistributionPointName) CertificateExpiredException(java.security.cert.CertificateExpiredException) GeneralSecurityException(java.security.GeneralSecurityException) CertPathValidatorException(java.security.cert.CertPathValidatorException) ExtCertPathValidatorException(org.bouncycastle.jce.exception.ExtCertPathValidatorException) CertificateNotYetValidException(java.security.cert.CertificateNotYetValidException) CertPathBuilderException(java.security.cert.CertPathBuilderException) IOException(java.io.IOException) IssuingDistributionPoint(org.bouncycastle.asn1.x509.IssuingDistributionPoint) CRLDistPoint(org.bouncycastle.asn1.x509.CRLDistPoint) DistributionPoint(org.bouncycastle.asn1.x509.DistributionPoint) DERObject(org.bouncycastle.asn1.DERObject) ExtendedPKIXParameters(org.bouncycastle.x509.ExtendedPKIXParameters) GeneralNames(org.bouncycastle.asn1.x509.GeneralNames) IssuingDistributionPoint(org.bouncycastle.asn1.x509.IssuingDistributionPoint) DistributionPoint(org.bouncycastle.asn1.x509.DistributionPoint) GeneralName(org.bouncycastle.asn1.x509.GeneralName) CRLDistPoint(org.bouncycastle.asn1.x509.CRLDistPoint)

Example 10 with ExtendedPKIXParameters

use of com.github.zhenwei.provider.x509.ExtendedPKIXParameters in project robovm by robovm.

the class RFC3280CertPathUtilities method checkCRLs.

/**
     * Checks a certificate if it is revoked.
     *
     * @param paramsPKIX       PKIX parameters.
     * @param cert             Certificate to check if it is revoked.
     * @param validDate        The date when the certificate revocation status should be
     *                         checked.
     * @param sign             The issuer certificate of the certificate <code>cert</code>.
     * @param workingPublicKey The public key of the issuer certificate <code>sign</code>.
     * @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(ExtendedPKIXParameters paramsPKIX, X509Certificate cert, Date validDate, X509Certificate sign, PublicKey workingPublicKey, List certPathCerts) throws AnnotatedException {
    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);
    }
    try {
        CertPathValidatorUtilities.addAdditionalStoresFromCRLDistributionPoint(crldp, paramsPKIX);
    } 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();
    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++) {
                ExtendedPKIXParameters paramsPKIXClone = (ExtendedPKIXParameters) paramsPKIX.clone();
                try {
                    checkCRL(dps[i], paramsPKIXClone, cert, validDate, sign, workingPublicKey, certStatus, reasonsMask, certPathCerts);
                    validCrlFound = true;
                } catch (AnnotatedException e) {
                    lastException = e;
                }
            }
        }
    }
    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.
                 */
            ASN1Primitive issuer = null;
            try {
                issuer = new ASN1InputStream(CertPathValidatorUtilities.getEncodedIssuerPrincipal(cert).getEncoded()).readObject();
            } catch (Exception 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);
            ExtendedPKIXParameters paramsPKIXClone = (ExtendedPKIXParameters) paramsPKIX.clone();
            checkCRL(dp, paramsPKIXClone, cert, validDate, sign, workingPublicKey, certStatus, reasonsMask, certPathCerts);
            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) {
        String message = "Certificate revocation after " + 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.");
    }
}
Also used : ASN1InputStream(org.bouncycastle.asn1.ASN1InputStream) DistributionPointName(org.bouncycastle.asn1.x509.DistributionPointName) CertificateExpiredException(java.security.cert.CertificateExpiredException) GeneralSecurityException(java.security.GeneralSecurityException) CertPathValidatorException(java.security.cert.CertPathValidatorException) ExtCertPathValidatorException(org.bouncycastle.jce.exception.ExtCertPathValidatorException) CertificateNotYetValidException(java.security.cert.CertificateNotYetValidException) CertPathBuilderException(java.security.cert.CertPathBuilderException) IOException(java.io.IOException) IssuingDistributionPoint(org.bouncycastle.asn1.x509.IssuingDistributionPoint) CRLDistPoint(org.bouncycastle.asn1.x509.CRLDistPoint) DistributionPoint(org.bouncycastle.asn1.x509.DistributionPoint) ExtendedPKIXParameters(org.bouncycastle.x509.ExtendedPKIXParameters) GeneralNames(org.bouncycastle.asn1.x509.GeneralNames) IssuingDistributionPoint(org.bouncycastle.asn1.x509.IssuingDistributionPoint) DistributionPoint(org.bouncycastle.asn1.x509.DistributionPoint) GeneralName(org.bouncycastle.asn1.x509.GeneralName) CRLDistPoint(org.bouncycastle.asn1.x509.CRLDistPoint) ASN1Primitive(org.bouncycastle.asn1.ASN1Primitive)

Aggregations

X509Certificate (java.security.cert.X509Certificate)10 ArrayList (java.util.ArrayList)9 Iterator (java.util.Iterator)9 List (java.util.List)9 InvalidAlgorithmParameterException (java.security.InvalidAlgorithmParameterException)8 CertPathValidatorException (java.security.cert.CertPathValidatorException)8 CertPathBuilderException (java.security.cert.CertPathBuilderException)7 HashSet (java.util.HashSet)7 Set (java.util.Set)7 PKIXExtendedParameters (com.github.zhenwei.provider.jcajce.PKIXExtendedParameters)6 ExtendedPKIXParameters (com.github.zhenwei.provider.x509.ExtendedPKIXParameters)6 ExtCertPathValidatorException (org.bouncycastle.jce.exception.ExtCertPathValidatorException)6 ExtendedPKIXParameters (org.bouncycastle.x509.ExtendedPKIXParameters)6 PKIXExtendedBuilderParameters (com.github.zhenwei.provider.jcajce.PKIXExtendedBuilderParameters)5 IOException (java.io.IOException)5 PKIXParameters (java.security.cert.PKIXParameters)5 GeneralSecurityException (java.security.GeneralSecurityException)4 PublicKey (java.security.PublicKey)4 CertificateExpiredException (java.security.cert.CertificateExpiredException)4 CertificateNotYetValidException (java.security.cert.CertificateNotYetValidException)4