Java Code Examples for sun.security.validator.Validator#VAR_CODE_SIGNING

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Example 1
Source File: PKIXCertPathValidator.java    From dragonwell8_jdk with GNU General Public License v2.0 4 votes vote down vote up
private static PKIXCertPathValidatorResult validate(TrustAnchor anchor,
                                                    ValidatorParams params)
    throws CertPathValidatorException
{
    // check if anchor is untrusted
    UntrustedChecker untrustedChecker = new UntrustedChecker();
    X509Certificate anchorCert = anchor.getTrustedCert();
    if (anchorCert != null) {
        untrustedChecker.check(anchorCert);
    }

    int certPathLen = params.certificates().size();

    // create PKIXCertPathCheckers
    List<PKIXCertPathChecker> certPathCheckers = new ArrayList<>();
    // add standard checkers that we will be using
    certPathCheckers.add(untrustedChecker);
    certPathCheckers.add(new AlgorithmChecker(anchor, null, params.date(),
            params.timestamp(), params.variant()));
    certPathCheckers.add(new KeyChecker(certPathLen,
                                        params.targetCertConstraints()));
    certPathCheckers.add(new ConstraintsChecker(certPathLen));
    PolicyNodeImpl rootNode =
        new PolicyNodeImpl(null, PolicyChecker.ANY_POLICY, null, false,
                           Collections.singleton(PolicyChecker.ANY_POLICY),
                           false);
    PolicyChecker pc = new PolicyChecker(params.initialPolicies(),
                                         certPathLen,
                                         params.explicitPolicyRequired(),
                                         params.policyMappingInhibited(),
                                         params.anyPolicyInhibited(),
                                         params.policyQualifiersRejected(),
                                         rootNode);
    certPathCheckers.add(pc);

    // the time that the certificate validity period should be
    // checked against
    Date timeToCheck = null;
    // use timestamp if checking signed code that is timestamped, otherwise
    // use date parameter from PKIXParameters
    if ((params.variant() == Validator.VAR_CODE_SIGNING ||
         params.variant() == Validator.VAR_PLUGIN_CODE_SIGNING) &&
         params.timestamp() != null) {
        timeToCheck = params.timestamp().getTimestamp();
    } else {
        timeToCheck = params.date();
    }
    BasicChecker bc = new BasicChecker(anchor, timeToCheck,
                                       params.sigProvider(), false);
    certPathCheckers.add(bc);

    boolean revCheckerAdded = false;
    List<PKIXCertPathChecker> checkers = params.certPathCheckers();
    for (PKIXCertPathChecker checker : checkers) {
        if (checker instanceof PKIXRevocationChecker) {
            if (revCheckerAdded) {
                throw new CertPathValidatorException(
                    "Only one PKIXRevocationChecker can be specified");
            }
            revCheckerAdded = true;
            // if it's our own, initialize it
            if (checker instanceof RevocationChecker) {
                ((RevocationChecker)checker).init(anchor, params);
            }
        }
    }
    // only add a RevocationChecker if revocation is enabled and
    // a PKIXRevocationChecker has not already been added
    if (params.revocationEnabled() && !revCheckerAdded) {
        certPathCheckers.add(new RevocationChecker(anchor, params));
    }
    // add user-specified checkers
    certPathCheckers.addAll(checkers);

    PKIXMasterCertPathValidator.validate(params.certPath(),
                                         params.certificates(),
                                         certPathCheckers);

    return new PKIXCertPathValidatorResult(anchor, pc.getPolicyTree(),
                                           bc.getPublicKey());
}
 
Example 2
Source File: PKIXCertPathValidator.java    From TencentKona-8 with GNU General Public License v2.0 4 votes vote down vote up
private static PKIXCertPathValidatorResult validate(TrustAnchor anchor,
                                                    ValidatorParams params)
    throws CertPathValidatorException
{
    // check if anchor is untrusted
    UntrustedChecker untrustedChecker = new UntrustedChecker();
    X509Certificate anchorCert = anchor.getTrustedCert();
    if (anchorCert != null) {
        untrustedChecker.check(anchorCert);
    }

    int certPathLen = params.certificates().size();

    // create PKIXCertPathCheckers
    List<PKIXCertPathChecker> certPathCheckers = new ArrayList<>();
    // add standard checkers that we will be using
    certPathCheckers.add(untrustedChecker);
    certPathCheckers.add(new AlgorithmChecker(anchor, null, params.date(),
            params.timestamp(), params.variant()));
    certPathCheckers.add(new KeyChecker(certPathLen,
                                        params.targetCertConstraints()));
    certPathCheckers.add(new ConstraintsChecker(certPathLen));
    PolicyNodeImpl rootNode =
        new PolicyNodeImpl(null, PolicyChecker.ANY_POLICY, null, false,
                           Collections.singleton(PolicyChecker.ANY_POLICY),
                           false);
    PolicyChecker pc = new PolicyChecker(params.initialPolicies(),
                                         certPathLen,
                                         params.explicitPolicyRequired(),
                                         params.policyMappingInhibited(),
                                         params.anyPolicyInhibited(),
                                         params.policyQualifiersRejected(),
                                         rootNode);
    certPathCheckers.add(pc);

    // the time that the certificate validity period should be
    // checked against
    Date timeToCheck = null;
    // use timestamp if checking signed code that is timestamped, otherwise
    // use date parameter from PKIXParameters
    if ((params.variant() == Validator.VAR_CODE_SIGNING ||
         params.variant() == Validator.VAR_PLUGIN_CODE_SIGNING) &&
         params.timestamp() != null) {
        timeToCheck = params.timestamp().getTimestamp();
    } else {
        timeToCheck = params.date();
    }
    BasicChecker bc = new BasicChecker(anchor, timeToCheck,
                                       params.sigProvider(), false);
    certPathCheckers.add(bc);

    boolean revCheckerAdded = false;
    List<PKIXCertPathChecker> checkers = params.certPathCheckers();
    for (PKIXCertPathChecker checker : checkers) {
        if (checker instanceof PKIXRevocationChecker) {
            if (revCheckerAdded) {
                throw new CertPathValidatorException(
                    "Only one PKIXRevocationChecker can be specified");
            }
            revCheckerAdded = true;
            // if it's our own, initialize it
            if (checker instanceof RevocationChecker) {
                ((RevocationChecker)checker).init(anchor, params);
            }
        }
    }
    // only add a RevocationChecker if revocation is enabled and
    // a PKIXRevocationChecker has not already been added
    if (params.revocationEnabled() && !revCheckerAdded) {
        certPathCheckers.add(new RevocationChecker(anchor, params));
    }
    // add user-specified checkers
    certPathCheckers.addAll(checkers);

    PKIXMasterCertPathValidator.validate(params.certPath(),
                                         params.certificates(),
                                         certPathCheckers);

    return new PKIXCertPathValidatorResult(anchor, pc.getPolicyTree(),
                                           bc.getPublicKey());
}
 
Example 3
Source File: PKIXCertPathValidator.java    From openjdk-jdk8u with GNU General Public License v2.0 4 votes vote down vote up
private static PKIXCertPathValidatorResult validate(TrustAnchor anchor,
                                                    ValidatorParams params)
    throws CertPathValidatorException
{
    // check if anchor is untrusted
    UntrustedChecker untrustedChecker = new UntrustedChecker();
    X509Certificate anchorCert = anchor.getTrustedCert();
    if (anchorCert != null) {
        untrustedChecker.check(anchorCert);
    }

    int certPathLen = params.certificates().size();

    // create PKIXCertPathCheckers
    List<PKIXCertPathChecker> certPathCheckers = new ArrayList<>();
    // add standard checkers that we will be using
    certPathCheckers.add(untrustedChecker);
    certPathCheckers.add(new AlgorithmChecker(anchor, null, params.date(),
            params.timestamp(), params.variant()));
    certPathCheckers.add(new KeyChecker(certPathLen,
                                        params.targetCertConstraints()));
    certPathCheckers.add(new ConstraintsChecker(certPathLen));
    PolicyNodeImpl rootNode =
        new PolicyNodeImpl(null, PolicyChecker.ANY_POLICY, null, false,
                           Collections.singleton(PolicyChecker.ANY_POLICY),
                           false);
    PolicyChecker pc = new PolicyChecker(params.initialPolicies(),
                                         certPathLen,
                                         params.explicitPolicyRequired(),
                                         params.policyMappingInhibited(),
                                         params.anyPolicyInhibited(),
                                         params.policyQualifiersRejected(),
                                         rootNode);
    certPathCheckers.add(pc);

    // the time that the certificate validity period should be
    // checked against
    Date timeToCheck = null;
    // use timestamp if checking signed code that is timestamped, otherwise
    // use date parameter from PKIXParameters
    if ((params.variant() == Validator.VAR_CODE_SIGNING ||
         params.variant() == Validator.VAR_PLUGIN_CODE_SIGNING) &&
         params.timestamp() != null) {
        timeToCheck = params.timestamp().getTimestamp();
    } else {
        timeToCheck = params.date();
    }
    BasicChecker bc = new BasicChecker(anchor, timeToCheck,
                                       params.sigProvider(), false);
    certPathCheckers.add(bc);

    boolean revCheckerAdded = false;
    List<PKIXCertPathChecker> checkers = params.certPathCheckers();
    for (PKIXCertPathChecker checker : checkers) {
        if (checker instanceof PKIXRevocationChecker) {
            if (revCheckerAdded) {
                throw new CertPathValidatorException(
                    "Only one PKIXRevocationChecker can be specified");
            }
            revCheckerAdded = true;
            // if it's our own, initialize it
            if (checker instanceof RevocationChecker) {
                ((RevocationChecker)checker).init(anchor, params);
            }
        }
    }
    // only add a RevocationChecker if revocation is enabled and
    // a PKIXRevocationChecker has not already been added
    if (params.revocationEnabled() && !revCheckerAdded) {
        certPathCheckers.add(new RevocationChecker(anchor, params));
    }
    // add user-specified checkers
    certPathCheckers.addAll(checkers);

    PKIXMasterCertPathValidator.validate(params.certPath(),
                                         params.certificates(),
                                         certPathCheckers);

    return new PKIXCertPathValidatorResult(anchor, pc.getPolicyTree(),
                                           bc.getPublicKey());
}
 
Example 4
Source File: PKIXCertPathValidator.java    From jdk8u_jdk with GNU General Public License v2.0 4 votes vote down vote up
private static PKIXCertPathValidatorResult validate(TrustAnchor anchor,
                                                    ValidatorParams params)
    throws CertPathValidatorException
{
    // check if anchor is untrusted
    UntrustedChecker untrustedChecker = new UntrustedChecker();
    X509Certificate anchorCert = anchor.getTrustedCert();
    if (anchorCert != null) {
        untrustedChecker.check(anchorCert);
    }

    int certPathLen = params.certificates().size();

    // create PKIXCertPathCheckers
    List<PKIXCertPathChecker> certPathCheckers = new ArrayList<>();
    // add standard checkers that we will be using
    certPathCheckers.add(untrustedChecker);
    certPathCheckers.add(new AlgorithmChecker(anchor, null, params.date(),
            params.timestamp(), params.variant()));
    certPathCheckers.add(new KeyChecker(certPathLen,
                                        params.targetCertConstraints()));
    certPathCheckers.add(new ConstraintsChecker(certPathLen));
    PolicyNodeImpl rootNode =
        new PolicyNodeImpl(null, PolicyChecker.ANY_POLICY, null, false,
                           Collections.singleton(PolicyChecker.ANY_POLICY),
                           false);
    PolicyChecker pc = new PolicyChecker(params.initialPolicies(),
                                         certPathLen,
                                         params.explicitPolicyRequired(),
                                         params.policyMappingInhibited(),
                                         params.anyPolicyInhibited(),
                                         params.policyQualifiersRejected(),
                                         rootNode);
    certPathCheckers.add(pc);

    // the time that the certificate validity period should be
    // checked against
    Date timeToCheck = null;
    // use timestamp if checking signed code that is timestamped, otherwise
    // use date parameter from PKIXParameters
    if ((params.variant() == Validator.VAR_CODE_SIGNING ||
         params.variant() == Validator.VAR_PLUGIN_CODE_SIGNING) &&
         params.timestamp() != null) {
        timeToCheck = params.timestamp().getTimestamp();
    } else {
        timeToCheck = params.date();
    }
    BasicChecker bc = new BasicChecker(anchor, timeToCheck,
                                       params.sigProvider(), false);
    certPathCheckers.add(bc);

    boolean revCheckerAdded = false;
    List<PKIXCertPathChecker> checkers = params.certPathCheckers();
    for (PKIXCertPathChecker checker : checkers) {
        if (checker instanceof PKIXRevocationChecker) {
            if (revCheckerAdded) {
                throw new CertPathValidatorException(
                    "Only one PKIXRevocationChecker can be specified");
            }
            revCheckerAdded = true;
            // if it's our own, initialize it
            if (checker instanceof RevocationChecker) {
                ((RevocationChecker)checker).init(anchor, params);
            }
        }
    }
    // only add a RevocationChecker if revocation is enabled and
    // a PKIXRevocationChecker has not already been added
    if (params.revocationEnabled() && !revCheckerAdded) {
        certPathCheckers.add(new RevocationChecker(anchor, params));
    }
    // add user-specified checkers
    certPathCheckers.addAll(checkers);

    PKIXMasterCertPathValidator.validate(params.certPath(),
                                         params.certificates(),
                                         certPathCheckers);

    return new PKIXCertPathValidatorResult(anchor, pc.getPolicyTree(),
                                           bc.getPublicKey());
}