use of com.github.zhenwei.core.asn1.x509.GeneralNames in project Bytecoder by mirkosertic.
the class ForwardState method updateState.
/**
* Update the state with the next certificate added to the path.
*
* @param cert the certificate which is used to update the state
*/
@Override
public void updateState(X509Certificate cert) throws CertificateException, IOException, CertPathValidatorException {
if (cert == null)
return;
X509CertImpl icert = X509CertImpl.toImpl(cert);
/* see if certificate key has null parameters */
if (PKIX.isDSAPublicKeyWithoutParams(icert.getPublicKey())) {
keyParamsNeededFlag = true;
}
/* update certificate */
this.cert = icert;
/* update issuer DN */
issuerDN = cert.getIssuerX500Principal();
if (!X509CertImpl.isSelfIssued(cert)) {
/*
* update traversedCACerts only if this is a non-self-issued
* intermediate CA cert
*/
if (!init && cert.getBasicConstraints() != -1) {
traversedCACerts++;
}
}
/* update subjectNamesTraversed only if this is the EE cert or if
this cert is not self-issued */
if (init || !X509CertImpl.isSelfIssued(cert)) {
X500Principal subjName = cert.getSubjectX500Principal();
subjectNamesTraversed.add(X500Name.asX500Name(subjName));
try {
SubjectAlternativeNameExtension subjAltNameExt = icert.getSubjectAlternativeNameExtension();
if (subjAltNameExt != null) {
GeneralNames gNames = subjAltNameExt.get(SubjectAlternativeNameExtension.SUBJECT_NAME);
for (GeneralName gName : gNames.names()) {
subjectNamesTraversed.add(gName.getName());
}
}
} catch (IOException e) {
if (debug != null) {
debug.println("ForwardState.updateState() unexpected " + "exception");
e.printStackTrace();
}
throw new CertPathValidatorException(e);
}
}
init = false;
}
use of com.github.zhenwei.core.asn1.x509.GeneralNames in project Bytecoder by mirkosertic.
the class Builder method targetDistance.
/**
* Determine how close a given certificate gets you toward
* a given target.
*
* @param constraints Current NameConstraints; if null,
* then caller must verify NameConstraints
* independently, realizing that this certificate
* may not actually lead to the target at all.
* @param cert Candidate certificate for chain
* @param target GeneralNameInterface name of target
* @return distance from this certificate to target:
* <ul>
* <li>-1 means certificate could be CA for target, but
* there are no NameConstraints limiting how close
* <li> 0 means certificate subject or subjectAltName
* matches target
* <li> 1 means certificate is permitted to be CA for
* target.
* <li> 2 means certificate is permitted to be CA for
* parent of target.
* <li>>0 in general, means certificate is permitted
* to be a CA for this distance higher in the naming
* hierarchy than the target, plus 1.
* </ul>
* <p>Note that the subject and/or subjectAltName of the
* candidate cert does not have to be an ancestor of the
* target in order to be a CA that can issue a certificate to
* the target. In these cases, the target distance is calculated
* by inspecting the NameConstraints extension in the candidate
* certificate. For example, suppose the target is an X.500 DN with
* a value of "CN=mullan,OU=ireland,O=sun,C=us" and the
* NameConstraints extension in the candidate certificate
* includes a permitted component of "O=sun,C=us", which implies
* that the candidate certificate is allowed to issue certs in
* the "O=sun,C=us" namespace. The target distance is 3
* ((distance of permitted NC from target) + 1).
* The (+1) is added to distinguish the result from the case
* which returns (0).
* @throws IOException if certificate does not get closer
*/
static int targetDistance(NameConstraintsExtension constraints, X509Certificate cert, GeneralNameInterface target) throws IOException {
/* ensure that certificate satisfies existing name constraints */
if (constraints != null && !constraints.verify(cert)) {
throw new IOException("certificate does not satisfy existing name " + "constraints");
}
X509CertImpl certImpl;
try {
certImpl = X509CertImpl.toImpl(cert);
} catch (CertificateException e) {
throw new IOException("Invalid certificate", e);
}
/* see if certificate subject matches target */
X500Name subject = X500Name.asX500Name(certImpl.getSubjectX500Principal());
if (subject.equals(target)) {
/* match! */
return 0;
}
SubjectAlternativeNameExtension altNameExt = certImpl.getSubjectAlternativeNameExtension();
if (altNameExt != null) {
GeneralNames altNames = altNameExt.get(SubjectAlternativeNameExtension.SUBJECT_NAME);
/* see if any alternative name matches target */
if (altNames != null) {
for (int j = 0, n = altNames.size(); j < n; j++) {
GeneralNameInterface altName = altNames.get(j).getName();
if (altName.equals(target)) {
return 0;
}
}
}
}
/* no exact match; see if certificate can get us to target */
/* first, get NameConstraints out of certificate */
NameConstraintsExtension ncExt = certImpl.getNameConstraintsExtension();
if (ncExt == null) {
return -1;
}
/* merge certificate's NameConstraints with current NameConstraints */
if (constraints != null) {
constraints.merge(ncExt);
} else {
// Make sure we do a clone here, because we're probably
// going to modify this object later and we don't want to
// be sharing it with a Certificate object!
constraints = (NameConstraintsExtension) ncExt.clone();
}
if (debug != null) {
debug.println("Builder.targetDistance() merged constraints: " + String.valueOf(constraints));
}
/* reduce permitted by excluded */
GeneralSubtrees permitted = constraints.get(NameConstraintsExtension.PERMITTED_SUBTREES);
GeneralSubtrees excluded = constraints.get(NameConstraintsExtension.EXCLUDED_SUBTREES);
if (permitted != null) {
permitted.reduce(excluded);
}
if (debug != null) {
debug.println("Builder.targetDistance() reduced constraints: " + permitted);
}
/* see if new merged constraints allow target */
if (!constraints.verify(target)) {
throw new IOException("New certificate not allowed to sign " + "certificate for target");
}
/* find distance to target, if any, in permitted */
if (permitted == null) {
/* certificate is unconstrained; could sign for anything */
return -1;
}
for (int i = 0, n = permitted.size(); i < n; i++) {
GeneralNameInterface perName = permitted.get(i).getName().getName();
int distance = distance(perName, target, -1);
if (distance >= 0) {
return (distance + 1);
}
}
/* no matching type in permitted; cert holder could certify target */
return -1;
}
use of com.github.zhenwei.core.asn1.x509.GeneralNames in project candlepin by candlepin.
the class BouncyCastlePKIUtility method createX509Certificate.
@Override
public X509Certificate createX509Certificate(String dn, Set<X509ExtensionWrapper> extensions, Set<X509ByteExtensionWrapper> byteExtensions, Date startDate, Date endDate, KeyPair clientKeyPair, BigInteger serialNumber, String alternateName) throws GeneralSecurityException, IOException {
X509Certificate caCert = reader.getCACert();
byte[] publicKeyEncoded = clientKeyPair.getPublic().getEncoded();
X509v3CertificateBuilder certGen = new X509v3CertificateBuilder(X500Name.getInstance(caCert.getSubjectX500Principal().getEncoded()), serialNumber, startDate, endDate, new X500Name(dn), SubjectPublicKeyInfo.getInstance(publicKeyEncoded));
// set key usage - required for proper x509 function
KeyUsage keyUsage = new KeyUsage(KeyUsage.digitalSignature | KeyUsage.keyEncipherment | KeyUsage.dataEncipherment);
// add SSL extensions - required for proper x509 function
NetscapeCertType certType = new NetscapeCertType(NetscapeCertType.sslClient | NetscapeCertType.smime);
certGen.addExtension(MiscObjectIdentifiers.netscapeCertType, false, certType);
certGen.addExtension(Extension.keyUsage, false, keyUsage);
JcaX509ExtensionUtils extensionUtil = new JcaX509ExtensionUtils();
AuthorityKeyIdentifier aki = extensionUtil.createAuthorityKeyIdentifier(caCert);
certGen.addExtension(Extension.authorityKeyIdentifier, false, aki.getEncoded());
certGen.addExtension(Extension.subjectKeyIdentifier, false, subjectKeyWriter.getSubjectKeyIdentifier(clientKeyPair, extensions));
certGen.addExtension(Extension.extendedKeyUsage, false, new ExtendedKeyUsage(KeyPurposeId.id_kp_clientAuth));
// Add an additional alternative name if provided.
if (alternateName != null) {
/*
Why add the certificate subject again as an alternative name? RFC 6125 Section 6.4.4
stipulates that if SANs are provided, a validator MUST use them instead of the certificate
subject. If no SANs are present, the RFC allows the validator to use the subject field. So,
if we do have an SAN to add, we need to add the subject field again as an SAN.
See http://stackoverflow.com/questions/5935369 and
https://tools.ietf.org/html/rfc6125#section-6.4.4 and
NB: These extensions should *not* be marked critical since the subject field is not empty.
*/
GeneralName subject = new GeneralName(GeneralName.directoryName, dn);
GeneralName name = new GeneralName(GeneralName.directoryName, "CN=" + alternateName);
ASN1Encodable[] altNameArray = { subject, name };
GeneralNames altNames = GeneralNames.getInstance(new DERSequence(altNameArray));
certGen.addExtension(Extension.subjectAlternativeName, false, altNames);
}
if (extensions != null) {
for (X509ExtensionWrapper wrapper : extensions) {
// Bouncycastle hates null values. So, set them to blank
// if they are null
String value = wrapper.getValue() == null ? "" : wrapper.getValue();
certGen.addExtension(wrapper.toASN1Primitive(), wrapper.isCritical(), new DERUTF8String(value));
}
}
if (byteExtensions != null) {
for (X509ByteExtensionWrapper wrapper : byteExtensions) {
// Bouncycastle hates null values. So, set them to blank
// if they are null
byte[] value = wrapper.getValue() == null ? new byte[0] : wrapper.getValue();
certGen.addExtension(wrapper.toASN1Primitive(), wrapper.isCritical(), new DEROctetString(value));
}
}
JcaContentSignerBuilder builder = new JcaContentSignerBuilder(SIGNATURE_ALGO).setProvider(BC_PROVIDER);
ContentSigner signer;
try {
signer = builder.build(reader.getCaKey());
} catch (OperatorCreationException e) {
throw new IOException(e);
}
// Generate the certificate
return new JcaX509CertificateConverter().getCertificate(certGen.build(signer));
}
use of com.github.zhenwei.core.asn1.x509.GeneralNames in project credhub by cloudfoundry-incubator.
the class CertificateReaderTest method returnsParametersCorrectly.
@Test
public void returnsParametersCorrectly() {
final String distinguishedName = "O=test-org, ST=Jupiter, C=MilkyWay, CN=test-common-name, OU=test-org-unit, L=Europa";
final GeneralNames generalNames = new GeneralNames(new GeneralName(GeneralName.dNSName, "SolarSystem"));
CertificateReader certificateReader = new CertificateReader(CertificateStringConstants.BIG_TEST_CERT);
assertThat(certificateReader.getAlternativeNames(), equalTo(generalNames));
assertThat(asList(certificateReader.getExtendedKeyUsage().getUsages()), containsInAnyOrder(KeyPurposeId.id_kp_serverAuth, KeyPurposeId.id_kp_clientAuth));
assertThat(certificateReader.getKeyUsage().hasUsages(KeyUsage.digitalSignature), equalTo(true));
assertThat(certificateReader.getSubjectName().toString(), equalTo(distinguishedName));
}
use of com.github.zhenwei.core.asn1.x509.GeneralNames in project xipki by xipki.
the class XmlX509Certprofile method getExtensions.
@Override
public ExtensionValues getExtensions(Map<ASN1ObjectIdentifier, ExtensionControl> extensionOccurences, X500Name requestedSubject, X500Name grantedSubject, Extensions requestedExtensions, Date notBefore, Date notAfter, PublicCaInfo caInfo) throws CertprofileException, BadCertTemplateException {
ExtensionValues values = new ExtensionValues();
if (CollectionUtil.isEmpty(extensionOccurences)) {
return values;
}
ParamUtil.requireNonNull("requestedSubject", requestedSubject);
ParamUtil.requireNonNull("notBefore", notBefore);
ParamUtil.requireNonNull("notAfter", notAfter);
Set<ASN1ObjectIdentifier> occurences = new HashSet<>(extensionOccurences.keySet());
// AuthorityKeyIdentifier
// processed by the CA
// SubjectKeyIdentifier
// processed by the CA
// KeyUsage
// processed by the CA
// CertificatePolicies
ASN1ObjectIdentifier type = Extension.certificatePolicies;
if (certificatePolicies != null) {
if (occurences.remove(type)) {
values.addExtension(type, certificatePolicies);
}
}
// Policy Mappings
type = Extension.policyMappings;
if (policyMappings != null) {
if (occurences.remove(type)) {
values.addExtension(type, policyMappings);
}
}
// SubjectAltName
type = Extension.subjectAlternativeName;
if (occurences.contains(type)) {
GeneralNames genNames = createRequestedSubjectAltNames(requestedSubject, grantedSubject, requestedExtensions);
if (genNames != null) {
ExtensionValue value = new ExtensionValue(extensionControls.get(type).isCritical(), genNames);
values.addExtension(type, value);
occurences.remove(type);
}
}
// IssuerAltName
// processed by the CA
// Subject Directory Attributes
type = Extension.subjectDirectoryAttributes;
if (occurences.contains(type) && subjectDirAttrsControl != null) {
Extension extension = (requestedExtensions == null) ? null : requestedExtensions.getExtension(type);
if (extension == null) {
throw new BadCertTemplateException("no SubjectDirecotryAttributes extension is contained in the request");
}
ASN1GeneralizedTime dateOfBirth = null;
String placeOfBirth = null;
String gender = null;
List<String> countryOfCitizenshipList = new LinkedList<>();
List<String> countryOfResidenceList = new LinkedList<>();
Map<ASN1ObjectIdentifier, List<ASN1Encodable>> otherAttrs = new HashMap<>();
Vector<?> reqSubDirAttrs = SubjectDirectoryAttributes.getInstance(extension.getParsedValue()).getAttributes();
final int n = reqSubDirAttrs.size();
for (int i = 0; i < n; i++) {
Attribute attr = (Attribute) reqSubDirAttrs.get(i);
ASN1ObjectIdentifier attrType = attr.getAttrType();
ASN1Encodable attrVal = attr.getAttributeValues()[0];
if (ObjectIdentifiers.DN_DATE_OF_BIRTH.equals(attrType)) {
dateOfBirth = ASN1GeneralizedTime.getInstance(attrVal);
} else if (ObjectIdentifiers.DN_PLACE_OF_BIRTH.equals(attrType)) {
placeOfBirth = DirectoryString.getInstance(attrVal).getString();
} else if (ObjectIdentifiers.DN_GENDER.equals(attrType)) {
gender = DERPrintableString.getInstance(attrVal).getString();
} else if (ObjectIdentifiers.DN_COUNTRY_OF_CITIZENSHIP.equals(attrType)) {
String country = DERPrintableString.getInstance(attrVal).getString();
countryOfCitizenshipList.add(country);
} else if (ObjectIdentifiers.DN_COUNTRY_OF_RESIDENCE.equals(attrType)) {
String country = DERPrintableString.getInstance(attrVal).getString();
countryOfResidenceList.add(country);
} else {
List<ASN1Encodable> otherAttrVals = otherAttrs.get(attrType);
if (otherAttrVals == null) {
otherAttrVals = new LinkedList<>();
otherAttrs.put(attrType, otherAttrVals);
}
otherAttrVals.add(attrVal);
}
}
Vector<Attribute> attrs = new Vector<>();
for (ASN1ObjectIdentifier attrType : subjectDirAttrsControl.getTypes()) {
if (ObjectIdentifiers.DN_DATE_OF_BIRTH.equals(attrType)) {
if (dateOfBirth != null) {
String timeStirng = dateOfBirth.getTimeString();
if (!SubjectDnSpec.PATTERN_DATE_OF_BIRTH.matcher(timeStirng).matches()) {
throw new BadCertTemplateException("invalid dateOfBirth " + timeStirng);
}
attrs.add(new Attribute(attrType, new DERSet(dateOfBirth)));
continue;
}
} else if (ObjectIdentifiers.DN_PLACE_OF_BIRTH.equals(attrType)) {
if (placeOfBirth != null) {
ASN1Encodable attrVal = new DERUTF8String(placeOfBirth);
attrs.add(new Attribute(attrType, new DERSet(attrVal)));
continue;
}
} else if (ObjectIdentifiers.DN_GENDER.equals(attrType)) {
if (gender != null && !gender.isEmpty()) {
char ch = gender.charAt(0);
if (!(gender.length() == 1 && (ch == 'f' || ch == 'F' || ch == 'm' || ch == 'M'))) {
throw new BadCertTemplateException("invalid gender " + gender);
}
ASN1Encodable attrVal = new DERPrintableString(gender);
attrs.add(new Attribute(attrType, new DERSet(attrVal)));
continue;
}
} else if (ObjectIdentifiers.DN_COUNTRY_OF_CITIZENSHIP.equals(attrType)) {
if (!countryOfCitizenshipList.isEmpty()) {
for (String country : countryOfCitizenshipList) {
if (!SubjectDnSpec.isValidCountryAreaCode(country)) {
throw new BadCertTemplateException("invalid countryOfCitizenship code " + country);
}
ASN1Encodable attrVal = new DERPrintableString(country);
attrs.add(new Attribute(attrType, new DERSet(attrVal)));
}
continue;
}
} else if (ObjectIdentifiers.DN_COUNTRY_OF_RESIDENCE.equals(attrType)) {
if (!countryOfResidenceList.isEmpty()) {
for (String country : countryOfResidenceList) {
if (!SubjectDnSpec.isValidCountryAreaCode(country)) {
throw new BadCertTemplateException("invalid countryOfResidence code " + country);
}
ASN1Encodable attrVal = new DERPrintableString(country);
attrs.add(new Attribute(attrType, new DERSet(attrVal)));
}
continue;
}
} else if (otherAttrs.containsKey(attrType)) {
for (ASN1Encodable attrVal : otherAttrs.get(attrType)) {
attrs.add(new Attribute(attrType, new DERSet(attrVal)));
}
continue;
}
throw new BadCertTemplateException("could not process type " + attrType.getId() + " in extension SubjectDirectoryAttributes");
}
SubjectDirectoryAttributes subjDirAttrs = new SubjectDirectoryAttributes(attrs);
ExtensionValue extValue = new ExtensionValue(extensionControls.get(type).isCritical(), subjDirAttrs);
values.addExtension(type, extValue);
occurences.remove(type);
}
// Basic Constraints
// processed by the CA
// Name Constraints
type = Extension.nameConstraints;
if (nameConstraints != null) {
if (occurences.remove(type)) {
values.addExtension(type, nameConstraints);
}
}
// PolicyConstrains
type = Extension.policyConstraints;
if (policyConstraints != null) {
if (occurences.remove(type)) {
values.addExtension(type, policyConstraints);
}
}
// ExtendedKeyUsage
// processed by CA
// CRL Distribution Points
// processed by the CA
// Inhibit anyPolicy
type = Extension.inhibitAnyPolicy;
if (inhibitAnyPolicy != null) {
if (occurences.remove(type)) {
values.addExtension(type, inhibitAnyPolicy);
}
}
// Freshest CRL
// processed by the CA
// Authority Information Access
// processed by the CA
// Subject Information Access
// processed by the CA
// Admission
type = ObjectIdentifiers.id_extension_admission;
if (occurences.contains(type) && admission != null) {
if (admission.isInputFromRequestRequired()) {
Extension extension = (requestedExtensions == null) ? null : requestedExtensions.getExtension(type);
if (extension == null) {
throw new BadCertTemplateException("No Admission extension is contained in the request");
}
Admissions[] reqAdmissions = org.bouncycastle.asn1.isismtt.x509.AdmissionSyntax.getInstance(extension.getParsedValue()).getContentsOfAdmissions();
final int n = reqAdmissions.length;
List<List<String>> reqRegNumsList = new ArrayList<>(n);
for (int i = 0; i < n; i++) {
Admissions reqAdmission = reqAdmissions[i];
ProfessionInfo[] reqPis = reqAdmission.getProfessionInfos();
List<String> reqNums = new ArrayList<>(reqPis.length);
reqRegNumsList.add(reqNums);
for (ProfessionInfo reqPi : reqPis) {
String reqNum = reqPi.getRegistrationNumber();
reqNums.add(reqNum);
}
}
values.addExtension(type, admission.getExtensionValue(reqRegNumsList));
occurences.remove(type);
} else {
values.addExtension(type, admission.getExtensionValue(null));
occurences.remove(type);
}
}
// OCSP Nocheck
// processed by the CA
// restriction
type = ObjectIdentifiers.id_extension_restriction;
if (restriction != null) {
if (occurences.remove(type)) {
values.addExtension(type, restriction);
}
}
// AdditionalInformation
type = ObjectIdentifiers.id_extension_additionalInformation;
if (additionalInformation != null) {
if (occurences.remove(type)) {
values.addExtension(type, additionalInformation);
}
}
// ValidityModel
type = ObjectIdentifiers.id_extension_validityModel;
if (validityModel != null) {
if (occurences.remove(type)) {
values.addExtension(type, validityModel);
}
}
// PrivateKeyUsagePeriod
type = Extension.privateKeyUsagePeriod;
if (occurences.contains(type)) {
Date tmpNotAfter;
if (privateKeyUsagePeriod == null) {
tmpNotAfter = notAfter;
} else {
tmpNotAfter = privateKeyUsagePeriod.add(notBefore);
if (tmpNotAfter.after(notAfter)) {
tmpNotAfter = notAfter;
}
}
ASN1EncodableVector vec = new ASN1EncodableVector();
vec.add(new DERTaggedObject(false, 0, new DERGeneralizedTime(notBefore)));
vec.add(new DERTaggedObject(false, 1, new DERGeneralizedTime(tmpNotAfter)));
ExtensionValue extValue = new ExtensionValue(extensionControls.get(type).isCritical(), new DERSequence(vec));
values.addExtension(type, extValue);
occurences.remove(type);
}
// QCStatements
type = Extension.qCStatements;
if (occurences.contains(type) && (qcStatments != null || qcStatementsOption != null)) {
if (qcStatments != null) {
values.addExtension(type, qcStatments);
occurences.remove(type);
} else if (requestedExtensions != null && qcStatementsOption != null) {
// extract the euLimit data from request
Extension extension = requestedExtensions.getExtension(type);
if (extension == null) {
throw new BadCertTemplateException("No QCStatement extension is contained in the request");
}
ASN1Sequence seq = ASN1Sequence.getInstance(extension.getParsedValue());
Map<String, int[]> qcEuLimits = new HashMap<>();
final int n = seq.size();
for (int i = 0; i < n; i++) {
QCStatement stmt = QCStatement.getInstance(seq.getObjectAt(i));
if (!ObjectIdentifiers.id_etsi_qcs_QcLimitValue.equals(stmt.getStatementId())) {
continue;
}
MonetaryValue monetaryValue = MonetaryValue.getInstance(stmt.getStatementInfo());
int amount = monetaryValue.getAmount().intValue();
int exponent = monetaryValue.getExponent().intValue();
Iso4217CurrencyCode currency = monetaryValue.getCurrency();
String currencyS = currency.isAlphabetic() ? currency.getAlphabetic().toUpperCase() : Integer.toString(currency.getNumeric());
qcEuLimits.put(currencyS, new int[] { amount, exponent });
}
ASN1EncodableVector vec = new ASN1EncodableVector();
for (QcStatementOption m : qcStatementsOption) {
if (m.getStatement() != null) {
vec.add(m.getStatement());
continue;
}
MonetaryValueOption monetaryOption = m.getMonetaryValueOption();
String currencyS = monetaryOption.getCurrencyString();
int[] limit = qcEuLimits.get(currencyS);
if (limit == null) {
throw new BadCertTemplateException("no EuLimitValue is specified for currency '" + currencyS + "'");
}
int amount = limit[0];
Range2Type range = monetaryOption.getAmountRange();
if (amount < range.getMin() || amount > range.getMax()) {
throw new BadCertTemplateException("amount for currency '" + currencyS + "' is not within [" + range.getMin() + ", " + range.getMax() + "]");
}
int exponent = limit[1];
range = monetaryOption.getExponentRange();
if (exponent < range.getMin() || exponent > range.getMax()) {
throw new BadCertTemplateException("exponent for currency '" + currencyS + "' is not within [" + range.getMin() + ", " + range.getMax() + "]");
}
MonetaryValue monetaryVale = new MonetaryValue(monetaryOption.getCurrency(), amount, exponent);
QCStatement qcStatment = new QCStatement(m.getStatementId(), monetaryVale);
vec.add(qcStatment);
}
ExtensionValue extValue = new ExtensionValue(extensionControls.get(type).isCritical(), new DERSequence(vec));
values.addExtension(type, extValue);
occurences.remove(type);
} else {
throw new RuntimeException("should not reach here");
}
}
// BiometricData
type = Extension.biometricInfo;
if (occurences.contains(type) && biometricInfo != null) {
Extension extension = (requestedExtensions == null) ? null : requestedExtensions.getExtension(type);
if (extension == null) {
throw new BadCertTemplateException("no biometricInfo extension is contained in the request");
}
ASN1Sequence seq = ASN1Sequence.getInstance(extension.getParsedValue());
final int n = seq.size();
if (n < 1) {
throw new BadCertTemplateException("biometricInfo extension in request contains empty sequence");
}
ASN1EncodableVector vec = new ASN1EncodableVector();
for (int i = 0; i < n; i++) {
BiometricData bd = BiometricData.getInstance(seq.getObjectAt(i));
TypeOfBiometricData bdType = bd.getTypeOfBiometricData();
if (!biometricInfo.isTypePermitted(bdType)) {
throw new BadCertTemplateException("biometricInfo[" + i + "].typeOfBiometricData is not permitted");
}
ASN1ObjectIdentifier hashAlgo = bd.getHashAlgorithm().getAlgorithm();
if (!biometricInfo.isHashAlgorithmPermitted(hashAlgo)) {
throw new BadCertTemplateException("biometricInfo[" + i + "].hashAlgorithm is not permitted");
}
int expHashValueSize;
try {
expHashValueSize = AlgorithmUtil.getHashOutputSizeInOctets(hashAlgo);
} catch (NoSuchAlgorithmException ex) {
throw new CertprofileException("should not happen, unknown hash algorithm " + hashAlgo);
}
byte[] hashValue = bd.getBiometricDataHash().getOctets();
if (hashValue.length != expHashValueSize) {
throw new BadCertTemplateException("biometricInfo[" + i + "].biometricDataHash has incorrect length");
}
DERIA5String sourceDataUri = bd.getSourceDataUri();
switch(biometricInfo.getSourceDataUriOccurrence()) {
case FORBIDDEN:
sourceDataUri = null;
break;
case REQUIRED:
if (sourceDataUri == null) {
throw new BadCertTemplateException("biometricInfo[" + i + "].sourceDataUri is not specified in request but is required");
}
break;
case OPTIONAL:
break;
default:
throw new BadCertTemplateException("could not reach here, unknown tripleState");
}
AlgorithmIdentifier newHashAlg = new AlgorithmIdentifier(hashAlgo, DERNull.INSTANCE);
BiometricData newBiometricData = new BiometricData(bdType, newHashAlg, new DEROctetString(hashValue), sourceDataUri);
vec.add(newBiometricData);
}
ExtensionValue extValue = new ExtensionValue(extensionControls.get(type).isCritical(), new DERSequence(vec));
values.addExtension(type, extValue);
occurences.remove(type);
}
// TlsFeature
type = ObjectIdentifiers.id_pe_tlsfeature;
if (tlsFeature != null) {
if (occurences.remove(type)) {
values.addExtension(type, tlsFeature);
}
}
// AuthorizationTemplate
type = ObjectIdentifiers.id_xipki_ext_authorizationTemplate;
if (authorizationTemplate != null) {
if (occurences.remove(type)) {
values.addExtension(type, authorizationTemplate);
}
}
// SMIME
type = ObjectIdentifiers.id_smimeCapabilities;
if (smimeCapabilities != null) {
if (occurences.remove(type)) {
values.addExtension(type, smimeCapabilities);
}
}
// constant extensions
if (constantExtensions != null) {
for (ASN1ObjectIdentifier m : constantExtensions.keySet()) {
if (!occurences.remove(m)) {
continue;
}
ExtensionValue extensionValue = constantExtensions.get(m);
if (extensionValue != null) {
values.addExtension(m, extensionValue);
}
}
}
ExtensionValues extraExtensions = getExtraExtensions(extensionOccurences, requestedSubject, grantedSubject, requestedExtensions, notBefore, notAfter, caInfo);
if (extraExtensions != null) {
for (ASN1ObjectIdentifier m : extraExtensions.getExtensionTypes()) {
values.addExtension(m, extraExtensions.getExtensionValue(m));
}
}
return values;
}
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