use of org.spongycastle.asn1.x509.GeneralName in project robovm by robovm.
the class AttributeCertificateIssuer method getNames.
private Object[] getNames() {
GeneralNames name;
if (form instanceof V2Form) {
name = ((V2Form) form).getIssuerName();
} else {
name = (GeneralNames) form;
}
GeneralName[] names = name.getNames();
List l = new ArrayList(names.length);
for (int i = 0; i != names.length; i++) {
if (names[i].getTagNo() == GeneralName.directoryName) {
try {
l.add(new X500Principal(((ASN1Encodable) names[i].getName()).toASN1Primitive().getEncoded()));
} catch (IOException e) {
throw new RuntimeException("badly formed Name object");
}
}
}
return l.toArray(new Object[l.size()]);
}
use of org.spongycastle.asn1.x509.GeneralName in project robovm by robovm.
the class TestKeyStore method createCertificate.
private static X509Certificate createCertificate(PublicKey publicKey, PrivateKey privateKey, X500Principal subject, X500Principal issuer, int keyUsage, boolean ca, List<KeyPurposeId> extendedKeyUsages, List<Boolean> criticalExtendedKeyUsages, List<GeneralName> subjectAltNames, List<GeneralSubtree> permittedNameConstraints, List<GeneralSubtree> excludedNameConstraints) throws Exception {
// Note that there is no way to programmatically make a
// Certificate using java.* or javax.* APIs. The
// CertificateFactory interface assumes you want to read
// in a stream of bytes, typically the X.509 factory would
// allow ASN.1 DER encoded bytes and optionally some PEM
// formats. Here we use Bouncy Castle's
// X509V3CertificateGenerator and related classes.
long millisPerDay = 24 * 60 * 60 * 1000;
long now = System.currentTimeMillis();
Date start = new Date(now - millisPerDay);
Date end = new Date(now + millisPerDay);
BigInteger serial = BigInteger.valueOf(1);
String keyAlgorithm = privateKey.getAlgorithm();
String signatureAlgorithm;
if (keyAlgorithm.equals("RSA")) {
signatureAlgorithm = "sha1WithRSA";
} else if (keyAlgorithm.equals("DSA")) {
signatureAlgorithm = "sha1WithDSA";
} else if (keyAlgorithm.equals("EC")) {
signatureAlgorithm = "sha1WithECDSA";
} else if (keyAlgorithm.equals("EC_RSA")) {
signatureAlgorithm = "sha1WithRSA";
} else {
throw new IllegalArgumentException("Unknown key algorithm " + keyAlgorithm);
}
X509V3CertificateGenerator x509cg = new X509V3CertificateGenerator();
x509cg.setSubjectDN(subject);
x509cg.setIssuerDN(issuer);
x509cg.setNotBefore(start);
x509cg.setNotAfter(end);
x509cg.setPublicKey(publicKey);
x509cg.setSignatureAlgorithm(signatureAlgorithm);
x509cg.setSerialNumber(serial);
if (keyUsage != 0) {
x509cg.addExtension(X509Extensions.KeyUsage, true, new KeyUsage(keyUsage));
}
if (ca) {
x509cg.addExtension(X509Extensions.BasicConstraints, true, new BasicConstraints(true));
}
for (int i = 0; i < extendedKeyUsages.size(); i++) {
KeyPurposeId keyPurposeId = extendedKeyUsages.get(i);
boolean critical = criticalExtendedKeyUsages.get(i);
x509cg.addExtension(X509Extensions.ExtendedKeyUsage, critical, new ExtendedKeyUsage(keyPurposeId));
}
for (GeneralName subjectAltName : subjectAltNames) {
x509cg.addExtension(X509Extensions.SubjectAlternativeName, false, new GeneralNames(subjectAltName).getEncoded());
}
if (!permittedNameConstraints.isEmpty() || !excludedNameConstraints.isEmpty()) {
x509cg.addExtension(X509Extensions.NameConstraints, true, new NameConstraints(permittedNameConstraints.toArray(new GeneralSubtree[permittedNameConstraints.size()]), excludedNameConstraints.toArray(new GeneralSubtree[excludedNameConstraints.size()])));
}
if (privateKey instanceof ECPrivateKey) {
/*
* bouncycastle needs its own ECPrivateKey implementation
*/
KeyFactory kf = KeyFactory.getInstance(keyAlgorithm, "BC");
PKCS8EncodedKeySpec ks = new PKCS8EncodedKeySpec(privateKey.getEncoded());
privateKey = kf.generatePrivate(ks);
}
X509Certificate x509c = x509cg.generateX509Certificate(privateKey);
if (StandardNames.IS_RI) {
/*
* The RI can't handle the BC EC signature algorithm
* string of "ECDSA", since it expects "...WITHEC...",
* so convert from BC to RI X509Certificate
* implementation via bytes.
*/
CertificateFactory cf = CertificateFactory.getInstance("X.509");
ByteArrayInputStream bais = new ByteArrayInputStream(x509c.getEncoded());
Certificate c = cf.generateCertificate(bais);
x509c = (X509Certificate) c;
}
return x509c;
}
use of org.spongycastle.asn1.x509.GeneralName in project gitblit by gitblit.
the class X509Utils method newClientCertificate.
/**
* Creates a new client certificate PKCS#12 and PEM store. Any existing
* stores are destroyed.
*
* @param clientMetadata a container for dynamic parameters needed for generation
* @param caKeystoreFile
* @param caKeystorePassword
* @param targetFolder
* @return
*/
public static X509Certificate newClientCertificate(X509Metadata clientMetadata, PrivateKey caPrivateKey, X509Certificate caCert, File targetFolder) {
try {
KeyPair pair = newKeyPair();
X500Name userDN = buildDistinguishedName(clientMetadata);
X500Name issuerDN = new X500Name(PrincipalUtil.getIssuerX509Principal(caCert).getName());
// create a new certificate signed by the Gitblit CA certificate
X509v3CertificateBuilder certBuilder = new JcaX509v3CertificateBuilder(issuerDN, BigInteger.valueOf(System.currentTimeMillis()), clientMetadata.notBefore, clientMetadata.notAfter, userDN, pair.getPublic());
JcaX509ExtensionUtils extUtils = new JcaX509ExtensionUtils();
certBuilder.addExtension(X509Extension.subjectKeyIdentifier, false, extUtils.createSubjectKeyIdentifier(pair.getPublic()));
certBuilder.addExtension(X509Extension.basicConstraints, false, new BasicConstraints(false));
certBuilder.addExtension(X509Extension.authorityKeyIdentifier, false, extUtils.createAuthorityKeyIdentifier(caCert.getPublicKey()));
certBuilder.addExtension(X509Extension.keyUsage, true, new KeyUsage(KeyUsage.keyEncipherment | KeyUsage.digitalSignature));
if (!StringUtils.isEmpty(clientMetadata.emailAddress)) {
GeneralNames subjectAltName = new GeneralNames(new GeneralName(GeneralName.rfc822Name, clientMetadata.emailAddress));
certBuilder.addExtension(X509Extension.subjectAlternativeName, false, subjectAltName);
}
ContentSigner signer = new JcaContentSignerBuilder(SIGNING_ALGORITHM).setProvider(BC).build(caPrivateKey);
X509Certificate userCert = new JcaX509CertificateConverter().setProvider(BC).getCertificate(certBuilder.build(signer));
PKCS12BagAttributeCarrier bagAttr = (PKCS12BagAttributeCarrier) pair.getPrivate();
bagAttr.setBagAttribute(PKCSObjectIdentifiers.pkcs_9_at_localKeyId, extUtils.createSubjectKeyIdentifier(pair.getPublic()));
// confirm the validity of the user certificate
userCert.checkValidity();
userCert.verify(caCert.getPublicKey());
userCert.getIssuerDN().equals(caCert.getSubjectDN());
// verify user certificate chain
verifyChain(userCert, caCert);
targetFolder.mkdirs();
// save certificate, stamped with unique name
String date = new SimpleDateFormat("yyyyMMdd").format(new Date());
String id = date;
File certFile = new File(targetFolder, id + ".cer");
int count = 0;
while (certFile.exists()) {
id = date + "_" + Character.toString((char) (0x61 + count));
certFile = new File(targetFolder, id + ".cer");
count++;
}
// save user private key, user certificate and CA certificate to a PKCS#12 store
File p12File = new File(targetFolder, clientMetadata.commonName + ".p12");
if (p12File.exists()) {
p12File.delete();
}
KeyStore userStore = openKeyStore(p12File, clientMetadata.password);
userStore.setKeyEntry(MessageFormat.format("Gitblit ({0}) {1} {2}", clientMetadata.serverHostname, clientMetadata.userDisplayname, id), pair.getPrivate(), null, new Certificate[] { userCert });
userStore.setCertificateEntry(MessageFormat.format("Gitblit ({0}) Certificate Authority", clientMetadata.serverHostname), caCert);
saveKeyStore(p12File, userStore, clientMetadata.password);
// save user private key, user certificate, and CA certificate to a PEM store
File pemFile = new File(targetFolder, clientMetadata.commonName + ".pem");
if (pemFile.exists()) {
pemFile.delete();
}
JcePEMEncryptorBuilder builder = new JcePEMEncryptorBuilder("DES-EDE3-CBC");
builder.setSecureRandom(new SecureRandom());
PEMEncryptor pemEncryptor = builder.build(clientMetadata.password.toCharArray());
JcaPEMWriter pemWriter = new JcaPEMWriter(new FileWriter(pemFile));
pemWriter.writeObject(pair.getPrivate(), pemEncryptor);
pemWriter.writeObject(userCert);
pemWriter.writeObject(caCert);
pemWriter.flush();
pemWriter.close();
// save certificate after successfully creating the key stores
saveCertificate(userCert, certFile);
// update serial number in metadata object
clientMetadata.serialNumber = userCert.getSerialNumber().toString();
return userCert;
} catch (Throwable t) {
throw new RuntimeException("Failed to generate client certificate!", t);
}
}
use of org.spongycastle.asn1.x509.GeneralName in project gitblit by gitblit.
the class X509Utils method newSSLCertificate.
/**
* Creates a new SSL certificate signed by the CA private key and stored in
* keyStore.
*
* @param sslMetadata
* @param caPrivateKey
* @param caCert
* @param targetStoreFile
* @param x509log
*/
public static X509Certificate newSSLCertificate(X509Metadata sslMetadata, PrivateKey caPrivateKey, X509Certificate caCert, File targetStoreFile, X509Log x509log) {
try {
KeyPair pair = newKeyPair();
X500Name webDN = buildDistinguishedName(sslMetadata);
X500Name issuerDN = new X500Name(PrincipalUtil.getIssuerX509Principal(caCert).getName());
X509v3CertificateBuilder certBuilder = new JcaX509v3CertificateBuilder(issuerDN, BigInteger.valueOf(System.currentTimeMillis()), sslMetadata.notBefore, sslMetadata.notAfter, webDN, pair.getPublic());
JcaX509ExtensionUtils extUtils = new JcaX509ExtensionUtils();
certBuilder.addExtension(X509Extension.subjectKeyIdentifier, false, extUtils.createSubjectKeyIdentifier(pair.getPublic()));
certBuilder.addExtension(X509Extension.basicConstraints, false, new BasicConstraints(false));
certBuilder.addExtension(X509Extension.authorityKeyIdentifier, false, extUtils.createAuthorityKeyIdentifier(caCert.getPublicKey()));
// support alternateSubjectNames for SSL certificates
List<GeneralName> altNames = new ArrayList<GeneralName>();
if (HttpUtils.isIpAddress(sslMetadata.commonName)) {
altNames.add(new GeneralName(GeneralName.iPAddress, sslMetadata.commonName));
}
if (altNames.size() > 0) {
GeneralNames subjectAltName = new GeneralNames(altNames.toArray(new GeneralName[altNames.size()]));
certBuilder.addExtension(X509Extension.subjectAlternativeName, false, subjectAltName);
}
ContentSigner caSigner = new JcaContentSignerBuilder(SIGNING_ALGORITHM).setProvider(BC).build(caPrivateKey);
X509Certificate cert = new JcaX509CertificateConverter().setProvider(BC).getCertificate(certBuilder.build(caSigner));
cert.checkValidity(new Date());
cert.verify(caCert.getPublicKey());
// Save to keystore
KeyStore serverStore = openKeyStore(targetStoreFile, sslMetadata.password);
serverStore.setKeyEntry(sslMetadata.commonName, pair.getPrivate(), sslMetadata.password.toCharArray(), new Certificate[] { cert, caCert });
saveKeyStore(targetStoreFile, serverStore, sslMetadata.password);
x509log.log(MessageFormat.format("New SSL certificate {0,number,0} [{1}]", cert.getSerialNumber(), cert.getSubjectDN().getName()));
// update serial number in metadata object
sslMetadata.serialNumber = cert.getSerialNumber().toString();
return cert;
} catch (Throwable t) {
throw new RuntimeException("Failed to generate SSL certificate!", t);
}
}
use of org.spongycastle.asn1.x509.GeneralName in project zaproxy by zaproxy.
the class SslCertificateServiceImpl method createCertForHost.
@Override
public KeyStore createCertForHost(String hostname) throws NoSuchAlgorithmException, InvalidKeyException, CertificateException, NoSuchProviderException, SignatureException, KeyStoreException, IOException, UnrecoverableKeyException {
if (hostname == null) {
throw new IllegalArgumentException("Error, 'hostname' is not allowed to be null!");
}
if (this.caCert == null || this.caPrivKey == null || this.caPubKey == null) {
throw new MissingRootCertificateException(this.getClass() + " wasn't initialized! Got to options 'Dynamic SSL Certs' and create one.");
}
final KeyPair mykp = this.createKeyPair();
final PrivateKey privKey = mykp.getPrivate();
final PublicKey pubKey = mykp.getPublic();
X500NameBuilder namebld = new X500NameBuilder(BCStyle.INSTANCE);
namebld.addRDN(BCStyle.CN, hostname);
namebld.addRDN(BCStyle.OU, "Zed Attack Proxy Project");
namebld.addRDN(BCStyle.O, "OWASP");
namebld.addRDN(BCStyle.C, "xx");
namebld.addRDN(BCStyle.EmailAddress, "owasp-zed-attack-proxy@lists.owasp.org");
X509v3CertificateBuilder certGen = new JcaX509v3CertificateBuilder(new X509CertificateHolder(caCert.getEncoded()).getSubject(), BigInteger.valueOf(serial.getAndIncrement()), new Date(System.currentTimeMillis() - 1000L * 60 * 60 * 24 * 30), new Date(System.currentTimeMillis() + 100 * (1000L * 60 * 60 * 24 * 30)), namebld.build(), pubKey);
certGen.addExtension(Extension.subjectKeyIdentifier, false, new SubjectKeyIdentifier(pubKey.getEncoded()));
certGen.addExtension(Extension.basicConstraints, false, new BasicConstraints(false));
certGen.addExtension(Extension.subjectAlternativeName, false, new GeneralNames(new GeneralName(GeneralName.dNSName, hostname)));
ContentSigner sigGen;
try {
sigGen = new JcaContentSignerBuilder("SHA256WithRSAEncryption").setProvider("BC").build(caPrivKey);
} catch (OperatorCreationException e) {
throw new CertificateException(e);
}
final X509Certificate cert = new JcaX509CertificateConverter().setProvider("BC").getCertificate(certGen.build(sigGen));
cert.checkValidity(new Date());
cert.verify(caPubKey);
final KeyStore ks = KeyStore.getInstance("JKS");
ks.load(null, null);
final Certificate[] chain = new Certificate[2];
chain[1] = this.caCert;
chain[0] = cert;
ks.setKeyEntry(ZAPROXY_JKS_ALIAS, privKey, PASSPHRASE, chain);
return ks;
}
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