use of java.security.cert.CertPathBuilderException in project Openfire by igniterealtime.
the class CertificateManager method getEndEntityCertificate.
/**
* Decide whether or not to trust the given supplied certificate chain, returning the
* End Entity Certificate in this case where it can, and null otherwise.
* A self-signed certificate will, for example, return null.
* For certain failures, we SHOULD generate an exception - revocations and the like,
* but we currently do not.
*
* @param chain an array of X509Certificate where the first one is the endEntityCertificate.
* @param certStore a keystore containing untrusted certificates (including ICAs, etc).
* @param trustStore a keystore containing Trust Anchors (most-trusted CA certificates).
* @return trusted end-entity certificate, or null.
*/
public static X509Certificate getEndEntityCertificate(Certificate[] chain, KeyStore certStore, KeyStore trustStore) {
if (chain.length == 0) {
return null;
}
X509Certificate first = (X509Certificate) chain[0];
try {
first.checkValidity();
} catch (CertificateException e) {
Log.warn("EE Certificate not valid: " + e.getMessage());
return null;
}
if (chain.length == 1 && first.getSubjectX500Principal().equals(first.getIssuerX500Principal())) {
// Chain is single cert, and self-signed.
try {
if (trustStore.getCertificateAlias(first) != null) {
// Interesting case: trusted self-signed cert.
return first;
}
} catch (KeyStoreException e) {
Log.warn("Keystore error while looking for self-signed cert; assuming untrusted.");
}
return null;
}
final List<Certificate> all_certs = new ArrayList<>();
try {
// It's a mystery why these objects are different.
for (Enumeration<String> aliases = certStore.aliases(); aliases.hasMoreElements(); ) {
String alias = aliases.nextElement();
if (certStore.isCertificateEntry(alias)) {
X509Certificate cert = (X509Certificate) certStore.getCertificate(alias);
all_certs.add(cert);
}
}
// Now add the trusted certs.
for (Enumeration<String> aliases = trustStore.aliases(); aliases.hasMoreElements(); ) {
String alias = aliases.nextElement();
if (trustStore.isCertificateEntry(alias)) {
X509Certificate cert = (X509Certificate) trustStore.getCertificate(alias);
all_certs.add(cert);
}
}
// Finally, add all the certs in the chain:
for (int i = 0; i < chain.length; ++i) {
all_certs.add(chain[i]);
}
CertStore cs = CertStore.getInstance("Collection", new CollectionCertStoreParameters(all_certs));
X509CertSelector selector = new X509CertSelector();
selector.setCertificate(first);
// / selector.setSubject(first.getSubjectX500Principal());
PKIXBuilderParameters params = new PKIXBuilderParameters(trustStore, selector);
params.addCertStore(cs);
params.setDate(new Date());
params.setRevocationEnabled(false);
/* Code here is the right way to do things. */
CertPathBuilder pathBuilder = CertPathBuilder.getInstance(CertPathBuilder.getDefaultType());
CertPath cp = pathBuilder.build(params).getCertPath();
/**
* This section is an alternative to using CertPathBuilder which is
* not as complete (or safe), but will emit much better errors. If
* things break, swap around the code.
*
**** COMMENTED OUT. ****
ArrayList<X509Certificate> ls = new ArrayList<X509Certificate>();
for (int i = 0; i < chain.length; ++i) {
ls.add((X509Certificate) chain[i]);
}
for (X509Certificate last = ls.get(ls.size() - 1); !last
.getIssuerX500Principal().equals(last.getSubjectX500Principal()); last = ls
.get(ls.size() - 1)) {
X509CertSelector sel = new X509CertSelector();
sel.setSubject(last.getIssuerX500Principal());
ls.add((X509Certificate) cs.getCertificates(sel).toArray()[0]);
}
CertPath cp = CertificateFactory.getInstance("X.509").generateCertPath(ls);
****** END ALTERNATIVE. ****
*/
// Not entirely sure if I need to do this with CertPathBuilder.
// Can't hurt.
CertPathValidator pathValidator = CertPathValidator.getInstance("PKIX");
pathValidator.validate(cp, params);
return (X509Certificate) cp.getCertificates().get(0);
} catch (CertPathBuilderException e) {
Log.warn("Path builder: " + e.getMessage());
} catch (CertPathValidatorException e) {
Log.warn("Path validator: " + e.getMessage());
} catch (Exception e) {
Log.warn("Unkown exception while validating certificate chain: " + e.getMessage());
}
return null;
}
use of java.security.cert.CertPathBuilderException in project XobotOS by xamarin.
the class RFC3280CertPathUtilities method processCRLF.
/**
* Obtain and validate the certification path for the complete CRL issuer.
* If a key usage extension is present in the CRL issuer's certificate,
* verify that the cRLSign bit is set.
*
* @param crl CRL which contains revocation information for the certificate
* <code>cert</code>.
* @param cert The attribute certificate or certificate to check if it is
* revoked.
* @param defaultCRLSignCert The issuer certificate of the certificate <code>cert</code>.
* @param defaultCRLSignKey The public key of the issuer certificate
* <code>defaultCRLSignCert</code>.
* @param paramsPKIX paramsPKIX PKIX parameters.
* @param certPathCerts The certificates on the certification path.
* @return A <code>Set</code> with all keys of possible CRL issuer
* certificates.
* @throws AnnotatedException if the CRL is not valid or the status cannot be checked or
* some error occurs.
*/
protected static Set processCRLF(X509CRL crl, Object cert, X509Certificate defaultCRLSignCert, PublicKey defaultCRLSignKey, ExtendedPKIXParameters paramsPKIX, List certPathCerts) throws AnnotatedException {
// (f)
// get issuer from CRL
X509CertStoreSelector selector = new X509CertStoreSelector();
try {
byte[] issuerPrincipal = CertPathValidatorUtilities.getIssuerPrincipal(crl).getEncoded();
selector.setSubject(issuerPrincipal);
} catch (IOException e) {
throw new AnnotatedException("Subject criteria for certificate selector to find issuer certificate for CRL could not be set.", e);
}
// get CRL signing certs
Collection coll;
try {
coll = CertPathValidatorUtilities.findCertificates(selector, paramsPKIX.getStores());
coll.addAll(CertPathValidatorUtilities.findCertificates(selector, paramsPKIX.getAdditionalStores()));
coll.addAll(CertPathValidatorUtilities.findCertificates(selector, paramsPKIX.getCertStores()));
} catch (AnnotatedException e) {
throw new AnnotatedException("Issuer certificate for CRL cannot be searched.", e);
}
coll.add(defaultCRLSignCert);
Iterator cert_it = coll.iterator();
List validCerts = new ArrayList();
List validKeys = new ArrayList();
while (cert_it.hasNext()) {
X509Certificate signingCert = (X509Certificate) cert_it.next();
/*
* CA of the certificate, for which this CRL is checked, has also
* signed CRL, so skip the path validation, because is already done
*/
if (signingCert.equals(defaultCRLSignCert)) {
validCerts.add(signingCert);
validKeys.add(defaultCRLSignKey);
continue;
}
try {
CertPathBuilder builder = CertPathBuilder.getInstance("PKIX", BouncyCastleProvider.PROVIDER_NAME);
selector = new X509CertStoreSelector();
selector.setCertificate(signingCert);
ExtendedPKIXParameters temp = (ExtendedPKIXParameters) paramsPKIX.clone();
temp.setTargetCertConstraints(selector);
ExtendedPKIXBuilderParameters params = (ExtendedPKIXBuilderParameters) ExtendedPKIXBuilderParameters.getInstance(temp);
/*
* if signingCert is placed not higher on the cert path a
* dependency loop results. CRL for cert is checked, but
* signingCert is needed for checking the CRL which is dependent
* on checking cert because it is higher in the cert path and so
* signing signingCert transitively. so, revocation is disabled,
* forgery attacks of the CRL are detected in this outer loop
* for all other it must be enabled to prevent forgery attacks
*/
if (certPathCerts.contains(signingCert)) {
params.setRevocationEnabled(false);
} else {
params.setRevocationEnabled(true);
}
List certs = builder.build(params).getCertPath().getCertificates();
validCerts.add(signingCert);
validKeys.add(CertPathValidatorUtilities.getNextWorkingKey(certs, 0));
} catch (CertPathBuilderException e) {
throw new AnnotatedException("Internal error.", e);
} catch (CertPathValidatorException e) {
throw new AnnotatedException("Public key of issuer certificate of CRL could not be retrieved.", e);
} catch (Exception e) {
throw new RuntimeException(e.getMessage());
}
}
Set checkKeys = new HashSet();
AnnotatedException lastException = null;
for (int i = 0; i < validCerts.size(); i++) {
X509Certificate signCert = (X509Certificate) validCerts.get(i);
boolean[] keyusage = signCert.getKeyUsage();
if (keyusage != null && (keyusage.length < 7 || !keyusage[CRL_SIGN])) {
lastException = new AnnotatedException("Issuer certificate key usage extension does not permit CRL signing.");
} else {
checkKeys.add(validKeys.get(i));
}
}
if (checkKeys.isEmpty() && lastException == null) {
throw new AnnotatedException("Cannot find a valid issuer certificate.");
}
if (checkKeys.isEmpty() && lastException != null) {
throw lastException;
}
return checkKeys;
}
use of java.security.cert.CertPathBuilderException in project robovm by robovm.
the class CertPathBuilder2Test method checkResult.
private void checkResult(CertPathBuilder certBuild) throws InvalidAlgorithmParameterException, CertPathBuilderException {
String dt = CertPathBuilder.getDefaultType();
String propName = CertPathBuilder1Test.DEFAULT_TYPE_PROPERTY;
String dtN;
for (int i = 0; i < invalidValues.length; i++) {
Security.setProperty(propName, invalidValues[i]);
dtN = CertPathBuilder.getDefaultType();
if (!dtN.equals(invalidValues[i]) && !dtN.equals(dt)) {
fail("Incorrect default type: ".concat(dtN));
}
}
Security.setProperty(propName, dt);
assertEquals("Incorrect default type", CertPathBuilder.getDefaultType(), dt);
try {
certBuild.build(null);
fail("CertPathBuilderException must be thrown");
} catch (CertPathBuilderException e) {
}
CertPathBuilderResult cpbResult = certBuild.build(null);
assertNull("Not null CertPathBuilderResult", cpbResult);
}
use of java.security.cert.CertPathBuilderException in project robovm by robovm.
the class CertPathBuilderExceptionTest method testCertPathBuilderException05.
/**
* Test for <code>CertPathBuilderException(Throwable)</code> constructor
* Assertion: constructs CertPathBuilderException when <code>cause</code>
* is not null
*/
public void testCertPathBuilderException05() {
CertPathBuilderException tE = new CertPathBuilderException(tCause);
if (tE.getMessage() != null) {
String toS = tCause.toString();
String getM = tE.getMessage();
assertTrue("getMessage() should contain ".concat(toS), (getM.indexOf(toS) != -1));
}
assertNotNull("getCause() must not return null", tE.getCause());
assertEquals("getCause() must return ".concat(tCause.toString()), tE.getCause(), tCause);
}
use of java.security.cert.CertPathBuilderException in project robovm by robovm.
the class CertPathBuilderExceptionTest method testCertPathBuilderException08.
/**
* Test for <code>CertPathBuilderException(String, Throwable)</code>
* constructor Assertion: constructs CertPathBuilderException when
* <code>cause</code> is not null <code>msg</code> is null
*/
public void testCertPathBuilderException08() {
CertPathBuilderException tE = new CertPathBuilderException(null, tCause);
if (tE.getMessage() != null) {
String toS = tCause.toString();
String getM = tE.getMessage();
assertTrue("getMessage() must should ".concat(toS), (getM.indexOf(toS) != -1));
}
assertNotNull("getCause() must not return null", tE.getCause());
assertEquals("getCause() must return ".concat(tCause.toString()), tE.getCause(), tCause);
}
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