/* PKIXCertPathValidatorImpl.java -- PKIX certificate path validator. Copyright (C) 2004, 2005, 2006 Free Software Foundation, Inc. This file is part of GNU Classpath. GNU Classpath is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2, or (at your option) any later version. GNU Classpath is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with GNU Classpath; see the file COPYING. If not, write to the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA. Linking this library statically or dynamically with other modules is making a combined work based on this library. Thus, the terms and conditions of the GNU General Public License cover the whole combination. As a special exception, the copyright holders of this library give you permission to link this library with independent modules to produce an executable, regardless of the license terms of these independent modules, and to copy and distribute the resulting executable under terms of your choice, provided that you also meet, for each linked independent module, the terms and conditions of the license of that module. An independent module is a module which is not derived from or based on this library. If you modify this library, you may extend this exception to your version of the library, but you are not obligated to do so. If you do not wish to do so, delete this exception statement from your version. */ package gnu.java.security.provider; import gnu.java.security.Configuration; import gnu.java.security.OID; import gnu.java.security.Registry; import gnu.java.security.key.dss.DSSPublicKey; import gnu.java.security.x509.GnuPKIExtension; import gnu.java.security.x509.PolicyNodeImpl; import gnu.java.security.x509.X509CRLSelectorImpl; import gnu.java.security.x509.X509CertSelectorImpl; import gnu.java.security.x509.ext.BasicConstraints; import gnu.java.security.x509.ext.CertificatePolicies; import gnu.java.security.x509.ext.Extension; import gnu.java.security.x509.ext.KeyUsage; import gnu.java.security.x509.ext.PolicyConstraint; import java.io.IOException; import java.security.InvalidAlgorithmParameterException; import java.security.InvalidKeyException; import java.security.PublicKey; import java.security.cert.CRL; import java.security.cert.CertPath; import java.security.cert.CertPathParameters; import java.security.cert.CertPathValidatorException; import java.security.cert.CertPathValidatorResult; import java.security.cert.CertPathValidatorSpi; import java.security.cert.CertStore; import java.security.cert.CertStoreException; import java.security.cert.CertificateException; import java.security.cert.PKIXCertPathChecker; import java.security.cert.PKIXCertPathValidatorResult; import java.security.cert.PKIXParameters; import java.security.cert.TrustAnchor; import java.security.cert.X509CRL; import java.security.cert.X509Certificate; import java.security.interfaces.DSAParams; import java.security.interfaces.DSAPublicKey; import java.util.Arrays; import java.util.Collection; import java.util.Collections; import java.util.Date; import java.util.HashSet; import java.util.Iterator; import java.util.LinkedList; import java.util.List; import java.util.Set; import java.util.logging.Logger; /** * An implementation of the Public Key Infrastructure's X.509 certificate path * validation algorithm. *
* See RFC 3280: Internet X.509 * Public Key Infrastructure Certificate and Certificate Revocation List (CRL) * Profile. * * @author Casey Marshall (rsdio@metastatic.org) */ public class PKIXCertPathValidatorImpl extends CertPathValidatorSpi { private static final Logger log = Logger.getLogger(PKIXCertPathValidatorImpl.class.getName()); public static final String ANY_POLICY = "2.5.29.32.0"; public PKIXCertPathValidatorImpl() { super(); } public CertPathValidatorResult engineValidate(CertPath path, CertPathParameters params) throws CertPathValidatorException, InvalidAlgorithmParameterException { if (! (params instanceof PKIXParameters)) throw new InvalidAlgorithmParameterException("not a PKIXParameters object"); // First check if the certificate path is valid. // // This means that: // // (a) for all x in {1, ..., n-1}, the subject of certificate x is // the issuer of certificate x+1; // // (b) for all x in {1, ..., n}, the certificate was valid at the // time in question. // // Because this is the X.509 algorithm, we also check if all // cerificates are of type X509Certificate. PolicyNodeImpl rootNode = new PolicyNodeImpl(); Set initPolicies = ((PKIXParameters) params).getInitialPolicies(); rootNode.setValidPolicy(ANY_POLICY); rootNode.setCritical(false); rootNode.setDepth(0); if (initPolicies != null) rootNode.addAllExpectedPolicies(initPolicies); else rootNode.addExpectedPolicy(ANY_POLICY); List checks = ((PKIXParameters) params).getCertPathCheckers(); List l = path.getCertificates(); if (l == null || l.size() == 0) throw new CertPathValidatorException(); X509Certificate[] p = null; try { p = (X509Certificate[]) l.toArray(new X509Certificate[l.size()]); } catch (ClassCastException cce) { throw new CertPathValidatorException("invalid certificate path"); } String sigProvider = ((PKIXParameters) params).getSigProvider(); PublicKey prevKey = null; Date now = ((PKIXParameters) params).getDate(); if (now == null) now = new Date(); LinkedList policyConstraints = new LinkedList(); for (int i = p.length - 1; i >= 0; i--) { try { p[i].checkValidity(now); } catch (CertificateException ce) { throw new CertPathValidatorException(ce.toString()); } Set uce = getCritExts(p[i]); for (Iterator check = checks.iterator(); check.hasNext();) { try { ((PKIXCertPathChecker) check.next()).check(p[i], uce); } catch (Exception x) { } } PolicyConstraint constr = null; if (p[i] instanceof GnuPKIExtension) { Extension pcx = ((GnuPKIExtension) p[i]).getExtension(PolicyConstraint.ID); if (pcx != null) constr = (PolicyConstraint) pcx.getValue(); } else { byte[] pcx = p[i].getExtensionValue(PolicyConstraint.ID.toString()); if (pcx != null) { try { constr = new PolicyConstraint(pcx); } catch (Exception x) { } } } if (constr != null && constr.getRequireExplicitPolicy() >= 0) policyConstraints.add(new int[] { p.length - i, constr.getRequireExplicitPolicy() }); updatePolicyTree(p[i], rootNode, p.length - i, (PKIXParameters) params, checkExplicitPolicy(p.length - i, policyConstraints)); // The rest of the tests involve this cert's relationship with the // next in the path. If this cert is the end entity, we can stop. if (i == 0) break; basicSanity(p, i); PublicKey pubKey = null; try { pubKey = p[i].getPublicKey(); if (pubKey instanceof DSAPublicKey) { DSAParams dsa = ((DSAPublicKey) pubKey).getParams(); // If the DSA public key is missing its parameters, use those // from the previous cert's key. if (dsa == null || dsa.getP() == null || dsa.getG() == null || dsa.getQ() == null) { if (prevKey == null) throw new InvalidKeyException("DSA keys not chainable"); if (! (prevKey instanceof DSAPublicKey)) throw new InvalidKeyException("DSA keys not chainable"); dsa = ((DSAPublicKey) prevKey).getParams(); pubKey = new DSSPublicKey(Registry.X509_ENCODING_ID, dsa.getP(), dsa.getQ(), dsa.getG(), ((DSAPublicKey) pubKey).getY()); } } if (sigProvider == null) p[i - 1].verify(pubKey); else p[i - 1].verify(pubKey, sigProvider); prevKey = pubKey; } catch (Exception e) { throw new CertPathValidatorException(e.toString()); } if (! p[i].getSubjectDN().equals(p[i - 1].getIssuerDN())) throw new CertPathValidatorException("issuer DN mismatch"); boolean[] issuerUid = p[i - 1].getIssuerUniqueID(); boolean[] subjectUid = p[i].getSubjectUniqueID(); if (issuerUid != null && subjectUid != null) if (! Arrays.equals(issuerUid, subjectUid)) throw new CertPathValidatorException("UID mismatch"); // Check the certificate against the revocation lists. if (((PKIXParameters) params).isRevocationEnabled()) { X509CRLSelectorImpl selector = new X509CRLSelectorImpl(); try { selector.addIssuerName(p[i].getSubjectDN()); } catch (IOException ioe) { throw new CertPathValidatorException("error selecting CRLs"); } List certStores = ((PKIXParameters) params).getCertStores(); List crls = new LinkedList(); for (Iterator it = certStores.iterator(); it.hasNext();) { CertStore cs = (CertStore) it.next(); try { Collection c = cs.getCRLs(selector); crls.addAll(c); } catch (CertStoreException cse) { } } if (crls.isEmpty()) throw new CertPathValidatorException("no CRLs for issuer"); boolean certOk = false; for (Iterator it = crls.iterator(); it.hasNext();) { CRL crl = (CRL) it.next(); if (! (crl instanceof X509CRL)) continue; X509CRL xcrl = (X509CRL) crl; if (! checkCRL(xcrl, p, now, p[i], pubKey, certStores)) continue; if (xcrl.isRevoked(p[i - 1])) throw new CertPathValidatorException("certificate is revoked"); else certOk = true; } if (! certOk) throw new CertPathValidatorException( "certificate's validity could not be determined"); } } rootNode.setReadOnly(); // Now ensure that the first certificate in the chain was issued // by a trust anchor. Exception cause = null; Set anchors = ((PKIXParameters) params).getTrustAnchors(); for (Iterator i = anchors.iterator(); i.hasNext();) { TrustAnchor anchor = (TrustAnchor) i.next(); X509Certificate anchorCert = null; PublicKey anchorKey = null; if (anchor.getTrustedCert() != null) { anchorCert = anchor.getTrustedCert(); anchorKey = anchorCert.getPublicKey(); } else anchorKey = anchor.getCAPublicKey(); if (anchorKey == null) continue; try { if (anchorCert != null) anchorCert.checkValidity(now); p[p.length - 1].verify(anchorKey); if (anchorCert != null && anchorCert.getBasicConstraints() >= 0 && anchorCert.getBasicConstraints() < p.length) continue; if (((PKIXParameters) params).isRevocationEnabled()) { X509CRLSelectorImpl selector = new X509CRLSelectorImpl(); if (anchorCert != null) try { selector.addIssuerName(anchorCert.getSubjectDN()); } catch (IOException ioe) { } else selector.addIssuerName(anchor.getCAName()); List certStores = ((PKIXParameters) params).getCertStores(); List crls = new LinkedList(); for (Iterator it = certStores.iterator(); it.hasNext();) { CertStore cs = (CertStore) it.next(); try { Collection c = cs.getCRLs(selector); crls.addAll(c); } catch (CertStoreException cse) { } } if (crls.isEmpty()) continue; for (Iterator it = crls.iterator(); it.hasNext();) { CRL crl = (CRL) it.next(); if (! (crl instanceof X509CRL)) continue; X509CRL xcrl = (X509CRL) crl; try { xcrl.verify(anchorKey); } catch (Exception x) { continue; } Date nextUpdate = xcrl.getNextUpdate(); if (nextUpdate != null && nextUpdate.compareTo(now) < 0) continue; if (xcrl.isRevoked(p[p.length - 1])) throw new CertPathValidatorException("certificate is revoked"); } } // The chain is valid; return the result. return new PKIXCertPathValidatorResult(anchor, rootNode, p[0].getPublicKey()); } catch (Exception ignored) { cause = ignored; continue; } } // The path is not valid. CertPathValidatorException cpve = new CertPathValidatorException("path validation failed"); if (cause != null) cpve.initCause(cause); throw cpve; } /** * Check if a given CRL is acceptable for checking the revocation status of * certificates in the path being checked. *
* The CRL is accepted iff: *
index
.
*/
private static void basicSanity(X509Certificate[] path, int index)
throws CertPathValidatorException
{
X509Certificate cert = path[index];
int pathLen = 0;
for (int i = index - 1; i > 0; i--)
{
if (! path[i].getIssuerDN().equals(path[i].getSubjectDN()))
pathLen++;
}
Extension e = null;
if (cert instanceof GnuPKIExtension)
{
e = ((GnuPKIExtension) cert).getExtension(BasicConstraints.ID);
}
else
{
try
{
e = new Extension(cert.getExtensionValue(BasicConstraints.ID.toString()));
}
catch (Exception x)
{
}
}
if (e == null)
throw new CertPathValidatorException("no basicConstraints");
BasicConstraints bc = (BasicConstraints) e.getValue();
if (! bc.isCA())
throw new CertPathValidatorException(
"certificate cannot be used to verify signatures");
if (bc.getPathLengthConstraint() >= 0
&& bc.getPathLengthConstraint() < pathLen)
throw new CertPathValidatorException("path is too long");
boolean[] keyUsage = cert.getKeyUsage();
if (keyUsage != null)
{
if (! keyUsage[KeyUsage.KEY_CERT_SIGN])
throw new CertPathValidatorException(
"certificate cannot be used to sign certificates");
}
}
private static void updatePolicyTree(X509Certificate cert,
PolicyNodeImpl root, int depth,
PKIXParameters params,
boolean explicitPolicy)
throws CertPathValidatorException
{
if (Configuration.DEBUG)
log.fine("updatePolicyTree depth == " + depth);
Set nodes = new HashSet();
LinkedList stack = new LinkedList();
Iterator current = null;
stack.addLast(Collections.singleton(root).iterator());
do
{
current = (Iterator) stack.removeLast();
while (current.hasNext())
{
PolicyNodeImpl p = (PolicyNodeImpl) current.next();
if (Configuration.DEBUG)
log.fine("visiting node == " + p);
if (p.getDepth() == depth - 1)
{
if (Configuration.DEBUG)
log.fine("added node");
nodes.add(p);
}
else
{
if (Configuration.DEBUG)
log.fine("skipped node");
stack.addLast(current);
current = p.getChildren();
}
}
}
while (! stack.isEmpty());
Extension e = null;
CertificatePolicies policies = null;
List qualifierInfos = null;
if (cert instanceof GnuPKIExtension)
{
e = ((GnuPKIExtension) cert).getExtension(CertificatePolicies.ID);
if (e != null)
policies = (CertificatePolicies) e.getValue();
}
List cp = null;
if (policies != null)
cp = policies.getPolicies();
else
cp = Collections.EMPTY_LIST;
boolean match = false;
if (Configuration.DEBUG)
{
log.fine("nodes are == " + nodes);
log.fine("cert policies are == " + cp);
}
for (Iterator it = nodes.iterator(); it.hasNext();)
{
PolicyNodeImpl parent = (PolicyNodeImpl) it.next();
if (Configuration.DEBUG)
log.fine("adding policies to " + parent);
for (Iterator it2 = cp.iterator(); it2.hasNext();)
{
OID policy = (OID) it2.next();
if (Configuration.DEBUG)
log.fine("trying to add policy == " + policy);
if (policy.toString().equals(ANY_POLICY)
&& params.isAnyPolicyInhibited())
continue;
PolicyNodeImpl child = new PolicyNodeImpl();
child.setValidPolicy(policy.toString());
child.addExpectedPolicy(policy.toString());
if (parent.getExpectedPolicies().contains(policy.toString()))
{
parent.addChild(child);
match = true;
}
else if (parent.getExpectedPolicies().contains(ANY_POLICY))
{
parent.addChild(child);
match = true;
}
else if (ANY_POLICY.equals(policy.toString()))
{
parent.addChild(child);
match = true;
}
if (match && policies != null)
{
List qualifiers = policies.getPolicyQualifierInfos(policy);
if (qualifiers != null)
child.addAllPolicyQualifiers(qualifiers);
}
}
}
if (! match && (params.isExplicitPolicyRequired() || explicitPolicy))
throw new CertPathValidatorException("policy tree building failed");
}
private boolean checkExplicitPolicy(int depth, List explicitPolicies)
{
if (Configuration.DEBUG)
log.fine("checkExplicitPolicy depth=" + depth);
for (Iterator it = explicitPolicies.iterator(); it.hasNext();)
{
int[] i = (int[]) it.next();
int caDepth = i[0];
int limit = i[1];
if (Configuration.DEBUG)
log.fine(" caDepth=" + caDepth + " limit=" + limit);
if (depth - caDepth >= limit)
return true;
}
return false;
}
}