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package sun.security.provider.certpath;
import java.io.IOException;
import java.security.GeneralSecurityException;
import java.security.InvalidAlgorithmParameterException;
import java.security.PublicKey;
import java.security.cert.*;
import java.security.cert.CertPathValidatorException.BasicReason;
import java.security.cert.PKIXReason;
import java.util.ArrayList;
import java.util.Collection;
import java.util.Collections;
import java.util.List;
import java.util.LinkedList;
import java.util.Set;
import javax.security.auth.x500.X500Principal;
import sun.security.provider.certpath.PKIX.BuilderParams;
import static sun.security.x509.PKIXExtensions.*;
import sun.security.util.Debug;
This class builds certification paths in the forward direction.
If successful, it returns a certification path which has successfully
satisfied all the constraints and requirements specified in the
PKIXBuilderParameters object and has been validated according to the PKIX
path validation algorithm defined in RFC 5280.
This implementation uses a depth-first search approach to finding
certification paths. If it comes to a point in which it cannot find
any more certificates leading to the target OR the path length is too long
it backtracks to previous paths until the target has been found or
all possible paths have been exhausted.
This implementation is not thread-safe.
Author: Sean Mullan, Yassir Elley Since: 1.4
/**
* This class builds certification paths in the forward direction.
*
* <p> If successful, it returns a certification path which has successfully
* satisfied all the constraints and requirements specified in the
* PKIXBuilderParameters object and has been validated according to the PKIX
* path validation algorithm defined in RFC 5280.
*
* <p> This implementation uses a depth-first search approach to finding
* certification paths. If it comes to a point in which it cannot find
* any more certificates leading to the target OR the path length is too long
* it backtracks to previous paths until the target has been found or
* all possible paths have been exhausted.
*
* <p> This implementation is not thread-safe.
*
* @since 1.4
* @author Sean Mullan
* @author Yassir Elley
*/
public final class SunCertPathBuilder extends CertPathBuilderSpi {
private static final Debug debug = Debug.getInstance("certpath");
/*
* private objects shared by methods
*/
private BuilderParams buildParams;
private CertificateFactory cf;
private boolean pathCompleted = false;
private PolicyNode policyTreeResult;
private TrustAnchor trustAnchor;
private PublicKey finalPublicKey;
Create an instance of SunCertPathBuilder
.
Throws: - CertPathBuilderException – if an error occurs
/**
* Create an instance of <code>SunCertPathBuilder</code>.
*
* @throws CertPathBuilderException if an error occurs
*/
public SunCertPathBuilder() throws CertPathBuilderException {
try {
cf = CertificateFactory.getInstance("X.509");
} catch (CertificateException e) {
throw new CertPathBuilderException(e);
}
}
@Override
public CertPathChecker engineGetRevocationChecker() {
return new RevocationChecker();
}
Attempts to build a certification path using the Sun build
algorithm from a trusted anchor(s) to a target subject, which must both
be specified in the input parameter set. This method will
attempt to build in the forward direction: from the target to the CA.
The certification path that is constructed is validated
according to the PKIX specification.
Params: - params – the parameter set for building a path. Must be an instance
of
PKIXBuilderParameters
.
Throws: - CertPathBuilderException – Exception thrown if builder is
unable to build a complete certification path from the trusted anchor(s)
to the target subject.
- InvalidAlgorithmParameterException – if the given parameters are
inappropriate for this certification path builder.
Returns: a certification path builder result.
/**
* Attempts to build a certification path using the Sun build
* algorithm from a trusted anchor(s) to a target subject, which must both
* be specified in the input parameter set. This method will
* attempt to build in the forward direction: from the target to the CA.
*
* <p>The certification path that is constructed is validated
* according to the PKIX specification.
*
* @param params the parameter set for building a path. Must be an instance
* of <code>PKIXBuilderParameters</code>.
* @return a certification path builder result.
* @exception CertPathBuilderException Exception thrown if builder is
* unable to build a complete certification path from the trusted anchor(s)
* to the target subject.
* @throws InvalidAlgorithmParameterException if the given parameters are
* inappropriate for this certification path builder.
*/
@Override
public CertPathBuilderResult engineBuild(CertPathParameters params)
throws CertPathBuilderException, InvalidAlgorithmParameterException {
if (debug != null) {
debug.println("SunCertPathBuilder.engineBuild(" + params + ")");
}
buildParams = PKIX.checkBuilderParams(params);
return build();
}
private PKIXCertPathBuilderResult build() throws CertPathBuilderException {
List<List<Vertex>> adjList = new ArrayList<>();
PKIXCertPathBuilderResult result = buildCertPath(false, adjList);
if (result == null) {
if (debug != null) {
debug.println("SunCertPathBuilder.engineBuild: 2nd pass; " +
"try building again searching all certstores");
}
// try again
adjList.clear();
result = buildCertPath(true, adjList);
if (result == null) {
throw new SunCertPathBuilderException("unable to find valid "
+ "certification path to requested target",
new AdjacencyList(adjList));
}
}
return result;
}
private PKIXCertPathBuilderResult buildCertPath(boolean searchAllCertStores,
List<List<Vertex>> adjList)
throws CertPathBuilderException
{
// Init shared variables and build certification path
pathCompleted = false;
trustAnchor = null;
finalPublicKey = null;
policyTreeResult = null;
LinkedList<X509Certificate> certPathList = new LinkedList<>();
try {
buildForward(adjList, certPathList, searchAllCertStores);
} catch (GeneralSecurityException | IOException e) {
if (debug != null) {
debug.println("SunCertPathBuilder.engineBuild() exception in "
+ "build");
e.printStackTrace();
}
throw new SunCertPathBuilderException("unable to find valid "
+ "certification path to requested target", e,
new AdjacencyList(adjList));
}
// construct SunCertPathBuilderResult
try {
if (pathCompleted) {
if (debug != null)
debug.println("SunCertPathBuilder.engineBuild() "
+ "pathCompleted");
// we must return a certpath which has the target
// as the first cert in the certpath - i.e. reverse
// the certPathList
Collections.reverse(certPathList);
return new SunCertPathBuilderResult(
cf.generateCertPath(certPathList), trustAnchor,
policyTreeResult, finalPublicKey,
new AdjacencyList(adjList));
}
} catch (CertificateException e) {
if (debug != null) {
debug.println("SunCertPathBuilder.engineBuild() exception "
+ "in wrap-up");
e.printStackTrace();
}
throw new SunCertPathBuilderException("unable to find valid "
+ "certification path to requested target", e,
new AdjacencyList(adjList));
}
return null;
}
/*
* Private build forward method.
*/
private void buildForward(List<List<Vertex>> adjacencyList,
LinkedList<X509Certificate> certPathList,
boolean searchAllCertStores)
throws GeneralSecurityException, IOException
{
if (debug != null) {
debug.println("SunCertPathBuilder.buildForward()...");
}
/* Initialize current state */
ForwardState currentState = new ForwardState();
currentState.initState(buildParams.certPathCheckers());
/* Initialize adjacency list */
adjacencyList.clear();
adjacencyList.add(new LinkedList<Vertex>());
currentState.untrustedChecker = new UntrustedChecker();
depthFirstSearchForward(buildParams.targetSubject(), currentState,
new ForwardBuilder(buildParams,
searchAllCertStores),
adjacencyList, certPathList);
}
/*
* This method performs a depth first search for a certification
* path while building forward which meets the requirements set in
* the parameters object.
* It uses an adjacency list to store all certificates which were
* tried (i.e. at one time added to the path - they may not end up in
* the final path if backtracking occurs). This information can
* be used later to debug or demo the build.
*
* See "Data Structure and Algorithms, by Aho, Hopcroft, and Ullman"
* for an explanation of the DFS algorithm.
*
* @param dN the distinguished name being currently searched for certs
* @param currentState the current PKIX validation state
*/
private void depthFirstSearchForward(X500Principal dN,
ForwardState currentState,
ForwardBuilder builder,
List<List<Vertex>> adjList,
LinkedList<X509Certificate> cpList)
throws GeneralSecurityException, IOException
{
if (debug != null) {
debug.println("SunCertPathBuilder.depthFirstSearchForward(" + dN
+ ", " + currentState.toString() + ")");
}
/*
* Find all the certificates issued to dN which
* satisfy the PKIX certification path constraints.
*/
Collection<X509Certificate> certs =
builder.getMatchingCerts(currentState, buildParams.certStores());
List<Vertex> vertices = addVertices(certs, adjList);
if (debug != null) {
debug.println("SunCertPathBuilder.depthFirstSearchForward(): "
+ "certs.size=" + vertices.size());
}
/*
* For each cert in the collection, verify anything
* that hasn't been checked yet (signature, revocation, etc)
* and check for loops. Call depthFirstSearchForward()
* recursively for each good cert.
*/
vertices:
for (Vertex vertex : vertices) {
/**
* Restore state to currentState each time through the loop.
* This is important because some of the user-defined
* checkers modify the state, which MUST be restored if
* the cert eventually fails to lead to the target and
* the next matching cert is tried.
*/
ForwardState nextState = (ForwardState) currentState.clone();
X509Certificate cert = vertex.getCertificate();
try {
builder.verifyCert(cert, nextState, cpList);
} catch (GeneralSecurityException gse) {
if (debug != null) {
debug.println("SunCertPathBuilder.depthFirstSearchForward()"
+ ": validation failed: " + gse);
gse.printStackTrace();
}
vertex.setThrowable(gse);
continue;
}
/*
* Certificate is good.
* If cert completes the path,
* process userCheckers that don't support forward checking
* and process policies over whole path
* and backtrack appropriately if there is a failure
* else if cert does not complete the path,
* add it to the path
*/
if (builder.isPathCompleted(cert)) {
if (debug != null)
debug.println("SunCertPathBuilder.depthFirstSearchForward()"
+ ": commencing final verification");
List<X509Certificate> appendedCerts = new ArrayList<>(cpList);
/*
* if the trust anchor selected is specified as a trusted
* public key rather than a trusted cert, then verify this
* cert (which is signed by the trusted public key), but
* don't add it yet to the cpList
*/
if (builder.trustAnchor.getTrustedCert() == null) {
appendedCerts.add(0, cert);
}
Set<String> initExpPolSet =
Collections.singleton(PolicyChecker.ANY_POLICY);
PolicyNodeImpl rootNode = new PolicyNodeImpl(null,
PolicyChecker.ANY_POLICY, null, false, initExpPolSet, false);
List<PKIXCertPathChecker> checkers = new ArrayList<>();
PolicyChecker policyChecker
= new PolicyChecker(buildParams.initialPolicies(),
appendedCerts.size(),
buildParams.explicitPolicyRequired(),
buildParams.policyMappingInhibited(),
buildParams.anyPolicyInhibited(),
buildParams.policyQualifiersRejected(),
rootNode);
checkers.add(policyChecker);
// add the algorithm checker
checkers.add(new AlgorithmChecker(builder.trustAnchor,
buildParams.date(), buildParams.variant()));
BasicChecker basicChecker = null;
if (nextState.keyParamsNeeded()) {
PublicKey rootKey = cert.getPublicKey();
if (builder.trustAnchor.getTrustedCert() == null) {
rootKey = builder.trustAnchor.getCAPublicKey();
if (debug != null)
debug.println(
"SunCertPathBuilder.depthFirstSearchForward " +
"using buildParams public key: " +
rootKey.toString());
}
TrustAnchor anchor = new TrustAnchor
(cert.getSubjectX500Principal(), rootKey, null);
// add the basic checker
basicChecker = new BasicChecker(anchor, buildParams.date(),
buildParams.sigProvider(),
true);
checkers.add(basicChecker);
}
buildParams.setCertPath(cf.generateCertPath(appendedCerts));
boolean revCheckerAdded = false;
List<PKIXCertPathChecker> ckrs = buildParams.certPathCheckers();
for (PKIXCertPathChecker ckr : ckrs) {
if (ckr instanceof PKIXRevocationChecker) {
if (revCheckerAdded) {
throw new CertPathValidatorException(
"Only one PKIXRevocationChecker can be specified");
}
revCheckerAdded = true;
// if it's our own, initialize it
if (ckr instanceof RevocationChecker) {
((RevocationChecker)ckr).init(builder.trustAnchor,
buildParams);
}
}
}
// only add a RevocationChecker if revocation is enabled and
// a PKIXRevocationChecker has not already been added
if (buildParams.revocationEnabled() && !revCheckerAdded) {
checkers.add(new RevocationChecker(builder.trustAnchor,
buildParams));
}
checkers.addAll(ckrs);
// Why we don't need BasicChecker and RevocationChecker
// if nextState.keyParamsNeeded() is false?
for (int i = 0; i < appendedCerts.size(); i++) {
X509Certificate currCert = appendedCerts.get(i);
if (debug != null)
debug.println("current subject = "
+ currCert.getSubjectX500Principal());
Set<String> unresCritExts =
currCert.getCriticalExtensionOIDs();
if (unresCritExts == null) {
unresCritExts = Collections.<String>emptySet();
}
for (PKIXCertPathChecker currChecker : checkers) {
if (!currChecker.isForwardCheckingSupported()) {
if (i == 0) {
currChecker.init(false);
// The user specified
// AlgorithmChecker may not be
// able to set the trust anchor until now.
if (currChecker instanceof AlgorithmChecker) {
((AlgorithmChecker)currChecker).
trySetTrustAnchor(builder.trustAnchor);
}
}
try {
currChecker.check(currCert, unresCritExts);
} catch (CertPathValidatorException cpve) {
if (debug != null)
debug.println
("SunCertPathBuilder.depthFirstSearchForward(): " +
"final verification failed: " + cpve);
// If the target cert itself is revoked, we
// cannot trust it. We can bail out here.
if (buildParams.targetCertConstraints().match(currCert)
&& cpve.getReason() == BasicReason.REVOKED) {
throw cpve;
}
vertex.setThrowable(cpve);
continue vertices;
}
}
}
/*
* Remove extensions from user checkers that support
* forward checking. After this step, we will have
* removed all extensions that all user checkers
* are capable of processing.
*/
for (PKIXCertPathChecker checker :
buildParams.certPathCheckers())
{
if (checker.isForwardCheckingSupported()) {
Set<String> suppExts =
checker.getSupportedExtensions();
if (suppExts != null) {
unresCritExts.removeAll(suppExts);
}
}
}
if (!unresCritExts.isEmpty()) {
unresCritExts.remove(BasicConstraints_Id.toString());
unresCritExts.remove(NameConstraints_Id.toString());
unresCritExts.remove(CertificatePolicies_Id.toString());
unresCritExts.remove(PolicyMappings_Id.toString());
unresCritExts.remove(PolicyConstraints_Id.toString());
unresCritExts.remove(InhibitAnyPolicy_Id.toString());
unresCritExts.remove(
SubjectAlternativeName_Id.toString());
unresCritExts.remove(KeyUsage_Id.toString());
unresCritExts.remove(ExtendedKeyUsage_Id.toString());
if (!unresCritExts.isEmpty()) {
throw new CertPathValidatorException
("unrecognized critical extension(s)", null,
null, -1, PKIXReason.UNRECOGNIZED_CRIT_EXT);
}
}
}
if (debug != null)
debug.println("SunCertPathBuilder.depthFirstSearchForward()"
+ ": final verification succeeded - path completed!");
pathCompleted = true;
/*
* if the user specified a trusted public key rather than
* trusted certs, then add this cert (which is signed by
* the trusted public key) to the cpList
*/
if (builder.trustAnchor.getTrustedCert() == null)
builder.addCertToPath(cert, cpList);
// Save the trust anchor
this.trustAnchor = builder.trustAnchor;
/*
* Extract and save the final target public key
*/
if (basicChecker != null) {
finalPublicKey = basicChecker.getPublicKey();
} else {
Certificate finalCert;
if (cpList.isEmpty()) {
finalCert = builder.trustAnchor.getTrustedCert();
} else {
finalCert = cpList.getLast();
}
finalPublicKey = finalCert.getPublicKey();
}
policyTreeResult = policyChecker.getPolicyTree();
return;
} else {
builder.addCertToPath(cert, cpList);
}
/* Update the PKIX state */
nextState.updateState(cert);
/*
* Append an entry for cert in adjacency list and
* set index for current vertex.
*/
adjList.add(new LinkedList<Vertex>());
vertex.setIndex(adjList.size() - 1);
/* recursively search for matching certs at next dN */
depthFirstSearchForward(cert.getIssuerX500Principal(), nextState,
builder, adjList, cpList);
/*
* If path has been completed, return ASAP!
*/
if (pathCompleted) {
return;
} else {
/*
* If we get here, it means we have searched all possible
* certs issued by the dN w/o finding any matching certs.
* This means we have to backtrack to the previous cert in
* the path and try some other paths.
*/
if (debug != null)
debug.println("SunCertPathBuilder.depthFirstSearchForward()"
+ ": backtracking");
builder.removeFinalCertFromPath(cpList);
}
}
}
/*
* Adds a collection of matching certificates to the
* adjacency list.
*/
private static List<Vertex> addVertices(Collection<X509Certificate> certs,
List<List<Vertex>> adjList)
{
List<Vertex> l = adjList.get(adjList.size() - 1);
for (X509Certificate cert : certs) {
Vertex v = new Vertex(cert);
l.add(v);
}
return l;
}
Returns true if trust anchor certificate matches specified
certificate constraints.
/**
* Returns true if trust anchor certificate matches specified
* certificate constraints.
*/
private static boolean anchorIsTarget(TrustAnchor anchor,
CertSelector sel)
{
X509Certificate anchorCert = anchor.getTrustedCert();
if (anchorCert != null) {
return sel.match(anchorCert);
}
return false;
}
}