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Qetcher Java client, OSGi bundle, minimal dependencies
/*
* Copyright (C) 2016 The Android Open Source Project
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
// License from Apache Harmony:
/*
* Licensed to the Apache Software Foundation (ASF) under one or more
* contributor license agreements. See the NOTICE file distributed with
* this work for additional information regarding copyright ownership.
* The ASF licenses this file to You under the Apache License, Version 2.0
* (the "License"); you may not use this file except in compliance with
* the License. You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
package org.conscrypt;
import java.lang.reflect.InvocationTargetException;
import java.lang.reflect.Method;
import java.net.Socket;
import java.security.InvalidAlgorithmParameterException;
import java.security.KeyStore;
import java.security.KeyStoreException;
import java.security.cert.CertPath;
import java.security.cert.CertPathValidator;
import java.security.cert.CertPathValidatorException;
import java.security.cert.Certificate;
import java.security.cert.CertificateException;
import java.security.cert.CertificateFactory;
import java.security.cert.CertificateParsingException;
import java.security.cert.PKIXCertPathChecker;
import java.security.cert.PKIXParameters;
import java.security.cert.PKIXRevocationChecker;
import java.security.cert.PKIXRevocationChecker.Option;
import java.security.cert.TrustAnchor;
import java.security.cert.X509Certificate;
import java.util.ArrayList;
import java.util.Arrays;
import java.util.Collection;
import java.util.Collections;
import java.util.Comparator;
import java.util.Enumeration;
import java.util.HashSet;
import java.util.List;
import java.util.Locale;
import java.util.Set;
import javax.net.ssl.HostnameVerifier;
import javax.net.ssl.HttpsURLConnection;
import javax.net.ssl.SSLEngine;
import javax.net.ssl.SSLParameters;
import javax.net.ssl.SSLSession;
import javax.net.ssl.SSLSocket;
import javax.net.ssl.X509ExtendedTrustManager;
import org.conscrypt.ct.CTLogStore;
import org.conscrypt.ct.CTPolicy;
import org.conscrypt.ct.CTVerificationResult;
import org.conscrypt.ct.CTVerifier;
/**
*
* TrustManager implementation. The implementation is based on CertPathValidator
* PKIX and CertificateFactory X509 implementations. This implementations should
* be provided by some certification provider.
*
* @see javax.net.ssl.X509ExtendedTrustManager
* @hide
*/
@Internal
public final class TrustManagerImpl extends X509ExtendedTrustManager {
/**
* Comparator used for ordering trust anchors during certificate path building.
*/
private static final TrustAnchorComparator TRUST_ANCHOR_COMPARATOR =
new TrustAnchorComparator();
/**
* The AndroidCAStore if non-null, null otherwise.
*/
private final KeyStore rootKeyStore;
/**
* The CertPinManager, which validates the chain against a host-to-pin mapping
*/
private CertPinManager pinManager;
/**
* The backing store for the AndroidCAStore if non-null. This will
* be null when the rootKeyStore is null, implying we are not
* using the AndroidCAStore.
*/
private final ConscryptCertStore trustedCertificateStore;
private final CertPathValidator validator;
/**
* An index of TrustAnchor instances that we've seen.
*/
private final TrustedCertificateIndex trustedCertificateIndex;
/**
* An index of intermediate certificates that we've seen. These certificates are NOT implicitly
* trusted and must still form a valid chain to an anchor.
*/
private final TrustedCertificateIndex intermediateIndex;
/**
* This is lazily initialized in the AndroidCAStore case since it
* forces us to bring all the CAs into memory. In the
* non-AndroidCAStore, we initialize this as part of the
* constructor.
*/
private final X509Certificate[] acceptedIssuers;
private final Exception err;
private final CertificateFactory factory;
private final CertBlacklist blacklist;
private CTVerifier ctVerifier;
private CTPolicy ctPolicy;
// Forces CT verification to always to done. For tests.
private boolean ctEnabledOverride;
/**
* Creates X509TrustManager based on a keystore
*
* @param keyStore
*/
public TrustManagerImpl(KeyStore keyStore) {
this(keyStore, null);
}
public TrustManagerImpl(KeyStore keyStore, CertPinManager manager) {
this(keyStore, manager, null);
}
public TrustManagerImpl(KeyStore keyStore, CertPinManager manager,
ConscryptCertStore certStore) {
this(keyStore, manager, certStore, null);
}
public TrustManagerImpl(KeyStore keyStore, CertPinManager manager,
ConscryptCertStore certStore,
CertBlacklist blacklist) {
this(keyStore, manager, certStore, blacklist, null, null, null);
}
/**
* For testing only.
*/
public TrustManagerImpl(KeyStore keyStore, CertPinManager manager,
ConscryptCertStore certStore, CertBlacklist blacklist, CTLogStore ctLogStore,
CTVerifier ctVerifier, CTPolicy ctPolicy) {
CertPathValidator validatorLocal = null;
CertificateFactory factoryLocal = null;
KeyStore rootKeyStoreLocal = null;
ConscryptCertStore trustedCertificateStoreLocal = null;
TrustedCertificateIndex trustedCertificateIndexLocal = null;
X509Certificate[] acceptedIssuersLocal = null;
Exception errLocal = null;
try {
validatorLocal = CertPathValidator.getInstance("PKIX");
factoryLocal = CertificateFactory.getInstance("X509");
// if we have an AndroidCAStore, we will lazily load CAs
if ("AndroidCAStore".equals(keyStore.getType())
&& Platform.supportsConscryptCertStore()) {
rootKeyStoreLocal = keyStore;
trustedCertificateStoreLocal =
(certStore != null) ? certStore : Platform.newDefaultCertStore();
acceptedIssuersLocal = null;
trustedCertificateIndexLocal = new TrustedCertificateIndex();
} else {
rootKeyStoreLocal = null;
trustedCertificateStoreLocal = certStore;
acceptedIssuersLocal = acceptedIssuers(keyStore);
trustedCertificateIndexLocal
= new TrustedCertificateIndex(trustAnchors(acceptedIssuersLocal));
}
} catch (Exception e) {
errLocal = e;
}
if (blacklist == null) {
blacklist = Platform.newDefaultBlacklist();
}
if (ctLogStore == null) {
ctLogStore = Platform.newDefaultLogStore();
}
if (ctPolicy == null) {
ctPolicy = Platform.newDefaultPolicy(ctLogStore);
}
this.pinManager = manager;
this.rootKeyStore = rootKeyStoreLocal;
this.trustedCertificateStore = trustedCertificateStoreLocal;
this.validator = validatorLocal;
this.factory = factoryLocal;
this.trustedCertificateIndex = trustedCertificateIndexLocal;
this.intermediateIndex = new TrustedCertificateIndex();
this.acceptedIssuers = acceptedIssuersLocal;
this.err = errLocal;
this.blacklist = blacklist;
this.ctVerifier = new CTVerifier(ctLogStore);
this.ctPolicy = ctPolicy;
}
private static X509Certificate[] acceptedIssuers(KeyStore ks) {
try {
// Note that unlike the PKIXParameters code to create a Set of
// TrustAnchors from a KeyStore, this version takes from both
// TrustedCertificateEntry and PrivateKeyEntry, not just
// TrustedCertificateEntry, which is why TrustManagerImpl
// cannot just use an PKIXParameters(KeyStore)
// constructor.
// TODO remove duplicates if same cert is found in both a
// PrivateKeyEntry and TrustedCertificateEntry
List trusted = new ArrayList();
for (Enumeration en = ks.aliases(); en.hasMoreElements();) {
final String alias = en.nextElement();
final X509Certificate cert = (X509Certificate) ks.getCertificate(alias);
if (cert != null) {
trusted.add(cert);
}
}
return trusted.toArray(new X509Certificate[trusted.size()]);
} catch (KeyStoreException e) {
return new X509Certificate[0];
}
}
private static Set trustAnchors(X509Certificate[] certs) {
Set trustAnchors = new HashSet(certs.length);
for (X509Certificate cert : certs) {
trustAnchors.add(new TrustAnchor(cert, null));
}
return trustAnchors;
}
@Override
public void checkClientTrusted(X509Certificate[] chain, String authType)
throws CertificateException {
checkTrusted(chain, authType, null, null, true /* client auth */);
}
/**
* For backward compatibility with older Android API that used String for the hostname only.
*/
public List checkClientTrusted(X509Certificate[] chain, String authType,
String hostname) throws CertificateException {
return checkTrusted(chain, null /* ocspData */, null /* tlsSctData */, authType, hostname,
true);
}
private static SSLSession getHandshakeSessionOrThrow(SSLSocket sslSocket)
throws CertificateException {
SSLSession session = sslSocket.getHandshakeSession();
if (session == null) {
throw new CertificateException("Not in handshake; no session available");
}
return session;
}
@Override
public void checkClientTrusted(X509Certificate[] chain, String authType, Socket socket)
throws CertificateException {
SSLSession session = null;
SSLParameters parameters = null;
if (socket instanceof SSLSocket) {
SSLSocket sslSocket = (SSLSocket) socket;
session = getHandshakeSessionOrThrow(sslSocket);
parameters = sslSocket.getSSLParameters();
}
checkTrusted(chain, authType, session, parameters, true /* client auth */);
}
@Override
public void checkClientTrusted(X509Certificate[] chain, String authType, SSLEngine engine)
throws CertificateException {
SSLSession session = engine.getHandshakeSession();
if (session == null) {
throw new CertificateException("Not in handshake; no session available");
}
checkTrusted(chain, authType, session, engine.getSSLParameters(), true /* client auth */);
}
@Override
public void checkServerTrusted(X509Certificate[] chain, String authType)
throws CertificateException {
checkTrusted(chain, authType, null, null, false /* client auth */);
}
/**
* For backward compatibility with older Android API that used String for the hostname only.
*/
public List checkServerTrusted(X509Certificate[] chain, String authType,
String hostname) throws CertificateException {
return checkTrusted(chain, null /* ocspData */, null /* tlsSctData */, authType, hostname,
false);
}
/**
* Returns the full trusted certificate chain found from {@code certs}.
*
* Throws {@link CertificateException} when no trusted chain can be found from {@code certs}.
*/
public List getTrustedChainForServer(X509Certificate[] certs,
String authType, Socket socket) throws CertificateException {
SSLSession session = null;
SSLParameters parameters = null;
if (socket instanceof SSLSocket) {
SSLSocket sslSocket = (SSLSocket) socket;
session = getHandshakeSessionOrThrow(sslSocket);
parameters = sslSocket.getSSLParameters();
}
return checkTrusted(certs, authType, session, parameters, false /* client auth */);
}
/**
* Returns the full trusted certificate chain found from {@code certs}.
*
* Throws {@link CertificateException} when no trusted chain can be found from {@code certs}.
*/
public List getTrustedChainForServer(X509Certificate[] certs,
String authType, SSLEngine engine) throws CertificateException {
SSLSession session = engine.getHandshakeSession();
if (session == null) {
throw new CertificateException("Not in handshake; no session available");
}
return checkTrusted(certs, authType, session, engine.getSSLParameters(),
false /* client auth */);
}
@Override
public void checkServerTrusted(X509Certificate[] chain, String authType, Socket socket)
throws CertificateException {
getTrustedChainForServer(chain, authType, socket);
}
@Override
public void checkServerTrusted(X509Certificate[] chain, String authType, SSLEngine engine)
throws CertificateException {
getTrustedChainForServer(chain, authType, engine);
}
/**
* Validates whether a server is trusted. If session is given and non-null
* it also checks if chain is pinned appropriately for that peer host. If
* null, it does not check for pinned certs. The return value is a list of
* the certificates used for making the trust decision.
*/
public List checkServerTrusted(X509Certificate[] chain, String authType,
SSLSession session) throws CertificateException {
return checkTrusted(chain, authType, session, null, false /* client auth */);
}
public void handleTrustStorageUpdate() {
if (acceptedIssuers == null) {
trustedCertificateIndex.reset();
} else {
trustedCertificateIndex.reset(trustAnchors(acceptedIssuers));
}
}
private List checkTrusted(X509Certificate[] certs, String authType,
SSLSession session, SSLParameters parameters, boolean clientAuth)
throws CertificateException {
byte[] ocspData = null;
byte[] tlsSctData = null;
String hostname = null;
if (session != null) {
hostname = session.getPeerHost();
ocspData = getOcspDataFromSession(session);
tlsSctData = getTlsSctDataFromSession(session);
}
if (session != null && parameters != null) {
String identificationAlgorithm = parameters.getEndpointIdentificationAlgorithm();
if (identificationAlgorithm != null
&& "HTTPS".equals(identificationAlgorithm.toUpperCase(Locale.US))) {
HostnameVerifier verifier = HttpsURLConnection.getDefaultHostnameVerifier();
if (!verifier.verify(hostname, session)) {
throw new CertificateException("No subjectAltNames on the certificate match");
}
}
}
return checkTrusted(certs, ocspData, tlsSctData, authType, hostname, clientAuth);
}
private byte[] getOcspDataFromSession(SSLSession session) {
List ocspResponses = null;
if (session instanceof ConscryptSession) {
ConscryptSession opensslSession = (ConscryptSession) session;
ocspResponses = opensslSession.getStatusResponses();
} else {
Method m_getResponses;
try {
m_getResponses = session.getClass().getDeclaredMethod("getStatusResponses");
m_getResponses.setAccessible(true);
Object rawResponses = m_getResponses.invoke(session);
if (rawResponses instanceof List) {
ocspResponses = (List) rawResponses;
}
} catch (NoSuchMethodException ignored) {
} catch (SecurityException ignored) {
} catch (IllegalAccessException ignored) {
} catch (IllegalArgumentException ignored) {
} catch (InvocationTargetException e) {
throw new RuntimeException(e.getCause());
}
}
if (ocspResponses == null || ocspResponses.isEmpty()) {
return null;
}
return ocspResponses.get(0);
}
private byte[] getTlsSctDataFromSession(SSLSession session) {
if (session instanceof ConscryptSession) {
ConscryptSession opensslSession = (ConscryptSession) session;
return opensslSession.getPeerSignedCertificateTimestamp();
}
byte[] data = null;
try {
Method m_getTlsSctData = session.getClass().getDeclaredMethod("getPeerSignedCertificateTimestamp");
m_getTlsSctData.setAccessible(true);
Object rawData = m_getTlsSctData.invoke(session);
if (rawData instanceof byte[]) {
data = (byte[]) rawData;
}
} catch (NoSuchMethodException ignored) {
} catch (SecurityException ignored) {
} catch (IllegalAccessException ignored) {
} catch (IllegalArgumentException ignored) {
} catch (InvocationTargetException e) {
throw new RuntimeException(e.getCause());
}
return data;
}
private List checkTrusted(X509Certificate[] certs, byte[] ocspData,
byte[] tlsSctData, String authType, String host, boolean clientAuth)
throws CertificateException {
if (certs == null || certs.length == 0 || authType == null || authType.length() == 0) {
throw new IllegalArgumentException("null or zero-length parameter");
}
if (err != null) {
throw new CertificateException(err);
}
Set used = new HashSet();
ArrayList untrustedChain = new ArrayList();
ArrayList trustedChain = new ArrayList();
// Initialize the chain to contain the leaf certificate. This potentially could be a trust
// anchor. If the leaf is a trust anchor we still continue with path building to build the
// complete trusted chain for additional validation such as certificate pinning.
X509Certificate leaf = certs[0];
TrustAnchor leafAsAnchor = findTrustAnchorBySubjectAndPublicKey(leaf);
if (leafAsAnchor != null) {
trustedChain.add(leafAsAnchor);
used.add(leafAsAnchor.getTrustedCert());
} else {
untrustedChain.add(leaf);
}
used.add(leaf);
return checkTrustedRecursive(certs, ocspData, tlsSctData, host, clientAuth,
untrustedChain, trustedChain, used);
}
/**
* Recursively build certificate chains until a valid chain is found or all possible paths are
* exhausted.
*
* The chain is built in two sections, the complete trusted path is the the combination of
* {@code untrustedChain} and {@code trustAnchorChain}. The chain begins at the leaf
* certificate and ends in the final trusted root certificate.
*
* @param certs the bag of certs provided by the peer. No order is assumed.
* @param host the host being connected to.
* @param clientAuth if a client is being authorized instead of a server.
* @param untrustedChain the untrusted section of the chain built so far. Must be mutable.
* @param trustAnchorChain the trusted section of the chain built so far. Must be mutable.
* @param used the set certificates used so far in path building. Must be mutable.
*
* @return The entire valid chain starting with the leaf certificate. This is the
* concatenation of untrustedChain and trustAnchorChain.
*
* @throws CertificateException If no valid chain could be constructed. Note that there may be
* multiple reasons why no valid chain exists and there is no guarantee that the most severe is
* reported in this exception. As such applications MUST NOT use the specifics of this error
* for trust decisions (e.g. showing the user a click through page based on the specific error).
*/
private List checkTrustedRecursive(X509Certificate[] certs, byte[] ocspData,
byte[] tlsSctData, String host, boolean clientAuth,
ArrayList untrustedChain, ArrayList trustAnchorChain,
Set used) throws CertificateException {
CertificateException lastException = null;
X509Certificate current;
if (trustAnchorChain.isEmpty()) {
current = untrustedChain.get(untrustedChain.size() - 1);
} else {
current = trustAnchorChain.get(trustAnchorChain.size() - 1).getTrustedCert();
}
// Check that the certificate isn't blacklisted.
checkBlacklist(current);
// 1. If the current certificate in the chain is self-signed verify the chain as is.
if (current.getIssuerDN().equals(current.getSubjectDN())) {
return verifyChain(untrustedChain, trustAnchorChain, host, clientAuth, ocspData,
tlsSctData);
}
// 2. Try building a chain via any trust anchors that issued the current certificate.
// Note that we do not stop at the first trust anchor since it is possible that the trust
// anchor is not self-signed and its issuer may be needed for additional validation such as
// certificate pinning. In the common case the first trust anchor will be self-signed or
// its issuer's certificate will be missing.
Set anchors = findAllTrustAnchorsByIssuerAndSignature(current);
boolean seenIssuer = false;
for (TrustAnchor anchor : sortPotentialAnchors(anchors)) {
X509Certificate anchorCert = anchor.getTrustedCert();
// Avoid using certificates that have already been used.
if (used.contains(anchorCert)) {
continue;
}
seenIssuer = true;
used.add(anchorCert);
trustAnchorChain.add(anchor);
try {
return checkTrustedRecursive(certs, ocspData, tlsSctData, host, clientAuth,
untrustedChain, trustAnchorChain, used);
} catch (CertificateException ex) {
lastException = ex;
}
// Could not form a valid chain via this certificate, remove it from this chain.
trustAnchorChain.remove(trustAnchorChain.size() - 1);
used.remove(anchorCert);
}
// 3. If we were unable to find additional trusted issuers, verify the current chain.
// This may happen if the root of trust is not self-signed and the issuer is not
// present in the trusted set.
if (!trustAnchorChain.isEmpty()) {
if (!seenIssuer) {
return verifyChain(untrustedChain, trustAnchorChain, host, clientAuth, ocspData,
tlsSctData);
}
// Otherwise all chains based on the current trust anchor were rejected, fail.
throw lastException;
}
// 4. Use the certificates provided by the peer to grow the chain.
// Ignore the first certificate, as that is the leaf certificate.
for (int i = 1; i < certs.length; i++) {
X509Certificate candidateIssuer = certs[i];
// Avoid using certificates that have already been used.
if (used.contains(candidateIssuer)) {
continue;
}
if (current.getIssuerDN().equals(candidateIssuer.getSubjectDN())) {
// Check the strength and validity of the certificate to prune bad certificates
// early.
try {
candidateIssuer.checkValidity();
ChainStrengthAnalyzer.checkCert(candidateIssuer);
} catch (CertificateException ex) {
lastException = new CertificateException("Unacceptable certificate: "
+ candidateIssuer.getSubjectX500Principal(), ex);
continue;
}
used.add(candidateIssuer);
untrustedChain.add(candidateIssuer);
try {
return checkTrustedRecursive(certs, ocspData, tlsSctData, host, clientAuth,
untrustedChain, trustAnchorChain, used);
} catch (CertificateException ex) {
lastException = ex;
}
// Could not form a valid chain via this certificate, remove it from this chain.
used.remove(candidateIssuer);
untrustedChain.remove(untrustedChain.size() - 1);
}
}
// 5. Finally try the cached intermediates to handle server that failed to send them.
Set intermediateAnchors =
intermediateIndex.findAllByIssuerAndSignature(current);
for (TrustAnchor intermediate : sortPotentialAnchors(intermediateAnchors)) {
X509Certificate intermediateCert = intermediate.getTrustedCert();
// Avoid using certificates that have already been used.
if (used.contains(intermediateCert)) {
continue;
}
used.add(intermediateCert);
untrustedChain.add(intermediateCert);
try {
return checkTrustedRecursive(certs, ocspData, tlsSctData, host, clientAuth,
untrustedChain, trustAnchorChain, used);
} catch (CertificateException ex) {
lastException = ex;
}
// Could not form a valid chain via this certificate, remove it from this chain.
untrustedChain.remove(untrustedChain.size() - 1);
used.remove(intermediateCert);
}
// 6. We were unable to build a valid chain, throw the last error encountered.
if (lastException != null) {
throw lastException;
}
// 7. If no errors were encountered above then verifyChain was never called because it was
// not possible to build a valid chain to a trusted certificate.
CertPath certPath = factory.generateCertPath(untrustedChain);
throw new CertificateException(new CertPathValidatorException(
"Trust anchor for certification path not found.", null, certPath, -1));
}
private List verifyChain(List untrustedChain,
List trustAnchorChain, String host, boolean clientAuth, byte[] ocspData,
byte[] tlsSctData)
throws CertificateException {
// build the cert path from the list of certs sans trust anchors
// TODO: check whether this is slow and should be replaced by a minimalistic CertPath impl
// since we already have built the path.
CertPath certPath = factory.generateCertPath(untrustedChain);
// Check that there are at least some trust anchors
if (trustAnchorChain.isEmpty()) {
throw new CertificateException(new CertPathValidatorException(
"Trust anchor for certification path not found.", null, certPath, -1));
}
List wholeChain = new ArrayList();
wholeChain.addAll(untrustedChain);
for (TrustAnchor anchor : trustAnchorChain) {
wholeChain.add(anchor.getTrustedCert());
}
if (pinManager != null) {
pinManager.checkChainPinning(host, wholeChain);
}
// Check whole chain against the blacklist
for (X509Certificate cert : wholeChain) {
checkBlacklist(cert);
}
// Check CT (if required).
if (!clientAuth &&
(ctEnabledOverride || (host != null && Platform.isCTVerificationRequired(host)))) {
checkCT(host, wholeChain, ocspData, tlsSctData);
}
if (untrustedChain.isEmpty()) {
// The chain consists of only trust anchors, skip the validator
return wholeChain;
}
ChainStrengthAnalyzer.check(untrustedChain);
// Validate the untrusted part of the chain
try {
Set anchorSet = new HashSet();
// We know that untrusted chains to the first trust anchor, only add that.
anchorSet.add(trustAnchorChain.get(0));
PKIXParameters params = new PKIXParameters(anchorSet);
params.setRevocationEnabled(false);
X509Certificate endPointCert = untrustedChain.get(0);
setOcspResponses(params, endPointCert, ocspData);
params.addCertPathChecker(
new ExtendedKeyUsagePKIXCertPathChecker(clientAuth, endPointCert));
validator.validate(certPath, params);
} catch (InvalidAlgorithmParameterException e) {
throw new CertificateException("Chain validation failed", e);
} catch (CertPathValidatorException e) {
throw new CertificateException("Chain validation failed", e);
}
// Add intermediate CAs to the index to tolerate sites
// that assume that the browser will have cached these.
// http://b/3404902
for (int i = 1; i < untrustedChain.size(); i++) {
intermediateIndex.index(untrustedChain.get(i));
}
return wholeChain;
}
private void checkBlacklist(X509Certificate cert) throws CertificateException {
if (blacklist != null && blacklist.isPublicKeyBlackListed(cert.getPublicKey())) {
throw new CertificateException("Certificate blacklisted by public key: " + cert);
}
}
private void checkCT(String host, List chain, byte[] ocspData, byte[] tlsData)
throws CertificateException {
CTVerificationResult result =
ctVerifier.verifySignedCertificateTimestamps(chain, tlsData, ocspData);
if (!ctPolicy.doesResultConformToPolicy(result, host,
chain.toArray(new X509Certificate[chain.size()]))) {
throw new CertificateException(
"Certificate chain does not conform to required transparency policy.");
}
}
/**
* Sets the OCSP response data that was possibly stapled to the TLS response.
*/
private void setOcspResponses(PKIXParameters params, X509Certificate cert, byte[] ocspData) {
if (ocspData == null) {
return;
}
PKIXRevocationChecker revChecker = null;
List checkers =
new ArrayList(params.getCertPathCheckers());
for (PKIXCertPathChecker checker : checkers) {
if (checker instanceof PKIXRevocationChecker) {
revChecker = (PKIXRevocationChecker) checker;
break;
}
}
if (revChecker == null) {
// Only new CertPathValidatorSpi instances will support the
// revocation checker API.
try {
revChecker = (PKIXRevocationChecker) validator.getRevocationChecker();
} catch (UnsupportedOperationException e) {
return;
}
checkers.add(revChecker);
/*
* If we add a new revocation checker, we should set the option for
* end-entity verification only. Otherwise the CertPathValidator will
* throw an exception when it can't verify the entire chain.
*/
revChecker.setOptions(Collections.singleton(Option.ONLY_END_ENTITY));
}
revChecker.setOcspResponses(Collections.singletonMap(cert, ocspData));
params.setCertPathCheckers(checkers);
}
/**
* Sort potential anchors so that the most preferred for use come first.
*
* @see CertificatePriorityComparator
*/
private static Collection sortPotentialAnchors(Set anchors) {
if (anchors.size() <= 1) {
return anchors;
}
List sortedAnchors = new ArrayList(anchors);
Collections.sort(sortedAnchors, TRUST_ANCHOR_COMPARATOR);
return sortedAnchors;
}
/**
* Comparator for sorting {@link TrustAnchor}s using a {@link CertificatePriorityComparator}.
*/
private static class TrustAnchorComparator implements Comparator {
private static final CertificatePriorityComparator CERT_COMPARATOR =
new CertificatePriorityComparator();
@Override
public int compare(TrustAnchor lhs, TrustAnchor rhs) {
X509Certificate lhsCert = lhs.getTrustedCert();
X509Certificate rhsCert = rhs.getTrustedCert();
return CERT_COMPARATOR.compare(lhsCert, rhsCert);
}
}
/**
* If an EKU extension is present in the end-entity certificate,
* it MUST contain an appropriate key usage. For servers, this
* includes anyExtendedKeyUsage, serverAuth, or the historical
* Server Gated Cryptography options of nsSGC or msSGC. For
* clients, this includes anyExtendedKeyUsage and clientAuth.
*/
private static class ExtendedKeyUsagePKIXCertPathChecker extends PKIXCertPathChecker {
private static final String EKU_OID = "2.5.29.37";
private static final String EKU_anyExtendedKeyUsage = "2.5.29.37.0";
private static final String EKU_clientAuth = "1.3.6.1.5.5.7.3.2";
private static final String EKU_serverAuth = "1.3.6.1.5.5.7.3.1";
private static final String EKU_nsSGC = "2.16.840.1.113730.4.1";
private static final String EKU_msSGC = "1.3.6.1.4.1.311.10.3.3";
private static final Set SUPPORTED_EXTENSIONS
= Collections.unmodifiableSet(new HashSet(Arrays.asList(EKU_OID)));
private final boolean clientAuth;
private final X509Certificate leaf;
private ExtendedKeyUsagePKIXCertPathChecker(boolean clientAuth, X509Certificate leaf) {
this.clientAuth = clientAuth;
this.leaf = leaf;
}
@Override
public void init(boolean forward) throws CertPathValidatorException {
}
@Override
public boolean isForwardCheckingSupported() {
return true;
}
@Override
public Set getSupportedExtensions() {
return SUPPORTED_EXTENSIONS;
}
@SuppressWarnings("ReferenceEquality")
@Override
public void check(Certificate c, Collection unresolvedCritExts)
throws CertPathValidatorException {
// We only want to validate the EKU on the leaf certificate.
if (c != leaf) {
return;
}
List ekuOids;
try {
ekuOids = leaf.getExtendedKeyUsage();
} catch (CertificateParsingException e) {
// A malformed EKU is bad news, consider it fatal.
throw new CertPathValidatorException(e);
}
// We are here to check EKU, but there is none.
if (ekuOids == null) {
return;
}
boolean goodExtendedKeyUsage = false;
for (String ekuOid : ekuOids) {
// anyExtendedKeyUsage for clients and servers
if (ekuOid.equals(EKU_anyExtendedKeyUsage)) {
goodExtendedKeyUsage = true;
break;
}
// clients
if (clientAuth) {
if (ekuOid.equals(EKU_clientAuth)) {
goodExtendedKeyUsage = true;
break;
}
continue;
}
// servers
if (ekuOid.equals(EKU_serverAuth)) {
goodExtendedKeyUsage = true;
break;
}
if (ekuOid.equals(EKU_nsSGC)) {
goodExtendedKeyUsage = true;
break;
}
if (ekuOid.equals(EKU_msSGC)) {
goodExtendedKeyUsage = true;
break;
}
}
if (goodExtendedKeyUsage) {
// Mark extendedKeyUsage as resolved if present.
unresolvedCritExts.remove(EKU_OID);
} else {
throw new CertPathValidatorException("End-entity certificate does not have a valid "
+ "extendedKeyUsage.");
}
}
}
/**
* Find all possible issuing trust anchors of {@code cert}.
*/
private Set findAllTrustAnchorsByIssuerAndSignature(X509Certificate cert) {
Set indexedAnchors =
trustedCertificateIndex.findAllByIssuerAndSignature(cert);
if (!indexedAnchors.isEmpty() || trustedCertificateStore == null) {
return indexedAnchors;
}
Set storeAnchors = trustedCertificateStore.findAllIssuers(cert);
if (storeAnchors.isEmpty()) {
return indexedAnchors;
}
Set result = new HashSet(storeAnchors.size());
for (X509Certificate storeCert : storeAnchors) {
result.add(trustedCertificateIndex.index(storeCert));
}
return result;
}
/**
* Check the trustedCertificateIndex for the cert to see if it is
* already trusted and failing that check the KeyStore if it is
* available.
*/
private TrustAnchor findTrustAnchorBySubjectAndPublicKey(X509Certificate cert) {
TrustAnchor trustAnchor = trustedCertificateIndex.findBySubjectAndPublicKey(cert);
if (trustAnchor != null) {
return trustAnchor;
}
if (trustedCertificateStore == null) {
// not trusted and no TrustedCertificateStore to check
return null;
}
// probe KeyStore for a cert. AndroidCAStore stores its
// contents hashed by cert subject on the filesystem to make
// this faster than scanning all key store entries.
X509Certificate systemCert = trustedCertificateStore.getTrustAnchor(cert);
if (systemCert != null) {
// Don't index the system certificate here, that way the only place that adds anchors to
// the index are findAllTrustAnchorsByIssuerAndSignature.
// This allows findAllTrustAnchorsByIssuerAndSignature to avoid checking the
// TrustedCertificateStore if the TrustedCertificateIndex contains any issuers for the
// certificate because it will have cached all certificates contained in the
// TrustedCertificateStore.
return new TrustAnchor(systemCert, null);
}
return null;
}
@Override
public X509Certificate[] getAcceptedIssuers() {
return (acceptedIssuers != null) ? acceptedIssuers.clone() : acceptedIssuers(rootKeyStore);
}
public void setCTEnabledOverride(boolean enabled) {
this.ctEnabledOverride = enabled;
}
// Replace the CTVerifier. For testing only.
public void setCTVerifier(CTVerifier verifier) {
this.ctVerifier = verifier;
}
// Replace the CTPolicy. For testing only.
public void setCTPolicy(CTPolicy policy) {
this.ctPolicy = policy;
}
}
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