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/*
 * Copyright 2016 The Netty Project
 *
 * The Netty Project licenses this file to you under the Apache License,
 * version 2.0 (the "License"); you may not use this file except in nl.topicus.jdbc.shaded.com.liance
 * with the License. You may obtain a copy of the License at:
 *
 *   http://www.apache.nl.topicus.jdbc.shaded.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 nl.topicus.jdbc.shaded.io.nl.topicus.jdbc.shaded.net.y.handler.ssl;

import nl.topicus.jdbc.shaded.io.nl.topicus.jdbc.shaded.net.y.buffer.ByteBuf;
import nl.topicus.jdbc.shaded.io.nl.topicus.jdbc.shaded.net.y.buffer.ByteBufAllocator;
import nl.topicus.jdbc.shaded.io.nl.topicus.jdbc.shaded.net.y.internal.tcnative.CertificateVerifier;
import nl.topicus.jdbc.shaded.io.nl.topicus.jdbc.shaded.net.y.internal.tcnative.SSL;
import nl.topicus.jdbc.shaded.io.nl.topicus.jdbc.shaded.net.y.internal.tcnative.SSLContext;
import nl.topicus.jdbc.shaded.io.nl.topicus.jdbc.shaded.net.y.util.AbstractReferenceCounted;
import nl.topicus.jdbc.shaded.io.nl.topicus.jdbc.shaded.net.y.util.ReferenceCounted;
import nl.topicus.jdbc.shaded.io.nl.topicus.jdbc.shaded.net.y.util.ResourceLeakDetector;
import nl.topicus.jdbc.shaded.io.nl.topicus.jdbc.shaded.net.y.util.ResourceLeakDetectorFactory;
import nl.topicus.jdbc.shaded.io.nl.topicus.jdbc.shaded.net.y.util.ResourceLeakTracker;
import nl.topicus.jdbc.shaded.io.nl.topicus.jdbc.shaded.net.y.util.internal.PlatformDependent;
import nl.topicus.jdbc.shaded.io.nl.topicus.jdbc.shaded.net.y.util.internal.StringUtil;
import nl.topicus.jdbc.shaded.io.nl.topicus.jdbc.shaded.net.y.util.internal.SystemPropertyUtil;
import nl.topicus.jdbc.shaded.io.nl.topicus.jdbc.shaded.net.y.util.internal.logging.InternalLogger;
import nl.topicus.jdbc.shaded.io.nl.topicus.jdbc.shaded.net.y.util.internal.logging.InternalLoggerFactory;

import java.security.AccessController;
import java.security.PrivateKey;
import java.security.PrivilegedAction;
import java.security.cert.CertPathValidatorException;
import java.security.cert.Certificate;
import java.security.cert.CertificateExpiredException;
import java.security.cert.CertificateNotYetValidException;
import java.security.cert.CertificateRevokedException;
import java.security.cert.X509Certificate;
import java.util.ArrayList;
import java.util.Arrays;
import java.util.Collections;
import java.util.List;
import java.util.Map;

import javax.nl.topicus.jdbc.shaded.net.ssl.KeyManager;
import javax.nl.topicus.jdbc.shaded.net.ssl.SSLEngine;
import javax.nl.topicus.jdbc.shaded.net.ssl.SSLException;
import javax.nl.topicus.jdbc.shaded.net.ssl.SSLHandshakeException;
import javax.nl.topicus.jdbc.shaded.net.ssl.TrustManager;
import javax.nl.topicus.jdbc.shaded.net.ssl.X509ExtendedKeyManager;
import javax.nl.topicus.jdbc.shaded.net.ssl.X509ExtendedTrustManager;
import javax.nl.topicus.jdbc.shaded.net.ssl.X509KeyManager;
import javax.nl.topicus.jdbc.shaded.net.ssl.X509TrustManager;

import static nl.topicus.jdbc.shaded.io.nl.topicus.jdbc.shaded.net.y.util.internal.ObjectUtil.checkNotNull;
import static nl.topicus.jdbc.shaded.io.nl.topicus.jdbc.shaded.net.y.util.internal.ObjectUtil.checkPositiveOrZero;

/**
 * An implementation of {@link SslContext} which works with libraries that support the
 * OpenSsl C library API.
 * 

Instances of this class must be {@link #release() released} or else native memory will leak! * *

Instances of this class must not be released before any {@link ReferenceCountedOpenSslEngine} * which depends upon the instance of this class is released. Otherwise if any method of * {@link ReferenceCountedOpenSslEngine} is called which uses this class's JNI resources the JVM may crash. */ public abstract class ReferenceCountedOpenSslContext extends SslContext implements ReferenceCounted { private static final InternalLogger logger = InternalLoggerFactory.getInstance(ReferenceCountedOpenSslContext.class); /** * To make it easier for users to replace JDK implementation with OpenSsl version we also use * {@code jdk.tls.rejectClientInitiatedRenegotiation} to allow disabling client initiated renegotiation. * Java8+ uses this system property as well. *

* See also * Significant SSL/TLS improvements in Java 8 */ private static final boolean JDK_REJECT_CLIENT_INITIATED_RENEGOTIATION = AccessController.doPrivileged(new PrivilegedAction() { @Override public Boolean run() { return SystemPropertyUtil.getBoolean("jdk.tls.rejectClientInitiatedRenegotiation", false); } }); private static final int DEFAULT_BIO_NON_APPLICATION_BUFFER_SIZE = AccessController.doPrivileged(new PrivilegedAction() { @Override public Integer run() { return Math.max(1, SystemPropertyUtil.getInt("nl.topicus.jdbc.shaded.io.nl.topicus.jdbc.shaded.net.y.handler.ssl.openssl.bioNonApplicationBufferSize", 2048)); } }); private static final List DEFAULT_CIPHERS; private static final Integer DH_KEY_LENGTH; private static final ResourceLeakDetector leakDetector = ResourceLeakDetectorFactory.instance().newResourceLeakDetector(ReferenceCountedOpenSslContext.class); // TODO: Maybe make configurable ? protected static final int VERIFY_DEPTH = 10; /** * The OpenSSL SSL_CTX object */ protected volatile long ctx; @SuppressWarnings({ "unused", "FieldMayBeFinal" }) private volatile int aprPoolDestroyed; private final List unmodifiableCiphers; private final long sessionCacheSize; private final long sessionTimeout; private final OpenSslApplicationProtocolNegotiator apn; private final int mode; // Reference Counting private final ResourceLeakTracker leak; private final AbstractReferenceCounted refCnt = new AbstractReferenceCounted() { @Override public ReferenceCounted touch(Object hint) { if (leak != null) { leak.record(hint); } return ReferenceCountedOpenSslContext.this; } @Override protected void deallocate() { destroy(); if (leak != null) { boolean closed = leak.close(ReferenceCountedOpenSslContext.this); assert closed; } } }; final Certificate[] keyCertChain; final ClientAuth clientAuth; final String[] protocols; final boolean enableOcsp; final OpenSslEngineMap engineMap = new DefaultOpenSslEngineMap(); private volatile boolean rejectRemoteInitiatedRenegotiation; private volatile int bioNonApplicationBufferSize = DEFAULT_BIO_NON_APPLICATION_BUFFER_SIZE; static final OpenSslApplicationProtocolNegotiator NONE_PROTOCOL_NEGOTIATOR = new OpenSslApplicationProtocolNegotiator() { @Override public ApplicationProtocolConfig.Protocol protocol() { return ApplicationProtocolConfig.Protocol.NONE; } @Override public List protocols() { return Collections.emptyList(); } @Override public ApplicationProtocolConfig.SelectorFailureBehavior selectorFailureBehavior() { return ApplicationProtocolConfig.SelectorFailureBehavior.CHOOSE_MY_LAST_PROTOCOL; } @Override public ApplicationProtocolConfig.SelectedListenerFailureBehavior selectedListenerFailureBehavior() { return ApplicationProtocolConfig.SelectedListenerFailureBehavior.ACCEPT; } }; static { List ciphers = new ArrayList(); // XXX: Make sure to sync this list with JdkSslEngineFactory. Collections.addAll( ciphers, "ECDHE-ECDSA-AES256-GCM-SHA384", "ECDHE-ECDSA-AES128-GCM-SHA256", "ECDHE-RSA-AES128-GCM-SHA256", "ECDHE-RSA-AES128-SHA", "ECDHE-RSA-AES256-SHA", "AES128-GCM-SHA256", "AES128-SHA", "AES256-SHA"); DEFAULT_CIPHERS = Collections.unmodifiableList(ciphers); if (logger.isDebugEnabled()) { logger.debug("Default cipher suite (OpenSSL): " + ciphers); } Integer dhLen = null; try { String dhKeySize = AccessController.doPrivileged(new PrivilegedAction() { @Override public String run() { return SystemPropertyUtil.get("jdk.tls.ephemeralDHKeySize"); } }); if (dhKeySize != null) { try { dhLen = Integer.valueOf(dhKeySize); } catch (NumberFormatException e) { logger.debug("ReferenceCountedOpenSslContext supports -Djdk.tls.ephemeralDHKeySize={int}, but got: " + dhKeySize); } } } catch (Throwable ignore) { // ignore } DH_KEY_LENGTH = dhLen; } ReferenceCountedOpenSslContext(Iterable ciphers, CipherSuiteFilter cipherFilter, ApplicationProtocolConfig apnCfg, long sessionCacheSize, long sessionTimeout, int mode, Certificate[] keyCertChain, ClientAuth clientAuth, String[] protocols, boolean startTls, boolean enableOcsp, boolean leakDetection) throws SSLException { this(ciphers, cipherFilter, toNegotiator(apnCfg), sessionCacheSize, sessionTimeout, mode, keyCertChain, clientAuth, protocols, startTls, enableOcsp, leakDetection); } ReferenceCountedOpenSslContext(Iterable ciphers, CipherSuiteFilter cipherFilter, OpenSslApplicationProtocolNegotiator apn, long sessionCacheSize, long sessionTimeout, int mode, Certificate[] keyCertChain, ClientAuth clientAuth, String[] protocols, boolean startTls, boolean enableOcsp, boolean leakDetection) throws SSLException { super(startTls); OpenSsl.ensureAvailability(); if (enableOcsp && !OpenSsl.isOcspSupported()) { throw new IllegalStateException("OCSP is not supported."); } if (mode != SSL.SSL_MODE_SERVER && mode != SSL.SSL_MODE_CLIENT) { throw new IllegalArgumentException("mode most be either SSL.SSL_MODE_SERVER or SSL.SSL_MODE_CLIENT"); } leak = leakDetection ? leakDetector.track(this) : null; this.mode = mode; this.clientAuth = isServer() ? checkNotNull(clientAuth, "clientAuth") : ClientAuth.NONE; this.protocols = protocols; this.enableOcsp = enableOcsp; if (mode == SSL.SSL_MODE_SERVER) { rejectRemoteInitiatedRenegotiation = JDK_REJECT_CLIENT_INITIATED_RENEGOTIATION; } this.keyCertChain = keyCertChain == null ? null : keyCertChain.clone(); final List convertedCiphers; if (ciphers == null) { convertedCiphers = null; } else { convertedCiphers = new ArrayList(); for (String c : ciphers) { if (c == null) { break; } String converted = CipherSuiteConverter.toOpenSsl(c); if (converted != null) { c = converted; } convertedCiphers.add(c); } } unmodifiableCiphers = Arrays.asList(checkNotNull(cipherFilter, "cipherFilter").filterCipherSuites( convertedCiphers, DEFAULT_CIPHERS, OpenSsl.availableOpenSslCipherSuites())); this.apn = checkNotNull(apn, "apn"); // Create a new SSL_CTX and configure it. boolean success = false; try { synchronized (ReferenceCountedOpenSslContext.class) { try { ctx = SSLContext.make(SSL.SSL_PROTOCOL_ALL, mode); } catch (Exception e) { throw new SSLException("failed to create an SSL_CTX", e); } SSLContext.setOptions(ctx, SSLContext.getOptions(ctx) | SSL.SSL_OP_NO_SSLv2 | SSL.SSL_OP_NO_SSLv3 | SSL.SSL_OP_CIPHER_SERVER_PREFERENCE | // We do not support nl.topicus.jdbc.shaded.com.ression at the moment so we should explicitly disable it. SSL.SSL_OP_NO_COMPRESSION | // Disable ticket support by default to be more inline with SSLEngineImpl of the JDK. // This also let SSLSession.getId() work the same way for the JDK implementation and the OpenSSLEngine. // If tickets are supported SSLSession.getId() will only return an ID on the server-side if it could // make use of tickets. SSL.SSL_OP_NO_TICKET); // We need to enable SSL_MODE_ACCEPT_MOVING_WRITE_BUFFER as the memory address may change between // calling OpenSSLEngine.wrap(...). // See https://github.nl.topicus.jdbc.shaded.com.nl.topicus.jdbc.shaded.net.y/nl.topicus.jdbc.shaded.net.y-tcnative/issues/100 SSLContext.setMode(ctx, SSLContext.getMode(ctx) | SSL.SSL_MODE_ACCEPT_MOVING_WRITE_BUFFER); if (DH_KEY_LENGTH != null) { SSLContext.setTmpDHLength(ctx, DH_KEY_LENGTH); } /* List the ciphers that are permitted to negotiate. */ try { SSLContext.setCipherSuite(ctx, CipherSuiteConverter.toOpenSsl(unmodifiableCiphers)); } catch (SSLException e) { throw e; } catch (Exception e) { throw new SSLException("failed to set cipher suite: " + unmodifiableCiphers, e); } List nextProtoList = apn.protocols(); /* Set next protocols for next protocol negotiation extension, if specified */ if (!nextProtoList.isEmpty()) { String[] appProtocols = nextProtoList.toArray(new String[nextProtoList.size()]); int selectorBehavior = opensslSelectorFailureBehavior(apn.selectorFailureBehavior()); switch (apn.protocol()) { case NPN: SSLContext.setNpnProtos(ctx, appProtocols, selectorBehavior); break; case ALPN: SSLContext.setAlpnProtos(ctx, appProtocols, selectorBehavior); break; case NPN_AND_ALPN: SSLContext.setNpnProtos(ctx, appProtocols, selectorBehavior); SSLContext.setAlpnProtos(ctx, appProtocols, selectorBehavior); break; default: throw new Error(); } } /* Set session cache size, if specified */ if (sessionCacheSize > 0) { this.sessionCacheSize = sessionCacheSize; SSLContext.setSessionCacheSize(ctx, sessionCacheSize); } else { // Get the default session cache size using SSLContext.setSessionCacheSize() this.sessionCacheSize = sessionCacheSize = SSLContext.setSessionCacheSize(ctx, 20480); // Revert the session cache size to the default value. SSLContext.setSessionCacheSize(ctx, sessionCacheSize); } /* Set session timeout, if specified */ if (sessionTimeout > 0) { this.sessionTimeout = sessionTimeout; SSLContext.setSessionCacheTimeout(ctx, sessionTimeout); } else { // Get the default session timeout using SSLContext.setSessionCacheTimeout() this.sessionTimeout = sessionTimeout = SSLContext.setSessionCacheTimeout(ctx, 300); // Revert the session timeout to the default value. SSLContext.setSessionCacheTimeout(ctx, sessionTimeout); } if (enableOcsp) { SSLContext.enableOcsp(ctx, isClient()); } } success = true; } finally { if (!success) { release(); } } } private static int opensslSelectorFailureBehavior(ApplicationProtocolConfig.SelectorFailureBehavior behavior) { switch (behavior) { case NO_ADVERTISE: return SSL.SSL_SELECTOR_FAILURE_NO_ADVERTISE; case CHOOSE_MY_LAST_PROTOCOL: return SSL.SSL_SELECTOR_FAILURE_CHOOSE_MY_LAST_PROTOCOL; default: throw new Error(); } } @Override public final List cipherSuites() { return unmodifiableCiphers; } @Override public final long sessionCacheSize() { return sessionCacheSize; } @Override public final long sessionTimeout() { return sessionTimeout; } @Override public ApplicationProtocolNegotiator applicationProtocolNegotiator() { return apn; } @Override public final boolean isClient() { return mode == SSL.SSL_MODE_CLIENT; } @Override public final SSLEngine newEngine(ByteBufAllocator alloc, String peerHost, int peerPort) { return newEngine0(alloc, peerHost, peerPort); } SSLEngine newEngine0(ByteBufAllocator alloc, String peerHost, int peerPort) { return new ReferenceCountedOpenSslEngine(this, alloc, peerHost, peerPort, true); } abstract OpenSslKeyMaterialManager keyMaterialManager(); /** * Returns a new server-side {@link SSLEngine} with the current configuration. */ @Override public final SSLEngine newEngine(ByteBufAllocator alloc) { return newEngine(alloc, null, -1); } /** * Returns the pointer to the {@code SSL_CTX} object for this {@link ReferenceCountedOpenSslContext}. * Be aware that it is freed as soon as the {@link #finalize()} method is called. * At this point {@code 0} will be returned. * * @deprecated use {@link #sslCtxPointer()} */ @Deprecated public final long context() { return ctx; } /** * Returns the stats of this context. * * @deprecated use {@link #sessionContext#stats()} */ @Deprecated public final OpenSslSessionStats stats() { return sessionContext().stats(); } /** * Specify if remote initiated renegotiation is supported or not. If not supported and the remote side tries * to initiate a renegotiation a {@link SSLHandshakeException} will be thrown during decoding. */ public void setRejectRemoteInitiatedRenegotiation(boolean rejectRemoteInitiatedRenegotiation) { this.rejectRemoteInitiatedRenegotiation = rejectRemoteInitiatedRenegotiation; } /** * Returns if remote initiated renegotiation is supported or not. */ public boolean getRejectRemoteInitiatedRenegotiation() { return rejectRemoteInitiatedRenegotiation; } /** * Set the size of the buffer used by the BIO for non-application based writes * (e.g. handshake, renegotiation, etc...). */ public void setBioNonApplicationBufferSize(int bioNonApplicationBufferSize) { this.bioNonApplicationBufferSize = checkPositiveOrZero(bioNonApplicationBufferSize, "bioNonApplicationBufferSize"); } /** * Returns the size of the buffer used by the BIO for non-application based writes */ public int getBioNonApplicationBufferSize() { return bioNonApplicationBufferSize; } /** * Sets the SSL session ticket keys of this context. * * @deprecated use {@link OpenSslSessionContext#setTicketKeys(byte[])} */ @Deprecated public final void setTicketKeys(byte[] keys) { sessionContext().setTicketKeys(keys); } @Override public abstract OpenSslSessionContext sessionContext(); /** * Returns the pointer to the {@code SSL_CTX} object for this {@link ReferenceCountedOpenSslContext}. * Be aware that it is freed as soon as the {@link #release()} method is called. * At this point {@code 0} will be returned. */ public final long sslCtxPointer() { return ctx; } // IMPORTANT: This method must only be called from either the constructor or the finalizer as a user MUST never // get access to an OpenSslSessionContext after this method was called to prevent the user from // producing a segfault. final void destroy() { synchronized (ReferenceCountedOpenSslContext.class) { if (ctx != 0) { if (enableOcsp) { SSLContext.disableOcsp(ctx); } SSLContext.free(ctx); ctx = 0; } } } protected static X509Certificate[] certificates(byte[][] chain) { X509Certificate[] peerCerts = new X509Certificate[chain.length]; for (int i = 0; i < peerCerts.length; i++) { peerCerts[i] = new OpenSslX509Certificate(chain[i]); } return peerCerts; } protected static X509TrustManager chooseTrustManager(TrustManager[] managers) { for (TrustManager m : managers) { if (m instanceof X509TrustManager) { return (X509TrustManager) m; } } throw new IllegalStateException("no X509TrustManager found"); } protected static X509KeyManager chooseX509KeyManager(KeyManager[] kms) { for (KeyManager km : kms) { if (km instanceof X509KeyManager) { return (X509KeyManager) km; } } throw new IllegalStateException("no X509KeyManager found"); } /** * Translate a {@link ApplicationProtocolConfig} object to a * {@link OpenSslApplicationProtocolNegotiator} object. * * @param config The configuration which defines the translation * @return The results of the translation */ static OpenSslApplicationProtocolNegotiator toNegotiator(ApplicationProtocolConfig config) { if (config == null) { return NONE_PROTOCOL_NEGOTIATOR; } switch (config.protocol()) { case NONE: return NONE_PROTOCOL_NEGOTIATOR; case ALPN: case NPN: case NPN_AND_ALPN: switch (config.selectedListenerFailureBehavior()) { case CHOOSE_MY_LAST_PROTOCOL: case ACCEPT: switch (config.selectorFailureBehavior()) { case CHOOSE_MY_LAST_PROTOCOL: case NO_ADVERTISE: return new OpenSslDefaultApplicationProtocolNegotiator( config); default: throw new UnsupportedOperationException( new StringBuilder("OpenSSL provider does not support ") .append(config.selectorFailureBehavior()) .append(" behavior").toString()); } default: throw new UnsupportedOperationException( new StringBuilder("OpenSSL provider does not support ") .append(config.selectedListenerFailureBehavior()) .append(" behavior").toString()); } default: throw new Error(); } } static boolean useExtendedTrustManager(X509TrustManager trustManager) { return PlatformDependent.javaVersion() >= 7 && trustManager instanceof X509ExtendedTrustManager; } static boolean useExtendedKeyManager(X509KeyManager keyManager) { return PlatformDependent.javaVersion() >= 7 && keyManager instanceof X509ExtendedKeyManager; } @Override public final int refCnt() { return refCnt.refCnt(); } @Override public final ReferenceCounted retain() { refCnt.retain(); return this; } @Override public final ReferenceCounted retain(int increment) { refCnt.retain(increment); return this; } @Override public final ReferenceCounted touch() { refCnt.touch(); return this; } @Override public final ReferenceCounted touch(Object hint) { refCnt.touch(hint); return this; } @Override public final boolean release() { return refCnt.release(); } @Override public final boolean release(int decrement) { return refCnt.release(decrement); } abstract static class AbstractCertificateVerifier extends CertificateVerifier { private final OpenSslEngineMap engineMap; AbstractCertificateVerifier(OpenSslEngineMap engineMap) { this.engineMap = engineMap; } @Override public final int verify(long ssl, byte[][] chain, String auth) { X509Certificate[] peerCerts = certificates(chain); final ReferenceCountedOpenSslEngine engine = engineMap.get(ssl); try { verify(engine, peerCerts, auth); return CertificateVerifier.X509_V_OK; } catch (Throwable cause) { logger.debug("verification of certificate failed", cause); SSLHandshakeException e = new SSLHandshakeException("General OpenSslEngine problem"); e.initCause(cause); engine.handshakeException = e; // Try to extract the correct error code that should be used. if (cause instanceof OpenSslCertificateException) { // This will never return a negative error code as its validated when constructing the // OpenSslCertificateException. return ((OpenSslCertificateException) cause).errorCode(); } if (cause instanceof CertificateExpiredException) { return CertificateVerifier.X509_V_ERR_CERT_HAS_EXPIRED; } if (cause instanceof CertificateNotYetValidException) { return CertificateVerifier.X509_V_ERR_CERT_NOT_YET_VALID; } if (PlatformDependent.javaVersion() >= 7) { if (cause instanceof CertificateRevokedException) { return CertificateVerifier.X509_V_ERR_CERT_REVOKED; } // The X509TrustManagerImpl uses a Validator which wraps a CertPathValidatorException into // an CertificateException. So we need to handle the wrapped CertPathValidatorException to be // able to send the correct alert. Throwable wrapped = cause.getCause(); while (wrapped != null) { if (wrapped instanceof CertPathValidatorException) { CertPathValidatorException ex = (CertPathValidatorException) wrapped; CertPathValidatorException.Reason reason = ex.getReason(); if (reason == CertPathValidatorException.BasicReason.EXPIRED) { return CertificateVerifier.X509_V_ERR_CERT_HAS_EXPIRED; } if (reason == CertPathValidatorException.BasicReason.NOT_YET_VALID) { return CertificateVerifier.X509_V_ERR_CERT_NOT_YET_VALID; } if (reason == CertPathValidatorException.BasicReason.REVOKED) { return CertificateVerifier.X509_V_ERR_CERT_REVOKED; } } wrapped = wrapped.getCause(); } } // Could not detect a specific error code to use, so fallback to a default code. return CertificateVerifier.X509_V_ERR_UNSPECIFIED; } } abstract void verify(ReferenceCountedOpenSslEngine engine, X509Certificate[] peerCerts, String auth) throws Exception; } private static final class DefaultOpenSslEngineMap implements OpenSslEngineMap { private final Map engines = PlatformDependent.newConcurrentHashMap(); @Override public ReferenceCountedOpenSslEngine remove(long ssl) { return engines.remove(ssl); } @Override public void add(ReferenceCountedOpenSslEngine engine) { engines.put(engine.sslPointer(), engine); } @Override public ReferenceCountedOpenSslEngine get(long ssl) { return engines.get(ssl); } } static void setKeyMaterial(long ctx, X509Certificate[] keyCertChain, PrivateKey key, String keyPassword) throws SSLException { /* Load the certificate file and private key. */ long keyBio = 0; long keyCertChainBio = 0; long keyCertChainBio2 = 0; PemEncoded encoded = null; try { // Only encode one time encoded = PemX509Certificate.toPEM(ByteBufAllocator.DEFAULT, true, keyCertChain); keyCertChainBio = toBIO(ByteBufAllocator.DEFAULT, encoded.retain()); keyCertChainBio2 = toBIO(ByteBufAllocator.DEFAULT, encoded.retain()); if (key != null) { keyBio = toBIO(key); } SSLContext.setCertificateBio( ctx, keyCertChainBio, keyBio, keyPassword == null ? StringUtil.EMPTY_STRING : keyPassword); // We may have more then one cert in the chain so add all of them now. SSLContext.setCertificateChainBio(ctx, keyCertChainBio2, true); } catch (SSLException e) { throw e; } catch (Exception e) { throw new SSLException("failed to set certificate and key", e); } finally { freeBio(keyBio); freeBio(keyCertChainBio); freeBio(keyCertChainBio2); if (encoded != null) { encoded.release(); } } } static void freeBio(long bio) { if (bio != 0) { SSL.freeBIO(bio); } } /** * Return the pointer to a in-memory BIO * or {@code 0} if the {@code key} is {@code null}. The BIO contains the content of the {@code key}. */ static long toBIO(PrivateKey key) throws Exception { if (key == null) { return 0; } ByteBufAllocator allocator = ByteBufAllocator.DEFAULT; PemEncoded pem = PemPrivateKey.toPEM(allocator, true, key); try { return toBIO(allocator, pem.retain()); } finally { pem.release(); } } /** * Return the pointer to a in-memory BIO * or {@code 0} if the {@code certChain} is {@code null}. The BIO contains the content of the {@code certChain}. */ static long toBIO(X509Certificate... certChain) throws Exception { if (certChain == null) { return 0; } if (certChain.length == 0) { throw new IllegalArgumentException("certChain can't be empty"); } ByteBufAllocator allocator = ByteBufAllocator.DEFAULT; PemEncoded pem = PemX509Certificate.toPEM(allocator, true, certChain); try { return toBIO(allocator, pem.retain()); } finally { pem.release(); } } static long toBIO(ByteBufAllocator allocator, PemEncoded pem) throws Exception { try { // We can turn direct buffers straight into BIOs. No need to // make a yet another copy. ByteBuf content = pem.content(); if (content.isDirect()) { return newBIO(content.retainedSlice()); } ByteBuf buffer = allocator.directBuffer(content.readableBytes()); try { buffer.writeBytes(content, content.readerIndex(), content.readableBytes()); return newBIO(buffer.retainedSlice()); } finally { try { // If the contents of the ByteBuf is sensitive (e.g. a PrivateKey) we // need to zero out the bytes of the copy before we're releasing it. if (pem.isSensitive()) { SslUtils.zeroout(buffer); } } finally { buffer.release(); } } } finally { pem.release(); } } private static long newBIO(ByteBuf buffer) throws Exception { try { long bio = SSL.newMemBIO(); int readable = buffer.readableBytes(); if (SSL.bioWrite(bio, OpenSsl.memoryAddress(buffer) + buffer.readerIndex(), readable) != readable) { SSL.freeBIO(bio); throw new IllegalStateException("Could not write data to memory BIO"); } return bio; } finally { buffer.release(); } } }





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