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/*
 * Copyright (C) 2017 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.
 */
package org.conscrypt;

import java.io.IOException;
import java.io.InputStream;
import java.nio.ByteBuffer;
import java.security.KeyManagementException;
import java.security.PrivateKey;
import java.security.Provider;
import java.util.Properties;
import javax.net.ssl.SSLContext;
import javax.net.ssl.SSLContextSpi;
import javax.net.ssl.SSLEngine;
import javax.net.ssl.SSLEngineResult;
import javax.net.ssl.SSLException;
import javax.net.ssl.SSLServerSocketFactory;
import javax.net.ssl.SSLSessionContext;
import javax.net.ssl.SSLSocket;
import javax.net.ssl.SSLSocketFactory;
import javax.net.ssl.X509TrustManager;

/**
 * Core API for creating and configuring all Conscrypt types.
 */
@SuppressWarnings("unused")
public final class Conscrypt {
    private Conscrypt() {}

    /**
     * Returns {@code true} if the Conscrypt native library has been successfully loaded.
     */
    public static boolean isAvailable() {
        try {
            checkAvailability();
            return true;
        } catch (Throwable e) {
            return false;
        }
    }

    public static class Version {
        private final int major;
        private final int minor;
        private final int patch;

        private Version(int major, int minor, int patch) {
            this.major = major;
            this.minor = minor;
            this.patch = patch;
        }

        public int major() { return major; }
        public int minor() { return minor; }
        public int patch() { return patch; }
    }

    private static final Version VERSION;

    static {
        int major = -1;
        int minor = -1;
        int patch = -1;
        try {
            InputStream stream = Conscrypt.class.getResourceAsStream("conscrypt.properties");
            if (stream != null) {
                Properties props = new Properties();
                props.load(stream);
                major = Integer.parseInt(props.getProperty("org.conscrypt.version.major", "-1"));
                minor = Integer.parseInt(props.getProperty("org.conscrypt.version.minor", "-1"));
                patch = Integer.parseInt(props.getProperty("org.conscrypt.version.patch", "-1"));
            }
        } catch (IOException e) {
        }
        if ((major >= 0) && (minor >= 0) && (patch >= 0)) {
            VERSION = new Version(major, minor, patch);
        } else {
            VERSION = null;
        }
    }

    /**
     * Returns the version of this distribution of Conscrypt.  If version information is
     * unavailable, returns {@code null}.
     */
    public static Version version() {
        return VERSION;
    }

    /**
     * Checks that the Conscrypt support is available for the system.
     *
     * @throws UnsatisfiedLinkError if unavailable
     */
    public static void checkAvailability() {
        NativeCrypto.checkAvailability();
    }

    /**
     * Indicates whether the given {@link Provider} was created by this distribution of Conscrypt.
     */
    public static boolean isConscrypt(Provider provider) {
        return provider instanceof OpenSSLProvider;
    }

    /**
     * Constructs a new {@link Provider} with the default name.
     */
    public static Provider newProvider() {
        checkAvailability();
        return new OpenSSLProvider();
    }

    /**
     * Constructs a new {@link Provider} with the given name.
     *
     * @deprecated Use {@link #newProviderBuilder()} instead.
     */
    @Deprecated
    public static Provider newProvider(String providerName) {
        checkAvailability();
        return new OpenSSLProvider(providerName, false);
    }

    public static class ProviderBuilder {
        private String name = Platform.getDefaultProviderName();
        private boolean provideTrustManager;

        private ProviderBuilder() {}

        /**
         * Sets the name of the Provider to be built.
         */
        public ProviderBuilder setName(String name) {
            this.name = name;
            return this;
        }

        /**
         * Causes the returned provider to provide an implementation of
         * {@link javax.net.ssl.TrustManagerFactory}.
         */
        public ProviderBuilder provideTrustManager() {
            this.provideTrustManager = true;
            return this;
        }

        public Provider build() {
            return new OpenSSLProvider(name, provideTrustManager);
        }
    }

    public static ProviderBuilder newProviderBuilder() {
        return new ProviderBuilder();
    }

    /**
     * Returns the maximum length (in bytes) of an encrypted packet.
     */
    public static int maxEncryptedPacketLength() {
        return NativeConstants.SSL3_RT_MAX_PACKET_SIZE;
    }

    /**
     * Gets the default X.509 trust manager.
     */
    @ExperimentalApi
    public static X509TrustManager getDefaultX509TrustManager() throws KeyManagementException {
        checkAvailability();
        return SSLParametersImpl.getDefaultX509TrustManager();
    }

    /**
     * Indicates whether the given {@link SSLContext} was created by this distribution of Conscrypt.
     */
    public static boolean isConscrypt(SSLContext context) {
        return context.getProvider() instanceof OpenSSLProvider;
    }

    /**
     * Constructs a new instance of the preferred {@link SSLContextSpi}.
     */
    public static SSLContextSpi newPreferredSSLContextSpi() {
        checkAvailability();
        return OpenSSLContextImpl.getPreferred();
    }

    /**
     * Sets the client-side persistent cache to be used by the context.
     */
    public static void setClientSessionCache(SSLContext context, SSLClientSessionCache cache) {
        SSLSessionContext clientContext = context.getClientSessionContext();
        if (!(clientContext instanceof ClientSessionContext)) {
            throw new IllegalArgumentException(
                    "Not a conscrypt client context: " + clientContext.getClass().getName());
        }
        ((ClientSessionContext) clientContext).setPersistentCache(cache);
    }

    /**
     * Sets the server-side persistent cache to be used by the context.
     */
    public static void setServerSessionCache(SSLContext context, SSLServerSessionCache cache) {
        SSLSessionContext serverContext = context.getServerSessionContext();
        if (!(serverContext instanceof ServerSessionContext)) {
            throw new IllegalArgumentException(
                    "Not a conscrypt client context: " + serverContext.getClass().getName());
        }
        ((ServerSessionContext) serverContext).setPersistentCache(cache);
    }

    /**
     * Indicates whether the given {@link SSLSocketFactory} was created by this distribution of
     * Conscrypt.
     */
    public static boolean isConscrypt(SSLSocketFactory factory) {
        return factory instanceof OpenSSLSocketFactoryImpl;
    }

    private static OpenSSLSocketFactoryImpl toConscrypt(SSLSocketFactory factory) {
        if (!isConscrypt(factory)) {
            throw new IllegalArgumentException(
                    "Not a conscrypt socket factory: " + factory.getClass().getName());
        }
        return (OpenSSLSocketFactoryImpl) factory;
    }

    /**
     * Configures the default socket to be created for all socket factory instances.
     */
    @ExperimentalApi
    public static void setUseEngineSocketByDefault(boolean useEngineSocket) {
        OpenSSLSocketFactoryImpl.setUseEngineSocketByDefault(useEngineSocket);
        OpenSSLServerSocketFactoryImpl.setUseEngineSocketByDefault(useEngineSocket);
    }

    /**
     * Configures the socket to be created for the given socket factory instance.
     */
    @ExperimentalApi
    public static void setUseEngineSocket(SSLSocketFactory factory, boolean useEngineSocket) {
        toConscrypt(factory).setUseEngineSocket(useEngineSocket);
    }

    /**
     * Indicates whether the given {@link SSLServerSocketFactory} was created by this distribution
     * of Conscrypt.
     */
    public static boolean isConscrypt(SSLServerSocketFactory factory) {
        return factory instanceof OpenSSLServerSocketFactoryImpl;
    }

    private static OpenSSLServerSocketFactoryImpl toConscrypt(SSLServerSocketFactory factory) {
        if (!isConscrypt(factory)) {
            throw new IllegalArgumentException(
                    "Not a conscrypt server socket factory: " + factory.getClass().getName());
        }
        return (OpenSSLServerSocketFactoryImpl) factory;
    }

    /**
     * Configures the socket to be created for the given server socket factory instance.
     */
    @ExperimentalApi
    public static void setUseEngineSocket(SSLServerSocketFactory factory, boolean useEngineSocket) {
        toConscrypt(factory).setUseEngineSocket(useEngineSocket);
    }

    /**
     * Indicates whether the given {@link SSLSocket} was created by this distribution of Conscrypt.
     */
    public static boolean isConscrypt(SSLSocket socket) {
        return socket instanceof AbstractConscryptSocket;
    }

    private static AbstractConscryptSocket toConscrypt(SSLSocket socket) {
        if (!isConscrypt(socket)) {
            throw new IllegalArgumentException(
                    "Not a conscrypt socket: " + socket.getClass().getName());
        }
        return (AbstractConscryptSocket) socket;
    }

    /**
     * This method enables Server Name Indication (SNI) and overrides the hostname supplied
     * during socket creation.  If the hostname is not a valid SNI hostname, the SNI extension
     * will be omitted from the handshake.
     *
     * @param socket the socket
     * @param hostname the desired SNI hostname, or null to disable
     */
    public static void setHostname(SSLSocket socket, String hostname) {
        toConscrypt(socket).setHostname(hostname);
    }

    /**
     * Returns either the hostname supplied during socket creation or via
     * {@link #setHostname(SSLSocket, String)}. No DNS resolution is attempted before
     * returning the hostname.
     */
    public static String getHostname(SSLSocket socket) {
        return toConscrypt(socket).getHostname();
    }

    /**
     * This method attempts to create a textual representation of the peer host or IP. Does
     * not perform a reverse DNS lookup. This is typically used during session creation.
     */
    public static String getHostnameOrIP(SSLSocket socket) {
        return toConscrypt(socket).getHostnameOrIP();
    }

    /**
     * This method enables session ticket support.
     *
     * @param socket the socket
     * @param useSessionTickets True to enable session tickets
     */
    public static void setUseSessionTickets(SSLSocket socket, boolean useSessionTickets) {
        toConscrypt(socket).setUseSessionTickets(useSessionTickets);
    }

    /**
     * Enables/disables TLS Channel ID for the given server-side socket.
     *
     * 

This method needs to be invoked before the handshake starts. * * @param socket the socket * @param enabled Whether to enable channel ID. * @throws IllegalStateException if this is a client socket or if the handshake has already * started. */ public static void setChannelIdEnabled(SSLSocket socket, boolean enabled) { toConscrypt(socket).setChannelIdEnabled(enabled); } /** * Gets the TLS Channel ID for the given server-side socket. Channel ID is only available * once the handshake completes. * * @param socket the socket * @return channel ID or {@code null} if not available. * @throws IllegalStateException if this is a client socket or if the handshake has not yet * completed. * @throws SSLException if channel ID is available but could not be obtained. */ public static byte[] getChannelId(SSLSocket socket) throws SSLException { return toConscrypt(socket).getChannelId(); } /** * Sets the {@link PrivateKey} to be used for TLS Channel ID by this client socket. * *

This method needs to be invoked before the handshake starts. * * @param socket the socket * @param privateKey private key (enables TLS Channel ID) or {@code null} for no key * (disables TLS Channel ID). * The private key must be an Elliptic Curve (EC) key based on the NIST P-256 curve (aka * SECG secp256r1 or ANSI * X9.62 prime256v1). * @throws IllegalStateException if this is a server socket or if the handshake has already * started. */ public static void setChannelIdPrivateKey(SSLSocket socket, PrivateKey privateKey) { toConscrypt(socket).setChannelIdPrivateKey(privateKey); } /** * Returns the ALPN protocol agreed upon by client and server. * * @param socket the socket * @return the selected protocol or {@code null} if no protocol was agreed upon. */ public static String getApplicationProtocol(SSLSocket socket) { return toConscrypt(socket).getApplicationProtocol(); } /** * Sets an application-provided ALPN protocol selector. If provided, this will override * the list of protocols set by {@link #setApplicationProtocols(SSLSocket, String[])}. * * @param socket the socket * @param selector the ALPN protocol selector */ public static void setApplicationProtocolSelector(SSLSocket socket, ApplicationProtocolSelector selector) { toConscrypt(socket).setApplicationProtocolSelector(selector); } /** * Sets the application-layer protocols (ALPN) in prioritization order. * * @param socket the socket being configured * @param protocols the protocols in descending order of preference. If empty, no protocol * indications will be used. This array will be copied. * @throws IllegalArgumentException - if protocols is null, or if any element in a non-empty * array is null or an empty (zero-length) string */ public static void setApplicationProtocols(SSLSocket socket, String[] protocols) { toConscrypt(socket).setApplicationProtocols(protocols); } /** * Gets the application-layer protocols (ALPN) in prioritization order. * * @param socket the socket * @return the protocols in descending order of preference, or an empty array if protocol * indications are not being used. Always returns a new array. */ public static String[] getApplicationProtocols(SSLSocket socket) { return toConscrypt(socket).getApplicationProtocols(); } /** * Returns the tls-unique channel binding value for this connection, per RFC 5929. This * will return {@code null} if there is no such value available, such as if the handshake * has not yet completed or this connection is closed. */ public static byte[] getTlsUnique(SSLSocket socket) { return toConscrypt(socket).getTlsUnique(); } /** * Exports a value derived from the TLS master secret as described in RFC 5705. * * @param label the label to use in calculating the exported value. This must be * an ASCII-only string. * @param context the application-specific context value to use in calculating the * exported value. This may be {@code null} to use no application context, which is * treated differently than an empty byte array. * @param length the number of bytes of keying material to return. * @return a value of the specified length, or {@code null} if the handshake has not yet * completed or the connection has been closed. * @throws SSLException if the value could not be exported. */ public static byte[] exportKeyingMaterial(SSLSocket socket, String label, byte[] context, int length) throws SSLException { return toConscrypt(socket).exportKeyingMaterial(label, context, length); } /** * Indicates whether the given {@link SSLEngine} was created by this distribution of Conscrypt. */ public static boolean isConscrypt(SSLEngine engine) { return engine instanceof AbstractConscryptEngine; } private static AbstractConscryptEngine toConscrypt(SSLEngine engine) { if (!isConscrypt(engine)) { throw new IllegalArgumentException( "Not a conscrypt engine: " + engine.getClass().getName()); } return (AbstractConscryptEngine) engine; } /** * Provides the given engine with the provided bufferAllocator. */ @ExperimentalApi public static void setBufferAllocator(SSLEngine engine, BufferAllocator bufferAllocator) { toConscrypt(engine).setBufferAllocator(bufferAllocator); } /** * Configures the default {@link BufferAllocator} to be used by all future * {@link SSLEngine} instances from this provider. */ @ExperimentalApi public static void setDefaultBufferAllocator(BufferAllocator bufferAllocator) { ConscryptEngine.setDefaultBufferAllocator(bufferAllocator); } /** * This method enables Server Name Indication (SNI) and overrides the hostname supplied * during engine creation. * * @param engine the engine * @param hostname the desired SNI hostname, or {@code null} to disable */ public static void setHostname(SSLEngine engine, String hostname) { toConscrypt(engine).setHostname(hostname); } /** * Returns either the hostname supplied during socket creation or via * {@link #setHostname(SSLEngine, String)}. No DNS resolution is attempted before * returning the hostname. */ public static String getHostname(SSLEngine engine) { return toConscrypt(engine).getHostname(); } /** * Returns the maximum overhead, in bytes, of sealing a record with SSL. */ public static int maxSealOverhead(SSLEngine engine) { return toConscrypt(engine).maxSealOverhead(); } /** * Sets a listener on the given engine for completion of the TLS handshake */ public static void setHandshakeListener(SSLEngine engine, HandshakeListener handshakeListener) { toConscrypt(engine).setHandshakeListener(handshakeListener); } /** * Enables/disables TLS Channel ID for the given server-side engine. * *

This method needs to be invoked before the handshake starts. * * @param engine the engine * @param enabled Whether to enable channel ID. * @throws IllegalStateException if this is a client engine or if the handshake has already * started. */ public static void setChannelIdEnabled(SSLEngine engine, boolean enabled) { toConscrypt(engine).setChannelIdEnabled(enabled); } /** * Gets the TLS Channel ID for the given server-side engine. Channel ID is only available * once the handshake completes. * * @param engine the engine * @return channel ID or {@code null} if not available. * @throws IllegalStateException if this is a client engine or if the handshake has not yet * completed. * @throws SSLException if channel ID is available but could not be obtained. */ public static byte[] getChannelId(SSLEngine engine) throws SSLException { return toConscrypt(engine).getChannelId(); } /** * Sets the {@link PrivateKey} to be used for TLS Channel ID by this client engine. * *

This method needs to be invoked before the handshake starts. * * @param engine the engine * @param privateKey private key (enables TLS Channel ID) or {@code null} for no key * (disables TLS Channel ID). * The private key must be an Elliptic Curve (EC) key based on the NIST P-256 curve (aka * SECG secp256r1 or ANSI X9.62 prime256v1). * @throws IllegalStateException if this is a server engine or if the handshake has already * started. */ public static void setChannelIdPrivateKey(SSLEngine engine, PrivateKey privateKey) { toConscrypt(engine).setChannelIdPrivateKey(privateKey); } /** * Extended unwrap method for multiple source and destination buffers. * * @param engine the target engine for the unwrap * @param srcs the source buffers * @param dsts the destination buffers * @return the result of the unwrap operation * @throws SSLException thrown if an SSL error occurred */ public static SSLEngineResult unwrap(SSLEngine engine, final ByteBuffer[] srcs, final ByteBuffer[] dsts) throws SSLException { return toConscrypt(engine).unwrap(srcs, dsts); } /** * Exteneded unwrap method for multiple source and destination buffers. * * @param engine the target engine for the unwrap. * @param srcs the source buffers * @param srcsOffset the offset in the {@code srcs} array of the first source buffer * @param srcsLength the number of source buffers starting at {@code srcsOffset} * @param dsts the destination buffers * @param dstsOffset the offset in the {@code dsts} array of the first destination buffer * @param dstsLength the number of destination buffers starting at {@code dstsOffset} * @return the result of the unwrap operation * @throws SSLException thrown if an SSL error occurred */ public static SSLEngineResult unwrap(SSLEngine engine, final ByteBuffer[] srcs, int srcsOffset, final int srcsLength, final ByteBuffer[] dsts, final int dstsOffset, final int dstsLength) throws SSLException { return toConscrypt(engine).unwrap( srcs, srcsOffset, srcsLength, dsts, dstsOffset, dstsLength); } /** * This method enables session ticket support. * * @param engine the engine * @param useSessionTickets True to enable session tickets */ public static void setUseSessionTickets(SSLEngine engine, boolean useSessionTickets) { toConscrypt(engine).setUseSessionTickets(useSessionTickets); } /** * Sets the application-layer protocols (ALPN) in prioritization order. * * @param engine the engine being configured * @param protocols the protocols in descending order of preference. If empty, no protocol * indications will be used. This array will be copied. * @throws IllegalArgumentException - if protocols is null, or if any element in a non-empty * array is null or an empty (zero-length) string */ public static void setApplicationProtocols(SSLEngine engine, String[] protocols) { toConscrypt(engine).setApplicationProtocols(protocols); } /** * Gets the application-layer protocols (ALPN) in prioritization order. * * @param engine the engine * @return the protocols in descending order of preference, or an empty array if protocol * indications are not being used. Always returns a new array. */ public static String[] getApplicationProtocols(SSLEngine engine) { return toConscrypt(engine).getApplicationProtocols(); } /** * Sets an application-provided ALPN protocol selector. If provided, this will override * the list of protocols set by {@link #setApplicationProtocols(SSLEngine, String[])}. * * @param engine the engine * @param selector the ALPN protocol selector */ public static void setApplicationProtocolSelector(SSLEngine engine, ApplicationProtocolSelector selector) { toConscrypt(engine).setApplicationProtocolSelector(selector); } /** * Returns the ALPN protocol agreed upon by client and server. * * @param engine the engine * @return the selected protocol or {@code null} if no protocol was agreed upon. */ public static String getApplicationProtocol(SSLEngine engine) { return toConscrypt(engine).getApplicationProtocol(); } /** * Returns the tls-unique channel binding value for this connection, per RFC 5929. This * will return {@code null} if there is no such value available, such as if the handshake * has not yet completed or this connection is closed. */ public static byte[] getTlsUnique(SSLEngine engine) { return toConscrypt(engine).getTlsUnique(); } /** * Exports a value derived from the TLS master secret as described in RFC 5705. * * @param label the label to use in calculating the exported value. This must be * an ASCII-only string. * @param context the application-specific context value to use in calculating the * exported value. This may be {@code null} to use no application context, which is * treated differently than an empty byte array. * @param length the number of bytes of keying material to return. * @return a value of the specified length, or {@code null} if the handshake has not yet * completed or the connection has been closed. * @throws SSLException if the value could not be exported. */ public static byte[] exportKeyingMaterial(SSLEngine engine, String label, byte[] context, int length) throws SSLException { return toConscrypt(engine).exportKeyingMaterial(label, context, length); } }





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