| /* |
| * Copyright (c) 2003, 2017, Oracle and/or its affiliates. All rights reserved. |
| * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER. |
| * |
| * This code is free software; you can redistribute it and/or modify it |
| * under the terms of the GNU General Public License version 2 only, as |
| * published by the Free Software Foundation. Oracle designates this |
| * particular file as subject to the "Classpath" exception as provided |
| * by Oracle in the LICENSE file that accompanied this code. |
| * |
| * This code is distributed in the hope that it will be useful, but WITHOUT |
| * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or |
| * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License |
| * version 2 for more details (a copy is included in the LICENSE file that |
| * accompanied this code). |
| * |
| * You should have received a copy of the GNU General Public License version |
| * 2 along with this work; if not, write to the Free Software Foundation, |
| * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA. |
| * |
| * Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA |
| * or visit www.oracle.com if you need additional information or have any |
| * questions. |
| */ |
| |
| package javax.net.ssl; |
| |
| import java.nio.ByteBuffer; |
| import java.nio.ReadOnlyBufferException; |
| import java.util.List; |
| import java.util.function.BiFunction; |
| |
| |
| /** |
| * A class which enables secure communications using protocols such as |
| * the Secure Sockets Layer (SSL) or |
| * <A HREF="http://www.ietf.org/rfc/rfc2246.txt"> IETF RFC 2246 "Transport |
| * Layer Security" (TLS) </A> protocols, but is transport independent. |
| * <P> |
| * The secure communications modes include: <UL> |
| * |
| * <LI> <em>Integrity Protection</em>. SSL/TLS/DTLS protects against |
| * modification of messages by an active wiretapper. |
| * |
| * <LI> <em>Authentication</em>. In most modes, SSL/TLS/DTLS provides |
| * peer authentication. Servers are usually authenticated, and |
| * clients may be authenticated as requested by servers. |
| * |
| * <LI> <em>Confidentiality (Privacy Protection)</em>. In most |
| * modes, SSL/TLS/DTLS encrypts data being sent between client and |
| * server. This protects the confidentiality of data, so that |
| * passive wiretappers won't see sensitive data such as financial |
| * information or personal information of many kinds. |
| * |
| * </UL> |
| * |
| * These kinds of protection are specified by a "cipher suite", which |
| * is a combination of cryptographic algorithms used by a given SSL |
| * connection. During the negotiation process, the two endpoints must |
| * agree on a cipher suite that is available in both environments. If |
| * there is no such suite in common, no SSL connection can be |
| * established, and no data can be exchanged. |
| * <P> |
| * The cipher suite used is established by a negotiation process called |
| * "handshaking". The goal of this process is to create or rejoin a |
| * "session", which may protect many connections over time. After |
| * handshaking has completed, you can access session attributes by |
| * using the {@link #getSession()} method. |
| * <P> |
| * The {@code SSLSocket} class provides much of the same security |
| * functionality, but all of the inbound and outbound data is |
| * automatically transported using the underlying {@link |
| * java.net.Socket Socket}, which by design uses a blocking model. |
| * While this is appropriate for many applications, this model does not |
| * provide the scalability required by large servers. |
| * <P> |
| * The primary distinction of an {@code SSLEngine} is that it |
| * operates on inbound and outbound byte streams, independent of the |
| * transport mechanism. It is the responsibility of the |
| * {@code SSLEngine} user to arrange for reliable I/O transport to |
| * the peer. By separating the SSL/TLS/DTLS abstraction from the I/O |
| * transport mechanism, the {@code SSLEngine} can be used for a |
| * wide variety of I/O types, such as {@link |
| * java.nio.channels.spi.AbstractSelectableChannel#configureBlocking(boolean) |
| * non-blocking I/O (polling)}, {@link java.nio.channels.Selector |
| * selectable non-blocking I/O}, {@link java.net.Socket Socket} and the |
| * traditional Input/OutputStreams, local {@link java.nio.ByteBuffer |
| * ByteBuffers} or byte arrays, <A |
| * HREF="http://www.jcp.org/en/jsr/detail?id=203"> future asynchronous |
| * I/O models </A>, and so on. |
| * <P> |
| * At a high level, the {@code SSLEngine} appears thus: |
| * |
| * <pre> |
| * app data |
| * |
| * | ^ |
| * | | | |
| * v | | |
| * +----+-----|-----+----+ |
| * | | | |
| * | SSL|Engine | |
| * wrap() | | | unwrap() |
| * | OUTBOUND | INBOUND | |
| * | | | |
| * +----+-----|-----+----+ |
| * | | ^ |
| * | | | |
| * v | |
| * |
| * net data |
| * </pre> |
| * Application data (also known as plaintext or cleartext) is data which |
| * is produced or consumed by an application. Its counterpart is |
| * network data, which consists of either handshaking and/or ciphertext |
| * (encrypted) data, and destined to be transported via an I/O |
| * mechanism. Inbound data is data which has been received from the |
| * peer, and outbound data is destined for the peer. |
| * <P> |
| * (In the context of an {@code SSLEngine}, the term "handshake |
| * data" is taken to mean any data exchanged to establish and control a |
| * secure connection. Handshake data includes the SSL/TLS/DTLS messages |
| * "alert", "change_cipher_spec," and "handshake.") |
| * <P> |
| * There are five distinct phases to an {@code SSLEngine}. |
| * |
| * <OL> |
| * <li> Creation - The {@code SSLEngine} has been created and |
| * initialized, but has not yet been used. During this phase, an |
| * application may set any {@code SSLEngine}-specific settings |
| * (enabled cipher suites, whether the {@code SSLEngine} should |
| * handshake in client or server mode, and so on). Once |
| * handshaking has begun, though, any new settings (except |
| * client/server mode, see below) will be used for |
| * the next handshake. |
| * |
| * <li> Initial Handshake - The initial handshake is a procedure by |
| * which the two peers exchange communication parameters until an |
| * SSLSession is established. Application data can not be sent during |
| * this phase. |
| * |
| * <li> Application Data - Once the communication parameters have |
| * been established and the handshake is complete, application data |
| * may flow through the {@code SSLEngine}. Outbound |
| * application messages are encrypted and integrity protected, |
| * and inbound messages reverse the process. |
| * |
| * <li> Rehandshaking - Either side may request a renegotiation of |
| * the session at any time during the Application Data phase. New |
| * handshaking data can be intermixed among the application data. |
| * Before starting the rehandshake phase, the application may |
| * reset the SSL/TLS/DTLS communication parameters such as the list of |
| * enabled ciphersuites and whether to use client authentication, |
| * but can not change between client/server modes. As before, once |
| * handshaking has begun, any new {@code SSLEngine} |
| * configuration settings will not be used until the next |
| * handshake. |
| * |
| * <li> Closure - When the connection is no longer needed, the |
| * application should close the {@code SSLEngine} and should |
| * send/receive any remaining messages to the peer before |
| * closing the underlying transport mechanism. Once an engine is |
| * closed, it is not reusable: a new {@code SSLEngine} must |
| * be created. |
| * </OL> |
| * An {@code SSLEngine} is created by calling {@link |
| * SSLContext#createSSLEngine()} from an initialized |
| * {@code SSLContext}. Any configuration |
| * parameters should be set before making the first call to |
| * {@code wrap()}, {@code unwrap()}, or |
| * {@code beginHandshake()}. These methods all trigger the |
| * initial handshake. |
| * <P> |
| * Data moves through the engine by calling {@link #wrap(ByteBuffer, |
| * ByteBuffer) wrap()} or {@link #unwrap(ByteBuffer, ByteBuffer) |
| * unwrap()} on outbound or inbound data, respectively. Depending on |
| * the state of the {@code SSLEngine}, a {@code wrap()} call |
| * may consume application data from the source buffer and may produce |
| * network data in the destination buffer. The outbound data |
| * may contain application and/or handshake data. A call to |
| * {@code unwrap()} will examine the source buffer and may |
| * advance the handshake if the data is handshaking information, or |
| * may place application data in the destination buffer if the data |
| * is application. The state of the underlying SSL/TLS/DTLS algorithm |
| * will determine when data is consumed and produced. |
| * <P> |
| * Calls to {@code wrap()} and {@code unwrap()} return an |
| * {@code SSLEngineResult} which indicates the status of the |
| * operation, and (optionally) how to interact with the engine to make |
| * progress. |
| * <P> |
| * The {@code SSLEngine} produces/consumes complete SSL/TLS/DTLS |
| * packets only, and does not store application data internally between |
| * calls to {@code wrap()/unwrap()}. Thus input and output |
| * {@code ByteBuffer}s must be sized appropriately to hold the |
| * maximum record that can be produced. Calls to {@link |
| * SSLSession#getPacketBufferSize()} and {@link |
| * SSLSession#getApplicationBufferSize()} should be used to determine |
| * the appropriate buffer sizes. The size of the outbound application |
| * data buffer generally does not matter. If buffer conditions do not |
| * allow for the proper consumption/production of data, the application |
| * must determine (via {@link SSLEngineResult}) and correct the |
| * problem, and then try the call again. |
| * <P> |
| * For example, {@code unwrap()} will return a {@link |
| * SSLEngineResult.Status#BUFFER_OVERFLOW} result if the engine |
| * determines that there is not enough destination buffer space available. |
| * Applications should call {@link SSLSession#getApplicationBufferSize()} |
| * and compare that value with the space available in the destination buffer, |
| * enlarging the buffer if necessary. Similarly, if {@code unwrap()} |
| * were to return a {@link SSLEngineResult.Status#BUFFER_UNDERFLOW}, the |
| * application should call {@link SSLSession#getPacketBufferSize()} to ensure |
| * that the source buffer has enough room to hold a record (enlarging if |
| * necessary), and then obtain more inbound data. |
| * |
| * <pre>{@code |
| * SSLEngineResult r = engine.unwrap(src, dst); |
| * switch (r.getStatus()) { |
| * BUFFER_OVERFLOW: |
| * // Could attempt to drain the dst buffer of any already obtained |
| * // data, but we'll just increase it to the size needed. |
| * int appSize = engine.getSession().getApplicationBufferSize(); |
| * ByteBuffer b = ByteBuffer.allocate(appSize + dst.position()); |
| * dst.flip(); |
| * b.put(dst); |
| * dst = b; |
| * // retry the operation. |
| * break; |
| * BUFFER_UNDERFLOW: |
| * int netSize = engine.getSession().getPacketBufferSize(); |
| * // Resize buffer if needed. |
| * if (netSize > dst.capacity()) { |
| * ByteBuffer b = ByteBuffer.allocate(netSize); |
| * src.flip(); |
| * b.put(src); |
| * src = b; |
| * } |
| * // Obtain more inbound network data for src, |
| * // then retry the operation. |
| * break; |
| * // other cases: CLOSED, OK. |
| * } |
| * }</pre> |
| * |
| * <P> |
| * Unlike {@code SSLSocket}, all methods of SSLEngine are |
| * non-blocking. {@code SSLEngine} implementations may |
| * require the results of tasks that may take an extended period of |
| * time to complete, or may even block. For example, a TrustManager |
| * may need to connect to a remote certificate validation service, |
| * or a KeyManager might need to prompt a user to determine which |
| * certificate to use as part of client authentication. Additionally, |
| * creating cryptographic signatures and verifying them can be slow, |
| * seemingly blocking. |
| * <P> |
| * For any operation which may potentially block, the |
| * {@code SSLEngine} will create a {@link java.lang.Runnable} |
| * delegated task. When {@code SSLEngineResult} indicates that a |
| * delegated task result is needed, the application must call {@link |
| * #getDelegatedTask()} to obtain an outstanding delegated task and |
| * call its {@link java.lang.Runnable#run() run()} method (possibly using |
| * a different thread depending on the compute strategy). The |
| * application should continue obtaining delegated tasks until no more |
| * exist, and try the original operation again. |
| * <P> |
| * At the end of a communication session, applications should properly |
| * close the SSL/TLS/DTLS link. The SSL/TLS/DTLS protocols have closure |
| * handshake messages, and these messages should be communicated to the |
| * peer before releasing the {@code SSLEngine} and closing the |
| * underlying transport mechanism. A close can be initiated by one of: |
| * an SSLException, an inbound closure handshake message, or one of the |
| * close methods. In all cases, closure handshake messages are |
| * generated by the engine, and {@code wrap()} should be repeatedly |
| * called until the resulting {@code SSLEngineResult}'s status |
| * returns "CLOSED", or {@link #isOutboundDone()} returns true. All |
| * data obtained from the {@code wrap()} method should be sent to the |
| * peer. |
| * <P> |
| * {@link #closeOutbound()} is used to signal the engine that the |
| * application will not be sending any more data. |
| * <P> |
| * A peer will signal its intent to close by sending its own closure |
| * handshake message. After this message has been received and |
| * processed by the local {@code SSLEngine}'s {@code unwrap()} |
| * call, the application can detect the close by calling |
| * {@code unwrap()} and looking for a {@code SSLEngineResult} |
| * with status "CLOSED", or if {@link #isInboundDone()} returns true. |
| * If for some reason the peer closes the communication link without |
| * sending the proper SSL/TLS/DTLS closure message, the application can |
| * detect the end-of-stream and can signal the engine via {@link |
| * #closeInbound()} that there will no more inbound messages to |
| * process. Some applications might choose to require orderly shutdown |
| * messages from a peer, in which case they can check that the closure |
| * was generated by a handshake message and not by an end-of-stream |
| * condition. |
| * <P> |
| * There are two groups of cipher suites which you will need to know |
| * about when managing cipher suites: |
| * |
| * <UL> |
| * <LI> <em>Supported</em> cipher suites: all the suites which are |
| * supported by the SSL implementation. This list is reported |
| * using {@link #getSupportedCipherSuites()}. |
| * |
| * <LI> <em>Enabled</em> cipher suites, which may be fewer than |
| * the full set of supported suites. This group is set using the |
| * {@link #setEnabledCipherSuites(String [])} method, and |
| * queried using the {@link #getEnabledCipherSuites()} method. |
| * Initially, a default set of cipher suites will be enabled on a |
| * new engine that represents the minimum suggested |
| * configuration. |
| * </UL> |
| * |
| * Implementation defaults require that only cipher suites which |
| * authenticate servers and provide confidentiality be enabled by |
| * default. Only if both sides explicitly agree to unauthenticated |
| * and/or non-private (unencrypted) communications will such a |
| * cipher suite be selected. |
| * <P> |
| * Each SSL/TLS/DTLS connection must have one client and one server, thus |
| * each endpoint must decide which role to assume. This choice determines |
| * who begins the handshaking process as well as which type of messages |
| * should be sent by each party. The method {@link |
| * #setUseClientMode(boolean)} configures the mode. Once the initial |
| * handshaking has started, an {@code SSLEngine} can not switch |
| * between client and server modes, even when performing renegotiations. |
| * <P> |
| * Applications might choose to process delegated tasks in different |
| * threads. When an {@code SSLEngine} |
| * is created, the current {@link java.security.AccessControlContext} |
| * is saved. All future delegated tasks will be processed using this |
| * context: that is, all access control decisions will be made using the |
| * context captured at engine creation. |
| * |
| * <HR> |
| * |
| * <B>Concurrency Notes</B>: |
| * There are two concurrency issues to be aware of: |
| * |
| * <OL> |
| * <li>The {@code wrap()} and {@code unwrap()} methods |
| * may execute concurrently of each other. |
| * |
| * <li> The SSL/TLS/DTLS protocols employ ordered packets. |
| * Applications must take care to ensure that generated packets |
| * are delivered in sequence. If packets arrive |
| * out-of-order, unexpected or fatal results may occur. |
| * <P> |
| * For example: |
| * |
| * <pre> |
| * synchronized (outboundLock) { |
| * sslEngine.wrap(src, dst); |
| * outboundQueue.put(dst); |
| * } |
| * </pre> |
| * |
| * As a corollary, two threads must not attempt to call the same method |
| * (either {@code wrap()} or {@code unwrap()}) concurrently, |
| * because there is no way to guarantee the eventual packet ordering. |
| * </OL> |
| * |
| * @see SSLContext |
| * @see SSLSocket |
| * @see SSLServerSocket |
| * @see SSLSession |
| * @see java.net.Socket |
| * |
| * @since 1.5 |
| * @author Brad R. Wetmore |
| */ |
| |
| public abstract class SSLEngine { |
| |
| private String peerHost = null; |
| private int peerPort = -1; |
| |
| /** |
| * Constructor for an {@code SSLEngine} providing no hints |
| * for an internal session reuse strategy. |
| * |
| * @see SSLContext#createSSLEngine() |
| * @see SSLSessionContext |
| */ |
| protected SSLEngine() { |
| } |
| |
| /** |
| * Constructor for an {@code SSLEngine}. |
| * <P> |
| * {@code SSLEngine} implementations may use the |
| * {@code peerHost} and {@code peerPort} parameters as hints |
| * for their internal session reuse strategy. |
| * <P> |
| * Some cipher suites (such as Kerberos) require remote hostname |
| * information. Implementations of this class should use this |
| * constructor to use Kerberos. |
| * <P> |
| * The parameters are not authenticated by the |
| * {@code SSLEngine}. |
| * |
| * @param peerHost the name of the peer host |
| * @param peerPort the port number of the peer |
| * @see SSLContext#createSSLEngine(String, int) |
| * @see SSLSessionContext |
| */ |
| protected SSLEngine(String peerHost, int peerPort) { |
| this.peerHost = peerHost; |
| this.peerPort = peerPort; |
| } |
| |
| /** |
| * Returns the host name of the peer. |
| * <P> |
| * Note that the value is not authenticated, and should not be |
| * relied upon. |
| * |
| * @return the host name of the peer, or null if nothing is |
| * available. |
| */ |
| public String getPeerHost() { |
| return peerHost; |
| } |
| |
| /** |
| * Returns the port number of the peer. |
| * <P> |
| * Note that the value is not authenticated, and should not be |
| * relied upon. |
| * |
| * @return the port number of the peer, or -1 if nothing is |
| * available. |
| */ |
| public int getPeerPort() { |
| return peerPort; |
| } |
| |
| /** |
| * Attempts to encode a buffer of plaintext application data into |
| * SSL/TLS/DTLS network data. |
| * <P> |
| * An invocation of this method behaves in exactly the same manner |
| * as the invocation: |
| * <blockquote><pre> |
| * {@link #wrap(ByteBuffer [], int, int, ByteBuffer) |
| * engine.wrap(new ByteBuffer [] { src }, 0, 1, dst);} |
| * </pre></blockquote> |
| * |
| * @param src |
| * a {@code ByteBuffer} containing outbound application data |
| * @param dst |
| * a {@code ByteBuffer} to hold outbound network data |
| * @return an {@code SSLEngineResult} describing the result |
| * of this operation. |
| * @throws SSLException |
| * A problem was encountered while processing the |
| * data that caused the {@code SSLEngine} to abort. |
| * See the class description for more information on |
| * engine closure. |
| * @throws ReadOnlyBufferException |
| * if the {@code dst} buffer is read-only. |
| * @throws IllegalArgumentException |
| * if either {@code src} or {@code dst} |
| * is null. |
| * @throws IllegalStateException if the client/server mode |
| * has not yet been set. |
| * @see #wrap(ByteBuffer [], int, int, ByteBuffer) |
| */ |
| public SSLEngineResult wrap(ByteBuffer src, |
| ByteBuffer dst) throws SSLException { |
| return wrap(new ByteBuffer [] { src }, 0, 1, dst); |
| } |
| |
| /** |
| * Attempts to encode plaintext bytes from a sequence of data |
| * buffers into SSL/TLS/DTLS network data. |
| * <P> |
| * An invocation of this method behaves in exactly the same manner |
| * as the invocation: |
| * <blockquote><pre> |
| * {@link #wrap(ByteBuffer [], int, int, ByteBuffer) |
| * engine.wrap(srcs, 0, srcs.length, dst);} |
| * </pre></blockquote> |
| * |
| * @param srcs |
| * an array of {@code ByteBuffers} containing the |
| * outbound application data |
| * @param dst |
| * a {@code ByteBuffer} to hold outbound network data |
| * @return an {@code SSLEngineResult} describing the result |
| * of this operation. |
| * @throws SSLException |
| * A problem was encountered while processing the |
| * data that caused the {@code SSLEngine} to abort. |
| * See the class description for more information on |
| * engine closure. |
| * @throws ReadOnlyBufferException |
| * if the {@code dst} buffer is read-only. |
| * @throws IllegalArgumentException |
| * if either {@code srcs} or {@code dst} |
| * is null, or if any element in {@code srcs} is null. |
| * @throws IllegalStateException if the client/server mode |
| * has not yet been set. |
| * @see #wrap(ByteBuffer [], int, int, ByteBuffer) |
| */ |
| public SSLEngineResult wrap(ByteBuffer [] srcs, |
| ByteBuffer dst) throws SSLException { |
| if (srcs == null) { |
| throw new IllegalArgumentException("src == null"); |
| } |
| return wrap(srcs, 0, srcs.length, dst); |
| } |
| |
| |
| /** |
| * Attempts to encode plaintext bytes from a subsequence of data |
| * buffers into SSL/TLS/DTLS network data. This <i>"gathering"</i> |
| * operation encodes, in a single invocation, a sequence of bytes |
| * from one or more of a given sequence of buffers. Gathering |
| * wraps are often useful when implementing network protocols or |
| * file formats that, for example, group data into segments |
| * consisting of one or more fixed-length headers followed by a |
| * variable-length body. See |
| * {@link java.nio.channels.GatheringByteChannel} for more |
| * information on gathering, and {@link |
| * java.nio.channels.GatheringByteChannel#write(ByteBuffer[], |
| * int, int)} for more information on the subsequence |
| * behavior. |
| * <P> |
| * Depending on the state of the SSLEngine, this method may produce |
| * network data without consuming any application data (for example, |
| * it may generate handshake data.) |
| * <P> |
| * The application is responsible for reliably transporting the |
| * network data to the peer, and for ensuring that data created by |
| * multiple calls to wrap() is transported in the same order in which |
| * it was generated. The application must properly synchronize |
| * multiple calls to this method. |
| * <P> |
| * If this {@code SSLEngine} has not yet started its initial |
| * handshake, this method will automatically start the handshake. |
| * <P> |
| * This method will attempt to produce SSL/TLS/DTLS records, and will |
| * consume as much source data as possible, but will never consume |
| * more than the sum of the bytes remaining in each buffer. Each |
| * {@code ByteBuffer}'s position is updated to reflect the |
| * amount of data consumed or produced. The limits remain the |
| * same. |
| * <P> |
| * The underlying memory used by the {@code srcs} and |
| * {@code dst ByteBuffer}s must not be the same. |
| * <P> |
| * See the class description for more information on engine closure. |
| * |
| * @param srcs |
| * an array of {@code ByteBuffers} containing the |
| * outbound application data |
| * @param offset |
| * The offset within the buffer array of the first buffer from |
| * which bytes are to be retrieved; it must be non-negative |
| * and no larger than {@code srcs.length} |
| * @param length |
| * The maximum number of buffers to be accessed; it must be |
| * non-negative and no larger than |
| * {@code srcs.length} - {@code offset} |
| * @param dst |
| * a {@code ByteBuffer} to hold outbound network data |
| * @return an {@code SSLEngineResult} describing the result |
| * of this operation. |
| * @throws SSLException |
| * A problem was encountered while processing the |
| * data that caused the {@code SSLEngine} to abort. |
| * See the class description for more information on |
| * engine closure. |
| * @throws IndexOutOfBoundsException |
| * if the preconditions on the {@code offset} and |
| * {@code length} parameters do not hold. |
| * @throws ReadOnlyBufferException |
| * if the {@code dst} buffer is read-only. |
| * @throws IllegalArgumentException |
| * if either {@code srcs} or {@code dst} |
| * is null, or if any element in the {@code srcs} |
| * subsequence specified is null. |
| * @throws IllegalStateException if the client/server mode |
| * has not yet been set. |
| * @see java.nio.channels.GatheringByteChannel |
| * @see java.nio.channels.GatheringByteChannel#write( |
| * ByteBuffer[], int, int) |
| */ |
| public abstract SSLEngineResult wrap(ByteBuffer [] srcs, int offset, |
| int length, ByteBuffer dst) throws SSLException; |
| |
| /** |
| * Attempts to decode SSL/TLS/DTLS network data into a plaintext |
| * application data buffer. |
| * <P> |
| * An invocation of this method behaves in exactly the same manner |
| * as the invocation: |
| * <blockquote><pre> |
| * {@link #unwrap(ByteBuffer, ByteBuffer [], int, int) |
| * engine.unwrap(src, new ByteBuffer [] { dst }, 0, 1);} |
| * </pre></blockquote> |
| * |
| * @param src |
| * a {@code ByteBuffer} containing inbound network data. |
| * @param dst |
| * a {@code ByteBuffer} to hold inbound application data. |
| * @return an {@code SSLEngineResult} describing the result |
| * of this operation. |
| * @throws SSLException |
| * A problem was encountered while processing the |
| * data that caused the {@code SSLEngine} to abort. |
| * See the class description for more information on |
| * engine closure. |
| * @throws ReadOnlyBufferException |
| * if the {@code dst} buffer is read-only. |
| * @throws IllegalArgumentException |
| * if either {@code src} or {@code dst} |
| * is null. |
| * @throws IllegalStateException if the client/server mode |
| * has not yet been set. |
| * @see #unwrap(ByteBuffer, ByteBuffer [], int, int) |
| */ |
| public SSLEngineResult unwrap(ByteBuffer src, |
| ByteBuffer dst) throws SSLException { |
| return unwrap(src, new ByteBuffer [] { dst }, 0, 1); |
| } |
| |
| /** |
| * Attempts to decode SSL/TLS/DTLS network data into a sequence of plaintext |
| * application data buffers. |
| * <P> |
| * An invocation of this method behaves in exactly the same manner |
| * as the invocation: |
| * <blockquote><pre> |
| * {@link #unwrap(ByteBuffer, ByteBuffer [], int, int) |
| * engine.unwrap(src, dsts, 0, dsts.length);} |
| * </pre></blockquote> |
| * |
| * @param src |
| * a {@code ByteBuffer} containing inbound network data. |
| * @param dsts |
| * an array of {@code ByteBuffer}s to hold inbound |
| * application data. |
| * @return an {@code SSLEngineResult} describing the result |
| * of this operation. |
| * @throws SSLException |
| * A problem was encountered while processing the |
| * data that caused the {@code SSLEngine} to abort. |
| * See the class description for more information on |
| * engine closure. |
| * @throws ReadOnlyBufferException |
| * if any of the {@code dst} buffers are read-only. |
| * @throws IllegalArgumentException |
| * if either {@code src} or {@code dsts} |
| * is null, or if any element in {@code dsts} is null. |
| * @throws IllegalStateException if the client/server mode |
| * has not yet been set. |
| * @see #unwrap(ByteBuffer, ByteBuffer [], int, int) |
| */ |
| public SSLEngineResult unwrap(ByteBuffer src, |
| ByteBuffer [] dsts) throws SSLException { |
| if (dsts == null) { |
| throw new IllegalArgumentException("dsts == null"); |
| } |
| return unwrap(src, dsts, 0, dsts.length); |
| } |
| |
| /** |
| * Attempts to decode SSL/TLS/DTLS network data into a subsequence of |
| * plaintext application data buffers. This <i>"scattering"</i> |
| * operation decodes, in a single invocation, a sequence of bytes |
| * into one or more of a given sequence of buffers. Scattering |
| * unwraps are often useful when implementing network protocols or |
| * file formats that, for example, group data into segments |
| * consisting of one or more fixed-length headers followed by a |
| * variable-length body. See |
| * {@link java.nio.channels.ScatteringByteChannel} for more |
| * information on scattering, and {@link |
| * java.nio.channels.ScatteringByteChannel#read(ByteBuffer[], |
| * int, int)} for more information on the subsequence |
| * behavior. |
| * <P> |
| * Depending on the state of the SSLEngine, this method may consume |
| * network data without producing any application data (for example, |
| * it may consume handshake data.) |
| * <P> |
| * The application is responsible for reliably obtaining the network |
| * data from the peer, and for invoking unwrap() on the data in the |
| * order it was received. The application must properly synchronize |
| * multiple calls to this method. |
| * <P> |
| * If this {@code SSLEngine} has not yet started its initial |
| * handshake, this method will automatically start the handshake. |
| * <P> |
| * This method will attempt to consume one complete SSL/TLS/DTLS network |
| * packet, but will never consume more than the sum of the bytes |
| * remaining in the buffers. Each {@code ByteBuffer}'s |
| * position is updated to reflect the amount of data consumed or |
| * produced. The limits remain the same. |
| * <P> |
| * The underlying memory used by the {@code src} and |
| * {@code dsts ByteBuffer}s must not be the same. |
| * <P> |
| * The inbound network buffer may be modified as a result of this |
| * call: therefore if the network data packet is required for some |
| * secondary purpose, the data should be duplicated before calling this |
| * method. Note: the network data will not be useful to a second |
| * SSLEngine, as each SSLEngine contains unique random state which |
| * influences the SSL/TLS/DTLS messages. |
| * <P> |
| * See the class description for more information on engine closure. |
| * |
| * @param src |
| * a {@code ByteBuffer} containing inbound network data. |
| * @param dsts |
| * an array of {@code ByteBuffer}s to hold inbound |
| * application data. |
| * @param offset |
| * The offset within the buffer array of the first buffer from |
| * which bytes are to be transferred; it must be non-negative |
| * and no larger than {@code dsts.length}. |
| * @param length |
| * The maximum number of buffers to be accessed; it must be |
| * non-negative and no larger than |
| * {@code dsts.length} - {@code offset}. |
| * @return an {@code SSLEngineResult} describing the result |
| * of this operation. |
| * @throws SSLException |
| * A problem was encountered while processing the |
| * data that caused the {@code SSLEngine} to abort. |
| * See the class description for more information on |
| * engine closure. |
| * @throws IndexOutOfBoundsException |
| * If the preconditions on the {@code offset} and |
| * {@code length} parameters do not hold. |
| * @throws ReadOnlyBufferException |
| * if any of the {@code dst} buffers are read-only. |
| * @throws IllegalArgumentException |
| * if either {@code src} or {@code dsts} |
| * is null, or if any element in the {@code dsts} |
| * subsequence specified is null. |
| * @throws IllegalStateException if the client/server mode |
| * has not yet been set. |
| * @see java.nio.channels.ScatteringByteChannel |
| * @see java.nio.channels.ScatteringByteChannel#read( |
| * ByteBuffer[], int, int) |
| */ |
| public abstract SSLEngineResult unwrap(ByteBuffer src, |
| ByteBuffer [] dsts, int offset, int length) throws SSLException; |
| |
| |
| /** |
| * Returns a delegated {@code Runnable} task for |
| * this {@code SSLEngine}. |
| * <P> |
| * {@code SSLEngine} operations may require the results of |
| * operations that block, or may take an extended period of time to |
| * complete. This method is used to obtain an outstanding {@link |
| * java.lang.Runnable} operation (task). Each task must be assigned |
| * a thread (possibly the current) to perform the {@link |
| * java.lang.Runnable#run() run} operation. Once the |
| * {@code run} method returns, the {@code Runnable} object |
| * is no longer needed and may be discarded. |
| * <P> |
| * Delegated tasks run in the {@code AccessControlContext} |
| * in place when this object was created. |
| * <P> |
| * A call to this method will return each outstanding task |
| * exactly once. |
| * <P> |
| * Multiple delegated tasks can be run in parallel. |
| * |
| * @return a delegated {@code Runnable} task, or null |
| * if none are available. |
| */ |
| public abstract Runnable getDelegatedTask(); |
| |
| |
| /** |
| * Signals that no more inbound network data will be sent |
| * to this {@code SSLEngine}. |
| * <P> |
| * If the application initiated the closing process by calling |
| * {@link #closeOutbound()}, under some circumstances it is not |
| * required that the initiator wait for the peer's corresponding |
| * close message. (See section 7.2.1 of the TLS specification (<A |
| * HREF="http://www.ietf.org/rfc/rfc2246.txt">RFC 2246</A>) for more |
| * information on waiting for closure alerts.) In such cases, this |
| * method need not be called. |
| * <P> |
| * But if the application did not initiate the closure process, or |
| * if the circumstances above do not apply, this method should be |
| * called whenever the end of the SSL/TLS/DTLS data stream is reached. |
| * This ensures closure of the inbound side, and checks that the |
| * peer followed the SSL/TLS/DTLS close procedure properly, thus |
| * detecting possible truncation attacks. |
| * <P> |
| * This method is idempotent: if the inbound side has already |
| * been closed, this method does not do anything. |
| * <P> |
| * {@link #wrap(ByteBuffer, ByteBuffer) wrap()} should be |
| * called to flush any remaining handshake data. |
| * |
| * @throws SSLException |
| * if this engine has not received the proper SSL/TLS/DTLS close |
| * notification message from the peer. |
| * |
| * @see #isInboundDone() |
| * @see #isOutboundDone() |
| */ |
| public abstract void closeInbound() throws SSLException; |
| |
| |
| /** |
| * Returns whether {@link #unwrap(ByteBuffer, ByteBuffer)} will |
| * accept any more inbound data messages. |
| * |
| * @return true if the {@code SSLEngine} will not |
| * consume anymore network data (and by implication, |
| * will not produce any more application data.) |
| * @see #closeInbound() |
| */ |
| public abstract boolean isInboundDone(); |
| |
| |
| /** |
| * Signals that no more outbound application data will be sent |
| * on this {@code SSLEngine}. |
| * <P> |
| * This method is idempotent: if the outbound side has already |
| * been closed, this method does not do anything. |
| * <P> |
| * {@link #wrap(ByteBuffer, ByteBuffer)} should be |
| * called to flush any remaining handshake data. |
| * |
| * @see #isOutboundDone() |
| */ |
| public abstract void closeOutbound(); |
| |
| |
| /** |
| * Returns whether {@link #wrap(ByteBuffer, ByteBuffer)} will |
| * produce any more outbound data messages. |
| * <P> |
| * Note that during the closure phase, a {@code SSLEngine} may |
| * generate handshake closure data that must be sent to the peer. |
| * {@code wrap()} must be called to generate this data. When |
| * this method returns true, no more outbound data will be created. |
| * |
| * @return true if the {@code SSLEngine} will not produce |
| * any more network data |
| * |
| * @see #closeOutbound() |
| * @see #closeInbound() |
| */ |
| public abstract boolean isOutboundDone(); |
| |
| |
| /** |
| * Returns the names of the cipher suites which could be enabled for use |
| * on this engine. Normally, only a subset of these will actually |
| * be enabled by default, since this list may include cipher suites which |
| * do not meet quality of service requirements for those defaults. Such |
| * cipher suites might be useful in specialized applications. |
| * <P> |
| * The returned array includes cipher suites from the list of standard |
| * cipher suite names in the <a href= |
| * "{@docRoot}/../specs/security/standard-names.html#jsse-cipher-suite-names"> |
| * JSSE Cipher Suite Names</a> section of the Java Cryptography |
| * Architecture Standard Algorithm Name Documentation, and may also |
| * include other cipher suites that the provider supports. |
| * |
| * @return an array of cipher suite names |
| * @see #getEnabledCipherSuites() |
| * @see #setEnabledCipherSuites(String []) |
| */ |
| public abstract String [] getSupportedCipherSuites(); |
| |
| |
| /** |
| * Returns the names of the SSL cipher suites which are currently |
| * enabled for use on this engine. When an SSLEngine is first |
| * created, all enabled cipher suites support a minimum quality of |
| * service. Thus, in some environments this value might be empty. |
| * <P> |
| * Note that even if a suite is enabled, it may never be used. This |
| * can occur if the peer does not support it, or its use is restricted, |
| * or the requisite certificates (and private keys) for the suite are |
| * not available, or an anonymous suite is enabled but authentication |
| * is required. |
| * <P> |
| * The returned array includes cipher suites from the list of standard |
| * cipher suite names in the <a href= |
| * "{@docRoot}/../specs/security/standard-names.html#jsse-cipher-suite-names"> |
| * JSSE Cipher Suite Names</a> section of the Java Cryptography |
| * Architecture Standard Algorithm Name Documentation, and may also |
| * include other cipher suites that the provider supports. |
| * |
| * @return an array of cipher suite names |
| * @see #getSupportedCipherSuites() |
| * @see #setEnabledCipherSuites(String []) |
| */ |
| public abstract String [] getEnabledCipherSuites(); |
| |
| |
| /** |
| * Sets the cipher suites enabled for use on this engine. |
| * <P> |
| * Each cipher suite in the {@code suites} parameter must have |
| * been listed by getSupportedCipherSuites(), or the method will |
| * fail. Following a successful call to this method, only suites |
| * listed in the {@code suites} parameter are enabled for use. |
| * <P> |
| * Note that the standard list of cipher suite names may be found in the |
| * <a href= |
| * "{@docRoot}/../specs/security/standard-names.html#jsse-cipher-suite-names"> |
| * JSSE Cipher Suite Names</a> section of the Java Cryptography |
| * Architecture Standard Algorithm Name Documentation. Providers |
| * may support cipher suite names not found in this list or might not |
| * use the recommended name for a certain cipher suite. |
| * <P> |
| * See {@link #getEnabledCipherSuites()} for more information |
| * on why a specific cipher suite may never be used on a engine. |
| * |
| * @param suites Names of all the cipher suites to enable |
| * @throws IllegalArgumentException when one or more of the ciphers |
| * named by the parameter is not supported, or when the |
| * parameter is null. |
| * @see #getSupportedCipherSuites() |
| * @see #getEnabledCipherSuites() |
| */ |
| public abstract void setEnabledCipherSuites(String suites []); |
| |
| |
| /** |
| * Returns the names of the protocols which could be enabled for use |
| * with this {@code SSLEngine}. |
| * |
| * @return an array of protocols supported |
| */ |
| public abstract String [] getSupportedProtocols(); |
| |
| |
| /** |
| * Returns the names of the protocol versions which are currently |
| * enabled for use with this {@code SSLEngine}. |
| * <P> |
| * Note that even if a protocol is enabled, it may never be used. |
| * This can occur if the peer does not support the protocol, or its |
| * use is restricted, or there are no enabled cipher suites supported |
| * by the protocol. |
| * |
| * @return an array of protocols |
| * @see #setEnabledProtocols(String []) |
| */ |
| public abstract String [] getEnabledProtocols(); |
| |
| |
| /** |
| * Set the protocol versions enabled for use on this engine. |
| * <P> |
| * The protocols must have been listed by getSupportedProtocols() |
| * as being supported. Following a successful call to this method, |
| * only protocols listed in the {@code protocols} parameter |
| * are enabled for use. |
| * |
| * @param protocols Names of all the protocols to enable. |
| * @throws IllegalArgumentException when one or more of |
| * the protocols named by the parameter is not supported or |
| * when the protocols parameter is null. |
| * @see #getEnabledProtocols() |
| */ |
| public abstract void setEnabledProtocols(String protocols[]); |
| |
| |
| /** |
| * Returns the {@code SSLSession} in use in this |
| * {@code SSLEngine}. |
| * <P> |
| * These can be long lived, and frequently correspond to an entire |
| * login session for some user. The session specifies a particular |
| * cipher suite which is being actively used by all connections in |
| * that session, as well as the identities of the session's client |
| * and server. |
| * <P> |
| * Unlike {@link SSLSocket#getSession()} |
| * this method does not block until handshaking is complete. |
| * <P> |
| * Until the initial handshake has completed, this method returns |
| * a session object which reports an invalid cipher suite of |
| * "SSL_NULL_WITH_NULL_NULL". |
| * |
| * @return the {@code SSLSession} for this {@code SSLEngine} |
| * @see SSLSession |
| */ |
| public abstract SSLSession getSession(); |
| |
| |
| /** |
| * Returns the {@code SSLSession} being constructed during a SSL/TLS/DTLS |
| * handshake. |
| * <p> |
| * TLS/DTLS protocols may negotiate parameters that are needed when using |
| * an instance of this class, but before the {@code SSLSession} has |
| * been completely initialized and made available via {@code getSession}. |
| * For example, the list of valid signature algorithms may restrict |
| * the type of certificates that can used during TrustManager |
| * decisions, or the maximum TLS/DTLS fragment packet sizes can be |
| * resized to better support the network environment. |
| * <p> |
| * This method provides early access to the {@code SSLSession} being |
| * constructed. Depending on how far the handshake has progressed, |
| * some data may not yet be available for use. For example, if a |
| * remote server will be sending a Certificate chain, but that chain |
| * has yet not been processed, the {@code getPeerCertificates} |
| * method of {@code SSLSession} will throw a |
| * SSLPeerUnverifiedException. Once that chain has been processed, |
| * {@code getPeerCertificates} will return the proper value. |
| * |
| * @see SSLSocket |
| * @see SSLSession |
| * @see ExtendedSSLSession |
| * @see X509ExtendedKeyManager |
| * @see X509ExtendedTrustManager |
| * |
| * @return null if this instance is not currently handshaking, or |
| * if the current handshake has not progressed far enough to |
| * create a basic SSLSession. Otherwise, this method returns the |
| * {@code SSLSession} currently being negotiated. |
| * @throws UnsupportedOperationException if the underlying provider |
| * does not implement the operation. |
| * |
| * @since 1.7 |
| */ |
| public SSLSession getHandshakeSession() { |
| throw new UnsupportedOperationException(); |
| } |
| |
| |
| /** |
| * Initiates handshaking (initial or renegotiation) on this SSLEngine. |
| * <P> |
| * This method is not needed for the initial handshake, as the |
| * {@code wrap()} and {@code unwrap()} methods will |
| * implicitly call this method if handshaking has not already begun. |
| * <P> |
| * Note that the peer may also request a session renegotiation with |
| * this {@code SSLEngine} by sending the appropriate |
| * session renegotiate handshake message. |
| * <P> |
| * Unlike the {@link SSLSocket#startHandshake() |
| * SSLSocket#startHandshake()} method, this method does not block |
| * until handshaking is completed. |
| * <P> |
| * To force a complete SSL/TLS/DTLS session renegotiation, the current |
| * session should be invalidated prior to calling this method. |
| * <P> |
| * Some protocols may not support multiple handshakes on an existing |
| * engine and may throw an {@code SSLException}. |
| * |
| * @throws SSLException |
| * if a problem was encountered while signaling the |
| * {@code SSLEngine} to begin a new handshake. |
| * See the class description for more information on |
| * engine closure. |
| * @throws IllegalStateException if the client/server mode |
| * has not yet been set. |
| * @see SSLSession#invalidate() |
| */ |
| public abstract void beginHandshake() throws SSLException; |
| |
| |
| /** |
| * Returns the current handshake status for this {@code SSLEngine}. |
| * |
| * @return the current {@code SSLEngineResult.HandshakeStatus}. |
| */ |
| public abstract SSLEngineResult.HandshakeStatus getHandshakeStatus(); |
| |
| |
| /** |
| * Configures the engine to use client (or server) mode when |
| * handshaking. |
| * <P> |
| * This method must be called before any handshaking occurs. |
| * Once handshaking has begun, the mode can not be reset for the |
| * life of this engine. |
| * <P> |
| * Servers normally authenticate themselves, and clients |
| * are not required to do so. |
| * |
| * @param mode true if the engine should start its handshaking |
| * in "client" mode |
| * @throws IllegalArgumentException if a mode change is attempted |
| * after the initial handshake has begun. |
| * @see #getUseClientMode() |
| */ |
| public abstract void setUseClientMode(boolean mode); |
| |
| |
| /** |
| * Returns true if the engine is set to use client mode when |
| * handshaking. |
| * |
| * @return true if the engine should do handshaking |
| * in "client" mode |
| * @see #setUseClientMode(boolean) |
| */ |
| public abstract boolean getUseClientMode(); |
| |
| |
| /** |
| * Configures the engine to <i>require</i> client authentication. This |
| * option is only useful for engines in the server mode. |
| * <P> |
| * An engine's client authentication setting is one of the following: |
| * <ul> |
| * <li> client authentication required |
| * <li> client authentication requested |
| * <li> no client authentication desired |
| * </ul> |
| * <P> |
| * Unlike {@link #setWantClientAuth(boolean)}, if this option is set and |
| * the client chooses not to provide authentication information |
| * about itself, <i>the negotiations will stop and the engine will |
| * begin its closure procedure</i>. |
| * <P> |
| * Calling this method overrides any previous setting made by |
| * this method or {@link #setWantClientAuth(boolean)}. |
| * |
| * @param need set to true if client authentication is required, |
| * or false if no client authentication is desired. |
| * @see #getNeedClientAuth() |
| * @see #setWantClientAuth(boolean) |
| * @see #getWantClientAuth() |
| * @see #setUseClientMode(boolean) |
| */ |
| public abstract void setNeedClientAuth(boolean need); |
| |
| |
| /** |
| * Returns true if the engine will <i>require</i> client authentication. |
| * This option is only useful to engines in the server mode. |
| * |
| * @return true if client authentication is required, |
| * or false if no client authentication is desired. |
| * @see #setNeedClientAuth(boolean) |
| * @see #setWantClientAuth(boolean) |
| * @see #getWantClientAuth() |
| * @see #setUseClientMode(boolean) |
| */ |
| public abstract boolean getNeedClientAuth(); |
| |
| |
| /** |
| * Configures the engine to <i>request</i> client authentication. |
| * This option is only useful for engines in the server mode. |
| * <P> |
| * An engine's client authentication setting is one of the following: |
| * <ul> |
| * <li> client authentication required |
| * <li> client authentication requested |
| * <li> no client authentication desired |
| * </ul> |
| * <P> |
| * Unlike {@link #setNeedClientAuth(boolean)}, if this option is set and |
| * the client chooses not to provide authentication information |
| * about itself, <i>the negotiations will continue</i>. |
| * <P> |
| * Calling this method overrides any previous setting made by |
| * this method or {@link #setNeedClientAuth(boolean)}. |
| * |
| * @param want set to true if client authentication is requested, |
| * or false if no client authentication is desired. |
| * @see #getWantClientAuth() |
| * @see #setNeedClientAuth(boolean) |
| * @see #getNeedClientAuth() |
| * @see #setUseClientMode(boolean) |
| */ |
| public abstract void setWantClientAuth(boolean want); |
| |
| |
| /** |
| * Returns true if the engine will <i>request</i> client authentication. |
| * This option is only useful for engines in the server mode. |
| * |
| * @return true if client authentication is requested, |
| * or false if no client authentication is desired. |
| * @see #setNeedClientAuth(boolean) |
| * @see #getNeedClientAuth() |
| * @see #setWantClientAuth(boolean) |
| * @see #setUseClientMode(boolean) |
| */ |
| public abstract boolean getWantClientAuth(); |
| |
| |
| /** |
| * Controls whether new SSL sessions may be established by this engine. |
| * If session creations are not allowed, and there are no |
| * existing sessions to resume, there will be no successful |
| * handshaking. |
| * |
| * @param flag true indicates that sessions may be created; this |
| * is the default. false indicates that an existing session |
| * must be resumed |
| * @see #getEnableSessionCreation() |
| */ |
| public abstract void setEnableSessionCreation(boolean flag); |
| |
| |
| /** |
| * Returns true if new SSL sessions may be established by this engine. |
| * |
| * @return true indicates that sessions may be created; this |
| * is the default. false indicates that an existing session |
| * must be resumed |
| * @see #setEnableSessionCreation(boolean) |
| */ |
| public abstract boolean getEnableSessionCreation(); |
| |
| /** |
| * Returns the SSLParameters in effect for this SSLEngine. |
| * The ciphersuites and protocols of the returned SSLParameters |
| * are always non-null. |
| * |
| * @return the SSLParameters in effect for this SSLEngine. |
| * @since 1.6 |
| */ |
| public SSLParameters getSSLParameters() { |
| SSLParameters params = new SSLParameters(); |
| params.setCipherSuites(getEnabledCipherSuites()); |
| params.setProtocols(getEnabledProtocols()); |
| if (getNeedClientAuth()) { |
| params.setNeedClientAuth(true); |
| } else if (getWantClientAuth()) { |
| params.setWantClientAuth(true); |
| } |
| return params; |
| } |
| |
| /** |
| * Applies SSLParameters to this engine. |
| * |
| * <p>This means: |
| * <ul> |
| * <li>If {@code params.getCipherSuites()} is non-null, |
| * {@code setEnabledCipherSuites()} is called with that value.</li> |
| * <li>If {@code params.getProtocols()} is non-null, |
| * {@code setEnabledProtocols()} is called with that value.</li> |
| * <li>If {@code params.getNeedClientAuth()} or |
| * {@code params.getWantClientAuth()} return {@code true}, |
| * {@code setNeedClientAuth(true)} and |
| * {@code setWantClientAuth(true)} are called, respectively; |
| * otherwise {@code setWantClientAuth(false)} is called.</li> |
| * <li>If {@code params.getServerNames()} is non-null, the engine will |
| * configure its server names with that value.</li> |
| * <li>If {@code params.getSNIMatchers()} is non-null, the engine will |
| * configure its SNI matchers with that value.</li> |
| * </ul> |
| * |
| * @param params the parameters |
| * @throws IllegalArgumentException if the setEnabledCipherSuites() or |
| * the setEnabledProtocols() call fails |
| * @since 1.6 |
| */ |
| public void setSSLParameters(SSLParameters params) { |
| String[] s; |
| s = params.getCipherSuites(); |
| if (s != null) { |
| setEnabledCipherSuites(s); |
| } |
| s = params.getProtocols(); |
| if (s != null) { |
| setEnabledProtocols(s); |
| } |
| if (params.getNeedClientAuth()) { |
| setNeedClientAuth(true); |
| } else if (params.getWantClientAuth()) { |
| setWantClientAuth(true); |
| } else { |
| setWantClientAuth(false); |
| } |
| } |
| |
| /** |
| * Returns the most recent application protocol value negotiated for this |
| * connection. |
| * <p> |
| * If supported by the underlying SSL/TLS/DTLS implementation, |
| * application name negotiation mechanisms such as <a |
| * href="http://www.ietf.org/rfc/rfc7301.txt"> RFC 7301 </a>, the |
| * Application-Layer Protocol Negotiation (ALPN), can negotiate |
| * application-level values between peers. |
| * |
| * @implSpec |
| * The implementation in this class throws |
| * {@code UnsupportedOperationException} and performs no other action. |
| * |
| * @return null if it has not yet been determined if application |
| * protocols might be used for this connection, an empty |
| * {@code String} if application protocols values will not |
| * be used, or a non-empty application protocol {@code String} |
| * if a value was successfully negotiated. |
| * @throws UnsupportedOperationException if the underlying provider |
| * does not implement the operation. |
| * @since 9 |
| */ |
| public String getApplicationProtocol() { |
| throw new UnsupportedOperationException(); |
| } |
| |
| /** |
| * Returns the application protocol value negotiated on a SSL/TLS |
| * handshake currently in progress. |
| * <p> |
| * Like {@link #getHandshakeSession()}, |
| * a connection may be in the middle of a handshake. The |
| * application protocol may or may not yet be available. |
| * |
| * @implSpec |
| * The implementation in this class throws |
| * {@code UnsupportedOperationException} and performs no other action. |
| * |
| * @return null if it has not yet been determined if application |
| * protocols might be used for this handshake, an empty |
| * {@code String} if application protocols values will not |
| * be used, or a non-empty application protocol {@code String} |
| * if a value was successfully negotiated. |
| * @throws UnsupportedOperationException if the underlying provider |
| * does not implement the operation. |
| * @since 9 |
| */ |
| public String getHandshakeApplicationProtocol() { |
| throw new UnsupportedOperationException(); |
| } |
| |
| /** |
| * Registers a callback function that selects an application protocol |
| * value for a SSL/TLS/DTLS handshake. |
| * The function overrides any values supplied using |
| * {@link SSLParameters#setApplicationProtocols |
| * SSLParameters.setApplicationProtocols} and it supports the following |
| * type parameters: |
| * <blockquote> |
| * <dl> |
| * <dt> {@code SSLEngine} |
| * <dd> The function's first argument allows the current {@code SSLEngine} |
| * to be inspected, including the handshake session and configuration |
| * settings. |
| * <dt> {@code List<String>} |
| * <dd> The function's second argument lists the application protocol names |
| * advertised by the TLS peer. |
| * <dt> {@code String} |
| * <dd> The function's result is an application protocol name, or null to |
| * indicate that none of the advertised names are acceptable. |
| * If the return value is an empty {@code String} then application |
| * protocol indications will not be used. |
| * If the return value is null (no value chosen) or is a value that |
| * was not advertised by the peer, the underlying protocol will |
| * determine what action to take. (For example, ALPN will send a |
| * "no_application_protocol" alert and terminate the connection.) |
| * </dl> |
| * </blockquote> |
| * |
| * For example, the following call registers a callback function that |
| * examines the TLS handshake parameters and selects an application protocol |
| * name: |
| * <pre>{@code |
| * serverEngine.setHandshakeApplicationProtocolSelector( |
| * (serverEngine, clientProtocols) -> { |
| * SSLSession session = serverEngine.getHandshakeSession(); |
| * return chooseApplicationProtocol( |
| * serverEngine, |
| * clientProtocols, |
| * session.getProtocol(), |
| * session.getCipherSuite()); |
| * }); |
| * }</pre> |
| * |
| * @apiNote |
| * This method should be called by TLS server applications before the TLS |
| * handshake begins. Also, this {@code SSLEngine} should be configured with |
| * parameters that are compatible with the application protocol selected by |
| * the callback function. For example, enabling a poor choice of cipher |
| * suites could result in no suitable application protocol. |
| * See {@link SSLParameters}. |
| * |
| * @implSpec |
| * The implementation in this class throws |
| * {@code UnsupportedOperationException} and performs no other action. |
| * |
| * @param selector the callback function, or null to disable the callback |
| * functionality. |
| * @throws UnsupportedOperationException if the underlying provider |
| * does not implement the operation. |
| * @since 9 |
| */ |
| public void setHandshakeApplicationProtocolSelector( |
| BiFunction<SSLEngine, List<String>, String> selector) { |
| throw new UnsupportedOperationException(); |
| } |
| |
| /** |
| * Retrieves the callback function that selects an application protocol |
| * value during a SSL/TLS/DTLS handshake. |
| * See {@link #setHandshakeApplicationProtocolSelector |
| * setHandshakeApplicationProtocolSelector} |
| * for the function's type parameters. |
| * |
| * @implSpec |
| * The implementation in this class throws |
| * {@code UnsupportedOperationException} and performs no other action. |
| * |
| * @return the callback function, or null if none has been set. |
| * @throws UnsupportedOperationException if the underlying provider |
| * does not implement the operation. |
| * @since 9 |
| */ |
| public BiFunction<SSLEngine, List<String>, String> |
| getHandshakeApplicationProtocolSelector() { |
| throw new UnsupportedOperationException(); |
| } |
| } |