1 /* 2 * Copyright 2014 The Android Open Source Project 3 * 4 * Licensed under the Apache License, Version 2.0 (the "License"); 5 * you may not use this file except in compliance with the License. 6 * You may obtain a copy of the License at 7 * 8 * http://www.apache.org/licenses/LICENSE-2.0 9 * 10 * Unless required by applicable law or agreed to in writing, software 11 * distributed under the License is distributed on an "AS IS" BASIS, 12 * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. 13 * See the License for the specific language governing permissions and 14 * limitations under the License. 15 */ 16 17 package android.net; 18 19 import com.android.org.conscrypt.PSKKeyManager; 20 import java.net.Socket; 21 import javax.crypto.SecretKey; 22 import javax.net.ssl.SSLEngine; 23 24 /** 25 * Provider of key material for pre-shared key (PSK) key exchange used in TLS-PSK cipher suites. 26 * 27 * <h3>Overview of TLS-PSK</h3> 28 * 29 * <p>TLS-PSK is a set of TLS/SSL cipher suites which rely on a symmetric pre-shared key (PSK) to 30 * secure the TLS/SSL connection and mutually authenticate its peers. These cipher suites may be 31 * a more natural fit compared to conventional public key based cipher suites in some scenarios 32 * where communication between peers is bootstrapped via a separate step (for example, a pairing 33 * step) and requires both peers to authenticate each other. In such scenarios a symmetric key (PSK) 34 * can be exchanged during the bootstrapping step, removing the need to generate and exchange public 35 * key pairs and X.509 certificates.</p> 36 * 37 * <p>When a TLS-PSK cipher suite is used, both peers have to use the same key for the TLS/SSL 38 * handshake to succeed. Thus, both peers are implicitly authenticated by a successful handshake. 39 * This removes the need to use a {@code TrustManager} in conjunction with this {@code KeyManager}. 40 * </p> 41 * 42 * <h3>Supporting multiple keys</h3> 43 * 44 * <p>A peer may have multiple keys to choose from. To help choose the right key, during the 45 * handshake the server can provide a <em>PSK identity hint</em> to the client, and the client can 46 * provide a <em>PSK identity</em> to the server. The contents of these two pieces of information 47 * are specific to application-level protocols.</p> 48 * 49 * <p><em>NOTE: Both the PSK identity hint and the PSK identity are transmitted in cleartext. 50 * Moreover, these data are received and processed prior to peer having been authenticated. Thus, 51 * they must not contain or leak key material or other sensitive information, and should be 52 * treated (e.g., parsed) with caution, as untrusted data.</em></p> 53 * 54 * <p>The high-level flow leading to peers choosing a key during TLS/SSL handshake is as follows: 55 * <ol> 56 * <li>Server receives a handshake request from client. 57 * <li>Server replies, optionally providing a PSK identity hint to client.</li> 58 * <li>Client chooses the key.</li> 59 * <li>Client provides a PSK identity of the chosen key to server.</li> 60 * <li>Server chooses the key.</li> 61 * </ol></p> 62 * 63 * <p>In the flow above, either peer can signal that they do not have a suitable key, in which case 64 * the the handshake will be aborted immediately. This may enable a network attacker who does not 65 * know the key to learn which PSK identity hints or PSK identities are supported. If this is a 66 * concern then a randomly generated key should be used in the scenario where no key is available. 67 * This will lead to the handshake aborting later, due to key mismatch -- same as in the scenario 68 * where a key is available -- making it appear to the attacker that all PSK identity hints and PSK 69 * identities are supported.</p> 70 * 71 * <h3>Maximum sizes</h3> 72 * 73 * <p>The maximum supported sizes are as follows: 74 * <ul> 75 * <li>256 bytes for keys (see {@link #MAX_KEY_LENGTH_BYTES}),</li> 76 * <li>128 bytes for PSK identity and PSK identity hint (in modified UTF-8 representation) (see 77 * {@link #MAX_IDENTITY_LENGTH_BYTES} and {@link #MAX_IDENTITY_HINT_LENGTH_BYTES}).</li> 78 * </ul></p> 79 * 80 * <h3>Subclassing</h3> 81 * Subclasses should normally provide their own implementation of {@code getKey} because the default 82 * implementation returns no key, which aborts the handshake. 83 * 84 * <h3>Known issues</h3> 85 * The implementation of {@code ECDHE_PSK} cipher suites in API Level 21 contains a bug which breaks 86 * compatibility with other implementations. {@code ECDHE_PSK} cipher suites are enabled by default 87 * on platforms with API Level 21 when an {@code SSLContext} is initialized with a 88 * {@code PskKeyManager}. A workaround is to disable {@code ECDHE_PSK} cipher suites on platforms 89 * with API Level 21. 90 * 91 * <h3>Example</h3> 92 * The following example illustrates how to create an {@code SSLContext} which enables the use of 93 * TLS-PSK in {@code SSLSocket}, {@code SSLServerSocket} and {@code SSLEngine} instances obtained 94 * from it. 95 * <pre> {@code 96 * PskKeyManager pskKeyManager = ...; 97 * 98 * SSLContext sslContext = SSLContext.getInstance("TLS"); 99 * sslContext.init( 100 * new KeyManager[] { pskKeyManager }, 101 * new TrustManager[0], // No TrustManagers needed for TLS-PSK 102 * null // Use the default source of entropy 103 * ); 104 * 105 * SSLSocket sslSocket = (SSLSocket) sslContext.getSocketFactory().createSocket(...); 106 * }</pre> 107 * 108 * @removed This class is removed because it does not work with TLS 1.3. 109 */ 110 public abstract class PskKeyManager implements PSKKeyManager { 111 // IMPLEMENTATION DETAILS: This class exists only because the default implemenetation of the 112 // TLS/SSL JSSE provider (currently Conscrypt) cannot depend on Android framework classes. 113 // As a result, this framework class simply extends the PSKKeyManager interface from Conscrypt 114 // without adding any new methods or fields. Moreover, for technical reasons (Conscrypt classes 115 // are "hidden") this class replaces the Javadoc of Conscrypt's PSKKeyManager. 116 117 /** 118 * Maximum supported length (in bytes) for PSK identity hint (in modified UTF-8 representation). 119 */ 120 public static final int MAX_IDENTITY_HINT_LENGTH_BYTES = 121 PSKKeyManager.MAX_IDENTITY_HINT_LENGTH_BYTES; 122 123 /** Maximum supported length (in bytes) for PSK identity (in modified UTF-8 representation). */ 124 public static final int MAX_IDENTITY_LENGTH_BYTES = PSKKeyManager.MAX_IDENTITY_LENGTH_BYTES; 125 126 /** Maximum supported length (in bytes) for PSK. */ 127 public static final int MAX_KEY_LENGTH_BYTES = PSKKeyManager.MAX_KEY_LENGTH_BYTES; 128 129 /** 130 * Gets the PSK identity hint to report to the client to help agree on the PSK for the provided 131 * socket. 132 * 133 * <p> 134 * The default implementation returns {@code null}. 135 * 136 * @return PSK identity hint to be provided to the client or {@code null} to provide no hint. 137 */ 138 @Override 139 public String chooseServerKeyIdentityHint(Socket socket) { 140 return null; 141 } 142 143 /** 144 * Gets the PSK identity hint to report to the client to help agree on the PSK for the provided 145 * engine. 146 * 147 * <p> 148 * The default implementation returns {@code null}. 149 * 150 * @return PSK identity hint to be provided to the client or {@code null} to provide no hint. 151 */ 152 @Override 153 public String chooseServerKeyIdentityHint(SSLEngine engine) { 154 return null; 155 } 156 157 /** 158 * Gets the PSK identity to report to the server to help agree on the PSK for the provided 159 * socket. 160 * 161 * <p> 162 * The default implementation returns an empty string. 163 * 164 * @param identityHint identity hint provided by the server or {@code null} if none provided. 165 * 166 * @return PSK identity to provide to the server. {@code null} is permitted but will be 167 * converted into an empty string. 168 */ 169 @Override 170 public String chooseClientKeyIdentity(String identityHint, Socket socket) { 171 return ""; 172 } 173 174 /** 175 * Gets the PSK identity to report to the server to help agree on the PSK for the provided 176 * engine. 177 * 178 * <p> 179 * The default implementation returns an empty string. 180 * 181 * @param identityHint identity hint provided by the server or {@code null} if none provided. 182 * 183 * @return PSK identity to provide to the server. {@code null} is permitted but will be 184 * converted into an empty string. 185 */ 186 @Override 187 public String chooseClientKeyIdentity(String identityHint, SSLEngine engine) { 188 return ""; 189 } 190 191 /** 192 * Gets the PSK to use for the provided socket. 193 * 194 * <p> 195 * The default implementation returns {@code null}. 196 * 197 * @param identityHint identity hint provided by the server to help select the key or 198 * {@code null} if none provided. 199 * @param identity identity provided by the client to help select the key. 200 * 201 * @return key or {@code null} to signal to peer that no suitable key is available and to abort 202 * the handshake. 203 */ 204 @Override 205 public SecretKey getKey(String identityHint, String identity, Socket socket) { 206 return null; 207 } 208 209 /** 210 * Gets the PSK to use for the provided engine. 211 * 212 * <p> 213 * The default implementation returns {@code null}. 214 * 215 * @param identityHint identity hint provided by the server to help select the key or 216 * {@code null} if none provided. 217 * @param identity identity provided by the client to help select the key. 218 * 219 * @return key or {@code null} to signal to peer that no suitable key is available and to abort 220 * the handshake. 221 */ 222 @Override 223 public SecretKey getKey(String identityHint, String identity, SSLEngine engine) { 224 return null; 225 } 226 } 227
