WifiManager.java revision b481dae2f5238252d81dafeecf13d5f387824689
1/* 2 * Copyright (C) 2008 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 17package android.net.wifi; 18 19import android.annotation.SdkConstant; 20import android.annotation.SdkConstant.SdkConstantType; 21import android.content.Context; 22import android.net.DhcpInfo; 23import android.os.Binder; 24import android.os.IBinder; 25import android.os.Handler; 26import android.os.HandlerThread; 27import android.os.Looper; 28import android.os.Message; 29import android.os.RemoteException; 30import android.os.WorkSource; 31import android.os.Messenger; 32import android.util.Log; 33import android.util.SparseArray; 34 35import java.net.InetAddress; 36import java.util.concurrent.CountDownLatch; 37 38import com.android.internal.R; 39import com.android.internal.util.AsyncChannel; 40import com.android.internal.util.Protocol; 41 42import java.util.List; 43 44/** 45 * This class provides the primary API for managing all aspects of Wi-Fi 46 * connectivity. Get an instance of this class by calling 47 * {@link android.content.Context#getSystemService(String) Context.getSystemService(Context.WIFI_SERVICE)}. 48 49 * It deals with several categories of items: 50 * <ul> 51 * <li>The list of configured networks. The list can be viewed and updated, 52 * and attributes of individual entries can be modified.</li> 53 * <li>The currently active Wi-Fi network, if any. Connectivity can be 54 * established or torn down, and dynamic information about the state of 55 * the network can be queried.</li> 56 * <li>Results of access point scans, containing enough information to 57 * make decisions about what access point to connect to.</li> 58 * <li>It defines the names of various Intent actions that are broadcast 59 * upon any sort of change in Wi-Fi state. 60 * </ul> 61 * This is the API to use when performing Wi-Fi specific operations. To 62 * perform operations that pertain to network connectivity at an abstract 63 * level, use {@link android.net.ConnectivityManager}. 64 */ 65public class WifiManager { 66 67 private static final String TAG = "WifiManager"; 68 // Supplicant error codes: 69 /** 70 * The error code if there was a problem authenticating. 71 */ 72 public static final int ERROR_AUTHENTICATING = 1; 73 74 /** 75 * Broadcast intent action indicating whether Wi-Fi scanning is allowed currently 76 * @hide 77 */ 78 public static final String WIFI_SCAN_AVAILABLE = "wifi_scan_available"; 79 80 /** 81 * Extra int indicating scan availability, WIFI_STATE_ENABLED and WIFI_STATE_DISABLED 82 * @hide 83 */ 84 public static final String EXTRA_SCAN_AVAILABLE = "scan_enabled"; 85 86 /** 87 * Broadcast intent action indicating that Wi-Fi has been enabled, disabled, 88 * enabling, disabling, or unknown. One extra provides this state as an int. 89 * Another extra provides the previous state, if available. 90 * 91 * @see #EXTRA_WIFI_STATE 92 * @see #EXTRA_PREVIOUS_WIFI_STATE 93 */ 94 @SdkConstant(SdkConstantType.BROADCAST_INTENT_ACTION) 95 public static final String WIFI_STATE_CHANGED_ACTION = 96 "android.net.wifi.WIFI_STATE_CHANGED"; 97 /** 98 * The lookup key for an int that indicates whether Wi-Fi is enabled, 99 * disabled, enabling, disabling, or unknown. Retrieve it with 100 * {@link android.content.Intent#getIntExtra(String,int)}. 101 * 102 * @see #WIFI_STATE_DISABLED 103 * @see #WIFI_STATE_DISABLING 104 * @see #WIFI_STATE_ENABLED 105 * @see #WIFI_STATE_ENABLING 106 * @see #WIFI_STATE_UNKNOWN 107 */ 108 public static final String EXTRA_WIFI_STATE = "wifi_state"; 109 /** 110 * The previous Wi-Fi state. 111 * 112 * @see #EXTRA_WIFI_STATE 113 */ 114 public static final String EXTRA_PREVIOUS_WIFI_STATE = "previous_wifi_state"; 115 116 /** 117 * Wi-Fi is currently being disabled. The state will change to {@link #WIFI_STATE_DISABLED} if 118 * it finishes successfully. 119 * 120 * @see #WIFI_STATE_CHANGED_ACTION 121 * @see #getWifiState() 122 */ 123 public static final int WIFI_STATE_DISABLING = 0; 124 /** 125 * Wi-Fi is disabled. 126 * 127 * @see #WIFI_STATE_CHANGED_ACTION 128 * @see #getWifiState() 129 */ 130 public static final int WIFI_STATE_DISABLED = 1; 131 /** 132 * Wi-Fi is currently being enabled. The state will change to {@link #WIFI_STATE_ENABLED} if 133 * it finishes successfully. 134 * 135 * @see #WIFI_STATE_CHANGED_ACTION 136 * @see #getWifiState() 137 */ 138 public static final int WIFI_STATE_ENABLING = 2; 139 /** 140 * Wi-Fi is enabled. 141 * 142 * @see #WIFI_STATE_CHANGED_ACTION 143 * @see #getWifiState() 144 */ 145 public static final int WIFI_STATE_ENABLED = 3; 146 /** 147 * Wi-Fi is in an unknown state. This state will occur when an error happens while enabling 148 * or disabling. 149 * 150 * @see #WIFI_STATE_CHANGED_ACTION 151 * @see #getWifiState() 152 */ 153 public static final int WIFI_STATE_UNKNOWN = 4; 154 155 /** 156 * Broadcast intent action indicating that Wi-Fi AP has been enabled, disabled, 157 * enabling, disabling, or failed. 158 * 159 * @hide 160 */ 161 public static final String WIFI_AP_STATE_CHANGED_ACTION = 162 "android.net.wifi.WIFI_AP_STATE_CHANGED"; 163 164 /** 165 * The lookup key for an int that indicates whether Wi-Fi AP is enabled, 166 * disabled, enabling, disabling, or failed. Retrieve it with 167 * {@link android.content.Intent#getIntExtra(String,int)}. 168 * 169 * @see #WIFI_AP_STATE_DISABLED 170 * @see #WIFI_AP_STATE_DISABLING 171 * @see #WIFI_AP_STATE_ENABLED 172 * @see #WIFI_AP_STATE_ENABLING 173 * @see #WIFI_AP_STATE_FAILED 174 * 175 * @hide 176 */ 177 public static final String EXTRA_WIFI_AP_STATE = "wifi_state"; 178 /** 179 * The previous Wi-Fi state. 180 * 181 * @see #EXTRA_WIFI_AP_STATE 182 * 183 * @hide 184 */ 185 public static final String EXTRA_PREVIOUS_WIFI_AP_STATE = "previous_wifi_state"; 186 /** 187 * Wi-Fi AP is currently being disabled. The state will change to 188 * {@link #WIFI_AP_STATE_DISABLED} if it finishes successfully. 189 * 190 * @see #WIFI_AP_STATE_CHANGED_ACTION 191 * @see #getWifiApState() 192 * 193 * @hide 194 */ 195 public static final int WIFI_AP_STATE_DISABLING = 10; 196 /** 197 * Wi-Fi AP is disabled. 198 * 199 * @see #WIFI_AP_STATE_CHANGED_ACTION 200 * @see #getWifiState() 201 * 202 * @hide 203 */ 204 public static final int WIFI_AP_STATE_DISABLED = 11; 205 /** 206 * Wi-Fi AP is currently being enabled. The state will change to 207 * {@link #WIFI_AP_STATE_ENABLED} if it finishes successfully. 208 * 209 * @see #WIFI_AP_STATE_CHANGED_ACTION 210 * @see #getWifiApState() 211 * 212 * @hide 213 */ 214 public static final int WIFI_AP_STATE_ENABLING = 12; 215 /** 216 * Wi-Fi AP is enabled. 217 * 218 * @see #WIFI_AP_STATE_CHANGED_ACTION 219 * @see #getWifiApState() 220 * 221 * @hide 222 */ 223 public static final int WIFI_AP_STATE_ENABLED = 13; 224 /** 225 * Wi-Fi AP is in a failed state. This state will occur when an error occurs during 226 * enabling or disabling 227 * 228 * @see #WIFI_AP_STATE_CHANGED_ACTION 229 * @see #getWifiApState() 230 * 231 * @hide 232 */ 233 public static final int WIFI_AP_STATE_FAILED = 14; 234 235 /** 236 * Broadcast intent action indicating that a connection to the supplicant has 237 * been established (and it is now possible 238 * to perform Wi-Fi operations) or the connection to the supplicant has been 239 * lost. One extra provides the connection state as a boolean, where {@code true} 240 * means CONNECTED. 241 * @see #EXTRA_SUPPLICANT_CONNECTED 242 */ 243 @SdkConstant(SdkConstantType.BROADCAST_INTENT_ACTION) 244 public static final String SUPPLICANT_CONNECTION_CHANGE_ACTION = 245 "android.net.wifi.supplicant.CONNECTION_CHANGE"; 246 /** 247 * The lookup key for a boolean that indicates whether a connection to 248 * the supplicant daemon has been gained or lost. {@code true} means 249 * a connection now exists. 250 * Retrieve it with {@link android.content.Intent#getBooleanExtra(String,boolean)}. 251 */ 252 public static final String EXTRA_SUPPLICANT_CONNECTED = "connected"; 253 /** 254 * Broadcast intent action indicating that the state of Wi-Fi connectivity 255 * has changed. One extra provides the new state 256 * in the form of a {@link android.net.NetworkInfo} object. If the new 257 * state is CONNECTED, additional extras may provide the BSSID and WifiInfo of 258 * the access point. 259 * as a {@code String}. 260 * @see #EXTRA_NETWORK_INFO 261 * @see #EXTRA_BSSID 262 * @see #EXTRA_WIFI_INFO 263 */ 264 @SdkConstant(SdkConstantType.BROADCAST_INTENT_ACTION) 265 public static final String NETWORK_STATE_CHANGED_ACTION = "android.net.wifi.STATE_CHANGE"; 266 /** 267 * The lookup key for a {@link android.net.NetworkInfo} object associated with the 268 * Wi-Fi network. Retrieve with 269 * {@link android.content.Intent#getParcelableExtra(String)}. 270 */ 271 public static final String EXTRA_NETWORK_INFO = "networkInfo"; 272 /** 273 * The lookup key for a String giving the BSSID of the access point to which 274 * we are connected. Only present when the new state is CONNECTED. 275 * Retrieve with 276 * {@link android.content.Intent#getStringExtra(String)}. 277 */ 278 public static final String EXTRA_BSSID = "bssid"; 279 /** 280 * The lookup key for a {@link android.net.wifi.WifiInfo} object giving the 281 * information about the access point to which we are connected. Only present 282 * when the new state is CONNECTED. Retrieve with 283 * {@link android.content.Intent#getParcelableExtra(String)}. 284 */ 285 public static final String EXTRA_WIFI_INFO = "wifiInfo"; 286 /** 287 * Broadcast intent action indicating that the state of establishing a connection to 288 * an access point has changed.One extra provides the new 289 * {@link SupplicantState}. Note that the supplicant state is Wi-Fi specific, and 290 * is not generally the most useful thing to look at if you are just interested in 291 * the overall state of connectivity. 292 * @see #EXTRA_NEW_STATE 293 * @see #EXTRA_SUPPLICANT_ERROR 294 */ 295 @SdkConstant(SdkConstantType.BROADCAST_INTENT_ACTION) 296 public static final String SUPPLICANT_STATE_CHANGED_ACTION = 297 "android.net.wifi.supplicant.STATE_CHANGE"; 298 /** 299 * The lookup key for a {@link SupplicantState} describing the new state 300 * Retrieve with 301 * {@link android.content.Intent#getParcelableExtra(String)}. 302 */ 303 public static final String EXTRA_NEW_STATE = "newState"; 304 305 /** 306 * The lookup key for a {@link SupplicantState} describing the supplicant 307 * error code if any 308 * Retrieve with 309 * {@link android.content.Intent#getIntExtra(String, int)}. 310 * @see #ERROR_AUTHENTICATING 311 */ 312 public static final String EXTRA_SUPPLICANT_ERROR = "supplicantError"; 313 314 /** 315 * Broadcast intent action indicating that the configured networks changed. 316 * This can be as a result of adding/updating/deleting a network. If 317 * {@link #EXTRA_MULTIPLE_NETWORKS_CHANGED} is set to true the new configuration 318 * can be retreived with the {@link #EXTRA_WIFI_CONFIGURATION} extra. If multiple 319 * Wi-Fi configurations changed, {@link #EXTRA_WIFI_CONFIGURATION} will not be present. 320 * @hide 321 */ 322 public static final String CONFIGURED_NETWORKS_CHANGED_ACTION = 323 "android.net.wifi.CONFIGURED_NETWORKS_CHANGE"; 324 /** 325 * The lookup key for a (@link android.net.wifi.WifiConfiguration} object representing 326 * the changed Wi-Fi configuration when the {@link #CONFIGURED_NETWORKS_CHANGED_ACTION} 327 * broadcast is sent. 328 * @hide 329 */ 330 public static final String EXTRA_WIFI_CONFIGURATION = "wifiConfiguration"; 331 /** 332 * Multiple network configurations have changed. 333 * @see #CONFIGURED_NETWORKS_CHANGED_ACTION 334 * 335 * @hide 336 */ 337 public static final String EXTRA_MULTIPLE_NETWORKS_CHANGED = "multipleChanges"; 338 /** 339 * The lookup key for an integer indicating the reason a Wi-Fi network configuration 340 * has changed. Only present if {@link #EXTRA_MULTIPLE_NETWORKS_CHANGED} is {@code false} 341 * @see #CONFIGURED_NETWORKS_CHANGED_ACTION 342 * @hide 343 */ 344 public static final String EXTRA_CHANGE_REASON = "changeReason"; 345 /** 346 * The configuration is new and was added. 347 * @hide 348 */ 349 public static final int CHANGE_REASON_ADDED = 0; 350 /** 351 * The configuration was removed and is no longer present in the system's list of 352 * configured networks. 353 * @hide 354 */ 355 public static final int CHANGE_REASON_REMOVED = 1; 356 /** 357 * The configuration has changed as a result of explicit action or because the system 358 * took an automated action such as disabling a malfunctioning configuration. 359 * @hide 360 */ 361 public static final int CHANGE_REASON_CONFIG_CHANGE = 2; 362 /** 363 * An access point scan has completed, and results are available from the supplicant. 364 * Call {@link #getScanResults()} to obtain the results. 365 */ 366 @SdkConstant(SdkConstantType.BROADCAST_INTENT_ACTION) 367 public static final String SCAN_RESULTS_AVAILABLE_ACTION = "android.net.wifi.SCAN_RESULTS"; 368 /** 369 * A batch of access point scans has been completed and the results areavailable. 370 * Call {@link #getBatchedScanResults()} to obtain the results. 371 * @hide pending review 372 */ 373 @SdkConstant(SdkConstantType.BROADCAST_INTENT_ACTION) 374 public static final String BATCHED_SCAN_RESULTS_AVAILABLE_ACTION = 375 "android.net.wifi.BATCHED_RESULTS"; 376 /** 377 * The RSSI (signal strength) has changed. 378 * @see #EXTRA_NEW_RSSI 379 */ 380 @SdkConstant(SdkConstantType.BROADCAST_INTENT_ACTION) 381 public static final String RSSI_CHANGED_ACTION = "android.net.wifi.RSSI_CHANGED"; 382 /** 383 * The lookup key for an {@code int} giving the new RSSI in dBm. 384 */ 385 public static final String EXTRA_NEW_RSSI = "newRssi"; 386 387 /** 388 * Broadcast intent action indicating that the link configuration 389 * changed on wifi. 390 * @hide 391 */ 392 public static final String LINK_CONFIGURATION_CHANGED_ACTION = 393 "android.net.wifi.LINK_CONFIGURATION_CHANGED"; 394 395 /** 396 * The lookup key for a {@link android.net.LinkProperties} object associated with the 397 * Wi-Fi network. Retrieve with 398 * {@link android.content.Intent#getParcelableExtra(String)}. 399 * @hide 400 */ 401 public static final String EXTRA_LINK_PROPERTIES = "linkProperties"; 402 403 /** 404 * The lookup key for a {@link android.net.LinkCapabilities} object associated with the 405 * Wi-Fi network. Retrieve with 406 * {@link android.content.Intent#getParcelableExtra(String)}. 407 * @hide 408 */ 409 public static final String EXTRA_LINK_CAPABILITIES = "linkCapabilities"; 410 411 /** 412 * The network IDs of the configured networks could have changed. 413 */ 414 @SdkConstant(SdkConstantType.BROADCAST_INTENT_ACTION) 415 public static final String NETWORK_IDS_CHANGED_ACTION = "android.net.wifi.NETWORK_IDS_CHANGED"; 416 417 /** 418 * Activity Action: Show a system activity that allows the user to enable 419 * scans to be available even with Wi-Fi turned off. 420 * 421 * <p>Notification of the result of this activity is posted using the 422 * {@link android.app.Activity#onActivityResult} callback. The 423 * <code>resultCode</code> 424 * will be {@link android.app.Activity#RESULT_OK} if scan always mode has 425 * been turned on or {@link android.app.Activity#RESULT_CANCELED} if the user 426 * has rejected the request or an error has occurred. 427 */ 428 @SdkConstant(SdkConstantType.ACTIVITY_INTENT_ACTION) 429 public static final String ACTION_REQUEST_SCAN_ALWAYS_AVAILABLE = 430 "android.net.wifi.action.REQUEST_SCAN_ALWAYS_AVAILABLE"; 431 432 /** 433 * Activity Action: Pick a Wi-Fi network to connect to. 434 * <p>Input: Nothing. 435 * <p>Output: Nothing. 436 */ 437 @SdkConstant(SdkConstantType.ACTIVITY_INTENT_ACTION) 438 public static final String ACTION_PICK_WIFI_NETWORK = "android.net.wifi.PICK_WIFI_NETWORK"; 439 440 /** 441 * In this Wi-Fi lock mode, Wi-Fi will be kept active, 442 * and will behave normally, i.e., it will attempt to automatically 443 * establish a connection to a remembered access point that is 444 * within range, and will do periodic scans if there are remembered 445 * access points but none are in range. 446 */ 447 public static final int WIFI_MODE_FULL = 1; 448 /** 449 * In this Wi-Fi lock mode, Wi-Fi will be kept active, 450 * but the only operation that will be supported is initiation of 451 * scans, and the subsequent reporting of scan results. No attempts 452 * will be made to automatically connect to remembered access points, 453 * nor will periodic scans be automatically performed looking for 454 * remembered access points. Scans must be explicitly requested by 455 * an application in this mode. 456 */ 457 public static final int WIFI_MODE_SCAN_ONLY = 2; 458 /** 459 * In this Wi-Fi lock mode, Wi-Fi will be kept active as in mode 460 * {@link #WIFI_MODE_FULL} but it operates at high performance 461 * with minimum packet loss and low packet latency even when 462 * the device screen is off. This mode will consume more power 463 * and hence should be used only when there is a need for such 464 * an active connection. 465 * <p> 466 * An example use case is when a voice connection needs to be 467 * kept active even after the device screen goes off. Holding the 468 * regular {@link #WIFI_MODE_FULL} lock will keep the wifi 469 * connection active, but the connection can be lossy. 470 * Holding a {@link #WIFI_MODE_FULL_HIGH_PERF} lock for the 471 * duration of the voice call will improve the call quality. 472 * <p> 473 * When there is no support from the hardware, this lock mode 474 * will have the same behavior as {@link #WIFI_MODE_FULL} 475 */ 476 public static final int WIFI_MODE_FULL_HIGH_PERF = 3; 477 478 /** Anything worse than or equal to this will show 0 bars. */ 479 private static final int MIN_RSSI = -100; 480 481 /** Anything better than or equal to this will show the max bars. */ 482 private static final int MAX_RSSI = -55; 483 484 /** 485 * Number of RSSI levels used in the framework to initiate 486 * {@link #RSSI_CHANGED_ACTION} broadcast 487 * @hide 488 */ 489 public static final int RSSI_LEVELS = 5; 490 491 /** 492 * Auto settings in the driver. The driver could choose to operate on both 493 * 2.4 GHz and 5 GHz or make a dynamic decision on selecting the band. 494 * @hide 495 */ 496 public static final int WIFI_FREQUENCY_BAND_AUTO = 0; 497 498 /** 499 * Operation on 5 GHz alone 500 * @hide 501 */ 502 public static final int WIFI_FREQUENCY_BAND_5GHZ = 1; 503 504 /** 505 * Operation on 2.4 GHz alone 506 * @hide 507 */ 508 public static final int WIFI_FREQUENCY_BAND_2GHZ = 2; 509 510 /** List of asyncronous notifications 511 * @hide 512 */ 513 public static final int DATA_ACTIVITY_NOTIFICATION = 1; 514 515 //Lowest bit indicates data reception and the second lowest 516 //bit indicates data transmitted 517 /** @hide */ 518 public static final int DATA_ACTIVITY_NONE = 0x00; 519 /** @hide */ 520 public static final int DATA_ACTIVITY_IN = 0x01; 521 /** @hide */ 522 public static final int DATA_ACTIVITY_OUT = 0x02; 523 /** @hide */ 524 public static final int DATA_ACTIVITY_INOUT = 0x03; 525 526 /* Maximum number of active locks we allow. 527 * This limit was added to prevent apps from creating a ridiculous number 528 * of locks and crashing the system by overflowing the global ref table. 529 */ 530 private static final int MAX_ACTIVE_LOCKS = 50; 531 532 /* Number of currently active WifiLocks and MulticastLocks */ 533 private int mActiveLockCount; 534 535 private Context mContext; 536 IWifiManager mService; 537 538 private static final int INVALID_KEY = 0; 539 private static int sListenerKey = 1; 540 private static final SparseArray sListenerMap = new SparseArray(); 541 private static final Object sListenerMapLock = new Object(); 542 543 private static AsyncChannel sAsyncChannel; 544 private static CountDownLatch sConnected; 545 546 private static final Object sThreadRefLock = new Object(); 547 private static int sThreadRefCount; 548 private static HandlerThread sHandlerThread; 549 550 /** 551 * Create a new WifiManager instance. 552 * Applications will almost always want to use 553 * {@link android.content.Context#getSystemService Context.getSystemService()} to retrieve 554 * the standard {@link android.content.Context#WIFI_SERVICE Context.WIFI_SERVICE}. 555 * @param context the application context 556 * @param service the Binder interface 557 * @hide - hide this because it takes in a parameter of type IWifiManager, which 558 * is a system private class. 559 */ 560 public WifiManager(Context context, IWifiManager service) { 561 mContext = context; 562 mService = service; 563 init(); 564 } 565 566 /** 567 * Return a list of all the networks configured in the supplicant. 568 * Not all fields of WifiConfiguration are returned. Only the following 569 * fields are filled in: 570 * <ul> 571 * <li>networkId</li> 572 * <li>SSID</li> 573 * <li>BSSID</li> 574 * <li>priority</li> 575 * <li>allowedProtocols</li> 576 * <li>allowedKeyManagement</li> 577 * <li>allowedAuthAlgorithms</li> 578 * <li>allowedPairwiseCiphers</li> 579 * <li>allowedGroupCiphers</li> 580 * </ul> 581 * @return a list of network configurations in the form of a list 582 * of {@link WifiConfiguration} objects. Upon failure to fetch or 583 * when when Wi-Fi is turned off, it can be null. 584 */ 585 public List<WifiConfiguration> getConfiguredNetworks() { 586 try { 587 return mService.getConfiguredNetworks(); 588 } catch (RemoteException e) { 589 return null; 590 } 591 } 592 593 /** 594 * Add a new network description to the set of configured networks. 595 * The {@code networkId} field of the supplied configuration object 596 * is ignored. 597 * <p/> 598 * The new network will be marked DISABLED by default. To enable it, 599 * called {@link #enableNetwork}. 600 * 601 * @param config the set of variables that describe the configuration, 602 * contained in a {@link WifiConfiguration} object. 603 * @return the ID of the newly created network description. This is used in 604 * other operations to specified the network to be acted upon. 605 * Returns {@code -1} on failure. 606 */ 607 public int addNetwork(WifiConfiguration config) { 608 if (config == null) { 609 return -1; 610 } 611 config.networkId = -1; 612 return addOrUpdateNetwork(config); 613 } 614 615 /** 616 * Update the network description of an existing configured network. 617 * 618 * @param config the set of variables that describe the configuration, 619 * contained in a {@link WifiConfiguration} object. It may 620 * be sparse, so that only the items that are being changed 621 * are non-<code>null</code>. The {@code networkId} field 622 * must be set to the ID of the existing network being updated. 623 * @return Returns the {@code networkId} of the supplied 624 * {@code WifiConfiguration} on success. 625 * <br/> 626 * Returns {@code -1} on failure, including when the {@code networkId} 627 * field of the {@code WifiConfiguration} does not refer to an 628 * existing network. 629 */ 630 public int updateNetwork(WifiConfiguration config) { 631 if (config == null || config.networkId < 0) { 632 return -1; 633 } 634 return addOrUpdateNetwork(config); 635 } 636 637 /** 638 * Internal method for doing the RPC that creates a new network description 639 * or updates an existing one. 640 * 641 * @param config The possibly sparse object containing the variables that 642 * are to set or updated in the network description. 643 * @return the ID of the network on success, {@code -1} on failure. 644 */ 645 private int addOrUpdateNetwork(WifiConfiguration config) { 646 try { 647 return mService.addOrUpdateNetwork(config); 648 } catch (RemoteException e) { 649 return -1; 650 } 651 } 652 653 /** 654 * Remove the specified network from the list of configured networks. 655 * This may result in the asynchronous delivery of state change 656 * events. 657 * @param netId the integer that identifies the network configuration 658 * to the supplicant 659 * @return {@code true} if the operation succeeded 660 */ 661 public boolean removeNetwork(int netId) { 662 try { 663 return mService.removeNetwork(netId); 664 } catch (RemoteException e) { 665 return false; 666 } 667 } 668 669 /** 670 * Allow a previously configured network to be associated with. If 671 * <code>disableOthers</code> is true, then all other configured 672 * networks are disabled, and an attempt to connect to the selected 673 * network is initiated. This may result in the asynchronous delivery 674 * of state change events. 675 * @param netId the ID of the network in the list of configured networks 676 * @param disableOthers if true, disable all other networks. The way to 677 * select a particular network to connect to is specify {@code true} 678 * for this parameter. 679 * @return {@code true} if the operation succeeded 680 */ 681 public boolean enableNetwork(int netId, boolean disableOthers) { 682 try { 683 return mService.enableNetwork(netId, disableOthers); 684 } catch (RemoteException e) { 685 return false; 686 } 687 } 688 689 /** 690 * Disable a configured network. The specified network will not be 691 * a candidate for associating. This may result in the asynchronous 692 * delivery of state change events. 693 * @param netId the ID of the network as returned by {@link #addNetwork}. 694 * @return {@code true} if the operation succeeded 695 */ 696 public boolean disableNetwork(int netId) { 697 try { 698 return mService.disableNetwork(netId); 699 } catch (RemoteException e) { 700 return false; 701 } 702 } 703 704 /** 705 * Disassociate from the currently active access point. This may result 706 * in the asynchronous delivery of state change events. 707 * @return {@code true} if the operation succeeded 708 */ 709 public boolean disconnect() { 710 try { 711 mService.disconnect(); 712 return true; 713 } catch (RemoteException e) { 714 return false; 715 } 716 } 717 718 /** 719 * Reconnect to the currently active access point, if we are currently 720 * disconnected. This may result in the asynchronous delivery of state 721 * change events. 722 * @return {@code true} if the operation succeeded 723 */ 724 public boolean reconnect() { 725 try { 726 mService.reconnect(); 727 return true; 728 } catch (RemoteException e) { 729 return false; 730 } 731 } 732 733 /** 734 * Reconnect to the currently active access point, even if we are already 735 * connected. This may result in the asynchronous delivery of state 736 * change events. 737 * @return {@code true} if the operation succeeded 738 */ 739 public boolean reassociate() { 740 try { 741 mService.reassociate(); 742 return true; 743 } catch (RemoteException e) { 744 return false; 745 } 746 } 747 748 /** 749 * Check that the supplicant daemon is responding to requests. 750 * @return {@code true} if we were able to communicate with the supplicant and 751 * it returned the expected response to the PING message. 752 */ 753 public boolean pingSupplicant() { 754 if (mService == null) 755 return false; 756 try { 757 return mService.pingSupplicant(); 758 } catch (RemoteException e) { 759 return false; 760 } 761 } 762 763 /** 764 * Request a scan for access points. Returns immediately. The availability 765 * of the results is made known later by means of an asynchronous event sent 766 * on completion of the scan. 767 * @return {@code true} if the operation succeeded, i.e., the scan was initiated 768 */ 769 public boolean startScan() { 770 try { 771 final WorkSource workSource = null; 772 mService.startScan(workSource); 773 return true; 774 } catch (RemoteException e) { 775 return false; 776 } 777 } 778 779 /** @hide */ 780 public boolean startScan(WorkSource workSource) { 781 try { 782 mService.startScan(workSource); 783 return true; 784 } catch (RemoteException e) { 785 return false; 786 } 787 } 788 789 /** 790 * Request a batched scan for access points. To end your requested batched scan, 791 * call stopBatchedScan with the same Settings. 792 * 793 * If there are mulitple requests for batched scans, the more demanding settings will 794 * take precidence. 795 * 796 * @param requested {@link BatchedScanSettings} the scan settings requested. 797 * @return false on known error 798 * @hide 799 */ 800 public boolean requestBatchedScan(BatchedScanSettings requested) { 801 try { 802 return mService.requestBatchedScan(requested, new Binder()); 803 } catch (RemoteException e) { return false; } 804 } 805 806 /** 807 * Check if the Batched Scan feature is supported. 808 * 809 * @return false if not supported. 810 * @hide 811 */ 812 public boolean isBatchedScanSupported() { 813 try { 814 return mService.isBatchedScanSupported(); 815 } catch (RemoteException e) { return false; } 816 } 817 818 /** 819 * End a requested batch scan for this applicaiton. Note that batched scan may 820 * still occur if other apps are using them. 821 * 822 * @param requested {@link BatchedScanSettings} the scan settings you previously requested 823 * and now wish to stop. A value of null here will stop all scans requested by the 824 * calling App. 825 * @hide 826 */ 827 public void stopBatchedScan(BatchedScanSettings requested) { 828 try { 829 mService.stopBatchedScan(requested, new Binder()); 830 } catch (RemoteException e) {} 831 } 832 833 /** 834 * Retrieve the latest batched scan result. This should be called immediately after 835 * {@link BATCHED_SCAN_RESULTS_AVAILABLE_ACTION} is received. 836 * @hide 837 */ 838 public List<BatchedScanResult> getBatchedScanResults() { 839 try { 840 return mService.getBatchedScanResults(mContext.getOpPackageName()); 841 } catch (RemoteException e) { 842 return null; 843 } 844 } 845 846 /** 847 * Force a re-reading of batched scan results. This will attempt 848 * to read more information from the chip, but will do so at the expense 849 * of previous data. Rate limited to the current scan frequency. 850 * 851 * pollBatchedScan will always wait 1 period from the start of the batch 852 * before trying to read from the chip, so if your #scans/batch == 1 this will 853 * have no effect. 854 * 855 * If you had already waited 1 period before calling, this should have 856 * immediate (though async) effect. 857 * 858 * If you call before that 1 period is up this will set up a timer and fetch 859 * results when the 1 period is up. 860 * 861 * Servicing a pollBatchedScan request (immediate or after timed delay) starts a 862 * new batch, so if you were doing 10 scans/batch and called in the 4th scan, you 863 * would get data in the 4th and then again 10 scans later. 864 * @hide 865 */ 866 public void pollBatchedScan() { 867 try { 868 mService.pollBatchedScan(); 869 } catch (RemoteException e) { } 870 } 871 872 /** 873 * Return dynamic information about the current Wi-Fi connection, if any is active. 874 * @return the Wi-Fi information, contained in {@link WifiInfo}. 875 */ 876 public WifiInfo getConnectionInfo() { 877 try { 878 return mService.getConnectionInfo(); 879 } catch (RemoteException e) { 880 return null; 881 } 882 } 883 884 /** 885 * Return the results of the latest access point scan. 886 * @return the list of access points found in the most recent scan. 887 */ 888 public List<ScanResult> getScanResults() { 889 try { 890 return mService.getScanResults(mContext.getOpPackageName()); 891 } catch (RemoteException e) { 892 return null; 893 } 894 } 895 896 /** 897 * Check if scanning is always available. 898 * 899 * If this return {@code true}, apps can issue {@link #startScan} and fetch scan results 900 * even when Wi-Fi is turned off. 901 * 902 * To change this setting, see {@link #ACTION_REQUEST_SCAN_ALWAYS_AVAILABLE}. 903 */ 904 public boolean isScanAlwaysAvailable() { 905 try { 906 return mService.isScanAlwaysAvailable(); 907 } catch (RemoteException e) { 908 return false; 909 } 910 } 911 912 /** 913 * Tell the supplicant to persist the current list of configured networks. 914 * <p> 915 * Note: It is possible for this method to change the network IDs of 916 * existing networks. You should assume the network IDs can be different 917 * after calling this method. 918 * 919 * @return {@code true} if the operation succeeded 920 */ 921 public boolean saveConfiguration() { 922 try { 923 return mService.saveConfiguration(); 924 } catch (RemoteException e) { 925 return false; 926 } 927 } 928 929 /** 930 * Set the country code. 931 * @param countryCode country code in ISO 3166 format. 932 * @param persist {@code true} if this needs to be remembered 933 * 934 * @hide 935 */ 936 public void setCountryCode(String country, boolean persist) { 937 try { 938 mService.setCountryCode(country, persist); 939 } catch (RemoteException e) { } 940 } 941 942 /** 943 * Set the operational frequency band. 944 * @param band One of 945 * {@link #WIFI_FREQUENCY_BAND_AUTO}, 946 * {@link #WIFI_FREQUENCY_BAND_5GHZ}, 947 * {@link #WIFI_FREQUENCY_BAND_2GHZ}, 948 * @param persist {@code true} if this needs to be remembered 949 * @hide 950 */ 951 public void setFrequencyBand(int band, boolean persist) { 952 try { 953 mService.setFrequencyBand(band, persist); 954 } catch (RemoteException e) { } 955 } 956 957 /** 958 * Get the operational frequency band. 959 * @return One of 960 * {@link #WIFI_FREQUENCY_BAND_AUTO}, 961 * {@link #WIFI_FREQUENCY_BAND_5GHZ}, 962 * {@link #WIFI_FREQUENCY_BAND_2GHZ} or 963 * {@code -1} on failure. 964 * @hide 965 */ 966 public int getFrequencyBand() { 967 try { 968 return mService.getFrequencyBand(); 969 } catch (RemoteException e) { 970 return -1; 971 } 972 } 973 974 /** 975 * Check if the chipset supports dual frequency band (2.4 GHz and 5 GHz) 976 * @return {@code true} if supported, {@code false} otherwise. 977 * @hide 978 */ 979 public boolean isDualBandSupported() { 980 try { 981 return mService.isDualBandSupported(); 982 } catch (RemoteException e) { 983 return false; 984 } 985 } 986 987 /** 988 * Return the DHCP-assigned addresses from the last successful DHCP request, 989 * if any. 990 * @return the DHCP information 991 * @deprecated - use ConnectivityManager.getLinkProperties instead. TODO - remove 11/2013 992 */ 993 public DhcpInfo getDhcpInfo() { 994 try { 995 return mService.getDhcpInfo(); 996 } catch (RemoteException e) { 997 return null; 998 } 999 } 1000 1001 /** 1002 * Enable or disable Wi-Fi. 1003 * @param enabled {@code true} to enable, {@code false} to disable. 1004 * @return {@code true} if the operation succeeds (or if the existing state 1005 * is the same as the requested state). 1006 */ 1007 public boolean setWifiEnabled(boolean enabled) { 1008 try { 1009 return mService.setWifiEnabled(enabled); 1010 } catch (RemoteException e) { 1011 return false; 1012 } 1013 } 1014 1015 /** 1016 * Gets the Wi-Fi enabled state. 1017 * @return One of {@link #WIFI_STATE_DISABLED}, 1018 * {@link #WIFI_STATE_DISABLING}, {@link #WIFI_STATE_ENABLED}, 1019 * {@link #WIFI_STATE_ENABLING}, {@link #WIFI_STATE_UNKNOWN} 1020 * @see #isWifiEnabled() 1021 */ 1022 public int getWifiState() { 1023 try { 1024 return mService.getWifiEnabledState(); 1025 } catch (RemoteException e) { 1026 return WIFI_STATE_UNKNOWN; 1027 } 1028 } 1029 1030 /** 1031 * Return whether Wi-Fi is enabled or disabled. 1032 * @return {@code true} if Wi-Fi is enabled 1033 * @see #getWifiState() 1034 */ 1035 public boolean isWifiEnabled() { 1036 return getWifiState() == WIFI_STATE_ENABLED; 1037 } 1038 1039 /** 1040 * Return TX packet counter, for CTS test of WiFi watchdog. 1041 * @param listener is the interface to receive result 1042 * 1043 * @hide for CTS test only 1044 */ 1045 public void getTxPacketCount(TxPacketCountListener listener) { 1046 validateChannel(); 1047 sAsyncChannel.sendMessage(RSSI_PKTCNT_FETCH, 0, putListener(listener)); 1048 } 1049 1050 /** 1051 * Calculates the level of the signal. This should be used any time a signal 1052 * is being shown. 1053 * 1054 * @param rssi The power of the signal measured in RSSI. 1055 * @param numLevels The number of levels to consider in the calculated 1056 * level. 1057 * @return A level of the signal, given in the range of 0 to numLevels-1 1058 * (both inclusive). 1059 */ 1060 public static int calculateSignalLevel(int rssi, int numLevels) { 1061 if (rssi <= MIN_RSSI) { 1062 return 0; 1063 } else if (rssi >= MAX_RSSI) { 1064 return numLevels - 1; 1065 } else { 1066 float inputRange = (MAX_RSSI - MIN_RSSI); 1067 float outputRange = (numLevels - 1); 1068 return (int)((float)(rssi - MIN_RSSI) * outputRange / inputRange); 1069 } 1070 } 1071 1072 /** 1073 * Compares two signal strengths. 1074 * 1075 * @param rssiA The power of the first signal measured in RSSI. 1076 * @param rssiB The power of the second signal measured in RSSI. 1077 * @return Returns <0 if the first signal is weaker than the second signal, 1078 * 0 if the two signals have the same strength, and >0 if the first 1079 * signal is stronger than the second signal. 1080 */ 1081 public static int compareSignalLevel(int rssiA, int rssiB) { 1082 return rssiA - rssiB; 1083 } 1084 1085 /** 1086 * Start AccessPoint mode with the specified 1087 * configuration. If the radio is already running in 1088 * AP mode, update the new configuration 1089 * Note that starting in access point mode disables station 1090 * mode operation 1091 * @param wifiConfig SSID, security and channel details as 1092 * part of WifiConfiguration 1093 * @return {@code true} if the operation succeeds, {@code false} otherwise 1094 * 1095 * @hide Dont open up yet 1096 */ 1097 public boolean setWifiApEnabled(WifiConfiguration wifiConfig, boolean enabled) { 1098 try { 1099 mService.setWifiApEnabled(wifiConfig, enabled); 1100 return true; 1101 } catch (RemoteException e) { 1102 return false; 1103 } 1104 } 1105 1106 /** 1107 * Gets the Wi-Fi enabled state. 1108 * @return One of {@link #WIFI_AP_STATE_DISABLED}, 1109 * {@link #WIFI_AP_STATE_DISABLING}, {@link #WIFI_AP_STATE_ENABLED}, 1110 * {@link #WIFI_AP_STATE_ENABLING}, {@link #WIFI_AP_STATE_FAILED} 1111 * @see #isWifiApEnabled() 1112 * 1113 * @hide Dont open yet 1114 */ 1115 public int getWifiApState() { 1116 try { 1117 return mService.getWifiApEnabledState(); 1118 } catch (RemoteException e) { 1119 return WIFI_AP_STATE_FAILED; 1120 } 1121 } 1122 1123 /** 1124 * Return whether Wi-Fi AP is enabled or disabled. 1125 * @return {@code true} if Wi-Fi AP is enabled 1126 * @see #getWifiApState() 1127 * 1128 * @hide Dont open yet 1129 */ 1130 public boolean isWifiApEnabled() { 1131 return getWifiApState() == WIFI_AP_STATE_ENABLED; 1132 } 1133 1134 /** 1135 * Gets the Wi-Fi AP Configuration. 1136 * @return AP details in WifiConfiguration 1137 * 1138 * @hide Dont open yet 1139 */ 1140 public WifiConfiguration getWifiApConfiguration() { 1141 try { 1142 return mService.getWifiApConfiguration(); 1143 } catch (RemoteException e) { 1144 return null; 1145 } 1146 } 1147 1148 /** 1149 * Sets the Wi-Fi AP Configuration. 1150 * @return {@code true} if the operation succeeded, {@code false} otherwise 1151 * 1152 * @hide Dont open yet 1153 */ 1154 public boolean setWifiApConfiguration(WifiConfiguration wifiConfig) { 1155 try { 1156 mService.setWifiApConfiguration(wifiConfig); 1157 return true; 1158 } catch (RemoteException e) { 1159 return false; 1160 } 1161 } 1162 1163 /** 1164 * Start the driver and connect to network. 1165 * 1166 * This function will over-ride WifiLock and device idle status. For example, 1167 * even if the device is idle or there is only a scan-only lock held, 1168 * a start wifi would mean that wifi connection is kept active until 1169 * a stopWifi() is sent. 1170 * 1171 * This API is used by WifiStateTracker 1172 * 1173 * @return {@code true} if the operation succeeds else {@code false} 1174 * @hide 1175 */ 1176 public boolean startWifi() { 1177 try { 1178 mService.startWifi(); 1179 return true; 1180 } catch (RemoteException e) { 1181 return false; 1182 } 1183 } 1184 1185 /** 1186 * Disconnect from a network (if any) and stop the driver. 1187 * 1188 * This function will over-ride WifiLock and device idle status. Wi-Fi 1189 * stays inactive until a startWifi() is issued. 1190 * 1191 * This API is used by WifiStateTracker 1192 * 1193 * @return {@code true} if the operation succeeds else {@code false} 1194 * @hide 1195 */ 1196 public boolean stopWifi() { 1197 try { 1198 mService.stopWifi(); 1199 return true; 1200 } catch (RemoteException e) { 1201 return false; 1202 } 1203 } 1204 1205 /** 1206 * Add a bssid to the supplicant blacklist 1207 * 1208 * This API is used by WifiWatchdogService 1209 * 1210 * @return {@code true} if the operation succeeds else {@code false} 1211 * @hide 1212 */ 1213 public boolean addToBlacklist(String bssid) { 1214 try { 1215 mService.addToBlacklist(bssid); 1216 return true; 1217 } catch (RemoteException e) { 1218 return false; 1219 } 1220 } 1221 1222 /** 1223 * Clear the supplicant blacklist 1224 * 1225 * This API is used by WifiWatchdogService 1226 * 1227 * @return {@code true} if the operation succeeds else {@code false} 1228 * @hide 1229 */ 1230 public boolean clearBlacklist() { 1231 try { 1232 mService.clearBlacklist(); 1233 return true; 1234 } catch (RemoteException e) { 1235 return false; 1236 } 1237 } 1238 1239 1240 /** 1241 * Enable/Disable TDLS on a specific local route. 1242 * 1243 * <p> 1244 * TDLS enables two wireless endpoints to talk to each other directly 1245 * without going through the access point that is managing the local 1246 * network. It saves bandwidth and improves quality of the link. 1247 * </p> 1248 * <p> 1249 * This API enables/disables the option of using TDLS. If enabled, the 1250 * underlying hardware is free to use TDLS or a hop through the access 1251 * point. If disabled, existing TDLS session is torn down and 1252 * hardware is restricted to use access point for transferring wireless 1253 * packets. Default value for all routes is 'disabled', meaning restricted 1254 * to use access point for transferring packets. 1255 * </p> 1256 * 1257 * @param remoteIPAddress IP address of the endpoint to setup TDLS with 1258 * @param enable true = setup and false = tear down TDLS 1259 */ 1260 public void setTdlsEnabled(InetAddress remoteIPAddress, boolean enable) { 1261 try { 1262 mService.enableTdls(remoteIPAddress.getHostAddress(), enable); 1263 } catch (RemoteException e) { 1264 // Just ignore the exception 1265 } 1266 } 1267 1268 /** 1269 * Similar to {@link #setTdlsEnabled(InetAddress, boolean) }, except 1270 * this version allows you to specify remote endpoint with a MAC address. 1271 * @param remoteMacAddress MAC address of the remote endpoint such as 00:00:0c:9f:f2:ab 1272 * @param enable true = setup and false = tear down TDLS 1273 */ 1274 public void setTdlsEnabledWithMacAddress(String remoteMacAddress, boolean enable) { 1275 try { 1276 mService.enableTdlsWithMacAddress(remoteMacAddress, enable); 1277 } catch (RemoteException e) { 1278 // Just ignore the exception 1279 } 1280 } 1281 1282 /* TODO: deprecate synchronous API and open up the following API */ 1283 1284 private static final int BASE = Protocol.BASE_WIFI_MANAGER; 1285 1286 /* Commands to WifiService */ 1287 /** @hide */ 1288 public static final int CONNECT_NETWORK = BASE + 1; 1289 /** @hide */ 1290 public static final int CONNECT_NETWORK_FAILED = BASE + 2; 1291 /** @hide */ 1292 public static final int CONNECT_NETWORK_SUCCEEDED = BASE + 3; 1293 1294 /** @hide */ 1295 public static final int FORGET_NETWORK = BASE + 4; 1296 /** @hide */ 1297 public static final int FORGET_NETWORK_FAILED = BASE + 5; 1298 /** @hide */ 1299 public static final int FORGET_NETWORK_SUCCEEDED = BASE + 6; 1300 1301 /** @hide */ 1302 public static final int SAVE_NETWORK = BASE + 7; 1303 /** @hide */ 1304 public static final int SAVE_NETWORK_FAILED = BASE + 8; 1305 /** @hide */ 1306 public static final int SAVE_NETWORK_SUCCEEDED = BASE + 9; 1307 1308 /** @hide */ 1309 public static final int START_WPS = BASE + 10; 1310 /** @hide */ 1311 public static final int START_WPS_SUCCEEDED = BASE + 11; 1312 /** @hide */ 1313 public static final int WPS_FAILED = BASE + 12; 1314 /** @hide */ 1315 public static final int WPS_COMPLETED = BASE + 13; 1316 1317 /** @hide */ 1318 public static final int CANCEL_WPS = BASE + 14; 1319 /** @hide */ 1320 public static final int CANCEL_WPS_FAILED = BASE + 15; 1321 /** @hide */ 1322 public static final int CANCEL_WPS_SUCCEDED = BASE + 16; 1323 1324 /** @hide */ 1325 public static final int DISABLE_NETWORK = BASE + 17; 1326 /** @hide */ 1327 public static final int DISABLE_NETWORK_FAILED = BASE + 18; 1328 /** @hide */ 1329 public static final int DISABLE_NETWORK_SUCCEEDED = BASE + 19; 1330 1331 /** @hide */ 1332 public static final int RSSI_PKTCNT_FETCH = BASE + 20; 1333 /** @hide */ 1334 public static final int RSSI_PKTCNT_FETCH_SUCCEEDED = BASE + 21; 1335 /** @hide */ 1336 public static final int RSSI_PKTCNT_FETCH_FAILED = BASE + 22; 1337 1338 1339 /** 1340 * Passed with {@link ActionListener#onFailure}. 1341 * Indicates that the operation failed due to an internal error. 1342 * @hide 1343 */ 1344 public static final int ERROR = 0; 1345 1346 /** 1347 * Passed with {@link ActionListener#onFailure}. 1348 * Indicates that the operation is already in progress 1349 * @hide 1350 */ 1351 public static final int IN_PROGRESS = 1; 1352 1353 /** 1354 * Passed with {@link ActionListener#onFailure}. 1355 * Indicates that the operation failed because the framework is busy and 1356 * unable to service the request 1357 * @hide 1358 */ 1359 public static final int BUSY = 2; 1360 1361 /* WPS specific errors */ 1362 /** WPS overlap detected {@hide} */ 1363 public static final int WPS_OVERLAP_ERROR = 3; 1364 /** WEP on WPS is prohibited {@hide} */ 1365 public static final int WPS_WEP_PROHIBITED = 4; 1366 /** TKIP only prohibited {@hide} */ 1367 public static final int WPS_TKIP_ONLY_PROHIBITED = 5; 1368 /** Authentication failure on WPS {@hide} */ 1369 public static final int WPS_AUTH_FAILURE = 6; 1370 /** WPS timed out {@hide} */ 1371 public static final int WPS_TIMED_OUT = 7; 1372 1373 /** 1374 * Passed with {@link ActionListener#onFailure}. 1375 * Indicates that the operation failed due to invalid inputs 1376 * @hide 1377 */ 1378 public static final int INVALID_ARGS = 8; 1379 1380 /** Interface for callback invocation on an application action {@hide} */ 1381 public interface ActionListener { 1382 /** The operation succeeded */ 1383 public void onSuccess(); 1384 /** 1385 * The operation failed 1386 * @param reason The reason for failure could be one of 1387 * {@link #ERROR}, {@link #IN_PROGRESS} or {@link #BUSY} 1388 */ 1389 public void onFailure(int reason); 1390 } 1391 1392 /** Interface for callback invocation on a start WPS action {@hide} */ 1393 public interface WpsListener { 1394 /** WPS start succeeded */ 1395 public void onStartSuccess(String pin); 1396 1397 /** WPS operation completed succesfully */ 1398 public void onCompletion(); 1399 1400 /** 1401 * WPS operation failed 1402 * @param reason The reason for failure could be one of 1403 * {@link #IN_PROGRESS}, {@link #WPS_OVERLAP_ERROR},{@link #ERROR} or {@link #BUSY} 1404 */ 1405 public void onFailure(int reason); 1406 } 1407 1408 /** Interface for callback invocation on a TX packet count poll action {@hide} */ 1409 public interface TxPacketCountListener { 1410 /** 1411 * The operation succeeded 1412 * @param count TX packet counter 1413 */ 1414 public void onSuccess(int count); 1415 /** 1416 * The operation failed 1417 * @param reason The reason for failure could be one of 1418 * {@link #ERROR}, {@link #IN_PROGRESS} or {@link #BUSY} 1419 */ 1420 public void onFailure(int reason); 1421 } 1422 1423 private static class ServiceHandler extends Handler { 1424 ServiceHandler(Looper looper) { 1425 super(looper); 1426 } 1427 1428 @Override 1429 public void handleMessage(Message message) { 1430 Object listener = removeListener(message.arg2); 1431 switch (message.what) { 1432 case AsyncChannel.CMD_CHANNEL_HALF_CONNECTED: 1433 if (message.arg1 == AsyncChannel.STATUS_SUCCESSFUL) { 1434 sAsyncChannel.sendMessage(AsyncChannel.CMD_CHANNEL_FULL_CONNECTION); 1435 } else { 1436 Log.e(TAG, "Failed to set up channel connection"); 1437 // This will cause all further async API calls on the WifiManager 1438 // to fail and throw an exception 1439 sAsyncChannel = null; 1440 } 1441 sConnected.countDown(); 1442 break; 1443 case AsyncChannel.CMD_CHANNEL_FULLY_CONNECTED: 1444 // Ignore 1445 break; 1446 case AsyncChannel.CMD_CHANNEL_DISCONNECTED: 1447 Log.e(TAG, "Channel connection lost"); 1448 // This will cause all further async API calls on the WifiManager 1449 // to fail and throw an exception 1450 sAsyncChannel = null; 1451 getLooper().quit(); 1452 break; 1453 /* ActionListeners grouped together */ 1454 case WifiManager.CONNECT_NETWORK_FAILED: 1455 case WifiManager.FORGET_NETWORK_FAILED: 1456 case WifiManager.SAVE_NETWORK_FAILED: 1457 case WifiManager.CANCEL_WPS_FAILED: 1458 case WifiManager.DISABLE_NETWORK_FAILED: 1459 if (listener != null) { 1460 ((ActionListener) listener).onFailure(message.arg1); 1461 } 1462 break; 1463 /* ActionListeners grouped together */ 1464 case WifiManager.CONNECT_NETWORK_SUCCEEDED: 1465 case WifiManager.FORGET_NETWORK_SUCCEEDED: 1466 case WifiManager.SAVE_NETWORK_SUCCEEDED: 1467 case WifiManager.CANCEL_WPS_SUCCEDED: 1468 case WifiManager.DISABLE_NETWORK_SUCCEEDED: 1469 if (listener != null) { 1470 ((ActionListener) listener).onSuccess(); 1471 } 1472 break; 1473 case WifiManager.START_WPS_SUCCEEDED: 1474 if (listener != null) { 1475 WpsResult result = (WpsResult) message.obj; 1476 ((WpsListener) listener).onStartSuccess(result.pin); 1477 //Listener needs to stay until completion or failure 1478 synchronized(sListenerMapLock) { 1479 sListenerMap.put(message.arg2, listener); 1480 } 1481 } 1482 break; 1483 case WifiManager.WPS_COMPLETED: 1484 if (listener != null) { 1485 ((WpsListener) listener).onCompletion(); 1486 } 1487 break; 1488 case WifiManager.WPS_FAILED: 1489 if (listener != null) { 1490 ((WpsListener) listener).onFailure(message.arg1); 1491 } 1492 break; 1493 case WifiManager.RSSI_PKTCNT_FETCH_SUCCEEDED: 1494 if (listener != null) { 1495 RssiPacketCountInfo info = (RssiPacketCountInfo) message.obj; 1496 if (info != null) 1497 ((TxPacketCountListener) listener).onSuccess(info.txgood + info.txbad); 1498 else 1499 ((TxPacketCountListener) listener).onFailure(ERROR); 1500 } 1501 break; 1502 case WifiManager.RSSI_PKTCNT_FETCH_FAILED: 1503 if (listener != null) { 1504 ((TxPacketCountListener) listener).onFailure(message.arg1); 1505 } 1506 break; 1507 default: 1508 //ignore 1509 break; 1510 } 1511 } 1512 } 1513 1514 private static int putListener(Object listener) { 1515 if (listener == null) return INVALID_KEY; 1516 int key; 1517 synchronized (sListenerMapLock) { 1518 do { 1519 key = sListenerKey++; 1520 } while (key == INVALID_KEY); 1521 sListenerMap.put(key, listener); 1522 } 1523 return key; 1524 } 1525 1526 private static Object removeListener(int key) { 1527 if (key == INVALID_KEY) return null; 1528 synchronized (sListenerMapLock) { 1529 Object listener = sListenerMap.get(key); 1530 sListenerMap.remove(key); 1531 return listener; 1532 } 1533 } 1534 1535 private void init() { 1536 synchronized (sThreadRefLock) { 1537 if (++sThreadRefCount == 1) { 1538 Messenger messenger = getWifiServiceMessenger(); 1539 if (messenger == null) { 1540 sAsyncChannel = null; 1541 return; 1542 } 1543 1544 sHandlerThread = new HandlerThread("WifiManager"); 1545 sAsyncChannel = new AsyncChannel(); 1546 sConnected = new CountDownLatch(1); 1547 1548 sHandlerThread.start(); 1549 Handler handler = new ServiceHandler(sHandlerThread.getLooper()); 1550 sAsyncChannel.connect(mContext, handler, messenger); 1551 try { 1552 sConnected.await(); 1553 } catch (InterruptedException e) { 1554 Log.e(TAG, "interrupted wait at init"); 1555 } 1556 } 1557 } 1558 } 1559 1560 private void validateChannel() { 1561 if (sAsyncChannel == null) throw new IllegalStateException( 1562 "No permission to access and change wifi or a bad initialization"); 1563 } 1564 1565 /** 1566 * Connect to a network with the given configuration. The network also 1567 * gets added to the supplicant configuration. 1568 * 1569 * For a new network, this function is used instead of a 1570 * sequence of addNetwork(), enableNetwork(), saveConfiguration() and 1571 * reconnect() 1572 * 1573 * @param config the set of variables that describe the configuration, 1574 * contained in a {@link WifiConfiguration} object. 1575 * @param listener for callbacks on success or failure. Can be null. 1576 * @throws IllegalStateException if the WifiManager instance needs to be 1577 * initialized again 1578 * 1579 * @hide 1580 */ 1581 public void connect(WifiConfiguration config, ActionListener listener) { 1582 if (config == null) throw new IllegalArgumentException("config cannot be null"); 1583 validateChannel(); 1584 // Use INVALID_NETWORK_ID for arg1 when passing a config object 1585 // arg1 is used to pass network id when the network already exists 1586 sAsyncChannel.sendMessage(CONNECT_NETWORK, WifiConfiguration.INVALID_NETWORK_ID, 1587 putListener(listener), config); 1588 } 1589 1590 /** 1591 * Connect to a network with the given networkId. 1592 * 1593 * This function is used instead of a enableNetwork(), saveConfiguration() and 1594 * reconnect() 1595 * 1596 * @param networkId the network id identifiying the network in the 1597 * supplicant configuration list 1598 * @param listener for callbacks on success or failure. Can be null. 1599 * @throws IllegalStateException if the WifiManager instance needs to be 1600 * initialized again 1601 * @hide 1602 */ 1603 public void connect(int networkId, ActionListener listener) { 1604 if (networkId < 0) throw new IllegalArgumentException("Network id cannot be negative"); 1605 validateChannel(); 1606 sAsyncChannel.sendMessage(CONNECT_NETWORK, networkId, putListener(listener)); 1607 } 1608 1609 /** 1610 * Save the given network in the supplicant config. If the network already 1611 * exists, the configuration is updated. A new network is enabled 1612 * by default. 1613 * 1614 * For a new network, this function is used instead of a 1615 * sequence of addNetwork(), enableNetwork() and saveConfiguration(). 1616 * 1617 * For an existing network, it accomplishes the task of updateNetwork() 1618 * and saveConfiguration() 1619 * 1620 * @param config the set of variables that describe the configuration, 1621 * contained in a {@link WifiConfiguration} object. 1622 * @param listener for callbacks on success or failure. Can be null. 1623 * @throws IllegalStateException if the WifiManager instance needs to be 1624 * initialized again 1625 * @hide 1626 */ 1627 public void save(WifiConfiguration config, ActionListener listener) { 1628 if (config == null) throw new IllegalArgumentException("config cannot be null"); 1629 validateChannel(); 1630 sAsyncChannel.sendMessage(SAVE_NETWORK, 0, putListener(listener), config); 1631 } 1632 1633 /** 1634 * Delete the network in the supplicant config. 1635 * 1636 * This function is used instead of a sequence of removeNetwork() 1637 * and saveConfiguration(). 1638 * 1639 * @param config the set of variables that describe the configuration, 1640 * contained in a {@link WifiConfiguration} object. 1641 * @param listener for callbacks on success or failure. Can be null. 1642 * @throws IllegalStateException if the WifiManager instance needs to be 1643 * initialized again 1644 * @hide 1645 */ 1646 public void forget(int netId, ActionListener listener) { 1647 if (netId < 0) throw new IllegalArgumentException("Network id cannot be negative"); 1648 validateChannel(); 1649 sAsyncChannel.sendMessage(FORGET_NETWORK, netId, putListener(listener)); 1650 } 1651 1652 /** 1653 * Disable network 1654 * 1655 * @param netId is the network Id 1656 * @param listener for callbacks on success or failure. Can be null. 1657 * @throws IllegalStateException if the WifiManager instance needs to be 1658 * initialized again 1659 * @hide 1660 */ 1661 public void disable(int netId, ActionListener listener) { 1662 if (netId < 0) throw new IllegalArgumentException("Network id cannot be negative"); 1663 validateChannel(); 1664 sAsyncChannel.sendMessage(DISABLE_NETWORK, netId, putListener(listener)); 1665 } 1666 1667 /** 1668 * Start Wi-fi Protected Setup 1669 * 1670 * @param config WPS configuration 1671 * @param listener for callbacks on success or failure. Can be null. 1672 * @throws IllegalStateException if the WifiManager instance needs to be 1673 * initialized again 1674 * @hide 1675 */ 1676 public void startWps(WpsInfo config, WpsListener listener) { 1677 if (config == null) throw new IllegalArgumentException("config cannot be null"); 1678 validateChannel(); 1679 sAsyncChannel.sendMessage(START_WPS, 0, putListener(listener), config); 1680 } 1681 1682 /** 1683 * Cancel any ongoing Wi-fi Protected Setup 1684 * 1685 * @param listener for callbacks on success or failure. Can be null. 1686 * @throws IllegalStateException if the WifiManager instance needs to be 1687 * initialized again 1688 * @hide 1689 */ 1690 public void cancelWps(ActionListener listener) { 1691 validateChannel(); 1692 sAsyncChannel.sendMessage(CANCEL_WPS, 0, putListener(listener)); 1693 } 1694 1695 /** 1696 * Get a reference to WifiService handler. This is used by a client to establish 1697 * an AsyncChannel communication with WifiService 1698 * 1699 * @return Messenger pointing to the WifiService handler 1700 * @hide 1701 */ 1702 public Messenger getWifiServiceMessenger() { 1703 try { 1704 return mService.getWifiServiceMessenger(); 1705 } catch (RemoteException e) { 1706 return null; 1707 } catch (SecurityException e) { 1708 return null; 1709 } 1710 } 1711 1712 /** 1713 * Get a reference to WifiStateMachine handler. 1714 * @return Messenger pointing to the WifiService handler 1715 * @hide 1716 */ 1717 public Messenger getWifiStateMachineMessenger() { 1718 try { 1719 return mService.getWifiStateMachineMessenger(); 1720 } catch (RemoteException e) { 1721 return null; 1722 } 1723 } 1724 1725 /** 1726 * Returns the file in which IP and proxy configuration data is stored 1727 * @hide 1728 */ 1729 public String getConfigFile() { 1730 try { 1731 return mService.getConfigFile(); 1732 } catch (RemoteException e) { 1733 return null; 1734 } 1735 } 1736 1737 /** 1738 * Allows an application to keep the Wi-Fi radio awake. 1739 * Normally the Wi-Fi radio may turn off when the user has not used the device in a while. 1740 * Acquiring a WifiLock will keep the radio on until the lock is released. Multiple 1741 * applications may hold WifiLocks, and the radio will only be allowed to turn off when no 1742 * WifiLocks are held in any application. 1743 * <p> 1744 * Before using a WifiLock, consider carefully if your application requires Wi-Fi access, or 1745 * could function over a mobile network, if available. A program that needs to download large 1746 * files should hold a WifiLock to ensure that the download will complete, but a program whose 1747 * network usage is occasional or low-bandwidth should not hold a WifiLock to avoid adversely 1748 * affecting battery life. 1749 * <p> 1750 * Note that WifiLocks cannot override the user-level "Wi-Fi Enabled" setting, nor Airplane 1751 * Mode. They simply keep the radio from turning off when Wi-Fi is already on but the device 1752 * is idle. 1753 * <p> 1754 * Any application using a WifiLock must request the {@code android.permission.WAKE_LOCK} 1755 * permission in an {@code <uses-permission>} element of the application's manifest. 1756 */ 1757 public class WifiLock { 1758 private String mTag; 1759 private final IBinder mBinder; 1760 private int mRefCount; 1761 int mLockType; 1762 private boolean mRefCounted; 1763 private boolean mHeld; 1764 private WorkSource mWorkSource; 1765 1766 private WifiLock(int lockType, String tag) { 1767 mTag = tag; 1768 mLockType = lockType; 1769 mBinder = new Binder(); 1770 mRefCount = 0; 1771 mRefCounted = true; 1772 mHeld = false; 1773 } 1774 1775 /** 1776 * Locks the Wi-Fi radio on until {@link #release} is called. 1777 * 1778 * If this WifiLock is reference-counted, each call to {@code acquire} will increment the 1779 * reference count, and the radio will remain locked as long as the reference count is 1780 * above zero. 1781 * 1782 * If this WifiLock is not reference-counted, the first call to {@code acquire} will lock 1783 * the radio, but subsequent calls will be ignored. Only one call to {@link #release} 1784 * will be required, regardless of the number of times that {@code acquire} is called. 1785 */ 1786 public void acquire() { 1787 synchronized (mBinder) { 1788 if (mRefCounted ? (++mRefCount == 1) : (!mHeld)) { 1789 try { 1790 mService.acquireWifiLock(mBinder, mLockType, mTag, mWorkSource); 1791 synchronized (WifiManager.this) { 1792 if (mActiveLockCount >= MAX_ACTIVE_LOCKS) { 1793 mService.releaseWifiLock(mBinder); 1794 throw new UnsupportedOperationException( 1795 "Exceeded maximum number of wifi locks"); 1796 } 1797 mActiveLockCount++; 1798 } 1799 } catch (RemoteException ignore) { 1800 } 1801 mHeld = true; 1802 } 1803 } 1804 } 1805 1806 /** 1807 * Unlocks the Wi-Fi radio, allowing it to turn off when the device is idle. 1808 * 1809 * If this WifiLock is reference-counted, each call to {@code release} will decrement the 1810 * reference count, and the radio will be unlocked only when the reference count reaches 1811 * zero. If the reference count goes below zero (that is, if {@code release} is called 1812 * a greater number of times than {@link #acquire}), an exception is thrown. 1813 * 1814 * If this WifiLock is not reference-counted, the first call to {@code release} (after 1815 * the radio was locked using {@link #acquire}) will unlock the radio, and subsequent 1816 * calls will be ignored. 1817 */ 1818 public void release() { 1819 synchronized (mBinder) { 1820 if (mRefCounted ? (--mRefCount == 0) : (mHeld)) { 1821 try { 1822 mService.releaseWifiLock(mBinder); 1823 synchronized (WifiManager.this) { 1824 mActiveLockCount--; 1825 } 1826 } catch (RemoteException ignore) { 1827 } 1828 mHeld = false; 1829 } 1830 if (mRefCount < 0) { 1831 throw new RuntimeException("WifiLock under-locked " + mTag); 1832 } 1833 } 1834 } 1835 1836 /** 1837 * Controls whether this is a reference-counted or non-reference-counted WifiLock. 1838 * 1839 * Reference-counted WifiLocks keep track of the number of calls to {@link #acquire} and 1840 * {@link #release}, and only allow the radio to sleep when every call to {@link #acquire} 1841 * has been balanced with a call to {@link #release}. Non-reference-counted WifiLocks 1842 * lock the radio whenever {@link #acquire} is called and it is unlocked, and unlock the 1843 * radio whenever {@link #release} is called and it is locked. 1844 * 1845 * @param refCounted true if this WifiLock should keep a reference count 1846 */ 1847 public void setReferenceCounted(boolean refCounted) { 1848 mRefCounted = refCounted; 1849 } 1850 1851 /** 1852 * Checks whether this WifiLock is currently held. 1853 * 1854 * @return true if this WifiLock is held, false otherwise 1855 */ 1856 public boolean isHeld() { 1857 synchronized (mBinder) { 1858 return mHeld; 1859 } 1860 } 1861 1862 public void setWorkSource(WorkSource ws) { 1863 synchronized (mBinder) { 1864 if (ws != null && ws.size() == 0) { 1865 ws = null; 1866 } 1867 boolean changed = true; 1868 if (ws == null) { 1869 mWorkSource = null; 1870 } else if (mWorkSource == null) { 1871 changed = mWorkSource != null; 1872 mWorkSource = new WorkSource(ws); 1873 } else { 1874 changed = mWorkSource.diff(ws); 1875 if (changed) { 1876 mWorkSource.set(ws); 1877 } 1878 } 1879 if (changed && mHeld) { 1880 try { 1881 mService.updateWifiLockWorkSource(mBinder, mWorkSource); 1882 } catch (RemoteException e) { 1883 } 1884 } 1885 } 1886 } 1887 1888 public String toString() { 1889 String s1, s2, s3; 1890 synchronized (mBinder) { 1891 s1 = Integer.toHexString(System.identityHashCode(this)); 1892 s2 = mHeld ? "held; " : ""; 1893 if (mRefCounted) { 1894 s3 = "refcounted: refcount = " + mRefCount; 1895 } else { 1896 s3 = "not refcounted"; 1897 } 1898 return "WifiLock{ " + s1 + "; " + s2 + s3 + " }"; 1899 } 1900 } 1901 1902 @Override 1903 protected void finalize() throws Throwable { 1904 super.finalize(); 1905 synchronized (mBinder) { 1906 if (mHeld) { 1907 try { 1908 mService.releaseWifiLock(mBinder); 1909 synchronized (WifiManager.this) { 1910 mActiveLockCount--; 1911 } 1912 } catch (RemoteException ignore) { 1913 } 1914 } 1915 } 1916 } 1917 } 1918 1919 /** 1920 * Creates a new WifiLock. 1921 * 1922 * @param lockType the type of lock to create. See {@link #WIFI_MODE_FULL}, 1923 * {@link #WIFI_MODE_FULL_HIGH_PERF} and {@link #WIFI_MODE_SCAN_ONLY} for 1924 * descriptions of the types of Wi-Fi locks. 1925 * @param tag a tag for the WifiLock to identify it in debugging messages. This string is 1926 * never shown to the user under normal conditions, but should be descriptive 1927 * enough to identify your application and the specific WifiLock within it, if it 1928 * holds multiple WifiLocks. 1929 * 1930 * @return a new, unacquired WifiLock with the given tag. 1931 * 1932 * @see WifiLock 1933 */ 1934 public WifiLock createWifiLock(int lockType, String tag) { 1935 return new WifiLock(lockType, tag); 1936 } 1937 1938 /** 1939 * Creates a new WifiLock. 1940 * 1941 * @param tag a tag for the WifiLock to identify it in debugging messages. This string is 1942 * never shown to the user under normal conditions, but should be descriptive 1943 * enough to identify your application and the specific WifiLock within it, if it 1944 * holds multiple WifiLocks. 1945 * 1946 * @return a new, unacquired WifiLock with the given tag. 1947 * 1948 * @see WifiLock 1949 */ 1950 public WifiLock createWifiLock(String tag) { 1951 return new WifiLock(WIFI_MODE_FULL, tag); 1952 } 1953 1954 1955 /** 1956 * Create a new MulticastLock 1957 * 1958 * @param tag a tag for the MulticastLock to identify it in debugging 1959 * messages. This string is never shown to the user under 1960 * normal conditions, but should be descriptive enough to 1961 * identify your application and the specific MulticastLock 1962 * within it, if it holds multiple MulticastLocks. 1963 * 1964 * @return a new, unacquired MulticastLock with the given tag. 1965 * 1966 * @see MulticastLock 1967 */ 1968 public MulticastLock createMulticastLock(String tag) { 1969 return new MulticastLock(tag); 1970 } 1971 1972 /** 1973 * Allows an application to receive Wifi Multicast packets. 1974 * Normally the Wifi stack filters out packets not explicitly 1975 * addressed to this device. Acquring a MulticastLock will 1976 * cause the stack to receive packets addressed to multicast 1977 * addresses. Processing these extra packets can cause a noticable 1978 * battery drain and should be disabled when not needed. 1979 */ 1980 public class MulticastLock { 1981 private String mTag; 1982 private final IBinder mBinder; 1983 private int mRefCount; 1984 private boolean mRefCounted; 1985 private boolean mHeld; 1986 1987 private MulticastLock(String tag) { 1988 mTag = tag; 1989 mBinder = new Binder(); 1990 mRefCount = 0; 1991 mRefCounted = true; 1992 mHeld = false; 1993 } 1994 1995 /** 1996 * Locks Wifi Multicast on until {@link #release} is called. 1997 * 1998 * If this MulticastLock is reference-counted each call to 1999 * {@code acquire} will increment the reference count, and the 2000 * wifi interface will receive multicast packets as long as the 2001 * reference count is above zero. 2002 * 2003 * If this MulticastLock is not reference-counted, the first call to 2004 * {@code acquire} will turn on the multicast packets, but subsequent 2005 * calls will be ignored. Only one call to {@link #release} will 2006 * be required, regardless of the number of times that {@code acquire} 2007 * is called. 2008 * 2009 * Note that other applications may also lock Wifi Multicast on. 2010 * Only they can relinquish their lock. 2011 * 2012 * Also note that applications cannot leave Multicast locked on. 2013 * When an app exits or crashes, any Multicast locks will be released. 2014 */ 2015 public void acquire() { 2016 synchronized (mBinder) { 2017 if (mRefCounted ? (++mRefCount == 1) : (!mHeld)) { 2018 try { 2019 mService.acquireMulticastLock(mBinder, mTag); 2020 synchronized (WifiManager.this) { 2021 if (mActiveLockCount >= MAX_ACTIVE_LOCKS) { 2022 mService.releaseMulticastLock(); 2023 throw new UnsupportedOperationException( 2024 "Exceeded maximum number of wifi locks"); 2025 } 2026 mActiveLockCount++; 2027 } 2028 } catch (RemoteException ignore) { 2029 } 2030 mHeld = true; 2031 } 2032 } 2033 } 2034 2035 /** 2036 * Unlocks Wifi Multicast, restoring the filter of packets 2037 * not addressed specifically to this device and saving power. 2038 * 2039 * If this MulticastLock is reference-counted, each call to 2040 * {@code release} will decrement the reference count, and the 2041 * multicast packets will only stop being received when the reference 2042 * count reaches zero. If the reference count goes below zero (that 2043 * is, if {@code release} is called a greater number of times than 2044 * {@link #acquire}), an exception is thrown. 2045 * 2046 * If this MulticastLock is not reference-counted, the first call to 2047 * {@code release} (after the radio was multicast locked using 2048 * {@link #acquire}) will unlock the multicast, and subsequent calls 2049 * will be ignored. 2050 * 2051 * Note that if any other Wifi Multicast Locks are still outstanding 2052 * this {@code release} call will not have an immediate effect. Only 2053 * when all applications have released all their Multicast Locks will 2054 * the Multicast filter be turned back on. 2055 * 2056 * Also note that when an app exits or crashes all of its Multicast 2057 * Locks will be automatically released. 2058 */ 2059 public void release() { 2060 synchronized (mBinder) { 2061 if (mRefCounted ? (--mRefCount == 0) : (mHeld)) { 2062 try { 2063 mService.releaseMulticastLock(); 2064 synchronized (WifiManager.this) { 2065 mActiveLockCount--; 2066 } 2067 } catch (RemoteException ignore) { 2068 } 2069 mHeld = false; 2070 } 2071 if (mRefCount < 0) { 2072 throw new RuntimeException("MulticastLock under-locked " 2073 + mTag); 2074 } 2075 } 2076 } 2077 2078 /** 2079 * Controls whether this is a reference-counted or non-reference- 2080 * counted MulticastLock. 2081 * 2082 * Reference-counted MulticastLocks keep track of the number of calls 2083 * to {@link #acquire} and {@link #release}, and only stop the 2084 * reception of multicast packets when every call to {@link #acquire} 2085 * has been balanced with a call to {@link #release}. Non-reference- 2086 * counted MulticastLocks allow the reception of multicast packets 2087 * whenever {@link #acquire} is called and stop accepting multicast 2088 * packets whenever {@link #release} is called. 2089 * 2090 * @param refCounted true if this MulticastLock should keep a reference 2091 * count 2092 */ 2093 public void setReferenceCounted(boolean refCounted) { 2094 mRefCounted = refCounted; 2095 } 2096 2097 /** 2098 * Checks whether this MulticastLock is currently held. 2099 * 2100 * @return true if this MulticastLock is held, false otherwise 2101 */ 2102 public boolean isHeld() { 2103 synchronized (mBinder) { 2104 return mHeld; 2105 } 2106 } 2107 2108 public String toString() { 2109 String s1, s2, s3; 2110 synchronized (mBinder) { 2111 s1 = Integer.toHexString(System.identityHashCode(this)); 2112 s2 = mHeld ? "held; " : ""; 2113 if (mRefCounted) { 2114 s3 = "refcounted: refcount = " + mRefCount; 2115 } else { 2116 s3 = "not refcounted"; 2117 } 2118 return "MulticastLock{ " + s1 + "; " + s2 + s3 + " }"; 2119 } 2120 } 2121 2122 @Override 2123 protected void finalize() throws Throwable { 2124 super.finalize(); 2125 setReferenceCounted(false); 2126 release(); 2127 } 2128 } 2129 2130 /** 2131 * Check multicast filter status. 2132 * 2133 * @return true if multicast packets are allowed. 2134 * 2135 * @hide pending API council approval 2136 */ 2137 public boolean isMulticastEnabled() { 2138 try { 2139 return mService.isMulticastEnabled(); 2140 } catch (RemoteException e) { 2141 return false; 2142 } 2143 } 2144 2145 /** 2146 * Initialize the multicast filtering to 'on' 2147 * @hide no intent to publish 2148 */ 2149 public boolean initializeMulticastFiltering() { 2150 try { 2151 mService.initializeMulticastFiltering(); 2152 return true; 2153 } catch (RemoteException e) { 2154 return false; 2155 } 2156 } 2157 2158 /** @hide */ 2159 public void captivePortalCheckComplete() { 2160 try { 2161 mService.captivePortalCheckComplete(); 2162 } catch (RemoteException e) {} 2163 } 2164 2165 protected void finalize() throws Throwable { 2166 try { 2167 synchronized (sThreadRefLock) { 2168 if (--sThreadRefCount == 0 && sAsyncChannel != null) { 2169 sAsyncChannel.disconnect(); 2170 } 2171 } 2172 } finally { 2173 super.finalize(); 2174 } 2175 } 2176} 2177