/* * Copyright (C) 2010 The Android Open Source Project * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ package com.android.server.wifi; import android.content.Context; import android.content.Intent; import android.net.IpConfiguration; import android.net.IpConfiguration.IpAssignment; import android.net.IpConfiguration.ProxySettings; import android.net.LinkAddress; import android.net.NetworkInfo.DetailedState; import android.net.ProxyInfo; import android.net.RouteInfo; import android.net.StaticIpConfiguration; import android.net.wifi.WifiConfiguration; import android.net.wifi.WifiConfiguration.KeyMgmt; import android.net.wifi.WifiConfiguration.Status; import static android.net.wifi.WifiConfiguration.INVALID_NETWORK_ID; import android.net.wifi.WifiEnterpriseConfig; import android.net.wifi.WifiManager; import android.net.wifi.WifiSsid; import android.net.wifi.WpsInfo; import android.net.wifi.WpsResult; import android.net.wifi.ScanResult; import android.net.wifi.WifiInfo; import android.os.Environment; import android.os.FileObserver; import android.os.Process; import android.os.SystemClock; import android.os.UserHandle; import android.provider.Settings; import android.security.Credentials; import android.security.KeyChain; import android.security.KeyStore; import android.text.TextUtils; import android.util.LocalLog; import android.util.Log; import android.util.SparseArray; import com.android.server.net.DelayedDiskWrite; import com.android.server.net.IpConfigStore; import com.android.internal.R; import java.io.BufferedReader; import java.io.BufferedInputStream; import java.io.DataInputStream; import java.io.DataOutputStream; import java.io.EOFException; import java.io.File; import java.io.FileDescriptor; import java.io.FileInputStream; import java.io.FileNotFoundException; import java.io.FileReader; import java.io.IOException; import java.io.PrintWriter; import java.math.BigInteger; import java.net.InetAddress; import java.nio.charset.Charset; import java.security.PrivateKey; import java.security.cert.Certificate; import java.security.cert.CertificateException; import java.text.SimpleDateFormat; import java.text.DateFormat; import java.util.regex.Matcher; import java.util.regex.Pattern; import java.util.*; /** * This class provides the API to manage configured * wifi networks. The API is not thread safe is being * used only from WifiStateMachine. * * It deals with the following * - Add/update/remove a WifiConfiguration * The configuration contains two types of information. * = IP and proxy configuration that is handled by WifiConfigStore and * is saved to disk on any change. * * The format of configuration file is as follows: * * ... * ... * .. * * (key, value) pairs for a given network are grouped together and can * be in any order. A EOS at the end of a set of (key, value) pairs * indicates that the next set of (key, value) pairs are for a new * network. A network is identified by a unique ID_KEY. If there is no * ID_KEY in the (key, value) pairs, the data is discarded. * * An invalid version on read would result in discarding the contents of * the file. On the next write, the latest version is written to file. * * Any failures during read or write to the configuration file are ignored * without reporting to the user since the likelihood of these errors are * low and the impact on connectivity is low. * * = SSID & security details that is pushed to the supplicant. * supplicant saves these details to the disk on calling * saveConfigCommand(). * * We have two kinds of APIs exposed: * > public API calls that provide fine grained control * - enableNetwork, disableNetwork, addOrUpdateNetwork(), * removeNetwork(). For these calls, the config is not persisted * to the disk. (TODO: deprecate these calls in WifiManager) * > The new API calls - selectNetwork(), saveNetwork() & forgetNetwork(). * These calls persist the supplicant config to disk. * * - Maintain a list of configured networks for quick access * */ public class WifiConfigStore extends IpConfigStore { private Context mContext; private static final String TAG = "WifiConfigStore"; private static final boolean DBG = true; private static boolean VDBG = false; private static boolean VVDBG = false; private static final String SUPPLICANT_CONFIG_FILE = "/data/misc/wifi/wpa_supplicant.conf"; /* configured networks with network id as the key */ private HashMap mConfiguredNetworks = new HashMap(); /* A network id is a unique identifier for a network configured in the * supplicant. Network ids are generated when the supplicant reads * the configuration file at start and can thus change for networks. * We store the IP configuration for networks along with a unique id * that is generated from SSID and security type of the network. A mapping * from the generated unique id to network id of the network is needed to * map supplicant config to IP configuration. */ private HashMap mNetworkIds = new HashMap(); /* Tracks the highest priority of configured networks */ private int mLastPriority = -1; private static final String ipConfigFile = Environment.getDataDirectory() + "/misc/wifi/ipconfig.txt"; private static final String networkHistoryConfigFile = Environment.getDataDirectory() + "/misc/wifi/networkHistory.txt"; private static final String autoJoinConfigFile = Environment.getDataDirectory() + "/misc/wifi/autojoinconfig.txt"; /* Network History Keys */ private static final String SSID_KEY = "SSID: "; private static final String CONFIG_KEY = "CONFIG: "; private static final String CHOICE_KEY = "CHOICE: "; private static final String LINK_KEY = "LINK: "; private static final String BSSID_KEY = "BSSID: "; private static final String BSSID_KEY_END = "/BSSID: "; private static final String RSSI_KEY = "RSSI: "; private static final String FREQ_KEY = "FREQ: "; private static final String DATE_KEY = "DATE: "; private static final String MILLI_KEY = "MILLI: "; private static final String BLACKLIST_MILLI_KEY = "BLACKLIST_MILLI: "; private static final String NETWORK_ID_KEY = "ID: "; private static final String PRIORITY_KEY = "PRIORITY: "; private static final String DEFAULT_GW_KEY = "DEFAULT_GW: "; private static final String AUTH_KEY = "AUTH: "; private static final String SEPARATOR_KEY = "\n"; private static final String STATUS_KEY = "AUTO_JOIN_STATUS: "; private static final String BSSID_STATUS_KEY = "BSSID_STATUS: "; private static final String SELF_ADDED_KEY = "SELF_ADDED: "; private static final String FAILURE_KEY = "FAILURE: "; private static final String DID_SELF_ADD_KEY = "DID_SELF_ADD: "; private static final String PEER_CONFIGURATION_KEY = "PEER_CONFIGURATION: "; private static final String CREATOR_UID_KEY = "CREATOR_UID_KEY: "; private static final String CONNECT_UID_KEY = "CONNECT_UID_KEY: "; private static final String UPDATE_UID_KEY = "UPDATE_UID: "; private static final String SUPPLICANT_STATUS_KEY = "SUP_STATUS: "; private static final String SUPPLICANT_DISABLE_REASON_KEY = "SUP_DIS_REASON: "; private static final String FQDN_KEY = "FQDN: "; private static final String NUM_CONNECTION_FAILURES_KEY = "CONNECT_FAILURES: "; private static final String SCORER_OVERRIDE_KEY = "SCORER_OVERRIDE: "; private static final String SCORER_OVERRIDE_AND_SWITCH_KEY = "SCORER_OVERRIDE_AND_SWITCH: "; private static final String NO_INTERNET_ACCESS_KEY = "NO_INTERNET_ACCESS: "; private static final String EPHEMERAL_KEY = "EPHEMERAL: "; private static final String NUM_ASSOCIATION_KEY = "NUM_ASSOCIATION: "; private static final String THRESHOLD_INITIAL_AUTO_JOIN_ATTEMPT_RSSI_MIN_5G_KEY = "THRESHOLD_INITIAL_AUTO_JOIN_ATTEMPT_RSSI_MIN_5G: "; private static final String THRESHOLD_INITIAL_AUTO_JOIN_ATTEMPT_RSSI_MIN_24G_KEY = "THRESHOLD_INITIAL_AUTO_JOIN_ATTEMPT_RSSI_MIN_24G: "; private static final String THRESHOLD_UNBLACKLIST_HARD_5G_KEY = "THRESHOLD_UNBLACKLIST_HARD_5G: "; private static final String THRESHOLD_UNBLACKLIST_SOFT_5G_KEY = "THRESHOLD_UNBLACKLIST_SOFT_5G: "; private static final String THRESHOLD_UNBLACKLIST_HARD_24G_KEY = "THRESHOLD_UNBLACKLIST_HARD_24G: "; private static final String THRESHOLD_UNBLACKLIST_SOFT_24G_KEY = "THRESHOLD_UNBLACKLIST_SOFT_24G: "; private static final String THRESHOLD_GOOD_RSSI_5_KEY = "THRESHOLD_GOOD_RSSI_5: "; private static final String THRESHOLD_LOW_RSSI_5_KEY = "THRESHOLD_LOW_RSSI_5: "; private static final String THRESHOLD_BAD_RSSI_5_KEY = "THRESHOLD_BAD_RSSI_5: "; private static final String THRESHOLD_GOOD_RSSI_24_KEY = "THRESHOLD_GOOD_RSSI_24: "; private static final String THRESHOLD_LOW_RSSI_24_KEY = "THRESHOLD_LOW_RSSI_24: "; private static final String THRESHOLD_BAD_RSSI_24_KEY = "THRESHOLD_BAD_RSSI_24: "; private static final String THRESHOLD_MAX_TX_PACKETS_FOR_NETWORK_SWITCHING_KEY = "THRESHOLD_MAX_TX_PACKETS_FOR_NETWORK_SWITCHING: "; private static final String THRESHOLD_MAX_RX_PACKETS_FOR_NETWORK_SWITCHING_KEY = "THRESHOLD_MAX_RX_PACKETS_FOR_NETWORK_SWITCHING: "; private static final String THRESHOLD_MAX_TX_PACKETS_FOR_FULL_SCANS_KEY = "THRESHOLD_MAX_TX_PACKETS_FOR_FULL_SCANS: "; private static final String THRESHOLD_MAX_RX_PACKETS_FOR_FULL_SCANS_KEY = "THRESHOLD_MAX_RX_PACKETS_FOR_FULL_SCANS: "; private static final String THRESHOLD_MAX_TX_PACKETS_FOR_PARTIAL_SCANS_KEY = "THRESHOLD_MAX_TX_PACKETS_FOR_PARTIAL_SCANS: "; private static final String THRESHOLD_MAX_RX_PACKETS_FOR_PARTIAL_SCANS_KEY = "THRESHOLD_MAX_RX_PACKETS_FOR_PARTIAL_SCANS: "; private static final String MAX_NUM_ACTIVE_CHANNELS_FOR_PARTIAL_SCANS_KEY = "MAX_NUM_ACTIVE_CHANNELS_FOR_PARTIAL_SCANS: "; private static final String MAX_NUM_PASSIVE_CHANNELS_FOR_PARTIAL_SCANS_KEY = "MAX_NUM_PASSIVE_CHANNELS_FOR_PARTIAL_SCANS: "; private static final String A_BAND_PREFERENCE_RSSI_THRESHOLD_LOW_KEY = "A_BAND_PREFERENCE_RSSI_THRESHOLD_LOW: "; private static final String A_BAND_PREFERENCE_RSSI_THRESHOLD_KEY = "A_BAND_PREFERENCE_RSSI_THRESHOLD: "; private static final String G_BAND_PREFERENCE_RSSI_THRESHOLD_KEY = "G_BAND_PREFERENCE_RSSI_THRESHOLD: "; private static final String ENABLE_AUTOJOIN_WHILE_ASSOCIATED_KEY = "ENABLE_AUTOJOIN_WHILE_ASSOCIATED: "; private static final String ASSOCIATED_PARTIAL_SCAN_PERIOD_KEY = "ASSOCIATED_PARTIAL_SCAN_PERIOD: "; private static final String ASSOCIATED_FULL_SCAN_BACKOFF_KEY = "ASSOCIATED_FULL_SCAN_BACKOFF_PERIOD: "; private static final String ALWAYS_ENABLE_SCAN_WHILE_ASSOCIATED_KEY = "ALWAYS_ENABLE_SCAN_WHILE_ASSOCIATED: "; // The Wifi verbose log is provided as a way to persist the verbose logging settings // for testing purpose. // It is not intended for normal use. private static final String WIFI_VERBOSE_LOGS_KEY = "WIFI_VERBOSE_LOGS: "; public boolean enableAutoJoinWhileAssociated = true; public int maxTxPacketForNetworkSwitching = 40; public int maxRxPacketForNetworkSwitching = 80; public int maxTxPacketForFullScans = 8; public int maxRxPacketForFullScans = 16; public int maxTxPacketForPartialScans = 40; public int maxRxPacketForPartialScans = 80; public int thresholdInitialAutoJoinAttemptMin5RSSI = WifiConfiguration.INITIAL_AUTO_JOIN_ATTEMPT_MIN_5; public int thresholdInitialAutoJoinAttemptMin24RSSI = WifiConfiguration.INITIAL_AUTO_JOIN_ATTEMPT_MIN_24; public int thresholdBadRssi5 = WifiConfiguration.BAD_RSSI_5; public int thresholdLowRssi5 = WifiConfiguration.LOW_RSSI_5; public int thresholdGoodRssi5 = WifiConfiguration.GOOD_RSSI_5; public int thresholdBadRssi24 = WifiConfiguration.BAD_RSSI_24; public int thresholdLowRssi24 = WifiConfiguration.LOW_RSSI_24; public int thresholdGoodRssi24 = WifiConfiguration.GOOD_RSSI_24; public int associatedFullScanBackoff = 12; // Will be divided by 8 by WifiStateMachine public int associatedPartialScanPeriodMs = R.integer.config_wifi_framework_associated_scan_interval; public int thresholdBandPreferenceRssi24 = WifiConfiguration.G_BAND_PREFERENCE_RSSI_THRESHOLD; public int thresholdBandPreferenceRssi5 = WifiConfiguration.A_BAND_PREFERENCE_RSSI_THRESHOLD; public int thresholdBandPreferenceLowRssi5 = WifiConfiguration.A_BAND_PREFERENCE_RSSI_THRESHOLD_LOW; public int factorBandPreferenceLowRssi5 = 5; // Boost by 5 dB per dB above threshold public int thresholdUnblacklistThreshold5Hard = WifiConfiguration.UNBLACKLIST_THRESHOLD_5_HARD; public int thresholdUnblacklistThreshold5Soft = WifiConfiguration.UNBLACKLIST_THRESHOLD_5_SOFT; public int thresholdUnblacklistThreshold24Hard = WifiConfiguration.UNBLACKLIST_THRESHOLD_24_HARD; public int thresholdUnblacklistThreshold24Soft = WifiConfiguration.UNBLACKLIST_THRESHOLD_24_SOFT; public int enableVerboseLogging = 0; public int alwaysEnableScansWhileAssociated = 0; public int maxNumActiveChannelsForPartialScans = 6; public int maxNumPassiveChannelsForPartialScans = 2; public boolean roamOnAny = false; /** * Regex pattern for extracting a connect choice. * Matches a strings like the following: * =([0:9]+) */ private static Pattern mConnectChoice = Pattern.compile("(.*)=([0-9]+)"); /* Enterprise configuration keys */ /** * In old configurations, the "private_key" field was used. However, newer * configurations use the key_id field with the engine_id set to "keystore". * If this field is found in the configuration, the migration code is * triggered. */ public static final String OLD_PRIVATE_KEY_NAME = "private_key"; /** * This represents an empty value of an enterprise field. * NULL is used at wpa_supplicant to indicate an empty value */ static final String EMPTY_VALUE = "NULL"; // Internal use only private static final String[] ENTERPRISE_CONFIG_SUPPLICANT_KEYS = new String[] { WifiEnterpriseConfig.EAP_KEY, WifiEnterpriseConfig.PHASE2_KEY, WifiEnterpriseConfig.IDENTITY_KEY, WifiEnterpriseConfig.ANON_IDENTITY_KEY, WifiEnterpriseConfig.PASSWORD_KEY, WifiEnterpriseConfig.CLIENT_CERT_KEY, WifiEnterpriseConfig.CA_CERT_KEY, WifiEnterpriseConfig.SUBJECT_MATCH_KEY, WifiEnterpriseConfig.ENGINE_KEY, WifiEnterpriseConfig.ENGINE_ID_KEY, WifiEnterpriseConfig.PRIVATE_KEY_ID_KEY }; /** * The maximum number of times we will retry a connection to an access point * for which we have failed in acquiring an IP address from DHCP. A value of * N means that we will make N+1 connection attempts in all. *

* See {@link Settings.Secure#WIFI_MAX_DHCP_RETRY_COUNT}. This is the default * value if a Settings value is not present. */ private static final int DEFAULT_MAX_DHCP_RETRIES = 9; private final LocalLog mLocalLog; private final WpaConfigFileObserver mFileObserver; private WifiNative mWifiNative; private final KeyStore mKeyStore = KeyStore.getInstance(); /** * The lastSelectedConfiguration is used to remember which network * was selected last by the user. * The connection to this network may not be successful, as well * the selection (i.e. network priority) might not be persisted. * WiFi state machine is the only object that sets this variable. */ private String lastSelectedConfiguration = null; WifiConfigStore(Context c, WifiNative wn) { mContext = c; mWifiNative = wn; if (VDBG) { mLocalLog = mWifiNative.getLocalLog(); mFileObserver = new WpaConfigFileObserver(); mFileObserver.startWatching(); } else { mLocalLog = null; mFileObserver = null; } } void enableVerboseLogging(int verbose) { if (verbose > 0) { VDBG = true; } else { VDBG = false; } } class WpaConfigFileObserver extends FileObserver { public WpaConfigFileObserver() { super(SUPPLICANT_CONFIG_FILE, CLOSE_WRITE); } @Override public void onEvent(int event, String path) { if (event == CLOSE_WRITE) { File file = new File(SUPPLICANT_CONFIG_FILE); if (VDBG) localLog("wpa_supplicant.conf changed; new size = " + file.length()); } } } /** * Fetch the list of configured networks * and enable all stored networks in supplicant. */ void loadAndEnableAllNetworks() { if (DBG) log("Loading config and enabling all networks "); loadConfiguredNetworks(); enableAllNetworks(); } int getConfiguredNetworksSize() { return mConfiguredNetworks.size(); } private List getConfiguredNetworks(Map pskMap) { List networks = new ArrayList<>(); for(WifiConfiguration config : mConfiguredNetworks.values()) { WifiConfiguration newConfig = new WifiConfiguration(config); if (config.autoJoinStatus == WifiConfiguration.AUTO_JOIN_DELETED) { //do not enumerate and return this configuration to any one, //for instance WiFi Picker. //instead treat it as unknown. the configuration can still be retrieved //directly by the key or networkId continue; } if (pskMap != null && config.allowedKeyManagement != null && config.allowedKeyManagement.get(WifiConfiguration.KeyMgmt.WPA_PSK) && pskMap.containsKey(config.SSID)) { newConfig.preSharedKey = pskMap.get(config.SSID); } networks.add(newConfig); } return networks; } /** * Fetch the list of currently configured networks * @return List of networks */ List getConfiguredNetworks() { return getConfiguredNetworks(null); } /** * Fetch the list of currently configured networks, filled with real preSharedKeys * @return List of networks */ List getPrivilegedConfiguredNetworks() { Map pskMap = getCredentialsBySsidMap(); return getConfiguredNetworks(pskMap); } /** * Fetch the preSharedKeys for all networks. * @return a map from Ssid to preSharedKey. */ private Map getCredentialsBySsidMap() { return readNetworkVariablesFromSupplicantFile("psk"); } /** * Fetch the list of currently configured networks that were recently seen * * @return List of networks */ List getRecentConfiguredNetworks(int milli, boolean copy) { List networks = null; for (WifiConfiguration config : mConfiguredNetworks.values()) { if (config.autoJoinStatus == WifiConfiguration.AUTO_JOIN_DELETED) { // Do not enumerate and return this configuration to any one, // instead treat it as unknown. the configuration can still be retrieved // directly by the key or networkId continue; } // Calculate the RSSI for scan results that are more recent than milli config.setVisibility(milli); if (config.visibility == null) { continue; } if (config.visibility.rssi5 == WifiConfiguration.INVALID_RSSI && config.visibility.rssi24 == WifiConfiguration.INVALID_RSSI) { continue; } if (networks == null) networks = new ArrayList(); if (copy) { networks.add(new WifiConfiguration(config)); } else { networks.add(config); } } return networks; } /** * Update the configuration and BSSID with latest RSSI value. */ void updateConfiguration(WifiInfo info) { WifiConfiguration config = getWifiConfiguration(info.getNetworkId()); if (config != null && config.scanResultCache != null) { ScanResult result = config.scanResultCache.get(info.getBSSID()); if (result != null) { long previousSeen = result.seen; int previousRssi = result.level; // Update the scan result result.seen = System.currentTimeMillis(); result.level = info.getRssi(); // Average the RSSI value result.averageRssi(previousRssi, previousSeen, WifiAutoJoinController.mScanResultMaximumAge); if (VDBG) { loge("updateConfiguration freq=" + result.frequency + " BSSID=" + result.BSSID + " RSSI=" + result.level + " " + config.configKey()); } } } } /** * get the Wificonfiguration for this netId * * @return Wificonfiguration */ WifiConfiguration getWifiConfiguration(int netId) { if (mConfiguredNetworks == null) return null; return mConfiguredNetworks.get(netId); } /** * Get the Wificonfiguration for this key * @return Wificonfiguration */ WifiConfiguration getWifiConfiguration(String key) { if (key == null) return null; int hash = key.hashCode(); if (mNetworkIds == null) return null; Integer n = mNetworkIds.get(hash); if (n == null) return null; int netId = n.intValue(); return getWifiConfiguration(netId); } /** * Enable all networks and save config. This will be a no-op if the list * of configured networks indicates all networks as being enabled */ void enableAllNetworks() { boolean networkEnabledStateChanged = false; for(WifiConfiguration config : mConfiguredNetworks.values()) { if(config != null && config.status == Status.DISABLED && (config.autoJoinStatus <= WifiConfiguration.AUTO_JOIN_DISABLED_ON_AUTH_FAILURE)) { if(mWifiNative.enableNetwork(config.networkId, false)) { networkEnabledStateChanged = true; config.status = Status.ENABLED; } else { loge("Enable network failed on " + config.networkId); } } } if (networkEnabledStateChanged) { mWifiNative.saveConfig(); sendConfiguredNetworksChangedBroadcast(); } } /** * Selects the specified network for connection. This involves * updating the priority of all the networks and enabling the given * network while disabling others. * * Selecting a network will leave the other networks disabled and * a call to enableAllNetworks() needs to be issued upon a connection * or a failure event from supplicant * * @param netId network to select for connection * @return false if the network id is invalid */ boolean selectNetwork(int netId) { if (VDBG) localLog("selectNetwork", netId); if (netId == INVALID_NETWORK_ID) return false; // Reset the priority of each network at start or if it goes too high. if (mLastPriority == -1 || mLastPriority > 1000000) { for(WifiConfiguration config : mConfiguredNetworks.values()) { if (config.networkId != INVALID_NETWORK_ID) { config.priority = 0; addOrUpdateNetworkNative(config); } } mLastPriority = 0; } // Set to the highest priority and save the configuration. WifiConfiguration config = new WifiConfiguration(); config.networkId = netId; config.priority = ++mLastPriority; addOrUpdateNetworkNative(config); mWifiNative.saveConfig(); /* Enable the given network while disabling all other networks */ enableNetworkWithoutBroadcast(netId, true); /* Avoid saving the config & sending a broadcast to prevent settings * from displaying a disabled list of networks */ return true; } /** * Add/update the specified configuration and save config * * @param config WifiConfiguration to be saved * @return network update result */ NetworkUpdateResult saveNetwork(WifiConfiguration config) { WifiConfiguration conf; // A new network cannot have null SSID if (config == null || (config.networkId == INVALID_NETWORK_ID && config.SSID == null)) { return new NetworkUpdateResult(INVALID_NETWORK_ID); } if (VDBG) localLog("WifiConfigStore: saveNetwork netId", config.networkId); if (VDBG) { loge("WifiConfigStore saveNetwork, size=" + mConfiguredNetworks.size() + " SSID=" + config.SSID + " Uid=" + Integer.toString(config.creatorUid) + "/" + Integer.toString(config.lastUpdateUid)); } boolean newNetwork = (config.networkId == INVALID_NETWORK_ID); NetworkUpdateResult result = addOrUpdateNetworkNative(config); int netId = result.getNetworkId(); if (VDBG) localLog("WifiConfigStore: saveNetwork got it back netId=", netId); /* enable a new network */ if (newNetwork && netId != INVALID_NETWORK_ID) { if (VDBG) localLog("WifiConfigStore: will enable netId=", netId); mWifiNative.enableNetwork(netId, false); conf = mConfiguredNetworks.get(netId); if (conf != null) conf.status = Status.ENABLED; } conf = mConfiguredNetworks.get(netId); if (conf != null) { if (conf.autoJoinStatus != WifiConfiguration.AUTO_JOIN_ENABLED) { if (VDBG) localLog("WifiConfigStore: re-enabling: " + conf.SSID); // reenable autojoin, since new information has been provided conf.setAutoJoinStatus(WifiConfiguration.AUTO_JOIN_ENABLED); enableNetworkWithoutBroadcast(conf.networkId, false); } if (VDBG) { loge("WifiConfigStore: saveNetwork got config back netId=" + Integer.toString(netId) + " uid=" + Integer.toString(config.creatorUid)); } } mWifiNative.saveConfig(); sendConfiguredNetworksChangedBroadcast(conf, result.isNewNetwork() ? WifiManager.CHANGE_REASON_ADDED : WifiManager.CHANGE_REASON_CONFIG_CHANGE); return result; } void saveWifiConfigBSSID(WifiConfiguration config) { String BSSID = "any"; if (config == null || (config.networkId == INVALID_NETWORK_ID && config.SSID == null)) { return; } if (config.BSSID != null) { BSSID = config.BSSID; } else { config.BSSID = BSSID; } loge("saveWifiConfigBSSID Setting BSSID for " + config.configKey() + " to " + config.BSSID); if (!mWifiNative.setNetworkVariable( config.networkId, WifiConfiguration.bssidVarName, BSSID)) { loge("failed to set BSSID: " + BSSID); } else if (BSSID.equals("any")) { // Paranoia, we just want to make sure that we restore the config to normal mWifiNative.saveConfig(); } } void updateStatus(int netId, DetailedState state) { if (netId != INVALID_NETWORK_ID) { WifiConfiguration config = mConfiguredNetworks.get(netId); if (config == null) return; switch (state) { case CONNECTED: config.status = Status.CURRENT; //we successfully connected, hence remove the blacklist config.setAutoJoinStatus(WifiConfiguration.AUTO_JOIN_ENABLED); break; case DISCONNECTED: //If network is already disabled, keep the status if (config.status == Status.CURRENT) { config.status = Status.ENABLED; } break; default: //do nothing, retain the existing state break; } } } /** * Forget the specified network and save config * * @param netId network to forget * @return {@code true} if it succeeds, {@code false} otherwise */ boolean forgetNetwork(int netId) { if (VDBG) localLog("forgetNetwork", netId); boolean remove = removeConfigAndSendBroadcastIfNeeded(netId); if (!remove) { //success but we dont want to remove the network from supplicant conf file return true; } if (mWifiNative.removeNetwork(netId)) { mWifiNative.saveConfig(); return true; } else { loge("Failed to remove network " + netId); return false; } } /** * Add/update a network. Note that there is no saveConfig operation. * This function is retained for compatibility with the public * API. The more powerful saveNetwork() is used by the * state machine * * @param config wifi configuration to add/update * @return network Id */ int addOrUpdateNetwork(WifiConfiguration config) { if (VDBG) localLog("addOrUpdateNetwork id=", config.networkId); //adding unconditional message to chase b/15111865 Log.e(TAG, " key=" + config.configKey() + " netId=" + Integer.toString(config.networkId) + " uid=" + Integer.toString(config.creatorUid) + "/" + Integer.toString(config.lastUpdateUid)); NetworkUpdateResult result = addOrUpdateNetworkNative(config); if (result.getNetworkId() != WifiConfiguration.INVALID_NETWORK_ID) { WifiConfiguration conf = mConfiguredNetworks.get(result.getNetworkId()); if (conf != null) { sendConfiguredNetworksChangedBroadcast(conf, result.isNewNetwork ? WifiManager.CHANGE_REASON_ADDED : WifiManager.CHANGE_REASON_CONFIG_CHANGE); } } return result.getNetworkId(); } /** * Remove a network. Note that there is no saveConfig operation. * This function is retained for compatibility with the public * API. The more powerful forgetNetwork() is used by the * state machine for network removal * * @param netId network to be removed * @return {@code true} if it succeeds, {@code false} otherwise */ boolean removeNetwork(int netId) { if (VDBG) localLog("removeNetwork", netId); boolean ret = mWifiNative.removeNetwork(netId); if (ret) { removeConfigAndSendBroadcastIfNeeded(netId); } return ret; } private boolean removeConfigAndSendBroadcastIfNeeded(int netId) { boolean remove = true; WifiConfiguration config = mConfiguredNetworks.get(netId); if (config != null) { if (VDBG) { loge("removeNetwork " + Integer.toString(netId) + " key=" + config.configKey() + " config.id=" + Integer.toString(config.networkId)); } // cancel the last user choice if (config.configKey().equals(lastSelectedConfiguration)) { lastSelectedConfiguration = null; } // Remove any associated keys if (config.enterpriseConfig != null) { removeKeys(config.enterpriseConfig); } if (config.didSelfAdd || config.linkedConfigurations != null || config.allowedKeyManagement.get(KeyMgmt.WPA_PSK)) { remove = false; loge("removeNetwork " + Integer.toString(netId) + " key=" + config.configKey() + " config.id=" + Integer.toString(config.networkId) + " -> mark as deleted"); } if (remove) { mConfiguredNetworks.remove(netId); mNetworkIds.remove(configKey(config)); } else { /** * We can't directly remove the configuration since we could re-add it ourselves, * and that would look weird to the user. * Instead mark it as deleted and completely hide it from the rest of the system. */ config.setAutoJoinStatus(WifiConfiguration.AUTO_JOIN_DELETED); mWifiNative.disableNetwork(config.networkId); // Since we don't delete the configuration, clean it up and loost the history config.linkedConfigurations = null; config.scanResultCache = null; config.connectChoices = null; config.defaultGwMacAddress = null; config.setIpConfiguration(new IpConfiguration()); // Loose the PSK if (!mWifiNative.setNetworkVariable( config.networkId, WifiConfiguration.pskVarName, "\"xxxxxxxx\"")) { loge("removeNetwork, failed to clear PSK, nid=" + config.networkId); }; mWifiNative.saveConfig(); } writeIpAndProxyConfigurations(); sendConfiguredNetworksChangedBroadcast(config, WifiManager.CHANGE_REASON_REMOVED); writeKnownNetworkHistory(); } return remove; } /** * Enable a network. Note that there is no saveConfig operation. * This function is retained for compatibility with the public * API. The more powerful selectNetwork()/saveNetwork() is used by the * state machine for connecting to a network * * @param netId network to be enabled * @return {@code true} if it succeeds, {@code false} otherwise */ boolean enableNetwork(int netId, boolean disableOthers) { boolean ret = enableNetworkWithoutBroadcast(netId, disableOthers); if (disableOthers) { if (VDBG) localLog("enableNetwork(disableOthers=true) ", netId); sendConfiguredNetworksChangedBroadcast(); } else { if (VDBG) localLog("enableNetwork(disableOthers=false) ", netId); WifiConfiguration enabledNetwork = null; synchronized(mConfiguredNetworks) { enabledNetwork = mConfiguredNetworks.get(netId); } // check just in case the network was removed by someone else. if (enabledNetwork != null) { sendConfiguredNetworksChangedBroadcast(enabledNetwork, WifiManager.CHANGE_REASON_CONFIG_CHANGE); } } return ret; } boolean enableNetworkWithoutBroadcast(int netId, boolean disableOthers) { boolean ret = mWifiNative.enableNetwork(netId, disableOthers); WifiConfiguration config = mConfiguredNetworks.get(netId); if (config != null) config.status = Status.ENABLED; if (disableOthers) { markAllNetworksDisabledExcept(netId); } return ret; } void disableAllNetworks() { if (VDBG) localLog("disableAllNetworks"); boolean networkDisabled = false; for(WifiConfiguration config : mConfiguredNetworks.values()) { if(config != null && config.status != Status.DISABLED) { if(mWifiNative.disableNetwork(config.networkId)) { networkDisabled = true; config.status = Status.DISABLED; } else { loge("Disable network failed on " + config.networkId); } } } if (networkDisabled) { sendConfiguredNetworksChangedBroadcast(); } } /** * Disable a network. Note that there is no saveConfig operation. * @param netId network to be disabled * @return {@code true} if it succeeds, {@code false} otherwise */ boolean disableNetwork(int netId) { return disableNetwork(netId, WifiConfiguration.DISABLED_UNKNOWN_REASON); } /** * Disable a network. Note that there is no saveConfig operation. * @param netId network to be disabled * @param reason reason code network was disabled * @return {@code true} if it succeeds, {@code false} otherwise */ boolean disableNetwork(int netId, int reason) { if (VDBG) localLog("disableNetwork", netId); boolean ret = mWifiNative.disableNetwork(netId); WifiConfiguration network = null; WifiConfiguration config = mConfiguredNetworks.get(netId); if (VDBG) { if (config != null) { loge("disableNetwork netId=" + Integer.toString(netId) + " SSID=" + config.SSID + " disabled=" + (config.status == Status.DISABLED) + " reason=" + Integer.toString(config.disableReason)); } } /* Only change the reason if the network was not previously disabled */ if (config != null && config.status != Status.DISABLED) { config.status = Status.DISABLED; config.disableReason = reason; network = config; } if (network != null) { sendConfiguredNetworksChangedBroadcast(network, WifiManager.CHANGE_REASON_CONFIG_CHANGE); } return ret; } /** * Save the configured networks in supplicant to disk * @return {@code true} if it succeeds, {@code false} otherwise */ boolean saveConfig() { return mWifiNative.saveConfig(); } /** * Start WPS pin method configuration with pin obtained * from the access point * @param config WPS configuration * @return Wps result containing status and pin */ WpsResult startWpsWithPinFromAccessPoint(WpsInfo config) { WpsResult result = new WpsResult(); if (mWifiNative.startWpsRegistrar(config.BSSID, config.pin)) { /* WPS leaves all networks disabled */ markAllNetworksDisabled(); result.status = WpsResult.Status.SUCCESS; } else { loge("Failed to start WPS pin method configuration"); result.status = WpsResult.Status.FAILURE; } return result; } /** * Start WPS pin method configuration with pin obtained * from the device * @return WpsResult indicating status and pin */ WpsResult startWpsWithPinFromDevice(WpsInfo config) { WpsResult result = new WpsResult(); result.pin = mWifiNative.startWpsPinDisplay(config.BSSID); /* WPS leaves all networks disabled */ if (!TextUtils.isEmpty(result.pin)) { markAllNetworksDisabled(); result.status = WpsResult.Status.SUCCESS; } else { loge("Failed to start WPS pin method configuration"); result.status = WpsResult.Status.FAILURE; } return result; } /** * Start WPS push button configuration * @param config WPS configuration * @return WpsResult indicating status and pin */ WpsResult startWpsPbc(WpsInfo config) { WpsResult result = new WpsResult(); if (mWifiNative.startWpsPbc(config.BSSID)) { /* WPS leaves all networks disabled */ markAllNetworksDisabled(); result.status = WpsResult.Status.SUCCESS; } else { loge("Failed to start WPS push button configuration"); result.status = WpsResult.Status.FAILURE; } return result; } /** * Fetch the static IP configuration for a given network id */ StaticIpConfiguration getStaticIpConfiguration(int netId) { WifiConfiguration config = mConfiguredNetworks.get(netId); if (config != null) { return config.getStaticIpConfiguration(); } return null; } /** * Set the static IP configuration for a given network id */ void setStaticIpConfiguration(int netId, StaticIpConfiguration staticIpConfiguration) { WifiConfiguration config = mConfiguredNetworks.get(netId); if (config != null) { config.setStaticIpConfiguration(staticIpConfiguration); } } /** * set default GW MAC address */ void setDefaultGwMacAddress(int netId, String macAddress) { WifiConfiguration config = mConfiguredNetworks.get(netId); if (config != null) { //update defaultGwMacAddress config.defaultGwMacAddress = macAddress; } } /** * Fetch the proxy properties for a given network id * @param network id * @return ProxyInfo for the network id */ ProxyInfo getProxyProperties(int netId) { WifiConfiguration config = mConfiguredNetworks.get(netId); if (config != null) { return config.getHttpProxy(); } return null; } /** * Return if the specified network is using static IP * @param network id * @return {@code true} if using static ip for netId */ boolean isUsingStaticIp(int netId) { WifiConfiguration config = mConfiguredNetworks.get(netId); if (config != null && config.getIpAssignment() == IpAssignment.STATIC) { return true; } return false; } /** * Should be called when a single network configuration is made. * @param network The network configuration that changed. * @param reason The reason for the change, should be one of WifiManager.CHANGE_REASON_ADDED, * WifiManager.CHANGE_REASON_REMOVED, or WifiManager.CHANGE_REASON_CHANGE. */ private void sendConfiguredNetworksChangedBroadcast(WifiConfiguration network, int reason) { Intent intent = new Intent(WifiManager.CONFIGURED_NETWORKS_CHANGED_ACTION); intent.addFlags(Intent.FLAG_RECEIVER_REGISTERED_ONLY_BEFORE_BOOT); intent.putExtra(WifiManager.EXTRA_MULTIPLE_NETWORKS_CHANGED, false); intent.putExtra(WifiManager.EXTRA_WIFI_CONFIGURATION, network); intent.putExtra(WifiManager.EXTRA_CHANGE_REASON, reason); mContext.sendBroadcastAsUser(intent, UserHandle.ALL); } /** * Should be called when multiple network configuration changes are made. */ private void sendConfiguredNetworksChangedBroadcast() { Intent intent = new Intent(WifiManager.CONFIGURED_NETWORKS_CHANGED_ACTION); intent.addFlags(Intent.FLAG_RECEIVER_REGISTERED_ONLY_BEFORE_BOOT); intent.putExtra(WifiManager.EXTRA_MULTIPLE_NETWORKS_CHANGED, true); mContext.sendBroadcastAsUser(intent, UserHandle.ALL); } void loadConfiguredNetworks() { String listStr = mWifiNative.listNetworks(); mLastPriority = 0; mConfiguredNetworks.clear(); mNetworkIds.clear(); if (listStr == null) return; String[] lines = listStr.split("\n"); if (VDBG) { loge("loadConfiguredNetworks: found " + Integer.toString(lines.length) + " networks", true); } // Skip the first line, which is a header for (int i = 1; i < lines.length; i++) { String[] result = lines[i].split("\t"); // network-id | ssid | bssid | flags WifiConfiguration config = new WifiConfiguration(); try { config.networkId = Integer.parseInt(result[0]); } catch(NumberFormatException e) { loge("Failed to read network-id '" + result[0] + "'"); continue; } if (result.length > 3) { if (result[3].indexOf("[CURRENT]") != -1) config.status = WifiConfiguration.Status.CURRENT; else if (result[3].indexOf("[DISABLED]") != -1) config.status = WifiConfiguration.Status.DISABLED; else config.status = WifiConfiguration.Status.ENABLED; } else { config.status = WifiConfiguration.Status.ENABLED; } readNetworkVariables(config); if (config.priority > mLastPriority) { mLastPriority = config.priority; } config.setIpAssignment(IpAssignment.DHCP); config.setProxySettings(ProxySettings.NONE); if (mNetworkIds.containsKey(configKey(config))) { // That SSID is already known, just ignore this duplicate entry if (VDBG) localLog("discarded duplicate network ", config.networkId); } else if(config.isValid()){ mConfiguredNetworks.put(config.networkId, config); mNetworkIds.put(configKey(config), config.networkId); if (VDBG) localLog("loaded configured network", config.networkId); } else { if (DBG) log("Ignoring loaded configured for network " + config.networkId + " because config are not valid"); } } readIpAndProxyConfigurations(); readNetworkHistory(); readAutoJoinConfig(); sendConfiguredNetworksChangedBroadcast(); if (VDBG) localLog("loadConfiguredNetworks loaded " + mNetworkIds.size() + " networks"); if (mNetworkIds.size() == 0) { // no networks? Lets log if the wpa_supplicant.conf file contents BufferedReader reader = null; try { reader = new BufferedReader(new FileReader(SUPPLICANT_CONFIG_FILE)); if (VDBG) localLog("--- Begin wpa_supplicant.conf Contents ---"); for (String line = reader.readLine(); line != null; line = reader.readLine()) { if (VDBG) localLog(line); } if (VDBG) localLog("--- End wpa_supplicant.conf Contents ---"); } catch (FileNotFoundException e) { if (VDBG) localLog("Could not open " + SUPPLICANT_CONFIG_FILE + ", " + e); } catch (IOException e) { if (VDBG) localLog("Could not read " + SUPPLICANT_CONFIG_FILE + ", " + e); } finally { try { if (reader != null) { reader.close(); } } catch (IOException e) { // Just ignore the fact that we couldn't close } } } } private Map readNetworkVariablesFromSupplicantFile(String key) { Map result = new HashMap<>(); BufferedReader reader = null; if (VDBG) loge("readNetworkVariablesFromSupplicantFile key=" + key); try { reader = new BufferedReader(new FileReader(SUPPLICANT_CONFIG_FILE)); boolean found = false; String networkSsid = null; String value = null; for (String line = reader.readLine(); line != null; line = reader.readLine()) { if (VDBG) loge(line); if (line.matches("[ \\t]*network=\\{")) { found = true; networkSsid = null; value = null; } else if (line.matches("[ \\t]*\\}")) { found = false; networkSsid = null; value = null; } if (found) { String trimmedLine = line.trim(); if (trimmedLine.startsWith("ssid=")) { networkSsid = trimmedLine.substring(5); } else if (trimmedLine.startsWith(key + "=")) { value = trimmedLine.substring(key.length() + 1); } if (networkSsid != null && value != null) { result.put(networkSsid, value); } } } } catch (FileNotFoundException e) { if (VDBG) loge("Could not open " + SUPPLICANT_CONFIG_FILE + ", " + e); } catch (IOException e) { if (VDBG) loge("Could not read " + SUPPLICANT_CONFIG_FILE + ", " + e); } finally { try { if (reader != null) { reader.close(); } } catch (IOException e) { // Just ignore the fact that we couldn't close } } return result; } private String readNetworkVariableFromSupplicantFile(String ssid, String key) { Map data = readNetworkVariablesFromSupplicantFile(key); if (VDBG) loge("readNetworkVariableFromSupplicantFile ssid=[" + ssid + "] key=" + key); return data.get(ssid); } /* Mark all networks except specified netId as disabled */ private void markAllNetworksDisabledExcept(int netId) { for(WifiConfiguration config : mConfiguredNetworks.values()) { if(config != null && config.networkId != netId) { if (config.status != Status.DISABLED) { config.status = Status.DISABLED; config.disableReason = WifiConfiguration.DISABLED_UNKNOWN_REASON; } } } } private void markAllNetworksDisabled() { markAllNetworksDisabledExcept(INVALID_NETWORK_ID); } boolean needsUnlockedKeyStore() { // Any network using certificates to authenticate access requires // unlocked key store; unless the certificates can be stored with // hardware encryption for(WifiConfiguration config : mConfiguredNetworks.values()) { if (config.allowedKeyManagement.get(KeyMgmt.WPA_EAP) && config.allowedKeyManagement.get(KeyMgmt.IEEE8021X)) { if (needsSoftwareBackedKeyStore(config.enterpriseConfig)) { return true; } } } return false; } public void writeKnownNetworkHistory() { if (VDBG) { loge(" writeKnownNetworkHistory() num networks:" + Integer.toString(mConfiguredNetworks.size()), true); } /* Make a copy */ final List networks = new ArrayList(); for (WifiConfiguration config : mConfiguredNetworks.values()) { networks.add(new WifiConfiguration(config)); } mWriter.write(networkHistoryConfigFile, new DelayedDiskWrite.Writer() { public void onWriteCalled(DataOutputStream out) throws IOException { for (WifiConfiguration config : networks) { //loge("onWriteCalled write SSID: " + config.SSID); /* if (config.getLinkProperties() != null) loge(" lp " + config.getLinkProperties().toString()); else loge("attempt config w/o lp"); */ if (VDBG) { int num = 0; int numlink = 0; if (config.connectChoices != null) { num = config.connectChoices.size(); } if (config.linkedConfigurations != null) { numlink = config.linkedConfigurations.size(); } loge("saving network history: " + config.configKey() + " gw: " + config.defaultGwMacAddress + " autojoin status: " + config.autoJoinStatus + " ephemeral=" + config.ephemeral + " choices:" + Integer.toString(num) + " link:" + Integer.toString(numlink)); } if (config.ephemeral == true) continue; if (config.isValid() == false) continue; if (config.SSID == null) { if (VDBG) { loge("writeKnownNetworkHistory trying to write config with null SSID"); } continue; } if (VDBG) { loge("writeKnownNetworkHistory write config " + config.configKey()); } out.writeUTF(CONFIG_KEY + config.configKey() + SEPARATOR_KEY); out.writeUTF(SSID_KEY + config.SSID + SEPARATOR_KEY); out.writeUTF(FQDN_KEY + config.FQDN + SEPARATOR_KEY); out.writeUTF(PRIORITY_KEY + Integer.toString(config.priority) + SEPARATOR_KEY); out.writeUTF(STATUS_KEY + Integer.toString(config.autoJoinStatus) + SEPARATOR_KEY); out.writeUTF(SUPPLICANT_STATUS_KEY + Integer.toString(config.status) + SEPARATOR_KEY); out.writeUTF(SUPPLICANT_DISABLE_REASON_KEY + Integer.toString(config.disableReason) + SEPARATOR_KEY); out.writeUTF(NETWORK_ID_KEY + Integer.toString(config.networkId) + SEPARATOR_KEY); out.writeUTF(SELF_ADDED_KEY + Boolean.toString(config.selfAdded) + SEPARATOR_KEY); out.writeUTF(DID_SELF_ADD_KEY + Boolean.toString(config.didSelfAdd) + SEPARATOR_KEY); out.writeUTF(NO_INTERNET_ACCESS_KEY + Boolean.toString(config.noInternetAccess) + SEPARATOR_KEY); out.writeUTF(EPHEMERAL_KEY + Boolean.toString(config.ephemeral) + SEPARATOR_KEY); if (config.peerWifiConfiguration != null) { out.writeUTF(PEER_CONFIGURATION_KEY + config.peerWifiConfiguration + SEPARATOR_KEY); } out.writeUTF(NUM_CONNECTION_FAILURES_KEY + Integer.toString(config.numConnectionFailures) + SEPARATOR_KEY); out.writeUTF(SCORER_OVERRIDE_KEY + Integer.toString(config.numScorerOverride) + SEPARATOR_KEY); out.writeUTF(SCORER_OVERRIDE_AND_SWITCH_KEY + Integer.toString(config.numScorerOverrideAndSwitchedNetwork) + SEPARATOR_KEY); out.writeUTF(NUM_ASSOCIATION_KEY + Integer.toString(config.numAssociation) + SEPARATOR_KEY); out.writeUTF(BLACKLIST_MILLI_KEY + Long.toString(config.blackListTimestamp) + SEPARATOR_KEY); out.writeUTF(CREATOR_UID_KEY + Integer.toString(config.creatorUid) + SEPARATOR_KEY); out.writeUTF(CONNECT_UID_KEY + Integer.toString(config.lastConnectUid) + SEPARATOR_KEY); out.writeUTF(UPDATE_UID_KEY + Integer.toString(config.lastUpdateUid) + SEPARATOR_KEY); String allowedKeyManagementString = makeString(config.allowedKeyManagement, WifiConfiguration.KeyMgmt.strings); out.writeUTF(AUTH_KEY + allowedKeyManagementString + SEPARATOR_KEY); if (config.connectChoices != null) { for (String key : config.connectChoices.keySet()) { Integer choice = config.connectChoices.get(key); out.writeUTF(CHOICE_KEY + key + "=" + choice.toString() + SEPARATOR_KEY); } } if (config.linkedConfigurations != null) { loge("writeKnownNetworkHistory write linked " + config.linkedConfigurations.size()); for (String key : config.linkedConfigurations.keySet()) { out.writeUTF(LINK_KEY + key + SEPARATOR_KEY); } } String macAddress = config.defaultGwMacAddress; if (macAddress != null) { out.writeUTF(DEFAULT_GW_KEY + macAddress + SEPARATOR_KEY); } if (config.scanResultCache != null) { for (ScanResult result : config.scanResultCache.values()) { out.writeUTF(BSSID_KEY + result.BSSID + SEPARATOR_KEY); out.writeUTF(FREQ_KEY + Integer.toString(result.frequency) + SEPARATOR_KEY); out.writeUTF(RSSI_KEY + Integer.toString(result.level) + SEPARATOR_KEY); out.writeUTF(BSSID_STATUS_KEY + Integer.toString(result.autoJoinStatus) + SEPARATOR_KEY); if (result.seen != 0) { out.writeUTF(MILLI_KEY + Long.toString(result.seen) + SEPARATOR_KEY); } out.writeUTF(BSSID_KEY_END + SEPARATOR_KEY); } } if (config.lastFailure != null) { out.writeUTF(FAILURE_KEY + config.lastFailure + SEPARATOR_KEY); } out.writeUTF(SEPARATOR_KEY); } } }); } public void setLastSelectedConfiguration(int netId) { if (DBG) { loge("setLastSelectedConfiguration " + Integer.toString(netId)); } if (netId == WifiConfiguration.INVALID_NETWORK_ID) { lastSelectedConfiguration = null; } else { WifiConfiguration selected = getWifiConfiguration(netId); if (selected == null) { lastSelectedConfiguration = null; } else { lastSelectedConfiguration = selected.configKey(); if (VDBG) { loge("setLastSelectedConfiguration now: " + lastSelectedConfiguration); } } } } public String getLastSelectedConfiguration() { return lastSelectedConfiguration; } public boolean isLastSelectedConfiguration(WifiConfiguration config) { return (lastSelectedConfiguration != null && config != null && lastSelectedConfiguration.equals(config.configKey())); } private void readNetworkHistory() { if (VDBG) { loge("will readNetworkHistory path:" + networkHistoryConfigFile, true); } DataInputStream in = null; try { in = new DataInputStream(new BufferedInputStream(new FileInputStream( networkHistoryConfigFile))); WifiConfiguration config = null; while (true) { int id = -1; String key = in.readUTF(); String bssid = null; String ssid = null; int freq = 0; int status = 0; long seen = 0; int rssi = WifiConfiguration.INVALID_RSSI; String caps = null; if (key.startsWith(CONFIG_KEY)) { if (config != null) { config = null; } String configKey = key.replace(CONFIG_KEY, ""); configKey = configKey.replace(SEPARATOR_KEY, ""); // get the networkId for that config Key Integer n = mNetworkIds.get(configKey.hashCode()); // skip reading that configuration data // since we don't have a corresponding network ID if (n == null) { loge("readNetworkHistory didnt find netid for hash=" + Integer.toString(configKey.hashCode()) + " key: " + configKey); continue; } config = mConfiguredNetworks.get(n); if (config == null) { loge("readNetworkHistory didnt find config for netid=" + n.toString() + " key: " + configKey); } status = 0; ssid = null; bssid = null; freq = 0; seen = 0; rssi = WifiConfiguration.INVALID_RSSI; caps = null; } else if (config != null) { if (key.startsWith(SSID_KEY)) { ssid = key.replace(SSID_KEY, ""); ssid = ssid.replace(SEPARATOR_KEY, ""); if (config.SSID != null && !config.SSID.equals(ssid)) { loge("Error parsing network history file, mismatched SSIDs"); config = null; //error ssid = null; } else { config.SSID = ssid; } } if (key.startsWith(FQDN_KEY)) { String fqdn = key.replace(FQDN_KEY, ""); fqdn = fqdn.replace(SEPARATOR_KEY, ""); config.FQDN = fqdn; } if (key.startsWith(DEFAULT_GW_KEY)) { String gateway = key.replace(DEFAULT_GW_KEY, ""); gateway = gateway.replace(SEPARATOR_KEY, ""); config.defaultGwMacAddress = gateway; } if (key.startsWith(STATUS_KEY)) { String st = key.replace(STATUS_KEY, ""); st = st.replace(SEPARATOR_KEY, ""); config.autoJoinStatus = Integer.parseInt(st); } /* if (key.startsWith(SUPPLICANT_STATUS_KEY)) { String status = key.replace(SUPPLICANT_STATUS_KEY, ""); status = status.replace(SEPARATOR_KEY, ""); config.status = Integer.parseInt(status); } if (key.startsWith(SUPPLICANT_DISABLE_REASON_KEY)) { String reason = key.replace(SUPPLICANT_DISABLE_REASON_KEY, ""); reason = reason.replace(SEPARATOR_KEY, ""); config.disableReason = Integer.parseInt(reason); }*/ if (key.startsWith(SELF_ADDED_KEY)) { String selfAdded = key.replace(SELF_ADDED_KEY, ""); selfAdded = selfAdded.replace(SEPARATOR_KEY, ""); config.selfAdded = Boolean.parseBoolean(selfAdded); } if (key.startsWith(DID_SELF_ADD_KEY)) { String didSelfAdd = key.replace(DID_SELF_ADD_KEY, ""); didSelfAdd = didSelfAdd.replace(SEPARATOR_KEY, ""); config.didSelfAdd = Boolean.parseBoolean(didSelfAdd); } if (key.startsWith(NO_INTERNET_ACCESS_KEY)) { String access = key.replace(NO_INTERNET_ACCESS_KEY, ""); access = access.replace(SEPARATOR_KEY, ""); config.noInternetAccess = Boolean.parseBoolean(access); } if (key.startsWith(EPHEMERAL_KEY)) { String access = key.replace(EPHEMERAL_KEY, ""); access = access.replace(SEPARATOR_KEY, ""); config.ephemeral = Boolean.parseBoolean(access); } if (key.startsWith(CREATOR_UID_KEY)) { String uid = key.replace(CREATOR_UID_KEY, ""); uid = uid.replace(SEPARATOR_KEY, ""); config.creatorUid = Integer.parseInt(uid); } if (key.startsWith(BLACKLIST_MILLI_KEY)) { String milli = key.replace(BLACKLIST_MILLI_KEY, ""); milli = milli.replace(SEPARATOR_KEY, ""); config.blackListTimestamp = Long.parseLong(milli); } if (key.startsWith(NUM_CONNECTION_FAILURES_KEY)) { String num = key.replace(NUM_CONNECTION_FAILURES_KEY, ""); num = num.replace(SEPARATOR_KEY, ""); config.numConnectionFailures = Integer.parseInt(num); } if (key.startsWith(SCORER_OVERRIDE_KEY)) { String num = key.replace(SCORER_OVERRIDE_KEY, ""); num = num.replace(SEPARATOR_KEY, ""); config.numScorerOverride = Integer.parseInt(num); } if (key.startsWith(SCORER_OVERRIDE_AND_SWITCH_KEY)) { String num = key.replace(SCORER_OVERRIDE_AND_SWITCH_KEY, ""); num = num.replace(SEPARATOR_KEY, ""); config.numScorerOverrideAndSwitchedNetwork = Integer.parseInt(num); } if (key.startsWith(NUM_ASSOCIATION_KEY)) { String num = key.replace(NUM_ASSOCIATION_KEY, ""); num = num.replace(SEPARATOR_KEY, ""); config.numAssociation = Integer.parseInt(num); } if (key.startsWith(CONNECT_UID_KEY)) { String uid = key.replace(CONNECT_UID_KEY, ""); uid = uid.replace(SEPARATOR_KEY, ""); config.lastConnectUid = Integer.parseInt(uid); } if (key.startsWith(UPDATE_UID_KEY)) { String uid = key.replace(UPDATE_UID_KEY, ""); uid = uid.replace(SEPARATOR_KEY, ""); config.lastUpdateUid = Integer.parseInt(uid); } if (key.startsWith(FAILURE_KEY)) { config.lastFailure = key.replace(FAILURE_KEY, ""); config.lastFailure = config.lastFailure.replace(SEPARATOR_KEY, ""); } if (key.startsWith(PEER_CONFIGURATION_KEY)) { config.peerWifiConfiguration = key.replace(PEER_CONFIGURATION_KEY, ""); config.peerWifiConfiguration = config.peerWifiConfiguration.replace(SEPARATOR_KEY, ""); } if (key.startsWith(CHOICE_KEY)) { String choiceStr = key.replace(CHOICE_KEY, ""); choiceStr = choiceStr.replace(SEPARATOR_KEY, ""); String configKey = ""; int choice = 0; Matcher match = mConnectChoice.matcher(choiceStr); if (!match.find()) { if (DBG) Log.d(TAG, "WifiConfigStore: connectChoice: " + " Couldnt match pattern : " + choiceStr); } else { configKey = match.group(1); try { choice = Integer.parseInt(match.group(2)); } catch (NumberFormatException e) { choice = 0; } if (choice > 0) { if (config.connectChoices == null) { config.connectChoices = new HashMap(); } config.connectChoices.put(configKey, choice); } } } if (key.startsWith(LINK_KEY)) { String configKey = key.replace(LINK_KEY, ""); configKey = configKey.replace(SEPARATOR_KEY, ""); if (config.linkedConfigurations == null) { config.linkedConfigurations = new HashMap(); } if (config.linkedConfigurations != null) { config.linkedConfigurations.put(configKey, -1); } } if (key.startsWith(BSSID_KEY)) { if (key.startsWith(BSSID_KEY)) { bssid = key.replace(BSSID_KEY, ""); bssid = bssid.replace(SEPARATOR_KEY, ""); freq = 0; seen = 0; rssi = WifiConfiguration.INVALID_RSSI; caps = ""; status = 0; } if (key.startsWith(RSSI_KEY)) { String lvl = key.replace(RSSI_KEY, ""); lvl = lvl.replace(SEPARATOR_KEY, ""); rssi = Integer.parseInt(lvl); } if (key.startsWith(BSSID_STATUS_KEY)) { String st = key.replace(BSSID_STATUS_KEY, ""); st = st.replace(SEPARATOR_KEY, ""); status = Integer.parseInt(st); } if (key.startsWith(FREQ_KEY)) { String channel = key.replace(FREQ_KEY, ""); channel = channel.replace(SEPARATOR_KEY, ""); freq = Integer.parseInt(channel); } if (key.startsWith(DATE_KEY)) { /* * when reading the configuration from file we don't update the date * so as to avoid reading back stale or non-sensical data that would * depend on network time. * The date of a WifiConfiguration should only come from actual scan result. * String s = key.replace(FREQ_KEY, ""); seen = Integer.getInteger(s); */ } if (key.startsWith(BSSID_KEY_END)) { if ((bssid != null) && (ssid != null)) { if (config.scanResultCache == null) { config.scanResultCache = new HashMap(); } WifiSsid wssid = WifiSsid.createFromAsciiEncoded(ssid); ScanResult result = new ScanResult(wssid, bssid, caps, rssi, freq, (long) 0); result.seen = seen; config.scanResultCache.put(bssid, result); result.autoJoinStatus = status; } } } } } } catch (EOFException ignore) { if (in != null) { try { in.close(); } catch (Exception e) { loge("readNetworkHistory: Error reading file" + e); } } } catch (IOException e) { loge("readNetworkHistory: No config file, revert to default" + e); } if(in!=null) { try { in.close(); } catch (Exception e) { loge("readNetworkHistory: Error closing file" + e); } } } private void readAutoJoinConfig() { BufferedReader reader = null; try { reader = new BufferedReader(new FileReader(autoJoinConfigFile)); for (String key = reader.readLine(); key != null; key = reader.readLine()) { if (key != null) { Log.d(TAG, "readAutoJoinConfig line: " + key); } if (key.startsWith(ENABLE_AUTOJOIN_WHILE_ASSOCIATED_KEY)) { String st = key.replace(ENABLE_AUTOJOIN_WHILE_ASSOCIATED_KEY, ""); st = st.replace(SEPARATOR_KEY, ""); try { enableAutoJoinWhileAssociated = Integer.parseInt(st) != 0; Log.d(TAG,"readAutoJoinConfig: enabled = " + enableAutoJoinWhileAssociated); } catch (NumberFormatException e) { Log.d(TAG,"readAutoJoinConfig: incorrect format :" + key); } } if (key.startsWith(THRESHOLD_INITIAL_AUTO_JOIN_ATTEMPT_RSSI_MIN_5G_KEY)) { String st = key.replace(THRESHOLD_INITIAL_AUTO_JOIN_ATTEMPT_RSSI_MIN_5G_KEY, ""); st = st.replace(SEPARATOR_KEY, ""); try { thresholdInitialAutoJoinAttemptMin5RSSI = Integer.parseInt(st); Log.d(TAG,"readAutoJoinConfig: thresholdInitialAutoJoinAttemptMin5RSSI = " + Integer.toString(thresholdInitialAutoJoinAttemptMin5RSSI)); } catch (NumberFormatException e) { Log.d(TAG,"readAutoJoinConfig: incorrect format :" + key); } } if (key.startsWith(THRESHOLD_INITIAL_AUTO_JOIN_ATTEMPT_RSSI_MIN_24G_KEY)) { String st = key.replace(THRESHOLD_INITIAL_AUTO_JOIN_ATTEMPT_RSSI_MIN_24G_KEY, ""); st = st.replace(SEPARATOR_KEY, ""); try { thresholdInitialAutoJoinAttemptMin24RSSI = Integer.parseInt(st); Log.d(TAG,"readAutoJoinConfig: thresholdInitialAutoJoinAttemptMin24RSSI = " + Integer.toString(thresholdInitialAutoJoinAttemptMin24RSSI)); } catch (NumberFormatException e) { Log.d(TAG,"readAutoJoinConfig: incorrect format :" + key); } } if (key.startsWith(THRESHOLD_UNBLACKLIST_HARD_5G_KEY)) { String st = key.replace(THRESHOLD_UNBLACKLIST_HARD_5G_KEY, ""); st = st.replace(SEPARATOR_KEY, ""); try { thresholdUnblacklistThreshold5Hard = Integer.parseInt(st); Log.d(TAG,"readAutoJoinConfig: thresholdUnblacklistThreshold5Hard = " + Integer.toString(thresholdUnblacklistThreshold5Hard)); } catch (NumberFormatException e) { Log.d(TAG,"readAutoJoinConfig: incorrect format :" + key); } } if (key.startsWith(THRESHOLD_UNBLACKLIST_SOFT_5G_KEY)) { String st = key.replace(THRESHOLD_UNBLACKLIST_SOFT_5G_KEY, ""); st = st.replace(SEPARATOR_KEY, ""); try { thresholdUnblacklistThreshold5Soft = Integer.parseInt(st); Log.d(TAG,"readAutoJoinConfig: thresholdUnblacklistThreshold5Soft = " + Integer.toString(thresholdUnblacklistThreshold5Soft)); } catch (NumberFormatException e) { Log.d(TAG,"readAutoJoinConfig: incorrect format :" + key); } } if (key.startsWith(THRESHOLD_UNBLACKLIST_HARD_24G_KEY)) { String st = key.replace(THRESHOLD_UNBLACKLIST_HARD_24G_KEY, ""); st = st.replace(SEPARATOR_KEY, ""); try { thresholdUnblacklistThreshold24Hard = Integer.parseInt(st); Log.d(TAG,"readAutoJoinConfig: thresholdUnblacklistThreshold24Hard = " + Integer.toString(thresholdUnblacklistThreshold24Hard)); } catch (NumberFormatException e) { Log.d(TAG,"readAutoJoinConfig: incorrect format :" + key); } } if (key.startsWith(THRESHOLD_UNBLACKLIST_SOFT_24G_KEY)) { String st = key.replace(THRESHOLD_UNBLACKLIST_SOFT_24G_KEY, ""); st = st.replace(SEPARATOR_KEY, ""); try { thresholdUnblacklistThreshold24Soft = Integer.parseInt(st); Log.d(TAG,"readAutoJoinConfig: thresholdUnblacklistThreshold24Soft = " + Integer.toString(thresholdUnblacklistThreshold24Soft)); } catch (NumberFormatException e) { Log.d(TAG,"readAutoJoinConfig: incorrect format :" + key); } } if (key.startsWith(THRESHOLD_GOOD_RSSI_5_KEY)) { String st = key.replace(THRESHOLD_GOOD_RSSI_5_KEY, ""); st = st.replace(SEPARATOR_KEY, ""); try { thresholdGoodRssi5 = Integer.parseInt(st); Log.d(TAG,"readAutoJoinConfig: thresholdGoodRssi5 = " + Integer.toString(thresholdGoodRssi5)); } catch (NumberFormatException e) { Log.d(TAG,"readAutoJoinConfig: incorrect format :" + key); } } if (key.startsWith(THRESHOLD_LOW_RSSI_5_KEY)) { String st = key.replace(THRESHOLD_LOW_RSSI_5_KEY, ""); st = st.replace(SEPARATOR_KEY, ""); try { thresholdLowRssi5 = Integer.parseInt(st); Log.d(TAG,"readAutoJoinConfig: thresholdLowRssi5 = " + Integer.toString(thresholdLowRssi5)); } catch (NumberFormatException e) { Log.d(TAG,"readAutoJoinConfig: incorrect format :" + key); } } if (key.startsWith(THRESHOLD_BAD_RSSI_5_KEY)) { String st = key.replace(THRESHOLD_BAD_RSSI_5_KEY, ""); st = st.replace(SEPARATOR_KEY, ""); try { thresholdBadRssi5 = Integer.parseInt(st); Log.d(TAG,"readAutoJoinConfig: thresholdBadRssi5 = " + Integer.toString(thresholdBadRssi5)); } catch (NumberFormatException e) { Log.d(TAG,"readAutoJoinConfig: incorrect format :" + key); } } if (key.startsWith(THRESHOLD_GOOD_RSSI_24_KEY)) { String st = key.replace(THRESHOLD_GOOD_RSSI_24_KEY, ""); st = st.replace(SEPARATOR_KEY, ""); try { thresholdGoodRssi24 = Integer.parseInt(st); Log.d(TAG,"readAutoJoinConfig: thresholdGoodRssi24 = " + Integer.toString(thresholdGoodRssi24)); } catch (NumberFormatException e) { Log.d(TAG,"readAutoJoinConfig: incorrect format :" + key); } } if (key.startsWith(THRESHOLD_LOW_RSSI_24_KEY)) { String st = key.replace(THRESHOLD_LOW_RSSI_24_KEY, ""); st = st.replace(SEPARATOR_KEY, ""); try { thresholdLowRssi24 = Integer.parseInt(st); Log.d(TAG,"readAutoJoinConfig: thresholdLowRssi24 = " + Integer.toString(thresholdLowRssi24)); } catch (NumberFormatException e) { Log.d(TAG,"readAutoJoinConfig: incorrect format :" + key); } } if (key.startsWith(THRESHOLD_BAD_RSSI_24_KEY)) { String st = key.replace(THRESHOLD_BAD_RSSI_24_KEY, ""); st = st.replace(SEPARATOR_KEY, ""); try { thresholdBadRssi24 = Integer.parseInt(st); Log.d(TAG,"readAutoJoinConfig: thresholdBadRssi24 = " + Integer.toString(thresholdBadRssi24)); } catch (NumberFormatException e) { Log.d(TAG,"readAutoJoinConfig: incorrect format :" + key); } } if (key.startsWith(THRESHOLD_MAX_TX_PACKETS_FOR_NETWORK_SWITCHING_KEY)) { String st = key.replace(THRESHOLD_MAX_TX_PACKETS_FOR_NETWORK_SWITCHING_KEY, ""); st = st.replace(SEPARATOR_KEY, ""); try { maxTxPacketForNetworkSwitching = Integer.parseInt(st); Log.d(TAG,"readAutoJoinConfig: maxTxPacketForNetworkSwitching = " + Integer.toString(maxTxPacketForNetworkSwitching)); } catch (NumberFormatException e) { Log.d(TAG,"readAutoJoinConfig: incorrect format :" + key); } } if (key.startsWith(THRESHOLD_MAX_RX_PACKETS_FOR_NETWORK_SWITCHING_KEY)) { String st = key.replace(THRESHOLD_MAX_RX_PACKETS_FOR_NETWORK_SWITCHING_KEY, ""); st = st.replace(SEPARATOR_KEY, ""); try { maxRxPacketForNetworkSwitching = Integer.parseInt(st); Log.d(TAG,"readAutoJoinConfig: maxRxPacketForNetworkSwitching = " + Integer.toString(maxRxPacketForNetworkSwitching)); } catch (NumberFormatException e) { Log.d(TAG,"readAutoJoinConfig: incorrect format :" + key); } } if (key.startsWith(THRESHOLD_MAX_TX_PACKETS_FOR_FULL_SCANS_KEY)) { String st = key.replace(THRESHOLD_MAX_TX_PACKETS_FOR_FULL_SCANS_KEY, ""); st = st.replace(SEPARATOR_KEY, ""); try { maxTxPacketForNetworkSwitching = Integer.parseInt(st); Log.d(TAG,"readAutoJoinConfig: maxTxPacketForFullScans = " + Integer.toString(maxTxPacketForFullScans)); } catch (NumberFormatException e) { Log.d(TAG,"readAutoJoinConfig: incorrect format :" + key); } } if (key.startsWith(THRESHOLD_MAX_RX_PACKETS_FOR_FULL_SCANS_KEY)) { String st = key.replace(THRESHOLD_MAX_RX_PACKETS_FOR_FULL_SCANS_KEY, ""); st = st.replace(SEPARATOR_KEY, ""); try { maxRxPacketForNetworkSwitching = Integer.parseInt(st); Log.d(TAG,"readAutoJoinConfig: maxRxPacketForFullScans = " + Integer.toString(maxRxPacketForFullScans)); } catch (NumberFormatException e) { Log.d(TAG,"readAutoJoinConfig: incorrect format :" + key); } } if (key.startsWith(THRESHOLD_MAX_TX_PACKETS_FOR_PARTIAL_SCANS_KEY)) { String st = key.replace(THRESHOLD_MAX_TX_PACKETS_FOR_PARTIAL_SCANS_KEY, ""); st = st.replace(SEPARATOR_KEY, ""); try { maxTxPacketForNetworkSwitching = Integer.parseInt(st); Log.d(TAG,"readAutoJoinConfig: maxTxPacketForPartialScans = " + Integer.toString(maxTxPacketForPartialScans)); } catch (NumberFormatException e) { Log.d(TAG,"readAutoJoinConfig: incorrect format :" + key); } } if (key.startsWith(THRESHOLD_MAX_RX_PACKETS_FOR_PARTIAL_SCANS_KEY)) { String st = key.replace(THRESHOLD_MAX_RX_PACKETS_FOR_PARTIAL_SCANS_KEY, ""); st = st.replace(SEPARATOR_KEY, ""); try { maxRxPacketForNetworkSwitching = Integer.parseInt(st); Log.d(TAG,"readAutoJoinConfig: maxRxPacketForPartialScans = " + Integer.toString(maxRxPacketForPartialScans)); } catch (NumberFormatException e) { Log.d(TAG,"readAutoJoinConfig: incorrect format :" + key); } } if (key.startsWith(A_BAND_PREFERENCE_RSSI_THRESHOLD_LOW_KEY)) { String st = key.replace(A_BAND_PREFERENCE_RSSI_THRESHOLD_LOW_KEY, ""); st = st.replace(SEPARATOR_KEY, ""); try { thresholdBandPreferenceLowRssi5 = Integer.parseInt(st); Log.d(TAG,"readAutoJoinConfig: thresholdBandPreferenceLowRssi5 = " + Integer.toString(thresholdBandPreferenceLowRssi5)); } catch (NumberFormatException e) { Log.d(TAG,"readAutoJoinConfig: incorrect format :" + key); } } if (key.startsWith(WIFI_VERBOSE_LOGS_KEY)) { String st = key.replace(WIFI_VERBOSE_LOGS_KEY, ""); st = st.replace(SEPARATOR_KEY, ""); try { enableVerboseLogging = Integer.parseInt(st); Log.d(TAG,"readAutoJoinConfig: enable verbose logs = " + Integer.toString(enableVerboseLogging)); } catch (NumberFormatException e) { Log.d(TAG,"readAutoJoinConfig: incorrect format :" + key); } } if (key.startsWith(A_BAND_PREFERENCE_RSSI_THRESHOLD_KEY)) { String st = key.replace(A_BAND_PREFERENCE_RSSI_THRESHOLD_KEY, ""); st = st.replace(SEPARATOR_KEY, ""); try { thresholdBandPreferenceRssi5 = Integer.parseInt(st); Log.d(TAG,"readAutoJoinConfig: thresholdBandPreferenceRssi5 = " + Integer.toString(thresholdBandPreferenceRssi5)); } catch (NumberFormatException e) { Log.d(TAG,"readAutoJoinConfig: incorrect format :" + key); } } if (key.startsWith(ASSOCIATED_PARTIAL_SCAN_PERIOD_KEY)) { String st = key.replace(ASSOCIATED_PARTIAL_SCAN_PERIOD_KEY, ""); st = st.replace(SEPARATOR_KEY, ""); try { associatedPartialScanPeriodMs = Integer.parseInt(st); Log.d(TAG,"readAutoJoinConfig: associatedScanPeriod = " + Integer.toString(associatedPartialScanPeriodMs)); } catch (NumberFormatException e) { Log.d(TAG,"readAutoJoinConfig: incorrect format :" + key); } } if (key.startsWith(ASSOCIATED_FULL_SCAN_BACKOFF_KEY)) { String st = key.replace(ASSOCIATED_FULL_SCAN_BACKOFF_KEY, ""); st = st.replace(SEPARATOR_KEY, ""); try { associatedFullScanBackoff = Integer.parseInt(st); Log.d(TAG,"readAutoJoinConfig: associatedFullScanBackoff = " + Integer.toString(associatedFullScanBackoff)); } catch (NumberFormatException e) { Log.d(TAG,"readAutoJoinConfig: incorrect format :" + key); } } if (key.startsWith(G_BAND_PREFERENCE_RSSI_THRESHOLD_KEY)) { String st = key.replace(G_BAND_PREFERENCE_RSSI_THRESHOLD_KEY, ""); st = st.replace(SEPARATOR_KEY, ""); try { thresholdBandPreferenceRssi24 = Integer.parseInt(st); Log.d(TAG,"readAutoJoinConfig: thresholdBandPreferenceRssi24 = " + Integer.toString(thresholdBandPreferenceRssi24)); } catch (NumberFormatException e) { Log.d(TAG,"readAutoJoinConfig: incorrect format :" + key); } } if (key.startsWith(ALWAYS_ENABLE_SCAN_WHILE_ASSOCIATED_KEY)) { String st = key.replace(ALWAYS_ENABLE_SCAN_WHILE_ASSOCIATED_KEY, ""); st = st.replace(SEPARATOR_KEY, ""); try { alwaysEnableScansWhileAssociated = Integer.parseInt(st); Log.d(TAG,"readAutoJoinConfig: alwaysEnableScansWhileAssociated = " + Integer.toString(alwaysEnableScansWhileAssociated)); } catch (NumberFormatException e) { Log.d(TAG,"readAutoJoinConfig: incorrect format :" + key); } } if (key.startsWith(MAX_NUM_PASSIVE_CHANNELS_FOR_PARTIAL_SCANS_KEY)) { String st = key.replace(MAX_NUM_PASSIVE_CHANNELS_FOR_PARTIAL_SCANS_KEY, ""); st = st.replace(SEPARATOR_KEY, ""); try { maxNumPassiveChannelsForPartialScans = Integer.parseInt(st); Log.d(TAG,"readAutoJoinConfig: maxNumPassiveChannelsForPartialScans = " + Integer.toString(maxNumPassiveChannelsForPartialScans)); } catch (NumberFormatException e) { Log.d(TAG,"readAutoJoinConfig: incorrect format :" + key); } } if (key.startsWith(MAX_NUM_ACTIVE_CHANNELS_FOR_PARTIAL_SCANS_KEY)) { String st = key.replace(MAX_NUM_ACTIVE_CHANNELS_FOR_PARTIAL_SCANS_KEY, ""); st = st.replace(SEPARATOR_KEY, ""); try { maxNumActiveChannelsForPartialScans = Integer.parseInt(st); Log.d(TAG,"readAutoJoinConfig: maxNumActiveChannelsForPartialScans = " + Integer.toString(maxNumActiveChannelsForPartialScans)); } catch (NumberFormatException e) { Log.d(TAG,"readAutoJoinConfig: incorrect format :" + key); } } } } catch (EOFException ignore) { if (reader != null) { try { reader.close(); reader = null; } catch (Exception e) { loge("readAutoJoinStatus: Error closing file" + e); } } } catch (FileNotFoundException ignore) { if (reader != null) { try { reader.close(); reader = null; } catch (Exception e) { loge("readAutoJoinStatus: Error closing file" + e); } } } catch (IOException e) { loge("readAutoJoinStatus: Error parsing configuration" + e); } if (reader!=null) { try { reader.close(); } catch (Exception e) { loge("readAutoJoinStatus: Error closing file" + e); } } } private void writeIpAndProxyConfigurations() { final SparseArray networks = new SparseArray(); for(WifiConfiguration config : mConfiguredNetworks.values()) { if (!config.ephemeral && config.autoJoinStatus != WifiConfiguration.AUTO_JOIN_DELETED) { networks.put(configKey(config), config.getIpConfiguration()); } } super.writeIpAndProxyConfigurations(ipConfigFile, networks); } private void readIpAndProxyConfigurations() { SparseArray networks = super.readIpAndProxyConfigurations(ipConfigFile); if (networks.size() == 0) { // IpConfigStore.readIpAndProxyConfigurations has already logged an error. return; } for (int i = 0; i < networks.size(); i++) { int id = networks.keyAt(i); WifiConfiguration config = mConfiguredNetworks.get(mNetworkIds.get(id)); if (config == null || config.autoJoinStatus == WifiConfiguration.AUTO_JOIN_DELETED) { loge("configuration found for missing network, nid=" + id +", ignored, networks.size=" + Integer.toString(networks.size())); } else { config.setIpConfiguration(networks.valueAt(i)); } } } /* * Convert string to Hexadecimal before passing to wifi native layer * In native function "doCommand()" have trouble in converting Unicode character string to UTF8 * conversion to hex is required because SSIDs can have space characters in them; * and that can confuses the supplicant because it uses space charaters as delimiters */ private String encodeSSID(String str){ String tmp = removeDoubleQuotes(str); return String.format("%x", new BigInteger(1, tmp.getBytes(Charset.forName("UTF-8")))); } private NetworkUpdateResult addOrUpdateNetworkNative(WifiConfiguration config) { /* * If the supplied networkId is INVALID_NETWORK_ID, we create a new empty * network configuration. Otherwise, the networkId should * refer to an existing configuration. */ if (VDBG) localLog("addOrUpdateNetworkNative " + config.getPrintableSsid()); int netId = config.networkId; boolean newNetwork = false; // networkId of INVALID_NETWORK_ID means we want to create a new network if (netId == INVALID_NETWORK_ID) { Integer savedNetId = mNetworkIds.get(configKey(config)); //paranoia: check if either we have a network Id or a WifiConfiguration //matching the one we are trying to add. if (savedNetId == null) { for (WifiConfiguration test : mConfiguredNetworks.values()) { if (test.configKey().equals(config.configKey())) { savedNetId = test.networkId; loge("addOrUpdateNetworkNative " + config.configKey() + " was found, but no network Id"); break; } } } if (savedNetId != null) { netId = savedNetId; } else { newNetwork = true; netId = mWifiNative.addNetwork(); if (netId < 0) { loge("Failed to add a network!"); return new NetworkUpdateResult(INVALID_NETWORK_ID); } else { loge("addOrUpdateNetworkNative created netId=" + netId); } } } boolean updateFailed = true; setVariables: { if (config.SSID != null && !mWifiNative.setNetworkVariable( netId, WifiConfiguration.ssidVarName, encodeSSID(config.SSID))) { loge("failed to set SSID: "+config.SSID); break setVariables; } if (config.BSSID != null) { loge("Setting BSSID for " + config.configKey() + " to " + config.BSSID); if (!mWifiNative.setNetworkVariable( netId, WifiConfiguration.bssidVarName, config.BSSID)) { loge("failed to set BSSID: " + config.BSSID); break setVariables; } } String allowedKeyManagementString = makeString(config.allowedKeyManagement, WifiConfiguration.KeyMgmt.strings); if (config.allowedKeyManagement.cardinality() != 0 && !mWifiNative.setNetworkVariable( netId, WifiConfiguration.KeyMgmt.varName, allowedKeyManagementString)) { loge("failed to set key_mgmt: "+ allowedKeyManagementString); break setVariables; } String allowedProtocolsString = makeString(config.allowedProtocols, WifiConfiguration.Protocol.strings); if (config.allowedProtocols.cardinality() != 0 && !mWifiNative.setNetworkVariable( netId, WifiConfiguration.Protocol.varName, allowedProtocolsString)) { loge("failed to set proto: "+ allowedProtocolsString); break setVariables; } String allowedAuthAlgorithmsString = makeString(config.allowedAuthAlgorithms, WifiConfiguration.AuthAlgorithm.strings); if (config.allowedAuthAlgorithms.cardinality() != 0 && !mWifiNative.setNetworkVariable( netId, WifiConfiguration.AuthAlgorithm.varName, allowedAuthAlgorithmsString)) { loge("failed to set auth_alg: "+ allowedAuthAlgorithmsString); break setVariables; } String allowedPairwiseCiphersString = makeString(config.allowedPairwiseCiphers, WifiConfiguration.PairwiseCipher.strings); if (config.allowedPairwiseCiphers.cardinality() != 0 && !mWifiNative.setNetworkVariable( netId, WifiConfiguration.PairwiseCipher.varName, allowedPairwiseCiphersString)) { loge("failed to set pairwise: "+ allowedPairwiseCiphersString); break setVariables; } String allowedGroupCiphersString = makeString(config.allowedGroupCiphers, WifiConfiguration.GroupCipher.strings); if (config.allowedGroupCiphers.cardinality() != 0 && !mWifiNative.setNetworkVariable( netId, WifiConfiguration.GroupCipher.varName, allowedGroupCiphersString)) { loge("failed to set group: "+ allowedGroupCiphersString); break setVariables; } // Prevent client screw-up by passing in a WifiConfiguration we gave it // by preventing "*" as a key. if (config.preSharedKey != null && !config.preSharedKey.equals("*") && !mWifiNative.setNetworkVariable( netId, WifiConfiguration.pskVarName, config.preSharedKey)) { loge("failed to set psk"); break setVariables; } boolean hasSetKey = false; if (config.wepKeys != null) { for (int i = 0; i < config.wepKeys.length; i++) { // Prevent client screw-up by passing in a WifiConfiguration we gave it // by preventing "*" as a key. if (config.wepKeys[i] != null && !config.wepKeys[i].equals("*")) { if (!mWifiNative.setNetworkVariable( netId, WifiConfiguration.wepKeyVarNames[i], config.wepKeys[i])) { loge("failed to set wep_key" + i + ": " + config.wepKeys[i]); break setVariables; } hasSetKey = true; } } } if (hasSetKey) { if (!mWifiNative.setNetworkVariable( netId, WifiConfiguration.wepTxKeyIdxVarName, Integer.toString(config.wepTxKeyIndex))) { loge("failed to set wep_tx_keyidx: " + config.wepTxKeyIndex); break setVariables; } } if (!mWifiNative.setNetworkVariable( netId, WifiConfiguration.priorityVarName, Integer.toString(config.priority))) { loge(config.SSID + ": failed to set priority: " +config.priority); break setVariables; } if (config.hiddenSSID && !mWifiNative.setNetworkVariable( netId, WifiConfiguration.hiddenSSIDVarName, Integer.toString(config.hiddenSSID ? 1 : 0))) { loge(config.SSID + ": failed to set hiddenSSID: "+ config.hiddenSSID); break setVariables; } if (config.requirePMF && !mWifiNative.setNetworkVariable( netId, WifiConfiguration.pmfVarName, "2")) { loge(config.SSID + ": failed to set requirePMF: "+ config.requirePMF); break setVariables; } if (config.updateIdentifier != null && !mWifiNative.setNetworkVariable( netId, WifiConfiguration.updateIdentiferVarName, config.updateIdentifier)) { loge(config.SSID + ": failed to set updateIdentifier: "+ config.updateIdentifier); break setVariables; } if (config.enterpriseConfig != null && config.enterpriseConfig.getEapMethod() != WifiEnterpriseConfig.Eap.NONE) { WifiEnterpriseConfig enterpriseConfig = config.enterpriseConfig; if (needsKeyStore(enterpriseConfig)) { /** * Keyguard settings may eventually be controlled by device policy. * We check here if keystore is unlocked before installing * credentials. * TODO: Do we need a dialog here ? */ if (mKeyStore.state() != KeyStore.State.UNLOCKED) { loge(config.SSID + ": key store is locked"); break setVariables; } try { /* config passed may include only fields being updated. * In order to generate the key id, fetch uninitialized * fields from the currently tracked configuration */ WifiConfiguration currentConfig = mConfiguredNetworks.get(netId); String keyId = config.getKeyIdForCredentials(currentConfig); if (!installKeys(enterpriseConfig, keyId)) { loge(config.SSID + ": failed to install keys"); break setVariables; } } catch (IllegalStateException e) { loge(config.SSID + " invalid config for key installation"); break setVariables; } } HashMap enterpriseFields = enterpriseConfig.getFields(); for (String key : enterpriseFields.keySet()) { String value = enterpriseFields.get(key); if (key.equals("password") && value != null && value.equals("*")) { // No need to try to set an obfuscated password, which will fail continue; } if (!mWifiNative.setNetworkVariable( netId, key, value)) { removeKeys(enterpriseConfig); loge(config.SSID + ": failed to set " + key + ": " + value); break setVariables; } } } updateFailed = false; } // End of setVariables if (updateFailed) { if (newNetwork) { mWifiNative.removeNetwork(netId); loge("Failed to set a network variable, removed network: " + netId); } return new NetworkUpdateResult(INVALID_NETWORK_ID); } /* An update of the network variables requires reading them * back from the supplicant to update mConfiguredNetworks. * This is because some of the variables (SSID, wep keys & * passphrases) reflect different values when read back than * when written. For example, wep key is stored as * irrespective * of the value sent to the supplicant */ WifiConfiguration currentConfig = mConfiguredNetworks.get(netId); if (currentConfig == null) { currentConfig = new WifiConfiguration(); currentConfig.setIpAssignment(IpAssignment.DHCP); currentConfig.setProxySettings(ProxySettings.NONE); currentConfig.networkId = netId; if (config != null) { //carry over the creation parameters currentConfig.selfAdded = config.selfAdded; currentConfig.didSelfAdd = config.didSelfAdd; currentConfig.lastConnectUid = config.lastConnectUid; currentConfig.lastUpdateUid = config.lastUpdateUid; currentConfig.creatorUid = config.creatorUid; currentConfig.peerWifiConfiguration = config.peerWifiConfiguration; } if (DBG) { loge("created new config netId=" + Integer.toString(netId) + " uid=" + Integer.toString(currentConfig.creatorUid)); } } if (currentConfig.autoJoinStatus == WifiConfiguration.AUTO_JOIN_DELETED) { // Make sure the configuration is not deleted anymore since we just // added or modified it. currentConfig.setAutoJoinStatus(WifiConfiguration.AUTO_JOIN_ENABLED); currentConfig.selfAdded = false; currentConfig.didSelfAdd = false; if (DBG) loge("remove deleted status netId=" + Integer.toString(netId) + " " + currentConfig.configKey()); } if (DBG) loge("will read network variables netId=" + Integer.toString(netId)); readNetworkVariables(currentConfig); mConfiguredNetworks.put(netId, currentConfig); mNetworkIds.put(configKey(currentConfig), netId); NetworkUpdateResult result = writeIpAndProxyConfigurationsOnChange(currentConfig, config); result.setIsNewNetwork(newNetwork); result.setNetworkId(netId); return result; } public void linkConfiguration(WifiConfiguration config) { if (config.scanResultCache != null && config.scanResultCache.size() > 6) { // Ignore configurations with large number of BSSIDs return; } if (!config.allowedKeyManagement.get(KeyMgmt.WPA_PSK)) { // Only link WPA_PSK config return; } for (WifiConfiguration link : mConfiguredNetworks.values()) { boolean doLink = false; if (link.configKey().equals(config.configKey())) { continue; } if (link.autoJoinStatus == WifiConfiguration.AUTO_JOIN_DELETED) { continue; } // Autojoin will be allowed to dynamically jump from a linked configuration // to another, hence only link configurations that have equivalent level of security if (!link.allowedKeyManagement.equals(config.allowedKeyManagement)) { continue; } if (link.scanResultCache != null && link.scanResultCache.size() > 6) { // Ignore configurations with large number of BSSIDs continue; } if (config.defaultGwMacAddress != null && link.defaultGwMacAddress != null) { // If both default GW are known, compare based on RSSI only if the GW is equal if (config.defaultGwMacAddress.equals(link.defaultGwMacAddress)) { if (VDBG) { loge("linkConfiguration link due to same gw " + link.SSID + " and " + config.SSID + " GW " + config.defaultGwMacAddress); } doLink = true; } } else { // We do not know BOTH default gateways hence we will try to link // hoping that WifiConfigurations are indeed behind the same gateway. // once both WifiConfiguration have been tried and thus once both efault gateways // are known we will revisit the choice of linking them if ((config.scanResultCache != null) && (config.scanResultCache.size() <= 6) && (link.scanResultCache != null) && (link.scanResultCache.size() <= 6)) { for (String abssid : config.scanResultCache.keySet()) { for (String bbssid : link.scanResultCache.keySet()) { if (VDBG) { loge("linkConfiguration try to link due to DBDC BSSID match " + link.SSID + " and " + config.SSID + " bssida " + abssid + " bssidb " + bbssid); } if (abssid.regionMatches(true, 0, bbssid, 0, 16)) { // If first 16 ascii characters of BSSID matches, // we assume this is a DBDC doLink = true; } } } } } if (doLink) { if (VDBG) { loge("linkConfiguration: will link " + link.configKey() + " and " + config.configKey()); } if (link.linkedConfigurations == null) { link.linkedConfigurations = new HashMap(); } if (config.linkedConfigurations == null) { config.linkedConfigurations = new HashMap(); } link.linkedConfigurations.put(config.configKey(), Integer.valueOf(1)); config.linkedConfigurations.put(link.configKey(), Integer.valueOf(1)); } else { if (link.linkedConfigurations != null && (link.linkedConfigurations.get(config.configKey()) != null)) { if (VDBG) { loge("linkConfiguration: un-link " + config.configKey() + " from " + link.configKey()); } link.linkedConfigurations.remove(config.configKey()); } if (config.linkedConfigurations != null && (config.linkedConfigurations.get(link.configKey()) != null)) { if (VDBG) { loge("linkConfiguration: un-link " + link.configKey() + " from " + config.configKey()); } config.linkedConfigurations.remove(link.configKey()); } } } } /* * We try to link a scan result with a WifiConfiguration for which SSID and * key management dont match, * for instance, we try identify the 5GHz SSID of a DBDC AP, * even though we know only of the 2.4GHz * * Obviously, this function is not optimal since it is used to compare every scan * result with every Saved WifiConfiguration, with a string.equals operation. * As a speed up, might be better to implement the mConfiguredNetworks store as a * object instead of a object * so as to speed this up. Also to prevent the tiny probability of hash collision. * */ public WifiConfiguration associateWithConfiguration(ScanResult result) { String configKey = WifiConfiguration.configKey(result); if (configKey == null) { if (DBG) loge("associateWithConfiguration(): no config key " ); return null; } //need to compare with quoted string String SSID = "\"" + result.SSID + "\""; if (VVDBG) { loge("associateWithConfiguration(): try " + configKey); } WifiConfiguration config = null; for (WifiConfiguration link : mConfiguredNetworks.values()) { boolean doLink = false; if (link.autoJoinStatus == WifiConfiguration.AUTO_JOIN_DELETED || link.didSelfAdd) { if (VVDBG) loge("associateWithConfiguration(): skip selfadd " + link.configKey() ); // Make sure we dont associate the scan result to a deleted config continue; } if (!link.allowedKeyManagement.get(KeyMgmt.WPA_PSK)) { if (VVDBG) loge("associateWithConfiguration(): skip non-PSK " + link.configKey() ); // Make sure we dont associate the scan result to a non-PSK config continue; } if (configKey.equals(link.configKey())) { if (VVDBG) loge("associateWithConfiguration(): found it!!! " + configKey ); return link; // Found it exactly } if ((link.scanResultCache != null) && (link.scanResultCache.size() <= 6)) { for (String bssid : link.scanResultCache.keySet()) { if (result.BSSID.regionMatches(true, 0, bssid, 0, 16) && SSID.regionMatches(false, 0, link.SSID, 0, 4)) { // If first 16 ascii characters of BSSID matches, and first 3 // characters of SSID match, we assume this is a home setup // and thus we will try to transfer the password from the known // BSSID/SSID to the recently found BSSID/SSID // If (VDBG) // loge("associateWithConfiguration OK " ); doLink = true; break; } } } if (doLink) { // Try to make a non verified WifiConfiguration, but only if the original // configuration was not self already added if (VDBG) { loge("associateWithConfiguration: will create " + result.SSID + " and associate it with: " + link.SSID); } config = wifiConfigurationFromScanResult(result); if (config != null) { config.selfAdded = true; config.didSelfAdd = true; config.peerWifiConfiguration = link.configKey(); if (config.allowedKeyManagement.equals(link.allowedKeyManagement) && config.allowedKeyManagement.get(KeyMgmt.WPA_PSK)) { // Transfer the credentials from the configuration we are linking from String psk = readNetworkVariableFromSupplicantFile(link.SSID, "psk"); if (psk != null) { config.preSharedKey = psk; if (VDBG) { if (config.preSharedKey != null) loge(" transfer PSK : " + config.preSharedKey); } // Link configurations if (link.linkedConfigurations == null) { link.linkedConfigurations = new HashMap(); } if (config.linkedConfigurations == null) { config.linkedConfigurations = new HashMap(); } link.linkedConfigurations.put(config.configKey(), Integer.valueOf(1)); config.linkedConfigurations.put(link.configKey(), Integer.valueOf(1)); } else { config = null; } } else { config = null; } } } else { // Todo: if they are linked, break the link } } return config; } public HashSet makeChannelList(WifiConfiguration config, int age, boolean restrict) { if (config == null) return null; long now_ms = System.currentTimeMillis(); HashSet channels = new HashSet(); //get channels for this configuration, if there are at least 2 BSSIDs if (config.scanResultCache == null && config.linkedConfigurations == null) { return null; } if (VDBG) { StringBuilder dbg = new StringBuilder(); dbg.append("makeChannelList age=" + Integer.toString(age) + " for " + config.configKey()); if (config.scanResultCache != null) { dbg.append(" bssids=" + config.scanResultCache.size()); } if (config.linkedConfigurations != null) { dbg.append(" linked=" + config.linkedConfigurations.size()); } loge(dbg.toString()); } int numChannels = 0; if (config.scanResultCache != null && config.scanResultCache.size() > 0) { for (ScanResult result : config.scanResultCache.values()) { //TODO : cout active and passive channels separately if (numChannels > maxNumActiveChannelsForPartialScans) { break; } if (VDBG) { boolean test = (now_ms - result.seen) < age; loge("has " + result.BSSID + " freq=" + Integer.toString(result.frequency) + " age=" + Long.toString(now_ms - result.seen) + " ?=" + test); } if (((now_ms - result.seen) < age)/*||(!restrict || result.is24GHz())*/) { channels.add(result.frequency); numChannels++; } } } //get channels for linked configurations if (config.linkedConfigurations != null) { for (String key : config.linkedConfigurations.keySet()) { WifiConfiguration linked = getWifiConfiguration(key); if (linked == null) continue; if (linked.scanResultCache == null) { continue; } for (ScanResult result : linked.scanResultCache.values()) { if (VDBG) { loge("has link: " + result.BSSID + " freq=" + Integer.toString(result.frequency) + " age=" + Long.toString(now_ms - result.seen)); } if (numChannels > maxNumActiveChannelsForPartialScans) { break; } if (((now_ms - result.seen) < age)/*||(!restrict || result.is24GHz())*/) { channels.add(result.frequency); numChannels++; } } } } return channels; } public WifiConfiguration updateSavedNetworkHistory(ScanResult scanResult) { WifiConfiguration found = null; if (scanResult == null) return found; // First step, look for this scan Result by SSID + Key Management String key = WifiConfiguration.configKey(scanResult); int hash = key.hashCode(); Integer netId = mNetworkIds.get(hash); if (netId == null) return null; WifiConfiguration config = mConfiguredNetworks.get(netId); if (config != null) { if (config.scanResultCache == null) { config.scanResultCache = new HashMap(); } if (config.scanResultCache == null) { return null; } // Add the scan result to this WifiConfiguration config.scanResultCache.put(scanResult.BSSID, scanResult); mConfiguredNetworks.put(netId, config); // Since we added a scan result to this configuration, re-attempt linking linkConfiguration(config); found = config; } if (VDBG) { config = mConfiguredNetworks.get(netId); if (config != null) { if (config.scanResultCache != null) { String status = ""; if (scanResult.autoJoinStatus > 0) { status = " status=" + Integer.toString(scanResult.autoJoinStatus); } loge(" got known scan result " + scanResult.BSSID + " key : " + key + " num: " + Integer.toString(config.scanResultCache.size()) + " rssi=" + Integer.toString(scanResult.level) + " freq=" + Integer.toString(scanResult.frequency) + status); } else { loge(" got known scan result and no cache" + scanResult.BSSID + " key : " + key); } } } return found; } /* Compare current and new configuration and write to file on change */ private NetworkUpdateResult writeIpAndProxyConfigurationsOnChange( WifiConfiguration currentConfig, WifiConfiguration newConfig) { boolean ipChanged = false; boolean proxyChanged = false; if (VDBG) { loge("writeIpAndProxyConfigurationsOnChange: " + currentConfig.SSID + " -> " + newConfig.SSID + " path: " + ipConfigFile); } switch (newConfig.getIpAssignment()) { case STATIC: if (currentConfig.getIpAssignment() != newConfig.getIpAssignment()) { ipChanged = true; } else { ipChanged = !Objects.equals( currentConfig.getStaticIpConfiguration(), newConfig.getStaticIpConfiguration()); } break; case DHCP: if (currentConfig.getIpAssignment() != newConfig.getIpAssignment()) { ipChanged = true; } break; case UNASSIGNED: /* Ignore */ break; default: loge("Ignore invalid ip assignment during write"); break; } switch (newConfig.getProxySettings()) { case STATIC: case PAC: ProxyInfo newHttpProxy = newConfig.getHttpProxy(); ProxyInfo currentHttpProxy = currentConfig.getHttpProxy(); if (newHttpProxy != null) { proxyChanged = !newHttpProxy.equals(currentHttpProxy); } else { proxyChanged = (currentHttpProxy != null); } break; case NONE: if (currentConfig.getProxySettings() != newConfig.getProxySettings()) { proxyChanged = true; } break; case UNASSIGNED: /* Ignore */ break; default: loge("Ignore invalid proxy configuration during write"); break; } if (ipChanged) { currentConfig.setIpAssignment(newConfig.getIpAssignment()); currentConfig.setStaticIpConfiguration(newConfig.getStaticIpConfiguration()); log("IP config changed SSID = " + currentConfig.SSID); if (currentConfig.getStaticIpConfiguration() != null) { log(" static configuration: " + currentConfig.getStaticIpConfiguration().toString()); } } if (proxyChanged) { currentConfig.setProxySettings(newConfig.getProxySettings()); currentConfig.setHttpProxy(newConfig.getHttpProxy()); log("proxy changed SSID = " + currentConfig.SSID); if (currentConfig.getHttpProxy() != null) { log(" proxyProperties: " + currentConfig.getHttpProxy().toString()); } } if (ipChanged || proxyChanged) { writeIpAndProxyConfigurations(); sendConfiguredNetworksChangedBroadcast(currentConfig, WifiManager.CHANGE_REASON_CONFIG_CHANGE); } return new NetworkUpdateResult(ipChanged, proxyChanged); } /** Returns true if a particular config key needs to be quoted when passed to the supplicant. */ private boolean enterpriseConfigKeyShouldBeQuoted(String key) { switch (key) { case WifiEnterpriseConfig.EAP_KEY: case WifiEnterpriseConfig.ENGINE_KEY: return false; default: return true; } } /** * Read the variables from the supplicant daemon that are needed to * fill in the WifiConfiguration object. * * @param config the {@link WifiConfiguration} object to be filled in. */ private void readNetworkVariables(WifiConfiguration config) { int netId = config.networkId; if (netId < 0) return; /* * TODO: maybe should have a native method that takes an array of * variable names and returns an array of values. But we'd still * be doing a round trip to the supplicant daemon for each variable. */ String value; value = mWifiNative.getNetworkVariable(netId, WifiConfiguration.ssidVarName); if (!TextUtils.isEmpty(value)) { if (value.charAt(0) != '"') { config.SSID = "\"" + WifiSsid.createFromHex(value).toString() + "\""; //TODO: convert a hex string that is not UTF-8 decodable to a P-formatted //supplicant string } else { config.SSID = value; } } else { config.SSID = null; } value = mWifiNative.getNetworkVariable(netId, WifiConfiguration.bssidVarName); if (!TextUtils.isEmpty(value)) { config.BSSID = value; } else { config.BSSID = null; } value = mWifiNative.getNetworkVariable(netId, WifiConfiguration.priorityVarName); config.priority = -1; if (!TextUtils.isEmpty(value)) { try { config.priority = Integer.parseInt(value); } catch (NumberFormatException ignore) { } } value = mWifiNative.getNetworkVariable(netId, WifiConfiguration.hiddenSSIDVarName); config.hiddenSSID = false; if (!TextUtils.isEmpty(value)) { try { config.hiddenSSID = Integer.parseInt(value) != 0; } catch (NumberFormatException ignore) { } } value = mWifiNative.getNetworkVariable(netId, WifiConfiguration.wepTxKeyIdxVarName); config.wepTxKeyIndex = -1; if (!TextUtils.isEmpty(value)) { try { config.wepTxKeyIndex = Integer.parseInt(value); } catch (NumberFormatException ignore) { } } for (int i = 0; i < 4; i++) { value = mWifiNative.getNetworkVariable(netId, WifiConfiguration.wepKeyVarNames[i]); if (!TextUtils.isEmpty(value)) { config.wepKeys[i] = value; } else { config.wepKeys[i] = null; } } value = mWifiNative.getNetworkVariable(netId, WifiConfiguration.pskVarName); if (!TextUtils.isEmpty(value)) { config.preSharedKey = value; } else { config.preSharedKey = null; } value = mWifiNative.getNetworkVariable(config.networkId, WifiConfiguration.Protocol.varName); if (!TextUtils.isEmpty(value)) { String vals[] = value.split(" "); for (String val : vals) { int index = lookupString(val, WifiConfiguration.Protocol.strings); if (0 <= index) { config.allowedProtocols.set(index); } } } value = mWifiNative.getNetworkVariable(config.networkId, WifiConfiguration.KeyMgmt.varName); if (!TextUtils.isEmpty(value)) { String vals[] = value.split(" "); for (String val : vals) { int index = lookupString(val, WifiConfiguration.KeyMgmt.strings); if (0 <= index) { config.allowedKeyManagement.set(index); } } } value = mWifiNative.getNetworkVariable(config.networkId, WifiConfiguration.AuthAlgorithm.varName); if (!TextUtils.isEmpty(value)) { String vals[] = value.split(" "); for (String val : vals) { int index = lookupString(val, WifiConfiguration.AuthAlgorithm.strings); if (0 <= index) { config.allowedAuthAlgorithms.set(index); } } } value = mWifiNative.getNetworkVariable(config.networkId, WifiConfiguration.PairwiseCipher.varName); if (!TextUtils.isEmpty(value)) { String vals[] = value.split(" "); for (String val : vals) { int index = lookupString(val, WifiConfiguration.PairwiseCipher.strings); if (0 <= index) { config.allowedPairwiseCiphers.set(index); } } } value = mWifiNative.getNetworkVariable(config.networkId, WifiConfiguration.GroupCipher.varName); if (!TextUtils.isEmpty(value)) { String vals[] = value.split(" "); for (String val : vals) { int index = lookupString(val, WifiConfiguration.GroupCipher.strings); if (0 <= index) { config.allowedGroupCiphers.set(index); } } } if (config.enterpriseConfig == null) { config.enterpriseConfig = new WifiEnterpriseConfig(); } HashMap enterpriseFields = config.enterpriseConfig.getFields(); for (String key : ENTERPRISE_CONFIG_SUPPLICANT_KEYS) { value = mWifiNative.getNetworkVariable(netId, key); if (!TextUtils.isEmpty(value)) { if (!enterpriseConfigKeyShouldBeQuoted(key)) { value = removeDoubleQuotes(value); } enterpriseFields.put(key, value); } else { enterpriseFields.put(key, EMPTY_VALUE); } } if (migrateOldEapTlsNative(config.enterpriseConfig, netId)) { saveConfig(); } migrateCerts(config.enterpriseConfig); // initializeSoftwareKeystoreFlag(config.enterpriseConfig, mKeyStore); } private static String removeDoubleQuotes(String string) { int length = string.length(); if ((length > 1) && (string.charAt(0) == '"') && (string.charAt(length - 1) == '"')) { return string.substring(1, length - 1); } return string; } private static String makeString(BitSet set, String[] strings) { StringBuffer buf = new StringBuffer(); int nextSetBit = -1; /* Make sure all set bits are in [0, strings.length) to avoid * going out of bounds on strings. (Shouldn't happen, but...) */ set = set.get(0, strings.length); while ((nextSetBit = set.nextSetBit(nextSetBit + 1)) != -1) { buf.append(strings[nextSetBit].replace('_', '-')).append(' '); } // remove trailing space if (set.cardinality() > 0) { buf.setLength(buf.length() - 1); } return buf.toString(); } private int lookupString(String string, String[] strings) { int size = strings.length; string = string.replace('-', '_'); for (int i = 0; i < size; i++) if (string.equals(strings[i])) return i; // if we ever get here, we should probably add the // value to WifiConfiguration to reflect that it's // supported by the WPA supplicant loge("Failed to look-up a string: " + string); return -1; } /* return the allowed key management based on a scan result */ public WifiConfiguration wifiConfigurationFromScanResult(ScanResult result) { WifiConfiguration config = new WifiConfiguration(); config.SSID = "\"" + result.SSID + "\""; if (VDBG) { loge("WifiConfiguration from scan results " + config.SSID + " cap " + result.capabilities); } if (result.capabilities.contains("WEP")) { config.allowedKeyManagement.set(KeyMgmt.NONE); config.allowedAuthAlgorithms.set(WifiConfiguration.AuthAlgorithm.OPEN); //? config.allowedAuthAlgorithms.set(WifiConfiguration.AuthAlgorithm.SHARED); } if (result.capabilities.contains("PSK")) { config.allowedKeyManagement.set(KeyMgmt.WPA_PSK); } if (result.capabilities.contains("EAP")) { //this is probably wrong, as we don't have a way to enter the enterprise config config.allowedKeyManagement.set(KeyMgmt.WPA_EAP); config.allowedKeyManagement.set(KeyMgmt.IEEE8021X); } config.scanResultCache = new HashMap(); if (config.scanResultCache == null) return null; config.scanResultCache.put(result.BSSID, result); return config; } /* Returns a unique for a given configuration */ private static int configKey(WifiConfiguration config) { String key = config.configKey(); return key.hashCode(); } void dump(FileDescriptor fd, PrintWriter pw, String[] args) { pw.println("WifiConfigStore"); pw.println("mLastPriority " + mLastPriority); pw.println("Configured networks"); for (WifiConfiguration conf : getConfiguredNetworks()) { pw.println(conf); } pw.println(); if (mLocalLog != null) { pw.println("WifiConfigStore - Log Begin ----"); mLocalLog.dump(fd, pw, args); pw.println("WifiConfigStore - Log End ----"); } } public String getConfigFile() { return ipConfigFile; } protected void loge(String s) { loge(s, false); } protected void loge(String s, boolean stack) { if (stack) { Log.e(TAG, s + " stack:" + Thread.currentThread().getStackTrace()[2].getMethodName() + " - " + Thread.currentThread().getStackTrace()[3].getMethodName() + " - " + Thread.currentThread().getStackTrace()[4].getMethodName() + " - " + Thread.currentThread().getStackTrace()[5].getMethodName()); } else { Log.e(TAG, s); } } protected void log(String s) { Log.d(TAG, s); } private void localLog(String s) { if (mLocalLog != null) { mLocalLog.log(s); } } private void localLog(String s, int netId) { if (mLocalLog == null) { return; } WifiConfiguration config; synchronized(mConfiguredNetworks) { config = mConfiguredNetworks.get(netId); } if (config != null) { mLocalLog.log(s + " " + config.getPrintableSsid()); } else { mLocalLog.log(s + " " + netId); } } // Certificate and private key management for EnterpriseConfig static boolean needsKeyStore(WifiEnterpriseConfig config) { // Has no keys to be installed if (config.getClientCertificate() == null && config.getCaCertificate() == null) return false; return true; } static boolean isHardwareBackedKey(PrivateKey key) { return KeyChain.isBoundKeyAlgorithm(key.getAlgorithm()); } static boolean hasHardwareBackedKey(Certificate certificate) { return KeyChain.isBoundKeyAlgorithm(certificate.getPublicKey().getAlgorithm()); } static boolean needsSoftwareBackedKeyStore(WifiEnterpriseConfig config) { String client = config.getClientCertificateAlias(); if (!TextUtils.isEmpty(client)) { // a valid client certificate is configured // BUGBUG: keyStore.get() never returns certBytes; because it is not // taking WIFI_UID as a parameter. It always looks for certificate // with SYSTEM_UID, and never finds any Wifi certificates. Assuming that // all certificates need software keystore until we get the get() API // fixed. return true; } /* try { if (DBG) Slog.d(TAG, "Loading client certificate " + Credentials .USER_CERTIFICATE + client); CertificateFactory factory = CertificateFactory.getInstance("X.509"); if (factory == null) { Slog.e(TAG, "Error getting certificate factory"); return; } byte[] certBytes = keyStore.get(Credentials.USER_CERTIFICATE + client); if (certBytes != null) { Certificate cert = (X509Certificate) factory.generateCertificate( new ByteArrayInputStream(certBytes)); if (cert != null) { mNeedsSoftwareKeystore = hasHardwareBackedKey(cert); if (DBG) Slog.d(TAG, "Loaded client certificate " + Credentials .USER_CERTIFICATE + client); if (DBG) Slog.d(TAG, "It " + (mNeedsSoftwareKeystore ? "needs" : "does not need" ) + " software key store"); } else { Slog.d(TAG, "could not generate certificate"); } } else { Slog.e(TAG, "Could not load client certificate " + Credentials .USER_CERTIFICATE + client); mNeedsSoftwareKeystore = true; } } catch(CertificateException e) { Slog.e(TAG, "Could not read certificates"); mCaCert = null; mClientCertificate = null; } */ return false; } /** called when CS ask WiFistateMachine to disconnect the current network * because the score is bad. */ void handleBadNetworkDisconnectReport(int netId, WifiInfo info) { /* TODO verify the bad network is current */ WifiConfiguration config = mConfiguredNetworks.get(netId); if (config != null) { if ((info.getRssi() < WifiConfiguration.UNWANTED_BLACKLIST_SOFT_RSSI_24 && info.is24GHz()) || (info.getRssi() < WifiConfiguration.UNWANTED_BLACKLIST_SOFT_RSSI_5 && info.is5GHz())) { // We got disconnected and RSSI was bad, so disable light config.setAutoJoinStatus(WifiConfiguration.AUTO_JOIN_TEMPORARY_DISABLED + WifiConfiguration.UNWANTED_BLACKLIST_SOFT_BUMP); loge("handleBadNetworkDisconnectReport (+4) " + Integer.toString(netId) + " " + info); } else { // We got disabled but RSSI is good, so disable hard config.setAutoJoinStatus(WifiConfiguration.AUTO_JOIN_TEMPORARY_DISABLED + WifiConfiguration.UNWANTED_BLACKLIST_HARD_BUMP); loge("handleBadNetworkDisconnectReport (+8) " + Integer.toString(netId) + " " + info); } } } boolean handleBSSIDBlackList(int netId, String BSSID, boolean enable) { boolean found = false; if (BSSID == null) return found; // Look for the BSSID in our config store for (WifiConfiguration config : mConfiguredNetworks.values()) { if (config.scanResultCache != null) { for (ScanResult result: config.scanResultCache.values()) { if (result.BSSID.equals(BSSID)) { if (enable) { result.setAutoJoinStatus(ScanResult.ENABLED); } else { // Black list the BSSID we were trying to join // so as the Roam state machine // doesn't pick it up over and over result.setAutoJoinStatus(ScanResult.AUTO_ROAM_DISABLED); found = true; } } } } } return found; } int getMaxDhcpRetries() { return Settings.Global.getInt(mContext.getContentResolver(), Settings.Global.WIFI_MAX_DHCP_RETRY_COUNT, DEFAULT_MAX_DHCP_RETRIES); } void handleSSIDStateChange(int netId, boolean enabled, String message) { WifiConfiguration config = mConfiguredNetworks.get(netId); if (config != null) { if (enabled) { loge("SSID re-enabled for " + config.configKey() + " had autoJoinStatus=" + Integer.toString(config.autoJoinStatus) + " self added " + config.selfAdded + " ephemeral " + config.ephemeral); //TODO: http://b/16381983 Fix Wifi Network Blacklisting //TODO: really I don't know if re-enabling is right but we //TODO: should err on the side of trying to connect //TODO: even if the attempt will fail if (config.autoJoinStatus == WifiConfiguration.AUTO_JOIN_DISABLED_ON_AUTH_FAILURE) { config.setAutoJoinStatus(WifiConfiguration.AUTO_JOIN_ENABLED); } } else { loge("SSID temp disabled for " + config.configKey() + " had autoJoinStatus=" + Integer.toString(config.autoJoinStatus) + " self added " + config.selfAdded + " ephemeral " + config.ephemeral); if (message != null) { loge(" message=" + message); } if (config.selfAdded && config.lastConnected == 0) { // This is a network we self added, and we never succeeded, // the user did not create this network and never entered its credentials, // so we want to be very aggressive in disabling it completely. disableNetwork(config.networkId, WifiConfiguration.DISABLED_AUTH_FAILURE); config.setAutoJoinStatus(WifiConfiguration.AUTO_JOIN_DISABLED_ON_AUTH_FAILURE); config.disableReason = WifiConfiguration.DISABLED_AUTH_FAILURE; } else { if (message != null) { if (message.contains("WRONG_KEY") || message.contains("AUTH_FAILED")) { // This configuration has received an auth failure, so disable it // temporarily because we don't want auto-join to try it out. // this network may be re-enabled by the "usual" // enableAllNetwork function //TODO: resolve interpretation of WRONG_KEY and AUTH_FAILURE: //TODO: if we could count on the wrong_ley or auth_failure //TODO: message to be correct //TODO: then we could just mark the configuration as //TODO: DISABLED_ON_AUTH_FAILURE //TODO: and the configuration will stay there until //TODO: user enter new credentials //TODO: It is not the case however, so instead of disabling, let's //TODO: start blacklisting hard //TODO: http://b/16381983 Fix Wifi Network Blacklisting if (config.autoJoinStatus <= WifiConfiguration.AUTO_JOIN_DISABLED_ON_AUTH_FAILURE) { // 4 auth failure will reach 128 and disable permanently // autoJoinStatus: 0 -> 4 -> 20 -> 84 -> 128 config.setAutoJoinStatus(4 + config.autoJoinStatus * 4); if (config.autoJoinStatus > WifiConfiguration.AUTO_JOIN_DISABLED_ON_AUTH_FAILURE) config.setAutoJoinStatus (WifiConfiguration.AUTO_JOIN_DISABLED_ON_AUTH_FAILURE); } if (DBG) { loge("blacklisted " + config.configKey() + " to " + Integer.toString(config.autoJoinStatus)); } } else if (message.contains("DHCP FAILURE")) { config.numConnectionFailures++; config.lastConnectionFailure = System.currentTimeMillis(); int maxRetries = getMaxDhcpRetries(); // maxRetries == 0 means keep trying forever if (maxRetries > 0 && config.numConnectionFailures > maxRetries) { /** * If we've exceeded the maximum number of retries for DHCP * to a given network, disable the network */ config.setAutoJoinStatus (WifiConfiguration.AUTO_JOIN_DISABLED_ON_AUTH_FAILURE); disableNetwork(netId, WifiConfiguration.DISABLED_DHCP_FAILURE); } if (DBG) { loge("blacklisted " + config.configKey() + " to " + config.autoJoinStatus + " due to DHCP failure, count=" + config.numConnectionFailures); } } message.replace("\n", ""); message.replace("\r", ""); config.lastFailure = message; } } } } } boolean installKeys(WifiEnterpriseConfig config, String name) { boolean ret = true; String privKeyName = Credentials.USER_PRIVATE_KEY + name; String userCertName = Credentials.USER_CERTIFICATE + name; String caCertName = Credentials.CA_CERTIFICATE + name; if (config.getClientCertificate() != null) { byte[] privKeyData = config.getClientPrivateKey().getEncoded(); if (isHardwareBackedKey(config.getClientPrivateKey())) { // Hardware backed key store is secure enough to store keys un-encrypted, this // removes the need for user to punch a PIN to get access to these keys if (DBG) Log.d(TAG, "importing keys " + name + " in hardware backed store"); ret = mKeyStore.importKey(privKeyName, privKeyData, android.os.Process.WIFI_UID, KeyStore.FLAG_NONE); } else { // Software backed key store is NOT secure enough to store keys un-encrypted. // Save keys encrypted so they are protected with user's PIN. User will // have to unlock phone before being able to use these keys and connect to // networks. if (DBG) Log.d(TAG, "importing keys " + name + " in software backed store"); ret = mKeyStore.importKey(privKeyName, privKeyData, Process.WIFI_UID, KeyStore.FLAG_ENCRYPTED); } if (ret == false) { return ret; } ret = putCertInKeyStore(userCertName, config.getClientCertificate()); if (ret == false) { // Remove private key installed mKeyStore.delKey(privKeyName, Process.WIFI_UID); return ret; } } if (config.getCaCertificate() != null) { ret = putCertInKeyStore(caCertName, config.getCaCertificate()); if (ret == false) { if (config.getClientCertificate() != null) { // Remove client key+cert mKeyStore.delKey(privKeyName, Process.WIFI_UID); mKeyStore.delete(userCertName, Process.WIFI_UID); } return ret; } } // Set alias names if (config.getClientCertificate() != null) { config.setClientCertificateAlias(name); config.resetClientKeyEntry(); } if (config.getCaCertificate() != null) { config.setCaCertificateAlias(name); config.resetCaCertificate(); } return ret; } private boolean putCertInKeyStore(String name, Certificate cert) { try { byte[] certData = Credentials.convertToPem(cert); if (DBG) Log.d(TAG, "putting certificate " + name + " in keystore"); return mKeyStore.put(name, certData, Process.WIFI_UID, KeyStore.FLAG_NONE); } catch (IOException e1) { return false; } catch (CertificateException e2) { return false; } } void removeKeys(WifiEnterpriseConfig config) { String client = config.getClientCertificateAlias(); // a valid client certificate is configured if (!TextUtils.isEmpty(client)) { if (DBG) Log.d(TAG, "removing client private key and user cert"); mKeyStore.delKey(Credentials.USER_PRIVATE_KEY + client, Process.WIFI_UID); mKeyStore.delete(Credentials.USER_CERTIFICATE + client, Process.WIFI_UID); } String ca = config.getCaCertificateAlias(); // a valid ca certificate is configured if (!TextUtils.isEmpty(ca)) { if (DBG) Log.d(TAG, "removing CA cert"); mKeyStore.delete(Credentials.CA_CERTIFICATE + ca, Process.WIFI_UID); } } /** Migrates the old style TLS config to the new config style. This should only be used * when restoring an old wpa_supplicant.conf or upgrading from a previous * platform version. * @return true if the config was updated * @hide */ boolean migrateOldEapTlsNative(WifiEnterpriseConfig config, int netId) { String oldPrivateKey = mWifiNative.getNetworkVariable(netId, OLD_PRIVATE_KEY_NAME); /* * If the old configuration value is not present, then there is nothing * to do. */ if (TextUtils.isEmpty(oldPrivateKey)) { return false; } else { // Also ignore it if it's empty quotes. oldPrivateKey = removeDoubleQuotes(oldPrivateKey); if (TextUtils.isEmpty(oldPrivateKey)) { return false; } } config.setFieldValue(WifiEnterpriseConfig.ENGINE_KEY, WifiEnterpriseConfig.ENGINE_ENABLE); config.setFieldValue(WifiEnterpriseConfig.ENGINE_ID_KEY, WifiEnterpriseConfig.ENGINE_ID_KEYSTORE); /* * The old key started with the keystore:// URI prefix, but we don't * need that anymore. Trim it off if it exists. */ final String keyName; if (oldPrivateKey.startsWith(WifiEnterpriseConfig.KEYSTORE_URI)) { keyName = new String( oldPrivateKey.substring(WifiEnterpriseConfig.KEYSTORE_URI.length())); } else { keyName = oldPrivateKey; } config.setFieldValue(WifiEnterpriseConfig.PRIVATE_KEY_ID_KEY, keyName); mWifiNative.setNetworkVariable(netId, WifiEnterpriseConfig.ENGINE_KEY, config.getFieldValue(WifiEnterpriseConfig.ENGINE_KEY, "")); mWifiNative.setNetworkVariable(netId, WifiEnterpriseConfig.ENGINE_ID_KEY, config.getFieldValue(WifiEnterpriseConfig.ENGINE_ID_KEY, "")); mWifiNative.setNetworkVariable(netId, WifiEnterpriseConfig.PRIVATE_KEY_ID_KEY, config.getFieldValue(WifiEnterpriseConfig.PRIVATE_KEY_ID_KEY, "")); // Remove old private_key string so we don't run this again. mWifiNative.setNetworkVariable(netId, OLD_PRIVATE_KEY_NAME, EMPTY_VALUE); return true; } /** Migrate certs from global pool to wifi UID if not already done */ void migrateCerts(WifiEnterpriseConfig config) { String client = config.getClientCertificateAlias(); // a valid client certificate is configured if (!TextUtils.isEmpty(client)) { if (!mKeyStore.contains(Credentials.USER_PRIVATE_KEY + client, Process.WIFI_UID)) { mKeyStore.duplicate(Credentials.USER_PRIVATE_KEY + client, -1, Credentials.USER_PRIVATE_KEY + client, Process.WIFI_UID); mKeyStore.duplicate(Credentials.USER_CERTIFICATE + client, -1, Credentials.USER_CERTIFICATE + client, Process.WIFI_UID); } } String ca = config.getCaCertificateAlias(); // a valid ca certificate is configured if (!TextUtils.isEmpty(ca)) { if (!mKeyStore.contains(Credentials.CA_CERTIFICATE + ca, Process.WIFI_UID)) { mKeyStore.duplicate(Credentials.CA_CERTIFICATE + ca, -1, Credentials.CA_CERTIFICATE + ca, Process.WIFI_UID); } } } }