/* * Copyright (C) 2017 The Android Open Source Project * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ package com.android.server.wifi; import android.content.Context; import android.hardware.wifi.supplicant.V1_0.ISupplicantStaNetwork; import android.hardware.wifi.supplicant.V1_0.ISupplicantStaNetworkCallback; import android.hardware.wifi.supplicant.V1_0.SupplicantStatus; import android.hardware.wifi.supplicant.V1_0.SupplicantStatusCode; import android.net.wifi.WifiConfiguration; import android.net.wifi.WifiEnterpriseConfig; import android.os.RemoteException; import android.text.TextUtils; import android.util.Log; import android.util.MutableBoolean; import com.android.internal.R; import com.android.internal.annotations.VisibleForTesting; import com.android.internal.util.ArrayUtils; import com.android.server.wifi.util.NativeUtil; import org.json.JSONException; import org.json.JSONObject; import java.io.UnsupportedEncodingException; import java.net.URLDecoder; import java.net.URLEncoder; import java.util.ArrayList; import java.util.BitSet; import java.util.HashMap; import java.util.Iterator; import java.util.Map; import java.util.regex.Matcher; import java.util.regex.Pattern; /** * Wrapper class for ISupplicantStaNetwork HAL calls. Gets and sets supplicant sta network variables * and interacts with networks. * Public fields should be treated as invalid until their 'get' method is called, which will set the * value if it returns true */ public class SupplicantStaNetworkHal { private static final String TAG = "SupplicantStaNetworkHal"; @VisibleForTesting public static final String ID_STRING_KEY_FQDN = "fqdn"; @VisibleForTesting public static final String ID_STRING_KEY_CREATOR_UID = "creatorUid"; @VisibleForTesting public static final String ID_STRING_KEY_CONFIG_KEY = "configKey"; /** * Regex pattern for extracting the GSM sim authentication response params from a string. * Matches a strings like the following: "[::]"; */ private static final Pattern GSM_AUTH_RESPONSE_PARAMS_PATTERN = Pattern.compile(":([0-9a-fA-F]+):([0-9a-fA-F]+)"); /** * Regex pattern for extracting the UMTS sim authentication response params from a string. * Matches a strings like the following: ":::"; */ private static final Pattern UMTS_AUTH_RESPONSE_PARAMS_PATTERN = Pattern.compile("^:([0-9a-fA-F]+):([0-9a-fA-F]+):([0-9a-fA-F]+)$"); /** * Regex pattern for extracting the UMTS sim auts response params from a string. * Matches a strings like the following: ":"; */ private static final Pattern UMTS_AUTS_RESPONSE_PARAMS_PATTERN = Pattern.compile("^:([0-9a-fA-F]+)$"); private final Object mLock = new Object(); private final String mIfaceName; private final WifiMonitor mWifiMonitor; private ISupplicantStaNetwork mISupplicantStaNetwork; private ISupplicantStaNetworkCallback mISupplicantStaNetworkCallback; private boolean mVerboseLoggingEnabled = false; // Indicates whether the system is capable of 802.11r fast BSS transition. private boolean mSystemSupportsFastBssTransition = false; // Network variables read from wpa_supplicant. private int mNetworkId; private ArrayList mSsid; private byte[/* 6 */] mBssid; private boolean mScanSsid; private int mKeyMgmtMask; private int mProtoMask; private int mAuthAlgMask; private int mGroupCipherMask; private int mPairwiseCipherMask; private String mPskPassphrase; private byte[] mPsk; private ArrayList mWepKey; private int mWepTxKeyIdx; private boolean mRequirePmf; private String mIdStr; private int mEapMethod; private int mEapPhase2Method; private ArrayList mEapIdentity; private ArrayList mEapAnonymousIdentity; private ArrayList mEapPassword; private String mEapCACert; private String mEapCAPath; private String mEapClientCert; private String mEapPrivateKeyId; private String mEapSubjectMatch; private String mEapAltSubjectMatch; private boolean mEapEngine; private String mEapEngineID; private String mEapDomainSuffixMatch; SupplicantStaNetworkHal(ISupplicantStaNetwork iSupplicantStaNetwork, String ifaceName, Context context, WifiMonitor monitor) { mISupplicantStaNetwork = iSupplicantStaNetwork; mIfaceName = ifaceName; mWifiMonitor = monitor; mSystemSupportsFastBssTransition = context.getResources().getBoolean(R.bool.config_wifi_fast_bss_transition_enabled); } /** * Enable/Disable verbose logging. * * @param enable true to enable, false to disable. */ void enableVerboseLogging(boolean enable) { mVerboseLoggingEnabled = enable; } /** * Read network variables from wpa_supplicant into the provided WifiConfiguration object. * * @param config WifiConfiguration object to be populated. * @param networkExtras Map of network extras parsed from wpa_supplicant. * @return true if succeeds, false otherwise. * @throws IllegalArgumentException on malformed configuration params. */ public boolean loadWifiConfiguration(WifiConfiguration config, Map networkExtras) { if (config == null) return false; /** SSID */ config.SSID = null; if (getSsid() && !ArrayUtils.isEmpty(mSsid)) { config.SSID = NativeUtil.encodeSsid(mSsid); } else { Log.e(TAG, "failed to read ssid"); return false; } /** Network Id */ config.networkId = -1; if (getId()) { config.networkId = mNetworkId; } else { Log.e(TAG, "getId failed"); return false; } /** BSSID */ config.getNetworkSelectionStatus().setNetworkSelectionBSSID(null); if (getBssid() && !ArrayUtils.isEmpty(mBssid)) { config.getNetworkSelectionStatus().setNetworkSelectionBSSID( NativeUtil.macAddressFromByteArray(mBssid)); } /** Scan SSID (Is Hidden Network?) */ config.hiddenSSID = false; if (getScanSsid()) { config.hiddenSSID = mScanSsid; } /** Require PMF*/ config.requirePMF = false; if (getRequirePmf()) { config.requirePMF = mRequirePmf; } /** WEP keys **/ config.wepTxKeyIndex = -1; if (getWepTxKeyIdx()) { config.wepTxKeyIndex = mWepTxKeyIdx; } for (int i = 0; i < 4; i++) { config.wepKeys[i] = null; if (getWepKey(i) && !ArrayUtils.isEmpty(mWepKey)) { config.wepKeys[i] = NativeUtil.bytesToHexOrQuotedAsciiString(mWepKey); } } /** PSK pass phrase */ config.preSharedKey = null; if (getPskPassphrase() && !TextUtils.isEmpty(mPskPassphrase)) { config.preSharedKey = NativeUtil.addEnclosingQuotes(mPskPassphrase); } else if (getPsk() && !ArrayUtils.isEmpty(mPsk)) { config.preSharedKey = NativeUtil.hexStringFromByteArray(mPsk); } /** allowedKeyManagement */ if (getKeyMgmt()) { BitSet keyMgmtMask = supplicantToWifiConfigurationKeyMgmtMask(mKeyMgmtMask); config.allowedKeyManagement = removeFastTransitionFlags(keyMgmtMask); } /** allowedProtocols */ if (getProto()) { config.allowedProtocols = supplicantToWifiConfigurationProtoMask(mProtoMask); } /** allowedAuthAlgorithms */ if (getAuthAlg()) { config.allowedAuthAlgorithms = supplicantToWifiConfigurationAuthAlgMask(mAuthAlgMask); } /** allowedGroupCiphers */ if (getGroupCipher()) { config.allowedGroupCiphers = supplicantToWifiConfigurationGroupCipherMask(mGroupCipherMask); } /** allowedPairwiseCiphers */ if (getPairwiseCipher()) { config.allowedPairwiseCiphers = supplicantToWifiConfigurationPairwiseCipherMask(mPairwiseCipherMask); } /** metadata: idstr */ if (getIdStr() && !TextUtils.isEmpty(mIdStr)) { Map metadata = parseNetworkExtra(mIdStr); networkExtras.putAll(metadata); } else { Log.w(TAG, "getIdStr failed or empty"); } return loadWifiEnterpriseConfig(config.SSID, config.enterpriseConfig); } /** * Save an entire WifiConfiguration to wpa_supplicant via HIDL. * * @param config WifiConfiguration object to be saved. * @return true if succeeds, false otherwise. * @throws IllegalArgumentException on malformed configuration params. */ public boolean saveWifiConfiguration(WifiConfiguration config) { if (config == null) return false; /** SSID */ if (config.SSID != null) { if (!setSsid(NativeUtil.decodeSsid(config.SSID))) { Log.e(TAG, "failed to set SSID: " + config.SSID); return false; } } /** BSSID */ String bssidStr = config.getNetworkSelectionStatus().getNetworkSelectionBSSID(); if (bssidStr != null) { byte[] bssid = NativeUtil.macAddressToByteArray(bssidStr); if (!setBssid(bssid)) { Log.e(TAG, "failed to set BSSID: " + bssidStr); return false; } } /** Pre Shared Key. This can either be quoted ASCII passphrase or hex string for raw psk */ if (config.preSharedKey != null) { if (config.preSharedKey.startsWith("\"")) { if (!setPskPassphrase(NativeUtil.removeEnclosingQuotes(config.preSharedKey))) { Log.e(TAG, "failed to set psk passphrase"); return false; } } else { if (!setPsk(NativeUtil.hexStringToByteArray(config.preSharedKey))) { Log.e(TAG, "failed to set psk"); return false; } } } /** Wep Keys */ boolean hasSetKey = false; if (config.wepKeys != null) { for (int i = 0; i < config.wepKeys.length; i++) { if (config.wepKeys[i] != null) { if (!setWepKey( i, NativeUtil.hexOrQuotedAsciiStringToBytes(config.wepKeys[i]))) { Log.e(TAG, "failed to set wep_key " + i); return false; } hasSetKey = true; } } } /** Wep Tx Key Idx */ if (hasSetKey) { if (!setWepTxKeyIdx(config.wepTxKeyIndex)) { Log.e(TAG, "failed to set wep_tx_keyidx: " + config.wepTxKeyIndex); return false; } } /** HiddenSSID */ if (!setScanSsid(config.hiddenSSID)) { Log.e(TAG, config.SSID + ": failed to set hiddenSSID: " + config.hiddenSSID); return false; } /** RequirePMF */ if (!setRequirePmf(config.requirePMF)) { Log.e(TAG, config.SSID + ": failed to set requirePMF: " + config.requirePMF); return false; } /** Key Management Scheme */ if (config.allowedKeyManagement.cardinality() != 0) { // Add FT flags if supported. BitSet keyMgmtMask = addFastTransitionFlags(config.allowedKeyManagement); if (!setKeyMgmt(wifiConfigurationToSupplicantKeyMgmtMask(keyMgmtMask))) { Log.e(TAG, "failed to set Key Management"); return false; } } /** Security Protocol */ if (config.allowedProtocols.cardinality() != 0 && !setProto(wifiConfigurationToSupplicantProtoMask(config.allowedProtocols))) { Log.e(TAG, "failed to set Security Protocol"); return false; } /** Auth Algorithm */ if (config.allowedAuthAlgorithms.cardinality() != 0 && !setAuthAlg(wifiConfigurationToSupplicantAuthAlgMask( config.allowedAuthAlgorithms))) { Log.e(TAG, "failed to set AuthAlgorithm"); return false; } /** Group Cipher */ if (config.allowedGroupCiphers.cardinality() != 0 && !setGroupCipher(wifiConfigurationToSupplicantGroupCipherMask( config.allowedGroupCiphers))) { Log.e(TAG, "failed to set Group Cipher"); return false; } /** Pairwise Cipher*/ if (config.allowedPairwiseCiphers.cardinality() != 0 && !setPairwiseCipher(wifiConfigurationToSupplicantPairwiseCipherMask( config.allowedPairwiseCiphers))) { Log.e(TAG, "failed to set PairwiseCipher"); return false; } /** metadata: FQDN + ConfigKey + CreatorUid */ final Map metadata = new HashMap(); if (config.isPasspoint()) { metadata.put(ID_STRING_KEY_FQDN, config.FQDN); } metadata.put(ID_STRING_KEY_CONFIG_KEY, config.configKey()); metadata.put(ID_STRING_KEY_CREATOR_UID, Integer.toString(config.creatorUid)); if (!setIdStr(createNetworkExtra(metadata))) { Log.e(TAG, "failed to set id string"); return false; } /** UpdateIdentifier */ if (config.updateIdentifier != null && !setUpdateIdentifier(Integer.parseInt(config.updateIdentifier))) { Log.e(TAG, "failed to set update identifier"); return false; } // Finish here if no EAP config to set if (config.enterpriseConfig != null && config.enterpriseConfig.getEapMethod() != WifiEnterpriseConfig.Eap.NONE) { if (!saveWifiEnterpriseConfig(config.SSID, config.enterpriseConfig)) { return false; } } // Now that the network is configured fully, start listening for callback events. mISupplicantStaNetworkCallback = new SupplicantStaNetworkHalCallback(config.networkId, config.SSID); if (!registerCallback(mISupplicantStaNetworkCallback)) { Log.e(TAG, "Failed to register callback"); return false; } return true; } /** * Read network variables from wpa_supplicant into the provided WifiEnterpriseConfig object. * * @param ssid SSID of the network. (Used for logging purposes only) * @param eapConfig WifiEnterpriseConfig object to be populated. * @return true if succeeds, false otherwise. */ private boolean loadWifiEnterpriseConfig(String ssid, WifiEnterpriseConfig eapConfig) { if (eapConfig == null) return false; /** EAP method */ if (getEapMethod()) { eapConfig.setEapMethod(supplicantToWifiConfigurationEapMethod(mEapMethod)); } else { // Invalid eap method could be because it's not an enterprise config. Log.e(TAG, "failed to get eap method. Assumimg not an enterprise network"); return true; } /** EAP Phase 2 method */ if (getEapPhase2Method()) { eapConfig.setPhase2Method( supplicantToWifiConfigurationEapPhase2Method(mEapPhase2Method)); } else { // We cannot have an invalid eap phase 2 method. Return failure. Log.e(TAG, "failed to get eap phase2 method"); return false; } /** EAP Identity */ if (getEapIdentity() && !ArrayUtils.isEmpty(mEapIdentity)) { eapConfig.setFieldValue( WifiEnterpriseConfig.IDENTITY_KEY, NativeUtil.stringFromByteArrayList(mEapIdentity)); } /** EAP Anonymous Identity */ if (getEapAnonymousIdentity() && !ArrayUtils.isEmpty(mEapAnonymousIdentity)) { eapConfig.setFieldValue( WifiEnterpriseConfig.ANON_IDENTITY_KEY, NativeUtil.stringFromByteArrayList(mEapAnonymousIdentity)); } /** EAP Password */ if (getEapPassword() && !ArrayUtils.isEmpty(mEapPassword)) { eapConfig.setFieldValue( WifiEnterpriseConfig.PASSWORD_KEY, NativeUtil.stringFromByteArrayList(mEapPassword)); } /** EAP Client Cert */ if (getEapClientCert() && !TextUtils.isEmpty(mEapClientCert)) { eapConfig.setFieldValue(WifiEnterpriseConfig.CLIENT_CERT_KEY, mEapClientCert); } /** EAP CA Cert */ if (getEapCACert() && !TextUtils.isEmpty(mEapCACert)) { eapConfig.setFieldValue(WifiEnterpriseConfig.CA_CERT_KEY, mEapCACert); } /** EAP Subject Match */ if (getEapSubjectMatch() && !TextUtils.isEmpty(mEapSubjectMatch)) { eapConfig.setFieldValue(WifiEnterpriseConfig.SUBJECT_MATCH_KEY, mEapSubjectMatch); } /** EAP Engine ID */ if (getEapEngineID() && !TextUtils.isEmpty(mEapEngineID)) { eapConfig.setFieldValue(WifiEnterpriseConfig.ENGINE_ID_KEY, mEapEngineID); } /** EAP Engine. Set this only if the engine id is non null. */ if (getEapEngine() && !TextUtils.isEmpty(mEapEngineID)) { eapConfig.setFieldValue( WifiEnterpriseConfig.ENGINE_KEY, mEapEngine ? WifiEnterpriseConfig.ENGINE_ENABLE : WifiEnterpriseConfig.ENGINE_DISABLE); } /** EAP Private Key */ if (getEapPrivateKeyId() && !TextUtils.isEmpty(mEapPrivateKeyId)) { eapConfig.setFieldValue(WifiEnterpriseConfig.PRIVATE_KEY_ID_KEY, mEapPrivateKeyId); } /** EAP Alt Subject Match */ if (getEapAltSubjectMatch() && !TextUtils.isEmpty(mEapAltSubjectMatch)) { eapConfig.setFieldValue(WifiEnterpriseConfig.ALTSUBJECT_MATCH_KEY, mEapAltSubjectMatch); } /** EAP Domain Suffix Match */ if (getEapDomainSuffixMatch() && !TextUtils.isEmpty(mEapDomainSuffixMatch)) { eapConfig.setFieldValue( WifiEnterpriseConfig.DOM_SUFFIX_MATCH_KEY, mEapDomainSuffixMatch); } /** EAP CA Path*/ if (getEapCAPath() && !TextUtils.isEmpty(mEapCAPath)) { eapConfig.setFieldValue(WifiEnterpriseConfig.CA_PATH_KEY, mEapCAPath); } return true; } /** * Save network variables from the provided WifiEnterpriseConfig object to wpa_supplicant. * * @param ssid SSID of the network. (Used for logging purposes only) * @param eapConfig WifiEnterpriseConfig object to be saved. * @return true if succeeds, false otherwise. */ private boolean saveWifiEnterpriseConfig(String ssid, WifiEnterpriseConfig eapConfig) { if (eapConfig == null) return false; /** EAP method */ if (!setEapMethod(wifiConfigurationToSupplicantEapMethod(eapConfig.getEapMethod()))) { Log.e(TAG, ssid + ": failed to set eap method: " + eapConfig.getEapMethod()); return false; } /** EAP Phase 2 method */ if (!setEapPhase2Method(wifiConfigurationToSupplicantEapPhase2Method( eapConfig.getPhase2Method()))) { Log.e(TAG, ssid + ": failed to set eap phase 2 method: " + eapConfig.getPhase2Method()); return false; } String eapParam = null; /** EAP Identity */ eapParam = eapConfig.getFieldValue(WifiEnterpriseConfig.IDENTITY_KEY); if (!TextUtils.isEmpty(eapParam) && !setEapIdentity(NativeUtil.stringToByteArrayList(eapParam))) { Log.e(TAG, ssid + ": failed to set eap identity: " + eapParam); return false; } /** EAP Anonymous Identity */ eapParam = eapConfig.getFieldValue(WifiEnterpriseConfig.ANON_IDENTITY_KEY); if (!TextUtils.isEmpty(eapParam) && !setEapAnonymousIdentity(NativeUtil.stringToByteArrayList(eapParam))) { Log.e(TAG, ssid + ": failed to set eap anonymous identity: " + eapParam); return false; } /** EAP Password */ eapParam = eapConfig.getFieldValue(WifiEnterpriseConfig.PASSWORD_KEY); if (!TextUtils.isEmpty(eapParam) && !setEapPassword(NativeUtil.stringToByteArrayList(eapParam))) { Log.e(TAG, ssid + ": failed to set eap password"); return false; } /** EAP Client Cert */ eapParam = eapConfig.getFieldValue(WifiEnterpriseConfig.CLIENT_CERT_KEY); if (!TextUtils.isEmpty(eapParam) && !setEapClientCert(eapParam)) { Log.e(TAG, ssid + ": failed to set eap client cert: " + eapParam); return false; } /** EAP CA Cert */ eapParam = eapConfig.getFieldValue(WifiEnterpriseConfig.CA_CERT_KEY); if (!TextUtils.isEmpty(eapParam) && !setEapCACert(eapParam)) { Log.e(TAG, ssid + ": failed to set eap ca cert: " + eapParam); return false; } /** EAP Subject Match */ eapParam = eapConfig.getFieldValue(WifiEnterpriseConfig.SUBJECT_MATCH_KEY); if (!TextUtils.isEmpty(eapParam) && !setEapSubjectMatch(eapParam)) { Log.e(TAG, ssid + ": failed to set eap subject match: " + eapParam); return false; } /** EAP Engine ID */ eapParam = eapConfig.getFieldValue(WifiEnterpriseConfig.ENGINE_ID_KEY); if (!TextUtils.isEmpty(eapParam) && !setEapEngineID(eapParam)) { Log.e(TAG, ssid + ": failed to set eap engine id: " + eapParam); return false; } /** EAP Engine */ eapParam = eapConfig.getFieldValue(WifiEnterpriseConfig.ENGINE_KEY); if (!TextUtils.isEmpty(eapParam) && !setEapEngine( eapParam.equals(WifiEnterpriseConfig.ENGINE_ENABLE) ? true : false)) { Log.e(TAG, ssid + ": failed to set eap engine: " + eapParam); return false; } /** EAP Private Key */ eapParam = eapConfig.getFieldValue(WifiEnterpriseConfig.PRIVATE_KEY_ID_KEY); if (!TextUtils.isEmpty(eapParam) && !setEapPrivateKeyId(eapParam)) { Log.e(TAG, ssid + ": failed to set eap private key: " + eapParam); return false; } /** EAP Alt Subject Match */ eapParam = eapConfig.getFieldValue(WifiEnterpriseConfig.ALTSUBJECT_MATCH_KEY); if (!TextUtils.isEmpty(eapParam) && !setEapAltSubjectMatch(eapParam)) { Log.e(TAG, ssid + ": failed to set eap alt subject match: " + eapParam); return false; } /** EAP Domain Suffix Match */ eapParam = eapConfig.getFieldValue(WifiEnterpriseConfig.DOM_SUFFIX_MATCH_KEY); if (!TextUtils.isEmpty(eapParam) && !setEapDomainSuffixMatch(eapParam)) { Log.e(TAG, ssid + ": failed to set eap domain suffix match: " + eapParam); return false; } /** EAP CA Path*/ eapParam = eapConfig.getFieldValue(WifiEnterpriseConfig.CA_PATH_KEY); if (!TextUtils.isEmpty(eapParam) && !setEapCAPath(eapParam)) { Log.e(TAG, ssid + ": failed to set eap ca path: " + eapParam); return false; } /** EAP Proactive Key Caching */ eapParam = eapConfig.getFieldValue(WifiEnterpriseConfig.OPP_KEY_CACHING); if (!TextUtils.isEmpty(eapParam) && !setEapProactiveKeyCaching(eapParam.equals("1") ? true : false)) { Log.e(TAG, ssid + ": failed to set proactive key caching: " + eapParam); return false; } return true; } /** * Maps WifiConfiguration Key Management BitSet to Supplicant HIDL bitmask int * TODO(b/32571829): Update mapping when fast transition keys are added * @return bitmask int describing the allowed Key Management schemes, readable by the Supplicant * HIDL hal */ private static int wifiConfigurationToSupplicantKeyMgmtMask(BitSet keyMgmt) { int mask = 0; for (int bit = keyMgmt.nextSetBit(0); bit != -1; bit = keyMgmt.nextSetBit(bit + 1)) { switch (bit) { case WifiConfiguration.KeyMgmt.NONE: mask |= ISupplicantStaNetwork.KeyMgmtMask.NONE; break; case WifiConfiguration.KeyMgmt.WPA_PSK: mask |= ISupplicantStaNetwork.KeyMgmtMask.WPA_PSK; break; case WifiConfiguration.KeyMgmt.WPA_EAP: mask |= ISupplicantStaNetwork.KeyMgmtMask.WPA_EAP; break; case WifiConfiguration.KeyMgmt.IEEE8021X: mask |= ISupplicantStaNetwork.KeyMgmtMask.IEEE8021X; break; case WifiConfiguration.KeyMgmt.OSEN: mask |= ISupplicantStaNetwork.KeyMgmtMask.OSEN; break; case WifiConfiguration.KeyMgmt.FT_PSK: mask |= ISupplicantStaNetwork.KeyMgmtMask.FT_PSK; break; case WifiConfiguration.KeyMgmt.FT_EAP: mask |= ISupplicantStaNetwork.KeyMgmtMask.FT_EAP; break; case WifiConfiguration.KeyMgmt.WPA2_PSK: // This should never happen default: throw new IllegalArgumentException( "Invalid protoMask bit in keyMgmt: " + bit); } } return mask; } private static int wifiConfigurationToSupplicantProtoMask(BitSet protoMask) { int mask = 0; for (int bit = protoMask.nextSetBit(0); bit != -1; bit = protoMask.nextSetBit(bit + 1)) { switch (bit) { case WifiConfiguration.Protocol.WPA: mask |= ISupplicantStaNetwork.ProtoMask.WPA; break; case WifiConfiguration.Protocol.RSN: mask |= ISupplicantStaNetwork.ProtoMask.RSN; break; case WifiConfiguration.Protocol.OSEN: mask |= ISupplicantStaNetwork.ProtoMask.OSEN; break; default: throw new IllegalArgumentException( "Invalid protoMask bit in wificonfig: " + bit); } } return mask; }; private static int wifiConfigurationToSupplicantAuthAlgMask(BitSet authAlgMask) { int mask = 0; for (int bit = authAlgMask.nextSetBit(0); bit != -1; bit = authAlgMask.nextSetBit(bit + 1)) { switch (bit) { case WifiConfiguration.AuthAlgorithm.OPEN: mask |= ISupplicantStaNetwork.AuthAlgMask.OPEN; break; case WifiConfiguration.AuthAlgorithm.SHARED: mask |= ISupplicantStaNetwork.AuthAlgMask.SHARED; break; case WifiConfiguration.AuthAlgorithm.LEAP: mask |= ISupplicantStaNetwork.AuthAlgMask.LEAP; break; default: throw new IllegalArgumentException( "Invalid authAlgMask bit in wificonfig: " + bit); } } return mask; }; private static int wifiConfigurationToSupplicantGroupCipherMask(BitSet groupCipherMask) { int mask = 0; for (int bit = groupCipherMask.nextSetBit(0); bit != -1; bit = groupCipherMask.nextSetBit(bit + 1)) { switch (bit) { case WifiConfiguration.GroupCipher.WEP40: mask |= ISupplicantStaNetwork.GroupCipherMask.WEP40; break; case WifiConfiguration.GroupCipher.WEP104: mask |= ISupplicantStaNetwork.GroupCipherMask.WEP104; break; case WifiConfiguration.GroupCipher.TKIP: mask |= ISupplicantStaNetwork.GroupCipherMask.TKIP; break; case WifiConfiguration.GroupCipher.CCMP: mask |= ISupplicantStaNetwork.GroupCipherMask.CCMP; break; case WifiConfiguration.GroupCipher.GTK_NOT_USED: mask |= ISupplicantStaNetwork.GroupCipherMask.GTK_NOT_USED; break; default: throw new IllegalArgumentException( "Invalid GroupCipherMask bit in wificonfig: " + bit); } } return mask; }; private static int wifiConfigurationToSupplicantPairwiseCipherMask(BitSet pairwiseCipherMask) { int mask = 0; for (int bit = pairwiseCipherMask.nextSetBit(0); bit != -1; bit = pairwiseCipherMask.nextSetBit(bit + 1)) { switch (bit) { case WifiConfiguration.PairwiseCipher.NONE: mask |= ISupplicantStaNetwork.PairwiseCipherMask.NONE; break; case WifiConfiguration.PairwiseCipher.TKIP: mask |= ISupplicantStaNetwork.PairwiseCipherMask.TKIP; break; case WifiConfiguration.PairwiseCipher.CCMP: mask |= ISupplicantStaNetwork.PairwiseCipherMask.CCMP; break; default: throw new IllegalArgumentException( "Invalid pairwiseCipherMask bit in wificonfig: " + bit); } } return mask; }; private static int supplicantToWifiConfigurationEapMethod(int value) { switch (value) { case ISupplicantStaNetwork.EapMethod.PEAP: return WifiEnterpriseConfig.Eap.PEAP; case ISupplicantStaNetwork.EapMethod.TLS: return WifiEnterpriseConfig.Eap.TLS; case ISupplicantStaNetwork.EapMethod.TTLS: return WifiEnterpriseConfig.Eap.TTLS; case ISupplicantStaNetwork.EapMethod.PWD: return WifiEnterpriseConfig.Eap.PWD; case ISupplicantStaNetwork.EapMethod.SIM: return WifiEnterpriseConfig.Eap.SIM; case ISupplicantStaNetwork.EapMethod.AKA: return WifiEnterpriseConfig.Eap.AKA; case ISupplicantStaNetwork.EapMethod.AKA_PRIME: return WifiEnterpriseConfig.Eap.AKA_PRIME; case ISupplicantStaNetwork.EapMethod.WFA_UNAUTH_TLS: return WifiEnterpriseConfig.Eap.UNAUTH_TLS; // WifiEnterpriseConfig.Eap.NONE: default: Log.e(TAG, "invalid eap method value from supplicant: " + value); return -1; } }; private static int supplicantToWifiConfigurationEapPhase2Method(int value) { switch (value) { case ISupplicantStaNetwork.EapPhase2Method.NONE: return WifiEnterpriseConfig.Phase2.NONE; case ISupplicantStaNetwork.EapPhase2Method.PAP: return WifiEnterpriseConfig.Phase2.PAP; case ISupplicantStaNetwork.EapPhase2Method.MSPAP: return WifiEnterpriseConfig.Phase2.MSCHAP; case ISupplicantStaNetwork.EapPhase2Method.MSPAPV2: return WifiEnterpriseConfig.Phase2.MSCHAPV2; case ISupplicantStaNetwork.EapPhase2Method.GTC: return WifiEnterpriseConfig.Phase2.GTC; case ISupplicantStaNetwork.EapPhase2Method.SIM: return WifiEnterpriseConfig.Phase2.SIM; case ISupplicantStaNetwork.EapPhase2Method.AKA: return WifiEnterpriseConfig.Phase2.AKA; case ISupplicantStaNetwork.EapPhase2Method.AKA_PRIME: return WifiEnterpriseConfig.Phase2.AKA_PRIME; default: Log.e(TAG, "invalid eap phase2 method value from supplicant: " + value); return -1; } }; private static int supplicantMaskValueToWifiConfigurationBitSet(int supplicantMask, int supplicantValue, BitSet bitset, int bitSetPosition) { bitset.set(bitSetPosition, (supplicantMask & supplicantValue) == supplicantValue); int modifiedSupplicantMask = supplicantMask & ~supplicantValue; return modifiedSupplicantMask; } private static BitSet supplicantToWifiConfigurationKeyMgmtMask(int mask) { BitSet bitset = new BitSet(); mask = supplicantMaskValueToWifiConfigurationBitSet( mask, ISupplicantStaNetwork.KeyMgmtMask.NONE, bitset, WifiConfiguration.KeyMgmt.NONE); mask = supplicantMaskValueToWifiConfigurationBitSet( mask, ISupplicantStaNetwork.KeyMgmtMask.WPA_PSK, bitset, WifiConfiguration.KeyMgmt.WPA_PSK); mask = supplicantMaskValueToWifiConfigurationBitSet( mask, ISupplicantStaNetwork.KeyMgmtMask.WPA_EAP, bitset, WifiConfiguration.KeyMgmt.WPA_EAP); mask = supplicantMaskValueToWifiConfigurationBitSet( mask, ISupplicantStaNetwork.KeyMgmtMask.IEEE8021X, bitset, WifiConfiguration.KeyMgmt.IEEE8021X); mask = supplicantMaskValueToWifiConfigurationBitSet( mask, ISupplicantStaNetwork.KeyMgmtMask.OSEN, bitset, WifiConfiguration.KeyMgmt.OSEN); mask = supplicantMaskValueToWifiConfigurationBitSet( mask, ISupplicantStaNetwork.KeyMgmtMask.FT_PSK, bitset, WifiConfiguration.KeyMgmt.FT_PSK); mask = supplicantMaskValueToWifiConfigurationBitSet( mask, ISupplicantStaNetwork.KeyMgmtMask.FT_EAP, bitset, WifiConfiguration.KeyMgmt.FT_EAP); if (mask != 0) { throw new IllegalArgumentException( "invalid key mgmt mask from supplicant: " + mask); } return bitset; } private static BitSet supplicantToWifiConfigurationProtoMask(int mask) { BitSet bitset = new BitSet(); mask = supplicantMaskValueToWifiConfigurationBitSet( mask, ISupplicantStaNetwork.ProtoMask.WPA, bitset, WifiConfiguration.Protocol.WPA); mask = supplicantMaskValueToWifiConfigurationBitSet( mask, ISupplicantStaNetwork.ProtoMask.RSN, bitset, WifiConfiguration.Protocol.RSN); mask = supplicantMaskValueToWifiConfigurationBitSet( mask, ISupplicantStaNetwork.ProtoMask.OSEN, bitset, WifiConfiguration.Protocol.OSEN); if (mask != 0) { throw new IllegalArgumentException( "invalid proto mask from supplicant: " + mask); } return bitset; }; private static BitSet supplicantToWifiConfigurationAuthAlgMask(int mask) { BitSet bitset = new BitSet(); mask = supplicantMaskValueToWifiConfigurationBitSet( mask, ISupplicantStaNetwork.AuthAlgMask.OPEN, bitset, WifiConfiguration.AuthAlgorithm.OPEN); mask = supplicantMaskValueToWifiConfigurationBitSet( mask, ISupplicantStaNetwork.AuthAlgMask.SHARED, bitset, WifiConfiguration.AuthAlgorithm.SHARED); mask = supplicantMaskValueToWifiConfigurationBitSet( mask, ISupplicantStaNetwork.AuthAlgMask.LEAP, bitset, WifiConfiguration.AuthAlgorithm.LEAP); if (mask != 0) { throw new IllegalArgumentException( "invalid auth alg mask from supplicant: " + mask); } return bitset; }; private static BitSet supplicantToWifiConfigurationGroupCipherMask(int mask) { BitSet bitset = new BitSet(); mask = supplicantMaskValueToWifiConfigurationBitSet( mask, ISupplicantStaNetwork.GroupCipherMask.WEP40, bitset, WifiConfiguration.GroupCipher.WEP40); mask = supplicantMaskValueToWifiConfigurationBitSet( mask, ISupplicantStaNetwork.GroupCipherMask.WEP104, bitset, WifiConfiguration.GroupCipher.WEP104); mask = supplicantMaskValueToWifiConfigurationBitSet( mask, ISupplicantStaNetwork.GroupCipherMask.TKIP, bitset, WifiConfiguration.GroupCipher.TKIP); mask = supplicantMaskValueToWifiConfigurationBitSet( mask, ISupplicantStaNetwork.GroupCipherMask.CCMP, bitset, WifiConfiguration.GroupCipher.CCMP); mask = supplicantMaskValueToWifiConfigurationBitSet( mask, ISupplicantStaNetwork.GroupCipherMask.GTK_NOT_USED, bitset, WifiConfiguration.GroupCipher.GTK_NOT_USED); if (mask != 0) { throw new IllegalArgumentException( "invalid group cipher mask from supplicant: " + mask); } return bitset; }; private static BitSet supplicantToWifiConfigurationPairwiseCipherMask(int mask) { BitSet bitset = new BitSet(); mask = supplicantMaskValueToWifiConfigurationBitSet( mask, ISupplicantStaNetwork.PairwiseCipherMask.NONE, bitset, WifiConfiguration.PairwiseCipher.NONE); mask = supplicantMaskValueToWifiConfigurationBitSet( mask, ISupplicantStaNetwork.PairwiseCipherMask.TKIP, bitset, WifiConfiguration.PairwiseCipher.TKIP); mask = supplicantMaskValueToWifiConfigurationBitSet( mask, ISupplicantStaNetwork.PairwiseCipherMask.CCMP, bitset, WifiConfiguration.PairwiseCipher.CCMP); if (mask != 0) { throw new IllegalArgumentException( "invalid pairwise cipher mask from supplicant: " + mask); } return bitset; }; private static int wifiConfigurationToSupplicantEapMethod(int value) { switch (value) { case WifiEnterpriseConfig.Eap.PEAP: return ISupplicantStaNetwork.EapMethod.PEAP; case WifiEnterpriseConfig.Eap.TLS: return ISupplicantStaNetwork.EapMethod.TLS; case WifiEnterpriseConfig.Eap.TTLS: return ISupplicantStaNetwork.EapMethod.TTLS; case WifiEnterpriseConfig.Eap.PWD: return ISupplicantStaNetwork.EapMethod.PWD; case WifiEnterpriseConfig.Eap.SIM: return ISupplicantStaNetwork.EapMethod.SIM; case WifiEnterpriseConfig.Eap.AKA: return ISupplicantStaNetwork.EapMethod.AKA; case WifiEnterpriseConfig.Eap.AKA_PRIME: return ISupplicantStaNetwork.EapMethod.AKA_PRIME; case WifiEnterpriseConfig.Eap.UNAUTH_TLS: return ISupplicantStaNetwork.EapMethod.WFA_UNAUTH_TLS; // WifiEnterpriseConfig.Eap.NONE: default: Log.e(TAG, "invalid eap method value from WifiConfiguration: " + value); return -1; } }; private static int wifiConfigurationToSupplicantEapPhase2Method(int value) { switch (value) { case WifiEnterpriseConfig.Phase2.NONE: return ISupplicantStaNetwork.EapPhase2Method.NONE; case WifiEnterpriseConfig.Phase2.PAP: return ISupplicantStaNetwork.EapPhase2Method.PAP; case WifiEnterpriseConfig.Phase2.MSCHAP: return ISupplicantStaNetwork.EapPhase2Method.MSPAP; case WifiEnterpriseConfig.Phase2.MSCHAPV2: return ISupplicantStaNetwork.EapPhase2Method.MSPAPV2; case WifiEnterpriseConfig.Phase2.GTC: return ISupplicantStaNetwork.EapPhase2Method.GTC; case WifiEnterpriseConfig.Phase2.SIM: return ISupplicantStaNetwork.EapPhase2Method.SIM; case WifiEnterpriseConfig.Phase2.AKA: return ISupplicantStaNetwork.EapPhase2Method.AKA; case WifiEnterpriseConfig.Phase2.AKA_PRIME: return ISupplicantStaNetwork.EapPhase2Method.AKA_PRIME; default: Log.e(TAG, "invalid eap phase2 method value from WifiConfiguration: " + value); return -1; } }; /** See ISupplicantNetwork.hal for documentation */ private boolean getId() { synchronized (mLock) { final String methodStr = "getId"; if (!checkISupplicantStaNetworkAndLogFailure(methodStr)) return false; try { MutableBoolean statusOk = new MutableBoolean(false); mISupplicantStaNetwork.getId((SupplicantStatus status, int idValue) -> { statusOk.value = status.code == SupplicantStatusCode.SUCCESS; if (statusOk.value) { this.mNetworkId = idValue; } else { checkStatusAndLogFailure(status, methodStr); } }); return statusOk.value; } catch (RemoteException e) { handleRemoteException(e, methodStr); return false; } } } /** See ISupplicantStaNetwork.hal for documentation */ private boolean registerCallback(ISupplicantStaNetworkCallback callback) { synchronized (mLock) { final String methodStr = "registerCallback"; if (!checkISupplicantStaNetworkAndLogFailure(methodStr)) return false; try { SupplicantStatus status = mISupplicantStaNetwork.registerCallback(callback); return checkStatusAndLogFailure(status, methodStr); } catch (RemoteException e) { handleRemoteException(e, methodStr); return false; } } } /** See ISupplicantStaNetwork.hal for documentation */ private boolean setSsid(java.util.ArrayList ssid) { synchronized (mLock) { final String methodStr = "setSsid"; if (!checkISupplicantStaNetworkAndLogFailure(methodStr)) return false; try { SupplicantStatus status = mISupplicantStaNetwork.setSsid(ssid); return checkStatusAndLogFailure(status, methodStr); } catch (RemoteException e) { handleRemoteException(e, methodStr); return false; } } } /** * Set the BSSID for this network. * * @param bssidStr MAC address in "XX:XX:XX:XX:XX:XX" form or "any" to reset the mac address. * @return true if it succeeds, false otherwise. */ public boolean setBssid(String bssidStr) { try { return setBssid(NativeUtil.macAddressToByteArray(bssidStr)); } catch (IllegalArgumentException e) { Log.e(TAG, "Illegal argument " + bssidStr, e); return false; } } /** See ISupplicantStaNetwork.hal for documentation */ private boolean setBssid(byte[/* 6 */] bssid) { synchronized (mLock) { final String methodStr = "setBssid"; if (!checkISupplicantStaNetworkAndLogFailure(methodStr)) return false; try { SupplicantStatus status = mISupplicantStaNetwork.setBssid(bssid); return checkStatusAndLogFailure(status, methodStr); } catch (RemoteException e) { handleRemoteException(e, methodStr); return false; } } } /** See ISupplicantStaNetwork.hal for documentation */ private boolean setScanSsid(boolean enable) { synchronized (mLock) { final String methodStr = "setScanSsid"; if (!checkISupplicantStaNetworkAndLogFailure(methodStr)) return false; try { SupplicantStatus status = mISupplicantStaNetwork.setScanSsid(enable); return checkStatusAndLogFailure(status, methodStr); } catch (RemoteException e) { handleRemoteException(e, methodStr); return false; } } } /** See ISupplicantStaNetwork.hal for documentation */ private boolean setKeyMgmt(int keyMgmtMask) { synchronized (mLock) { final String methodStr = "setKeyMgmt"; if (!checkISupplicantStaNetworkAndLogFailure(methodStr)) return false; try { SupplicantStatus status = mISupplicantStaNetwork.setKeyMgmt(keyMgmtMask); return checkStatusAndLogFailure(status, methodStr); } catch (RemoteException e) { handleRemoteException(e, methodStr); return false; } } } /** See ISupplicantStaNetwork.hal for documentation */ private boolean setProto(int protoMask) { synchronized (mLock) { final String methodStr = "setProto"; if (!checkISupplicantStaNetworkAndLogFailure(methodStr)) return false; try { SupplicantStatus status = mISupplicantStaNetwork.setProto(protoMask); return checkStatusAndLogFailure(status, methodStr); } catch (RemoteException e) { handleRemoteException(e, methodStr); return false; } } } /** See ISupplicantStaNetwork.hal for documentation */ private boolean setAuthAlg(int authAlgMask) { synchronized (mLock) { final String methodStr = "setAuthAlg"; if (!checkISupplicantStaNetworkAndLogFailure(methodStr)) return false; try { SupplicantStatus status = mISupplicantStaNetwork.setAuthAlg(authAlgMask); return checkStatusAndLogFailure(status, methodStr); } catch (RemoteException e) { handleRemoteException(e, methodStr); return false; } } } /** See ISupplicantStaNetwork.hal for documentation */ private boolean setGroupCipher(int groupCipherMask) { synchronized (mLock) { final String methodStr = "setGroupCipher"; if (!checkISupplicantStaNetworkAndLogFailure(methodStr)) return false; try { SupplicantStatus status = mISupplicantStaNetwork.setGroupCipher(groupCipherMask); return checkStatusAndLogFailure(status, methodStr); } catch (RemoteException e) { handleRemoteException(e, methodStr); return false; } } } /** See ISupplicantStaNetwork.hal for documentation */ private boolean setPairwiseCipher(int pairwiseCipherMask) { synchronized (mLock) { final String methodStr = "setPairwiseCipher"; if (!checkISupplicantStaNetworkAndLogFailure(methodStr)) return false; try { SupplicantStatus status = mISupplicantStaNetwork.setPairwiseCipher(pairwiseCipherMask); return checkStatusAndLogFailure(status, methodStr); } catch (RemoteException e) { handleRemoteException(e, methodStr); return false; } } } /** See ISupplicantStaNetwork.hal for documentation */ private boolean setPskPassphrase(String psk) { synchronized (mLock) { final String methodStr = "setPskPassphrase"; if (!checkISupplicantStaNetworkAndLogFailure(methodStr)) return false; try { SupplicantStatus status = mISupplicantStaNetwork.setPskPassphrase(psk); return checkStatusAndLogFailure(status, methodStr); } catch (RemoteException e) { handleRemoteException(e, methodStr); return false; } } } /** See ISupplicantStaNetwork.hal for documentation */ private boolean setPsk(byte[] psk) { synchronized (mLock) { final String methodStr = "setPsk"; if (!checkISupplicantStaNetworkAndLogFailure(methodStr)) return false; try { SupplicantStatus status = mISupplicantStaNetwork.setPsk(psk); return checkStatusAndLogFailure(status, methodStr); } catch (RemoteException e) { handleRemoteException(e, methodStr); return false; } } } /** See ISupplicantStaNetwork.hal for documentation */ private boolean setWepKey(int keyIdx, java.util.ArrayList wepKey) { synchronized (mLock) { final String methodStr = "setWepKey"; if (!checkISupplicantStaNetworkAndLogFailure(methodStr)) return false; try { SupplicantStatus status = mISupplicantStaNetwork.setWepKey(keyIdx, wepKey); return checkStatusAndLogFailure(status, methodStr); } catch (RemoteException e) { handleRemoteException(e, methodStr); return false; } } } /** See ISupplicantStaNetwork.hal for documentation */ private boolean setWepTxKeyIdx(int keyIdx) { synchronized (mLock) { final String methodStr = "setWepTxKeyIdx"; if (!checkISupplicantStaNetworkAndLogFailure(methodStr)) return false; try { SupplicantStatus status = mISupplicantStaNetwork.setWepTxKeyIdx(keyIdx); return checkStatusAndLogFailure(status, methodStr); } catch (RemoteException e) { handleRemoteException(e, methodStr); return false; } } } /** See ISupplicantStaNetwork.hal for documentation */ private boolean setRequirePmf(boolean enable) { synchronized (mLock) { final String methodStr = "setRequirePmf"; if (!checkISupplicantStaNetworkAndLogFailure(methodStr)) return false; try { SupplicantStatus status = mISupplicantStaNetwork.setRequirePmf(enable); return checkStatusAndLogFailure(status, methodStr); } catch (RemoteException e) { handleRemoteException(e, methodStr); return false; } } } /** See ISupplicantStaNetwork.hal for documentation */ private boolean setUpdateIdentifier(int identifier) { synchronized (mLock) { final String methodStr = "setUpdateIdentifier"; if (!checkISupplicantStaNetworkAndLogFailure(methodStr)) return false; try { SupplicantStatus status = mISupplicantStaNetwork.setUpdateIdentifier(identifier); return checkStatusAndLogFailure(status, methodStr); } catch (RemoteException e) { handleRemoteException(e, methodStr); return false; } } } /** See ISupplicantStaNetwork.hal for documentation */ private boolean setEapMethod(int method) { synchronized (mLock) { final String methodStr = "setEapMethod"; if (!checkISupplicantStaNetworkAndLogFailure(methodStr)) return false; try { SupplicantStatus status = mISupplicantStaNetwork.setEapMethod(method); return checkStatusAndLogFailure(status, methodStr); } catch (RemoteException e) { handleRemoteException(e, methodStr); return false; } } } /** See ISupplicantStaNetwork.hal for documentation */ private boolean setEapPhase2Method(int method) { synchronized (mLock) { final String methodStr = "setEapPhase2Method"; if (!checkISupplicantStaNetworkAndLogFailure(methodStr)) return false; try { SupplicantStatus status = mISupplicantStaNetwork.setEapPhase2Method(method); return checkStatusAndLogFailure(status, methodStr); } catch (RemoteException e) { handleRemoteException(e, methodStr); return false; } } } /** See ISupplicantStaNetwork.hal for documentation */ private boolean setEapIdentity(java.util.ArrayList identity) { synchronized (mLock) { final String methodStr = "setEapIdentity"; if (!checkISupplicantStaNetworkAndLogFailure(methodStr)) return false; try { SupplicantStatus status = mISupplicantStaNetwork.setEapIdentity(identity); return checkStatusAndLogFailure(status, methodStr); } catch (RemoteException e) { handleRemoteException(e, methodStr); return false; } } } /** See ISupplicantStaNetwork.hal for documentation */ private boolean setEapAnonymousIdentity(java.util.ArrayList identity) { synchronized (mLock) { final String methodStr = "setEapAnonymousIdentity"; if (!checkISupplicantStaNetworkAndLogFailure(methodStr)) return false; try { SupplicantStatus status = mISupplicantStaNetwork.setEapAnonymousIdentity(identity); return checkStatusAndLogFailure(status, methodStr); } catch (RemoteException e) { handleRemoteException(e, methodStr); return false; } } } /** See ISupplicantStaNetwork.hal for documentation */ private boolean setEapPassword(java.util.ArrayList password) { synchronized (mLock) { final String methodStr = "setEapPassword"; if (!checkISupplicantStaNetworkAndLogFailure(methodStr)) return false; try { SupplicantStatus status = mISupplicantStaNetwork.setEapPassword(password); return checkStatusAndLogFailure(status, methodStr); } catch (RemoteException e) { handleRemoteException(e, methodStr); return false; } } } /** See ISupplicantStaNetwork.hal for documentation */ private boolean setEapCACert(String path) { synchronized (mLock) { final String methodStr = "setEapCACert"; if (!checkISupplicantStaNetworkAndLogFailure(methodStr)) return false; try { SupplicantStatus status = mISupplicantStaNetwork.setEapCACert(path); return checkStatusAndLogFailure(status, methodStr); } catch (RemoteException e) { handleRemoteException(e, methodStr); return false; } } } /** See ISupplicantStaNetwork.hal for documentation */ private boolean setEapCAPath(String path) { synchronized (mLock) { final String methodStr = "setEapCAPath"; if (!checkISupplicantStaNetworkAndLogFailure(methodStr)) return false; try { SupplicantStatus status = mISupplicantStaNetwork.setEapCAPath(path); return checkStatusAndLogFailure(status, methodStr); } catch (RemoteException e) { handleRemoteException(e, methodStr); return false; } } } /** See ISupplicantStaNetwork.hal for documentation */ private boolean setEapClientCert(String path) { synchronized (mLock) { final String methodStr = "setEapClientCert"; if (!checkISupplicantStaNetworkAndLogFailure(methodStr)) return false; try { SupplicantStatus status = mISupplicantStaNetwork.setEapClientCert(path); return checkStatusAndLogFailure(status, methodStr); } catch (RemoteException e) { handleRemoteException(e, methodStr); return false; } } } /** See ISupplicantStaNetwork.hal for documentation */ private boolean setEapPrivateKeyId(String id) { synchronized (mLock) { final String methodStr = "setEapPrivateKeyId"; if (!checkISupplicantStaNetworkAndLogFailure(methodStr)) return false; try { SupplicantStatus status = mISupplicantStaNetwork.setEapPrivateKeyId(id); return checkStatusAndLogFailure(status, methodStr); } catch (RemoteException e) { handleRemoteException(e, methodStr); return false; } } } /** See ISupplicantStaNetwork.hal for documentation */ private boolean setEapSubjectMatch(String match) { synchronized (mLock) { final String methodStr = "setEapSubjectMatch"; if (!checkISupplicantStaNetworkAndLogFailure(methodStr)) return false; try { SupplicantStatus status = mISupplicantStaNetwork.setEapSubjectMatch(match); return checkStatusAndLogFailure(status, methodStr); } catch (RemoteException e) { handleRemoteException(e, methodStr); return false; } } } /** See ISupplicantStaNetwork.hal for documentation */ private boolean setEapAltSubjectMatch(String match) { synchronized (mLock) { final String methodStr = "setEapAltSubjectMatch"; if (!checkISupplicantStaNetworkAndLogFailure(methodStr)) return false; try { SupplicantStatus status = mISupplicantStaNetwork.setEapAltSubjectMatch(match); return checkStatusAndLogFailure(status, methodStr); } catch (RemoteException e) { handleRemoteException(e, methodStr); return false; } } } /** See ISupplicantStaNetwork.hal for documentation */ private boolean setEapEngine(boolean enable) { synchronized (mLock) { final String methodStr = "setEapEngine"; if (!checkISupplicantStaNetworkAndLogFailure(methodStr)) return false; try { SupplicantStatus status = mISupplicantStaNetwork.setEapEngine(enable); return checkStatusAndLogFailure(status, methodStr); } catch (RemoteException e) { handleRemoteException(e, methodStr); return false; } } } /** See ISupplicantStaNetwork.hal for documentation */ private boolean setEapEngineID(String id) { synchronized (mLock) { final String methodStr = "setEapEngineID"; if (!checkISupplicantStaNetworkAndLogFailure(methodStr)) return false; try { SupplicantStatus status = mISupplicantStaNetwork.setEapEngineID(id); return checkStatusAndLogFailure(status, methodStr); } catch (RemoteException e) { handleRemoteException(e, methodStr); return false; } } } /** See ISupplicantStaNetwork.hal for documentation */ private boolean setEapDomainSuffixMatch(String match) { synchronized (mLock) { final String methodStr = "setEapDomainSuffixMatch"; if (!checkISupplicantStaNetworkAndLogFailure(methodStr)) return false; try { SupplicantStatus status = mISupplicantStaNetwork.setEapDomainSuffixMatch(match); return checkStatusAndLogFailure(status, methodStr); } catch (RemoteException e) { handleRemoteException(e, methodStr); return false; } } } /** See ISupplicantStaNetwork.hal for documentation */ private boolean setEapProactiveKeyCaching(boolean enable) { synchronized (mLock) { final String methodStr = "setEapProactiveKeyCaching"; if (!checkISupplicantStaNetworkAndLogFailure(methodStr)) return false; try { SupplicantStatus status = mISupplicantStaNetwork.setProactiveKeyCaching(enable); return checkStatusAndLogFailure(status, methodStr); } catch (RemoteException e) { handleRemoteException(e, methodStr); return false; } } } /** See ISupplicantStaNetwork.hal for documentation */ private boolean setIdStr(String idString) { synchronized (mLock) { final String methodStr = "setIdStr"; if (!checkISupplicantStaNetworkAndLogFailure(methodStr)) return false; try { SupplicantStatus status = mISupplicantStaNetwork.setIdStr(idString); return checkStatusAndLogFailure(status, methodStr); } catch (RemoteException e) { handleRemoteException(e, methodStr); return false; } } } /** See ISupplicantStaNetwork.hal for documentation */ private boolean getSsid() { synchronized (mLock) { final String methodStr = "getSsid"; if (!checkISupplicantStaNetworkAndLogFailure(methodStr)) return false; try { MutableBoolean statusOk = new MutableBoolean(false); mISupplicantStaNetwork.getSsid((SupplicantStatus status, java.util.ArrayList ssidValue) -> { statusOk.value = status.code == SupplicantStatusCode.SUCCESS; if (statusOk.value) { this.mSsid = ssidValue; } else { checkStatusAndLogFailure(status, methodStr); } }); return statusOk.value; } catch (RemoteException e) { handleRemoteException(e, methodStr); return false; } } } /** See ISupplicantStaNetwork.hal for documentation */ private boolean getBssid() { synchronized (mLock) { final String methodStr = "getBssid"; if (!checkISupplicantStaNetworkAndLogFailure(methodStr)) return false; try { MutableBoolean statusOk = new MutableBoolean(false); mISupplicantStaNetwork.getBssid((SupplicantStatus status, byte[/* 6 */] bssidValue) -> { statusOk.value = status.code == SupplicantStatusCode.SUCCESS; if (statusOk.value) { this.mBssid = bssidValue; } else { checkStatusAndLogFailure(status, methodStr); } }); return statusOk.value; } catch (RemoteException e) { handleRemoteException(e, methodStr); return false; } } } /** See ISupplicantStaNetwork.hal for documentation */ private boolean getScanSsid() { synchronized (mLock) { final String methodStr = "getScanSsid"; if (!checkISupplicantStaNetworkAndLogFailure(methodStr)) return false; try { MutableBoolean statusOk = new MutableBoolean(false); mISupplicantStaNetwork.getScanSsid((SupplicantStatus status, boolean enabledValue) -> { statusOk.value = status.code == SupplicantStatusCode.SUCCESS; if (statusOk.value) { this.mScanSsid = enabledValue; } else { checkStatusAndLogFailure(status, methodStr); } }); return statusOk.value; } catch (RemoteException e) { handleRemoteException(e, methodStr); return false; } } } /** See ISupplicantStaNetwork.hal for documentation */ private boolean getKeyMgmt() { synchronized (mLock) { final String methodStr = "getKeyMgmt"; if (!checkISupplicantStaNetworkAndLogFailure(methodStr)) return false; try { MutableBoolean statusOk = new MutableBoolean(false); mISupplicantStaNetwork.getKeyMgmt((SupplicantStatus status, int keyMgmtMaskValue) -> { statusOk.value = status.code == SupplicantStatusCode.SUCCESS; if (statusOk.value) { this.mKeyMgmtMask = keyMgmtMaskValue; } else { checkStatusAndLogFailure(status, methodStr); } }); return statusOk.value; } catch (RemoteException e) { handleRemoteException(e, methodStr); return false; } } } /** See ISupplicantStaNetwork.hal for documentation */ private boolean getProto() { synchronized (mLock) { final String methodStr = "getProto"; if (!checkISupplicantStaNetworkAndLogFailure(methodStr)) return false; try { MutableBoolean statusOk = new MutableBoolean(false); mISupplicantStaNetwork.getProto((SupplicantStatus status, int protoMaskValue) -> { statusOk.value = status.code == SupplicantStatusCode.SUCCESS; if (statusOk.value) { this.mProtoMask = protoMaskValue; } else { checkStatusAndLogFailure(status, methodStr); } }); return statusOk.value; } catch (RemoteException e) { handleRemoteException(e, methodStr); return false; } } } /** See ISupplicantStaNetwork.hal for documentation */ private boolean getAuthAlg() { synchronized (mLock) { final String methodStr = "getAuthAlg"; if (!checkISupplicantStaNetworkAndLogFailure(methodStr)) return false; try { MutableBoolean statusOk = new MutableBoolean(false); mISupplicantStaNetwork.getAuthAlg((SupplicantStatus status, int authAlgMaskValue) -> { statusOk.value = status.code == SupplicantStatusCode.SUCCESS; if (statusOk.value) { this.mAuthAlgMask = authAlgMaskValue; } else { checkStatusAndLogFailure(status, methodStr); } }); return statusOk.value; } catch (RemoteException e) { handleRemoteException(e, methodStr); return false; } } } /** See ISupplicantStaNetwork.hal for documentation */ private boolean getGroupCipher() { synchronized (mLock) { final String methodStr = "getGroupCipher"; if (!checkISupplicantStaNetworkAndLogFailure(methodStr)) return false; try { MutableBoolean statusOk = new MutableBoolean(false); mISupplicantStaNetwork.getGroupCipher((SupplicantStatus status, int groupCipherMaskValue) -> { statusOk.value = status.code == SupplicantStatusCode.SUCCESS; if (statusOk.value) { this.mGroupCipherMask = groupCipherMaskValue; } else { checkStatusAndLogFailure(status, methodStr); } }); return statusOk.value; } catch (RemoteException e) { handleRemoteException(e, methodStr); return false; } } } /** See ISupplicantStaNetwork.hal for documentation */ private boolean getPairwiseCipher() { synchronized (mLock) { final String methodStr = "getPairwiseCipher"; if (!checkISupplicantStaNetworkAndLogFailure(methodStr)) return false; try { MutableBoolean statusOk = new MutableBoolean(false); mISupplicantStaNetwork.getPairwiseCipher((SupplicantStatus status, int pairwiseCipherMaskValue) -> { statusOk.value = status.code == SupplicantStatusCode.SUCCESS; if (statusOk.value) { this.mPairwiseCipherMask = pairwiseCipherMaskValue; } else { checkStatusAndLogFailure(status, methodStr); } }); return statusOk.value; } catch (RemoteException e) { handleRemoteException(e, methodStr); return false; } } } /** See ISupplicantStaNetwork.hal for documentation */ private boolean getPskPassphrase() { synchronized (mLock) { final String methodStr = "getPskPassphrase"; if (!checkISupplicantStaNetworkAndLogFailure(methodStr)) return false; try { MutableBoolean statusOk = new MutableBoolean(false); mISupplicantStaNetwork.getPskPassphrase((SupplicantStatus status, String pskValue) -> { statusOk.value = status.code == SupplicantStatusCode.SUCCESS; if (statusOk.value) { this.mPskPassphrase = pskValue; } else { checkStatusAndLogFailure(status, methodStr); } }); return statusOk.value; } catch (RemoteException e) { handleRemoteException(e, methodStr); return false; } } } /** See ISupplicantStaNetwork.hal for documentation */ private boolean getPsk() { synchronized (mLock) { final String methodStr = "getPsk"; if (!checkISupplicantStaNetworkAndLogFailure(methodStr)) return false; try { MutableBoolean statusOk = new MutableBoolean(false); mISupplicantStaNetwork.getPsk((SupplicantStatus status, byte[] pskValue) -> { statusOk.value = status.code == SupplicantStatusCode.SUCCESS; if (statusOk.value) { this.mPsk = pskValue; } else { checkStatusAndLogFailure(status, methodStr); } }); return statusOk.value; } catch (RemoteException e) { handleRemoteException(e, methodStr); return false; } } } /** See ISupplicantStaNetwork.hal for documentation */ private boolean getWepKey(int keyIdx) { synchronized (mLock) { final String methodStr = "keyIdx"; if (!checkISupplicantStaNetworkAndLogFailure(methodStr)) return false; try { MutableBoolean statusOk = new MutableBoolean(false); mISupplicantStaNetwork.getWepKey(keyIdx, (SupplicantStatus status, java.util.ArrayList wepKeyValue) -> { statusOk.value = status.code == SupplicantStatusCode.SUCCESS; if (statusOk.value) { this.mWepKey = wepKeyValue; } else { Log.e(TAG, methodStr + ", failed: " + status.debugMessage); } }); return statusOk.value; } catch (RemoteException e) { handleRemoteException(e, methodStr); return false; } } } /** See ISupplicantStaNetwork.hal for documentation */ private boolean getWepTxKeyIdx() { synchronized (mLock) { final String methodStr = "getWepTxKeyIdx"; if (!checkISupplicantStaNetworkAndLogFailure(methodStr)) return false; try { MutableBoolean statusOk = new MutableBoolean(false); mISupplicantStaNetwork.getWepTxKeyIdx((SupplicantStatus status, int keyIdxValue) -> { statusOk.value = status.code == SupplicantStatusCode.SUCCESS; if (statusOk.value) { this.mWepTxKeyIdx = keyIdxValue; } else { checkStatusAndLogFailure(status, methodStr); } }); return statusOk.value; } catch (RemoteException e) { handleRemoteException(e, methodStr); return false; } } } /** See ISupplicantStaNetwork.hal for documentation */ private boolean getRequirePmf() { synchronized (mLock) { final String methodStr = "getRequirePmf"; if (!checkISupplicantStaNetworkAndLogFailure(methodStr)) return false; try { MutableBoolean statusOk = new MutableBoolean(false); mISupplicantStaNetwork.getRequirePmf((SupplicantStatus status, boolean enabledValue) -> { statusOk.value = status.code == SupplicantStatusCode.SUCCESS; if (statusOk.value) { this.mRequirePmf = enabledValue; } else { checkStatusAndLogFailure(status, methodStr); } }); return statusOk.value; } catch (RemoteException e) { handleRemoteException(e, methodStr); return false; } } } /** See ISupplicantStaNetwork.hal for documentation */ private boolean getEapMethod() { synchronized (mLock) { final String methodStr = "getEapMethod"; if (!checkISupplicantStaNetworkAndLogFailure(methodStr)) return false; try { MutableBoolean statusOk = new MutableBoolean(false); mISupplicantStaNetwork.getEapMethod((SupplicantStatus status, int methodValue) -> { statusOk.value = status.code == SupplicantStatusCode.SUCCESS; if (statusOk.value) { this.mEapMethod = methodValue; } else { checkStatusAndLogFailure(status, methodStr); } }); return statusOk.value; } catch (RemoteException e) { handleRemoteException(e, methodStr); return false; } } } /** See ISupplicantStaNetwork.hal for documentation */ private boolean getEapPhase2Method() { synchronized (mLock) { final String methodStr = "getEapPhase2Method"; if (!checkISupplicantStaNetworkAndLogFailure(methodStr)) return false; try { MutableBoolean statusOk = new MutableBoolean(false); mISupplicantStaNetwork.getEapPhase2Method((SupplicantStatus status, int methodValue) -> { statusOk.value = status.code == SupplicantStatusCode.SUCCESS; if (statusOk.value) { this.mEapPhase2Method = methodValue; } else { checkStatusAndLogFailure(status, methodStr); } }); return statusOk.value; } catch (RemoteException e) { handleRemoteException(e, methodStr); return false; } } } /** See ISupplicantStaNetwork.hal for documentation */ private boolean getEapIdentity() { synchronized (mLock) { final String methodStr = "getEapIdentity"; if (!checkISupplicantStaNetworkAndLogFailure(methodStr)) return false; try { MutableBoolean statusOk = new MutableBoolean(false); mISupplicantStaNetwork.getEapIdentity((SupplicantStatus status, ArrayList identityValue) -> { statusOk.value = status.code == SupplicantStatusCode.SUCCESS; if (statusOk.value) { this.mEapIdentity = identityValue; } else { checkStatusAndLogFailure(status, methodStr); } }); return statusOk.value; } catch (RemoteException e) { handleRemoteException(e, methodStr); return false; } } } /** See ISupplicantStaNetwork.hal for documentation */ private boolean getEapAnonymousIdentity() { synchronized (mLock) { final String methodStr = "getEapAnonymousIdentity"; if (!checkISupplicantStaNetworkAndLogFailure(methodStr)) return false; try { MutableBoolean statusOk = new MutableBoolean(false); mISupplicantStaNetwork.getEapAnonymousIdentity((SupplicantStatus status, ArrayList identityValue) -> { statusOk.value = status.code == SupplicantStatusCode.SUCCESS; if (statusOk.value) { this.mEapAnonymousIdentity = identityValue; } else { checkStatusAndLogFailure(status, methodStr); } }); return statusOk.value; } catch (RemoteException e) { handleRemoteException(e, methodStr); return false; } } } /** * A wrapping method for getEapAnonymousIdentity(). * This get anonymous identity from supplicant and returns it as a string. * * @return anonymous identity string if succeeds, null otherwise. */ public String fetchEapAnonymousIdentity() { if (!getEapAnonymousIdentity()) { return null; } return NativeUtil.stringFromByteArrayList(mEapAnonymousIdentity); } /** See ISupplicantStaNetwork.hal for documentation */ private boolean getEapPassword() { synchronized (mLock) { final String methodStr = "getEapPassword"; if (!checkISupplicantStaNetworkAndLogFailure(methodStr)) return false; try { MutableBoolean statusOk = new MutableBoolean(false); mISupplicantStaNetwork.getEapPassword((SupplicantStatus status, ArrayList passwordValue) -> { statusOk.value = status.code == SupplicantStatusCode.SUCCESS; if (statusOk.value) { this.mEapPassword = passwordValue; } else { checkStatusAndLogFailure(status, methodStr); } }); return statusOk.value; } catch (RemoteException e) { handleRemoteException(e, methodStr); return false; } } } /** See ISupplicantStaNetwork.hal for documentation */ private boolean getEapCACert() { synchronized (mLock) { final String methodStr = "getEapCACert"; if (!checkISupplicantStaNetworkAndLogFailure(methodStr)) return false; try { MutableBoolean statusOk = new MutableBoolean(false); mISupplicantStaNetwork.getEapCACert((SupplicantStatus status, String pathValue) -> { statusOk.value = status.code == SupplicantStatusCode.SUCCESS; if (statusOk.value) { this.mEapCACert = pathValue; } else { checkStatusAndLogFailure(status, methodStr); } }); return statusOk.value; } catch (RemoteException e) { handleRemoteException(e, methodStr); return false; } } } /** See ISupplicantStaNetwork.hal for documentation */ private boolean getEapCAPath() { synchronized (mLock) { final String methodStr = "getEapCAPath"; if (!checkISupplicantStaNetworkAndLogFailure(methodStr)) return false; try { MutableBoolean statusOk = new MutableBoolean(false); mISupplicantStaNetwork.getEapCAPath((SupplicantStatus status, String pathValue) -> { statusOk.value = status.code == SupplicantStatusCode.SUCCESS; if (statusOk.value) { this.mEapCAPath = pathValue; } else { checkStatusAndLogFailure(status, methodStr); } }); return statusOk.value; } catch (RemoteException e) { handleRemoteException(e, methodStr); return false; } } } /** See ISupplicantStaNetwork.hal for documentation */ private boolean getEapClientCert() { synchronized (mLock) { final String methodStr = "getEapClientCert"; if (!checkISupplicantStaNetworkAndLogFailure(methodStr)) return false; try { MutableBoolean statusOk = new MutableBoolean(false); mISupplicantStaNetwork.getEapClientCert((SupplicantStatus status, String pathValue) -> { statusOk.value = status.code == SupplicantStatusCode.SUCCESS; if (statusOk.value) { this.mEapClientCert = pathValue; } else { checkStatusAndLogFailure(status, methodStr); } }); return statusOk.value; } catch (RemoteException e) { handleRemoteException(e, methodStr); return false; } } } /** See ISupplicantStaNetwork.hal for documentation */ private boolean getEapPrivateKeyId() { synchronized (mLock) { final String methodStr = "getEapPrivateKeyId"; if (!checkISupplicantStaNetworkAndLogFailure(methodStr)) return false; try { MutableBoolean statusOk = new MutableBoolean(false); mISupplicantStaNetwork.getEapPrivateKeyId((SupplicantStatus status, String idValue) -> { statusOk.value = status.code == SupplicantStatusCode.SUCCESS; if (statusOk.value) { this.mEapPrivateKeyId = idValue; } else { checkStatusAndLogFailure(status, methodStr); } }); return statusOk.value; } catch (RemoteException e) { handleRemoteException(e, methodStr); return false; } } } /** See ISupplicantStaNetwork.hal for documentation */ private boolean getEapSubjectMatch() { synchronized (mLock) { final String methodStr = "getEapSubjectMatch"; if (!checkISupplicantStaNetworkAndLogFailure(methodStr)) return false; try { MutableBoolean statusOk = new MutableBoolean(false); mISupplicantStaNetwork.getEapSubjectMatch((SupplicantStatus status, String matchValue) -> { statusOk.value = status.code == SupplicantStatusCode.SUCCESS; if (statusOk.value) { this.mEapSubjectMatch = matchValue; } else { checkStatusAndLogFailure(status, methodStr); } }); return statusOk.value; } catch (RemoteException e) { handleRemoteException(e, methodStr); return false; } } } /** See ISupplicantStaNetwork.hal for documentation */ private boolean getEapAltSubjectMatch() { synchronized (mLock) { final String methodStr = "getEapAltSubjectMatch"; if (!checkISupplicantStaNetworkAndLogFailure(methodStr)) return false; try { MutableBoolean statusOk = new MutableBoolean(false); mISupplicantStaNetwork.getEapAltSubjectMatch((SupplicantStatus status, String matchValue) -> { statusOk.value = status.code == SupplicantStatusCode.SUCCESS; if (statusOk.value) { this.mEapAltSubjectMatch = matchValue; } else { checkStatusAndLogFailure(status, methodStr); } }); return statusOk.value; } catch (RemoteException e) { handleRemoteException(e, methodStr); return false; } } } /** See ISupplicantStaNetwork.hal for documentation */ private boolean getEapEngine() { synchronized (mLock) { final String methodStr = "getEapEngine"; if (!checkISupplicantStaNetworkAndLogFailure(methodStr)) return false; try { MutableBoolean statusOk = new MutableBoolean(false); mISupplicantStaNetwork.getEapEngine((SupplicantStatus status, boolean enabledValue) -> { statusOk.value = status.code == SupplicantStatusCode.SUCCESS; if (statusOk.value) { this.mEapEngine = enabledValue; } else { checkStatusAndLogFailure(status, methodStr); } }); return statusOk.value; } catch (RemoteException e) { handleRemoteException(e, methodStr); return false; } } } /** See ISupplicantStaNetwork.hal for documentation */ private boolean getEapEngineID() { synchronized (mLock) { final String methodStr = "getEapEngineID"; if (!checkISupplicantStaNetworkAndLogFailure(methodStr)) return false; try { MutableBoolean statusOk = new MutableBoolean(false); mISupplicantStaNetwork.getEapEngineID((SupplicantStatus status, String idValue) -> { statusOk.value = status.code == SupplicantStatusCode.SUCCESS; if (statusOk.value) { this.mEapEngineID = idValue; } else { checkStatusAndLogFailure(status, methodStr); } }); return statusOk.value; } catch (RemoteException e) { handleRemoteException(e, methodStr); return false; } } } /** See ISupplicantStaNetwork.hal for documentation */ private boolean getEapDomainSuffixMatch() { synchronized (mLock) { final String methodStr = "getEapDomainSuffixMatch"; if (!checkISupplicantStaNetworkAndLogFailure(methodStr)) return false; try { MutableBoolean statusOk = new MutableBoolean(false); mISupplicantStaNetwork.getEapDomainSuffixMatch((SupplicantStatus status, String matchValue) -> { statusOk.value = status.code == SupplicantStatusCode.SUCCESS; if (statusOk.value) { this.mEapDomainSuffixMatch = matchValue; } else { checkStatusAndLogFailure(status, methodStr); } }); return statusOk.value; } catch (RemoteException e) { handleRemoteException(e, methodStr); return false; } } } /** See ISupplicantStaNetwork.hal for documentation */ private boolean getIdStr() { synchronized (mLock) { final String methodStr = "getIdStr"; if (!checkISupplicantStaNetworkAndLogFailure(methodStr)) return false; try { MutableBoolean statusOk = new MutableBoolean(false); mISupplicantStaNetwork.getIdStr((SupplicantStatus status, String idString) -> { statusOk.value = status.code == SupplicantStatusCode.SUCCESS; if (statusOk.value) { this.mIdStr = idString; } else { checkStatusAndLogFailure(status, methodStr); } }); return statusOk.value; } catch (RemoteException e) { handleRemoteException(e, methodStr); return false; } } } /** See ISupplicantStaNetwork.hal for documentation */ private boolean enable(boolean noConnect) { synchronized (mLock) { final String methodStr = "enable"; if (!checkISupplicantStaNetworkAndLogFailure(methodStr)) return false; try { SupplicantStatus status = mISupplicantStaNetwork.enable(noConnect); return checkStatusAndLogFailure(status, methodStr); } catch (RemoteException e) { handleRemoteException(e, methodStr); return false; } } } /** See ISupplicantStaNetwork.hal for documentation */ private boolean disable() { synchronized (mLock) { final String methodStr = "disable"; if (!checkISupplicantStaNetworkAndLogFailure(methodStr)) return false; try { SupplicantStatus status = mISupplicantStaNetwork.disable(); return checkStatusAndLogFailure(status, methodStr); } catch (RemoteException e) { handleRemoteException(e, methodStr); return false; } } } /** * Trigger a connection to this network. * * @return true if it succeeds, false otherwise. */ public boolean select() { synchronized (mLock) { final String methodStr = "select"; if (!checkISupplicantStaNetworkAndLogFailure(methodStr)) return false; try { SupplicantStatus status = mISupplicantStaNetwork.select(); return checkStatusAndLogFailure(status, methodStr); } catch (RemoteException e) { handleRemoteException(e, methodStr); return false; } } } /** * Send GSM auth response. * * @param paramsStr Response params as a string. * @return true if succeeds, false otherwise. */ public boolean sendNetworkEapSimGsmAuthResponse(String paramsStr) { try { Matcher match = GSM_AUTH_RESPONSE_PARAMS_PATTERN.matcher(paramsStr); ArrayList params = new ArrayList<>(); while (match.find()) { if (match.groupCount() != 2) { Log.e(TAG, "Malformed gsm auth response params: " + paramsStr); return false; } ISupplicantStaNetwork.NetworkResponseEapSimGsmAuthParams param = new ISupplicantStaNetwork.NetworkResponseEapSimGsmAuthParams(); byte[] kc = NativeUtil.hexStringToByteArray(match.group(1)); if (kc == null || kc.length != param.kc.length) { Log.e(TAG, "Invalid kc value: " + match.group(1)); return false; } byte[] sres = NativeUtil.hexStringToByteArray(match.group(2)); if (sres == null || sres.length != param.sres.length) { Log.e(TAG, "Invalid sres value: " + match.group(2)); return false; } System.arraycopy(kc, 0, param.kc, 0, param.kc.length); System.arraycopy(sres, 0, param.sres, 0, param.sres.length); params.add(param); } // The number of kc/sres pairs can either be 2 or 3 depending on the request. if (params.size() > 3 || params.size() < 2) { Log.e(TAG, "Malformed gsm auth response params: " + paramsStr); return false; } return sendNetworkEapSimGsmAuthResponse(params); } catch (IllegalArgumentException e) { Log.e(TAG, "Illegal argument " + paramsStr, e); return false; } } /** See ISupplicantStaNetwork.hal for documentation */ private boolean sendNetworkEapSimGsmAuthResponse( ArrayList params) { synchronized (mLock) { final String methodStr = "sendNetworkEapSimGsmAuthResponse"; if (!checkISupplicantStaNetworkAndLogFailure(methodStr)) return false; try { SupplicantStatus status = mISupplicantStaNetwork.sendNetworkEapSimGsmAuthResponse(params); return checkStatusAndLogFailure(status, methodStr); } catch (RemoteException e) { handleRemoteException(e, methodStr); return false; } } } /** See ISupplicantStaNetwork.hal for documentation */ public boolean sendNetworkEapSimGsmAuthFailure() { synchronized (mLock) { final String methodStr = "sendNetworkEapSimGsmAuthFailure"; if (!checkISupplicantStaNetworkAndLogFailure(methodStr)) return false; try { SupplicantStatus status = mISupplicantStaNetwork.sendNetworkEapSimGsmAuthFailure(); return checkStatusAndLogFailure(status, methodStr); } catch (RemoteException e) { handleRemoteException(e, methodStr); return false; } } } /** * Send UMTS auth response. * * @param paramsStr Response params as a string. * @return true if succeeds, false otherwise. */ public boolean sendNetworkEapSimUmtsAuthResponse(String paramsStr) { try { Matcher match = UMTS_AUTH_RESPONSE_PARAMS_PATTERN.matcher(paramsStr); if (!match.find() || match.groupCount() != 3) { Log.e(TAG, "Malformed umts auth response params: " + paramsStr); return false; } ISupplicantStaNetwork.NetworkResponseEapSimUmtsAuthParams params = new ISupplicantStaNetwork.NetworkResponseEapSimUmtsAuthParams(); byte[] ik = NativeUtil.hexStringToByteArray(match.group(1)); if (ik == null || ik.length != params.ik.length) { Log.e(TAG, "Invalid ik value: " + match.group(1)); return false; } byte[] ck = NativeUtil.hexStringToByteArray(match.group(2)); if (ck == null || ck.length != params.ck.length) { Log.e(TAG, "Invalid ck value: " + match.group(2)); return false; } byte[] res = NativeUtil.hexStringToByteArray(match.group(3)); if (res == null || res.length == 0) { Log.e(TAG, "Invalid res value: " + match.group(3)); return false; } System.arraycopy(ik, 0, params.ik, 0, params.ik.length); System.arraycopy(ck, 0, params.ck, 0, params.ck.length); for (byte b : res) { params.res.add(b); } return sendNetworkEapSimUmtsAuthResponse(params); } catch (IllegalArgumentException e) { Log.e(TAG, "Illegal argument " + paramsStr, e); return false; } } /** See ISupplicantStaNetwork.hal for documentation */ private boolean sendNetworkEapSimUmtsAuthResponse( ISupplicantStaNetwork.NetworkResponseEapSimUmtsAuthParams params) { synchronized (mLock) { final String methodStr = "sendNetworkEapSimUmtsAuthResponse"; if (!checkISupplicantStaNetworkAndLogFailure(methodStr)) return false; try { SupplicantStatus status = mISupplicantStaNetwork.sendNetworkEapSimUmtsAuthResponse(params); return checkStatusAndLogFailure(status, methodStr); } catch (RemoteException e) { handleRemoteException(e, methodStr); return false; } } } /** * Send UMTS auts response. * * @param paramsStr Response params as a string. * @return true if succeeds, false otherwise. */ public boolean sendNetworkEapSimUmtsAutsResponse(String paramsStr) { try { Matcher match = UMTS_AUTS_RESPONSE_PARAMS_PATTERN.matcher(paramsStr); if (!match.find() || match.groupCount() != 1) { Log.e(TAG, "Malformed umts auts response params: " + paramsStr); return false; } byte[] auts = NativeUtil.hexStringToByteArray(match.group(1)); if (auts == null || auts.length != 14) { Log.e(TAG, "Invalid auts value: " + match.group(1)); return false; } return sendNetworkEapSimUmtsAutsResponse(auts); } catch (IllegalArgumentException e) { Log.e(TAG, "Illegal argument " + paramsStr, e); return false; } } /** See ISupplicantStaNetwork.hal for documentation */ private boolean sendNetworkEapSimUmtsAutsResponse(byte[/* 14 */] auts) { synchronized (mLock) { final String methodStr = "sendNetworkEapSimUmtsAutsResponse"; if (!checkISupplicantStaNetworkAndLogFailure(methodStr)) return false; try { SupplicantStatus status = mISupplicantStaNetwork.sendNetworkEapSimUmtsAutsResponse(auts); return checkStatusAndLogFailure(status, methodStr); } catch (RemoteException e) { handleRemoteException(e, methodStr); return false; } } } /** See ISupplicantStaNetwork.hal for documentation */ public boolean sendNetworkEapSimUmtsAuthFailure() { synchronized (mLock) { final String methodStr = "sendNetworkEapSimUmtsAuthFailure"; if (!checkISupplicantStaNetworkAndLogFailure(methodStr)) return false; try { SupplicantStatus status = mISupplicantStaNetwork.sendNetworkEapSimUmtsAuthFailure(); return checkStatusAndLogFailure(status, methodStr); } catch (RemoteException e) { handleRemoteException(e, methodStr); return false; } } } /** * Send eap identity response. * * @param identityStr Identity as a string. * @return true if succeeds, false otherwise. */ public boolean sendNetworkEapIdentityResponse(String identityStr) { try { ArrayList identity = NativeUtil.stringToByteArrayList(identityStr); return sendNetworkEapIdentityResponse(identity); } catch (IllegalArgumentException e) { Log.e(TAG, "Illegal argument " + identityStr, e); return false; } } /** See ISupplicantStaNetwork.hal for documentation */ private boolean sendNetworkEapIdentityResponse(ArrayList identity) { synchronized (mLock) { final String methodStr = "sendNetworkEapIdentityResponse"; if (!checkISupplicantStaNetworkAndLogFailure(methodStr)) return false; try { SupplicantStatus status = mISupplicantStaNetwork.sendNetworkEapIdentityResponse(identity); return checkStatusAndLogFailure(status, methodStr); } catch (RemoteException e) { handleRemoteException(e, methodStr); return false; } } } /** * Retrieve the NFC token for this network. * * @return Hex string corresponding to the NFC token or null for failure. */ public String getWpsNfcConfigurationToken() { ArrayList token = getWpsNfcConfigurationTokenInternal(); if (token == null) { return null; } return NativeUtil.hexStringFromByteArray(NativeUtil.byteArrayFromArrayList(token)); } /** See ISupplicantStaNetwork.hal for documentation */ private ArrayList getWpsNfcConfigurationTokenInternal() { synchronized (mLock) { final String methodStr = "getWpsNfcConfigurationToken"; if (!checkISupplicantStaNetworkAndLogFailure(methodStr)) return null; final Mutable> gotToken = new Mutable<>(); try { mISupplicantStaNetwork.getWpsNfcConfigurationToken( (SupplicantStatus status, ArrayList token) -> { if (checkStatusAndLogFailure(status, methodStr)) { gotToken.value = token; } }); } catch (RemoteException e) { handleRemoteException(e, methodStr); } return gotToken.value; } } /** * Returns true if provided status code is SUCCESS, logs debug message and returns false * otherwise */ private boolean checkStatusAndLogFailure(SupplicantStatus status, final String methodStr) { if (status.code != SupplicantStatusCode.SUCCESS) { Log.e(TAG, "ISupplicantStaNetwork." + methodStr + " failed: " + SupplicantStaIfaceHal.supplicantStatusCodeToString(status.code) + ", " + status.debugMessage); return false; } else { if (mVerboseLoggingEnabled) { Log.d(TAG, "ISupplicantStaNetwork." + methodStr + " succeeded"); } return true; } } /** * Helper function to log callbacks. */ private void logCallback(final String methodStr) { if (mVerboseLoggingEnabled) { Log.d(TAG, "ISupplicantStaNetworkCallback." + methodStr + " received"); } } /** * Returns false if ISupplicantStaNetwork is null, and logs failure of methodStr */ private boolean checkISupplicantStaNetworkAndLogFailure(final String methodStr) { if (mISupplicantStaNetwork == null) { Log.e(TAG, "Can't call " + methodStr + ", ISupplicantStaNetwork is null"); return false; } return true; } private void handleRemoteException(RemoteException e, String methodStr) { mISupplicantStaNetwork = null; Log.e(TAG, "ISupplicantStaNetwork." + methodStr + " failed with exception", e); } /** * Adds FT flags for networks if the device supports it. */ private BitSet addFastTransitionFlags(BitSet keyManagementFlags) { if (!mSystemSupportsFastBssTransition) { return keyManagementFlags; } BitSet modifiedFlags = (BitSet) keyManagementFlags.clone(); if (keyManagementFlags.get(WifiConfiguration.KeyMgmt.WPA_PSK)) { modifiedFlags.set(WifiConfiguration.KeyMgmt.FT_PSK); } if (keyManagementFlags.get(WifiConfiguration.KeyMgmt.WPA_EAP)) { modifiedFlags.set(WifiConfiguration.KeyMgmt.FT_EAP); } return modifiedFlags; } /** * Removes FT flags for networks if the device supports it. */ private BitSet removeFastTransitionFlags(BitSet keyManagementFlags) { BitSet modifiedFlags = (BitSet) keyManagementFlags.clone(); modifiedFlags.clear(WifiConfiguration.KeyMgmt.FT_PSK); modifiedFlags.clear(WifiConfiguration.KeyMgmt.FT_EAP); return modifiedFlags; } /** * Creates the JSON encoded network extra using the map of string key, value pairs. */ public static String createNetworkExtra(Map values) { final String encoded; try { encoded = URLEncoder.encode(new JSONObject(values).toString(), "UTF-8"); } catch (NullPointerException e) { Log.e(TAG, "Unable to serialize networkExtra: " + e.toString()); return null; } catch (UnsupportedEncodingException e) { Log.e(TAG, "Unable to serialize networkExtra: " + e.toString()); return null; } return encoded; } /** * Parse the network extra JSON encoded string to a map of string key, value pairs. */ public static Map parseNetworkExtra(String encoded) { if (TextUtils.isEmpty(encoded)) { return null; } try { // This method reads a JSON dictionary that was written by setNetworkExtra(). However, // on devices that upgraded from Marshmallow, it may encounter a legacy value instead - // an FQDN stored as a plain string. If such a value is encountered, the JSONObject // constructor will thrown a JSONException and the method will return null. final JSONObject json = new JSONObject(URLDecoder.decode(encoded, "UTF-8")); final Map values = new HashMap<>(); final Iterator it = json.keys(); while (it.hasNext()) { final String key = (String) it.next(); final Object value = json.get(key); if (value instanceof String) { values.put(key, (String) value); } } return values; } catch (UnsupportedEncodingException e) { Log.e(TAG, "Unable to deserialize networkExtra: " + e.toString()); return null; } catch (JSONException e) { // This is not necessarily an error. This exception will also occur if we encounter a // legacy FQDN stored as a plain string. We want to return null in this case as no JSON // dictionary of extras was found. return null; } } private static class Mutable { public E value; Mutable() { value = null; } Mutable(E value) { this.value = value; } } private class SupplicantStaNetworkHalCallback extends ISupplicantStaNetworkCallback.Stub { /** * Current configured network's framework network id. */ private final int mFramewokNetworkId; /** * Current configured network's ssid. */ private final String mSsid; SupplicantStaNetworkHalCallback(int framewokNetworkId, String ssid) { mFramewokNetworkId = framewokNetworkId; mSsid = ssid; } @Override public void onNetworkEapSimGsmAuthRequest( ISupplicantStaNetworkCallback.NetworkRequestEapSimGsmAuthParams params) { logCallback("onNetworkEapSimGsmAuthRequest"); synchronized (mLock) { String[] data = new String[params.rands.size()]; int i = 0; for (byte[] rand : params.rands) { data[i++] = NativeUtil.hexStringFromByteArray(rand); } mWifiMonitor.broadcastNetworkGsmAuthRequestEvent( mIfaceName, mFramewokNetworkId, mSsid, data); } } @Override public void onNetworkEapSimUmtsAuthRequest( ISupplicantStaNetworkCallback.NetworkRequestEapSimUmtsAuthParams params) { logCallback("onNetworkEapSimUmtsAuthRequest"); synchronized (mLock) { String randHex = NativeUtil.hexStringFromByteArray(params.rand); String autnHex = NativeUtil.hexStringFromByteArray(params.autn); String[] data = {randHex, autnHex}; mWifiMonitor.broadcastNetworkUmtsAuthRequestEvent( mIfaceName, mFramewokNetworkId, mSsid, data); } } @Override public void onNetworkEapIdentityRequest() { logCallback("onNetworkEapIdentityRequest"); synchronized (mLock) { mWifiMonitor.broadcastNetworkIdentityRequestEvent( mIfaceName, mFramewokNetworkId, mSsid); } } } }