/* * Copyright (C) 2006 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.internal.telephony.dataconnection; import static android.Manifest.permission.READ_PRIVILEGED_PHONE_STATE; import static android.telephony.TelephonyManager.NETWORK_TYPE_LTE; import static android.telephony.TelephonyManager.NETWORK_TYPE_NR; import static com.android.internal.telephony.RILConstants.DATA_PROFILE_DEFAULT; import static com.android.internal.telephony.RILConstants.DATA_PROFILE_INVALID; import android.annotation.IntDef; import android.annotation.NonNull; import android.annotation.Nullable; import android.app.AlarmManager; import android.app.PendingIntent; import android.app.ProgressDialog; import android.content.ActivityNotFoundException; import android.content.BroadcastReceiver; import android.content.ContentResolver; import android.content.ContentValues; import android.content.Context; import android.content.Intent; import android.content.IntentFilter; import android.content.SharedPreferences; import android.content.res.Resources; import android.database.ContentObserver; import android.database.Cursor; import android.net.ConnectivityManager; import android.net.LinkProperties; import android.net.NetworkAgent; import android.net.NetworkCapabilities; import android.net.NetworkConfig; import android.net.NetworkRequest; import android.net.ProxyInfo; import android.net.TrafficStats; import android.net.Uri; import android.os.AsyncResult; import android.os.Build; import android.os.Bundle; import android.os.Handler; import android.os.HandlerThread; import android.os.Message; import android.os.PersistableBundle; import android.os.RegistrantList; import android.os.ServiceManager; import android.os.SystemClock; import android.os.SystemProperties; import android.preference.PreferenceManager; import android.provider.Settings; import android.provider.Settings.SettingNotFoundException; import android.provider.Telephony; import android.telephony.AccessNetworkConstants; import android.telephony.AccessNetworkConstants.TransportType; import android.telephony.CarrierConfigManager; import android.telephony.CellLocation; import android.telephony.DataFailCause; import android.telephony.NetworkRegistrationInfo; import android.telephony.PcoData; import android.telephony.Rlog; import android.telephony.ServiceState; import android.telephony.ServiceState.RilRadioTechnology; import android.telephony.SubscriptionManager; import android.telephony.SubscriptionManager.OnSubscriptionsChangedListener; import android.telephony.TelephonyManager; import android.telephony.cdma.CdmaCellLocation; import android.telephony.data.ApnSetting; import android.telephony.data.ApnSetting.ApnType; import android.telephony.data.DataProfile; import android.telephony.gsm.GsmCellLocation; import android.text.TextUtils; import android.util.EventLog; import android.util.LocalLog; import android.util.Pair; import android.util.SparseArray; import android.view.WindowManager; import com.android.internal.annotations.VisibleForTesting; import com.android.internal.telephony.DctConstants; import com.android.internal.telephony.EventLogTags; import com.android.internal.telephony.GsmCdmaPhone; import com.android.internal.telephony.ITelephony; import com.android.internal.telephony.Phone; import com.android.internal.telephony.PhoneConstants; import com.android.internal.telephony.PhoneFactory; import com.android.internal.telephony.PhoneSwitcher; import com.android.internal.telephony.RILConstants; import com.android.internal.telephony.SettingsObserver; import com.android.internal.telephony.TelephonyIntents; import com.android.internal.telephony.dataconnection.DataConnectionReasons.DataAllowedReasonType; import com.android.internal.telephony.dataconnection.DataConnectionReasons.DataDisallowedReasonType; import com.android.internal.telephony.dataconnection.DataEnabledSettings.DataEnabledChangedReason; import com.android.internal.telephony.metrics.TelephonyMetrics; import com.android.internal.telephony.uicc.IccRecords; import com.android.internal.telephony.uicc.UiccController; import com.android.internal.util.ArrayUtils; import com.android.internal.util.AsyncChannel; import java.io.FileDescriptor; import java.io.PrintWriter; import java.lang.annotation.Retention; import java.lang.annotation.RetentionPolicy; import java.util.ArrayList; import java.util.Comparator; import java.util.HashMap; import java.util.List; import java.util.Map; import java.util.Map.Entry; import java.util.PriorityQueue; import java.util.Set; import java.util.concurrent.ConcurrentHashMap; import java.util.concurrent.atomic.AtomicBoolean; import java.util.concurrent.atomic.AtomicInteger; import java.util.concurrent.atomic.AtomicReference; /** * {@hide} */ public class DcTracker extends Handler { private static final boolean DBG = true; private static final boolean VDBG = false; // STOPSHIP if true private static final boolean VDBG_STALL = false; // STOPSHIP if true private static final boolean RADIO_TESTS = false; /** * These constants exist here because ConnectivityManager.TYPE_xxx constants are deprecated and * new ones will not be added (for instance NETWORK_TYPE_MCX below). * For backward compatibility, the values here need to be the same as * ConnectivityManager.TYPE_xxx because networkAttributes overlay uses those values. */ private static final int NETWORK_TYPE_DEFAULT = ConnectivityManager.TYPE_MOBILE; private static final int NETWORK_TYPE_MMS = ConnectivityManager.TYPE_MOBILE_MMS; private static final int NETWORK_TYPE_SUPL = ConnectivityManager.TYPE_MOBILE_SUPL; private static final int NETWORK_TYPE_DUN = ConnectivityManager.TYPE_MOBILE_DUN; private static final int NETWORK_TYPE_HIPRI = ConnectivityManager.TYPE_MOBILE_HIPRI; private static final int NETWORK_TYPE_FOTA = ConnectivityManager.TYPE_MOBILE_FOTA; private static final int NETWORK_TYPE_IMS = ConnectivityManager.TYPE_MOBILE_IMS; private static final int NETWORK_TYPE_CBS = ConnectivityManager.TYPE_MOBILE_CBS; private static final int NETWORK_TYPE_IA = ConnectivityManager.TYPE_MOBILE_IA; private static final int NETWORK_TYPE_EMERGENCY = ConnectivityManager.TYPE_MOBILE_EMERGENCY; private static final int NETWORK_TYPE_MCX = 1001; // far away from ConnectivityManager.TYPE_xxx // constants as MCX isn't defined there. @IntDef(value = { REQUEST_TYPE_NORMAL, REQUEST_TYPE_HANDOVER, }) @Retention(RetentionPolicy.SOURCE) public @interface RequestNetworkType {} /** * Normal request for {@link #requestNetwork(NetworkRequest, int, LocalLog)}. For request * network, this adds the request to the {@link ApnContext}. If there were no network request * attached to the {@link ApnContext} earlier, this request setups a data connection. */ public static final int REQUEST_TYPE_NORMAL = 1; /** * Handover request for {@link #requestNetwork(NetworkRequest, int, LocalLog)} or * {@link #releaseNetwork(NetworkRequest, int, LocalLog)}. For request network, this * initiates the handover data setup process. The existing data connection will be seamlessly * handover to the new network. For release network, this performs a data connection softly * clean up at the underlying layer (versus normal data release). */ public static final int REQUEST_TYPE_HANDOVER = 2; @IntDef(value = { RELEASE_TYPE_NORMAL, RELEASE_TYPE_DETACH, RELEASE_TYPE_HANDOVER, }) @Retention(RetentionPolicy.SOURCE) public @interface ReleaseNetworkType {} /** * For release network, this is just removing the network request from the {@link ApnContext}. * Note this does not tear down the physical data connection. Normally the data connection is * torn down by connectivity service directly calling {@link NetworkAgent#unwanted()}. */ public static final int RELEASE_TYPE_NORMAL = 1; /** * Detach request for {@link #releaseNetwork(NetworkRequest, int, LocalLog)} only. This * forces the APN context detach from the data connection. If this {@link ApnContext} is the * last one attached to the data connection, the data connection will be torn down, otherwise * the data connection remains active. */ public static final int RELEASE_TYPE_DETACH = 2; /** * Handover request for {@link #releaseNetwork(NetworkRequest, int, LocalLog)}. For release * network, this performs a data connection softly clean up at the underlying layer (versus * normal data release). */ public static final int RELEASE_TYPE_HANDOVER = 3; /** The extras for request network completion message */ static final String DATA_COMPLETE_MSG_EXTRA_NETWORK_REQUEST = "extra_network_request"; static final String DATA_COMPLETE_MSG_EXTRA_TRANSPORT_TYPE = "extra_transport_type"; static final String DATA_COMPLETE_MSG_EXTRA_REQUEST_TYPE = "extra_request_type"; static final String DATA_COMPLETE_MSG_EXTRA_SUCCESS = "extra_success"; private final String mLogTag; public AtomicBoolean isCleanupRequired = new AtomicBoolean(false); private final TelephonyManager mTelephonyManager; private final AlarmManager mAlarmManager; /* Currently requested APN type (TODO: This should probably be a parameter not a member) */ private int mRequestedApnType = ApnSetting.TYPE_DEFAULT; // All data enabling/disabling related settings private final DataEnabledSettings mDataEnabledSettings; /** * After detecting a potential connection problem, this is the max number * of subsequent polls before attempting recovery. */ // 1 sec. default polling interval when screen is on. private static final int POLL_NETSTAT_MILLIS = 1000; // 10 min. default polling interval when screen is off. private static final int POLL_NETSTAT_SCREEN_OFF_MILLIS = 1000*60*10; // Default sent packets without ack which triggers initial recovery steps private static final int NUMBER_SENT_PACKETS_OF_HANG = 10; // Default for the data stall alarm while non-aggressive stall detection private static final int DATA_STALL_ALARM_NON_AGGRESSIVE_DELAY_IN_MS_DEFAULT = 1000 * 60 * 6; // Default for the data stall alarm for aggressive stall detection private static final int DATA_STALL_ALARM_AGGRESSIVE_DELAY_IN_MS_DEFAULT = 1000 * 60; private static final boolean DATA_STALL_SUSPECTED = true; private static final boolean DATA_STALL_NOT_SUSPECTED = false; private static final String INTENT_RECONNECT_ALARM = "com.android.internal.telephony.data-reconnect"; private static final String INTENT_RECONNECT_ALARM_EXTRA_TYPE = "reconnect_alarm_extra_type"; private static final String INTENT_RECONNECT_ALARM_EXTRA_REASON = "reconnect_alarm_extra_reason"; private static final String INTENT_RECONNECT_ALARM_EXTRA_TRANSPORT_TYPE = "reconnect_alarm_extra_transport_type"; private static final String INTENT_DATA_STALL_ALARM = "com.android.internal.telephony.data-stall"; // Tag for tracking stale alarms private static final String INTENT_DATA_STALL_ALARM_EXTRA_TAG = "data_stall_alarm_extra_tag"; private static final String INTENT_DATA_STALL_ALARM_EXTRA_TRANSPORT_TYPE = "data_stall_alarm_extra_transport_type"; private DcTesterFailBringUpAll mDcTesterFailBringUpAll; private DcController mDcc; /** kept in sync with mApnContexts * Higher numbers are higher priority and sorted so highest priority is first */ private final PriorityQueuemPrioritySortedApnContexts = new PriorityQueue(5, new Comparator() { public int compare(ApnContext c1, ApnContext c2) { return c2.priority - c1.priority; } } ); /** all APN settings applicable to the current carrier */ private ArrayList mAllApnSettings = new ArrayList<>(); /** preferred apn */ private ApnSetting mPreferredApn = null; /** Is packet service restricted by network */ private boolean mIsPsRestricted = false; /** emergency apn Setting*/ private ApnSetting mEmergencyApn = null; /* Once disposed dont handle any messages */ private boolean mIsDisposed = false; private ContentResolver mResolver; /* Set to true with CMD_ENABLE_MOBILE_PROVISIONING */ private boolean mIsProvisioning = false; /* The Url passed as object parameter in CMD_ENABLE_MOBILE_PROVISIONING */ private String mProvisioningUrl = null; /* Indicating data service is bound or not */ private boolean mDataServiceBound = false; /* Intent for the provisioning apn alarm */ private static final String INTENT_PROVISIONING_APN_ALARM = "com.android.internal.telephony.provisioning_apn_alarm"; /* Tag for tracking stale alarms */ private static final String PROVISIONING_APN_ALARM_TAG_EXTRA = "provisioning.apn.alarm.tag"; /* Debug property for overriding the PROVISIONING_APN_ALARM_DELAY_IN_MS */ private static final String DEBUG_PROV_APN_ALARM = "persist.debug.prov_apn_alarm"; /* Default for the provisioning apn alarm timeout */ private static final int PROVISIONING_APN_ALARM_DELAY_IN_MS_DEFAULT = 1000 * 60 * 15; /* The provision apn alarm intent used to disable the provisioning apn */ private PendingIntent mProvisioningApnAlarmIntent = null; /* Used to track stale provisioning apn alarms */ private int mProvisioningApnAlarmTag = (int) SystemClock.elapsedRealtime(); private AsyncChannel mReplyAc = new AsyncChannel(); private final LocalLog mDataRoamingLeakageLog = new LocalLog(50); private final LocalLog mApnSettingsInitializationLog = new LocalLog(50); private final BroadcastReceiver mIntentReceiver = new BroadcastReceiver () { @Override public void onReceive(Context context, Intent intent) { String action = intent.getAction(); if (action.equals(Intent.ACTION_SCREEN_ON)) { // TODO: Evaluate hooking this up with DeviceStateMonitor if (DBG) log("screen on"); mIsScreenOn = true; stopNetStatPoll(); startNetStatPoll(); restartDataStallAlarm(); } else if (action.equals(Intent.ACTION_SCREEN_OFF)) { if (DBG) log("screen off"); mIsScreenOn = false; stopNetStatPoll(); startNetStatPoll(); restartDataStallAlarm(); } else if (action.startsWith(INTENT_RECONNECT_ALARM)) { onActionIntentReconnectAlarm(intent); } else if (action.equals(INTENT_DATA_STALL_ALARM)) { onActionIntentDataStallAlarm(intent); } else if (action.equals(INTENT_PROVISIONING_APN_ALARM)) { if (DBG) log("Provisioning apn alarm"); onActionIntentProvisioningApnAlarm(intent); } else if (action.equals(CarrierConfigManager.ACTION_CARRIER_CONFIG_CHANGED)) { if (DBG) log("received carrier config change"); if (mIccRecords.get() != null && mIccRecords.get().getRecordsLoaded()) { setDefaultDataRoamingEnabled(); } } else { if (DBG) log("onReceive: Unknown action=" + action); } } }; private final Runnable mPollNetStat = new Runnable() { @Override public void run() { updateDataActivity(); if (mIsScreenOn) { mNetStatPollPeriod = Settings.Global.getInt(mResolver, Settings.Global.PDP_WATCHDOG_POLL_INTERVAL_MS, POLL_NETSTAT_MILLIS); } else { mNetStatPollPeriod = Settings.Global.getInt(mResolver, Settings.Global.PDP_WATCHDOG_LONG_POLL_INTERVAL_MS, POLL_NETSTAT_SCREEN_OFF_MILLIS); } if (mNetStatPollEnabled) { mDataConnectionTracker.postDelayed(this, mNetStatPollPeriod); } } }; private SubscriptionManager mSubscriptionManager; private final DctOnSubscriptionsChangedListener mOnSubscriptionsChangedListener = new DctOnSubscriptionsChangedListener(); private class DctOnSubscriptionsChangedListener extends OnSubscriptionsChangedListener { public final AtomicInteger mPreviousSubId = new AtomicInteger(SubscriptionManager.INVALID_SUBSCRIPTION_ID); /** * Callback invoked when there is any change to any SubscriptionInfo. Typically * this method invokes {@link SubscriptionManager#getActiveSubscriptionInfoList} */ @Override public void onSubscriptionsChanged() { if (DBG) log("SubscriptionListener.onSubscriptionInfoChanged"); // Set the network type, in case the radio does not restore it. int subId = mPhone.getSubId(); if (SubscriptionManager.isValidSubscriptionId(subId)) { registerSettingsObserver(); } if (SubscriptionManager.isValidSubscriptionId(subId) && mPreviousSubId.getAndSet(subId) != subId) { onRecordsLoadedOrSubIdChanged(); } } }; private final SettingsObserver mSettingsObserver; private void registerSettingsObserver() { mSettingsObserver.unobserve(); String simSuffix = ""; if (TelephonyManager.getDefault().getSimCount() > 1) { simSuffix = Integer.toString(mPhone.getSubId()); } mSettingsObserver.observe( Settings.Global.getUriFor(Settings.Global.DATA_ROAMING + simSuffix), DctConstants.EVENT_ROAMING_SETTING_CHANGE); mSettingsObserver.observe( Settings.Global.getUriFor(Settings.Global.DEVICE_PROVISIONED), DctConstants.EVENT_DEVICE_PROVISIONED_CHANGE); } /** * Maintain the sum of transmit and receive packets. * * The packet counts are initialized and reset to -1 and * remain -1 until they can be updated. */ public static class TxRxSum { public long txPkts; public long rxPkts; public TxRxSum() { reset(); } public TxRxSum(long txPkts, long rxPkts) { this.txPkts = txPkts; this.rxPkts = rxPkts; } public TxRxSum(TxRxSum sum) { txPkts = sum.txPkts; rxPkts = sum.rxPkts; } public void reset() { txPkts = -1; rxPkts = -1; } @Override public String toString() { return "{txSum=" + txPkts + " rxSum=" + rxPkts + "}"; } /** * Get Tcp Tx/Rx packet count from TrafficStats */ public void updateTcpTxRxSum() { this.txPkts = TrafficStats.getMobileTcpTxPackets(); this.rxPkts = TrafficStats.getMobileTcpRxPackets(); } /** * Get total Tx/Rx packet count from TrafficStats */ public void updateTotalTxRxSum() { this.txPkts = TrafficStats.getMobileTxPackets(); this.rxPkts = TrafficStats.getMobileRxPackets(); } } private void onActionIntentReconnectAlarm(Intent intent) { Message msg = obtainMessage(DctConstants.EVENT_DATA_RECONNECT); msg.setData(intent.getExtras()); sendMessage(msg); } private void onDataReconnect(Bundle bundle) { String reason = bundle.getString(INTENT_RECONNECT_ALARM_EXTRA_REASON); String apnType = bundle.getString(INTENT_RECONNECT_ALARM_EXTRA_TYPE); int phoneSubId = mPhone.getSubId(); int currSubId = bundle.getInt(PhoneConstants.SUBSCRIPTION_KEY, SubscriptionManager.INVALID_SUBSCRIPTION_ID); // Stop reconnect if not current subId is not correct. // FIXME STOPSHIP - phoneSubId is coming up as -1 way after boot and failing this? if (!SubscriptionManager.isValidSubscriptionId(currSubId) || (currSubId != phoneSubId)) { return; } int transportType = bundle.getInt(INTENT_RECONNECT_ALARM_EXTRA_TRANSPORT_TYPE, 0); if (transportType != mTransportType) { return; } ApnContext apnContext = mApnContexts.get(apnType); if (DBG) { log("onDataReconnect: mState=" + mState + " reason=" + reason + " apnType=" + apnType + " apnContext=" + apnContext); } if ((apnContext != null) && (apnContext.isEnabled())) { apnContext.setReason(reason); DctConstants.State apnContextState = apnContext.getState(); if (DBG) { log("onDataReconnect: apnContext state=" + apnContextState); } if ((apnContextState == DctConstants.State.FAILED) || (apnContextState == DctConstants.State.IDLE)) { if (DBG) { log("onDataReconnect: state is FAILED|IDLE, disassociate"); } apnContext.releaseDataConnection(""); } else { if (DBG) log("onDataReconnect: keep associated"); } // TODO: IF already associated should we send the EVENT_TRY_SETUP_DATA??? sendMessage(obtainMessage(DctConstants.EVENT_TRY_SETUP_DATA, apnContext)); apnContext.setReconnectIntent(null); } } private void onActionIntentDataStallAlarm(Intent intent) { if (VDBG_STALL) log("onActionIntentDataStallAlarm: action=" + intent.getAction()); int subId = intent.getIntExtra(PhoneConstants.SUBSCRIPTION_KEY, SubscriptionManager.INVALID_SUBSCRIPTION_ID); if (!SubscriptionManager.isValidSubscriptionId(subId) || (subId != mPhone.getSubId())) { return; } int transportType = intent.getIntExtra(INTENT_DATA_STALL_ALARM_EXTRA_TRANSPORT_TYPE, 0); if (transportType != mTransportType) { return; } Message msg = obtainMessage(DctConstants.EVENT_DATA_STALL_ALARM, intent.getAction()); msg.arg1 = intent.getIntExtra(INTENT_DATA_STALL_ALARM_EXTRA_TAG, 0); sendMessage(msg); } private RegistrantList mAllDataDisconnectedRegistrants = new RegistrantList(); // member variables private final Phone mPhone; private final UiccController mUiccController; private final AtomicReference mIccRecords = new AtomicReference(); private DctConstants.Activity mActivity = DctConstants.Activity.NONE; private DctConstants.State mState = DctConstants.State.IDLE; private final Handler mDataConnectionTracker; private long mTxPkts; private long mRxPkts; private int mNetStatPollPeriod; private boolean mNetStatPollEnabled = false; private TxRxSum mDataStallTxRxSum = new TxRxSum(0, 0); // Used to track stale data stall alarms. private int mDataStallAlarmTag = (int) SystemClock.elapsedRealtime(); // The current data stall alarm intent private PendingIntent mDataStallAlarmIntent = null; // Number of packets sent since the last received packet private long mSentSinceLastRecv; // Controls when a simple recovery attempt it to be tried private int mNoRecvPollCount = 0; // Reference counter for enabling fail fast private static int sEnableFailFastRefCounter = 0; // True if data stall detection is enabled private volatile boolean mDataStallNoRxEnabled = true; private volatile boolean mFailFast = false; // True when in voice call private boolean mInVoiceCall = false; /** Intent sent when the reconnect alarm fires. */ private PendingIntent mReconnectIntent = null; // When false we will not auto attach and manually attaching is required. private boolean mAutoAttachOnCreationConfig = false; private AtomicBoolean mAutoAttachEnabled = new AtomicBoolean(false); // State of screen // (TODO: Reconsider tying directly to screen, maybe this is // really a lower power mode") private boolean mIsScreenOn = true; /** Allows the generation of unique Id's for DataConnection objects */ private AtomicInteger mUniqueIdGenerator = new AtomicInteger(0); /** The data connections. */ private HashMap mDataConnections = new HashMap(); /** Convert an ApnType string to Id (TODO: Use "enumeration" instead of String for ApnType) */ private HashMap mApnToDataConnectionId = new HashMap(); /** Phone.APN_TYPE_* ===> ApnContext */ private final ConcurrentHashMap mApnContexts = new ConcurrentHashMap(); private final SparseArray mApnContextsByType = new SparseArray(); private int mDisconnectPendingCount = 0; private ArrayList mLastDataProfileList = new ArrayList<>(); /** * Handles changes to the APN db. */ private class ApnChangeObserver extends ContentObserver { public ApnChangeObserver () { super(mDataConnectionTracker); } @Override public void onChange(boolean selfChange) { sendMessage(obtainMessage(DctConstants.EVENT_APN_CHANGED)); } } //***** Instance Variables private boolean mReregisterOnReconnectFailure = false; //***** Constants // Used by puppetmaster/*/radio_stress.py private static final String PUPPET_MASTER_RADIO_STRESS_TEST = "gsm.defaultpdpcontext.active"; private static final int POLL_PDP_MILLIS = 5 * 1000; private static final int PROVISIONING_SPINNER_TIMEOUT_MILLIS = 120 * 1000; static final Uri PREFERAPN_NO_UPDATE_URI_USING_SUBID = Uri.parse("content://telephony/carriers/preferapn_no_update/subId/"); static final String APN_ID = "apn_id"; private boolean mCanSetPreferApn = false; private AtomicBoolean mAttached = new AtomicBoolean(false); /** Watches for changes to the APN db. */ private ApnChangeObserver mApnObserver; private final String mProvisionActionName; private BroadcastReceiver mProvisionBroadcastReceiver; private ProgressDialog mProvisioningSpinner; private final DataServiceManager mDataServiceManager; private final int mTransportType; private DataStallRecoveryHandler mDsRecoveryHandler; /** * Request network completion message map. Key is the APN type, value is the list of completion * messages to be sent. Using a list because there might be multiple network requests for * the same APN type. */ private final Map> mRequestNetworkCompletionMsgs = new HashMap<>(); //***** Constructor public DcTracker(Phone phone, @TransportType int transportType) { super(); mPhone = phone; if (DBG) log("DCT.constructor"); mTelephonyManager = TelephonyManager.from(phone.getContext()) .createForSubscriptionId(phone.getSubId()); // The 'C' in tag indicates cellular, and 'I' indicates IWLAN. This is to distinguish // between two DcTrackers, one for each. String tagSuffix = "-" + ((transportType == AccessNetworkConstants.TRANSPORT_TYPE_WWAN) ? "C" : "I"); if (mTelephonyManager.getPhoneCount() > 1) { tagSuffix += "-" + mPhone.getPhoneId(); } mLogTag = "DCT" + tagSuffix; mTransportType = transportType; mDataServiceManager = new DataServiceManager(phone, transportType, tagSuffix); mResolver = mPhone.getContext().getContentResolver(); mUiccController = UiccController.getInstance(); mUiccController.registerForIccChanged(this, DctConstants.EVENT_ICC_CHANGED, null); mAlarmManager = (AlarmManager) mPhone.getContext().getSystemService(Context.ALARM_SERVICE); mDsRecoveryHandler = new DataStallRecoveryHandler(); IntentFilter filter = new IntentFilter(); filter.addAction(Intent.ACTION_SCREEN_ON); filter.addAction(Intent.ACTION_SCREEN_OFF); filter.addAction(INTENT_DATA_STALL_ALARM); filter.addAction(INTENT_PROVISIONING_APN_ALARM); filter.addAction(CarrierConfigManager.ACTION_CARRIER_CONFIG_CHANGED); mDataEnabledSettings = mPhone.getDataEnabledSettings(); mDataEnabledSettings.registerForDataEnabledChanged(this, DctConstants.EVENT_DATA_ENABLED_CHANGED, null); mDataEnabledSettings.registerForDataEnabledOverrideChanged(this, DctConstants.EVENT_DATA_ENABLED_OVERRIDE_RULES_CHANGED); mPhone.getContext().registerReceiver(mIntentReceiver, filter, null, mPhone); SharedPreferences sp = PreferenceManager.getDefaultSharedPreferences(mPhone.getContext()); mAutoAttachEnabled.set(sp.getBoolean(Phone.DATA_DISABLED_ON_BOOT_KEY, false)); mSubscriptionManager = SubscriptionManager.from(mPhone.getContext()); mSubscriptionManager.addOnSubscriptionsChangedListener(mOnSubscriptionsChangedListener); HandlerThread dcHandlerThread = new HandlerThread("DcHandlerThread"); dcHandlerThread.start(); Handler dcHandler = new Handler(dcHandlerThread.getLooper()); mDcc = DcController.makeDcc(mPhone, this, mDataServiceManager, dcHandler, tagSuffix); mDcTesterFailBringUpAll = new DcTesterFailBringUpAll(mPhone, dcHandler); mDataConnectionTracker = this; registerForAllEvents(); update(); mApnObserver = new ApnChangeObserver(); phone.getContext().getContentResolver().registerContentObserver( Telephony.Carriers.CONTENT_URI, true, mApnObserver); initApnContexts(); for (ApnContext apnContext : mApnContexts.values()) { // Register the reconnect and restart actions. filter = new IntentFilter(); filter.addAction(INTENT_RECONNECT_ALARM + '.' + apnContext.getApnType()); mPhone.getContext().registerReceiver(mIntentReceiver, filter, null, mPhone); } initEmergencyApnSetting(); addEmergencyApnSetting(); mProvisionActionName = "com.android.internal.telephony.PROVISION" + phone.getPhoneId(); mSettingsObserver = new SettingsObserver(mPhone.getContext(), this); registerSettingsObserver(); } @VisibleForTesting public DcTracker() { mLogTag = "DCT"; mTelephonyManager = null; mAlarmManager = null; mPhone = null; mUiccController = null; mDataConnectionTracker = null; mProvisionActionName = null; mSettingsObserver = new SettingsObserver(null, this); mDataEnabledSettings = null; mTransportType = 0; mDataServiceManager = null; } public void registerServiceStateTrackerEvents() { mPhone.getServiceStateTracker().registerForDataConnectionAttached(mTransportType, this, DctConstants.EVENT_DATA_CONNECTION_ATTACHED, null); mPhone.getServiceStateTracker().registerForDataConnectionDetached(mTransportType, this, DctConstants.EVENT_DATA_CONNECTION_DETACHED, null); mPhone.getServiceStateTracker().registerForDataRoamingOn(this, DctConstants.EVENT_ROAMING_ON, null); mPhone.getServiceStateTracker().registerForDataRoamingOff(this, DctConstants.EVENT_ROAMING_OFF, null, true); mPhone.getServiceStateTracker().registerForPsRestrictedEnabled(this, DctConstants.EVENT_PS_RESTRICT_ENABLED, null); mPhone.getServiceStateTracker().registerForPsRestrictedDisabled(this, DctConstants.EVENT_PS_RESTRICT_DISABLED, null); mPhone.getServiceStateTracker().registerForDataRegStateOrRatChanged(mTransportType, this, DctConstants.EVENT_DATA_RAT_CHANGED, null); } public void unregisterServiceStateTrackerEvents() { mPhone.getServiceStateTracker().unregisterForDataConnectionAttached(mTransportType, this); mPhone.getServiceStateTracker().unregisterForDataConnectionDetached(mTransportType, this); mPhone.getServiceStateTracker().unregisterForDataRoamingOn(this); mPhone.getServiceStateTracker().unregisterForDataRoamingOff(this); mPhone.getServiceStateTracker().unregisterForPsRestrictedEnabled(this); mPhone.getServiceStateTracker().unregisterForPsRestrictedDisabled(this); mPhone.getServiceStateTracker().unregisterForDataRegStateOrRatChanged(mTransportType, this); } private void registerForAllEvents() { if (mTransportType == AccessNetworkConstants.TRANSPORT_TYPE_WWAN) { mPhone.mCi.registerForAvailable(this, DctConstants.EVENT_RADIO_AVAILABLE, null); mPhone.mCi.registerForOffOrNotAvailable(this, DctConstants.EVENT_RADIO_OFF_OR_NOT_AVAILABLE, null); mPhone.mCi.registerForPcoData(this, DctConstants.EVENT_PCO_DATA_RECEIVED, null); } // Note, this is fragile - the Phone is now presenting a merged picture // of PS (volte) & CS and by diving into its internals you're just seeing // the CS data. This works well for the purposes this is currently used for // but that may not always be the case. Should probably be redesigned to // accurately reflect what we're really interested in (registerForCSVoiceCallEnded). mPhone.getCallTracker().registerForVoiceCallEnded(this, DctConstants.EVENT_VOICE_CALL_ENDED, null); mPhone.getCallTracker().registerForVoiceCallStarted(this, DctConstants.EVENT_VOICE_CALL_STARTED, null); registerServiceStateTrackerEvents(); mDataServiceManager.registerForServiceBindingChanged(this, DctConstants.EVENT_DATA_SERVICE_BINDING_CHANGED, null); } public void dispose() { if (DBG) log("DCT.dispose"); if (mProvisionBroadcastReceiver != null) { mPhone.getContext().unregisterReceiver(mProvisionBroadcastReceiver); mProvisionBroadcastReceiver = null; } if (mProvisioningSpinner != null) { mProvisioningSpinner.dismiss(); mProvisioningSpinner = null; } cleanUpAllConnectionsInternal(true, null); mIsDisposed = true; mPhone.getContext().unregisterReceiver(mIntentReceiver); mUiccController.unregisterForIccChanged(this); mSettingsObserver.unobserve(); mSubscriptionManager .removeOnSubscriptionsChangedListener(mOnSubscriptionsChangedListener); mDcc.dispose(); mDcTesterFailBringUpAll.dispose(); mPhone.getContext().getContentResolver().unregisterContentObserver(mApnObserver); mApnContexts.clear(); mApnContextsByType.clear(); mPrioritySortedApnContexts.clear(); unregisterForAllEvents(); destroyDataConnections(); } private void unregisterForAllEvents() { //Unregister for all events if (mTransportType == AccessNetworkConstants.TRANSPORT_TYPE_WWAN) { mPhone.mCi.unregisterForAvailable(this); mPhone.mCi.unregisterForOffOrNotAvailable(this); mPhone.mCi.unregisterForPcoData(this); } IccRecords r = mIccRecords.get(); if (r != null) { r.unregisterForRecordsLoaded(this); mIccRecords.set(null); } mPhone.getCallTracker().unregisterForVoiceCallEnded(this); mPhone.getCallTracker().unregisterForVoiceCallStarted(this); unregisterServiceStateTrackerEvents(); mDataServiceManager.unregisterForServiceBindingChanged(this); mDataEnabledSettings.unregisterForDataEnabledChanged(this); mDataEnabledSettings.unregisterForDataEnabledOverrideChanged(this); } /** * Reevaluate existing data connections when conditions change. * * For example, handle reverting restricted networks back to unrestricted. If we're changing * user data to enabled and this makes data truly enabled (not disabled by other factors) we * need to reevaluate and possibly add NET_CAPABILITY_NOT_RESTRICTED capability to the data * connection. This allows non-privilege apps to use the network. * * Or when we brought up a unmetered data connection while data is off, we only limit this * data connection for unmetered use only. When data is turned back on, we need to tear that * down so a full capable data connection can be re-established. */ private void reevaluateDataConnections() { for (DataConnection dataConnection : mDataConnections.values()) { dataConnection.reevaluateRestrictedState(); } } public long getSubId() { return mPhone.getSubId(); } public DctConstants.Activity getActivity() { return mActivity; } private void setActivity(DctConstants.Activity activity) { log("setActivity = " + activity); mActivity = activity; mPhone.notifyDataActivity(); } public void requestNetwork(NetworkRequest networkRequest, @RequestNetworkType int type, Message onCompleteMsg) { final int apnType = ApnContext.getApnTypeFromNetworkRequest(networkRequest); final ApnContext apnContext = mApnContextsByType.get(apnType); if (apnContext != null) { apnContext.requestNetwork(networkRequest, type, onCompleteMsg); } } public void releaseNetwork(NetworkRequest networkRequest, @ReleaseNetworkType int type) { final int apnType = ApnContext.getApnTypeFromNetworkRequest(networkRequest); final ApnContext apnContext = mApnContextsByType.get(apnType); if (apnContext != null) { apnContext.releaseNetwork(networkRequest, type); } } // Turn telephony radio on or off. private void setRadio(boolean on) { final ITelephony phone = ITelephony.Stub.asInterface(ServiceManager.checkService("phone")); try { phone.setRadio(on); } catch (Exception e) { // Ignore. } } // Class to handle Intent dispatched with user selects the "Sign-in to network" // notification. private class ProvisionNotificationBroadcastReceiver extends BroadcastReceiver { private final String mNetworkOperator; // Mobile provisioning URL. Valid while provisioning notification is up. // Set prior to notification being posted as URL contains ICCID which // disappears when radio is off (which is the case when notification is up). private final String mProvisionUrl; public ProvisionNotificationBroadcastReceiver(String provisionUrl, String networkOperator) { mNetworkOperator = networkOperator; mProvisionUrl = provisionUrl; } private void setEnableFailFastMobileData(int enabled) { sendMessage(obtainMessage(DctConstants.CMD_SET_ENABLE_FAIL_FAST_MOBILE_DATA, enabled, 0)); } private void enableMobileProvisioning() { final Message msg = obtainMessage(DctConstants.CMD_ENABLE_MOBILE_PROVISIONING); msg.setData(Bundle.forPair(DctConstants.PROVISIONING_URL_KEY, mProvisionUrl)); sendMessage(msg); } @Override public void onReceive(Context context, Intent intent) { // Turning back on the radio can take time on the order of a minute, so show user a // spinner so they know something is going on. log("onReceive : ProvisionNotificationBroadcastReceiver"); mProvisioningSpinner = new ProgressDialog(context); mProvisioningSpinner.setTitle(mNetworkOperator); mProvisioningSpinner.setMessage( // TODO: Don't borrow "Connecting..." i18n string; give Telephony a version. context.getText(com.android.internal.R.string.media_route_status_connecting)); mProvisioningSpinner.setIndeterminate(true); mProvisioningSpinner.setCancelable(true); // Allow non-Activity Service Context to create a View. mProvisioningSpinner.getWindow().setType( WindowManager.LayoutParams.TYPE_KEYGUARD_DIALOG); mProvisioningSpinner.show(); // After timeout, hide spinner so user can at least use their device. // TODO: Indicate to user that it is taking an unusually long time to connect? sendMessageDelayed(obtainMessage(DctConstants.CMD_CLEAR_PROVISIONING_SPINNER, mProvisioningSpinner), PROVISIONING_SPINNER_TIMEOUT_MILLIS); // This code is almost identical to the old // ConnectivityService.handleMobileProvisioningAction code. setRadio(true); setEnableFailFastMobileData(DctConstants.ENABLED); enableMobileProvisioning(); } } @Override protected void finalize() { if(DBG && mPhone != null) log("finalize"); } private ApnContext addApnContext(String type, NetworkConfig networkConfig) { ApnContext apnContext = new ApnContext(mPhone, type, mLogTag, networkConfig, this); mApnContexts.put(type, apnContext); mApnContextsByType.put(ApnSetting.getApnTypesBitmaskFromString(type), apnContext); mPrioritySortedApnContexts.add(apnContext); return apnContext; } private void initApnContexts() { log("initApnContexts: E"); // Load device network attributes from resources String[] networkConfigStrings = mPhone.getContext().getResources().getStringArray( com.android.internal.R.array.networkAttributes); for (String networkConfigString : networkConfigStrings) { NetworkConfig networkConfig = new NetworkConfig(networkConfigString); ApnContext apnContext; switch (networkConfig.type) { case NETWORK_TYPE_DEFAULT: apnContext = addApnContext(PhoneConstants.APN_TYPE_DEFAULT, networkConfig); break; case NETWORK_TYPE_MMS: apnContext = addApnContext(PhoneConstants.APN_TYPE_MMS, networkConfig); break; case NETWORK_TYPE_SUPL: apnContext = addApnContext(PhoneConstants.APN_TYPE_SUPL, networkConfig); break; case NETWORK_TYPE_DUN: apnContext = addApnContext(PhoneConstants.APN_TYPE_DUN, networkConfig); break; case NETWORK_TYPE_HIPRI: apnContext = addApnContext(PhoneConstants.APN_TYPE_HIPRI, networkConfig); break; case NETWORK_TYPE_FOTA: apnContext = addApnContext(PhoneConstants.APN_TYPE_FOTA, networkConfig); break; case NETWORK_TYPE_IMS: apnContext = addApnContext(PhoneConstants.APN_TYPE_IMS, networkConfig); break; case NETWORK_TYPE_CBS: apnContext = addApnContext(PhoneConstants.APN_TYPE_CBS, networkConfig); break; case NETWORK_TYPE_IA: apnContext = addApnContext(PhoneConstants.APN_TYPE_IA, networkConfig); break; case NETWORK_TYPE_EMERGENCY: apnContext = addApnContext(PhoneConstants.APN_TYPE_EMERGENCY, networkConfig); break; case NETWORK_TYPE_MCX: apnContext = addApnContext(PhoneConstants.APN_TYPE_MCX, networkConfig); break; default: log("initApnContexts: skipping unknown type=" + networkConfig.type); continue; } log("initApnContexts: apnContext=" + apnContext); } if (VDBG) log("initApnContexts: X mApnContexts=" + mApnContexts); } public LinkProperties getLinkProperties(String apnType) { ApnContext apnContext = mApnContexts.get(apnType); if (apnContext != null) { DataConnection dataConnection = apnContext.getDataConnection(); if (dataConnection != null) { if (DBG) log("return link properties for " + apnType); return dataConnection.getLinkProperties(); } } if (DBG) log("return new LinkProperties"); return new LinkProperties(); } public NetworkCapabilities getNetworkCapabilities(String apnType) { ApnContext apnContext = mApnContexts.get(apnType); if (apnContext!=null) { DataConnection dataConnection = apnContext.getDataConnection(); if (dataConnection != null) { if (DBG) { log("get active pdp is not null, return NetworkCapabilities for " + apnType); } return dataConnection.getNetworkCapabilities(); } } if (DBG) log("return new NetworkCapabilities"); return new NetworkCapabilities(); } // Return all active apn types public String[] getActiveApnTypes() { if (DBG) log("get all active apn types"); ArrayList result = new ArrayList(); for (ApnContext apnContext : mApnContexts.values()) { if (mAttached.get() && apnContext.isReady()) { result.add(apnContext.getApnType()); } } return result.toArray(new String[0]); } // Return active apn of specific apn type public String getActiveApnString(String apnType) { if (VDBG) log( "get active apn string for type:" + apnType); ApnContext apnContext = mApnContexts.get(apnType); if (apnContext != null) { ApnSetting apnSetting = apnContext.getApnSetting(); if (apnSetting != null) { return apnSetting.getApnName(); } } return null; } /** * Returns {@link DctConstants.State} based on the state of the {@link DataConnection} that * contains a {@link ApnSetting} that supported the given apn type {@code anpType}. * *

* Assumes there is less than one {@link ApnSetting} can support the given apn type. */ public DctConstants.State getState(String apnType) { final int apnTypeBitmask = ApnSetting.getApnTypesBitmaskFromString(apnType); for (DataConnection dc : mDataConnections.values()) { ApnSetting apnSetting = dc.getApnSetting(); if (apnSetting != null && apnSetting.canHandleType(apnTypeBitmask)) { if (dc.isActive()) { return DctConstants.State.CONNECTED; } else if (dc.isActivating()) { return DctConstants.State.CONNECTING; } else if (dc.isInactive()) { return DctConstants.State.IDLE; } else if (dc.isDisconnecting()) { return DctConstants.State.DISCONNECTING; } } } return DctConstants.State.IDLE; } // Return if apn type is a provisioning apn. private boolean isProvisioningApn(String apnType) { ApnContext apnContext = mApnContexts.get(apnType); if (apnContext != null) { return apnContext.isProvisioningApn(); } return false; } // Return state of overall public DctConstants.State getOverallState() { boolean isConnecting = false; boolean isFailed = true; // All enabled Apns should be FAILED. boolean isAnyEnabled = false; for (ApnContext apnContext : mApnContexts.values()) { if (apnContext.isEnabled()) { isAnyEnabled = true; switch (apnContext.getState()) { case CONNECTED: case DISCONNECTING: if (VDBG) log("overall state is CONNECTED"); return DctConstants.State.CONNECTED; case CONNECTING: isConnecting = true; isFailed = false; break; case IDLE: case RETRYING: isFailed = false; break; default: isAnyEnabled = true; break; } } } if (!isAnyEnabled) { // Nothing enabled. return IDLE. if (VDBG) log( "overall state is IDLE"); return DctConstants.State.IDLE; } if (isConnecting) { if (VDBG) log( "overall state is CONNECTING"); return DctConstants.State.CONNECTING; } else if (!isFailed) { if (VDBG) log( "overall state is IDLE"); return DctConstants.State.IDLE; } else { if (VDBG) log( "overall state is FAILED"); return DctConstants.State.FAILED; } } //****** Called from ServiceStateTracker /** * Invoked when ServiceStateTracker observes a transition from GPRS * attach to detach. */ private void onDataConnectionDetached() { /* * We presently believe it is unnecessary to tear down the PDP context * when GPRS detaches, but we should stop the network polling. */ if (DBG) log ("onDataConnectionDetached: stop polling and notify detached"); stopNetStatPoll(); stopDataStallAlarm(); mPhone.notifyDataConnection(); mAttached.set(false); } private void onDataConnectionAttached() { if (DBG) log("onDataConnectionAttached"); mAttached.set(true); if (getOverallState() == DctConstants.State.CONNECTED) { if (DBG) log("onDataConnectionAttached: start polling notify attached"); startNetStatPoll(); startDataStallAlarm(DATA_STALL_NOT_SUSPECTED); mPhone.notifyDataConnection(); } if (mAutoAttachOnCreationConfig) { mAutoAttachEnabled.set(true); } setupDataOnAllConnectableApns(Phone.REASON_DATA_ATTACHED, RetryFailures.ALWAYS); } /** * Check if it is allowed to make a data connection (without checking APN context specific * conditions). * * @param dataConnectionReasons Data connection allowed or disallowed reasons as the output * param. It's okay to pass null here and no reasons will be * provided. * @return True if data connection is allowed, otherwise false. */ public boolean isDataAllowed(DataConnectionReasons dataConnectionReasons) { return isDataAllowed(null, REQUEST_TYPE_NORMAL, dataConnectionReasons); } /** * Check if it is allowed to make a data connection for a given APN type. * * @param apnContext APN context. If passing null, then will only check general but not APN * specific conditions (e.g. APN state, metered/unmetered APN). * @param requestType Setup data request type. * @param dataConnectionReasons Data connection allowed or disallowed reasons as the output * param. It's okay to pass null here and no reasons will be * provided. * @return True if data connection is allowed, otherwise false. */ public boolean isDataAllowed(ApnContext apnContext, @RequestNetworkType int requestType, DataConnectionReasons dataConnectionReasons) { // Step 1: Get all environment conditions. // Step 2: Special handling for emergency APN. // Step 3. Build disallowed reasons. // Step 4: Determine if data should be allowed in some special conditions. DataConnectionReasons reasons = new DataConnectionReasons(); // Step 1: Get all environment conditions. final boolean internalDataEnabled = mDataEnabledSettings.isInternalDataEnabled(); boolean attachedState = mAttached.get(); boolean desiredPowerState = mPhone.getServiceStateTracker().getDesiredPowerState(); boolean radioStateFromCarrier = mPhone.getServiceStateTracker().getPowerStateFromCarrier(); // TODO: Remove this hack added by ag/641832. int dataRat = getDataRat(); if (dataRat == ServiceState.RIL_RADIO_TECHNOLOGY_IWLAN) { desiredPowerState = true; radioStateFromCarrier = true; } boolean recordsLoaded = mIccRecords.get() != null && mIccRecords.get().getRecordsLoaded(); boolean defaultDataSelected = SubscriptionManager.isValidSubscriptionId( SubscriptionManager.getDefaultDataSubscriptionId()); boolean isMeteredApnType = apnContext == null || ApnSettingUtils.isMeteredApnType(ApnSetting.getApnTypesBitmaskFromString( apnContext.getApnType()) , mPhone); PhoneConstants.State phoneState = PhoneConstants.State.IDLE; // Note this is explicitly not using mPhone.getState. See b/19090488. // mPhone.getState reports the merge of CS and PS (volte) voice call state // but we only care about CS calls here for data/voice concurrency issues. // Calling getCallTracker currently gives you just the CS side where the // ImsCallTracker is held internally where applicable. // This should be redesigned to ask explicitly what we want: // voiceCallStateAllowDataCall, or dataCallAllowed or something similar. if (mPhone.getCallTracker() != null) { phoneState = mPhone.getCallTracker().getState(); } // Step 2: Special handling for emergency APN. if (apnContext != null && apnContext.getApnType().equals(PhoneConstants.APN_TYPE_EMERGENCY) && apnContext.isConnectable()) { // If this is an emergency APN, as long as the APN is connectable, we // should allow it. if (dataConnectionReasons != null) { dataConnectionReasons.add(DataAllowedReasonType.EMERGENCY_APN); } // Bail out without further checks. return true; } // Step 3. Build disallowed reasons. if (apnContext != null && !apnContext.isConnectable()) { reasons.add(DataDisallowedReasonType.APN_NOT_CONNECTABLE); } // In legacy mode, if RAT is IWLAN then don't allow default/IA PDP at all. // Rest of APN types can be evaluated for remaining conditions. if ((apnContext != null && (apnContext.getApnType().equals(PhoneConstants.APN_TYPE_DEFAULT) || apnContext.getApnType().equals(PhoneConstants.APN_TYPE_IA))) && mPhone.getTransportManager().isInLegacyMode() && dataRat == ServiceState.RIL_RADIO_TECHNOLOGY_IWLAN) { reasons.add(DataDisallowedReasonType.ON_IWLAN); } if (isEmergency()) { reasons.add(DataDisallowedReasonType.IN_ECBM); } if (!attachedState && !shouldAutoAttach() && requestType != REQUEST_TYPE_HANDOVER) { reasons.add(DataDisallowedReasonType.NOT_ATTACHED); } if (!recordsLoaded) { reasons.add(DataDisallowedReasonType.RECORD_NOT_LOADED); } if (phoneState != PhoneConstants.State.IDLE && !mPhone.getServiceStateTracker().isConcurrentVoiceAndDataAllowed()) { reasons.add(DataDisallowedReasonType.INVALID_PHONE_STATE); reasons.add(DataDisallowedReasonType.CONCURRENT_VOICE_DATA_NOT_ALLOWED); } if (!internalDataEnabled) { reasons.add(DataDisallowedReasonType.INTERNAL_DATA_DISABLED); } if (!defaultDataSelected) { reasons.add(DataDisallowedReasonType.DEFAULT_DATA_UNSELECTED); } if (mPhone.getServiceState().getDataRoaming() && !getDataRoamingEnabled()) { reasons.add(DataDisallowedReasonType.ROAMING_DISABLED); } if (mIsPsRestricted) { reasons.add(DataDisallowedReasonType.PS_RESTRICTED); } if (!desiredPowerState) { reasons.add(DataDisallowedReasonType.UNDESIRED_POWER_STATE); } if (!radioStateFromCarrier) { reasons.add(DataDisallowedReasonType.RADIO_DISABLED_BY_CARRIER); } boolean isDataEnabled = apnContext == null ? mDataEnabledSettings.isDataEnabled() : mDataEnabledSettings.isDataEnabled(apnContext.getApnTypeBitmask()); if (!isDataEnabled) { reasons.add(DataDisallowedReasonType.DATA_DISABLED); } // If there are hard disallowed reasons, we should not allow data connection no matter what. if (reasons.containsHardDisallowedReasons()) { if (dataConnectionReasons != null) { dataConnectionReasons.copyFrom(reasons); } return false; } // Step 4: Determine if data should be allowed in some special conditions. // At this point, if data is not allowed, it must be because of the soft reasons. We // should start to check some special conditions that data will be allowed. if (!reasons.allowed()) { // If the device is on IWLAN, then all data should be unmetered. Check if the transport // is WLAN (for AP-assisted mode devices), or RAT equals IWLAN (for legacy mode devices) if (mTransportType == AccessNetworkConstants.TRANSPORT_TYPE_WLAN || (mPhone.getTransportManager().isInLegacyMode() && dataRat == ServiceState.RIL_RADIO_TECHNOLOGY_IWLAN)) { reasons.add(DataAllowedReasonType.UNMETERED_APN); // Or if the data is on cellular, and the APN type is determined unmetered by the // configuration. } else if (mTransportType == AccessNetworkConstants.TRANSPORT_TYPE_WWAN && !isMeteredApnType) { reasons.add(DataAllowedReasonType.UNMETERED_APN); } // If the request is restricted and there are only soft disallowed reasons (e.g. data // disabled, data roaming disabled) existing, we should allow the data. if (apnContext != null && apnContext.hasRestrictedRequests(true) && !reasons.allowed()) { reasons.add(DataAllowedReasonType.RESTRICTED_REQUEST); } } else { // If there is no disallowed reasons, then we should allow the data request with // normal reason. reasons.add(DataAllowedReasonType.NORMAL); } if (dataConnectionReasons != null) { dataConnectionReasons.copyFrom(reasons); } return reasons.allowed(); } // arg for setupDataOnAllConnectableApns private enum RetryFailures { // retry failed networks always (the old default) ALWAYS, // retry only when a substantial change has occurred. Either: // 1) we were restricted by voice/data concurrency and aren't anymore // 2) our apn list has change ONLY_ON_CHANGE }; private void setupDataOnAllConnectableApns(String reason, RetryFailures retryFailures) { if (VDBG) log("setupDataOnAllConnectableApns: " + reason); if (DBG && !VDBG) { StringBuilder sb = new StringBuilder(120); for (ApnContext apnContext : mPrioritySortedApnContexts) { sb.append(apnContext.getApnType()); sb.append(":[state="); sb.append(apnContext.getState()); sb.append(",enabled="); sb.append(apnContext.isEnabled()); sb.append("] "); } log("setupDataOnAllConnectableApns: " + reason + " " + sb); } for (ApnContext apnContext : mPrioritySortedApnContexts) { setupDataOnConnectableApn(apnContext, reason, retryFailures); } } private void setupDataOnConnectableApn(ApnContext apnContext, String reason, RetryFailures retryFailures) { if (VDBG) log("setupDataOnAllConnectableApns: apnContext " + apnContext); if (apnContext.getState() == DctConstants.State.FAILED || apnContext.getState() == DctConstants.State.RETRYING) { if (retryFailures == RetryFailures.ALWAYS) { apnContext.releaseDataConnection(reason); } else if (!apnContext.isConcurrentVoiceAndDataAllowed() && mPhone.getServiceStateTracker().isConcurrentVoiceAndDataAllowed()) { // RetryFailures.ONLY_ON_CHANGE - check if voice concurrency has changed apnContext.releaseDataConnection(reason); } } if (apnContext.isConnectable()) { log("isConnectable() call trySetupData"); apnContext.setReason(reason); trySetupData(apnContext, REQUEST_TYPE_NORMAL); } } boolean isEmergency() { final boolean result = mPhone.isInEcm() || mPhone.isInEmergencyCall(); log("isEmergency: result=" + result); return result; } private boolean trySetupData(ApnContext apnContext, @RequestNetworkType int requestType) { if (mPhone.getSimulatedRadioControl() != null) { // Assume data is connected on the simulator // FIXME this can be improved apnContext.setState(DctConstants.State.CONNECTED); mPhone.notifyDataConnection(apnContext.getApnType()); log("trySetupData: X We're on the simulator; assuming connected retValue=true"); return true; } DataConnectionReasons dataConnectionReasons = new DataConnectionReasons(); boolean isDataAllowed = isDataAllowed(apnContext, requestType, dataConnectionReasons); String logStr = "trySetupData for APN type " + apnContext.getApnType() + ", reason: " + apnContext.getReason() + ", requestType=" + requestTypeToString(requestType) + ". " + dataConnectionReasons.toString(); if (DBG) log(logStr); apnContext.requestLog(logStr); if (isDataAllowed) { if (apnContext.getState() == DctConstants.State.FAILED) { String str = "trySetupData: make a FAILED ApnContext IDLE so its reusable"; if (DBG) log(str); apnContext.requestLog(str); apnContext.setState(DctConstants.State.IDLE); } int radioTech = getDataRat(); if (radioTech == ServiceState.RIL_RADIO_TECHNOLOGY_UNKNOWN) { radioTech = getVoiceRat(); } log("service state=" + mPhone.getServiceState()); apnContext.setConcurrentVoiceAndDataAllowed(mPhone.getServiceStateTracker() .isConcurrentVoiceAndDataAllowed()); if (apnContext.getState() == DctConstants.State.IDLE) { ArrayList waitingApns = buildWaitingApns(apnContext.getApnType(), radioTech); if (waitingApns.isEmpty()) { notifyNoData(DataFailCause.MISSING_UNKNOWN_APN, apnContext); String str = "trySetupData: X No APN found retValue=false"; if (DBG) log(str); apnContext.requestLog(str); return false; } else { apnContext.setWaitingApns(waitingApns); if (DBG) { log ("trySetupData: Create from mAllApnSettings : " + apnListToString(mAllApnSettings)); } } } boolean retValue = setupData(apnContext, radioTech, requestType); if (DBG) log("trySetupData: X retValue=" + retValue); return retValue; } else { StringBuilder str = new StringBuilder(); str.append("trySetupData failed. apnContext = [type=" + apnContext.getApnType() + ", mState=" + apnContext.getState() + ", apnEnabled=" + apnContext.isEnabled() + ", mDependencyMet=" + apnContext.isDependencyMet() + "] "); if (!mDataEnabledSettings.isDataEnabled()) { str.append("isDataEnabled() = false. " + mDataEnabledSettings); } // If this is a data retry, we should set the APN state to FAILED so it won't stay // in RETRYING forever. if (apnContext.getState() == DctConstants.State.RETRYING) { apnContext.setState(DctConstants.State.FAILED); str.append(" Stop retrying."); } if (DBG) log(str.toString()); apnContext.requestLog(str.toString()); return false; } } /** * Clean up all data connections. Note this is just detach the APN context from the data * connection. After all APN contexts are detached from the data connection, the data * connection will be torn down. * * @param reason Reason for the clean up. */ public void cleanUpAllConnections(String reason) { log("cleanUpAllConnections"); Message msg = obtainMessage(DctConstants.EVENT_CLEAN_UP_ALL_CONNECTIONS); msg.obj = reason; sendMessage(msg); } /** * Clean up all data connections by detaching the APN contexts from the data connections, which * eventually tearing down all data connections after all APN contexts are detached from the * data connections. * * @param detach {@code true} if detaching APN context from the underlying data connection (when * no other APN context is attached to the data connection, the data connection will be torn * down.) {@code false} to only reset the data connection's state machine. * * @param reason reason for the clean up. * @return boolean - true if we did cleanup any connections, false if they * were already all disconnected. */ private boolean cleanUpAllConnectionsInternal(boolean detach, String reason) { if (DBG) log("cleanUpAllConnectionsInternal: detach=" + detach + " reason=" + reason); boolean didDisconnect = false; boolean disableMeteredOnly = false; // reasons that only metered apn will be torn down if (!TextUtils.isEmpty(reason)) { disableMeteredOnly = reason.equals(Phone.REASON_DATA_SPECIFIC_DISABLED) || reason.equals(Phone.REASON_ROAMING_ON) || reason.equals(Phone.REASON_CARRIER_ACTION_DISABLE_METERED_APN); } for (ApnContext apnContext : mApnContexts.values()) { // Exclude the IMS APN from single data connection case. if (reason.equals(Phone.REASON_SINGLE_PDN_ARBITRATION) && apnContext.getApnType().equals(PhoneConstants.APN_TYPE_IMS)) { continue; } if (shouldCleanUpConnection(apnContext, disableMeteredOnly)) { // TODO - only do cleanup if not disconnected if (apnContext.isDisconnected() == false) didDisconnect = true; apnContext.setReason(reason); cleanUpConnectionInternal(detach, RELEASE_TYPE_DETACH, apnContext); } else if (DBG) { log("cleanUpAllConnectionsInternal: APN type " + apnContext.getApnType() + " shouldn't be cleaned up."); } } stopNetStatPoll(); stopDataStallAlarm(); // TODO: Do we need mRequestedApnType? mRequestedApnType = ApnSetting.TYPE_DEFAULT; log("cleanUpAllConnectionsInternal: mDisconnectPendingCount = " + mDisconnectPendingCount); if (detach && mDisconnectPendingCount == 0) { notifyAllDataDisconnected(); } return didDisconnect; } boolean shouldCleanUpConnection(ApnContext apnContext, boolean disableMeteredOnly) { if (apnContext == null) return false; // If meteredOnly is false, clean up all connections. if (!disableMeteredOnly) return true; // If meteredOnly is true, and apnSetting is null or it's un-metered, no need to clean up. ApnSetting apnSetting = apnContext.getApnSetting(); if (apnSetting == null || !ApnSettingUtils.isMetered(apnSetting, mPhone)) return false; boolean isRoaming = mPhone.getServiceState().getDataRoaming(); boolean isDataRoamingDisabled = !getDataRoamingEnabled(); boolean isDataDisabled = !mDataEnabledSettings.isDataEnabled( apnSetting.getApnTypeBitmask()); // Should clean up if its data is disabled, or data roaming is disabled while roaming. return isDataDisabled || (isRoaming && isDataRoamingDisabled); } /** * Detach the APN context from the associated data connection. This data connection might be * torn down if no other APN context is attached to it. * * @param apnContext The APN context to be detached */ void cleanUpConnection(ApnContext apnContext) { if (DBG) log("cleanUpConnection: apnContext=" + apnContext); Message msg = obtainMessage(DctConstants.EVENT_CLEAN_UP_CONNECTION); msg.arg2 = 0; msg.obj = apnContext; sendMessage(msg); } /** * Detach the APN context from the associated data connection. This data connection will be * torn down if no other APN context is attached to it. * * @param detach {@code true} if detaching APN context from the underlying data connection (when * no other APN context is attached to the data connection, the data connection will be torn * down.) {@code false} to only reset the data connection's state machine. * @param releaseType Data release type. * @param apnContext The APN context to be detached. */ private void cleanUpConnectionInternal(boolean detach, @ReleaseNetworkType int releaseType, ApnContext apnContext) { if (apnContext == null) { if (DBG) log("cleanUpConnectionInternal: apn context is null"); return; } DataConnection dataConnection = apnContext.getDataConnection(); String str = "cleanUpConnectionInternal: detach=" + detach + " reason=" + apnContext.getReason(); if (VDBG) log(str + " apnContext=" + apnContext); apnContext.requestLog(str); if (detach) { if (apnContext.isDisconnected()) { // The request is detach and but ApnContext is not connected. // If apnContext is not enabled anymore, break the linkage to the data connection. apnContext.releaseDataConnection(""); } else { // Connection is still there. Try to clean up. if (dataConnection != null) { if (apnContext.getState() != DctConstants.State.DISCONNECTING) { boolean disconnectAll = false; if (PhoneConstants.APN_TYPE_DUN.equals(apnContext.getApnType()) && ServiceState.isCdma(getDataRat())) { if (DBG) { log("cleanUpConnectionInternal: disconnectAll DUN connection"); } // For CDMA DUN, we need to tear it down immediately. A new data // connection will be reestablished with correct profile id. disconnectAll = true; } final int generation = apnContext.getConnectionGeneration(); str = "cleanUpConnectionInternal: tearing down" + (disconnectAll ? " all" : "") + " using gen#" + generation; if (DBG) log(str + "apnContext=" + apnContext); apnContext.requestLog(str); Pair pair = new Pair<>(apnContext, generation); Message msg = obtainMessage(DctConstants.EVENT_DISCONNECT_DONE, pair); if (disconnectAll || releaseType == RELEASE_TYPE_HANDOVER) { dataConnection.tearDownAll(apnContext.getReason(), releaseType, msg); } else { dataConnection.tearDown(apnContext, apnContext.getReason(), msg); } apnContext.setState(DctConstants.State.DISCONNECTING); mDisconnectPendingCount++; } } else { // apn is connected but no reference to the data connection. // Should not be happen, but reset the state in case. apnContext.setState(DctConstants.State.IDLE); apnContext.requestLog("cleanUpConnectionInternal: connected, bug no dc"); mPhone.notifyDataConnection(apnContext.getApnType()); } } } else { // force clean up the data connection. if (dataConnection != null) dataConnection.reset(); apnContext.setState(DctConstants.State.IDLE); mPhone.notifyDataConnection(apnContext.getApnType()); apnContext.setDataConnection(null); } // Make sure reconnection alarm is cleaned up if there is no ApnContext // associated to the connection. if (dataConnection != null) { cancelReconnectAlarm(apnContext); } str = "cleanUpConnectionInternal: X detach=" + detach + " reason=" + apnContext.getReason(); if (DBG) log(str + " apnContext=" + apnContext + " dc=" + apnContext.getDataConnection()); } /** * Fetch the DUN apns * @return a list of DUN ApnSetting objects */ @VisibleForTesting public @NonNull ArrayList fetchDunApns() { if (SystemProperties.getBoolean("net.tethering.noprovisioning", false)) { log("fetchDunApns: net.tethering.noprovisioning=true ret: empty list"); return new ArrayList(0); } int bearer = getDataRat(); ArrayList dunCandidates = new ArrayList(); ArrayList retDunSettings = new ArrayList(); // Places to look for tether APN in order: TETHER_DUN_APN setting (to be deprecated soon), // APN database String apnData = Settings.Global.getString(mResolver, Settings.Global.TETHER_DUN_APN); if (!TextUtils.isEmpty(apnData)) { dunCandidates.addAll(ApnSetting.arrayFromString(apnData)); if (VDBG) log("fetchDunApns: dunCandidates from Setting: " + dunCandidates); } if (dunCandidates.isEmpty()) { if (!ArrayUtils.isEmpty(mAllApnSettings)) { for (ApnSetting apn : mAllApnSettings) { if (apn.canHandleType(ApnSetting.TYPE_DUN)) { dunCandidates.add(apn); } } if (VDBG) log("fetchDunApns: dunCandidates from database: " + dunCandidates); } } for (ApnSetting dunSetting : dunCandidates) { if (!dunSetting.canSupportNetworkType( ServiceState.rilRadioTechnologyToNetworkType(bearer))) { continue; } retDunSettings.add(dunSetting); } if (VDBG) log("fetchDunApns: dunSettings=" + retDunSettings); return retDunSettings; } private int getPreferredApnSetId() { Cursor c = mPhone.getContext().getContentResolver() .query(Uri.withAppendedPath(Telephony.Carriers.CONTENT_URI, "preferapnset/subId/" + mPhone.getSubId()), new String[] {Telephony.Carriers.APN_SET_ID}, null, null, null); if (c == null) { loge("getPreferredApnSetId: cursor is null"); return Telephony.Carriers.NO_APN_SET_ID; } int setId; if (c.getCount() < 1) { loge("getPreferredApnSetId: no APNs found"); setId = Telephony.Carriers.NO_APN_SET_ID; } else { c.moveToFirst(); setId = c.getInt(0 /* index of Telephony.Carriers.APN_SET_ID */); } if (!c.isClosed()) { c.close(); } return setId; } public boolean hasMatchedTetherApnSetting() { ArrayList matches = fetchDunApns(); log("hasMatchedTetherApnSetting: APNs=" + matches); return matches.size() > 0; } /** * @return the {@link DataConnection} with the given context id {@code cid}. */ public DataConnection getDataConnectionByContextId(int cid) { return mDcc.getActiveDcByCid(cid); } /** * @return the {@link DataConnection} with the given APN context. Null if no data connection * is found. */ public @Nullable DataConnection getDataConnectionByApnType(String apnType) { // TODO: Clean up all APN type in string usage ApnContext apnContext = mApnContexts.get(apnType); if (apnContext != null) { return apnContext.getDataConnection(); } return null; } /** * Cancels the alarm associated with apnContext. * * @param apnContext on which the alarm should be stopped. */ private void cancelReconnectAlarm(ApnContext apnContext) { if (apnContext == null) return; PendingIntent intent = apnContext.getReconnectIntent(); if (intent != null) { AlarmManager am = (AlarmManager) mPhone.getContext().getSystemService(Context.ALARM_SERVICE); am.cancel(intent); apnContext.setReconnectIntent(null); } } boolean isPermanentFailure(@DataFailCause.FailCause int dcFailCause) { return (DataFailCause.isPermanentFailure(mPhone.getContext(), dcFailCause, mPhone.getSubId()) && (mAttached.get() == false || dcFailCause != DataFailCause.SIGNAL_LOST)); } private DataConnection findFreeDataConnection() { for (DataConnection dataConnection : mDataConnections.values()) { boolean inUse = false; for (ApnContext apnContext : mApnContexts.values()) { if (apnContext.getDataConnection() == dataConnection) { inUse = true; break; } } if (!inUse) { if (DBG) { log("findFreeDataConnection: found free DataConnection=" + dataConnection); } return dataConnection; } } log("findFreeDataConnection: NO free DataConnection"); return null; } /** * Setup a data connection based on given APN type. * * @param apnContext APN context * @param radioTech RAT of the data connection * @param requestType Data request type * @return True if successful, otherwise false. */ private boolean setupData(ApnContext apnContext, int radioTech, @RequestNetworkType int requestType) { if (DBG) { log("setupData: apnContext=" + apnContext + ", requestType=" + requestTypeToString(requestType)); } apnContext.requestLog("setupData. requestType=" + requestTypeToString(requestType)); ApnSetting apnSetting; DataConnection dataConnection = null; apnSetting = apnContext.getNextApnSetting(); if (apnSetting == null) { if (DBG) log("setupData: return for no apn found!"); return false; } // profile id is only meaningful when the profile is persistent on the modem. int profileId = DATA_PROFILE_INVALID; if (apnSetting.isPersistent()) { profileId = apnSetting.getProfileId(); if (profileId == DATA_PROFILE_DEFAULT) { profileId = getApnProfileID(apnContext.getApnType()); } } // On CDMA, if we're explicitly asking for DUN, we need have // a dun-profiled connection so we can't share an existing one // On GSM/LTE we can share existing apn connections provided they support // this type. if (!apnContext.getApnType().equals(PhoneConstants.APN_TYPE_DUN) || ServiceState.isGsm(getDataRat())) { dataConnection = checkForCompatibleConnectedApnContext(apnContext); if (dataConnection != null) { // Get the apn setting used by the data connection ApnSetting dataConnectionApnSetting = dataConnection.getApnSetting(); if (dataConnectionApnSetting != null) { // Setting is good, so use it. apnSetting = dataConnectionApnSetting; } } } if (dataConnection == null) { if (isOnlySingleDcAllowed(radioTech)) { if (isHigherPriorityApnContextActive(apnContext)) { if (DBG) { log("setupData: Higher priority ApnContext active. Ignoring call"); } return false; } if (!apnContext.getApnType().equals(PhoneConstants.APN_TYPE_IMS)) { // Only lower priority calls left. Disconnect them all in this single PDP case // so that we can bring up the requested higher priority call (once we receive // response for deactivate request for the calls we are about to disconnect if (cleanUpAllConnectionsInternal(true, Phone.REASON_SINGLE_PDN_ARBITRATION)) { // If any call actually requested to be disconnected, means we can't // bring up this connection yet as we need to wait for those data calls // to be disconnected. if (DBG) log("setupData: Some calls are disconnecting first." + " Wait and retry"); return false; } } // No other calls are active, so proceed if (DBG) log("setupData: Single pdp. Continue setting up data call."); } dataConnection = findFreeDataConnection(); if (dataConnection == null) { dataConnection = createDataConnection(); } if (dataConnection == null) { if (DBG) log("setupData: No free DataConnection and couldn't create one, WEIRD"); return false; } } final int generation = apnContext.incAndGetConnectionGeneration(); if (DBG) { log("setupData: dc=" + dataConnection + " apnSetting=" + apnSetting + " gen#=" + generation); } apnContext.setDataConnection(dataConnection); apnContext.setApnSetting(apnSetting); apnContext.setState(DctConstants.State.CONNECTING); mPhone.notifyDataConnection(apnContext.getApnType()); Message msg = obtainMessage(); msg.what = DctConstants.EVENT_DATA_SETUP_COMPLETE; msg.obj = new Pair(apnContext, generation); dataConnection.bringUp(apnContext, profileId, radioTech, msg, generation, requestType, mPhone.getSubId()); if (DBG) log("setupData: initing!"); return true; } private void setInitialAttachApn() { ApnSetting iaApnSetting = null; ApnSetting defaultApnSetting = null; ApnSetting firstNonEmergencyApnSetting = null; log("setInitialApn: E mPreferredApn=" + mPreferredApn); if (mPreferredApn != null && mPreferredApn.canHandleType(ApnSetting.TYPE_IA)) { iaApnSetting = mPreferredApn; } else if (!mAllApnSettings.isEmpty()) { // Search for Initial APN setting and the first apn that can handle default for (ApnSetting apn : mAllApnSettings) { if (firstNonEmergencyApnSetting == null && !apn.canHandleType(ApnSetting.TYPE_EMERGENCY)) { firstNonEmergencyApnSetting = apn; log("setInitialApn: firstNonEmergencyApnSetting=" + firstNonEmergencyApnSetting); } if (apn.canHandleType(ApnSetting.TYPE_IA)) { // The Initial Attach APN is highest priority so use it if there is one log("setInitialApn: iaApnSetting=" + apn); iaApnSetting = apn; break; } else if ((defaultApnSetting == null) && (apn.canHandleType(ApnSetting.TYPE_DEFAULT))) { // Use the first default apn if no better choice log("setInitialApn: defaultApnSetting=" + apn); defaultApnSetting = apn; } } } // The priority of apn candidates from highest to lowest is: // 1) APN_TYPE_IA (Initial Attach) // 2) mPreferredApn, i.e. the current preferred apn // 3) The first apn that than handle APN_TYPE_DEFAULT // 4) The first APN we can find. ApnSetting initialAttachApnSetting = null; if (iaApnSetting != null) { if (DBG) log("setInitialAttachApn: using iaApnSetting"); initialAttachApnSetting = iaApnSetting; } else if (mPreferredApn != null) { if (DBG) log("setInitialAttachApn: using mPreferredApn"); initialAttachApnSetting = mPreferredApn; } else if (defaultApnSetting != null) { if (DBG) log("setInitialAttachApn: using defaultApnSetting"); initialAttachApnSetting = defaultApnSetting; } else if (firstNonEmergencyApnSetting != null) { if (DBG) log("setInitialAttachApn: using firstNonEmergencyApnSetting"); initialAttachApnSetting = firstNonEmergencyApnSetting; } if (initialAttachApnSetting == null) { if (DBG) log("setInitialAttachApn: X There in no available apn"); } else { if (DBG) log("setInitialAttachApn: X selected Apn=" + initialAttachApnSetting); mDataServiceManager.setInitialAttachApn(createDataProfile(initialAttachApnSetting, initialAttachApnSetting.equals(getPreferredApn())), mPhone.getServiceState().getDataRoamingFromRegistration(), null); } } /** * Handles changes to the APN database. */ private void onApnChanged() { DctConstants.State overallState = getOverallState(); boolean isDisconnected = (overallState == DctConstants.State.IDLE || overallState == DctConstants.State.FAILED); if (mPhone instanceof GsmCdmaPhone) { // The "current" may no longer be valid. MMS depends on this to send properly. TBD ((GsmCdmaPhone)mPhone).updateCurrentCarrierInProvider(); } // TODO: It'd be nice to only do this if the changed entrie(s) // match the current operator. if (DBG) log("onApnChanged: createAllApnList and cleanUpAllConnections"); createAllApnList(); setDataProfilesAsNeeded(); setInitialAttachApn(); cleanUpConnectionsOnUpdatedApns(!isDisconnected, Phone.REASON_APN_CHANGED); // FIXME: See bug 17426028 maybe no conditional is needed. if (mPhone.getSubId() == SubscriptionManager.getDefaultDataSubscriptionId()) { setupDataOnAllConnectableApns(Phone.REASON_APN_CHANGED, RetryFailures.ALWAYS); } } /** * "Active" here means ApnContext isEnabled() and not in FAILED state * @param apnContext to compare with * @return true if higher priority active apn found */ private boolean isHigherPriorityApnContextActive(ApnContext apnContext) { if (apnContext.getApnType().equals(PhoneConstants.APN_TYPE_IMS)) { return false; } for (ApnContext otherContext : mPrioritySortedApnContexts) { if (otherContext.getApnType().equals(PhoneConstants.APN_TYPE_IMS)) { continue; } if (apnContext.getApnType().equalsIgnoreCase(otherContext.getApnType())) return false; if (otherContext.isEnabled() && otherContext.getState() != DctConstants.State.FAILED) { return true; } } return false; } /** * Reports if we support multiple connections or not. * This is a combination of factors, based on carrier and RAT. * @param rilRadioTech the RIL Radio Tech currently in use * @return true if only single DataConnection is allowed */ private boolean isOnlySingleDcAllowed(int rilRadioTech) { // Default single dc rats with no knowledge of carrier int[] singleDcRats = null; // get the carrier specific value, if it exists, from CarrierConfigManager. // generally configManager and bundle should not be null, but if they are it should be okay // to leave singleDcRats null as well CarrierConfigManager configManager = (CarrierConfigManager) mPhone.getContext().getSystemService(Context.CARRIER_CONFIG_SERVICE); if (configManager != null) { PersistableBundle bundle = configManager.getConfigForSubId(mPhone.getSubId()); if (bundle != null) { singleDcRats = bundle.getIntArray( CarrierConfigManager.KEY_ONLY_SINGLE_DC_ALLOWED_INT_ARRAY); } } boolean onlySingleDcAllowed = false; if (Build.IS_DEBUGGABLE && SystemProperties.getBoolean("persist.telephony.test.singleDc", false)) { onlySingleDcAllowed = true; } if (singleDcRats != null) { for (int i=0; i < singleDcRats.length && onlySingleDcAllowed == false; i++) { if (rilRadioTech == singleDcRats[i]) onlySingleDcAllowed = true; } } if (DBG) log("isOnlySingleDcAllowed(" + rilRadioTech + "): " + onlySingleDcAllowed); return onlySingleDcAllowed; } void sendRestartRadio() { if (DBG)log("sendRestartRadio:"); Message msg = obtainMessage(DctConstants.EVENT_RESTART_RADIO); sendMessage(msg); } private void restartRadio() { if (DBG) log("restartRadio: ************TURN OFF RADIO**************"); cleanUpAllConnectionsInternal(true, Phone.REASON_RADIO_TURNED_OFF); mPhone.getServiceStateTracker().powerOffRadioSafely(); /* Note: no need to call setRadioPower(true). Assuming the desired * radio power state is still ON (as tracked by ServiceStateTracker), * ServiceStateTracker will call setRadioPower when it receives the * RADIO_STATE_CHANGED notification for the power off. And if the * desired power state has changed in the interim, we don't want to * override it with an unconditional power on. */ int reset = Integer.parseInt(SystemProperties.get("net.ppp.reset-by-timeout", "0")); try { SystemProperties.set("net.ppp.reset-by-timeout", String.valueOf(reset + 1)); } catch (RuntimeException ex) { log("Failed to set net.ppp.reset-by-timeout"); } } /** * Return true if data connection need to be setup after disconnected due to * reason. * * @param apnContext APN context * @return true if try setup data connection is need for this reason */ private boolean retryAfterDisconnected(ApnContext apnContext) { boolean retry = true; String reason = apnContext.getReason(); if (Phone.REASON_RADIO_TURNED_OFF.equals(reason) || (isOnlySingleDcAllowed(getDataRat()) && isHigherPriorityApnContextActive(apnContext))) { retry = false; } return retry; } private void startAlarmForReconnect(long delay, ApnContext apnContext) { String apnType = apnContext.getApnType(); Intent intent = new Intent(INTENT_RECONNECT_ALARM + "." + apnType); intent.putExtra(INTENT_RECONNECT_ALARM_EXTRA_REASON, apnContext.getReason()); intent.putExtra(INTENT_RECONNECT_ALARM_EXTRA_TYPE, apnType); intent.putExtra(INTENT_RECONNECT_ALARM_EXTRA_TRANSPORT_TYPE, mTransportType); SubscriptionManager.putPhoneIdAndSubIdExtra(intent, mPhone.getPhoneId()); intent.addFlags(Intent.FLAG_RECEIVER_FOREGROUND); if (DBG) { log("startAlarmForReconnect: delay=" + delay + " action=" + intent.getAction() + " apn=" + apnContext); } PendingIntent alarmIntent = PendingIntent.getBroadcast(mPhone.getContext(), 0, intent, PendingIntent.FLAG_UPDATE_CURRENT); apnContext.setReconnectIntent(alarmIntent); // Use the exact timer instead of the inexact one to provide better user experience. // In some extreme cases, we saw the retry was delayed for few minutes. // Note that if the stated trigger time is in the past, the alarm will be triggered // immediately. mAlarmManager.setExact(AlarmManager.ELAPSED_REALTIME_WAKEUP, SystemClock.elapsedRealtime() + delay, alarmIntent); } private void notifyNoData(@DataFailCause.FailCause int lastFailCauseCode, ApnContext apnContext) { if (DBG) log( "notifyNoData: type=" + apnContext.getApnType()); if (isPermanentFailure(lastFailCauseCode) && (!apnContext.getApnType().equals(PhoneConstants.APN_TYPE_DEFAULT))) { mPhone.notifyDataConnectionFailed(apnContext.getApnType()); } } private void onRecordsLoadedOrSubIdChanged() { if (DBG) log("onRecordsLoadedOrSubIdChanged: createAllApnList"); if (mTransportType == AccessNetworkConstants.TRANSPORT_TYPE_WWAN) { // Auto attach is for cellular only. mAutoAttachOnCreationConfig = mPhone.getContext().getResources() .getBoolean(com.android.internal.R.bool.config_auto_attach_data_on_creation); } createAllApnList(); setDataProfilesAsNeeded(); setInitialAttachApn(); mPhone.notifyDataConnection(); setupDataOnAllConnectableApns(Phone.REASON_SIM_LOADED, RetryFailures.ALWAYS); } private void onSimNotReady() { if (DBG) log("onSimNotReady"); cleanUpAllConnectionsInternal(true, Phone.REASON_SIM_NOT_READY); mAllApnSettings.clear(); mAutoAttachOnCreationConfig = false; // Clear auto attach as modem is expected to do a new attach once SIM is ready mAutoAttachEnabled.set(false); mOnSubscriptionsChangedListener.mPreviousSubId.set( SubscriptionManager.INVALID_SUBSCRIPTION_ID); // In no-sim case, we should still send the emergency APN to the modem, if there is any. createAllApnList(); setDataProfilesAsNeeded(); } private DataConnection checkForCompatibleConnectedApnContext(ApnContext apnContext) { int apnType = apnContext.getApnTypeBitmask(); ArrayList dunSettings = null; if (ApnSetting.TYPE_DUN == apnType) { dunSettings = sortApnListByPreferred(fetchDunApns()); } if (DBG) { log("checkForCompatibleConnectedApnContext: apnContext=" + apnContext ); } DataConnection potentialDc = null; ApnContext potentialApnCtx = null; for (ApnContext curApnCtx : mApnContexts.values()) { DataConnection curDc = curApnCtx.getDataConnection(); if (curDc != null) { ApnSetting apnSetting = curApnCtx.getApnSetting(); log("apnSetting: " + apnSetting); if (dunSettings != null && dunSettings.size() > 0) { for (ApnSetting dunSetting : dunSettings) { if (dunSetting.equals(apnSetting)) { switch (curApnCtx.getState()) { case CONNECTED: if (DBG) { log("checkForCompatibleConnectedApnContext:" + " found dun conn=" + curDc + " curApnCtx=" + curApnCtx); } return curDc; case CONNECTING: potentialDc = curDc; potentialApnCtx = curApnCtx; break; default: // Not connected, potential unchanged break; } } } } else if (apnSetting != null && apnSetting.canHandleType(apnType)) { switch (curApnCtx.getState()) { case CONNECTED: if (DBG) { log("checkForCompatibleConnectedApnContext:" + " found canHandle conn=" + curDc + " curApnCtx=" + curApnCtx); } return curDc; case CONNECTING: potentialDc = curDc; potentialApnCtx = curApnCtx; break; default: // Not connected, potential unchanged break; } } } else { if (VDBG) { log("checkForCompatibleConnectedApnContext: not conn curApnCtx=" + curApnCtx); } } } if (potentialDc != null) { if (DBG) { log("checkForCompatibleConnectedApnContext: found potential conn=" + potentialDc + " curApnCtx=" + potentialApnCtx); } return potentialDc; } if (DBG) log("checkForCompatibleConnectedApnContext: NO conn apnContext=" + apnContext); return null; } private void addRequestNetworkCompleteMsg(Message onCompleteMsg, @ApnType int apnType) { if (onCompleteMsg != null) { List messageList = mRequestNetworkCompletionMsgs.get(apnType); if (messageList == null) messageList = new ArrayList<>(); messageList.add(onCompleteMsg); mRequestNetworkCompletionMsgs.put(apnType, messageList); } } private void sendRequestNetworkCompleteMsg(Message message, boolean success, @TransportType int transport, @RequestNetworkType int requestType) { if (message == null) return; Bundle b = message.getData(); b.putBoolean(DATA_COMPLETE_MSG_EXTRA_SUCCESS, success); b.putInt(DATA_COMPLETE_MSG_EXTRA_REQUEST_TYPE, requestType); b.putInt(DATA_COMPLETE_MSG_EXTRA_TRANSPORT_TYPE, transport); message.sendToTarget(); } public void enableApn(@ApnType int apnType, @RequestNetworkType int requestType, Message onCompleteMsg) { sendMessage(obtainMessage(DctConstants.EVENT_ENABLE_APN, apnType, requestType, onCompleteMsg)); } private void onEnableApn(@ApnType int apnType, @RequestNetworkType int requestType, Message onCompleteMsg) { ApnContext apnContext = mApnContextsByType.get(apnType); if (apnContext == null) { loge("onEnableApn(" + apnType + "): NO ApnContext"); sendRequestNetworkCompleteMsg(onCompleteMsg, false, mTransportType, requestType); return; } String str = "onEnableApn: apnType=" + ApnSetting.getApnTypeString(apnType) + ", request type=" + requestTypeToString(requestType); if (DBG) log(str); apnContext.requestLog(str); if (!apnContext.isDependencyMet()) { apnContext.setReason(Phone.REASON_DATA_DEPENDENCY_UNMET); apnContext.setEnabled(true); str = "onEnableApn: dependency is not met."; if (DBG) log(str); apnContext.requestLog(str); sendRequestNetworkCompleteMsg(onCompleteMsg, false, mTransportType, requestType); return; } if (apnContext.isReady()) { DctConstants.State state = apnContext.getState(); switch(state) { case CONNECTING: if (DBG) log("onEnableApn: 'CONNECTING' so return"); apnContext.requestLog("onEnableApn state=CONNECTING, so return"); addRequestNetworkCompleteMsg(onCompleteMsg, apnType); return; case CONNECTED: if (DBG) log("onEnableApn: 'CONNECTED' so return"); apnContext.requestLog("onEnableApn state=CONNECTED, so return"); sendRequestNetworkCompleteMsg(onCompleteMsg, true, mTransportType, requestType); return; case DISCONNECTING: if (DBG) log("onEnableApn: 'DISCONNECTING' so return"); apnContext.requestLog("onEnableApn state=DISCONNECTING, so return"); sendRequestNetworkCompleteMsg(onCompleteMsg, false, mTransportType, requestType); return; case IDLE: // fall through: this is unexpected but if it happens cleanup and try setup case FAILED: case RETRYING: // We're "READY" but not active so disconnect (cleanup = true) and // connect (trySetup = true) to be sure we retry the connection. apnContext.setReason(Phone.REASON_DATA_ENABLED); break; } } else { if (apnContext.isEnabled()) { apnContext.setReason(Phone.REASON_DATA_DEPENDENCY_MET); } else { apnContext.setReason(Phone.REASON_DATA_ENABLED); } if (apnContext.getState() == DctConstants.State.FAILED) { apnContext.setState(DctConstants.State.IDLE); } } apnContext.setEnabled(true); apnContext.resetErrorCodeRetries(); if (trySetupData(apnContext, requestType)) { addRequestNetworkCompleteMsg(onCompleteMsg, apnType); } else { sendRequestNetworkCompleteMsg(onCompleteMsg, false, mTransportType, requestType); } } public void disableApn(@ApnType int apnType, @ReleaseNetworkType int releaseType) { sendMessage(obtainMessage(DctConstants.EVENT_DISABLE_APN, apnType, releaseType)); } private void onDisableApn(@ApnType int apnType, @ReleaseNetworkType int releaseType) { ApnContext apnContext = mApnContextsByType.get(apnType); if (apnContext == null) { loge("disableApn(" + apnType + "): NO ApnContext"); return; } boolean cleanup = false; String str = "onDisableApn: apnType=" + ApnSetting.getApnTypeString(apnType) + ", release type=" + releaseTypeToString(releaseType); if (DBG) log(str); apnContext.requestLog(str); if (apnContext.isReady()) { cleanup = (releaseType == RELEASE_TYPE_DETACH || releaseType == RELEASE_TYPE_HANDOVER); if (apnContext.isDependencyMet()) { apnContext.setReason(Phone.REASON_DATA_DISABLED_INTERNAL); // If ConnectivityService has disabled this network, stop trying to bring // it up, but do not tear it down - ConnectivityService will do that // directly by talking with the DataConnection. // // This doesn't apply to DUN. When the user disable tethering, we would like to // detach the APN context from the data connection so the data connection can be // torn down if no other APN context attached to it. if (PhoneConstants.APN_TYPE_DUN.equals(apnContext.getApnType()) || apnContext.getState() != DctConstants.State.CONNECTED) { str = "Clean up the connection. Apn type = " + apnContext.getApnType() + ", state = " + apnContext.getState(); if (DBG) log(str); apnContext.requestLog(str); cleanup = true; } } else { apnContext.setReason(Phone.REASON_DATA_DEPENDENCY_UNMET); } } apnContext.setEnabled(false); if (cleanup) { cleanUpConnectionInternal(true, releaseType, apnContext); } if (isOnlySingleDcAllowed(getDataRat()) && !isHigherPriorityApnContextActive(apnContext)) { if (DBG) log("disableApn:isOnlySingleDcAllowed true & higher priority APN disabled"); // If the highest priority APN is disabled and only single // data call is allowed, try to setup data call on other connectable APN. setupDataOnAllConnectableApns(Phone.REASON_SINGLE_PDN_ARBITRATION, RetryFailures.ALWAYS); } } /** * Modify {@link android.provider.Settings.Global#DATA_ROAMING} value for user modification only */ public void setDataRoamingEnabledByUser(boolean enabled) { mDataEnabledSettings.setDataRoamingEnabled(enabled); setDataRoamingFromUserAction(true); if (DBG) { log("setDataRoamingEnabledByUser: set phoneSubId=" + mPhone.getSubId() + " isRoaming=" + enabled); } } /** * Return current {@link android.provider.Settings.Global#DATA_ROAMING} value. */ public boolean getDataRoamingEnabled() { boolean isDataRoamingEnabled = mDataEnabledSettings.getDataRoamingEnabled(); if (VDBG) { log("getDataRoamingEnabled: phoneSubId=" + mPhone.getSubId() + " isDataRoamingEnabled=" + isDataRoamingEnabled); } return isDataRoamingEnabled; } /** * Set default value for {@link android.provider.Settings.Global#DATA_ROAMING} * if the setting is not from user actions. default value is based on carrier config and system * properties. */ private void setDefaultDataRoamingEnabled() { // For single SIM phones, this is a per phone property. String setting = Settings.Global.DATA_ROAMING; boolean useCarrierSpecificDefault = false; if (mTelephonyManager.getSimCount() != 1) { setting = setting + mPhone.getSubId(); try { Settings.Global.getInt(mResolver, setting); } catch (SettingNotFoundException ex) { // For msim, update to carrier default if uninitialized. useCarrierSpecificDefault = true; } } else if (!isDataRoamingFromUserAction()) { // for single sim device, update to carrier default if user action is not set useCarrierSpecificDefault = true; } log("setDefaultDataRoamingEnabled: useCarrierSpecificDefault " + useCarrierSpecificDefault); if (useCarrierSpecificDefault) { boolean defaultVal = mDataEnabledSettings.getDefaultDataRoamingEnabled(); mDataEnabledSettings.setDataRoamingEnabled(defaultVal); } } private boolean isDataRoamingFromUserAction() { final SharedPreferences sp = PreferenceManager .getDefaultSharedPreferences(mPhone.getContext()); // since we don't want to unset user preference from system update, pass true as the default // value if shared pref does not exist and set shared pref to false explicitly from factory // reset. if (!sp.contains(Phone.DATA_ROAMING_IS_USER_SETTING_KEY) && Settings.Global.getInt(mResolver, Settings.Global.DEVICE_PROVISIONED, 0) == 0) { sp.edit().putBoolean(Phone.DATA_ROAMING_IS_USER_SETTING_KEY, false).commit(); } return sp.getBoolean(Phone.DATA_ROAMING_IS_USER_SETTING_KEY, true); } private void setDataRoamingFromUserAction(boolean isUserAction) { final SharedPreferences.Editor sp = PreferenceManager .getDefaultSharedPreferences(mPhone.getContext()).edit(); sp.putBoolean(Phone.DATA_ROAMING_IS_USER_SETTING_KEY, isUserAction).commit(); } // When the data roaming status changes from roaming to non-roaming. private void onDataRoamingOff() { if (DBG) log("onDataRoamingOff"); reevaluateDataConnections(); if (!getDataRoamingEnabled()) { // TODO: Remove this once all old vendor RILs are gone. We don't need to set initial apn // attach and send the data profile again as the modem should have both roaming and // non-roaming protocol in place. Modem should choose the right protocol based on the // roaming condition. setDataProfilesAsNeeded(); setInitialAttachApn(); // If the user did not enable data roaming, now when we transit from roaming to // non-roaming, we should try to reestablish the data connection. setupDataOnAllConnectableApns(Phone.REASON_ROAMING_OFF, RetryFailures.ALWAYS); } else { mPhone.notifyDataConnection(); } } // This method is called // 1. When the data roaming status changes from non-roaming to roaming. // 2. When allowed data roaming settings is changed by the user. private void onDataRoamingOnOrSettingsChanged(int messageType) { if (DBG) log("onDataRoamingOnOrSettingsChanged"); // Used to differentiate data roaming turned on vs settings changed. boolean settingChanged = (messageType == DctConstants.EVENT_ROAMING_SETTING_CHANGE); // Check if the device is actually data roaming if (!mPhone.getServiceState().getDataRoaming()) { if (DBG) log("device is not roaming. ignored the request."); return; } checkDataRoamingStatus(settingChanged); if (getDataRoamingEnabled()) { // If the restricted data was brought up when data roaming is disabled, and now users // enable data roaming, we need to re-evaluate the conditions and possibly change the // network's capability. if (settingChanged) { reevaluateDataConnections(); } if (DBG) log("onDataRoamingOnOrSettingsChanged: setup data on roaming"); setupDataOnAllConnectableApns(Phone.REASON_ROAMING_ON, RetryFailures.ALWAYS); mPhone.notifyDataConnection(); } else { // If the user does not turn on data roaming, when we transit from non-roaming to // roaming, we need to tear down the data connection otherwise the user might be // charged for data roaming usage. if (DBG) log("onDataRoamingOnOrSettingsChanged: Tear down data connection on roaming."); cleanUpAllConnectionsInternal(true, Phone.REASON_ROAMING_ON); } } // We want to track possible roaming data leakage. Which is, if roaming setting // is disabled, yet we still setup a roaming data connection or have a connected ApnContext // switched to roaming. When this happens, we log it in a local log. private void checkDataRoamingStatus(boolean settingChanged) { if (!settingChanged && !getDataRoamingEnabled() && mPhone.getServiceState().getDataRoaming()) { for (ApnContext apnContext : mApnContexts.values()) { if (apnContext.getState() == DctConstants.State.CONNECTED) { mDataRoamingLeakageLog.log("PossibleRoamingLeakage " + " connection params: " + (apnContext.getDataConnection() != null ? apnContext.getDataConnection().getConnectionParams() : "")); } } } } private void onRadioAvailable() { if (DBG) log("onRadioAvailable"); if (mPhone.getSimulatedRadioControl() != null) { // Assume data is connected on the simulator // FIXME this can be improved // setState(DctConstants.State.CONNECTED); mPhone.notifyDataConnection(); log("onRadioAvailable: We're on the simulator; assuming data is connected"); } if (getOverallState() != DctConstants.State.IDLE) { cleanUpConnectionInternal(true, RELEASE_TYPE_DETACH, null); } } private void onRadioOffOrNotAvailable() { // Make sure our reconnect delay starts at the initial value // next time the radio comes on mReregisterOnReconnectFailure = false; // Clear auto attach as modem is expected to do a new attach mAutoAttachEnabled.set(false); if (mPhone.getSimulatedRadioControl() != null) { // Assume data is connected on the simulator // FIXME this can be improved log("We're on the simulator; assuming radio off is meaningless"); } else { if (DBG) log("onRadioOffOrNotAvailable: is off and clean up all connections"); cleanUpAllConnectionsInternal(false, Phone.REASON_RADIO_TURNED_OFF); } } private void completeConnection(ApnContext apnContext, @RequestNetworkType int type) { if (DBG) log("completeConnection: successful, notify the world apnContext=" + apnContext); if (mIsProvisioning && !TextUtils.isEmpty(mProvisioningUrl)) { if (DBG) { log("completeConnection: MOBILE_PROVISIONING_ACTION url=" + mProvisioningUrl); } Intent newIntent = Intent.makeMainSelectorActivity(Intent.ACTION_MAIN, Intent.CATEGORY_APP_BROWSER); newIntent.setData(Uri.parse(mProvisioningUrl)); newIntent.setFlags(Intent.FLAG_ACTIVITY_BROUGHT_TO_FRONT | Intent.FLAG_ACTIVITY_NEW_TASK); try { mPhone.getContext().startActivity(newIntent); } catch (ActivityNotFoundException e) { loge("completeConnection: startActivityAsUser failed" + e); } } mIsProvisioning = false; mProvisioningUrl = null; if (mProvisioningSpinner != null) { sendMessage(obtainMessage(DctConstants.CMD_CLEAR_PROVISIONING_SPINNER, mProvisioningSpinner)); } // Notify data is connected except for handover case. if (type != REQUEST_TYPE_HANDOVER) { mPhone.notifyDataConnection(apnContext.getApnType()); } startNetStatPoll(); startDataStallAlarm(DATA_STALL_NOT_SUSPECTED); } /** * A SETUP (aka bringUp) has completed, possibly with an error. If * there is an error this method will call {@link #onDataSetupCompleteError}. */ private void onDataSetupComplete(ApnContext apnContext, boolean success, int cause, @RequestNetworkType int requestType) { int apnType = ApnSetting.getApnTypesBitmaskFromString(apnContext.getApnType()); List messageList = mRequestNetworkCompletionMsgs.get(apnType); if (messageList != null) { for (Message msg : messageList) { sendRequestNetworkCompleteMsg(msg, success, mTransportType, requestType); } messageList.clear(); } if (success) { DataConnection dataConnection = apnContext.getDataConnection(); if (RADIO_TESTS) { // Note: To change radio.test.onDSC.null.dcac from command line you need to // adb root and adb remount and from the command line you can only change the // value to 1 once. To change it a second time you can reboot or execute // adb shell stop and then adb shell start. The command line to set the value is: // adb shell sqlite3 /data/data/com.android.providers.settings/databases/settings.db "insert into system (name,value) values ('radio.test.onDSC.null.dcac', '1');" ContentResolver cr = mPhone.getContext().getContentResolver(); String radioTestProperty = "radio.test.onDSC.null.dcac"; if (Settings.System.getInt(cr, radioTestProperty, 0) == 1) { log("onDataSetupComplete: " + radioTestProperty + " is true, set dcac to null and reset property to false"); dataConnection = null; Settings.System.putInt(cr, radioTestProperty, 0); log("onDataSetupComplete: " + radioTestProperty + "=" + Settings.System.getInt(mPhone.getContext().getContentResolver(), radioTestProperty, -1)); } } if (dataConnection == null) { log("onDataSetupComplete: no connection to DC, handle as error"); onDataSetupCompleteError(apnContext, requestType); } else { ApnSetting apn = apnContext.getApnSetting(); if (DBG) { log("onDataSetupComplete: success apn=" + (apn == null ? "unknown" : apn.getApnName())); } if (apn != null && !TextUtils.isEmpty(apn.getProxyAddressAsString())) { try { int port = apn.getProxyPort(); if (port == -1) { port = 8080; } ProxyInfo proxy = new ProxyInfo(apn.getProxyAddressAsString(), port, null); dataConnection.setLinkPropertiesHttpProxy(proxy); } catch (NumberFormatException e) { loge("onDataSetupComplete: NumberFormatException making ProxyProperties (" + apn.getProxyPort() + "): " + e); } } // everything is setup if (TextUtils.equals(apnContext.getApnType(), PhoneConstants.APN_TYPE_DEFAULT)) { try { SystemProperties.set(PUPPET_MASTER_RADIO_STRESS_TEST, "true"); } catch (RuntimeException ex) { log("Failed to set PUPPET_MASTER_RADIO_STRESS_TEST to true"); } if (mCanSetPreferApn && mPreferredApn == null) { if (DBG) log("onDataSetupComplete: PREFERRED APN is null"); mPreferredApn = apn; if (mPreferredApn != null) { setPreferredApn(mPreferredApn.getId()); } } } else { try { SystemProperties.set(PUPPET_MASTER_RADIO_STRESS_TEST, "false"); } catch (RuntimeException ex) { log("Failed to set PUPPET_MASTER_RADIO_STRESS_TEST to false"); } } // A connection is setup apnContext.setState(DctConstants.State.CONNECTED); checkDataRoamingStatus(false); boolean isProvApn = apnContext.isProvisioningApn(); final ConnectivityManager cm = ConnectivityManager.from(mPhone.getContext()); if (mProvisionBroadcastReceiver != null) { mPhone.getContext().unregisterReceiver(mProvisionBroadcastReceiver); mProvisionBroadcastReceiver = null; } if ((!isProvApn) || mIsProvisioning) { // Hide any provisioning notification. cm.setProvisioningNotificationVisible(false, ConnectivityManager.TYPE_MOBILE, mProvisionActionName); // Complete the connection normally notifying the world we're connected. // We do this if this isn't a special provisioning apn or if we've been // told its time to provision. completeConnection(apnContext, requestType); } else { // This is a provisioning APN that we're reporting as connected. Later // when the user desires to upgrade this to a "default" connection, // mIsProvisioning == true, we'll go through the code path above. // mIsProvisioning becomes true when CMD_ENABLE_MOBILE_PROVISIONING // is sent to the DCT. if (DBG) { log("onDataSetupComplete: successful, BUT send connected to prov apn as" + " mIsProvisioning:" + mIsProvisioning + " == false" + " && (isProvisioningApn:" + isProvApn + " == true"); } // While radio is up, grab provisioning URL. The URL contains ICCID which // disappears when radio is off. mProvisionBroadcastReceiver = new ProvisionNotificationBroadcastReceiver( cm.getMobileProvisioningUrl(), mTelephonyManager.getNetworkOperatorName()); mPhone.getContext().registerReceiver(mProvisionBroadcastReceiver, new IntentFilter(mProvisionActionName)); // Put up user notification that sign-in is required. cm.setProvisioningNotificationVisible(true, ConnectivityManager.TYPE_MOBILE, mProvisionActionName); // Turn off radio to save battery and avoid wasting carrier resources. // The network isn't usable and network validation will just fail anyhow. setRadio(false); } if (DBG) { log("onDataSetupComplete: SETUP complete type=" + apnContext.getApnType()); } if (Build.IS_DEBUGGABLE) { // adb shell setprop persist.radio.test.pco [pco_val] String radioTestProperty = "persist.radio.test.pco"; int pcoVal = SystemProperties.getInt(radioTestProperty, -1); if (pcoVal != -1) { log("PCO testing: read pco value from persist.radio.test.pco " + pcoVal); final byte[] value = new byte[1]; value[0] = (byte) pcoVal; final Intent intent = new Intent(TelephonyIntents.ACTION_CARRIER_SIGNAL_PCO_VALUE); intent.putExtra(TelephonyIntents.EXTRA_APN_TYPE_KEY, "default"); intent.putExtra(TelephonyIntents.EXTRA_APN_PROTO_KEY, "IPV4V6"); intent.putExtra(TelephonyIntents.EXTRA_PCO_ID_KEY, 0xFF00); intent.putExtra(TelephonyIntents.EXTRA_PCO_VALUE_KEY, value); mPhone.getCarrierSignalAgent().notifyCarrierSignalReceivers(intent); } } } } else { if (DBG) { ApnSetting apn = apnContext.getApnSetting(); log("onDataSetupComplete: error apn=" + apn.getApnName() + ", cause=" + cause + ", requestType=" + requestTypeToString(requestType)); } if (DataFailCause.isEventLoggable(cause)) { // Log this failure to the Event Logs. int cid = getCellLocationId(); EventLog.writeEvent(EventLogTags.PDP_SETUP_FAIL, cause, cid, mTelephonyManager.getNetworkType()); } ApnSetting apn = apnContext.getApnSetting(); mPhone.notifyPreciseDataConnectionFailed(apnContext.getApnType(), apn != null ? apn.getApnName() : null, cause); // Compose broadcast intent send to the specific carrier signaling receivers Intent intent = new Intent(TelephonyIntents .ACTION_CARRIER_SIGNAL_REQUEST_NETWORK_FAILED); intent.putExtra(TelephonyIntents.EXTRA_ERROR_CODE_KEY, cause); intent.putExtra(TelephonyIntents.EXTRA_APN_TYPE_KEY, apnContext.getApnType()); mPhone.getCarrierSignalAgent().notifyCarrierSignalReceivers(intent); if (DataFailCause.isRadioRestartFailure(mPhone.getContext(), cause, mPhone.getSubId()) || apnContext.restartOnError(cause)) { if (DBG) log("Modem restarted."); sendRestartRadio(); } // If the data call failure cause is a permanent failure, we mark the APN as permanent // failed. if (isPermanentFailure(cause)) { log("cause = " + cause + ", mark apn as permanent failed. apn = " + apn); apnContext.markApnPermanentFailed(apn); } onDataSetupCompleteError(apnContext, requestType); } } /** * Error has occurred during the SETUP {aka bringUP} request and the DCT * should either try the next waiting APN or start over from the * beginning if the list is empty. Between each SETUP request there will * be a delay defined by {@link #getApnDelay()}. */ private void onDataSetupCompleteError(ApnContext apnContext, @RequestNetworkType int requestType) { long delay = apnContext.getDelayForNextApn(mFailFast); // Check if we need to retry or not. // TODO: We should support handover retry in the future. if (delay >= 0) { if (DBG) log("onDataSetupCompleteError: Try next APN. delay = " + delay); apnContext.setState(DctConstants.State.RETRYING); // Wait a bit before trying the next APN, so that // we're not tying up the RIL command channel startAlarmForReconnect(delay, apnContext); } else { // If we are not going to retry any APN, set this APN context to failed state. // This would be the final state of a data connection. apnContext.setState(DctConstants.State.FAILED); mPhone.notifyDataConnection(apnContext.getApnType()); apnContext.setDataConnection(null); log("onDataSetupCompleteError: Stop retrying APNs. delay=" + delay + ", requestType=" + requestTypeToString(requestType)); } } /** * Called when EVENT_NETWORK_STATUS_CHANGED is received. * * @param status One of {@code NetworkAgent.VALID_NETWORK} or * {@code NetworkAgent.INVALID_NETWORK}. * @param redirectUrl If the Internet probe was redirected, this * is the destination it was redirected to, otherwise {@code null} */ private void onNetworkStatusChanged(int status, String redirectUrl) { if (!TextUtils.isEmpty(redirectUrl)) { Intent intent = new Intent(TelephonyIntents.ACTION_CARRIER_SIGNAL_REDIRECTED); intent.putExtra(TelephonyIntents.EXTRA_REDIRECTION_URL_KEY, redirectUrl); mPhone.getCarrierSignalAgent().notifyCarrierSignalReceivers(intent); log("Notify carrier signal receivers with redirectUrl: " + redirectUrl); } else { final boolean isValid = status == NetworkAgent.VALID_NETWORK; if (!mDsRecoveryHandler.isRecoveryOnBadNetworkEnabled()) { if (DBG) log("Skip data stall recovery on network status change with in threshold"); return; } if (mTransportType != AccessNetworkConstants.TRANSPORT_TYPE_WWAN) { if (DBG) log("Skip data stall recovery on non WWAN"); return; } mDsRecoveryHandler.processNetworkStatusChanged(isValid); } } /** * Called when EVENT_DISCONNECT_DONE is received. */ private void onDisconnectDone(ApnContext apnContext) { if(DBG) log("onDisconnectDone: EVENT_DISCONNECT_DONE apnContext=" + apnContext); apnContext.setState(DctConstants.State.IDLE); final DataConnection dc = apnContext.getDataConnection(); // when data connection is gone and not for handover, notify all apn types which // this data connection can handle. Note, this might not work if one apn type served for // multiple data connection. if (dc != null && dc.isInactive() && !dc.hasBeenTransferred()) { String[] types = ApnSetting.getApnTypesStringFromBitmask( apnContext.getApnSetting().getApnTypeBitmask()).split(","); for (String type : types) { mPhone.notifyDataConnection(type); } } // if all data connection are gone, check whether Airplane mode request was // pending. if (isDisconnected()) { if (mPhone.getServiceStateTracker().processPendingRadioPowerOffAfterDataOff()) { if (DBG) log("onDisconnectDone: radio will be turned off, no retries"); // Radio will be turned off. No need to retry data setup apnContext.setApnSetting(null); apnContext.setDataConnection(null); // Need to notify disconnect as well, in the case of switching Airplane mode. // Otherwise, it would cause 30s delayed to turn on Airplane mode. if (mDisconnectPendingCount > 0) { mDisconnectPendingCount--; } if (mDisconnectPendingCount == 0) { notifyAllDataDisconnected(); } return; } } // If APN is still enabled, try to bring it back up automatically if (mAttached.get() && apnContext.isReady() && retryAfterDisconnected(apnContext)) { try { SystemProperties.set(PUPPET_MASTER_RADIO_STRESS_TEST, "false"); } catch (RuntimeException ex) { log("Failed to set PUPPET_MASTER_RADIO_STRESS_TEST to false"); } // Wait a bit before trying the next APN, so that // we're not tying up the RIL command channel. // This also helps in any external dependency to turn off the context. if (DBG) log("onDisconnectDone: attached, ready and retry after disconnect"); long delay = apnContext.getRetryAfterDisconnectDelay(); if (delay > 0) { // Data connection is in IDLE state, so when we reconnect later, we'll rebuild // the waiting APN list, which will also reset/reconfigure the retry manager. startAlarmForReconnect(delay, apnContext); } } else { boolean restartRadioAfterProvisioning = mPhone.getContext().getResources().getBoolean( com.android.internal.R.bool.config_restartRadioAfterProvisioning); if (apnContext.isProvisioningApn() && restartRadioAfterProvisioning) { log("onDisconnectDone: restartRadio after provisioning"); restartRadio(); } apnContext.setApnSetting(null); apnContext.setDataConnection(null); if (isOnlySingleDcAllowed(getDataRat())) { if(DBG) log("onDisconnectDone: isOnlySigneDcAllowed true so setup single apn"); setupDataOnAllConnectableApns(Phone.REASON_SINGLE_PDN_ARBITRATION, RetryFailures.ALWAYS); } else { if(DBG) log("onDisconnectDone: not retrying"); } } if (mDisconnectPendingCount > 0) mDisconnectPendingCount--; if (mDisconnectPendingCount == 0) { apnContext.setConcurrentVoiceAndDataAllowed( mPhone.getServiceStateTracker().isConcurrentVoiceAndDataAllowed()); notifyAllDataDisconnected(); } } private void onVoiceCallStarted() { if (DBG) log("onVoiceCallStarted"); mInVoiceCall = true; if (isConnected() && ! mPhone.getServiceStateTracker().isConcurrentVoiceAndDataAllowed()) { if (DBG) log("onVoiceCallStarted stop polling"); stopNetStatPoll(); stopDataStallAlarm(); mPhone.notifyDataConnection(); } } private void onVoiceCallEnded() { if (DBG) log("onVoiceCallEnded"); mInVoiceCall = false; if (isConnected()) { if (!mPhone.getServiceStateTracker().isConcurrentVoiceAndDataAllowed()) { startNetStatPoll(); startDataStallAlarm(DATA_STALL_NOT_SUSPECTED); mPhone.notifyDataConnection(); } else { // clean slate after call end. resetPollStats(); } } // reset reconnect timer setupDataOnAllConnectableApns(Phone.REASON_VOICE_CALL_ENDED, RetryFailures.ALWAYS); } private boolean isConnected() { for (ApnContext apnContext : mApnContexts.values()) { if (apnContext.getState() == DctConstants.State.CONNECTED) { // At least one context is connected, return true return true; } } // There are not any contexts connected, return false return false; } public boolean isDisconnected() { for (ApnContext apnContext : mApnContexts.values()) { if (!apnContext.isDisconnected()) { // At least one context was not disconnected return false return false; } } // All contexts were disconnected so return true return true; } private void setDataProfilesAsNeeded() { if (DBG) log("setDataProfilesAsNeeded"); ArrayList dataProfileList = new ArrayList<>(); for (ApnSetting apn : mAllApnSettings) { DataProfile dp = createDataProfile(apn, apn.equals(getPreferredApn())); if (!dataProfileList.contains(dp)) { dataProfileList.add(dp); } } // Check if the data profiles we are sending are same as we did last time. We don't want to // send the redundant profiles to the modem. Also if there the list is empty, we don't // send it to the modem. if (!dataProfileList.isEmpty() && (dataProfileList.size() != mLastDataProfileList.size() || !mLastDataProfileList.containsAll(dataProfileList))) { mDataServiceManager.setDataProfile(dataProfileList, mPhone.getServiceState().getDataRoamingFromRegistration(), null); } } /** * Based on the sim operator numeric, create a list for all possible * Data Connections and setup the preferredApn. */ private void createAllApnList() { mAllApnSettings.clear(); IccRecords r = mIccRecords.get(); String operator = (r != null) ? r.getOperatorNumeric() : ""; // ORDER BY Telephony.Carriers._ID ("_id") Cursor cursor = mPhone.getContext().getContentResolver().query( Uri.withAppendedPath(Telephony.Carriers.SIM_APN_URI, "filtered/subId/" + mPhone.getSubId()), null, null, null, Telephony.Carriers._ID); if (cursor != null) { while (cursor.moveToNext()) { ApnSetting apn = ApnSetting.makeApnSetting(cursor); if (apn == null) { continue; } mAllApnSettings.add(apn); } cursor.close(); } else { if (DBG) log("createAllApnList: cursor is null"); mApnSettingsInitializationLog.log("cursor is null for carrier, operator: " + operator); } addEmergencyApnSetting(); dedupeApnSettings(); if (mAllApnSettings.isEmpty()) { log("createAllApnList: No APN found for carrier, operator: " + operator); mApnSettingsInitializationLog.log("no APN found for carrier, operator: " + operator); mPreferredApn = null; // TODO: What is the right behavior? //notifyNoData(DataConnection.FailCause.MISSING_UNKNOWN_APN); } else { mPreferredApn = getPreferredApn(); if (mPreferredApn != null && !mPreferredApn.getOperatorNumeric().equals(operator)) { mPreferredApn = null; setPreferredApn(-1); } if (DBG) log("createAllApnList: mPreferredApn=" + mPreferredApn); } if (DBG) log("createAllApnList: X mAllApnSettings=" + mAllApnSettings); } private void dedupeApnSettings() { ArrayList resultApns = new ArrayList(); // coalesce APNs if they are similar enough to prevent // us from bringing up two data calls with the same interface int i = 0; while (i < mAllApnSettings.size() - 1) { ApnSetting first = mAllApnSettings.get(i); ApnSetting second = null; int j = i + 1; while (j < mAllApnSettings.size()) { second = mAllApnSettings.get(j); if (first.similar(second)) { ApnSetting newApn = mergeApns(first, second); mAllApnSettings.set(i, newApn); first = newApn; mAllApnSettings.remove(j); } else { j++; } } i++; } } private ApnSetting mergeApns(ApnSetting dest, ApnSetting src) { int id = dest.getId(); if ((src.getApnTypeBitmask() & ApnSetting.TYPE_DEFAULT) == ApnSetting.TYPE_DEFAULT) { id = src.getId(); } final int resultApnType = src.getApnTypeBitmask() | dest.getApnTypeBitmask(); Uri mmsc = (dest.getMmsc() == null ? src.getMmsc() : dest.getMmsc()); String mmsProxy = TextUtils.isEmpty(dest.getMmsProxyAddressAsString()) ? src.getMmsProxyAddressAsString() : dest.getMmsProxyAddressAsString(); int mmsPort = dest.getMmsProxyPort() == -1 ? src.getMmsProxyPort() : dest.getMmsProxyPort(); String proxy = TextUtils.isEmpty(dest.getProxyAddressAsString()) ? src.getProxyAddressAsString() : dest.getProxyAddressAsString(); int port = dest.getProxyPort() == -1 ? src.getProxyPort() : dest.getProxyPort(); int protocol = src.getProtocol() == ApnSetting.PROTOCOL_IPV4V6 ? src.getProtocol() : dest.getProtocol(); int roamingProtocol = src.getRoamingProtocol() == ApnSetting.PROTOCOL_IPV4V6 ? src.getRoamingProtocol() : dest.getRoamingProtocol(); int networkTypeBitmask = (dest.getNetworkTypeBitmask() == 0 || src.getNetworkTypeBitmask() == 0) ? 0 : (dest.getNetworkTypeBitmask() | src.getNetworkTypeBitmask()); return ApnSetting.makeApnSetting(id, dest.getOperatorNumeric(), dest.getEntryName(), dest.getApnName(), proxy, port, mmsc, mmsProxy, mmsPort, dest.getUser(), dest.getPassword(), dest.getAuthType(), resultApnType, protocol, roamingProtocol, dest.isEnabled(), networkTypeBitmask, dest.getProfileId(), (dest.isPersistent() || src.isPersistent()), dest.getMaxConns(), dest.getWaitTime(), dest.getMaxConnsTime(), dest.getMtu(), dest.getMvnoType(), dest.getMvnoMatchData(), dest.getApnSetId(), dest.getCarrierId(), dest.getSkip464Xlat()); } private DataConnection createDataConnection() { if (DBG) log("createDataConnection E"); int id = mUniqueIdGenerator.getAndIncrement(); DataConnection dataConnection = DataConnection.makeDataConnection(mPhone, id, this, mDataServiceManager, mDcTesterFailBringUpAll, mDcc); mDataConnections.put(id, dataConnection); if (DBG) log("createDataConnection() X id=" + id + " dc=" + dataConnection); return dataConnection; } private void destroyDataConnections() { if(mDataConnections != null) { if (DBG) log("destroyDataConnections: clear mDataConnectionList"); mDataConnections.clear(); } else { if (DBG) log("destroyDataConnections: mDataConnecitonList is empty, ignore"); } } /** * Build a list of APNs to be used to create PDP's. * * @param requestedApnType * @return waitingApns list to be used to create PDP * error when waitingApns.isEmpty() */ private ArrayList buildWaitingApns(String requestedApnType, int radioTech) { if (DBG) log("buildWaitingApns: E requestedApnType=" + requestedApnType); ArrayList apnList = new ArrayList(); int requestedApnTypeBitmask = ApnSetting.getApnTypesBitmaskFromString(requestedApnType); if (requestedApnTypeBitmask == ApnSetting.TYPE_DUN) { ArrayList dunApns = fetchDunApns(); if (dunApns.size() > 0) { for (ApnSetting dun : dunApns) { apnList.add(dun); if (DBG) log("buildWaitingApns: X added APN_TYPE_DUN apnList=" + apnList); } return sortApnListByPreferred(apnList); } } IccRecords r = mIccRecords.get(); String operator = (r != null) ? r.getOperatorNumeric() : ""; // This is a workaround for a bug (7305641) where we don't failover to other // suitable APNs if our preferred APN fails. On prepaid ATT sims we need to // failover to a provisioning APN, but once we've used their default data // connection we are locked to it for life. This change allows ATT devices // to say they don't want to use preferred at all. boolean usePreferred = true; try { usePreferred = ! mPhone.getContext().getResources().getBoolean(com.android. internal.R.bool.config_dontPreferApn); } catch (Resources.NotFoundException e) { if (DBG) log("buildWaitingApns: usePreferred NotFoundException set to true"); usePreferred = true; } if (usePreferred) { mPreferredApn = getPreferredApn(); } if (DBG) { log("buildWaitingApns: usePreferred=" + usePreferred + " canSetPreferApn=" + mCanSetPreferApn + " mPreferredApn=" + mPreferredApn + " operator=" + operator + " radioTech=" + radioTech + " IccRecords r=" + r); } if (usePreferred && mCanSetPreferApn && mPreferredApn != null && mPreferredApn.canHandleType(requestedApnTypeBitmask)) { if (DBG) { log("buildWaitingApns: Preferred APN:" + operator + ":" + mPreferredApn.getOperatorNumeric() + ":" + mPreferredApn); } if (mPreferredApn.getOperatorNumeric().equals(operator)) { if (mPreferredApn.canSupportNetworkType( ServiceState.rilRadioTechnologyToNetworkType(radioTech))) { apnList.add(mPreferredApn); apnList = sortApnListByPreferred(apnList); if (DBG) log("buildWaitingApns: X added preferred apnList=" + apnList); return apnList; } else { if (DBG) log("buildWaitingApns: no preferred APN"); setPreferredApn(-1); mPreferredApn = null; } } else { if (DBG) log("buildWaitingApns: no preferred APN"); setPreferredApn(-1); mPreferredApn = null; } } if (DBG) log("buildWaitingApns: mAllApnSettings=" + mAllApnSettings); for (ApnSetting apn : mAllApnSettings) { if (apn.canHandleType(requestedApnTypeBitmask)) { if (apn.canSupportNetworkType( ServiceState.rilRadioTechnologyToNetworkType(radioTech))) { if (VDBG) log("buildWaitingApns: adding apn=" + apn); apnList.add(apn); } else { if (DBG) { log("buildWaitingApns: networkTypeBitmask:" + apn.getNetworkTypeBitmask() + " does not include radioTech:" + ServiceState.rilRadioTechnologyToString(radioTech)); } } } else if (VDBG) { log("buildWaitingApns: couldn't handle requested ApnType=" + requestedApnType); } } apnList = sortApnListByPreferred(apnList); if (DBG) log("buildWaitingApns: " + apnList.size() + " APNs in the list: " + apnList); return apnList; } /** * Sort a list of ApnSetting objects, with the preferred APNs at the front of the list * * e.g. if the preferred APN set = 2 and we have * 1. APN with apn_set_id = 0 = Carriers.NO_SET_SET (no set is set) * 2. APN with apn_set_id = 1 (not preferred set) * 3. APN with apn_set_id = 2 (preferred set) * Then the return order should be (3, 1, 2) or (3, 2, 1) * * e.g. if the preferred APN set = Carriers.NO_SET_SET (no preferred set) then the * return order can be anything */ @VisibleForTesting public ArrayList sortApnListByPreferred(ArrayList list) { if (list == null || list.size() <= 1) return list; int preferredApnSetId = getPreferredApnSetId(); if (preferredApnSetId != Telephony.Carriers.NO_APN_SET_ID) { list.sort(new Comparator() { @Override public int compare(ApnSetting apn1, ApnSetting apn2) { if (apn1.getApnSetId() == preferredApnSetId) { return -1; } if (apn2.getApnSetId() == preferredApnSetId) { return 1; } return 0; } }); } return list; } private String apnListToString (ArrayList apns) { StringBuilder result = new StringBuilder(); for (int i = 0, size = apns.size(); i < size; i++) { result.append('[') .append(apns.get(i).toString()) .append(']'); } return result.toString(); } private void setPreferredApn(int pos) { if (!mCanSetPreferApn) { log("setPreferredApn: X !canSEtPreferApn"); return; } String subId = Long.toString(mPhone.getSubId()); Uri uri = Uri.withAppendedPath(PREFERAPN_NO_UPDATE_URI_USING_SUBID, subId); log("setPreferredApn: delete"); ContentResolver resolver = mPhone.getContext().getContentResolver(); resolver.delete(uri, null, null); if (pos >= 0) { log("setPreferredApn: insert"); ContentValues values = new ContentValues(); values.put(APN_ID, pos); resolver.insert(uri, values); } } ApnSetting getPreferredApn() { if (mAllApnSettings == null || mAllApnSettings.isEmpty()) { log("getPreferredApn: mAllApnSettings is empty"); return null; } String subId = Long.toString(mPhone.getSubId()); Uri uri = Uri.withAppendedPath(PREFERAPN_NO_UPDATE_URI_USING_SUBID, subId); Cursor cursor = mPhone.getContext().getContentResolver().query( uri, new String[] { "_id", "name", "apn" }, null, null, Telephony.Carriers.DEFAULT_SORT_ORDER); if (cursor != null) { mCanSetPreferApn = true; } else { mCanSetPreferApn = false; } if (VDBG) { log("getPreferredApn: mRequestedApnType=" + mRequestedApnType + " cursor=" + cursor + " cursor.count=" + ((cursor != null) ? cursor.getCount() : 0)); } if (mCanSetPreferApn && cursor.getCount() > 0) { int pos; cursor.moveToFirst(); pos = cursor.getInt(cursor.getColumnIndexOrThrow(Telephony.Carriers._ID)); for(ApnSetting p : mAllApnSettings) { if (p.getId() == pos && p.canHandleType(mRequestedApnType)) { log("getPreferredApn: For APN type " + ApnSetting.getApnTypeString(mRequestedApnType) + " found apnSetting " + p); cursor.close(); return p; } } } if (cursor != null) { cursor.close(); } log("getPreferredApn: X not found"); return null; } @Override public void handleMessage (Message msg) { if (VDBG) log("handleMessage msg=" + msg); AsyncResult ar; Pair pair; ApnContext apnContext; int generation; int requestType; switch (msg.what) { case DctConstants.EVENT_RECORDS_LOADED: // If onRecordsLoadedOrSubIdChanged() is not called here, it should be called on // onSubscriptionsChanged() when a valid subId is available. int subId = mPhone.getSubId(); if (SubscriptionManager.isValidSubscriptionId(subId)) { onRecordsLoadedOrSubIdChanged(); } else { log("Ignoring EVENT_RECORDS_LOADED as subId is not valid: " + subId); } break; case DctConstants.EVENT_DATA_CONNECTION_DETACHED: onDataConnectionDetached(); break; case DctConstants.EVENT_DATA_CONNECTION_ATTACHED: onDataConnectionAttached(); break; case DctConstants.EVENT_DO_RECOVERY: mDsRecoveryHandler.doRecovery(); break; case DctConstants.EVENT_APN_CHANGED: onApnChanged(); break; case DctConstants.EVENT_PS_RESTRICT_ENABLED: /** * We don't need to explicitly to tear down the PDP context * when PS restricted is enabled. The base band will deactive * PDP context and notify us with PDP_CONTEXT_CHANGED. * But we should stop the network polling and prevent reset PDP. */ if (DBG) log("EVENT_PS_RESTRICT_ENABLED " + mIsPsRestricted); stopNetStatPoll(); stopDataStallAlarm(); mIsPsRestricted = true; break; case DctConstants.EVENT_PS_RESTRICT_DISABLED: /** * When PS restrict is removed, we need setup PDP connection if * PDP connection is down. */ if (DBG) log("EVENT_PS_RESTRICT_DISABLED " + mIsPsRestricted); mIsPsRestricted = false; if (isConnected()) { startNetStatPoll(); startDataStallAlarm(DATA_STALL_NOT_SUSPECTED); } else { // TODO: Should all PDN states be checked to fail? if (mState == DctConstants.State.FAILED) { cleanUpAllConnectionsInternal(false, Phone.REASON_PS_RESTRICT_ENABLED); mReregisterOnReconnectFailure = false; } apnContext = mApnContextsByType.get(ApnSetting.TYPE_DEFAULT); if (apnContext != null) { apnContext.setReason(Phone.REASON_PS_RESTRICT_ENABLED); trySetupData(apnContext, REQUEST_TYPE_NORMAL); } else { loge("**** Default ApnContext not found ****"); if (Build.IS_DEBUGGABLE) { throw new RuntimeException("Default ApnContext not found"); } } } break; case DctConstants.EVENT_TRY_SETUP_DATA: trySetupData((ApnContext) msg.obj, REQUEST_TYPE_NORMAL); break; case DctConstants.EVENT_CLEAN_UP_CONNECTION: if (DBG) log("EVENT_CLEAN_UP_CONNECTION"); cleanUpConnectionInternal(true, RELEASE_TYPE_DETACH, (ApnContext) msg.obj); break; case DctConstants.EVENT_CLEAN_UP_ALL_CONNECTIONS: if ((msg.obj != null) && (msg.obj instanceof String == false)) { msg.obj = null; } cleanUpAllConnectionsInternal(true, (String) msg.obj); break; case DctConstants.EVENT_DATA_RAT_CHANGED: if (getDataRat() == ServiceState.RIL_RADIO_TECHNOLOGY_UNKNOWN) { // unknown rat is an exception for data rat change. It's only received when out // of service and is not applicable for apn bearer bitmask. We should bypass the // check of waiting apn list and keep the data connection on, and no need to // setup a new one. break; } cleanUpConnectionsOnUpdatedApns(false, Phone.REASON_NW_TYPE_CHANGED); //May new Network allow setupData, so try it here setupDataOnAllConnectableApns(Phone.REASON_NW_TYPE_CHANGED, RetryFailures.ONLY_ON_CHANGE); break; case DctConstants.CMD_CLEAR_PROVISIONING_SPINNER: // Check message sender intended to clear the current spinner. if (mProvisioningSpinner == msg.obj) { mProvisioningSpinner.dismiss(); mProvisioningSpinner = null; } break; case DctConstants.EVENT_ENABLE_APN: onEnableApn(msg.arg1, msg.arg2, (Message) msg.obj); break; case DctConstants.EVENT_DISABLE_APN: onDisableApn(msg.arg1, msg.arg2); break; case DctConstants.EVENT_DATA_STALL_ALARM: onDataStallAlarm(msg.arg1); break; case DctConstants.EVENT_ROAMING_OFF: onDataRoamingOff(); break; case DctConstants.EVENT_ROAMING_ON: case DctConstants.EVENT_ROAMING_SETTING_CHANGE: onDataRoamingOnOrSettingsChanged(msg.what); break; case DctConstants.EVENT_DEVICE_PROVISIONED_CHANGE: // Update sharedPreference to false when exits new device provisioning, indicating // no users modifications on the settings for new devices. Thus carrier specific // default roaming settings can be applied for new devices till user modification. final SharedPreferences sp = PreferenceManager .getDefaultSharedPreferences(mPhone.getContext()); if (!sp.contains(Phone.DATA_ROAMING_IS_USER_SETTING_KEY)) { sp.edit().putBoolean(Phone.DATA_ROAMING_IS_USER_SETTING_KEY, false).commit(); } break; case DctConstants.EVENT_NETWORK_STATUS_CHANGED: int status = msg.arg1; String url = (String) msg.obj; onNetworkStatusChanged(status, url); break; case DctConstants.EVENT_RADIO_AVAILABLE: onRadioAvailable(); break; case DctConstants.EVENT_RADIO_OFF_OR_NOT_AVAILABLE: onRadioOffOrNotAvailable(); break; case DctConstants.EVENT_DATA_SETUP_COMPLETE: ar = (AsyncResult) msg.obj; pair = (Pair) ar.userObj; apnContext = pair.first; generation = pair.second; requestType = msg.arg2; if (apnContext.getConnectionGeneration() == generation) { boolean success = true; int cause = DataFailCause.UNKNOWN; if (ar.exception != null) { success = false; cause = (int) ar.result; } onDataSetupComplete(apnContext, success, cause, requestType); } else { loge("EVENT_DATA_SETUP_COMPLETE: Dropped the event because generation " + "did not match."); } break; case DctConstants.EVENT_DATA_SETUP_COMPLETE_ERROR: ar = (AsyncResult) msg.obj; pair = (Pair) ar.userObj; apnContext = pair.first; generation = pair.second; requestType = msg.arg2; if (apnContext.getConnectionGeneration() == generation) { onDataSetupCompleteError(apnContext, requestType); } else { loge("EVENT_DATA_SETUP_COMPLETE_ERROR: Dropped the event because generation " + "did not match."); } break; case DctConstants.EVENT_DISCONNECT_DONE: log("EVENT_DISCONNECT_DONE msg=" + msg); ar = (AsyncResult) msg.obj; pair = (Pair) ar.userObj; apnContext = pair.first; generation = pair.second; if (apnContext.getConnectionGeneration() == generation) { onDisconnectDone(apnContext); } else { loge("EVENT_DISCONNECT_DONE: Dropped the event because generation " + "did not match."); } break; case DctConstants.EVENT_VOICE_CALL_STARTED: onVoiceCallStarted(); break; case DctConstants.EVENT_VOICE_CALL_ENDED: onVoiceCallEnded(); break; case DctConstants.CMD_SET_ENABLE_FAIL_FAST_MOBILE_DATA: { sEnableFailFastRefCounter += (msg.arg1 == DctConstants.ENABLED) ? 1 : -1; if (DBG) { log("CMD_SET_ENABLE_FAIL_FAST_MOBILE_DATA: " + " sEnableFailFastRefCounter=" + sEnableFailFastRefCounter); } if (sEnableFailFastRefCounter < 0) { final String s = "CMD_SET_ENABLE_FAIL_FAST_MOBILE_DATA: " + "sEnableFailFastRefCounter:" + sEnableFailFastRefCounter + " < 0"; loge(s); sEnableFailFastRefCounter = 0; } final boolean enabled = sEnableFailFastRefCounter > 0; if (DBG) { log("CMD_SET_ENABLE_FAIL_FAST_MOBILE_DATA: enabled=" + enabled + " sEnableFailFastRefCounter=" + sEnableFailFastRefCounter); } if (mFailFast != enabled) { mFailFast = enabled; mDataStallNoRxEnabled = !enabled; if (mDsRecoveryHandler.isNoRxDataStallDetectionEnabled() && (getOverallState() == DctConstants.State.CONNECTED) && (!mInVoiceCall || mPhone.getServiceStateTracker() .isConcurrentVoiceAndDataAllowed())) { if (DBG) log("CMD_SET_ENABLE_FAIL_FAST_MOBILE_DATA: start data stall"); stopDataStallAlarm(); startDataStallAlarm(DATA_STALL_NOT_SUSPECTED); } else { if (DBG) log("CMD_SET_ENABLE_FAIL_FAST_MOBILE_DATA: stop data stall"); stopDataStallAlarm(); } } break; } case DctConstants.CMD_ENABLE_MOBILE_PROVISIONING: { Bundle bundle = msg.getData(); if (bundle != null) { try { mProvisioningUrl = (String)bundle.get(DctConstants.PROVISIONING_URL_KEY); } catch(ClassCastException e) { loge("CMD_ENABLE_MOBILE_PROVISIONING: provisioning url not a string" + e); mProvisioningUrl = null; } } if (TextUtils.isEmpty(mProvisioningUrl)) { loge("CMD_ENABLE_MOBILE_PROVISIONING: provisioning url is empty, ignoring"); mIsProvisioning = false; mProvisioningUrl = null; } else { loge("CMD_ENABLE_MOBILE_PROVISIONING: provisioningUrl=" + mProvisioningUrl); mIsProvisioning = true; startProvisioningApnAlarm(); } break; } case DctConstants.EVENT_PROVISIONING_APN_ALARM: { if (DBG) log("EVENT_PROVISIONING_APN_ALARM"); ApnContext apnCtx = mApnContextsByType.get(ApnSetting.TYPE_DEFAULT); if (apnCtx.isProvisioningApn() && apnCtx.isConnectedOrConnecting()) { if (mProvisioningApnAlarmTag == msg.arg1) { if (DBG) log("EVENT_PROVISIONING_APN_ALARM: Disconnecting"); mIsProvisioning = false; mProvisioningUrl = null; stopProvisioningApnAlarm(); cleanUpConnectionInternal(true, RELEASE_TYPE_DETACH, apnCtx); } else { if (DBG) { log("EVENT_PROVISIONING_APN_ALARM: ignore stale tag," + " mProvisioningApnAlarmTag:" + mProvisioningApnAlarmTag + " != arg1:" + msg.arg1); } } } else { if (DBG) log("EVENT_PROVISIONING_APN_ALARM: Not connected ignore"); } break; } case DctConstants.CMD_IS_PROVISIONING_APN: { if (DBG) log("CMD_IS_PROVISIONING_APN"); boolean isProvApn; try { String apnType = null; Bundle bundle = msg.getData(); if (bundle != null) { apnType = (String)bundle.get(DctConstants.APN_TYPE_KEY); } if (TextUtils.isEmpty(apnType)) { loge("CMD_IS_PROVISIONING_APN: apnType is empty"); isProvApn = false; } else { isProvApn = isProvisioningApn(apnType); } } catch (ClassCastException e) { loge("CMD_IS_PROVISIONING_APN: NO provisioning url ignoring"); isProvApn = false; } if (DBG) log("CMD_IS_PROVISIONING_APN: ret=" + isProvApn); mReplyAc.replyToMessage(msg, DctConstants.CMD_IS_PROVISIONING_APN, isProvApn ? DctConstants.ENABLED : DctConstants.DISABLED); break; } case DctConstants.EVENT_ICC_CHANGED: { onUpdateIcc(); break; } case DctConstants.EVENT_RESTART_RADIO: { restartRadio(); break; } case DctConstants.CMD_NET_STAT_POLL: { if (msg.arg1 == DctConstants.ENABLED) { handleStartNetStatPoll((DctConstants.Activity)msg.obj); } else if (msg.arg1 == DctConstants.DISABLED) { handleStopNetStatPoll((DctConstants.Activity)msg.obj); } break; } case DctConstants.EVENT_PCO_DATA_RECEIVED: { handlePcoData((AsyncResult)msg.obj); break; } case DctConstants.EVENT_DATA_RECONNECT: onDataReconnect(msg.getData()); break; case DctConstants.EVENT_DATA_SERVICE_BINDING_CHANGED: onDataServiceBindingChanged((Boolean) ((AsyncResult) msg.obj).result); break; case DctConstants.EVENT_DATA_ENABLED_CHANGED: ar = (AsyncResult) msg.obj; if (ar.result instanceof Pair) { Pair p = (Pair) ar.result; boolean enabled = p.first; int reason = p.second; onDataEnabledChanged(enabled, reason); } break; case DctConstants.EVENT_DATA_ENABLED_OVERRIDE_RULES_CHANGED: onDataEnabledOverrideRulesChanged(); break; default: Rlog.e("DcTracker", "Unhandled event=" + msg); break; } } private int getApnProfileID(String apnType) { if (TextUtils.equals(apnType, PhoneConstants.APN_TYPE_IMS)) { return RILConstants.DATA_PROFILE_IMS; } else if (TextUtils.equals(apnType, PhoneConstants.APN_TYPE_FOTA)) { return RILConstants.DATA_PROFILE_FOTA; } else if (TextUtils.equals(apnType, PhoneConstants.APN_TYPE_CBS)) { return RILConstants.DATA_PROFILE_CBS; } else if (TextUtils.equals(apnType, PhoneConstants.APN_TYPE_IA)) { return RILConstants.DATA_PROFILE_DEFAULT; // DEFAULT for now } else if (TextUtils.equals(apnType, PhoneConstants.APN_TYPE_DUN)) { return RILConstants.DATA_PROFILE_TETHERED; } else { return RILConstants.DATA_PROFILE_DEFAULT; } } private int getCellLocationId() { int cid = -1; CellLocation loc = mPhone.getCellLocation(); if (loc != null) { if (loc instanceof GsmCellLocation) { cid = ((GsmCellLocation)loc).getCid(); } else if (loc instanceof CdmaCellLocation) { cid = ((CdmaCellLocation)loc).getBaseStationId(); } } return cid; } private IccRecords getUiccRecords(int appFamily) { return mUiccController.getIccRecords(mPhone.getPhoneId(), appFamily); } private void onUpdateIcc() { if (mUiccController == null ) { return; } IccRecords newIccRecords = getUiccRecords(UiccController.APP_FAM_3GPP); IccRecords r = mIccRecords.get(); if (r != newIccRecords) { if (r != null) { log("Removing stale icc objects."); r.unregisterForRecordsLoaded(this); mIccRecords.set(null); } if (newIccRecords != null) { if (SubscriptionManager.isValidSubscriptionId(mPhone.getSubId())) { log("New records found."); mIccRecords.set(newIccRecords); newIccRecords.registerForRecordsLoaded( this, DctConstants.EVENT_RECORDS_LOADED, null); } } else { onSimNotReady(); } } } /** * Update DcTracker. * * TODO: This should be cleaned up. DcTracker should listen to those events. */ public void update() { log("update sub = " + mPhone.getSubId()); log("update(): Active DDS, register for all events now!"); onUpdateIcc(); mAutoAttachEnabled.set(false); mPhone.updateCurrentCarrierInProvider(); } /** * For non DDS phone, mAutoAttachEnabled should be true because it may be detached * automatically from network only because it's idle for too long. In this case, we should * try setting up data call even if it's not attached for 2G or 3G networks. And doing so will * trigger PS attach if possible. */ @VisibleForTesting public boolean shouldAutoAttach() { if (mAutoAttachEnabled.get()) return true; PhoneSwitcher phoneSwitcher = PhoneSwitcher.getInstance(); ServiceState serviceState = mPhone.getServiceState(); return phoneSwitcher != null && serviceState != null && mPhone.getPhoneId() != phoneSwitcher.getPreferredDataPhoneId() && serviceState.getVoiceRegState() == ServiceState.STATE_IN_SERVICE && serviceState.getVoiceNetworkType() != NETWORK_TYPE_LTE && serviceState.getVoiceNetworkType() != NETWORK_TYPE_NR; } private void notifyAllDataDisconnected() { sEnableFailFastRefCounter = 0; mFailFast = false; mAllDataDisconnectedRegistrants.notifyRegistrants(); } public void registerForAllDataDisconnected(Handler h, int what) { mAllDataDisconnectedRegistrants.addUnique(h, what, null); if (isDisconnected()) { log("notify All Data Disconnected"); notifyAllDataDisconnected(); } } public void unregisterForAllDataDisconnected(Handler h) { mAllDataDisconnectedRegistrants.remove(h); } private void onDataEnabledChanged(boolean enable, @DataEnabledChangedReason int enabledChangedReason) { if (DBG) { log("onDataEnabledChanged: enable=" + enable + ", enabledChangedReason=" + enabledChangedReason); } if (enable) { reevaluateDataConnections(); setupDataOnAllConnectableApns(Phone.REASON_DATA_ENABLED, RetryFailures.ALWAYS); } else { String cleanupReason; switch (enabledChangedReason) { case DataEnabledSettings.REASON_INTERNAL_DATA_ENABLED: cleanupReason = Phone.REASON_DATA_DISABLED_INTERNAL; break; case DataEnabledSettings.REASON_DATA_ENABLED_BY_CARRIER: cleanupReason = Phone.REASON_CARRIER_ACTION_DISABLE_METERED_APN; break; case DataEnabledSettings.REASON_USER_DATA_ENABLED: case DataEnabledSettings.REASON_POLICY_DATA_ENABLED: case DataEnabledSettings.REASON_PROVISIONED_CHANGED: case DataEnabledSettings.REASON_PROVISIONING_DATA_ENABLED_CHANGED: default: cleanupReason = Phone.REASON_DATA_SPECIFIC_DISABLED; break; } cleanUpAllConnectionsInternal(true, cleanupReason); } } private void log(String s) { Rlog.d(mLogTag, s); } private void loge(String s) { Rlog.e(mLogTag, s); } public void dump(FileDescriptor fd, PrintWriter pw, String[] args) { pw.println("DcTracker:"); pw.println(" RADIO_TESTS=" + RADIO_TESTS); pw.println(" mDataEnabledSettings=" + mDataEnabledSettings); pw.println(" isDataAllowed=" + isDataAllowed(null)); pw.flush(); pw.println(" mRequestedApnType=" + mRequestedApnType); pw.println(" mPhone=" + mPhone.getPhoneName()); pw.println(" mActivity=" + mActivity); pw.println(" mState=" + mState); pw.println(" mTxPkts=" + mTxPkts); pw.println(" mRxPkts=" + mRxPkts); pw.println(" mNetStatPollPeriod=" + mNetStatPollPeriod); pw.println(" mNetStatPollEnabled=" + mNetStatPollEnabled); pw.println(" mDataStallTxRxSum=" + mDataStallTxRxSum); pw.println(" mDataStallAlarmTag=" + mDataStallAlarmTag); pw.println(" mDataStallNoRxEnabled=" + mDataStallNoRxEnabled); pw.println(" mEmergencyApn=" + mEmergencyApn); pw.println(" mSentSinceLastRecv=" + mSentSinceLastRecv); pw.println(" mNoRecvPollCount=" + mNoRecvPollCount); pw.println(" mResolver=" + mResolver); pw.println(" mReconnectIntent=" + mReconnectIntent); pw.println(" mAutoAttachEnabled=" + mAutoAttachEnabled.get()); pw.println(" mIsScreenOn=" + mIsScreenOn); pw.println(" mUniqueIdGenerator=" + mUniqueIdGenerator); pw.println(" mDataServiceBound=" + mDataServiceBound); pw.println(" mDataRoamingLeakageLog= "); mDataRoamingLeakageLog.dump(fd, pw, args); pw.println(" mApnSettingsInitializationLog= "); mApnSettingsInitializationLog.dump(fd, pw, args); pw.flush(); pw.println(" ***************************************"); DcController dcc = mDcc; if (dcc != null) { if (mDataServiceBound) { dcc.dump(fd, pw, args); } else { pw.println(" Can't dump mDcc because data service is not bound."); } } else { pw.println(" mDcc=null"); } pw.println(" ***************************************"); HashMap dcs = mDataConnections; if (dcs != null) { Set > mDcSet = mDataConnections.entrySet(); pw.println(" mDataConnections: count=" + mDcSet.size()); for (Entry entry : mDcSet) { pw.printf(" *** mDataConnection[%d] \n", entry.getKey()); entry.getValue().dump(fd, pw, args); } } else { pw.println("mDataConnections=null"); } pw.println(" ***************************************"); pw.flush(); HashMap apnToDcId = mApnToDataConnectionId; if (apnToDcId != null) { Set> apnToDcIdSet = apnToDcId.entrySet(); pw.println(" mApnToDataConnectonId size=" + apnToDcIdSet.size()); for (Entry entry : apnToDcIdSet) { pw.printf(" mApnToDataConnectonId[%s]=%d\n", entry.getKey(), entry.getValue()); } } else { pw.println("mApnToDataConnectionId=null"); } pw.println(" ***************************************"); pw.flush(); ConcurrentHashMap apnCtxs = mApnContexts; if (apnCtxs != null) { Set> apnCtxsSet = apnCtxs.entrySet(); pw.println(" mApnContexts size=" + apnCtxsSet.size()); for (Entry entry : apnCtxsSet) { entry.getValue().dump(fd, pw, args); } pw.println(" ***************************************"); } else { pw.println(" mApnContexts=null"); } pw.flush(); pw.println(" mAllApnSettings size=" + mAllApnSettings.size()); for (int i = 0; i < mAllApnSettings.size(); i++) { pw.printf(" mAllApnSettings[%d]: %s\n", i, mAllApnSettings.get(i)); } pw.flush(); pw.println(" mPreferredApn=" + mPreferredApn); pw.println(" mIsPsRestricted=" + mIsPsRestricted); pw.println(" mIsDisposed=" + mIsDisposed); pw.println(" mIntentReceiver=" + mIntentReceiver); pw.println(" mReregisterOnReconnectFailure=" + mReregisterOnReconnectFailure); pw.println(" canSetPreferApn=" + mCanSetPreferApn); pw.println(" mApnObserver=" + mApnObserver); pw.println(" getOverallState=" + getOverallState()); pw.println(" mAttached=" + mAttached.get()); mDataEnabledSettings.dump(fd, pw, args); pw.flush(); } public String[] getPcscfAddress(String apnType) { log("getPcscfAddress()"); ApnContext apnContext = null; if(apnType == null){ log("apnType is null, return null"); return null; } if (TextUtils.equals(apnType, PhoneConstants.APN_TYPE_EMERGENCY)) { apnContext = mApnContextsByType.get(ApnSetting.TYPE_EMERGENCY); } else if (TextUtils.equals(apnType, PhoneConstants.APN_TYPE_IMS)) { apnContext = mApnContextsByType.get(ApnSetting.TYPE_IMS); } else { log("apnType is invalid, return null"); return null; } if (apnContext == null) { log("apnContext is null, return null"); return null; } DataConnection dataConnection = apnContext.getDataConnection(); String[] result = null; if (dataConnection != null) { result = dataConnection.getPcscfAddresses(); if (result != null) { for (int i = 0; i < result.length; i++) { log("Pcscf[" + i + "]: " + result[i]); } } return result; } return null; } /** * Read APN configuration from Telephony.db for Emergency APN * All operators recognize the connection request for EPDN based on APN type * PLMN name,APN name are not mandatory parameters */ private void initEmergencyApnSetting() { // Operator Numeric is not available when sim records are not loaded. // Query Telephony.db with APN type as EPDN request does not // require APN name, plmn and all operators support same APN config. // DB will contain only one entry for Emergency APN String selection = "type=\"emergency\""; Cursor cursor = mPhone.getContext().getContentResolver().query( Uri.withAppendedPath(Telephony.Carriers.CONTENT_URI, "filtered"), null, selection, null, null); if (cursor != null) { if (cursor.getCount() > 0) { if (cursor.moveToFirst()) { mEmergencyApn = ApnSetting.makeApnSetting(cursor); } } cursor.close(); } if (mEmergencyApn != null) return; // If no emergency APN setting has been found, make one using reasonable defaults mEmergencyApn = new ApnSetting.Builder() .setEntryName("Emergency") .setProtocol(ApnSetting.PROTOCOL_IPV4V6) .setApnName("sos") .setApnTypeBitmask(ApnSetting.TYPE_EMERGENCY) .build(); } /** * Add the Emergency APN settings to APN settings list */ private void addEmergencyApnSetting() { if(mEmergencyApn != null) { for (ApnSetting apn : mAllApnSettings) { if (apn.canHandleType(ApnSetting.TYPE_EMERGENCY)) { log("addEmergencyApnSetting - E-APN setting is already present"); return; } } // If all of the APN settings cannot handle emergency, we add the emergency APN to the // list explicitly. if (!mAllApnSettings.contains(mEmergencyApn)) { mAllApnSettings.add(mEmergencyApn); log("Adding emergency APN : " + mEmergencyApn); return; } } } private boolean containsAllApns(ArrayList oldApnList, ArrayList newApnList) { for (ApnSetting newApnSetting : newApnList) { boolean canHandle = false; for (ApnSetting oldApnSetting : oldApnList) { // Make sure at least one of the APN from old list can cover the new APN if (oldApnSetting.equals(newApnSetting, mPhone.getServiceState().getDataRoamingFromRegistration())) { canHandle = true; break; } } if (!canHandle) return false; } return true; } private void cleanUpConnectionsOnUpdatedApns(boolean detach, String reason) { if (DBG) log("cleanUpConnectionsOnUpdatedApns: detach=" + detach); if (mAllApnSettings.isEmpty()) { cleanUpAllConnectionsInternal(detach, Phone.REASON_APN_CHANGED); } else { if (getDataRat() == ServiceState.RIL_RADIO_TECHNOLOGY_UNKNOWN) { // unknown rat is an exception for data rat change. Its only received when out of // service and is not applicable for apn bearer bitmask. We should bypass the check // of waiting apn list and keep the data connection on. return; } for (ApnContext apnContext : mApnContexts.values()) { ArrayList currentWaitingApns = apnContext.getWaitingApns(); ArrayList waitingApns = buildWaitingApns( apnContext.getApnType(), getDataRat()); if (VDBG) log("new waitingApns:" + waitingApns); if ((currentWaitingApns != null) && ((waitingApns.size() != currentWaitingApns.size()) // Check if the existing waiting APN list can cover the newly built APN // list. If yes, then we don't need to tear down the existing data call. // TODO: We probably need to rebuild APN list when roaming status changes. || !containsAllApns(currentWaitingApns, waitingApns))) { if (VDBG) log("new waiting apn is different for " + apnContext); apnContext.setWaitingApns(waitingApns); if (!apnContext.isDisconnected()) { if (VDBG) log("cleanUpConnectionsOnUpdatedApns for " + apnContext); apnContext.setReason(reason); cleanUpConnectionInternal(true, RELEASE_TYPE_DETACH, apnContext); } } } } if (!isConnected()) { stopNetStatPoll(); stopDataStallAlarm(); } mRequestedApnType = ApnSetting.TYPE_DEFAULT; if (DBG) log("mDisconnectPendingCount = " + mDisconnectPendingCount); if (detach && mDisconnectPendingCount == 0) { notifyAllDataDisconnected(); } } /** * Polling stuff */ private void resetPollStats() { mTxPkts = -1; mRxPkts = -1; mNetStatPollPeriod = POLL_NETSTAT_MILLIS; } private void startNetStatPoll() { if (getOverallState() == DctConstants.State.CONNECTED && mNetStatPollEnabled == false) { if (DBG) { log("startNetStatPoll"); } resetPollStats(); mNetStatPollEnabled = true; mPollNetStat.run(); } if (mPhone != null) { mPhone.notifyDataActivity(); } } private void stopNetStatPoll() { mNetStatPollEnabled = false; removeCallbacks(mPollNetStat); if (DBG) { log("stopNetStatPoll"); } // To sync data activity icon in the case of switching data connection to send MMS. if (mPhone != null) { mPhone.notifyDataActivity(); } } public void sendStartNetStatPoll(DctConstants.Activity activity) { Message msg = obtainMessage(DctConstants.CMD_NET_STAT_POLL); msg.arg1 = DctConstants.ENABLED; msg.obj = activity; sendMessage(msg); } private void handleStartNetStatPoll(DctConstants.Activity activity) { startNetStatPoll(); startDataStallAlarm(DATA_STALL_NOT_SUSPECTED); setActivity(activity); } public void sendStopNetStatPoll(DctConstants.Activity activity) { Message msg = obtainMessage(DctConstants.CMD_NET_STAT_POLL); msg.arg1 = DctConstants.DISABLED; msg.obj = activity; sendMessage(msg); } private void handleStopNetStatPoll(DctConstants.Activity activity) { stopNetStatPoll(); stopDataStallAlarm(); setActivity(activity); } private void onDataEnabledOverrideRulesChanged() { if (DBG) { log("onDataEnabledOverrideRulesChanged"); } for (ApnContext apnContext : mPrioritySortedApnContexts) { if (isDataAllowed(apnContext, REQUEST_TYPE_NORMAL, null)) { if (apnContext.getDataConnection() != null) { apnContext.getDataConnection().reevaluateRestrictedState(); } setupDataOnConnectableApn(apnContext, Phone.REASON_DATA_ENABLED_OVERRIDE, RetryFailures.ALWAYS); } else if (shouldCleanUpConnection(apnContext, true)) { apnContext.setReason(Phone.REASON_DATA_ENABLED_OVERRIDE); cleanUpConnectionInternal(true, RELEASE_TYPE_DETACH, apnContext); } } } private void updateDataActivity() { long sent, received; DctConstants.Activity newActivity; TxRxSum preTxRxSum = new TxRxSum(mTxPkts, mRxPkts); TxRxSum curTxRxSum = new TxRxSum(); curTxRxSum.updateTotalTxRxSum(); mTxPkts = curTxRxSum.txPkts; mRxPkts = curTxRxSum.rxPkts; if (VDBG) { log("updateDataActivity: curTxRxSum=" + curTxRxSum + " preTxRxSum=" + preTxRxSum); } if (mNetStatPollEnabled && (preTxRxSum.txPkts > 0 || preTxRxSum.rxPkts > 0)) { sent = mTxPkts - preTxRxSum.txPkts; received = mRxPkts - preTxRxSum.rxPkts; if (VDBG) log("updateDataActivity: sent=" + sent + " received=" + received); if (sent > 0 && received > 0) { newActivity = DctConstants.Activity.DATAINANDOUT; } else if (sent > 0 && received == 0) { newActivity = DctConstants.Activity.DATAOUT; } else if (sent == 0 && received > 0) { newActivity = DctConstants.Activity.DATAIN; } else { newActivity = (mActivity == DctConstants.Activity.DORMANT) ? mActivity : DctConstants.Activity.NONE; } if (mActivity != newActivity && mIsScreenOn) { if (VDBG) log("updateDataActivity: newActivity=" + newActivity); mActivity = newActivity; mPhone.notifyDataActivity(); } } } private void handlePcoData(AsyncResult ar) { if (ar.exception != null) { loge("PCO_DATA exception: " + ar.exception); return; } PcoData pcoData = (PcoData)(ar.result); ArrayList dcList = new ArrayList<>(); DataConnection temp = mDcc.getActiveDcByCid(pcoData.cid); if (temp != null) { dcList.add(temp); } if (dcList.size() == 0) { loge("PCO_DATA for unknown cid: " + pcoData.cid + ", inferring"); for (DataConnection dc : mDataConnections.values()) { final int cid = dc.getCid(); if (cid == pcoData.cid) { if (VDBG) log(" found " + dc); dcList.clear(); dcList.add(dc); break; } // check if this dc is still connecting if (cid == -1) { for (ApnContext apnContext : dc.getApnContexts()) { if (apnContext.getState() == DctConstants.State.CONNECTING) { if (VDBG) log(" found potential " + dc); dcList.add(dc); break; } } } } } if (dcList.size() == 0) { loge("PCO_DATA - couldn't infer cid"); return; } for (DataConnection dc : dcList) { List apnContextList = dc.getApnContexts(); if (apnContextList.size() == 0) { break; } // send one out for each apn type in play for (ApnContext apnContext : apnContextList) { String apnType = apnContext.getApnType(); final Intent intent = new Intent(TelephonyIntents.ACTION_CARRIER_SIGNAL_PCO_VALUE); intent.putExtra(TelephonyIntents.EXTRA_APN_TYPE_KEY, apnType); intent.putExtra(TelephonyIntents.EXTRA_APN_PROTO_KEY, pcoData.bearerProto); intent.putExtra(TelephonyIntents.EXTRA_PCO_ID_KEY, pcoData.pcoId); intent.putExtra(TelephonyIntents.EXTRA_PCO_VALUE_KEY, pcoData.contents); mPhone.getCarrierSignalAgent().notifyCarrierSignalReceivers(intent); } } } /** * Data-Stall */ // Recovery action taken in case of data stall @IntDef( value = { RECOVERY_ACTION_GET_DATA_CALL_LIST, RECOVERY_ACTION_CLEANUP, RECOVERY_ACTION_REREGISTER, RECOVERY_ACTION_RADIO_RESTART }) @Retention(RetentionPolicy.SOURCE) private @interface RecoveryAction {}; private static final int RECOVERY_ACTION_GET_DATA_CALL_LIST = 0; private static final int RECOVERY_ACTION_CLEANUP = 1; private static final int RECOVERY_ACTION_REREGISTER = 2; private static final int RECOVERY_ACTION_RADIO_RESTART = 3; // Recovery handler class for cellular data stall private class DataStallRecoveryHandler { // Default minimum duration between each recovery steps private static final int DEFAULT_MIN_DURATION_BETWEEN_RECOVERY_STEPS_IN_MS = (3 * 60 * 1000); // 3 mins // The elapsed real time of last recovery attempted private long mTimeLastRecoveryStartMs; // Whether current network good or not private boolean mIsValidNetwork; public DataStallRecoveryHandler() { reset(); } public void reset() { mTimeLastRecoveryStartMs = 0; putRecoveryAction(RECOVERY_ACTION_GET_DATA_CALL_LIST); } public boolean isAggressiveRecovery() { @RecoveryAction int action = getRecoveryAction(); return ((action == RECOVERY_ACTION_CLEANUP) || (action == RECOVERY_ACTION_REREGISTER) || (action == RECOVERY_ACTION_RADIO_RESTART)); } private long getMinDurationBetweenRecovery() { return Settings.Global.getLong(mResolver, Settings.Global.MIN_DURATION_BETWEEN_RECOVERY_STEPS_IN_MS, DEFAULT_MIN_DURATION_BETWEEN_RECOVERY_STEPS_IN_MS); } private long getElapsedTimeSinceRecoveryMs() { return (SystemClock.elapsedRealtime() - mTimeLastRecoveryStartMs); } @RecoveryAction private int getRecoveryAction() { @RecoveryAction int action = Settings.System.getInt(mResolver, "radio.data.stall.recovery.action", RECOVERY_ACTION_GET_DATA_CALL_LIST); if (VDBG_STALL) log("getRecoveryAction: " + action); return action; } private void putRecoveryAction(@RecoveryAction int action) { Settings.System.putInt(mResolver, "radio.data.stall.recovery.action", action); if (VDBG_STALL) log("putRecoveryAction: " + action); } private void broadcastDataStallDetected(@RecoveryAction int recoveryAction) { Intent intent = new Intent(TelephonyManager.ACTION_DATA_STALL_DETECTED); SubscriptionManager.putPhoneIdAndSubIdExtra(intent, mPhone.getPhoneId()); intent.putExtra(TelephonyManager.EXTRA_RECOVERY_ACTION, recoveryAction); mPhone.getContext().sendBroadcast(intent, READ_PRIVILEGED_PHONE_STATE); } private boolean isRecoveryAlreadyStarted() { return getRecoveryAction() != RECOVERY_ACTION_GET_DATA_CALL_LIST; } private boolean checkRecovery() { // To avoid back to back recovery wait for a grace period if (getElapsedTimeSinceRecoveryMs() < getMinDurationBetweenRecovery()) { if (VDBG_STALL) log("skip back to back data stall recovery"); return false; } // Allow recovery if data is expected to work return mAttached.get() && isDataAllowed(null); } private void triggerRecovery() { sendMessage(obtainMessage(DctConstants.EVENT_DO_RECOVERY)); } public void doRecovery() { if (getOverallState() == DctConstants.State.CONNECTED) { // Go through a series of recovery steps, each action transitions to the next action @RecoveryAction final int recoveryAction = getRecoveryAction(); TelephonyMetrics.getInstance().writeDataStallEvent( mPhone.getPhoneId(), recoveryAction); broadcastDataStallDetected(recoveryAction); switch (recoveryAction) { case RECOVERY_ACTION_GET_DATA_CALL_LIST: EventLog.writeEvent(EventLogTags.DATA_STALL_RECOVERY_GET_DATA_CALL_LIST, mSentSinceLastRecv); if (DBG) log("doRecovery() get data call list"); mDataServiceManager.requestDataCallList(obtainMessage()); putRecoveryAction(RECOVERY_ACTION_CLEANUP); break; case RECOVERY_ACTION_CLEANUP: EventLog.writeEvent(EventLogTags.DATA_STALL_RECOVERY_CLEANUP, mSentSinceLastRecv); if (DBG) log("doRecovery() cleanup all connections"); cleanUpConnection(mApnContexts.get(ApnSetting.getApnTypeString( ApnSetting.TYPE_DEFAULT))); putRecoveryAction(RECOVERY_ACTION_REREGISTER); break; case RECOVERY_ACTION_REREGISTER: EventLog.writeEvent(EventLogTags.DATA_STALL_RECOVERY_REREGISTER, mSentSinceLastRecv); if (DBG) log("doRecovery() re-register"); mPhone.getServiceStateTracker().reRegisterNetwork(null); putRecoveryAction(RECOVERY_ACTION_RADIO_RESTART); break; case RECOVERY_ACTION_RADIO_RESTART: EventLog.writeEvent(EventLogTags.DATA_STALL_RECOVERY_RADIO_RESTART, mSentSinceLastRecv); if (DBG) log("restarting radio"); restartRadio(); reset(); break; default: throw new RuntimeException("doRecovery: Invalid recoveryAction=" + recoveryAction); } mSentSinceLastRecv = 0; mTimeLastRecoveryStartMs = SystemClock.elapsedRealtime(); } } public void processNetworkStatusChanged(boolean isValid) { if (isValid) { mIsValidNetwork = true; reset(); } else { if (mIsValidNetwork || isRecoveryAlreadyStarted()) { mIsValidNetwork = false; // Check and trigger a recovery if network switched from good // to bad or recovery is already started before. if (checkRecovery()) { if (DBG) log("trigger data stall recovery"); triggerRecovery(); } } } } public boolean isRecoveryOnBadNetworkEnabled() { return Settings.Global.getInt(mResolver, Settings.Global.DATA_STALL_RECOVERY_ON_BAD_NETWORK, 1) == 1; } public boolean isNoRxDataStallDetectionEnabled() { return mDataStallNoRxEnabled && !isRecoveryOnBadNetworkEnabled(); } } private void updateDataStallInfo() { long sent, received; TxRxSum preTxRxSum = new TxRxSum(mDataStallTxRxSum); mDataStallTxRxSum.updateTcpTxRxSum(); if (VDBG_STALL) { log("updateDataStallInfo: mDataStallTxRxSum=" + mDataStallTxRxSum + " preTxRxSum=" + preTxRxSum); } sent = mDataStallTxRxSum.txPkts - preTxRxSum.txPkts; received = mDataStallTxRxSum.rxPkts - preTxRxSum.rxPkts; if (RADIO_TESTS) { if (SystemProperties.getBoolean("radio.test.data.stall", false)) { log("updateDataStallInfo: radio.test.data.stall true received = 0;"); received = 0; } } if ( sent > 0 && received > 0 ) { if (VDBG_STALL) log("updateDataStallInfo: IN/OUT"); mSentSinceLastRecv = 0; mDsRecoveryHandler.reset(); } else if (sent > 0 && received == 0) { if (isPhoneStateIdle()) { mSentSinceLastRecv += sent; } else { mSentSinceLastRecv = 0; } if (DBG) { log("updateDataStallInfo: OUT sent=" + sent + " mSentSinceLastRecv=" + mSentSinceLastRecv); } } else if (sent == 0 && received > 0) { if (VDBG_STALL) log("updateDataStallInfo: IN"); mSentSinceLastRecv = 0; mDsRecoveryHandler.reset(); } else { if (VDBG_STALL) log("updateDataStallInfo: NONE"); } } private boolean isPhoneStateIdle() { for (int i = 0; i < mTelephonyManager.getPhoneCount(); i++) { Phone phone = PhoneFactory.getPhone(i); if (phone != null && phone.getState() != PhoneConstants.State.IDLE) { log("isPhoneStateIdle false: Voice call active on phone " + i); return false; } } return true; } private void onDataStallAlarm(int tag) { if (mDataStallAlarmTag != tag) { if (DBG) { log("onDataStallAlarm: ignore, tag=" + tag + " expecting " + mDataStallAlarmTag); } return; } if (DBG) log("Data stall alarm"); updateDataStallInfo(); int hangWatchdogTrigger = Settings.Global.getInt(mResolver, Settings.Global.PDP_WATCHDOG_TRIGGER_PACKET_COUNT, NUMBER_SENT_PACKETS_OF_HANG); boolean suspectedStall = DATA_STALL_NOT_SUSPECTED; if (mSentSinceLastRecv >= hangWatchdogTrigger) { if (DBG) { log("onDataStallAlarm: tag=" + tag + " do recovery action=" + mDsRecoveryHandler.getRecoveryAction()); } suspectedStall = DATA_STALL_SUSPECTED; sendMessage(obtainMessage(DctConstants.EVENT_DO_RECOVERY)); } else { if (VDBG_STALL) { log("onDataStallAlarm: tag=" + tag + " Sent " + String.valueOf(mSentSinceLastRecv) + " pkts since last received, < watchdogTrigger=" + hangWatchdogTrigger); } } startDataStallAlarm(suspectedStall); } private void startDataStallAlarm(boolean suspectedStall) { int delayInMs; if (mDsRecoveryHandler.isNoRxDataStallDetectionEnabled() && getOverallState() == DctConstants.State.CONNECTED) { // If screen is on or data stall is currently suspected, set the alarm // with an aggressive timeout. if (mIsScreenOn || suspectedStall || mDsRecoveryHandler.isAggressiveRecovery()) { delayInMs = Settings.Global.getInt(mResolver, Settings.Global.DATA_STALL_ALARM_AGGRESSIVE_DELAY_IN_MS, DATA_STALL_ALARM_AGGRESSIVE_DELAY_IN_MS_DEFAULT); } else { delayInMs = Settings.Global.getInt(mResolver, Settings.Global.DATA_STALL_ALARM_NON_AGGRESSIVE_DELAY_IN_MS, DATA_STALL_ALARM_NON_AGGRESSIVE_DELAY_IN_MS_DEFAULT); } mDataStallAlarmTag += 1; if (VDBG_STALL) { log("startDataStallAlarm: tag=" + mDataStallAlarmTag + " delay=" + (delayInMs / 1000) + "s"); } Intent intent = new Intent(INTENT_DATA_STALL_ALARM); intent.putExtra(INTENT_DATA_STALL_ALARM_EXTRA_TAG, mDataStallAlarmTag); intent.putExtra(INTENT_DATA_STALL_ALARM_EXTRA_TRANSPORT_TYPE, mTransportType); SubscriptionManager.putPhoneIdAndSubIdExtra(intent, mPhone.getPhoneId()); mDataStallAlarmIntent = PendingIntent.getBroadcast(mPhone.getContext(), 0, intent, PendingIntent.FLAG_UPDATE_CURRENT); mAlarmManager.set(AlarmManager.ELAPSED_REALTIME, SystemClock.elapsedRealtime() + delayInMs, mDataStallAlarmIntent); } else { if (VDBG_STALL) { log("startDataStallAlarm: NOT started, no connection tag=" + mDataStallAlarmTag); } } } private void stopDataStallAlarm() { if (VDBG_STALL) { log("stopDataStallAlarm: current tag=" + mDataStallAlarmTag + " mDataStallAlarmIntent=" + mDataStallAlarmIntent); } mDataStallAlarmTag += 1; if (mDataStallAlarmIntent != null) { mAlarmManager.cancel(mDataStallAlarmIntent); mDataStallAlarmIntent = null; } } private void restartDataStallAlarm() { if (isConnected() == false) return; // To be called on screen status change. // Do not cancel the alarm if it is set with aggressive timeout. if (mDsRecoveryHandler.isAggressiveRecovery()) { if (DBG) log("restartDataStallAlarm: action is pending. not resetting the alarm."); return; } if (VDBG_STALL) log("restartDataStallAlarm: stop then start."); stopDataStallAlarm(); startDataStallAlarm(DATA_STALL_NOT_SUSPECTED); } /** * Provisioning APN */ private void onActionIntentProvisioningApnAlarm(Intent intent) { if (DBG) log("onActionIntentProvisioningApnAlarm: action=" + intent.getAction()); Message msg = obtainMessage(DctConstants.EVENT_PROVISIONING_APN_ALARM, intent.getAction()); msg.arg1 = intent.getIntExtra(PROVISIONING_APN_ALARM_TAG_EXTRA, 0); sendMessage(msg); } private void startProvisioningApnAlarm() { int delayInMs = Settings.Global.getInt(mResolver, Settings.Global.PROVISIONING_APN_ALARM_DELAY_IN_MS, PROVISIONING_APN_ALARM_DELAY_IN_MS_DEFAULT); if (Build.IS_DEBUGGABLE) { // Allow debug code to use a system property to provide another value String delayInMsStrg = Integer.toString(delayInMs); delayInMsStrg = System.getProperty(DEBUG_PROV_APN_ALARM, delayInMsStrg); try { delayInMs = Integer.parseInt(delayInMsStrg); } catch (NumberFormatException e) { loge("startProvisioningApnAlarm: e=" + e); } } mProvisioningApnAlarmTag += 1; if (DBG) { log("startProvisioningApnAlarm: tag=" + mProvisioningApnAlarmTag + " delay=" + (delayInMs / 1000) + "s"); } Intent intent = new Intent(INTENT_PROVISIONING_APN_ALARM); intent.putExtra(PROVISIONING_APN_ALARM_TAG_EXTRA, mProvisioningApnAlarmTag); mProvisioningApnAlarmIntent = PendingIntent.getBroadcast(mPhone.getContext(), 0, intent, PendingIntent.FLAG_UPDATE_CURRENT); mAlarmManager.set(AlarmManager.ELAPSED_REALTIME_WAKEUP, SystemClock.elapsedRealtime() + delayInMs, mProvisioningApnAlarmIntent); } private void stopProvisioningApnAlarm() { if (DBG) { log("stopProvisioningApnAlarm: current tag=" + mProvisioningApnAlarmTag + " mProvsioningApnAlarmIntent=" + mProvisioningApnAlarmIntent); } mProvisioningApnAlarmTag += 1; if (mProvisioningApnAlarmIntent != null) { mAlarmManager.cancel(mProvisioningApnAlarmIntent); mProvisioningApnAlarmIntent = null; } } private static DataProfile createDataProfile(ApnSetting apn, boolean isPreferred) { return createDataProfile(apn, apn.getProfileId(), isPreferred); } @VisibleForTesting public static DataProfile createDataProfile(ApnSetting apn, int profileId, boolean isPreferred) { int profileType; int networkTypeBitmask = apn.getNetworkTypeBitmask(); if (networkTypeBitmask == 0) { profileType = DataProfile.TYPE_COMMON; } else if (ServiceState.bearerBitmapHasCdma(networkTypeBitmask)) { profileType = DataProfile.TYPE_3GPP2; } else { profileType = DataProfile.TYPE_3GPP; } return new DataProfile.Builder() .setProfileId(profileId) .setApn(apn.getApnName()) .setProtocolType(apn.getProtocol()) .setAuthType(apn.getAuthType()) .setUserName(apn.getUser()) .setPassword(apn.getPassword()) .setType(profileType) .setMaxConnectionsTime(apn.getMaxConnsTime()) .setMaxConnections(apn.getMaxConns()) .setWaitTime(apn.getWaitTime()) .enable(apn.isEnabled()) .setSupportedApnTypesBitmask(apn.getApnTypeBitmask()) .setRoamingProtocolType(apn.getRoamingProtocol()) .setBearerBitmask(networkTypeBitmask) .setMtu(apn.getMtu()) .setPersistent(apn.isPersistent()) .setPreferred(isPreferred) .build(); } private void onDataServiceBindingChanged(boolean bound) { if (bound) { mDcc.start(); } else { mDcc.dispose(); } mDataServiceBound = bound; } public static String requestTypeToString(@RequestNetworkType int type) { switch (type) { case REQUEST_TYPE_NORMAL: return "NORMAL"; case REQUEST_TYPE_HANDOVER: return "HANDOVER"; } return "UNKNOWN"; } public static String releaseTypeToString(@ReleaseNetworkType int type) { switch (type) { case RELEASE_TYPE_NORMAL: return "NORMAL"; case RELEASE_TYPE_DETACH: return "DETACH"; case RELEASE_TYPE_HANDOVER: return "HANDOVER"; } return "UNKNOWN"; } @RilRadioTechnology private int getDataRat() { ServiceState ss = mPhone.getServiceState(); NetworkRegistrationInfo nrs = ss.getNetworkRegistrationInfo( NetworkRegistrationInfo.DOMAIN_PS, mTransportType); if (nrs != null) { return ServiceState.networkTypeToRilRadioTechnology(nrs.getAccessNetworkTechnology()); } return ServiceState.RIL_RADIO_TECHNOLOGY_UNKNOWN; } @RilRadioTechnology private int getVoiceRat() { ServiceState ss = mPhone.getServiceState(); NetworkRegistrationInfo nrs = ss.getNetworkRegistrationInfo( NetworkRegistrationInfo.DOMAIN_CS, mTransportType); if (nrs != null) { return ServiceState.networkTypeToRilRadioTechnology(nrs.getAccessNetworkTechnology()); } return ServiceState.RIL_RADIO_TECHNOLOGY_UNKNOWN; } }