/* * 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 android.app.AlarmManager; import android.app.PendingIntent; import android.content.BroadcastReceiver; import android.content.ContentResolver; import android.content.Context; import android.content.Intent; import android.content.IntentFilter; import android.content.SharedPreferences; import android.database.ContentObserver; import android.net.ConnectivityManager; import android.net.LinkProperties; import android.net.NetworkCapabilities; import android.net.NetworkInfo; import android.net.TrafficStats; import android.net.wifi.WifiManager; 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.SystemClock; import android.os.SystemProperties; import android.preference.PreferenceManager; import android.provider.Settings; import android.provider.Settings.SettingNotFoundException; import android.telephony.ServiceState; import android.telephony.SubscriptionManager; import android.telephony.SubscriptionManager.OnSubscriptionsChangedListener; import android.telephony.TelephonyManager; import android.text.TextUtils; import android.util.EventLog; import android.util.LocalLog; import android.telephony.Rlog; import com.android.internal.R; import com.android.internal.telephony.DctConstants; import com.android.internal.telephony.EventLogTags; import com.android.internal.telephony.Phone; import com.android.internal.telephony.PhoneBase; import com.android.internal.telephony.PhoneConstants; import com.android.internal.telephony.uicc.IccRecords; import com.android.internal.telephony.uicc.UiccController; import com.android.internal.util.AsyncChannel; import com.android.internal.util.ArrayUtils; import java.io.FileDescriptor; import java.io.PrintWriter; import java.util.ArrayList; import java.util.Comparator; import java.util.HashMap; import java.util.List; import java.util.Map.Entry; 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; import java.util.PriorityQueue; /** * {@hide} */ public abstract class DcTrackerBase extends Handler { protected static final boolean DBG = true; protected static final boolean VDBG = false; // STOPSHIP if true protected static final boolean VDBG_STALL = false; // STOPSHIP if true protected static final boolean RADIO_TESTS = false; static boolean mIsCleanupRequired = false; /** * Constants for the data connection activity: * physical link down/up */ protected static final int DATA_CONNECTION_ACTIVE_PH_LINK_INACTIVE = 0; protected static final int DATA_CONNECTION_ACTIVE_PH_LINK_DOWN = 1; protected static final int DATA_CONNECTION_ACTIVE_PH_LINK_UP = 2; /** Delay between APN attempts. Note the property override mechanism is there just for testing purpose only. */ protected static final int APN_DELAY_DEFAULT_MILLIS = 20000; /** Delay between APN attempts when in fail fast mode */ protected static final int APN_FAIL_FAST_DELAY_DEFAULT_MILLIS = 3000; AlarmManager mAlarmManager; protected Object mDataEnabledLock = new Object(); // responds to the setInternalDataEnabled call - used internally to turn off data // for example during emergency calls protected boolean mInternalDataEnabled = true; // responds to public (user) API to enable/disable data use // independent of mInternalDataEnabled and requests for APN access // persisted protected boolean mUserDataEnabled = true; // TODO: move away from static state once 5587429 is fixed. protected static boolean sPolicyDataEnabled = true; private boolean[] mDataEnabled = new boolean[DctConstants.APN_NUM_TYPES]; private int mEnabledCount = 0; /* Currently requested APN type (TODO: This should probably be a parameter not a member) */ protected String mRequestedApnType = PhoneConstants.APN_TYPE_DEFAULT; /** Retry configuration: A doubling of retry times from 5secs to 30minutes */ protected static final String DEFAULT_DATA_RETRY_CONFIG = "default_randomization=2000," + "5000,10000,20000,40000,80000:5000,160000:5000," + "320000:5000,640000:5000,1280000:5000,1800000:5000"; /** Retry configuration for secondary networks: 4 tries in 20 sec */ protected static final String SECONDARY_DATA_RETRY_CONFIG = "max_retries=3, 5000, 5000, 5000"; /** Slow poll when attempting connection recovery. */ protected static final int POLL_NETSTAT_SLOW_MILLIS = 5000; /** Default max failure count before attempting to network re-registration. */ protected static final int DEFAULT_MAX_PDP_RESET_FAIL = 3; /** * After detecting a potential connection problem, this is the max number * of subsequent polls before attempting recovery. */ protected static final int NO_RECV_POLL_LIMIT = 24; // 1 sec. default polling interval when screen is on. protected static final int POLL_NETSTAT_MILLIS = 1000; // 10 min. default polling interval when screen is off. protected static final int POLL_NETSTAT_SCREEN_OFF_MILLIS = 1000*60*10; // 2 min for round trip time protected static final int POLL_LONGEST_RTT = 120 * 1000; // Default sent packets without ack which triggers initial recovery steps protected static final int NUMBER_SENT_PACKETS_OF_HANG = 10; // how long to wait before switching back to default APN protected static final int RESTORE_DEFAULT_APN_DELAY = 1 * 60 * 1000; // system property that can override the above value protected static final String APN_RESTORE_DELAY_PROP_NAME = "android.telephony.apn-restore"; // represents an invalid IP address protected static final String NULL_IP = "0.0.0.0"; // Default for the data stall alarm while non-aggressive stall detection protected 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 protected static final int DATA_STALL_ALARM_AGGRESSIVE_DELAY_IN_MS_DEFAULT = 1000 * 60; // If attempt is less than this value we're doing first level recovery protected static final int DATA_STALL_NO_RECV_POLL_LIMIT = 1; // Tag for tracking stale alarms protected static final String DATA_STALL_ALARM_TAG_EXTRA = "data.stall.alram.tag"; protected static final boolean DATA_STALL_SUSPECTED = true; protected static final boolean DATA_STALL_NOT_SUSPECTED = false; protected String RADIO_RESET_PROPERTY = "gsm.radioreset"; protected static final String INTENT_RECONNECT_ALARM = "com.android.internal.telephony.data-reconnect"; protected static final String INTENT_RECONNECT_ALARM_EXTRA_TYPE = "reconnect_alarm_extra_type"; protected static final String INTENT_RECONNECT_ALARM_EXTRA_REASON = "reconnect_alarm_extra_reason"; protected static final String INTENT_RESTART_TRYSETUP_ALARM = "com.android.internal.telephony.data-restart-trysetup"; protected static final String INTENT_RESTART_TRYSETUP_ALARM_EXTRA_TYPE = "restart_trysetup_alarm_extra_type"; protected static final String INTENT_DATA_STALL_ALARM = "com.android.internal.telephony.data-stall"; protected static final String DEFALUT_DATA_ON_BOOT_PROP = "net.def_data_on_boot"; protected DcTesterFailBringUpAll mDcTesterFailBringUpAll; protected DcController mDcc; // member variables protected PhoneBase mPhone; protected UiccController mUiccController; protected AtomicReference mIccRecords = new AtomicReference(); protected DctConstants.Activity mActivity = DctConstants.Activity.NONE; protected DctConstants.State mState = DctConstants.State.IDLE; protected Handler mDataConnectionTracker = null; protected long mTxPkts; protected long mRxPkts; protected int mNetStatPollPeriod; protected boolean mNetStatPollEnabled = false; protected TxRxSum mDataStallTxRxSum = new TxRxSum(0, 0); // Used to track stale data stall alarms. protected int mDataStallAlarmTag = (int) SystemClock.elapsedRealtime(); // The current data stall alarm intent protected PendingIntent mDataStallAlarmIntent = null; // Number of packets sent since the last received packet protected long mSentSinceLastRecv; // Controls when a simple recovery attempt it to be tried protected int mNoRecvPollCount = 0; // Refrence counter for enabling fail fast protected static int sEnableFailFastRefCounter = 0; // True if data stall detection is enabled protected volatile boolean mDataStallDetectionEnabled = true; protected volatile boolean mFailFast = false; // True when in voice call protected boolean mInVoiceCall = false; // wifi connection status will be updated by sticky intent protected boolean mIsWifiConnected = false; /** Intent sent when the reconnect alarm fires. */ protected PendingIntent mReconnectIntent = null; /** CID of active data connection */ protected int mCidActive; // When false we will not auto attach and manually attaching is required. protected boolean mAutoAttachOnCreationConfig = false; protected AtomicBoolean mAutoAttachOnCreation = new AtomicBoolean(false); // State of screen // (TODO: Reconsider tying directly to screen, maybe this is // really a lower power mode") protected boolean mIsScreenOn = true; /** Allows the generation of unique Id's for DataConnection objects */ protected AtomicInteger mUniqueIdGenerator = new AtomicInteger(0); /** The data connections. */ protected HashMap mDataConnections = new HashMap(); /** The data connection async channels */ protected HashMap mDataConnectionAcHashMap = new HashMap(); /** Convert an ApnType string to Id (TODO: Use "enumeration" instead of String for ApnType) */ protected HashMap mApnToDataConnectionId = new HashMap(); /** Phone.APN_TYPE_* ===> ApnContext */ protected final ConcurrentHashMap mApnContexts = new ConcurrentHashMap(); /** kept in sync with mApnContexts * Higher numbers are higher priority and sorted so highest priority is first */ protected final PriorityQueuemPrioritySortedApnContexts = new PriorityQueue(5, new Comparator() { public int compare(ApnContext c1, ApnContext c2) { return c2.priority - c1.priority; } } ); /* Currently active APN */ protected ApnSetting mActiveApn; /** allApns holds all apns */ protected ArrayList mAllApnSettings = null; /** preferred apn */ protected ApnSetting mPreferredApn = null; /** Is packet service restricted by network */ protected boolean mIsPsRestricted = false; /** emergency apn Setting*/ protected ApnSetting mEmergencyApn = null; /* Once disposed dont handle any messages */ protected boolean mIsDisposed = false; protected ContentResolver mResolver; /* Set to true with CMD_ENABLE_MOBILE_PROVISIONING */ protected boolean mIsProvisioning = false; /* The Url passed as object parameter in CMD_ENABLE_MOBILE_PROVISIONING */ protected String mProvisioningUrl = null; /* Intent for the provisioning apn alarm */ protected static final String INTENT_PROVISIONING_APN_ALARM = "com.android.internal.telephony.provisioning_apn_alarm"; /* Tag for tracking stale alarms */ protected static final String PROVISIONING_APN_ALARM_TAG_EXTRA = "provisioning.apn.alarm.tag"; /* Debug property for overriding the PROVISIONING_APN_ALARM_DELAY_IN_MS */ protected static final String DEBUG_PROV_APN_ALARM = "persist.debug.prov_apn_alarm"; /* Default for the provisioning apn alarm timeout */ protected static final int PROVISIONING_APN_ALARM_DELAY_IN_MS_DEFAULT = 1000 * 60 * 15; /* The provision apn alarm intent used to disable the provisioning apn */ protected PendingIntent mProvisioningApnAlarmIntent = null; /* Used to track stale provisioning apn alarms */ protected int mProvisioningApnAlarmTag = (int) SystemClock.elapsedRealtime(); protected AsyncChannel mReplyAc = new AsyncChannel(); protected BroadcastReceiver mIntentReceiver = new BroadcastReceiver () { @Override public void onReceive(Context context, Intent intent) { String action = intent.getAction(); if (DBG) log("onReceive: action=" + action); if (action.equals(Intent.ACTION_SCREEN_ON)) { mIsScreenOn = true; stopNetStatPoll(); startNetStatPoll(); restartDataStallAlarm(); } else if (action.equals(Intent.ACTION_SCREEN_OFF)) { mIsScreenOn = false; stopNetStatPoll(); startNetStatPoll(); restartDataStallAlarm(); } else if (action.startsWith(INTENT_RECONNECT_ALARM)) { if (DBG) log("Reconnect alarm. Previous state was " + mState); onActionIntentReconnectAlarm(intent); } else if (action.startsWith(INTENT_RESTART_TRYSETUP_ALARM)) { if (DBG) log("Restart trySetup alarm"); onActionIntentRestartTrySetupAlarm(intent); } else if (action.equals(INTENT_DATA_STALL_ALARM)) { onActionIntentDataStallAlarm(intent); } else if (action.equals(INTENT_PROVISIONING_APN_ALARM)) { onActionIntentProvisioningApnAlarm(intent); } else if (action.equals(WifiManager.NETWORK_STATE_CHANGED_ACTION)) { final android.net.NetworkInfo networkInfo = (NetworkInfo) intent.getParcelableExtra(WifiManager.EXTRA_NETWORK_INFO); mIsWifiConnected = (networkInfo != null && networkInfo.isConnected()); if (DBG) log("NETWORK_STATE_CHANGED_ACTION: mIsWifiConnected=" + mIsWifiConnected); } else if (action.equals(WifiManager.WIFI_STATE_CHANGED_ACTION)) { final boolean enabled = intent.getIntExtra(WifiManager.EXTRA_WIFI_STATE, WifiManager.WIFI_STATE_UNKNOWN) == WifiManager.WIFI_STATE_ENABLED; if (!enabled) { // when WiFi got disabled, the NETWORK_STATE_CHANGED_ACTION // quit and won't report disconnected until next enabling. mIsWifiConnected = false; } if (DBG) log("WIFI_STATE_CHANGED_ACTION: enabled=" + enabled + " mIsWifiConnected=" + mIsWifiConnected); } } }; private 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 OnSubscriptionsChangedListener mOnSubscriptionsChangedListener = new OnSubscriptionsChangedListener() { /** * Callback invoked when there is any change to any SubscriptionInfo. Typically * this method would invoke {@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)) { if (mDataRoamingSettingObserver != null) { mDataRoamingSettingObserver.unregister(); } // Watch for changes to Settings.Global.DATA_ROAMING mDataRoamingSettingObserver = new DataRoamingSettingObserver(mPhone, mPhone.getContext()); mDataRoamingSettingObserver.register(); } } }; private class DataRoamingSettingObserver extends ContentObserver { public DataRoamingSettingObserver(Handler handler, Context context) { super(handler); mResolver = context.getContentResolver(); } public void register() { String contentUri; if (TelephonyManager.getDefault().getSimCount() == 1) { contentUri = Settings.Global.DATA_ROAMING; } else { contentUri = Settings.Global.DATA_ROAMING + mPhone.getSubId(); } mResolver.registerContentObserver(Settings.Global.getUriFor(contentUri), false, this); } public void unregister() { mResolver.unregisterContentObserver(this); } @Override public void onChange(boolean selfChange) { // already running on mPhone handler thread if (mPhone.getServiceState().getDataRoaming()) { sendMessage(obtainMessage(DctConstants.EVENT_ROAMING_ON)); } } } private DataRoamingSettingObserver mDataRoamingSettingObserver; /** * The Initial MaxRetry sent to a DataConnection as a parameter * to DataConnectionAc.bringUp. This value can be defined at compile * time using the SystemProperty Settings.Global.DCT_INITIAL_MAX_RETRY * and at runtime using gservices to change Settings.Global.DCT_INITIAL_MAX_RETRY. */ private static final int DEFAULT_MDC_INITIAL_RETRY = 1; protected int getInitialMaxRetry() { if (mFailFast) { return 0; } // Get default value from system property or use DEFAULT_MDC_INITIAL_RETRY int value = SystemProperties.getInt( Settings.Global.MDC_INITIAL_MAX_RETRY, DEFAULT_MDC_INITIAL_RETRY); // Check if its been overridden return Settings.Global.getInt(mResolver, Settings.Global.MDC_INITIAL_MAX_RETRY, value); } /** * 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 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 + "}"; } public void updateTxRxSum() { this.txPkts = TrafficStats.getMobileTcpTxPackets(); this.rxPkts = TrafficStats.getMobileTcpRxPackets(); } } protected void onActionIntentReconnectAlarm(Intent intent) { String reason = intent.getStringExtra(INTENT_RECONNECT_ALARM_EXTRA_REASON); String apnType = intent.getStringExtra(INTENT_RECONNECT_ALARM_EXTRA_TYPE); int phoneSubId = mPhone.getSubId(); int currSubId = intent.getIntExtra(PhoneConstants.SUBSCRIPTION_KEY, SubscriptionManager.INVALID_SUBSCRIPTION_ID); log("onActionIntentReconnectAlarm: currSubId = " + currSubId + " phoneSubId=" + phoneSubId); // 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)) { log("receive ReconnectAlarm but subId incorrect, ignore"); return; } ApnContext apnContext = mApnContexts.get(apnType); if (DBG) { log("onActionIntentReconnectAlarm: mState=" + mState + " reason=" + reason + " apnType=" + apnType + " apnContext=" + apnContext + " mDataConnectionAsyncChannels=" + mDataConnectionAcHashMap); } if ((apnContext != null) && (apnContext.isEnabled())) { apnContext.setReason(reason); DctConstants.State apnContextState = apnContext.getState(); if (DBG) { log("onActionIntentReconnectAlarm: apnContext state=" + apnContextState); } if ((apnContextState == DctConstants.State.FAILED) || (apnContextState == DctConstants.State.IDLE)) { if (DBG) { log("onActionIntentReconnectAlarm: state is FAILED|IDLE, disassociate"); } DcAsyncChannel dcac = apnContext.getDcAc(); if (dcac != null) { if (DBG) { log("onActionIntentReconnectAlarm: tearDown apnContext=" + apnContext); } dcac.tearDown(apnContext, "", null); } apnContext.setDataConnectionAc(null); apnContext.setState(DctConstants.State.IDLE); } else { if (DBG) log("onActionIntentReconnectAlarm: 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); } } protected void onActionIntentRestartTrySetupAlarm(Intent intent) { String apnType = intent.getStringExtra(INTENT_RESTART_TRYSETUP_ALARM_EXTRA_TYPE); ApnContext apnContext = mApnContexts.get(apnType); if (DBG) { log("onActionIntentRestartTrySetupAlarm: mState=" + mState + " apnType=" + apnType + " apnContext=" + apnContext + " mDataConnectionAsyncChannels=" + mDataConnectionAcHashMap); } sendMessage(obtainMessage(DctConstants.EVENT_TRY_SETUP_DATA, apnContext)); } protected void onActionIntentDataStallAlarm(Intent intent) { if (VDBG_STALL) log("onActionIntentDataStallAlarm: action=" + intent.getAction()); Message msg = obtainMessage(DctConstants.EVENT_DATA_STALL_ALARM, intent.getAction()); msg.arg1 = intent.getIntExtra(DATA_STALL_ALARM_TAG_EXTRA, 0); sendMessage(msg); } ConnectivityManager mCm; /** * Default constructor */ protected DcTrackerBase(PhoneBase phone) { super(); mPhone = phone; if (DBG) log("DCT.constructor"); mResolver = mPhone.getContext().getContentResolver(); mUiccController = UiccController.getInstance(); mUiccController.registerForIccChanged(this, DctConstants.EVENT_ICC_CHANGED, null); mAlarmManager = (AlarmManager) mPhone.getContext().getSystemService(Context.ALARM_SERVICE); mCm = (ConnectivityManager) mPhone.getContext().getSystemService( Context.CONNECTIVITY_SERVICE); int phoneSubId = mPhone.getSubId(); IntentFilter filter = new IntentFilter(); filter.addAction(Intent.ACTION_SCREEN_ON); filter.addAction(Intent.ACTION_SCREEN_OFF); filter.addAction(WifiManager.NETWORK_STATE_CHANGED_ACTION); filter.addAction(WifiManager.WIFI_STATE_CHANGED_ACTION); filter.addAction(INTENT_DATA_STALL_ALARM); filter.addAction(INTENT_PROVISIONING_APN_ALARM); mUserDataEnabled = getDataEnabled(); mPhone.getContext().registerReceiver(mIntentReceiver, filter, null, mPhone); // This preference tells us 1) initial condition for "dataEnabled", // and 2) whether the RIL will setup the baseband to auto-PS attach. mDataEnabled[DctConstants.APN_DEFAULT_ID] = SystemProperties.getBoolean(DEFALUT_DATA_ON_BOOT_PROP,true); if (mDataEnabled[DctConstants.APN_DEFAULT_ID]) { mEnabledCount++; } SharedPreferences sp = PreferenceManager.getDefaultSharedPreferences(mPhone.getContext()); mAutoAttachOnCreation.set(sp.getBoolean(PhoneBase.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, dcHandler); mDcTesterFailBringUpAll = new DcTesterFailBringUpAll(mPhone, dcHandler); } public void dispose() { if (DBG) log("DCT.dispose"); for (DcAsyncChannel dcac : mDataConnectionAcHashMap.values()) { dcac.disconnect(); } mDataConnectionAcHashMap.clear(); mIsDisposed = true; mPhone.getContext().unregisterReceiver(mIntentReceiver); mUiccController.unregisterForIccChanged(this); if (mDataRoamingSettingObserver != null) { mDataRoamingSettingObserver.unregister(); } mSubscriptionManager .removeOnSubscriptionsChangedListener(mOnSubscriptionsChangedListener); mDcc.dispose(); mDcTesterFailBringUpAll.dispose(); } public long getSubId() { return mPhone.getSubId(); } public DctConstants.Activity getActivity() { return mActivity; } void setActivity(DctConstants.Activity activity) { log("setActivity = " + activity); mActivity = activity; mPhone.notifyDataActivity(); } abstract public void incApnRefCount(String name, LocalLog log); abstract public void decApnRefCount(String name, LocalLog log); public boolean isApnSupported(String name) { return false; } public int getApnPriority(String name) { return -1; } public boolean isApnTypeActive(String type) { // TODO: support simultaneous with List instead if (PhoneConstants.APN_TYPE_DUN.equals(type)) { ApnSetting dunApn = fetchDunApn(); if (dunApn != null) { return ((mActiveApn != null) && (dunApn.toString().equals(mActiveApn.toString()))); } } return mActiveApn != null && mActiveApn.canHandleType(type); } protected ApnSetting fetchDunApn() { if (SystemProperties.getBoolean("net.tethering.noprovisioning", false)) { log("fetchDunApn: net.tethering.noprovisioning=true ret: null"); return null; } int bearer = mPhone.getServiceState().getRilDataRadioTechnology(); ApnSetting retDunSetting = null; String apnData = Settings.Global.getString(mResolver, Settings.Global.TETHER_DUN_APN); List dunSettings = ApnSetting.arrayFromString(apnData); IccRecords r = mIccRecords.get(); for (ApnSetting dunSetting : dunSettings) { String operator = (r != null) ? r.getOperatorNumeric() : ""; if (!ServiceState.bitmaskHasTech(dunSetting.bearerBitmask, bearer)) continue; if (dunSetting.numeric.equals(operator)) { if (dunSetting.hasMvnoParams()) { if (r != null && ApnSetting.mvnoMatches(r, dunSetting.mvnoType, dunSetting.mvnoMatchData)) { if (VDBG) { log("fetchDunApn: global TETHER_DUN_APN dunSetting=" + dunSetting); } return dunSetting; } } else { if (VDBG) log("fetchDunApn: global TETHER_DUN_APN dunSetting=" + dunSetting); return dunSetting; } } } Context c = mPhone.getContext(); String[] apnArrayData = c.getResources().getStringArray(R.array.config_tether_apndata); for (String apn : apnArrayData) { ApnSetting dunSetting = ApnSetting.fromString(apn); if (dunSetting != null) { if (!ServiceState.bitmaskHasTech(dunSetting.bearerBitmask, bearer)) continue; if (dunSetting.hasMvnoParams()) { if (r != null && ApnSetting.mvnoMatches(r, dunSetting.mvnoType, dunSetting.mvnoMatchData)) { if (VDBG) { log("fetchDunApn: config_tether_apndata mvno dunSetting=" + dunSetting); } return dunSetting; } } else { retDunSetting = dunSetting; } } } if (VDBG) log("fetchDunApn: config_tether_apndata dunSetting=" + retDunSetting); return retDunSetting; } public boolean hasMatchedTetherApnSetting() { ApnSetting matched = fetchDunApn(); log("hasMatchedTetherApnSetting: APN=" + matched); return matched != null; } public String[] getActiveApnTypes() { String[] result; if (mActiveApn != null) { result = mActiveApn.types; } else { result = new String[1]; result[0] = PhoneConstants.APN_TYPE_DEFAULT; } return result; } /** TODO: See if we can remove */ public String getActiveApnString(String apnType) { String result = null; if (mActiveApn != null) { result = mActiveApn.apn; } return result; } /** * Modify {@link android.provider.Settings.Global#DATA_ROAMING} value. */ public void setDataOnRoamingEnabled(boolean enabled) { final int phoneSubId = mPhone.getSubId(); if (getDataOnRoamingEnabled() != enabled) { int roaming = enabled ? 1 : 0; // For single SIM phones, this is a per phone property. if (TelephonyManager.getDefault().getSimCount() == 1) { Settings.Global.putInt(mResolver, Settings.Global.DATA_ROAMING, roaming); } else { Settings.Global.putInt(mResolver, Settings.Global.DATA_ROAMING + phoneSubId, roaming); } mSubscriptionManager.setDataRoaming(roaming, phoneSubId); // will trigger handleDataOnRoamingChange() through observer if (DBG) { log("setDataOnRoamingEnabled: set phoneSubId=" + phoneSubId + " isRoaming=" + enabled); } } else { if (DBG) { log("setDataOnRoamingEnabled: unchanged phoneSubId=" + phoneSubId + " isRoaming=" + enabled); } } } /** * Return current {@link android.provider.Settings.Global#DATA_ROAMING} value. */ public boolean getDataOnRoamingEnabled() { boolean isDataRoamingEnabled = "true".equalsIgnoreCase(SystemProperties.get( "ro.com.android.dataroaming", "false")); final int phoneSubId = mPhone.getSubId(); try { // For single SIM phones, this is a per phone property. if (TelephonyManager.getDefault().getSimCount() == 1) { isDataRoamingEnabled = Settings.Global.getInt(mResolver, Settings.Global.DATA_ROAMING, isDataRoamingEnabled ? 1 : 0) != 0; } else { isDataRoamingEnabled = TelephonyManager.getIntWithSubId(mResolver, Settings.Global.DATA_ROAMING, phoneSubId) != 0; } } catch (SettingNotFoundException snfe) { if (DBG) log("getDataOnRoamingEnabled: SettingNofFoundException snfe=" + snfe); } if (DBG) { log("getDataOnRoamingEnabled: phoneSubId=" + phoneSubId + " isDataRoamingEnabled=" + isDataRoamingEnabled); } return isDataRoamingEnabled; } /** * Modify {@link android.provider.Settings.Global#MOBILE_DATA} value. */ public void setDataEnabled(boolean enable) { Message msg = obtainMessage(DctConstants.CMD_SET_USER_DATA_ENABLE); msg.arg1 = enable ? 1 : 0; if (DBG) log("setDataEnabled: sendMessage: enable=" + enable); sendMessage(msg); } /** * Return current {@link android.provider.Settings.Global#MOBILE_DATA} value. */ public boolean getDataEnabled() { boolean retVal = "true".equalsIgnoreCase(SystemProperties.get( "ro.com.android.mobiledata", "true")); try { if (TelephonyManager.getDefault().getSimCount() == 1) { retVal = Settings.Global.getInt(mResolver, Settings.Global.MOBILE_DATA, retVal ? 1 : 0) != 0; } else { int phoneSubId = mPhone.getSubId(); retVal = TelephonyManager.getIntWithSubId(mResolver, Settings.Global.MOBILE_DATA, phoneSubId) != 0; } if (DBG) log("getDataEnabled: getIntWithSubId retVal=" + retVal); } catch (SettingNotFoundException snfe) { retVal = "true".equalsIgnoreCase( SystemProperties.get("ro.com.android.mobiledata", "true")); if (DBG) { log("getDataEnabled: system property ro.com.android.mobiledata retVal=" + retVal); } } return retVal; } // abstract methods protected abstract void restartRadio(); protected abstract void log(String s); protected abstract void loge(String s); protected abstract boolean isDataAllowed(); protected abstract boolean isApnTypeAvailable(String type); public abstract DctConstants.State getState(String apnType); protected abstract boolean isProvisioningApn(String apnType); protected abstract void setState(DctConstants.State s); protected abstract void gotoIdleAndNotifyDataConnection(String reason); protected abstract boolean onTrySetupData(String reason); protected abstract void onRoamingOff(); protected abstract void onRoamingOn(); protected abstract void onRadioAvailable(); protected abstract void onRadioOffOrNotAvailable(); protected abstract void onDataSetupComplete(AsyncResult ar); protected abstract void onDataSetupCompleteError(AsyncResult ar); protected abstract void onDisconnectDone(int connId, AsyncResult ar); protected abstract void onDisconnectDcRetrying(int connId, AsyncResult ar); protected abstract void onVoiceCallStarted(); protected abstract void onVoiceCallEnded(); protected abstract void onCleanUpConnection(boolean tearDown, int apnId, String reason); protected abstract void onCleanUpAllConnections(String cause); public abstract boolean isDataPossible(String apnType); protected abstract void onUpdateIcc(); protected abstract void completeConnection(ApnContext apnContext); public abstract void setDataAllowed(boolean enable, Message response); public abstract String[] getPcscfAddress(String apnType); public abstract void setImsRegistrationState(boolean registered); protected abstract boolean isPermanentFail(DcFailCause dcFailCause); @Override public void handleMessage(Message msg) { switch (msg.what) { case AsyncChannel.CMD_CHANNEL_DISCONNECTED: { log("DISCONNECTED_CONNECTED: msg=" + msg); DcAsyncChannel dcac = (DcAsyncChannel) msg.obj; mDataConnectionAcHashMap.remove(dcac.getDataConnectionIdSync()); dcac.disconnected(); break; } case DctConstants.EVENT_ENABLE_NEW_APN: onEnableApn(msg.arg1, msg.arg2); break; case DctConstants.EVENT_TRY_SETUP_DATA: String reason = null; if (msg.obj instanceof String) { reason = (String) msg.obj; } onTrySetupData(reason); break; case DctConstants.EVENT_DATA_STALL_ALARM: onDataStallAlarm(msg.arg1); break; case DctConstants.EVENT_ROAMING_OFF: onRoamingOff(); break; case DctConstants.EVENT_ROAMING_ON: onRoamingOn(); break; case DctConstants.EVENT_RADIO_AVAILABLE: onRadioAvailable(); break; case DctConstants.EVENT_RADIO_OFF_OR_NOT_AVAILABLE: onRadioOffOrNotAvailable(); break; case DctConstants.EVENT_DATA_SETUP_COMPLETE: mCidActive = msg.arg1; onDataSetupComplete((AsyncResult) msg.obj); break; case DctConstants.EVENT_DATA_SETUP_COMPLETE_ERROR: onDataSetupCompleteError((AsyncResult) msg.obj); break; case DctConstants.EVENT_DISCONNECT_DONE: log("DataConnectionTracker.handleMessage: EVENT_DISCONNECT_DONE msg=" + msg); onDisconnectDone(msg.arg1, (AsyncResult) msg.obj); break; case DctConstants.EVENT_DISCONNECT_DC_RETRYING: log("DataConnectionTracker.handleMessage: EVENT_DISCONNECT_DC_RETRYING msg=" + msg); onDisconnectDcRetrying(msg.arg1, (AsyncResult) msg.obj); break; case DctConstants.EVENT_VOICE_CALL_STARTED: onVoiceCallStarted(); break; case DctConstants.EVENT_VOICE_CALL_ENDED: onVoiceCallEnded(); break; case DctConstants.EVENT_CLEAN_UP_ALL_CONNECTIONS: { onCleanUpAllConnections((String) msg.obj); break; } case DctConstants.EVENT_CLEAN_UP_CONNECTION: { boolean tearDown = (msg.arg1 == 0) ? false : true; onCleanUpConnection(tearDown, msg.arg2, (String) msg.obj); break; } case DctConstants.EVENT_SET_INTERNAL_DATA_ENABLE: { boolean enabled = (msg.arg1 == DctConstants.ENABLED) ? true : false; onSetInternalDataEnabled(enabled); break; } case DctConstants.EVENT_RESET_DONE: { if (DBG) log("EVENT_RESET_DONE"); onResetDone((AsyncResult) msg.obj); break; } case DctConstants.CMD_SET_USER_DATA_ENABLE: { final boolean enabled = (msg.arg1 == DctConstants.ENABLED) ? true : false; if (DBG) log("CMD_SET_USER_DATA_ENABLE enabled=" + enabled); onSetUserDataEnabled(enabled); break; } case DctConstants.CMD_SET_DEPENDENCY_MET: { boolean met = (msg.arg1 == DctConstants.ENABLED) ? true : false; if (DBG) log("CMD_SET_DEPENDENCY_MET met=" + met); Bundle bundle = msg.getData(); if (bundle != null) { String apnType = (String)bundle.get(DctConstants.APN_TYPE_KEY); if (apnType != null) { onSetDependencyMet(apnType, met); } } break; } case DctConstants.CMD_SET_POLICY_DATA_ENABLE: { final boolean enabled = (msg.arg1 == DctConstants.ENABLED) ? true : false; onSetPolicyDataEnabled(enabled); 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; mDataStallDetectionEnabled = !enabled; if (mDataStallDetectionEnabled && (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 = mApnContexts.get("default"); if (apnCtx.isProvisioningApn() && apnCtx.isConnectedOrConnecting()) { if (mProvisioningApnAlarmTag == msg.arg1) { if (DBG) log("EVENT_PROVISIONING_APN_ALARM: Disconnecting"); mIsProvisioning = false; mProvisioningUrl = null; stopProvisioningApnAlarm(); sendCleanUpConnection(true, 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; } default: Rlog.e("DATA", "Unidentified event msg=" + msg); break; } } /** * Report on whether data connectivity is enabled * * @return {@code false} if data connectivity has been explicitly disabled, * {@code true} otherwise. */ public boolean getAnyDataEnabled() { final boolean result; synchronized (mDataEnabledLock) { result = (mInternalDataEnabled && mUserDataEnabled && sPolicyDataEnabled && (mEnabledCount != 0)); } if (!result && DBG) log("getAnyDataEnabled " + result); return result; } protected boolean isEmergency() { final boolean result; synchronized (mDataEnabledLock) { result = mPhone.isInEcm() || mPhone.isInEmergencyCall(); } log("isEmergency: result=" + result); return result; } protected int apnTypeToId(String type) { if (TextUtils.equals(type, PhoneConstants.APN_TYPE_DEFAULT)) { return DctConstants.APN_DEFAULT_ID; } else if (TextUtils.equals(type, PhoneConstants.APN_TYPE_MMS)) { return DctConstants.APN_MMS_ID; } else if (TextUtils.equals(type, PhoneConstants.APN_TYPE_SUPL)) { return DctConstants.APN_SUPL_ID; } else if (TextUtils.equals(type, PhoneConstants.APN_TYPE_DUN)) { return DctConstants.APN_DUN_ID; } else if (TextUtils.equals(type, PhoneConstants.APN_TYPE_HIPRI)) { return DctConstants.APN_HIPRI_ID; } else if (TextUtils.equals(type, PhoneConstants.APN_TYPE_IMS)) { return DctConstants.APN_IMS_ID; } else if (TextUtils.equals(type, PhoneConstants.APN_TYPE_FOTA)) { return DctConstants.APN_FOTA_ID; } else if (TextUtils.equals(type, PhoneConstants.APN_TYPE_CBS)) { return DctConstants.APN_CBS_ID; } else if (TextUtils.equals(type, PhoneConstants.APN_TYPE_IA)) { return DctConstants.APN_IA_ID; } else if (TextUtils.equals(type, PhoneConstants.APN_TYPE_EMERGENCY)) { return DctConstants.APN_EMERGENCY_ID; } else { return DctConstants.APN_INVALID_ID; } } protected String apnIdToType(int id) { switch (id) { case DctConstants.APN_DEFAULT_ID: return PhoneConstants.APN_TYPE_DEFAULT; case DctConstants.APN_MMS_ID: return PhoneConstants.APN_TYPE_MMS; case DctConstants.APN_SUPL_ID: return PhoneConstants.APN_TYPE_SUPL; case DctConstants.APN_DUN_ID: return PhoneConstants.APN_TYPE_DUN; case DctConstants.APN_HIPRI_ID: return PhoneConstants.APN_TYPE_HIPRI; case DctConstants.APN_IMS_ID: return PhoneConstants.APN_TYPE_IMS; case DctConstants.APN_FOTA_ID: return PhoneConstants.APN_TYPE_FOTA; case DctConstants.APN_CBS_ID: return PhoneConstants.APN_TYPE_CBS; case DctConstants.APN_IA_ID: return PhoneConstants.APN_TYPE_IA; case DctConstants.APN_EMERGENCY_ID: return PhoneConstants.APN_TYPE_EMERGENCY; default: log("Unknown id (" + id + ") in apnIdToType"); return PhoneConstants.APN_TYPE_DEFAULT; } } public LinkProperties getLinkProperties(String apnType) { int id = apnTypeToId(apnType); if (isApnIdEnabled(id)) { DcAsyncChannel dcac = mDataConnectionAcHashMap.get(0); return dcac.getLinkPropertiesSync(); } else { return new LinkProperties(); } } public NetworkCapabilities getNetworkCapabilities(String apnType) { int id = apnTypeToId(apnType); if (isApnIdEnabled(id)) { DcAsyncChannel dcac = mDataConnectionAcHashMap.get(0); return dcac.getNetworkCapabilitiesSync(); } else { return new NetworkCapabilities(); } } // tell all active apns of the current condition protected void notifyDataConnection(String reason) { for (int id = 0; id < DctConstants.APN_NUM_TYPES; id++) { if (mDataEnabled[id]) { mPhone.notifyDataConnection(reason, apnIdToType(id)); } } notifyOffApnsOfAvailability(reason); } // a new APN has gone active and needs to send events to catch up with the // current condition private void notifyApnIdUpToCurrent(String reason, int apnId) { switch (mState) { case IDLE: break; case RETRYING: case CONNECTING: case SCANNING: mPhone.notifyDataConnection(reason, apnIdToType(apnId), PhoneConstants.DataState.CONNECTING); break; case CONNECTED: case DISCONNECTING: mPhone.notifyDataConnection(reason, apnIdToType(apnId), PhoneConstants.DataState.CONNECTING); mPhone.notifyDataConnection(reason, apnIdToType(apnId), PhoneConstants.DataState.CONNECTED); break; default: // Ignore break; } } // since we normally don't send info to a disconnected APN, we need to do this specially private void notifyApnIdDisconnected(String reason, int apnId) { mPhone.notifyDataConnection(reason, apnIdToType(apnId), PhoneConstants.DataState.DISCONNECTED); } // disabled apn's still need avail/unavail notificiations - send them out protected void notifyOffApnsOfAvailability(String reason) { if (DBG) log("notifyOffApnsOfAvailability - reason= " + reason); for (int id = 0; id < DctConstants.APN_NUM_TYPES; id++) { if (!isApnIdEnabled(id)) { notifyApnIdDisconnected(reason, id); } } } public boolean isApnTypeEnabled(String apnType) { if (apnType == null) { return false; } else { return isApnIdEnabled(apnTypeToId(apnType)); } } protected synchronized boolean isApnIdEnabled(int id) { if (id != DctConstants.APN_INVALID_ID) { return mDataEnabled[id]; } return false; } protected void setEnabled(int id, boolean enable) { if (DBG) { log("setEnabled(" + id + ", " + enable + ") with old state = " + mDataEnabled[id] + " and enabledCount = " + mEnabledCount); } Message msg = obtainMessage(DctConstants.EVENT_ENABLE_NEW_APN); msg.arg1 = id; msg.arg2 = (enable ? DctConstants.ENABLED : DctConstants.DISABLED); sendMessage(msg); } abstract void onEnableApn(int apnId, int enabled); /** * Called when we switch APNs. * * mRequestedApnType is set prior to call * To be overridden. */ protected void onEnableNewApn() { } /** * Called when EVENT_RESET_DONE is received so goto * IDLE state and send notifications to those interested. * * TODO - currently unused. Needs to be hooked into DataConnection cleanup * TODO - needs to pass some notion of which connection is reset.. */ protected void onResetDone(AsyncResult ar) { if (DBG) log("EVENT_RESET_DONE"); String reason = null; if (ar.userObj instanceof String) { reason = (String) ar.userObj; } gotoIdleAndNotifyDataConnection(reason); } /** * Prevent mobile data connections from being established, or once again * allow mobile data connections. If the state toggles, then either tear * down or set up data, as appropriate to match the new state. * * @param enable indicates whether to enable ({@code true}) or disable ( * {@code false}) data * @return {@code true} if the operation succeeded */ public boolean setInternalDataEnabled(boolean enable) { if (DBG) log("setInternalDataEnabled(" + enable + ")"); Message msg = obtainMessage(DctConstants.EVENT_SET_INTERNAL_DATA_ENABLE); msg.arg1 = (enable ? DctConstants.ENABLED : DctConstants.DISABLED); sendMessage(msg); return true; } protected void onSetInternalDataEnabled(boolean enabled) { synchronized (mDataEnabledLock) { mInternalDataEnabled = enabled; if (enabled) { log("onSetInternalDataEnabled: changed to enabled, try to setup data call"); onTrySetupData(Phone.REASON_DATA_ENABLED); } else { log("onSetInternalDataEnabled: changed to disabled, cleanUpAllConnections"); cleanUpAllConnections(null); } } } public void cleanUpAllConnections(String cause) { Message msg = obtainMessage(DctConstants.EVENT_CLEAN_UP_ALL_CONNECTIONS); msg.obj = cause; sendMessage(msg); } public abstract boolean isDisconnected(); protected void onSetUserDataEnabled(boolean enabled) { synchronized (mDataEnabledLock) { if (mUserDataEnabled != enabled) { mUserDataEnabled = enabled; // For single SIM phones, this is a per phone property. if (TelephonyManager.getDefault().getSimCount() == 1) { Settings.Global.putInt(mResolver, Settings.Global.MOBILE_DATA, enabled ? 1 : 0); } else { int phoneSubId = mPhone.getSubId(); Settings.Global.putInt(mResolver, Settings.Global.MOBILE_DATA + phoneSubId, enabled ? 1 : 0); } if (getDataOnRoamingEnabled() == false && mPhone.getServiceState().getDataRoaming() == true) { if (enabled) { notifyOffApnsOfAvailability(Phone.REASON_ROAMING_ON); } else { notifyOffApnsOfAvailability(Phone.REASON_DATA_DISABLED); } } if (enabled) { onTrySetupData(Phone.REASON_DATA_ENABLED); } else { onCleanUpAllConnections(Phone.REASON_DATA_SPECIFIC_DISABLED); } } } } protected void onSetDependencyMet(String apnType, boolean met) { } protected void onSetPolicyDataEnabled(boolean enabled) { synchronized (mDataEnabledLock) { final boolean prevEnabled = getAnyDataEnabled(); if (sPolicyDataEnabled != enabled) { sPolicyDataEnabled = enabled; if (prevEnabled != getAnyDataEnabled()) { if (!prevEnabled) { onTrySetupData(Phone.REASON_DATA_ENABLED); } else { onCleanUpAllConnections(Phone.REASON_DATA_SPECIFIC_DISABLED); } } } } } protected String getReryConfig(boolean forDefault) { int nt = mPhone.getServiceState().getNetworkType(); if ((nt == TelephonyManager.NETWORK_TYPE_CDMA) || (nt == TelephonyManager.NETWORK_TYPE_1xRTT) || (nt == TelephonyManager.NETWORK_TYPE_EVDO_0) || (nt == TelephonyManager.NETWORK_TYPE_EVDO_A) || (nt == TelephonyManager.NETWORK_TYPE_EVDO_B) || (nt == TelephonyManager.NETWORK_TYPE_EHRPD)) { // CDMA variant return SystemProperties.get("ro.cdma.data_retry_config"); } else { // Use GSM varient for all others. if (forDefault) { return SystemProperties.get("ro.gsm.data_retry_config"); } else { return SystemProperties.get("ro.gsm.2nd_data_retry_config"); } } } protected void resetPollStats() { mTxPkts = -1; mRxPkts = -1; mNetStatPollPeriod = POLL_NETSTAT_MILLIS; } protected abstract DctConstants.State getOverallState(); void startNetStatPoll() { if (getOverallState() == DctConstants.State.CONNECTED && mNetStatPollEnabled == false) { if (DBG) { log("startNetStatPoll"); } resetPollStats(); mNetStatPollEnabled = true; mPollNetStat.run(); } if (mPhone != null) { mPhone.notifyDataActivity(); } } 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); } protected 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); } protected void handleStopNetStatPoll(DctConstants.Activity activity) { stopNetStatPoll(); stopDataStallAlarm(); setActivity(activity); } public void updateDataActivity() { long sent, received; DctConstants.Activity newActivity; TxRxSum preTxRxSum = new TxRxSum(mTxPkts, mRxPkts); TxRxSum curTxRxSum = new TxRxSum(); curTxRxSum.updateTxRxSum(); 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(); } } } // Recovery action taken in case of data stall protected static class RecoveryAction { public static final int GET_DATA_CALL_LIST = 0; public static final int CLEANUP = 1; public static final int REREGISTER = 2; public static final int RADIO_RESTART = 3; public static final int RADIO_RESTART_WITH_PROP = 4; private static boolean isAggressiveRecovery(int value) { return ((value == RecoveryAction.CLEANUP) || (value == RecoveryAction.REREGISTER) || (value == RecoveryAction.RADIO_RESTART) || (value == RecoveryAction.RADIO_RESTART_WITH_PROP)); } } public int getRecoveryAction() { int action = Settings.System.getInt(mResolver, "radio.data.stall.recovery.action", RecoveryAction.GET_DATA_CALL_LIST); if (VDBG_STALL) log("getRecoveryAction: " + action); return action; } public void putRecoveryAction(int action) { Settings.System.putInt(mResolver, "radio.data.stall.recovery.action", action); if (VDBG_STALL) log("putRecoveryAction: " + action); } protected boolean isConnected() { return false; } protected void doRecovery() { if (getOverallState() == DctConstants.State.CONNECTED) { // Go through a series of recovery steps, each action transitions to the next action int recoveryAction = getRecoveryAction(); switch (recoveryAction) { case RecoveryAction.GET_DATA_CALL_LIST: EventLog.writeEvent(EventLogTags.DATA_STALL_RECOVERY_GET_DATA_CALL_LIST, mSentSinceLastRecv); if (DBG) log("doRecovery() get data call list"); mPhone.mCi.getDataCallList(obtainMessage(DctConstants.EVENT_DATA_STATE_CHANGED)); putRecoveryAction(RecoveryAction.CLEANUP); break; case RecoveryAction.CLEANUP: EventLog.writeEvent(EventLogTags.DATA_STALL_RECOVERY_CLEANUP, mSentSinceLastRecv); if (DBG) log("doRecovery() cleanup all connections"); cleanUpAllConnections(Phone.REASON_PDP_RESET); putRecoveryAction(RecoveryAction.REREGISTER); break; case RecoveryAction.REREGISTER: EventLog.writeEvent(EventLogTags.DATA_STALL_RECOVERY_REREGISTER, mSentSinceLastRecv); if (DBG) log("doRecovery() re-register"); mPhone.getServiceStateTracker().reRegisterNetwork(null); putRecoveryAction(RecoveryAction.RADIO_RESTART); break; case RecoveryAction.RADIO_RESTART: EventLog.writeEvent(EventLogTags.DATA_STALL_RECOVERY_RADIO_RESTART, mSentSinceLastRecv); if (DBG) log("restarting radio"); putRecoveryAction(RecoveryAction.RADIO_RESTART_WITH_PROP); restartRadio(); break; case RecoveryAction.RADIO_RESTART_WITH_PROP: // This is in case radio restart has not recovered the data. // It will set an additional "gsm.radioreset" property to tell // RIL or system to take further action. // The implementation of hard reset recovery action is up to OEM product. // Once RADIO_RESET property is consumed, it is expected to set back // to false by RIL. EventLog.writeEvent(EventLogTags.DATA_STALL_RECOVERY_RADIO_RESTART_WITH_PROP, -1); if (DBG) log("restarting radio with gsm.radioreset to true"); SystemProperties.set(RADIO_RESET_PROPERTY, "true"); // give 1 sec so property change can be notified. try { Thread.sleep(1000); } catch (InterruptedException e) {} restartRadio(); putRecoveryAction(RecoveryAction.GET_DATA_CALL_LIST); break; default: throw new RuntimeException("doRecovery: Invalid recoveryAction=" + recoveryAction); } mSentSinceLastRecv = 0; } } private void updateDataStallInfo() { long sent, received; TxRxSum preTxRxSum = new TxRxSum(mDataStallTxRxSum); mDataStallTxRxSum.updateTxRxSum(); 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; putRecoveryAction(RecoveryAction.GET_DATA_CALL_LIST); } else if (sent > 0 && received == 0) { if (mPhone.getState() == PhoneConstants.State.IDLE) { 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; putRecoveryAction(RecoveryAction.GET_DATA_CALL_LIST); } else { if (VDBG_STALL) log("updateDataStallInfo: NONE"); } } protected void onDataStallAlarm(int tag) { if (mDataStallAlarmTag != tag) { if (DBG) { log("onDataStallAlarm: ignore, tag=" + tag + " expecting " + mDataStallAlarmTag); } return; } 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=" + 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); } protected void startDataStallAlarm(boolean suspectedStall) { int nextAction = getRecoveryAction(); int delayInMs; if (mDataStallDetectionEnabled && getOverallState() == DctConstants.State.CONNECTED) { // If screen is on or data stall is currently suspected, set the alarm // with an aggresive timeout. if (mIsScreenOn || suspectedStall || RecoveryAction.isAggressiveRecovery(nextAction)) { 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(DATA_STALL_ALARM_TAG_EXTRA, mDataStallAlarmTag); mDataStallAlarmIntent = PendingIntent.getBroadcast(mPhone.getContext(), 0, intent, PendingIntent.FLAG_UPDATE_CURRENT); mAlarmManager.set(AlarmManager.ELAPSED_REALTIME_WAKEUP, SystemClock.elapsedRealtime() + delayInMs, mDataStallAlarmIntent); } else { if (VDBG_STALL) { log("startDataStallAlarm: NOT started, no connection tag=" + mDataStallAlarmTag); } } } protected void stopDataStallAlarm() { if (VDBG_STALL) { log("stopDataStallAlarm: current tag=" + mDataStallAlarmTag + " mDataStallAlarmIntent=" + mDataStallAlarmIntent); } mDataStallAlarmTag += 1; if (mDataStallAlarmIntent != null) { mAlarmManager.cancel(mDataStallAlarmIntent); mDataStallAlarmIntent = null; } } protected 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. int nextAction = getRecoveryAction(); if (RecoveryAction.isAggressiveRecovery(nextAction)) { 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); } protected void setInitialAttachApn() { ApnSetting iaApnSetting = null; ApnSetting defaultApnSetting = null; ApnSetting firstApnSetting = null; log("setInitialApn: E mPreferredApn=" + mPreferredApn); if (mAllApnSettings != null && !mAllApnSettings.isEmpty()) { firstApnSetting = mAllApnSettings.get(0); log("setInitialApn: firstApnSetting=" + firstApnSetting); // Search for Initial APN setting and the first apn that can handle default for (ApnSetting apn : mAllApnSettings) { // Can't use apn.canHandleType(), as that returns true for APNs that have no type. if (ArrayUtils.contains(apn.types, PhoneConstants.APN_TYPE_IA) && apn.carrierEnabled) { // 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(PhoneConstants.APN_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 (Inital 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 (firstApnSetting != null) { if (DBG) log("setInitialAttachApn: using firstApnSetting"); initialAttachApnSetting = firstApnSetting; } if (initialAttachApnSetting == null) { if (DBG) log("setInitialAttachApn: X There in no available apn"); } else { if (DBG) log("setInitialAttachApn: X selected Apn=" + initialAttachApnSetting); mPhone.mCi.setInitialAttachApn(initialAttachApnSetting.apn, initialAttachApnSetting.protocol, initialAttachApnSetting.authType, initialAttachApnSetting.user, initialAttachApnSetting.password, null); } } protected void setDataProfilesAsNeeded() { if (DBG) log("setDataProfilesAsNeeded"); if (mAllApnSettings != null && !mAllApnSettings.isEmpty()) { ArrayList dps = new ArrayList(); for (ApnSetting apn : mAllApnSettings) { if (apn.modemCognitive) { DataProfile dp = new DataProfile(apn, mPhone.getServiceState().getDataRoaming()); boolean isDup = false; for(DataProfile dpIn : dps) { if (dp.equals(dpIn)) { isDup = true; break; } } if (!isDup) { dps.add(dp); } } } if(dps.size() > 0) { mPhone.mCi.setDataProfile(dps.toArray(new DataProfile[0]), null); } } } protected 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); } protected 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); } protected void stopProvisioningApnAlarm() { if (DBG) { log("stopProvisioningApnAlarm: current tag=" + mProvisioningApnAlarmTag + " mProvsioningApnAlarmIntent=" + mProvisioningApnAlarmIntent); } mProvisioningApnAlarmTag += 1; if (mProvisioningApnAlarmIntent != null) { mAlarmManager.cancel(mProvisioningApnAlarmIntent); mProvisioningApnAlarmIntent = null; } } void sendCleanUpConnection(boolean tearDown, ApnContext apnContext) { if (DBG)log("sendCleanUpConnection: tearDown=" + tearDown + " apnContext=" + apnContext); Message msg = obtainMessage(DctConstants.EVENT_CLEAN_UP_CONNECTION); msg.arg1 = tearDown ? 1 : 0; msg.arg2 = 0; msg.obj = apnContext; sendMessage(msg); } void sendRestartRadio() { if (DBG)log("sendRestartRadio:"); Message msg = obtainMessage(DctConstants.EVENT_RESTART_RADIO); sendMessage(msg); } public boolean getAutoAttachOnCreation() { return mAutoAttachOnCreation.get(); } public void dump(FileDescriptor fd, PrintWriter pw, String[] args) { pw.println("DcTrackerBase:"); pw.println(" RADIO_TESTS=" + RADIO_TESTS); pw.println(" mInternalDataEnabled=" + mInternalDataEnabled); pw.println(" mUserDataEnabled=" + mUserDataEnabled); pw.println(" sPolicyDataEnabed=" + sPolicyDataEnabled); pw.println(" mDataEnabled:"); for(int i=0; i < mDataEnabled.length; i++) { pw.printf(" mDataEnabled[%d]=%b\n", i, mDataEnabled[i]); } pw.flush(); pw.println(" mEnabledCount=" + mEnabledCount); 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(" mDataStallDetectionEanbled=" + mDataStallDetectionEnabled); pw.println(" mSentSinceLastRecv=" + mSentSinceLastRecv); pw.println(" mNoRecvPollCount=" + mNoRecvPollCount); pw.println(" mResolver=" + mResolver); pw.println(" mIsWifiConnected=" + mIsWifiConnected); pw.println(" mReconnectIntent=" + mReconnectIntent); pw.println(" mCidActive=" + mCidActive); pw.println(" mAutoAttachOnCreation=" + mAutoAttachOnCreation.get()); pw.println(" mIsScreenOn=" + mIsScreenOn); pw.println(" mUniqueIdGenerator=" + mUniqueIdGenerator); pw.flush(); pw.println(" ***************************************"); DcController dcc = mDcc; if (dcc != null) { dcc.dump(fd, pw, args); } 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(" mActiveApn=" + mActiveApn); ArrayList apnSettings = mAllApnSettings; if (apnSettings != null) { pw.println(" mAllApnSettings size=" + apnSettings.size()); for (int i=0; i < apnSettings.size(); i++) { pw.printf(" mAllApnSettings[%d]: %s\n", i, apnSettings.get(i)); } pw.flush(); } else { pw.println(" mAllApnSettings=null"); } pw.println(" mPreferredApn=" + mPreferredApn); pw.println(" mIsPsRestricted=" + mIsPsRestricted); pw.println(" mIsDisposed=" + mIsDisposed); pw.println(" mIntentReceiver=" + mIntentReceiver); pw.println(" mDataRoamingSettingObserver=" + mDataRoamingSettingObserver); pw.flush(); } }