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android / platform / frameworks / opt / telephony / 559fb63 / . / src / java / com / android / internal / telephony / Phone.java
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/*
* Copyright (C) 2015 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;
import android.content.BroadcastReceiver;
import android.content.Context;
import android.content.Intent;
import android.content.IntentFilter;
import android.content.SharedPreferences;
import android.net.LinkProperties;
import android.net.NetworkCapabilities;
import android.net.NetworkStats;
import android.net.Uri;
import android.net.wifi.WifiManager;
import android.os.AsyncResult;
import android.os.Build;
import android.os.Bundle;
import android.os.Handler;
import android.os.Looper;
import android.os.Message;
import android.os.PersistableBundle;
import android.os.Registrant;
import android.os.RegistrantList;
import android.os.SystemProperties;
import android.os.WorkSource;
import android.preference.PreferenceManager;
import android.provider.Settings;
import android.service.carrier.CarrierIdentifier;
import android.telecom.VideoProfile;
import android.telephony.CarrierConfigManager;
import android.telephony.CellIdentityCdma;
import android.telephony.CellInfo;
import android.telephony.CellInfoCdma;
import android.telephony.CellLocation;
import android.telephony.ClientRequestStats;
import android.telephony.ImsiEncryptionInfo;
import android.telephony.PhoneStateListener;
import android.telephony.RadioAccessFamily;
import android.telephony.Rlog;
import android.telephony.ServiceState;
import android.telephony.SignalStrength;
import android.telephony.SubscriptionManager;
import android.telephony.VoLteServiceState;
import android.text.TextUtils;
import com.android.ims.ImsCall;
import com.android.ims.ImsConfig;
import com.android.ims.ImsManager;
import com.android.internal.R;
import com.android.internal.telephony.dataconnection.DcTracker;
import com.android.internal.telephony.imsphone.ImsPhoneCall;
import com.android.internal.telephony.test.SimulatedRadioControl;
import com.android.internal.telephony.uicc.IccCardApplicationStatus.AppType;
import com.android.internal.telephony.uicc.IccFileHandler;
import com.android.internal.telephony.uicc.IccRecords;
import com.android.internal.telephony.uicc.IsimRecords;
import com.android.internal.telephony.uicc.UiccCard;
import com.android.internal.telephony.uicc.UiccCardApplication;
import com.android.internal.telephony.uicc.UiccController;
import com.android.internal.telephony.uicc.UsimServiceTable;
import java.io.FileDescriptor;
import java.io.PrintWriter;
import java.util.ArrayList;
import java.util.HashSet;
import java.util.List;
import java.util.Locale;
import java.util.Set;
import java.util.concurrent.atomic.AtomicReference;
/**
* (<em>Not for SDK use</em>)
* A base implementation for the com.android.internal.telephony.Phone interface.
*
* Note that implementations of Phone.java are expected to be used
* from a single application thread. This should be the same thread that
* originally called PhoneFactory to obtain the interface.
*
* {@hide}
*
*/
public abstract class Phone extends Handler implements PhoneInternalInterface {
private static final String LOG_TAG = "Phone";
protected final static Object lockForRadioTechnologyChange = new Object();
protected final int USSD_MAX_QUEUE = 10;
private BroadcastReceiver mImsIntentReceiver = new BroadcastReceiver() {
@Override
public void onReceive(Context context, Intent intent) {
Rlog.d(LOG_TAG, "mImsIntentReceiver: action " + intent.getAction());
if (intent.hasExtra(ImsManager.EXTRA_PHONE_ID)) {
int extraPhoneId = intent.getIntExtra(ImsManager.EXTRA_PHONE_ID,
SubscriptionManager.INVALID_PHONE_INDEX);
Rlog.d(LOG_TAG, "mImsIntentReceiver: extraPhoneId = " + extraPhoneId);
if (extraPhoneId == SubscriptionManager.INVALID_PHONE_INDEX ||
extraPhoneId != getPhoneId()) {
return;
}
}
synchronized (Phone.lockForRadioTechnologyChange) {
if (intent.getAction().equals(ImsManager.ACTION_IMS_SERVICE_UP)) {
mImsServiceReady = true;
updateImsPhone();
ImsManager.updateImsServiceConfig(mContext, mPhoneId, false);
} else if (intent.getAction().equals(ImsManager.ACTION_IMS_SERVICE_DOWN)) {
mImsServiceReady = false;
updateImsPhone();
} else if (intent.getAction().equals(ImsConfig.ACTION_IMS_CONFIG_CHANGED)) {
int item = intent.getIntExtra(ImsConfig.EXTRA_CHANGED_ITEM, -1);
String value = intent.getStringExtra(ImsConfig.EXTRA_NEW_VALUE);
ImsManager.onProvisionedValueChanged(context, item, value);
}
}
}
};
// Key used to read and write the saved network selection numeric value
public static final String NETWORK_SELECTION_KEY = "network_selection_key";
// Key used to read and write the saved network selection operator name
public static final String NETWORK_SELECTION_NAME_KEY = "network_selection_name_key";
// Key used to read and write the saved network selection operator short name
public static final String NETWORK_SELECTION_SHORT_KEY = "network_selection_short_key";
// Key used to read/write "disable data connection on boot" pref (used for testing)
public static final String DATA_DISABLED_ON_BOOT_KEY = "disabled_on_boot_key";
// Key used to read/write data_roaming_is_user_setting pref
public static final String DATA_ROAMING_IS_USER_SETTING_KEY = "data_roaming_is_user_setting_key";
/* Event Constants */
protected static final int EVENT_RADIO_AVAILABLE = 1;
/** Supplementary Service Notification received. */
protected static final int EVENT_SSN = 2;
protected static final int EVENT_SIM_RECORDS_LOADED = 3;
private static final int EVENT_MMI_DONE = 4;
protected static final int EVENT_RADIO_ON = 5;
protected static final int EVENT_GET_BASEBAND_VERSION_DONE = 6;
protected static final int EVENT_USSD = 7;
protected static final int EVENT_RADIO_OFF_OR_NOT_AVAILABLE = 8;
protected static final int EVENT_GET_IMEI_DONE = 9;
protected static final int EVENT_GET_IMEISV_DONE = 10;
private static final int EVENT_GET_SIM_STATUS_DONE = 11;
protected static final int EVENT_SET_CALL_FORWARD_DONE = 12;
protected static final int EVENT_GET_CALL_FORWARD_DONE = 13;
protected static final int EVENT_CALL_RING = 14;
private static final int EVENT_CALL_RING_CONTINUE = 15;
// Used to intercept the carrier selection calls so that
// we can save the values.
private static final int EVENT_SET_NETWORK_MANUAL_COMPLETE = 16;
private static final int EVENT_SET_NETWORK_AUTOMATIC_COMPLETE = 17;
protected static final int EVENT_SET_CLIR_COMPLETE = 18;
protected static final int EVENT_REGISTERED_TO_NETWORK = 19;
protected static final int EVENT_SET_VM_NUMBER_DONE = 20;
// Events for CDMA support
protected static final int EVENT_GET_DEVICE_IDENTITY_DONE = 21;
protected static final int EVENT_RUIM_RECORDS_LOADED = 22;
protected static final int EVENT_NV_READY = 23;
private static final int EVENT_SET_ENHANCED_VP = 24;
protected static final int EVENT_EMERGENCY_CALLBACK_MODE_ENTER = 25;
protected static final int EVENT_EXIT_EMERGENCY_CALLBACK_RESPONSE = 26;
protected static final int EVENT_CDMA_SUBSCRIPTION_SOURCE_CHANGED = 27;
// other
protected static final int EVENT_SET_NETWORK_AUTOMATIC = 28;
protected static final int EVENT_ICC_RECORD_EVENTS = 29;
private static final int EVENT_ICC_CHANGED = 30;
// Single Radio Voice Call Continuity
private static final int EVENT_SRVCC_STATE_CHANGED = 31;
private static final int EVENT_INITIATE_SILENT_REDIAL = 32;
private static final int EVENT_RADIO_NOT_AVAILABLE = 33;
private static final int EVENT_UNSOL_OEM_HOOK_RAW = 34;
protected static final int EVENT_GET_RADIO_CAPABILITY = 35;
protected static final int EVENT_SS = 36;
private static final int EVENT_CONFIG_LCE = 37;
private static final int EVENT_CHECK_FOR_NETWORK_AUTOMATIC = 38;
protected static final int EVENT_VOICE_RADIO_TECH_CHANGED = 39;
protected static final int EVENT_REQUEST_VOICE_RADIO_TECH_DONE = 40;
protected static final int EVENT_RIL_CONNECTED = 41;
protected static final int EVENT_UPDATE_PHONE_OBJECT = 42;
protected static final int EVENT_CARRIER_CONFIG_CHANGED = 43;
// Carrier's CDMA prefer mode setting
protected static final int EVENT_SET_ROAMING_PREFERENCE_DONE = 44;
protected static final int EVENT_MODEM_RESET = 45;
protected static final int EVENT_LAST = EVENT_MODEM_RESET;
// For shared prefs.
private static final String GSM_ROAMING_LIST_OVERRIDE_PREFIX = "gsm_roaming_list_";
private static final String GSM_NON_ROAMING_LIST_OVERRIDE_PREFIX = "gsm_non_roaming_list_";
private static final String CDMA_ROAMING_LIST_OVERRIDE_PREFIX = "cdma_roaming_list_";
private static final String CDMA_NON_ROAMING_LIST_OVERRIDE_PREFIX = "cdma_non_roaming_list_";
// Key used to read/write current CLIR setting
public static final String CLIR_KEY = "clir_key";
// Key used for storing voice mail count
private static final String VM_COUNT = "vm_count_key";
// Key used to read/write the ID for storing the voice mail
private static final String VM_ID = "vm_id_key";
// Key used for storing call forwarding status
public static final String CF_STATUS = "cf_status_key";
// Key used to read/write the ID for storing the call forwarding status
public static final String CF_ID = "cf_id_key";
// Key used to read/write "disable DNS server check" pref (used for testing)
private static final String DNS_SERVER_CHECK_DISABLED_KEY = "dns_server_check_disabled_key";
/**
* This method is invoked when the Phone exits Emergency Callback Mode.
*/
protected void handleExitEmergencyCallbackMode() {
}
/**
* Small container class used to hold information relevant to
* the carrier selection process. operatorNumeric can be ""
* if we are looking for automatic selection. operatorAlphaLong is the
* corresponding operator name.
*/
private static class NetworkSelectMessage {
public Message message;
public String operatorNumeric;
public String operatorAlphaLong;
public String operatorAlphaShort;
}
/* Instance Variables */
public CommandsInterface mCi;
protected int mVmCount = 0;
private boolean mDnsCheckDisabled;
public DcTracker mDcTracker;
/* Used for dispatching signals to configured carrier apps */
protected CarrierSignalAgent mCarrierSignalAgent;
/* Used for dispatching carrier action from carrier apps */
protected CarrierActionAgent mCarrierActionAgent;
private boolean mDoesRilSendMultipleCallRing;
private int mCallRingContinueToken;
private int mCallRingDelay;
private boolean mIsVoiceCapable = true;
private final AppSmsManager mAppSmsManager;
private SimActivationTracker mSimActivationTracker;
// Keep track of whether or not the phone is in Emergency Callback Mode for Phone and
// subclasses
protected boolean mIsPhoneInEcmState = false;
// Variable to cache the video capability. When RAT changes, we lose this info and are unable
// to recover from the state. We cache it and notify listeners when they register.
protected boolean mIsVideoCapable = false;
protected UiccController mUiccController = null;
protected final AtomicReference<IccRecords> mIccRecords = new AtomicReference<IccRecords>();
public SmsStorageMonitor mSmsStorageMonitor;
public SmsUsageMonitor mSmsUsageMonitor;
protected AtomicReference<UiccCardApplication> mUiccApplication =
new AtomicReference<UiccCardApplication>();
private TelephonyTester mTelephonyTester;
private String mName;
private final String mActionDetached;
private final String mActionAttached;
protected int mPhoneId;
private boolean mImsServiceReady = false;
protected Phone mImsPhone = null;
private final AtomicReference<RadioCapability> mRadioCapability =
new AtomicReference<RadioCapability>();
private static final int DEFAULT_REPORT_INTERVAL_MS = 200;
private static final boolean LCE_PULL_MODE = true;
private int mLceStatus = RILConstants.LCE_NOT_AVAILABLE;
protected TelephonyComponentFactory mTelephonyComponentFactory;
//IMS
/**
* {@link CallStateException} message text used to indicate that an IMS call has failed because
* it needs to be retried using GSM or CDMA (e.g. CS fallback).
* TODO: Replace this with a proper exception; {@link CallStateException} doesn't make sense.
*/
public static final String CS_FALLBACK = "cs_fallback";
public static final String EXTRA_KEY_ALERT_TITLE = "alertTitle";
public static final String EXTRA_KEY_ALERT_MESSAGE = "alertMessage";
public static final String EXTRA_KEY_ALERT_SHOW = "alertShow";
public static final String EXTRA_KEY_NOTIFICATION_MESSAGE = "notificationMessage";
private final RegistrantList mPreciseCallStateRegistrants
= new RegistrantList();
private final RegistrantList mHandoverRegistrants
= new RegistrantList();
private final RegistrantList mNewRingingConnectionRegistrants
= new RegistrantList();
private final RegistrantList mIncomingRingRegistrants
= new RegistrantList();
protected final RegistrantList mDisconnectRegistrants
= new RegistrantList();
private final RegistrantList mServiceStateRegistrants
= new RegistrantList();
protected final RegistrantList mMmiCompleteRegistrants
= new RegistrantList();
protected final RegistrantList mMmiRegistrants
= new RegistrantList();
protected final RegistrantList mUnknownConnectionRegistrants
= new RegistrantList();
protected final RegistrantList mSuppServiceFailedRegistrants
= new RegistrantList();
protected final RegistrantList mRadioOffOrNotAvailableRegistrants
= new RegistrantList();
protected final RegistrantList mSimRecordsLoadedRegistrants
= new RegistrantList();
private final RegistrantList mVideoCapabilityChangedRegistrants
= new RegistrantList();
protected final RegistrantList mEmergencyCallToggledRegistrants
= new RegistrantList();
protected Registrant mPostDialHandler;
private Looper mLooper; /* to insure registrants are in correct thread*/
protected final Context mContext;
/**
* PhoneNotifier is an abstraction for all system-wide
* state change notification. DefaultPhoneNotifier is
* used here unless running we're inside a unit test.
*/
protected PhoneNotifier mNotifier;
protected SimulatedRadioControl mSimulatedRadioControl;
private boolean mUnitTestMode;
public IccRecords getIccRecords() {
return mIccRecords.get();
}
/**
* Returns a string identifier for this phone interface for parties
* outside the phone app process.
* @return The string name.
*/
public String getPhoneName() {
return mName;
}
protected void setPhoneName(String name) {
mName = name;
}
/**
* Retrieves Nai for phones. Returns null if Nai is not set.
*/
public String getNai(){
return null;
}
/**
* Return the ActionDetached string. When this action is received by components
* they are to simulate detaching from the network.
*
* @return com.android.internal.telephony.{mName}.action_detached
* {mName} is GSM, CDMA ...
*/
public String getActionDetached() {
return mActionDetached;
}
/**
* Return the ActionAttached string. When this action is received by components
* they are to simulate attaching to the network.
*
* @return com.android.internal.telephony.{mName}.action_detached
* {mName} is GSM, CDMA ...
*/
public String getActionAttached() {
return mActionAttached;
}
/**
* Set a system property, unless we're in unit test mode
*/
// CAF_MSIM TODO this need to be replated with TelephonyManager API ?
public void setSystemProperty(String property, String value) {
if(getUnitTestMode()) {
return;
}
SystemProperties.set(property, value);
}
/**
* Set a system property, unless we're in unit test mode
*/
// CAF_MSIM TODO this need to be replated with TelephonyManager API ?
public String getSystemProperty(String property, String defValue) {
if(getUnitTestMode()) {
return null;
}
return SystemProperties.get(property, defValue);
}
/**
* Constructs a Phone in normal (non-unit test) mode.
*
* @param notifier An instance of DefaultPhoneNotifier,
* @param context Context object from hosting application
* unless unit testing.
* @param ci is CommandsInterface
* @param unitTestMode when true, prevents notifications
* of state change events
*/
protected Phone(String name, PhoneNotifier notifier, Context context, CommandsInterface ci,
boolean unitTestMode) {
this(name, notifier, context, ci, unitTestMode, SubscriptionManager.DEFAULT_PHONE_INDEX,
TelephonyComponentFactory.getInstance());
}
/**
* Constructs a Phone in normal (non-unit test) mode.
*
* @param notifier An instance of DefaultPhoneNotifier,
* @param context Context object from hosting application
* unless unit testing.
* @param ci is CommandsInterface
* @param unitTestMode when true, prevents notifications
* of state change events
* @param phoneId the phone-id of this phone.
*/
protected Phone(String name, PhoneNotifier notifier, Context context, CommandsInterface ci,
boolean unitTestMode, int phoneId,
TelephonyComponentFactory telephonyComponentFactory) {
mPhoneId = phoneId;
mName = name;
mNotifier = notifier;
mContext = context;
mLooper = Looper.myLooper();
mCi = ci;
mActionDetached = this.getClass().getPackage().getName() + ".action_detached";
mActionAttached = this.getClass().getPackage().getName() + ".action_attached";
mAppSmsManager = telephonyComponentFactory.makeAppSmsManager(context);
if (Build.IS_DEBUGGABLE) {
mTelephonyTester = new TelephonyTester(this);
}
setUnitTestMode(unitTestMode);
SharedPreferences sp = PreferenceManager.getDefaultSharedPreferences(context);
mDnsCheckDisabled = sp.getBoolean(DNS_SERVER_CHECK_DISABLED_KEY, false);
mCi.setOnCallRing(this, EVENT_CALL_RING, null);
/* "Voice capable" means that this device supports circuit-switched
* (i.e. voice) phone calls over the telephony network, and is allowed
* to display the in-call UI while a cellular voice call is active.
* This will be false on "data only" devices which can't make voice
* calls and don't support any in-call UI.
*/
mIsVoiceCapable = mContext.getResources().getBoolean(
com.android.internal.R.bool.config_voice_capable);
/**
* Some RIL's don't always send RIL_UNSOL_CALL_RING so it needs
* to be generated locally. Ideally all ring tones should be loops
* and this wouldn't be necessary. But to minimize changes to upper
* layers it is requested that it be generated by lower layers.
*
* By default old phones won't have the property set but do generate
* the RIL_UNSOL_CALL_RING so the default if there is no property is
* true.
*/
mDoesRilSendMultipleCallRing = SystemProperties.getBoolean(
TelephonyProperties.PROPERTY_RIL_SENDS_MULTIPLE_CALL_RING, true);
Rlog.d(LOG_TAG, "mDoesRilSendMultipleCallRing=" + mDoesRilSendMultipleCallRing);
mCallRingDelay = SystemProperties.getInt(
TelephonyProperties.PROPERTY_CALL_RING_DELAY, 3000);
Rlog.d(LOG_TAG, "mCallRingDelay=" + mCallRingDelay);
if (getPhoneType() == PhoneConstants.PHONE_TYPE_IMS) {
return;
}
// The locale from the "ro.carrier" system property or R.array.carrier_properties.
// This will be overwritten by the Locale from the SIM language settings (EF-PL, EF-LI)
// if applicable.
final Locale carrierLocale = getLocaleFromCarrierProperties(mContext);
if (carrierLocale != null && !TextUtils.isEmpty(carrierLocale.getCountry())) {
final String country = carrierLocale.getCountry();
try {
Settings.Global.getInt(mContext.getContentResolver(),
Settings.Global.WIFI_COUNTRY_CODE);
} catch (Settings.SettingNotFoundException e) {
// note this is not persisting
WifiManager wM = (WifiManager)
mContext.getSystemService(Context.WIFI_SERVICE);
wM.setCountryCode(country, false);
}
}
// Initialize device storage and outgoing SMS usage monitors for SMSDispatchers.
mTelephonyComponentFactory = telephonyComponentFactory;
mSmsStorageMonitor = mTelephonyComponentFactory.makeSmsStorageMonitor(this);
mSmsUsageMonitor = mTelephonyComponentFactory.makeSmsUsageMonitor(context);
mUiccController = UiccController.getInstance();
mUiccController.registerForIccChanged(this, EVENT_ICC_CHANGED, null);
mSimActivationTracker = mTelephonyComponentFactory.makeSimActivationTracker(this);
if (getPhoneType() != PhoneConstants.PHONE_TYPE_SIP) {
mCi.registerForSrvccStateChanged(this, EVENT_SRVCC_STATE_CHANGED, null);
}
mCi.setOnUnsolOemHookRaw(this, EVENT_UNSOL_OEM_HOOK_RAW, null);
mCi.startLceService(DEFAULT_REPORT_INTERVAL_MS, LCE_PULL_MODE,
obtainMessage(EVENT_CONFIG_LCE));
}
/**
* Start listening for IMS service UP/DOWN events. If using the new ImsResolver APIs, we should
* always be setting up ImsPhones.
*/
public void startMonitoringImsService() {
if (getPhoneType() == PhoneConstants.PHONE_TYPE_SIP) {
return;
}
synchronized(Phone.lockForRadioTechnologyChange) {
IntentFilter filter = new IntentFilter();
ImsManager imsManager = ImsManager.getInstance(mContext, getPhoneId());
// Don't listen to deprecated intents using the new dynamic binding.
if (imsManager != null && !imsManager.isDynamicBinding()) {
filter.addAction(ImsManager.ACTION_IMS_SERVICE_UP);
filter.addAction(ImsManager.ACTION_IMS_SERVICE_DOWN);
}
filter.addAction(ImsConfig.ACTION_IMS_CONFIG_CHANGED);
mContext.registerReceiver(mImsIntentReceiver, filter);
// Monitor IMS service - but first poll to see if already up (could miss
// intent). Also, when using new ImsResolver APIs, the service will be available soon,
// so start trying to bind.
if (imsManager != null) {
// If it is dynamic binding, kick off ImsPhone creation now instead of waiting for
// the service to be available.
if (imsManager.isDynamicBinding() || imsManager.isServiceAvailable()) {
mImsServiceReady = true;
updateImsPhone();
}
}
}
}
/**
* Checks if device should convert CDMA Caller ID restriction related MMI codes to
* equivalent 3GPP MMI Codes that provide same functionality when device is roaming.
* This method should only return true on multi-mode devices when carrier requires this
* conversion to be done on the device.
*
* @return true when carrier config
* "KEY_CONVERT_CDMA_CALLER_ID_MMI_CODES_WHILE_ROAMING_ON_3GPP_BOOL" is set to true
*/
public boolean supportsConversionOfCdmaCallerIdMmiCodesWhileRoaming() {
CarrierConfigManager configManager = (CarrierConfigManager)
getContext().getSystemService(Context.CARRIER_CONFIG_SERVICE);
PersistableBundle b = configManager.getConfig();
if (b != null) {
return b.getBoolean(
CarrierConfigManager
.KEY_CONVERT_CDMA_CALLER_ID_MMI_CODES_WHILE_ROAMING_ON_3GPP_BOOL,
false);
} else {
// Default value set in CarrierConfigManager
return false;
}
}
/**
* When overridden the derived class needs to call
* super.handleMessage(msg) so this method has a
* a chance to process the message.
*
* @param msg
*/
@Override
public void handleMessage(Message msg) {
AsyncResult ar;
// messages to be handled whether or not the phone is being destroyed
// should only include messages which are being re-directed and do not use
// resources of the phone being destroyed
switch (msg.what) {
// handle the select network completion callbacks.
case EVENT_SET_NETWORK_MANUAL_COMPLETE:
case EVENT_SET_NETWORK_AUTOMATIC_COMPLETE:
handleSetSelectNetwork((AsyncResult) msg.obj);
return;
}
switch(msg.what) {
case EVENT_CALL_RING:
Rlog.d(LOG_TAG, "Event EVENT_CALL_RING Received state=" + getState());
ar = (AsyncResult)msg.obj;
if (ar.exception == null) {
PhoneConstants.State state = getState();
if ((!mDoesRilSendMultipleCallRing)
&& ((state == PhoneConstants.State.RINGING) ||
(state == PhoneConstants.State.IDLE))) {
mCallRingContinueToken += 1;
sendIncomingCallRingNotification(mCallRingContinueToken);
} else {
notifyIncomingRing();
}
}
break;
case EVENT_CALL_RING_CONTINUE:
Rlog.d(LOG_TAG, "Event EVENT_CALL_RING_CONTINUE Received state=" + getState());
if (getState() == PhoneConstants.State.RINGING) {
sendIncomingCallRingNotification(msg.arg1);
}
break;
case EVENT_ICC_CHANGED:
onUpdateIccAvailability();
break;
case EVENT_INITIATE_SILENT_REDIAL:
Rlog.d(LOG_TAG, "Event EVENT_INITIATE_SILENT_REDIAL Received");
ar = (AsyncResult) msg.obj;
if ((ar.exception == null) && (ar.result != null)) {
String dialString = (String) ar.result;
if (TextUtils.isEmpty(dialString)) return;
try {
dialInternal(dialString, null, VideoProfile.STATE_AUDIO_ONLY, null);
} catch (CallStateException e) {
Rlog.e(LOG_TAG, "silent redial failed: " + e);
}
}
break;
case EVENT_SRVCC_STATE_CHANGED:
ar = (AsyncResult)msg.obj;
if (ar.exception == null) {
handleSrvccStateChanged((int[]) ar.result);
} else {
Rlog.e(LOG_TAG, "Srvcc exception: " + ar.exception);
}
break;
case EVENT_UNSOL_OEM_HOOK_RAW:
ar = (AsyncResult)msg.obj;
if (ar.exception == null) {
byte[] data = (byte[])ar.result;
mNotifier.notifyOemHookRawEventForSubscriber(getSubId(), data);
} else {
Rlog.e(LOG_TAG, "OEM hook raw exception: " + ar.exception);
}
break;
case EVENT_CONFIG_LCE:
ar = (AsyncResult) msg.obj;
if (ar.exception != null) {
Rlog.d(LOG_TAG, "config LCE service failed: " + ar.exception);
} else {
final ArrayList<Integer> statusInfo = (ArrayList<Integer>)ar.result;
mLceStatus = statusInfo.get(0);
}
break;
case EVENT_CHECK_FOR_NETWORK_AUTOMATIC: {
onCheckForNetworkSelectionModeAutomatic(msg);
break;
}
default:
throw new RuntimeException("unexpected event not handled");
}
}
public ArrayList<Connection> getHandoverConnection() {
return null;
}
public void notifySrvccState(Call.SrvccState state) {
}
public void registerForSilentRedial(Handler h, int what, Object obj) {
}
public void unregisterForSilentRedial(Handler h) {
}
private void handleSrvccStateChanged(int[] ret) {
Rlog.d(LOG_TAG, "handleSrvccStateChanged");
ArrayList<Connection> conn = null;
Phone imsPhone = mImsPhone;
Call.SrvccState srvccState = Call.SrvccState.NONE;
if (ret != null && ret.length != 0) {
int state = ret[0];
switch(state) {
case VoLteServiceState.HANDOVER_STARTED:
srvccState = Call.SrvccState.STARTED;
if (imsPhone != null) {
conn = imsPhone.getHandoverConnection();
migrateFrom(imsPhone);
} else {
Rlog.d(LOG_TAG, "HANDOVER_STARTED: mImsPhone null");
}
break;
case VoLteServiceState.HANDOVER_COMPLETED:
srvccState = Call.SrvccState.COMPLETED;
if (imsPhone != null) {
imsPhone.notifySrvccState(srvccState);
} else {
Rlog.d(LOG_TAG, "HANDOVER_COMPLETED: mImsPhone null");
}
break;
case VoLteServiceState.HANDOVER_FAILED:
case VoLteServiceState.HANDOVER_CANCELED:
srvccState = Call.SrvccState.FAILED;
break;
default:
//ignore invalid state
return;
}
getCallTracker().notifySrvccState(srvccState, conn);
VoLteServiceState lteState = new VoLteServiceState(state);
notifyVoLteServiceStateChanged(lteState);
}
}
/**
* Gets the context for the phone, as set at initialization time.
*/
public Context getContext() {
return mContext;
}
// Will be called when icc changed
protected abstract void onUpdateIccAvailability();
/**
* Disables the DNS check (i.e., allows "0.0.0.0").
* Useful for lab testing environment.
* @param b true disables the check, false enables.
*/
public void disableDnsCheck(boolean b) {
mDnsCheckDisabled = b;
SharedPreferences sp = PreferenceManager.getDefaultSharedPreferences(getContext());
SharedPreferences.Editor editor = sp.edit();
editor.putBoolean(DNS_SERVER_CHECK_DISABLED_KEY, b);
editor.apply();
}
/**
* Returns true if the DNS check is currently disabled.
*/
public boolean isDnsCheckDisabled() {
return mDnsCheckDisabled;
}
/**
* Register for getting notifications for change in the Call State {@link Call.State}
* This is called PreciseCallState because the call state is more precise than the
* {@link PhoneConstants.State} which can be obtained using the {@link PhoneStateListener}
*
* Resulting events will have an AsyncResult in <code>Message.obj</code>.
* AsyncResult.userData will be set to the obj argument here.
* The <em>h</em> parameter is held only by a weak reference.
*/
public void registerForPreciseCallStateChanged(Handler h, int what, Object obj) {
checkCorrectThread(h);
mPreciseCallStateRegistrants.addUnique(h, what, obj);
}
/**
* Unregisters for voice call state change notifications.
* Extraneous calls are tolerated silently.
*/
public void unregisterForPreciseCallStateChanged(Handler h) {
mPreciseCallStateRegistrants.remove(h);
}
/**
* Subclasses of Phone probably want to replace this with a
* version scoped to their packages
*/
protected void notifyPreciseCallStateChangedP() {
AsyncResult ar = new AsyncResult(null, this, null);
mPreciseCallStateRegistrants.notifyRegistrants(ar);
mNotifier.notifyPreciseCallState(this);
}
/**
* Notifies when a Handover happens due to SRVCC or Silent Redial
*/
public void registerForHandoverStateChanged(Handler h, int what, Object obj) {
checkCorrectThread(h);
mHandoverRegistrants.addUnique(h, what, obj);
}
/**
* Unregisters for handover state notifications
*/
public void unregisterForHandoverStateChanged(Handler h) {
mHandoverRegistrants.remove(h);
}
/**
* Subclasses of Phone probably want to replace this with a
* version scoped to their packages
*/
public void notifyHandoverStateChanged(Connection cn) {
AsyncResult ar = new AsyncResult(null, cn, null);
mHandoverRegistrants.notifyRegistrants(ar);
}
protected void setIsInEmergencyCall() {
}
protected void migrateFrom(Phone from) {
migrate(mHandoverRegistrants, from.mHandoverRegistrants);
migrate(mPreciseCallStateRegistrants, from.mPreciseCallStateRegistrants);
migrate(mNewRingingConnectionRegistrants, from.mNewRingingConnectionRegistrants);
migrate(mIncomingRingRegistrants, from.mIncomingRingRegistrants);
migrate(mDisconnectRegistrants, from.mDisconnectRegistrants);
migrate(mServiceStateRegistrants, from.mServiceStateRegistrants);
migrate(mMmiCompleteRegistrants, from.mMmiCompleteRegistrants);
migrate(mMmiRegistrants, from.mMmiRegistrants);
migrate(mUnknownConnectionRegistrants, from.mUnknownConnectionRegistrants);
migrate(mSuppServiceFailedRegistrants, from.mSuppServiceFailedRegistrants);
if (from.isInEmergencyCall()) {
setIsInEmergencyCall();
}
}
protected void migrate(RegistrantList to, RegistrantList from) {
from.removeCleared();
for (int i = 0, n = from.size(); i < n; i++) {
Registrant r = (Registrant) from.get(i);
Message msg = r.messageForRegistrant();
// Since CallManager has already registered with both CS and IMS phones,
// the migrate should happen only for those registrants which are not
// registered with CallManager.Hence the below check is needed to add
// only those registrants to the registrant list which are not
// coming from the CallManager.
if (msg != null) {
if (msg.obj == CallManager.getInstance().getRegistrantIdentifier()) {
continue;
} else {
to.add((Registrant) from.get(i));
}
} else {
Rlog.d(LOG_TAG, "msg is null");
}
}
}
/**
* Notifies when a previously untracked non-ringing/waiting connection has appeared.
* This is likely due to some other entity (eg, SIM card application) initiating a call.
*/
public void registerForUnknownConnection(Handler h, int what, Object obj) {
checkCorrectThread(h);
mUnknownConnectionRegistrants.addUnique(h, what, obj);
}
/**
* Unregisters for unknown connection notifications.
*/
public void unregisterForUnknownConnection(Handler h) {
mUnknownConnectionRegistrants.remove(h);
}
/**
* Notifies when a new ringing or waiting connection has appeared.<p>
*
* Messages received from this:
* Message.obj will be an AsyncResult
* AsyncResult.userObj = obj
* AsyncResult.result = a Connection. <p>
* Please check Connection.isRinging() to make sure the Connection
* has not dropped since this message was posted.
* If Connection.isRinging() is true, then
* Connection.getCall() == Phone.getRingingCall()
*/
public void registerForNewRingingConnection(
Handler h, int what, Object obj) {
checkCorrectThread(h);
mNewRingingConnectionRegistrants.addUnique(h, what, obj);
}
/**
* Unregisters for new ringing connection notification.
* Extraneous calls are tolerated silently
*/
public void unregisterForNewRingingConnection(Handler h) {
mNewRingingConnectionRegistrants.remove(h);
}
/**
* Notifies when phone's video capabilities changes <p>
*
* Messages received from this:
* Message.obj will be an AsyncResult
* AsyncResult.userObj = obj
* AsyncResult.result = true if phone supports video calling <p>
*/
public void registerForVideoCapabilityChanged(
Handler h, int what, Object obj) {
checkCorrectThread(h);
mVideoCapabilityChangedRegistrants.addUnique(h, what, obj);
// Notify any registrants of the cached video capability as soon as they register.
notifyForVideoCapabilityChanged(mIsVideoCapable);
}
/**
* Unregisters for video capability changed notification.
* Extraneous calls are tolerated silently
*/
public void unregisterForVideoCapabilityChanged(Handler h) {
mVideoCapabilityChangedRegistrants.remove(h);
}
/**
* Register for notifications when a sInCall VoicePrivacy is enabled
*
* @param h Handler that receives the notification message.
* @param what User-defined message code.
* @param obj User object.
*/
public void registerForInCallVoicePrivacyOn(Handler h, int what, Object obj){
mCi.registerForInCallVoicePrivacyOn(h, what, obj);
}
/**
* Unegister for notifications when a sInCall VoicePrivacy is enabled
*
* @param h Handler to be removed from the registrant list.
*/
public void unregisterForInCallVoicePrivacyOn(Handler h){
mCi.unregisterForInCallVoicePrivacyOn(h);
}
/**
* Register for notifications when a sInCall VoicePrivacy is disabled
*
* @param h Handler that receives the notification message.
* @param what User-defined message code.
* @param obj User object.
*/
public void registerForInCallVoicePrivacyOff(Handler h, int what, Object obj){
mCi.registerForInCallVoicePrivacyOff(h, what, obj);
}
/**
* Unregister for notifications when a sInCall VoicePrivacy is disabled
*
* @param h Handler to be removed from the registrant list.
*/
public void unregisterForInCallVoicePrivacyOff(Handler h){
mCi.unregisterForInCallVoicePrivacyOff(h);
}
/**
* Notifies when an incoming call rings.<p>
*
* Messages received from this:
* Message.obj will be an AsyncResult
* AsyncResult.userObj = obj
* AsyncResult.result = a Connection. <p>
*/
public void registerForIncomingRing(
Handler h, int what, Object obj) {
checkCorrectThread(h);
mIncomingRingRegistrants.addUnique(h, what, obj);
}
/**
* Unregisters for ring notification.
* Extraneous calls are tolerated silently
*/
public void unregisterForIncomingRing(Handler h) {
mIncomingRingRegistrants.remove(h);
}
/**
* Notifies when a voice connection has disconnected, either due to local
* or remote hangup or error.
*
* Messages received from this will have the following members:<p>
* <ul><li>Message.obj will be an AsyncResult</li>
* <li>AsyncResult.userObj = obj</li>
* <li>AsyncResult.result = a Connection object that is
* no longer connected.</li></ul>
*/
public void registerForDisconnect(Handler h, int what, Object obj) {
checkCorrectThread(h);
mDisconnectRegistrants.addUnique(h, what, obj);
}
/**
* Unregisters for voice disconnection notification.
* Extraneous calls are tolerated silently
*/
public void unregisterForDisconnect(Handler h) {
mDisconnectRegistrants.remove(h);
}
/**
* Register for notifications when a supplementary service attempt fails.
* Message.obj will contain an AsyncResult.
*
* @param h Handler that receives the notification message.
* @param what User-defined message code.
* @param obj User object.
*/
public void registerForSuppServiceFailed(Handler h, int what, Object obj) {
checkCorrectThread(h);
mSuppServiceFailedRegistrants.addUnique(h, what, obj);
}
/**
* Unregister for notifications when a supplementary service attempt fails.
* Extraneous calls are tolerated silently
*
* @param h Handler to be removed from the registrant list.
*/
public void unregisterForSuppServiceFailed(Handler h) {
mSuppServiceFailedRegistrants.remove(h);
}
/**
* Register for notifications of initiation of a new MMI code request.
* MMI codes for GSM are discussed in 3GPP TS 22.030.<p>
*
* Example: If Phone.dial is called with "*#31#", then the app will
* be notified here.<p>
*
* The returned <code>Message.obj</code> will contain an AsyncResult.
*
* <code>obj.result</code> will be an "MmiCode" object.
*/
public void registerForMmiInitiate(Handler h, int what, Object obj) {
checkCorrectThread(h);
mMmiRegistrants.addUnique(h, what, obj);
}
/**
* Unregisters for new MMI initiate notification.
* Extraneous calls are tolerated silently
*/
public void unregisterForMmiInitiate(Handler h) {
mMmiRegistrants.remove(h);
}
/**
* Register for notifications that an MMI request has completed
* its network activity and is in its final state. This may mean a state
* of COMPLETE, FAILED, or CANCELLED.
*
* <code>Message.obj</code> will contain an AsyncResult.
* <code>obj.result</code> will be an "MmiCode" object
*/
public void registerForMmiComplete(Handler h, int what, Object obj) {
checkCorrectThread(h);
mMmiCompleteRegistrants.addUnique(h, what, obj);
}
/**
* Unregisters for MMI complete notification.
* Extraneous calls are tolerated silently
*/
public void unregisterForMmiComplete(Handler h) {
checkCorrectThread(h);
mMmiCompleteRegistrants.remove(h);
}
/**
* Registration point for Sim records loaded
* @param h handler to notify
* @param what what code of message when delivered
* @param obj placed in Message.obj
*/
public void registerForSimRecordsLoaded(Handler h, int what, Object obj) {
}
/**
* Unregister for notifications for Sim records loaded
* @param h Handler to be removed from the registrant list.
*/
public void unregisterForSimRecordsLoaded(Handler h) {
}
/**
* Register for TTY mode change notifications from the network.
* Message.obj will contain an AsyncResult.
* AsyncResult.result will be an Integer containing new mode.
*
* @param h Handler that receives the notification message.
* @param what User-defined message code.
* @param obj User object.
*/
public void registerForTtyModeReceived(Handler h, int what, Object obj) {
}
/**
* Unregisters for TTY mode change notifications.
* Extraneous calls are tolerated silently
*
* @param h Handler to be removed from the registrant list.
*/
public void unregisterForTtyModeReceived(Handler h) {
}
/**
* Switches network selection mode to "automatic", re-scanning and
* re-selecting a network if appropriate.
*
* @param response The message to dispatch when the network selection
* is complete.
*
* @see #selectNetworkManually(OperatorInfo, boolean, android.os.Message)
*/
public void setNetworkSelectionModeAutomatic(Message response) {
Rlog.d(LOG_TAG, "setNetworkSelectionModeAutomatic, querying current mode");
// we don't want to do this unecesarily - it acutally causes
// the radio to repeate network selection and is costly
// first check if we're already in automatic mode
Message msg = obtainMessage(EVENT_CHECK_FOR_NETWORK_AUTOMATIC);
msg.obj = response;
mCi.getNetworkSelectionMode(msg);
}
private void onCheckForNetworkSelectionModeAutomatic(Message fromRil) {
AsyncResult ar = (AsyncResult)fromRil.obj;
Message response = (Message)ar.userObj;
boolean doAutomatic = true;
if (ar.exception == null && ar.result != null) {
try {
int[] modes = (int[])ar.result;
if (modes[0] == 0) {
// already confirmed to be in automatic mode - don't resend
doAutomatic = false;
}
} catch (Exception e) {
// send the setting on error
}
}
// wrap the response message in our own message along with
// an empty string (to indicate automatic selection) for the
// operator's id.
NetworkSelectMessage nsm = new NetworkSelectMessage();
nsm.message = response;
nsm.operatorNumeric = "";
nsm.operatorAlphaLong = "";
nsm.operatorAlphaShort = "";
if (doAutomatic) {
Message msg = obtainMessage(EVENT_SET_NETWORK_AUTOMATIC_COMPLETE, nsm);
mCi.setNetworkSelectionModeAutomatic(msg);
} else {
Rlog.d(LOG_TAG, "setNetworkSelectionModeAutomatic - already auto, ignoring");
ar.userObj = nsm;
handleSetSelectNetwork(ar);
}
updateSavedNetworkOperator(nsm);
}
/**
* Query the radio for the current network selection mode.
*
* Return values:
* 0 - automatic.
* 1 - manual.
*/
public void getNetworkSelectionMode(Message message) {
mCi.getNetworkSelectionMode(message);
}
public List<ClientRequestStats> getClientRequestStats() {
return mCi.getClientRequestStats();
}
/**
* Manually selects a network. <code>response</code> is
* dispatched when this is complete. <code>response.obj</code> will be
* an AsyncResult, and <code>response.obj.exception</code> will be non-null
* on failure.
*
* @see #setNetworkSelectionModeAutomatic(Message)
*/
public void selectNetworkManually(OperatorInfo network, boolean persistSelection,
Message response) {
// wrap the response message in our own message along with
// the operator's id.
NetworkSelectMessage nsm = new NetworkSelectMessage();
nsm.message = response;
nsm.operatorNumeric = network.getOperatorNumeric();
nsm.operatorAlphaLong = network.getOperatorAlphaLong();
nsm.operatorAlphaShort = network.getOperatorAlphaShort();
Message msg = obtainMessage(EVENT_SET_NETWORK_MANUAL_COMPLETE, nsm);
mCi.setNetworkSelectionModeManual(network.getOperatorNumeric(), msg);
if (persistSelection) {
updateSavedNetworkOperator(nsm);
} else {
clearSavedNetworkSelection();
}
}
/**
* Registration point for emergency call/callback mode start. Message.obj is AsyncResult and
* Message.obj.result will be Integer indicating start of call by value 1 or end of call by
* value 0
* @param h handler to notify
* @param what what code of message when delivered
* @param obj placed in Message.obj.userObj
*/
public void registerForEmergencyCallToggle(Handler h, int what, Object obj) {
Registrant r = new Registrant(h, what, obj);
mEmergencyCallToggledRegistrants.add(r);
}
public void unregisterForEmergencyCallToggle(Handler h) {
mEmergencyCallToggledRegistrants.remove(h);
}
private void updateSavedNetworkOperator(NetworkSelectMessage nsm) {
int subId = getSubId();
if (SubscriptionManager.isValidSubscriptionId(subId)) {
// open the shared preferences editor, and write the value.
// nsm.operatorNumeric is "" if we're in automatic.selection.
SharedPreferences sp = PreferenceManager.getDefaultSharedPreferences(getContext());
SharedPreferences.Editor editor = sp.edit();
editor.putString(NETWORK_SELECTION_KEY + subId, nsm.operatorNumeric);
editor.putString(NETWORK_SELECTION_NAME_KEY + subId, nsm.operatorAlphaLong);
editor.putString(NETWORK_SELECTION_SHORT_KEY + subId, nsm.operatorAlphaShort);
// commit and log the result.
if (!editor.commit()) {
Rlog.e(LOG_TAG, "failed to commit network selection preference");
}
} else {
Rlog.e(LOG_TAG, "Cannot update network selection preference due to invalid subId " +
subId);
}
}
/**
* Used to track the settings upon completion of the network change.
*/
private void handleSetSelectNetwork(AsyncResult ar) {
// look for our wrapper within the asyncresult, skip the rest if it
// is null.
if (!(ar.userObj instanceof NetworkSelectMessage)) {
Rlog.e(LOG_TAG, "unexpected result from user object.");
return;
}
NetworkSelectMessage nsm = (NetworkSelectMessage) ar.userObj;
// found the object, now we send off the message we had originally
// attached to the request.
if (nsm.message != null) {
AsyncResult.forMessage(nsm.message, ar.result, ar.exception);
nsm.message.sendToTarget();
}
}
/**
* Method to retrieve the saved operator from the Shared Preferences
*/
private OperatorInfo getSavedNetworkSelection() {
// open the shared preferences and search with our key.
SharedPreferences sp = PreferenceManager.getDefaultSharedPreferences(getContext());
String numeric = sp.getString(NETWORK_SELECTION_KEY + getSubId(), "");
String name = sp.getString(NETWORK_SELECTION_NAME_KEY + getSubId(), "");
String shrt = sp.getString(NETWORK_SELECTION_SHORT_KEY + getSubId(), "");
return new OperatorInfo(name, shrt, numeric);
}
/**
* Clears the saved network selection.
*/
private void clearSavedNetworkSelection() {
// open the shared preferences and search with our key.
PreferenceManager.getDefaultSharedPreferences(getContext()).edit().
remove(NETWORK_SELECTION_KEY + getSubId()).
remove(NETWORK_SELECTION_NAME_KEY + getSubId()).
remove(NETWORK_SELECTION_SHORT_KEY + getSubId()).commit();
}
/**
* Method to restore the previously saved operator id, or reset to
* automatic selection, all depending upon the value in the shared
* preferences.
*/
private void restoreSavedNetworkSelection(Message response) {
// retrieve the operator
OperatorInfo networkSelection = getSavedNetworkSelection();
// set to auto if the id is empty, otherwise select the network.
if (networkSelection == null || TextUtils.isEmpty(networkSelection.getOperatorNumeric())) {
setNetworkSelectionModeAutomatic(response);
} else {
selectNetworkManually(networkSelection, true, response);
}
}
/**
* Saves CLIR setting so that we can re-apply it as necessary
* (in case the RIL resets it across reboots).
*/
public void saveClirSetting(int commandInterfaceCLIRMode) {
// Open the shared preferences editor, and write the value.
SharedPreferences sp = PreferenceManager.getDefaultSharedPreferences(getContext());
SharedPreferences.Editor editor = sp.edit();
editor.putInt(CLIR_KEY + getPhoneId(), commandInterfaceCLIRMode);
Rlog.i(LOG_TAG, "saveClirSetting: " + CLIR_KEY + getPhoneId() + "=" +
commandInterfaceCLIRMode);
// Commit and log the result.
if (!editor.commit()) {
Rlog.e(LOG_TAG, "Failed to commit CLIR preference");
}
}
/**
* For unit tests; don't send notifications to "Phone"
* mailbox registrants if true.
*/
private void setUnitTestMode(boolean f) {
mUnitTestMode = f;
}
/**
* @return true If unit test mode is enabled
*/
public boolean getUnitTestMode() {
return mUnitTestMode;
}
/**
* To be invoked when a voice call Connection disconnects.
*
* Subclasses of Phone probably want to replace this with a
* version scoped to their packages
*/
protected void notifyDisconnectP(Connection cn) {
AsyncResult ar = new AsyncResult(null, cn, null);
mDisconnectRegistrants.notifyRegistrants(ar);
}
/**
* Register for ServiceState changed.
* Message.obj will contain an AsyncResult.
* AsyncResult.result will be a ServiceState instance
*/
public void registerForServiceStateChanged(
Handler h, int what, Object obj) {
checkCorrectThread(h);
mServiceStateRegistrants.add(h, what, obj);
}
/**
* Unregisters for ServiceStateChange notification.
* Extraneous calls are tolerated silently
*/
public void unregisterForServiceStateChanged(Handler h) {
mServiceStateRegistrants.remove(h);
}
/**
* Notifies when out-band ringback tone is needed.<p>
*
* Messages received from this:
* Message.obj will be an AsyncResult
* AsyncResult.userObj = obj
* AsyncResult.result = boolean, true to start play ringback tone
* and false to stop. <p>
*/
public void registerForRingbackTone(Handler h, int what, Object obj) {
mCi.registerForRingbackTone(h, what, obj);
}
/**
* Unregisters for ringback tone notification.
*/
public void unregisterForRingbackTone(Handler h) {
mCi.unregisterForRingbackTone(h);
}
/**
* Notifies when out-band on-hold tone is needed.<p>
*
* Messages received from this:
* Message.obj will be an AsyncResult
* AsyncResult.userObj = obj
* AsyncResult.result = boolean, true to start play on-hold tone
* and false to stop. <p>
*/
public void registerForOnHoldTone(Handler h, int what, Object obj) {
}
/**
* Unregisters for on-hold tone notification.
*/
public void unregisterForOnHoldTone(Handler h) {
}
/**
* Registers the handler to reset the uplink mute state to get
* uplink audio.
*/
public void registerForResendIncallMute(Handler h, int what, Object obj) {
mCi.registerForResendIncallMute(h, what, obj);
}
/**
* Unregisters for resend incall mute notifications.
*/
public void unregisterForResendIncallMute(Handler h) {
mCi.unregisterForResendIncallMute(h);
}
/**
* Enables or disables echo suppression.
*/
public void setEchoSuppressionEnabled() {
// no need for regular phone
}
/**
* Subclasses of Phone probably want to replace this with a
* version scoped to their packages
*/
protected void notifyServiceStateChangedP(ServiceState ss) {
AsyncResult ar = new AsyncResult(null, ss, null);
mServiceStateRegistrants.notifyRegistrants(ar);
mNotifier.notifyServiceState(this);
}
/**
* If this is a simulated phone interface, returns a SimulatedRadioControl.
* @return SimulatedRadioControl if this is a simulated interface;
* otherwise, null.
*/
public SimulatedRadioControl getSimulatedRadioControl() {
return mSimulatedRadioControl;
}
/**
* Verifies the current thread is the same as the thread originally
* used in the initialization of this instance. Throws RuntimeException
* if not.
*
* @exception RuntimeException if the current thread is not
* the thread that originally obtained this Phone instance.
*/
private void checkCorrectThread(Handler h) {
if (h.getLooper() != mLooper) {
throw new RuntimeException(
"com.android.internal.telephony.Phone must be used from within one thread");
}
}
/**
* Set the properties by matching the carrier string in
* a string-array resource
*/
private static Locale getLocaleFromCarrierProperties(Context ctx) {
String carrier = SystemProperties.get("ro.carrier");
if (null == carrier || 0 == carrier.length() || "unknown".equals(carrier)) {
return null;
}
CharSequence[] carrierLocales = ctx.getResources().getTextArray(R.array.carrier_properties);
for (int i = 0; i < carrierLocales.length; i+=3) {
String c = carrierLocales[i].toString();
if (carrier.equals(c)) {
return Locale.forLanguageTag(carrierLocales[i + 1].toString().replace('_', '-'));
}
}
return null;
}
/**
* Get current coarse-grained voice call state.
* Use {@link #registerForPreciseCallStateChanged(Handler, int, Object)
* registerForPreciseCallStateChanged()} for change notification. <p>
* If the phone has an active call and call waiting occurs,
* then the phone state is RINGING not OFFHOOK
* <strong>Note:</strong>
* This registration point provides notification of finer-grained
* changes.<p>
*/
public abstract PhoneConstants.State getState();
/**
* Retrieves the IccFileHandler of the Phone instance
*/
public IccFileHandler getIccFileHandler(){
UiccCardApplication uiccApplication = mUiccApplication.get();
IccFileHandler fh;
if (uiccApplication == null) {
Rlog.d(LOG_TAG, "getIccFileHandler: uiccApplication == null, return null");
fh = null;
} else {
fh = uiccApplication.getIccFileHandler();
}
Rlog.d(LOG_TAG, "getIccFileHandler: fh=" + fh);
return fh;
}
/*
* Retrieves the Handler of the Phone instance
*/
public Handler getHandler() {
return this;
}
/**
* Update the phone object if the voice radio technology has changed
*
* @param voiceRadioTech The new voice radio technology
*/
public void updatePhoneObject(int voiceRadioTech) {
}
/**
* Retrieves the ServiceStateTracker of the phone instance.
*/
public ServiceStateTracker getServiceStateTracker() {
return null;
}
/**
* Get call tracker
*/
public CallTracker getCallTracker() {
return null;
}
/**
* Update voice activation state
*/
public void setVoiceActivationState(int state) {
mSimActivationTracker.setVoiceActivationState(state);
}
/**
* Update data activation state
*/
public void setDataActivationState(int state) {
mSimActivationTracker.setDataActivationState(state);
}
/**
* Returns voice activation state
*/
public int getVoiceActivationState() {
return mSimActivationTracker.getVoiceActivationState();
}
/**
* Returns data activation state
*/
public int getDataActivationState() {
return mSimActivationTracker.getDataActivationState();
}
/**
* Update voice mail count related fields and notify listeners
*/
public void updateVoiceMail() {
Rlog.e(LOG_TAG, "updateVoiceMail() should be overridden");
}
public AppType getCurrentUiccAppType() {
UiccCardApplication currentApp = mUiccApplication.get();
if (currentApp != null) {
return currentApp.getType();
}
return AppType.APPTYPE_UNKNOWN;
}
/**
* Returns the ICC card interface for this phone, or null
* if not applicable to underlying technology.
*/
public IccCard getIccCard() {
return null;
//throw new Exception("getIccCard Shouldn't be called from Phone");
}
/**
* Retrieves the serial number of the ICC, if applicable. Returns only the decimal digits before
* the first hex digit in the ICC ID.
*/
public String getIccSerialNumber() {
IccRecords r = mIccRecords.get();
return (r != null) ? r.getIccId() : null;
}
/**
* Retrieves the full serial number of the ICC (including hex digits), if applicable.
*/
public String getFullIccSerialNumber() {
IccRecords r = mIccRecords.get();
return (r != null) ? r.getFullIccId() : null;
}
/**
* Returns SIM record load state. Use
* <code>getSimCard().registerForReady()</code> for change notification.
*
* @return true if records from the SIM have been loaded and are
* available (if applicable). If not applicable to the underlying
* technology, returns true as well.
*/
public boolean getIccRecordsLoaded() {
IccRecords r = mIccRecords.get();
return (r != null) ? r.getRecordsLoaded() : false;
}
/**
* @param workSource calling WorkSource
* @return all available cell information or null if none.
*/
public List<CellInfo> getAllCellInfo(WorkSource workSource) {
List<CellInfo> cellInfoList = getServiceStateTracker().getAllCellInfo(workSource);
return privatizeCellInfoList(cellInfoList);
}
public CellLocation getCellLocation() {
return getCellLocation(null);
}
/**
* Clear CDMA base station lat/long values if location setting is disabled.
* @param cellInfoList the original cell info list from the RIL
* @return the original list with CDMA lat/long cleared if necessary
*/
private List<CellInfo> privatizeCellInfoList(List<CellInfo> cellInfoList) {
if (cellInfoList == null) return null;
int mode = Settings.Secure.getInt(getContext().getContentResolver(),
Settings.Secure.LOCATION_MODE, Settings.Secure.LOCATION_MODE_OFF);
if (mode == Settings.Secure.LOCATION_MODE_OFF) {
ArrayList<CellInfo> privateCellInfoList = new ArrayList<CellInfo>(cellInfoList.size());
// clear lat/lon values for location privacy
for (CellInfo c : cellInfoList) {
if (c instanceof CellInfoCdma) {
CellInfoCdma cellInfoCdma = (CellInfoCdma) c;
CellIdentityCdma cellIdentity = cellInfoCdma.getCellIdentity();
CellIdentityCdma maskedCellIdentity = new CellIdentityCdma(
cellIdentity.getNetworkId(),
cellIdentity.getSystemId(),
cellIdentity.getBasestationId(),
Integer.MAX_VALUE, Integer.MAX_VALUE);
CellInfoCdma privateCellInfoCdma = new CellInfoCdma(cellInfoCdma);
privateCellInfoCdma.setCellIdentity(maskedCellIdentity);
privateCellInfoList.add(privateCellInfoCdma);
} else {
privateCellInfoList.add(c);
}
}
cellInfoList = privateCellInfoList;
}
return cellInfoList;
}
/**
* Sets the minimum time in milli-seconds between {@link PhoneStateListener#onCellInfoChanged
* PhoneStateListener.onCellInfoChanged} will be invoked.
*
* The default, 0, means invoke onCellInfoChanged when any of the reported
* information changes. Setting the value to INT_MAX(0x7fffffff) means never issue
* A onCellInfoChanged.
*
* @param rateInMillis the rate
* @param workSource calling WorkSource
*/
public void setCellInfoListRate(int rateInMillis, WorkSource workSource) {
mCi.setCellInfoListRate(rateInMillis, null, workSource);
}
/**
* Get voice message waiting indicator status. No change notification
* available on this interface. Use PhoneStateNotifier or similar instead.
*
* @return true if there is a voice message waiting
*/
public boolean getMessageWaitingIndicator() {
return mVmCount != 0;
}
private int getCallForwardingIndicatorFromSharedPref() {
int status = IccRecords.CALL_FORWARDING_STATUS_DISABLED;
int subId = getSubId();
if (SubscriptionManager.isValidSubscriptionId(subId)) {
SharedPreferences sp = PreferenceManager.getDefaultSharedPreferences(mContext);
status = sp.getInt(CF_STATUS + subId, IccRecords.CALL_FORWARDING_STATUS_UNKNOWN);
Rlog.d(LOG_TAG, "getCallForwardingIndicatorFromSharedPref: for subId " + subId + "= " +
status);
// Check for old preference if status is UNKNOWN for current subId. This part of the
// code is needed only when upgrading from M to N.
if (status == IccRecords.CALL_FORWARDING_STATUS_UNKNOWN) {
String subscriberId = sp.getString(CF_ID, null);
if (subscriberId != null) {
String currentSubscriberId = getSubscriberId();
if (subscriberId.equals(currentSubscriberId)) {
// get call forwarding status from preferences
status = sp.getInt(CF_STATUS, IccRecords.CALL_FORWARDING_STATUS_DISABLED);
setCallForwardingIndicatorInSharedPref(
status == IccRecords.CALL_FORWARDING_STATUS_ENABLED ? true : false);
Rlog.d(LOG_TAG, "getCallForwardingIndicatorFromSharedPref: " + status);
} else {
Rlog.d(LOG_TAG, "getCallForwardingIndicatorFromSharedPref: returning " +
"DISABLED as status for matching subscriberId not found");
}
// get rid of old preferences.
SharedPreferences.Editor editor = sp.edit();
editor.remove(CF_ID);
editor.remove(CF_STATUS);
editor.apply();
}
}
} else {
Rlog.e(LOG_TAG, "getCallForwardingIndicatorFromSharedPref: invalid subId " + subId);
}
return status;
}
private void setCallForwardingIndicatorInSharedPref(boolean enable) {
int status = enable ? IccRecords.CALL_FORWARDING_STATUS_ENABLED :
IccRecords.CALL_FORWARDING_STATUS_DISABLED;
int subId = getSubId();
Rlog.d(LOG_TAG, "setCallForwardingIndicatorInSharedPref: Storing status = " + status +
" in pref " + CF_STATUS + subId);
SharedPreferences sp = PreferenceManager.getDefaultSharedPreferences(mContext);
SharedPreferences.Editor editor = sp.edit();
editor.putInt(CF_STATUS + subId, status);
editor.apply();
}
public void setVoiceCallForwardingFlag(int line, boolean enable, String number) {
setCallForwardingIndicatorInSharedPref(enable);
IccRecords r = mIccRecords.get();
if (r != null) {
r.setVoiceCallForwardingFlag(line, enable, number);
}
}
protected void setVoiceCallForwardingFlag(IccRecords r, int line, boolean enable,
String number) {
setCallForwardingIndicatorInSharedPref(enable);
r.setVoiceCallForwardingFlag(line, enable, number);
}
/**
* Get voice call forwarding indicator status. No change notification
* available on this interface. Use PhoneStateNotifier or similar instead.
*
* @return true if there is a voice call forwarding
*/
public boolean getCallForwardingIndicator() {
if (getPhoneType() == PhoneConstants.PHONE_TYPE_CDMA) {
Rlog.e(LOG_TAG, "getCallForwardingIndicator: not possible in CDMA");
return false;
}
IccRecords r = mIccRecords.get();
int callForwardingIndicator = IccRecords.CALL_FORWARDING_STATUS_UNKNOWN;
if (r != null) {
callForwardingIndicator = r.getVoiceCallForwardingFlag();
}
if (callForwardingIndicator == IccRecords.CALL_FORWARDING_STATUS_UNKNOWN) {
callForwardingIndicator = getCallForwardingIndicatorFromSharedPref();
}
return (callForwardingIndicator == IccRecords.CALL_FORWARDING_STATUS_ENABLED);
}
public CarrierSignalAgent getCarrierSignalAgent() {
return mCarrierSignalAgent;
}
public CarrierActionAgent getCarrierActionAgent() {
return mCarrierActionAgent;
}
/**
* Query the CDMA roaming preference setting
*
* @param response is callback message to report one of CDMA_RM_*
*/
public void queryCdmaRoamingPreference(Message response) {
mCi.queryCdmaRoamingPreference(response);
}
/**
* Get current signal strength. No change notification available on this
* interface. Use <code>PhoneStateNotifier</code> or an equivalent.
* An ASU is 0-31 or -1 if unknown (for GSM, dBm = -113 - 2 * asu).
* The following special values are defined:</p>
* <ul><li>0 means "-113 dBm or less".</li>
* <li>31 means "-51 dBm or greater".</li></ul>
*
* @return Current signal strength as SignalStrength
*/
public SignalStrength getSignalStrength() {
ServiceStateTracker sst = getServiceStateTracker();
if (sst == null) {
return new SignalStrength();
} else {
return sst.getSignalStrength();
}
}
/**
* @return true, if the device is in a state where both voice and data
* are supported simultaneously. This can change based on location or network condition.
*/
public boolean isConcurrentVoiceAndDataAllowed() {
ServiceStateTracker sst = getServiceStateTracker();
return sst == null ? false : sst.isConcurrentVoiceAndDataAllowed();
}
/**
* Requests to set the CDMA roaming preference
* @param cdmaRoamingType one of CDMA_RM_*
* @param response is callback message
*/
public void setCdmaRoamingPreference(int cdmaRoamingType, Message response) {
mCi.setCdmaRoamingPreference(cdmaRoamingType, response);
}
/**
* Requests to set the CDMA subscription mode
* @param cdmaSubscriptionType one of CDMA_SUBSCRIPTION_*
* @param response is callback message
*/
public void setCdmaSubscription(int cdmaSubscriptionType, Message response) {
mCi.setCdmaSubscriptionSource(cdmaSubscriptionType, response);
}
/**
* Requests to set the preferred network type for searching and registering
* (CS/PS domain, RAT, and operation mode)
* @param networkType one of NT_*_TYPE
* @param response is callback message
*/
public void setPreferredNetworkType(int networkType, Message response) {
// Only set preferred network types to that which the modem supports
int modemRaf = getRadioAccessFamily();
int rafFromType = RadioAccessFamily.getRafFromNetworkType(networkType);
if (modemRaf == RadioAccessFamily.RAF_UNKNOWN
|| rafFromType == RadioAccessFamily.RAF_UNKNOWN) {
Rlog.d(LOG_TAG, "setPreferredNetworkType: Abort, unknown RAF: "
+ modemRaf + " " + rafFromType);
if (response != null) {
CommandException ex;
ex = new CommandException(CommandException.Error.GENERIC_FAILURE);
AsyncResult.forMessage(response, null, ex);
response.sendToTarget();
}
return;
}
int filteredRaf = (rafFromType & modemRaf);
int filteredType = RadioAccessFamily.getNetworkTypeFromRaf(filteredRaf);
Rlog.d(LOG_TAG, "setPreferredNetworkType: networkType = " + networkType
+ " modemRaf = " + modemRaf
+ " rafFromType = " + rafFromType
+ " filteredType = " + filteredType);
mCi.setPreferredNetworkType(filteredType, response);
}
/**
* Query the preferred network type setting
*
* @param response is callback message to report one of NT_*_TYPE
*/
public void getPreferredNetworkType(Message response) {
mCi.getPreferredNetworkType(response);
}
/**
* Gets the default SMSC address.
*
* @param result Callback message contains the SMSC address.
*/
public void getSmscAddress(Message result) {
mCi.getSmscAddress(result);
}
/**
* Sets the default SMSC address.
*
* @param address new SMSC address
* @param result Callback message is empty on completion
*/
public void setSmscAddress(String address, Message result) {
mCi.setSmscAddress(address, result);
}
/**
* setTTYMode
* sets a TTY mode option.
* @param ttyMode is a one of the following:
* - {@link com.android.internal.telephony.Phone#TTY_MODE_OFF}
* - {@link com.android.internal.telephony.Phone#TTY_MODE_FULL}
* - {@link com.android.internal.telephony.Phone#TTY_MODE_HCO}
* - {@link com.android.internal.telephony.Phone#TTY_MODE_VCO}
* @param onComplete a callback message when the action is completed
*/
public void setTTYMode(int ttyMode, Message onComplete) {
mCi.setTTYMode(ttyMode, onComplete);
}
/**
* setUiTTYMode
* sets a TTY mode option.
* @param ttyMode is a one of the following:
* - {@link com.android.internal.telephony.Phone#TTY_MODE_OFF}
* - {@link com.android.internal.telephony.Phone#TTY_MODE_FULL}
* - {@link com.android.internal.telephony.Phone#TTY_MODE_HCO}
* - {@link com.android.internal.telephony.Phone#TTY_MODE_VCO}
* @param onComplete a callback message when the action is completed
*/
public void setUiTTYMode(int uiTtyMode, Message onComplete) {
Rlog.d(LOG_TAG, "unexpected setUiTTYMode method call");
}
/**
* queryTTYMode
* query the status of the TTY mode
*
* @param onComplete a callback message when the action is completed.
*/
public void queryTTYMode(Message onComplete) {
mCi.queryTTYMode(onComplete);
}
/**
* Enable or disable enhanced Voice Privacy (VP). If enhanced VP is
* disabled, normal VP is enabled.
*
* @param enable whether true or false to enable or disable.
* @param onComplete a callback message when the action is completed.
*/
public void enableEnhancedVoicePrivacy(boolean enable, Message onComplete) {
}
/**
* Get the currently set Voice Privacy (VP) mode.
*
* @param onComplete a callback message when the action is completed.
*/
public void getEnhancedVoicePrivacy(Message onComplete) {
}
/**
* Assign a specified band for RF configuration.
*
* @param bandMode one of BM_*_BAND
* @param response is callback message
*/
public void setBandMode(int bandMode, Message response) {
mCi.setBandMode(bandMode, response);
}
/**
* Query the list of band mode supported by RF.
*
* @param response is callback message
* ((AsyncResult)response.obj).result is an int[] where int[0] is
* the size of the array and the rest of each element representing
* one available BM_*_BAND
*/
public void queryAvailableBandMode(Message response) {
mCi.queryAvailableBandMode(response);
}
/**
* Invokes RIL_REQUEST_OEM_HOOK_RAW on RIL implementation.
*
* @param data The data for the request.
* @param response <strong>On success</strong>,
* (byte[])(((AsyncResult)response.obj).result)
* <strong>On failure</strong>,
* (((AsyncResult)response.obj).result) == null and
* (((AsyncResult)response.obj).exception) being an instance of
* com.android.internal.telephony.gsm.CommandException
*
* @see #invokeOemRilRequestRaw(byte[], android.os.Message)
* @deprecated OEM needs a vendor-extension hal and their apps should use that instead
*/
@Deprecated
public void invokeOemRilRequestRaw(byte[] data, Message response) {
mCi.invokeOemRilRequestRaw(data, response);
}
/**
* Invokes RIL_REQUEST_OEM_HOOK_Strings on RIL implementation.
*
* @param strings The strings to make available as the request data.
* @param response <strong>On success</strong>, "response" bytes is
* made available as:
* (String[])(((AsyncResult)response.obj).result).
* <strong>On failure</strong>,
* (((AsyncResult)response.obj).result) == null and
* (((AsyncResult)response.obj).exception) being an instance of
* com.android.internal.telephony.gsm.CommandException
*
* @see #invokeOemRilRequestStrings(java.lang.String[], android.os.Message)
* @deprecated OEM needs a vendor-extension hal and their apps should use that instead
*/
@Deprecated
public void invokeOemRilRequestStrings(String[] strings, Message response) {
mCi.invokeOemRilRequestStrings(strings, response);
}
/**
* Read one of the NV items defined in {@link RadioNVItems} / {@code ril_nv_items.h}.
* Used for device configuration by some CDMA operators.
*
* @param itemID the ID of the item to read
* @param response callback message with the String response in the obj field
*/
public void nvReadItem(int itemID, Message response) {
mCi.nvReadItem(itemID, response);
}
/**
* Write one of the NV items defined in {@link RadioNVItems} / {@code ril_nv_items.h}.
* Used for device configuration by some CDMA operators.
*
* @param itemID the ID of the item to read
* @param itemValue the value to write, as a String
* @param response Callback message.
*/
public void nvWriteItem(int itemID, String itemValue, Message response) {
mCi.nvWriteItem(itemID, itemValue, response);
}
/**
* Update the CDMA Preferred Roaming List (PRL) in the radio NV storage.
* Used for device configuration by some CDMA operators.
*
* @param preferredRoamingList byte array containing the new PRL
* @param response Callback message.
*/
public void nvWriteCdmaPrl(byte[] preferredRoamingList, Message response) {
mCi.nvWriteCdmaPrl(preferredRoamingList, response);
}
/**
* Perform the specified type of NV config reset. The radio will be taken offline
* and the device must be rebooted after erasing the NV. Used for device
* configuration by some CDMA operators.
*
* @param resetType reset type: 1: reload NV reset, 2: erase NV reset, 3: factory NV reset
* @param response Callback message.
*/
public void nvResetConfig(int resetType, Message response) {
mCi.nvResetConfig(resetType, response);
}
public void notifyDataActivity() {
mNotifier.notifyDataActivity(this);
}
private void notifyMessageWaitingIndicator() {
// Do not notify voice mail waiting if device doesn't support voice
if (!mIsVoiceCapable)
return;
// This function is added to send the notification to DefaultPhoneNotifier.
mNotifier.notifyMessageWaitingChanged(this);
}
public void notifyDataConnection(String reason, String apnType,
PhoneConstants.DataState state) {
mNotifier.notifyDataConnection(this, reason, apnType, state);
}
public void notifyDataConnection(String reason, String apnType) {
mNotifier.notifyDataConnection(this, reason, apnType, getDataConnectionState(apnType));
}
public void notifyDataConnection(String reason) {
String types[] = getActiveApnTypes();
for (String apnType : types) {
mNotifier.notifyDataConnection(this, reason, apnType, getDataConnectionState(apnType));
}
}
public void notifyOtaspChanged(int otaspMode) {
mNotifier.notifyOtaspChanged(this, otaspMode);
}
public void notifyVoiceActivationStateChanged(int state) {
mNotifier.notifyVoiceActivationStateChanged(this, state);
}
public void notifyDataActivationStateChanged(int state) {
mNotifier.notifyDataActivationStateChanged(this, state);
}
public void notifySignalStrength() {
mNotifier.notifySignalStrength(this);
}
public void notifyCellInfo(List<CellInfo> cellInfo) {
mNotifier.notifyCellInfo(this, privatizeCellInfoList(cellInfo));
}
public void notifyVoLteServiceStateChanged(VoLteServiceState lteState) {
mNotifier.notifyVoLteServiceStateChanged(this, lteState);
}
/**
* @return true if a mobile originating emergency call is active
*/
public boolean isInEmergencyCall() {
return false;
}
// This property is used to handle phone process crashes, and is the same for CDMA and IMS
// phones
protected static boolean getInEcmMode() {
return SystemProperties.getBoolean(TelephonyProperties.PROPERTY_INECM_MODE, false);
}
/**
* @return {@code true} if we are in emergency call back mode. This is a period where the phone
* should be using as little power as possible and be ready to receive an incoming call from the
* emergency operator.
*/
public boolean isInEcm() {
return mIsPhoneInEcmState;
}
public void setIsInEcm(boolean isInEcm) {
setSystemProperty(TelephonyProperties.PROPERTY_INECM_MODE, String.valueOf(isInEcm));
mIsPhoneInEcmState = isInEcm;
}
private static int getVideoState(Call call) {
int videoState = VideoProfile.STATE_AUDIO_ONLY;
Connection conn = call.getEarliestConnection();
if (conn != null) {
videoState = conn.getVideoState();
}
return videoState;
}
/**
* Determines if the specified call currently is or was at some point a video call, or if it is
* a conference call.
* @param call The call.
* @return {@code true} if the call is or was a video call or is a conference call,
* {@code false} otherwise.
*/
private boolean isVideoCallOrConference(Call call) {
if (call.isMultiparty()) {
return true;
}
boolean isDowngradedVideoCall = false;
if (call instanceof ImsPhoneCall) {
ImsPhoneCall imsPhoneCall = (ImsPhoneCall) call;
ImsCall imsCall = imsPhoneCall.getImsCall();
return imsCall != null && (imsCall.isVideoCall() ||
imsCall.wasVideoCall());
}
return isDowngradedVideoCall;
}
/**
* @return {@code true} if an IMS video call or IMS conference is present, false otherwise.
*/
public boolean isImsVideoCallOrConferencePresent() {
boolean isPresent = false;
if (mImsPhone != null) {
isPresent = isVideoCallOrConference(mImsPhone.getForegroundCall()) ||
isVideoCallOrConference(mImsPhone.getBackgroundCall()) ||
isVideoCallOrConference(mImsPhone.getRingingCall());
}
Rlog.d(LOG_TAG, "isImsVideoCallOrConferencePresent: " + isPresent);
return isPresent;
}
/**
* Return a numerical identifier for the phone radio interface.
* @return PHONE_TYPE_XXX as defined above.
*/
public abstract int getPhoneType();
/**
* Returns unread voicemail count. This count is shown when the voicemail
* notification is expanded.<p>
*/
public int getVoiceMessageCount(){
return mVmCount;
}
/** sets the voice mail count of the phone and notifies listeners. */
public void setVoiceMessageCount(int countWaiting) {
mVmCount = countWaiting;
int subId = getSubId();
if (SubscriptionManager.isValidSubscriptionId(subId)) {
Rlog.d(LOG_TAG, "setVoiceMessageCount: Storing Voice Mail Count = " + countWaiting +
" for mVmCountKey = " + VM_COUNT + subId + " in preferences.");
SharedPreferences sp = PreferenceManager.getDefaultSharedPreferences(mContext);
SharedPreferences.Editor editor = sp.edit();
editor.putInt(VM_COUNT + subId, countWaiting);
editor.apply();
} else {
Rlog.e(LOG_TAG, "setVoiceMessageCount in sharedPreference: invalid subId " + subId);
}
// notify listeners of voice mail
notifyMessageWaitingIndicator();
}
/** gets the voice mail count from preferences */
protected int getStoredVoiceMessageCount() {
int countVoiceMessages = 0;
int subId = getSubId();
if (SubscriptionManager.isValidSubscriptionId(subId)) {
int invalidCount = -2; //-1 is not really invalid. It is used for unknown number of vm
SharedPreferences sp = PreferenceManager.getDefaultSharedPreferences(mContext);
int countFromSP = sp.getInt(VM_COUNT + subId, invalidCount);
if (countFromSP != invalidCount) {
countVoiceMessages = countFromSP;
Rlog.d(LOG_TAG, "getStoredVoiceMessageCount: from preference for subId " + subId +
"= " + countVoiceMessages);
} else {
// Check for old preference if count not found for current subId. This part of the
// code is needed only when upgrading from M to N.
String subscriberId = sp.getString(VM_ID, null);
if (subscriberId != null) {
String currentSubscriberId = getSubscriberId();
if (currentSubscriberId != null && currentSubscriberId.equals(subscriberId)) {
// get voice mail count from preferences
countVoiceMessages = sp.getInt(VM_COUNT, 0);
setVoiceMessageCount(countVoiceMessages);
Rlog.d(LOG_TAG, "getStoredVoiceMessageCount: from preference = " +
countVoiceMessages);
} else {
Rlog.d(LOG_TAG, "getStoredVoiceMessageCount: returning 0 as count for " +
"matching subscriberId not found");
}
// get rid of old preferences.
SharedPreferences.Editor editor = sp.edit();
editor.remove(VM_ID);
editor.remove(VM_COUNT);
editor.apply();
}
}
} else {
Rlog.e(LOG_TAG, "getStoredVoiceMessageCount: invalid subId " + subId);
}
return countVoiceMessages;
}
/**
* send secret dialer codes to launch arbitrary activities.
* an Intent is started with the android_secret_code://<code> URI.
*
* @param code stripped version of secret code without *#*# prefix and #*#* suffix
*/
public void sendDialerSpecialCode(String code) {
if (!TextUtils.isEmpty(code)) {
Intent intent = new Intent(TelephonyIntents.SECRET_CODE_ACTION,
Uri.parse("android_secret_code://" + code));
intent.addFlags(Intent.FLAG_RECEIVER_INCLUDE_BACKGROUND);
mContext.sendBroadcast(intent);
}
}
/**
* Returns the CDMA ERI icon index to display
*/
public int getCdmaEriIconIndex() {
return -1;
}
/**
* Returns the CDMA ERI icon mode,
* 0 - ON
* 1 - FLASHING
*/
public int getCdmaEriIconMode() {
return -1;
}
/**
* Returns the CDMA ERI text,
*/
public String getCdmaEriText() {
return "GSM nw, no ERI";
}
/**
* Retrieves the MIN for CDMA phones.
*/
public String getCdmaMin() {
return null;
}
/**
* Check if subscription data has been assigned to mMin
*
* return true if MIN info is ready; false otherwise.
*/
public boolean isMinInfoReady() {
return false;
}
/**
* Retrieves PRL Version for CDMA phones
*/
public String getCdmaPrlVersion(){
return null;
}
/**
* send burst DTMF tone, it can send the string as single character or multiple character
* ignore if there is no active call or not valid digits string.
* Valid digit means only includes characters ISO-LATIN characters 0-9, *, #
* The difference between sendDtmf and sendBurstDtmf is sendDtmf only sends one character,
* this api can send single character and multiple character, also, this api has response
* back to caller.
*
* @param dtmfString is string representing the dialing digit(s) in the active call
* @param on the DTMF ON length in milliseconds, or 0 for default
* @param off the DTMF OFF length in milliseconds, or 0 for default
* @param onComplete is the callback message when the action is processed by BP
*
*/
public void sendBurstDtmf(String dtmfString, int on, int off, Message onComplete) {
}
/**
* Sets an event to be fired when the telephony system processes
* a post-dial character on an outgoing call.<p>
*
* Messages of type <code>what</code> will be sent to <code>h</code>.
* The <code>obj</code> field of these Message's will be instances of
* <code>AsyncResult</code>. <code>Message.obj.result</code> will be
* a Connection object.<p>
*
* Message.arg1 will be the post dial character being processed,
* or 0 ('\0') if end of string.<p>
*
* If Connection.getPostDialState() == WAIT,
* the application must call
* {@link com.android.internal.telephony.Connection#proceedAfterWaitChar()
* Connection.proceedAfterWaitChar()} or
* {@link com.android.internal.telephony.Connection#cancelPostDial()
* Connection.cancelPostDial()}
* for the telephony system to continue playing the post-dial
* DTMF sequence.<p>
*
* If Connection.getPostDialState() == WILD,
* the application must call
* {@link com.android.internal.telephony.Connection#proceedAfterWildChar
* Connection.proceedAfterWildChar()}
* or
* {@link com.android.internal.telephony.Connection#cancelPostDial()
* Connection.cancelPostDial()}
* for the telephony system to continue playing the
* post-dial DTMF sequence.<p>
*
* Only one post dial character handler may be set. <p>
* Calling this method with "h" equal to null unsets this handler.<p>
*/
public void setOnPostDialCharacter(Handler h, int what, Object obj) {
mPostDialHandler = new Registrant(h, what, obj);
}
public Registrant getPostDialHandler() {
return mPostDialHandler;
}
/**
* request to exit emergency call back mode
* the caller should use setOnECMModeExitResponse
* to receive the emergency callback mode exit response
*/
public void exitEmergencyCallbackMode() {
}
/**
* Register for notifications when CDMA OTA Provision status change
*
* @param h Handler that receives the notification message.
* @param what User-defined message code.
* @param obj User object.
*/
public void registerForCdmaOtaStatusChange(Handler h, int what, Object obj) {
}
/**
* Unregister for notifications when CDMA OTA Provision status change
* @param h Handler to be removed from the registrant list.
*/
public void unregisterForCdmaOtaStatusChange(Handler h) {
}
/**
* Registration point for subscription info ready
* @param h handler to notify
* @param what what code of message when delivered
* @param obj placed in Message.obj
*/
public void registerForSubscriptionInfoReady(Handler h, int what, Object obj) {
}
/**
* Unregister for notifications for subscription info
* @param h Handler to be removed from the registrant list.
*/
public void unregisterForSubscriptionInfoReady(Handler h) {
}
/**
* Returns true if OTA Service Provisioning needs to be performed.
*/
public boolean needsOtaServiceProvisioning() {
return false;
}
/**
* this decides if the dial number is OTA(Over the air provision) number or not
* @param dialStr is string representing the dialing digit(s)
* @return true means the dialStr is OTA number, and false means the dialStr is not OTA number
*/
public boolean isOtaSpNumber(String dialStr) {
return false;
}
/**
* Register for notifications when CDMA call waiting comes
*
* @param h Handler that receives the notification message.
* @param what User-defined message code.
* @param obj User object.
*/
public void registerForCallWaiting(Handler h, int what, Object obj){
}
/**
* Unegister for notifications when CDMA Call waiting comes
* @param h Handler to be removed from the registrant list.
*/
public void unregisterForCallWaiting(Handler h){
}
/**
* Registration point for Ecm timer reset
* @param h handler to notify
* @param what user-defined message code
* @param obj placed in Message.obj
*/
public void registerForEcmTimerReset(Handler h, int what, Object obj) {
}
/**
* Unregister for notification for Ecm timer reset
* @param h Handler to be removed from the registrant list.
*/
public void unregisterForEcmTimerReset(Handler h) {
}
/**
* Register for signal information notifications from the network.
* Message.obj will contain an AsyncResult.
* AsyncResult.result will be a SuppServiceNotification instance.
*
* @param h Handler that receives the notification message.
* @param what User-defined message code.
* @param obj User object.
*/
public void registerForSignalInfo(Handler h, int what, Object obj) {
mCi.registerForSignalInfo(h, what, obj);
}
/**
* Unregisters for signal information notifications.
* Extraneous calls are tolerated silently
*
* @param h Handler to be removed from the registrant list.
*/
public void unregisterForSignalInfo(Handler h) {
mCi.unregisterForSignalInfo(h);
}
/**
* Register for display information notifications from the network.
* Message.obj will contain an AsyncResult.
* AsyncResult.result will be a SuppServiceNotification instance.
*
* @param h Handler that receives the notification message.
* @param what User-defined message code.
* @param obj User object.
*/
public void registerForDisplayInfo(Handler h, int what, Object obj) {
mCi.registerForDisplayInfo(h, what, obj);
}
/**
* Unregisters for display information notifications.
* Extraneous calls are tolerated silently
*
* @param h Handler to be removed from the registrant list.
*/
public void unregisterForDisplayInfo(Handler h) {
mCi.unregisterForDisplayInfo(h);
}
/**
* Register for CDMA number information record notification from the network.
* Message.obj will contain an AsyncResult.
* AsyncResult.result will be a CdmaInformationRecords.CdmaNumberInfoRec
* instance.
*
* @param h Handler that receives the notification message.
* @param what User-defined message code.
* @param obj User object.
*/
public void registerForNumberInfo(Handler h, int what, Object obj) {
mCi.registerForNumberInfo(h, what, obj);
}
/**
* Unregisters for number information record notifications.
* Extraneous calls are tolerated silently
*
* @param h Handler to be removed from the registrant list.
*/
public void unregisterForNumberInfo(Handler h) {
mCi.unregisterForNumberInfo(h);
}
/**
* Register for CDMA redirected number information record notification
* from the network.
* Message.obj will contain an AsyncResult.
* AsyncResult.result will be a CdmaInformationRecords.CdmaRedirectingNumberInfoRec
* instance.
*
* @param h Handler that receives the notification message.
* @param what User-defined message code.
* @param obj User object.
*/
public void registerForRedirectedNumberInfo(Handler h, int what, Object obj) {
mCi.registerForRedirectedNumberInfo(h, what, obj);
}
/**
* Unregisters for redirected number information record notification.
* Extraneous calls are tolerated silently
*
* @param h Handler to be removed from the registrant list.
*/
public void unregisterForRedirectedNumberInfo(Handler h) {
mCi.unregisterForRedirectedNumberInfo(h);
}
/**
* Register for CDMA line control information record notification
* from the network.
* Message.obj will contain an AsyncResult.
* AsyncResult.result will be a CdmaInformationRecords.CdmaLineControlInfoRec
* instance.
*
* @param h Handler that receives the notification message.
* @param what User-defined message code.
* @param obj User object.
*/
public void registerForLineControlInfo(Handler h, int what, Object obj) {
mCi.registerForLineControlInfo(h, what, obj);
}
/**
* Unregisters for line control information notifications.
* Extraneous calls are tolerated silently
*
* @param h Handler to be removed from the registrant list.
*/
public void unregisterForLineControlInfo(Handler h) {
mCi.unregisterForLineControlInfo(h);
}
/**
* Register for CDMA T53 CLIR information record notifications
* from the network.
* Message.obj will contain an AsyncResult.
* AsyncResult.result will be a CdmaInformationRecords.CdmaT53ClirInfoRec
* instance.
*
* @param h Handler that receives the notification message.
* @param what User-defined message code.
* @param obj User object.
*/
public void registerFoT53ClirlInfo(Handler h, int what, Object obj) {
mCi.registerFoT53ClirlInfo(h, what, obj);
}
/**
* Unregisters for T53 CLIR information record notification
* Extraneous calls are tolerated silently
*
* @param h Handler to be removed from the registrant list.
*/
public void unregisterForT53ClirInfo(Handler h) {
mCi.unregisterForT53ClirInfo(h);
}
/**
* Register for CDMA T53 audio control information record notifications
* from the network.
* Message.obj will contain an AsyncResult.
* AsyncResult.result will be a CdmaInformationRecords.CdmaT53AudioControlInfoRec
* instance.
*
* @param h Handler that receives the notification message.
* @param what User-defined message code.
* @param obj User object.
*/
public void registerForT53AudioControlInfo(Handler h, int what, Object obj) {
mCi.registerForT53AudioControlInfo(h, what, obj);
}
/**
* Unregisters for T53 audio control information record notifications.
* Extraneous calls are tolerated silently
*
* @param h Handler to be removed from the registrant list.
*/
public void unregisterForT53AudioControlInfo(Handler h) {
mCi.unregisterForT53AudioControlInfo(h);
}
/**
* registers for exit emergency call back mode request response
*
* @param h Handler that receives the notification message.
* @param what User-defined message code.
* @param obj User object.
*/
public void setOnEcbModeExitResponse(Handler h, int what, Object obj){
}
/**
* Unregisters for exit emergency call back mode request response
*
* @param h Handler to be removed from the registrant list.
*/
public void unsetOnEcbModeExitResponse(Handler h){
}
/**
* Register for radio off or not available
*
* @param h Handler that receives the notification message.
* @param what User-defined message code.
* @param obj User object.
*/
public void registerForRadioOffOrNotAvailable(Handler h, int what, Object obj) {
mRadioOffOrNotAvailableRegistrants.addUnique(h, what, obj);
}
/**
* Unregisters for radio off or not available
*
* @param h Handler to be removed from the registrant list.
*/
public void unregisterForRadioOffOrNotAvailable(Handler h) {
mRadioOffOrNotAvailableRegistrants.remove(h);
}
/**
* Returns an array of string identifiers for the APN types serviced by the
* currently active.
* @return The string array will always return at least one entry, Phone.APN_TYPE_DEFAULT.
* TODO: Revisit if we always should return at least one entry.
*/
public String[] getActiveApnTypes() {
if (mDcTracker == null) {
return null;
}
return mDcTracker.getActiveApnTypes();
}
/**
* Check if TETHER_DUN_APN setting or config_tether_apndata includes APN that matches
* current operator.
* @return true if there is a matching DUN APN.
*/
public boolean hasMatchedTetherApnSetting() {
return mDcTracker.hasMatchedTetherApnSetting();
}
/**
* Returns string for the active APN host.
* @return type as a string or null if none.
*/
public String getActiveApnHost(String apnType) {
return mDcTracker.getActiveApnString(apnType);
}
/**
* Return the LinkProperties for the named apn or null if not available
*/
public LinkProperties getLinkProperties(String apnType) {
return mDcTracker.getLinkProperties(apnType);
}
/**
* Return the NetworkCapabilities
*/
public NetworkCapabilities getNetworkCapabilities(String apnType) {
return mDcTracker.getNetworkCapabilities(apnType);
}
/**
* Report on whether data connectivity is allowed.
*/
public boolean isDataAllowed() {
return ((mDcTracker != null) && (mDcTracker.isDataAllowed(null)));
}
/**
* Action set from carrier signalling broadcast receivers to enable/disable metered apns.
*/
public void carrierActionSetMeteredApnsEnabled(boolean enabled) {
mCarrierActionAgent.carrierActionSetMeteredApnsEnabled(enabled);
}
/**
* Action set from carrier signalling broadcast receivers to enable/disable radio
*/
public void carrierActionSetRadioEnabled(boolean enabled) {
mCarrierActionAgent.carrierActionSetRadioEnabled(enabled);
}
/**
* Action set from carrier app to start/stop reporting default network condition.
*/
public void carrierActionReportDefaultNetworkStatus(boolean report) {
mCarrierActionAgent.carrierActionReportDefaultNetworkStatus(report);
}
/**
* Notify registrants of a new ringing Connection.
* Subclasses of Phone probably want to replace this with a
* version scoped to their packages
*/
public void notifyNewRingingConnectionP(Connection cn) {
if (!mIsVoiceCapable)
return;
AsyncResult ar = new AsyncResult(null, cn, null);
mNewRingingConnectionRegistrants.notifyRegistrants(ar);
}
/**
* Notify registrants of a new unknown connection.
*/
public void notifyUnknownConnectionP(Connection cn) {
mUnknownConnectionRegistrants.notifyResult(cn);
}
/**
* Notify registrants if phone is video capable.
*/
public void notifyForVideoCapabilityChanged(boolean isVideoCallCapable) {
// Cache the current video capability so that we don't lose the information.
mIsVideoCapable = isVideoCallCapable;
AsyncResult ar = new AsyncResult(null, isVideoCallCapable, null);
mVideoCapabilityChangedRegistrants.notifyRegistrants(ar);
}
/**
* Notify registrants of a RING event.
*/
private void notifyIncomingRing() {
if (!mIsVoiceCapable)
return;
AsyncResult ar = new AsyncResult(null, this, null);
mIncomingRingRegistrants.notifyRegistrants(ar);
}
/**
* Send the incoming call Ring notification if conditions are right.
*/
private void sendIncomingCallRingNotification(int token) {
if (mIsVoiceCapable && !mDoesRilSendMultipleCallRing &&
(token == mCallRingContinueToken)) {
Rlog.d(LOG_TAG, "Sending notifyIncomingRing");
notifyIncomingRing();
sendMessageDelayed(
obtainMessage(EVENT_CALL_RING_CONTINUE, token, 0), mCallRingDelay);
} else {
Rlog.d(LOG_TAG, "Ignoring ring notification request,"
+ " mDoesRilSendMultipleCallRing=" + mDoesRilSendMultipleCallRing
+ " token=" + token
+ " mCallRingContinueToken=" + mCallRingContinueToken
+ " mIsVoiceCapable=" + mIsVoiceCapable);
}
}
/**
* TODO: Adding a function for each property is not good.
* A fucntion of type getPhoneProp(propType) where propType is an
* enum of GSM+CDMA+LTE props would be a better approach.
*
* Get "Restriction of menu options for manual PLMN selection" bit
* status from EF_CSP data, this belongs to "Value Added Services Group".
* @return true if this bit is set or EF_CSP data is unavailable,
* false otherwise
*/
public boolean isCspPlmnEnabled() {
return false;
}
/**
* Return an interface to retrieve the ISIM records for IMS, if available.
* @return the interface to retrieve the ISIM records, or null if not supported
*/
public IsimRecords getIsimRecords() {
Rlog.e(LOG_TAG, "getIsimRecords() is only supported on LTE devices");
return null;
}
/**
* Retrieves the MSISDN from the UICC. For GSM/UMTS phones, this is equivalent to
* {@link #getLine1Number()}. For CDMA phones, {@link #getLine1Number()} returns
* the MDN, so this method is provided to return the MSISDN on CDMA/LTE phones.
*/
public String getMsisdn() {
return null;
}
/**
* Get the current for the default apn DataState. No change notification
* exists at this interface -- use
* {@link android.telephony.PhoneStateListener} instead.
*/
public PhoneConstants.DataState getDataConnectionState() {
return getDataConnectionState(PhoneConstants.APN_TYPE_DEFAULT);
}
public void notifyCallForwardingIndicator() {
}
public void notifyDataConnectionFailed(String reason, String apnType) {
mNotifier.notifyDataConnectionFailed(this, reason, apnType);
}
public void notifyPreciseDataConnectionFailed(String reason, String apnType, String apn,
String failCause) {
mNotifier.notifyPreciseDataConnectionFailed(this, reason, apnType, apn, failCause);
}
/**
* Return if the current radio is LTE on CDMA. This
* is a tri-state return value as for a period of time
* the mode may be unknown.
*
* @return {@link PhoneConstants#LTE_ON_CDMA_UNKNOWN}, {@link PhoneConstants#LTE_ON_CDMA_FALSE}
* or {@link PhoneConstants#LTE_ON_CDMA_TRUE}
*/
public int getLteOnCdmaMode() {
return mCi.getLteOnCdmaMode();
}
/**
* Sets the SIM voice message waiting indicator records.
* @param line GSM Subscriber Profile Number, one-based. Only '1' is supported
* @param countWaiting The number of messages waiting, if known. Use
* -1 to indicate that an unknown number of
* messages are waiting
*/
public void setVoiceMessageWaiting(int line, int countWaiting) {
// This function should be overridden by class GsmCdmaPhone.
Rlog.e(LOG_TAG, "Error! This function should never be executed, inactive Phone.");
}
/**
* Gets the USIM service table from the UICC, if present and available.
* @return an interface to the UsimServiceTable record, or null if not available
*/
public UsimServiceTable getUsimServiceTable() {
IccRecords r = mIccRecords.get();
return (r != null) ? r.getUsimServiceTable() : null;
}
/**
* Gets the Uicc card corresponding to this phone.
* @return the UiccCard object corresponding to the phone ID.
*/
public UiccCard getUiccCard() {
return mUiccController.getUiccCard(mPhoneId);
}
/**
* Get P-CSCF address from PCO after data connection is established or modified.
* @param apnType the apnType, "ims" for IMS APN, "emergency" for EMERGENCY APN
*/
public String[] getPcscfAddress(String apnType) {
return mDcTracker.getPcscfAddress(apnType);
}
/**
* Set IMS registration state
*/
public void setImsRegistrationState(boolean registered) {
}
/**
* Return an instance of a IMS phone
*/
public Phone getImsPhone() {
return mImsPhone;
}
/**
* Returns Carrier specific information that will be used to encrypt the IMSI and IMPI.
* @param keyType whether the key is being used for WLAN or ePDG.
* @return ImsiEncryptionInfo which includes the Key Type, the Public Key
* {@link java.security.PublicKey} and the Key Identifier.
* The keyIdentifier This is used by the server to help it locate the private key to
* decrypt the permanent identity.
*/
public ImsiEncryptionInfo getCarrierInfoForImsiEncryption(int keyType) {
return null;
}
/**
* Sets the carrier information needed to encrypt the IMSI and IMPI.
* @param imsiEncryptionInfo Carrier specific information that will be used to encrypt the
* IMSI and IMPI. This includes the Key type, the Public key
* {@link java.security.PublicKey} and the Key identifier.
*/
public void setCarrierInfoForImsiEncryption(ImsiEncryptionInfo imsiEncryptionInfo) {
return;
}
/**
* Return if UT capability of ImsPhone is enabled or not
*/
public boolean isUtEnabled() {
if (mImsPhone != null) {
return mImsPhone.isUtEnabled();
}
return false;
}
public void dispose() {
}
private void updateImsPhone() {
Rlog.d(LOG_TAG, "updateImsPhone"
+ " mImsServiceReady=" + mImsServiceReady);
if (mImsServiceReady && (mImsPhone == null)) {
mImsPhone = PhoneFactory.makeImsPhone(mNotifier, this);
CallManager.getInstance().registerPhone(mImsPhone);
mImsPhone.registerForSilentRedial(
this, EVENT_INITIATE_SILENT_REDIAL, null);
} else if (!mImsServiceReady && (mImsPhone != null)) {
CallManager.getInstance().unregisterPhone(mImsPhone);
mImsPhone.unregisterForSilentRedial(this);
mImsPhone.dispose();
// Potential GC issue if someone keeps a reference to ImsPhone.
// However: this change will make sure that such a reference does
// not access functions through NULL pointer.
//mImsPhone.removeReferences();
mImsPhone = null;
}
}
/**
* Dials a number.
*
* @param dialString The number to dial.
* @param uusInfo The UUSInfo.
* @param videoState The video state for the call.
* @param intentExtras Extras from the original CALL intent.
* @return The Connection.
* @throws CallStateException
*/
protected Connection dialInternal(
String dialString, UUSInfo uusInfo, int videoState, Bundle intentExtras)
throws CallStateException {
// dialInternal shall be overriden by GsmCdmaPhone
return null;
}
/*
* Returns the subscription id.
*/
public int getSubId() {
return SubscriptionController.getInstance().getSubIdUsingPhoneId(mPhoneId);
}
/**
* Returns the phone id.
*/
public int getPhoneId() {
return mPhoneId;
}
/**
* Return the service state of mImsPhone if it is STATE_IN_SERVICE
* otherwise return the current voice service state
*/
public int getVoicePhoneServiceState() {
Phone imsPhone = mImsPhone;
if (imsPhone != null
&& imsPhone.getServiceState().getState() == ServiceState.STATE_IN_SERVICE) {
return ServiceState.STATE_IN_SERVICE;
}
return getServiceState().getState();
}
/**
* Override the service provider name and the operator name for the current ICCID.
*/
public boolean setOperatorBrandOverride(String brand) {
return false;
}
/**
* Override the roaming indicator for the current ICCID.
*/
public boolean setRoamingOverride(List<String> gsmRoamingList,
List<String> gsmNonRoamingList, List<String> cdmaRoamingList,
List<String> cdmaNonRoamingList) {
String iccId = getIccSerialNumber();
if (TextUtils.isEmpty(iccId)) {
return false;
}
setRoamingOverrideHelper(gsmRoamingList, GSM_ROAMING_LIST_OVERRIDE_PREFIX, iccId);
setRoamingOverrideHelper(gsmNonRoamingList, GSM_NON_ROAMING_LIST_OVERRIDE_PREFIX, iccId);
setRoamingOverrideHelper(cdmaRoamingList, CDMA_ROAMING_LIST_OVERRIDE_PREFIX, iccId);
setRoamingOverrideHelper(cdmaNonRoamingList, CDMA_NON_ROAMING_LIST_OVERRIDE_PREFIX, iccId);
// Refresh.
ServiceStateTracker tracker = getServiceStateTracker();
if (tracker != null) {
tracker.pollState();
}
return true;
}
private void setRoamingOverrideHelper(List<String> list, String prefix, String iccId) {
SharedPreferences.Editor spEditor =
PreferenceManager.getDefaultSharedPreferences(mContext).edit();
String key = prefix + iccId;
if (list == null || list.isEmpty()) {
spEditor.remove(key).commit();
} else {
spEditor.putStringSet(key, new HashSet<String>(list)).commit();
}
}
public boolean isMccMncMarkedAsRoaming(String mccMnc) {
return getRoamingOverrideHelper(GSM_ROAMING_LIST_OVERRIDE_PREFIX, mccMnc);
}
public boolean isMccMncMarkedAsNonRoaming(String mccMnc) {
return getRoamingOverrideHelper(GSM_NON_ROAMING_LIST_OVERRIDE_PREFIX, mccMnc);
}
public boolean isSidMarkedAsRoaming(int SID) {
return getRoamingOverrideHelper(CDMA_ROAMING_LIST_OVERRIDE_PREFIX,
Integer.toString(SID));
}
public boolean isSidMarkedAsNonRoaming(int SID) {
return getRoamingOverrideHelper(CDMA_NON_ROAMING_LIST_OVERRIDE_PREFIX,
Integer.toString(SID));
}
/**
* Query the IMS Registration Status.
*
* @return true if IMS is Registered
*/
public boolean isImsRegistered() {
Phone imsPhone = mImsPhone;
boolean isImsRegistered = false;
if (imsPhone != null) {
isImsRegistered = imsPhone.isImsRegistered();
} else {
ServiceStateTracker sst = getServiceStateTracker();
if (sst != null) {
isImsRegistered = sst.isImsRegistered();
}
}
Rlog.d(LOG_TAG, "isImsRegistered =" + isImsRegistered);
return isImsRegistered;
}
/**
* Get Wifi Calling Feature Availability
*/
public boolean isWifiCallingEnabled() {
Phone imsPhone = mImsPhone;
boolean isWifiCallingEnabled = false;
if (imsPhone != null) {
isWifiCallingEnabled = imsPhone.isWifiCallingEnabled();
}
Rlog.d(LOG_TAG, "isWifiCallingEnabled =" + isWifiCallingEnabled);
return isWifiCallingEnabled;
}
/**
* Get Volte Feature Availability
*/
public boolean isVolteEnabled() {
Phone imsPhone = mImsPhone;
boolean isVolteEnabled = false;
if (imsPhone != null) {
isVolteEnabled = imsPhone.isVolteEnabled();
}
Rlog.d(LOG_TAG, "isImsRegistered =" + isVolteEnabled);
return isVolteEnabled;
}
private boolean getRoamingOverrideHelper(String prefix, String key) {
String iccId = getIccSerialNumber();
if (TextUtils.isEmpty(iccId) || TextUtils.isEmpty(key)) {
return false;
}
SharedPreferences sp = PreferenceManager.getDefaultSharedPreferences(mContext);
Set<String> value = sp.getStringSet(prefix + iccId, null);
if (value == null) {
return false;
}
return value.contains(key);
}
/**
* Is Radio Present on the device and is it accessible
*/
public boolean isRadioAvailable() {
return mCi.getRadioState().isAvailable();
}
/**
* Is Radio turned on
*/
public boolean isRadioOn() {
return mCi.getRadioState().isOn();
}
/**
* shutdown Radio gracefully
*/
public void shutdownRadio() {
getServiceStateTracker().requestShutdown();
}
/**
* Return true if the device is shutting down.
*/
public boolean isShuttingDown() {
return getServiceStateTracker().isDeviceShuttingDown();
}
/**
* Set phone radio capability
*
* @param rc the phone radio capability defined in
* RadioCapability. It's a input object used to transfer parameter to logic modem
* @param response Callback message.
*/
public void setRadioCapability(RadioCapability rc, Message response) {
mCi.setRadioCapability(rc, response);
}
/**
* Get phone radio access family
*
* @return a bit mask to identify the radio access family.
*/
public int getRadioAccessFamily() {
final RadioCapability rc = getRadioCapability();
return (rc == null ? RadioAccessFamily.RAF_UNKNOWN : rc.getRadioAccessFamily());
}
/**
* Get the associated data modems Id.
*
* @return a String containing the id of the data modem
*/
public String getModemUuId() {
final RadioCapability rc = getRadioCapability();
return (rc == null ? "" : rc.getLogicalModemUuid());
}
/**
* Get phone radio capability
*
* @return the capability of the radio defined in RadioCapability
*/
public RadioCapability getRadioCapability() {
return mRadioCapability.get();
}
/**
* The RadioCapability has changed. This comes up from the RIL and is called when radios first
* become available or after a capability switch. The flow is we use setRadioCapability to
* request a change with the RIL and get an UNSOL response with the new data which gets set
* here.
*
* @param rc the phone radio capability currently in effect for this phone.
*/
public void radioCapabilityUpdated(RadioCapability rc) {
// Called when radios first become available or after a capability switch
// Update the cached value
mRadioCapability.set(rc);
if (SubscriptionManager.isValidSubscriptionId(getSubId())) {
sendSubscriptionSettings(true);
}
}
public void sendSubscriptionSettings(boolean restoreNetworkSelection) {
// Send settings down
int type = PhoneFactory.calculatePreferredNetworkType(mContext, getSubId());
setPreferredNetworkType(type, null);
if (restoreNetworkSelection) {
restoreSavedNetworkSelection(null);
}
}
protected void setPreferredNetworkTypeIfSimLoaded() {
int subId = getSubId();
if (SubscriptionManager.isValidSubscriptionId(subId)) {
int type = PhoneFactory.calculatePreferredNetworkType(mContext, getSubId());
setPreferredNetworkType(type, null);
}
}
/**
* Registers the handler when phone radio capability is changed.
*
* @param h Handler for notification message.
* @param what User-defined message code.
* @param obj User object.
*/
public void registerForRadioCapabilityChanged(Handler h, int what, Object obj) {
mCi.registerForRadioCapabilityChanged(h, what, obj);
}
/**
* Unregister for notifications when phone radio type and access technology is changed.
*
* @param h Handler to be removed from the registrant list.
*/
public void unregisterForRadioCapabilityChanged(Handler h) {
mCi.unregisterForRadioCapabilityChanged(this);
}
/**
* Determines if IMS is enabled for call.
*
* @return {@code true} if IMS calling is enabled.
*/
public boolean isImsUseEnabled() {
boolean imsUseEnabled =
((ImsManager.isVolteEnabledByPlatform(mContext) &&
ImsManager.isEnhanced4gLteModeSettingEnabledByUser(mContext)) ||
(ImsManager.isWfcEnabledByPlatform(mContext) &&
ImsManager.isWfcEnabledByUser(mContext)) &&
ImsManager.isNonTtyOrTtyOnVolteEnabled(mContext));
return imsUseEnabled;
}
/**
* Determines if the connection to IMS services are available yet.
* @return {@code true} if the connection to IMS services are available.
*/
public boolean isImsAvailable() {
if (mImsPhone == null) {
return false;
}
return mImsPhone.isImsAvailable();
}
/**
* Determines if video calling is enabled for the phone.
*
* @return {@code true} if video calling is enabled, {@code false} otherwise.
*/
public boolean isVideoEnabled() {
Phone imsPhone = mImsPhone;
if (imsPhone != null) {
return imsPhone.isVideoEnabled();
}
return false;
}
/**
* Returns the status of Link Capacity Estimation (LCE) service.
*/
public int getLceStatus() {
return mLceStatus;
}
/**
* Returns the modem activity information
*/
public void getModemActivityInfo(Message response) {
mCi.getModemActivityInfo(response);
}
/**
* Starts LCE service after radio becomes available.
* LCE service state may get destroyed on the modem when radio becomes unavailable.
*/
public void startLceAfterRadioIsAvailable() {
mCi.startLceService(DEFAULT_REPORT_INTERVAL_MS, LCE_PULL_MODE,
obtainMessage(EVENT_CONFIG_LCE));
}
/**
* Set allowed carriers
*/
public void setAllowedCarriers(List<CarrierIdentifier> carriers, Message response) {
mCi.setAllowedCarriers(carriers, response);
}
/**
* Get allowed carriers
*/
public void getAllowedCarriers(Message response) {
mCi.getAllowedCarriers(response);
}
/**
* Returns the locale based on the carrier properties (such as {@code ro.carrier}) and
* SIM preferences.
*/
public Locale getLocaleFromSimAndCarrierPrefs() {
final IccRecords records = mIccRecords.get();
if (records != null && records.getSimLanguage() != null) {
return new Locale(records.getSimLanguage());
}
return getLocaleFromCarrierProperties(mContext);
}
public void updateDataConnectionTracker() {
mDcTracker.update();
}
public void setInternalDataEnabled(boolean enable, Message onCompleteMsg) {
mDcTracker.setInternalDataEnabled(enable, onCompleteMsg);
}
public boolean updateCurrentCarrierInProvider() {
return false;
}
public void registerForAllDataDisconnected(Handler h, int what, Object obj) {
mDcTracker.registerForAllDataDisconnected(h, what, obj);
}
public void unregisterForAllDataDisconnected(Handler h) {
mDcTracker.unregisterForAllDataDisconnected(h);
}
public void registerForDataEnabledChanged(Handler h, int what, Object obj) {
mDcTracker.registerForDataEnabledChanged(h, what, obj);
}
public void unregisterForDataEnabledChanged(Handler h) {
mDcTracker.unregisterForDataEnabledChanged(h);
}
public IccSmsInterfaceManager getIccSmsInterfaceManager(){
return null;
}
protected boolean isMatchGid(String gid) {
String gid1 = getGroupIdLevel1();
int gidLength = gid.length();
if (!TextUtils.isEmpty(gid1) && (gid1.length() >= gidLength)
&& gid1.substring(0, gidLength).equalsIgnoreCase(gid)) {
return true;
}
return false;
}
public static void checkWfcWifiOnlyModeBeforeDial(Phone imsPhone, Context context)
throws CallStateException {
if (imsPhone == null || !imsPhone.isWifiCallingEnabled()) {
boolean wfcWiFiOnly = (ImsManager.isWfcEnabledByPlatform(context) &&
ImsManager.isWfcEnabledByUser(context) &&
(ImsManager.getWfcMode(context) ==
ImsConfig.WfcModeFeatureValueConstants.WIFI_ONLY));
if (wfcWiFiOnly) {
throw new CallStateException(
CallStateException.ERROR_OUT_OF_SERVICE,
"WFC Wi-Fi Only Mode: IMS not registered");
}
}
}
public void startRingbackTone() {
}
public void stopRingbackTone() {
}
public void callEndCleanupHandOverCallIfAny() {
}
public void cancelUSSD() {
}
/**
* Set boolean broadcastEmergencyCallStateChanges
*/
public abstract void setBroadcastEmergencyCallStateChanges(boolean broadcast);
public abstract void sendEmergencyCallStateChange(boolean callActive);
/**
* This function returns the parent phone of the current phone. It is applicable
* only for IMS phone (function is overridden by ImsPhone). For others the phone
* object itself is returned.
* @return
*/
public Phone getDefaultPhone() {
return this;
}
/**
* Get aggregated video call data usage since boot.
* Permissions android.Manifest.permission.READ_NETWORK_USAGE_HISTORY is required.
*
* @param perUidStats True if requesting data usage per uid, otherwise overall usage.
* @return Snapshot of video call data usage
*/
public NetworkStats getVtDataUsage(boolean perUidStats) {
if (mImsPhone == null) return null;
return mImsPhone.getVtDataUsage(perUidStats);
}
/**
* Policy control of data connection. Usually used when we hit data limit.
* @param enabled True if enabling the data, otherwise disabling.
*/
public void setPolicyDataEnabled(boolean enabled) {
mDcTracker.setPolicyDataEnabled(enabled);
}
/**
* SIP URIs aliased to the current subscriber given by the IMS implementation.
* Applicable only on IMS; used in absence of line1number.
* @return array of SIP URIs aliased to the current subscriber
*/
public Uri[] getCurrentSubscriberUris() {
return null;
}
public AppSmsManager getAppSmsManager() {
return mAppSmsManager;
}
/**
* Set SIM card power state.
* @param state State of SIM (power down, power up, pass through)
* - {@link android.telephony.TelephonyManager#CARD_POWER_DOWN}
* - {@link android.telephony.TelephonyManager#CARD_POWER_UP}
* - {@link android.telephony.TelephonyManager#CARD_POWER_UP_PASS_THROUGH}
**/
public void setSimPowerState(int state) {
mCi.setSimCardPower(state, null);
}
public void dump(FileDescriptor fd, PrintWriter pw, String[] args) {
pw.println("Phone: subId=" + getSubId());
pw.println(" mPhoneId=" + mPhoneId);
pw.println(" mCi=" + mCi);
pw.println(" mDnsCheckDisabled=" + mDnsCheckDisabled);
pw.println(" mDcTracker=" + mDcTracker);
pw.println(" mDoesRilSendMultipleCallRing=" + mDoesRilSendMultipleCallRing);
pw.println(" mCallRingContinueToken=" + mCallRingContinueToken);
pw.println(" mCallRingDelay=" + mCallRingDelay);
pw.println(" mIsVoiceCapable=" + mIsVoiceCapable);
pw.println(" mIccRecords=" + mIccRecords.get());
pw.println(" mUiccApplication=" + mUiccApplication.get());
pw.println(" mSmsStorageMonitor=" + mSmsStorageMonitor);
pw.println(" mSmsUsageMonitor=" + mSmsUsageMonitor);
pw.flush();
pw.println(" mLooper=" + mLooper);
pw.println(" mContext=" + mContext);
pw.println(" mNotifier=" + mNotifier);
pw.println(" mSimulatedRadioControl=" + mSimulatedRadioControl);
pw.println(" mUnitTestMode=" + mUnitTestMode);
pw.println(" isDnsCheckDisabled()=" + isDnsCheckDisabled());
pw.println(" getUnitTestMode()=" + getUnitTestMode());
pw.println(" getState()=" + getState());
pw.println(" getIccSerialNumber()=" + getIccSerialNumber());
pw.println(" getIccRecordsLoaded()=" + getIccRecordsLoaded());
pw.println(" getMessageWaitingIndicator()=" + getMessageWaitingIndicator());
pw.println(" getCallForwardingIndicator()=" + getCallForwardingIndicator());
pw.println(" isInEmergencyCall()=" + isInEmergencyCall());
pw.flush();
pw.println(" isInEcm()=" + isInEcm());
pw.println(" getPhoneName()=" + getPhoneName());
pw.println(" getPhoneType()=" + getPhoneType());
pw.println(" getVoiceMessageCount()=" + getVoiceMessageCount());
pw.println(" getActiveApnTypes()=" + getActiveApnTypes());
pw.println(" needsOtaServiceProvisioning=" + needsOtaServiceProvisioning());
pw.flush();
pw.println("++++++++++++++++++++++++++++++++");
if (mImsPhone != null) {
try {
mImsPhone.dump(fd, pw, args);
} catch (Exception e) {
e.printStackTrace();
}
pw.flush();
pw.println("++++++++++++++++++++++++++++++++");
}
if (mDcTracker != null) {
try {
mDcTracker.dump(fd, pw, args);
} catch (Exception e) {
e.printStackTrace();
}
pw.flush();
pw.println("++++++++++++++++++++++++++++++++");
}
if (getServiceStateTracker() != null) {
try {
getServiceStateTracker().dump(fd, pw, args);
} catch (Exception e) {
e.printStackTrace();
}
pw.flush();
pw.println("++++++++++++++++++++++++++++++++");
}
if (mCarrierActionAgent != null) {
try {
mCarrierActionAgent.dump(fd, pw, args);
} catch (Exception e) {
e.printStackTrace();
}
pw.flush();
pw.println("++++++++++++++++++++++++++++++++");
}
if (mCarrierSignalAgent != null) {
try {
mCarrierSignalAgent.dump(fd, pw, args);
} catch (Exception e) {
e.printStackTrace();
}
pw.flush();
pw.println("++++++++++++++++++++++++++++++++");
}
if (getCallTracker() != null) {
try {
getCallTracker().dump(fd, pw, args);
} catch (Exception e) {
e.printStackTrace();
}
pw.flush();
pw.println("++++++++++++++++++++++++++++++++");
}
if (mSimActivationTracker != null) {
try {
mSimActivationTracker.dump(fd, pw, args);
} catch (Exception e) {
e.printStackTrace();
}
pw.flush();
pw.println("++++++++++++++++++++++++++++++++");
}
if (mCi != null && mCi instanceof RIL) {
try {
((RIL)mCi).dump(fd, pw, args);
} catch (Exception e) {
e.printStackTrace();
}
pw.flush();
pw.println("++++++++++++++++++++++++++++++++");
}
}
}