/*
 * Copyright (c) 2013 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.ims;

import static android.telephony.ims.ProvisioningManager.KEY_VOIMS_OPT_IN_STATUS;
import static android.telephony.ims.feature.MmTelFeature.MmTelCapabilities.CAPABILITY_TYPE_UT;
import static android.telephony.ims.feature.MmTelFeature.MmTelCapabilities.CAPABILITY_TYPE_VIDEO;
import static android.telephony.ims.feature.MmTelFeature.MmTelCapabilities.CAPABILITY_TYPE_VOICE;
import static android.telephony.ims.feature.RcsFeature.RcsImsCapabilities.CAPABILITY_TYPE_PRESENCE_UCE;
import static android.telephony.ims.stub.ImsRegistrationImplBase.REGISTRATION_TECH_IWLAN;
import static android.telephony.ims.stub.ImsRegistrationImplBase.REGISTRATION_TECH_LTE;

import android.annotation.NonNull;
import android.app.PendingIntent;
import android.compat.annotation.UnsupportedAppUsage;
import android.content.ContentResolver;
import android.content.Context;
import android.content.pm.PackageManager;
import android.os.Build;
import android.os.Message;
import android.os.PersistableBundle;
import android.os.RemoteException;
import android.os.ServiceSpecificException;
import android.os.SystemProperties;
import android.provider.Settings;
import android.telecom.TelecomManager;
import android.telephony.AccessNetworkConstants;
import android.telephony.BinderCacheManager;
import android.telephony.CarrierConfigManager;
import android.telephony.ServiceState;
import android.telephony.SubscriptionManager;
import android.telephony.TelephonyFrameworkInitializer;
import android.telephony.TelephonyManager;
import android.telephony.ims.ImsCallProfile;
import android.telephony.ims.ImsCallSession;
import android.telephony.ims.ImsMmTelManager;
import android.telephony.ims.ImsReasonInfo;
import android.telephony.ims.ImsService;
import android.telephony.ims.MediaQualityStatus;
import android.telephony.ims.MediaThreshold;
import android.telephony.ims.ProvisioningManager;
import android.telephony.ims.RegistrationManager;
import android.telephony.ims.RtpHeaderExtensionType;
import android.telephony.ims.SrvccCall;
import android.telephony.ims.aidl.IImsCapabilityCallback;
import android.telephony.ims.aidl.IImsConfig;
import android.telephony.ims.aidl.IImsConfigCallback;
import android.telephony.ims.aidl.IImsMmTelFeature;
import android.telephony.ims.aidl.IImsRegistration;
import android.telephony.ims.aidl.IImsRegistrationCallback;
import android.telephony.ims.aidl.IImsSmsListener;
import android.telephony.ims.aidl.ISipTransport;
import android.telephony.ims.aidl.ISrvccStartedCallback;
import android.telephony.ims.feature.CapabilityChangeRequest;
import android.telephony.ims.feature.ImsFeature;
import android.telephony.ims.feature.MmTelFeature;
import android.telephony.ims.stub.ImsCallSessionImplBase;
import android.telephony.ims.stub.ImsRegistrationImplBase;
import android.util.SparseArray;

import com.android.ims.internal.IImsCallSession;
import com.android.ims.internal.IImsServiceFeatureCallback;
import com.android.internal.annotations.VisibleForTesting;
import com.android.internal.telephony.flags.Flags;
import com.android.internal.telephony.ITelephony;
import com.android.telephony.Rlog;

import java.io.FileDescriptor;
import java.io.PrintWriter;
import java.util.ArrayList;
import java.util.Arrays;
import java.util.Set;
import java.util.concurrent.BlockingQueue;
import java.util.concurrent.CountDownLatch;
import java.util.concurrent.Executor;
import java.util.concurrent.Executors;
import java.util.concurrent.LinkedBlockingDeque;
import java.util.concurrent.TimeUnit;
import java.util.concurrent.atomic.AtomicReference;
import java.util.function.Consumer;

/**
 * Provides APIs for MMTEL IMS services, such as initiating IMS calls, and provides access to
 * the operator's IMS network. This class is the starting point for any IMS MMTEL actions.
 * You can acquire an instance of it with {@link #getInstance getInstance()}.
 * {Use {@link RcsFeatureManager} for RCS services}.
 * For internal use ONLY! Use {@link ImsMmTelManager} instead.
 * @hide
 */
public class ImsManager implements FeatureUpdates {

    /*
     * Debug flag to override configuration flag
     */
    public static final String PROPERTY_DBG_VOLTE_AVAIL_OVERRIDE = "persist.dbg.volte_avail_ovr";
    public static final int PROPERTY_DBG_VOLTE_AVAIL_OVERRIDE_DEFAULT = 0;
    public static final String PROPERTY_DBG_VT_AVAIL_OVERRIDE = "persist.dbg.vt_avail_ovr";
    public static final int PROPERTY_DBG_VT_AVAIL_OVERRIDE_DEFAULT = 0;
    public static final String PROPERTY_DBG_WFC_AVAIL_OVERRIDE = "persist.dbg.wfc_avail_ovr";
    public static final int PROPERTY_DBG_WFC_AVAIL_OVERRIDE_DEFAULT = 0;
    public static final String PROPERTY_DBG_ALLOW_IMS_OFF_OVERRIDE = "persist.dbg.allow_ims_off";
    public static final int PROPERTY_DBG_ALLOW_IMS_OFF_OVERRIDE_DEFAULT = 0;

    /**
     * The result code to be sent back with the incoming call {@link PendingIntent}.
     * @see #open(MmTelFeature.Listener)
     */
    public static final int INCOMING_CALL_RESULT_CODE = 101;

    /**
     * Key to retrieve the call ID from an incoming call intent. No longer used, see
     * {@link ImsCallSessionImplBase#getCallId()}.
     * @deprecated Not used in the framework, keeping around symbol to not break old vendor
     * components.
     */
    @Deprecated
    public static final String EXTRA_CALL_ID = "android:imsCallID";

    /**
     * Action to broadcast when ImsService is up.
     * Internal use only.
     * @deprecated
     * @hide
     */
    public static final String ACTION_IMS_SERVICE_UP =
            "com.android.ims.IMS_SERVICE_UP";

    /**
     * Action to broadcast when ImsService is down.
     * Internal use only.
     * @deprecated
     * @hide
     */
    public static final String ACTION_IMS_SERVICE_DOWN =
            "com.android.ims.IMS_SERVICE_DOWN";

    /**
     * Action to broadcast when ImsService registration fails.
     * Internal use only.
     * @hide
     * @deprecated use {@link android.telephony.ims.ImsManager#ACTION_WFC_IMS_REGISTRATION_ERROR}
     * instead.
     */
    @Deprecated
    public static final String ACTION_IMS_REGISTRATION_ERROR =
            android.telephony.ims.ImsManager.ACTION_WFC_IMS_REGISTRATION_ERROR;

    /**
     * Part of the ACTION_IMS_SERVICE_UP or _DOWN intents.
     * A long value; the phone ID corresponding to the IMS service coming up or down.
     * Internal use only.
     * @hide
     */
    public static final String EXTRA_PHONE_ID = "android:phone_id";

    /**
     * Action for the incoming call intent for the Phone app.
     * Internal use only.
     * @hide
     */
    public static final String ACTION_IMS_INCOMING_CALL =
            "com.android.ims.IMS_INCOMING_CALL";

    /**
     * Part of the ACTION_IMS_INCOMING_CALL intents.
     * An integer value; service identifier obtained from {@link ImsManager#open}.
     * Internal use only.
     * @hide
     * @deprecated Not used in the system, keeping around to not break old vendor components.
     */
    @Deprecated
    public static final String EXTRA_SERVICE_ID = "android:imsServiceId";

    /**
     * Part of the ACTION_IMS_INCOMING_CALL intents.
     * An boolean value; Flag to indicate that the incoming call is a normal call or call for USSD.
     * The value "true" indicates that the incoming call is for USSD.
     * Internal use only.
     * @deprecated Keeping around to not break old vendor components. Use
     * {@link MmTelFeature#EXTRA_IS_USSD} instead.
     * @hide
     */
    public static final String EXTRA_USSD = "android:ussd";

    /**
     * Part of the ACTION_IMS_INCOMING_CALL intents.
     * A boolean value; Flag to indicate whether the call is an unknown
     * dialing call. Such calls are originated by sending commands (like
     * AT commands) directly to modem without Android involvement.
     * Even though they are not incoming calls, they are propagated
     * to Phone app using same ACTION_IMS_INCOMING_CALL intent.
     * Internal use only.
     * @deprecated Keeping around to not break old vendor components. Use
     * {@link MmTelFeature#EXTRA_IS_UNKNOWN_CALL} instead.
     * @hide
     */
    public static final String EXTRA_IS_UNKNOWN_CALL = "android:isUnknown";

    private static final int SUBINFO_PROPERTY_FALSE = 0;

    private static final int SYSTEM_PROPERTY_NOT_SET = -1;

    // -1 indicates a subscriptionProperty value that is never set.
    private static final int SUB_PROPERTY_NOT_INITIALIZED = -1;

    private static final String TAG = "ImsManager";
    private static final boolean DBG = true;

    private static final int RESPONSE_WAIT_TIME_MS = 3000;

    private static final int[] LOCAL_IMS_CONFIG_KEYS = {
            KEY_VOIMS_OPT_IN_STATUS
    };

    /**
     * Create a Lazy Executor that is not instantiated for this instance unless it is used. This
     * is to stop threads from being started on ImsManagers that are created to do simple tasks.
     */
    private static class LazyExecutor implements Executor {
        private Executor mExecutor;

        @Override
        public void execute(Runnable runnable) {
            startExecutorIfNeeded();
            mExecutor.execute(runnable);
        }

        private synchronized void startExecutorIfNeeded() {
            if (mExecutor != null) return;
            mExecutor = Executors.newSingleThreadExecutor();
        }
    }

    @VisibleForTesting
    public interface MmTelFeatureConnectionFactory {
        MmTelFeatureConnection create(Context context, int phoneId, int subId,
                IImsMmTelFeature feature, IImsConfig c, IImsRegistration r, ISipTransport s);
    }

    @VisibleForTesting
    public interface SettingsProxy {
        /** @see Settings.Secure#getInt(ContentResolver, String, int) */
        int getSecureIntSetting(ContentResolver cr, String name, int def);
        /** @see Settings.Secure#putInt(ContentResolver, String, int) */
        boolean putSecureIntSetting(ContentResolver cr, String name, int value);
    }

    @VisibleForTesting
    public interface SubscriptionManagerProxy {
        boolean isValidSubscriptionId(int subId);
        int getSubscriptionId(int slotIndex);
        int getDefaultVoicePhoneId();
        int getIntegerSubscriptionProperty(int subId, String propKey, int defValue);
        void setSubscriptionProperty(int subId, String propKey, String propValue);
        int[] getActiveSubscriptionIdList();
    }

    // Default implementations, which is mocked for testing
    private static class DefaultSettingsProxy implements SettingsProxy {
        @Override
        public int getSecureIntSetting(ContentResolver cr, String name, int def) {
            return Settings.Secure.getInt(cr, name, def);
        }

        @Override
        public boolean putSecureIntSetting(ContentResolver cr, String name, int value) {
            return Settings.Secure.putInt(cr, name, value);
        }
    }

    // Default implementation which is mocked to make static dependency validation easier.
    private static class DefaultSubscriptionManagerProxy implements SubscriptionManagerProxy {

        private Context mContext;

        public DefaultSubscriptionManagerProxy(Context context) {
            mContext = context;
        }

        @Override
        public boolean isValidSubscriptionId(int subId) {
            return SubscriptionManager.isValidSubscriptionId(subId);
        }

        @Override
        public int getSubscriptionId(int slotIndex) {
            return SubscriptionManager.getSubscriptionId(slotIndex);
        }

        @Override
        public int getDefaultVoicePhoneId() {
            return SubscriptionManager.getDefaultVoicePhoneId();
        }

        @Override
        public int getIntegerSubscriptionProperty(int subId, String propKey, int defValue) {
            return SubscriptionManager.getIntegerSubscriptionProperty(subId, propKey, defValue,
                    mContext);
        }

        @Override
        public void setSubscriptionProperty(int subId, String propKey, String propValue) {
            SubscriptionManager.setSubscriptionProperty(subId, propKey, propValue);
        }

        @Override
        public int[] getActiveSubscriptionIdList() {
            return getSubscriptionManager().getActiveSubscriptionIdList();
        }

        private SubscriptionManager getSubscriptionManager() {
            return mContext.getSystemService(SubscriptionManager.class);
        }
    }

    /**
     * Events that will be triggered as part of metrics collection.
     */
    public interface ImsStatsCallback {
        /**
         * The MmTel capabilities that are enabled have changed.
         * @param capability The MmTel capability
         * @param regTech The IMS registration technology associated with the capability.
         * @param isEnabled {@code true} if the capability is enabled, {@code false} if it is
         *                  disabled.
         */
        void onEnabledMmTelCapabilitiesChanged(
                @MmTelFeature.MmTelCapabilities.MmTelCapability int capability,
                @ImsRegistrationImplBase.ImsRegistrationTech int regTech,
                boolean isEnabled);
    }

    /**
     * Internally we will create a FeatureConnector when {@link #getInstance(Context, int)} is
     * called to keep the MmTelFeatureConnection instance fresh as new SIM cards are
     * inserted/removed and MmTelFeature potentially changes.
     * <p>
     * For efficiency purposes, there is only one ImsManager created per-slot when using
     * {@link #getInstance(Context, int)} and the same instance is returned for multiple callers.
     * This is due to the ImsManager being a potentially heavyweight object depending on what it is
     * being used for.
     */
    private static class InstanceManager implements FeatureConnector.Listener<ImsManager> {
        // If this is the first time connecting, wait a small amount of time in case IMS has already
        // connected. Otherwise, ImsManager will become ready when the ImsService is connected.
        private static final int CONNECT_TIMEOUT_MS = 50;

        private final FeatureConnector<ImsManager> mConnector;
        private final ImsManager mImsManager;

        private final Object mLock = new Object();
        private boolean isConnectorActive = false;
        private CountDownLatch mConnectedLatch;

        public InstanceManager(ImsManager manager) {
            mImsManager = manager;
            // Set a special prefix so that logs generated by getInstance are distinguishable.
            mImsManager.mLogTagPostfix = "IM";

            ArrayList<Integer> readyFilter = new ArrayList<>();
            readyFilter.add(ImsFeature.STATE_READY);
            readyFilter.add(ImsFeature.STATE_INITIALIZING);
            readyFilter.add(ImsFeature.STATE_UNAVAILABLE);
            // Pass a reference of the ImsManager being managed into the connector, allowing it to
            // update the internal MmTelFeatureConnection as it is being updated.
            mConnector = new FeatureConnector<>(manager.mContext, manager.mPhoneId,
                    (c,p) -> mImsManager, "InstanceManager", readyFilter, this,
                    manager.getImsThreadExecutor());
        }

        public ImsManager getInstance() {
            return mImsManager;
        }

        public void reconnect() {
            boolean requiresReconnect = false;
            synchronized (mLock) {
                if (!isConnectorActive) {
                    requiresReconnect = true;
                    isConnectorActive = true;
                    mConnectedLatch = new CountDownLatch(1);
                }
            }
            if (requiresReconnect) {
                mConnector.connect();
            }
            try {
                // If this is during initial reconnect, let all threads wait for connect
                // (or timeout)
                if(!mConnectedLatch.await(CONNECT_TIMEOUT_MS, TimeUnit.MILLISECONDS)) {
                    mImsManager.log("ImsService not up yet - timeout waiting for connection.");
                }
            } catch (InterruptedException e) {
                // Do nothing and allow ImsService to attach behind the scenes
            }
        }

        @Override
        public void connectionReady(ImsManager manager, int subId) {
            synchronized (mLock) {
                mImsManager.logi("connectionReady, subId: " + subId);
                mConnectedLatch.countDown();
            }
        }

        @Override
        public void connectionUnavailable(int reason) {
            synchronized (mLock) {
                mImsManager.logi("connectionUnavailable, reason: " + reason);
                // only need to track the connection becoming unavailable due to telephony going
                // down.
                if (reason == FeatureConnector.UNAVAILABLE_REASON_SERVER_UNAVAILABLE) {
                    isConnectorActive = false;
                }
                mConnectedLatch.countDown();
            }

        }
    }

    // Replaced with single-threaded executor for testing.
    private final Executor mExecutor;
    // Replaced With mock for testing
    private MmTelFeatureConnectionFactory mMmTelFeatureConnectionFactory =
            MmTelFeatureConnection::new;
    private final SubscriptionManagerProxy mSubscriptionManagerProxy;
    private final SettingsProxy mSettingsProxy;

    private Context mContext;
    private CarrierConfigManager mConfigManager;
    private int mPhoneId;
    private TelephonyManager mTelephonyManager;
    private AtomicReference<MmTelFeatureConnection> mMmTelConnectionRef = new AtomicReference<>();
    // Used for debug purposes only currently
    private boolean mConfigUpdated = false;
    private BinderCacheManager<ITelephony> mBinderCache;
    private ImsConfigListener mImsConfigListener;

    public static final String TRUE = "true";
    public static final String FALSE = "false";
    // Map of phoneId -> InstanceManager
    private static final SparseArray<InstanceManager> IMS_MANAGER_INSTANCES = new SparseArray<>(2);
    // Map of phoneId -> ImsStatsCallback
    private static final SparseArray<ImsStatsCallback> IMS_STATS_CALLBACKS = new SparseArray<>(2);

    // A log prefix added to some instances of ImsManager to make it distinguishable from others.
    // - "IM" added to ImsManager for ImsManagers created using getInstance.
    private String mLogTagPostfix = "";

    /**
     * Gets a manager instance and blocks for a limited period of time, connecting to the
     * corresponding ImsService MmTelFeature if it exists.
     * <p>
     * If the ImsService is unavailable or becomes unavailable, the associated methods will fail and
     * a new ImsManager will need to be requested. Instead, a {@link FeatureConnector} can be
     * requested using {@link #getConnector}, which will notify the caller when a new ImsManager is
     * available.
     *
     * @param context application context for creating the manager object
     * @param phoneId the phone ID for the IMS Service
     * @return the manager instance corresponding to the phoneId
     */
    @UnsupportedAppUsage
    public static ImsManager getInstance(Context context, int phoneId) {
        InstanceManager instanceManager;
        synchronized (IMS_MANAGER_INSTANCES) {
            instanceManager = IMS_MANAGER_INSTANCES.get(phoneId);
            if (instanceManager == null) {
                ImsManager m = new ImsManager(context, phoneId);
                instanceManager = new InstanceManager(m);
                IMS_MANAGER_INSTANCES.put(phoneId, instanceManager);
            }
        }
        // If the ImsManager became disconnected for some reason, try to reconnect it now.
        instanceManager.reconnect();
        return instanceManager.getInstance();
    }

    /**
     * Retrieve an FeatureConnector for ImsManager, which allows a Listener to listen for when
     * the ImsManager becomes available or unavailable due to the ImsService MmTelFeature moving to
     * the READY state or destroyed on a specific phone modem index.
     *
     * @param context The Context that will be used to connect the ImsManager.
     * @param phoneId The modem phone ID that the ImsManager will be created for.
     * @param logPrefix The log prefix used for debugging purposes.
     * @param listener The Listener that will deliver ImsManager updates as it becomes available.
     * @param executor The Executor that the Listener callbacks will be called on.
     * @return A FeatureConnector instance for generating ImsManagers as the associated
     * MmTelFeatures become available.
     */
    public static FeatureConnector<ImsManager> getConnector(Context context,
            int phoneId, String logPrefix, FeatureConnector.Listener<ImsManager> listener,
            Executor executor) {
        // Only listen for the READY state from the MmTelFeature here.
        ArrayList<Integer> readyFilter = new ArrayList<>();
        readyFilter.add(ImsFeature.STATE_READY);
        return new FeatureConnector<>(context, phoneId, ImsManager::new, logPrefix, readyFilter,
                listener, executor);
    }

    public static boolean isImsSupportedOnDevice(Context context) {
        return context.getPackageManager().hasSystemFeature(PackageManager.FEATURE_TELEPHONY_IMS);
    }

    /**
     * Sets the callback that will be called when events related to IMS metric collection occur.
     * <p>
     * Note: Subsequent calls to this method will replace the previous stats callback.
     */
    public static void setImsStatsCallback(int phoneId, ImsStatsCallback cb) {
        synchronized (IMS_STATS_CALLBACKS) {
            if (cb == null) {
                IMS_STATS_CALLBACKS.remove(phoneId);
            } else {
                IMS_STATS_CALLBACKS.put(phoneId, cb);
            }
        }
    }

    /**
     * @return the {@link ImsStatsCallback} instance associated with the provided phoneId or
     * {@link null} if none currently exists.
     */
    private static ImsStatsCallback getStatsCallback(int phoneId) {
        synchronized (IMS_STATS_CALLBACKS) {
            return IMS_STATS_CALLBACKS.get(phoneId);
        }
    }

    /**
     * Returns the user configuration of Enhanced 4G LTE Mode setting.
     *
     * @deprecated Doesn't support MSIM devices. Use
     * {@link #isEnhanced4gLteModeSettingEnabledByUser()} instead.
     */
    @UnsupportedAppUsage(maxTargetSdk = Build.VERSION_CODES.R, trackingBug = 170729553)
    public static boolean isEnhanced4gLteModeSettingEnabledByUser(Context context) {
        DefaultSubscriptionManagerProxy p = new DefaultSubscriptionManagerProxy(context);
        ImsManager mgr = ImsManager.getInstance(context, p.getDefaultVoicePhoneId());
        if (mgr != null) {
            return mgr.isEnhanced4gLteModeSettingEnabledByUser();
        }
        Rlog.e(TAG, "isEnhanced4gLteModeSettingEnabledByUser: ImsManager null, returning default"
                + " value.");
        return false;
    }

    /**
     * Returns the user configuration of Enhanced 4G LTE Mode setting for slot. If the option is
     * not editable ({@link CarrierConfigManager#KEY_EDITABLE_ENHANCED_4G_LTE_BOOL} is false),
     * hidden ({@link CarrierConfigManager#KEY_HIDE_ENHANCED_4G_LTE_BOOL} is true), the setting is
     * not initialized, and VoIMS opt-in status disabled, this method will return default value
     * specified by {@link CarrierConfigManager#KEY_ENHANCED_4G_LTE_ON_BY_DEFAULT_BOOL}.
     *
     * Note that even if the setting was set, it may no longer be editable. If this is the case we
     * return the default value.
     */
    public boolean isEnhanced4gLteModeSettingEnabledByUser() {
        int setting = mSubscriptionManagerProxy.getIntegerSubscriptionProperty(
                getSubId(), SubscriptionManager.ENHANCED_4G_MODE_ENABLED,
                SUB_PROPERTY_NOT_INITIALIZED);
        boolean onByDefault = getBooleanCarrierConfig(
                CarrierConfigManager.KEY_ENHANCED_4G_LTE_ON_BY_DEFAULT_BOOL);
        boolean isUiUnEditable =
                !getBooleanCarrierConfig(CarrierConfigManager.KEY_EDITABLE_ENHANCED_4G_LTE_BOOL)
                || getBooleanCarrierConfig(CarrierConfigManager.KEY_HIDE_ENHANCED_4G_LTE_BOOL);
        boolean isSettingNotInitialized = setting == SUB_PROPERTY_NOT_INITIALIZED;

        // If Enhanced 4G LTE Mode is uneditable, hidden, not initialized and VoIMS opt-in disabled
        // we use the default value. If VoIMS opt-in is enabled, we will always allow the user to
        // change the IMS enabled setting.
        if ((isUiUnEditable || isSettingNotInitialized) && !isVoImsOptInEnabled()) {
            return onByDefault;
        } else {
            return (setting == ProvisioningManager.PROVISIONING_VALUE_ENABLED);
        }
    }

    /**
     * Change persistent Enhanced 4G LTE Mode setting.
     *
     * @deprecated Doesn't support MSIM devices. Use {@link #setEnhanced4gLteModeSetting(boolean)}
     * instead.
     */
    public static void setEnhanced4gLteModeSetting(Context context, boolean enabled) {
        DefaultSubscriptionManagerProxy p = new DefaultSubscriptionManagerProxy(context);
        ImsManager mgr = ImsManager.getInstance(context, p.getDefaultVoicePhoneId());
        if (mgr != null) {
            mgr.setEnhanced4gLteModeSetting(enabled);
        }
        Rlog.e(TAG, "setEnhanced4gLteModeSetting: ImsManager null, value not set.");
    }

    /**
     * Change persistent Enhanced 4G LTE Mode setting. If the option is not editable
     * ({@link CarrierConfigManager#KEY_EDITABLE_ENHANCED_4G_LTE_BOOL} is false),
     * hidden ({@link CarrierConfigManager#KEY_HIDE_ENHANCED_4G_LTE_BOOL} is true), and VoIMS opt-in
     * status disabled, this method will set the setting to the default value specified by
     * {@link CarrierConfigManager#KEY_ENHANCED_4G_LTE_ON_BY_DEFAULT_BOOL}.
     */
    public void setEnhanced4gLteModeSetting(boolean enabled) {
        if (enabled && !isVolteProvisionedOnDevice()) {
            log("setEnhanced4gLteModeSetting: Not possible to enable VoLTE due to provisioning.");
            return;
        }
        int subId = getSubId();
        if (!isSubIdValid(subId)) {
            loge("setEnhanced4gLteModeSetting: invalid sub id, can not set property in " +
                    " siminfo db; subId=" + subId);
            return;
        }
        // If editable=false or hidden=true, we must keep default advanced 4G mode.
        boolean isUiUnEditable =
                !getBooleanCarrierConfig(CarrierConfigManager.KEY_EDITABLE_ENHANCED_4G_LTE_BOOL) ||
                        getBooleanCarrierConfig(CarrierConfigManager.KEY_HIDE_ENHANCED_4G_LTE_BOOL);

        // If VoIMS opt-in is enabled, we will always allow the user to change the IMS enabled
        // setting.
        if (isUiUnEditable && !isVoImsOptInEnabled()) {
            enabled = getBooleanCarrierConfig(
                    CarrierConfigManager.KEY_ENHANCED_4G_LTE_ON_BY_DEFAULT_BOOL);
        }

        int prevSetting = mSubscriptionManagerProxy.getIntegerSubscriptionProperty(subId,
                SubscriptionManager.ENHANCED_4G_MODE_ENABLED, SUB_PROPERTY_NOT_INITIALIZED);

        if (prevSetting == (enabled ? ProvisioningManager.PROVISIONING_VALUE_ENABLED :
                ProvisioningManager.PROVISIONING_VALUE_DISABLED)) {
            // No change in setting.
            return;
        }
        mSubscriptionManagerProxy.setSubscriptionProperty(subId,
                SubscriptionManager.ENHANCED_4G_MODE_ENABLED,
                booleanToPropertyString(enabled));
        try {
            if (enabled) {
                CapabilityChangeRequest request = new CapabilityChangeRequest();
                boolean isNonTty = isNonTtyOrTtyOnVolteEnabled();
                // This affects voice and video enablement
                updateVoiceCellFeatureValue(request, isNonTty);
                updateVideoCallFeatureValue(request, isNonTty);
                changeMmTelCapability(request);
                // Ensure IMS is on if this setting is enabled.
                turnOnIms();
            } else {
                // This may trigger entire IMS interface to be disabled, so recalculate full state.
                reevaluateCapabilities();
            }
        } catch (ImsException e) {
            loge("setEnhanced4gLteModeSetting couldn't set config: " + e);
        }
    }

    /**
     * Indicates whether the call is non-TTY or if TTY - whether TTY on VoLTE is
     * supported.
     * @deprecated Does not support MSIM devices. Please use
     * {@link #isNonTtyOrTtyOnVolteEnabled()} instead.
     */
    @UnsupportedAppUsage(maxTargetSdk = Build.VERSION_CODES.R, trackingBug = 170729553)
    public static boolean isNonTtyOrTtyOnVolteEnabled(Context context) {
        DefaultSubscriptionManagerProxy p = new DefaultSubscriptionManagerProxy(context);
        ImsManager mgr = ImsManager.getInstance(context, p.getDefaultVoicePhoneId());
        if (mgr != null) {
            return mgr.isNonTtyOrTtyOnVolteEnabled();
        }
        Rlog.e(TAG, "isNonTtyOrTtyOnVolteEnabled: ImsManager null, returning default value.");
        return false;
    }

    /**
     * Indicates whether the call is non-TTY or if TTY - whether TTY on VoLTE is
     * supported on a per slot basis.
     */
    public boolean isNonTtyOrTtyOnVolteEnabled() {
        if (isTtyOnVoLteCapable()) {
            return true;
        }

        TelecomManager tm = (TelecomManager) mContext.getSystemService(Context.TELECOM_SERVICE);
        if (tm == null) {
            logw("isNonTtyOrTtyOnVolteEnabled: telecom not available");
            return true;
        }
        return tm.getCurrentTtyMode() == TelecomManager.TTY_MODE_OFF;
    }

    public boolean isTtyOnVoLteCapable() {
        return getBooleanCarrierConfig(CarrierConfigManager.KEY_CARRIER_VOLTE_TTY_SUPPORTED_BOOL);
    }

    /**
     * @return true if we are either not on TTY or TTY over VoWiFi is enabled. If we
     * are on TTY and TTY over VoWiFi is not allowed, this method will return false.
     */
    public boolean isNonTtyOrTtyOnVoWifiEnabled() {

        if (isTtyOnVoWifiCapable()) {
            return true;
        }

        TelecomManager tm = mContext.getSystemService(TelecomManager.class);
        if (tm == null) {
            logw("isNonTtyOrTtyOnVoWifiEnabled: telecom not available");
            return true;
        }
        return tm.getCurrentTtyMode() == TelecomManager.TTY_MODE_OFF;
    }

    public boolean isTtyOnVoWifiCapable() {
        return getBooleanCarrierConfig(CarrierConfigManager.KEY_CARRIER_VOWIFI_TTY_SUPPORTED_BOOL);
    }

    /**
     * Returns a platform configuration for VoLTE which may override the user setting.
     * @deprecated Does not support MSIM devices. Please use
     * {@link #isVolteEnabledByPlatform()} instead.
     */
    @UnsupportedAppUsage(maxTargetSdk = Build.VERSION_CODES.R, trackingBug = 170729553)
    public static boolean isVolteEnabledByPlatform(Context context) {
        DefaultSubscriptionManagerProxy p = new DefaultSubscriptionManagerProxy(context);
        ImsManager mgr = ImsManager.getInstance(context, p.getDefaultVoicePhoneId());
        if (mgr != null) {
            return mgr.isVolteEnabledByPlatform();
        }
        Rlog.e(TAG, "isVolteEnabledByPlatform: ImsManager null, returning default value.");
        return false;
    }

    /**
     * Asynchronous call to ImsService to determine whether or not a specific MmTel capability is
     * supported.
     */
    public void isSupported(int capability, int transportType, Consumer<Boolean> result) {
        getImsThreadExecutor().execute(() -> {
            switch(transportType) {
                // Does not take into account NR, as NR is a superset of LTE support currently.
                case (AccessNetworkConstants.TRANSPORT_TYPE_WWAN): {
                    switch (capability) {
                        case (MmTelFeature.MmTelCapabilities.CAPABILITY_TYPE_VOICE): {
                            result.accept(isVolteEnabledByPlatform());
                            return;
                        } case (MmTelFeature.MmTelCapabilities.CAPABILITY_TYPE_VIDEO): {
                            result.accept(isVtEnabledByPlatform());
                            return;
                        }case (MmTelFeature.MmTelCapabilities.CAPABILITY_TYPE_UT): {
                            result.accept(isSuppServicesOverUtEnabledByPlatform());
                            return;
                        } case (MmTelFeature.MmTelCapabilities.CAPABILITY_TYPE_SMS): {
                            // There is currently no carrier config defined for this.
                            result.accept(true);
                            return;
                        }
                    }
                    break;
                } case (AccessNetworkConstants.TRANSPORT_TYPE_WLAN): {
                    switch (capability) {
                        case (MmTelFeature.MmTelCapabilities.CAPABILITY_TYPE_VOICE) : {
                            result.accept(isWfcEnabledByPlatform());
                            return;
                        } case (MmTelFeature.MmTelCapabilities.CAPABILITY_TYPE_VIDEO) : {
                            // This is not transport dependent at this time.
                            result.accept(isVtEnabledByPlatform());
                            return;
                        } case (MmTelFeature.MmTelCapabilities.CAPABILITY_TYPE_UT) : {
                            // This is not transport dependent at this time.
                            result.accept(isSuppServicesOverUtEnabledByPlatform());
                            return;
                        } case (MmTelFeature.MmTelCapabilities.CAPABILITY_TYPE_SMS) : {
                            // There is currently no carrier config defined for this.
                            result.accept(true);
                            return;
                        }
                    }
                    break;
                }
            }
            // false for unknown capability/transport types.
            result.accept(false);
        });

    }

    /**
     * Returns a platform configuration for VoLTE which may override the user setting on a per Slot
     * basis.
     */
    public boolean isVolteEnabledByPlatform() {
        // We first read the per slot value. If doesn't exist, we read the general value. If still
        // doesn't exist, we use the hardcoded default value.
        if (SystemProperties.getInt(
                PROPERTY_DBG_VOLTE_AVAIL_OVERRIDE + Integer.toString(mPhoneId),
                SYSTEM_PROPERTY_NOT_SET) == 1 ||
                SystemProperties.getInt(PROPERTY_DBG_VOLTE_AVAIL_OVERRIDE,
                        SYSTEM_PROPERTY_NOT_SET) == 1) {
            return true;
        }

        if (getLocalImsConfigKeyInt(KEY_VOIMS_OPT_IN_STATUS)
                == ProvisioningManager.PROVISIONING_VALUE_ENABLED) {
            return true;
        }

        return mContext.getResources().getBoolean(
                com.android.internal.R.bool.config_device_volte_available)
                && getBooleanCarrierConfig(CarrierConfigManager.KEY_CARRIER_VOLTE_AVAILABLE_BOOL)
                && isGbaValid();
    }

    /**
     * @return {@code true} if IMS over NR is enabled by the platform, {@code false} otherwise.
     */
    public boolean isImsOverNrEnabledByPlatform() {
        int[] nrCarrierCaps = getIntArrayCarrierConfig(
                CarrierConfigManager.KEY_CARRIER_NR_AVAILABILITIES_INT_ARRAY);
        if (nrCarrierCaps == null)  return false;
        boolean voNrCarrierSupported = Arrays.stream(nrCarrierCaps)
                .anyMatch(cap -> cap == CarrierConfigManager.CARRIER_NR_AVAILABILITY_SA);
        if (!voNrCarrierSupported) return false;
        return isGbaValid();
    }

    /**
     * Indicates whether VoLTE is provisioned on device.
     *
     * @deprecated Does not support MSIM devices. Please use
     * {@link #isVolteProvisionedOnDevice()} instead.
     */
    public static boolean isVolteProvisionedOnDevice(Context context) {
        DefaultSubscriptionManagerProxy p = new DefaultSubscriptionManagerProxy(context);
        ImsManager mgr = ImsManager.getInstance(context, p.getDefaultVoicePhoneId());
        if (mgr != null) {
            return mgr.isVolteProvisionedOnDevice();
        }
        Rlog.e(TAG, "isVolteProvisionedOnDevice: ImsManager null, returning default value.");
        return true;
    }

    /**
     * Indicates whether VoLTE is provisioned on this slot.
     */
    public boolean isVolteProvisionedOnDevice() {
        if (isMmTelProvisioningRequired(CAPABILITY_TYPE_VOICE, REGISTRATION_TECH_LTE)) {
            return isVolteProvisioned();
        }

        return true;
    }

    /**
     * Indicates whether EAB is provisioned on this slot.
     */
    public boolean isEabProvisionedOnDevice() {
        if (isRcsProvisioningRequired(CAPABILITY_TYPE_PRESENCE_UCE, REGISTRATION_TECH_LTE)) {
            return isEabProvisioned();
        }

        return true;
    }

    /**
     * Indicates whether VoWifi is provisioned on device.
     *
     * When CarrierConfig KEY_CARRIER_VOLTE_OVERRIDE_WFC_PROVISIONING_BOOL is true, and VoLTE is not
     * provisioned on device, this method returns false.
     *
     * @deprecated Does not support MSIM devices. Please use
     * {@link #isWfcProvisionedOnDevice()} instead.
     */
    public static boolean isWfcProvisionedOnDevice(Context context) {
        DefaultSubscriptionManagerProxy p = new DefaultSubscriptionManagerProxy(context);
        ImsManager mgr = ImsManager.getInstance(context, p.getDefaultVoicePhoneId());
        if (mgr != null) {
            return mgr.isWfcProvisionedOnDevice();
        }
        Rlog.e(TAG, "isWfcProvisionedOnDevice: ImsManager null, returning default value.");
        return true;
    }

    /**
     * Indicates whether VoWifi is provisioned on slot.
     *
     * When CarrierConfig KEY_CARRIER_VOLTE_OVERRIDE_WFC_PROVISIONING_BOOL is true, and VoLTE is not
     * provisioned on device, this method returns false.
     */
    public boolean isWfcProvisionedOnDevice() {
        if (getBooleanCarrierConfig(
                CarrierConfigManager.KEY_CARRIER_VOLTE_OVERRIDE_WFC_PROVISIONING_BOOL)) {
            if (!isVolteProvisionedOnDevice()) {
                return false;
            }
        }

        if (isMmTelProvisioningRequired(CAPABILITY_TYPE_VOICE, REGISTRATION_TECH_IWLAN)) {
            return isWfcProvisioned();
        }

        return true;
    }

    /**
     * Indicates whether VT is provisioned on device
     *
     * @deprecated Does not support MSIM devices. Please use
     * {@link #isVtProvisionedOnDevice()} instead.
     */
    public static boolean isVtProvisionedOnDevice(Context context) {
        DefaultSubscriptionManagerProxy p = new DefaultSubscriptionManagerProxy(context);
        ImsManager mgr = ImsManager.getInstance(context, p.getDefaultVoicePhoneId());
        if (mgr != null) {
            return mgr.isVtProvisionedOnDevice();
        }
        Rlog.e(TAG, "isVtProvisionedOnDevice: ImsManager null, returning default value.");
        return true;
    }

    /**
     * Indicates whether VT is provisioned on slot.
     */
    public boolean isVtProvisionedOnDevice() {
        if (isMmTelProvisioningRequired(CAPABILITY_TYPE_VIDEO, REGISTRATION_TECH_LTE)) {
            return isVtProvisioned();
        }

        return true;
    }

    /**
     * Returns a platform configuration for VT which may override the user setting.
     *
     * Note: VT presumes that VoLTE is enabled (these are configuration settings
     * which must be done correctly).
     *
     * @deprecated Does not support MSIM devices. Please use
     * {@link #isVtEnabledByPlatform()} instead.
     */
    public static boolean isVtEnabledByPlatform(Context context) {
        DefaultSubscriptionManagerProxy p = new DefaultSubscriptionManagerProxy(context);
        ImsManager mgr = ImsManager.getInstance(context, p.getDefaultVoicePhoneId());
        if (mgr != null) {
            return mgr.isVtEnabledByPlatform();
        }
        Rlog.e(TAG, "isVtEnabledByPlatform: ImsManager null, returning default value.");
        return false;
    }

    /**
     * Returns a platform configuration for VT which may override the user setting.
     *
     * Note: VT presumes that VoLTE is enabled (these are configuration settings
     * which must be done correctly).
     */
    public boolean isVtEnabledByPlatform() {
        // We first read the per slot value. If doesn't exist, we read the general value. If still
        // doesn't exist, we use the hardcoded default value.
        if (SystemProperties.getInt(PROPERTY_DBG_VT_AVAIL_OVERRIDE +
                Integer.toString(mPhoneId), SYSTEM_PROPERTY_NOT_SET) == 1  ||
                SystemProperties.getInt(
                        PROPERTY_DBG_VT_AVAIL_OVERRIDE, SYSTEM_PROPERTY_NOT_SET) == 1) {
            return true;
        }

        return mContext.getResources().getBoolean(
                com.android.internal.R.bool.config_device_vt_available) &&
                getBooleanCarrierConfig(CarrierConfigManager.KEY_CARRIER_VT_AVAILABLE_BOOL) &&
                isGbaValid();
    }

    /**
     * Returns the user configuration of VT setting
     * @deprecated Does not support MSIM devices. Please use
     * {@link #isVtEnabledByUser()} instead.
     */
    public static boolean isVtEnabledByUser(Context context) {
        DefaultSubscriptionManagerProxy p = new DefaultSubscriptionManagerProxy(context);
        ImsManager mgr = ImsManager.getInstance(context, p.getDefaultVoicePhoneId());
        if (mgr != null) {
            return mgr.isVtEnabledByUser();
        }
        Rlog.e(TAG, "isVtEnabledByUser: ImsManager null, returning default value.");
        return false;
    }

    /**
     * Returns the user configuration of VT setting per slot. If not set, it
     * returns true as default value.
     */
    public boolean isVtEnabledByUser() {
        int setting = mSubscriptionManagerProxy.getIntegerSubscriptionProperty(
                getSubId(), SubscriptionManager.VT_IMS_ENABLED,
                SUB_PROPERTY_NOT_INITIALIZED);

        // If it's never set, by default we return true.
        return (setting == SUB_PROPERTY_NOT_INITIALIZED
                || setting == ProvisioningManager.PROVISIONING_VALUE_ENABLED);
    }

    /**
     * Returns whether the user sets call composer setting per sub.
     */
    public boolean isCallComposerEnabledByUser() {
        if (mTelephonyManager == null) {
            loge("isCallComposerEnabledByUser: TelephonyManager is null, returning false");
            return false;
        }
        return mTelephonyManager.getCallComposerStatus()
                == TelephonyManager.CALL_COMPOSER_STATUS_ON;
    }

    /**
     * Returns whether the business only call composer is on.
     */
    public boolean isBusinessOnlyCallComposerEnabledByUser() {
        TelephonyManager tm = mContext.getSystemService(TelephonyManager.class);
        if (tm == null) {
            loge("isBusinessOnlyCallComposerEnabledByUser: TelephonyManager is null");
            return false;
        }
        return tm.getCallComposerStatus() == TelephonyManager.CALL_COMPOSER_STATUS_BUSINESS_ONLY;
    }

    /**
     * Change persistent VT enabled setting
     *
     * @deprecated Does not support MSIM devices. Please use {@link #setVtSetting(boolean)} instead.
     */
    public static void setVtSetting(Context context, boolean enabled) {
        DefaultSubscriptionManagerProxy p = new DefaultSubscriptionManagerProxy(context);
        ImsManager mgr = ImsManager.getInstance(context, p.getDefaultVoicePhoneId());
        if (mgr != null) {
            mgr.setVtSetting(enabled);
        }
        Rlog.e(TAG, "setVtSetting: ImsManager null, can not set value.");
    }

    /**
     * Change persistent VT enabled setting for slot.
     */
    public void setVtSetting(boolean enabled) {
        if (enabled && !isVtProvisionedOnDevice()) {
            log("setVtSetting: Not possible to enable Vt due to provisioning.");
            return;
        }

        int subId = getSubId();
        if (!isSubIdValid(subId)) {
            loge("setVtSetting: sub id invalid, skip modifying vt state in subinfo db; subId="
                    + subId);
            return;
        }
        mSubscriptionManagerProxy.setSubscriptionProperty(subId, SubscriptionManager.VT_IMS_ENABLED,
                booleanToPropertyString(enabled));
        try {
            if (enabled) {
                CapabilityChangeRequest request = new CapabilityChangeRequest();
                updateVideoCallFeatureValue(request, isNonTtyOrTtyOnVolteEnabled());
                changeMmTelCapability(request);
                // ensure IMS is enabled.
                turnOnIms();
            } else {
                // This may cause IMS to be disabled, re-evaluate all.
                reevaluateCapabilities();
            }
        } catch (ImsException e) {
            // The ImsService is down. Since the SubscriptionManager already recorded the user's
            // preference, it will be resent in updateImsServiceConfig when the ImsPhoneCallTracker
            // reconnects.
            loge("setVtSetting(b): ", e);
        }
    }

    /**
     * Returns whether turning off ims is allowed by platform.
     * The platform property may override the carrier config.
     */
    private boolean isTurnOffImsAllowedByPlatform() {
        // We first read the per slot value. If doesn't exist, we read the general value. If still
        // doesn't exist, we use the hardcoded default value.
        if (SystemProperties.getInt(PROPERTY_DBG_ALLOW_IMS_OFF_OVERRIDE +
                Integer.toString(mPhoneId), SYSTEM_PROPERTY_NOT_SET) == 1  ||
                SystemProperties.getInt(
                        PROPERTY_DBG_ALLOW_IMS_OFF_OVERRIDE, SYSTEM_PROPERTY_NOT_SET) == 1) {
            return true;
        }

        return getBooleanCarrierConfig(
                CarrierConfigManager.KEY_CARRIER_ALLOW_TURNOFF_IMS_BOOL);
    }

    /**
     * Returns the user configuration of WFC setting
     *
     * @deprecated Does not support MSIM devices. Please use
     * {@link #isWfcEnabledByUser()} instead.
     */
    public static boolean isWfcEnabledByUser(Context context) {
        DefaultSubscriptionManagerProxy p = new DefaultSubscriptionManagerProxy(context);
        ImsManager mgr = ImsManager.getInstance(context, p.getDefaultVoicePhoneId());
        if (mgr != null) {
            return mgr.isWfcEnabledByUser();
        }
        Rlog.e(TAG, "isWfcEnabledByUser: ImsManager null, returning default value.");
        return true;
    }

    /**
     * Returns the user configuration of WFC setting for slot. If not set, it
     * queries CarrierConfig value as default.
     */
    public boolean isWfcEnabledByUser() {
        int setting = mSubscriptionManagerProxy.getIntegerSubscriptionProperty(
                getSubId(), SubscriptionManager.WFC_IMS_ENABLED,
                SUB_PROPERTY_NOT_INITIALIZED);

        // SUB_PROPERTY_NOT_INITIALIZED indicates it's never set in sub db.
        if (setting == SUB_PROPERTY_NOT_INITIALIZED) {
            return getBooleanCarrierConfig(
                    CarrierConfigManager.KEY_CARRIER_DEFAULT_WFC_IMS_ENABLED_BOOL);
        } else {
            return setting == ProvisioningManager.PROVISIONING_VALUE_ENABLED;
        }
    }

    /**
     * Change persistent WFC enabled setting.
     * @deprecated Does not support MSIM devices. Please use
     * {@link #setWfcSetting} instead.
     */
    public static void setWfcSetting(Context context, boolean enabled) {
        DefaultSubscriptionManagerProxy p = new DefaultSubscriptionManagerProxy(context);
        ImsManager mgr = ImsManager.getInstance(context, p.getDefaultVoicePhoneId());
        if (mgr != null) {
            mgr.setWfcSetting(enabled);
        }
        Rlog.e(TAG, "setWfcSetting: ImsManager null, can not set value.");
    }

    /**
     * Change persistent WFC enabled setting for slot.
     */
    public void setWfcSetting(boolean enabled) {
        if (enabled && !isWfcProvisionedOnDevice()) {
            log("setWfcSetting: Not possible to enable WFC due to provisioning.");
            return;
        }
        int subId = getSubId();
        if (!isSubIdValid(subId)) {
            loge("setWfcSetting: invalid sub id, can not set WFC setting in siminfo db; subId="
                    + subId);
            return;
        }
        mSubscriptionManagerProxy.setSubscriptionProperty(subId,
                SubscriptionManager.WFC_IMS_ENABLED, booleanToPropertyString(enabled));

        try {
            if (enabled) {
                boolean isNonTtyWifi = isNonTtyOrTtyOnVoWifiEnabled();
                CapabilityChangeRequest request = new CapabilityChangeRequest();
                updateVoiceWifiFeatureAndProvisionedValues(request, isNonTtyWifi);
                changeMmTelCapability(request);
                // Ensure IMS is on if this setting is updated.
                turnOnIms();
            } else {
                // This may cause IMS to be disabled, re-evaluate all caps
                reevaluateCapabilities();
            }
        } catch (ImsException e) {
            loge("setWfcSetting: " + e);
        }
    }

    /**
     * @return true if the user's setting for Voice over Cross SIM is enabled and
     * false if it is not
     */
    public boolean isCrossSimCallingEnabledByUser() {
        int setting = mSubscriptionManagerProxy.getIntegerSubscriptionProperty(
                getSubId(), SubscriptionManager.CROSS_SIM_CALLING_ENABLED,
                SUB_PROPERTY_NOT_INITIALIZED);

        // SUB_PROPERTY_NOT_INITIALIZED indicates it's never set in sub db.
        if (setting == SUB_PROPERTY_NOT_INITIALIZED) {
            return false;
        } else {
            return setting == ProvisioningManager.PROVISIONING_VALUE_ENABLED;
        }
    }

    /**
     * @return true if Voice over Cross SIM is provisioned and enabled by user and platform.
     * false if any of them is not true
     */
    public boolean isCrossSimCallingEnabled() {
        boolean userEnabled = isCrossSimCallingEnabledByUser();
        boolean platformEnabled = isCrossSimEnabledByPlatform();
        boolean isProvisioned = isWfcProvisionedOnDevice();

        log("isCrossSimCallingEnabled: platformEnabled = " + platformEnabled
                + ", provisioned = " + isProvisioned
                + ", userEnabled = " + userEnabled);
        return userEnabled && platformEnabled && isProvisioned;
    }

    /**
     * Sets the user's setting for whether or not Voice over Cross SIM is enabled.
     */
    public void setCrossSimCallingEnabled(boolean enabled) {
        if (enabled && !isWfcProvisionedOnDevice()) {
            log("setCrossSimCallingEnabled: Not possible to enable WFC due to provisioning.");
            return;
        }
        int subId = getSubId();
        if (!isSubIdValid(subId)) {
            loge("setCrossSimCallingEnabled: "
                    + "invalid sub id, can not set Cross SIM setting in siminfo db; subId="
                    + subId);
            return;
        }
        mSubscriptionManagerProxy.setSubscriptionProperty(subId,
                SubscriptionManager.CROSS_SIM_CALLING_ENABLED, booleanToPropertyString(enabled));
        try {
            if (enabled) {
                CapabilityChangeRequest request = new CapabilityChangeRequest();
                updateCrossSimFeatureAndProvisionedValues(request);
                changeMmTelCapability(request);
                turnOnIms();
            } else {
                // Recalculate all caps to determine if IMS needs to be disabled.
                reevaluateCapabilities();
            }
        } catch (ImsException e) {
            loge("setCrossSimCallingEnabled(): ", e);
        }
    }

    /**
     * Non-persistently change WFC enabled setting and WFC mode for slot
     *
     * @param enabled If true, WFC and WFC while roaming will be enabled for the associated
     *                subscription, if supported by the carrier. If false, WFC will be disabled for
     *                the associated subscription.
     * @param wfcMode The WFC preference if WFC is enabled
     */
    public void setWfcNonPersistent(boolean enabled, int wfcMode) {
        // Force IMS to register over LTE when turning off WFC
        int imsWfcModeFeatureValue =
                enabled ? wfcMode : ImsMmTelManager.WIFI_MODE_CELLULAR_PREFERRED;
        try {
            changeMmTelCapability(enabled, MmTelFeature.MmTelCapabilities.CAPABILITY_TYPE_VOICE,
                    ImsRegistrationImplBase.REGISTRATION_TECH_IWLAN);
            // Set the mode and roaming enabled settings before turning on IMS
            setWfcModeInternal(imsWfcModeFeatureValue);
            // If enabled is false, shortcut to false because of the ImsService
            // implementation for WFC roaming, otherwise use the correct user's setting.
            setWfcRoamingSettingInternal(enabled && isWfcRoamingEnabledByUser());
            // Do not re-evaluate all capabilities because this is a temporary override of WFC
            // settings.
            if (enabled) {
                log("setWfcNonPersistent() : turnOnIms");
                // Ensure IMS is turned on if this is enabled.
                turnOnIms();
            }
        } catch (ImsException e) {
            loge("setWfcNonPersistent(): ", e);
        }
    }

    /**
     * Returns the user configuration of WFC preference setting.
     *
     * @deprecated Doesn't support MSIM devices. Use {@link #getWfcMode(boolean roaming)} instead.
     */
    public static int getWfcMode(Context context) {
        DefaultSubscriptionManagerProxy p = new DefaultSubscriptionManagerProxy(context);
        ImsManager mgr = ImsManager.getInstance(context, p.getDefaultVoicePhoneId());
        if (mgr != null) {
            return mgr.getWfcMode();
        }
        Rlog.e(TAG, "getWfcMode: ImsManager null, returning default value.");
        return ImsMmTelManager.WIFI_MODE_WIFI_ONLY;
    }

    /**
     * Returns the user configuration of WFC preference setting
     * @deprecated. Use {@link #getWfcMode(boolean roaming)} instead.
     */
    public int getWfcMode() {
        return getWfcMode(false);
    }

    /**
     * Change persistent WFC preference setting.
     *
     * @deprecated Doesn't support MSIM devices. Use {@link #setWfcMode(int)} instead.
     */
    public static void setWfcMode(Context context, int wfcMode) {
        DefaultSubscriptionManagerProxy p = new DefaultSubscriptionManagerProxy(context);
        ImsManager mgr = ImsManager.getInstance(context, p.getDefaultVoicePhoneId());
        if (mgr != null) {
            mgr.setWfcMode(wfcMode);
        }
        Rlog.e(TAG, "setWfcMode: ImsManager null, can not set value.");
    }

    /**
     * Change persistent WFC preference setting for slot when not roaming.
     * @deprecated Use {@link #setWfcMode(int, boolean)} instead.
     */
    public void setWfcMode(int wfcMode) {
        setWfcMode(wfcMode, false /*isRoaming*/);
    }

    /**
     * Returns the user configuration of WFC preference setting
     *
     * @param roaming {@code false} for home network setting, {@code true} for roaming  setting
     *
     * @deprecated Doesn't support MSIM devices. Use {@link #getWfcMode(boolean)} instead.
     */
    public static int getWfcMode(Context context, boolean roaming) {
        DefaultSubscriptionManagerProxy p = new DefaultSubscriptionManagerProxy(context);
        ImsManager mgr = ImsManager.getInstance(context, p.getDefaultVoicePhoneId());
        if (mgr != null) {
            return mgr.getWfcMode(roaming);
        }
        Rlog.e(TAG, "getWfcMode: ImsManager null, returning default value.");
        return ImsMmTelManager.WIFI_MODE_WIFI_ONLY;
    }

    /**
     * Returns the user configuration of WFC preference setting for slot. If not set, it
     * queries CarrierConfig value as default.
     *
     * @param roaming {@code false} for home network setting, {@code true} for roaming  setting
     */
    public int getWfcMode(boolean roaming) {
        int setting;
        if (!roaming) {
            // The WFC mode is not editable, return the default setting in the CarrierConfig, not
            // the user set value.
            if (!getBooleanCarrierConfig(CarrierConfigManager.KEY_EDITABLE_WFC_MODE_BOOL)) {
                setting = getIntCarrierConfig(
                        CarrierConfigManager.KEY_CARRIER_DEFAULT_WFC_IMS_MODE_INT);

            } else {
                setting = getSettingFromSubscriptionManager(SubscriptionManager.WFC_IMS_MODE,
                        CarrierConfigManager.KEY_CARRIER_DEFAULT_WFC_IMS_MODE_INT);
            }
            if (DBG) log("getWfcMode - setting=" + setting);
        } else {
            if (getBooleanCarrierConfig(
                    CarrierConfigManager.KEY_USE_WFC_HOME_NETWORK_MODE_IN_ROAMING_NETWORK_BOOL)) {
                setting = getWfcMode(false);
            } else if (overrideWfcRoamingModeWhileUsingNTN()) {
                if (DBG) log("getWfcMode (roaming) "
                        + "- override Wfc roaming mode to WIFI_PREFERRED");
                setting = ImsConfig.WfcModeFeatureValueConstants.WIFI_PREFERRED;
            } else if (!getBooleanCarrierConfig(
                    CarrierConfigManager.KEY_EDITABLE_WFC_ROAMING_MODE_BOOL)) {
                setting = getIntCarrierConfig(
                        CarrierConfigManager.KEY_CARRIER_DEFAULT_WFC_IMS_ROAMING_MODE_INT);
            } else {
                setting = getSettingFromSubscriptionManager(
                        SubscriptionManager.WFC_IMS_ROAMING_MODE,
                        CarrierConfigManager.KEY_CARRIER_DEFAULT_WFC_IMS_ROAMING_MODE_INT);
            }
            if (DBG) log("getWfcMode (roaming) - setting=" + setting);
        }
        return setting;
    }

    /**
     * Returns the SubscriptionManager setting for the subSetting string. If it is not set, default
     * to the default CarrierConfig value for defaultConfigKey.
     */
    private int getSettingFromSubscriptionManager(String subSetting, String defaultConfigKey) {
        int result;
        result = mSubscriptionManagerProxy.getIntegerSubscriptionProperty(getSubId(), subSetting,
                SUB_PROPERTY_NOT_INITIALIZED);

        // SUB_PROPERTY_NOT_INITIALIZED indicates it's never set in sub db.
        if (result == SUB_PROPERTY_NOT_INITIALIZED) {
            result = getIntCarrierConfig(defaultConfigKey);
        }
        return result;
    }

    /**
     * Change persistent WFC preference setting
     *
     * @param roaming {@code false} for home network setting, {@code true} for roaming setting
     *
     * @deprecated Doesn't support MSIM devices. Please use {@link #setWfcMode(int, boolean)}
     * instead.
     */
    public static void setWfcMode(Context context, int wfcMode, boolean roaming) {
        DefaultSubscriptionManagerProxy p = new DefaultSubscriptionManagerProxy(context);
        ImsManager mgr = ImsManager.getInstance(context, p.getDefaultVoicePhoneId());
        if (mgr != null) {
            mgr.setWfcMode(wfcMode, roaming);
        }
        Rlog.e(TAG, "setWfcMode: ImsManager null, can not set value.");
    }

    /**
     * Change persistent WFC preference setting
     *
     * @param roaming {@code false} for home network setting, {@code true} for roaming setting
     */
    public void setWfcMode(int wfcMode, boolean roaming) {
        int subId = getSubId();
        if (isSubIdValid(subId)) {
            if (!roaming) {
                if (DBG) log("setWfcMode(i,b) - setting=" + wfcMode);
                mSubscriptionManagerProxy.setSubscriptionProperty(subId, SubscriptionManager.WFC_IMS_MODE,
                        Integer.toString(wfcMode));
            } else {
                if (DBG) log("setWfcMode(i,b) (roaming) - setting=" + wfcMode);
                mSubscriptionManagerProxy.setSubscriptionProperty(subId,
                        SubscriptionManager.WFC_IMS_ROAMING_MODE, Integer.toString(wfcMode));
            }
        } else {
            loge("setWfcMode(i,b): invalid sub id, skip setting setting in siminfo db; subId="
                    + subId);
        }

        if (mTelephonyManager == null) {
            loge("setWfcMode: TelephonyManager is null, can not set WFC.");
            return;
        }
        TelephonyManager tm = mTelephonyManager.createForSubscriptionId(getSubId());
        // Unfortunately, the WFC mode is the same for home/roaming (we do not have separate
        // config keys), so we have to change the WFC mode when moving home<->roaming. So, only
        // call setWfcModeInternal when roaming == telephony roaming status. Otherwise, ignore.
        if (roaming == tm.isNetworkRoaming()) {
            setWfcModeInternal(wfcMode);
        }
    }

    private int getSubId() {
        return mSubscriptionManagerProxy.getSubscriptionId(mPhoneId);
    }

    private void setWfcModeInternal(int wfcMode) {
        final int value = wfcMode;
        getImsThreadExecutor().execute(() -> {
            try {
                getConfigInterface().setConfig(
                        ProvisioningManager.KEY_VOICE_OVER_WIFI_MODE_OVERRIDE, value);
            } catch (ImsException e) {
                // do nothing
            }
        });
    }

    /**
     * Returns the user configuration of WFC roaming setting
     *
     * @deprecated Does not support MSIM devices. Please use
     * {@link #isWfcRoamingEnabledByUser()} instead.
     */
    public static boolean isWfcRoamingEnabledByUser(Context context) {
        DefaultSubscriptionManagerProxy p = new DefaultSubscriptionManagerProxy(context);
        ImsManager mgr = ImsManager.getInstance(context, p.getDefaultVoicePhoneId());
        if (mgr != null) {
            return mgr.isWfcRoamingEnabledByUser();
        }
        Rlog.e(TAG, "isWfcRoamingEnabledByUser: ImsManager null, returning default value.");
        return false;
    }

    /**
     * Returns the user configuration of WFC roaming setting for slot. If not set, it
     * queries CarrierConfig value as default.
     */
    public boolean isWfcRoamingEnabledByUser() {
        int setting =  mSubscriptionManagerProxy.getIntegerSubscriptionProperty(
                getSubId(), SubscriptionManager.WFC_IMS_ROAMING_ENABLED,
                SUB_PROPERTY_NOT_INITIALIZED);
        if (setting == SUB_PROPERTY_NOT_INITIALIZED) {
            return getBooleanCarrierConfig(
                            CarrierConfigManager.KEY_CARRIER_DEFAULT_WFC_IMS_ROAMING_ENABLED_BOOL);
        } else {
            return setting == ProvisioningManager.PROVISIONING_VALUE_ENABLED;
        }
    }

    /**
     * Change persistent WFC roaming enabled setting
     */
    public static void setWfcRoamingSetting(Context context, boolean enabled) {
        DefaultSubscriptionManagerProxy p = new DefaultSubscriptionManagerProxy(context);
        ImsManager mgr = ImsManager.getInstance(context, p.getDefaultVoicePhoneId());
        if (mgr != null) {
            mgr.setWfcRoamingSetting(enabled);
        }
        Rlog.e(TAG, "setWfcRoamingSetting: ImsManager null, value not set.");
    }

    /**
     * Change persistent WFC roaming enabled setting
     */
    public void setWfcRoamingSetting(boolean enabled) {
        mSubscriptionManagerProxy.setSubscriptionProperty(getSubId(),
                SubscriptionManager.WFC_IMS_ROAMING_ENABLED, booleanToPropertyString(enabled)
        );

        setWfcRoamingSettingInternal(enabled);
    }

    private void setWfcRoamingSettingInternal(boolean enabled) {
        final int value = enabled
                ? ProvisioningManager.PROVISIONING_VALUE_ENABLED
                : ProvisioningManager.PROVISIONING_VALUE_DISABLED;
        getImsThreadExecutor().execute(() -> {
            try {
                getConfigInterface().setConfig(
                        ProvisioningManager.KEY_VOICE_OVER_WIFI_ROAMING_ENABLED_OVERRIDE, value);
            } catch (ImsException e) {
                // do nothing
            }
        });
    }

    /**
     * Returns a platform configuration for WFC which may override the user
     * setting. Note: WFC presumes that VoLTE is enabled (these are
     * configuration settings which must be done correctly).
     *
     * @deprecated Doesn't work for MSIM devices. Use {@link #isWfcEnabledByPlatform()}
     * instead.
     */
    public static boolean isWfcEnabledByPlatform(Context context) {
        DefaultSubscriptionManagerProxy p = new DefaultSubscriptionManagerProxy(context);
        ImsManager mgr = ImsManager.getInstance(context, p.getDefaultVoicePhoneId());
        if (mgr != null) {
            return mgr.isWfcEnabledByPlatform();
        }
        Rlog.e(TAG, "isWfcEnabledByPlatform: ImsManager null, returning default value.");
        return false;
    }

    /**
     * Returns a platform configuration for WFC which may override the user
     * setting per slot. Note: WFC presumes that VoLTE is enabled (these are
     * configuration settings which must be done correctly).
     */
    public boolean isWfcEnabledByPlatform() {
        // We first read the per slot value. If doesn't exist, we read the general value. If still
        // doesn't exist, we use the hardcoded default value.
        if (SystemProperties.getInt(PROPERTY_DBG_WFC_AVAIL_OVERRIDE +
                Integer.toString(mPhoneId), SYSTEM_PROPERTY_NOT_SET) == 1  ||
                SystemProperties.getInt(
                        PROPERTY_DBG_WFC_AVAIL_OVERRIDE, SYSTEM_PROPERTY_NOT_SET) == 1) {
            return true;
        }

        return mContext.getResources().getBoolean(
                com.android.internal.R.bool.config_device_wfc_ims_available) &&
                getBooleanCarrierConfig(
                        CarrierConfigManager.KEY_CARRIER_WFC_IMS_AVAILABLE_BOOL) &&
                isGbaValid();
    }

    /**
     * Returns a platform configuration for Cross SIM which may override the user
     * setting per slot. Note: Cross SIM presumes that VoLTE is enabled (these are
     * configuration settings which must be done correctly).
     */
    public boolean isCrossSimEnabledByPlatform() {
        if (isWfcEnabledByPlatform()) {
            return getBooleanCarrierConfig(
                    CarrierConfigManager.KEY_CARRIER_CROSS_SIM_IMS_AVAILABLE_BOOL);
        }
        return false;
    }

    public boolean isSuppServicesOverUtEnabledByPlatform() {
        int cardState = mTelephonyManager.getSimState(mPhoneId);
        if (cardState != TelephonyManager.SIM_STATE_READY) {
            // Do not report enabled until we actually have an active subscription.
            return false;
        }
        return getBooleanCarrierConfig(CarrierConfigManager.KEY_CARRIER_SUPPORTS_SS_OVER_UT_BOOL) &&
                isGbaValid();
    }

    /**
     * If carrier requires that IMS is only available if GBA capable SIM is used,
     * then this function checks GBA bit in EF IST.
     *
     * Format of EF IST is defined in 3GPP TS 31.103 (Section 4.2.7).
     */
    private boolean isGbaValid() {
        if (getBooleanCarrierConfig(
                CarrierConfigManager.KEY_CARRIER_IMS_GBA_REQUIRED_BOOL)) {
            if (mTelephonyManager == null) {
                loge("isGbaValid: TelephonyManager is null, returning false.");
                return false;
            }
            TelephonyManager tm = mTelephonyManager.createForSubscriptionId(getSubId());
            String efIst = tm.getIsimIst();
            if (efIst == null) {
                loge("isGbaValid - ISF is NULL");
                return true;
            }
            boolean result = efIst != null && efIst.length() > 1 &&
                    (0x02 & (byte)efIst.charAt(1)) != 0;
            if (DBG) log("isGbaValid - GBA capable=" + result + ", ISF=" + efIst);
            return result;
        }
        return true;
    }

    /**
     * Will return with MmTel config value or return false if we receive an error from the AOSP
     * storage(ImsProvisioningController) implementation for that value.
     */
    private boolean getImsProvisionedBoolNoException(int capability, int tech) {
        int subId = getSubId();
        if (subId == SubscriptionManager.INVALID_SUBSCRIPTION_ID) {
            logw("getImsProvisionedBoolNoException subId is invalid");
            return false;
        }

        ITelephony iTelephony = getITelephony();
        if (iTelephony == null) {
            logw("getImsProvisionedBoolNoException ITelephony interface is invalid");
            return false;
        }

        try {
            return iTelephony.getImsProvisioningStatusForCapability(subId, capability, tech);
        } catch (RemoteException | IllegalArgumentException e) {
            logw("getImsProvisionedBoolNoException: operation failed for capability=" + capability
                    + ". Exception:" + e.getMessage() + ". Returning false.");
            return false;
        }
    }

    /**
     * Will return with Rcs config value or return false if we receive an error from the AOSP
     * storage(ImsProvisioningController) implementation for that value.
     */
    private boolean getRcsProvisionedBoolNoException(int capability, int tech) {
        int subId = getSubId();
        if (subId == SubscriptionManager.INVALID_SUBSCRIPTION_ID) {
            logw("getRcsProvisionedBoolNoException subId is invalid");
            return false;
        }

        ITelephony iTelephony = getITelephony();
        if (iTelephony == null) {
            logw("getRcsProvisionedBoolNoException ITelephony interface is invalid");
            return false;
        }

        try {
            return iTelephony.getRcsProvisioningStatusForCapability(subId, capability, tech);
        } catch (RemoteException | IllegalArgumentException e) {
            logw("getRcsProvisionedBoolNoException: operation failed for capability=" + capability
                    + ". Exception:" + e.getMessage() + ". Returning false.");
            return false;
        }
    }

    /**
     * Push configuration updates to the ImsService implementation.
     */
    public void updateImsServiceConfig() {
        try {
            int subId = getSubId();
            if (!isSubIdValid(subId)) {
                loge("updateImsServiceConfig: invalid sub id, skipping!");
                return;
            }
            PersistableBundle imsCarrierConfigs =
                    mConfigManager.getConfigByComponentForSubId(
                            CarrierConfigManager.Ims.KEY_PREFIX, subId);
            updateImsCarrierConfigs(imsCarrierConfigs);
            reevaluateCapabilities();
            mConfigUpdated = true;
        } catch (ImsException e) {
            loge("updateImsServiceConfig: ", e);
            mConfigUpdated = false;
        }
    }

    /**
     * Evaluate the state of the IMS capabilities and push the updated state to the ImsService.
     */
    private void reevaluateCapabilities() throws ImsException {
        logi("reevaluateCapabilities");
        CapabilityChangeRequest request = new CapabilityChangeRequest();
        boolean isNonTty = isNonTtyOrTtyOnVolteEnabled();
        boolean isNonTtyWifi = isNonTtyOrTtyOnVoWifiEnabled();
        updateVoiceCellFeatureValue(request, isNonTty);
        updateVoiceWifiFeatureAndProvisionedValues(request, isNonTtyWifi);
        updateCrossSimFeatureAndProvisionedValues(request);
        updateVideoCallFeatureValue(request, isNonTty);
        if (com.android.server.telecom.flags.Flags.businessCallComposer()) {
            updateCallComposerFeatureValue(request);
        } else {
            updateCallComposerFeatureValueLegacy(request);
        }
        // Only turn on IMS for RTT if there's an active subscription present. If not, the
        // modem will be in emergency-call-only mode and will use separate signaling to
        // establish an RTT emergency call.
        boolean isImsNeededForRtt = updateRttConfigValue() && isActiveSubscriptionPresent();
        // Supplementary services over UT do not require IMS registration. Do not alter IMS
        // registration based on UT.
        updateUtFeatureValue(request);

        // Send the batched request to the modem.
        changeMmTelCapability(request);

        if (isImsNeededForRtt || !isTurnOffImsAllowedByPlatform() || isImsNeeded(request)) {
            // Turn on IMS if it is used.
            // Also, if turning off is not allowed for current carrier,
            // we need to turn IMS on because it might be turned off before
            // phone switched to current carrier.
            log("reevaluateCapabilities: turnOnIms");
            turnOnIms();
        } else {
            // Turn off IMS if it is not used AND turning off is allowed for carrier.
            log("reevaluateCapabilities: turnOffIms");
            turnOffIms();
        }
    }

    /**
     * @return {@code true} if IMS needs to be turned on for the request, {@code false} if it can
     * be disabled.
     */
    private boolean isImsNeeded(CapabilityChangeRequest r) {
        return r.getCapabilitiesToEnable().stream()
                .anyMatch(c -> isImsNeededForCapability(c.getCapability()));
    }

    /**
     * @return {@code true} if IMS needs to be turned on for the capability.
     */
    private boolean isImsNeededForCapability(int capability) {
        if (com.android.server.telecom.flags.Flags.businessCallComposer()) {
            // UT does not require IMS to be enabled.
            return capability != MmTelFeature.MmTelCapabilities.CAPABILITY_TYPE_UT &&
                    // call composer is used as part of calling, so it should not trigger the
                    // enablement
                    // of IMS.
                    capability != MmTelFeature.MmTelCapabilities.CAPABILITY_TYPE_CALL_COMPOSER &&
                    capability != MmTelFeature.MmTelCapabilities
                            .CAPABILITY_TYPE_CALL_COMPOSER_BUSINESS_ONLY;
        } else {
            // UT does not require IMS to be enabled.
            return capability != MmTelFeature.MmTelCapabilities.CAPABILITY_TYPE_UT &&
                    // call composer is used as part of calling, so it should not trigger the
                    // enablement
                    // of IMS.
                    capability != MmTelFeature.MmTelCapabilities.CAPABILITY_TYPE_CALL_COMPOSER;
        }
    }

    /**
     * Update VoLTE config
     */
    private void updateVoiceCellFeatureValue(CapabilityChangeRequest request, boolean isNonTty) {
        boolean available = isVolteEnabledByPlatform();
        boolean enabled = isEnhanced4gLteModeSettingEnabledByUser();
        boolean isProvisioned = isVolteProvisionedOnDevice();
        boolean voLteFeatureOn = available && enabled && isNonTty && isProvisioned;
        boolean voNrAvailable = isImsOverNrEnabledByPlatform();

        log("updateVoiceCellFeatureValue: available = " + available
                + ", enabled = " + enabled
                + ", nonTTY = " + isNonTty
                + ", provisioned = " + isProvisioned
                + ", voLteFeatureOn = " + voLteFeatureOn
                + ", voNrAvailable = " + voNrAvailable);

        if (voLteFeatureOn) {
            request.addCapabilitiesToEnableForTech(
                    MmTelFeature.MmTelCapabilities.CAPABILITY_TYPE_VOICE,
                    ImsRegistrationImplBase.REGISTRATION_TECH_LTE);
        } else {
            request.addCapabilitiesToDisableForTech(
                    MmTelFeature.MmTelCapabilities.CAPABILITY_TYPE_VOICE,
                    ImsRegistrationImplBase.REGISTRATION_TECH_LTE);
        }
        if (voLteFeatureOn && voNrAvailable) {
            request.addCapabilitiesToEnableForTech(
                    MmTelFeature.MmTelCapabilities.CAPABILITY_TYPE_VOICE,
                    ImsRegistrationImplBase.REGISTRATION_TECH_NR);
        } else {
            request.addCapabilitiesToDisableForTech(
                    MmTelFeature.MmTelCapabilities.CAPABILITY_TYPE_VOICE,
                    ImsRegistrationImplBase.REGISTRATION_TECH_NR);
        }
    }

    /**
     * Update video call configuration
     */
    private void updateVideoCallFeatureValue(CapabilityChangeRequest request, boolean isNonTty) {
        boolean available = isVtEnabledByPlatform();
        boolean vtEnabled = isVtEnabledByUser();
        boolean advancedEnabled = isEnhanced4gLteModeSettingEnabledByUser();
        boolean isDataEnabled = isDataEnabled();
        boolean ignoreDataEnabledChanged = getBooleanCarrierConfig(
                CarrierConfigManager.KEY_IGNORE_DATA_ENABLED_CHANGED_FOR_VIDEO_CALLS);
        boolean isProvisioned = isVtProvisionedOnDevice();
        // TODO: Support carrier config setting about if VT settings should be associated with
        //  advanced calling settings.
        boolean isLteFeatureOn = available && vtEnabled && isNonTty && isProvisioned
                && advancedEnabled && (ignoreDataEnabledChanged || isDataEnabled);
        boolean nrAvailable = isImsOverNrEnabledByPlatform();

        log("updateVideoCallFeatureValue: available = " + available
                + ", vtenabled = " + vtEnabled
                + ", advancedCallEnabled = " + advancedEnabled
                + ", nonTTY = " + isNonTty
                + ", data enabled = " + isDataEnabled
                + ", provisioned = " + isProvisioned
                + ", isLteFeatureOn = " + isLteFeatureOn
                + ", nrAvailable = " + nrAvailable);

        if (isLteFeatureOn) {
            request.addCapabilitiesToEnableForTech(
                    MmTelFeature.MmTelCapabilities.CAPABILITY_TYPE_VIDEO,
                    ImsRegistrationImplBase.REGISTRATION_TECH_LTE);
            // VT does not differentiate transport today, do not set IWLAN.
        } else {
            request.addCapabilitiesToDisableForTech(
                    MmTelFeature.MmTelCapabilities.CAPABILITY_TYPE_VIDEO,
                    ImsRegistrationImplBase.REGISTRATION_TECH_LTE);
            // VT does not differentiate transport today, do not set IWLAN.
        }

        if (isLteFeatureOn && nrAvailable) {
            request.addCapabilitiesToEnableForTech(
                    MmTelFeature.MmTelCapabilities.CAPABILITY_TYPE_VIDEO,
                    ImsRegistrationImplBase.REGISTRATION_TECH_NR);
        } else {
            request.addCapabilitiesToDisableForTech(
                    MmTelFeature.MmTelCapabilities.CAPABILITY_TYPE_VIDEO,
                    ImsRegistrationImplBase.REGISTRATION_TECH_NR);
        }
    }

    /**
     * Update WFC config
     */
    private void updateVoiceWifiFeatureAndProvisionedValues(CapabilityChangeRequest request,
     boolean isNonTty) {
        boolean isNetworkRoaming =  false;
        if (mTelephonyManager == null) {
            loge("updateVoiceWifiFeatureAndProvisionedValues: TelephonyManager is null, assuming"
                    + " not roaming.");
        } else {
            TelephonyManager tm = mTelephonyManager.createForSubscriptionId(getSubId());
            isNetworkRoaming = tm.isNetworkRoaming();
        }

        boolean available = isWfcEnabledByPlatform();
        boolean enabled = isWfcEnabledByUser();
        boolean isProvisioned = isWfcProvisionedOnDevice();
        int mode = getWfcMode(isNetworkRoaming);
        boolean roaming = isWfcRoamingEnabledByUser();
        boolean isFeatureOn = available && enabled && isProvisioned;

        log("updateWfcFeatureAndProvisionedValues: available = " + available
                + ", enabled = " + enabled
                + ", mode = " + mode
                + ", provisioned = " + isProvisioned
                + ", roaming = " + roaming
                + ", isFeatureOn = " + isFeatureOn
                + ", isNonTtyWifi = " + isNonTty);

        if (isFeatureOn && isNonTty) {
            request.addCapabilitiesToEnableForTech(
                    MmTelFeature.MmTelCapabilities.CAPABILITY_TYPE_VOICE,
                    ImsRegistrationImplBase.REGISTRATION_TECH_IWLAN);
        } else {
            request.addCapabilitiesToDisableForTech(
                    MmTelFeature.MmTelCapabilities.CAPABILITY_TYPE_VOICE,
                    ImsRegistrationImplBase.REGISTRATION_TECH_IWLAN);
        }

        if (!isFeatureOn) {
            mode = ImsMmTelManager.WIFI_MODE_CELLULAR_PREFERRED;
            roaming = false;
        }
        setWfcModeInternal(mode);
        setWfcRoamingSettingInternal(roaming);
    }

    /**
     * Update Cross SIM config
     */
    private void updateCrossSimFeatureAndProvisionedValues(CapabilityChangeRequest request) {
        if (isCrossSimCallingEnabled()) {
            request.addCapabilitiesToEnableForTech(
                    MmTelFeature.MmTelCapabilities.CAPABILITY_TYPE_VOICE,
                    ImsRegistrationImplBase.REGISTRATION_TECH_CROSS_SIM);
        } else {
            request.addCapabilitiesToDisableForTech(
                    MmTelFeature.MmTelCapabilities.CAPABILITY_TYPE_VOICE,
                    ImsRegistrationImplBase.REGISTRATION_TECH_CROSS_SIM);
        }
    }


    private void updateUtFeatureValue(CapabilityChangeRequest request) {
        boolean isCarrierSupported = isSuppServicesOverUtEnabledByPlatform();

        // check new carrier config first KEY_MMTEL_REQUIRES_PROVISIONING_BUNDLE
        // if that returns false, check deprecated carrier config
        // KEY_CARRIER_UT_PROVISIONING_REQUIRED_BOOL
        boolean requiresProvisioning = isMmTelProvisioningRequired(CAPABILITY_TYPE_UT,
                REGISTRATION_TECH_LTE) || getBooleanCarrierConfig(
                        CarrierConfigManager.KEY_CARRIER_UT_PROVISIONING_REQUIRED_BOOL);
        // Count as "provisioned" if we do not require provisioning.
        boolean isProvisioned = true;
        if (requiresProvisioning) {
            ITelephony telephony = getITelephony();
            // Only track UT over LTE, since we do not differentiate between UT over LTE and IWLAN
            // currently.
            try {
                if (telephony != null) {
                    isProvisioned = telephony.getImsProvisioningStatusForCapability(getSubId(),
                            MmTelFeature.MmTelCapabilities.CAPABILITY_TYPE_UT,
                            ImsRegistrationImplBase.REGISTRATION_TECH_LTE);
                }
            } catch (RemoteException e) {
                loge("updateUtFeatureValue: couldn't reach telephony! returning provisioned");
            }
        }
        boolean isFeatureOn = isCarrierSupported && isProvisioned;

        log("updateUtFeatureValue: available = " + isCarrierSupported
                + ", isProvisioned = " + isProvisioned
                + ", enabled = " + isFeatureOn);

        if (isFeatureOn) {
            request.addCapabilitiesToEnableForTech(
                    MmTelFeature.MmTelCapabilities.CAPABILITY_TYPE_UT,
                    ImsRegistrationImplBase.REGISTRATION_TECH_LTE);
        } else {
            request.addCapabilitiesToDisableForTech(
                    MmTelFeature.MmTelCapabilities.CAPABILITY_TYPE_UT,
                    ImsRegistrationImplBase.REGISTRATION_TECH_LTE);
        }
    }

    /**
     * Update call composer capability
     */
    private void updateCallComposerFeatureValueLegacy(CapabilityChangeRequest request) {
        boolean isUserSetEnabled = isCallComposerEnabledByUser();
        boolean isCarrierConfigEnabled = getBooleanCarrierConfig(
                CarrierConfigManager.KEY_SUPPORTS_CALL_COMPOSER_BOOL);

        boolean isFeatureOn = isUserSetEnabled && isCarrierConfigEnabled;
        boolean nrAvailable = isImsOverNrEnabledByPlatform();

        log("updateCallComposerFeatureValue: isUserSetEnabled = " + isUserSetEnabled
                + ", isCarrierConfigEnabled = " + isCarrierConfigEnabled
                + ", isFeatureOn = " + isFeatureOn
                + ", nrAvailable = " + nrAvailable);

        if (isFeatureOn) {
            request.addCapabilitiesToEnableForTech(
                    MmTelFeature.MmTelCapabilities.CAPABILITY_TYPE_CALL_COMPOSER,
                    ImsRegistrationImplBase.REGISTRATION_TECH_LTE);
        } else {
            request.addCapabilitiesToDisableForTech(
                    MmTelFeature.MmTelCapabilities.CAPABILITY_TYPE_CALL_COMPOSER,
                    ImsRegistrationImplBase.REGISTRATION_TECH_LTE);
        }
        if (isFeatureOn && nrAvailable) {
            request.addCapabilitiesToEnableForTech(
                    MmTelFeature.MmTelCapabilities.CAPABILITY_TYPE_CALL_COMPOSER,
                    ImsRegistrationImplBase.REGISTRATION_TECH_NR);
        } else {
            request.addCapabilitiesToDisableForTech(
                    MmTelFeature.MmTelCapabilities.CAPABILITY_TYPE_CALL_COMPOSER,
                    ImsRegistrationImplBase.REGISTRATION_TECH_NR);
        }
    }

    /**
     * Update call composer capability
     */
    private void updateCallComposerFeatureValue(CapabilityChangeRequest request) {
        // query user set values
        boolean isCallComposerEnabledByUser = isCallComposerEnabledByUser();
        boolean isBusinessComposerEnabledByUser = isBusinessOnlyCallComposerEnabledByUser();
        // query carrier set values
        boolean isCallComposerEnabledByConfig = getBooleanCarrierConfig(
                CarrierConfigManager.KEY_SUPPORTS_CALL_COMPOSER_BOOL);
        boolean isBusinessComposerEnabledByConfig = getBooleanCarrierConfig(
                CarrierConfigManager.KEY_SUPPORTS_BUSINESS_CALL_COMPOSER_BOOL);
        // determine feature settings
        boolean isCallComposerFeatureOn = isCallComposerEnabledByUser
                && isCallComposerEnabledByConfig;
        boolean isBusinessOnlyComposerFeatureOn = isBusinessComposerEnabledByUser
                && isBusinessComposerEnabledByConfig;

        boolean nrAvailable = isImsOverNrEnabledByPlatform();

        logi("updateCallComposerFeatureValue:"
                + "  isCallComposerEnabledByUser = " + isCallComposerEnabledByUser
                + ", isCallComposerEnabledByConfig = " + isCallComposerEnabledByConfig
                + ", isCallComposerFeatureOn = " + isCallComposerFeatureOn
                + ", isBusinessOnlyComposerFeatureOn = " + isBusinessOnlyComposerFeatureOn
                + ", isBusinessComposerEnabledByUser = " + isBusinessComposerEnabledByUser
                + ", isBusinessComposerEnabledByConfig = " + isBusinessComposerEnabledByConfig
                + ", nrAvailable = " + nrAvailable);

        // enable/disable composers for LTE
        if (isCallComposerFeatureOn) {
            request.addCapabilitiesToEnableForTech(
                    MmTelFeature.MmTelCapabilities.CAPABILITY_TYPE_CALL_COMPOSER,
                    ImsRegistrationImplBase.REGISTRATION_TECH_LTE);
            request.addCapabilitiesToEnableForTech(
                    MmTelFeature.MmTelCapabilities.CAPABILITY_TYPE_CALL_COMPOSER_BUSINESS_ONLY,
                    ImsRegistrationImplBase.REGISTRATION_TECH_LTE);
        } else if (isBusinessOnlyComposerFeatureOn) {
            request.addCapabilitiesToEnableForTech(
                    MmTelFeature.MmTelCapabilities.CAPABILITY_TYPE_CALL_COMPOSER_BUSINESS_ONLY,
                    ImsRegistrationImplBase.REGISTRATION_TECH_LTE);
            request.addCapabilitiesToDisableForTech(
                    MmTelFeature.MmTelCapabilities.CAPABILITY_TYPE_CALL_COMPOSER,
                    ImsRegistrationImplBase.REGISTRATION_TECH_LTE);
        } else {
            request.addCapabilitiesToDisableForTech(
                    MmTelFeature.MmTelCapabilities.CAPABILITY_TYPE_CALL_COMPOSER,
                    ImsRegistrationImplBase.REGISTRATION_TECH_LTE);
            request.addCapabilitiesToDisableForTech(
                    MmTelFeature.MmTelCapabilities.CAPABILITY_TYPE_CALL_COMPOSER_BUSINESS_ONLY,
                    ImsRegistrationImplBase.REGISTRATION_TECH_LTE);
        }

        // enable/disable composers for NR
        if (isCallComposerFeatureOn && nrAvailable) {
            request.addCapabilitiesToEnableForTech(
                    MmTelFeature.MmTelCapabilities.CAPABILITY_TYPE_CALL_COMPOSER,
                    ImsRegistrationImplBase.REGISTRATION_TECH_NR);
            request.addCapabilitiesToEnableForTech(
                    MmTelFeature.MmTelCapabilities.CAPABILITY_TYPE_CALL_COMPOSER_BUSINESS_ONLY,
                    ImsRegistrationImplBase.REGISTRATION_TECH_NR);
        } else if (isBusinessOnlyComposerFeatureOn && nrAvailable) {
            request.addCapabilitiesToEnableForTech(
                    MmTelFeature.MmTelCapabilities.CAPABILITY_TYPE_CALL_COMPOSER_BUSINESS_ONLY,
                    ImsRegistrationImplBase.REGISTRATION_TECH_NR);
            request.addCapabilitiesToDisableForTech(
                    MmTelFeature.MmTelCapabilities.CAPABILITY_TYPE_CALL_COMPOSER,
                    ImsRegistrationImplBase.REGISTRATION_TECH_NR);
        } else {
            request.addCapabilitiesToDisableForTech(
                    MmTelFeature.MmTelCapabilities.CAPABILITY_TYPE_CALL_COMPOSER,
                    ImsRegistrationImplBase.REGISTRATION_TECH_NR);
            request.addCapabilitiesToDisableForTech(
                    MmTelFeature.MmTelCapabilities.CAPABILITY_TYPE_CALL_COMPOSER_BUSINESS_ONLY,
                    ImsRegistrationImplBase.REGISTRATION_TECH_NR);
        }
    }

    /**
     * Do NOT use this directly, instead use {@link #getInstance(Context, int)}.
     */
    private ImsManager(Context context, int phoneId) {
        mContext = context;
        mPhoneId = phoneId;
        mTelephonyManager = context.getSystemService(TelephonyManager.class);
        mSubscriptionManagerProxy = new DefaultSubscriptionManagerProxy(context);
        mSettingsProxy = new DefaultSettingsProxy();
        mConfigManager = (CarrierConfigManager) context.getSystemService(
                Context.CARRIER_CONFIG_SERVICE);
        mExecutor = new LazyExecutor();
        mBinderCache = new BinderCacheManager<>(ImsManager::getITelephonyInterface);
        // Start off with an empty MmTelFeatureConnection, which will be replaced one an
        // ImsService is available (ImsManager expects a non-null FeatureConnection)
        associate(null /*container*/, SubscriptionManager.INVALID_SUBSCRIPTION_ID);
    }

    /**
     * Used for testing only to inject dependencies.
     */
    @VisibleForTesting
    public ImsManager(Context context, int phoneId, MmTelFeatureConnectionFactory factory,
            SubscriptionManagerProxy subManagerProxy, SettingsProxy settingsProxy,
            BinderCacheManager binderCacheManager) {
        mContext = context;
        mPhoneId = phoneId;
        mMmTelFeatureConnectionFactory = factory;
        mTelephonyManager = context.getSystemService(TelephonyManager.class);
        mSubscriptionManagerProxy = subManagerProxy;
        mSettingsProxy = settingsProxy;
        mConfigManager = (CarrierConfigManager) context.getSystemService(
                Context.CARRIER_CONFIG_SERVICE);
        // Do not multithread tests
        mExecutor = Runnable::run;
        mBinderCache = binderCacheManager;
        // MmTelFeatureConnection should be replaced for tests with mMmTelFeatureConnectionFactory.
        associate(null /*container*/, SubscriptionManager.INVALID_SUBSCRIPTION_ID);
    }

    /*
     * Returns a flag indicating whether the IMS service is available.
     */
    public boolean isServiceAvailable() {
        return mMmTelConnectionRef.get().isBinderAlive();
    }

    /*
     * Returns a flag indicating whether the IMS service is ready to send requests to lower layers.
     */
    public boolean isServiceReady() {
        return mMmTelConnectionRef.get().isBinderReady();
    }

    /**
     * Opens the IMS service for making calls and/or receiving generic IMS calls as well as
     * register listeners for ECBM, Multiendpoint, and UT if the ImsService supports it.
     * <p>
     * The caller may make subsequent calls through {@link #makeCall}.
     * The IMS service will register the device to the operator's network with the credentials
     * (from ISIM) periodically in order to receive calls from the operator's network.
     * When the IMS service receives a new call, it will call
     * {@link MmTelFeature.Listener#onIncomingCall}
     * @param listener A {@link MmTelFeature.Listener}, which is the interface the
     * {@link MmTelFeature} uses to notify the framework of updates.
     * @param ecbmListener Listener used for ECBM indications.
     * @param multiEndpointListener Listener used for multiEndpoint indications.
     * @throws NullPointerException if {@code listener} is null
     * @throws ImsException if calling the IMS service results in an error
     */
    public void open(MmTelFeature.Listener listener, ImsEcbmStateListener ecbmListener,
            ImsExternalCallStateListener multiEndpointListener) throws ImsException {
        MmTelFeatureConnection c = getOrThrowExceptionIfServiceUnavailable();

        if (listener == null) {
            throw new NullPointerException("listener can't be null");
        }

        try {
            c.openConnection(listener, ecbmListener, multiEndpointListener);
        } catch (RemoteException e) {
            throw new ImsException("open()", e, ImsReasonInfo.CODE_LOCAL_IMS_SERVICE_DOWN);
        }
    }

    /**
     * Adds registration listener to the IMS service.
     *
     * @param serviceClass a service class specified in {@link ImsServiceClass}
     *      For VoLTE service, it MUST be a {@link ImsServiceClass#MMTEL}.
     * @param listener To listen to IMS registration events; It cannot be null
     * @throws NullPointerException if {@code listener} is null
     * @throws ImsException if calling the IMS service results in an error
     *
     * @deprecated Use {@link #addRegistrationListener(ImsConnectionStateListener)} instead.
     */
    public void addRegistrationListener(int serviceClass, ImsConnectionStateListener listener)
            throws ImsException {
        addRegistrationListener(listener);
    }

    /**
     * Adds registration listener to the IMS service.
     *
     * @param listener To listen to IMS registration events; It cannot be null
     * @throws NullPointerException if {@code listener} is null
     * @throws ImsException if calling the IMS service results in an error
     * @deprecated use {@link #addRegistrationCallback(RegistrationManager.RegistrationCallback,
     * Executor)} instead.
     */
    public void addRegistrationListener(ImsConnectionStateListener listener) throws ImsException {
        if (listener == null) {
            throw new NullPointerException("listener can't be null");
        }
        addRegistrationCallback(listener, getImsThreadExecutor());
        // connect the ImsConnectionStateListener to the new CapabilityCallback.
        addCapabilitiesCallback(new ImsMmTelManager.CapabilityCallback() {
            @Override
            public void onCapabilitiesStatusChanged(
                    MmTelFeature.MmTelCapabilities capabilities) {
                listener.onFeatureCapabilityChangedAdapter(getRegistrationTech(), capabilities);
            }
        }, getImsThreadExecutor());
        log("Registration Callback registered.");
    }

    /**
     * Adds a callback that gets called when IMS registration has changed for the slot ID
     * associated with this ImsManager.
     * @param callback A {@link RegistrationManager.RegistrationCallback} that will notify the
     *                 caller when IMS registration status has changed.
     * @param executor The Executor that the callback should be called on.
     * @throws ImsException when the ImsService connection is not available.
     */
    public void addRegistrationCallback(RegistrationManager.RegistrationCallback callback,
            Executor executor)
            throws ImsException {
        if (callback == null) {
            throw new NullPointerException("registration callback can't be null");
        }

        try {
            callback.setExecutor(executor);
            mMmTelConnectionRef.get().addRegistrationCallback(callback.getBinder());
            log("Registration Callback registered.");
            // Only record if there isn't a RemoteException.
        } catch (IllegalStateException e) {
            throw new ImsException("addRegistrationCallback(IRIB)", e,
                    ImsReasonInfo.CODE_LOCAL_IMS_SERVICE_DOWN);
        }
    }

    /**
     * Removes a previously added registration callback that was added via
     * {@link #addRegistrationCallback(RegistrationManager.RegistrationCallback, Executor)} .
     * @param callback A {@link RegistrationManager.RegistrationCallback} that was previously added.
     */
    public void removeRegistrationListener(RegistrationManager.RegistrationCallback callback) {
        if (callback == null) {
            throw new NullPointerException("registration callback can't be null");
        }
        mMmTelConnectionRef.get().removeRegistrationCallback(callback.getBinder());
        log("Registration callback removed.");
    }

    /**
     * Adds a callback that gets called when IMS registration has changed for a specific
     * subscription.
     *
     * @param callback A {@link RegistrationManager.RegistrationCallback} that will notify the
     *                 caller when IMS registration status has changed.
     * @param subId The subscription ID to register this registration callback for.
     * @throws RemoteException when the ImsService connection is not available.
     */
    public void addRegistrationCallbackForSubscription(IImsRegistrationCallback callback, int subId)
            throws RemoteException {
        if (callback == null) {
            throw new IllegalArgumentException("registration callback can't be null");
        }
        mMmTelConnectionRef.get().addRegistrationCallbackForSubscription(callback, subId);
        log("Registration Callback registered.");
        // Only record if there isn't a RemoteException.
    }

    /**
     * Removes a previously registered {@link RegistrationManager.RegistrationCallback} callback
     * that is associated with a specific subscription.
     */
    public void removeRegistrationCallbackForSubscription(IImsRegistrationCallback callback,
            int subId) {
        if (callback == null) {
            throw new IllegalArgumentException("registration callback can't be null");
        }
        mMmTelConnectionRef.get().removeRegistrationCallbackForSubscription(callback, subId);
    }

    /**
     * Adds a callback that gets called when IMS emergency registration has changed for a specific
     * subscription.
     *
     * @param callback A {@link RegistrationManager.RegistrationCallback} that will notify the
     *                 caller when IMS registration status has changed.
     * @param subId The subscription ID to register this registration callback for.
     * @throws RemoteException when the ImsService connection is not available.
     */
    public void addEmergencyRegistrationCallbackForSubscription(
            IImsRegistrationCallback callback, int subId) throws RemoteException {
        if (callback == null) {
            throw new IllegalArgumentException("emergency registration callback can't be null");
        }
        mMmTelConnectionRef.get().addEmergencyRegistrationCallbackForSubscription(callback, subId);
        log("Emergency registration Callback registered.");
        // Only record if there isn't a RemoteException.
    }

    /**
     * Removes a previously registered {@link RegistrationManager.RegistrationCallback} callback
     * that is associated with a specific subscription.
     */
    public void removeEmergencyRegistrationCallbackForSubscription(
            IImsRegistrationCallback callback, int subId) {
        if (callback == null) {
            throw new IllegalArgumentException("emergency registration callback can't be null");
        }
        mMmTelConnectionRef.get().removeEmergencyRegistrationCallbackForSubscription(callback,
                subId);
    }

    /**
     * Adds a callback that gets called when MMTel capability status has changed, for example when
     * Voice over IMS or VT over IMS is not available currently.
     * @param callback A {@link ImsMmTelManager.CapabilityCallback} that will notify the caller when
     *                 MMTel capability status has changed.
     * @param executor The Executor that the callback should be called on.
     * @throws ImsException when the ImsService connection is not available.
     */
    public void addCapabilitiesCallback(ImsMmTelManager.CapabilityCallback callback,
            Executor executor) throws ImsException {
        if (callback == null) {
            throw new NullPointerException("capabilities callback can't be null");
        }

        MmTelFeatureConnection c = getOrThrowExceptionIfServiceUnavailable();
        try {
            callback.setExecutor(executor);
            c.addCapabilityCallback(callback.getBinder());
            log("Capability Callback registered.");
            // Only record if there isn't a RemoteException.
        } catch (IllegalStateException e) {
            throw new ImsException("addCapabilitiesCallback(IF)", e,
                    ImsReasonInfo.CODE_LOCAL_IMS_SERVICE_DOWN);
        }
    }

    /**
     * Removes a previously registered {@link ImsMmTelManager.CapabilityCallback} callback.
     */
    public void removeCapabilitiesCallback(ImsMmTelManager.CapabilityCallback callback) {
        if (callback == null) {
            throw new NullPointerException("capabilities callback can't be null");
        }

        try {
            MmTelFeatureConnection c = getOrThrowExceptionIfServiceUnavailable();
            c.removeCapabilityCallback(callback.getBinder());
        } catch (ImsException e) {
            log("Exception removing Capability , exception=" + e);
        }
    }

    /**
     * Adds a callback that gets called when IMS capabilities have changed for a specified
     * subscription.
     * @param callback A {@link ImsMmTelManager.CapabilityCallback} that will notify the caller
     *                 when the IMS Capabilities have changed.
     * @param subId The subscription that is associated with the callback.
     * @throws RemoteException when the ImsService connection is not available.
     */
    public void addCapabilitiesCallbackForSubscription(IImsCapabilityCallback callback, int subId)
            throws RemoteException {
        if (callback == null) {
            throw new IllegalArgumentException("registration callback can't be null");
        }
        mMmTelConnectionRef.get().addCapabilityCallbackForSubscription(callback, subId);
        log("Capability Callback registered for subscription.");
    }

    /**
     * Removes a previously registered {@link ImsMmTelManager.CapabilityCallback} that was
     * associated with a specific subscription.
     */
    public void removeCapabilitiesCallbackForSubscription(IImsCapabilityCallback callback,
            int subId) {
        if (callback == null) {
            throw new IllegalArgumentException("capabilities callback can't be null");
        }
        mMmTelConnectionRef.get().removeCapabilityCallbackForSubscription(callback, subId);
    }

    /**
     * Removes the registration listener from the IMS service.
     *
     * @param listener Previously registered listener that will be removed. Can not be null.
     * @throws NullPointerException if {@code listener} is null
     * @throws ImsException if calling the IMS service results in an error
     * instead.
     */
    public void removeRegistrationListener(ImsConnectionStateListener listener)
            throws ImsException {
        if (listener == null) {
            throw new NullPointerException("listener can't be null");
        }

        MmTelFeatureConnection c = getOrThrowExceptionIfServiceUnavailable();
        c.removeRegistrationCallback(listener.getBinder());
        log("Registration Callback/Listener registered.");
        // Only record if there isn't a RemoteException.
    }

    /**
     * Adds a callback that gets called when Provisioning has changed for a specified subscription.
     * @param callback A {@link ProvisioningManager.Callback} that will notify the caller when
     *                 provisioning has changed.
     * @param subId The subscription that is associated with the callback.
     * @throws IllegalStateException when the {@link ImsService} connection is not available.
     * @throws IllegalArgumentException when the {@link IImsConfigCallback} argument is null.
     */
    public void addProvisioningCallbackForSubscription(IImsConfigCallback callback, int subId) {
        if (callback == null) {
            throw new IllegalArgumentException("provisioning callback can't be null");
        }

        mMmTelConnectionRef.get().addProvisioningCallbackForSubscription(callback, subId);
        log("Capability Callback registered for subscription.");
    }

    /**
     * Removes a previously registered {@link ProvisioningManager.Callback} that was associated with
     * a specific subscription.
     * @throws IllegalStateException when the {@link ImsService} connection is not available.
     * @throws IllegalArgumentException when the {@link IImsConfigCallback} argument is null.
     */
    public void removeProvisioningCallbackForSubscription(IImsConfigCallback callback, int subId) {
        if (callback == null) {
            throw new IllegalArgumentException("provisioning callback can't be null");
        }

        mMmTelConnectionRef.get().removeProvisioningCallbackForSubscription(callback, subId);
    }

    public @ImsRegistrationImplBase.ImsRegistrationTech int getRegistrationTech() {
        try {
            return mMmTelConnectionRef.get().getRegistrationTech();
        } catch (RemoteException e) {
            logw("getRegistrationTech: no connection to ImsService.");
            return ImsRegistrationImplBase.REGISTRATION_TECH_NONE;
        }
    }

    public void getRegistrationTech(Consumer<Integer> callback) {
        getImsThreadExecutor().execute(() -> {
            try {
                int tech = mMmTelConnectionRef.get().getRegistrationTech();
                callback.accept(tech);
            } catch (RemoteException e) {
                logw("getRegistrationTech(C): no connection to ImsService.");
                callback.accept(ImsRegistrationImplBase.REGISTRATION_TECH_NONE);
            }
        });
    }

    /**
     * Closes the connection opened in {@link #open} and removes the associated listeners.
     */
    public void close() {
        mMmTelConnectionRef.get().closeConnection();
    }

    /**
     * Create or get the existing configuration interface to provision / withdraw the supplementary
     * service settings.
     * <p>
     * There can only be one connection to the UT interface, so this may only be called by one
     * ImsManager instance. Otherwise, an IllegalStateException will be thrown.
     *
     * @return the Ut interface instance
     * @throws ImsException if getting the Ut interface results in an error
     */
    public ImsUtInterface createOrGetSupplementaryServiceConfiguration() throws ImsException {
        ImsUt iUt;
        MmTelFeatureConnection c = getOrThrowExceptionIfServiceUnavailable();
        try {
            iUt = c.createOrGetUtInterface();
            if (iUt == null) {
                throw new ImsException("getSupplementaryServiceConfiguration()",
                        ImsReasonInfo.CODE_UT_NOT_SUPPORTED);
            }
        } catch (RemoteException e) {
            throw new ImsException("getSupplementaryServiceConfiguration()", e,
                    ImsReasonInfo.CODE_LOCAL_IMS_SERVICE_DOWN);
        }
        return iUt;
    }

    /**
     * Creates a {@link ImsCallProfile} from the service capabilities & IMS registration state.
     *
     * @param serviceType a service type that is specified in {@link ImsCallProfile}
     *        {@link ImsCallProfile#SERVICE_TYPE_NONE}
     *        {@link ImsCallProfile#SERVICE_TYPE_NORMAL}
     *        {@link ImsCallProfile#SERVICE_TYPE_EMERGENCY}
     * @param callType a call type that is specified in {@link ImsCallProfile}
     *        {@link ImsCallProfile#CALL_TYPE_VOICE}
     *        {@link ImsCallProfile#CALL_TYPE_VT}
     *        {@link ImsCallProfile#CALL_TYPE_VT_TX}
     *        {@link ImsCallProfile#CALL_TYPE_VT_RX}
     *        {@link ImsCallProfile#CALL_TYPE_VT_NODIR}
     *        {@link ImsCallProfile#CALL_TYPE_VS}
     *        {@link ImsCallProfile#CALL_TYPE_VS_TX}
     *        {@link ImsCallProfile#CALL_TYPE_VS_RX}
     * @return a {@link ImsCallProfile} object
     * @throws ImsException if calling the IMS service results in an error
     */
    public ImsCallProfile createCallProfile(int serviceType, int callType) throws ImsException {
        MmTelFeatureConnection c = getOrThrowExceptionIfServiceUnavailable();

        try {
            return c.createCallProfile(serviceType, callType);
        } catch (RemoteException e) {
            throw new ImsException("createCallProfile()", e,
                    ImsReasonInfo.CODE_LOCAL_IMS_SERVICE_DOWN);
        }
    }

    /**
     * Informs the {@link ImsService} of the {@link RtpHeaderExtensionType}s which the framework
     * intends to use for incoming and outgoing calls.
     * <p>
     * See {@link RtpHeaderExtensionType} for more information.
     * @param types The RTP header extension types to use for incoming and outgoing calls, or
     *              empty list if none defined.
     * @throws ImsException
     */
    public void setOfferedRtpHeaderExtensionTypes(@NonNull Set<RtpHeaderExtensionType> types)
            throws ImsException {
        MmTelFeatureConnection c = getOrThrowExceptionIfServiceUnavailable();

        try {
            c.changeOfferedRtpHeaderExtensionTypes(types);
        } catch (RemoteException e) {
            throw new ImsException("setOfferedRtpHeaderExtensionTypes()", e,
                    ImsReasonInfo.CODE_LOCAL_IMS_SERVICE_DOWN);
        }
    }

    /**
     * Creates a {@link ImsCall} to make a call.
     *
     * @param profile a call profile to make the call
     *      (it contains service type, call type, media information, etc.)
     * @param callees participants to invite the conference call
     * @param listener listen to the call events from {@link ImsCall}
     * @return a {@link ImsCall} object
     * @throws ImsException if calling the IMS service results in an error
     */
    public ImsCall makeCall(ImsCallProfile profile, String[] callees,
            ImsCall.Listener listener) throws ImsException {
        if (DBG) {
            log("makeCall :: profile=" + profile);
        }

        // Check we are still alive
        getOrThrowExceptionIfServiceUnavailable();

        ImsCall call = new ImsCall(mContext, profile);

        call.setListener(listener);
        ImsCallSession session = createCallSession(profile);

        if ((callees != null) && (callees.length == 1) && !(session.isMultiparty())) {
            call.start(session, callees[0]);
        } else {
            call.start(session, callees);
        }

        return call;
    }

    /**
     * Creates a {@link ImsCall} to take an incoming call.
     *
     * @param listener to listen to the call events from {@link ImsCall}
     * @return a {@link ImsCall} object
     * @throws ImsException if calling the IMS service results in an error
     */
    public ImsCall takeCall(IImsCallSession session, ImsCall.Listener listener)
            throws ImsException {
        // Check we are still alive
        getOrThrowExceptionIfServiceUnavailable();
        try {
            if (session == null) {
                throw new ImsException("No pending session for the call",
                        ImsReasonInfo.CODE_LOCAL_NO_PENDING_CALL);
            }

            ImsCall call = new ImsCall(mContext, session.getCallProfile());

            call.attachSession(new ImsCallSession(session));
            call.setListener(listener);

            if (Flags.ignoreAlreadyTerminatedIncomingCallBeforeRegisteringListener()){
                // If the call session already terminated before registering callback then the
                // framework should ignore incoming call.
                if (!ImsCall.isSessionAlive(call.getSession())) {
                    loge("takeCall : ImsCallSession is not alive");
                    throw new ImsException("takeCall() : ImsCallSession is not alive",
                            ImsReasonInfo.CODE_UNSPECIFIED);
                }
            }
            return call;
        } catch (Throwable t) {
            loge("takeCall caught: ", t);
            throw new ImsException("takeCall()", t, ImsReasonInfo.CODE_UNSPECIFIED);
        }
    }

    /**
     * Gets the config interface to get/set service/capability parameters.
     *
     * @return the ImsConfig instance.
     * @throws ImsException if getting the setting interface results in an error.
     */
    @UnsupportedAppUsage
    public ImsConfig getConfigInterface() throws ImsException {
        MmTelFeatureConnection c = getOrThrowExceptionIfServiceUnavailable();

        IImsConfig config = c.getConfig();
        if (config == null) {
            throw new ImsException("getConfigInterface()",
                    ImsReasonInfo.CODE_LOCAL_SERVICE_UNAVAILABLE);
        }
        return new ImsConfig(config);
    }

    /**
     * Enable or disable a capability for multiple radio technologies.
     */
    public void changeMmTelCapability(boolean isEnabled, int capability,
            int... radioTechs) throws ImsException {
        CapabilityChangeRequest request = new CapabilityChangeRequest();
        if (isEnabled) {
            for (int tech : radioTechs) {
                request.addCapabilitiesToEnableForTech(capability, tech);
            }
        } else {
            for (int tech : radioTechs) {
                request.addCapabilitiesToDisableForTech(capability, tech);
            }
        }
        changeMmTelCapability(request);
    }

    private void changeMmTelCapability(CapabilityChangeRequest r) throws ImsException {
        MmTelFeatureConnection c = getOrThrowExceptionIfServiceUnavailable();
        try {
            logi("changeMmTelCapability: changing capabilities for sub: " + getSubId()
                    + ", request: " + r);
            c.changeEnabledCapabilities(r, null);
            ImsStatsCallback cb = getStatsCallback(mPhoneId);
            if (cb == null) {
                return;
            }
            for (CapabilityChangeRequest.CapabilityPair enabledCaps : r.getCapabilitiesToEnable()) {
                cb.onEnabledMmTelCapabilitiesChanged(enabledCaps.getCapability(),
                        enabledCaps.getRadioTech(), true);
            }
            for (CapabilityChangeRequest.CapabilityPair disabledCaps :
                    r.getCapabilitiesToDisable()) {
                cb.onEnabledMmTelCapabilitiesChanged(disabledCaps.getCapability(),
                        disabledCaps.getRadioTech(), false);
            }
        } catch (RemoteException e) {
            throw new ImsException("changeMmTelCapability(CCR)", e,
                    ImsReasonInfo.CODE_LOCAL_IMS_SERVICE_DOWN);
        }
    }

    private boolean updateRttConfigValue() {
        // If there's no active sub anywhere on the device, enable RTT on the modem so that
        // the device can make an emergency call.

        boolean isActiveSubscriptionPresent = isActiveSubscriptionPresent();
        boolean isCarrierSupported =
                getBooleanCarrierConfig(CarrierConfigManager.KEY_RTT_SUPPORTED_BOOL)
                || !isActiveSubscriptionPresent;

        int defaultRttMode =
                getIntCarrierConfig(CarrierConfigManager.KEY_DEFAULT_RTT_MODE_INT);
        int rttMode = mSettingsProxy.getSecureIntSetting(mContext.getContentResolver(),
                Settings.Secure.RTT_CALLING_MODE, defaultRttMode);
        logi("defaultRttMode = " + defaultRttMode + " rttMode = " + rttMode);
        boolean isRttAlwaysOnCarrierConfig = getBooleanCarrierConfig(
                CarrierConfigManager.KEY_IGNORE_RTT_MODE_SETTING_BOOL);
        if (isRttAlwaysOnCarrierConfig && rttMode == defaultRttMode) {
            mSettingsProxy.putSecureIntSetting(mContext.getContentResolver(),
                    Settings.Secure.RTT_CALLING_MODE, defaultRttMode);
        }

        boolean isRttUiSettingEnabled = mSettingsProxy.getSecureIntSetting(
                mContext.getContentResolver(), Settings.Secure.RTT_CALLING_MODE, 0) != 0;

        boolean shouldImsRttBeOn = isRttUiSettingEnabled || isRttAlwaysOnCarrierConfig;
        logi("update RTT: settings value: " + isRttUiSettingEnabled + " always-on carrierconfig: "
                + isRttAlwaysOnCarrierConfig
                + "isActiveSubscriptionPresent: " + isActiveSubscriptionPresent);

        if (isCarrierSupported) {
            setRttConfig(shouldImsRttBeOn);
        } else {
            setRttConfig(false);
        }
        return isCarrierSupported && shouldImsRttBeOn;
    }

    private void setRttConfig(boolean enabled) {
        final int value = enabled ? ProvisioningManager.PROVISIONING_VALUE_ENABLED :
                ProvisioningManager.PROVISIONING_VALUE_DISABLED;
        getImsThreadExecutor().execute(() -> {
            try {
                logi("Setting RTT enabled to " + enabled);
                getConfigInterface().setProvisionedValue(
                        ImsConfig.ConfigConstants.RTT_SETTING_ENABLED, value);
            } catch (ImsException e) {
                loge("Unable to set RTT value enabled to " + enabled + ": " + e);
            }
        });
    }

    public boolean queryMmTelCapability(
            @MmTelFeature.MmTelCapabilities.MmTelCapability int capability,
            @ImsRegistrationImplBase.ImsRegistrationTech int radioTech) throws ImsException {
        MmTelFeatureConnection c = getOrThrowExceptionIfServiceUnavailable();

        BlockingQueue<Boolean> result = new LinkedBlockingDeque<>(1);

        try {
            c.queryEnabledCapabilities(capability, radioTech, new IImsCapabilityCallback.Stub() {
                        @Override
                        public void onQueryCapabilityConfiguration(int resCap, int resTech,
                                boolean enabled) {
                            if (resCap == capability && resTech == radioTech) {
                                result.offer(enabled);
                            }
                        }

                        @Override
                        public void onChangeCapabilityConfigurationError(int capability,
                                int radioTech, int reason) {

                        }

                        @Override
                        public void onCapabilitiesStatusChanged(int config) {

                        }
                    });
        } catch (RemoteException e) {
            throw new ImsException("queryMmTelCapability()", e,
                    ImsReasonInfo.CODE_LOCAL_IMS_SERVICE_DOWN);
        }

        try {
            return result.poll(RESPONSE_WAIT_TIME_MS, TimeUnit.MILLISECONDS);
        } catch (InterruptedException e) {
            logw("queryMmTelCapability: interrupted while waiting for response");
        }
        return false;
    }

    public boolean queryMmTelCapabilityStatus(
            @MmTelFeature.MmTelCapabilities.MmTelCapability int capability,
            @ImsRegistrationImplBase.ImsRegistrationTech int radioTech) throws ImsException {
        MmTelFeatureConnection c = getOrThrowExceptionIfServiceUnavailable();

        if (getRegistrationTech() != radioTech)
            return false;

        try {

            MmTelFeature.MmTelCapabilities capabilities =
                    c.queryCapabilityStatus();

            return capabilities.isCapable(capability);
        } catch (RemoteException e) {
            throw new ImsException("queryMmTelCapabilityStatus()", e,
                    ImsReasonInfo.CODE_LOCAL_IMS_SERVICE_DOWN);
        }
    }

    /**
     * Enable the RTT configuration on this device.
     */
    public void setRttEnabled(boolean enabled) {
        if (enabled) {
            // Override this setting if RTT is enabled.
            setEnhanced4gLteModeSetting(true /*enabled*/);
        }
        setRttConfig(enabled);
    }

    /**
     * Set the TTY mode. This is the actual tty mode (varies depending on peripheral status)
     */
    public void setTtyMode(int ttyMode) throws ImsException {
        boolean isNonTtyOrTtyOnVolteEnabled = isTtyOnVoLteCapable() ||
                (ttyMode == TelecomManager.TTY_MODE_OFF);

        boolean isNonTtyOrTtyOnWifiEnabled = isTtyOnVoWifiCapable() ||
                (ttyMode == TelecomManager.TTY_MODE_OFF);

        CapabilityChangeRequest request = new CapabilityChangeRequest();
        updateVoiceCellFeatureValue(request, isNonTtyOrTtyOnVolteEnabled);
        updateVideoCallFeatureValue(request, isNonTtyOrTtyOnVolteEnabled);
        updateVoiceWifiFeatureAndProvisionedValues(request, isNonTtyOrTtyOnWifiEnabled);
        // update MMTEL caps for the new configuration.
        changeMmTelCapability(request);
        if (isImsNeeded(request)) {
            // Only turn on IMS if voice/video is enabled now in the new configuration.
            turnOnIms();
        }
    }

    /**
     * Sets the UI TTY mode. This is the preferred TTY mode that the user sets in the call
     * settings screen.
     * @param uiTtyMode TTY Mode, valid options are:
     *         - {@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 Message that will be called by the ImsService when it has completed this
     *           operation or null if not waiting for an async response. The Message must contain a
     *           valid {@link Message#replyTo} {@link android.os.Messenger}, since it will be passed
     *           through Binder to another process.
     */
    public void setUiTTYMode(Context context, int uiTtyMode, Message onComplete)
            throws ImsException {

        MmTelFeatureConnection c = getOrThrowExceptionIfServiceUnavailable();
        try {
            c.setUiTTYMode(uiTtyMode, onComplete);
        } catch (RemoteException e) {
            throw new ImsException("setTTYMode()", e,
                    ImsReasonInfo.CODE_LOCAL_IMS_SERVICE_DOWN);
        }
    }

    /**
     * Notifies the change of user setting.
     *
     * @param enabled indicates whether the user setting for call waiting is enabled or not.
     */
    public void setTerminalBasedCallWaitingStatus(boolean enabled) throws ImsException {
        MmTelFeatureConnection c = getOrThrowExceptionIfServiceUnavailable();
        try {
            c.setTerminalBasedCallWaitingStatus(enabled);
        } catch (ServiceSpecificException se) {
            if (se.errorCode
                    == android.telephony.ims.ImsException.CODE_ERROR_UNSUPPORTED_OPERATION) {
                throw new ImsException("setTerminalBasedCallWaitingStatus()", se,
                        ImsReasonInfo.CODE_LOCAL_IMS_NOT_SUPPORTED_ON_DEVICE);
            } else {
                throw new ImsException("setTerminalBasedCallWaitingStatus()", se,
                        ImsReasonInfo.CODE_LOCAL_INTERNAL_ERROR);
            }
        } catch (RemoteException e) {
            throw new ImsException("setTerminalBasedCallWaitingStatus()", e,
                    ImsReasonInfo.CODE_LOCAL_IMS_SERVICE_DOWN);
        }
    }

    /**
     * Returns whether all of the capabilities specified are capable or not.
     */
    public boolean isCapable(@ImsService.ImsServiceCapability long capabilities)
            throws ImsException {
        MmTelFeatureConnection c = getOrThrowExceptionIfServiceUnavailable();
        try {
            return c.isCapable(capabilities);
        } catch (RemoteException e) {
            throw new ImsException("isCapable()", e,
                    ImsReasonInfo.CODE_LOCAL_IMS_SERVICE_DOWN);
        }
    }

    /**
     * Notifies SRVCC started.
     * @param cb The callback to receive the list of {@link SrvccCall}.
     */
    public void notifySrvccStarted(ISrvccStartedCallback cb)
            throws ImsException {
        MmTelFeatureConnection c = getOrThrowExceptionIfServiceUnavailable();
        try {
            c.notifySrvccStarted(cb);
        } catch (RemoteException e) {
            throw new ImsException("notifySrvccStarted", e,
                    ImsReasonInfo.CODE_LOCAL_IMS_SERVICE_DOWN);
        }
    }

    /**
     * Notifies SRVCC is completed, IMS service will hang up all calls.
     */
    public void notifySrvccCompleted() throws ImsException {
        MmTelFeatureConnection c = getOrThrowExceptionIfServiceUnavailable();
        try {
            c.notifySrvccCompleted();
        } catch (RemoteException e) {
            throw new ImsException("notifySrvccCompleted", e,
                    ImsReasonInfo.CODE_LOCAL_IMS_SERVICE_DOWN);
        }
    }

    /**
     * Notifies SRVCC failed. IMS service will recover and continue calls over IMS.
     */
    public void notifySrvccFailed() throws ImsException {
        MmTelFeatureConnection c = getOrThrowExceptionIfServiceUnavailable();
        try {
            c.notifySrvccFailed();
        } catch (RemoteException e) {
            throw new ImsException("notifySrvccFailed", e,
                    ImsReasonInfo.CODE_LOCAL_IMS_SERVICE_DOWN);
        }
    }

    /**
     * Notifies SRVCC is canceled. IMS service will recover and continue calls over IMS.
     */
    public void notifySrvccCanceled() throws ImsException {
        MmTelFeatureConnection c = getOrThrowExceptionIfServiceUnavailable();
        try {
            c.notifySrvccCanceled();
        } catch (RemoteException e) {
            throw new ImsException("notifySrvccCanceled", e,
                    ImsReasonInfo.CODE_LOCAL_IMS_SERVICE_DOWN);
        }
    }

    /**
     * Notifies that radio triggered IMS deregistration.
     * @param reason the reason why the deregistration is triggered.
     */
    public void triggerDeregistration(@ImsRegistrationImplBase.ImsDeregistrationReason int reason)
            throws ImsException {
        MmTelFeatureConnection c = getOrThrowExceptionIfServiceUnavailable();
        try {
            c.triggerDeregistration(reason);
        } catch (RemoteException e) {
            throw new ImsException("triggerDeregistration", e,
                    ImsReasonInfo.CODE_LOCAL_IMS_SERVICE_DOWN);
        }
    }

    public int getImsServiceState() throws ImsException {
        MmTelFeatureConnection c = getOrThrowExceptionIfServiceUnavailable();
        return c.getFeatureState();
    }

    public void setMediaThreshold(@MediaQualityStatus.MediaSessionType int sessionType,
            MediaThreshold threshold) throws ImsException {
        MmTelFeatureConnection c = getOrThrowExceptionIfServiceUnavailable();
        try {
            c.setMediaThreshold(sessionType, threshold);
        } catch (RemoteException e) {
            loge("setMediaThreshold Failed.");
        }
    }

    public MediaQualityStatus queryMediaQualityStatus (
            @MediaQualityStatus.MediaSessionType int sessionType) throws ImsException {
        MmTelFeatureConnection c = getOrThrowExceptionIfServiceUnavailable();
        try {
            return c.queryMediaQualityStatus(sessionType);
        } catch (RemoteException e) {
            loge("queryMediaQualityStatus Failed.");
            return null;
        }
    }

    @Override
    public void updateFeatureState(int state) {
        mMmTelConnectionRef.get().updateFeatureState(state);
    }

    @Override
    public void updateFeatureCapabilities(long capabilities) {
        mMmTelConnectionRef.get().updateFeatureCapabilities(capabilities);
    }

    public void getImsServiceState(Consumer<Integer> result) {
        getImsThreadExecutor().execute(() -> {
            try {
                result.accept(getImsServiceState());
            } catch (ImsException e) {
                // In the case that the ImsService is not available, report unavailable.
                result.accept(ImsFeature.STATE_UNAVAILABLE);
            }
        });
    }

    /**
     * @return An Executor that should be used to execute potentially long-running operations.
     */
    private Executor getImsThreadExecutor() {
        return mExecutor;
    }

    /**
     * Get the boolean config from carrier config manager.
     *
     * @param key config key defined in CarrierConfigManager
     * @return boolean value of corresponding key.
     */
    private boolean getBooleanCarrierConfig(String key) {
        PersistableBundle b = null;
        if (mConfigManager != null) {
            // If an invalid subId is used, this bundle will contain default values.
            b = mConfigManager.getConfigForSubId(getSubId());
        }
        if (b != null) {
            return b.getBoolean(key);
        } else {
            // Return static default defined in CarrierConfigManager.
            return CarrierConfigManager.getDefaultConfig().getBoolean(key);
        }
    }

    /**
     * Get the int config from carrier config manager.
     *
     * @param key config key defined in CarrierConfigManager
     * @return integer value of corresponding key.
     */
    private int getIntCarrierConfig(String key) {
        PersistableBundle b = null;
        if (mConfigManager != null) {
            // If an invalid subId is used, this bundle will contain default values.
            b = mConfigManager.getConfigForSubId(getSubId());
        }
        if (b != null) {
            return b.getInt(key);
        } else {
            // Return static default defined in CarrierConfigManager.
            return CarrierConfigManager.getDefaultConfig().getInt(key);
        }
    }

    /**
     * Get the int[] config from carrier config manager.
     *
     * @param key config key defined in CarrierConfigManager
     * @return int[] values of the corresponding key.
     */
    private int[] getIntArrayCarrierConfig(String key) {
        PersistableBundle b = null;
        if (mConfigManager != null) {
            // If an invalid subId is used, this bundle will contain default values.
            b = mConfigManager.getConfigForSubId(getSubId());
        }
        if (b != null) {
            return b.getIntArray(key);
        } else {
            // Return static default defined in CarrierConfigManager.
            return CarrierConfigManager.getDefaultConfig().getIntArray(key);
        }
    }

    /**
     * Checks to see if the ImsService Binder is connected. If it is not, we try to create the
     * connection again.
     */
    private MmTelFeatureConnection getOrThrowExceptionIfServiceUnavailable()
            throws ImsException {
        if (!isImsSupportedOnDevice(mContext)) {
            throw new ImsException("IMS not supported on device.",
                    ImsReasonInfo.CODE_LOCAL_IMS_NOT_SUPPORTED_ON_DEVICE);
        }
        MmTelFeatureConnection c = mMmTelConnectionRef.get();
        if (c == null || !c.isBinderAlive()) {
            throw new ImsException("Service is unavailable",
                    ImsReasonInfo.CODE_LOCAL_IMS_SERVICE_DOWN);
        }
        if (getSubId() != c.getSubId()) {
            logi("Trying to get MmTelFeature when it is still setting up, curr subId=" + getSubId()
                    + ", target subId=" + c.getSubId());
            throw new ImsException("Service is still initializing",
                    ImsReasonInfo.CODE_LOCAL_IMS_SERVICE_DOWN);
        }
        return c;
    }

    @Override
    public void registerFeatureCallback(int slotId, IImsServiceFeatureCallback cb) {
        try {
            ITelephony telephony = mBinderCache.listenOnBinder(cb, () -> {
                try {
                    cb.imsFeatureRemoved(
                            FeatureConnector.UNAVAILABLE_REASON_SERVER_UNAVAILABLE);
                } catch (RemoteException ignore) {} // This is local.
            });

            if (telephony != null) {
                telephony.registerMmTelFeatureCallback(slotId, cb);
            } else {
                cb.imsFeatureRemoved(FeatureConnector.UNAVAILABLE_REASON_SERVER_UNAVAILABLE);
            }
        } catch (ServiceSpecificException e) {
            try {
                switch (e.errorCode) {
                    case android.telephony.ims.ImsException.CODE_ERROR_UNSUPPORTED_OPERATION:
                        cb.imsFeatureRemoved(FeatureConnector.UNAVAILABLE_REASON_IMS_UNSUPPORTED);
                        break;
                    default: {
                        cb.imsFeatureRemoved(
                                FeatureConnector.UNAVAILABLE_REASON_SERVER_UNAVAILABLE);
                    }
                }
            } catch (RemoteException ignore) {} // Already dead anyway if this happens.
        } catch (RemoteException e) {
            try {
                cb.imsFeatureRemoved(FeatureConnector.UNAVAILABLE_REASON_SERVER_UNAVAILABLE);
            } catch (RemoteException ignore) {} // Already dead if this happens.
        }
    }

    @Override
    public void unregisterFeatureCallback(IImsServiceFeatureCallback cb) {
        try {
            ITelephony telephony = mBinderCache.removeRunnable(cb);
            if (telephony != null) {
                telephony.unregisterImsFeatureCallback(cb);
            }
        } catch (RemoteException e) {
            // This means that telephony died, so do not worry about it.
            loge("unregisterImsFeatureCallback (MMTEL), RemoteException: " + e.getMessage());
        }
    }

    @Override
    public void associate(ImsFeatureContainer c, int subId) {
        if (c == null) {
            mMmTelConnectionRef.set(mMmTelFeatureConnectionFactory.create(
                    mContext, mPhoneId, subId, null, null, null, null));
        } else {
            mMmTelConnectionRef.set(mMmTelFeatureConnectionFactory.create(
                    mContext, mPhoneId, subId, IImsMmTelFeature.Stub.asInterface(c.imsFeature),
                    c.imsConfig, c.imsRegistration, c.sipTransport));
        }
    }

    @Override
    public void invalidate() {
        mMmTelConnectionRef.get().onRemovedOrDied();
    }

    private ITelephony getITelephony() {
        return mBinderCache.getBinder();
    }

    private static ITelephony getITelephonyInterface() {
        return ITelephony.Stub.asInterface(
                TelephonyFrameworkInitializer
                        .getTelephonyServiceManager()
                        .getTelephonyServiceRegisterer()
                        .get());
    }

    /**
     * Creates a {@link ImsCallSession} with the specified call profile.
     * Use other methods, if applicable, instead of interacting with
     * {@link ImsCallSession} directly.
     *
     * @param profile a call profile to make the call
     */
    private ImsCallSession createCallSession(ImsCallProfile profile) throws ImsException {
        try {
            MmTelFeatureConnection c = mMmTelConnectionRef.get();
            // Throws an exception if the ImsService Feature is not ready to accept commands.
            return new ImsCallSession(c.createCallSession(profile));
        } catch (RemoteException e) {
            logw("CreateCallSession: Error, remote exception: " + e.getMessage());
            throw new ImsException("createCallSession()", e,
                    ImsReasonInfo.CODE_LOCAL_IMS_SERVICE_DOWN);

        }
    }

    private void log(String s) {
        Rlog.d(TAG + mLogTagPostfix + " [" + mPhoneId + "]", s);
    }

    private void logi(String s) {
        Rlog.i(TAG + mLogTagPostfix + " [" + mPhoneId + "]", s);
    }

    private void logw(String s) {
        Rlog.w(TAG + mLogTagPostfix + " [" + mPhoneId + "]", s);
    }

    private void loge(String s) {
        Rlog.e(TAG + mLogTagPostfix + " [" + mPhoneId + "]", s);
    }

    private void loge(String s, Throwable t) {
        Rlog.e(TAG + mLogTagPostfix + " [" + mPhoneId + "]", s, t);
    }

    /**
     * Used for turning on IMS.if its off already
     */
    private void turnOnIms() throws ImsException {
        mTelephonyManager.enableIms(mPhoneId);
    }

    private boolean isImsTurnOffAllowed() {
        return isTurnOffImsAllowedByPlatform()
                && (!isWfcEnabledByPlatform()
                || !isWfcEnabledByUser());
    }

    /**
     * Used for turning off IMS completely in order to make the device CSFB'ed.
     * Once turned off, all calls will be over CS.
     */
    private void turnOffIms() throws ImsException {
        mTelephonyManager.disableIms(mPhoneId);
    }

    /**
     * Gets the ECBM interface to request ECBM exit.
     * <p>
     * This should only be called after {@link #open} has been called.
     *
     * @return the ECBM interface instance
     * @throws ImsException if getting the ECBM interface results in an error
     */
    public ImsEcbm getEcbmInterface() throws ImsException {
        MmTelFeatureConnection c = getOrThrowExceptionIfServiceUnavailable();
        ImsEcbm iEcbm = c.getEcbmInterface();

        if (iEcbm == null) {
            throw new ImsException("getEcbmInterface()",
                    ImsReasonInfo.CODE_ECBM_NOT_SUPPORTED);
        }
        return iEcbm;
    }

    public void sendSms(int token, int messageRef, String format, String smsc, boolean isRetry,
            byte[] pdu) throws ImsException {
        try {
            mMmTelConnectionRef.get().sendSms(token, messageRef, format, smsc, isRetry, pdu);
        } catch (RemoteException e) {
            throw new ImsException("sendSms()", e, ImsReasonInfo.CODE_LOCAL_IMS_SERVICE_DOWN);
        }
    }

    public void onMemoryAvailable(int token) throws ImsException {
        try {
            mMmTelConnectionRef.get().onMemoryAvailable(token);
        } catch (RemoteException e) {
            throw new ImsException("onMemoryAvailable()", e,
                ImsReasonInfo.CODE_LOCAL_IMS_SERVICE_DOWN);
        }
    }

    public void acknowledgeSms(int token, int messageRef, int result) throws ImsException {
        try {
            mMmTelConnectionRef.get().acknowledgeSms(token, messageRef, result);
        } catch (RemoteException e) {
            throw new ImsException("acknowledgeSms()", e,
                    ImsReasonInfo.CODE_LOCAL_IMS_SERVICE_DOWN);
        }
    }

    public void acknowledgeSms(int token, int messageRef, int result, byte[] pdu) throws ImsException {
        try {
            mMmTelConnectionRef.get().acknowledgeSms(token, messageRef, result, pdu);
        } catch (RemoteException e) {
            throw new ImsException("acknowledgeSms()", e,
                    ImsReasonInfo.CODE_LOCAL_IMS_SERVICE_DOWN);
        }
    }

    public void acknowledgeSmsReport(int token, int messageRef, int result) throws  ImsException{
        try {
            mMmTelConnectionRef.get().acknowledgeSmsReport(token, messageRef, result);
        } catch (RemoteException e) {
            throw new ImsException("acknowledgeSmsReport()", e,
                    ImsReasonInfo.CODE_LOCAL_IMS_SERVICE_DOWN);
        }
    }

    public String getSmsFormat() throws ImsException{
        try {
            return mMmTelConnectionRef.get().getSmsFormat();
        } catch (RemoteException e) {
            throw new ImsException("getSmsFormat()", e,
                    ImsReasonInfo.CODE_LOCAL_IMS_SERVICE_DOWN);
        }
    }

    public void setSmsListener(IImsSmsListener listener) throws ImsException {
        try {
            mMmTelConnectionRef.get().setSmsListener(listener);
        } catch (RemoteException e) {
            throw new ImsException("setSmsListener()", e,
                    ImsReasonInfo.CODE_LOCAL_IMS_SERVICE_DOWN);
        }
    }

    public void onSmsReady() throws ImsException {
        try {
            mMmTelConnectionRef.get().onSmsReady();
        } catch (RemoteException e) {
            throw new ImsException("onSmsReady()", e,
                    ImsReasonInfo.CODE_LOCAL_IMS_SERVICE_DOWN);
        }
    }

    /**
     * Determines whether or not a call with the specified numbers should be placed over IMS or over
     * CSFB.
     * @param isEmergency is at least one call an emergency number.
     * @param numbers A {@link String} array containing the numbers in the call being placed. Can
     *         be multiple numbers in the case of dialing out a conference.
     * @return The result of the query, one of the following values:
     *         - {@link MmTelFeature#PROCESS_CALL_IMS}
     *         - {@link MmTelFeature#PROCESS_CALL_CSFB}
     * @throws ImsException if the ImsService is not available. In this case, we should fall back
     * to CSFB anyway.
     */
    public @MmTelFeature.ProcessCallResult int shouldProcessCall(boolean isEmergency,
            String[] numbers) throws ImsException {
        try {
            MmTelFeatureConnection c = getOrThrowExceptionIfServiceUnavailable();
            return c.shouldProcessCall(isEmergency, numbers);
        } catch (RemoteException e) {
            throw new ImsException("shouldProcessCall()", e,
                    ImsReasonInfo.CODE_LOCAL_IMS_SERVICE_DOWN);
        }
    }

    /**
     * Resets ImsManager settings back to factory defaults.
     *
     * @deprecated Doesn't support MSIM devices. Use {@link #factoryReset()} instead.
     *
     * @hide
     */
    public static void factoryReset(Context context) {
        DefaultSubscriptionManagerProxy p = new DefaultSubscriptionManagerProxy(context);
        ImsManager mgr = ImsManager.getInstance(context, p.getDefaultVoicePhoneId());
        if (mgr != null) {
            mgr.factoryReset();
        }
        Rlog.e(TAG, "factoryReset: ImsManager null.");
    }

    /**
     * Resets ImsManager settings back to factory defaults.
     *
     * @hide
     */
    public void factoryReset() {
        int subId = getSubId();
        if (!isSubIdValid(subId)) {
            loge("factoryReset: invalid sub id, can not reset siminfo db settings; subId="
                    + subId);
            return;
        }
        // Set VoLTE to default
        mSubscriptionManagerProxy.setSubscriptionProperty(subId,
                SubscriptionManager.ENHANCED_4G_MODE_ENABLED,
                Integer.toString(SUB_PROPERTY_NOT_INITIALIZED));

        // Set VoWiFi to default
        mSubscriptionManagerProxy.setSubscriptionProperty(subId,
                SubscriptionManager.WFC_IMS_ENABLED,
                Integer.toString(SUB_PROPERTY_NOT_INITIALIZED));

        // Set VoWiFi mode to default
        mSubscriptionManagerProxy.setSubscriptionProperty(subId,
                SubscriptionManager.WFC_IMS_MODE,
                Integer.toString(SUB_PROPERTY_NOT_INITIALIZED));

        // Set VoWiFi roaming to default
        mSubscriptionManagerProxy.setSubscriptionProperty(subId,
                SubscriptionManager.WFC_IMS_ROAMING_ENABLED,
                Integer.toString(SUB_PROPERTY_NOT_INITIALIZED));

        // Set VoWiFi roaming mode to default
        mSubscriptionManagerProxy.setSubscriptionProperty(subId,
                SubscriptionManager.WFC_IMS_ROAMING_MODE,
                Integer.toString(SUB_PROPERTY_NOT_INITIALIZED));


        // Set VT to default
        mSubscriptionManagerProxy.setSubscriptionProperty(subId,
                SubscriptionManager.VT_IMS_ENABLED,
                Integer.toString(SUB_PROPERTY_NOT_INITIALIZED));

        // Set RCS UCE to default
        mSubscriptionManagerProxy.setSubscriptionProperty(subId,
                SubscriptionManager.IMS_RCS_UCE_ENABLED, Integer.toString(
                        SUBINFO_PROPERTY_FALSE));
        // Push settings
        try {
            reevaluateCapabilities();
        } catch (ImsException e) {
            loge("factoryReset, exception: " + e);
        }
    }

    private boolean isDataEnabled() {
        if (mTelephonyManager == null) {
            loge("isDataEnabled: TelephonyManager not available, returning false...");
            return false;
        }
        TelephonyManager tm = mTelephonyManager.createForSubscriptionId(getSubId());
        return tm.isDataConnectionAllowed();
    }

    private boolean isVolteProvisioned() {
        return getImsProvisionedBoolNoException(CAPABILITY_TYPE_VOICE, REGISTRATION_TECH_LTE);
    }

    private boolean isEabProvisioned() {
        return getRcsProvisionedBoolNoException(CAPABILITY_TYPE_PRESENCE_UCE,
                REGISTRATION_TECH_LTE);
    }

    private boolean isWfcProvisioned() {
        return getImsProvisionedBoolNoException(CAPABILITY_TYPE_VOICE, REGISTRATION_TECH_IWLAN);
    }

    private boolean isVtProvisioned() {
        return getImsProvisionedBoolNoException(CAPABILITY_TYPE_VIDEO, REGISTRATION_TECH_LTE);
    }

    private boolean isMmTelProvisioningRequired(int capability, int tech) {
        int subId = getSubId();
        if (subId == SubscriptionManager.INVALID_SUBSCRIPTION_ID) {
            logw("isMmTelProvisioningRequired subId is invalid");
            return false;
        }

        ITelephony iTelephony = getITelephony();
        if (iTelephony == null) {
            logw("isMmTelProvisioningRequired ITelephony interface is invalid");
            return false;
        }

        boolean required = false;
        try {
            required = iTelephony.isProvisioningRequiredForCapability(subId, capability,
                    tech);
        } catch (RemoteException | IllegalArgumentException e) {
            logw("isMmTelProvisioningRequired : operation failed" + " capability=" + capability
                    + " tech=" + tech + ". Exception:" + e.getMessage());
        }

        log("MmTel Provisioning required " + required + " for capability " + capability);
        return required;
    }

    private boolean isRcsProvisioningRequired(int capability, int tech) {
        int subId = getSubId();
        if (subId == SubscriptionManager.INVALID_SUBSCRIPTION_ID) {
            logw("isRcsProvisioningRequired subId is invalid");
            return false;
        }

        ITelephony iTelephony = getITelephony();
        if (iTelephony == null) {
            logw("isRcsProvisioningRequired ITelephony interface is invalid");
            return false;
        }

        boolean required = false;
        try {
            required = iTelephony.isRcsProvisioningRequiredForCapability(subId, capability,
                    tech);
        } catch (RemoteException | IllegalArgumentException e) {
            logw("isRcsProvisioningRequired : operation failed" + " capability=" + capability
                    + " tech=" + tech + ". Exception:" + e.getMessage());
        }

        log("Rcs Provisioning required " + required + " for capability " + capability);
        return required;
    }

    private static String booleanToPropertyString(boolean bool) {
        return bool ? "1" : "0";
    }

    public int getConfigInt(int key) throws ImsException {
        if (isLocalImsConfigKey(key)) {
            return getLocalImsConfigKeyInt(key);
        } else {
            return getConfigInterface().getConfigInt(key);
        }
    }

    public String getConfigString(int key) throws ImsException {
        if (isLocalImsConfigKey(key)) {
            return getLocalImsConfigKeyString(key);
        } else {
            return getConfigInterface().getConfigString(key);
        }
    }

    public int setConfig(int key, int value) throws ImsException, RemoteException {
        if (isLocalImsConfigKey(key)) {
            return setLocalImsConfigKeyInt(key, value);
        } else {
            return getConfigInterface().setConfig(key, value);
        }
    }

    public int setConfig(int key, String value) throws ImsException, RemoteException {
        if (isLocalImsConfigKey(key)) {
            return setLocalImsConfigKeyString(key, value);
        } else {
            return getConfigInterface().setConfig(key, value);
        }
    }

    /**
     * Gets the configuration value that supported in frameworks.
     *
     * @param key, as defined in com.android.ims.ProvisioningManager.
     * @return the value in Integer format
     */
    private int getLocalImsConfigKeyInt(int key) {
        int result = ProvisioningManager.PROVISIONING_RESULT_UNKNOWN;

        switch (key) {
            case KEY_VOIMS_OPT_IN_STATUS:
                result = isVoImsOptInEnabled() ? 1 : 0;
                break;
        }
        log("getLocalImsConfigKeInt() for key:" + key + ", result: " + result);
        return result;
    }

    /**
     * Gets the configuration value that supported in frameworks.
     *
     * @param key, as defined in com.android.ims.ProvisioningManager.
     * @return the value in String format
     */
    private String getLocalImsConfigKeyString(int key) {
        String result = "";

        switch (key) {
            case KEY_VOIMS_OPT_IN_STATUS:
                result = booleanToPropertyString(isVoImsOptInEnabled());

                break;
        }
        log("getLocalImsConfigKeyString() for key:" + key + ", result: " + result);
        return result;
    }

    /**
     * Sets the configuration value that supported in frameworks.
     *
     * @param key, as defined in com.android.ims.ProvisioningManager.
     * @param value in Integer format.
     * @return as defined in com.android.ims.ProvisioningManager#OperationStatusConstants
     */
    private int setLocalImsConfigKeyInt(int key, int value) throws ImsException, RemoteException {
        int result = ImsConfig.OperationStatusConstants.UNKNOWN;

        switch (key) {
            case KEY_VOIMS_OPT_IN_STATUS:
                result = setVoImsOptInSetting(value);
                reevaluateCapabilities();
                break;
        }
        log("setLocalImsConfigKeyInt() for" +
                " key: " + key +
                ", value: " + value +
                ", result: " + result);

        // Notify ims config changed
        MmTelFeatureConnection c = getOrThrowExceptionIfServiceUnavailable();
        IImsConfig config = c.getConfig();
        config.notifyIntImsConfigChanged(key, value);

        return result;
    }

    /**
     * Sets the configuration value that supported in frameworks.
     *
     * @param key, as defined in com.android.ims.ProvisioningManager.
     * @param value in String format.
     * @return as defined in com.android.ims.ProvisioningManager#OperationStatusConstants
     */
    private int setLocalImsConfigKeyString(int key, String value)
            throws ImsException, RemoteException {
        int result = ImsConfig.OperationStatusConstants.UNKNOWN;

        switch (key) {
            case KEY_VOIMS_OPT_IN_STATUS:
                result = setVoImsOptInSetting(Integer.parseInt(value));
                reevaluateCapabilities();
                break;
        }
        log("setLocalImsConfigKeyString() for" +
                " key: " + key +
                ", value: " + value +
                ", result: " + result);

        // Notify ims config changed
        MmTelFeatureConnection c = getOrThrowExceptionIfServiceUnavailable();
        IImsConfig config = c.getConfig();
        config.notifyStringImsConfigChanged(key, value);

        return result;
    }

    /**
     * Check the config whether supported by framework.
     *
     * @param key, as defined in com.android.ims.ProvisioningManager.
     * @return true if the config is supported by framework.
     */
    private boolean isLocalImsConfigKey(int key) {
        return Arrays.stream(LOCAL_IMS_CONFIG_KEYS).anyMatch(value -> value == key);
    }

    private boolean isVoImsOptInEnabled() {
        int setting = mSubscriptionManagerProxy.getIntegerSubscriptionProperty(
                getSubId(), SubscriptionManager.VOIMS_OPT_IN_STATUS,
                SUB_PROPERTY_NOT_INITIALIZED);
        return (setting == ProvisioningManager.PROVISIONING_VALUE_ENABLED);
    }

    private int setVoImsOptInSetting(int value) {
        mSubscriptionManagerProxy.setSubscriptionProperty(
                getSubId(),
                SubscriptionManager.VOIMS_OPT_IN_STATUS,
                String.valueOf(value));
        return ImsConfig.OperationStatusConstants.SUCCESS;
    }

    public void dump(FileDescriptor fd, PrintWriter pw, String[] args) {
        pw.println("ImsManager:");
        pw.println("  device supports IMS = " + isImsSupportedOnDevice(mContext));
        pw.println("  mPhoneId = " + mPhoneId);
        pw.println("  mConfigUpdated = " + mConfigUpdated);
        pw.println("  mImsServiceProxy = " + mMmTelConnectionRef.get());
        pw.println("  mDataEnabled = " + isDataEnabled());
        pw.println("  ignoreDataEnabledChanged = " + getBooleanCarrierConfig(
                CarrierConfigManager.KEY_IGNORE_DATA_ENABLED_CHANGED_FOR_VIDEO_CALLS));

        pw.println("  isGbaValid = " + isGbaValid());
        pw.println("  isImsTurnOffAllowed = " + isImsTurnOffAllowed());
        pw.println("  isNonTtyOrTtyOnVolteEnabled = " + isNonTtyOrTtyOnVolteEnabled());

        pw.println("  isVolteEnabledByPlatform = " + isVolteEnabledByPlatform());
        pw.println("  isVoImsOptInEnabled = " + isVoImsOptInEnabled());
        pw.println("  isVolteProvisionedOnDevice = " + isVolteProvisionedOnDevice());
        pw.println("  isEnhanced4gLteModeSettingEnabledByUser = " +
                isEnhanced4gLteModeSettingEnabledByUser());
        pw.println("  isVtEnabledByPlatform = " + isVtEnabledByPlatform());
        pw.println("  isVtEnabledByUser = " + isVtEnabledByUser());

        pw.println("  isWfcEnabledByPlatform = " + isWfcEnabledByPlatform());
        pw.println("  isWfcEnabledByUser = " + isWfcEnabledByUser());
        pw.println("  getWfcMode(non-roaming) = " + getWfcMode(false));
        pw.println("  getWfcMode(roaming) = " + getWfcMode(true));
        pw.println("  isWfcRoamingEnabledByUser = " + isWfcRoamingEnabledByUser());

        pw.println("  isVtProvisionedOnDevice = " + isVtProvisionedOnDevice());
        pw.println("  isWfcProvisionedOnDevice = " + isWfcProvisionedOnDevice());

        pw.println("  isCrossSimEnabledByPlatform = " + isCrossSimEnabledByPlatform());
        pw.println("  isCrossSimCallingEnabledByUser = " + isCrossSimCallingEnabledByUser());
        pw.println("  isImsOverNrEnabledByPlatform = " + isImsOverNrEnabledByPlatform());
        pw.flush();
    }

    /**
     * Determines if a sub id is valid.
     * Mimics the logic in SubscriptionController.validateSubId.
     * @param subId The sub id to check.
     * @return {@code true} if valid, {@code false} otherwise.
     */
    private boolean isSubIdValid(int subId) {
        return mSubscriptionManagerProxy.isValidSubscriptionId(subId) &&
                subId != SubscriptionManager.DEFAULT_SUBSCRIPTION_ID;
    }

    private boolean isActiveSubscriptionPresent() {
        return mSubscriptionManagerProxy.getActiveSubscriptionIdList().length > 0;
    }

    private void updateImsCarrierConfigs(PersistableBundle configs) throws ImsException {
        MmTelFeatureConnection c = getOrThrowExceptionIfServiceUnavailable();

        IImsConfig config = c.getConfig();
        if (config == null) {
            throw new ImsException("getConfigInterface()",
                    ImsReasonInfo.CODE_LOCAL_SERVICE_UNAVAILABLE);
        }
        try {
            config.updateImsCarrierConfigs(configs);
        } catch (RemoteException e) {
            throw new ImsException("updateImsCarrierConfigs()", e,
                    ImsReasonInfo.CODE_LOCAL_IMS_SERVICE_DOWN);
        }
    }

    /**
     * Determine whether to override roaming Wi-Fi calling preference when device is connected to
     * non-terrestrial network.
     *
     * @return {@code true} if phone is connected to non-terrestrial network and if
     * {@link CarrierConfigManager#KEY_OVERRIDE_WFC_ROAMING_MODE_WHILE_USING_NTN_BOOL} is true,
     * {@code false} otherwise.
     */
    private boolean overrideWfcRoamingModeWhileUsingNTN() {
        if (!Flags.carrierEnabledSatelliteFlag()) {
            return false;
        }

        if (mTelephonyManager == null) {
            return false;
        }

        TelephonyManager tm = mTelephonyManager.createForSubscriptionId(getSubId());
        ServiceState serviceState = tm.getServiceState();
        if (serviceState == null) {
            return false;
        }

        if (!serviceState.isUsingNonTerrestrialNetwork()) {
            return false;
        }

        return getBooleanCarrierConfig(
                CarrierConfigManager.KEY_OVERRIDE_WFC_ROAMING_MODE_WHILE_USING_NTN_BOOL);
    }
}
