path: root/src/com/google/android/iwlan/epdg/EpdgTunnelManager.java

/*
 * Copyright 2020 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.google.android.iwlan.epdg;

import static android.net.ipsec.ike.ike3gpp.Ike3gppData.DATA_TYPE_NOTIFY_BACKOFF_TIMER;
import static android.net.ipsec.ike.ike3gpp.Ike3gppData.DATA_TYPE_NOTIFY_N1_MODE_INFORMATION;
import static android.system.OsConstants.AF_INET;
import static android.system.OsConstants.AF_INET6;

import android.content.Context;
import android.net.InetAddresses;
import android.net.IpPrefix;
import android.net.IpSecManager;
import android.net.IpSecTransform;
import android.net.LinkAddress;
import android.net.Network;
import android.net.eap.EapAkaInfo;
import android.net.eap.EapInfo;
import android.net.eap.EapSessionConfig;
import android.net.ipsec.ike.ChildSaProposal;
import android.net.ipsec.ike.ChildSessionCallback;
import android.net.ipsec.ike.ChildSessionConfiguration;
import android.net.ipsec.ike.ChildSessionParams;
import android.net.ipsec.ike.IkeFqdnIdentification;
import android.net.ipsec.ike.IkeIdentification;
import android.net.ipsec.ike.IkeKeyIdIdentification;
import android.net.ipsec.ike.IkeRfc822AddrIdentification;
import android.net.ipsec.ike.IkeSaProposal;
import android.net.ipsec.ike.IkeSession;
import android.net.ipsec.ike.IkeSessionCallback;
import android.net.ipsec.ike.IkeSessionConfiguration;
import android.net.ipsec.ike.IkeSessionConnectionInfo;
import android.net.ipsec.ike.IkeSessionParams;
import android.net.ipsec.ike.IkeTrafficSelector;
import android.net.ipsec.ike.SaProposal;
import android.net.ipsec.ike.TunnelModeChildSessionParams;
import android.net.ipsec.ike.exceptions.IkeException;
import android.net.ipsec.ike.exceptions.IkeProtocolException;
import android.net.ipsec.ike.ike3gpp.Ike3gppBackoffTimer;
import android.net.ipsec.ike.ike3gpp.Ike3gppData;
import android.net.ipsec.ike.ike3gpp.Ike3gppExtension;
import android.net.ipsec.ike.ike3gpp.Ike3gppN1ModeInformation;
import android.net.ipsec.ike.ike3gpp.Ike3gppParams;
import android.os.Handler;
import android.os.HandlerThread;
import android.os.Looper;
import android.os.Message;
import android.support.annotation.NonNull;
import android.support.annotation.Nullable;
import android.telephony.CarrierConfigManager;
import android.telephony.SubscriptionManager;
import android.telephony.TelephonyManager;
import android.telephony.data.ApnSetting;
import android.telephony.data.NetworkSliceInfo;
import android.util.Log;

import com.android.internal.annotations.VisibleForTesting;

import com.google.android.iwlan.ErrorPolicyManager;
import com.google.android.iwlan.IwlanError;
import com.google.android.iwlan.IwlanHelper;
import com.google.android.iwlan.exceptions.IwlanSimNotReadyException;

import java.io.FileDescriptor;
import java.io.IOException;
import java.io.PrintWriter;
import java.net.Inet4Address;
import java.net.Inet6Address;
import java.net.InetAddress;
import java.nio.charset.StandardCharsets;
import java.util.ArrayList;
import java.util.Arrays;
import java.util.Collections;
import java.util.HashSet;
import java.util.LinkedList;
import java.util.List;
import java.util.Map;
import java.util.Queue;
import java.util.Set;
import java.util.concurrent.ConcurrentHashMap;
import java.util.concurrent.Executor;
import java.util.concurrent.Executors;
import java.util.concurrent.TimeUnit;

public class EpdgTunnelManager {

    private Context mContext;
    private final int mSlotId;
    private HandlerThread mHandlerThread;
    private Handler mHandler;

    private static final int EVENT_TUNNEL_BRINGUP_REQUEST = 0;
    private static final int EVENT_TUNNEL_BRINGDOWN_REQUEST = 1;
    private static final int EVENT_CHILD_SESSION_OPENED = 2;
    private static final int EVENT_CHILD_SESSION_CLOSED = 3;
    private static final int EVENT_IKE_SESSION_CLOSED = 5;
    private static final int EVENT_EPDG_ADDRESS_SELECTION_REQUEST_COMPLETE = 6;
    private static final int EVENT_IPSEC_TRANSFORM_CREATED = 7;
    private static final int EVENT_IPSEC_TRANSFORM_DELETED = 8;
    private static final int EVENT_UPDATE_NETWORK = 9;
    private static final int EVENT_IKE_SESSION_OPENED = 10;
    private static final int IKE_HARD_LIFETIME_SEC_MINIMUM = 300;
    private static final int IKE_HARD_LIFETIME_SEC_MAXIMUM = 86400;
    private static final int IKE_SOFT_LIFETIME_SEC_MINIMUM = 120;
    private static final int CHILD_HARD_LIFETIME_SEC_MINIMUM = 300;
    private static final int CHILD_HARD_LIFETIME_SEC_MAXIMUM = 14400;
    private static final int CHILD_SOFT_LIFETIME_SEC_MINIMUM = 120;
    private static final int LIFETIME_MARGIN_SEC_MINIMUM = (int) TimeUnit.MINUTES.toSeconds(1L);
    private static final int IKE_RETRANS_TIMEOUT_MS_MIN = 500;

    private static final int IKE_RETRANS_TIMEOUT_MS_MAX = (int) TimeUnit.MINUTES.toMillis(30L);

    private static final int IKE_RETRANS_MAX_ATTEMPTS_MAX = 10;
    private static final int IKE_DPD_DELAY_SEC_MIN = 20;
    private static final int IKE_DPD_DELAY_SEC_MAX = 1800; // 30 minutes
    private static final int NATT_KEEPALIVE_DELAY_SEC_MIN = 10;
    private static final int NATT_KEEPALIVE_DELAY_SEC_MAX = 120;

    private static final int DEVICE_IMEI_LEN = 15;
    private static final int DEVICE_IMEISV_SUFFIX_LEN = 2;

    private static final int TRAFFIC_SELECTOR_START_PORT = 0;
    private static final int TRAFFIC_SELECTOR_END_PORT = 65535;
    private static final String TRAFFIC_SELECTOR_IPV4_START_ADDR = "0.0.0.0";
    private static final String TRAFFIC_SELECTOR_IPV4_END_ADDR = "255.255.255.255";
    private static final String TRAFFIC_SELECTOR_IPV6_START_ADDR = "::";
    private static final String TRAFFIC_SELECTOR_IPV6_END_ADDR =
            "ffff:ffff:ffff:ffff:ffff:ffff:ffff:ffff";

    private static Map<Integer, EpdgTunnelManager> mTunnelManagerInstances =
            new ConcurrentHashMap<>();

    private Queue<TunnelRequestWrapper> mRequestQueue = new LinkedList<>();

    private EpdgInfo mValidEpdgInfo = new EpdgInfo();
    private InetAddress mEpdgAddress;
    private Network mNetwork;
    private int mTransactionId = 0;
    private int mProtoFilter = EpdgSelector.PROTO_FILTER_IPV4V6;
    private boolean mIsEpdgAddressSelected;
    private IkeSessionCreator mIkeSessionCreator;

    private Map<String, TunnelConfig> mApnNameToTunnelConfig = new ConcurrentHashMap<>();

    private final String TAG;

    private List<InetAddress> mLocalAddresses;

    @Nullable private byte[] mNextReauthId = null;

    private static final Set<Integer> VALID_DH_GROUPS;
    private static final Set<Integer> VALID_KEY_LENGTHS;
    private static final Set<Integer> VALID_PRF_ALGOS;
    private static final Set<Integer> VALID_INTEGRITY_ALGOS;
    private static final Set<Integer> VALID_ENCRYPTION_ALGOS;

    private static final String CONFIG_TYPE_DH_GROUP = "dh group";
    private static final String CONFIG_TYPE_KEY_LEN = "alogrithm key length";
    private static final String CONFIG_TYPE_PRF_ALGO = "prf algorithm";
    private static final String CONFIG_TYPE_INTEGRITY_ALGO = "integrity algorithm";
    private static final String CONFIG_TYPE_ENCRYPT_ALGO = "encryption algorithm";

    static {
        VALID_DH_GROUPS =
                Collections.unmodifiableSet(
                        new HashSet<>(
                                Arrays.asList(
                                        SaProposal.DH_GROUP_1024_BIT_MODP,
                                        SaProposal.DH_GROUP_1536_BIT_MODP,
                                        SaProposal.DH_GROUP_2048_BIT_MODP)));
        VALID_KEY_LENGTHS =
                Collections.unmodifiableSet(
                        new HashSet<>(
                                Arrays.asList(
                                        SaProposal.KEY_LEN_AES_128,
                                        SaProposal.KEY_LEN_AES_192,
                                        SaProposal.KEY_LEN_AES_256)));

        VALID_ENCRYPTION_ALGOS =
                Collections.unmodifiableSet(
                        new HashSet<>(
                                Arrays.asList(
                                        SaProposal.ENCRYPTION_ALGORITHM_AES_CBC,
                                        SaProposal.ENCRYPTION_ALGORITHM_AES_CTR)));

        VALID_INTEGRITY_ALGOS =
                Collections.unmodifiableSet(
                        new HashSet<>(
                                Arrays.asList(
                                        SaProposal.INTEGRITY_ALGORITHM_HMAC_SHA1_96,
                                        SaProposal.INTEGRITY_ALGORITHM_AES_XCBC_96,
                                        SaProposal.INTEGRITY_ALGORITHM_HMAC_SHA2_256_128,
                                        SaProposal.INTEGRITY_ALGORITHM_HMAC_SHA2_384_192,
                                        SaProposal.INTEGRITY_ALGORITHM_HMAC_SHA2_512_256)));

        VALID_PRF_ALGOS =
                Collections.unmodifiableSet(
                        new HashSet<>(
                                Arrays.asList(
                                        SaProposal.PSEUDORANDOM_FUNCTION_HMAC_SHA1,
                                        SaProposal.PSEUDORANDOM_FUNCTION_AES128_XCBC,
                                        SaProposal.PSEUDORANDOM_FUNCTION_SHA2_256,
                                        SaProposal.PSEUDORANDOM_FUNCTION_SHA2_384,
                                        SaProposal.PSEUDORANDOM_FUNCTION_SHA2_512)));
    }

    private final EpdgSelector.EpdgSelectorCallback mSelectorCallback =
            new EpdgSelector.EpdgSelectorCallback() {
                @Override
                public void onServerListChanged(
                        int transactionId, ArrayList<InetAddress> validIPList) {
                    sendSelectionRequestComplete(
                            validIPList, new IwlanError(IwlanError.NO_ERROR), transactionId);
                }

                @Override
                public void onError(int transactionId, IwlanError epdgSelectorError) {
                    sendSelectionRequestComplete(null, epdgSelectorError, transactionId);
                }
            };

    @VisibleForTesting
    class TunnelConfig {
        @NonNull final TunnelCallback mTunnelCallback;
        // TODO: Change this to TunnelLinkProperties after removing autovalue
        private List<InetAddress> mPcscfAddrList;
        private List<InetAddress> mDnsAddrList;
        private List<LinkAddress> mInternalAddrList;

        private InetAddress mSrcIpv6Address;
        private int mSrcIpv6AddressPrefixLen;
        private NetworkSliceInfo mSliceInfo;
        private boolean mIsBackoffTimeValid = false;
        private long mBackoffTime;

        public NetworkSliceInfo getSliceInfo() {
            return mSliceInfo;
        }

        public void setSliceInfo(NetworkSliceInfo si) {
            mSliceInfo = si;
        }

        public boolean isBackoffTimeValid() {
            return mIsBackoffTimeValid;
        }

        public long getBackoffTime() {
            return mBackoffTime;
        }

        public void setBackoffTime(long backoffTime) {
            mIsBackoffTimeValid = true;
            mBackoffTime = backoffTime;
        }

        @NonNull final IkeSession mIkeSession;
        IwlanError mError;
        private IpSecManager.IpSecTunnelInterface mIface;

        public TunnelConfig(
                IkeSession ikeSession,
                TunnelCallback tunnelCallback,
                InetAddress srcIpv6Addr,
                int srcIpv6PrefixLength) {
            mTunnelCallback = tunnelCallback;
            mIkeSession = ikeSession;
            mError = new IwlanError(IwlanError.NO_ERROR);
            mSrcIpv6Address = srcIpv6Addr;
            mSrcIpv6AddressPrefixLen = srcIpv6PrefixLength;
        }

        @NonNull
        TunnelCallback getTunnelCallback() {
            return mTunnelCallback;
        }

        List<InetAddress> getPcscfAddrList() {
            return mPcscfAddrList;
        }

        void setPcscfAddrList(List<InetAddress> pcscfAddrList) {
            mPcscfAddrList = pcscfAddrList;
        }

        public List<InetAddress> getDnsAddrList() {
            return mDnsAddrList;
        }

        public void setDnsAddrList(List<InetAddress> dnsAddrList) {
            this.mDnsAddrList = dnsAddrList;
        }

        public List<LinkAddress> getInternalAddrList() {
            return mInternalAddrList;
        }

        boolean isPrefixSameAsSrcIP(LinkAddress laddr) {
            if (laddr.isIpv6() && (laddr.getPrefixLength() == mSrcIpv6AddressPrefixLen)) {
                IpPrefix assignedPrefix = new IpPrefix(laddr.getAddress(), laddr.getPrefixLength());
                IpPrefix srcPrefix = new IpPrefix(mSrcIpv6Address, mSrcIpv6AddressPrefixLen);
                if (assignedPrefix.equals(srcPrefix)) {
                    return true;
                }
            }
            return false;
        }

        public void setInternalAddrList(List<LinkAddress> internalAddrList) {
            mInternalAddrList = new ArrayList<LinkAddress>(internalAddrList);
            if (getSrcIpv6Address() != null) {
                // check if we can reuse src ipv6 address (i.e if prefix is same)
                for (LinkAddress assignedAddr : internalAddrList) {
                    if (isPrefixSameAsSrcIP(assignedAddr)) {
                        // the assigned IPv6 address is same as pre-Handover IPv6
                        // addr. Just reuse the pre-Handover Address so the IID is
                        // preserved
                        mInternalAddrList.remove(assignedAddr);

                        // add original address
                        mInternalAddrList.add(
                                new LinkAddress(mSrcIpv6Address, mSrcIpv6AddressPrefixLen));

                        Log.d(
                                TAG,
                                "Network assigned IP replaced OLD:"
                                        + internalAddrList
                                        + " NEW:"
                                        + mInternalAddrList);
                        break;
                    }
                }
            }
        }

        @NonNull
        public IkeSession getIkeSession() {
            return mIkeSession;
        }

        public IwlanError getError() {
            return mError;
        }

        public void setError(IwlanError error) {
            this.mError = error;
        }

        public IpSecManager.IpSecTunnelInterface getIface() {
            return mIface;
        }

        public void setIface(IpSecManager.IpSecTunnelInterface iface) {
            mIface = iface;
        }

        public InetAddress getSrcIpv6Address() {
            return mSrcIpv6Address;
        }

        public int getSrcIpv6AddressPrefixLen() {
            return mSrcIpv6AddressPrefixLen;
        }

        private String addressListString(List<InetAddress> list) {
            StringBuilder sb = new StringBuilder();
            sb.append("{ ");
            for (InetAddress addr : list) {
                sb.append(addr);
                sb.append(", ");
            }
            sb.append(" }");
            return sb.toString();
        }

        public boolean hasTunnelOpened() {
            return mInternalAddrList != null
                    && !mInternalAddrList.isEmpty() /* The child session is opened */
                    && mIface != null; /* The tunnel interface is bring up */
        }

        @Override
        public String toString() {
            StringBuilder sb = new StringBuilder();
            sb.append("TunnelConfig { ");
            /*if (mPcscfAddrList != null) {
                sb.append("mPcscfAddrList: " + addressListString(mPcscfAddrList));
                sb.append(", ");
            }
            if (mDnsAddrList != null) {
                sb.append("mDnsAddrList: " + addressListString(mDnsAddrList));
                sb.append(", ");
            }
            if (mInternalAddrList != null) {
                sb.append("mInternalAddrList: { ");
                for (LinkAddress addr : mInternalAddrList) {
                    sb.append(addr + ", ");
                }
                sb.append(" }, ");
            }

            if (mSrcIpv6Address != null) {
                sb.append("{mSrcIpv6Address: " + mSrcIpv6Address + "}, ");
            } else {
                sb.append("{NULL mSrcIpv6Address}, ");
            } */

            if (mSliceInfo != null) {
                sb.append("mSliceInfo: " + mSliceInfo + ", ");
            }

            if (mIsBackoffTimeValid) {
                sb.append("mBackoffTime: " + mBackoffTime + ", ");
            }
            sb.append(" }");
            return sb.toString();
        }
    }

    @VisibleForTesting
    class TmIkeSessionCallback implements IkeSessionCallback {

        private final String mApnName;

        TmIkeSessionCallback(String apnName) {
            this.mApnName = apnName;
        }

        @Override
        public void onOpened(IkeSessionConfiguration sessionConfiguration) {
            Log.d(TAG, "Ike session opened for apn: " + mApnName);
            mHandler.sendMessage(
                    mHandler.obtainMessage(
                            EVENT_IKE_SESSION_OPENED,
                            new IkeSessionOpenedData(mApnName, sessionConfiguration)));
        }

        @Override
        public void onClosed() {
            Log.d(TAG, "Ike session closed for apn: " + mApnName);
            mHandler.sendMessage(
                    mHandler.obtainMessage(
                            EVENT_IKE_SESSION_CLOSED,
                            new SessionClosedData(mApnName, new IwlanError(IwlanError.NO_ERROR))));
        }

        @Override
        public void onClosedExceptionally(IkeException exception) {
            mNextReauthId = null;
            onSessionClosedWithException(exception, mApnName, EVENT_IKE_SESSION_CLOSED);
        }

        @Override
        public void onError(IkeProtocolException exception) {
            Log.d(TAG, "Ike session onError for apn: " + mApnName);

            mNextReauthId = null;

            Log.d(
                    TAG,
                    "ErrorType:"
                            + exception.getErrorType()
                            + " ErrorData:"
                            + exception.getMessage());
        }

        @Override
        public void onIkeSessionConnectionInfoChanged(
                IkeSessionConnectionInfo ikeSessionConnectionInfo) {
            Log.d(TAG, "Ike session connection info changed for apn: " + mApnName);
            TunnelConfig tunnelConfig = mApnNameToTunnelConfig.get(mApnName);
            IpSecManager.IpSecTunnelInterface tunnelInterface = tunnelConfig.getIface();
            try {
                tunnelInterface.setUnderlyingNetwork(ikeSessionConnectionInfo.getNetwork());
            } catch (IOException e) {
                Log.e(TAG, "IOException while updating underlying network for apn: " + mApnName);
            }
        }
    }

    @VisibleForTesting
    class TmIke3gppCallback implements Ike3gppExtension.Ike3gppDataListener {
        private final String mApnName;

        private TmIke3gppCallback(String apnName) {
            mApnName = apnName;
        }

        @Override
        public void onIke3gppDataReceived(List<Ike3gppData> payloads) {
            if (payloads != null && !payloads.isEmpty()) {
                TunnelConfig tunnelConfig = mApnNameToTunnelConfig.get(mApnName);
                for (Ike3gppData payload : payloads) {
                    if (payload.getDataType() == DATA_TYPE_NOTIFY_N1_MODE_INFORMATION) {
                        Log.d(TAG, "Got payload DATA_TYPE_NOTIFY_N1_MODE_INFORMATION");
                        NetworkSliceInfo si =
                                NetworkSliceSelectionAssistanceInformation.getSliceInfo(
                                        ((Ike3gppN1ModeInformation) payload).getSnssai());
                        if (si != null) {
                            tunnelConfig.setSliceInfo(si);
                            Log.d(TAG, "SliceInfo: " + si);
                        }
                    } else if (payload.getDataType() == DATA_TYPE_NOTIFY_BACKOFF_TIMER) {
                        Log.d(TAG, "Got payload DATA_TYPE_NOTIFY_BACKOFF_TIMER");
                        long backoffTime =
                                decodeBackoffTime(
                                        ((Ike3gppBackoffTimer) payload).getBackoffTimer());
                        if (backoffTime > 0) {
                            tunnelConfig.setBackoffTime(backoffTime);
                            Log.d(TAG, "Backoff Timer: " + backoffTime);
                        }
                    }
                }
            } else {
                Log.e(TAG, "Null or empty payloads received:");
            }
        }
    }

    private class TmChildSessionCallBack implements ChildSessionCallback {

        private final String mApnName;

        TmChildSessionCallBack(String apnName) {
            this.mApnName = apnName;
        }

        @Override
        public void onOpened(ChildSessionConfiguration sessionConfiguration) {
            mHandler.sendMessage(
                    mHandler.obtainMessage(
                            EVENT_CHILD_SESSION_OPENED,
                            new TunnelOpenedData(
                                    mApnName,
                                    sessionConfiguration.getInternalDnsServers(),
                                    sessionConfiguration.getInternalAddresses())));
        }

        @Override
        public void onClosed() {
            Log.d(TAG, "onClosed child session for apn: " + mApnName);
            mHandler.sendMessage(
                    mHandler.obtainMessage(
                            EVENT_CHILD_SESSION_CLOSED,
                            new SessionClosedData(mApnName, new IwlanError(IwlanError.NO_ERROR))));
        }

        @Override
        public void onClosedExceptionally(IkeException exception) {
            onSessionClosedWithException(exception, mApnName, EVENT_CHILD_SESSION_CLOSED);
        }

        @Override
        public void onIpSecTransformsMigrated(
                IpSecTransform inIpSecTransform, IpSecTransform outIpSecTransform) {
            // migration is similar to addition
            Log.d(TAG, "Transforms migrated for apn: + " + mApnName);
            mHandler.sendMessage(
                    mHandler.obtainMessage(
                            EVENT_IPSEC_TRANSFORM_CREATED,
                            new IpsecTransformData(
                                    inIpSecTransform, IpSecManager.DIRECTION_IN, mApnName)));
            mHandler.sendMessage(
                    mHandler.obtainMessage(
                            EVENT_IPSEC_TRANSFORM_CREATED,
                            new IpsecTransformData(
                                    outIpSecTransform, IpSecManager.DIRECTION_OUT, mApnName)));
        }

        @Override
        public void onIpSecTransformCreated(IpSecTransform ipSecTransform, int direction) {
            Log.d(TAG, "Transform created, direction: " + direction + ", apn:" + mApnName);
            mHandler.sendMessage(
                    mHandler.obtainMessage(
                            EVENT_IPSEC_TRANSFORM_CREATED,
                            new IpsecTransformData(ipSecTransform, direction, mApnName)));
        }

        @Override
        public void onIpSecTransformDeleted(IpSecTransform ipSecTransform, int direction) {
            Log.d(TAG, "Transform deleted, direction: " + direction + ", apn:" + mApnName);
            mHandler.sendMessage(
                    mHandler.obtainMessage(EVENT_IPSEC_TRANSFORM_DELETED, ipSecTransform));
        }
    }

    private EpdgTunnelManager(Context context, int slotId) {
        mContext = context;
        mSlotId = slotId;
        mIkeSessionCreator = new IkeSessionCreator();
        TAG = EpdgTunnelManager.class.getSimpleName() + "[" + mSlotId + "]";
        initHandler();
    }

    @VisibleForTesting
    void initHandler() {
        mHandler = new TmHandler(getLooper());
    }

    @VisibleForTesting
    Looper getLooper() {
        mHandlerThread = new HandlerThread("EpdgTunnelManagerThread");
        mHandlerThread.start();
        return mHandlerThread.getLooper();
    }

    /**
     * Gets a epdg tunnel manager instance.
     *
     * @param context application context
     * @param subId subscription ID for the tunnel
     * @return tunnel manager instance corresponding to the sub id
     */
    public static EpdgTunnelManager getInstance(@NonNull Context context, int subId) {
        return mTunnelManagerInstances.computeIfAbsent(
                subId, k -> new EpdgTunnelManager(context, subId));
    }

    public interface TunnelCallback {
        /**
         * Called when the tunnel is opened.
         *
         * @param apnName apn for which the tunnel was opened
         * @param linkProperties link properties of the tunnel
         */
        void onOpened(@NonNull String apnName, @NonNull TunnelLinkProperties linkProperties);
        /**
         * Called when the tunnel is closed OR if bringup fails
         *
         * @param apnName apn for which the tunnel was closed
         * @param error IwlanError carrying details of the error
         */
        void onClosed(@NonNull String apnName, @NonNull IwlanError error);
    }

    /**
     * Close tunnel for an apn. Confirmation of closing will be delivered in TunnelCallback that was
     * provided in {@link #bringUpTunnel}
     *
     * @param apnName apn name
     * @param forceClose if true, results in local cleanup of tunnel
     * @return true if params are valid and tunnel exists. False otherwise.
     */
    public boolean closeTunnel(@NonNull String apnName, boolean forceClose) {
        mHandler.sendMessage(
                mHandler.obtainMessage(
                        EVENT_TUNNEL_BRINGDOWN_REQUEST,
                        forceClose ? 1 : 0,
                        0 /*not used*/,
                        apnName));
        return true;
    }

    /**
     * Update the local Network. This will trigger a revaluation for every tunnel for which tunnel
     * manager has state.
     *
     * <p>Tunnels in bringup state will be for closed since IKE currently keeps retrying.
     *
     * <p>For rest of the tunnels, update IKE session wth new network. This will either result in
     * MOBIKE callflow or just a rekey over new Network
     */
    public void updateNetwork(@NonNull Network network, String apnName) {
        UpdateNetworkWrapper updateNetworkWrapper = new UpdateNetworkWrapper(network, apnName);
        mHandler.sendMessage(mHandler.obtainMessage(EVENT_UPDATE_NETWORK, updateNetworkWrapper));
    }
    /**
     * Bring up epdg tunnel. Only one bring up request per apn is expected. All active tunnel
     * requests and tunnels are expected to be on the same network.
     *
     * @param setupRequest {@link TunnelSetupRequest} tunnel configurations
     * @param tunnelCallback {@link TunnelCallback} interface to notify clients about the tunnel
     *     state
     * @return true if params are valid and no existing tunnel. False otherwise.
     */
    public boolean bringUpTunnel(
            @NonNull TunnelSetupRequest setupRequest, @NonNull TunnelCallback tunnelCallback) {
        String apnName = setupRequest.apnName();

        if (getTunnelSetupRequestApnName(setupRequest) == null) {
            Log.e(TAG, "APN is null.");
            return false;
        }

        if (isTunnelConfigContainExistApn(apnName)) {
            Log.e(TAG, "Tunnel exists for apn:" + apnName);
            return false;
        }

        if (!isValidApnProtocol(setupRequest.apnIpProtocol())) {
            Log.e(TAG, "Invalid protocol for APN");
            return false;
        }

        int pduSessionId = setupRequest.pduSessionId();
        if (pduSessionId < 0 || pduSessionId > 15) {
            Log.e(TAG, "Invalid pduSessionId: " + pduSessionId);
            return false;
        }

        TunnelRequestWrapper tunnelRequestWrapper =
                new TunnelRequestWrapper(setupRequest, tunnelCallback);

        mHandler.sendMessage(
                mHandler.obtainMessage(EVENT_TUNNEL_BRINGUP_REQUEST, tunnelRequestWrapper));

        return true;
    }

    private void onBringUpTunnel(TunnelSetupRequest setupRequest, TunnelCallback tunnelCallback) {
        String apnName = setupRequest.apnName();
        IkeSessionParams ikeSessionParams = null;

        Log.d(
                TAG,
                "Bringing up tunnel for apn: "
                        + apnName
                        + "ePDG : "
                        + mEpdgAddress.getHostAddress());

        try {
            ikeSessionParams = buildIkeSessionParams(setupRequest, apnName);
        } catch (IwlanSimNotReadyException e) {
            mRequestQueue.poll();
            IwlanError iwlanError = new IwlanError(IwlanError.SIM_NOT_READY_EXCEPTION);
            reportIwlanError(apnName, iwlanError);
            tunnelCallback.onClosed(apnName, iwlanError);
            return;
        }

        IkeSession ikeSession =
                getIkeSessionCreator()
                        .createIkeSession(
                                mContext,
                                ikeSessionParams,
                                buildChildSessionParams(setupRequest),
                                Executors.newSingleThreadExecutor(),
                                getTmIkeSessionCallback(apnName),
                                new TmChildSessionCallBack(apnName));

        boolean isSrcIpv6Present = setupRequest.srcIpv6Address().isPresent();
        putApnNameToTunnelConfig(
                apnName,
                ikeSession,
                tunnelCallback,
                isSrcIpv6Present ? setupRequest.srcIpv6Address().get() : null,
                setupRequest.srcIpv6AddressPrefixLength());
    }

    /**
     * Proxy to allow testing
     *
     * @hide
     */
    @VisibleForTesting
    static class IkeSessionCreator {
        /** Creates a IKE session */
        public IkeSession createIkeSession(
                @NonNull Context context,
                @NonNull IkeSessionParams ikeSessionParams,
                @NonNull ChildSessionParams firstChildSessionParams,
                @NonNull Executor userCbExecutor,
                @NonNull IkeSessionCallback ikeSessionCallback,
                @NonNull ChildSessionCallback firstChildSessionCallback) {
            return new IkeSession(
                    context,
                    ikeSessionParams,
                    firstChildSessionParams,
                    userCbExecutor,
                    ikeSessionCallback,
                    firstChildSessionCallback);
        }
    }

    private ChildSessionParams buildChildSessionParams(TunnelSetupRequest setupRequest) {
        int proto = setupRequest.apnIpProtocol();
        int hardTimeSeconds =
                (int) getConfig(CarrierConfigManager.Iwlan.KEY_CHILD_SA_REKEY_HARD_TIMER_SEC_INT);
        int softTimeSeconds =
                (int) getConfig(CarrierConfigManager.Iwlan.KEY_CHILD_SA_REKEY_SOFT_TIMER_SEC_INT);
        if (!isValidChildSessionLifetime(hardTimeSeconds, softTimeSeconds)) {
            if (hardTimeSeconds > CHILD_HARD_LIFETIME_SEC_MAXIMUM
                    && softTimeSeconds > CHILD_SOFT_LIFETIME_SEC_MINIMUM) {
                hardTimeSeconds = CHILD_HARD_LIFETIME_SEC_MAXIMUM;
                softTimeSeconds = CHILD_HARD_LIFETIME_SEC_MAXIMUM - LIFETIME_MARGIN_SEC_MINIMUM;
            } else {
                hardTimeSeconds =
                        (int)
                                IwlanHelper.getDefaultConfig(
                                        CarrierConfigManager.Iwlan
                                                .KEY_CHILD_SA_REKEY_HARD_TIMER_SEC_INT);
                softTimeSeconds =
                        (int)
                                IwlanHelper.getDefaultConfig(
                                        CarrierConfigManager.Iwlan
                                                .KEY_CHILD_SA_REKEY_SOFT_TIMER_SEC_INT);
            }
            Log.d(
                    TAG,
                    "Invalid child session lifetime values, set hard: "
                            + hardTimeSeconds
                            + ", soft: "
                            + softTimeSeconds);
        }

        TunnelModeChildSessionParams.Builder childSessionParamsBuilder =
                new TunnelModeChildSessionParams.Builder()
                        .setLifetimeSeconds(hardTimeSeconds, softTimeSeconds);

        childSessionParamsBuilder.addSaProposal(buildChildSaProposal());

        boolean handoverIPv4Present = setupRequest.srcIpv4Address().isPresent();
        boolean handoverIPv6Present = setupRequest.srcIpv6Address().isPresent();
        if (handoverIPv4Present || handoverIPv6Present) {
            if (handoverIPv4Present) {
                childSessionParamsBuilder.addInternalAddressRequest(
                        (Inet4Address) setupRequest.srcIpv4Address().get());
                childSessionParamsBuilder.addInternalDnsServerRequest(AF_INET);
                childSessionParamsBuilder.addInboundTrafficSelectors(
                        getDefaultTrafficSelectorIpv4());
                childSessionParamsBuilder.addOutboundTrafficSelectors(
                        getDefaultTrafficSelectorIpv4());
            }
            if (handoverIPv6Present) {
                childSessionParamsBuilder.addInternalAddressRequest(
                        (Inet6Address) setupRequest.srcIpv6Address().get(),
                        setupRequest.srcIpv6AddressPrefixLength());
                childSessionParamsBuilder.addInternalDnsServerRequest(AF_INET6);
                childSessionParamsBuilder.addInboundTrafficSelectors(
                        getDefaultTrafficSelectorIpv6());
                childSessionParamsBuilder.addOutboundTrafficSelectors(
                        getDefaultTrafficSelectorIpv6());
            }
        } else {
            // non-handover case
            if (proto == ApnSetting.PROTOCOL_IP || proto == ApnSetting.PROTOCOL_IPV4V6) {
                childSessionParamsBuilder.addInternalAddressRequest(AF_INET);
                childSessionParamsBuilder.addInternalDnsServerRequest(AF_INET);
                childSessionParamsBuilder.addInboundTrafficSelectors(
                        getDefaultTrafficSelectorIpv4());
                childSessionParamsBuilder.addOutboundTrafficSelectors(
                        getDefaultTrafficSelectorIpv4());
            }
            if (proto == ApnSetting.PROTOCOL_IPV6 || proto == ApnSetting.PROTOCOL_IPV4V6) {
                childSessionParamsBuilder.addInternalAddressRequest(AF_INET6);
                childSessionParamsBuilder.addInternalDnsServerRequest(AF_INET6);
                childSessionParamsBuilder.addInboundTrafficSelectors(
                        getDefaultTrafficSelectorIpv6());
                childSessionParamsBuilder.addOutboundTrafficSelectors(
                        getDefaultTrafficSelectorIpv6());
            }
        }

        return childSessionParamsBuilder.build();
    }

    private static IkeTrafficSelector getDefaultTrafficSelectorIpv4() {
        return new IkeTrafficSelector(
                TRAFFIC_SELECTOR_START_PORT,
                TRAFFIC_SELECTOR_END_PORT,
                InetAddresses.parseNumericAddress(TRAFFIC_SELECTOR_IPV4_START_ADDR),
                InetAddresses.parseNumericAddress(TRAFFIC_SELECTOR_IPV4_END_ADDR));
    }

    private static IkeTrafficSelector getDefaultTrafficSelectorIpv6() {
        return new IkeTrafficSelector(
                TRAFFIC_SELECTOR_START_PORT,
                TRAFFIC_SELECTOR_END_PORT,
                InetAddresses.parseNumericAddress(TRAFFIC_SELECTOR_IPV6_START_ADDR),
                InetAddresses.parseNumericAddress(TRAFFIC_SELECTOR_IPV6_END_ADDR));
    }

    private int numPdnTunnels() {
        return mApnNameToTunnelConfig.size();
    }

    // Returns the IMEISV or device IMEI, in that order of priority.
    private @Nullable String getMobileDeviceIdentity() {
        TelephonyManager telephonyManager = mContext.getSystemService(TelephonyManager.class);
        telephonyManager =
                telephonyManager.createForSubscriptionId(IwlanHelper.getSubId(mContext, mSlotId));
        if (telephonyManager == null) {
            return null;
        }
        // Queries the 15-digit device IMEI.
        String imei = telephonyManager.getImei();
        if (imei == null || imei.length() != DEVICE_IMEI_LEN) {
            Log.i(TAG, "Unable to query valid Mobile Device Identity (IMEI)!");
            return null;
        }
        String imeisv_suffix = telephonyManager.getDeviceSoftwareVersion();
        if (imeisv_suffix == null || imeisv_suffix.length() != DEVICE_IMEISV_SUFFIX_LEN) {
            // Unable to retrieve 2-digit suffix for IMEISV, so returns device IMEI.
            return imei;
        }
        // Splices the first 14 digit of device IMEI with 2-digit SV suffix to form IMEISV.
        return imei.substring(0, imei.length() - 1) + imeisv_suffix;
    }

    private IkeSessionParams buildIkeSessionParams(TunnelSetupRequest setupRequest, String apnName)
            throws IwlanSimNotReadyException {
        int hardTimeSeconds =
                (int) getConfig(CarrierConfigManager.Iwlan.KEY_IKE_REKEY_HARD_TIMER_SEC_INT);
        int softTimeSeconds =
                (int) getConfig(CarrierConfigManager.Iwlan.KEY_IKE_REKEY_SOFT_TIMER_SEC_INT);
        if (!isValidIkeSessionLifetime(hardTimeSeconds, softTimeSeconds)) {
            if (hardTimeSeconds > IKE_HARD_LIFETIME_SEC_MAXIMUM
                    && softTimeSeconds > IKE_SOFT_LIFETIME_SEC_MINIMUM) {
                hardTimeSeconds = IKE_HARD_LIFETIME_SEC_MAXIMUM;
                softTimeSeconds = IKE_HARD_LIFETIME_SEC_MAXIMUM - LIFETIME_MARGIN_SEC_MINIMUM;
            } else {
                hardTimeSeconds =
                        (int)
                                IwlanHelper.getDefaultConfig(
                                        CarrierConfigManager.Iwlan
                                                .KEY_IKE_REKEY_HARD_TIMER_SEC_INT);
                softTimeSeconds =
                        (int)
                                IwlanHelper.getDefaultConfig(
                                        CarrierConfigManager.Iwlan
                                                .KEY_IKE_REKEY_SOFT_TIMER_SEC_INT);
            }
            Log.d(
                    TAG,
                    "Invalid ike session lifetime values, set hard: "
                            + hardTimeSeconds
                            + ", soft: "
                            + softTimeSeconds);
        }

        IkeSessionParams.Builder builder =
                new IkeSessionParams.Builder(mContext)
                        // permanently hardcode DSCP to 46 (Expedited Forwarding class)
                        // See https://www.iana.org/assignments/dscp-registry/dscp-registry.xhtml
                        // This will make WiFi prioritize IKE signallig under WMM AC_VO
                        .setDscp(46)
                        .setServerHostname(mEpdgAddress.getHostAddress())
                        .setLocalIdentification(getLocalIdentification())
                        .setRemoteIdentification(getId(setupRequest.apnName(), false))
                        .setAuthEap(null, getEapConfig())
                        .addSaProposal(buildIkeSaProposal())
                        .setNetwork(mNetwork)
                        .addIkeOption(IkeSessionParams.IKE_OPTION_ACCEPT_ANY_REMOTE_ID)
                        .addIkeOption(IkeSessionParams.IKE_OPTION_MOBIKE)
                        .addIkeOption(IkeSessionParams.IKE_OPTION_REKEY_MOBILITY)
                        .setLifetimeSeconds(hardTimeSeconds, softTimeSeconds)
                        .setRetransmissionTimeoutsMillis(getRetransmissionTimeoutsFromConfig())
                        .setDpdDelaySeconds(getDpdDelayFromConfig());

        if (numPdnTunnels() == 0) {
            builder.addIkeOption(IkeSessionParams.IKE_OPTION_INITIAL_CONTACT);
            Log.d(TAG, "IKE_OPTION_INITIAL_CONTACT");
        }

        if ((int) getConfig(CarrierConfigManager.Iwlan.KEY_EPDG_AUTHENTICATION_METHOD_INT)
                == CarrierConfigManager.Iwlan.AUTHENTICATION_METHOD_EAP_ONLY) {
            builder.addIkeOption(IkeSessionParams.IKE_OPTION_EAP_ONLY_AUTH);
        }

        if (setupRequest.requestPcscf()) {
            int proto = setupRequest.apnIpProtocol();
            if (proto == ApnSetting.PROTOCOL_IP || proto == ApnSetting.PROTOCOL_IPV4V6) {
                builder.addPcscfServerRequest(AF_INET);
            }
            if (proto == ApnSetting.PROTOCOL_IPV6 || proto == ApnSetting.PROTOCOL_IPV4V6) {
                builder.addPcscfServerRequest(AF_INET6);
            }
        }

        Ike3gppParams.Builder builder3gppParams = null;

        String imei = getMobileDeviceIdentity();
        if (imei != null) {
            if (builder3gppParams == null) {
                builder3gppParams = new Ike3gppParams.Builder();
            }
            Log.d(TAG, "DEVICE_IDENTITY set in Ike3gppParams");
            builder3gppParams.setMobileDeviceIdentity(imei);
        }

        if (setupRequest.pduSessionId() != 0) {
            if (builder3gppParams == null) {
                builder3gppParams = new Ike3gppParams.Builder();
            }
            builder3gppParams.setPduSessionId((byte) setupRequest.pduSessionId());
        }

        if (builder3gppParams != null) {
            Ike3gppExtension extension =
                    new Ike3gppExtension(builder3gppParams.build(), new TmIke3gppCallback(apnName));
            builder.setIke3gppExtension(extension);
        }

        int nattKeepAliveTimer =
                (int) getConfig(CarrierConfigManager.Iwlan.KEY_NATT_KEEP_ALIVE_TIMER_SEC_INT);
        if (nattKeepAliveTimer < NATT_KEEPALIVE_DELAY_SEC_MIN
                || nattKeepAliveTimer > NATT_KEEPALIVE_DELAY_SEC_MAX) {
            Log.d(TAG, "Falling back to default natt keep alive timer");
            nattKeepAliveTimer =
                    (int)
                            IwlanHelper.getDefaultConfig(
                                    CarrierConfigManager.Iwlan.KEY_NATT_KEEP_ALIVE_TIMER_SEC_INT);
        }
        builder.setNattKeepAliveDelaySeconds(nattKeepAliveTimer);

        return builder.build();
    }

    private boolean isValidChildSessionLifetime(int hardLifetimeSeconds, int softLifetimeSeconds) {
        if (hardLifetimeSeconds < CHILD_HARD_LIFETIME_SEC_MINIMUM
                || hardLifetimeSeconds > CHILD_HARD_LIFETIME_SEC_MAXIMUM
                || softLifetimeSeconds < CHILD_SOFT_LIFETIME_SEC_MINIMUM
                || hardLifetimeSeconds - softLifetimeSeconds < LIFETIME_MARGIN_SEC_MINIMUM) {
            return false;
        }
        return true;
    }

    private boolean isValidIkeSessionLifetime(int hardLifetimeSeconds, int softLifetimeSeconds) {
        if (hardLifetimeSeconds < IKE_HARD_LIFETIME_SEC_MINIMUM
                || hardLifetimeSeconds > IKE_HARD_LIFETIME_SEC_MAXIMUM
                || softLifetimeSeconds < IKE_SOFT_LIFETIME_SEC_MINIMUM
                || hardLifetimeSeconds - softLifetimeSeconds < LIFETIME_MARGIN_SEC_MINIMUM) {
            return false;
        }
        return true;
    }

    private <T> T getConfig(String configKey) {
        return IwlanHelper.getConfig(configKey, mContext, mSlotId);
    }

    private IkeSaProposal buildIkeSaProposal() {
        IkeSaProposal.Builder saProposalBuilder = new IkeSaProposal.Builder();

        int[] dhGroups = getConfig(CarrierConfigManager.Iwlan.KEY_DIFFIE_HELLMAN_GROUPS_INT_ARRAY);
        for (int dhGroup : dhGroups) {
            if (validateConfig(dhGroup, VALID_DH_GROUPS, CONFIG_TYPE_DH_GROUP)) {
                saProposalBuilder.addDhGroup(dhGroup);
            }
        }

        int[] encryptionAlgos =
                getConfig(
                        CarrierConfigManager.Iwlan
                                .KEY_SUPPORTED_IKE_SESSION_ENCRYPTION_ALGORITHMS_INT_ARRAY);
        for (int encryptionAlgo : encryptionAlgos) {
            validateConfig(encryptionAlgo, VALID_ENCRYPTION_ALGOS, CONFIG_TYPE_ENCRYPT_ALGO);

            if (encryptionAlgo == SaProposal.ENCRYPTION_ALGORITHM_AES_CBC) {
                int[] aesCbcKeyLens =
                        getConfig(
                                CarrierConfigManager.Iwlan
                                        .KEY_IKE_SESSION_AES_CBC_KEY_SIZE_INT_ARRAY);
                for (int aesCbcKeyLen : aesCbcKeyLens) {
                    if (validateConfig(aesCbcKeyLen, VALID_KEY_LENGTHS, CONFIG_TYPE_KEY_LEN)) {
                        saProposalBuilder.addEncryptionAlgorithm(encryptionAlgo, aesCbcKeyLen);
                    }
                }
            }

            if (encryptionAlgo == SaProposal.ENCRYPTION_ALGORITHM_AES_CTR) {
                int[] aesCtrKeyLens =
                        getConfig(
                                CarrierConfigManager.Iwlan
                                        .KEY_IKE_SESSION_AES_CTR_KEY_SIZE_INT_ARRAY);
                for (int aesCtrKeyLen : aesCtrKeyLens) {
                    if (validateConfig(aesCtrKeyLen, VALID_KEY_LENGTHS, CONFIG_TYPE_KEY_LEN)) {
                        saProposalBuilder.addEncryptionAlgorithm(encryptionAlgo, aesCtrKeyLen);
                    }
                }
            }
        }

        int[] integrityAlgos =
                getConfig(CarrierConfigManager.Iwlan.KEY_SUPPORTED_INTEGRITY_ALGORITHMS_INT_ARRAY);
        for (int integrityAlgo : integrityAlgos) {
            if (validateConfig(integrityAlgo, VALID_INTEGRITY_ALGOS, CONFIG_TYPE_INTEGRITY_ALGO)) {
                saProposalBuilder.addIntegrityAlgorithm(integrityAlgo);
            }
        }

        int[] prfAlgos =
                getConfig(CarrierConfigManager.Iwlan.KEY_SUPPORTED_PRF_ALGORITHMS_INT_ARRAY);
        for (int prfAlgo : prfAlgos) {
            if (validateConfig(prfAlgo, VALID_PRF_ALGOS, CONFIG_TYPE_PRF_ALGO)) {
                saProposalBuilder.addPseudorandomFunction(prfAlgo);
            }
        }

        return saProposalBuilder.build();
    }

    private boolean validateConfig(int config, Set<Integer> validConfigValues, String configType) {
        if (validConfigValues.contains(config)) {
            return true;
        }

        Log.e(TAG, "Invalid config value for " + configType + ":" + config);
        return false;
    }

    private ChildSaProposal buildChildSaProposal() {
        ChildSaProposal.Builder saProposalBuilder = new ChildSaProposal.Builder();

        // IKE library doesn't add KE payload if dh groups are not set in child session params.
        // Use the same groups as that of IKE session.
        if (getConfig(CarrierConfigManager.Iwlan.KEY_ADD_KE_TO_CHILD_SESSION_REKEY_BOOL)) {
            int[] dhGroups =
                    getConfig(CarrierConfigManager.Iwlan.KEY_DIFFIE_HELLMAN_GROUPS_INT_ARRAY);
            for (int dhGroup : dhGroups) {
                if (validateConfig(dhGroup, VALID_DH_GROUPS, CONFIG_TYPE_DH_GROUP)) {
                    saProposalBuilder.addDhGroup(dhGroup);
                }
            }
        }

        int[] encryptionAlgos =
                getConfig(
                        CarrierConfigManager.Iwlan
                                .KEY_SUPPORTED_CHILD_SESSION_ENCRYPTION_ALGORITHMS_INT_ARRAY);
        for (int encryptionAlgo : encryptionAlgos) {
            if (validateConfig(encryptionAlgo, VALID_ENCRYPTION_ALGOS, CONFIG_TYPE_ENCRYPT_ALGO)) {
                if (ChildSaProposal.getSupportedEncryptionAlgorithms().contains(encryptionAlgo)) {
                    if (encryptionAlgo == SaProposal.ENCRYPTION_ALGORITHM_AES_CBC) {
                        int[] aesCbcKeyLens =
                                getConfig(
                                        CarrierConfigManager.Iwlan
                                                .KEY_CHILD_SESSION_AES_CBC_KEY_SIZE_INT_ARRAY);
                        for (int aesCbcKeyLen : aesCbcKeyLens) {
                            if (validateConfig(
                                    aesCbcKeyLen, VALID_KEY_LENGTHS, CONFIG_TYPE_KEY_LEN)) {
                                saProposalBuilder.addEncryptionAlgorithm(
                                        encryptionAlgo, aesCbcKeyLen);
                            }
                        }
                    }

                    if (encryptionAlgo == SaProposal.ENCRYPTION_ALGORITHM_AES_CTR) {
                        int[] aesCtrKeyLens =
                                getConfig(
                                        CarrierConfigManager.Iwlan
                                                .KEY_CHILD_SESSION_AES_CTR_KEY_SIZE_INT_ARRAY);
                        for (int aesCtrKeyLen : aesCtrKeyLens) {
                            if (validateConfig(
                                    aesCtrKeyLen, VALID_KEY_LENGTHS, CONFIG_TYPE_KEY_LEN)) {
                                saProposalBuilder.addEncryptionAlgorithm(
                                        encryptionAlgo, aesCtrKeyLen);
                            }
                        }
                    }
                } else {
                    Log.w(TAG, "Device does not support encryption alog:  " + encryptionAlgo);
                }
            }
        }

        int[] integrityAlgos =
                getConfig(CarrierConfigManager.Iwlan.KEY_SUPPORTED_INTEGRITY_ALGORITHMS_INT_ARRAY);
        for (int integrityAlgo : integrityAlgos) {
            if (validateConfig(integrityAlgo, VALID_INTEGRITY_ALGOS, CONFIG_TYPE_INTEGRITY_ALGO)) {
                if (ChildSaProposal.getSupportedIntegrityAlgorithms().contains(integrityAlgo)) {
                    saProposalBuilder.addIntegrityAlgorithm(integrityAlgo);
                } else {
                    Log.w(TAG, "Device does not support integrity alog:  " + integrityAlgo);
                }
            }
        }

        return saProposalBuilder.build();
    }

    private IkeIdentification getLocalIdentification() throws IwlanSimNotReadyException {
        String nai;

        nai = IwlanHelper.getNai(mContext, mSlotId, mNextReauthId);

        if (nai == null) {
            throw new IwlanSimNotReadyException("Nai is null.");
        }

        Log.d(TAG, "getLocalIdentification: Nai: " + nai);
        return getId(nai, true);
    }

    private IkeIdentification getId(String id, boolean isLocal) {
        String idTypeConfig =
                isLocal
                        ? CarrierConfigManager.Iwlan.KEY_IKE_LOCAL_ID_TYPE_INT
                        : CarrierConfigManager.Iwlan.KEY_IKE_REMOTE_ID_TYPE_INT;
        int idType = getConfig(idTypeConfig);
        switch (idType) {
            case CarrierConfigManager.Iwlan.ID_TYPE_FQDN:
                return new IkeFqdnIdentification(id);
            case CarrierConfigManager.Iwlan.ID_TYPE_KEY_ID:
                return new IkeKeyIdIdentification(id.getBytes(StandardCharsets.US_ASCII));
            case CarrierConfigManager.Iwlan.ID_TYPE_RFC822_ADDR:
                return new IkeRfc822AddrIdentification(id);
            default:
                throw new IllegalArgumentException("Invalid local Identity type: " + idType);
        }
    }

    private EapSessionConfig getEapConfig() throws IwlanSimNotReadyException {
        int subId = IwlanHelper.getSubId(mContext, mSlotId);
        String nai = IwlanHelper.getNai(mContext, mSlotId, null);

        if (nai == null) {
            throw new IwlanSimNotReadyException("Nai is null.");
        }

        EapSessionConfig.EapAkaOption option = null;
        if (mNextReauthId != null) {
            option = new EapSessionConfig.EapAkaOption.Builder().setReauthId(mNextReauthId).build();
        }

        Log.d(TAG, "getEapConfig: Nai: " + nai);
        return new EapSessionConfig.Builder()
                .setEapAkaConfig(subId, TelephonyManager.APPTYPE_USIM, option)
                .setEapIdentity(nai.getBytes(StandardCharsets.US_ASCII))
                .build();
    }

    private void onSessionClosedWithException(
            IkeException exception, String apnName, int sessionType) {
        IwlanError error = new IwlanError(exception);
        Log.e(
                TAG,
                "Closing tunnel with exception for apn: "
                        + apnName
                        + " sessionType:"
                        + sessionType
                        + " error: "
                        + error);
        exception.printStackTrace();

        mHandler.sendMessage(
                mHandler.obtainMessage(sessionType, new SessionClosedData(apnName, error)));
    }

    private final class TmHandler extends Handler {
        private final String TAG = TmHandler.class.getSimpleName();

        @Override
        public void handleMessage(Message msg) {
            Log.d(TAG, "msg.what = " + msg.what);

            String apnName;
            TunnelConfig tunnelConfig;

            switch (msg.what) {
                case EVENT_TUNNEL_BRINGUP_REQUEST:
                    TunnelRequestWrapper tunnelRequestWrapper = (TunnelRequestWrapper) msg.obj;
                    TunnelSetupRequest setupRequest = tunnelRequestWrapper.getSetupRequest();

                    if (IwlanHelper.getSubId(mContext, mSlotId)
                            == SubscriptionManager.INVALID_SUBSCRIPTION_ID) {
                        Log.e(TAG, "SIM isn't ready");
                        IwlanError iwlanError = new IwlanError(IwlanError.SIM_NOT_READY_EXCEPTION);
                        reportIwlanError(setupRequest.apnName(), iwlanError);
                        tunnelRequestWrapper
                                .getTunnelCallback()
                                .onClosed(setupRequest.apnName(), iwlanError);
                        return;
                    }

                    if (!canBringUpTunnel(setupRequest.apnName())) {
                        Log.d(TAG, "Cannot bring up tunnel as retry time has not passed");
                        tunnelRequestWrapper
                                .getTunnelCallback()
                                .onClosed(
                                        setupRequest.apnName(),
                                        getLastError(setupRequest.apnName()));
                        return;
                    }

                    // No tunnel bring up in progress and the epdg address is null
                    if (!mIsEpdgAddressSelected
                            && mApnNameToTunnelConfig.size() == 0
                            && mRequestQueue.size() == 0) {
                        mNetwork = setupRequest.network();
                        mRequestQueue.add(tunnelRequestWrapper);
                        selectEpdgAddress(setupRequest);
                        break;
                    }

                    // Service the request immediately when epdg address is available
                    if (mIsEpdgAddressSelected) {
                        onBringUpTunnel(setupRequest, tunnelRequestWrapper.getTunnelCallback());
                    } else {
                        mRequestQueue.add(tunnelRequestWrapper);
                    }
                    break;

                case EVENT_EPDG_ADDRESS_SELECTION_REQUEST_COMPLETE:
                    EpdgSelectorResult selectorResult = (EpdgSelectorResult) msg.obj;
                    printRequestQueue("EVENT_EPDG_ADDRESS_SELECTION_REQUEST_COMPLETE");

                    if (selectorResult.getTransactionId() != mTransactionId) {
                        Log.e(TAG, "Mismatched transactionId");
                        break;
                    }

                    if ((tunnelRequestWrapper = mRequestQueue.peek()) == null) {
                        Log.d(TAG, "Empty request queue");
                        break;
                    }

                    if (selectorResult.getEpdgError().getErrorType() == IwlanError.NO_ERROR
                            && selectorResult.getValidIpList() != null) {
                        validateAndSetEpdgAddress(selectorResult.getValidIpList());
                        onBringUpTunnel(
                                tunnelRequestWrapper.getSetupRequest(),
                                tunnelRequestWrapper.getTunnelCallback());
                    } else {
                        IwlanError error =
                                (selectorResult.getEpdgError().getErrorType()
                                                == IwlanError.NO_ERROR)
                                        ? new IwlanError(
                                                IwlanError.EPDG_SELECTOR_SERVER_SELECTION_FAILED)
                                        : selectorResult.getEpdgError();
                        failAllPendingRequests(error);
                    }
                    break;

                case EVENT_CHILD_SESSION_OPENED:
                    TunnelOpenedData tunnelOpenedData = (TunnelOpenedData) msg.obj;
                    apnName = tunnelOpenedData.mApnName;
                    tunnelConfig = mApnNameToTunnelConfig.get(apnName);

                    tunnelConfig.setDnsAddrList(tunnelOpenedData.mInternalDnsServers);
                    tunnelConfig.setInternalAddrList(tunnelOpenedData.mInternalAddresses);

                    IpSecManager.IpSecTunnelInterface tunnelInterface = tunnelConfig.getIface();

                    for (LinkAddress address : tunnelConfig.getInternalAddrList()) {
                        try {
                            tunnelInterface.addAddress(
                                    address.getAddress(), address.getPrefixLength());
                        } catch (IOException e) {
                            Log.e(TAG, "Adding internal addresses to interface failed.");
                        }
                    }

                    TunnelLinkProperties linkProperties =
                            TunnelLinkProperties.builder()
                                    .setInternalAddresses(tunnelConfig.getInternalAddrList())
                                    .setDnsAddresses(tunnelConfig.getDnsAddrList())
                                    .setPcscfAddresses(tunnelConfig.getPcscfAddrList())
                                    .setIfaceName(tunnelConfig.getIface().getInterfaceName())
                                    .setSliceInfo(tunnelConfig.getSliceInfo())
                                    .build();
                    tunnelConfig.getTunnelCallback().onOpened(apnName, linkProperties);

                    setIsEpdgAddressSelected(true);
                    mValidEpdgInfo.resetIndex();
                    mRequestQueue.poll();
                    printRequestQueue("EVENT_CHILD_SESSION_OPENED");
                    serviceAllPendingRequests();
                    break;

                case EVENT_IKE_SESSION_CLOSED:
                    printRequestQueue("EVENT_IKE_SESSION_CLOSED");
                    SessionClosedData sessionClosedData = (SessionClosedData) msg.obj;
                    apnName = sessionClosedData.mApnName;

                    tunnelConfig = mApnNameToTunnelConfig.get(apnName);
                    if (tunnelConfig == null) {
                        Log.e(TAG, "No callback found for apn: " + apnName);
                        return;
                    }

                    // If IKE session closed exceptionally, we retrieve IwlanError directly from the
                    // exception; otherwise, it is still possible that we triggered an IKE session
                    // close due to an error (eg. IwlanError.TUNNEL_TRANSFORM_FAILED), or because
                    // the Child session closed exceptionally; in which case, we attempt to retrieve
                    // the stored error (if any) from TunnelConfig.
                    IwlanError iwlanError;
                    if (sessionClosedData.mIwlanError.getErrorType() != IwlanError.NO_ERROR) {
                        iwlanError = sessionClosedData.mIwlanError;
                    } else {
                        // If IKE session setup failed without error cause, Iwlan reports
                        // NETWORK_FAILURE instead of NO_ERROR
                        if (!tunnelConfig.hasTunnelOpened()) {
                            iwlanError = new IwlanError(IwlanError.NETWORK_FAILURE);
                        } else {
                            iwlanError = tunnelConfig.getError();
                        }
                    }

                    IpSecManager.IpSecTunnelInterface iface = tunnelConfig.getIface();
                    if (iface != null) {
                        iface.close();
                    }

                    if (!mIsEpdgAddressSelected) {
                        // fail all the requests. report back off timer, if present, to the
                        // current request.
                        if (tunnelConfig.isBackoffTimeValid()) {
                            mRequestQueue.poll();
                            reportIwlanError(apnName, iwlanError, tunnelConfig.getBackoffTime());
                            tunnelConfig.getTunnelCallback().onClosed(apnName, iwlanError);
                        }
                        failAllPendingRequests(iwlanError);
                    } else {
                        mRequestQueue.poll();
                        Log.d(TAG, "Tunnel Closed: " + iwlanError);
                        if (tunnelConfig.isBackoffTimeValid()) {
                            reportIwlanError(apnName, iwlanError, tunnelConfig.getBackoffTime());
                        } else {
                            reportIwlanError(apnName, iwlanError);
                        }
                        tunnelConfig.getTunnelCallback().onClosed(apnName, iwlanError);
                    }

                    mApnNameToTunnelConfig.remove(apnName);
                    if (mApnNameToTunnelConfig.size() == 0 && mRequestQueue.size() == 0) {
                        resetTunnelManagerState();
                    }
                    break;

                case EVENT_UPDATE_NETWORK:
                    UpdateNetworkWrapper updatedNetwork = (UpdateNetworkWrapper) msg.obj;
                    apnName = updatedNetwork.getApnName();
                    Network network = updatedNetwork.getNetwork();
                    tunnelConfig = mApnNameToTunnelConfig.get(apnName);

                    // Update the global cache if they aren't equal
                    if (mNetwork == null || !mNetwork.equals(network)) {
                        Log.d(TAG, "Updating mNetwork to " + network);
                        mNetwork = network;
                    }

                    if (tunnelConfig == null) {
                        Log.d(TAG, "Update Network request: No tunnel exists for apn: " + apnName);
                    } else {
                        Log.d(TAG, "Updating Network for apn: " + apnName + " Network: " + network);
                        tunnelConfig.getIkeSession().setNetwork(network);
                    }
                    break;

                case EVENT_TUNNEL_BRINGDOWN_REQUEST:
                    apnName = (String) msg.obj;
                    int forceClose = msg.arg1;
                    tunnelConfig = mApnNameToTunnelConfig.get(apnName);
                    if (tunnelConfig == null) {
                        Log.d(
                                TAG,
                                "Bringdown request: No tunnel exists for apn: "
                                        + apnName
                                        + "forced: "
                                        + forceClose);
                    } else {
                        if (forceClose == 1) {
                            tunnelConfig.getIkeSession().kill();
                        } else {
                            tunnelConfig.getIkeSession().close();
                        }
                    }
                    int numClosed = closePendingRequestsForApn(apnName);
                    if (numClosed > 0) {
                        Log.d(TAG, "Closed " + numClosed + " pending requests for apn: " + apnName);
                    }
                    break;

                case EVENT_IPSEC_TRANSFORM_CREATED:
                    IpsecTransformData transformData = (IpsecTransformData) msg.obj;
                    apnName = transformData.getApnName();
                    IpSecManager ipSecManager = mContext.getSystemService(IpSecManager.class);
                    tunnelConfig = mApnNameToTunnelConfig.get(apnName);

                    if (tunnelConfig.getIface() == null) {
                        if (mLocalAddresses == null
                                || mLocalAddresses.size() == 0
                                || ipSecManager == null) {
                            Log.e(TAG, "No local addresses found.");
                            closeIkeSession(
                                    apnName, new IwlanError(IwlanError.TUNNEL_TRANSFORM_FAILED));
                            return;
                        }

                        try {
                            if (mEpdgAddress instanceof Inet4Address
                                    && mProtoFilter == EpdgSelector.PROTO_FILTER_IPV6) {
                                mLocalAddresses =
                                        IwlanHelper.getStackedAddressesForNetwork(
                                                mNetwork, mContext);
                            }
                            InetAddress localAddress =
                                    (mEpdgAddress instanceof Inet4Address)
                                            ? IwlanHelper.getIpv4Address(mLocalAddresses)
                                            : IwlanHelper.getIpv6Address(mLocalAddresses);
                            Log.d(TAG, "Local address = " + localAddress);
                            tunnelConfig.setIface(
                                    ipSecManager.createIpSecTunnelInterface(
                                            localAddress, mEpdgAddress, mNetwork));
                        } catch (IpSecManager.ResourceUnavailableException | IOException e) {
                            Log.e(TAG, "Failed to create tunnel interface. " + e);
                            closeIkeSession(
                                    apnName, new IwlanError(IwlanError.TUNNEL_TRANSFORM_FAILED));
                            return;
                        }
                    }

                    try {
                        ipSecManager.applyTunnelModeTransform(
                                tunnelConfig.getIface(),
                                transformData.getDirection(),
                                transformData.getTransform());
                    } catch (IOException e) {
                        Log.e(TAG, "Failed to apply tunnel transform.");
                        closeIkeSession(
                                apnName, new IwlanError(IwlanError.TUNNEL_TRANSFORM_FAILED));
                    }
                    break;

                case EVENT_IPSEC_TRANSFORM_DELETED:
                    IpSecTransform transform = (IpSecTransform) msg.obj;
                    transform.close();
                    break;

                case EVENT_CHILD_SESSION_CLOSED:
                    sessionClosedData = (SessionClosedData) msg.obj;
                    apnName = sessionClosedData.mApnName;

                    tunnelConfig = mApnNameToTunnelConfig.get(apnName);
                    if (tunnelConfig == null) {
                        Log.d(TAG, "No tunnel callback for apn: " + apnName);
                        return;
                    }
                    tunnelConfig.setError(sessionClosedData.mIwlanError);
                    tunnelConfig.getIkeSession().close();
                    break;

                case EVENT_IKE_SESSION_OPENED:
                    IkeSessionOpenedData ikeSessionOpenedData = (IkeSessionOpenedData) msg.obj;
                    IkeSessionConfiguration sessionConfiguration =
                            ikeSessionOpenedData.mIkeSessionConfiguration;

                    tunnelConfig = mApnNameToTunnelConfig.get(ikeSessionOpenedData.mApnName);
                    tunnelConfig.setPcscfAddrList(sessionConfiguration.getPcscfServers());

                    boolean enabledFastReauth =
                            (boolean)
                                    getConfig(
                                            CarrierConfigManager.Iwlan
                                                    .KEY_SUPPORTS_EAP_AKA_FAST_REAUTH_BOOL);
                    Log.d(
                            TAG,
                            "CarrierConfigManager.Iwlan.KEY_SUPPORTS_EAP_AKA_FAST_REAUTH_BOOL "
                                    + enabledFastReauth);

                    if (enabledFastReauth) {
                        EapInfo eapInfo = sessionConfiguration.getEapInfo();
                        if (eapInfo != null && eapInfo instanceof EapAkaInfo) {
                            mNextReauthId = ((EapAkaInfo) eapInfo).getReauthId();
                            Log.d(TAG, "Update ReauthId: " + Arrays.toString(mNextReauthId));
                        } else {
                            mNextReauthId = null;
                        }
                    }
                    break;
                default:
                    throw new IllegalStateException("Unexpected value: " + msg.what);
            }
        }

        TmHandler(Looper looper) {
            super(looper);
        }
    }

    private void closeIkeSession(String apnName, IwlanError error) {
        TunnelConfig tunnelConfig = mApnNameToTunnelConfig.get(apnName);
        tunnelConfig.setError(error);
        tunnelConfig.getIkeSession().close();
    }

    private void selectEpdgAddress(TunnelSetupRequest setupRequest) {
        mLocalAddresses = getAddressForNetwork(mNetwork, mContext);
        if (mLocalAddresses == null || mLocalAddresses.size() == 0) {
            Log.e(TAG, "No local addresses available.");
            failAllPendingRequests(
                    new IwlanError(IwlanError.EPDG_SELECTOR_SERVER_SELECTION_FAILED));
            return;
        }

        mProtoFilter = EpdgSelector.PROTO_FILTER_IPV4V6;
        if (!IwlanHelper.hasIpv6Address(mLocalAddresses)) {
            mProtoFilter = EpdgSelector.PROTO_FILTER_IPV4;
        }
        if (!IwlanHelper.hasIpv4Address(mLocalAddresses)) {
            mProtoFilter = EpdgSelector.PROTO_FILTER_IPV6;
        }

        EpdgSelector epdgSelector = getEpdgSelector();
        IwlanError epdgError =
                epdgSelector.getValidatedServerList(
                        ++mTransactionId,
                        mProtoFilter,
                        setupRequest.isRoaming(),
                        setupRequest.isEmergency(),
                        mNetwork,
                        mSelectorCallback);

        if (epdgError.getErrorType() != IwlanError.NO_ERROR) {
            Log.e(TAG, "Epdg address selection failed with error:" + epdgError);
            failAllPendingRequests(epdgError);
        }
    }

    @VisibleForTesting
    EpdgSelector getEpdgSelector() {
        return EpdgSelector.getSelectorInstance(mContext, mSlotId);
    }

    @VisibleForTesting
    int closePendingRequestsForApn(String apnName) {
        int numRequestsClosed = 0;
        int queueSize = mRequestQueue.size();
        if (queueSize == 0) {
            return numRequestsClosed;
        }

        int count = 0;

        while (count < queueSize) {
            TunnelRequestWrapper requestWrapper = mRequestQueue.poll();
            if (requestWrapper.getSetupRequest().apnName() == apnName) {
                requestWrapper
                        .getTunnelCallback()
                        .onClosed(apnName, new IwlanError(IwlanError.NO_ERROR));
                numRequestsClosed++;
            } else {
                mRequestQueue.add(requestWrapper);
            }
            count++;
        }
        return numRequestsClosed;
    }

    @VisibleForTesting
    void validateAndSetEpdgAddress(List<InetAddress> selectorResultList) {
        List<InetAddress> addrList = mValidEpdgInfo.getAddrList();
        if (addrList == null || !addrList.equals(selectorResultList)) {
            Log.d(TAG, "Update ePDG address list.");
            mValidEpdgInfo.setAddrList(selectorResultList);
            addrList = mValidEpdgInfo.getAddrList();
        }

        int index = mValidEpdgInfo.getIndex();
        Log.d(
                TAG,
                "Valid ePDG Address List: "
                        + Arrays.toString(addrList.toArray())
                        + ", index = "
                        + index);
        mEpdgAddress = addrList.get(index);
        mValidEpdgInfo.incrementIndex();
    }

    @VisibleForTesting
    void resetTunnelManagerState() {
        Log.d(TAG, "resetTunnelManagerState");
        mEpdgAddress = null;
        setIsEpdgAddressSelected(false);
        mNetwork = null;
        mRequestQueue = new LinkedList<>();
        mApnNameToTunnelConfig = new ConcurrentHashMap<>();
        mLocalAddresses = null;
    }

    private void serviceAllPendingRequests() {
        while (mRequestQueue.size() > 0) {
            Log.d(TAG, "serviceAllPendingRequests");
            TunnelRequestWrapper request = mRequestQueue.poll();
            onBringUpTunnel(request.getSetupRequest(), request.getTunnelCallback());
        }
    }

    private void failAllPendingRequests(IwlanError error) {
        while (mRequestQueue.size() > 0) {
            Log.d(TAG, "failAllPendingRequests");
            TunnelRequestWrapper request = mRequestQueue.poll();
            TunnelSetupRequest setupRequest = request.getSetupRequest();
            reportIwlanError(setupRequest.apnName(), error);
            request.getTunnelCallback().onClosed(setupRequest.apnName(), error);
        }
    }

    // Prints mRequestQueue
    private void printRequestQueue(String info) {
        Log.d(TAG, info);
        Log.d(TAG, "mRequestQueue: " + Arrays.toString(mRequestQueue.toArray()));
    }

    // Update Network wrapper
    private static final class UpdateNetworkWrapper {
        private final Network mNetwork;
        private final String mApnName;

        private UpdateNetworkWrapper(Network network, String apnName) {
            mNetwork = network;
            mApnName = apnName;
        }

        public String getApnName() {
            return mApnName;
        }

        public Network getNetwork() {
            return mNetwork;
        }
    }
    // Tunnel request + tunnel callback
    private static final class TunnelRequestWrapper {
        private final TunnelSetupRequest mSetupRequest;

        private final TunnelCallback mTunnelCallback;

        private TunnelRequestWrapper(
                TunnelSetupRequest setupRequest, TunnelCallback tunnelCallback) {
            mTunnelCallback = tunnelCallback;
            mSetupRequest = setupRequest;
        }

        public TunnelSetupRequest getSetupRequest() {
            return mSetupRequest;
        }

        public TunnelCallback getTunnelCallback() {
            return mTunnelCallback;
        }
    }

    private static final class EpdgSelectorResult {
        private final List<InetAddress> mValidIpList;

        public List<InetAddress> getValidIpList() {
            return mValidIpList;
        }

        public IwlanError getEpdgError() {
            return mEpdgError;
        }

        public int getTransactionId() {
            return mTransactionId;
        }

        private final IwlanError mEpdgError;
        private final int mTransactionId;

        private EpdgSelectorResult(
                List<InetAddress> validIpList, IwlanError epdgError, int transactionId) {
            mValidIpList = validIpList;
            mEpdgError = epdgError;
            mTransactionId = transactionId;
        }
    }

    // Data received from IkeSessionStateMachine on successful EVENT_CHILD_SESSION_OPENED.
    private static final class TunnelOpenedData {
        final String mApnName;
        final List<InetAddress> mInternalDnsServers;
        final List<LinkAddress> mInternalAddresses;

        private TunnelOpenedData(
                String apnName,
                List<InetAddress> internalDnsServers,
                List<LinkAddress> internalAddresses) {
            mApnName = apnName;
            mInternalDnsServers = internalDnsServers;
            mInternalAddresses = internalAddresses;
        }
    }

    // Data received from IkeSessionStateMachine on successful EVENT_IKE_SESSION_OPENED.
    private static final class IkeSessionOpenedData {
        final String mApnName;
        final IkeSessionConfiguration mIkeSessionConfiguration;

        private IkeSessionOpenedData(
                String apnName, IkeSessionConfiguration ikeSessionConfiguration) {
            mApnName = apnName;
            mIkeSessionConfiguration = ikeSessionConfiguration;
        }
    }

    // Data received from IkeSessionStateMachine if either IKE session or Child session have been
    // closed, normally or exceptionally.
    private static final class SessionClosedData {
        final String mApnName;
        final IwlanError mIwlanError;

        private SessionClosedData(String apnName, IwlanError iwlanError) {
            mApnName = apnName;
            mIwlanError = iwlanError;
        }
    }

    public void releaseInstance() {
        mHandlerThread.quit();
        mTunnelManagerInstances.remove(mSlotId);
    }

    private static final class IpsecTransformData {
        private final IpSecTransform mTransform;
        private final int mDirection;
        private final String mApnName;

        private IpsecTransformData(IpSecTransform transform, int direction, String apnName) {
            mTransform = transform;
            mDirection = direction;
            mApnName = apnName;
        }

        public IpSecTransform getTransform() {
            return mTransform;
        }

        public int getDirection() {
            return mDirection;
        }

        public String getApnName() {
            return mApnName;
        }
    }

    private static final class EpdgInfo {
        private List<InetAddress> mAddrList;
        private int mIndex;

        private EpdgInfo() {
            mAddrList = null;
            mIndex = 0;
        }

        public List<InetAddress> getAddrList() {
            return mAddrList;
        }

        public void setAddrList(@NonNull List<InetAddress> AddrList) {
            mAddrList = AddrList;
            resetIndex();
        }

        public int getIndex() {
            return mIndex;
        }

        public void incrementIndex() {
            if (getIndex() >= getAddrList().size() - 1) {
                resetIndex();
            } else {
                mIndex++;
            }
        }

        public void resetIndex() {
            mIndex = 0;
        }
    }

    private int[] getRetransmissionTimeoutsFromConfig() {
        int[] timeList =
                (int[]) getConfig(CarrierConfigManager.Iwlan.KEY_RETRANSMIT_TIMER_MSEC_INT_ARRAY);
        boolean isValid = true;
        if (timeList == null
                || timeList.length == 0
                || timeList.length > IKE_RETRANS_MAX_ATTEMPTS_MAX) {
            isValid = false;
        }
        for (int time : timeList) {
            if (time < IKE_RETRANS_TIMEOUT_MS_MIN || time > IKE_RETRANS_TIMEOUT_MS_MAX) {
                isValid = false;
                break;
            }
        }
        if (!isValid) {
            timeList =
                    (int[])
                            IwlanHelper.getDefaultConfig(
                                    CarrierConfigManager.Iwlan.KEY_RETRANSMIT_TIMER_MSEC_INT_ARRAY);
        }
        Log.d(TAG, "getRetransmissionTimeoutsFromConfig: " + Arrays.toString(timeList));
        return timeList;
    }

    private int getDpdDelayFromConfig() {
        int dpdDelay = (int) getConfig(CarrierConfigManager.Iwlan.KEY_DPD_TIMER_SEC_INT);
        if (dpdDelay < IKE_DPD_DELAY_SEC_MIN || dpdDelay > IKE_DPD_DELAY_SEC_MAX) {
            dpdDelay =
                    (int)
                            IwlanHelper.getDefaultConfig(
                                    CarrierConfigManager.Iwlan.KEY_DPD_TIMER_SEC_INT);
        }
        return dpdDelay;
    }

    /**
     * Decodes backoff time as per TS 124 008 10.5.7.4a Bits 5 to 1 represent the binary coded timer
     * value
     *
     * <p>Bits 6 to 8 defines the timer value unit for the GPRS timer as follows: Bits 8 7 6 0 0 0
     * value is incremented in multiples of 10 minutes 0 0 1 value is incremented in multiples of 1
     * hour 0 1 0 value is incremented in multiples of 10 hours 0 1 1 value is incremented in
     * multiples of 2 seconds 1 0 0 value is incremented in multiples of 30 seconds 1 0 1 value is
     * incremented in multiples of 1 minute 1 1 0 value is incremented in multiples of 1 hour 1 1 1
     * value indicates that the timer is deactivated.
     *
     * @param backoffTimerByte Byte value obtained from ike
     * @return long time value in seconds. -1 if the timer needs to be deactivated.
     */
    private static long decodeBackoffTime(byte backoffTimeByte) {
        final int BACKOFF_TIME_VALUE_MASK = 0x1F;
        final int BACKOFF_TIMER_UNIT_MASK = 0xE0;
        final Long[] BACKOFF_TIMER_UNIT_INCREMENT_SECS = {
            10L * 60L, // 10 mins
            1L * 60L * 60L, // 1 hour
            10L * 60L * 60L, // 10 hours
            2L, // 2 seconds
            30L, // 30 seconds
            1L * 60L, // 1 minute
            1L * 60L * 60L, // 1 hour
        };

        long time = backoffTimeByte & BACKOFF_TIME_VALUE_MASK;
        int timerUnit = (backoffTimeByte & BACKOFF_TIMER_UNIT_MASK) >> 5;
        if (timerUnit >= BACKOFF_TIMER_UNIT_INCREMENT_SECS.length) {
            return -1;
        }
        time *= BACKOFF_TIMER_UNIT_INCREMENT_SECS[timerUnit];
        return time;
    }

    @VisibleForTesting
    String getTunnelSetupRequestApnName(TunnelSetupRequest setupRequest) {
        String apnName = setupRequest.apnName();
        return apnName;
    }

    @VisibleForTesting
    void putApnNameToTunnelConfig(
            String apnName,
            IkeSession ikeSession,
            TunnelCallback tunnelCallback,
            InetAddress srcIpv6Addr,
            int srcIPv6AddrPrefixLen) {
        mApnNameToTunnelConfig.put(
                apnName,
                new TunnelConfig(ikeSession, tunnelCallback, srcIpv6Addr, srcIPv6AddrPrefixLen));
        Log.d(TAG, "Added apn: " + apnName + " to TunnelConfig");
    }

    @VisibleForTesting
    boolean isTunnelConfigContainExistApn(String apnName) {
        boolean ret = mApnNameToTunnelConfig.containsKey(apnName);
        return ret;
    }

    @VisibleForTesting
    List<InetAddress> getAddressForNetwork(Network network, Context context) {
        List<InetAddress> ret = IwlanHelper.getAddressesForNetwork(network, context);
        return ret;
    }

    @VisibleForTesting
    EpdgSelector.EpdgSelectorCallback getSelectorCallback() {
        return mSelectorCallback;
    }

    @VisibleForTesting
    IkeSessionCreator getIkeSessionCreator() {
        return mIkeSessionCreator;
    }

    @VisibleForTesting
    void sendSelectionRequestComplete(
            ArrayList<InetAddress> validIPList, IwlanError result, int transactionId) {
        EpdgSelectorResult epdgSelectorResult =
                new EpdgSelectorResult(validIPList, result, transactionId);
        mHandler.sendMessage(
                mHandler.obtainMessage(
                        EVENT_EPDG_ADDRESS_SELECTION_REQUEST_COMPLETE, epdgSelectorResult));
    }

    static boolean isValidApnProtocol(int proto) {
        return (proto == ApnSetting.PROTOCOL_IP
                || proto == ApnSetting.PROTOCOL_IPV4V6
                || proto == ApnSetting.PROTOCOL_IPV6);
    }

    @VisibleForTesting
    TmIkeSessionCallback getTmIkeSessionCallback(String apnName) {
        return new TmIkeSessionCallback(apnName);
    }

    @VisibleForTesting
    void setIsEpdgAddressSelected(boolean value) {
        mIsEpdgAddressSelected = value;
    }

    @VisibleForTesting
    TunnelConfig getTunnelConfigForApn(String apnName) {
        return mApnNameToTunnelConfig.get(apnName);
    }

    @VisibleForTesting
    long reportIwlanError(String apnName, IwlanError error) {
        return ErrorPolicyManager.getInstance(mContext, mSlotId).reportIwlanError(apnName, error);
    }

    @VisibleForTesting
    long reportIwlanError(String apnName, IwlanError error, long backOffTime) {
        return ErrorPolicyManager.getInstance(mContext, mSlotId)
                .reportIwlanError(apnName, error, backOffTime);
    }

    @VisibleForTesting
    IwlanError getLastError(String apnName) {
        return ErrorPolicyManager.getInstance(mContext, mSlotId).getLastError(apnName);
    }

    @VisibleForTesting
    boolean canBringUpTunnel(String apnName) {
        return ErrorPolicyManager.getInstance(mContext, mSlotId).canBringUpTunnel(apnName);
    }

    public void dump(FileDescriptor fd, PrintWriter pw, String[] args) {
        pw.println("---- EpdgTunnelManager ----");
        pw.println("mIsEpdgAddressSelected: " + mIsEpdgAddressSelected);
        if (mEpdgAddress != null) {
            pw.println("mEpdgAddress: " + mEpdgAddress);
        }
        pw.println("mApnNameToTunnelConfig:\n");
        for (Map.Entry<String, TunnelConfig> entry : mApnNameToTunnelConfig.entrySet()) {
            pw.println("APN: " + entry.getKey());
            pw.println("TunnelConfig: " + entry.getValue());
            pw.println();
        }
        pw.println("---------------------------");
    }
}