com/android/server/connectivity/Nat464Xlat.java - platform/prebuilts/fullsdk/sources/android-29 - Git at Google

 /*
  * Copyright (C) 2012 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.server.connectivity;

 import android.net.ConnectivityManager;
 import android.net.IDnsResolver;
 import android.net.INetd;
 import android.net.InetAddresses;
 import android.net.InterfaceConfiguration;
 import android.net.IpPrefix;
 import android.net.LinkAddress;
 import android.net.LinkProperties;
 import android.net.NetworkInfo;
 import android.net.RouteInfo;
 import android.os.INetworkManagementService;
 import android.os.RemoteException;
 import android.os.ServiceSpecificException;
 import android.util.Slog;

 import com.android.internal.annotations.VisibleForTesting;
 import com.android.internal.util.ArrayUtils;
 import com.android.server.net.BaseNetworkObserver;

 import java.net.Inet4Address;
 import java.net.Inet6Address;
 import java.util.Objects;

 /**
  * Class to manage a 464xlat CLAT daemon. Nat464Xlat is not thread safe and should be manipulated
  * from a consistent and unique thread context. It is the responsibility of ConnectivityService to
  * call into this class from its own Handler thread.
  *
  * @hide
  */
 public class Nat464Xlat extends BaseNetworkObserver {
     private static final String TAG = Nat464Xlat.class.getSimpleName();

     // This must match the interface prefix in clatd.c.
     private static final String CLAT_PREFIX = "v4-";

     // The network types on which we will start clatd,
     // allowing clat only on networks for which we can support IPv6-only.
     private static final int[] NETWORK_TYPES = {
         ConnectivityManager.TYPE_MOBILE,
         ConnectivityManager.TYPE_WIFI,
         ConnectivityManager.TYPE_ETHERNET,
     };

     // The network states in which running clatd is supported.
     private static final NetworkInfo.State[] NETWORK_STATES = {
         NetworkInfo.State.CONNECTED,
         NetworkInfo.State.SUSPENDED,
     };

     private final IDnsResolver mDnsResolver;
     private final INetd mNetd;
     private final INetworkManagementService mNMService;

     // The network we're running on, and its type.
     private final NetworkAgentInfo mNetwork;

     private enum State {
         IDLE,         // start() not called. Base iface and stacked iface names are null.
         DISCOVERING,  // same as IDLE, except prefix discovery in progress.
         STARTING,     // start() called. Base iface and stacked iface names are known.
         RUNNING,      // start() called, and the stacked iface is known to be up.
     }

     private IpPrefix mNat64Prefix;
     private String mBaseIface;
     private String mIface;
     private Inet6Address mIPv6Address;
     private State mState = State.IDLE;

     public Nat464Xlat(NetworkAgentInfo nai, INetd netd, IDnsResolver dnsResolver,
             INetworkManagementService nmService) {
         mDnsResolver = dnsResolver;
         mNetd = netd;
         mNMService = nmService;
         mNetwork = nai;
     }

     /**
      * Whether to attempt 464xlat on this network. This is true for an IPv6-only network that is
      * currently connected and where the NetworkAgent has not disabled 464xlat. It is the signal to
      * enable NAT64 prefix discovery.
      *
      * @param network the NetworkAgentInfo corresponding to the network.
      * @return true if the network requires clat, false otherwise.
      */
     @VisibleForTesting
     protected static boolean requiresClat(NetworkAgentInfo nai) {
         // TODO: migrate to NetworkCapabilities.TRANSPORT_*.
         final boolean supported = ArrayUtils.contains(NETWORK_TYPES, nai.networkInfo.getType());
         final boolean connected = ArrayUtils.contains(NETWORK_STATES, nai.networkInfo.getState());

         // Only run clat on networks that have a global IPv6 address and don't have a native IPv4
         // address.
         LinkProperties lp = nai.linkProperties;
         final boolean isIpv6OnlyNetwork = (lp != null) && lp.hasGlobalIpv6Address()
                 && !lp.hasIpv4Address();

         // If the network tells us it doesn't use clat, respect that.
         final boolean skip464xlat = (nai.netMisc() != null) && nai.netMisc().skip464xlat;

         return supported && connected && isIpv6OnlyNetwork && !skip464xlat;
     }

     /**
      * Whether the clat demon should be started on this network now. This is true if requiresClat is
      * true and a NAT64 prefix has been discovered.
      *
      * @param nai the NetworkAgentInfo corresponding to the network.
      * @return true if the network should start clat, false otherwise.
      */
     @VisibleForTesting
     protected static boolean shouldStartClat(NetworkAgentInfo nai) {
         LinkProperties lp = nai.linkProperties;
         return requiresClat(nai) && lp != null && lp.getNat64Prefix() != null;
     }

     /**
      * @return true if we have started prefix discovery and not yet stopped it (regardless of
      * whether it is still running or has succeeded).
      * A true result corresponds to internal states DISCOVERING, STARTING and RUNNING.
      */
     public boolean isPrefixDiscoveryStarted() {
         return mState == State.DISCOVERING || isStarted();
     }

     /**
      * @return true if clatd has been started and has not yet stopped.
      * A true result corresponds to internal states STARTING and RUNNING.
      */
     public boolean isStarted() {
         return (mState == State.STARTING || mState == State.RUNNING);
     }

     /**
      * @return true if clatd has been started but the stacked interface is not yet up.
      */
     public boolean isStarting() {
         return mState == State.STARTING;
     }

     /**
      * @return true if clatd has been started and the stacked interface is up.
      */
     public boolean isRunning() {
         return mState == State.RUNNING;
     }

     /**
      * Start clatd, register this Nat464Xlat as a network observer for the stacked interface,
      * and set internal state.
      */
     private void enterStartingState(String baseIface) {
         try {
             mNMService.registerObserver(this);
         } catch (RemoteException e) {
             Slog.e(TAG, "Can't register interface observer for clat on " + mNetwork.name());
             return;
         }

         String addrStr = null;
         try {
             addrStr = mNetd.clatdStart(baseIface, mNat64Prefix.toString());
         } catch (RemoteException | ServiceSpecificException e) {
             Slog.e(TAG, "Error starting clatd on " + baseIface + ": " + e);
         }
         mIface = CLAT_PREFIX + baseIface;
         mBaseIface = baseIface;
         mState = State.STARTING;
         try {
             mIPv6Address = (Inet6Address) InetAddresses.parseNumericAddress(addrStr);
         } catch (ClassCastException | IllegalArgumentException | NullPointerException e) {
             Slog.e(TAG, "Invalid IPv6 address " + addrStr);
         }
     }

     /**
      * Enter running state just after getting confirmation that the stacked interface is up, and
      * turn ND offload off if on WiFi.
      */
     private void enterRunningState() {
         mState = State.RUNNING;
     }

     /**
      * Unregister as a base observer for the stacked interface, and clear internal state.
      */
     private void leaveStartedState() {
         try {
             mNMService.unregisterObserver(this);
         } catch (RemoteException | IllegalStateException e) {
             Slog.e(TAG, "Error unregistering clatd observer on " + mBaseIface + ": " + e);
         }
         mIface = null;
         mBaseIface = null;
         mState = State.IDLE;
         if (requiresClat(mNetwork)) {
             mState = State.DISCOVERING;
         } else {
             stopPrefixDiscovery();
             mState = State.IDLE;
         }
     }

     @VisibleForTesting
     protected void start() {
         if (isStarted()) {
             Slog.e(TAG, "startClat: already started");
             return;
         }

         if (mNetwork.linkProperties == null) {
             Slog.e(TAG, "startClat: Can't start clat with null LinkProperties");
             return;
         }

         String baseIface = mNetwork.linkProperties.getInterfaceName();
         if (baseIface == null) {
             Slog.e(TAG, "startClat: Can't start clat on null interface");
             return;
         }
         // TODO: should we only do this if mNetd.clatdStart() succeeds?
         Slog.i(TAG, "Starting clatd on " + baseIface);
         enterStartingState(baseIface);
     }

     @VisibleForTesting
     protected void stop() {
         if (!isStarted()) {
             Slog.e(TAG, "stopClat: already stopped");
             return;
         }

         Slog.i(TAG, "Stopping clatd on " + mBaseIface);
         try {
             mNetd.clatdStop(mBaseIface);
         } catch (RemoteException | ServiceSpecificException e) {
             Slog.e(TAG, "Error stopping clatd on " + mBaseIface + ": " + e);
         }

         String iface = mIface;
         boolean wasRunning = isRunning();

         // Change state before updating LinkProperties. handleUpdateLinkProperties ends up calling
         // fixupLinkProperties, and if at that time the state is still RUNNING, fixupLinkProperties
         // would wrongly inform ConnectivityService that there is still a stacked interface.
         leaveStartedState();

         if (wasRunning) {
             LinkProperties lp = new LinkProperties(mNetwork.linkProperties);
             lp.removeStackedLink(iface);
             mNetwork.connService().handleUpdateLinkProperties(mNetwork, lp);
         }
     }

     private void startPrefixDiscovery() {
         try {
             mDnsResolver.startPrefix64Discovery(getNetId());
             mState = State.DISCOVERING;
         } catch (RemoteException | ServiceSpecificException e) {
             Slog.e(TAG, "Error starting prefix discovery on netId " + getNetId() + ": " + e);
         }
     }

     private void stopPrefixDiscovery() {
         try {
             mDnsResolver.stopPrefix64Discovery(getNetId());
         } catch (RemoteException | ServiceSpecificException e) {
             Slog.e(TAG, "Error stopping prefix discovery on netId " + getNetId() + ": " + e);
         }
     }

     /**
      * Starts/stops NAT64 prefix discovery and clatd as necessary.
      */
     public void update() {
         // TODO: turn this class into a proper StateMachine. // http://b/126113090
         if (requiresClat(mNetwork)) {
             if (!isPrefixDiscoveryStarted()) {
                 startPrefixDiscovery();
             } else if (shouldStartClat(mNetwork)) {
                 // NAT64 prefix detected. Start clatd.
                 // TODO: support the NAT64 prefix changing after it's been discovered. There is no
                 // need to support this at the moment because it cannot happen without changes to
                 // the Dns64Configuration code in netd.
                 start();
             } else {
                 // NAT64 prefix removed. Stop clatd and go back into DISCOVERING state.
                 stop();
             }
         } else {
             // Network no longer requires clat. Stop clat and prefix discovery.
             if (isStarted()) {
                 stop();
             } else if (isPrefixDiscoveryStarted()) {
                 leaveStartedState();
             }
         }
     }

     public void setNat64Prefix(IpPrefix nat64Prefix) {
         mNat64Prefix = nat64Prefix;
     }

     /**
      * Copies the stacked clat link in oldLp, if any, to the passed LinkProperties.
      * This is necessary because the LinkProperties in mNetwork come from the transport layer, which
      * has no idea that 464xlat is running on top of it.
      */
     public void fixupLinkProperties(LinkProperties oldLp, LinkProperties lp) {
         lp.setNat64Prefix(mNat64Prefix);

         if (!isRunning()) {
             return;
         }
         if (lp == null || lp.getAllInterfaceNames().contains(mIface)) {
             return;
         }

         Slog.d(TAG, "clatd running, updating NAI for " + mIface);
         for (LinkProperties stacked: oldLp.getStackedLinks()) {
             if (Objects.equals(mIface, stacked.getInterfaceName())) {
                 lp.addStackedLink(stacked);
                 return;
             }
         }
     }

     private LinkProperties makeLinkProperties(LinkAddress clatAddress) {
         LinkProperties stacked = new LinkProperties();
         stacked.setInterfaceName(mIface);

         // Although the clat interface is a point-to-point tunnel, we don't
         // point the route directly at the interface because some apps don't
         // understand routes without gateways (see, e.g., http://b/9597256
         // http://b/9597516). Instead, set the next hop of the route to the
         // clat IPv4 address itself (for those apps, it doesn't matter what
         // the IP of the gateway is, only that there is one).
         RouteInfo ipv4Default = new RouteInfo(
                 new LinkAddress(Inet4Address.ANY, 0),
                 clatAddress.getAddress(), mIface);
         stacked.addRoute(ipv4Default);
         stacked.addLinkAddress(clatAddress);
         return stacked;
     }

     private LinkAddress getLinkAddress(String iface) {
         try {
             InterfaceConfiguration config = mNMService.getInterfaceConfig(iface);
             return config.getLinkAddress();
         } catch (RemoteException | IllegalStateException e) {
             Slog.e(TAG, "Error getting link properties: " + e);
             return null;
         }
     }

     /**
      * Adds stacked link on base link and transitions to RUNNING state.
      */
     private void handleInterfaceLinkStateChanged(String iface, boolean up) {
         // TODO: if we call start(), then stop(), then start() again, and the
         // interfaceLinkStateChanged notification for the first start is delayed past the first
         // stop, then the code becomes out of sync with system state and will behave incorrectly.
         //
         // This is not trivial to fix because:
         // 1. It is not guaranteed that start() will eventually result in the interface coming up,
         //    because there could be an error starting clat (e.g., if the interface goes down before
         //    the packet socket can be bound).
         // 2. If start is called multiple times, there is nothing in the interfaceLinkStateChanged
         //    notification that says which start() call the interface was created by.
         //
         // Once this code is converted to StateMachine, it will be possible to use deferMessage to
         // ensure it stays in STARTING state until the interfaceLinkStateChanged notification fires,
         // and possibly use a timeout (or provide some guarantees at the lower layer) to address #1.
         if (!isStarting() || !up || !Objects.equals(mIface, iface)) {
             return;
         }

         LinkAddress clatAddress = getLinkAddress(iface);
         if (clatAddress == null) {
             Slog.e(TAG, "clatAddress was null for stacked iface " + iface);
             return;
         }

         Slog.i(TAG, String.format("interface %s is up, adding stacked link %s on top of %s",
                 mIface, mIface, mBaseIface));
         enterRunningState();
         LinkProperties lp = new LinkProperties(mNetwork.linkProperties);
         lp.addStackedLink(makeLinkProperties(clatAddress));
         mNetwork.connService().handleUpdateLinkProperties(mNetwork, lp);
     }

     /**
      * Removes stacked link on base link and transitions to IDLE state.
      */
     private void handleInterfaceRemoved(String iface) {
         if (!Objects.equals(mIface, iface)) {
             return;
         }
         if (!isRunning()) {
             return;
         }

         Slog.i(TAG, "interface " + iface + " removed");
         // If we're running, and the interface was removed, then we didn't call stop(), and it's
         // likely that clatd crashed. Ensure we call stop() so we can start clatd again. Calling
         // stop() will also update LinkProperties, and if clatd crashed, the LinkProperties update
         // will cause ConnectivityService to call start() again.
         stop();
     }

     @Override
     public void interfaceLinkStateChanged(String iface, boolean up) {
         mNetwork.handler().post(() -> { handleInterfaceLinkStateChanged(iface, up); });
     }

     @Override
     public void interfaceRemoved(String iface) {
         mNetwork.handler().post(() -> { handleInterfaceRemoved(iface); });
     }

     @Override
     public String toString() {
         return "mBaseIface: " + mBaseIface + ", mIface: " + mIface + ", mState: " + mState;
     }

     @VisibleForTesting
     protected int getNetId() {
         return mNetwork.network.netId;
     }
 }
	/*
	* Copyright (C) 2012 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.server.connectivity;

	import android.net.ConnectivityManager;
	import android.net.IDnsResolver;
	import android.net.INetd;
	import android.net.InetAddresses;
	import android.net.InterfaceConfiguration;
	import android.net.IpPrefix;
	import android.net.LinkAddress;
	import android.net.LinkProperties;
	import android.net.NetworkInfo;
	import android.net.RouteInfo;
	import android.os.INetworkManagementService;
	import android.os.RemoteException;
	import android.os.ServiceSpecificException;
	import android.util.Slog;

	import com.android.internal.annotations.VisibleForTesting;
	import com.android.internal.util.ArrayUtils;
	import com.android.server.net.BaseNetworkObserver;

	import java.net.Inet4Address;
	import java.net.Inet6Address;
	import java.util.Objects;

	/**
	* Class to manage a 464xlat CLAT daemon. Nat464Xlat is not thread safe and should be manipulated
	* from a consistent and unique thread context. It is the responsibility of ConnectivityService to
	* call into this class from its own Handler thread.
	*
	* @hide
	*/
	public class Nat464Xlat extends BaseNetworkObserver {
	private static final String TAG = Nat464Xlat.class.getSimpleName();

	// This must match the interface prefix in clatd.c.
	private static final String CLAT_PREFIX = "v4-";

	// The network types on which we will start clatd,
	// allowing clat only on networks for which we can support IPv6-only.
	private static final int[] NETWORK_TYPES = {
	ConnectivityManager.TYPE_MOBILE,
	ConnectivityManager.TYPE_WIFI,
	ConnectivityManager.TYPE_ETHERNET,
	};

	// The network states in which running clatd is supported.
	private static final NetworkInfo.State[] NETWORK_STATES = {
	NetworkInfo.State.CONNECTED,
	NetworkInfo.State.SUSPENDED,
	};

	private final IDnsResolver mDnsResolver;
	private final INetd mNetd;
	private final INetworkManagementService mNMService;

	// The network we're running on, and its type.
	private final NetworkAgentInfo mNetwork;

	private enum State {
	IDLE, // start() not called. Base iface and stacked iface names are null.
	DISCOVERING, // same as IDLE, except prefix discovery in progress.
	STARTING, // start() called. Base iface and stacked iface names are known.
	RUNNING, // start() called, and the stacked iface is known to be up.
	}

	private IpPrefix mNat64Prefix;
	private String mBaseIface;
	private String mIface;
	private Inet6Address mIPv6Address;
	private State mState = State.IDLE;

	public Nat464Xlat(NetworkAgentInfo nai, INetd netd, IDnsResolver dnsResolver,
	INetworkManagementService nmService) {
	mDnsResolver = dnsResolver;
	mNetd = netd;
	mNMService = nmService;
	mNetwork = nai;
	}

	/**
	* Whether to attempt 464xlat on this network. This is true for an IPv6-only network that is
	* currently connected and where the NetworkAgent has not disabled 464xlat. It is the signal to
	* enable NAT64 prefix discovery.
	*
	* @param network the NetworkAgentInfo corresponding to the network.
	* @return true if the network requires clat, false otherwise.
	*/
	@VisibleForTesting
	protected static boolean requiresClat(NetworkAgentInfo nai) {
	// TODO: migrate to NetworkCapabilities.TRANSPORT_*.
	final boolean supported = ArrayUtils.contains(NETWORK_TYPES, nai.networkInfo.getType());
	final boolean connected = ArrayUtils.contains(NETWORK_STATES, nai.networkInfo.getState());

	// Only run clat on networks that have a global IPv6 address and don't have a native IPv4
	// address.
	LinkProperties lp = nai.linkProperties;
	final boolean isIpv6OnlyNetwork = (lp != null) && lp.hasGlobalIpv6Address()
	&& !lp.hasIpv4Address();

	// If the network tells us it doesn't use clat, respect that.
	final boolean skip464xlat = (nai.netMisc() != null) && nai.netMisc().skip464xlat;

	return supported && connected && isIpv6OnlyNetwork && !skip464xlat;
	}

	/**
	* Whether the clat demon should be started on this network now. This is true if requiresClat is
	* true and a NAT64 prefix has been discovered.
	*
	* @param nai the NetworkAgentInfo corresponding to the network.
	* @return true if the network should start clat, false otherwise.
	*/
	@VisibleForTesting
	protected static boolean shouldStartClat(NetworkAgentInfo nai) {
	LinkProperties lp = nai.linkProperties;
	return requiresClat(nai) && lp != null && lp.getNat64Prefix() != null;
	}

	/**
	* @return true if we have started prefix discovery and not yet stopped it (regardless of
	* whether it is still running or has succeeded).
	* A true result corresponds to internal states DISCOVERING, STARTING and RUNNING.
	*/
	public boolean isPrefixDiscoveryStarted() {
	return mState == State.DISCOVERING \|\| isStarted();
	}

	/**
	* @return true if clatd has been started and has not yet stopped.
	* A true result corresponds to internal states STARTING and RUNNING.
	*/
	public boolean isStarted() {
	return (mState == State.STARTING \|\| mState == State.RUNNING);
	}

	/**
	* @return true if clatd has been started but the stacked interface is not yet up.
	*/
	public boolean isStarting() {
	return mState == State.STARTING;
	}

	/**
	* @return true if clatd has been started and the stacked interface is up.
	*/
	public boolean isRunning() {
	return mState == State.RUNNING;
	}

	/**
	* Start clatd, register this Nat464Xlat as a network observer for the stacked interface,
	* and set internal state.
	*/
	private void enterStartingState(String baseIface) {
	try {
	mNMService.registerObserver(this);
	} catch (RemoteException e) {
	Slog.e(TAG, "Can't register interface observer for clat on " + mNetwork.name());
	return;
	}

	String addrStr = null;
	try {
	addrStr = mNetd.clatdStart(baseIface, mNat64Prefix.toString());
	} catch (RemoteException \| ServiceSpecificException e) {
	Slog.e(TAG, "Error starting clatd on " + baseIface + ": " + e);
	}
	mIface = CLAT_PREFIX + baseIface;
	mBaseIface = baseIface;
	mState = State.STARTING;
	try {
	mIPv6Address = (Inet6Address) InetAddresses.parseNumericAddress(addrStr);
	} catch (ClassCastException \| IllegalArgumentException \| NullPointerException e) {
	Slog.e(TAG, "Invalid IPv6 address " + addrStr);
	}
	}

	/**
	* Enter running state just after getting confirmation that the stacked interface is up, and
	* turn ND offload off if on WiFi.
	*/
	private void enterRunningState() {
	mState = State.RUNNING;
	}

	/**
	* Unregister as a base observer for the stacked interface, and clear internal state.
	*/
	private void leaveStartedState() {
	try {
	mNMService.unregisterObserver(this);
	} catch (RemoteException \| IllegalStateException e) {
	Slog.e(TAG, "Error unregistering clatd observer on " + mBaseIface + ": " + e);
	}
	mIface = null;
	mBaseIface = null;
	mState = State.IDLE;
	if (requiresClat(mNetwork)) {
	mState = State.DISCOVERING;
	} else {
	stopPrefixDiscovery();
	mState = State.IDLE;
	}
	}

	@VisibleForTesting
	protected void start() {
	if (isStarted()) {
	Slog.e(TAG, "startClat: already started");
	return;
	}

	if (mNetwork.linkProperties == null) {
	Slog.e(TAG, "startClat: Can't start clat with null LinkProperties");
	return;
	}

	String baseIface = mNetwork.linkProperties.getInterfaceName();
	if (baseIface == null) {
	Slog.e(TAG, "startClat: Can't start clat on null interface");
	return;
	}
	// TODO: should we only do this if mNetd.clatdStart() succeeds?
	Slog.i(TAG, "Starting clatd on " + baseIface);
	enterStartingState(baseIface);
	}

	@VisibleForTesting
	protected void stop() {
	if (!isStarted()) {
	Slog.e(TAG, "stopClat: already stopped");
	return;
	}

	Slog.i(TAG, "Stopping clatd on " + mBaseIface);
	try {
	mNetd.clatdStop(mBaseIface);
	} catch (RemoteException \| ServiceSpecificException e) {
	Slog.e(TAG, "Error stopping clatd on " + mBaseIface + ": " + e);
	}

	String iface = mIface;
	boolean wasRunning = isRunning();

	// Change state before updating LinkProperties. handleUpdateLinkProperties ends up calling
	// fixupLinkProperties, and if at that time the state is still RUNNING, fixupLinkProperties
	// would wrongly inform ConnectivityService that there is still a stacked interface.
	leaveStartedState();

	if (wasRunning) {
	LinkProperties lp = new LinkProperties(mNetwork.linkProperties);
	lp.removeStackedLink(iface);
	mNetwork.connService().handleUpdateLinkProperties(mNetwork, lp);
	}
	}

	private void startPrefixDiscovery() {
	try {
	mDnsResolver.startPrefix64Discovery(getNetId());
	mState = State.DISCOVERING;
	} catch (RemoteException \| ServiceSpecificException e) {
	Slog.e(TAG, "Error starting prefix discovery on netId " + getNetId() + ": " + e);
	}
	}

	private void stopPrefixDiscovery() {
	try {
	mDnsResolver.stopPrefix64Discovery(getNetId());
	} catch (RemoteException \| ServiceSpecificException e) {
	Slog.e(TAG, "Error stopping prefix discovery on netId " + getNetId() + ": " + e);
	}
	}

	/**
	* Starts/stops NAT64 prefix discovery and clatd as necessary.
	*/
	public void update() {
	// TODO: turn this class into a proper StateMachine. // http://b/126113090
	if (requiresClat(mNetwork)) {
	if (!isPrefixDiscoveryStarted()) {
	startPrefixDiscovery();
	} else if (shouldStartClat(mNetwork)) {
	// NAT64 prefix detected. Start clatd.
	// TODO: support the NAT64 prefix changing after it's been discovered. There is no
	// need to support this at the moment because it cannot happen without changes to
	// the Dns64Configuration code in netd.
	start();
	} else {
	// NAT64 prefix removed. Stop clatd and go back into DISCOVERING state.
	stop();
	}
	} else {
	// Network no longer requires clat. Stop clat and prefix discovery.
	if (isStarted()) {
	stop();
	} else if (isPrefixDiscoveryStarted()) {
	leaveStartedState();
	}
	}
	}

	public void setNat64Prefix(IpPrefix nat64Prefix) {
	mNat64Prefix = nat64Prefix;
	}

	/**
	* Copies the stacked clat link in oldLp, if any, to the passed LinkProperties.
	* This is necessary because the LinkProperties in mNetwork come from the transport layer, which
	* has no idea that 464xlat is running on top of it.
	*/
	public void fixupLinkProperties(LinkProperties oldLp, LinkProperties lp) {
	lp.setNat64Prefix(mNat64Prefix);

	if (!isRunning()) {
	return;
	}
	if (lp == null \|\| lp.getAllInterfaceNames().contains(mIface)) {
	return;
	}

	Slog.d(TAG, "clatd running, updating NAI for " + mIface);
	for (LinkProperties stacked: oldLp.getStackedLinks()) {
	if (Objects.equals(mIface, stacked.getInterfaceName())) {
	lp.addStackedLink(stacked);
	return;
	}
	}
	}

	private LinkProperties makeLinkProperties(LinkAddress clatAddress) {
	LinkProperties stacked = new LinkProperties();
	stacked.setInterfaceName(mIface);

	// Although the clat interface is a point-to-point tunnel, we don't
	// point the route directly at the interface because some apps don't
	// understand routes without gateways (see, e.g., http://b/9597256
	// http://b/9597516). Instead, set the next hop of the route to the
	// clat IPv4 address itself (for those apps, it doesn't matter what
	// the IP of the gateway is, only that there is one).
	RouteInfo ipv4Default = new RouteInfo(
	new LinkAddress(Inet4Address.ANY, 0),
	clatAddress.getAddress(), mIface);
	stacked.addRoute(ipv4Default);
	stacked.addLinkAddress(clatAddress);
	return stacked;
	}

	private LinkAddress getLinkAddress(String iface) {
	try {
	InterfaceConfiguration config = mNMService.getInterfaceConfig(iface);
	return config.getLinkAddress();
	} catch (RemoteException \| IllegalStateException e) {
	Slog.e(TAG, "Error getting link properties: " + e);
	return null;
	}
	}

	/**
	* Adds stacked link on base link and transitions to RUNNING state.
	*/
	private void handleInterfaceLinkStateChanged(String iface, boolean up) {
	// TODO: if we call start(), then stop(), then start() again, and the
	// interfaceLinkStateChanged notification for the first start is delayed past the first
	// stop, then the code becomes out of sync with system state and will behave incorrectly.
	//
	// This is not trivial to fix because:
	// 1. It is not guaranteed that start() will eventually result in the interface coming up,
	// because there could be an error starting clat (e.g., if the interface goes down before
	// the packet socket can be bound).
	// 2. If start is called multiple times, there is nothing in the interfaceLinkStateChanged
	// notification that says which start() call the interface was created by.
	//
	// Once this code is converted to StateMachine, it will be possible to use deferMessage to
	// ensure it stays in STARTING state until the interfaceLinkStateChanged notification fires,
	// and possibly use a timeout (or provide some guarantees at the lower layer) to address #1.
	if (!isStarting() \|\| !up \|\| !Objects.equals(mIface, iface)) {
	return;
	}

	LinkAddress clatAddress = getLinkAddress(iface);
	if (clatAddress == null) {
	Slog.e(TAG, "clatAddress was null for stacked iface " + iface);
	return;
	}

	Slog.i(TAG, String.format("interface %s is up, adding stacked link %s on top of %s",
	mIface, mIface, mBaseIface));
	enterRunningState();
	LinkProperties lp = new LinkProperties(mNetwork.linkProperties);
	lp.addStackedLink(makeLinkProperties(clatAddress));
	mNetwork.connService().handleUpdateLinkProperties(mNetwork, lp);
	}

	/**
	* Removes stacked link on base link and transitions to IDLE state.
	*/
	private void handleInterfaceRemoved(String iface) {
	if (!Objects.equals(mIface, iface)) {
	return;
	}
	if (!isRunning()) {
	return;
	}

	Slog.i(TAG, "interface " + iface + " removed");
	// If we're running, and the interface was removed, then we didn't call stop(), and it's
	// likely that clatd crashed. Ensure we call stop() so we can start clatd again. Calling
	// stop() will also update LinkProperties, and if clatd crashed, the LinkProperties update
	// will cause ConnectivityService to call start() again.
	stop();
	}

	@Override
	public void interfaceLinkStateChanged(String iface, boolean up) {
	mNetwork.handler().post(() -> { handleInterfaceLinkStateChanged(iface, up); });
	}

	@Override
	public void interfaceRemoved(String iface) {
	mNetwork.handler().post(() -> { handleInterfaceRemoved(iface); });
	}

	@Override
	public String toString() {
	return "mBaseIface: " + mBaseIface + ", mIface: " + mIface + ", mState: " + mState;
	}

	@VisibleForTesting
	protected int getNetId() {
	return mNetwork.network.netId;
	}
	}