core/java/android/net/IpReachabilityMonitor.java - platform/frameworks/base - Git at Google

 /*
  * Copyright (C) 2015 The Android Open Source Project
  *
  * Licensed under the Apache License, Version 2.0 (the "License");
  * you may not use this file except in compliance with the License.
  * You may obtain a copy of the License at
  *
  *      http://www.apache.org/licenses/LICENSE-2.0
  *
  * Unless required by applicable law or agreed to in writing, software
  * distributed under the License is distributed on an "AS IS" BASIS,
  * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
  * See the License for the specific language governing permissions and
  * limitations under the License.
  */

 package android.net;

 import com.android.internal.annotations.GuardedBy;

 import android.content.Context;
 import android.net.LinkAddress;
 import android.net.LinkProperties;
 import android.net.LinkProperties.ProvisioningChange;
 import android.net.ProxyInfo;
 import android.net.RouteInfo;
 import android.net.netlink.NetlinkConstants;
 import android.net.netlink.NetlinkErrorMessage;
 import android.net.netlink.NetlinkMessage;
 import android.net.netlink.NetlinkSocket;
 import android.net.netlink.RtNetlinkNeighborMessage;
 import android.net.netlink.StructNdaCacheInfo;
 import android.net.netlink.StructNdMsg;
 import android.net.netlink.StructNlMsgHdr;
 import android.os.PowerManager;
 import android.os.SystemClock;
 import android.system.ErrnoException;
 import android.system.NetlinkSocketAddress;
 import android.system.OsConstants;
 import android.util.Log;

 import java.io.InterruptedIOException;
 import java.net.InetAddress;
 import java.net.InetSocketAddress;
 import java.net.NetworkInterface;
 import java.net.SocketAddress;
 import java.net.SocketException;
 import java.nio.ByteBuffer;
 import java.util.Arrays;
 import java.util.HashMap;
 import java.util.HashSet;
 import java.util.List;
 import java.util.Map;
 import java.util.Set;


 /**
  * IpReachabilityMonitor.
  *
  * Monitors on-link IP reachability and notifies callers whenever any on-link
  * addresses of interest appear to have become unresponsive.
  *
  * @hide
  */
 public class IpReachabilityMonitor {
     private static final String TAG = "IpReachabilityMonitor";
     private static final boolean DBG = true;
     private static final boolean VDBG = false;

     public interface Callback {
         // This callback function must execute as quickly as possible as it is
         // run on the same thread that listens to kernel neighbor updates.
         //
         // TODO: refactor to something like notifyProvisioningLost(String msg).
         public void notifyLost(InetAddress ip, String logMsg);
     }

     private final Object mLock = new Object();
     private final PowerManager.WakeLock mWakeLock;
     private final String mInterfaceName;
     private final int mInterfaceIndex;
     private final Callback mCallback;
     private final NetlinkSocketObserver mNetlinkSocketObserver;
     private final Thread mObserverThread;
     @GuardedBy("mLock")
     private LinkProperties mLinkProperties = new LinkProperties();
     // TODO: consider a map to a private NeighborState class holding more
     // information than a single NUD state entry.
     @GuardedBy("mLock")
     private Map<InetAddress, Short> mIpWatchList = new HashMap<>();
     @GuardedBy("mLock")
     private int mIpWatchListVersion;
     @GuardedBy("mLock")
     private boolean mRunning;

     /**
      * Make the kernel to perform neighbor reachability detection (IPv4 ARP or IPv6 ND)
      * for the given IP address on the specified interface index.
      *
      * @return true, if the request was successfully passed to the kernel; false otherwise.
      */
     public static boolean probeNeighbor(int ifIndex, InetAddress ip) {
         final long IO_TIMEOUT = 300L;
         final String msgSnippet = "probing ip=" + ip.getHostAddress() + "%" + ifIndex;
         if (DBG) { Log.d(TAG, msgSnippet); }

         final byte[] msg = RtNetlinkNeighborMessage.newNewNeighborMessage(
                 1, ip, StructNdMsg.NUD_PROBE, ifIndex, null);
         boolean returnValue = false;

         try (NetlinkSocket nlSocket = new NetlinkSocket(OsConstants.NETLINK_ROUTE)) {
             nlSocket.connectToKernel();
             nlSocket.sendMessage(msg, 0, msg.length, IO_TIMEOUT);
             final ByteBuffer bytes = nlSocket.recvMessage(IO_TIMEOUT);
             final NetlinkMessage response = NetlinkMessage.parse(bytes);
             if (response != null && response instanceof NetlinkErrorMessage &&
                     (((NetlinkErrorMessage) response).getNlMsgError() != null) &&
                     (((NetlinkErrorMessage) response).getNlMsgError().error == 0)) {
                 returnValue = true;
             } else {
                 String errmsg;
                 if (bytes == null) {
                     errmsg = "null recvMessage";
                 } else if (response == null) {
                     bytes.position(0);
                     errmsg = "raw bytes: " + NetlinkConstants.hexify(bytes);
                 } else {
                     // TODO: consider ignoring EINVAL (-22), which appears to be
                     // normal when probing a neighbor for which the kernel does
                     // not already have / no longer has a link layer address.
                     errmsg = response.toString();
                 }
                 Log.e(TAG, "Error " + msgSnippet + ", errmsg=" + errmsg);
             }
         } catch (ErrnoException | InterruptedIOException | SocketException e) {
             Log.d(TAG, "Error " + msgSnippet, e);
         }

         return returnValue;
     }

     public IpReachabilityMonitor(Context context, String ifName, Callback callback)
                 throws IllegalArgumentException {
         mInterfaceName = ifName;
         int ifIndex = -1;
         try {
             NetworkInterface netIf = NetworkInterface.getByName(ifName);
             mInterfaceIndex = netIf.getIndex();
         } catch (SocketException | NullPointerException e) {
             throw new IllegalArgumentException("invalid interface '" + ifName + "': ", e);
         }
         mWakeLock = ((PowerManager) context.getSystemService(Context.POWER_SERVICE)).newWakeLock(
                 PowerManager.PARTIAL_WAKE_LOCK, TAG + "." + mInterfaceName);
         mCallback = callback;
         mNetlinkSocketObserver = new NetlinkSocketObserver();
         mObserverThread = new Thread(mNetlinkSocketObserver);
         mObserverThread.start();
     }

     public void stop() {
         synchronized (mLock) { mRunning = false; }
         clearLinkProperties();
         mNetlinkSocketObserver.clearNetlinkSocket();
     }

     // TODO: add a public dump() method that can be called during a bug report.

     private String describeWatchList() {
         final String delimiter = ", ";
         StringBuilder sb = new StringBuilder();
         synchronized (mLock) {
             sb.append("iface{" + mInterfaceName + "/" + mInterfaceIndex + "}, ");
             sb.append("v{" + mIpWatchListVersion + "}, ");
             sb.append("ntable=[");
             boolean firstTime = true;
             for (Map.Entry<InetAddress, Short> entry : mIpWatchList.entrySet()) {
                 if (firstTime) {
                     firstTime = false;
                 } else {
                     sb.append(delimiter);
                 }
                 sb.append(entry.getKey().getHostAddress() + "/" +
                         StructNdMsg.stringForNudState(entry.getValue()));
             }
             sb.append("]");
         }
         return sb.toString();
     }

     private boolean isWatching(InetAddress ip) {
         synchronized (mLock) {
             return mRunning && mIpWatchList.containsKey(ip);
         }
     }

     private boolean stillRunning() {
         synchronized (mLock) {
             return mRunning;
         }
     }

     private static boolean isOnLink(List<RouteInfo> routes, InetAddress ip) {
         for (RouteInfo route : routes) {
             if (!route.hasGateway() && route.matches(ip)) {
                 return true;
             }
         }
         return false;
     }

     private short getNeighborStateLocked(InetAddress ip) {
         if (mIpWatchList.containsKey(ip)) {
             return mIpWatchList.get(ip);
         }
         return StructNdMsg.NUD_NONE;
     }

     public void updateLinkProperties(LinkProperties lp) {
         if (!mInterfaceName.equals(lp.getInterfaceName())) {
             // TODO: figure out whether / how to cope with interface changes.
             Log.wtf(TAG, "requested LinkProperties interface '" + lp.getInterfaceName() +
                     "' does not match: " + mInterfaceName);
             return;
         }

         synchronized (mLock) {
             mLinkProperties = new LinkProperties(lp);
             Map<InetAddress, Short> newIpWatchList = new HashMap<>();

             final List<RouteInfo> routes = mLinkProperties.getRoutes();
             for (RouteInfo route : routes) {
                 if (route.hasGateway()) {
                     InetAddress gw = route.getGateway();
                     if (isOnLink(routes, gw)) {
                         newIpWatchList.put(gw, getNeighborStateLocked(gw));
                     }
                 }
             }

             for (InetAddress nameserver : lp.getDnsServers()) {
                 if (isOnLink(routes, nameserver)) {
                     newIpWatchList.put(nameserver, getNeighborStateLocked(nameserver));
                 }
             }

             mIpWatchList = newIpWatchList;
             mIpWatchListVersion++;
         }
         if (DBG) { Log.d(TAG, "watch: " + describeWatchList()); }
     }

     public void clearLinkProperties() {
         synchronized (mLock) {
             mLinkProperties.clear();
             mIpWatchList.clear();
             mIpWatchListVersion++;
         }
         if (DBG) { Log.d(TAG, "clear: " + describeWatchList()); }
     }

     private void handleNeighborLost(String msg) {
         InetAddress ip = null;
         ProvisioningChange delta;
         synchronized (mLock) {
             LinkProperties whatIfLp = new LinkProperties(mLinkProperties);

             for (Map.Entry<InetAddress, Short> entry : mIpWatchList.entrySet()) {
                 if (entry.getValue() != StructNdMsg.NUD_FAILED) {
                     continue;
                 }

                 ip = entry.getKey();
                 for (RouteInfo route : mLinkProperties.getRoutes()) {
                     if (ip.equals(route.getGateway())) {
                         whatIfLp.removeRoute(route);
                     }
                 }
                 whatIfLp.removeDnsServer(ip);
             }

             delta = LinkProperties.compareProvisioning(mLinkProperties, whatIfLp);
         }

         if (delta == ProvisioningChange.LOST_PROVISIONING) {
             final String logMsg = "FAILURE: LOST_PROVISIONING, " + msg;
             Log.w(TAG, logMsg);
             if (mCallback != null) {
                 // TODO: remove |ip| when the callback signature no longer has
                 // an InetAddress argument.
                 mCallback.notifyLost(ip, logMsg);
             }
         }
     }

     public void probeAll() {
         Set<InetAddress> ipProbeList = new HashSet<InetAddress>();
         synchronized (mLock) {
             ipProbeList.addAll(mIpWatchList.keySet());
         }

         if (!ipProbeList.isEmpty() && stillRunning()) {
             // Keep the CPU awake long enough to allow all ARP/ND
             // probes a reasonable chance at success. See b/23197666.
             //
             // The wakelock we use is (by default) refcounted, and this version
             // of acquire(timeout) queues a release message to keep acquisitions
             // and releases balanced.
             mWakeLock.acquire(getProbeWakeLockDuration());
         }

         for (InetAddress target : ipProbeList) {
             if (!stillRunning()) {
                 break;
             }
             probeNeighbor(mInterfaceIndex, target);
         }
     }

     private long getProbeWakeLockDuration() {
         // Ideally, this would be computed by examining the values of:
         //
         //     /proc/sys/net/ipv[46]/neigh/<ifname>/ucast_solicit
         //
         // and:
         //
         //     /proc/sys/net/ipv[46]/neigh/<ifname>/retrans_time_ms
         //
         // For now, just make some assumptions.
         final long numUnicastProbes = 3;
         final long retransTimeMs = 1000;
         final long gracePeriodMs = 500;
         return (numUnicastProbes * retransTimeMs) + gracePeriodMs;
     }


     // TODO: simply the number of objects by making this extend Thread.
     private final class NetlinkSocketObserver implements Runnable {
         private static final String TAG = "NetlinkSocketObserver";
         private NetlinkSocket mSocket;

         @Override
         public void run() {
             if (VDBG) { Log.d(TAG, "Starting observing thread."); }
             synchronized (mLock) { mRunning = true; }

             try {
                 setupNetlinkSocket();
             } catch (ErrnoException | SocketException e) {
                 Log.e(TAG, "Failed to suitably initialize a netlink socket", e);
                 synchronized (mLock) { mRunning = false; }
             }

             ByteBuffer byteBuffer;
             while (stillRunning()) {
                 try {
                     byteBuffer = recvKernelReply();
                 } catch (ErrnoException e) {
                     Log.w(TAG, "ErrnoException: ", e);
                     break;
                 }
                 final long whenMs = SystemClock.elapsedRealtime();
                 if (byteBuffer == null) {
                     continue;
                 }
                 parseNetlinkMessageBuffer(byteBuffer, whenMs);
             }

             clearNetlinkSocket();

             synchronized (mLock) { mRunning = false; }
             if (VDBG) { Log.d(TAG, "Finishing observing thread."); }
         }

         private void clearNetlinkSocket() {
             if (mSocket != null) {
                 mSocket.close();
             }
         }

             // TODO: Refactor the main loop to recreate the socket upon recoverable errors.
         private void setupNetlinkSocket() throws ErrnoException, SocketException {
             clearNetlinkSocket();
             mSocket = new NetlinkSocket(OsConstants.NETLINK_ROUTE);

             final NetlinkSocketAddress listenAddr = new NetlinkSocketAddress(
                     0, OsConstants.RTMGRP_NEIGH);
             mSocket.bind(listenAddr);

             if (VDBG) {
                 final NetlinkSocketAddress nlAddr = mSocket.getLocalAddress();
                 Log.d(TAG, "bound to sockaddr_nl{"
                         + ((long) (nlAddr.getPortId() & 0xffffffff)) + ", "
                         + nlAddr.getGroupsMask()
                         + "}");
             }
         }

         private ByteBuffer recvKernelReply() throws ErrnoException {
             try {
                 return mSocket.recvMessage(0);
             } catch (InterruptedIOException e) {
                 // Interruption or other error, e.g. another thread closed our file descriptor.
             } catch (ErrnoException e) {
                 if (e.errno != OsConstants.EAGAIN) {
                     throw e;
                 }
             }
             return null;
         }

         private void parseNetlinkMessageBuffer(ByteBuffer byteBuffer, long whenMs) {
             while (byteBuffer.remaining() > 0) {
                 final int position = byteBuffer.position();
                 final NetlinkMessage nlMsg = NetlinkMessage.parse(byteBuffer);
                 if (nlMsg == null || nlMsg.getHeader() == null) {
                     byteBuffer.position(position);
                     Log.e(TAG, "unparsable netlink msg: " + NetlinkConstants.hexify(byteBuffer));
                     break;
                 }

                 final int srcPortId = nlMsg.getHeader().nlmsg_pid;
                 if (srcPortId !=  0) {
                     Log.e(TAG, "non-kernel source portId: " + ((long) (srcPortId & 0xffffffff)));
                     break;
                 }

                 if (nlMsg instanceof NetlinkErrorMessage) {
                     Log.e(TAG, "netlink error: " + nlMsg);
                     continue;
                 } else if (!(nlMsg instanceof RtNetlinkNeighborMessage)) {
                     if (DBG) {
                         Log.d(TAG, "non-rtnetlink neighbor msg: " + nlMsg);
                     }
                     continue;
                 }

                 evaluateRtNetlinkNeighborMessage((RtNetlinkNeighborMessage) nlMsg, whenMs);
             }
         }

         private void evaluateRtNetlinkNeighborMessage(
                 RtNetlinkNeighborMessage neighMsg, long whenMs) {
             final StructNdMsg ndMsg = neighMsg.getNdHeader();
             if (ndMsg == null || ndMsg.ndm_ifindex != mInterfaceIndex) {
                 return;
             }

             final InetAddress destination = neighMsg.getDestination();
             if (!isWatching(destination)) {
                 return;
             }

             final short msgType = neighMsg.getHeader().nlmsg_type;
             final short nudState = ndMsg.ndm_state;
             final String eventMsg = "NeighborEvent{"
                     + "elapsedMs=" + whenMs + ", "
                     + destination.getHostAddress() + ", "
                     + "[" + NetlinkConstants.hexify(neighMsg.getLinkLayerAddress()) + "], "
                     + NetlinkConstants.stringForNlMsgType(msgType) + ", "
                     + StructNdMsg.stringForNudState(nudState)
                     + "}";

             if (VDBG) {
                 Log.d(TAG, neighMsg.toString());
             } else if (DBG) {
                 Log.d(TAG, eventMsg);
             }

             synchronized (mLock) {
                 if (mIpWatchList.containsKey(destination)) {
                     final short value =
                             (msgType == NetlinkConstants.RTM_DELNEIGH)
                             ? StructNdMsg.NUD_NONE
                             : nudState;
                     mIpWatchList.put(destination, value);
                 }
             }

             if (nudState == StructNdMsg.NUD_FAILED) {
                 Log.w(TAG, "ALERT: " + eventMsg);
                 handleNeighborLost(eventMsg);
             }
         }
     }
 }
	/*
	* Copyright (C) 2015 The Android Open Source Project
	*
	* Licensed under the Apache License, Version 2.0 (the "License");
	* you may not use this file except in compliance with the License.
	* You may obtain a copy of the License at
	*
	* http://www.apache.org/licenses/LICENSE-2.0
	*
	* Unless required by applicable law or agreed to in writing, software
	* distributed under the License is distributed on an "AS IS" BASIS,
	* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	* See the License for the specific language governing permissions and
	* limitations under the License.
	*/

	package android.net;

	import com.android.internal.annotations.GuardedBy;

	import android.content.Context;
	import android.net.LinkAddress;
	import android.net.LinkProperties;
	import android.net.LinkProperties.ProvisioningChange;
	import android.net.ProxyInfo;
	import android.net.RouteInfo;
	import android.net.netlink.NetlinkConstants;
	import android.net.netlink.NetlinkErrorMessage;
	import android.net.netlink.NetlinkMessage;
	import android.net.netlink.NetlinkSocket;
	import android.net.netlink.RtNetlinkNeighborMessage;
	import android.net.netlink.StructNdaCacheInfo;
	import android.net.netlink.StructNdMsg;
	import android.net.netlink.StructNlMsgHdr;
	import android.os.PowerManager;
	import android.os.SystemClock;
	import android.system.ErrnoException;
	import android.system.NetlinkSocketAddress;
	import android.system.OsConstants;
	import android.util.Log;

	import java.io.InterruptedIOException;
	import java.net.InetAddress;
	import java.net.InetSocketAddress;
	import java.net.NetworkInterface;
	import java.net.SocketAddress;
	import java.net.SocketException;
	import java.nio.ByteBuffer;
	import java.util.Arrays;
	import java.util.HashMap;
	import java.util.HashSet;
	import java.util.List;
	import java.util.Map;
	import java.util.Set;


	/**
	* IpReachabilityMonitor.
	*
	* Monitors on-link IP reachability and notifies callers whenever any on-link
	* addresses of interest appear to have become unresponsive.
	*
	* @hide
	*/
	public class IpReachabilityMonitor {
	private static final String TAG = "IpReachabilityMonitor";
	private static final boolean DBG = true;
	private static final boolean VDBG = false;

	public interface Callback {
	// This callback function must execute as quickly as possible as it is
	// run on the same thread that listens to kernel neighbor updates.
	//
	// TODO: refactor to something like notifyProvisioningLost(String msg).
	public void notifyLost(InetAddress ip, String logMsg);
	}

	private final Object mLock = new Object();
	private final PowerManager.WakeLock mWakeLock;
	private final String mInterfaceName;
	private final int mInterfaceIndex;
	private final Callback mCallback;
	private final NetlinkSocketObserver mNetlinkSocketObserver;
	private final Thread mObserverThread;
	@GuardedBy("mLock")
	private LinkProperties mLinkProperties = new LinkProperties();
	// TODO: consider a map to a private NeighborState class holding more
	// information than a single NUD state entry.
	@GuardedBy("mLock")
	private Map<InetAddress, Short> mIpWatchList = new HashMap<>();
	@GuardedBy("mLock")
	private int mIpWatchListVersion;
	@GuardedBy("mLock")
	private boolean mRunning;

	/**
	* Make the kernel to perform neighbor reachability detection (IPv4 ARP or IPv6 ND)
	* for the given IP address on the specified interface index.
	*
	* @return true, if the request was successfully passed to the kernel; false otherwise.
	*/
	public static boolean probeNeighbor(int ifIndex, InetAddress ip) {
	final long IO_TIMEOUT = 300L;
	final String msgSnippet = "probing ip=" + ip.getHostAddress() + "%" + ifIndex;
	if (DBG) { Log.d(TAG, msgSnippet); }

	final byte[] msg = RtNetlinkNeighborMessage.newNewNeighborMessage(
	1, ip, StructNdMsg.NUD_PROBE, ifIndex, null);
	boolean returnValue = false;

	try (NetlinkSocket nlSocket = new NetlinkSocket(OsConstants.NETLINK_ROUTE)) {
	nlSocket.connectToKernel();
	nlSocket.sendMessage(msg, 0, msg.length, IO_TIMEOUT);
	final ByteBuffer bytes = nlSocket.recvMessage(IO_TIMEOUT);
	final NetlinkMessage response = NetlinkMessage.parse(bytes);
	if (response != null && response instanceof NetlinkErrorMessage &&
	(((NetlinkErrorMessage) response).getNlMsgError() != null) &&
	(((NetlinkErrorMessage) response).getNlMsgError().error == 0)) {
	returnValue = true;
	} else {
	String errmsg;
	if (bytes == null) {
	errmsg = "null recvMessage";
	} else if (response == null) {
	bytes.position(0);
	errmsg = "raw bytes: " + NetlinkConstants.hexify(bytes);
	} else {
	// TODO: consider ignoring EINVAL (-22), which appears to be
	// normal when probing a neighbor for which the kernel does
	// not already have / no longer has a link layer address.
	errmsg = response.toString();
	}
	Log.e(TAG, "Error " + msgSnippet + ", errmsg=" + errmsg);
	}
	} catch (ErrnoException \| InterruptedIOException \| SocketException e) {
	Log.d(TAG, "Error " + msgSnippet, e);
	}

	return returnValue;
	}

	public IpReachabilityMonitor(Context context, String ifName, Callback callback)
	throws IllegalArgumentException {
	mInterfaceName = ifName;
	int ifIndex = -1;
	try {
	NetworkInterface netIf = NetworkInterface.getByName(ifName);
	mInterfaceIndex = netIf.getIndex();
	} catch (SocketException \| NullPointerException e) {
	throw new IllegalArgumentException("invalid interface '" + ifName + "': ", e);
	}
	mWakeLock = ((PowerManager) context.getSystemService(Context.POWER_SERVICE)).newWakeLock(
	PowerManager.PARTIAL_WAKE_LOCK, TAG + "." + mInterfaceName);
	mCallback = callback;
	mNetlinkSocketObserver = new NetlinkSocketObserver();
	mObserverThread = new Thread(mNetlinkSocketObserver);
	mObserverThread.start();
	}

	public void stop() {
	synchronized (mLock) { mRunning = false; }
	clearLinkProperties();
	mNetlinkSocketObserver.clearNetlinkSocket();
	}

	// TODO: add a public dump() method that can be called during a bug report.

	private String describeWatchList() {
	final String delimiter = ", ";
	StringBuilder sb = new StringBuilder();
	synchronized (mLock) {
	sb.append("iface{" + mInterfaceName + "/" + mInterfaceIndex + "}, ");
	sb.append("v{" + mIpWatchListVersion + "}, ");
	sb.append("ntable=[");
	boolean firstTime = true;
	for (Map.Entry<InetAddress, Short> entry : mIpWatchList.entrySet()) {
	if (firstTime) {
	firstTime = false;
	} else {
	sb.append(delimiter);
	}
	sb.append(entry.getKey().getHostAddress() + "/" +
	StructNdMsg.stringForNudState(entry.getValue()));
	}
	sb.append("]");
	}
	return sb.toString();
	}

	private boolean isWatching(InetAddress ip) {
	synchronized (mLock) {
	return mRunning && mIpWatchList.containsKey(ip);
	}
	}

	private boolean stillRunning() {
	synchronized (mLock) {
	return mRunning;
	}
	}

	private static boolean isOnLink(List<RouteInfo> routes, InetAddress ip) {
	for (RouteInfo route : routes) {
	if (!route.hasGateway() && route.matches(ip)) {
	return true;
	}
	}
	return false;
	}

	private short getNeighborStateLocked(InetAddress ip) {
	if (mIpWatchList.containsKey(ip)) {
	return mIpWatchList.get(ip);
	}
	return StructNdMsg.NUD_NONE;
	}

	public void updateLinkProperties(LinkProperties lp) {
	if (!mInterfaceName.equals(lp.getInterfaceName())) {
	// TODO: figure out whether / how to cope with interface changes.
	Log.wtf(TAG, "requested LinkProperties interface '" + lp.getInterfaceName() +
	"' does not match: " + mInterfaceName);
	return;
	}

	synchronized (mLock) {
	mLinkProperties = new LinkProperties(lp);
	Map<InetAddress, Short> newIpWatchList = new HashMap<>();

	final List<RouteInfo> routes = mLinkProperties.getRoutes();
	for (RouteInfo route : routes) {
	if (route.hasGateway()) {
	InetAddress gw = route.getGateway();
	if (isOnLink(routes, gw)) {
	newIpWatchList.put(gw, getNeighborStateLocked(gw));
	}
	}
	}

	for (InetAddress nameserver : lp.getDnsServers()) {
	if (isOnLink(routes, nameserver)) {
	newIpWatchList.put(nameserver, getNeighborStateLocked(nameserver));
	}
	}

	mIpWatchList = newIpWatchList;
	mIpWatchListVersion++;
	}
	if (DBG) { Log.d(TAG, "watch: " + describeWatchList()); }
	}

	public void clearLinkProperties() {
	synchronized (mLock) {
	mLinkProperties.clear();
	mIpWatchList.clear();
	mIpWatchListVersion++;
	}
	if (DBG) { Log.d(TAG, "clear: " + describeWatchList()); }
	}

	private void handleNeighborLost(String msg) {
	InetAddress ip = null;
	ProvisioningChange delta;
	synchronized (mLock) {
	LinkProperties whatIfLp = new LinkProperties(mLinkProperties);

	for (Map.Entry<InetAddress, Short> entry : mIpWatchList.entrySet()) {
	if (entry.getValue() != StructNdMsg.NUD_FAILED) {
	continue;
	}

	ip = entry.getKey();
	for (RouteInfo route : mLinkProperties.getRoutes()) {
	if (ip.equals(route.getGateway())) {
	whatIfLp.removeRoute(route);
	}
	}
	whatIfLp.removeDnsServer(ip);
	}

	delta = LinkProperties.compareProvisioning(mLinkProperties, whatIfLp);
	}

	if (delta == ProvisioningChange.LOST_PROVISIONING) {
	final String logMsg = "FAILURE: LOST_PROVISIONING, " + msg;
	Log.w(TAG, logMsg);
	if (mCallback != null) {
	// TODO: remove \|ip\| when the callback signature no longer has
	// an InetAddress argument.
	mCallback.notifyLost(ip, logMsg);
	}
	}
	}

	public void probeAll() {
	Set<InetAddress> ipProbeList = new HashSet<InetAddress>();
	synchronized (mLock) {
	ipProbeList.addAll(mIpWatchList.keySet());
	}

	if (!ipProbeList.isEmpty() && stillRunning()) {
	// Keep the CPU awake long enough to allow all ARP/ND
	// probes a reasonable chance at success. See b/23197666.
	//
	// The wakelock we use is (by default) refcounted, and this version
	// of acquire(timeout) queues a release message to keep acquisitions
	// and releases balanced.
	mWakeLock.acquire(getProbeWakeLockDuration());
	}

	for (InetAddress target : ipProbeList) {
	if (!stillRunning()) {
	break;
	}
	probeNeighbor(mInterfaceIndex, target);
	}
	}

	private long getProbeWakeLockDuration() {
	// Ideally, this would be computed by examining the values of:
	//
	// /proc/sys/net/ipv[46]/neigh/<ifname>/ucast_solicit
	//
	// and:
	//
	// /proc/sys/net/ipv[46]/neigh/<ifname>/retrans_time_ms
	//
	// For now, just make some assumptions.
	final long numUnicastProbes = 3;
	final long retransTimeMs = 1000;
	final long gracePeriodMs = 500;
	return (numUnicastProbes * retransTimeMs) + gracePeriodMs;
	}


	// TODO: simply the number of objects by making this extend Thread.
	private final class NetlinkSocketObserver implements Runnable {
	private static final String TAG = "NetlinkSocketObserver";
	private NetlinkSocket mSocket;

	@Override
	public void run() {
	if (VDBG) { Log.d(TAG, "Starting observing thread."); }
	synchronized (mLock) { mRunning = true; }

	try {
	setupNetlinkSocket();
	} catch (ErrnoException \| SocketException e) {
	Log.e(TAG, "Failed to suitably initialize a netlink socket", e);
	synchronized (mLock) { mRunning = false; }
	}

	ByteBuffer byteBuffer;
	while (stillRunning()) {
	try {
	byteBuffer = recvKernelReply();
	} catch (ErrnoException e) {
	Log.w(TAG, "ErrnoException: ", e);
	break;
	}
	final long whenMs = SystemClock.elapsedRealtime();
	if (byteBuffer == null) {
	continue;
	}
	parseNetlinkMessageBuffer(byteBuffer, whenMs);
	}

	clearNetlinkSocket();

	synchronized (mLock) { mRunning = false; }
	if (VDBG) { Log.d(TAG, "Finishing observing thread."); }
	}

	private void clearNetlinkSocket() {
	if (mSocket != null) {
	mSocket.close();
	}
	}

	// TODO: Refactor the main loop to recreate the socket upon recoverable errors.
	private void setupNetlinkSocket() throws ErrnoException, SocketException {
	clearNetlinkSocket();
	mSocket = new NetlinkSocket(OsConstants.NETLINK_ROUTE);

	final NetlinkSocketAddress listenAddr = new NetlinkSocketAddress(
	0, OsConstants.RTMGRP_NEIGH);
	mSocket.bind(listenAddr);

	if (VDBG) {
	final NetlinkSocketAddress nlAddr = mSocket.getLocalAddress();
	Log.d(TAG, "bound to sockaddr_nl{"
	+ ((long) (nlAddr.getPortId() & 0xffffffff)) + ", "
	+ nlAddr.getGroupsMask()
	+ "}");
	}
	}

	private ByteBuffer recvKernelReply() throws ErrnoException {
	try {
	return mSocket.recvMessage(0);
	} catch (InterruptedIOException e) {
	// Interruption or other error, e.g. another thread closed our file descriptor.
	} catch (ErrnoException e) {
	if (e.errno != OsConstants.EAGAIN) {
	throw e;
	}
	}
	return null;
	}

	private void parseNetlinkMessageBuffer(ByteBuffer byteBuffer, long whenMs) {
	while (byteBuffer.remaining() > 0) {
	final int position = byteBuffer.position();
	final NetlinkMessage nlMsg = NetlinkMessage.parse(byteBuffer);
	if (nlMsg == null \|\| nlMsg.getHeader() == null) {
	byteBuffer.position(position);
	Log.e(TAG, "unparsable netlink msg: " + NetlinkConstants.hexify(byteBuffer));
	break;
	}

	final int srcPortId = nlMsg.getHeader().nlmsg_pid;
	if (srcPortId != 0) {
	Log.e(TAG, "non-kernel source portId: " + ((long) (srcPortId & 0xffffffff)));
	break;
	}

	if (nlMsg instanceof NetlinkErrorMessage) {
	Log.e(TAG, "netlink error: " + nlMsg);
	continue;
	} else if (!(nlMsg instanceof RtNetlinkNeighborMessage)) {
	if (DBG) {
	Log.d(TAG, "non-rtnetlink neighbor msg: " + nlMsg);
	}
	continue;
	}

	evaluateRtNetlinkNeighborMessage((RtNetlinkNeighborMessage) nlMsg, whenMs);
	}
	}

	private void evaluateRtNetlinkNeighborMessage(
	RtNetlinkNeighborMessage neighMsg, long whenMs) {
	final StructNdMsg ndMsg = neighMsg.getNdHeader();
	if (ndMsg == null \|\| ndMsg.ndm_ifindex != mInterfaceIndex) {
	return;
	}

	final InetAddress destination = neighMsg.getDestination();
	if (!isWatching(destination)) {
	return;
	}

	final short msgType = neighMsg.getHeader().nlmsg_type;
	final short nudState = ndMsg.ndm_state;
	final String eventMsg = "NeighborEvent{"
	+ "elapsedMs=" + whenMs + ", "
	+ destination.getHostAddress() + ", "
	+ "[" + NetlinkConstants.hexify(neighMsg.getLinkLayerAddress()) + "], "
	+ NetlinkConstants.stringForNlMsgType(msgType) + ", "
	+ StructNdMsg.stringForNudState(nudState)
	+ "}";

	if (VDBG) {
	Log.d(TAG, neighMsg.toString());
	} else if (DBG) {
	Log.d(TAG, eventMsg);
	}

	synchronized (mLock) {
	if (mIpWatchList.containsKey(destination)) {
	final short value =
	(msgType == NetlinkConstants.RTM_DELNEIGH)
	? StructNdMsg.NUD_NONE
	: nudState;
	mIpWatchList.put(destination, value);
	}
	}

	if (nudState == StructNdMsg.NUD_FAILED) {
	Log.w(TAG, "ALERT: " + eventMsg);
	handleNeighborLost(eventMsg);
	}
	}
	}
	}