src/main/java/net/onrc/onos/ofcontroller/proxyarp/ProxyArpManager.java - spring-open - Gitiles

 package net.onrc.onos.ofcontroller.proxyarp;

 import java.io.IOException;
 import java.net.InetAddress;
 import java.net.UnknownHostException;
 import java.util.ArrayList;
 import java.util.Collection;
 import java.util.Iterator;
 import java.util.List;
 import java.util.Map;
 import java.util.Set;
 import java.util.Timer;
 import java.util.TimerTask;

 import net.floodlightcontroller.core.FloodlightContext;
 import net.floodlightcontroller.core.IFloodlightProviderService;
 import net.floodlightcontroller.core.IOFMessageListener;
 import net.floodlightcontroller.core.IOFSwitch;
 import net.floodlightcontroller.packet.ARP;
 import net.floodlightcontroller.packet.Ethernet;
 import net.floodlightcontroller.packet.IPv4;
 import net.floodlightcontroller.restserver.IRestApiService;
 import net.floodlightcontroller.topology.ITopologyService;
 import net.floodlightcontroller.util.MACAddress;
 import net.onrc.onos.ofcontroller.bgproute.ILayer3InfoService;
 import net.onrc.onos.ofcontroller.bgproute.Interface;

 import org.openflow.protocol.OFMessage;
 import org.openflow.protocol.OFPacketIn;
 import org.openflow.protocol.OFPacketOut;
 import org.openflow.protocol.OFPort;
 import org.openflow.protocol.OFType;
 import org.openflow.protocol.action.OFAction;
 import org.openflow.protocol.action.OFActionOutput;
 import org.openflow.util.HexString;
 import org.slf4j.Logger;
 import org.slf4j.LoggerFactory;

 import com.google.common.collect.HashMultimap;
 import com.google.common.collect.Multimaps;
 import com.google.common.collect.SetMultimap;

 public class ProxyArpManager implements IProxyArpService, IOFMessageListener {
 	private final static Logger log = LoggerFactory.getLogger(ProxyArpManager.class);

 	private final long ARP_TIMER_PERIOD = 60000; //ms (== 1 min)

 	private static final int ARP_REQUEST_TIMEOUT = 2000; //ms

 	private final IFloodlightProviderService floodlightProvider;
 	private final ITopologyService topology;
 	private final ILayer3InfoService layer3;
 	private final IRestApiService restApi;

 	private final ArpCache arpCache;

 	private final SetMultimap<InetAddress, ArpRequest> arpRequests;

 	private static class ArpRequest {
 		private final IArpRequester requester;
 		private final boolean retry;
 		private long requestTime;

 		public ArpRequest(IArpRequester requester, boolean retry){
 			this.requester = requester;
 			this.retry = retry;
 			this.requestTime = System.currentTimeMillis();
 		}

 		public ArpRequest(ArpRequest old) {
 			this.requester = old.requester;
 			this.retry = old.retry;
 			this.requestTime = System.currentTimeMillis();
 		}

 		public boolean isExpired() {
 			return (System.currentTimeMillis() - requestTime) > ARP_REQUEST_TIMEOUT;
 		}

 		public boolean shouldRetry() {
 			return retry;
 		}

 		public void dispatchReply(InetAddress ipAddress, MACAddress replyMacAddress) {
 			requester.arpResponse(ipAddress, replyMacAddress);
 		}
 	}

 	private class HostArpRequester implements IArpRequester {
 		private final ARP arpRequest;
 		private final long dpid;
 		private final short port;

 		public HostArpRequester(ARP arpRequest, long dpid, short port) {
 			this.arpRequest = arpRequest;
 			this.dpid = dpid;
 			this.port = port;
 		}

 		@Override
 		public void arpResponse(InetAddress ipAddress, MACAddress macAddress) {
 			ProxyArpManager.this.sendArpReply(arpRequest, dpid, port, macAddress);
 		}
 	}

 	public ProxyArpManager(IFloodlightProviderService floodlightProvider,
 				ITopologyService topology, ILayer3InfoService layer3,
 				IRestApiService restApi){
 		this.floodlightProvider = floodlightProvider;
 		this.topology = topology;
 		this.layer3 = layer3;
 		this.restApi = restApi;

 		arpCache = new ArpCache();

 		arpRequests = Multimaps.synchronizedSetMultimap(
 				HashMultimap.<InetAddress, ArpRequest>create());
 	}

 	public void startUp() {
 		restApi.addRestletRoutable(new ArpWebRoutable());

 		Timer arpTimer = new Timer("arp-processing");
 		arpTimer.scheduleAtFixedRate(new TimerTask() {
 			@Override
 			public void run() {
 				doPeriodicArpProcessing();
 			}
 		}, 0, ARP_TIMER_PERIOD);
 	}

 	/*
 	 * Function that runs periodically to manage the asynchronous request mechanism.
 	 * It basically cleans up old ARP requests if we don't get a response for them.
 	 * The caller can designate that a request should be retried indefinitely, and
 	 * this task will handle that as well.
 	 */
 	private void doPeriodicArpProcessing() {
 		SetMultimap<InetAddress, ArpRequest> retryList
 				= HashMultimap.<InetAddress, ArpRequest>create();

 		//Have to synchronize externally on the Multimap while using an iterator,
 		//even though it's a synchronizedMultimap
 		synchronized (arpRequests) {
 			log.debug("Current have {} outstanding requests",
 					arpRequests.size());

 			Iterator<Map.Entry<InetAddress, ArpRequest>> it
 				= arpRequests.entries().iterator();

 			while (it.hasNext()) {
 				Map.Entry<InetAddress, ArpRequest> entry
 						= it.next();
 				ArpRequest request = entry.getValue();
 				if (request.isExpired()) {
 					log.debug("Cleaning expired ARP request for {}",
 							entry.getKey().getHostAddress());

 					it.remove();

 					if (request.shouldRetry()) {
 						retryList.put(entry.getKey(), request);
 					}
 				}
 			}
 		}

 		for (Map.Entry<InetAddress, Collection<ArpRequest>> entry
 				: retryList.asMap().entrySet()) {

 			InetAddress address = entry.getKey();

 			log.debug("Resending ARP request for {}", address.getHostAddress());

 			sendArpRequestForAddress(address);

 			for (ArpRequest request : entry.getValue()) {
 				arpRequests.put(address, new ArpRequest(request));
 			}
 		}
 	}

 	@Override
 	public String getName() {
 		return "ProxyArpManager";
 	}

 	@Override
 	public boolean isCallbackOrderingPrereq(OFType type, String name) {
 		return false;
 	}

 	@Override
 	public boolean isCallbackOrderingPostreq(OFType type, String name) {
 		return false;
 	}

 	@Override
 	public Command receive(
 			IOFSwitch sw, OFMessage msg, FloodlightContext cntx) {

 		if (msg.getType() != OFType.PACKET_IN){
 			return Command.CONTINUE;
 		}

 		OFPacketIn pi = (OFPacketIn) msg;

 		Ethernet eth = IFloodlightProviderService.bcStore.get(cntx,
                 IFloodlightProviderService.CONTEXT_PI_PAYLOAD);

 		if (eth.getEtherType() == Ethernet.TYPE_ARP){
 			ARP arp = (ARP) eth.getPayload();

 			if (arp.getOpCode() == ARP.OP_REQUEST) {
 				handleArpRequest(sw, pi, arp);
 			}
 			else if (arp.getOpCode() == ARP.OP_REPLY) {
 				handleArpReply(sw, pi, arp);
 			}
 		}

 		//TODO should we propagate ARP or swallow it?
 		//Always propagate for now so DeviceManager can learn the host location
 		return Command.CONTINUE;
 	}

 	private void handleArpRequest(IOFSwitch sw, OFPacketIn pi, ARP arp) {
 		if (log.isTraceEnabled()) {
 			log.trace("ARP request received for {}",
 					inetAddressToString(arp.getTargetProtocolAddress()));
 		}

 		InetAddress target;
 		try {
 			 target = InetAddress.getByAddress(arp.getTargetProtocolAddress());
 		} catch (UnknownHostException e) {
 			log.debug("Invalid address in ARP request", e);
 			return;
 		}

 		if (layer3.fromExternalNetwork(sw.getId(), pi.getInPort())) {
 			//If the request came from outside our network, we only care if
 			//it was a request for one of our interfaces.
 			if (layer3.isInterfaceAddress(target)) {
 				log.trace("ARP request for our interface. Sending reply {} => {}",
 						target.getHostAddress(), layer3.getRouterMacAddress());

 				sendArpReply(arp, sw.getId(), pi.getInPort(),
 						layer3.getRouterMacAddress());
 			}

 			return;
 		}

 		MACAddress macAddress = arpCache.lookup(target);

 		if (macAddress == null){
 			//MAC address is not in our ARP cache.

 			//Record where the request came from so we know where to send the reply
 			arpRequests.put(target, new ArpRequest(
 					new HostArpRequester(arp, sw.getId(), pi.getInPort()), false));

 			//Flood the request out edge ports
 			sendArpRequestToSwitches(target, pi.getPacketData(), sw.getId(), pi.getInPort());
 		}
 		else {
 			//We know the address, so send a reply
 			if (log.isTraceEnabled()) {
 				log.trace("Sending reply: {} => {} to host at {}/{}", new Object [] {
 						inetAddressToString(arp.getTargetProtocolAddress()),
 						macAddress.toString(),
 						HexString.toHexString(sw.getId()), pi.getInPort()});
 			}

 			sendArpReply(arp, sw.getId(), pi.getInPort(), macAddress);
 		}
 	}

 	private void handleArpReply(IOFSwitch sw, OFPacketIn pi, ARP arp){
 		if (log.isTraceEnabled()) {
 			log.trace("ARP reply recieved: {} => {}, on {}/{}", new Object[] {
 					inetAddressToString(arp.getSenderProtocolAddress()),
 					HexString.toHexString(arp.getSenderHardwareAddress()),
 					HexString.toHexString(sw.getId()), pi.getInPort()});
 		}

 		InetAddress senderIpAddress;
 		try {
 			senderIpAddress = InetAddress.getByAddress(arp.getSenderProtocolAddress());
 		} catch (UnknownHostException e) {
 			log.debug("Invalid address in ARP reply", e);
 			return;
 		}

 		MACAddress senderMacAddress = MACAddress.valueOf(arp.getSenderHardwareAddress());

 		arpCache.update(senderIpAddress, senderMacAddress);

 		//See if anyone's waiting for this ARP reply
 		Set<ArpRequest> requests = arpRequests.get(senderIpAddress);

 		//Synchronize on the Multimap while using an iterator for one of the sets
 		List<ArpRequest> requestsToSend = new ArrayList<ArpRequest>(requests.size());
 		synchronized (arpRequests) {
 			Iterator<ArpRequest> it = requests.iterator();
 			while (it.hasNext()) {
 				ArpRequest request = it.next();
 				it.remove();
 				requestsToSend.add(request);
 			}
 		}

 		//Don't hold an ARP lock while dispatching requests
 		for (ArpRequest request : requestsToSend) {
 			request.dispatchReply(senderIpAddress, senderMacAddress);
 		}
 	}

 	private void sendArpRequestForAddress(InetAddress ipAddress) {
 		//TODO what should the sender IP address and MAC address be if no
 		//IP addresses are configured? Will there ever be a need to send
 		//ARP requests from the controller in that case?
 		//All-zero MAC address doesn't seem to work - hosts don't respond to it

 		byte[] zeroIpv4 = {0x0, 0x0, 0x0, 0x0};
 		byte[] zeroMac = {0x0, 0x0, 0x0, 0x0, 0x0, 0x0};
 		byte[] genericNonZeroMac = {0x0, 0x0, 0x0, 0x0, 0x0, 0x01};
 		byte[] broadcastMac = {(byte)0xff, (byte)0xff, (byte)0xff,
 				(byte)0xff, (byte)0xff, (byte)0xff};

 		ARP arpRequest = new ARP();

 		arpRequest.setHardwareType(ARP.HW_TYPE_ETHERNET)
 			.setProtocolType(ARP.PROTO_TYPE_IP)
 			.setHardwareAddressLength((byte)Ethernet.DATALAYER_ADDRESS_LENGTH)
 			.setProtocolAddressLength((byte)IPv4.ADDRESS_LENGTH)
 			.setOpCode(ARP.OP_REQUEST)
 			.setTargetHardwareAddress(zeroMac)
 			.setTargetProtocolAddress(ipAddress.getAddress());

 		MACAddress routerMacAddress = layer3.getRouterMacAddress();
 		//TODO hack for now as it's unclear what the MAC address should be
 		byte[] senderMacAddress = genericNonZeroMac;
 		if (routerMacAddress != null) {
 			senderMacAddress = routerMacAddress.toBytes();
 		}
 		arpRequest.setSenderHardwareAddress(senderMacAddress);

 		byte[] senderIPAddress = zeroIpv4;
 		Interface intf = layer3.getOutgoingInterface(ipAddress);
 		if (intf != null) {
 			senderIPAddress = intf.getIpAddress().getAddress();
 		}

 		arpRequest.setSenderProtocolAddress(senderIPAddress);

 		Ethernet eth = new Ethernet();
 		eth.setSourceMACAddress(senderMacAddress)
 			.setDestinationMACAddress(broadcastMac)
 			.setEtherType(Ethernet.TYPE_ARP)
 			.setPayload(arpRequest);

 		sendArpRequestToSwitches(ipAddress, eth.serialize());
 	}

 	private void sendArpRequestToSwitches(InetAddress dstAddress, byte[] arpRequest) {
 		sendArpRequestToSwitches(dstAddress, arpRequest,
 				0, OFPort.OFPP_NONE.getValue());
 	}

 	private void sendArpRequestToSwitches(InetAddress dstAddress, byte[] arpRequest,
 			long inSwitch, short inPort) {

 		if (layer3.hasLayer3Configuration()) {
 			Interface intf = layer3.getOutgoingInterface(dstAddress);
 			if (intf != null) {
 				sendArpRequestOutPort(arpRequest, intf.getDpid(), intf.getPort());
 			}
 			else {
 				//TODO here it should be broadcast out all non-interface edge ports.
 				//I think we can assume that if it's not a request for an external
 				//network, it's an ARP for a host in our own network. So we want to
 				//send it out all edge ports that don't have an interface configured
 				//to ensure it reaches all hosts in our network.
 				log.debug("No interface found to send ARP request for {}",
 						dstAddress.getHostAddress());
 			}
 		}
 		else {
 			broadcastArpRequestOutEdge(arpRequest, inSwitch, inPort);
 		}
 	}

 	private void broadcastArpRequestOutEdge(byte[] arpRequest, long inSwitch, short inPort) {
 		for (IOFSwitch sw : floodlightProvider.getSwitches().values()){
 			Collection<Short> enabledPorts = sw.getEnabledPortNumbers();
 			Set<Short> linkPorts = topology.getPortsWithLinks(sw.getId());

 			if (linkPorts == null){
 				//I think this means the switch isn't known to topology yet.
 				//Maybe it only just joined.
 				continue;
 			}

 			OFPacketOut po = new OFPacketOut();
 			po.setInPort(OFPort.OFPP_NONE)
 				.setBufferId(-1)
 				.setPacketData(arpRequest);

 			List<OFAction> actions = new ArrayList<OFAction>();

 			for (short portNum : enabledPorts){
 				if (linkPorts.contains(portNum) ||
 						(sw.getId() == inSwitch && portNum == inPort)){
 					//If this port isn't an edge port or is the ingress port
 					//for the ARP, don't broadcast out it
 					continue;
 				}

 				actions.add(new OFActionOutput(portNum));
 			}

 			po.setActions(actions);
 			short actionsLength = (short) (actions.size() * OFActionOutput.MINIMUM_LENGTH);
 			po.setActionsLength(actionsLength);
 			po.setLengthU(OFPacketOut.MINIMUM_LENGTH + actionsLength
 					+ arpRequest.length);

 			List<OFMessage> msgList = new ArrayList<OFMessage>();
 			msgList.add(po);

 			try {
 				sw.write(msgList, null);
 				sw.flush();
 			} catch (IOException e) {
 				log.error("Failure writing packet out to switch", e);
 			}
 		}
 	}

 	private void sendArpRequestOutPort(byte[] arpRequest, long dpid, short port) {
 		if (log.isTraceEnabled()) {
 			log.trace("Sending ARP request out {}/{}",
 					HexString.toHexString(dpid), port);
 		}

 		OFPacketOut po = new OFPacketOut();
 		po.setInPort(OFPort.OFPP_NONE)
 			.setBufferId(-1)
 			.setPacketData(arpRequest);

 		List<OFAction> actions = new ArrayList<OFAction>();
 		actions.add(new OFActionOutput(port));
 		po.setActions(actions);
 		short actionsLength = (short) (actions.size() * OFActionOutput.MINIMUM_LENGTH);
 		po.setActionsLength(actionsLength);
 		po.setLengthU(OFPacketOut.MINIMUM_LENGTH + actionsLength
 				+ arpRequest.length);

 		IOFSwitch sw = floodlightProvider.getSwitches().get(dpid);

 		if (sw == null) {
 			log.warn("Switch not found when sending ARP request");
 			return;
 		}

 		try {
 			sw.write(po, null);
 			sw.flush();
 		} catch (IOException e) {
 			log.error("Failure writing packet out to switch", e);
 		}
 	}

 	private void sendArpReply(ARP arpRequest, long dpid, short port, MACAddress targetMac) {
 		if (log.isTraceEnabled()) {
 			log.trace("Sending reply {} => {} to {}", new Object[] {
 					inetAddressToString(arpRequest.getTargetProtocolAddress()),
 					targetMac,
 					inetAddressToString(arpRequest.getSenderProtocolAddress())});
 		}

 		ARP arpReply = new ARP();
 		arpReply.setHardwareType(ARP.HW_TYPE_ETHERNET)
 			.setProtocolType(ARP.PROTO_TYPE_IP)
 			.setHardwareAddressLength((byte)Ethernet.DATALAYER_ADDRESS_LENGTH)
 			.setProtocolAddressLength((byte)IPv4.ADDRESS_LENGTH)
 			.setOpCode(ARP.OP_REPLY)
 			.setSenderHardwareAddress(targetMac.toBytes())
 			.setSenderProtocolAddress(arpRequest.getTargetProtocolAddress())
 			.setTargetHardwareAddress(arpRequest.getSenderHardwareAddress())
 			.setTargetProtocolAddress(arpRequest.getSenderProtocolAddress());

 		Ethernet eth = new Ethernet();
 		eth.setDestinationMACAddress(arpRequest.getSenderHardwareAddress())
 			.setSourceMACAddress(targetMac.toBytes())
 			.setEtherType(Ethernet.TYPE_ARP)
 			.setPayload(arpReply);

 		List<OFAction> actions = new ArrayList<OFAction>();
 		actions.add(new OFActionOutput(port));

 		OFPacketOut po = new OFPacketOut();
 		po.setInPort(OFPort.OFPP_NONE)
 			.setBufferId(-1)
 			.setPacketData(eth.serialize())
 			.setActions(actions)
 			.setActionsLength((short)OFActionOutput.MINIMUM_LENGTH)
 			.setLengthU(OFPacketOut.MINIMUM_LENGTH + OFActionOutput.MINIMUM_LENGTH
 					+ po.getPacketData().length);

 		List<OFMessage> msgList = new ArrayList<OFMessage>();
 		msgList.add(po);

 		IOFSwitch sw = floodlightProvider.getSwitches().get(dpid);

 		if (sw == null) {
 			log.warn("Switch {} not found when sending ARP reply",
 					HexString.toHexString(dpid));
 			return;
 		}

 		try {
 			sw.write(msgList, null);
 			sw.flush();
 		} catch (IOException e) {
 			log.error("Failure writing packet out to switch", e);
 		}
 	}

 	private String inetAddressToString(byte[] bytes) {
 		try {
 			return InetAddress.getByAddress(bytes).getHostAddress();
 		} catch (UnknownHostException e) {
 			log.debug("Invalid IP address", e);
 			return "";
 		}
 	}

 	/*
 	 * IProxyArpService methods
 	 */

 	@Override
 	public MACAddress getMacAddress(InetAddress ipAddress) {
 		return arpCache.lookup(ipAddress);
 	}

 	@Override
 	public void sendArpRequest(InetAddress ipAddress, IArpRequester requester,
 			boolean retry) {
 		arpRequests.put(ipAddress, new ArpRequest(requester, retry));

 		//Sanity check to make sure we don't send a request for our own address
 		if (!layer3.isInterfaceAddress(ipAddress)) {
 			sendArpRequestForAddress(ipAddress);
 		}
 	}

 	@Override
 	public List<String> getMappings() {
 		return arpCache.getMappings();
 	}
 }
	package net.onrc.onos.ofcontroller.proxyarp;

	import java.io.IOException;
	import java.net.InetAddress;
	import java.net.UnknownHostException;
	import java.util.ArrayList;
	import java.util.Collection;
	import java.util.Iterator;
	import java.util.List;
	import java.util.Map;
	import java.util.Set;
	import java.util.Timer;
	import java.util.TimerTask;

	import net.floodlightcontroller.core.FloodlightContext;
	import net.floodlightcontroller.core.IFloodlightProviderService;
	import net.floodlightcontroller.core.IOFMessageListener;
	import net.floodlightcontroller.core.IOFSwitch;
	import net.floodlightcontroller.packet.ARP;
	import net.floodlightcontroller.packet.Ethernet;
	import net.floodlightcontroller.packet.IPv4;
	import net.floodlightcontroller.restserver.IRestApiService;
	import net.floodlightcontroller.topology.ITopologyService;
	import net.floodlightcontroller.util.MACAddress;
	import net.onrc.onos.ofcontroller.bgproute.ILayer3InfoService;
	import net.onrc.onos.ofcontroller.bgproute.Interface;

	import org.openflow.protocol.OFMessage;
	import org.openflow.protocol.OFPacketIn;
	import org.openflow.protocol.OFPacketOut;
	import org.openflow.protocol.OFPort;
	import org.openflow.protocol.OFType;
	import org.openflow.protocol.action.OFAction;
	import org.openflow.protocol.action.OFActionOutput;
	import org.openflow.util.HexString;
	import org.slf4j.Logger;
	import org.slf4j.LoggerFactory;

	import com.google.common.collect.HashMultimap;
	import com.google.common.collect.Multimaps;
	import com.google.common.collect.SetMultimap;

	public class ProxyArpManager implements IProxyArpService, IOFMessageListener {
	private final static Logger log = LoggerFactory.getLogger(ProxyArpManager.class);

	private final long ARP_TIMER_PERIOD = 60000; //ms (== 1 min)

	private static final int ARP_REQUEST_TIMEOUT = 2000; //ms

	private final IFloodlightProviderService floodlightProvider;
	private final ITopologyService topology;
	private final ILayer3InfoService layer3;
	private final IRestApiService restApi;

	private final ArpCache arpCache;

	private final SetMultimap<InetAddress, ArpRequest> arpRequests;

	private static class ArpRequest {
	private final IArpRequester requester;
	private final boolean retry;
	private long requestTime;

	public ArpRequest(IArpRequester requester, boolean retry){
	this.requester = requester;
	this.retry = retry;
	this.requestTime = System.currentTimeMillis();
	}

	public ArpRequest(ArpRequest old) {
	this.requester = old.requester;
	this.retry = old.retry;
	this.requestTime = System.currentTimeMillis();
	}

	public boolean isExpired() {
	return (System.currentTimeMillis() - requestTime) > ARP_REQUEST_TIMEOUT;
	}

	public boolean shouldRetry() {
	return retry;
	}

	public void dispatchReply(InetAddress ipAddress, MACAddress replyMacAddress) {
	requester.arpResponse(ipAddress, replyMacAddress);
	}
	}

	private class HostArpRequester implements IArpRequester {
	private final ARP arpRequest;
	private final long dpid;
	private final short port;

	public HostArpRequester(ARP arpRequest, long dpid, short port) {
	this.arpRequest = arpRequest;
	this.dpid = dpid;
	this.port = port;
	}

	@Override
	public void arpResponse(InetAddress ipAddress, MACAddress macAddress) {
	ProxyArpManager.this.sendArpReply(arpRequest, dpid, port, macAddress);
	}
	}

	public ProxyArpManager(IFloodlightProviderService floodlightProvider,
	ITopologyService topology, ILayer3InfoService layer3,
	IRestApiService restApi){
	this.floodlightProvider = floodlightProvider;
	this.topology = topology;
	this.layer3 = layer3;
	this.restApi = restApi;

	arpCache = new ArpCache();

	arpRequests = Multimaps.synchronizedSetMultimap(
	HashMultimap.<InetAddress, ArpRequest>create());
	}

	public void startUp() {
	restApi.addRestletRoutable(new ArpWebRoutable());

	Timer arpTimer = new Timer("arp-processing");
	arpTimer.scheduleAtFixedRate(new TimerTask() {
	@Override
	public void run() {
	doPeriodicArpProcessing();
	}
	}, 0, ARP_TIMER_PERIOD);
	}

	/*
	* Function that runs periodically to manage the asynchronous request mechanism.
	* It basically cleans up old ARP requests if we don't get a response for them.
	* The caller can designate that a request should be retried indefinitely, and
	* this task will handle that as well.
	*/
	private void doPeriodicArpProcessing() {
	SetMultimap<InetAddress, ArpRequest> retryList
	= HashMultimap.<InetAddress, ArpRequest>create();

	//Have to synchronize externally on the Multimap while using an iterator,
	//even though it's a synchronizedMultimap
	synchronized (arpRequests) {
	log.debug("Current have {} outstanding requests",
	arpRequests.size());

	Iterator<Map.Entry<InetAddress, ArpRequest>> it
	= arpRequests.entries().iterator();

	while (it.hasNext()) {
	Map.Entry<InetAddress, ArpRequest> entry
	= it.next();
	ArpRequest request = entry.getValue();
	if (request.isExpired()) {
	log.debug("Cleaning expired ARP request for {}",
	entry.getKey().getHostAddress());

	it.remove();

	if (request.shouldRetry()) {
	retryList.put(entry.getKey(), request);
	}
	}
	}
	}

	for (Map.Entry<InetAddress, Collection<ArpRequest>> entry
	: retryList.asMap().entrySet()) {

	InetAddress address = entry.getKey();

	log.debug("Resending ARP request for {}", address.getHostAddress());

	sendArpRequestForAddress(address);

	for (ArpRequest request : entry.getValue()) {
	arpRequests.put(address, new ArpRequest(request));
	}
	}
	}

	@Override
	public String getName() {
	return "ProxyArpManager";
	}

	@Override
	public boolean isCallbackOrderingPrereq(OFType type, String name) {
	return false;
	}

	@Override
	public boolean isCallbackOrderingPostreq(OFType type, String name) {
	return false;
	}

	@Override
	public Command receive(
	IOFSwitch sw, OFMessage msg, FloodlightContext cntx) {

	if (msg.getType() != OFType.PACKET_IN){
	return Command.CONTINUE;
	}

	OFPacketIn pi = (OFPacketIn) msg;

	Ethernet eth = IFloodlightProviderService.bcStore.get(cntx,
	IFloodlightProviderService.CONTEXT_PI_PAYLOAD);

	if (eth.getEtherType() == Ethernet.TYPE_ARP){
	ARP arp = (ARP) eth.getPayload();

	if (arp.getOpCode() == ARP.OP_REQUEST) {
	handleArpRequest(sw, pi, arp);
	}
	else if (arp.getOpCode() == ARP.OP_REPLY) {
	handleArpReply(sw, pi, arp);
	}
	}

	//TODO should we propagate ARP or swallow it?
	//Always propagate for now so DeviceManager can learn the host location
	return Command.CONTINUE;
	}

	private void handleArpRequest(IOFSwitch sw, OFPacketIn pi, ARP arp) {
	if (log.isTraceEnabled()) {
	log.trace("ARP request received for {}",
	inetAddressToString(arp.getTargetProtocolAddress()));
	}

	InetAddress target;
	try {
	target = InetAddress.getByAddress(arp.getTargetProtocolAddress());
	} catch (UnknownHostException e) {
	log.debug("Invalid address in ARP request", e);
	return;
	}

	if (layer3.fromExternalNetwork(sw.getId(), pi.getInPort())) {
	//If the request came from outside our network, we only care if
	//it was a request for one of our interfaces.
	if (layer3.isInterfaceAddress(target)) {
	log.trace("ARP request for our interface. Sending reply {} => {}",
	target.getHostAddress(), layer3.getRouterMacAddress());

	sendArpReply(arp, sw.getId(), pi.getInPort(),
	layer3.getRouterMacAddress());
	}

	return;
	}

	MACAddress macAddress = arpCache.lookup(target);

	if (macAddress == null){
	//MAC address is not in our ARP cache.

	//Record where the request came from so we know where to send the reply
	arpRequests.put(target, new ArpRequest(
	new HostArpRequester(arp, sw.getId(), pi.getInPort()), false));

	//Flood the request out edge ports
	sendArpRequestToSwitches(target, pi.getPacketData(), sw.getId(), pi.getInPort());
	}
	else {
	//We know the address, so send a reply
	if (log.isTraceEnabled()) {
	log.trace("Sending reply: {} => {} to host at {}/{}", new Object [] {
	inetAddressToString(arp.getTargetProtocolAddress()),
	macAddress.toString(),
	HexString.toHexString(sw.getId()), pi.getInPort()});
	}

	sendArpReply(arp, sw.getId(), pi.getInPort(), macAddress);
	}
	}

	private void handleArpReply(IOFSwitch sw, OFPacketIn pi, ARP arp){
	if (log.isTraceEnabled()) {
	log.trace("ARP reply recieved: {} => {}, on {}/{}", new Object[] {
	inetAddressToString(arp.getSenderProtocolAddress()),
	HexString.toHexString(arp.getSenderHardwareAddress()),
	HexString.toHexString(sw.getId()), pi.getInPort()});
	}

	InetAddress senderIpAddress;
	try {
	senderIpAddress = InetAddress.getByAddress(arp.getSenderProtocolAddress());
	} catch (UnknownHostException e) {
	log.debug("Invalid address in ARP reply", e);
	return;
	}

	MACAddress senderMacAddress = MACAddress.valueOf(arp.getSenderHardwareAddress());

	arpCache.update(senderIpAddress, senderMacAddress);

	//See if anyone's waiting for this ARP reply
	Set<ArpRequest> requests = arpRequests.get(senderIpAddress);

	//Synchronize on the Multimap while using an iterator for one of the sets
	List<ArpRequest> requestsToSend = new ArrayList<ArpRequest>(requests.size());
	synchronized (arpRequests) {
	Iterator<ArpRequest> it = requests.iterator();
	while (it.hasNext()) {
	ArpRequest request = it.next();
	it.remove();
	requestsToSend.add(request);
	}
	}

	//Don't hold an ARP lock while dispatching requests
	for (ArpRequest request : requestsToSend) {
	request.dispatchReply(senderIpAddress, senderMacAddress);
	}
	}

	private void sendArpRequestForAddress(InetAddress ipAddress) {
	//TODO what should the sender IP address and MAC address be if no
	//IP addresses are configured? Will there ever be a need to send
	//ARP requests from the controller in that case?
	//All-zero MAC address doesn't seem to work - hosts don't respond to it

	byte[] zeroIpv4 = {0x0, 0x0, 0x0, 0x0};
	byte[] zeroMac = {0x0, 0x0, 0x0, 0x0, 0x0, 0x0};
	byte[] genericNonZeroMac = {0x0, 0x0, 0x0, 0x0, 0x0, 0x01};
	byte[] broadcastMac = {(byte)0xff, (byte)0xff, (byte)0xff,
	(byte)0xff, (byte)0xff, (byte)0xff};

	ARP arpRequest = new ARP();

	arpRequest.setHardwareType(ARP.HW_TYPE_ETHERNET)
	.setProtocolType(ARP.PROTO_TYPE_IP)
	.setHardwareAddressLength((byte)Ethernet.DATALAYER_ADDRESS_LENGTH)
	.setProtocolAddressLength((byte)IPv4.ADDRESS_LENGTH)
	.setOpCode(ARP.OP_REQUEST)
	.setTargetHardwareAddress(zeroMac)
	.setTargetProtocolAddress(ipAddress.getAddress());

	MACAddress routerMacAddress = layer3.getRouterMacAddress();
	//TODO hack for now as it's unclear what the MAC address should be
	byte[] senderMacAddress = genericNonZeroMac;
	if (routerMacAddress != null) {
	senderMacAddress = routerMacAddress.toBytes();
	}
	arpRequest.setSenderHardwareAddress(senderMacAddress);

	byte[] senderIPAddress = zeroIpv4;
	Interface intf = layer3.getOutgoingInterface(ipAddress);
	if (intf != null) {
	senderIPAddress = intf.getIpAddress().getAddress();
	}

	arpRequest.setSenderProtocolAddress(senderIPAddress);

	Ethernet eth = new Ethernet();
	eth.setSourceMACAddress(senderMacAddress)
	.setDestinationMACAddress(broadcastMac)
	.setEtherType(Ethernet.TYPE_ARP)
	.setPayload(arpRequest);

	sendArpRequestToSwitches(ipAddress, eth.serialize());
	}

	private void sendArpRequestToSwitches(InetAddress dstAddress, byte[] arpRequest) {
	sendArpRequestToSwitches(dstAddress, arpRequest,
	0, OFPort.OFPP_NONE.getValue());
	}

	private void sendArpRequestToSwitches(InetAddress dstAddress, byte[] arpRequest,
	long inSwitch, short inPort) {

	if (layer3.hasLayer3Configuration()) {
	Interface intf = layer3.getOutgoingInterface(dstAddress);
	if (intf != null) {
	sendArpRequestOutPort(arpRequest, intf.getDpid(), intf.getPort());
	}
	else {
	//TODO here it should be broadcast out all non-interface edge ports.
	//I think we can assume that if it's not a request for an external
	//network, it's an ARP for a host in our own network. So we want to
	//send it out all edge ports that don't have an interface configured
	//to ensure it reaches all hosts in our network.
	log.debug("No interface found to send ARP request for {}",
	dstAddress.getHostAddress());
	}
	}
	else {
	broadcastArpRequestOutEdge(arpRequest, inSwitch, inPort);
	}
	}

	private void broadcastArpRequestOutEdge(byte[] arpRequest, long inSwitch, short inPort) {
	for (IOFSwitch sw : floodlightProvider.getSwitches().values()){
	Collection<Short> enabledPorts = sw.getEnabledPortNumbers();
	Set<Short> linkPorts = topology.getPortsWithLinks(sw.getId());

	if (linkPorts == null){
	//I think this means the switch isn't known to topology yet.
	//Maybe it only just joined.
	continue;
	}

	OFPacketOut po = new OFPacketOut();
	po.setInPort(OFPort.OFPP_NONE)
	.setBufferId(-1)
	.setPacketData(arpRequest);

	List<OFAction> actions = new ArrayList<OFAction>();

	for (short portNum : enabledPorts){
	if (linkPorts.contains(portNum) \|\|
	(sw.getId() == inSwitch && portNum == inPort)){
	//If this port isn't an edge port or is the ingress port
	//for the ARP, don't broadcast out it
	continue;
	}

	actions.add(new OFActionOutput(portNum));
	}

	po.setActions(actions);
	short actionsLength = (short) (actions.size() * OFActionOutput.MINIMUM_LENGTH);
	po.setActionsLength(actionsLength);
	po.setLengthU(OFPacketOut.MINIMUM_LENGTH + actionsLength
	+ arpRequest.length);

	List<OFMessage> msgList = new ArrayList<OFMessage>();
	msgList.add(po);

	try {
	sw.write(msgList, null);
	sw.flush();
	} catch (IOException e) {
	log.error("Failure writing packet out to switch", e);
	}
	}
	}

	private void sendArpRequestOutPort(byte[] arpRequest, long dpid, short port) {
	if (log.isTraceEnabled()) {
	log.trace("Sending ARP request out {}/{}",
	HexString.toHexString(dpid), port);
	}

	OFPacketOut po = new OFPacketOut();
	po.setInPort(OFPort.OFPP_NONE)
	.setBufferId(-1)
	.setPacketData(arpRequest);

	List<OFAction> actions = new ArrayList<OFAction>();
	actions.add(new OFActionOutput(port));
	po.setActions(actions);
	short actionsLength = (short) (actions.size() * OFActionOutput.MINIMUM_LENGTH);
	po.setActionsLength(actionsLength);
	po.setLengthU(OFPacketOut.MINIMUM_LENGTH + actionsLength
	+ arpRequest.length);

	IOFSwitch sw = floodlightProvider.getSwitches().get(dpid);

	if (sw == null) {
	log.warn("Switch not found when sending ARP request");
	return;
	}

	try {
	sw.write(po, null);
	sw.flush();
	} catch (IOException e) {
	log.error("Failure writing packet out to switch", e);
	}
	}

	private void sendArpReply(ARP arpRequest, long dpid, short port, MACAddress targetMac) {
	if (log.isTraceEnabled()) {
	log.trace("Sending reply {} => {} to {}", new Object[] {
	inetAddressToString(arpRequest.getTargetProtocolAddress()),
	targetMac,
	inetAddressToString(arpRequest.getSenderProtocolAddress())});
	}

	ARP arpReply = new ARP();
	arpReply.setHardwareType(ARP.HW_TYPE_ETHERNET)
	.setProtocolType(ARP.PROTO_TYPE_IP)
	.setHardwareAddressLength((byte)Ethernet.DATALAYER_ADDRESS_LENGTH)
	.setProtocolAddressLength((byte)IPv4.ADDRESS_LENGTH)
	.setOpCode(ARP.OP_REPLY)
	.setSenderHardwareAddress(targetMac.toBytes())
	.setSenderProtocolAddress(arpRequest.getTargetProtocolAddress())
	.setTargetHardwareAddress(arpRequest.getSenderHardwareAddress())
	.setTargetProtocolAddress(arpRequest.getSenderProtocolAddress());

	Ethernet eth = new Ethernet();
	eth.setDestinationMACAddress(arpRequest.getSenderHardwareAddress())
	.setSourceMACAddress(targetMac.toBytes())
	.setEtherType(Ethernet.TYPE_ARP)
	.setPayload(arpReply);

	List<OFAction> actions = new ArrayList<OFAction>();
	actions.add(new OFActionOutput(port));

	OFPacketOut po = new OFPacketOut();
	po.setInPort(OFPort.OFPP_NONE)
	.setBufferId(-1)
	.setPacketData(eth.serialize())
	.setActions(actions)
	.setActionsLength((short)OFActionOutput.MINIMUM_LENGTH)
	.setLengthU(OFPacketOut.MINIMUM_LENGTH + OFActionOutput.MINIMUM_LENGTH
	+ po.getPacketData().length);

	List<OFMessage> msgList = new ArrayList<OFMessage>();
	msgList.add(po);

	IOFSwitch sw = floodlightProvider.getSwitches().get(dpid);

	if (sw == null) {
	log.warn("Switch {} not found when sending ARP reply",
	HexString.toHexString(dpid));
	return;
	}

	try {
	sw.write(msgList, null);
	sw.flush();
	} catch (IOException e) {
	log.error("Failure writing packet out to switch", e);
	}
	}

	private String inetAddressToString(byte[] bytes) {
	try {
	return InetAddress.getByAddress(bytes).getHostAddress();
	} catch (UnknownHostException e) {
	log.debug("Invalid IP address", e);
	return "";
	}
	}

	/*
	* IProxyArpService methods
	*/

	@Override
	public MACAddress getMacAddress(InetAddress ipAddress) {
	return arpCache.lookup(ipAddress);
	}

	@Override
	public void sendArpRequest(InetAddress ipAddress, IArpRequester requester,
	boolean retry) {
	arpRequests.put(ipAddress, new ArpRequest(requester, retry));

	//Sanity check to make sure we don't send a request for our own address
	if (!layer3.isInterfaceAddress(ipAddress)) {
	sendArpRequestForAddress(ipAddress);
	}
	}

	@Override
	public List<String> getMappings() {
	return arpCache.getMappings();
	}
	}