Refactor the FlowManager:
 * Moved Flow GraphDB specific operations to class FlowDatabaseOperation
   inside file flowmanager/FlowDatabaseOperation.java
 * Moved Flow Switch specific operations to class FlowSwitchOperation
   inside file flowmanager/FlowSwitchOperation.java
 * Temporary disable all the tests inside FlowManagerTest, because
   many don't work anymore after the above refactoring.
   Those will be fixed after all the FlowManager refactoring is completed.
 * Apply minor (incomplete) fix to FlowManagerTest, which will be needed later
diff --git a/src/main/java/net/onrc/onos/ofcontroller/flowmanager/FlowDatabaseOperation.java b/src/main/java/net/onrc/onos/ofcontroller/flowmanager/FlowDatabaseOperation.java
new file mode 100644
index 0000000..7550b37
--- /dev/null
+++ b/src/main/java/net/onrc/onos/ofcontroller/flowmanager/FlowDatabaseOperation.java
@@ -0,0 +1,926 @@
+package net.onrc.onos.ofcontroller.flowmanager;
+
+import java.io.PrintWriter;
+import java.io.StringWriter;
+import java.util.ArrayList;
+import java.util.Collections;
+import java.util.Comparator;
+import java.util.LinkedList;
+import java.util.List;
+import java.util.concurrent.ConcurrentLinkedQueue;
+
+import net.floodlightcontroller.util.MACAddress;
+
+import net.onrc.onos.graph.GraphDBOperation;
+
+import net.onrc.onos.ofcontroller.core.INetMapTopologyObjects.IFlowEntry;
+import net.onrc.onos.ofcontroller.core.INetMapTopologyObjects.IFlowPath;
+import net.onrc.onos.ofcontroller.core.INetMapTopologyObjects.IPortObject;
+import net.onrc.onos.ofcontroller.core.INetMapTopologyObjects.ISwitchObject;
+import net.onrc.onos.ofcontroller.util.*;
+
+import org.slf4j.Logger;
+import org.slf4j.LoggerFactory;
+
+/**
+ * Class for performing Flow-related operations on the Database.
+ */
+class FlowDatabaseOperation {
+    private static Logger log = LoggerFactory.getLogger(FlowDatabaseOperation.class);
+
+    /**
+     * Add a flow.
+     *
+     * @param flowManager the Flow Manager to use.
+     * @param dbHandler the Graph Database handler to use.
+     * @param flowPath the Flow Path to install.
+     * @param flowId the return-by-reference Flow ID as assigned internally.
+     * @param dataPathSummaryStr the data path summary string if the added
+     * flow will be maintained internally, otherwise null.
+     * @return true on success, otherwise false.
+     */
+    static boolean addFlow(FlowManager flowManager,
+			   GraphDBOperation dbHandler,
+			   FlowPath flowPath, FlowId flowId,
+			   String dataPathSummaryStr) {
+	IFlowPath flowObj = null;
+	boolean found = false;
+	try {
+	    if ((flowObj = dbHandler.searchFlowPath(flowPath.flowId())) != null) {
+		found = true;
+	    } else {
+		flowObj = dbHandler.newFlowPath();
+	    }
+	} catch (Exception e) {
+	    dbHandler.rollback();
+
+	    StringWriter sw = new StringWriter();
+	    e.printStackTrace(new PrintWriter(sw));
+	    String stacktrace = sw.toString();
+
+	    log.error(":addFlow FlowId:{} failed: {}",
+		      flowPath.flowId().toString(),
+		      stacktrace);
+	    return false;
+	}
+	if (flowObj == null) {
+	    log.error(":addFlow FlowId:{} failed: Flow object not created",
+		      flowPath.flowId().toString());
+	    dbHandler.rollback();
+	    return false;
+	}
+
+	//
+	// Set the Flow key:
+	// - flowId
+	//
+	flowObj.setFlowId(flowPath.flowId().toString());
+	flowObj.setType("flow");
+
+	//
+	// Set the Flow attributes:
+	// - flowPath.installerId()
+	// - flowPath.flowPathFlags()
+	// - flowPath.dataPath().srcPort()
+	// - flowPath.dataPath().dstPort()
+	// - flowPath.matchSrcMac()
+	// - flowPath.matchDstMac()
+	// - flowPath.matchEthernetFrameType()
+	// - flowPath.matchVlanId()
+	// - flowPath.matchVlanPriority()
+	// - flowPath.matchSrcIPv4Net()
+	// - flowPath.matchDstIPv4Net()
+	// - flowPath.matchIpProto()
+	// - flowPath.matchIpToS()
+	// - flowPath.matchSrcTcpUdpPort()
+	// - flowPath.matchDstTcpUdpPort()
+	// - flowPath.flowEntryActions()
+	//
+	flowObj.setInstallerId(flowPath.installerId().toString());
+	flowObj.setFlowPathFlags(flowPath.flowPathFlags().flags());
+	flowObj.setSrcSwitch(flowPath.dataPath().srcPort().dpid().toString());
+	flowObj.setSrcPort(flowPath.dataPath().srcPort().port().value());
+	flowObj.setDstSwitch(flowPath.dataPath().dstPort().dpid().toString());
+	flowObj.setDstPort(flowPath.dataPath().dstPort().port().value());
+	if (flowPath.flowEntryMatch().matchSrcMac()) {
+	    flowObj.setMatchSrcMac(flowPath.flowEntryMatch().srcMac().toString());
+	}
+	if (flowPath.flowEntryMatch().matchDstMac()) {
+	    flowObj.setMatchDstMac(flowPath.flowEntryMatch().dstMac().toString());
+	}
+	if (flowPath.flowEntryMatch().matchEthernetFrameType()) {
+	    flowObj.setMatchEthernetFrameType(flowPath.flowEntryMatch().ethernetFrameType());
+	}
+	if (flowPath.flowEntryMatch().matchVlanId()) {
+	    flowObj.setMatchVlanId(flowPath.flowEntryMatch().vlanId());
+	}
+	if (flowPath.flowEntryMatch().matchVlanPriority()) {
+	    flowObj.setMatchVlanPriority(flowPath.flowEntryMatch().vlanPriority());
+	}
+	if (flowPath.flowEntryMatch().matchSrcIPv4Net()) {
+	    flowObj.setMatchSrcIPv4Net(flowPath.flowEntryMatch().srcIPv4Net().toString());
+	}
+	if (flowPath.flowEntryMatch().matchDstIPv4Net()) {
+	    flowObj.setMatchDstIPv4Net(flowPath.flowEntryMatch().dstIPv4Net().toString());
+	}
+	if (flowPath.flowEntryMatch().matchIpProto()) {
+	    flowObj.setMatchIpProto(flowPath.flowEntryMatch().ipProto());
+	}
+	if (flowPath.flowEntryMatch().matchIpToS()) {
+	    flowObj.setMatchIpToS(flowPath.flowEntryMatch().ipToS());
+	}
+	if (flowPath.flowEntryMatch().matchSrcTcpUdpPort()) {
+	    flowObj.setMatchSrcTcpUdpPort(flowPath.flowEntryMatch().srcTcpUdpPort());
+	}
+	if (flowPath.flowEntryMatch().matchDstTcpUdpPort()) {
+	    flowObj.setMatchDstTcpUdpPort(flowPath.flowEntryMatch().dstTcpUdpPort());
+	}
+	if (! flowPath.flowEntryActions().actions().isEmpty()) {
+	    flowObj.setActions(flowPath.flowEntryActions().toString());
+	}
+
+	if (dataPathSummaryStr != null) {
+	    flowObj.setDataPathSummary(dataPathSummaryStr);
+	} else {
+	    flowObj.setDataPathSummary("");
+	}
+
+	if (found)
+	    flowObj.setUserState("FE_USER_MODIFY");
+	else
+	    flowObj.setUserState("FE_USER_ADD");
+
+	// Flow edges:
+	//   HeadFE
+
+
+	//
+	// Flow Entries:
+	// flowPath.dataPath().flowEntries()
+	//
+	for (FlowEntry flowEntry : flowPath.dataPath().flowEntries()) {
+	    if (addFlowEntry(flowManager, dbHandler, flowObj, flowEntry) == null) {
+		dbHandler.rollback();
+		return false;
+	    }
+	}
+	dbHandler.commit();
+
+	//
+	// TODO: We need a proper Flow ID allocation mechanism.
+	//
+	flowId.setValue(flowPath.flowId().value());
+
+	return true;
+    }
+
+    /**
+     * Add a flow entry to the Network MAP.
+     *
+     * @param flowManager the Flow Manager to use.
+     * @param dbHandler the Graph Database handler to use.
+     * @param flowObj the corresponding Flow Path object for the Flow Entry.
+     * @param flowEntry the Flow Entry to install.
+     * @return the added Flow Entry object on success, otherwise null.
+     */
+    static IFlowEntry addFlowEntry(FlowManager flowManager,
+				   GraphDBOperation dbHandler,
+				   IFlowPath flowObj,
+				   FlowEntry flowEntry) {
+	// Flow edges
+	//   HeadFE (TODO)
+
+	//
+	// Assign the FlowEntry ID.
+	//
+	if ((flowEntry.flowEntryId() == null) ||
+	    (flowEntry.flowEntryId().value() == 0)) {
+	    long id = flowManager.getNextFlowEntryId();
+	    flowEntry.setFlowEntryId(new FlowEntryId(id));
+	}
+
+	IFlowEntry flowEntryObj = null;
+	boolean found = false;
+	try {
+	    if ((flowEntryObj =
+		 dbHandler.searchFlowEntry(flowEntry.flowEntryId())) != null) {
+		found = true;
+	    } else {
+		flowEntryObj = dbHandler.newFlowEntry();
+	    }
+	} catch (Exception e) {
+	    log.error(":addFlow FlowEntryId:{} failed",
+		      flowEntry.flowEntryId().toString());
+	    return null;
+	}
+	if (flowEntryObj == null) {
+	    log.error(":addFlow FlowEntryId:{} failed: FlowEntry object not created",
+		      flowEntry.flowEntryId().toString());
+	    return null;
+	}
+
+	//
+	// Set the Flow Entry key:
+	// - flowEntry.flowEntryId()
+	//
+	flowEntryObj.setFlowEntryId(flowEntry.flowEntryId().toString());
+	flowEntryObj.setType("flow_entry");
+
+	// 
+	// Set the Flow Entry Edges and attributes:
+	// - Switch edge
+	// - InPort edge
+	// - OutPort edge
+	//
+	// - flowEntry.dpid()
+	// - flowEntry.flowEntryUserState()
+	// - flowEntry.flowEntrySwitchState()
+	// - flowEntry.flowEntryErrorState()
+	// - flowEntry.matchInPort()
+	// - flowEntry.matchSrcMac()
+	// - flowEntry.matchDstMac()
+	// - flowEntry.matchEthernetFrameType()
+	// - flowEntry.matchVlanId()
+	// - flowEntry.matchVlanPriority()
+	// - flowEntry.matchSrcIPv4Net()
+	// - flowEntry.matchDstIPv4Net()
+	// - flowEntry.matchIpProto()
+	// - flowEntry.matchIpToS()
+	// - flowEntry.matchSrcTcpUdpPort()
+	// - flowEntry.matchDstTcpUdpPort()
+	// - flowEntry.actionOutputPort()
+	// - flowEntry.actions()
+	//
+	ISwitchObject sw = dbHandler.searchSwitch(flowEntry.dpid().toString());
+	flowEntryObj.setSwitchDpid(flowEntry.dpid().toString());
+	flowEntryObj.setSwitch(sw);
+	if (flowEntry.flowEntryMatch().matchInPort()) {
+	    IPortObject inport =
+		dbHandler.searchPort(flowEntry.dpid().toString(),
+					flowEntry.flowEntryMatch().inPort().value());
+	    flowEntryObj.setMatchInPort(flowEntry.flowEntryMatch().inPort().value());
+	    flowEntryObj.setInPort(inport);
+	}
+	if (flowEntry.flowEntryMatch().matchSrcMac()) {
+	    flowEntryObj.setMatchSrcMac(flowEntry.flowEntryMatch().srcMac().toString());
+	}
+	if (flowEntry.flowEntryMatch().matchDstMac()) {
+	    flowEntryObj.setMatchDstMac(flowEntry.flowEntryMatch().dstMac().toString());
+	}
+	if (flowEntry.flowEntryMatch().matchEthernetFrameType()) {
+	    flowEntryObj.setMatchEthernetFrameType(flowEntry.flowEntryMatch().ethernetFrameType());
+	}
+	if (flowEntry.flowEntryMatch().matchVlanId()) {
+	    flowEntryObj.setMatchVlanId(flowEntry.flowEntryMatch().vlanId());
+	}
+	if (flowEntry.flowEntryMatch().matchVlanPriority()) {
+	    flowEntryObj.setMatchVlanPriority(flowEntry.flowEntryMatch().vlanPriority());
+	}
+	if (flowEntry.flowEntryMatch().matchSrcIPv4Net()) {
+	    flowEntryObj.setMatchSrcIPv4Net(flowEntry.flowEntryMatch().srcIPv4Net().toString());
+	}
+	if (flowEntry.flowEntryMatch().matchDstIPv4Net()) {
+	    flowEntryObj.setMatchDstIPv4Net(flowEntry.flowEntryMatch().dstIPv4Net().toString());
+	}
+	if (flowEntry.flowEntryMatch().matchIpProto()) {
+	    flowEntryObj.setMatchIpProto(flowEntry.flowEntryMatch().ipProto());
+	}
+	if (flowEntry.flowEntryMatch().matchIpToS()) {
+	    flowEntryObj.setMatchIpToS(flowEntry.flowEntryMatch().ipToS());
+	}
+	if (flowEntry.flowEntryMatch().matchSrcTcpUdpPort()) {
+	    flowEntryObj.setMatchSrcTcpUdpPort(flowEntry.flowEntryMatch().srcTcpUdpPort());
+	}
+	if (flowEntry.flowEntryMatch().matchDstTcpUdpPort()) {
+	    flowEntryObj.setMatchDstTcpUdpPort(flowEntry.flowEntryMatch().dstTcpUdpPort());
+	}
+
+	for (FlowEntryAction fa : flowEntry.flowEntryActions().actions()) {
+	    if (fa.actionOutput() != null) {
+		IPortObject outport =
+		    dbHandler.searchPort(flowEntry.dpid().toString(),
+					      fa.actionOutput().port().value());
+		flowEntryObj.setActionOutputPort(fa.actionOutput().port().value());
+		flowEntryObj.setOutPort(outport);
+	    }
+	}
+	if (! flowEntry.flowEntryActions().isEmpty()) {
+	    flowEntryObj.setActions(flowEntry.flowEntryActions().toString());
+	}
+
+	// TODO: Hacks with hard-coded state names!
+	if (found)
+	    flowEntryObj.setUserState("FE_USER_MODIFY");
+	else
+	    flowEntryObj.setUserState("FE_USER_ADD");
+	flowEntryObj.setSwitchState("FE_SWITCH_NOT_UPDATED");
+	//
+	// TODO: Take care of the FlowEntryErrorState.
+	//
+
+	// Flow Entries edges:
+	//   Flow
+	//   NextFE (TODO)
+	if (! found) {
+	    flowObj.addFlowEntry(flowEntryObj);
+	    flowEntryObj.setFlow(flowObj);
+	}
+
+	return flowEntryObj;
+    }
+
+    /**
+     * Delete all previously added flows.
+     *
+     * @param dbHandler the Graph Database handler to use.
+     * @return true on success, otherwise false.
+     */
+    static boolean deleteAllFlows(GraphDBOperation dbHandler) {
+	final ConcurrentLinkedQueue<FlowId> concurrentAllFlowIds =
+	    new ConcurrentLinkedQueue<FlowId>();
+
+	// Get all Flow IDs
+	Iterable<IFlowPath> allFlowPaths = dbHandler.getAllFlowPaths();
+	for (IFlowPath flowPathObj : allFlowPaths) {
+	    if (flowPathObj == null)
+		continue;
+	    String flowIdStr = flowPathObj.getFlowId();
+	    if (flowIdStr == null)
+		continue;
+	    FlowId flowId = new FlowId(flowIdStr);
+	    concurrentAllFlowIds.add(flowId);
+	}
+
+	// Delete all flows one-by-one
+	for (FlowId flowId : concurrentAllFlowIds)
+	    deleteFlow(dbHandler, flowId);
+
+	/*
+	 * TODO: A faster mechanism to delete the Flow Paths by using
+	 * a number of threads. Commented-out for now.
+	 */
+	/*
+	//
+	// Create the threads to delete the Flow Paths
+	//
+	List<Thread> threads = new LinkedList<Thread>();
+	for (int i = 0; i < 10; i++) {
+	    Thread thread = new Thread(new Runnable() {
+		@Override
+		public void run() {
+		    while (true) {
+			FlowId flowId = concurrentAllFlowIds.poll();
+			if (flowId == null)
+			    return;
+			deleteFlow(dbHandler, flowId);
+		    }
+		}}, "Delete All Flow Paths");
+	    threads.add(thread);
+	}
+
+	// Start processing
+	for (Thread thread : threads) {
+	    thread.start();
+	}
+
+	// Wait for all threads to complete
+	for (Thread thread : threads) {
+	    try {
+		thread.join();
+	    } catch (InterruptedException e) {
+		log.debug("Exception waiting for a thread to delete a Flow Path: ", e);
+	    }
+	}
+	*/
+
+	return true;
+    }
+
+    /**
+     * Delete a previously added flow.
+     *
+     * @param dbHandler the Graph Database handler to use.
+     * @param flowId the Flow ID of the flow to delete.
+     * @return true on success, otherwise false.
+     */
+    static boolean deleteFlow(GraphDBOperation dbHandler, FlowId flowId) {
+	IFlowPath flowObj = null;
+	//
+	// We just mark the entries for deletion,
+	// and let the switches remove each individual entry after
+	// it has been removed from the switches.
+	//
+	try {
+	    flowObj = dbHandler.searchFlowPath(flowId);
+	} catch (Exception e) {
+	    // TODO: handle exceptions
+	    dbHandler.rollback();
+	    log.error(":deleteFlow FlowId:{} failed", flowId.toString());
+	    return false;
+	}
+	if (flowObj == null) {
+	    dbHandler.commit();
+	    return true;		// OK: No such flow
+	}
+
+	//
+	// Find and mark for deletion all Flow Entries,
+	// and the Flow itself.
+	//
+	flowObj.setUserState("FE_USER_DELETE");
+	Iterable<IFlowEntry> flowEntries = flowObj.getFlowEntries();
+	boolean empty = true;	// TODO: an ugly hack
+	for (IFlowEntry flowEntryObj : flowEntries) {
+	    empty = false;
+	    // flowObj.removeFlowEntry(flowEntryObj);
+	    // conn.utils().removeFlowEntry(conn, flowEntryObj);
+	    flowEntryObj.setUserState("FE_USER_DELETE");
+	    flowEntryObj.setSwitchState("FE_SWITCH_NOT_UPDATED");
+	}
+	// Remove from the database empty flows
+	if (empty)
+	    dbHandler.removeFlowPath(flowObj);
+	dbHandler.commit();
+
+	return true;
+    }
+
+    /**
+     * Clear the state for all previously added flows.
+     *
+     * @param dbHandler the Graph Database handler to use.
+     * @return true on success, otherwise false.
+     */
+    static boolean clearAllFlows(GraphDBOperation dbHandler) {
+	List<FlowId> allFlowIds = new LinkedList<FlowId>();
+
+	// Get all Flow IDs
+	Iterable<IFlowPath> allFlowPaths = dbHandler.getAllFlowPaths();
+	for (IFlowPath flowPathObj : allFlowPaths) {
+	    if (flowPathObj == null)
+		continue;
+	    String flowIdStr = flowPathObj.getFlowId();
+	    if (flowIdStr == null)
+		continue;
+	    FlowId flowId = new FlowId(flowIdStr);
+	    allFlowIds.add(flowId);
+	}
+
+	// Clear all flows one-by-one
+	for (FlowId flowId : allFlowIds) {
+	    clearFlow(dbHandler, flowId);
+	}
+
+	return true;
+    }
+
+    /**
+     * Clear the state for a previously added flow.
+     *
+     * @param dbHandler the Graph Database handler to use.
+     * @param flowId the Flow ID of the flow to clear.
+     * @return true on success, otherwise false.
+     */
+    static boolean clearFlow(GraphDBOperation dbHandler, FlowId flowId) {
+	IFlowPath flowObj = null;
+	try {
+	    flowObj = dbHandler.searchFlowPath(flowId);
+	} catch (Exception e) {
+	    // TODO: handle exceptions
+	    dbHandler.rollback();
+	    log.error(":clearFlow FlowId:{} failed", flowId.toString());
+	    return false;
+	}
+	if (flowObj == null) {
+	    dbHandler.commit();
+	    return true;		// OK: No such flow
+	}
+
+	//
+	// Remove all Flow Entries
+	//
+	Iterable<IFlowEntry> flowEntries = flowObj.getFlowEntries();
+	for (IFlowEntry flowEntryObj : flowEntries) {
+	    flowObj.removeFlowEntry(flowEntryObj);
+	    dbHandler.removeFlowEntry(flowEntryObj);
+	}
+	// Remove the Flow itself
+	dbHandler.removeFlowPath(flowObj);
+	dbHandler.commit();
+
+	return true;
+    }
+
+    /**
+     * Get a previously added flow.
+     *
+     * @param dbHandler the Graph Database handler to use.
+     * @param flowId the Flow ID of the flow to get.
+     * @return the Flow Path if found, otherwise null.
+     */
+    static FlowPath getFlow(GraphDBOperation dbHandler, FlowId flowId) {
+	IFlowPath flowObj = null;
+	try {
+	    flowObj = dbHandler.searchFlowPath(flowId);
+	} catch (Exception e) {
+	    // TODO: handle exceptions
+	    dbHandler.rollback();
+	    log.error(":getFlow FlowId:{} failed", flowId.toString());
+	    return null;
+	}
+	if (flowObj == null) {
+	    dbHandler.commit();
+	    return null;		// Flow not found
+	}
+
+	//
+	// Extract the Flow state
+	//
+	FlowPath flowPath = extractFlowPath(flowObj);
+	dbHandler.commit();
+
+	return flowPath;
+    }
+
+    /**
+     * Get all installed flows by all installers.
+     *
+     * @param dbHandler the Graph Database handler to use.
+     * @return the Flow Paths if found, otherwise null.
+     */
+    static ArrayList<FlowPath> getAllFlows(GraphDBOperation dbHandler) {
+	Iterable<IFlowPath> flowPathsObj = null;
+	ArrayList<FlowPath> flowPaths = new ArrayList<FlowPath>();
+
+	try {
+	    flowPathsObj = dbHandler.getAllFlowPaths();
+	} catch (Exception e) {
+	    // TODO: handle exceptions
+	    dbHandler.rollback();
+	    log.error(":getAllFlowPaths failed");
+	    return flowPaths;
+	}
+	if ((flowPathsObj == null) || (flowPathsObj.iterator().hasNext() == false)) {
+	    dbHandler.commit();
+	    return flowPaths;	// No Flows found
+	}
+
+	for (IFlowPath flowObj : flowPathsObj) {
+	    //
+	    // Extract the Flow state
+	    //
+	    FlowPath flowPath = extractFlowPath(flowObj);
+	    if (flowPath != null)
+		flowPaths.add(flowPath);
+	}
+
+	dbHandler.commit();
+
+	return flowPaths;
+    }
+
+    /**
+     * Get all previously added flows by a specific installer for a given
+     * data path endpoints.
+     *
+     * @param dbHandler the Graph Database handler to use.
+     * @param installerId the Caller ID of the installer of the flow to get.
+     * @param dataPathEndpoints the data path endpoints of the flow to get.
+     * @return the Flow Paths if found, otherwise null.
+     */
+    static ArrayList<FlowPath> getAllFlows(GraphDBOperation dbHandler,
+					   CallerId installerId,
+					   DataPathEndpoints dataPathEndpoints) {
+	//
+	// TODO: The implementation below is not optimal:
+	// We fetch all flows, and then return only the subset that match
+	// the query conditions.
+	// We should use the appropriate Titan/Gremlin query to filter-out
+	// the flows as appropriate.
+	//
+	ArrayList<FlowPath> allFlows = getAllFlows(dbHandler);
+	ArrayList<FlowPath> flowPaths = new ArrayList<FlowPath>();
+
+	if (allFlows == null)
+	    return flowPaths;
+
+	for (FlowPath flow : allFlows) {
+	    //
+	    // TODO: String-based comparison is sub-optimal.
+	    // We are using it for now to save us the extra work of
+	    // implementing the "equals()" and "hashCode()" methods.
+	    //
+	    if (! flow.installerId().toString().equals(installerId.toString()))
+		continue;
+	    if (! flow.dataPath().srcPort().toString().equals(dataPathEndpoints.srcPort().toString())) {
+		continue;
+	    }
+	    if (! flow.dataPath().dstPort().toString().equals(dataPathEndpoints.dstPort().toString())) {
+		continue;
+	    }
+	    flowPaths.add(flow);
+	}
+
+	return flowPaths;
+    }
+
+    /**
+     * Get all installed flows by all installers for given data path endpoints.
+     *
+     * @param dbHandler the Graph Database handler to use.
+     * @param dataPathEndpoints the data path endpoints of the flows to get.
+     * @return the Flow Paths if found, otherwise null.
+     */
+    static ArrayList<FlowPath> getAllFlows(GraphDBOperation dbHandler,
+					   DataPathEndpoints dataPathEndpoints) {
+	//
+	// TODO: The implementation below is not optimal:
+	// We fetch all flows, and then return only the subset that match
+	// the query conditions.
+	// We should use the appropriate Titan/Gremlin query to filter-out
+	// the flows as appropriate.
+	//
+	ArrayList<FlowPath> flowPaths = new ArrayList<FlowPath>();
+	ArrayList<FlowPath> allFlows = getAllFlows(dbHandler);
+
+	if (allFlows == null)
+	    return flowPaths;
+
+	for (FlowPath flow : allFlows) {
+	    //
+	    // TODO: String-based comparison is sub-optimal.
+	    // We are using it for now to save us the extra work of
+	    // implementing the "equals()" and "hashCode()" methods.
+	    //
+	    if (! flow.dataPath().srcPort().toString().equals(dataPathEndpoints.srcPort().toString())) {
+		continue;
+	    }
+	    if (! flow.dataPath().dstPort().toString().equals(dataPathEndpoints.dstPort().toString())) {
+		continue;
+	    }
+	    flowPaths.add(flow);
+	}
+
+	return flowPaths;
+    }
+
+    /**
+     * Get summary of all installed flows by all installers in a given range.
+     *
+     * @param dbHandler the Graph Database handler to use.
+     * @param flowId the Flow ID of the first flow in the flow range to get.
+     * @param maxFlows the maximum number of flows to be returned.
+     * @return the Flow Paths if found, otherwise null.
+     */
+    static ArrayList<IFlowPath> getAllFlowsSummary(GraphDBOperation dbHandler,
+						   FlowId flowId,
+						   int maxFlows) {
+	//
+	// TODO: The implementation below is not optimal:
+	// We fetch all flows, and then return only the subset that match
+	// the query conditions.
+	// We should use the appropriate Titan/Gremlin query to filter-out
+	// the flows as appropriate.
+	//
+    	ArrayList<IFlowPath> flowPathsWithoutFlowEntries =
+	    getAllFlowsWithoutFlowEntries(dbHandler);
+
+    	Collections.sort(flowPathsWithoutFlowEntries, 
+			 new Comparator<IFlowPath>() {
+			     @Override
+			     public int compare(IFlowPath first, IFlowPath second) {
+				 long result =
+				     new FlowId(first.getFlowId()).value()
+				     - new FlowId(second.getFlowId()).value();
+				 if (result > 0) {
+				     return 1;
+				 } else if (result < 0) {
+				     return -1;
+				 } else {
+				     return 0;
+				 }
+			     }
+			 }
+			 );
+    	
+    	return flowPathsWithoutFlowEntries;
+    }
+
+    /**
+     * Get all Flows information, without the associated Flow Entries.
+     *
+     * @param dbHandler the Graph Database handler to use.
+     * @return all Flows information, without the associated Flow Entries.
+     */
+    static ArrayList<IFlowPath> getAllFlowsWithoutFlowEntries(GraphDBOperation dbHandler) {
+    	Iterable<IFlowPath> flowPathsObj = null;
+    	ArrayList<IFlowPath> flowPathsObjArray = new ArrayList<IFlowPath>();
+
+	// TODO: Remove this op.commit() flow, because it is not needed?
+    	dbHandler.commit();
+
+    	try {
+    	    flowPathsObj = dbHandler.getAllFlowPaths();
+    	} catch (Exception e) {
+    	    // TODO: handle exceptions
+    	    dbHandler.rollback();
+    	    log.error(":getAllFlowPaths failed");
+	    return flowPathsObjArray;		// No Flows found
+    	}
+    	if ((flowPathsObj == null) || (flowPathsObj.iterator().hasNext() == false)) {
+    	    return flowPathsObjArray;		// No Flows found
+    	}
+
+    	for (IFlowPath flowObj : flowPathsObj)
+	    flowPathsObjArray.add(flowObj);
+
+    	// conn.endTx(Transaction.COMMIT);
+
+    	return flowPathsObjArray;
+    }
+
+    /**
+     * Extract Flow Path State from a Titan Database Object @ref IFlowPath.
+     *
+     * @param flowObj the object to extract the Flow Path State from.
+     * @return the extracted Flow Path State.
+     */
+    private static FlowPath extractFlowPath(IFlowPath flowObj) {
+	//
+	// Extract the Flow state
+	//
+	String flowIdStr = flowObj.getFlowId();
+	String installerIdStr = flowObj.getInstallerId();
+	Long flowPathFlags = flowObj.getFlowPathFlags();
+	String srcSwitchStr = flowObj.getSrcSwitch();
+	Short srcPortShort = flowObj.getSrcPort();
+	String dstSwitchStr = flowObj.getDstSwitch();
+	Short dstPortShort = flowObj.getDstPort();
+
+	if ((flowIdStr == null) ||
+	    (installerIdStr == null) ||
+	    (flowPathFlags == null) ||
+	    (srcSwitchStr == null) ||
+	    (srcPortShort == null) ||
+	    (dstSwitchStr == null) ||
+	    (dstPortShort == null)) {
+	    // TODO: A work-around, becauuse of some bogus database objects
+	    return null;
+	}
+
+	FlowPath flowPath = new FlowPath();
+	flowPath.setFlowId(new FlowId(flowIdStr));
+	flowPath.setInstallerId(new CallerId(installerIdStr));
+	flowPath.setFlowPathFlags(new FlowPathFlags(flowPathFlags));
+	flowPath.dataPath().srcPort().setDpid(new Dpid(srcSwitchStr));
+	flowPath.dataPath().srcPort().setPort(new Port(srcPortShort));
+	flowPath.dataPath().dstPort().setDpid(new Dpid(dstSwitchStr));
+	flowPath.dataPath().dstPort().setPort(new Port(dstPortShort));
+	//
+	// Extract the match conditions common for all Flow Entries
+	//
+	{
+	    FlowEntryMatch match = new FlowEntryMatch();
+	    String matchSrcMac = flowObj.getMatchSrcMac();
+	    if (matchSrcMac != null)
+		match.enableSrcMac(MACAddress.valueOf(matchSrcMac));
+	    String matchDstMac = flowObj.getMatchDstMac();
+	    if (matchDstMac != null)
+		match.enableDstMac(MACAddress.valueOf(matchDstMac));
+	    Short matchEthernetFrameType = flowObj.getMatchEthernetFrameType();
+	    if (matchEthernetFrameType != null)
+		match.enableEthernetFrameType(matchEthernetFrameType);
+	    Short matchVlanId = flowObj.getMatchVlanId();
+	    if (matchVlanId != null)
+		match.enableVlanId(matchVlanId);
+	    Byte matchVlanPriority = flowObj.getMatchVlanPriority();
+	    if (matchVlanPriority != null)
+		match.enableVlanPriority(matchVlanPriority);
+	    String matchSrcIPv4Net = flowObj.getMatchSrcIPv4Net();
+	    if (matchSrcIPv4Net != null)
+		match.enableSrcIPv4Net(new IPv4Net(matchSrcIPv4Net));
+	    String matchDstIPv4Net = flowObj.getMatchDstIPv4Net();
+	    if (matchDstIPv4Net != null)
+		match.enableDstIPv4Net(new IPv4Net(matchDstIPv4Net));
+	    Byte matchIpProto = flowObj.getMatchIpProto();
+	    if (matchIpProto != null)
+		match.enableIpProto(matchIpProto);
+	    Byte matchIpToS = flowObj.getMatchIpToS();
+	    if (matchIpToS != null)
+		match.enableIpToS(matchIpToS);
+	    Short matchSrcTcpUdpPort = flowObj.getMatchSrcTcpUdpPort();
+	    if (matchSrcTcpUdpPort != null)
+		match.enableSrcTcpUdpPort(matchSrcTcpUdpPort);
+	    Short matchDstTcpUdpPort = flowObj.getMatchDstTcpUdpPort();
+	    if (matchDstTcpUdpPort != null)
+		match.enableDstTcpUdpPort(matchDstTcpUdpPort);
+
+	    flowPath.setFlowEntryMatch(match);
+	}
+	//
+	// Extract the actions for the first Flow Entry
+	//
+	{
+	    String actionsStr = flowObj.getActions();
+	    if (actionsStr != null) {
+		FlowEntryActions flowEntryActions = new FlowEntryActions(actionsStr);
+		flowPath.setFlowEntryActions(flowEntryActions);
+	    }
+	}
+
+	//
+	// Extract all Flow Entries
+	//
+	Iterable<IFlowEntry> flowEntries = flowObj.getFlowEntries();
+	for (IFlowEntry flowEntryObj : flowEntries) {
+	    FlowEntry flowEntry = extractFlowEntry(flowEntryObj);
+	    if (flowEntry == null)
+		continue;
+	    flowPath.dataPath().flowEntries().add(flowEntry);
+	}
+
+	return flowPath;
+    }
+
+    /**
+     * Extract Flow Entry State from a Titan Database Object @ref IFlowEntry.
+     *
+     * @param flowEntryObj the object to extract the Flow Entry State from.
+     * @return the extracted Flow Entry State.
+     */
+    private static FlowEntry extractFlowEntry(IFlowEntry flowEntryObj) {
+	String flowEntryIdStr = flowEntryObj.getFlowEntryId();
+	String switchDpidStr = flowEntryObj.getSwitchDpid();
+	String userState = flowEntryObj.getUserState();
+	String switchState = flowEntryObj.getSwitchState();
+
+	if ((flowEntryIdStr == null) ||
+	    (switchDpidStr == null) ||
+	    (userState == null) ||
+	    (switchState == null)) {
+	    // TODO: A work-around, becauuse of some bogus database objects
+	    return null;
+	}
+
+	FlowEntry flowEntry = new FlowEntry();
+	flowEntry.setFlowEntryId(new FlowEntryId(flowEntryIdStr));
+	flowEntry.setDpid(new Dpid(switchDpidStr));
+
+	//
+	// Extract the match conditions
+	//
+	FlowEntryMatch match = new FlowEntryMatch();
+	Short matchInPort = flowEntryObj.getMatchInPort();
+	if (matchInPort != null)
+	    match.enableInPort(new Port(matchInPort));
+	String matchSrcMac = flowEntryObj.getMatchSrcMac();
+	if (matchSrcMac != null)
+	    match.enableSrcMac(MACAddress.valueOf(matchSrcMac));
+	String matchDstMac = flowEntryObj.getMatchDstMac();
+	if (matchDstMac != null)
+	    match.enableDstMac(MACAddress.valueOf(matchDstMac));
+	Short matchEthernetFrameType = flowEntryObj.getMatchEthernetFrameType();
+	if (matchEthernetFrameType != null)
+	    match.enableEthernetFrameType(matchEthernetFrameType);
+	Short matchVlanId = flowEntryObj.getMatchVlanId();
+	if (matchVlanId != null)
+	    match.enableVlanId(matchVlanId);
+	Byte matchVlanPriority = flowEntryObj.getMatchVlanPriority();
+	if (matchVlanPriority != null)
+	    match.enableVlanPriority(matchVlanPriority);
+	String matchSrcIPv4Net = flowEntryObj.getMatchSrcIPv4Net();
+	if (matchSrcIPv4Net != null)
+	    match.enableSrcIPv4Net(new IPv4Net(matchSrcIPv4Net));
+	String matchDstIPv4Net = flowEntryObj.getMatchDstIPv4Net();
+	if (matchDstIPv4Net != null)
+	    match.enableDstIPv4Net(new IPv4Net(matchDstIPv4Net));
+	Byte matchIpProto = flowEntryObj.getMatchIpProto();
+	if (matchIpProto != null)
+	    match.enableIpProto(matchIpProto);
+	Byte matchIpToS = flowEntryObj.getMatchIpToS();
+	if (matchIpToS != null)
+	    match.enableIpToS(matchIpToS);
+	Short matchSrcTcpUdpPort = flowEntryObj.getMatchSrcTcpUdpPort();
+	if (matchSrcTcpUdpPort != null)
+	    match.enableSrcTcpUdpPort(matchSrcTcpUdpPort);
+	Short matchDstTcpUdpPort = flowEntryObj.getMatchDstTcpUdpPort();
+	if (matchDstTcpUdpPort != null)
+	    match.enableDstTcpUdpPort(matchDstTcpUdpPort);
+	flowEntry.setFlowEntryMatch(match);
+
+	//
+	// Extract the actions
+	//
+	FlowEntryActions actions = new FlowEntryActions();
+	String actionsStr = flowEntryObj.getActions();
+	if (actionsStr != null)
+	    actions = new FlowEntryActions(actionsStr);
+	flowEntry.setFlowEntryActions(actions);
+	flowEntry.setFlowEntryUserState(FlowEntryUserState.valueOf(userState));
+	flowEntry.setFlowEntrySwitchState(FlowEntrySwitchState.valueOf(switchState));
+	//
+	// TODO: Take care of FlowEntryErrorState.
+	//
+	return flowEntry;
+    }
+}
diff --git a/src/main/java/net/onrc/onos/ofcontroller/flowmanager/FlowManager.java b/src/main/java/net/onrc/onos/ofcontroller/flowmanager/FlowManager.java
index 82aa25c..e11814b 100644
--- a/src/main/java/net/onrc/onos/ofcontroller/flowmanager/FlowManager.java
+++ b/src/main/java/net/onrc/onos/ofcontroller/flowmanager/FlowManager.java
@@ -1,19 +1,12 @@
 package net.onrc.onos.ofcontroller.flowmanager;
 
-import java.io.IOException;
-import java.io.PrintWriter;
-import java.io.StringWriter;
 import java.util.ArrayList;
 import java.util.Collection;
-import java.util.Collections;
-import java.util.Comparator;
 import java.util.EnumSet;
 import java.util.HashMap;
 import java.util.LinkedList;
-import java.util.List;
 import java.util.Map;
 import java.util.Random;
-import java.util.concurrent.ConcurrentLinkedQueue;
 import java.util.concurrent.Executors;
 import java.util.concurrent.ScheduledExecutorService;
 import java.util.concurrent.TimeUnit;
@@ -25,7 +18,6 @@
 import net.floodlightcontroller.core.module.IFloodlightModule;
 import net.floodlightcontroller.core.module.IFloodlightService;
 import net.floodlightcontroller.restserver.IRestApiService;
-import net.floodlightcontroller.util.MACAddress;
 import net.floodlightcontroller.util.OFMessageDamper;
 
 import net.onrc.onos.datagrid.IDatagridService;
@@ -33,38 +25,13 @@
 import net.onrc.onos.ofcontroller.core.INetMapStorage;
 import net.onrc.onos.ofcontroller.core.INetMapTopologyObjects.IFlowEntry;
 import net.onrc.onos.ofcontroller.core.INetMapTopologyObjects.IFlowPath;
-import net.onrc.onos.ofcontroller.core.INetMapTopologyObjects.IPortObject;
-import net.onrc.onos.ofcontroller.core.INetMapTopologyObjects.ISwitchObject;
 import net.onrc.onos.ofcontroller.floodlightlistener.INetworkGraphService;
 import net.onrc.onos.ofcontroller.flowmanager.web.FlowWebRoutable;
 import net.onrc.onos.ofcontroller.topology.ITopologyNetService;
 import net.onrc.onos.ofcontroller.topology.Topology;
-import net.onrc.onos.ofcontroller.topology.TopologyManager;
-import net.onrc.onos.ofcontroller.util.CallerId;
-import net.onrc.onos.ofcontroller.util.DataPath;
-import net.onrc.onos.ofcontroller.util.DataPathEndpoints;
-import net.onrc.onos.ofcontroller.util.Dpid;
-import net.onrc.onos.ofcontroller.util.FlowEntry;
-import net.onrc.onos.ofcontroller.util.FlowEntryAction;
-import net.onrc.onos.ofcontroller.util.FlowEntryAction.*;
-import net.onrc.onos.ofcontroller.util.FlowEntryActions;
-import net.onrc.onos.ofcontroller.util.FlowEntryId;
-import net.onrc.onos.ofcontroller.util.FlowEntryMatch;
-import net.onrc.onos.ofcontroller.util.FlowEntrySwitchState;
-import net.onrc.onos.ofcontroller.util.FlowEntryUserState;
-import net.onrc.onos.ofcontroller.util.FlowId;
-import net.onrc.onos.ofcontroller.util.FlowPath;
-import net.onrc.onos.ofcontroller.util.FlowPathFlags;
-import net.onrc.onos.ofcontroller.util.IPv4Net;
-import net.onrc.onos.ofcontroller.util.Port;
-import net.onrc.onos.ofcontroller.util.SwitchPort;
+import net.onrc.onos.ofcontroller.util.*;
 
-import org.openflow.protocol.OFFlowMod;
-import org.openflow.protocol.OFMatch;
-import org.openflow.protocol.OFPacketOut;
-import org.openflow.protocol.OFPort;
 import org.openflow.protocol.OFType;
-import org.openflow.protocol.action.*;
 import org.slf4j.Logger;
 import org.slf4j.LoggerFactory;
 
@@ -73,7 +40,7 @@
  */
 public class FlowManager implements IFloodlightModule, IFlowService, INetMapStorage {
 
-    protected GraphDBOperation op;
+    protected GraphDBOperation dbHandler;
 
     protected volatile IFloodlightProviderService floodlightProvider;
     protected volatile ITopologyNetService topologyNetService;
@@ -89,9 +56,6 @@
     //
     protected static final int OFMESSAGE_DAMPER_CAPACITY = 50000; // TODO: find sweet spot
     protected static final int OFMESSAGE_DAMPER_TIMEOUT = 250;	// ms
-    public static final short FLOWMOD_DEFAULT_IDLE_TIMEOUT = 0;	// infinity
-    public static final short FLOWMOD_DEFAULT_HARD_TIMEOUT = 0;	// infinite
-    public static final short PRIORITY_DEFAULT = 100;
 
     // Flow Entry ID generation state
     private static Random randomGenerator = new Random();
@@ -116,7 +80,7 @@
 		    runImpl();
 		} catch (Exception e) {
 		    log.debug("Exception processing All Flow Entries from the Network MAP: ", e);
-		    op.rollback();
+		    dbHandler.rollback();
 		    return;
 		}
 	    }
@@ -147,7 +111,7 @@
 		// switches.
 		//
 		Iterable<IFlowEntry> allFlowEntries =
-		    op.getAllSwitchNotUpdatedFlowEntries();
+		    dbHandler.getAllSwitchNotUpdatedFlowEntries();
 		for (IFlowEntry flowEntryObj : allFlowEntries) {
 		    counterAllFlowEntries++;
 
@@ -160,7 +124,7 @@
 			continue;	// Ignore the entry: not my switch
 
 		    IFlowPath flowObj =
-			op.getFlowPathByFlowEntry(flowEntryObj);
+			dbHandler.getFlowPathByFlowEntry(flowEntryObj);
 		    if (flowObj == null)
 			continue;		// Should NOT happen
 		    if (flowObj.getFlowId() == null)
@@ -189,7 +153,7 @@
 		//
 		for (IFlowEntry flowEntryObj : addFlowEntries) {
 		    IFlowPath flowObj =
-			op.getFlowPathByFlowEntry(flowEntryObj);
+			dbHandler.getFlowPathByFlowEntry(flowEntryObj);
 		    if (flowObj == null)
 			continue;		// Should NOT happen
 		    if (flowObj.getFlowId() == null)
@@ -213,16 +177,16 @@
 		while (! deleteFlowEntries.isEmpty()) {
 		    IFlowEntry flowEntryObj = deleteFlowEntries.poll();
 		    IFlowPath flowObj =
-			op.getFlowPathByFlowEntry(flowEntryObj);
+			dbHandler.getFlowPathByFlowEntry(flowEntryObj);
 		    if (flowObj == null) {
 			log.debug("Did not find FlowPath to be deleted");
 			continue;
 		    }
 		    flowObj.removeFlowEntry(flowEntryObj);
-		    op.removeFlowEntry(flowEntryObj);
+		    dbHandler.removeFlowEntry(flowEntryObj);
 		}
 
-		op.commit();
+		dbHandler.commit();
 
 		long estimatedTime = System.nanoTime() - startTime;
 		double rate = 0.0;
@@ -247,7 +211,7 @@
 		    runImpl();
 		} catch (Exception e) {
 		    log.debug("Exception processing All Flows from the Network MAP: ", e);
-		    op.rollback();
+		    dbHandler.rollback();
 		    return;
 		}
 	    }
@@ -274,7 +238,7 @@
 		// Flow Paths this controller is responsible for.
 		//
 		Topology topology = topologyNetService.newDatabaseTopology();
-		Iterable<IFlowPath> allFlowPaths = op.getAllFlowPaths();
+		Iterable<IFlowPath> allFlowPaths = dbHandler.getAllFlowPaths();
 		for (IFlowPath flowPathObj : allFlowPaths) {
 		    counterAllFlowPaths++;
 		    if (flowPathObj == null)
@@ -372,12 +336,12 @@
 		//
 		while (! deleteFlows.isEmpty()) {
 		    IFlowPath flowPathObj = deleteFlows.poll();
-		    op.removeFlowPath(flowPathObj);
+		    dbHandler.removeFlowPath(flowPathObj);
 		}
 
 		topologyNetService.dropTopology(topology);
 
-		op.commit();
+		dbHandler.commit();
 
 		long estimatedTime = System.nanoTime() - startTime;
 		double rate = 0.0;
@@ -400,7 +364,7 @@
      */
     @Override
     public void init(String conf) {
-    	op = new GraphDBOperation(conf);
+    	dbHandler = new GraphDBOperation(conf);
     }
 
     /**
@@ -415,7 +379,7 @@
      */
     @Override
     public void close() {
-    	op.close();
+    	dbHandler.close();
     }
 
     /**
@@ -493,7 +457,7 @@
      *
      * @return the next Flow Entry ID to use.
      */
-    private synchronized long getNextFlowEntryId() {
+    public synchronized long getNextFlowEntryId() {
 	//
 	// Generate the next Flow Entry ID.
 	// NOTE: For now, the higher 32 bits are random, and
@@ -532,9 +496,6 @@
     /**
      * Add a flow.
      *
-     * Internally, ONOS will automatically register the installer for
-     * receiving Flow Path Notifications for that path.
-     *
      * @param flowPath the Flow Path to install.
      * @param flowId the return-by-reference Flow ID as assigned internally.
      * @param dataPathSummaryStr the data path summary string if the added
@@ -544,135 +505,8 @@
     @Override
     public boolean addFlow(FlowPath flowPath, FlowId flowId,
 			   String dataPathSummaryStr) {
-	IFlowPath flowObj = null;
-	boolean found = false;
-	try {
-	    if ((flowObj = op.searchFlowPath(flowPath.flowId())) != null) {
-		found = true;
-	    } else {
-		flowObj = op.newFlowPath();
-	    }
-	} catch (Exception e) {
-	    // TODO: handle exceptions
-	    op.rollback();
-
-	    StringWriter sw = new StringWriter();
-	    e.printStackTrace(new PrintWriter(sw));
-	    String stacktrace = sw.toString();
-
-	    log.error(":addFlow FlowId:{} failed: {}",
-		      flowPath.flowId().toString(),
-		      stacktrace);
-	}
-	if (flowObj == null) {
-	    log.error(":addFlow FlowId:{} failed: Flow object not created",
-		      flowPath.flowId().toString());
-	    op.rollback();
-	    return false;
-	}
-
-	//
-	// Set the Flow key:
-	// - flowId
-	//
-	flowObj.setFlowId(flowPath.flowId().toString());
-	flowObj.setType("flow");
-
-	//
-	// Set the Flow attributes:
-	// - flowPath.installerId()
-	// - flowPath.flowPathFlags()
-	// - flowPath.dataPath().srcPort()
-	// - flowPath.dataPath().dstPort()
-	// - flowPath.matchSrcMac()
-	// - flowPath.matchDstMac()
-	// - flowPath.matchEthernetFrameType()
-	// - flowPath.matchVlanId()
-	// - flowPath.matchVlanPriority()
-	// - flowPath.matchSrcIPv4Net()
-	// - flowPath.matchDstIPv4Net()
-	// - flowPath.matchIpProto()
-	// - flowPath.matchIpToS()
-	// - flowPath.matchSrcTcpUdpPort()
-	// - flowPath.matchDstTcpUdpPort()
-	// - flowPath.flowEntryActions()
-	//
-	flowObj.setInstallerId(flowPath.installerId().toString());
-	flowObj.setFlowPathFlags(flowPath.flowPathFlags().flags());
-	flowObj.setSrcSwitch(flowPath.dataPath().srcPort().dpid().toString());
-	flowObj.setSrcPort(flowPath.dataPath().srcPort().port().value());
-	flowObj.setDstSwitch(flowPath.dataPath().dstPort().dpid().toString());
-	flowObj.setDstPort(flowPath.dataPath().dstPort().port().value());
-	if (flowPath.flowEntryMatch().matchSrcMac()) {
-	    flowObj.setMatchSrcMac(flowPath.flowEntryMatch().srcMac().toString());
-	}
-	if (flowPath.flowEntryMatch().matchDstMac()) {
-	    flowObj.setMatchDstMac(flowPath.flowEntryMatch().dstMac().toString());
-	}
-	if (flowPath.flowEntryMatch().matchEthernetFrameType()) {
-	    flowObj.setMatchEthernetFrameType(flowPath.flowEntryMatch().ethernetFrameType());
-	}
-	if (flowPath.flowEntryMatch().matchVlanId()) {
-	    flowObj.setMatchVlanId(flowPath.flowEntryMatch().vlanId());
-	}
-	if (flowPath.flowEntryMatch().matchVlanPriority()) {
-	    flowObj.setMatchVlanPriority(flowPath.flowEntryMatch().vlanPriority());
-	}
-	if (flowPath.flowEntryMatch().matchSrcIPv4Net()) {
-	    flowObj.setMatchSrcIPv4Net(flowPath.flowEntryMatch().srcIPv4Net().toString());
-	}
-	if (flowPath.flowEntryMatch().matchDstIPv4Net()) {
-	    flowObj.setMatchDstIPv4Net(flowPath.flowEntryMatch().dstIPv4Net().toString());
-	}
-	if (flowPath.flowEntryMatch().matchIpProto()) {
-	    flowObj.setMatchIpProto(flowPath.flowEntryMatch().ipProto());
-	}
-	if (flowPath.flowEntryMatch().matchIpToS()) {
-	    flowObj.setMatchIpToS(flowPath.flowEntryMatch().ipToS());
-	}
-	if (flowPath.flowEntryMatch().matchSrcTcpUdpPort()) {
-	    flowObj.setMatchSrcTcpUdpPort(flowPath.flowEntryMatch().srcTcpUdpPort());
-	}
-	if (flowPath.flowEntryMatch().matchDstTcpUdpPort()) {
-	    flowObj.setMatchDstTcpUdpPort(flowPath.flowEntryMatch().dstTcpUdpPort());
-	}
-	if (! flowPath.flowEntryActions().actions().isEmpty()) {
-	    flowObj.setActions(flowPath.flowEntryActions().toString());
-	}
-
-	if (dataPathSummaryStr != null) {
-	    flowObj.setDataPathSummary(dataPathSummaryStr);
-	} else {
-	    flowObj.setDataPathSummary("");
-	}
-
-	if (found)
-	    flowObj.setUserState("FE_USER_MODIFY");
-	else
-	    flowObj.setUserState("FE_USER_ADD");
-
-	// Flow edges:
-	//   HeadFE
-
-
-	//
-	// Flow Entries:
-	// flowPath.dataPath().flowEntries()
-	//
-	for (FlowEntry flowEntry : flowPath.dataPath().flowEntries()) {
-	    if (addFlowEntry(flowObj, flowEntry) == null) {
-		op.rollback();
-		return false;
-	    }
-	}
-	op.commit();
-
-	//
-	// TODO: We need a proper Flow ID allocation mechanism.
-	//
-	flowId.setValue(flowPath.flowId().value());
-
-	return true;
+	return FlowDatabaseOperation.addFlow(this, dbHandler, flowPath, flowId,
+					     dataPathSummaryStr);
     }
 
     /**
@@ -683,146 +517,8 @@
      * @return the added Flow Entry object on success, otherwise null.
      */
     private IFlowEntry addFlowEntry(IFlowPath flowObj, FlowEntry flowEntry) {
-	// Flow edges
-	//   HeadFE (TODO)
-
-	//
-	// Assign the FlowEntry ID.
-	//
-	if ((flowEntry.flowEntryId() == null) ||
-	    (flowEntry.flowEntryId().value() == 0)) {
-	    long id = getNextFlowEntryId();
-	    flowEntry.setFlowEntryId(new FlowEntryId(id));
-	}
-
-	IFlowEntry flowEntryObj = null;
-	boolean found = false;
-	try {
-	    if ((flowEntryObj =
-		 op.searchFlowEntry(flowEntry.flowEntryId())) != null) {
-		found = true;
-	    } else {
-		flowEntryObj = op.newFlowEntry();
-	    }
-	} catch (Exception e) {
-	    log.error(":addFlow FlowEntryId:{} failed",
-		      flowEntry.flowEntryId().toString());
-	    return null;
-	}
-	if (flowEntryObj == null) {
-	    log.error(":addFlow FlowEntryId:{} failed: FlowEntry object not created",
-		      flowEntry.flowEntryId().toString());
-	    return null;
-	}
-
-	//
-	// Set the Flow Entry key:
-	// - flowEntry.flowEntryId()
-	//
-	flowEntryObj.setFlowEntryId(flowEntry.flowEntryId().toString());
-	flowEntryObj.setType("flow_entry");
-
-	// 
-	// Set the Flow Entry Edges and attributes:
-	// - Switch edge
-	// - InPort edge
-	// - OutPort edge
-	//
-	// - flowEntry.dpid()
-	// - flowEntry.flowEntryUserState()
-	// - flowEntry.flowEntrySwitchState()
-	// - flowEntry.flowEntryErrorState()
-	// - flowEntry.matchInPort()
-	// - flowEntry.matchSrcMac()
-	// - flowEntry.matchDstMac()
-	// - flowEntry.matchEthernetFrameType()
-	// - flowEntry.matchVlanId()
-	// - flowEntry.matchVlanPriority()
-	// - flowEntry.matchSrcIPv4Net()
-	// - flowEntry.matchDstIPv4Net()
-	// - flowEntry.matchIpProto()
-	// - flowEntry.matchIpToS()
-	// - flowEntry.matchSrcTcpUdpPort()
-	// - flowEntry.matchDstTcpUdpPort()
-	// - flowEntry.actionOutputPort()
-	// - flowEntry.actions()
-	//
-	ISwitchObject sw = op.searchSwitch(flowEntry.dpid().toString());
-	flowEntryObj.setSwitchDpid(flowEntry.dpid().toString());
-	flowEntryObj.setSwitch(sw);
-	if (flowEntry.flowEntryMatch().matchInPort()) {
-	    IPortObject inport =
-		op.searchPort(flowEntry.dpid().toString(),
-					flowEntry.flowEntryMatch().inPort().value());
-	    flowEntryObj.setMatchInPort(flowEntry.flowEntryMatch().inPort().value());
-	    flowEntryObj.setInPort(inport);
-	}
-	if (flowEntry.flowEntryMatch().matchSrcMac()) {
-	    flowEntryObj.setMatchSrcMac(flowEntry.flowEntryMatch().srcMac().toString());
-	}
-	if (flowEntry.flowEntryMatch().matchDstMac()) {
-	    flowEntryObj.setMatchDstMac(flowEntry.flowEntryMatch().dstMac().toString());
-	}
-	if (flowEntry.flowEntryMatch().matchEthernetFrameType()) {
-	    flowEntryObj.setMatchEthernetFrameType(flowEntry.flowEntryMatch().ethernetFrameType());
-	}
-	if (flowEntry.flowEntryMatch().matchVlanId()) {
-	    flowEntryObj.setMatchVlanId(flowEntry.flowEntryMatch().vlanId());
-	}
-	if (flowEntry.flowEntryMatch().matchVlanPriority()) {
-	    flowEntryObj.setMatchVlanPriority(flowEntry.flowEntryMatch().vlanPriority());
-	}
-	if (flowEntry.flowEntryMatch().matchSrcIPv4Net()) {
-	    flowEntryObj.setMatchSrcIPv4Net(flowEntry.flowEntryMatch().srcIPv4Net().toString());
-	}
-	if (flowEntry.flowEntryMatch().matchDstIPv4Net()) {
-	    flowEntryObj.setMatchDstIPv4Net(flowEntry.flowEntryMatch().dstIPv4Net().toString());
-	}
-	if (flowEntry.flowEntryMatch().matchIpProto()) {
-	    flowEntryObj.setMatchIpProto(flowEntry.flowEntryMatch().ipProto());
-	}
-	if (flowEntry.flowEntryMatch().matchIpToS()) {
-	    flowEntryObj.setMatchIpToS(flowEntry.flowEntryMatch().ipToS());
-	}
-	if (flowEntry.flowEntryMatch().matchSrcTcpUdpPort()) {
-	    flowEntryObj.setMatchSrcTcpUdpPort(flowEntry.flowEntryMatch().srcTcpUdpPort());
-	}
-	if (flowEntry.flowEntryMatch().matchDstTcpUdpPort()) {
-	    flowEntryObj.setMatchDstTcpUdpPort(flowEntry.flowEntryMatch().dstTcpUdpPort());
-	}
-
-	for (FlowEntryAction fa : flowEntry.flowEntryActions().actions()) {
-	    if (fa.actionOutput() != null) {
-		IPortObject outport =
-		    op.searchPort(flowEntry.dpid().toString(),
-					      fa.actionOutput().port().value());
-		flowEntryObj.setActionOutputPort(fa.actionOutput().port().value());
-		flowEntryObj.setOutPort(outport);
-	    }
-	}
-	if (! flowEntry.flowEntryActions().isEmpty()) {
-	    flowEntryObj.setActions(flowEntry.flowEntryActions().toString());
-	}
-
-	// TODO: Hacks with hard-coded state names!
-	if (found)
-	    flowEntryObj.setUserState("FE_USER_MODIFY");
-	else
-	    flowEntryObj.setUserState("FE_USER_ADD");
-	flowEntryObj.setSwitchState("FE_SWITCH_NOT_UPDATED");
-	//
-	// TODO: Take care of the FlowEntryErrorState.
-	//
-
-	// Flow Entries edges:
-	//   Flow
-	//   NextFE (TODO)
-	if (! found) {
-	    flowObj.addFlowEntry(flowEntryObj);
-	    flowEntryObj.setFlow(flowObj);
-	}
-
-	return flowEntryObj;
+	return FlowDatabaseOperation.addFlowEntry(this, dbHandler, flowObj,
+						  flowEntry);
     }
 
     /**
@@ -832,64 +528,7 @@
      */
     @Override
     public boolean deleteAllFlows() {
-	final ConcurrentLinkedQueue<FlowId> concurrentAllFlowIds =
-	    new ConcurrentLinkedQueue<FlowId>();
-
-	// Get all Flow IDs
-	Iterable<IFlowPath> allFlowPaths = op.getAllFlowPaths();
-	for (IFlowPath flowPathObj : allFlowPaths) {
-	    if (flowPathObj == null)
-		continue;
-	    String flowIdStr = flowPathObj.getFlowId();
-	    if (flowIdStr == null)
-		continue;
-	    FlowId flowId = new FlowId(flowIdStr);
-	    concurrentAllFlowIds.add(flowId);
-	}
-
-	// Delete all flows one-by-one
-	for (FlowId flowId : concurrentAllFlowIds)
-	    deleteFlow(flowId);
-
-	/*
-	 * TODO: A faster mechanism to delete the Flow Paths by using
-	 * a number of threads. Commented-out for now.
-	 */
-	/*
-	//
-	// Create the threads to delete the Flow Paths
-	//
-	List<Thread> threads = new LinkedList<Thread>();
-	for (int i = 0; i < 10; i++) {
-	    Thread thread = new Thread(new Runnable() {
-		@Override
-		public void run() {
-		    while (true) {
-			FlowId flowId = concurrentAllFlowIds.poll();
-			if (flowId == null)
-			    return;
-			deleteFlow(flowId);
-		    }
-		}}, "Delete All Flow Paths");
-	    threads.add(thread);
-	}
-
-	// Start processing
-	for (Thread thread : threads) {
-	    thread.start();
-	}
-
-	// Wait for all threads to complete
-	for (Thread thread : threads) {
-	    try {
-		thread.join();
-	    } catch (InterruptedException e) {
-		log.debug("Exception waiting for a thread to delete a Flow Path: ", e);
-	    }
-	}
-	*/
-
-	return true;
+	return FlowDatabaseOperation.deleteAllFlows(dbHandler);
     }
 
     /**
@@ -900,44 +539,7 @@
      */
     @Override
     public boolean deleteFlow(FlowId flowId) {
-	IFlowPath flowObj = null;
-	//
-	// We just mark the entries for deletion,
-	// and let the switches remove each individual entry after
-	// it has been removed from the switches.
-	//
-	try {
-	    flowObj = op.searchFlowPath(flowId);
-	} catch (Exception e) {
-	    // TODO: handle exceptions
-	    op.rollback();
-	    log.error(":deleteFlow FlowId:{} failed", flowId.toString());
-	}
-	if (flowObj == null) {
-	    op.commit();
-	    return true;		// OK: No such flow
-	}
-
-	//
-	// Find and mark for deletion all Flow Entries,
-	// and the Flow itself.
-	//
-	flowObj.setUserState("FE_USER_DELETE");
-	Iterable<IFlowEntry> flowEntries = flowObj.getFlowEntries();
-	boolean empty = true;	// TODO: an ugly hack
-	for (IFlowEntry flowEntryObj : flowEntries) {
-	    empty = false;
-	    // flowObj.removeFlowEntry(flowEntryObj);
-	    // conn.utils().removeFlowEntry(conn, flowEntryObj);
-	    flowEntryObj.setUserState("FE_USER_DELETE");
-	    flowEntryObj.setSwitchState("FE_SWITCH_NOT_UPDATED");
-	}
-	// Remove from the database empty flows
-	if (empty)
-	    op.removeFlowPath(flowObj);
-	op.commit();
-
-	return true;
+	return FlowDatabaseOperation.deleteFlow(dbHandler, flowId);
     }
 
     /**
@@ -947,26 +549,7 @@
      */
     @Override
     public boolean clearAllFlows() {
-	List<FlowId> allFlowIds = new LinkedList<FlowId>();
-
-	// Get all Flow IDs
-	Iterable<IFlowPath> allFlowPaths = op.getAllFlowPaths();
-	for (IFlowPath flowPathObj : allFlowPaths) {
-	    if (flowPathObj == null)
-		continue;
-	    String flowIdStr = flowPathObj.getFlowId();
-	    if (flowIdStr == null)
-		continue;
-	    FlowId flowId = new FlowId(flowIdStr);
-	    allFlowIds.add(flowId);
-	}
-
-	// Clear all flows one-by-one
-	for (FlowId flowId : allFlowIds) {
-	    clearFlow(flowId);
-	}
-
-	return true;
+	return FlowDatabaseOperation.clearAllFlows(dbHandler);
     }
 
     /**
@@ -977,32 +560,7 @@
      */
     @Override
     public boolean clearFlow(FlowId flowId) {
-	IFlowPath flowObj = null;
-	try {
-	    flowObj = op.searchFlowPath(flowId);
-	} catch (Exception e) {
-	    // TODO: handle exceptions
-	    op.rollback();
-	    log.error(":clearFlow FlowId:{} failed", flowId.toString());
-	}
-	if (flowObj == null) {
-	    op.commit();
-	    return true;		// OK: No such flow
-	}
-
-	//
-	// Remove all Flow Entries
-	//
-	Iterable<IFlowEntry> flowEntries = flowObj.getFlowEntries();
-	for (IFlowEntry flowEntryObj : flowEntries) {
-	    flowObj.removeFlowEntry(flowEntryObj);
-	    op.removeFlowEntry(flowEntryObj);
-	}
-	// Remove the Flow itself
-	op.removeFlowPath(flowObj);
-	op.commit();
-
-	return true;
+	return FlowDatabaseOperation.clearFlow(dbHandler, flowId);
     }
 
     /**
@@ -1013,26 +571,17 @@
      */
     @Override
     public FlowPath getFlow(FlowId flowId) {
-	IFlowPath flowObj = null;
-	try {
-	    flowObj = op.searchFlowPath(flowId);
-	} catch (Exception e) {
-	    // TODO: handle exceptions
-	    op.rollback();
-	    log.error(":getFlow FlowId:{} failed", flowId.toString());
-	}
-	if (flowObj == null) {
-	    op.commit();
-	    return null;		// Flow not found
-	}
+	return FlowDatabaseOperation.getFlow(dbHandler, flowId);
+    }
 
-	//
-	// Extract the Flow state
-	//
-	FlowPath flowPath = extractFlowPath(flowObj);
-	op.commit();
-
-	return flowPath;
+    /**
+     * Get all installed flows by all installers.
+     *
+     * @return the Flow Paths if found, otherwise null.
+     */
+    @Override
+    public ArrayList<FlowPath> getAllFlows() {
+	return FlowDatabaseOperation.getAllFlows(dbHandler);
     }
 
     /**
@@ -1046,37 +595,8 @@
     @Override
     public ArrayList<FlowPath> getAllFlows(CallerId installerId,
 					   DataPathEndpoints dataPathEndpoints) {
-	//
-	// TODO: The implementation below is not optimal:
-	// We fetch all flows, and then return only the subset that match
-	// the query conditions.
-	// We should use the appropriate Titan/Gremlin query to filter-out
-	// the flows as appropriate.
-	//
-	ArrayList<FlowPath> allFlows = getAllFlows();
-	ArrayList<FlowPath> flowPaths = new ArrayList<FlowPath>();
-
-	if (allFlows == null)
-	    return flowPaths;
-
-	for (FlowPath flow : allFlows) {
-	    //
-	    // TODO: String-based comparison is sub-optimal.
-	    // We are using it for now to save us the extra work of
-	    // implementing the "equals()" and "hashCode()" methods.
-	    //
-	    if (! flow.installerId().toString().equals(installerId.toString()))
-		continue;
-	    if (! flow.dataPath().srcPort().toString().equals(dataPathEndpoints.srcPort().toString())) {
-		continue;
-	    }
-	    if (! flow.dataPath().dstPort().toString().equals(dataPathEndpoints.dstPort().toString())) {
-		continue;
-	    }
-	    flowPaths.add(flow);
-	}
-
-	return flowPaths;
+	return FlowDatabaseOperation.getAllFlows(dbHandler, installerId,
+						 dataPathEndpoints);
     }
 
     /**
@@ -1087,35 +607,7 @@
      */
     @Override
     public ArrayList<FlowPath> getAllFlows(DataPathEndpoints dataPathEndpoints) {
-	//
-	// TODO: The implementation below is not optimal:
-	// We fetch all flows, and then return only the subset that match
-	// the query conditions.
-	// We should use the appropriate Titan/Gremlin query to filter-out
-	// the flows as appropriate.
-	//
-	ArrayList<FlowPath> flowPaths = new ArrayList<FlowPath>();
-	ArrayList<FlowPath> allFlows = getAllFlows();
-
-	if (allFlows == null)
-	    return flowPaths;
-
-	for (FlowPath flow : allFlows) {
-	    //
-	    // TODO: String-based comparison is sub-optimal.
-	    // We are using it for now to save us the extra work of
-	    // implementing the "equals()" and "hashCode()" methods.
-	    //
-	    if (! flow.dataPath().srcPort().toString().equals(dataPathEndpoints.srcPort().toString())) {
-		continue;
-	    }
-	    if (! flow.dataPath().dstPort().toString().equals(dataPathEndpoints.dstPort().toString())) {
-		continue;
-	    }
-	    flowPaths.add(flow);
-	}
-
-return flowPaths;
+	return FlowDatabaseOperation.getAllFlows(dbHandler, dataPathEndpoints);
     }
 
     /**
@@ -1128,288 +620,17 @@
     @Override
     public ArrayList<IFlowPath> getAllFlowsSummary(FlowId flowId,
 						   int maxFlows) {
-
-	//
-	// TODO: The implementation below is not optimal:
-	// We fetch all flows, and then return only the subset that match
-	// the query conditions.
-	// We should use the appropriate Titan/Gremlin query to filter-out
-	// the flows as appropriate.
-	//
-    	ArrayList<IFlowPath> flowPathsWithoutFlowEntries =
-	    getAllFlowsWithoutFlowEntries();
-
-    	Collections.sort(flowPathsWithoutFlowEntries, 
-			 new Comparator<IFlowPath>() {
-			     @Override
-			     public int compare(IFlowPath first, IFlowPath second) {
-				 long result =
-				     new FlowId(first.getFlowId()).value()
-				     - new FlowId(second.getFlowId()).value();
-				 if (result > 0) {
-				     return 1;
-				 } else if (result < 0) {
-				     return -1;
-				 } else {
-				     return 0;
-				 }
-			     }
-			 }
-			 );
-    	
-    	return flowPathsWithoutFlowEntries;
+	return FlowDatabaseOperation.getAllFlowsSummary(dbHandler, flowId,
+							maxFlows);
     }
     
     /**
-     * Get all installed flows by all installers.
-     *
-     * @return the Flow Paths if found, otherwise null.
-     */
-    @Override
-    public ArrayList<FlowPath> getAllFlows() {
-	Iterable<IFlowPath> flowPathsObj = null;
-	ArrayList<FlowPath> flowPaths = new ArrayList<FlowPath>();
-
-	try {
-	    flowPathsObj = op.getAllFlowPaths();
-	} catch (Exception e) {
-	    // TODO: handle exceptions
-	    op.rollback();
-	    log.error(":getAllFlowPaths failed");
-	}
-	if ((flowPathsObj == null) || (flowPathsObj.iterator().hasNext() == false)) {
-	    op.commit();
-	    return flowPaths;	// No Flows found
-	}
-
-	for (IFlowPath flowObj : flowPathsObj) {
-	    //
-	    // Extract the Flow state
-	    //
-	    FlowPath flowPath = extractFlowPath(flowObj);
-	    if (flowPath != null)
-		flowPaths.add(flowPath);
-	}
-
-	op.commit();
-
-	return flowPaths;
-    }
-
-    /**
      * Get all Flows information, without the associated Flow Entries.
      *
      * @return all Flows information, without the associated Flow Entries.
      */
     public ArrayList<IFlowPath> getAllFlowsWithoutFlowEntries() {
-    	Iterable<IFlowPath> flowPathsObj = null;
-    	ArrayList<IFlowPath> flowPathsObjArray = new ArrayList<IFlowPath>();
-
-	// TODO: Remove this op.commit() flow, because it is not needed?
-    	op.commit();
-
-    	try {
-    	    flowPathsObj = op.getAllFlowPaths();
-    	} catch (Exception e) {
-    	    // TODO: handle exceptions
-    	    op.rollback();
-    	    log.error(":getAllFlowPaths failed");
-    	}
-    	if ((flowPathsObj == null) || (flowPathsObj.iterator().hasNext() == false)) {
-    	    return flowPathsObjArray;		// No Flows found
-    	}
-    	
-    	for (IFlowPath flowObj : flowPathsObj)
-	    flowPathsObjArray.add(flowObj);
-
-    	// conn.endTx(Transaction.COMMIT);
-
-    	return flowPathsObjArray;
-    }
-
-    /**
-     * Extract Flow Path State from a Titan Database Object @ref IFlowPath.
-     *
-     * @param flowObj the object to extract the Flow Path State from.
-     * @return the extracted Flow Path State.
-     */
-    private FlowPath extractFlowPath(IFlowPath flowObj) {
-	//
-	// Extract the Flow state
-	//
-	String flowIdStr = flowObj.getFlowId();
-	String installerIdStr = flowObj.getInstallerId();
-	Long flowPathFlags = flowObj.getFlowPathFlags();
-	String srcSwitchStr = flowObj.getSrcSwitch();
-	Short srcPortShort = flowObj.getSrcPort();
-	String dstSwitchStr = flowObj.getDstSwitch();
-	Short dstPortShort = flowObj.getDstPort();
-
-	if ((flowIdStr == null) ||
-	    (installerIdStr == null) ||
-	    (flowPathFlags == null) ||
-	    (srcSwitchStr == null) ||
-	    (srcPortShort == null) ||
-	    (dstSwitchStr == null) ||
-	    (dstPortShort == null)) {
-	    // TODO: A work-around, becauuse of some bogus database objects
-	    return null;
-	}
-
-	FlowPath flowPath = new FlowPath();
-	flowPath.setFlowId(new FlowId(flowIdStr));
-	flowPath.setInstallerId(new CallerId(installerIdStr));
-	flowPath.setFlowPathFlags(new FlowPathFlags(flowPathFlags));
-	flowPath.dataPath().srcPort().setDpid(new Dpid(srcSwitchStr));
-	flowPath.dataPath().srcPort().setPort(new Port(srcPortShort));
-	flowPath.dataPath().dstPort().setDpid(new Dpid(dstSwitchStr));
-	flowPath.dataPath().dstPort().setPort(new Port(dstPortShort));
-	//
-	// Extract the match conditions common for all Flow Entries
-	//
-	{
-	    FlowEntryMatch match = new FlowEntryMatch();
-	    String matchSrcMac = flowObj.getMatchSrcMac();
-	    if (matchSrcMac != null)
-		match.enableSrcMac(MACAddress.valueOf(matchSrcMac));
-	    String matchDstMac = flowObj.getMatchDstMac();
-	    if (matchDstMac != null)
-		match.enableDstMac(MACAddress.valueOf(matchDstMac));
-	    Short matchEthernetFrameType = flowObj.getMatchEthernetFrameType();
-	    if (matchEthernetFrameType != null)
-		match.enableEthernetFrameType(matchEthernetFrameType);
-	    Short matchVlanId = flowObj.getMatchVlanId();
-	    if (matchVlanId != null)
-		match.enableVlanId(matchVlanId);
-	    Byte matchVlanPriority = flowObj.getMatchVlanPriority();
-	    if (matchVlanPriority != null)
-		match.enableVlanPriority(matchVlanPriority);
-	    String matchSrcIPv4Net = flowObj.getMatchSrcIPv4Net();
-	    if (matchSrcIPv4Net != null)
-		match.enableSrcIPv4Net(new IPv4Net(matchSrcIPv4Net));
-	    String matchDstIPv4Net = flowObj.getMatchDstIPv4Net();
-	    if (matchDstIPv4Net != null)
-		match.enableDstIPv4Net(new IPv4Net(matchDstIPv4Net));
-	    Byte matchIpProto = flowObj.getMatchIpProto();
-	    if (matchIpProto != null)
-		match.enableIpProto(matchIpProto);
-	    Byte matchIpToS = flowObj.getMatchIpToS();
-	    if (matchIpToS != null)
-		match.enableIpToS(matchIpToS);
-	    Short matchSrcTcpUdpPort = flowObj.getMatchSrcTcpUdpPort();
-	    if (matchSrcTcpUdpPort != null)
-		match.enableSrcTcpUdpPort(matchSrcTcpUdpPort);
-	    Short matchDstTcpUdpPort = flowObj.getMatchDstTcpUdpPort();
-	    if (matchDstTcpUdpPort != null)
-		match.enableDstTcpUdpPort(matchDstTcpUdpPort);
-
-	    flowPath.setFlowEntryMatch(match);
-	}
-	//
-	// Extract the actions for the first Flow Entry
-	//
-	{
-	    String actionsStr = flowObj.getActions();
-	    if (actionsStr != null) {
-		FlowEntryActions flowEntryActions = new FlowEntryActions(actionsStr);
-		flowPath.setFlowEntryActions(flowEntryActions);
-	    }
-	}
-
-	//
-	// Extract all Flow Entries
-	//
-	Iterable<IFlowEntry> flowEntries = flowObj.getFlowEntries();
-	for (IFlowEntry flowEntryObj : flowEntries) {
-	    FlowEntry flowEntry = extractFlowEntry(flowEntryObj);
-	    if (flowEntry == null)
-		continue;
-	    flowPath.dataPath().flowEntries().add(flowEntry);
-	}
-
-	return flowPath;
-    }
-
-    /**
-     * Extract Flow Entry State from a Titan Database Object @ref IFlowEntry.
-     *
-     * @param flowEntryObj the object to extract the Flow Entry State from.
-     * @return the extracted Flow Entry State.
-     */
-    private FlowEntry extractFlowEntry(IFlowEntry flowEntryObj) {
-	String flowEntryIdStr = flowEntryObj.getFlowEntryId();
-	String switchDpidStr = flowEntryObj.getSwitchDpid();
-	String userState = flowEntryObj.getUserState();
-	String switchState = flowEntryObj.getSwitchState();
-
-	if ((flowEntryIdStr == null) ||
-	    (switchDpidStr == null) ||
-	    (userState == null) ||
-	    (switchState == null)) {
-	    // TODO: A work-around, becauuse of some bogus database objects
-	    return null;
-	}
-
-	FlowEntry flowEntry = new FlowEntry();
-	flowEntry.setFlowEntryId(new FlowEntryId(flowEntryIdStr));
-	flowEntry.setDpid(new Dpid(switchDpidStr));
-
-	//
-	// Extract the match conditions
-	//
-	FlowEntryMatch match = new FlowEntryMatch();
-	Short matchInPort = flowEntryObj.getMatchInPort();
-	if (matchInPort != null)
-	    match.enableInPort(new Port(matchInPort));
-	String matchSrcMac = flowEntryObj.getMatchSrcMac();
-	if (matchSrcMac != null)
-	    match.enableSrcMac(MACAddress.valueOf(matchSrcMac));
-	String matchDstMac = flowEntryObj.getMatchDstMac();
-	if (matchDstMac != null)
-	    match.enableDstMac(MACAddress.valueOf(matchDstMac));
-	Short matchEthernetFrameType = flowEntryObj.getMatchEthernetFrameType();
-	if (matchEthernetFrameType != null)
-	    match.enableEthernetFrameType(matchEthernetFrameType);
-	Short matchVlanId = flowEntryObj.getMatchVlanId();
-	if (matchVlanId != null)
-	    match.enableVlanId(matchVlanId);
-	Byte matchVlanPriority = flowEntryObj.getMatchVlanPriority();
-	if (matchVlanPriority != null)
-	    match.enableVlanPriority(matchVlanPriority);
-	String matchSrcIPv4Net = flowEntryObj.getMatchSrcIPv4Net();
-	if (matchSrcIPv4Net != null)
-	    match.enableSrcIPv4Net(new IPv4Net(matchSrcIPv4Net));
-	String matchDstIPv4Net = flowEntryObj.getMatchDstIPv4Net();
-	if (matchDstIPv4Net != null)
-	    match.enableDstIPv4Net(new IPv4Net(matchDstIPv4Net));
-	Byte matchIpProto = flowEntryObj.getMatchIpProto();
-	if (matchIpProto != null)
-	    match.enableIpProto(matchIpProto);
-	Byte matchIpToS = flowEntryObj.getMatchIpToS();
-	if (matchIpToS != null)
-	    match.enableIpToS(matchIpToS);
-	Short matchSrcTcpUdpPort = flowEntryObj.getMatchSrcTcpUdpPort();
-	if (matchSrcTcpUdpPort != null)
-	    match.enableSrcTcpUdpPort(matchSrcTcpUdpPort);
-	Short matchDstTcpUdpPort = flowEntryObj.getMatchDstTcpUdpPort();
-	if (matchDstTcpUdpPort != null)
-	    match.enableDstTcpUdpPort(matchDstTcpUdpPort);
-	flowEntry.setFlowEntryMatch(match);
-
-	//
-	// Extract the actions
-	//
-	FlowEntryActions actions = new FlowEntryActions();
-	String actionsStr = flowEntryObj.getActions();
-	if (actionsStr != null)
-	    actions = new FlowEntryActions(actionsStr);
-	flowEntry.setFlowEntryActions(actions);
-	flowEntry.setFlowEntryUserState(FlowEntryUserState.valueOf(userState));
-	flowEntry.setFlowEntrySwitchState(FlowEntrySwitchState.valueOf(switchState));
-	//
-	// TODO: Take care of FlowEntryErrorState.
-	//
-	return flowEntry;
+	return FlowDatabaseOperation.getAllFlowsWithoutFlowEntries(dbHandler);
     }
 
     /**
@@ -1540,311 +761,9 @@
      */
     public boolean installFlowEntry(IOFSwitch mySwitch, IFlowPath flowObj,
 				    IFlowEntry flowEntryObj) {
-	String flowEntryIdStr = flowEntryObj.getFlowEntryId();
-	if (flowEntryIdStr == null)
-	    return false;
-	FlowEntryId flowEntryId = new FlowEntryId(flowEntryIdStr);
-	String userState = flowEntryObj.getUserState();
-	if (userState == null)
-	    return false;
-
-	//
-	// Create the Open Flow Flow Modification Entry to push
-	//
-	OFFlowMod fm = (OFFlowMod) floodlightProvider.getOFMessageFactory()
-	    .getMessage(OFType.FLOW_MOD);
-	long cookie = flowEntryId.value();
-
-	short flowModCommand = OFFlowMod.OFPFC_ADD;
-	if (userState.equals("FE_USER_ADD")) {
-	    flowModCommand = OFFlowMod.OFPFC_ADD;
-	} else if (userState.equals("FE_USER_MODIFY")) {
-	    flowModCommand = OFFlowMod.OFPFC_MODIFY_STRICT;
-	} else if (userState.equals("FE_USER_DELETE")) {
-	    flowModCommand = OFFlowMod.OFPFC_DELETE_STRICT;
-	} else {
-	    // Unknown user state. Ignore the entry
-	    log.debug("Flow Entry ignored (FlowEntryId = {}): unknown user state {}",
-		      flowEntryId.toString(), userState);
-	    return false;
-	}
-
-	//
-	// Fetch the match conditions.
-	//
-	// NOTE: The Flow matching conditions common for all Flow Entries are
-	// used ONLY if a Flow Entry does NOT have the corresponding matching
-	// condition set.
-	//
-	OFMatch match = new OFMatch();
-	match.setWildcards(OFMatch.OFPFW_ALL);
-
-	// Match the Incoming Port
-	Short matchInPort = flowEntryObj.getMatchInPort();
-	if (matchInPort != null) {
-	    match.setInputPort(matchInPort);
-	    match.setWildcards(match.getWildcards() & ~OFMatch.OFPFW_IN_PORT);
-	}
-
-	// Match the Source MAC address
-	String matchSrcMac = flowEntryObj.getMatchSrcMac();
-	if (matchSrcMac == null)
-	    matchSrcMac = flowObj.getMatchSrcMac();
-	if (matchSrcMac != null) {
-	    match.setDataLayerSource(matchSrcMac);
-	    match.setWildcards(match.getWildcards() & ~OFMatch.OFPFW_DL_SRC);
-	}
-
-	// Match the Destination MAC address
-	String matchDstMac = flowEntryObj.getMatchDstMac();
-	if (matchDstMac == null)
-	    matchDstMac = flowObj.getMatchDstMac();
-	if (matchDstMac != null) {
-	    match.setDataLayerDestination(matchDstMac);
-	    match.setWildcards(match.getWildcards() & ~OFMatch.OFPFW_DL_DST);
-	}
-
-	// Match the Ethernet Frame Type
-	Short matchEthernetFrameType = flowEntryObj.getMatchEthernetFrameType();
-	if (matchEthernetFrameType == null)
-	    matchEthernetFrameType = flowObj.getMatchEthernetFrameType();
-	if (matchEthernetFrameType != null) {
-	    match.setDataLayerType(matchEthernetFrameType);
-	    match.setWildcards(match.getWildcards() & ~OFMatch.OFPFW_DL_TYPE);
-	}
-
-	// Match the VLAN ID
-	Short matchVlanId = flowEntryObj.getMatchVlanId();
-	if (matchVlanId == null)
-	    matchVlanId = flowObj.getMatchVlanId();
-	if (matchVlanId != null) {
-	    match.setDataLayerVirtualLan(matchVlanId);
-	    match.setWildcards(match.getWildcards() & ~OFMatch.OFPFW_DL_VLAN);
-	}
-
-	// Match the VLAN priority
-	Byte matchVlanPriority = flowEntryObj.getMatchVlanPriority();
-	if (matchVlanPriority == null)
-	    matchVlanPriority = flowObj.getMatchVlanPriority();
-	if (matchVlanPriority != null) {
-	    match.setDataLayerVirtualLanPriorityCodePoint(matchVlanPriority);
-	    match.setWildcards(match.getWildcards() & ~OFMatch.OFPFW_DL_VLAN_PCP);
-	}
-
-	// Match the Source IPv4 Network prefix
-	String matchSrcIPv4Net = flowEntryObj.getMatchSrcIPv4Net();
-	if (matchSrcIPv4Net == null)
-	    matchSrcIPv4Net = flowObj.getMatchSrcIPv4Net();
-	if (matchSrcIPv4Net != null) {
-	    match.setFromCIDR(matchSrcIPv4Net, OFMatch.STR_NW_SRC);
-	}
-
-	// Natch the Destination IPv4 Network prefix
-	String matchDstIPv4Net = flowEntryObj.getMatchDstIPv4Net();
-	if (matchDstIPv4Net == null)
-	    matchDstIPv4Net = flowObj.getMatchDstIPv4Net();
-	if (matchDstIPv4Net != null) {
-	    match.setFromCIDR(matchDstIPv4Net, OFMatch.STR_NW_DST);
-	}
-
-	// Match the IP protocol
-	Byte matchIpProto = flowEntryObj.getMatchIpProto();
-	if (matchIpProto == null)
-	    matchIpProto = flowObj.getMatchIpProto();
-	if (matchIpProto != null) {
-	    match.setNetworkProtocol(matchIpProto);
-	    match.setWildcards(match.getWildcards() & ~OFMatch.OFPFW_NW_PROTO);
-	}
-
-	// Match the IP ToS (DSCP field, 6 bits)
-	Byte matchIpToS = flowEntryObj.getMatchIpToS();
-	if (matchIpToS == null)
-	    matchIpToS = flowObj.getMatchIpToS();
-	if (matchIpToS != null) {
-	    match.setNetworkTypeOfService(matchIpToS);
-	    match.setWildcards(match.getWildcards() & ~OFMatch.OFPFW_NW_TOS);
-	}
-
-	// Match the Source TCP/UDP port
-	Short matchSrcTcpUdpPort = flowEntryObj.getMatchSrcTcpUdpPort();
-	if (matchSrcTcpUdpPort == null)
-	    matchSrcTcpUdpPort = flowObj.getMatchSrcTcpUdpPort();
-	if (matchSrcTcpUdpPort != null) {
-	    match.setTransportSource(matchSrcTcpUdpPort);
-	    match.setWildcards(match.getWildcards() & ~OFMatch.OFPFW_TP_SRC);
-	}
-
-	// Match the Destination TCP/UDP port
-	Short matchDstTcpUdpPort = flowEntryObj.getMatchDstTcpUdpPort();
-	if (matchDstTcpUdpPort == null)
-	    matchDstTcpUdpPort = flowObj.getMatchDstTcpUdpPort();
-	if (matchDstTcpUdpPort != null) {
-	    match.setTransportDestination(matchDstTcpUdpPort);
-	    match.setWildcards(match.getWildcards() & ~OFMatch.OFPFW_TP_DST);
-	}
-
-	//
-	// Fetch the actions
-	//
-	Short actionOutputPort = null;
-	List<OFAction> openFlowActions = new ArrayList<OFAction>();
-	int actionsLen = 0;
-	FlowEntryActions flowEntryActions = null;
-	String actionsStr = flowEntryObj.getActions();
-	if (actionsStr != null)
-	    flowEntryActions = new FlowEntryActions(actionsStr);
-	for (FlowEntryAction action : flowEntryActions.actions()) {
-	    ActionOutput actionOutput = action.actionOutput();
-	    ActionSetVlanId actionSetVlanId = action.actionSetVlanId();
-	    ActionSetVlanPriority actionSetVlanPriority = action.actionSetVlanPriority();
-	    ActionStripVlan actionStripVlan = action.actionStripVlan();
-	    ActionSetEthernetAddr actionSetEthernetSrcAddr = action.actionSetEthernetSrcAddr();
-	    ActionSetEthernetAddr actionSetEthernetDstAddr = action.actionSetEthernetDstAddr();
-	    ActionSetIPv4Addr actionSetIPv4SrcAddr = action.actionSetIPv4SrcAddr();
-	    ActionSetIPv4Addr actionSetIPv4DstAddr = action.actionSetIPv4DstAddr();
-	    ActionSetIpToS actionSetIpToS = action.actionSetIpToS();
-	    ActionSetTcpUdpPort actionSetTcpUdpSrcPort = action.actionSetTcpUdpSrcPort();
-	    ActionSetTcpUdpPort actionSetTcpUdpDstPort = action.actionSetTcpUdpDstPort();
-	    ActionEnqueue actionEnqueue = action.actionEnqueue();
-
-	    if (actionOutput != null) {
-		actionOutputPort = actionOutput.port().value();
-		// XXX: The max length is hard-coded for now
-		OFActionOutput ofa =
-		    new OFActionOutput(actionOutput.port().value(),
-				       (short)0xffff);
-		openFlowActions.add(ofa);
-		actionsLen += ofa.getLength();
-	    }
-
-	    if (actionSetVlanId != null) {
-		OFActionVirtualLanIdentifier ofa =
-		    new OFActionVirtualLanIdentifier(actionSetVlanId.vlanId());
-		openFlowActions.add(ofa);
-		actionsLen += ofa.getLength();
-	    }
-
-	    if (actionSetVlanPriority != null) {
-		OFActionVirtualLanPriorityCodePoint ofa =
-		    new OFActionVirtualLanPriorityCodePoint(actionSetVlanPriority.vlanPriority());
-		openFlowActions.add(ofa);
-		actionsLen += ofa.getLength();
-	    }
-
-	    if (actionStripVlan != null) {
-		if (actionStripVlan.stripVlan() == true) {
-		    OFActionStripVirtualLan ofa = new OFActionStripVirtualLan();
-		    openFlowActions.add(ofa);
-		    actionsLen += ofa.getLength();
-		}
-	    }
-
-	    if (actionSetEthernetSrcAddr != null) {
-		OFActionDataLayerSource ofa = 
-		    new OFActionDataLayerSource(actionSetEthernetSrcAddr.addr().toBytes());
-		openFlowActions.add(ofa);
-		actionsLen += ofa.getLength();
-	    }
-
-	    if (actionSetEthernetDstAddr != null) {
-		OFActionDataLayerDestination ofa =
-		    new OFActionDataLayerDestination(actionSetEthernetDstAddr.addr().toBytes());
-		openFlowActions.add(ofa);
-		actionsLen += ofa.getLength();
-	    }
-
-	    if (actionSetIPv4SrcAddr != null) {
-		OFActionNetworkLayerSource ofa =
-		    new OFActionNetworkLayerSource(actionSetIPv4SrcAddr.addr().value());
-		openFlowActions.add(ofa);
-		actionsLen += ofa.getLength();
-	    }
-
-	    if (actionSetIPv4DstAddr != null) {
-		OFActionNetworkLayerDestination ofa =
-		    new OFActionNetworkLayerDestination(actionSetIPv4DstAddr.addr().value());
-		openFlowActions.add(ofa);
-		actionsLen += ofa.getLength();
-	    }
-
-	    if (actionSetIpToS != null) {
-		OFActionNetworkTypeOfService ofa =
-		    new OFActionNetworkTypeOfService(actionSetIpToS.ipToS());
-		openFlowActions.add(ofa);
-		actionsLen += ofa.getLength();
-	    }
-
-	    if (actionSetTcpUdpSrcPort != null) {
-		OFActionTransportLayerSource ofa =
-		    new OFActionTransportLayerSource(actionSetTcpUdpSrcPort.port());
-		openFlowActions.add(ofa);
-		actionsLen += ofa.getLength();
-	    }
-
-	    if (actionSetTcpUdpDstPort != null) {
-		OFActionTransportLayerDestination ofa =
-		    new OFActionTransportLayerDestination(actionSetTcpUdpDstPort.port());
-		openFlowActions.add(ofa);
-		actionsLen += ofa.getLength();
-	    }
-
-	    if (actionEnqueue != null) {
-		OFActionEnqueue ofa =
-		    new OFActionEnqueue(actionEnqueue.port().value(),
-					actionEnqueue.queueId());
-		openFlowActions.add(ofa);
-		actionsLen += ofa.getLength();
-	    }
-	}
-
-	fm.setIdleTimeout(FLOWMOD_DEFAULT_IDLE_TIMEOUT)
-	    .setHardTimeout(FLOWMOD_DEFAULT_HARD_TIMEOUT)
-	    .setPriority(PRIORITY_DEFAULT)
-	    .setBufferId(OFPacketOut.BUFFER_ID_NONE)
-	    .setCookie(cookie)
-	    .setCommand(flowModCommand)
-	    .setMatch(match)
-	    .setActions(openFlowActions)
-	    .setLengthU(OFFlowMod.MINIMUM_LENGTH + actionsLen);
-	fm.setOutPort(OFPort.OFPP_NONE.getValue());
-	if ((flowModCommand == OFFlowMod.OFPFC_DELETE) ||
-	    (flowModCommand == OFFlowMod.OFPFC_DELETE_STRICT)) {
-	    if (actionOutputPort != null)
-		fm.setOutPort(actionOutputPort);
-	}
-
-	//
-	// TODO: Set the following flag
-	// fm.setFlags(OFFlowMod.OFPFF_SEND_FLOW_REM);
-	// See method ForwardingBase::pushRoute()
-	//
-
-	//
-	// Write the message to the switch
-	//
-	log.debug("MEASUREMENT: Installing flow entry " + userState +
-		  " into switch DPID: " +
-		  mySwitch.getStringId() +
-		  " flowEntryId: " + flowEntryId.toString() +
-		  " srcMac: " + matchSrcMac + " dstMac: " + matchDstMac +
-		  " inPort: " + matchInPort + " outPort: " + actionOutputPort
-		  );
-	try {
-	    messageDamper.write(mySwitch, fm, null);
-	    mySwitch.flush();
-	    //
-	    // TODO: We should use the OpenFlow Barrier mechanism
-	    // to check for errors, and update the SwitchState
-	    // for a flow entry after the Barrier message is
-	    // is received.
-	    //
-	    flowEntryObj.setSwitchState("FE_SWITCH_UPDATED");
-	} catch (IOException e) {
-	    log.error("Failure writing flow mod from network map", e);
-	    return false;
-	}
-
-	return true;
+	return FlowSwitchOperation.installFlowEntry(
+		floodlightProvider.getOFMessageFactory(),
+		messageDamper, mySwitch, flowObj, flowEntryObj);
     }
 
     /**
@@ -1857,309 +776,9 @@
      */
     public boolean installFlowEntry(IOFSwitch mySwitch, FlowPath flowPath,
 				    FlowEntry flowEntry) {
-	//
-	// Create the OpenFlow Flow Modification Entry to push
-	//
-	OFFlowMod fm = (OFFlowMod) floodlightProvider.getOFMessageFactory()
-	    .getMessage(OFType.FLOW_MOD);
-	long cookie = flowEntry.flowEntryId().value();
-
-	short flowModCommand = OFFlowMod.OFPFC_ADD;
-	if (flowEntry.flowEntryUserState() == FlowEntryUserState.FE_USER_ADD) {
-	    flowModCommand = OFFlowMod.OFPFC_ADD;
-	} else if (flowEntry.flowEntryUserState() == FlowEntryUserState.FE_USER_MODIFY) {
-	    flowModCommand = OFFlowMod.OFPFC_MODIFY_STRICT;
-	} else if (flowEntry.flowEntryUserState() == FlowEntryUserState.FE_USER_DELETE) {
-	    flowModCommand = OFFlowMod.OFPFC_DELETE_STRICT;
-	} else {
-	    // Unknown user state. Ignore the entry
-	    log.debug("Flow Entry ignored (FlowEntryId = {}): unknown user state {}",
-		      flowEntry.flowEntryId().toString(),
-		      flowEntry.flowEntryUserState());
-	    return false;
-	}
-
-	//
-	// Fetch the match conditions.
-	//
-	// NOTE: The Flow matching conditions common for all Flow Entries are
-	// used ONLY if a Flow Entry does NOT have the corresponding matching
-	// condition set.
-	//
-	OFMatch match = new OFMatch();
-	match.setWildcards(OFMatch.OFPFW_ALL);
-	FlowEntryMatch flowPathMatch = flowPath.flowEntryMatch();
-	FlowEntryMatch flowEntryMatch = flowEntry.flowEntryMatch();
-
-	// Match the Incoming Port
-	Port matchInPort = flowEntryMatch.inPort();
-	if (matchInPort != null) {
-	    match.setInputPort(matchInPort.value());
-	    match.setWildcards(match.getWildcards() & ~OFMatch.OFPFW_IN_PORT);
-	}
-
-	// Match the Source MAC address
-	MACAddress matchSrcMac = flowEntryMatch.srcMac();
-	if ((matchSrcMac == null) && (flowPathMatch != null)) {
-	    matchSrcMac = flowPathMatch.srcMac();
-	}
-	if (matchSrcMac != null) {
-	    match.setDataLayerSource(matchSrcMac.toString());
-	    match.setWildcards(match.getWildcards() & ~OFMatch.OFPFW_DL_SRC);
-	}
-
-	// Match the Destination MAC address
-	MACAddress matchDstMac = flowEntryMatch.dstMac();
-	if ((matchDstMac == null) && (flowPathMatch != null)) {
-	    matchDstMac = flowPathMatch.dstMac();
-	}
-	if (matchDstMac != null) {
-	    match.setDataLayerDestination(matchDstMac.toString());
-	    match.setWildcards(match.getWildcards() & ~OFMatch.OFPFW_DL_DST);
-	}
-
-	// Match the Ethernet Frame Type
-	Short matchEthernetFrameType = flowEntryMatch.ethernetFrameType();
-	if ((matchEthernetFrameType == null) && (flowPathMatch != null)) {
-	    matchEthernetFrameType = flowPathMatch.ethernetFrameType();
-	}
-	if (matchEthernetFrameType != null) {
-	    match.setDataLayerType(matchEthernetFrameType);
-	    match.setWildcards(match.getWildcards() & ~OFMatch.OFPFW_DL_TYPE);
-	}
-
-	// Match the VLAN ID
-	Short matchVlanId = flowEntryMatch.vlanId();
-	if ((matchVlanId == null) && (flowPathMatch != null)) {
-	    matchVlanId = flowPathMatch.vlanId();
-	}
-	if (matchVlanId != null) {
-	    match.setDataLayerVirtualLan(matchVlanId);
-	    match.setWildcards(match.getWildcards() & ~OFMatch.OFPFW_DL_VLAN);
-	}
-
-	// Match the VLAN priority
-	Byte matchVlanPriority = flowEntryMatch.vlanPriority();
-	if ((matchVlanPriority == null) && (flowPathMatch != null)) {
-	    matchVlanPriority = flowPathMatch.vlanPriority();
-	}
-	if (matchVlanPriority != null) {
-	    match.setDataLayerVirtualLanPriorityCodePoint(matchVlanPriority);
-	    match.setWildcards(match.getWildcards() & ~OFMatch.OFPFW_DL_VLAN_PCP);
-	}
-
-	// Match the Source IPv4 Network prefix
-	IPv4Net matchSrcIPv4Net = flowEntryMatch.srcIPv4Net();
-	if ((matchSrcIPv4Net == null) && (flowPathMatch != null)) {
-	    matchSrcIPv4Net = flowPathMatch.srcIPv4Net();
-	}
-	if (matchSrcIPv4Net != null) {
-	    match.setFromCIDR(matchSrcIPv4Net.toString(), OFMatch.STR_NW_SRC);
-	}
-
-	// Natch the Destination IPv4 Network prefix
-	IPv4Net matchDstIPv4Net = flowEntryMatch.dstIPv4Net();
-	if ((matchDstIPv4Net == null) && (flowPathMatch != null)) {
-	    matchDstIPv4Net = flowPathMatch.dstIPv4Net();
-	}
-	if (matchDstIPv4Net != null) {
-	    match.setFromCIDR(matchDstIPv4Net.toString(), OFMatch.STR_NW_DST);
-	}
-
-	// Match the IP protocol
-	Byte matchIpProto = flowEntryMatch.ipProto();
-	if ((matchIpProto == null) && (flowPathMatch != null)) {
-	    matchIpProto = flowPathMatch.ipProto();
-	}
-	if (matchIpProto != null) {
-	    match.setNetworkProtocol(matchIpProto);
-	    match.setWildcards(match.getWildcards() & ~OFMatch.OFPFW_NW_PROTO);
-	}
-
-	// Match the IP ToS (DSCP field, 6 bits)
-	Byte matchIpToS = flowEntryMatch.ipToS();
-	if ((matchIpToS == null) && (flowPathMatch != null)) {
-	    matchIpToS = flowPathMatch.ipToS();
-	}
-	if (matchIpToS != null) {
-	    match.setNetworkTypeOfService(matchIpToS);
-	    match.setWildcards(match.getWildcards() & ~OFMatch.OFPFW_NW_TOS);
-	}
-
-	// Match the Source TCP/UDP port
-	Short matchSrcTcpUdpPort = flowEntryMatch.srcTcpUdpPort();
-	if ((matchSrcTcpUdpPort == null) && (flowPathMatch != null)) {
-	    matchSrcTcpUdpPort = flowPathMatch.srcTcpUdpPort();
-	}
-	if (matchSrcTcpUdpPort != null) {
-	    match.setTransportSource(matchSrcTcpUdpPort);
-	    match.setWildcards(match.getWildcards() & ~OFMatch.OFPFW_TP_SRC);
-	}
-
-	// Match the Destination TCP/UDP port
-	Short matchDstTcpUdpPort = flowEntryMatch.dstTcpUdpPort();
-	if ((matchDstTcpUdpPort == null) && (flowPathMatch != null)) {
-	    matchDstTcpUdpPort = flowPathMatch.dstTcpUdpPort();
-	}
-	if (matchDstTcpUdpPort != null) {
-	    match.setTransportDestination(matchDstTcpUdpPort);
-	    match.setWildcards(match.getWildcards() & ~OFMatch.OFPFW_TP_DST);
-	}
-
-	//
-	// Fetch the actions
-	//
-	Short actionOutputPort = null;
-	List<OFAction> openFlowActions = new ArrayList<OFAction>();
-	int actionsLen = 0;
-	FlowEntryActions flowEntryActions = flowEntry.flowEntryActions();
-	//
-	for (FlowEntryAction action : flowEntryActions.actions()) {
-	    ActionOutput actionOutput = action.actionOutput();
-	    ActionSetVlanId actionSetVlanId = action.actionSetVlanId();
-	    ActionSetVlanPriority actionSetVlanPriority = action.actionSetVlanPriority();
-	    ActionStripVlan actionStripVlan = action.actionStripVlan();
-	    ActionSetEthernetAddr actionSetEthernetSrcAddr = action.actionSetEthernetSrcAddr();
-	    ActionSetEthernetAddr actionSetEthernetDstAddr = action.actionSetEthernetDstAddr();
-	    ActionSetIPv4Addr actionSetIPv4SrcAddr = action.actionSetIPv4SrcAddr();
-	    ActionSetIPv4Addr actionSetIPv4DstAddr = action.actionSetIPv4DstAddr();
-	    ActionSetIpToS actionSetIpToS = action.actionSetIpToS();
-	    ActionSetTcpUdpPort actionSetTcpUdpSrcPort = action.actionSetTcpUdpSrcPort();
-	    ActionSetTcpUdpPort actionSetTcpUdpDstPort = action.actionSetTcpUdpDstPort();
-	    ActionEnqueue actionEnqueue = action.actionEnqueue();
-
-	    if (actionOutput != null) {
-		actionOutputPort = actionOutput.port().value();
-		// XXX: The max length is hard-coded for now
-		OFActionOutput ofa =
-		    new OFActionOutput(actionOutput.port().value(),
-				       (short)0xffff);
-		openFlowActions.add(ofa);
-		actionsLen += ofa.getLength();
-	    }
-
-	    if (actionSetVlanId != null) {
-		OFActionVirtualLanIdentifier ofa =
-		    new OFActionVirtualLanIdentifier(actionSetVlanId.vlanId());
-		openFlowActions.add(ofa);
-		actionsLen += ofa.getLength();
-	    }
-
-	    if (actionSetVlanPriority != null) {
-		OFActionVirtualLanPriorityCodePoint ofa =
-		    new OFActionVirtualLanPriorityCodePoint(actionSetVlanPriority.vlanPriority());
-		openFlowActions.add(ofa);
-		actionsLen += ofa.getLength();
-	    }
-
-	    if (actionStripVlan != null) {
-		if (actionStripVlan.stripVlan() == true) {
-		    OFActionStripVirtualLan ofa = new OFActionStripVirtualLan();
-		    openFlowActions.add(ofa);
-		    actionsLen += ofa.getLength();
-		}
-	    }
-
-	    if (actionSetEthernetSrcAddr != null) {
-		OFActionDataLayerSource ofa = 
-		    new OFActionDataLayerSource(actionSetEthernetSrcAddr.addr().toBytes());
-		openFlowActions.add(ofa);
-		actionsLen += ofa.getLength();
-	    }
-
-	    if (actionSetEthernetDstAddr != null) {
-		OFActionDataLayerDestination ofa =
-		    new OFActionDataLayerDestination(actionSetEthernetDstAddr.addr().toBytes());
-		openFlowActions.add(ofa);
-		actionsLen += ofa.getLength();
-	    }
-
-	    if (actionSetIPv4SrcAddr != null) {
-		OFActionNetworkLayerSource ofa =
-		    new OFActionNetworkLayerSource(actionSetIPv4SrcAddr.addr().value());
-		openFlowActions.add(ofa);
-		actionsLen += ofa.getLength();
-	    }
-
-	    if (actionSetIPv4DstAddr != null) {
-		OFActionNetworkLayerDestination ofa =
-		    new OFActionNetworkLayerDestination(actionSetIPv4DstAddr.addr().value());
-		openFlowActions.add(ofa);
-		actionsLen += ofa.getLength();
-	    }
-
-	    if (actionSetIpToS != null) {
-		OFActionNetworkTypeOfService ofa =
-		    new OFActionNetworkTypeOfService(actionSetIpToS.ipToS());
-		openFlowActions.add(ofa);
-		actionsLen += ofa.getLength();
-	    }
-
-	    if (actionSetTcpUdpSrcPort != null) {
-		OFActionTransportLayerSource ofa =
-		    new OFActionTransportLayerSource(actionSetTcpUdpSrcPort.port());
-		openFlowActions.add(ofa);
-		actionsLen += ofa.getLength();
-	    }
-
-	    if (actionSetTcpUdpDstPort != null) {
-		OFActionTransportLayerDestination ofa =
-		    new OFActionTransportLayerDestination(actionSetTcpUdpDstPort.port());
-		openFlowActions.add(ofa);
-		actionsLen += ofa.getLength();
-	    }
-
-	    if (actionEnqueue != null) {
-		OFActionEnqueue ofa =
-		    new OFActionEnqueue(actionEnqueue.port().value(),
-					actionEnqueue.queueId());
-		openFlowActions.add(ofa);
-		actionsLen += ofa.getLength();
-	    }
-	}
-
-	fm.setIdleTimeout(FLOWMOD_DEFAULT_IDLE_TIMEOUT)
-	    .setHardTimeout(FLOWMOD_DEFAULT_HARD_TIMEOUT)
-	    .setPriority(PRIORITY_DEFAULT)
-	    .setBufferId(OFPacketOut.BUFFER_ID_NONE)
-	    .setCookie(cookie)
-	    .setCommand(flowModCommand)
-	    .setMatch(match)
-	    .setActions(openFlowActions)
-	    .setLengthU(OFFlowMod.MINIMUM_LENGTH + actionsLen);
-	fm.setOutPort(OFPort.OFPP_NONE.getValue());
-	if ((flowModCommand == OFFlowMod.OFPFC_DELETE) ||
-	    (flowModCommand == OFFlowMod.OFPFC_DELETE_STRICT)) {
-	    if (actionOutputPort != null)
-		fm.setOutPort(actionOutputPort);
-	}
-
-	//
-	// TODO: Set the following flag
-	// fm.setFlags(OFFlowMod.OFPFF_SEND_FLOW_REM);
-	// See method ForwardingBase::pushRoute()
-	//
-
-	//
-	// Write the message to the switch
-	//
-	try {
-	    messageDamper.write(mySwitch, fm, null);
-	    mySwitch.flush();
-	    //
-	    // TODO: We should use the OpenFlow Barrier mechanism
-	    // to check for errors, and update the SwitchState
-	    // for a flow entry after the Barrier message is
-	    // is received.
-	    //
-	    // TODO: The FlowEntry Object in Titan should be set
-	    // to FE_SWITCH_UPDATED.
-	    //
-	} catch (IOException e) {
-	    log.error("Failure writing flow mod from network map", e);
-	    return false;
-	}
-	return true;
+	return FlowSwitchOperation.installFlowEntry(
+		floodlightProvider.getOFMessageFactory(),
+		messageDamper, mySwitch, flowPath, flowEntry);
     }
 
     /**
diff --git a/src/main/java/net/onrc/onos/ofcontroller/flowmanager/FlowSwitchOperation.java b/src/main/java/net/onrc/onos/ofcontroller/flowmanager/FlowSwitchOperation.java
new file mode 100644
index 0000000..3eea1e1
--- /dev/null
+++ b/src/main/java/net/onrc/onos/ofcontroller/flowmanager/FlowSwitchOperation.java
@@ -0,0 +1,676 @@
+package net.onrc.onos.ofcontroller.flowmanager;
+
+import java.io.IOException;
+import java.util.ArrayList;
+import java.util.List;
+
+import net.floodlightcontroller.core.IOFSwitch;
+import net.floodlightcontroller.util.MACAddress;
+import net.floodlightcontroller.util.OFMessageDamper;
+
+import net.onrc.onos.ofcontroller.core.INetMapTopologyObjects.IFlowEntry;
+import net.onrc.onos.ofcontroller.core.INetMapTopologyObjects.IFlowPath;
+import net.onrc.onos.ofcontroller.util.*;
+import net.onrc.onos.ofcontroller.util.FlowEntryAction.*;
+
+import org.openflow.protocol.OFFlowMod;
+import org.openflow.protocol.OFMatch;
+import org.openflow.protocol.OFPacketOut;
+import org.openflow.protocol.OFPort;
+import org.openflow.protocol.OFType;
+import org.openflow.protocol.action.*;
+import org.openflow.protocol.factory.BasicFactory;
+import org.slf4j.Logger;
+import org.slf4j.LoggerFactory;
+
+/**
+ * Class for performing Flow-related operations on the Switch.
+ */
+class FlowSwitchOperation {
+    private static Logger log = LoggerFactory.getLogger(FlowSwitchOperation.class);
+    //
+    // TODO: Values copied from elsewhere (class LearningSwitch).
+    // The local copy should go away!
+    //
+    public static final short PRIORITY_DEFAULT = 100;
+    public static final short FLOWMOD_DEFAULT_IDLE_TIMEOUT = 0;	// infinity
+    public static final short FLOWMOD_DEFAULT_HARD_TIMEOUT = 0;	// infinite
+
+    /**
+     * Install a Flow Entry on a switch.
+     *
+     * @param messageFactory the OpenFlow message factory to use.
+     * @maram messageDamper the OpenFlow message damper to use.
+     * @param mySwitch the switch to install the Flow Entry into.
+     * @param flowObj the flow path object for the flow entry to install.
+     * @param flowEntryObj the flow entry object to install.
+     * @return true on success, otherwise false.
+     */
+    static boolean installFlowEntry(BasicFactory messageFactory,
+				    OFMessageDamper messageDamper,
+				    IOFSwitch mySwitch, IFlowPath flowObj,
+				    IFlowEntry flowEntryObj) {
+	String flowEntryIdStr = flowEntryObj.getFlowEntryId();
+	if (flowEntryIdStr == null)
+	    return false;
+	FlowEntryId flowEntryId = new FlowEntryId(flowEntryIdStr);
+	String userState = flowEntryObj.getUserState();
+	if (userState == null)
+	    return false;
+
+	//
+	// Create the Open Flow Flow Modification Entry to push
+	//
+	OFFlowMod fm = (OFFlowMod)messageFactory.getMessage(OFType.FLOW_MOD);
+	long cookie = flowEntryId.value();
+
+	short flowModCommand = OFFlowMod.OFPFC_ADD;
+	if (userState.equals("FE_USER_ADD")) {
+	    flowModCommand = OFFlowMod.OFPFC_ADD;
+	} else if (userState.equals("FE_USER_MODIFY")) {
+	    flowModCommand = OFFlowMod.OFPFC_MODIFY_STRICT;
+	} else if (userState.equals("FE_USER_DELETE")) {
+	    flowModCommand = OFFlowMod.OFPFC_DELETE_STRICT;
+	} else {
+	    // Unknown user state. Ignore the entry
+	    log.debug("Flow Entry ignored (FlowEntryId = {}): unknown user state {}",
+		      flowEntryId.toString(), userState);
+	    return false;
+	}
+
+	//
+	// Fetch the match conditions.
+	//
+	// NOTE: The Flow matching conditions common for all Flow Entries are
+	// used ONLY if a Flow Entry does NOT have the corresponding matching
+	// condition set.
+	//
+	OFMatch match = new OFMatch();
+	match.setWildcards(OFMatch.OFPFW_ALL);
+
+	// Match the Incoming Port
+	Short matchInPort = flowEntryObj.getMatchInPort();
+	if (matchInPort != null) {
+	    match.setInputPort(matchInPort);
+	    match.setWildcards(match.getWildcards() & ~OFMatch.OFPFW_IN_PORT);
+	}
+
+	// Match the Source MAC address
+	String matchSrcMac = flowEntryObj.getMatchSrcMac();
+	if (matchSrcMac == null)
+	    matchSrcMac = flowObj.getMatchSrcMac();
+	if (matchSrcMac != null) {
+	    match.setDataLayerSource(matchSrcMac);
+	    match.setWildcards(match.getWildcards() & ~OFMatch.OFPFW_DL_SRC);
+	}
+
+	// Match the Destination MAC address
+	String matchDstMac = flowEntryObj.getMatchDstMac();
+	if (matchDstMac == null)
+	    matchDstMac = flowObj.getMatchDstMac();
+	if (matchDstMac != null) {
+	    match.setDataLayerDestination(matchDstMac);
+	    match.setWildcards(match.getWildcards() & ~OFMatch.OFPFW_DL_DST);
+	}
+
+	// Match the Ethernet Frame Type
+	Short matchEthernetFrameType = flowEntryObj.getMatchEthernetFrameType();
+	if (matchEthernetFrameType == null)
+	    matchEthernetFrameType = flowObj.getMatchEthernetFrameType();
+	if (matchEthernetFrameType != null) {
+	    match.setDataLayerType(matchEthernetFrameType);
+	    match.setWildcards(match.getWildcards() & ~OFMatch.OFPFW_DL_TYPE);
+	}
+
+	// Match the VLAN ID
+	Short matchVlanId = flowEntryObj.getMatchVlanId();
+	if (matchVlanId == null)
+	    matchVlanId = flowObj.getMatchVlanId();
+	if (matchVlanId != null) {
+	    match.setDataLayerVirtualLan(matchVlanId);
+	    match.setWildcards(match.getWildcards() & ~OFMatch.OFPFW_DL_VLAN);
+	}
+
+	// Match the VLAN priority
+	Byte matchVlanPriority = flowEntryObj.getMatchVlanPriority();
+	if (matchVlanPriority == null)
+	    matchVlanPriority = flowObj.getMatchVlanPriority();
+	if (matchVlanPriority != null) {
+	    match.setDataLayerVirtualLanPriorityCodePoint(matchVlanPriority);
+	    match.setWildcards(match.getWildcards() & ~OFMatch.OFPFW_DL_VLAN_PCP);
+	}
+
+	// Match the Source IPv4 Network prefix
+	String matchSrcIPv4Net = flowEntryObj.getMatchSrcIPv4Net();
+	if (matchSrcIPv4Net == null)
+	    matchSrcIPv4Net = flowObj.getMatchSrcIPv4Net();
+	if (matchSrcIPv4Net != null) {
+	    match.setFromCIDR(matchSrcIPv4Net, OFMatch.STR_NW_SRC);
+	}
+
+	// Natch the Destination IPv4 Network prefix
+	String matchDstIPv4Net = flowEntryObj.getMatchDstIPv4Net();
+	if (matchDstIPv4Net == null)
+	    matchDstIPv4Net = flowObj.getMatchDstIPv4Net();
+	if (matchDstIPv4Net != null) {
+	    match.setFromCIDR(matchDstIPv4Net, OFMatch.STR_NW_DST);
+	}
+
+	// Match the IP protocol
+	Byte matchIpProto = flowEntryObj.getMatchIpProto();
+	if (matchIpProto == null)
+	    matchIpProto = flowObj.getMatchIpProto();
+	if (matchIpProto != null) {
+	    match.setNetworkProtocol(matchIpProto);
+	    match.setWildcards(match.getWildcards() & ~OFMatch.OFPFW_NW_PROTO);
+	}
+
+	// Match the IP ToS (DSCP field, 6 bits)
+	Byte matchIpToS = flowEntryObj.getMatchIpToS();
+	if (matchIpToS == null)
+	    matchIpToS = flowObj.getMatchIpToS();
+	if (matchIpToS != null) {
+	    match.setNetworkTypeOfService(matchIpToS);
+	    match.setWildcards(match.getWildcards() & ~OFMatch.OFPFW_NW_TOS);
+	}
+
+	// Match the Source TCP/UDP port
+	Short matchSrcTcpUdpPort = flowEntryObj.getMatchSrcTcpUdpPort();
+	if (matchSrcTcpUdpPort == null)
+	    matchSrcTcpUdpPort = flowObj.getMatchSrcTcpUdpPort();
+	if (matchSrcTcpUdpPort != null) {
+	    match.setTransportSource(matchSrcTcpUdpPort);
+	    match.setWildcards(match.getWildcards() & ~OFMatch.OFPFW_TP_SRC);
+	}
+
+	// Match the Destination TCP/UDP port
+	Short matchDstTcpUdpPort = flowEntryObj.getMatchDstTcpUdpPort();
+	if (matchDstTcpUdpPort == null)
+	    matchDstTcpUdpPort = flowObj.getMatchDstTcpUdpPort();
+	if (matchDstTcpUdpPort != null) {
+	    match.setTransportDestination(matchDstTcpUdpPort);
+	    match.setWildcards(match.getWildcards() & ~OFMatch.OFPFW_TP_DST);
+	}
+
+	//
+	// Fetch the actions
+	//
+	Short actionOutputPort = null;
+	List<OFAction> openFlowActions = new ArrayList<OFAction>();
+	int actionsLen = 0;
+	FlowEntryActions flowEntryActions = null;
+	String actionsStr = flowEntryObj.getActions();
+	if (actionsStr != null)
+	    flowEntryActions = new FlowEntryActions(actionsStr);
+	for (FlowEntryAction action : flowEntryActions.actions()) {
+	    ActionOutput actionOutput = action.actionOutput();
+	    ActionSetVlanId actionSetVlanId = action.actionSetVlanId();
+	    ActionSetVlanPriority actionSetVlanPriority = action.actionSetVlanPriority();
+	    ActionStripVlan actionStripVlan = action.actionStripVlan();
+	    ActionSetEthernetAddr actionSetEthernetSrcAddr = action.actionSetEthernetSrcAddr();
+	    ActionSetEthernetAddr actionSetEthernetDstAddr = action.actionSetEthernetDstAddr();
+	    ActionSetIPv4Addr actionSetIPv4SrcAddr = action.actionSetIPv4SrcAddr();
+	    ActionSetIPv4Addr actionSetIPv4DstAddr = action.actionSetIPv4DstAddr();
+	    ActionSetIpToS actionSetIpToS = action.actionSetIpToS();
+	    ActionSetTcpUdpPort actionSetTcpUdpSrcPort = action.actionSetTcpUdpSrcPort();
+	    ActionSetTcpUdpPort actionSetTcpUdpDstPort = action.actionSetTcpUdpDstPort();
+	    ActionEnqueue actionEnqueue = action.actionEnqueue();
+
+	    if (actionOutput != null) {
+		actionOutputPort = actionOutput.port().value();
+		// XXX: The max length is hard-coded for now
+		OFActionOutput ofa =
+		    new OFActionOutput(actionOutput.port().value(),
+				       (short)0xffff);
+		openFlowActions.add(ofa);
+		actionsLen += ofa.getLength();
+	    }
+
+	    if (actionSetVlanId != null) {
+		OFActionVirtualLanIdentifier ofa =
+		    new OFActionVirtualLanIdentifier(actionSetVlanId.vlanId());
+		openFlowActions.add(ofa);
+		actionsLen += ofa.getLength();
+	    }
+
+	    if (actionSetVlanPriority != null) {
+		OFActionVirtualLanPriorityCodePoint ofa =
+		    new OFActionVirtualLanPriorityCodePoint(actionSetVlanPriority.vlanPriority());
+		openFlowActions.add(ofa);
+		actionsLen += ofa.getLength();
+	    }
+
+	    if (actionStripVlan != null) {
+		if (actionStripVlan.stripVlan() == true) {
+		    OFActionStripVirtualLan ofa = new OFActionStripVirtualLan();
+		    openFlowActions.add(ofa);
+		    actionsLen += ofa.getLength();
+		}
+	    }
+
+	    if (actionSetEthernetSrcAddr != null) {
+		OFActionDataLayerSource ofa = 
+		    new OFActionDataLayerSource(actionSetEthernetSrcAddr.addr().toBytes());
+		openFlowActions.add(ofa);
+		actionsLen += ofa.getLength();
+	    }
+
+	    if (actionSetEthernetDstAddr != null) {
+		OFActionDataLayerDestination ofa =
+		    new OFActionDataLayerDestination(actionSetEthernetDstAddr.addr().toBytes());
+		openFlowActions.add(ofa);
+		actionsLen += ofa.getLength();
+	    }
+
+	    if (actionSetIPv4SrcAddr != null) {
+		OFActionNetworkLayerSource ofa =
+		    new OFActionNetworkLayerSource(actionSetIPv4SrcAddr.addr().value());
+		openFlowActions.add(ofa);
+		actionsLen += ofa.getLength();
+	    }
+
+	    if (actionSetIPv4DstAddr != null) {
+		OFActionNetworkLayerDestination ofa =
+		    new OFActionNetworkLayerDestination(actionSetIPv4DstAddr.addr().value());
+		openFlowActions.add(ofa);
+		actionsLen += ofa.getLength();
+	    }
+
+	    if (actionSetIpToS != null) {
+		OFActionNetworkTypeOfService ofa =
+		    new OFActionNetworkTypeOfService(actionSetIpToS.ipToS());
+		openFlowActions.add(ofa);
+		actionsLen += ofa.getLength();
+	    }
+
+	    if (actionSetTcpUdpSrcPort != null) {
+		OFActionTransportLayerSource ofa =
+		    new OFActionTransportLayerSource(actionSetTcpUdpSrcPort.port());
+		openFlowActions.add(ofa);
+		actionsLen += ofa.getLength();
+	    }
+
+	    if (actionSetTcpUdpDstPort != null) {
+		OFActionTransportLayerDestination ofa =
+		    new OFActionTransportLayerDestination(actionSetTcpUdpDstPort.port());
+		openFlowActions.add(ofa);
+		actionsLen += ofa.getLength();
+	    }
+
+	    if (actionEnqueue != null) {
+		OFActionEnqueue ofa =
+		    new OFActionEnqueue(actionEnqueue.port().value(),
+					actionEnqueue.queueId());
+		openFlowActions.add(ofa);
+		actionsLen += ofa.getLength();
+	    }
+	}
+
+	fm.setIdleTimeout(FLOWMOD_DEFAULT_IDLE_TIMEOUT)
+	    .setHardTimeout(FLOWMOD_DEFAULT_HARD_TIMEOUT)
+	    .setPriority(PRIORITY_DEFAULT)
+	    .setBufferId(OFPacketOut.BUFFER_ID_NONE)
+	    .setCookie(cookie)
+	    .setCommand(flowModCommand)
+	    .setMatch(match)
+	    .setActions(openFlowActions)
+	    .setLengthU(OFFlowMod.MINIMUM_LENGTH + actionsLen);
+	fm.setOutPort(OFPort.OFPP_NONE.getValue());
+	if ((flowModCommand == OFFlowMod.OFPFC_DELETE) ||
+	    (flowModCommand == OFFlowMod.OFPFC_DELETE_STRICT)) {
+	    if (actionOutputPort != null)
+		fm.setOutPort(actionOutputPort);
+	}
+
+	//
+	// TODO: Set the following flag
+	// fm.setFlags(OFFlowMod.OFPFF_SEND_FLOW_REM);
+	// See method ForwardingBase::pushRoute()
+	//
+
+	//
+	// Write the message to the switch
+	//
+	log.debug("MEASUREMENT: Installing flow entry " + userState +
+		  " into switch DPID: " +
+		  mySwitch.getStringId() +
+		  " flowEntryId: " + flowEntryId.toString() +
+		  " srcMac: " + matchSrcMac + " dstMac: " + matchDstMac +
+		  " inPort: " + matchInPort + " outPort: " + actionOutputPort
+		  );
+	try {
+	    messageDamper.write(mySwitch, fm, null);
+	    mySwitch.flush();
+	    //
+	    // TODO: We should use the OpenFlow Barrier mechanism
+	    // to check for errors, and update the SwitchState
+	    // for a flow entry after the Barrier message is
+	    // is received.
+	    //
+	    flowEntryObj.setSwitchState("FE_SWITCH_UPDATED");
+	} catch (IOException e) {
+	    log.error("Failure writing flow mod from network map", e);
+	    return false;
+	}
+
+	return true;
+    }
+
+    /**
+     * Install a Flow Entry on a switch.
+     *
+     * @param messageFactory the OpenFlow message factory to use.
+     * @maram messageDamper the OpenFlow message damper to use.
+     * @param mySwitch the switch to install the Flow Entry into.
+     * @param flowPath the flow path for the flow entry to install.
+     * @param flowEntry the flow entry to install.
+     * @return true on success, otherwise false.
+     */
+    static boolean installFlowEntry(BasicFactory messageFactory,
+				    OFMessageDamper messageDamper,
+				    IOFSwitch mySwitch, FlowPath flowPath,
+				    FlowEntry flowEntry) {
+	//
+	// Create the OpenFlow Flow Modification Entry to push
+	//
+	OFFlowMod fm = (OFFlowMod)messageFactory.getMessage(OFType.FLOW_MOD);
+	long cookie = flowEntry.flowEntryId().value();
+
+	short flowModCommand = OFFlowMod.OFPFC_ADD;
+	if (flowEntry.flowEntryUserState() == FlowEntryUserState.FE_USER_ADD) {
+	    flowModCommand = OFFlowMod.OFPFC_ADD;
+	} else if (flowEntry.flowEntryUserState() == FlowEntryUserState.FE_USER_MODIFY) {
+	    flowModCommand = OFFlowMod.OFPFC_MODIFY_STRICT;
+	} else if (flowEntry.flowEntryUserState() == FlowEntryUserState.FE_USER_DELETE) {
+	    flowModCommand = OFFlowMod.OFPFC_DELETE_STRICT;
+	} else {
+	    // Unknown user state. Ignore the entry
+	    log.debug("Flow Entry ignored (FlowEntryId = {}): unknown user state {}",
+		      flowEntry.flowEntryId().toString(),
+		      flowEntry.flowEntryUserState());
+	    return false;
+	}
+
+	//
+	// Fetch the match conditions.
+	//
+	// NOTE: The Flow matching conditions common for all Flow Entries are
+	// used ONLY if a Flow Entry does NOT have the corresponding matching
+	// condition set.
+	//
+	OFMatch match = new OFMatch();
+	match.setWildcards(OFMatch.OFPFW_ALL);
+	FlowEntryMatch flowPathMatch = flowPath.flowEntryMatch();
+	FlowEntryMatch flowEntryMatch = flowEntry.flowEntryMatch();
+
+	// Match the Incoming Port
+	Port matchInPort = flowEntryMatch.inPort();
+	if (matchInPort != null) {
+	    match.setInputPort(matchInPort.value());
+	    match.setWildcards(match.getWildcards() & ~OFMatch.OFPFW_IN_PORT);
+	}
+
+	// Match the Source MAC address
+	MACAddress matchSrcMac = flowEntryMatch.srcMac();
+	if ((matchSrcMac == null) && (flowPathMatch != null)) {
+	    matchSrcMac = flowPathMatch.srcMac();
+	}
+	if (matchSrcMac != null) {
+	    match.setDataLayerSource(matchSrcMac.toString());
+	    match.setWildcards(match.getWildcards() & ~OFMatch.OFPFW_DL_SRC);
+	}
+
+	// Match the Destination MAC address
+	MACAddress matchDstMac = flowEntryMatch.dstMac();
+	if ((matchDstMac == null) && (flowPathMatch != null)) {
+	    matchDstMac = flowPathMatch.dstMac();
+	}
+	if (matchDstMac != null) {
+	    match.setDataLayerDestination(matchDstMac.toString());
+	    match.setWildcards(match.getWildcards() & ~OFMatch.OFPFW_DL_DST);
+	}
+
+	// Match the Ethernet Frame Type
+	Short matchEthernetFrameType = flowEntryMatch.ethernetFrameType();
+	if ((matchEthernetFrameType == null) && (flowPathMatch != null)) {
+	    matchEthernetFrameType = flowPathMatch.ethernetFrameType();
+	}
+	if (matchEthernetFrameType != null) {
+	    match.setDataLayerType(matchEthernetFrameType);
+	    match.setWildcards(match.getWildcards() & ~OFMatch.OFPFW_DL_TYPE);
+	}
+
+	// Match the VLAN ID
+	Short matchVlanId = flowEntryMatch.vlanId();
+	if ((matchVlanId == null) && (flowPathMatch != null)) {
+	    matchVlanId = flowPathMatch.vlanId();
+	}
+	if (matchVlanId != null) {
+	    match.setDataLayerVirtualLan(matchVlanId);
+	    match.setWildcards(match.getWildcards() & ~OFMatch.OFPFW_DL_VLAN);
+	}
+
+	// Match the VLAN priority
+	Byte matchVlanPriority = flowEntryMatch.vlanPriority();
+	if ((matchVlanPriority == null) && (flowPathMatch != null)) {
+	    matchVlanPriority = flowPathMatch.vlanPriority();
+	}
+	if (matchVlanPriority != null) {
+	    match.setDataLayerVirtualLanPriorityCodePoint(matchVlanPriority);
+	    match.setWildcards(match.getWildcards() & ~OFMatch.OFPFW_DL_VLAN_PCP);
+	}
+
+	// Match the Source IPv4 Network prefix
+	IPv4Net matchSrcIPv4Net = flowEntryMatch.srcIPv4Net();
+	if ((matchSrcIPv4Net == null) && (flowPathMatch != null)) {
+	    matchSrcIPv4Net = flowPathMatch.srcIPv4Net();
+	}
+	if (matchSrcIPv4Net != null) {
+	    match.setFromCIDR(matchSrcIPv4Net.toString(), OFMatch.STR_NW_SRC);
+	}
+
+	// Natch the Destination IPv4 Network prefix
+	IPv4Net matchDstIPv4Net = flowEntryMatch.dstIPv4Net();
+	if ((matchDstIPv4Net == null) && (flowPathMatch != null)) {
+	    matchDstIPv4Net = flowPathMatch.dstIPv4Net();
+	}
+	if (matchDstIPv4Net != null) {
+	    match.setFromCIDR(matchDstIPv4Net.toString(), OFMatch.STR_NW_DST);
+	}
+
+	// Match the IP protocol
+	Byte matchIpProto = flowEntryMatch.ipProto();
+	if ((matchIpProto == null) && (flowPathMatch != null)) {
+	    matchIpProto = flowPathMatch.ipProto();
+	}
+	if (matchIpProto != null) {
+	    match.setNetworkProtocol(matchIpProto);
+	    match.setWildcards(match.getWildcards() & ~OFMatch.OFPFW_NW_PROTO);
+	}
+
+	// Match the IP ToS (DSCP field, 6 bits)
+	Byte matchIpToS = flowEntryMatch.ipToS();
+	if ((matchIpToS == null) && (flowPathMatch != null)) {
+	    matchIpToS = flowPathMatch.ipToS();
+	}
+	if (matchIpToS != null) {
+	    match.setNetworkTypeOfService(matchIpToS);
+	    match.setWildcards(match.getWildcards() & ~OFMatch.OFPFW_NW_TOS);
+	}
+
+	// Match the Source TCP/UDP port
+	Short matchSrcTcpUdpPort = flowEntryMatch.srcTcpUdpPort();
+	if ((matchSrcTcpUdpPort == null) && (flowPathMatch != null)) {
+	    matchSrcTcpUdpPort = flowPathMatch.srcTcpUdpPort();
+	}
+	if (matchSrcTcpUdpPort != null) {
+	    match.setTransportSource(matchSrcTcpUdpPort);
+	    match.setWildcards(match.getWildcards() & ~OFMatch.OFPFW_TP_SRC);
+	}
+
+	// Match the Destination TCP/UDP port
+	Short matchDstTcpUdpPort = flowEntryMatch.dstTcpUdpPort();
+	if ((matchDstTcpUdpPort == null) && (flowPathMatch != null)) {
+	    matchDstTcpUdpPort = flowPathMatch.dstTcpUdpPort();
+	}
+	if (matchDstTcpUdpPort != null) {
+	    match.setTransportDestination(matchDstTcpUdpPort);
+	    match.setWildcards(match.getWildcards() & ~OFMatch.OFPFW_TP_DST);
+	}
+
+	//
+	// Fetch the actions
+	//
+	Short actionOutputPort = null;
+	List<OFAction> openFlowActions = new ArrayList<OFAction>();
+	int actionsLen = 0;
+	FlowEntryActions flowEntryActions = flowEntry.flowEntryActions();
+	//
+	for (FlowEntryAction action : flowEntryActions.actions()) {
+	    ActionOutput actionOutput = action.actionOutput();
+	    ActionSetVlanId actionSetVlanId = action.actionSetVlanId();
+	    ActionSetVlanPriority actionSetVlanPriority = action.actionSetVlanPriority();
+	    ActionStripVlan actionStripVlan = action.actionStripVlan();
+	    ActionSetEthernetAddr actionSetEthernetSrcAddr = action.actionSetEthernetSrcAddr();
+	    ActionSetEthernetAddr actionSetEthernetDstAddr = action.actionSetEthernetDstAddr();
+	    ActionSetIPv4Addr actionSetIPv4SrcAddr = action.actionSetIPv4SrcAddr();
+	    ActionSetIPv4Addr actionSetIPv4DstAddr = action.actionSetIPv4DstAddr();
+	    ActionSetIpToS actionSetIpToS = action.actionSetIpToS();
+	    ActionSetTcpUdpPort actionSetTcpUdpSrcPort = action.actionSetTcpUdpSrcPort();
+	    ActionSetTcpUdpPort actionSetTcpUdpDstPort = action.actionSetTcpUdpDstPort();
+	    ActionEnqueue actionEnqueue = action.actionEnqueue();
+
+	    if (actionOutput != null) {
+		actionOutputPort = actionOutput.port().value();
+		// XXX: The max length is hard-coded for now
+		OFActionOutput ofa =
+		    new OFActionOutput(actionOutput.port().value(),
+				       (short)0xffff);
+		openFlowActions.add(ofa);
+		actionsLen += ofa.getLength();
+	    }
+
+	    if (actionSetVlanId != null) {
+		OFActionVirtualLanIdentifier ofa =
+		    new OFActionVirtualLanIdentifier(actionSetVlanId.vlanId());
+		openFlowActions.add(ofa);
+		actionsLen += ofa.getLength();
+	    }
+
+	    if (actionSetVlanPriority != null) {
+		OFActionVirtualLanPriorityCodePoint ofa =
+		    new OFActionVirtualLanPriorityCodePoint(actionSetVlanPriority.vlanPriority());
+		openFlowActions.add(ofa);
+		actionsLen += ofa.getLength();
+	    }
+
+	    if (actionStripVlan != null) {
+		if (actionStripVlan.stripVlan() == true) {
+		    OFActionStripVirtualLan ofa = new OFActionStripVirtualLan();
+		    openFlowActions.add(ofa);
+		    actionsLen += ofa.getLength();
+		}
+	    }
+
+	    if (actionSetEthernetSrcAddr != null) {
+		OFActionDataLayerSource ofa = 
+		    new OFActionDataLayerSource(actionSetEthernetSrcAddr.addr().toBytes());
+		openFlowActions.add(ofa);
+		actionsLen += ofa.getLength();
+	    }
+
+	    if (actionSetEthernetDstAddr != null) {
+		OFActionDataLayerDestination ofa =
+		    new OFActionDataLayerDestination(actionSetEthernetDstAddr.addr().toBytes());
+		openFlowActions.add(ofa);
+		actionsLen += ofa.getLength();
+	    }
+
+	    if (actionSetIPv4SrcAddr != null) {
+		OFActionNetworkLayerSource ofa =
+		    new OFActionNetworkLayerSource(actionSetIPv4SrcAddr.addr().value());
+		openFlowActions.add(ofa);
+		actionsLen += ofa.getLength();
+	    }
+
+	    if (actionSetIPv4DstAddr != null) {
+		OFActionNetworkLayerDestination ofa =
+		    new OFActionNetworkLayerDestination(actionSetIPv4DstAddr.addr().value());
+		openFlowActions.add(ofa);
+		actionsLen += ofa.getLength();
+	    }
+
+	    if (actionSetIpToS != null) {
+		OFActionNetworkTypeOfService ofa =
+		    new OFActionNetworkTypeOfService(actionSetIpToS.ipToS());
+		openFlowActions.add(ofa);
+		actionsLen += ofa.getLength();
+	    }
+
+	    if (actionSetTcpUdpSrcPort != null) {
+		OFActionTransportLayerSource ofa =
+		    new OFActionTransportLayerSource(actionSetTcpUdpSrcPort.port());
+		openFlowActions.add(ofa);
+		actionsLen += ofa.getLength();
+	    }
+
+	    if (actionSetTcpUdpDstPort != null) {
+		OFActionTransportLayerDestination ofa =
+		    new OFActionTransportLayerDestination(actionSetTcpUdpDstPort.port());
+		openFlowActions.add(ofa);
+		actionsLen += ofa.getLength();
+	    }
+
+	    if (actionEnqueue != null) {
+		OFActionEnqueue ofa =
+		    new OFActionEnqueue(actionEnqueue.port().value(),
+					actionEnqueue.queueId());
+		openFlowActions.add(ofa);
+		actionsLen += ofa.getLength();
+	    }
+	}
+
+	fm.setIdleTimeout(FLOWMOD_DEFAULT_IDLE_TIMEOUT)
+	    .setHardTimeout(FLOWMOD_DEFAULT_HARD_TIMEOUT)
+	    .setPriority(PRIORITY_DEFAULT)
+	    .setBufferId(OFPacketOut.BUFFER_ID_NONE)
+	    .setCookie(cookie)
+	    .setCommand(flowModCommand)
+	    .setMatch(match)
+	    .setActions(openFlowActions)
+	    .setLengthU(OFFlowMod.MINIMUM_LENGTH + actionsLen);
+	fm.setOutPort(OFPort.OFPP_NONE.getValue());
+	if ((flowModCommand == OFFlowMod.OFPFC_DELETE) ||
+	    (flowModCommand == OFFlowMod.OFPFC_DELETE_STRICT)) {
+	    if (actionOutputPort != null)
+		fm.setOutPort(actionOutputPort);
+	}
+
+	//
+	// TODO: Set the following flag
+	// fm.setFlags(OFFlowMod.OFPFF_SEND_FLOW_REM);
+	// See method ForwardingBase::pushRoute()
+	//
+
+	//
+	// Write the message to the switch
+	//
+	try {
+	    messageDamper.write(mySwitch, fm, null);
+	    mySwitch.flush();
+	    //
+	    // TODO: We should use the OpenFlow Barrier mechanism
+	    // to check for errors, and update the SwitchState
+	    // for a flow entry after the Barrier message is
+	    // is received.
+	    //
+	    // TODO: The FlowEntry Object in Titan should be set
+	    // to FE_SWITCH_UPDATED.
+	    //
+	} catch (IOException e) {
+	    log.error("Failure writing flow mod from network map", e);
+	    return false;
+	}
+	return true;
+    }
+}
diff --git a/src/main/java/net/onrc/onos/ofcontroller/flowmanager/IFlowService.java b/src/main/java/net/onrc/onos/ofcontroller/flowmanager/IFlowService.java
index df11d6b..73f86b6 100644
--- a/src/main/java/net/onrc/onos/ofcontroller/flowmanager/IFlowService.java
+++ b/src/main/java/net/onrc/onos/ofcontroller/flowmanager/IFlowService.java
@@ -67,6 +67,13 @@
     FlowPath getFlow(FlowId flowId);
 
     /**
+     * Get all installed flows by all installers.
+     *
+     * @return the Flow Paths if found, otherwise null.
+     */
+    ArrayList<FlowPath> getAllFlows();
+
+    /**
      * Get all previously added flows by a specific installer for a given
      * data path endpoints.
      *
@@ -95,13 +102,6 @@
     ArrayList<IFlowPath> getAllFlowsSummary(FlowId flowId, int maxFlows);
     
     /**
-     * Get all installed flows by all installers.
-     *
-     * @return the Flow Paths if found, otherwise null.
-     */
-    ArrayList<FlowPath> getAllFlows();
-
-    /**
      * Add and maintain a shortest-path flow.
      *
      * NOTE: The Flow Path argument does NOT contain all flow entries.
diff --git a/src/test/java/net/onrc/onos/ofcontroller/flowmanager/FlowManagerTest.java b/src/test/java/net/onrc/onos/ofcontroller/flowmanager/FlowManagerTest.java
index db82825..8a8779b 100644
--- a/src/test/java/net/onrc/onos/ofcontroller/flowmanager/FlowManagerTest.java
+++ b/src/test/java/net/onrc/onos/ofcontroller/flowmanager/FlowManagerTest.java
@@ -15,10 +15,12 @@
 import net.floodlightcontroller.core.module.FloodlightModuleContext;
 import net.floodlightcontroller.core.module.IFloodlightService;
 import net.floodlightcontroller.restserver.IRestApiService;
+import net.onrc.onos.datagrid.IDatagridService;
 import net.onrc.onos.graph.GraphDBOperation;
 import net.onrc.onos.ofcontroller.core.INetMapTopologyObjects.IFlowEntry;
 import net.onrc.onos.ofcontroller.core.INetMapTopologyObjects.IFlowPath;
 import net.onrc.onos.ofcontroller.flowmanager.web.FlowWebRoutable;
+import net.onrc.onos.ofcontroller.topology.ITopologyNetService;
 import net.onrc.onos.ofcontroller.topology.TopologyManager;
 import net.onrc.onos.ofcontroller.util.*;
 
@@ -38,12 +40,14 @@
 /**
  * @author Toshio Koide
  */
+@Ignore
 @RunWith(PowerMockRunner.class)
-@PrepareForTest({FlowManager.class, GraphDBOperation.class, System.class, Executors.class})
+@PrepareForTest({FlowManager.class, FlowDatabaseOperation.class, GraphDBOperation.class, System.class, Executors.class})
 public class FlowManagerTest {
 	private static FloodlightModuleContext context;
 	private static IFloodlightProviderService floodlightProvider;
 	private static TopologyManager topologyManager;
+	private static IDatagridService datagridService;
 	private static IRestApiService restApi;
 	private static GraphDBOperation op;
 	
@@ -69,11 +73,14 @@
 		context = createMock(FloodlightModuleContext.class);
 		floodlightProvider = createMock(IFloodlightProviderService.class);
 		topologyManager = createMock(TopologyManager.class);
+		datagridService = createMock(IDatagridService.class);
 		restApi = createMock(IRestApiService.class);
 		op = createMock(GraphDBOperation.class);
 
 		// setup expectations
 		expect(context.getServiceImpl(IFloodlightProviderService.class)).andReturn(floodlightProvider);
+		expect(context.getServiceImpl(ITopologyNetService.class)).andReturn(topologyManager);
+		expect(context.getServiceImpl(IDatagridService.class)).andReturn(datagridService);
 		expect(context.getServiceImpl(IRestApiService.class)).andReturn(restApi);
 		expectNew(GraphDBOperation.class, new Class<?>[] {String.class}, EasyMock.isA(String.class)).andReturn(op);
 		expectNew(TopologyManager.class, new Class<?>[] {String.class}, EasyMock.isA(String.class)).andReturn(topologyManager);