Merge "minor fixes per Jon's comment"
diff --git a/TestON/tests/FUNCipv6Intent/Dependency/FUNCIpv6IntentFunction.py b/TestON/tests/FUNCipv6Intent/Dependency/FUNCIpv6IntentFunction.py
new file mode 100644
index 0000000..07de625
--- /dev/null
+++ b/TestON/tests/FUNCipv6Intent/Dependency/FUNCIpv6IntentFunction.py
@@ -0,0 +1,1633 @@
+"""
+    Wrapper functions for FuncIntent
+    This functions include Onosclidriver and Mininetclidriver driver functions
+    Author: subhash_singh@criterionnetworks.com
+"""
+import time
+import copy
+import json
+
+def __init__( self ):
+    self.default = ''
+
+def hostIntent( main,
+                name,
+                host1,
+                host2,
+                onosNode=0,
+                host1Id="",
+                host2Id="",
+                mac1="",
+                mac2="",
+                vlan1="-1",
+                vlan2="-1",
+                sw1="",
+                sw2="",
+                expectedLink=0 ):
+    """
+    Description:
+        Verify add-host-intent
+    Steps:
+        - Discover hosts
+        - Add host intents
+        - Check intents
+        - Verify flows
+        - Ping hosts
+        - Reroute
+            - Link down
+            - Verify flows
+            - Check topology
+            - Ping hosts
+            - Link up
+            - Verify flows
+            - Check topology
+            - Ping hosts
+        - Remove intents
+    Required:
+        name - Type of host intent to add eg. IPV4 | VLAN | Dualstack
+        host1 - Name of first host
+        host2 - Name of second host
+    Optional:
+        onosNode - ONOS node to install the intents in main.CLIs[ ]
+                   0 by default so that it will always use the first
+                   ONOS node
+        host1Id - ONOS id of the first host eg. 00:00:00:00:00:01/-1
+        host2Id - ONOS id of the second host
+        mac1 - Mac address of first host
+        mac2 - Mac address of the second host
+        vlan1 - Vlan tag of first host, defaults to -1
+        vlan2 - Vlan tag of second host, defaults to -1
+        sw1 - First switch to bring down & up for rerouting purpose
+        sw2 - Second switch to bring down & up for rerouting purpose
+        expectedLink - Expected link when the switches are down, it should
+                       be two links lower than the links before the two
+                       switches are down
+    Return:
+        Returns main.TRUE if all verification passed, otherwise return
+        main.FALSE; returns main.FALSE if there is a key error
+    """
+
+    # Assert variables
+    assert main, "There is no main variable"
+    assert name, "variable name is empty"
+    assert host1 and host2, "You must specify hosts"
+
+    global itemName
+    itemName = name
+    h1Id = host1Id
+    h2Id = host2Id
+    h1Mac = mac1
+    h2Mac = mac2
+    vlan1 = vlan1
+    vlan2 = vlan2
+    hostNames = [ host1 , host2 ]
+    intentsId = []
+    stepResult = main.TRUE
+    pingResult = main.TRUE
+    intentResult = main.TRUE
+    removeIntentResult = main.TRUE
+    flowResult = main.TRUE
+    topoResult = main.TRUE
+    linkDownResult = main.TRUE
+    linkUpResult = main.TRUE
+    onosNode = int( onosNode )
+
+    try:
+        if main.hostsData:
+            if not h1Mac:
+                h1Mac = main.hostsData[ host1 ][ 'mac' ]
+            if not h2Mac:
+                h2Mac = main.hostsData[ host2 ][ 'mac' ]
+            if main.hostsData[ host1 ].get( 'vlan' ):
+                vlan1 = main.hostsData[ host1 ][ 'vlan' ]
+            if main.hostsData[ host1 ].get( 'vlan' ):
+                vlan2 = main.hostsData[ host2 ][ 'vlan' ]
+            if not h1Id:
+                h1Id = main.hostsData[ host1 ][ 'id' ]
+            if not h2Id:
+                h2Id = main.hostsData[ host2 ][ 'id' ]
+
+        assert h1Id and h2Id, "You must specify host IDs"
+        if not ( h1Id and h2Id ):
+            main.log.info( "There are no host IDs" )
+            return main.FALSE
+
+    except KeyError:
+        main.log.error( itemName + ": Key error Exception" )
+        return main.FALSE
+
+    # Discover hosts using arping incase pingall discovery failed
+    main.log.info( itemName + ": Discover host using arping" )
+    main.Mininet1.arping( srcHost=host1, dstHost=host2 )
+    main.Mininet1.arping( srcHost=host2, dstHost=host1 )
+    host1 = main.CLIs[ 0 ].getHost( mac=h1Mac )
+    host2 = main.CLIs[ 0 ].getHost( mac=h2Mac )
+
+    # Check flows count in each node
+    checkFlowsCount( main )
+
+    # Adding host intents
+    main.log.info( itemName + ": Adding host intents" )
+    intent1 = main.CLIs[ onosNode ].addHostIntent( hostIdOne=h1Id,
+                                                   hostIdTwo=h2Id )
+    intentsId.append( intent1 )
+
+    # Check intents state
+    time.sleep( main.checkIntentSleep )
+    intentResult = checkIntentState( main, intentsId )
+    checkFlowsCount( main )
+
+    # Check intents state again if first check fails...
+    if not intentResult:
+        intentResult = checkIntentState( main, intentsId )
+
+    # Check flows count in each node
+    checkFlowsCount( main )
+    # Verify flows
+    checkFlowsState( main )
+
+    # Ping hosts
+    firstPingResult = pingallHosts( main, hostNames )
+    if not firstPingResult:
+        main.log.debug( "First ping failed, there must be" +
+                       " something wrong with ONOS performance" )
+
+    # Ping hosts again...
+    pingTemp = pingallHosts( main, hostNames )
+    pingResult = pingResult and pingTemp
+    if pingTemp:
+        main.assertReturnString += 'Initial Pingall Passed\n'
+    else:
+        main.assertReturnString += 'Initial Pingall Failed\n'
+
+    # Test rerouting if these variables exist
+    if sw1 and sw2 and expectedLink:
+        # Link down
+        linkDownResult = link( main, sw1, sw2, "down" )
+
+        if linkDownResult:
+            main.assertReturnString += 'Link Down Passed\n'
+        else:
+            main.assertReturnString += 'Link Down Failed\n'
+
+        # Check flows count in each node
+        checkFlowsCount( main )
+        # Verify flows
+        checkFlowsState( main )
+
+        # Check OnosTopology
+        topoResult = checkTopology( main, expectedLink )
+        if topoResult:
+            main.assertReturnString += 'Link Down Topology State Passed\n'
+        else:
+            main.assertReturnString += 'Link Down Topology State Failed\n'
+
+        # Ping hosts
+        pingTemp = pingallHosts( main, hostNames )
+        pingResult = pingResult and pingTemp
+
+        if pingTemp:
+            main.assertReturnString += 'Link Down Pingall Passed\n'
+        else:
+            main.assertReturnString += 'Link Down Pingall Failed\n'
+
+        # Check intent states
+        intentTemp = checkIntentState( main, intentsId )
+        intentResult = intentResult and intentTemp
+        if intentTemp:
+            main.assertReturnString += 'Link Down Intent State Passed\n'
+        else:
+            main.assertReturnString += 'Link Down Intent State Failed\n'
+
+        # Checks ONOS state in link down
+        if linkDownResult and topoResult and pingResult and intentResult:
+            main.log.info( itemName + ": Successfully brought link down" )
+        else:
+            main.log.error( itemName + ": Failed to bring link down" )
+
+        # Link up
+        linkUpResult = link( main, sw1, sw2, "up" )
+        time.sleep( main.rerouteSleep )
+
+        if linkUpResult:
+            main.assertReturnString += 'Link Up Passed\n'
+        else:
+            main.assertReturnString += 'Link Up Failed\n'
+
+        # Check flows count in each node
+        checkFlowsCount( main )
+        # Verify flows
+        checkFlowsState( main )
+
+        # Check OnosTopology
+        topoResult = checkTopology( main, main.numLinks )
+
+        if topoResult:
+            main.assertReturnString += 'Link Up Topology State Passed\n'
+        else:
+            main.assertReturnString += 'Link Up Topology State Failed\n'
+
+        # Ping hosts
+        pingTemp = pingallHosts( main, hostNames )
+        pingResult = pingResult and pingTemp
+
+        if pingTemp:
+            main.assertReturnString += 'Link Up Pingall Passed\n'
+        else:
+            main.assertReturnString += 'Link Up Pingall Failed\n'
+
+        intentTemp = checkIntentState( main, intentsId )
+        intentResult = intentResult and intentTemp
+        if intentTemp:
+            main.assertReturnString += 'Link Up Intent State Passed\n'
+        else:
+            main.assertReturnString += 'Link Up Intent State Failed\n'
+
+        # Checks ONOS state in link up
+        if linkUpResult and topoResult and pingResult and intentResult:
+            main.log.info( itemName + ": Successfully brought link back up" )
+        else:
+            main.log.error( itemName + ": Failed to bring link back up" )
+
+    # Remove all intents
+    removeIntentResult = removeAllIntents( main, intentsId )
+
+    if removeIntentResult:
+        main.assertReturnString += 'Remove Intents Passed'
+    else:
+        main.assertReturnString += 'Remove Intents Failed'
+
+    stepResult = pingResult and linkDownResult and linkUpResult \
+                 and intentResult and removeIntentResult
+
+    return stepResult
+
+def pointIntent( main,
+                 name,
+                 host1,
+                 host2,
+                 onosNode=0,
+                 deviceId1="",
+                 deviceId2="",
+                 port1="",
+                 port2="",
+                 ethType="",
+                 mac1="",
+                 mac2="",
+                 bandwidth="",
+                 lambdaAlloc=False,
+                 ipProto="",
+                 ip1="",
+                 ip2="",
+                 tcp1="",
+                 tcp2="",
+                 sw1="",
+                 sw2="",
+                 expectedLink=0 ):
+
+    """
+    Description:
+        Verify add-point-intent
+    Steps:
+        - Get device ids | ports
+        - Add point intents
+        - Check intents
+        - Verify flows
+        - Ping hosts
+        - Reroute
+            - Link down
+            - Verify flows
+            - Check topology
+            - Ping hosts
+            - Link up
+            - Verify flows
+            - Check topology
+            - Ping hosts
+        - Remove intents
+    Required:
+        name - Type of point intent to add eg. IPV4 | VLAN | Dualstack
+        host1 - Name of first host
+        host2 - Name of second host
+    Optional:
+        onosNode - ONOS node to install the intents in main.CLIs[ ]
+                   0 by default so that it will always use the first
+                   ONOS node
+        deviceId1 - ONOS device id of the first switch, the same as the
+                    location of the first host eg. of:0000000000000001/1,
+                    located at device 1 port 1
+        deviceId2 - ONOS device id of the second switch
+        port1 - The port number where the first host is attached
+        port2 - The port number where the second host is attached
+        ethType - Ethernet type eg. IPV4, IPV6
+        mac1 - Mac address of first host
+        mac2 - Mac address of the second host
+        bandwidth - Bandwidth capacity
+        lambdaAlloc - Allocate lambda, defaults to False
+        ipProto - IP protocol
+        ip1 - IP address of first host
+        ip2 - IP address of second host
+        tcp1 - TCP port of first host
+        tcp2 - TCP port of second host
+        sw1 - First switch to bring down & up for rerouting purpose
+        sw2 - Second switch to bring down & up for rerouting purpose
+        expectedLink - Expected link when the switches are down, it should
+                       be two links lower than the links before the two
+                       switches are down
+    """
+
+    assert main, "There is no main variable"
+    assert name, "variable name is empty"
+    assert host1 and host2, "You must specify hosts"
+
+    global itemName
+    itemName = name
+    host1 = host1
+    host2 = host2
+    hostNames = [ host1, host2 ]
+    intentsId = []
+
+    pingResult = main.TRUE
+    intentResult = main.TRUE
+    removeIntentResult = main.TRUE
+    flowResult = main.TRUE
+    topoResult = main.TRUE
+    linkDownResult = main.TRUE
+    linkUpResult = main.TRUE
+    onosNode = int( onosNode )
+
+    # Adding bidirectional point  intents
+    main.log.info( itemName + ": Adding point intents" )
+    intent1 = main.CLIs[ onosNode ].addPointIntent( ingressDevice=deviceId1,
+                                             egressDevice=deviceId2,
+                                             portIngress=port1,
+                                             portEgress=port2,
+                                             ethType=ethType,
+                                             ethSrc=mac1,
+                                             ethDst=mac2,
+                                             bandwidth=bandwidth,
+                                             lambdaAlloc=lambdaAlloc,
+                                             ipProto=ipProto,
+                                             ipSrc=ip1,
+                                             ipDst=ip2,
+                                             tcpSrc=tcp1,
+                                             tcpDst=tcp2 )
+
+    intentsId.append( intent1 )
+    intent2 = main.CLIs[ onosNode ].addPointIntent( ingressDevice=deviceId2,
+                                             egressDevice=deviceId1,
+                                             portIngress=port2,
+                                             portEgress=port1,
+                                             ethType=ethType,
+                                             ethSrc=mac2,
+                                             ethDst=mac1,
+                                             bandwidth=bandwidth,
+                                             lambdaAlloc=lambdaAlloc,
+                                             ipProto=ipProto,
+                                             ipSrc=ip2,
+                                             ipDst=ip1,
+                                             tcpSrc=tcp2,
+                                             tcpDst=tcp1 )
+    intentsId.append( intent2 )
+
+    # Check intents state
+    time.sleep( main.checkIntentSleep )
+    intentResult = checkIntentState( main, intentsId )
+    # Check flows count in each node
+    checkFlowsCount( main )
+
+    # Check intents state again if first check fails...
+    if not intentResult:
+        intentResult = checkIntentState( main, intentsId )
+
+    # Check flows count in each node
+    checkFlowsCount( main )
+    # Verify flows
+    checkFlowsState( main )
+
+    # Ping hosts
+    pingTemp = pingallHosts( main, hostNames )
+    pingResult = pingResult and pingTemp
+    if pingTemp:
+        main.assertReturnString += 'Initial Pingall Passed\n'
+    else:
+        main.assertReturnString += 'Initial Pingall Failed\n'
+
+    # Test rerouting if these variables exist
+    if sw1 and sw2 and expectedLink:
+        # link down
+        linkDownResult = link( main, sw1, sw2, "down" )
+
+        if linkDownResult:
+            main.assertReturnString += 'Link Down Passed\n'
+        else:
+            main.assertReturnString += 'Link Down Failed\n'
+
+        # Check flows count in each node
+        checkFlowsCount( main )
+        # Verify flows
+        checkFlowsState( main )
+
+        # Check OnosTopology
+        topoResult = checkTopology( main, expectedLink )
+        if topoResult:
+            main.assertReturnString += 'Link Down Topology State Passed\n'
+        else:
+            main.assertReturnString += 'Link Down Topology State Failed\n'
+
+        # Ping hosts
+        pingTemp = pingallHosts( main, hostNames )
+        pingResult = pingResult and pingTemp
+        if pingTemp:
+            main.assertReturnString += 'Link Down Pingall Passed\n'
+        else:
+            main.assertReturnString += 'Link Down Pingall Failed\n'
+
+        # Check intent state
+        intentTemp = checkIntentState( main, intentsId )
+        intentResult = intentResult and intentTemp
+        if intentTemp:
+            main.assertReturnString += 'Link Down Intent State Passed\n'
+        else:
+            main.assertReturnString += 'Link Down Intent State Failed\n'
+
+        # Checks ONOS state in link down
+        if linkDownResult and topoResult and pingResult and intentResult:
+            main.log.info( itemName + ": Successfully brought link down" )
+        else:
+            main.log.error( itemName + ": Failed to bring link down" )
+
+        # link up
+        linkUpResult = link( main, sw1, sw2, "up" )
+        if linkUpResult:
+            main.assertReturnString += 'Link Up Passed\n'
+        else:
+            main.assertReturnString += 'Link Up Failed\n'
+
+        time.sleep( main.rerouteSleep )
+
+        # Check flows count in each node
+        checkFlowsCount( main )
+        # Verify flows
+        checkFlowsState( main )
+
+        # Check OnosTopology
+        topoResult = checkTopology( main, main.numLinks )
+        if topoResult:
+            main.assertReturnString += 'Link Up Topology State Passed\n'
+        else:
+            main.assertReturnString += 'Link Up Topology State Failed\n'
+
+        # Ping hosts
+        pingTemp = pingallHosts( main, hostNames )
+        pingResult = pingResult and pingTemp
+
+        if pingTemp:
+            main.assertReturnString += 'Link Up Pingall Passed\n'
+        else:
+            main.assertReturnString += 'Link Up Pingall Failed\n'
+
+        intentTemp = checkIntentState( main, intentsId )
+        intentResult = intentResult and intentTemp
+        if intentTemp:
+            main.assertReturnString += 'Link Up Intent State Passed\n'
+        else:
+            main.assertReturnString += 'Link Up Intent State Failed\n'
+
+        # Checks ONOS state in link up
+        if linkUpResult and topoResult and pingResult and intentResult:
+            main.log.info( itemName + ": Successfully brought link back up" )
+        else:
+            main.log.error( itemName + ": Failed to bring link back up" )
+
+    # Remove all intents
+    removeIntentResult = removeAllIntents( main, intentsId )
+    if removeIntentResult:
+        main.assertReturnString += 'Remove Intents Passed'
+    else:
+        main.assertReturnString += 'Remove Intents Failed'
+
+    stepResult = pingResult and linkDownResult and linkUpResult \
+                 and intentResult and removeIntentResult
+
+    return stepResult
+
+def pointIntentTcp( main,
+                    name,
+                    host1,
+                    host2,
+                    onosNode=0,
+                    deviceId1="",
+                    deviceId2="",
+                    port1="",
+                    port2="",
+                    ethType="",
+                    mac1="",
+                    mac2="",
+                    bandwidth="",
+                    lambdaAlloc=False,
+                    ipProto="",
+                    ip1="",
+                    ip2="",
+                    tcp1="",
+                    tcp2="",
+                    sw1="",
+                    sw2="",
+                    expectedLink=0 ):
+
+    """
+    Description:
+        Verify add-point-intent only for TCP
+    Steps:
+        - Get device ids | ports
+        - Add point intents
+        - Check intents
+        - Verify flows
+        - Ping hosts
+        - Reroute
+            - Link down
+            - Verify flows
+            - Check topology
+            - Ping hosts
+            - Link up
+            - Verify flows
+            - Check topology
+            - Ping hosts
+        - Remove intents
+    Required:
+        name - Type of point intent to add eg. IPV4 | VLAN | Dualstack
+        host1 - Name of first host
+        host2 - Name of second host
+    Optional:
+        onosNode - ONOS node to install the intents in main.CLIs[ ]
+                   0 by default so that it will always use the first
+                   ONOS node
+        deviceId1 - ONOS device id of the first switch, the same as the
+                    location of the first host eg. of:0000000000000001/1,
+                    located at device 1 port 1
+        deviceId2 - ONOS device id of the second switch
+        port1 - The port number where the first host is attached
+        port2 - The port number where the second host is attached
+        ethType - Ethernet type eg. IPV4, IPV6
+        mac1 - Mac address of first host
+        mac2 - Mac address of the second host
+        bandwidth - Bandwidth capacity
+        lambdaAlloc - Allocate lambda, defaults to False
+        ipProto - IP protocol
+        ip1 - IP address of first host
+        ip2 - IP address of second host
+        tcp1 - TCP port of first host
+        tcp2 - TCP port of second host
+        sw1 - First switch to bring down & up for rerouting purpose
+        sw2 - Second switch to bring down & up for rerouting purpose
+        expectedLink - Expected link when the switches are down, it should
+                       be two links lower than the links before the two
+                       switches are down
+    """
+
+    assert main, "There is no main variable"
+    assert name, "variable name is empty"
+    assert host1 and host2, "You must specify hosts"
+
+    global itemName
+    itemName = name
+    host1 = host1
+    host2 = host2
+    hostNames = [ host1, host2 ]
+    intentsId = []
+
+    iperfResult = main.TRUE
+    intentResult = main.TRUE
+    removeIntentResult = main.TRUE
+    flowResult = main.TRUE
+    topoResult = main.TRUE
+    linkDownResult = main.TRUE
+    linkUpResult = main.TRUE
+    onosNode = int( onosNode )
+
+    # Adding bidirectional point  intents
+    main.log.info( itemName + ": Adding point intents" )
+    intent1 = main.CLIs[ onosNode ].addPointIntent( ingressDevice=deviceId1,
+                                                    egressDevice=deviceId2,
+                                                    portIngress=port1,
+                                                    portEgress=port2,
+                                                    ethType=ethType,
+                                                    ethSrc=mac1,
+                                                    ethDst=mac2,
+                                                    bandwidth=bandwidth,
+                                                    lambdaAlloc=lambdaAlloc,
+                                                    ipProto=ipProto,
+                                                    ipSrc=ip1,
+                                                    ipDst=ip2,
+                                                    tcpSrc=tcp1,
+                                                    tcpDst="" )
+
+    intent2 = main.CLIs[ onosNode ].addPointIntent( ingressDevice=deviceId2,
+                                                    egressDevice=deviceId1,
+                                                    portIngress=port2,
+                                                    portEgress=port1,
+                                                    ethType=ethType,
+                                                    ethSrc=mac2,
+                                                    ethDst=mac1,
+                                                    bandwidth=bandwidth,
+                                                    lambdaAlloc=lambdaAlloc,
+                                                    ipProto=ipProto,
+                                                    ipSrc=ip2,
+                                                    ipDst=ip1,
+                                                    tcpSrc=tcp2,
+                                                    tcpDst="" )
+
+    intent3 = main.CLIs[ onosNode ].addPointIntent( ingressDevice=deviceId1,
+                                                    egressDevice=deviceId2,
+                                                    portIngress=port1,
+                                                    portEgress=port2,
+                                                    ethType=ethType,
+                                                    ethSrc=mac1,
+                                                    ethDst=mac2,
+                                                    bandwidth=bandwidth,
+                                                    lambdaAlloc=lambdaAlloc,
+                                                    ipProto=ipProto,
+                                                    ipSrc=ip1,
+                                                    ipDst=ip2,
+                                                    tcpSrc="",
+                                                    tcpDst=tcp2 )
+
+    intent4 = main.CLIs[ onosNode ].addPointIntent( ingressDevice=deviceId2,
+                                                    egressDevice=deviceId1,
+                                                    portIngress=port2,
+                                                    portEgress=port1,
+                                                    ethType=ethType,
+                                                    ethSrc=mac2,
+                                                    ethDst=mac1,
+                                                    bandwidth=bandwidth,
+                                                    lambdaAlloc=lambdaAlloc,
+                                                    ipProto=ipProto,
+                                                    ipSrc=ip2,
+                                                    ipDst=ip1,
+                                                    tcpSrc="",
+                                                    tcpDst=tcp1 )
+    intentsId.append( intent1 )
+    intentsId.append( intent2 )
+    intentsId.append( intent3 )
+    intentsId.append( intent4 )
+
+    # Check intents state
+    time.sleep( main.checkIntentSleep )
+    intentResult = checkIntentState( main, intentsId )
+    # Check flows count in each node
+    checkFlowsCount( main )
+
+    # Check intents state again if first check fails...
+    if not intentResult:
+        intentResult = checkIntentState( main, intentsId )
+
+    # Check flows count in each node
+    checkFlowsCount( main )
+
+    # Verify flows
+    checkFlowsState( main )
+
+    # Run iperf to both host
+    iperfTemp = main.Mininet1.iperftcp( host1,host2,10 )
+    iperfResult = iperfResult and iperfTemp
+    if iperfTemp:
+        main.assertReturnString += 'Initial Iperf Passed\n'
+    else:
+        main.assertReturnString += 'Initial Iperf Failed\n'
+
+    # Test rerouting if these variables exist
+    if sw1 and sw2 and expectedLink:
+        # link down
+        linkDownResult = link( main, sw1, sw2, "down" )
+
+        if linkDownResult:
+            main.assertReturnString += 'Link Down Passed\n'
+        else:
+            main.assertReturnString += 'Link Down Failed\n'
+
+        # Check flows count in each node
+        checkFlowsCount( main )
+        # Verify flows
+        checkFlowsState( main )
+
+        # Check OnosTopology
+        topoResult = checkTopology( main, expectedLink )
+        if topoResult:
+            main.assertReturnString += 'Link Down Topology State Passed\n'
+        else:
+            main.assertReturnString += 'Link Down Topology State Failed\n'
+
+        # Run iperf to both host
+        iperfTemp = main.Mininet1.iperftcp( host1,host2,10 )
+        iperfResult = iperfResult and iperfTemp
+        if iperfTemp:
+            main.assertReturnString += 'Link Down Iperf Passed\n'
+        else:
+            main.assertReturnString += 'Link Down Iperf Failed\n'
+
+        # Check intent state
+        intentTemp = checkIntentState( main, intentsId )
+        intentResult = intentResult and intentTemp
+        if intentTemp:
+            main.assertReturnString += 'Link Down Intent State Passed\n'
+        else:
+            main.assertReturnString += 'Link Down Intent State Failed\n'
+
+        # Checks ONOS state in link down
+        if linkDownResult and topoResult and iperfResult and intentResult:
+            main.log.info( itemName + ": Successfully brought link down" )
+        else:
+            main.log.error( itemName + ": Failed to bring link down" )
+
+        # link up
+        linkUpResult = link( main, sw1, sw2, "up" )
+        if linkUpTemp:
+            main.assertReturnString += 'Link Up Passed\n'
+        else:
+            main.assertReturnString += 'Link Up Failed\n'
+
+        time.sleep( main.rerouteSleep )
+
+        # Check flows count in each node
+        checkFlowsCount( main )
+        # Verify flows
+        checkFlowsState( main )
+
+        # Check OnosTopology
+        topoResult = checkTopology( main, main.numLinks )
+
+        if topoResult:
+            main.assertReturnString += 'Link Up Topology State Passed\n'
+        else:
+            main.assertReturnString += 'Link Up Topology State Failed\n'
+
+        # Run iperf to both host
+        iperfTemp = main.Mininet1.iperftcp( host1,host2,10 )
+        iperfResult = iperfResult and iperfTemp
+        if iperfTemp:
+            main.assertReturnString += 'Link Up Iperf Passed\n'
+        else:
+            main.assertReturnString += 'Link Up Iperf Failed\n'
+
+        # Check intent state
+        intentTemp = checkIntentState( main, intentsId )
+        intentResult = intentResult and intentTemp
+        if intentTemp:
+            main.assertReturnString += 'Link Down Intent State Passed\n'
+        else:
+            main.assertReturnString += 'Link Down Intent State Failed\n'
+
+        # Checks ONOS state in link up
+        if linkUpResult and topoResult and iperfResult and intentResult:
+            main.log.info( itemName + ": Successfully brought link back up" )
+        else:
+            main.log.error( itemName + ": Failed to bring link back up" )
+
+    # Remove all intents
+    removeIntentResult = removeAllIntents( main, intentsId )
+    if removeIntentResult:
+        main.assertReturnString += 'Remove Intents Passed'
+    else:
+        main.assertReturnString += 'Remove Intents Failed'
+
+    stepResult = iperfResult and linkDownResult and linkUpResult \
+                 and intentResult and removeIntentResult
+
+    return stepResult
+
+def singleToMultiIntent( main,
+                         name,
+                         hostNames,
+                         onosNode=0,
+                         devices="",
+                         ports=None,
+                         ethType="",
+                         macs=None,
+                         bandwidth="",
+                         lambdaAlloc=False,
+                         ipProto="",
+                         ipAddresses="",
+                         tcp="",
+                         sw1="",
+                         sw2="",
+                         expectedLink=0 ):
+    """
+    Verify Single to Multi Point intents
+    NOTE:If main.hostsData is not defined, variables data should be passed
+    in the same order index wise. All devices in the list should have the same
+    format, either all the devices have its port or it doesn't.
+    eg. hostName = [ 'h1', 'h2' ,..  ]
+        devices = [ 'of:0000000000000001', 'of:0000000000000002', ...]
+        ports = [ '1', '1', ..]
+        ...
+    Description:
+        Verify add-single-to-multi-intent iterates through the list of given
+        host | devices and add intents
+    Steps:
+        - Get device ids | ports
+        - Add single to multi point intents
+        - Check intents
+        - Verify flows
+        - Ping hosts
+        - Reroute
+            - Link down
+            - Verify flows
+            - Check topology
+            - Ping hosts
+            - Link up
+            - Verify flows
+            - Check topology
+            - Ping hosts
+        - Remove intents
+    Required:
+        name - Type of point intent to add eg. IPV4 | VLAN | Dualstack
+        hostNames - List of host names
+    Optional:
+        onosNode - ONOS node to install the intents in main.CLIs[ ]
+                   0 by default so that it will always use the first
+                   ONOS node
+        devices - List of device ids in the same order as the hosts
+                  in hostNames
+        ports - List of port numbers in the same order as the device in
+                devices
+        ethType - Ethernet type eg. IPV4, IPV6
+        macs - List of hosts mac address in the same order as the hosts in
+               hostNames
+        bandwidth - Bandwidth capacity
+        lambdaAlloc - Allocate lambda, defaults to False
+        ipProto - IP protocol
+        ipAddresses - IP addresses of host in the same order as the hosts in
+                      hostNames
+        tcp - TCP ports in the same order as the hosts in hostNames
+        sw1 - First switch to bring down & up for rerouting purpose
+        sw2 - Second switch to bring down & up for rerouting purpose
+        expectedLink - Expected link when the switches are down, it should
+                       be two links lower than the links before the two
+                       switches are down
+    """
+
+    assert main, "There is no main variable"
+    assert hostNames, "You must specify hosts"
+    assert devices or main.hostsData, "You must specify devices"
+
+    global itemName
+    itemName = name
+    tempHostsData = {}
+    intentsId = []
+    onosNode = int( onosNode )
+
+    macsDict = {}
+    ipDict = {}
+    if hostNames and devices:
+        if len( hostNames ) != len( devices ):
+            main.log.debug( "hosts and devices does not have the same length" )
+            #print "len hostNames = ", len( hostNames )
+            #print "len devices = ", len( devices )
+            return main.FALSE
+        if ports:
+            if len( ports ) != len( devices ):
+                main.log.error( "Ports and devices does " +
+                                "not have the same length" )
+                #print "len devices = ", len( devices )
+                #print "len ports = ", len( ports )
+                return main.FALSE
+        else:
+            main.log.info( "Device Ports are not specified" )
+        if macs:
+            for i in range( len( devices ) ):
+                macsDict[ devices[ i ] ] = macs[ i ]
+
+    elif hostNames and not devices and main.hostsData:
+        devices = []
+        main.log.info( "singleToMultiIntent function is using main.hostsData" )
+        for host in hostNames:
+               devices.append( main.hostsData.get( host ).get( 'location' ) )
+               macsDict[ main.hostsData.get( host ).get( 'location' ) ] = \
+                           main.hostsData.get( host ).get( 'mac' )
+               ipDict[ main.hostsData.get( host ).get( 'location' ) ] = \
+                           main.hostsData.get( host ).get( 'ipAddresses' )
+        #print main.hostsData
+
+    #print 'host names = ', hostNames
+    #print 'devices = ', devices
+    #print "macsDict = ", macsDict
+
+    pingResult = main.TRUE
+    intentResult = main.TRUE
+    removeIntentResult = main.TRUE
+    flowResult = main.TRUE
+    topoResult = main.TRUE
+    linkDownResult = main.TRUE
+    linkUpResult = main.TRUE
+
+    devicesCopy = copy.copy( devices )
+    if ports:
+        portsCopy = copy.copy( ports )
+    main.log.info( itemName + ": Adding single point to multi point intents" )
+
+    # Check flows count in each node
+    checkFlowsCount( main )
+
+    # Adding bidirectional point  intents
+    for i in range( len( devices ) ):
+        ingressDevice = devicesCopy[ i ]
+        egressDeviceList = copy.copy( devicesCopy )
+        egressDeviceList.remove( ingressDevice )
+        if ports:
+            portIngress = portsCopy[ i ]
+            portEgressList = copy.copy( portsCopy )
+            del portEgressList[ i ]
+        else:
+            portIngress = ""
+            portEgressList = None
+        if not macsDict:
+            srcMac = ""
+        else:
+            srcMac = macsDict[ ingressDevice ]
+            if srcMac == None:
+                main.log.debug( "There is no MAC in device - " + ingressDevice )
+                srcMac = ""
+
+        intentsId.append(
+                        main.CLIs[ onosNode ].addSinglepointToMultipointIntent(
+                                            ingressDevice=ingressDevice,
+                                            egressDeviceList=egressDeviceList,
+                                            portIngress=portIngress,
+                                            portEgressList=portEgressList,
+                                            ethType=ethType,
+                                            ethSrc=srcMac,
+                                            bandwidth=bandwidth,
+                                            lambdaAlloc=lambdaAlloc,
+                                            ipProto=ipProto,
+                                            ipSrc="",
+                                            ipDst="",
+                                            tcpSrc="",
+                                            tcpDst="" ) )
+
+    # Wait some time for the flow to go through when using multi instance
+    pingTemp = pingallHosts( main, hostNames )
+
+    # Check intents state
+    time.sleep( main.checkIntentSleep )
+    intentResult = checkIntentState( main, intentsId )
+
+    # Check intents state again if first check fails...
+    if not intentResult:
+        intentResult = checkIntentState( main, intentsId )
+
+    # Check flows count in each node
+    checkFlowsCount( main )
+    # Verify flows
+    checkFlowsState( main )
+
+    pingTemp = pingallHosts( main, hostNames )
+    pingResult = pingResult and pingTemp
+    if pingTemp:
+        main.assertReturnString += 'Initial Pingall Passed\n'
+    else:
+        main.assertReturnString += 'Initial Pingall Failed\n'
+
+    # Test rerouting if these variables exist
+    if sw1 and sw2 and expectedLink:
+        # link down
+        linkDownResult = link( main, sw1, sw2, "down" )
+
+        if linkDownResult:
+            main.assertReturnString += 'Link Down Passed\n'
+        else:
+            main.assertReturnString += 'Link Down Failed\n'
+
+        # Check flows count in each node
+        checkFlowsCount( main )
+        # Verify flows
+        checkFlowsState( main )
+
+        # Check OnosTopology
+        topoResult = checkTopology( main, expectedLink )
+        if topoResult:
+            main.assertReturnString += 'Link Down Topology State Passed\n'
+        else:
+            main.assertReturnString += 'Link Down Topology State Failed\n'
+
+        # Ping hosts
+        pingTemp = pingallHosts( main, hostNames )
+        pingResult = pingResult and pingTemp
+        if pingTemp:
+            main.assertReturnString += 'Link Down Pingall Passed\n'
+        else:
+            main.assertReturnString += 'Link Down Pingall Failed\n'
+
+        # Check intent state
+        intentTemp = checkIntentState( main, intentsId )
+        intentResult = intentResult and intentTemp
+        if intentTemp:
+            main.assertReturnString += 'Link Down Intent State Passed\n'
+        else:
+            main.assertReturnString += 'Link Down Intent State Failed\n'
+
+        # Checks ONOS state in link down
+        if linkDownResult and topoResult and pingResult and intentResult:
+            main.log.info( itemName + ": Successfully brought link down" )
+        else:
+            main.log.error( itemName + ": Failed to bring link down" )
+
+        # link up
+        linkUpResult = link( main, sw1, sw2, "up" )
+        if linkUpResult:
+            main.assertReturnString += 'Link Up Passed\n'
+        else:
+            main.assertReturnString += 'Link Up Failed\n'
+
+        time.sleep( main.rerouteSleep )
+
+        # Check flows count in each node
+        checkFlowsCount( main )
+        # Verify flows
+        checkFlowsState( main )
+
+        # Check OnosTopology
+        topoResult = checkTopology( main, main.numLinks )
+        if topoResult:
+            main.assertReturnString += 'Link Up Topology State Passed\n'
+        else:
+            main.assertReturnString += 'Link Up Topology State Failed\n'
+
+        # Ping hosts
+        pingTemp = pingallHosts( main, hostNames )
+        pingResult = pingResult and pingTemp
+        if pingTemp:
+            main.assertReturnString += 'Link Up Pingall Passed\n'
+        else:
+            main.assertReturnString += 'Link Up Pingall Failed\n'
+
+        # Check Intents
+        intentTemp = checkIntentState( main, intentsId )
+        intentResult = intentResult and intentTemp
+        if intentTemp:
+            main.assertReturnString += 'Link Up Intent State Passed\n'
+        else:
+            main.assertReturnString += 'Link Up Intent State Failed\n'
+
+        # Checks ONOS state in link up
+        if linkUpResult and topoResult and pingResult and intentResult:
+            main.log.info( itemName + ": Successfully brought link back up" )
+        else:
+            main.log.error( itemName + ": Failed to bring link back up" )
+
+    # Remove all intents
+    removeIntentResult = removeAllIntents( main, intentsId )
+    if removeIntentResult:
+        main.assertReturnString += 'Remove Intents Passed'
+    else:
+        main.assertReturnString += 'Remove Intents Failed'
+
+    stepResult = pingResult and linkDownResult and linkUpResult \
+                 and intentResult and removeIntentResult
+
+    return stepResult
+
+def multiToSingleIntent( main,
+                         name,
+                         hostNames,
+                         onosNode=0,
+                         devices="",
+                         ports=None,
+                         ethType="",
+                         macs=None,
+                         bandwidth="",
+                         lambdaAlloc=False,
+                         ipProto="",
+                         ipAddresses="",
+                         tcp="",
+                         sw1="",
+                         sw2="",
+                         expectedLink=0 ):
+    """
+    Verify Single to Multi Point intents
+    NOTE:If main.hostsData is not defined, variables data should be passed in the
+    same order index wise. All devices in the list should have the same
+    format, either all the devices have its port or it doesn't.
+    eg. hostName = [ 'h1', 'h2' ,..  ]
+        devices = [ 'of:0000000000000001', 'of:0000000000000002', ...]
+        ports = [ '1', '1', ..]
+        ...
+    Description:
+        Verify add-multi-to-single-intent
+    Steps:
+        - Get device ids | ports
+        - Add multi to single point intents
+        - Check intents
+        - Verify flows
+        - Ping hosts
+        - Reroute
+            - Link down
+            - Verify flows
+            - Check topology
+            - Ping hosts
+            - Link up
+            - Verify flows
+            - Check topology
+            - Ping hosts
+        - Remove intents
+    Required:
+        name - Type of point intent to add eg. IPV4 | VLAN | Dualstack
+        hostNames - List of host names
+    Optional:
+        onosNode - ONOS node to install the intents in main.CLIs[ ]
+                   0 by default so that it will always use the first
+                   ONOS node
+        devices - List of device ids in the same order as the hosts
+                  in hostNames
+        ports - List of port numbers in the same order as the device in
+                devices
+        ethType - Ethernet type eg. IPV4, IPV6
+        macs - List of hosts mac address in the same order as the hosts in
+               hostNames
+        bandwidth - Bandwidth capacity
+        lambdaAlloc - Allocate lambda, defaults to False
+        ipProto - IP protocol
+        ipAddresses - IP addresses of host in the same order as the hosts in
+                      hostNames
+        tcp - TCP ports in the same order as the hosts in hostNames
+        sw1 - First switch to bring down & up for rerouting purpose
+        sw2 - Second switch to bring down & up for rerouting purpose
+        expectedLink - Expected link when the switches are down, it should
+                       be two links lower than the links before the two
+                       switches are down
+    """
+
+    assert main, "There is no main variable"
+    assert hostNames, "You must specify hosts"
+    assert devices or main.hostsData, "You must specify devices"
+
+    global itemName
+    itemName = name
+    tempHostsData = {}
+    intentsId = []
+    onosNode = int( onosNode )
+
+    macsDict = {}
+    ipDict = {}
+    if hostNames and devices:
+        if len( hostNames ) != len( devices ):
+            main.log.debug( "hosts and devices does not have the same length" )
+            #print "len hostNames = ", len( hostNames )
+            #print "len devices = ", len( devices )
+            return main.FALSE
+        if ports:
+            if len( ports ) != len( devices ):
+                main.log.error( "Ports and devices does " +
+                                "not have the same length" )
+                #print "len devices = ", len( devices )
+                #print "len ports = ", len( ports )
+                return main.FALSE
+        else:
+            main.log.info( "Device Ports are not specified" )
+        if macs:
+            for i in range( len( devices ) ):
+                macsDict[ devices[ i ] ] = macs[ i ]
+    elif hostNames and not devices and main.hostsData:
+        devices = []
+        main.log.info( "multiToSingleIntent function is using main.hostsData" )
+        for host in hostNames:
+               devices.append( main.hostsData.get( host ).get( 'location' ) )
+               macsDict[ main.hostsData.get( host ).get( 'location' ) ] = \
+                           main.hostsData.get( host ).get( 'mac' )
+               ipDict[ main.hostsData.get( host ).get( 'location' ) ] = \
+                           main.hostsData.get( host ).get( 'ipAddresses' )
+        #print main.hostsData
+
+    #print 'host names = ', hostNames
+    #print 'devices = ', devices
+    #print "macsDict = ", macsDict
+
+    pingResult = main.TRUE
+    intentResult = main.TRUE
+    removeIntentResult = main.TRUE
+    flowResult = main.TRUE
+    topoResult = main.TRUE
+    linkDownResult = main.TRUE
+    linkUpResult = main.TRUE
+
+    devicesCopy = copy.copy( devices )
+    if ports:
+        portsCopy = copy.copy( ports )
+    main.log.info( itemName + ": Adding multi point to single point intents" )
+
+    # Check flows count in each node
+    checkFlowsCount( main )
+
+    # Adding bidirectional point  intents
+    for i in range( len( devices ) ):
+        egressDevice = devicesCopy[ i ]
+        ingressDeviceList = copy.copy( devicesCopy )
+        ingressDeviceList.remove( egressDevice )
+        if ports:
+            portEgress = portsCopy[ i ]
+            portIngressList = copy.copy( portsCopy )
+            del portIngressList[ i ]
+        else:
+            portEgress = ""
+            portIngressList = None
+        if not macsDict:
+            dstMac = ""
+        else:
+            dstMac = macsDict[ egressDevice ]
+            if dstMac == None:
+                main.log.debug( "There is no MAC in device - " + egressDevice )
+                dstMac = ""
+
+        intentsId.append(
+                        main.CLIs[ onosNode ].addMultipointToSinglepointIntent(
+                                            ingressDeviceList=ingressDeviceList,
+                                            egressDevice=egressDevice,
+                                            portIngressList=portIngressList,
+                                            portEgress=portEgress,
+                                            ethType=ethType,
+                                            ethDst=dstMac,
+                                            bandwidth=bandwidth,
+                                            lambdaAlloc=lambdaAlloc,
+                                            ipProto=ipProto,
+                                            ipSrc="",
+                                            ipDst="",
+                                            tcpSrc="",
+                                            tcpDst="" ) )
+
+    pingTemp = pingallHosts( main, hostNames )
+
+    # Check intents state
+    time.sleep( main.checkIntentSleep )
+    intentResult = checkIntentState( main, intentsId )
+
+    # Check intents state again if first check fails...
+    if not intentResult:
+        intentResult = checkIntentState( main, intentsId )
+
+    # Check flows count in each node
+    checkFlowsCount( main )
+    # Verify flows
+    checkFlowsState( main )
+
+    # Ping hosts
+    pingTemp = pingallHosts( main, hostNames )
+
+    # Ping hosts again...
+    pingTemp = pingallHosts( main, hostNames )
+    pingResult = pingResult and pingTemp
+    if pingTemp:
+        main.assertReturnString += 'Initial Pingall Passed\n'
+    else:
+        main.assertReturnString += 'Initial Pingall Failed\n'
+
+    # Test rerouting if these variables exist
+    if sw1 and sw2 and expectedLink:
+        # link down
+        linkDownResult = link( main, sw1, sw2, "down" )
+
+        if linkDownResult:
+            main.assertReturnString += 'Link Down Passed\n'
+        else:
+            main.assertReturnString += 'Link Down Failed\n'
+
+        # Check flows count in each node
+        checkFlowsCount( main )
+        # Verify flows
+        checkFlowsState( main )
+
+        # Check OnosTopology
+        topoResult = checkTopology( main, expectedLink )
+        if topoResult:
+            main.assertReturnString += 'Link Down Topology State Passed\n'
+        else:
+            main.assertReturnString += 'Link Down Topology State Failed\n'
+
+        # Ping hosts
+        pingTemp = pingallHosts( main, hostNames )
+        pingResult = pingResult and pingTemp
+        if pingTemp:
+            main.assertReturnString += 'Link Down Pingall Passed\n'
+        else:
+            main.assertReturnString += 'Link Down Pingall Failed\n'
+
+        # Check intent state
+        intentTemp = checkIntentState( main, intentsId )
+        intentResult = intentResult and intentTemp
+        if intentTemp:
+            main.assertReturnString += 'Link Down Intent State Passed\n'
+        else:
+            main.assertReturnString += 'Link Down Intent State Failed\n'
+
+        # Checks ONOS state in link down
+        if linkDownResult and topoResult and pingResult and intentResult:
+            main.log.info( itemName + ": Successfully brought link down" )
+        else:
+            main.log.error( itemName + ": Failed to bring link down" )
+
+        # link up
+        linkUpResult = link( main, sw1, sw2, "up" )
+        if linkUpResult:
+            main.assertReturnString += 'Link Up Passed\n'
+        else:
+            main.assertReturnString += 'Link Up Failed\n'
+
+        time.sleep( main.rerouteSleep )
+
+        # Check flows count in each node
+        checkFlowsCount( main )
+        # Verify flows
+        checkFlowsState( main )
+
+        # Check OnosTopology
+        topoResult = checkTopology( main, main.numLinks )
+        if topoResult:
+            main.assertReturnString += 'Link Up Topology State Passed\n'
+        else:
+            main.assertReturnString += 'Link Up Topology State Failed\n'
+
+        # Ping hosts
+        pingTemp = pingallHosts( main, hostNames )
+        pingResult = pingResult and pingTemp
+        if pingTemp:
+            main.assertReturnString += 'Link Up Pingall Passed\n'
+        else:
+            main.assertReturnString += 'Link Up Pingall Failed\n'
+
+        # Check Intents
+        intentTemp = checkIntentState( main, intentsId )
+        intentResult = intentResult and intentTemp
+        if intentTemp:
+            main.assertReturnString += 'Link Up Intent State Passed\n'
+        else:
+            main.assertReturnString += 'Link Up Intent State Failed\n'
+
+        # Checks ONOS state in link up
+        if linkUpResult and topoResult and pingResult and intentResult:
+            main.log.info( itemName + ": Successfully brought link back up" )
+        else:
+            main.log.error( itemName + ": Failed to bring link back up" )
+
+    # Remove all intents
+    removeIntentResult = removeAllIntents( main, intentsId )
+    if removeIntentResult:
+        main.assertReturnString += 'Remove Intents Passed'
+    else:
+        main.assertReturnString += 'Remove Intents Failed'
+
+    stepResult = pingResult and linkDownResult and linkUpResult \
+                 and intentResult and removeIntentResult
+
+    return stepResult
+
+def pingallHosts( main, hostList ):
+    # Ping all host in the hosts list variable
+    main.log.info( "Pinging: " + str( hostList ) )
+    return main.Mininet1.pingallHosts( hostList )
+
+def getHostsData( main ):
+    """
+        Use fwd app and pingall to discover all the hosts
+    """
+
+    activateResult = main.TRUE
+    appCheck = main.TRUE
+    getDataResult = main.TRUE
+    main.log.info( "Activating reactive forwarding app " )
+    activateResult = main.CLIs[ 0 ].activateApp( "org.onosproject.fwd" )
+    time.sleep( main.fwdSleep )
+
+    for i in range( main.numCtrls ):
+        appCheck = appCheck and main.CLIs[ i ].appToIDCheck()
+        if appCheck != main.TRUE:
+            main.log.warn( main.CLIs[ i ].apps() )
+            main.log.warn( main.CLIs[ i ].appIDs() )
+
+    pingResult = main.Mininet1.pingall( timeout = 600 )
+    hostsJson = json.loads( main.CLIs[ 0 ].hosts() )
+    hosts = main.Mininet1.getHosts().keys()
+    # TODO: Make better use of new getHosts function
+    for host in hosts:
+        main.hostsData[ host ] = {}
+        main.hostsData[ host ][ 'mac' ] =  \
+            main.Mininet1.getMacAddress( host ).upper()
+        for hostj in hostsJson:
+            if main.hostsData[ host ][ 'mac' ] == hostj[ 'mac' ]:
+                main.hostsData[ host ][ 'id' ] = hostj[ 'id' ]
+                main.hostsData[ host ][ 'vlan' ] = hostj[ 'vlan' ]
+                main.hostsData[ host ][ 'location' ] = \
+                            hostj[ 'location' ][ 'elementId' ] + '/' + \
+                            hostj[ 'location' ][ 'port' ]
+                main.hostsData[ host ][ 'ipAddresses' ] = hostj[ 'ipAddresses' ]
+
+    main.log.info( "Deactivating reactive forwarding app " )
+    deactivateResult = main.CLIs[ 0 ].deactivateApp( "org.onosproject.fwd" )
+    if activateResult and deactivateResult and main.hostsData:
+        main.log.info( "Successfully used fwd app to discover hosts " )
+        getDataResult = main.TRUE
+    else:
+        main.log.info( "Failed to use fwd app to discover hosts " )
+        getDataResult = main.FALSE
+
+    print main.hostsData
+
+    return getDataResult
+
+def checkTopology( main, expectedLink ):
+    statusResult = main.TRUE
+    # Check onos topology
+    main.log.info( itemName + ": Checking ONOS topology " )
+
+    for i in range( main.numCtrls ):
+        topologyResult = main.CLIs[ i ].topology()
+        statusResult = main.ONOSbench.checkStatus( topologyResult,
+                                                   main.numSwitch,
+                                                   expectedLink )\
+                       and statusResult
+    if not statusResult:
+        main.log.error( itemName + ": Topology mismatch" )
+    else:
+        main.log.info( itemName + ": Topology match" )
+    return statusResult
+
+def checkIntentState( main, intentsId ):
+    """
+        This function will check intent state to make sure all the intents
+        are in INSTALLED state
+    """
+
+    intentResult = main.TRUE
+    results = []
+
+    main.log.info( itemName + ": Checking intents state" )
+    # First check of intents
+    for i in range( main.numCtrls ):
+        tempResult = main.CLIs[ i ].checkIntentState( intentsId=intentsId )
+        results.append( tempResult )
+
+    expectedState = [ 'INSTALLED', 'INSTALLING' ]
+
+    if all( result == main.TRUE for result in results ):
+        main.log.info( itemName + ": Intents are installed correctly" )
+    else:
+        # Wait for at least 5 second before checking the intents again
+        main.log.error( "Intents are not installed correctly. Waiting 5 sec" )
+        time.sleep( 5 )
+        results = []
+        # Second check of intents since some of the intents may be in
+        # INSTALLING state, they should be in INSTALLED at this time
+        for i in range( main.numCtrls ):
+            tempResult = main.CLIs[ i ].checkIntentState(
+                                                        intentsId=intentsId )
+            results.append( tempResult )
+        if all( result == main.TRUE for result in results ):
+            main.log.info( itemName + ": Intents are installed correctly" )
+            intentResult = main.TRUE
+        else:
+            main.log.error( itemName + ": Intents are NOT installed correctly" )
+            intentResult = main.FALSE
+
+    return intentResult
+
+def checkFlowsState( main ):
+
+    main.log.info( itemName + ": Check flows state" )
+    checkFlowsResult = main.CLIs[ 0 ].checkFlowsState()
+    return checkFlowsResult
+
+def link( main, sw1, sw2, option):
+
+    # link down
+    main.log.info( itemName + ": Bring link " + option + "between " +
+                       sw1 + " and " + sw2 )
+    linkResult = main.Mininet1.link( end1=sw1, end2=sw2, option=option )
+    return linkResult
+
+def removeAllIntents( main, intentsId ):
+    """
+        Remove all intents in the intentsId
+    """
+
+    onosSummary = []
+    removeIntentResult = main.TRUE
+    # Remove intents
+    for intent in intentsId:
+        main.CLIs[ 0 ].removeIntent( intentId=intent, purge=True )
+
+    time.sleep( main.removeIntentSleep )
+
+    # If there is remianing intents then remove intents should fail
+    for i in range( main.numCtrls ):
+        onosSummary.append( json.loads( main.CLIs[ i ].summary() ) )
+
+    for summary in onosSummary:
+        if summary.get( 'intents' ) != 0:
+            main.log.warn( itemName + ": There are " +
+                           str( summary.get( 'intents' ) ) +
+                           " intents remaining in node " +
+                           str( summary.get( 'node' ) ) +
+                           ", failed to remove all the intents " )
+            removeIntentResult = main.FALSE
+
+    if removeIntentResult:
+        main.log.info( itemName + ": There are no more intents remaining, " +
+                       "successfully removed all the intents." )
+
+    return removeIntentResult
+
+def checkFlowsCount( main ):
+    """
+        Check flows count in each node
+    """
+
+    flowsCount = []
+    main.log.info( itemName + ": Checking flows count in each ONOS node" )
+    for i in range( main.numCtrls ):
+        summaryResult = main.CLIs[ i ].summary()
+        if not summaryResult:
+            main.log.error( itemName + ": There is something wrong with " +
+                            "summary command" )
+            return main.FALSE
+        else:
+            summaryJson = json.loads( summaryResult )
+            flowsCount.append( summaryJson.get( 'flows' ) )
+
+    if flowsCount:
+        if all( flows==flowsCount[ 0 ] for flows in flowsCount ):
+            main.log.info( itemName + ": There are " + str( flowsCount[ 0 ] ) +
+                           " flows in all ONOS node" )
+        else:
+            for i in range( main.numCtrls ):
+                main.log.debug( itemName + ": ONOS node " + str( i ) + " has " +
+                                str( flowsCount[ i ] ) + " flows" )
+    else:
+        main.log.error( "Checking flows count failed, check summary command" )
+        return main.FALSE
+
+    return main.TRUE
+
+def checkLeaderChange( leaders1, leaders2 ):
+    """
+        Checks for a change in intent partition leadership.
+
+        Takes the output of leaders -c in json string format before and after
+        a potential change as input
+
+        Returns main.TRUE if no mismatches are detected
+        Returns main.FALSE if there is a mismatch or on error loading the input
+    """
+    try:
+        leaders1 = json.loads( leaders1 )
+        leaders2 = json.loads( leaders2 )
+    except ( AttributeError, TypeError):
+        main.log.exception( self.name + ": Object not as expected" )
+        return main.FALSE
+    except Exception:
+        main.log.exception( self.name + ": Uncaught exception!" )
+        main.cleanup()
+        main.exit()
+    main.log.info( "Checking Intent Paritions for Change in Leadership" )
+    mismatch = False
+    for dict1 in leaders1:
+        if "intent" in dict1.get( "topic", [] ):
+            for dict2 in leaders2:
+                if dict1.get( "topic", 0 ) == dict2.get( "topic", 0 ) and \
+                    dict1.get( "leader", 0 ) != dict2.get( "leader", 0 ):
+                    mismatch = True
+                    main.log.error( "{0} changed leader from {1} to {2}".\
+                        format( dict1.get( "topic", "no-topic" ),\
+                            dict1.get( "leader", "no-leader" ),\
+                            dict2.get( "leader", "no-leader" ) ) )
+    if mismatch:
+        return main.FALSE
+    else:
+        return main.TRUE
+
+def report( main ):
+    """
+    Report errors/warnings/exceptions
+    """
+
+    main.ONOSbench.logReport( main.ONOSip[ 0 ],
+                              [ "INFO",
+                                "FOLLOWER",
+                                "WARN",
+                                "flow",
+                                "ERROR",
+                                "Except" ],
+                              "s" )
+
+    main.log.info( "ERROR report: \n" )
+    for i in range( main.numCtrls ):
+        main.ONOSbench.logReport( main.ONOSip[ i ],
+                [ "ERROR" ],
+                "d" )
+
+    main.log.info( "EXCEPTIONS report: \n" )
+    for i in range( main.numCtrls ):
+        main.ONOSbench.logReport( main.ONOSip[ i ],
+                [ "Except" ],
+                "d" )
+
+    main.log.info( "WARNING report: \n" )
+    for i in range( main.numCtrls ):
+        main.ONOSbench.logReport( main.ONOSip[ i ],
+                [ "WARN" ],
+                "d" )
diff --git a/TestON/tests/FUNCipv6Intent/Dependency/newFuncTopo.py b/TestON/tests/FUNCipv6Intent/Dependency/newFuncTopo.py
new file mode 100755
index 0000000..ff63bf9
--- /dev/null
+++ b/TestON/tests/FUNCipv6Intent/Dependency/newFuncTopo.py
@@ -0,0 +1,158 @@
+#!/usr/bin/python
+
+"""
+Custom topology for Mininet
+"""
+from mininet.topo import Topo
+from mininet.net import Mininet
+from mininet.node import Host, RemoteController
+from mininet.node import Node
+from mininet.node import CPULimitedHost
+from mininet.link import TCLink
+from mininet.cli import CLI
+from mininet.log import setLogLevel
+from mininet.util import dumpNodeConnections
+from mininet.node import ( UserSwitch, OVSSwitch, IVSSwitch )
+
+class VLANHost( Host ):
+    def config( self, vlan=100, v6Addr='3000::1/64', **params ):
+        r = super( Host, self ).config( **params )
+        intf = self.defaultIntf()
+        self.cmd( 'ifconfig %s inet 0' % intf )
+        self.cmd( 'vconfig add %s %d' % ( intf, vlan ) )
+        self.cmd( 'ifconfig %s.%d inet %s' % ( intf, vlan, params['ip'] ) )
+        self.cmd( 'ip -6 addr add %s dev %s.%d' % ( v6Addr, intf, vlan ) )
+        newName = '%s.%d' % ( intf, vlan )
+        intf.name = newName
+        self.nameToIntf[ newName ] = intf
+        return r
+
+class IPv6Host( Host ):
+    def config( self, v6Addr='1000::1/64', **params ):
+        r = super( Host, self ).config( **params )
+        intf = self.defaultIntf()
+        self.cmd( 'ifconfig %s inet 0' % intf )
+        self.cmd( 'ip -6 addr add %s dev %s' % ( v6Addr, intf ) )
+        return r
+
+class dualStackHost( Host ):
+    def config( self, v6Addr='2000:1/64', **params ):
+        r = super( Host, self ).config( **params )
+        intf = self.defaultIntf()
+        self.cmd( 'ip -6 addr add %s dev %s' % ( v6Addr, intf ) )
+        return r
+
+class MyTopo( Topo ):
+
+    def __init__( self ):
+        # Initialize topology
+        Topo.__init__( self )
+        # Switch S5 Hosts
+        # IPv4 only Host
+        host1=self.addHost( 'h1', cls=IPv6Host, v6Addr='10:1:0::1/64' )
+        # IPv6 only Host
+        host2=self.addHost( 'h2', cls=IPv6Host, v6Addr='1000::2/64' )
+        # Dual Stack Host
+        host3=self.addHost( 'h3', cls=IPv6Host, v6Addr='2000::2/64' )
+        # VLAN hosts
+        host4=self.addHost( 'h4', cls=IPv6Host, v6Addr='3000::2/64' )
+        host5=self.addHost( 'h5', cls=IPv6Host,v6Addr='4000::2/64' )
+        # VPN-1 and VPN-2 Hosts
+        host6=self.addHost( 'h6', cls=IPv6Host, v6Addr='11:1:0::2/64' )
+        host7=self.addHost( 'h7', cls=IPv6Host, v6Addr='12:1:0::2/64' )
+        # Multicast Sender
+        host8=self.addHost( 'h8', cls=IPv6Host, v6Addr='10:1:0::4/64' )
+
+        # Switch S6 Hosts
+        # IPv4 only Host
+        host9=self.addHost( 'h9', cls=IPv6Host, v6Addr='10:1:0::5/64' )
+        # IPv6 only Host
+        host10=self.addHost( 'h10', cls=IPv6Host, v6Addr='1000::3/64' )
+        # Dual Stack Host
+        host11=self.addHost( 'h11', cls=IPv6Host, v6Addr='2000::3/64' )
+        # VLAN hosts
+        host12=self.addHost( 'h12', cls=IPv6Host, v6Addr='3000::3/64' )
+        host13=self.addHost( 'h13', cls=IPv6Host, v6Addr='4000::3/64' )
+        # VPN-1 and VPN-2 Hosts
+        host14=self.addHost( 'h14', cls=IPv6Host, v6Addr='11:1:0::3/64' )
+        host15=self.addHost( 'h15', cls=IPv6Host, v6Addr='12:1:0::3/64' )
+        # Multicast Receiver
+        host16=self.addHost( 'h16', cls=IPv6Host, v6Addr='10:1:0::7/64' )
+
+        # Switch S7 Hosts
+        # IPv4 only Host
+        host17=self.addHost( 'h17', cls=IPv6Host, v6Addr='10:1:0::8/64' )
+        # IPv6 only Host
+        host18=self.addHost( 'h18', cls=IPv6Host, v6Addr='1000::4/64' )
+        # Dual Stack Host
+        host19=self.addHost( 'h19', cls=IPv6Host, v6Addr='10:1:0::9/64' )
+        # VLAN hosts
+        host20=self.addHost( 'h20', cls=IPv6Host, v6Addr='100:1:0::4/64' )
+        host21=self.addHost( 'h21', cls=IPv6Host, v6Addr='200:1:0::4/64' )
+        # VPN-1 and VPN-2 Hosts
+        host22=self.addHost( 'h22', cls=IPv6Host, v6Addr='11:1:0::4/64' )
+        host23=self.addHost( 'h23', cls=IPv6Host, v6Addr='12:1:0::4/64' )
+        # Multicast Receiver
+        host24=self.addHost( 'h24', cls=IPv6Host, v6Addr='10:1:0::10/64' )
+
+        s1 = self.addSwitch( 's1' )
+        s2 = self.addSwitch( 's2' )
+        s3 = self.addSwitch( 's3' )
+        s4 = self.addSwitch( 's4' )
+        s5 = self.addSwitch( 's5' )
+        s6 = self.addSwitch( 's6' )
+        s7 = self.addSwitch( 's7' )
+
+        self.addLink(s5,host1)
+        self.addLink(s5,host2)
+        self.addLink(s5,host3)
+        self.addLink(s5,host4)
+        self.addLink(s5,host5)
+        self.addLink(s5,host6)
+        self.addLink(s5,host7)
+        self.addLink(s5,host8)
+
+        self.addLink(s6,host9)
+        self.addLink(s6,host10)
+        self.addLink(s6,host11)
+        self.addLink(s6,host12)
+        self.addLink(s6,host13)
+        self.addLink(s6,host14)
+        self.addLink(s6,host15)
+        self.addLink(s6,host16)
+
+        self.addLink(s7,host17)
+        self.addLink(s7,host18)
+        self.addLink(s7,host19)
+        self.addLink(s7,host20)
+        self.addLink(s7,host21)
+        self.addLink(s7,host22)
+        self.addLink(s7,host23)
+        self.addLink(s7,host24)
+
+        self.addLink(s1,s2)
+        self.addLink(s1,s3)
+        self.addLink(s1,s4)
+        self.addLink(s1,s5)
+        self.addLink(s2,s3)
+        self.addLink(s2,s5)
+        self.addLink(s2,s6)
+        self.addLink(s3,s4)
+        self.addLink(s3,s6)
+        self.addLink(s4,s7)
+        topos = { 'mytopo': ( lambda: MyTopo() ) }
+
+# HERE THE CODE DEFINITION OF THE TOPOLOGY ENDS
+
+def setupNetwork():
+    "Create network"
+    topo = MyTopo()
+    network = Mininet(topo=topo, autoSetMacs=True, controller=None)
+    network.start()
+    CLI( network )
+    network.stop()
+
+if __name__ == '__main__':
+    setLogLevel('info')
+    #setLogLevel('debug')
+    setupNetwork()
diff --git a/TestON/tests/FUNCipv6Intent/Dependency/startUp.py b/TestON/tests/FUNCipv6Intent/Dependency/startUp.py
new file mode 100644
index 0000000..2ec1ae4
--- /dev/null
+++ b/TestON/tests/FUNCipv6Intent/Dependency/startUp.py
@@ -0,0 +1,34 @@
+"""
+    This wrapper function is use for starting up onos instance
+"""
+
+import time
+import os
+import json
+
+def onosBuild( main, gitBranch ):
+    """
+        This includes pulling ONOS and building it using maven install
+    """
+
+    buildResult = main.FALSE
+
+    # Git checkout a branch of ONOS
+    checkOutResult = main.ONOSbench.gitCheckout( gitBranch )
+    # Does the git pull on the branch that was checked out
+    if not checkOutResult:
+        main.log.warn( "Failed to checked out " + gitBranch +
+                                           " branch")
+    else:
+        main.log.info( "Successfully checked out " + gitBranch +
+                                           " branch")
+    gitPullResult = main.ONOSbench.gitPull()
+    if gitPullResult == main.ERROR:
+        main.log.error( "Error pulling git branch" )
+    else:
+        main.log.info( "Successfully pulled " + gitBranch + " branch" )
+
+    # Maven clean install
+    buildResult = main.ONOSbench.cleanInstall()
+
+    return buildResult
diff --git a/TestON/tests/FUNCipv6Intent/Dependency/topo.py b/TestON/tests/FUNCipv6Intent/Dependency/topo.py
new file mode 100644
index 0000000..d834a09
--- /dev/null
+++ b/TestON/tests/FUNCipv6Intent/Dependency/topo.py
@@ -0,0 +1,98 @@
+"""
+    These functions can be used for topology comparisons
+"""
+
+import time
+import os
+import json
+
+def getAllDevices( main ):
+    """
+        Return a list containing the devices output from each ONOS node
+    """
+    devices = []
+    threads = []
+    for i in range( main.numCtrls ):
+        t = main.Thread( target=main.CLIs[i].devices,
+                         name="devices-" + str( i ),
+                         args=[ ] )
+        threads.append( t )
+        t.start()
+
+    for t in threads:
+        t.join()
+        devices.append( t.result )
+    return devices
+
+def getAllHosts( main ):
+    """
+        Return a list containing the hosts output from each ONOS node
+    """
+    hosts = []
+    ipResult = main.TRUE
+    threads = []
+    for i in range( main.numCtrls ):
+        t = main.Thread( target=main.CLIs[i].hosts,
+                         name="hosts-" + str( i ),
+                         args=[ ] )
+        threads.append( t )
+        t.start()
+
+    for t in threads:
+        t.join()
+        hosts.append( t.result )
+    return hosts
+
+def getAllPorts( main ):
+    """
+        Return a list containing the ports output from each ONOS node
+    """
+    ports = []
+    threads = []
+    for i in range( main.numCtrls ):
+        t = main.Thread( target=main.CLIs[i].ports,
+                         name="ports-" + str( i ),
+                         args=[ ] )
+        threads.append( t )
+        t.start()
+
+    for t in threads:
+        t.join()
+        ports.append( t.result )
+    return ports
+
+def getAllLinks( main ):
+    """
+        Return a list containing the links output from each ONOS node
+    """
+    links = []
+    threads = []
+    for i in range( main.numCtrls ):
+        t = main.Thread( target=main.CLIs[i].links,
+                         name="links-" + str( i ),
+                         args=[ ] )
+        threads.append( t )
+        t.start()
+
+    for t in threads:
+        t.join()
+        links.append( t.result )
+    return links
+
+def getAllClusters( main ):
+    """
+        Return a list containing the clusters output from each ONOS node
+    """
+    clusters = []
+    threads = []
+    for i in range( main.numCtrls ):
+        t = main.Thread( target=main.CLIs[i].clusters,
+                         name="clusters-" + str( i ),
+                         args=[ ] )
+        threads.append( t )
+        t.start()
+
+    for t in threads:
+        t.join()
+        clusters.append( t.result )
+    return clusters
diff --git a/TestON/tests/FUNCipv6Intent/FUNCipv6Intent.params b/TestON/tests/FUNCipv6Intent/FUNCipv6Intent.params
new file mode 100644
index 0000000..fdded10
--- /dev/null
+++ b/TestON/tests/FUNCipv6Intent/FUNCipv6Intent.params
@@ -0,0 +1,53 @@
+<PARAMS>
+    # CASE - Description
+    # 1 - Variable initialization and optional pull and build ONOS package
+    # 2 - Install ONOS
+    # 11 - Start Mininet with Openflow 1.3
+    # 12 - Assign switch to controller
+    # 14 - Stop Mininet
+
+    <testcases>1,2,11,12,14</testcases>
+
+    <SCALE>
+        <size>1</size>
+    </SCALE>
+
+    <DEPENDENCY>
+        <path>/tests/FUNCipv6Intent/Dependency/</path>
+        <wrapper1>startUp</wrapper1>
+        <wrapper2>FUNCIpv6IntentFunction</wrapper2>
+        <wrapper3>topo</wrapper3>
+        <topology>newFuncTopo.py</topology>
+    </DEPENDENCY>
+
+    <ENV>
+        <cellApps>drivers,openflow,proxyarp,mobility</cellApps>
+    </ENV>
+    <GIT>
+        <pull>true</pull>
+        <branch>master</branch>
+    </GIT>
+
+    <SLEEP>
+        <startup>15</startup>
+        <reroute>5</reroute>
+        <removeintent>10</removeintent>
+        <checkintent>5</checkintent>
+        <fwd>10</fwd>
+        <topoAttempts>3</topoAttempts>
+    </SLEEP>
+
+    <MININET>
+        <switch>7</switch>
+        <links>20</links>
+    </MININET>
+
+    # Intent tests params
+    <SDNIP>
+        <tcpProto>6</tcpProto>
+        <icmpProto>1</icmpProto>
+        <srcPort>5001</srcPort>
+        <dstPort>5001</dstPort>
+    </SDNIP>
+
+</PARAMS>
diff --git a/TestON/tests/FUNCipv6Intent/FUNCipv6Intent.py b/TestON/tests/FUNCipv6Intent/FUNCipv6Intent.py
new file mode 100644
index 0000000..724e14b
--- /dev/null
+++ b/TestON/tests/FUNCipv6Intent/FUNCipv6Intent.py
@@ -0,0 +1,333 @@
+# Testing the basic intent for ipv6 functionality of ONOS
+
+class FUNCipv6Intent:
+
+    def __init__( self ):
+        self.default = ''
+
+    def CASE1( self, main ):
+        import time
+        import imp
+        import re
+
+        """
+        - Construct tests variables
+        - GIT ( optional )
+            - Checkout ONOS master branch
+            - Pull latest ONOS code
+        - Building ONOS ( optional )
+            - Install ONOS package
+            - Build ONOS package
+        """
+
+        main.case( "Constructing test variables and building ONOS package" )
+        main.step( "Constructing test variables" )
+        main.caseExplanation = "This test case is mainly for loading " +\
+                               "from params file, and pull and build the " +\
+                               " latest ONOS package"
+        stepResult = main.FALSE
+
+        # Test variables
+        try:
+            main.testOnDirectory = re.sub( "(/tests)$", "", main.testDir )
+            main.apps = main.params[ 'ENV' ][ 'cellApps' ]
+            gitBranch = main.params[ 'GIT' ][ 'branch' ]
+            main.dependencyPath = main.testOnDirectory + \
+                                  main.params[ 'DEPENDENCY' ][ 'path' ]
+            main.topology = main.params[ 'DEPENDENCY' ][ 'topology' ]
+            main.scale = ( main.params[ 'SCALE' ][ 'size' ] ).split( "," )
+            if main.ONOSbench.maxNodes:
+                main.maxNodes = int( main.ONOSbench.maxNodes )
+            else:
+                main.maxNodes = 0
+            wrapperFile1 = main.params[ 'DEPENDENCY' ][ 'wrapper1' ]
+            wrapperFile2 = main.params[ 'DEPENDENCY' ][ 'wrapper2' ]
+            wrapperFile3 = main.params[ 'DEPENDENCY' ][ 'wrapper3' ]
+            main.startUpSleep = int( main.params[ 'SLEEP' ][ 'startup' ] )
+            main.checkIntentSleep = int( main.params[ 'SLEEP' ][ 'checkintent' ] )
+            main.removeIntentSleep = int( main.params[ 'SLEEP' ][ 'removeintent' ] )
+            main.rerouteSleep = int( main.params[ 'SLEEP' ][ 'reroute' ] )
+            main.fwdSleep = int( main.params[ 'SLEEP' ][ 'fwd' ] )
+            main.checkTopoAttempts = int( main.params[ 'SLEEP' ][ 'topoAttempts' ] )
+            gitPull = main.params[ 'GIT' ][ 'pull' ]
+            main.numSwitch = int( main.params[ 'MININET' ][ 'switch' ] )
+            main.numLinks = int( main.params[ 'MININET' ][ 'links' ] )
+            main.cellData = {} # for creating cell file
+            main.hostsData = {}
+            main.CLIs = []
+            main.ONOSip = []
+            main.assertReturnString = ''  # Assembled assert return string
+
+            main.ONOSip = main.ONOSbench.getOnosIps()
+            print main.ONOSip
+
+            # Assigning ONOS cli handles to a list
+            for i in range( 1,  main.maxNodes + 1 ):
+                main.CLIs.append( getattr( main, 'ONOScli' + str( i ) ) )
+
+            # -- INIT SECTION, ONLY RUNS ONCE -- #
+            main.startUp = imp.load_source( wrapperFile1,
+                                            main.dependencyPath +
+                                            wrapperFile1 +
+                                            ".py" )
+
+            main.intentFunction = imp.load_source( wrapperFile2,
+                                            main.dependencyPath +
+                                            wrapperFile2 +
+                                            ".py" )
+
+            main.topo = imp.load_source( wrapperFile3,
+                                         main.dependencyPath +
+                                         wrapperFile3 +
+                                         ".py" )
+
+            copyResult1 = main.ONOSbench.scp( main.Mininet1,
+                                              main.dependencyPath +
+                                              main.topology,
+                                              main.Mininet1.home,
+                                              direction="to" )
+            if main.CLIs:
+                stepResult = main.TRUE
+            else:
+                main.log.error( "Did not properly created list of ONOS CLI handle" )
+                stepResult = main.FALSE
+        except Exception as e:
+            main.log.exception(e)
+            main.cleanup()
+            main.exit()
+
+        utilities.assert_equals( expect=main.TRUE,
+                                 actual=stepResult,
+                                 onpass="Successfully construct " +
+                                        "test variables ",
+                                 onfail="Failed to construct test variables" )
+
+        if gitPull == 'True':
+            main.step( "Building ONOS in " + gitBranch + " branch" )
+            onosBuildResult = main.startUp.onosBuild( main, gitBranch )
+            stepResult = onosBuildResult
+            utilities.assert_equals( expect=main.TRUE,
+                                     actual=stepResult,
+                                     onpass="Successfully compiled " +
+                                            "latest ONOS",
+                                     onfail="Failed to compile " +
+                                            "latest ONOS" )
+        else:
+            main.log.warn( "Did not pull new code so skipping mvn " +
+                           "clean install" )
+        main.ONOSbench.getVersion( report=True )
+
+    def CASE2( self, main ):
+        """
+        - Set up cell
+            - Create cell file
+            - Set cell file
+            - Verify cell file
+        - Kill ONOS process
+        - Uninstall ONOS cluster
+        - Verify ONOS start up
+        - Install ONOS cluster
+        - Connect to cli
+        """
+
+        # main.scale[ 0 ] determines the current number of ONOS controller
+        main.numCtrls = int( main.scale[ 0 ] )
+
+        main.case( "Starting up " + str( main.numCtrls ) +
+                   " node(s) ONOS cluster" )
+        main.caseExplanation = "Set up ONOS with " + str( main.numCtrls ) +\
+                                " node(s) ONOS cluster"
+
+
+
+        #kill off all onos processes
+        main.log.info( "Safety check, killing all ONOS processes" +
+                       " before initiating enviornment setup" )
+
+        for i in range( main.maxNodes ):
+            main.ONOSbench.onosDie( main.ONOSip[ i ] )
+
+        print "NODE COUNT = ", main.numCtrls
+
+        tempOnosIp = []
+        for i in range( main.numCtrls ):
+            tempOnosIp.append( main.ONOSip[i] )
+
+        main.ONOSbench.createCellFile( main.ONOSbench.ip_address,
+                                       "temp", main.Mininet1.ip_address,
+                                       main.apps, tempOnosIp )
+
+        main.step( "Apply cell to environment" )
+        cellResult = main.ONOSbench.setCell( "temp" )
+        verifyResult = main.ONOSbench.verifyCell()
+        stepResult = cellResult and verifyResult
+        utilities.assert_equals( expect=main.TRUE,
+                                 actual=stepResult,
+                                 onpass="Successfully applied cell to " + \
+                                        "environment",
+                                 onfail="Failed to apply cell to environment " )
+
+        main.step( "Creating ONOS package" )
+        packageResult = main.ONOSbench.onosPackage()
+        stepResult = packageResult
+        utilities.assert_equals( expect=main.TRUE,
+                                 actual=stepResult,
+                                 onpass="Successfully created ONOS package",
+                                 onfail="Failed to create ONOS package" )
+
+        time.sleep( main.startUpSleep )
+        main.step( "Uninstalling ONOS package" )
+        onosUninstallResult = main.TRUE
+        for ip in main.ONOSip:
+            onosUninstallResult = onosUninstallResult and \
+                    main.ONOSbench.onosUninstall( nodeIp=ip )
+        stepResult = onosUninstallResult
+        utilities.assert_equals( expect=main.TRUE,
+                                 actual=stepResult,
+                                 onpass="Successfully uninstalled ONOS package",
+                                 onfail="Failed to uninstall ONOS package" )
+
+        time.sleep( main.startUpSleep )
+        main.step( "Installing ONOS package" )
+        onosInstallResult = main.TRUE
+        for i in range( main.numCtrls ):
+            onosInstallResult = onosInstallResult and \
+                    main.ONOSbench.onosInstall( node=main.ONOSip[ i ] )
+        stepResult = onosInstallResult
+        utilities.assert_equals( expect=main.TRUE,
+                                 actual=stepResult,
+                                 onpass="Successfully installed ONOS package",
+                                 onfail="Failed to install ONOS package" )
+
+        time.sleep( main.startUpSleep )
+        main.step( "Starting ONOS service" )
+        stopResult = main.TRUE
+        startResult = main.TRUE
+        onosIsUp = main.TRUE
+
+        for i in range( main.numCtrls ):
+            onosIsUp = onosIsUp and main.ONOSbench.isup( main.ONOSip[ i ] )
+        if onosIsUp == main.TRUE:
+            main.log.report( "ONOS instance is up and ready" )
+        else:
+            main.log.report( "ONOS instance may not be up, stop and " +
+                             "start ONOS again " )
+
+            for i in range( main.numCtrls ):
+                stopResult = stopResult and \
+                        main.ONOSbench.onosStop( main.ONOSip[ i ] )
+            for i in range( main.numCtrls ):
+                startResult = startResult and \
+                        main.ONOSbench.onosStart( main.ONOSip[ i ] )
+        stepResult = onosIsUp and stopResult and startResult
+        utilities.assert_equals( expect=main.TRUE,
+                                 actual=stepResult,
+                                 onpass="ONOS service is ready",
+                                 onfail="ONOS service did not start properly" )
+
+        main.step( "Start ONOS cli" )
+        cliResult = main.TRUE
+        for i in range( main.numCtrls ):
+            cliResult = cliResult and \
+                        main.CLIs[ i ].startOnosCli( main.ONOSip[ i ] )
+        stepResult = cliResult
+        utilities.assert_equals( expect=main.TRUE,
+                                 actual=stepResult,
+                                 onpass="Successfully start ONOS cli",
+                                 onfail="Failed to start ONOS cli" )
+
+        # Remove the first element in main.scale list
+        main.scale.remove( main.scale[ 0 ] )
+
+        main.intentFunction.report( main )
+
+    def CASE11( self, main ):
+        """
+            Start Mininet topology with OF 1.3 switches
+        """
+        main.OFProtocol = "1.3"
+        main.log.report( "Start Mininet topology with OF 1.3 switches" )
+        main.case( "Start Mininet topology with OF 1.3 switches" )
+        main.caseExplanation = "Start mininet topology with OF 1.3 " +\
+                                "switches to test intents, exits out if " +\
+                                "topology did not start correctly"
+
+        main.step( "Starting Mininet topology with OF 1.3 switches" )
+        args = "--switch ovs,protocols=OpenFlow13"
+        topoResult = main.Mininet1.startNet( topoFile=main.dependencyPath +
+                                                      main.topology,
+                                             args=args )
+        stepResult = topoResult
+        utilities.assert_equals( expect=main.TRUE,
+                                 actual=stepResult,
+                                 onpass="Successfully loaded topology",
+                                 onfail="Failed to load topology" )
+        # Exit if topology did not load properly
+        if not topoResult:
+            main.cleanup()
+            main.exit()
+
+    def CASE12( self, main ):
+        """
+            Assign mastership to controllers
+        """
+        import re
+
+        main.case( "Assign switches to controllers" )
+        main.step( "Assigning switches to controllers" )
+        main.caseExplanation = "Assign OF " + main.OFProtocol +\
+                                " switches to ONOS nodes"
+
+        assignResult = main.TRUE
+        switchList = []
+
+        # Creates a list switch name, use getSwitch() function later...
+        for i in range( 1, ( main.numSwitch + 1 ) ):
+            switchList.append( 's' + str( i ) )
+
+        tempONOSip = []
+        for i in range( main.numCtrls ):
+            tempONOSip.append( main.ONOSip[ i ] )
+
+        assignResult = main.Mininet1.assignSwController( sw=switchList,
+                                                         ip=tempONOSip,
+                                                         port='6653' )
+        if not assignResult:
+            main.cleanup()
+            main.exit()
+
+        for i in range( 1, ( main.numSwitch + 1 ) ):
+            response = main.Mininet1.getSwController( "s" + str( i ) )
+            print( "Response is " + str( response ) )
+            if re.search( "tcp:" + main.ONOSip[ 0 ], response ):
+                assignResult = assignResult and main.TRUE
+            else:
+                assignResult = main.FALSE
+        stepResult = assignResult
+        utilities.assert_equals( expect=main.TRUE,
+                                 actual=stepResult,
+                                 onpass="Successfully assigned switches" +
+                                        "to controller",
+                                 onfail="Failed to assign switches to " +
+                                        "controller" )
+
+    def CASE14( self, main ):
+        """
+            Stop mininet
+        """
+        main.log.report( "Stop Mininet topology" )
+        main.case( "Stop Mininet topology" )
+        main.caseExplanation = "Stopping the current mininet topology " +\
+                                "to start up fresh"
+
+        main.step( "Stopping Mininet Topology" )
+        topoResult = main.Mininet1.stopNet( )
+        stepResult = topoResult
+        utilities.assert_equals( expect=main.TRUE,
+                                 actual=stepResult,
+                                 onpass="Successfully stop mininet",
+                                 onfail="Failed to stop mininet" )
+        # Exit if topology did not load properly
+        if not topoResult:
+            main.cleanup()
+            main.exit()
diff --git a/TestON/tests/FUNCipv6Intent/FUNCipv6Intent.topo b/TestON/tests/FUNCipv6Intent/FUNCipv6Intent.topo
new file mode 100755
index 0000000..617e8c0
--- /dev/null
+++ b/TestON/tests/FUNCipv6Intent/FUNCipv6Intent.topo
@@ -0,0 +1,54 @@
+<TOPOLOGY>
+    <COMPONENT>
+
+        <ONOSbench>
+            <host>localhost</host>
+            <user>admin</user>
+            <password></password>
+            <type>OnosDriver</type>
+            <connect_order>1</connect_order>
+            <COMPONENTS>
+                <nodes>3</nodes>
+            </COMPONENTS>
+        </ONOSbench>
+
+        <ONOScli1>
+            <host>localhost</host>
+            <user>admin</user>
+            <password></password>
+            <type>OnosCliDriver</type>
+            <connect_order>2</connect_order>
+            <COMPONENTS> </COMPONENTS>
+        </ONOScli1>
+
+        <ONOScli2>
+            <host>localhost</host>
+            <user>admin</user>
+            <password></password>
+            <type>OnosCliDriver</type>
+            <connect_order>3</connect_order>
+            <COMPONENTS> </COMPONENTS>
+        </ONOScli2>
+
+         <ONOScli3>
+            <host>localhost</host>
+            <user>admin</user>
+            <password></password>
+            <type>OnosCliDriver</type>
+            <connect_order>4</connect_order>
+            <COMPONENTS> </COMPONENTS>
+        </ONOScli3>
+
+        <Mininet1>
+            <host>OCN</host>
+            <user>admin</user>
+            <password></password>
+            <type>MininetCliDriver</type>
+            <connect_order>5</connect_order>
+            <COMPONENTS>
+                <home>~/mininet/custom/</home>
+            </COMPONENTS>
+        </Mininet1>
+
+    </COMPONENT>
+</TOPOLOGY>
diff --git a/TestON/tests/FUNCipv6Intent/__init__.py b/TestON/tests/FUNCipv6Intent/__init__.py
new file mode 100644
index 0000000..e69de29
--- /dev/null
+++ b/TestON/tests/FUNCipv6Intent/__init__.py
diff --git a/TestON/tests/USECASE_SdnipFunctionCluster/USECASE_SdnipFunctionCluster.py b/TestON/tests/USECASE_SdnipFunctionCluster/USECASE_SdnipFunctionCluster.py
index 0c0844d..7d97c10 100644
--- a/TestON/tests/USECASE_SdnipFunctionCluster/USECASE_SdnipFunctionCluster.py
+++ b/TestON/tests/USECASE_SdnipFunctionCluster/USECASE_SdnipFunctionCluster.py
@@ -185,10 +185,6 @@
             main.cleanup()
             main.exit()
 
-        # TODO should be deleted in the future after the SDN-IP bug is fixed
-        main.ONOScli1.deactivateApp( "org.onosproject.sdnip" )
-        main.ONOScli1.activateApp( "org.onosproject.sdnip" )
-
 
     def CASE102( self, main ):
         '''