################################################################################ # # # Copyright 1997 - 2020 by IXIA Keysight # # All Rights Reserved. # # # ################################################################################ ################################################################################ # # # LEGAL NOTICE: # # ============== # # The following code and documentation (hereinafter "the script") is an # # example script for demonstration purposes only. # # The script is not a standard commercial product offered by Ixia and have # # been developed and is being provided for use only as indicated herein. The # # script [and all modifications enhancements and updates thereto (whether # # made by Ixia and/or by the user and/or by a third party)] shall at all times # # remain the property of Ixia. # # # # Ixia does not warrant (i) that the functions contained in the script will # # meet the users requirements or (ii) that the script will be without # # omissions or error-free. # # THE SCRIPT IS PROVIDED "AS IS" WITHOUT WARRANTY OF ANY KIND AND IXIA # # DISCLAIMS ALL WARRANTIES EXPRESS IMPLIED STATUTORY OR OTHERWISE # # INCLUDING BUT NOT LIMITED TO ANY WARRANTY OF MERCHANTABILITY AND FITNESS FOR # # A PARTICULAR PURPOSE OR OF NON-INFRINGEMENT. # # THE ENTIRE RISK AS TO THE QUALITY AND PERFORMANCE OF THE SCRIPT IS WITH THE # # USER. # # IN NO EVENT SHALL IXIA BE LIABLE FOR ANY DAMAGES RESULTING FROM OR ARISING # # OUT OF THE USE OF OR THE INABILITY TO USE THE SCRIPT OR ANY PART THEREOF # # INCLUDING BUT NOT LIMITED TO ANY LOST PROFITS LOST BUSINESS LOST OR # # DAMAGED DATA OR SOFTWARE OR ANY INDIRECT INCIDENTAL PUNITIVE OR # # CONSEQUENTIAL DAMAGES EVEN IF IXIA HAS BEEN ADVISED OF THE POSSIBILITY OF # # SUCH DAMAGES IN ADVANCE. # # Ixia will not be required to provide any software maintenance or support # # services of any kind (e.g. any error corrections) in connection with the # # script or any part thereof. The user acknowledges that although Ixia may # # from time to time and in its sole discretion provide maintenance or support # # services for the script any such services are subject to the warranty and # # damages limitations set forth herein and will not obligate Ixia to provide # # any additional maintenance or support services. # # # ################################################################################ ################################################################################# # # # Description: # # This script intends to demonstrate how to use NGPF RSVPTE API # # About Topology: # # Within topology both Label Switch Router(LSR) and Label Edge Router(LER)# # are created. LSR is emulated in the front Device Group(DG), which consists # # of both OSPF as routing protocol as well as RSVPTE-IF for Label # # Distribution Protocol. The chained DG act as LER, where RSVP-TE LSPs are # # configured. Unidirectional L2-L3 Traffic from Ingress to Egress is created.# # Script Flow: # # Step 1. Configuration of protocols. # # Configuration flow of the script is as follow: # # i. Adding of OSPF router # # ii. Adding of Network Topology(NT) # # iii. Enabling of TE(Traffic Engineering) # # iv. Adding of chain DG # # v. Adding of RSVPTE-IF # # vi. Adding of RSVP-TE LSPs within chain DG # # Step 2. Start of protocol # # Step 3. Protocol Stat display # # Step 4. Learned Info display # # Step 5. On The Fly(OTF) change of protocol parameter. # # Step 6. Again Learned Info display to see OTF changes take place # # Step 7. Configuration L2-L3 Traffic # # Step 8. Apply and Start of L2-L3 traffic # # Step 9. Display of L2-L3 traffic Stats # # Step 10.Stop of L2-L3 traffic # # Step 11.Stop of all protocols # # # ################################################################################# ################################################################################ # Please ensure that PERL5LIB environment variable is set properly so that # IxNetwork.pm module is available. IxNetwork.pm is generally available in # C:\\API\Perl ################################################################################ use IxNetwork; use strict; sub assignPorts { my @my_resource = @_; my $ixNet = $my_resource[0]; my $chassis1 = $my_resource[1]; my $card1 = $my_resource[2]; my $port1 = $my_resource[3]; my $chassis2 = $my_resource[4]; my $card2 = $my_resource[5]; my $port2 = $my_resource[6]; my $vport1 = $my_resource[7]; my $vport2 = $my_resource[8]; my $root = $ixNet->getRoot(); my $chassisObj1 = $ixNet->add($root.'/availableHardware', 'chassis'); $ixNet->setAttribute($chassisObj1, '-hostname', $chassis1); $ixNet->commit(); $chassisObj1 = ($ixNet->remapIds($chassisObj1))[0]; my $chassisObj2 = ''; if ($chassis1 ne $chassis2) { $chassisObj2 = $ixNet->add($root.'/availableHardware', 'chassis'); $ixNet->setAttribute($chassisObj2, '-hostname', $chassis2); $ixNet->commit(); $chassisObj2 = ($ixNet->remapIds($chassisObj2))[0]; } else { $chassisObj2 = $chassisObj1; } my $cardPortRef1 = $chassisObj1.'/card:'.$card1.'/port:'.$port1; $ixNet->setMultiAttribute($vport1, '-connectedTo', $cardPortRef1, '-rxMode', 'captureAndMeasure', '-name', 'Ethernet - 001'); $ixNet->commit(); my $cardPortRef2 = $chassisObj2.'/card:'.$card2.'/port:'.$port2; $ixNet->setMultiAttribute($vport2, '-connectedTo', $cardPortRef2, '-rxMode', 'captureAndMeasure', '-name', 'Ethernet - 002'); $ixNet->commit(); } # Script Starts print("!!! Test Script Starts !!!\n"); # Edit this variables values to match your setup my $ixTclServer = '10.216.108.49'; my $ixTclPort = '8999'; my @ports = (('10.216.102.209', '1', '3'), ('10.216.102.209', '1', '4')); # Spawn a new instance of IxNetwork object. my $ixNet = new IxNetwork(); print("Connect to IxNetwork Tcl server\n"); $ixNet->connect($ixTclServer, '-port', $ixTclPort, '-version', '7.40', '-setAttribute', 'strict'); print("Creating a new config\n"); $ixNet->execute('newConfig'); ################################################################################# # Step 1> protocol configuration section ################################################################################# print("Adding 2 vports\n"); $ixNet->add($ixNet->getRoot(), 'vport'); $ixNet->add($ixNet->getRoot(), 'vport'); $ixNet->commit(); my @vPorts = $ixNet->getList($ixNet->getRoot(), 'vport'); my $vportTx = $vPorts[0]; my $vportRx = $vPorts[1]; assignPorts($ixNet, @ports, $vportTx, $vportRx); sleep(5); print("Adding 2 topologies\n"); $ixNet->add($ixNet->getRoot(), 'topology', '-vports', $vportTx); $ixNet->add($ixNet->getRoot(), 'topology', '-vports', $vportRx); $ixNet->commit(); # Creating topology and device group my @topologies = $ixNet->getList($ixNet->getRoot(), 'topology'); my $topo1 = $topologies[0]; my $topo2 = $topologies[1]; print("Adding 2 device groups\n"); $ixNet->add($topo1, 'deviceGroup'); $ixNet->add($topo2, 'deviceGroup'); $ixNet->commit(); my @t1devices = $ixNet->getList($topo1, 'deviceGroup'); my @t2devices = $ixNet->getList($topo2, 'deviceGroup'); print("Renaming the topologies and the device groups"); $ixNet->setAttribute($topo1, '-name', 'RSVPTE Topology 1'); $ixNet->setAttribute($topo2, '-name', 'RSVPTE Topology 2'); $ixNet->commit(); my $t1dev1 = $t1devices[0]; my $t2dev1 = $t2devices[0]; $ixNet->setAttribute($t1dev1, '-name', 'Label Switch Router 1'); $ixNet->setAttribute($t2dev1, '-name', 'Label Switch Router 2'); $ixNet->commit(); print("Configuring the multipliers (number of sessions)\n"); $ixNet->setAttribute($t1dev1, '-multiplier', '1'); $ixNet->setAttribute($t2dev1, '-multiplier', '1'); $ixNet->commit(); # Adding ethernet stack and configuring MAC print("Adding ethernet/mac endpoints\n"); $ixNet->add($t1dev1, 'ethernet'); $ixNet->add($t2dev1, 'ethernet'); $ixNet->commit(); my $mac1 = ($ixNet->getList($t1dev1, 'ethernet'))[0]; my $mac2 = ($ixNet->getList($t2dev1, 'ethernet'))[0]; print("Configuring the mac addresses\n"); $ixNet->setMultiAttribute($ixNet->getAttribute($mac1, '-mac').'/counter', '-direction', 'increment', '-start', '22:22:22:22:22:22', '-step', '00:00:00:00:00:01'); $ixNet->setAttribute($ixNet->getAttribute($mac2, '-mac').'/singleValue', '-value', '44:44:44:44:44:44'); $ixNet->commit(); # Adding IPv4 stack and configuring IP Address print("Add ipv4\n"); $ixNet->add($mac1, 'ipv4'); $ixNet->add($mac2, 'ipv4'); $ixNet->commit(); my $ip1 = ($ixNet->getList($mac1, 'ipv4'))[0]; my $ip2 = ($ixNet->getList($mac2, 'ipv4'))[0]; my $mvAdd1 = $ixNet->getAttribute($ip1, '-address'); my $mvAdd2 = $ixNet->getAttribute($ip2, '-address'); my $mvGw1 = $ixNet->getAttribute($ip1, '-gatewayIp'); my $mvGw2 = $ixNet->getAttribute($ip2, '-gatewayIp'); print("configuring ipv4 addresses"); $ixNet->setAttribute($mvAdd1.'/singleValue', '-value', '50.50.50.2'); $ixNet->setAttribute($mvAdd2.'/singleValue', '-value', '50.50.50.1'); $ixNet->setAttribute($mvGw1.'/singleValue', '-value', '50.50.50.1'); $ixNet->setAttribute($mvGw2.'/singleValue', '-value', '50.50.50.2'); $ixNet->setAttribute($ixNet->getAttribute($ip1, '-prefix').'/singleValue', '-value', '26'); $ixNet->setAttribute($ixNet->getAttribute($ip2, '-prefix').'/singleValue', '-value', '26'); $ixNet->setMultiAttribute($ixNet->getAttribute($ip1, '-resolveGateway').'/singleValue', '-value', 'true'); $ixNet->setMultiAttribute($ixNet->getAttribute($ip2, '-resolveGateway').'/singleValue', '-value', 'true'); $ixNet->commit(); # Adding OSPF and configuring it print("Adding OSPFv2 over IP4 stacks"); $ixNet->add($ip1, 'ospfv2'); $ixNet->add($ip2, 'ospfv2'); $ixNet->commit(); my $ospf1 = ($ixNet->getList($ip1, 'ospfv2'))[0]; my $ospf2 = ($ixNet->getList($ip2, 'ospfv2'))[0]; print("Renaming the topologies and the device groups\n"); $ixNet->setAttribute($topo1, '-name', 'OSPF Topology 1'); $ixNet->setAttribute($topo2, '-name', 'OSPF Topology 2'); $ixNet->setAttribute($t1dev1, '-name', 'OSPF Topology 1 Router'); $ixNet->setAttribute($t2dev1, '-name', 'OSPF Topology 2 Router'); $ixNet->commit(); print("Making the NetworkType to Point to Point in the first OSPF router\n"); my $networkTypeMultiValue1 = $ixNet->getAttribute($ospf1, '-networkType'); $ixNet->setMultiAttribute($networkTypeMultiValue1, '-pattern', 'singleValue', '-clearOverlays', 'False'); $ixNet->setMultiAttribute($networkTypeMultiValue1.'/singleValue', '-value', 'pointtopoint'); print("Making the NetworkType to Point to Point in the Second OSPF router\n"); my $networkTypeMultiValue2 = $ixNet->getAttribute($ospf2, '-networkType'); $ixNet->setAttribute($networkTypeMultiValue2, '-pattern', 'singleValue', '-clearOverlays', 'False'); $ixNet->setAttribute($networkTypeMultiValue2.'/singleValue', '-value', 'pointtopoint'); print("Disabling the Discard Learned Info CheckBox\n"); my $ospfv2RouterDiscardLearnedLSA1 = $ixNet->getAttribute(($ixNet->getList($t1devices[0], 'ospfv2Router'))[0], '-discardLearnedLsa'); my $ospfv2RouterDiscardLearnedLSA2 = $ixNet->getAttribute(($ixNet->getList($t2devices[0], 'ospfv2Router'))[0], '-discardLearnedLsa'); $ixNet->setAttribute($ospfv2RouterDiscardLearnedLSA1, '-pattern', 'singleValue', '-clearOverlays', 'False'); $ixNet->setAttribute($ospfv2RouterDiscardLearnedLSA1.'/singleValue', '-value', 'False'); $ixNet->setAttribute($ospfv2RouterDiscardLearnedLSA2, '-pattern', 'singleValue', '-clearOverlays', 'False'); $ixNet->setAttribute($ospfv2RouterDiscardLearnedLSA2.'/singleValue', '-value', 'False'); $ixNet->commit(); # Adding Network Topology behind Device Group print("Adding the Network Topology"); $ixNet->execute('createDefaultStack', $t1dev1, 'networkTopology'); $ixNet->execute('createDefaultStack', $t2dev1, 'networkTopology'); my $networkGroup1 = ($ixNet->getList($t1dev1, 'networkGroup'))[0]; my $networkGroup2 = ($ixNet->getList($t2dev1, 'networkGroup'))[0]; $ixNet->setAttribute($networkGroup1, '-name', 'OSPF_1_Network_Group1'); $ixNet->setAttribute($networkGroup2, '-name', 'OSPF_2_Network_Group1'); $ixNet->commit(); # Adding Chained Device Group Behind front Device Group for IPv4 loopback print("add ipv4 loopback1 for RSVP Leaf Ranges\n"); my $chainedDg1 = $ixNet->add($networkGroup1, 'deviceGroup'); $ixNet->setMultiAttribute($chainedDg1, '-multiplier', '1', '-name', 'Device Group 4'); $ixNet->commit(); $chainedDg1 = ($ixNet->remapIds($chainedDg1))[0]; my $loopback1 = $ixNet->add($chainedDg1, 'ipv4Loopback'); $ixNet->setMultiAttribute($loopback1, '-stackedLayers', '', '-name', 'IPv4 Loopback 2'); $ixNet->commit(); my $connector1 = $ixNet->add($loopback1, 'connector'); $ixNet->setMultiAttribute($connector1, '-connectedTo', $networkGroup1.'/networkTopology/simRouter:1'); $ixNet->commit(); my $connector1 = ($ixNet->remapIds($connector1))[0]; my $addressSet1 = $ixNet->getAttribute($loopback1, '-address'); $ixNet->setMultiAttribute($addressSet1, '-clearOverlays', 'false', '-pattern', 'counter'); $ixNet->commit(); $addressSet1 = $ixNet->add($addressSet1, 'counter'); $ixNet->setMultiAttribute($addressSet1, '-step', '0.1.0.0', '-start', '2.2.2.2', '-direction', 'increment'); $ixNet->commit(); my $addressSet1 = ($ixNet->remapIds($addressSet1))[0]; print("Adding ipv4 loopback2\n"); my $chainedDg2 = $ixNet->add($networkGroup2, 'deviceGroup'); $ixNet->setMultiAttribute($chainedDg2, '-multiplier', '1', '-name', 'Device Group 3'); $ixNet->commit(); $chainedDg2 = ($ixNet->remapIds($chainedDg2))[0]; my $loopback2 = $ixNet->add($chainedDg2, 'ipv4Loopback'); $ixNet->setMultiAttribute($loopback2, '-stackedLayers', '', '-name', 'IPv4 Loopback 1'); $ixNet->commit(); my $connector2 = $ixNet->add($loopback2, 'connector'); $ixNet->setMultiAttribute($connector2, '-connectedTo', $networkGroup2.'/networkTopology/simRouter:1'); $ixNet->commit(); $connector2 = ($ixNet->remapIds($connector2))[0]; my $addressSet2 = $ixNet->getAttribute($loopback2, '-address'); $ixNet->setMultiAttribute($addressSet2, '-clearOverlays', 'false', '-pattern', 'counter'); $ixNet->commit(); $addressSet2 = $ixNet->add($addressSet2, 'counter'); $ixNet->setMultiAttribute($addressSet2, '-step', '0.1.0.0', '-start', '3.3.3.3', '-direction', 'increment'); $ixNet->commit(); $addressSet2 = ($ixNet->remapIds($addressSet2))[0]; my $netTopo1 = ($ixNet->getList($networkGroup1, 'networkTopology'))[0]; my $netTopo2 = ($ixNet->getList($networkGroup2, 'networkTopology'))[0]; # Configuring Traffic Engineering print("Enabling Traffic Engineering in Network Topology 1\n"); my $simInterface1 = ($ixNet->getList($netTopo1, 'simInterface'))[0]; my $simInterfaceIPv4Config1 = ($ixNet->getList($simInterface1, 'simInterfaceIPv4Config'))[0]; my $ospfPseudoInterface1 = ($ixNet->getList($simInterfaceIPv4Config1, 'ospfPseudoInterface'))[0]; my $ospfPseudoInterface1_teEnable = $ixNet->getAttribute($ospfPseudoInterface1, '-enable'); $ixNet->setMultiAttribute($ospfPseudoInterface1_teEnable, '-clearOverlays', 'false', '-pattern', 'singleValue'); $ixNet->commit(); $ixNet->setMultiAttribute($ospfPseudoInterface1_teEnable.'/singleValue', '-value', 'true'); $ixNet->commit(); print("Enabling Traffic Engineering in Network Topology 2\n"); my $simInterface2 = ($ixNet->getList($netTopo2, 'simInterface'))[0]; my $simInterfaceIPv4Config2 = ($ixNet->getList($simInterface2, 'simInterfaceIPv4Config'))[0]; my $ospfPseudoInterface2 = ($ixNet->getList($simInterfaceIPv4Config2, 'ospfPseudoInterface'))[0]; my $ospfPseudoInterface2_teEnable = $ixNet->getAttribute($ospfPseudoInterface2, '-enable'); $ixNet->setMultiAttribute($ospfPseudoInterface2_teEnable, '-clearOverlays', 'false', '-pattern', 'singleValue'); $ixNet->commit(); $ixNet->setMultiAttribute($ospfPseudoInterface2_teEnable.'/singleValue', '-value', 'true'); $ixNet->commit(); # Adding RSVPTE over IPv4 stack and configuring related parameters print("Adding RSVPTE over IPv4 stack\n"); $ixNet->add($ip1, 'rsvpteIf'); $ixNet->add($ip2, 'rsvpteIf'); $ixNet->commit(); my $rsvpte1 = ($ixNet->getList($ip1, 'rsvpteIf'))[0]; my $rsvpte2 = ($ixNet->getList($ip2, 'rsvpteIf'))[0]; print("Changing Label Value for first RSVPTE router to single value\n"); my $labelSpaceStartMultValue1 = $ixNet->getAttribute($rsvpte1, '-labelSpaceStart'); $ixNet->setMultiAttribute($labelSpaceStartMultValue1, '-pattern', 'singleValue', '-clearOverlays', 'false'); $ixNet->setMultiAttribute($labelSpaceStartMultValue1.'/singleValue', '-value', '5001'); $ixNet->commit(); print("Changing Label Value for second RSVPTE router to multiple value\n"); $ixNet->setMultiAttribute($ixNet->getAttribute($rsvpte2, '-labelSpaceStart').'/counter', '-direction', 'increment', '-start', '7001', '-step', '1'); $ixNet->commit(); print ("Changing Label Space End for first RSVPTE router to single value\n"); my $labelSpaceSpaceEndMultValue1 = $ixNet->getAttribute($rsvpte1, '-labelSpaceEnd'); $ixNet->setMultiAttribute($labelSpaceSpaceEndMultValue1, '-pattern', 'singleValue', '-clearOverlays', 'false'); $ixNet->setMultiAttribute($labelSpaceSpaceEndMultValue1.'/singleValue', '-value', '50000'); $ixNet->commit(); print("Changing Label Space End for second RSVPTE router to single value\n"); $ixNet->setMultiAttribute($ixNet->getAttribute($rsvpte2, '-labelSpaceEnd').'/counter', '-direction', 'increment', '-start', '60000', '-step', '1'); $ixNet->commit(); print("Adding RSVPTE LSPs over 'IPv4 Loopback 1'"); my $rsvpteLsps1 = $ixNet->add($loopback1, 'rsvpteLsps'); $ixNet->commit(); $rsvpteLsps1 = ($ixNet->remapIds($rsvpteLsps1))[0]; print("Adding RSVPTE LSPs over 'IPv4 Loopback 2'"); my $rsvpteLsps2 = $ixNet->add($loopback2, 'rsvpteLsps'); $ixNet->commit(); $rsvpteLsps2 = ($ixNet->remapIds($rsvpteLsps2))[0]; print("Assigning 'Remote IP' to RSVPTE LSPs under Topology 1"); my $rsvpP2PIngressLsps1 = ($ixNet->getList($rsvpteLsps1, 'rsvpP2PIngressLsps'))[0]; my $remoteIp4Rsvp1 = $ixNet->getAttribute($rsvpP2PIngressLsps1, '-remoteIp'); $ixNet->setMultiAttribute($remoteIp4Rsvp1, '-clearOverlays', 'false', '-pattern', 'counter'); $ixNet->commit(); $ixNet->setMultiAttribute($remoteIp4Rsvp1.'/counter', '-step', '0.0.0.1', '-start', '3.3.3.3', '-direction', 'increment'); $ixNet->commit(); print("Assigning 'Remote IP' to RSVPTE LSPs under Topology 2"); my $rsvpP2PIngressLsps2 = ($ixNet->getList($rsvpteLsps2, 'rsvpP2PIngressLsps'))[0]; my $remoteIp4Rsvp2 = $ixNet->getAttribute($rsvpP2PIngressLsps2, '-remoteIp'); $ixNet->setMultiAttribute($remoteIp4Rsvp2, '-clearOverlays', 'false', '-pattern', 'counter'); $ixNet->commit(); my $remoteIp4Rsvp2_Counter = $ixNet->add($remoteIp4Rsvp2, 'counter'); $ixNet->setMultiAttribute($remoteIp4Rsvp2_Counter, '-step', '0.0.0.1', '-start', '2.2.2.2', '-direction', 'increment'); $ixNet->commit(); print("Changing Router Id of Network Topology to Loopback Address of Chained Device Group under Edge Router 1"); my $simRouter1 = ($ixNet->getList($netTopo1, 'simRouter'))[0]; my $simRouterId1 = $ixNet->getAttribute($simRouter1, '-routerId'); $ixNet->setMultiAttribute($simRouterId1, '-clearOverlays', 'false', '-pattern', 'counter'); $ixNet->commit(); $ixNet->setMultiAttribute($simRouterId1.'/counter', '-step', '0.0.0.1', '-start', '2.2.2.2', '-direction', 'increment'); $ixNet->commit(); $simRouterId1 = ($ixNet->remapIds($simRouterId1))[0]; print("Changing Router Id of Network Topology to Loopback Address of Chained Device Group under Edge Router 2"); my $simRouter2 = ($ixNet->getList($netTopo2, 'simRouter'))[0]; my $simRouterId2 = $ixNet->getAttribute($simRouter2, '-routerId'); $ixNet->setMultiAttribute($simRouterId2, '-clearOverlays', 'false', '-pattern', 'counter'); $ixNet->commit(); $ixNet->setMultiAttribute($simRouterId2.'/counter', '-step', '0.0.0.1', '-start', '2.2.2.2', '-direction', 'increment'); $ixNet->commit(); $simRouterId2 = ($ixNet->remapIds($simRouterId2))[0]; print("************************************************************"); ################################################################################ # Step 2> Start of protocol. ################################################################################ print("Starting protocols and waiting for 60 seconds for protocols to come up\n"); $ixNet->execute('startAllProtocols'); sleep(60); ################################################################################ # Step 3> Retrieve protocol statistics. ################################################################################ print("Fetching all Protocol Summary Stats\n"); my $viewPage = '::ixNet::OBJ-/statistics/view:"Protocols Summary"/page'; my @statcap = $ixNet->getAttribute($viewPage, '-columnCaptions'); my @rowvals = $ixNet->getAttribute($viewPage, '-rowValues'); my $index = 0; my $statValueList= ''; foreach $statValueList (@rowvals) { print("***************************************************\n"); my $statVal = ''; foreach $statVal (@$statValueList) { my $statIndiv = ''; $index = 0; foreach $statIndiv (@$statVal) { printf(" %-30s:%s\n", $statcap[$index], $statIndiv); $index++; } } } print("***************************************************\n"); ############################################################################### # Step 4> Retrieve protocol learned info ############################################################################### print("Fetching OSPFv2 Basic Learned Info\n"); $ixNet->execute('getLearnedInfo', $rsvpte1, '1'); sleep(5); my $linfo = ($ixNet->getList($rsvpte1, 'learnedInfo'))[0]; my @values = $ixNet->getAttribute($linfo, '-values'); my $v = ''; print("***************************************************\n"); foreach $v (@values) { my $w = '0'; foreach $w (@$v) { printf("%10s", $w); } print("\n"); } print("***************************************************\n"); ################################################################################ # Step 5> Apply changes on the fly. ################################################################################ print("Changing Label Value for first RSVPTE router to single value in Topology 1 \n"); my $labelSpaceStartMultValue1 = $ixNet->getAttribute($rsvpte1, '-labelSpaceStart'); $ixNet->setMultiAttribute($labelSpaceStartMultValue1, '-pattern', 'singleValue', '-clearOverlays', 'False'); $ixNet->setMultiAttribute($labelSpaceStartMultValue1.'/singleValue', '-value', '8000'); $ixNet->commit(); print("Changing Label Value for first RSVPTE router to single value in Topology 2"); my $labelSpaceStartMultValue2 = $ixNet->getAttribute($rsvpte2, '-labelSpaceStart'); $ixNet->setMultiAttribute($labelSpaceStartMultValue2, '-pattern', 'singleValue', '-clearOverlays', 'False'); $ixNet->setMultiAttribute($labelSpaceStartMultValue2.'/singleValue', '-value', '9000'); $ixNet->commit(); my $globals = ($ixNet->getRoot()).'/globals'; my $topology = $globals.'/topology'; print("Applying changes on the fly\n"); $ixNet->execute('applyOnTheFly', $topology); sleep(5); ################################################################################ # Step 6> Retrieve protocol learned info again and compare with. ################################################################################ print("Fetching all Protocol Summary Stats\n"); my $viewPage = '::ixNet::OBJ-/statistics/view:"Protocols Summary"/page'; my @statcap = $ixNet->getAttribute($viewPage, '-columnCaptions'); my @rowvals = $ixNet->getAttribute($viewPage, '-rowValues'); my $index = 0; my $statValueList= ''; foreach $statValueList (@rowvals) { print("***************************************************\n"); my $statVal = ''; foreach $statVal (@$statValueList) { my $statIndiv = ''; $index = 0; foreach $statIndiv (@$statVal) { printf(" %-30s:%s\n", $statcap[$index], $statIndiv); $index++; } } } print("***************************************************\n"); ################################################################################ # Step 7> Configure L2-L3 traffic. ################################################################################ print ("Congfiguring L2-L3 Traffic Item\n"); my $trafficItem1 = $ixNet->add(($ixNet->getRoot()).'/traffic', 'trafficItem'); $ixNet->setMultiAttribute($trafficItem1, '-name', 'RSVPTE Traffic 1', '-roundRobinPacketOrdering', 'false', '-trafficType', 'ipv4'); $ixNet->commit(); $trafficItem1 = ($ixNet->remapIds($trafficItem1))[0]; my $endpointSet1 = $ixNet->add($trafficItem1, 'endpointSet'); my @source = ($rsvpteLsps1.'/rsvpP2PIngressLsps'); my @destination = ($rsvpteLsps2.'/rsvpP2PEgressLsps'); $ixNet->setMultiAttribute($endpointSet1, '-name', 'EndpointSet-1', '-multicastDestinations', (''), '-scalableSources', (''), '-multicastReceivers', (''), '-scalableDestinations', (''), '-ngpfFilters', (''), '-trafficGroups', (''), '-sources', @source, '-destinations', @destination); $ixNet->commit(); $ixNet->setMultiAttribute($trafficItem1.'/tracking', '-trackBy', ['sourceDestEndpointPair0','trackingenabled0'], '-fieldWidth', 'thirtyTwoBits', '-protocolOffset', 'Root.0', '-values', ('')); $ixNet->commit(); ############################################################################### # Step 8> Apply and start L2/L3 traffic. ############################################################################### print("applying L2/L3 traffic\n"); $ixNet->execute('apply', ($ixNet->getRoot()).'/traffic'); sleep(5); print("starting L2/L3 traffic\n"); $ixNet->execute('start', ($ixNet->getRoot()).'/traffic'); ############################################################################### # Step 9> Retrieve L2/L3 traffic item statistics. ############################################################################### print("Verifying all the L2-L3 traffic stats\n"); my $viewPage = '::ixNet::OBJ-/statistics/view:"Flow Statistics"/page'; my @statcap = $ixNet->getAttribute($viewPage, '-columnCaptions'); my @rowvals = $ixNet->getAttribute($viewPage, '-rowValues'); my $index = 0; my $statValueList= ''; foreach $statValueList (@rowvals) { print("***************************************************\n"); my $statVal = ''; foreach $statVal (@$statValueList) { my $statIndiv = ''; $index = 0; foreach $statIndiv (@$statVal) { printf(" %-30s:%s\n", $statcap[$index], $statIndiv); $index++; } } } print("***************************************************\n"); ################################################################################# # Step 10> Stop L2/L3 traffic. ################################################################################# print("Stopping L2/L3 traffic\n"); $ixNet->execute('stop', ($ixNet->getRoot()).'/traffic'); sleep(5); ################################################################################ # Step 11> Stop all protocols. ################################################################################ $ixNet->execute('stopAllProtocols'); print("!!! Test Script Ends !!!");