*** Settings *** Library BuiltIn Library String Library Collections Library IxHLRobot /home/builds/ixNetwork-8.20.0.147/hltapi/library/common/ixiangpf/python /home/builds/ixNetwork-8.20.0.147/PythonApi ngpf # Based on script: //hltapi/QA/pythar_regression_scripts/IxN/QA_REGR/HLT4.80/Legacy_scripts_for_full_coverage/OSPF/test.09_OSPFv2_routers_routes_lsa_start_stop_restart_stats_new.tcl # Topology 2P-B2B *** Variables *** ${chassis} = 10.215.133.158 ${client} = 10.215.133.144 ${client_api_port} = 8136 @{portlist} = 12/7 12/8 ${client_and_port} = ${client}:${client_api_port} *** Test Cases *** test ################################################################################ # START - Connect to the chassis and get port handles from the result ################################################################################ ${result} = Connect reset=1 device=${chassis} ixnetwork_tcl_server=${client_and_port} port_list=@{portlist} username=ixiaHLTQA break_locks=1 interactive=1 ${connect_status} = Get From Dictionary ${result} status Run Keyword If '${connect_status}' != '1' FAIL "Error: Status is not SUCCESS" ELSE Log "Status is SUCCESS" ${vport_list} = Get From Dictionary ${result} vport_list @{portHandles} = Split String ${vport_list} ################################################################################ # Configure Topology, Device Group # ################################################################################ # Creating a topology on first port ${result} = Topology Config topology_name=OSPFv2 Topology 1 port_handle=@{portHandles}[0] ${status} = Get From Dictionary ${result} status Run Keyword If '${status}' != '1' FAIL "Error: Status is not SUCCESS" ELSE Log "Status is SUCCESS" ${topology_1_handle} = Get From Dictionary ${result} topology_handle # Creating a device group in topology ${result} = Topology Config topology_handle=${topology_1_handle} device_group_name=OSPFv2 Router 1 device_group_multiplier=1 device_group_enabled=1 ${status} = Get From Dictionary ${result} status Run Keyword If '${status}' != '1' FAIL "Error: Status is not SUCCESS" ELSE Log "Status is SUCCESS" ${deviceGroup_1_handle} = Get From Dictionary ${result} device_group_handle # Creating a topology on second port ${result} = Topology Config topology_name=OSPFv2 Topology 2 port_handle=@{portHandles}[1] ${status} = Get From Dictionary ${result} status Run Keyword If '${status}' != '1' FAIL "Error: Status is not SUCCESS" ELSE Log "Status is SUCCESS" ${topology_2_handle} = Get From Dictionary ${result} topology_handle # Creating a device group in topology ${result} = Topology Config topology_handle=${topology_2_handle} device_group_name=OSPFv2 Router 2 device_group_multiplier=1 device_group_enabled=1 ${status} = Get From Dictionary ${result} status Run Keyword If '${status}' != '1' FAIL "Error: Status is not SUCCESS" ELSE Log "Status is SUCCESS" ${deviceGroup_2_handle} = Get From Dictionary ${result} device_group_handle ################################################################################ # Configure protocol interfaces # ################################################################################ # Creating ethernet stack for the first Device Group ${result} = Interface Config protocol_name=Ethernet 1 protocol_handle=${deviceGroup_1_handle} mtu=1500 src_mac_addr=18.03.73.c7.6c.b1 src_mac_addr_step=00.00.00.00.00.00 ${status} = Get From Dictionary ${result} status Run Keyword If '${status}' != '1' FAIL "Error: Status is not SUCCESS" ELSE Log "Status is SUCCESS" ${ethernet_1_handle} = Get From Dictionary ${result} ethernet_handle # Creating ethernet stack for the second Device Group ${result} = Interface Config protocol_name=Ethernet 2 protocol_handle=${deviceGroup_2_handle} mtu=1500 src_mac_addr=18.03.73.c7.6c.01 src_mac_addr_step=00.00.00.00.00.00 ${status} = Get From Dictionary ${result} status Run Keyword If '${status}' != '1' FAIL "Error: Status is not SUCCESS" ELSE Log "Status is SUCCESS" ${ethernet_2_handle} = Get From Dictionary ${result} ethernet_handle # Creating IPv4 Stack on top of Ethernet Stack for the first Device Group Log To Console Creating IPv4 Stack on top of Ethernet Stack for the first Device Group ${result} = Interface Config protocol_name=IPv4 1 protocol_handle=${ethernet_1_handle} ipv4_resolve_gateway=1 ipv4_manual_gateway_mac=00.00.00.00.00.01 ipv4_manual_gateway_mac_step=00.00.00.00.00.00 gateway=20.20.20.1 intf_ip_addr=20.20.20.2 intf_ip_addr_step=0.0.0.0 netmask=255.255.255.0 ${status} = Get From Dictionary ${result} status Run Keyword If '${status}' != '1' FAIL "Error: Status is not SUCCESS" ELSE Log "Status is SUCCESS" ${ipv4_1_handle} = Get From Dictionary ${result} ipv4_handle # Creating IPv4 Stack on top of Ethernet Stack for the second Device Group Log To Console Creating IPv4 Stack on top of Ethernet Stack for the second Device Group ${result} = Interface Config protocol_name=IPv4 2 protocol_handle=${ethernet_2_handle} ipv4_resolve_gateway=1 ipv4_manual_gateway_mac=00.00.00.00.00.01 ipv4_manual_gateway_mac_step=00.00.00.00.00.00 gateway=20.20.20.2 intf_ip_addr=20.20.20.1 intf_ip_addr_step=0.0.0.0 netmask=255.255.255.0 ${status} = Get From Dictionary ${result} status Run Keyword If '${status}' != '1' FAIL "Error: Status is not SUCCESS" ELSE Log "Status is SUCCESS" ${ipv4_2_handle} = Get From Dictionary ${result} ipv4_handle # ############################################################################### # Configure OSPFv2 protocol # # ############################################################################### # Creating OSPFv2 Stack on top of IPv4 Stack for the first Device Group Log To Console Creating OSPFv2 Stack on top of IPv4 1 stack ${result} = Emulation Ospf Config handle=${ipv4_1_handle} mode=create network_type=ptop protocol_name=OSPFv2-IF 1 lsa_discard_mode=0 router_id=193.0.0.1 router_interface_active=1 router_active=1 ${status} = Get From Dictionary ${result} status Run Keyword If '${status}' != '1' FAIL "Error: Status is not SUCCESS" ELSE Log "Status is SUCCESS" ${ospfv2_handle1} = Get From Dictionary ${result} ospfv2_handle # Creating OSPFv2 Stack on top of IPv4 Stack for the second Device Group Log To Console Creating OSPFv2 Stack on top of IPv4 2 stack ${result} = Emulation Ospf Config handle=${ipv4_2_handle} mode=create network_type=ptop protocol_name=OSPFv2-IF 2 lsa_discard_mode=0 router_id=194.0.0.1 router_interface_active=1 router_active=1 ${status} = Get From Dictionary ${result} status Run Keyword If '${status}' != '1' FAIL "Error: Status is not SUCCESS" ELSE Log "Status is SUCCESS" ${ospfv2_handle2} = Get From Dictionary ${result} ospfv2_handle # ############################################################################### # Configure Network Topology & Loopback Device Groups # # ############################################################################### # Creating Tree Network Topology in Topology 1 Log To Console Creating Tree Network Topology in Topology 1 ${result} = Network Group Config protocol_handle=${deviceGroup_1_handle} protocol_name=Network Cloud 1 connected_to_handle=${ethernet_1_handle} type=ipv4-prefix ipv4_prefix_network_address=201.1.0.1 ipv4_prefix_length=32 ipv4_prefix_number_of_addresses=1 ${status} = Get From Dictionary ${result} status Run Keyword If '${status}' != '1' FAIL "Error: Status is not SUCCESS" ELSE Log "Status is SUCCESS" ${networkGroup_1_handle} = Get From Dictionary ${result} network_group_handle ${ipv4PrefixPools_1_handle} = Get From Dictionary ${result} ipv4_prefix_pools_handle # Configure OSPFv2 group range for topology 1 Log To Console Configuring OSPFv2 group range for topology 1 ${result} = Emulation Ospf Network Group Config handle=${networkGroup_1_handle} mode=modify ipv4_prefix_active=1 ipv4_prefix_route_origin=another_area ${status} = Get From Dictionary ${result} status Run Keyword If '${status}' != '1' FAIL "Error: Status is not SUCCESS" ELSE Log "Status is SUCCESS" # Creating IPv4 prefix pool of Network for Network Cloud behind second # Device Group with "ipv4_prefix_network_address" =202.1.0.1 Log To Console Creating IPv4 prefix pool behind second Device Group ${result} = Network Group Config protocol_handle=${deviceGroup_2_handle} protocol_name=Network Cloud 2 connected_to_handle=${ethernet_2_handle} type=ipv4-prefix ipv4_prefix_network_address=202.1.0.1 ipv4_prefix_length=32 ipv4_prefix_number_of_addresses=1 ${status} = Get From Dictionary ${result} status Run Keyword If '${status}' != '1' FAIL "Error: Status is not SUCCESS" ELSE Log "Status is SUCCESS" ${networkGroup_2_handle} = Get From Dictionary ${result} network_group_handle ${ipv4PrefixPools_2_handle} = Get From Dictionary ${result} ipv4_prefix_pools_handle # Configure OSPFv2 group range for topology 2 Log To Console Configuring OSPFv2 group range for topology 2 ${result} = Emulation Ospf Network Group Config handle=${networkGroup_2_handle} mode=modify ipv4_prefix_active=1 ipv4_prefix_route_origin=another_area ${status} = Get From Dictionary ${result} status Run Keyword If '${status}' != '1' FAIL "Error: Status is not SUCCESS" ELSE Log "Status is SUCCESS" # Going to create Chained Device Group 3 behind Network Cloud 1 # within Topology 1 and renaming of that chained DG to "Loopback Router 1" Log To Console Going to create Chained DG 3 in Topology 1 behind Network Cloud 1 and renaming it ${result} = Topology Config device_group_name=Loopback Router 1 device_group_multiplier=1 device_group_enabled=1 device_group_handle=${networkGroup_1_handle} ${status} = Get From Dictionary ${result} status Run Keyword If '${status}' != '1' FAIL "Error: Status is not SUCCESS" ELSE Log "Status is SUCCESS" ${deviceGroup_1_1_handle} = Get From Dictionary ${result} device_group_handle # Creating multivalue loopback adderress within chained DG in Topology 1 Log To Console Creating multivalue for loopback adderress within chained DG ${result} = Multivalue Config pattern=counter counter_start=201.1.0.1 counter_step=0.0.0.1 counter_direction=increment nest_step=0.0.0.1,0.0.0.1,0.1.0.0 nest_owner=${networkGroup_1_handle},${deviceGroup_1_handle},${topology_1_handle} nest_enabled=0,0,1 ${status} = Get From Dictionary ${result} status Run Keyword If '${status}' != '1' FAIL "Error: Status is not SUCCESS" ELSE Log "Status is SUCCESS" ${multivalue_4_handle} = Get From Dictionary ${result} multivalue_handle # Creating Loopback behind Chained DG. Log To Console Creating Loopback behind Chained DG. ${result} = Interface Config protocol_name=IPv4 Loopback 1 protocol_handle=${deviceGroup_1_1_handle} enable_loopback=1 connected_to_handle=${networkGroup_1_handle} intf_ip_addr=${multivalue_4_handle} netmask=255.255.255.255 ${status} = Get From Dictionary ${result} status Run Keyword If '${status}' != '1' FAIL "Error: Status is not SUCCESS" ELSE Log "Status is SUCCESS" ${ipv4Loopback_1_handle} = Get From Dictionary ${result} ipv4_loopback_handle # Going to create Chained Device Group 4 behind Network Cloud 1 within # Topology 2 and renaming of that chained DG to "Loopback Router 2" Log To Console Going to create Chained DG 4 in Topology 2 behind Network Cloud 2 and renaming it ${result} = Topology Config device_group_name=Loopback Router 2 device_group_multiplier=1 device_group_enabled=1 device_group_handle=${networkGroup_2_handle} ${status} = Get From Dictionary ${result} status Run Keyword If '${status}' != '1' FAIL "Error: Status is not SUCCESS" ELSE Log "Status is SUCCESS" ${deviceGroup_2_1_handle} = Get From Dictionary ${result} device_group_handle # Creating multivalue loopback addresses within chained DG in Topology 2 Log To Console Creating multivalue for loopback adderress within chained DG ${result} = Multivalue Config pattern=counter counter_start=202.1.0.1 counter_step=0.0.0.1 counter_direction=increment nest_step=0.0.0.1,0.0.0.1,0.1.0.0 nest_owner=${networkGroup_2_handle},${deviceGroup_2_handle},${topology_2_handle} nest_enabled=0,0,1 ${status} = Get From Dictionary ${result} status Run Keyword If '${status}' != '1' FAIL "Error: Status is not SUCCESS" ELSE Log "Status is SUCCESS" ${multivalue_4_handle} = Get From Dictionary ${result} multivalue_handle # Creating Loopback behind Chained DG. Log To Console Creating Loopback behind Chained DG. ${result} = Interface Config protocol_name=IPv4 Loopback 2 protocol_handle=${deviceGroup_2_1_handle} enable_loopback=1 connected_to_handle=${networkGroup_2_handle} intf_ip_addr=${multivalue_4_handle} netmask=255.255.255.255 ${status} = Get From Dictionary ${result} status Run Keyword If '${status}' != '1' FAIL "Error: Status is not SUCCESS" ELSE Log "Status is SUCCESS" ${ipv4Loopback_2_handle} = Get From Dictionary ${result} ipv4_loopback_handle ################################################################################ # Start LDP protocol # ################################################################################ Log To Console Starting LDP on topology1 ${result} = Emulation Ldp Control handle=${topology_1_handle} mode=start ${status} = Get From Dictionary ${result} status Run Keyword If '${status}' != '1' FAIL "Error: Status is not SUCCESS" ELSE Log "Status is SUCCESS" Log To Console Starting LDP on topology2 ${result} = Emulation Ospf Control handle=${topology_2_handle} mode=start ${status} = Get From Dictionary ${result} status Run Keyword If '${status}' != '1' FAIL "Error: Status is not SUCCESS" ELSE Log "Status is SUCCESS" ${result} = Test Control action=start_all_protocols ${status} = Get From Dictionary ${result} status Run Keyword If '${status}' != '1' FAIL "Error: Status is not SUCCESS" ELSE Log "Status is SUCCESS" Log To Console Waiting for 20 seconds for OSPFv3 sessions to come up ... Sleep 20s ############################################################################ # Retrieve Learned Info # ############################################################################ Log To Console Fetching OSPFv2 learned info for Topology 1 ${learnedInfo} = Emulation Ospf Info handle=${ospfv2_handle1} mode=learned_info ${status} = Get From Dictionary ${learnedInfo} status Run Keyword If '${status}' != '1' FAIL "Error: Status is not SUCCESS" ELSE Log "Status is SUCCESS" Log ${learnedInfo} ################################################################################ # Retrieve protocol statistics # ################################################################################ Log printing protocol statistics ... ${ospf_stats} = Emulation Ospf Info handle=${ospfv2_handle1} mode=aggregate_stats ${status} = Get From Dictionary ${ospf_stats} status Run Keyword If '${status}' != '1' FAIL "Error: Status is not SUCCESS" ELSE Log "Status is SUCCESS" Log ${ospf_stats} ################################################################################ # Disabling the OSPFv2 group-range on the topology 2 # ################################################################################ Log To Console Disabling the OSPFv2 group-range on the topology 2 ${result} = Emulation Ospf Network Group Config handle=${networkGroup_2_handle} mode=modify ipv4_prefix_active=0 ${status} = Get From Dictionary ${result} status Run Keyword If '${status}' != '1' FAIL "Error: Status is not SUCCESS" ELSE Log "Status is SUCCESS" ################################################################################ # Applying changes one the fly # ################################################################################ Log To Console Applying changes on the fly ${result} = Test Control action=apply_on_the_fly_changes ${status} = Get From Dictionary ${result} status Run Keyword If '${status}' != '1' FAIL "Error: Status is not SUCCESS" ELSE Log "Status is SUCCESS" Log To Console Waiting for 30 seconds Sleep 30s ################################################################################ # Retrieve protocol learned info again and notice the difference with # # previously retrieved learned info # ################################################################################ Log To Console Fetching OSPFv2 learned info for Topology 1 after disabling the network range in topology 2 ${learnedInfo} = Emulation Ospf Info handle=${ospfv2_handle1} mode=learned_info ${status} = Get From Dictionary ${learnedInfo} status Run Keyword If '${status}' != '1' FAIL "Error: Status is not SUCCESS" ELSE Log "Status is SUCCESS" Log ${learnedInfo} ################################################################################ # Enabling the OSPFv2 group-range on the topology 2 # ################################################################################ Log To Console Enabling the OSPFv2 group-range on the topology 2 ${result} = Emulation Ospf Network Group Config handle=${networkGroup_2_handle} mode=modify ipv4_prefix_active=1 ${status} = Get From Dictionary ${result} status Run Keyword If '${status}' != '1' FAIL "Error: Status is not SUCCESS" ELSE Log "Status is SUCCESS" ################################################################################ # Applying changes one the fly # ################################################################################ Log To Console Applying changes on the fly ${result} = Test Control action=apply_on_the_fly_changes ${status} = Get From Dictionary ${result} status Run Keyword If '${status}' != '1' FAIL "Error: Status is not SUCCESS" ELSE Log "Status is SUCCESS" Log To Console Waiting for 30 seconds Sleep 30s ################################################################################ # Retrieve protocol learned info again and notice the difference with # # previously retrieved learned info # ################################################################################ Log To Console Fetching OSPFv2 learned info for Topology 1 after disabling the network range in topology 2 ${learnedInfo} = Emulation Ospf Info handle=${ospfv2_handle1} mode=learned_info ${status} = Get From Dictionary ${learnedInfo} status Run Keyword If '${status}' != '1' FAIL "Error: Status is not SUCCESS" ELSE Log "Status is SUCCESS" Log ${learnedInfo} ################################################################################ # Configure L2-L3 traffic # # 1 Endpoints : Source->IPv4 loopback, Destination->IPv4 loopback # # 2 Type : Unicast IPv4 traffic # # 3 Flow Group : On IPv4 Destination Address # # 4 Rate : 1000 packets per second # # 5 Frame Size : 512 bytes # # 6 Tracking : Source Destination EndPoint Set # ################################################################################ # Configuring L2-L3 traffic item Log Configure L2-L3 traffic ${result} = Traffic Config mode=create traffic_generator=ixnetwork_540 endpointset_count=1 emulation_src_handle=${ipv4PrefixPools_1_handle} emulation_dst_handle=${ipv4PrefixPools_2_handle} frame_sequencing=disable frame_sequencing_mode=rx_threshold name=Traffic_Item_1 circuit_endpoint_type=ipv4 rate_pps=100000 frame_size=64 mac_dst_mode=fixed mac_src_mode=fixed mac_src_tracking=1 track_by=sourceDestEndpointPair0 trackingenabled0 ${status} = Get From Dictionary ${result} status Run Keyword If '${status}' != '1' FAIL "Error: Status is not SUCCESS" ELSE Log "Status is SUCCESS" ################################################################################# # Configure L4-L7 Application traffic # # 1. Endpoints : Source->IPv4 Loopback, Destination->IPv4 Loopback # # 2. Flow Group : On IPv4 Destination Address # # 3. objective value: 100 # ################################################################################# Log Configure L4-L7 traffic ${result} = Traffic L47 Config mode=create name=Traffic Item 2 circuit_endpoint_type=ipv4_application_traffic emulation_src_handle=${ipv4Loopback_1_handle} emulation_dst_handle=${ipv4Loopback_2_handle} objective_type=users objective_value=100 objective_distribution=apply_full_objective_to_each_port enable_per_ip_stats=0 flows=Bandwidth_BitTorrent_File_Download Bandwidth_eDonkey Bandwidth_HTTP Bandwidth_IMAPv4 Bandwidth_POP3 Bandwidth_Radius Bandwidth_Raw Bandwidth_Telnet Bandwidth_uTorrent_DHT_File_Download BBC_iPlayer BBC_iPlayer_Radio BGP_IGP_Open_Advertise_Routes BGP_IGP_Withdraw_Routes Bing_Search BitTorrent_Ares_v217_File_Download BitTorrent_BitComet_v126_File_Download BitTorrent_Blizzard_File_Download BitTorrent_Cisco_EMIX BitTorrent_Enterprise BitTorrent_File_Download BitTorrent_LimeWire_v5516_File_Download BitTorrent_RMIX_5M ${status} = Get From Dictionary ${result} status Run Keyword If '${status}' != '1' FAIL "Error: Status is not SUCCESS" ELSE Log "Status is SUCCESS" ############################################################################ # Start L2-L3 & L4-L7 traffic configured earlier # ############################################################################ Log Running Traffic ${result} = Traffic Control action=run traffic_generator=ixnetwork_540 type=l23 l47 ${status} = Get From Dictionary ${result} status Run Keyword If '${status}' != '1' FAIL "Error: Status is not SUCCESS" ELSE Log "Status is SUCCESS" Log Let the traffic run for 60 seconds Sleep 60s ############################################################################ # Retrieve L2-L3 & L4-L7 traffic stats # ############################################################################ Log Retrieving L2-L3 & L4-L7 traffic stats ${protostats} = Traffic Stats mode=all traffic_generator=ixnetwork_540 measure_mode=mixed ${status} = Get From Dictionary ${protostats} status Run Keyword If '${status}' != '1' FAIL "Error: Status is not SUCCESS" ELSE Log "Status is SUCCESS" Log ${protostats} ############################################################################ # Stop L2-L3 traffic started earlier # ############################################################################ Log Stopping Traffic ${result} = Traffic Control action=stop traffic_generator=ixnetwork_540 type=l23 l47 ${status} = Get From Dictionary ${result} status Run Keyword If '${status}' != '1' FAIL "Error: Status is not SUCCESS" ELSE Log "Status is SUCCESS" Sleep 2s ############################################################################ # Stop all protocols # ############################################################################ Log Stopping all protocols ${result} = Test Control action=stop_all_protocols ${status} = Get From Dictionary ${result} status Run Keyword If '${status}' != '1' FAIL "Error: Status is not SUCCESS" ELSE Log "Status is SUCCESS" Sleep 2s Log !!! Test Script Ends !!!