################################################################################# # Version 1 $Revision: 3 $ # $Author: MChakravarthy $ # # Copyright © 1997 - 2013 by IXIA # All Rights Reserved. # # Revision Log: # 08-15-2013 Mchakravarthy - created sample # ################################################################################ ################################################################################ # # # 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 user's 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 sample configures BGP L3VPN on both ports # # and retreives session stats # # Module: # # The sample was tested on a LM1000TXS4 module. # # # ################################################################################ if {[catch {package require Ixia} retCode]} { puts "FAIL - [info script] - $retCode" return 0 } ################################################################################ # General script variables ################################################################################ set test_name [info script] set chassis ixro-hlt-xm2-08 set ixnetwork_tcl_server "localhost" set port_list {2/1 2/2} set vport_name_list {{{{10GE LAN - 001}} {{10GE LAN - 002}}}} set aggregation_mode {{not_supported not_supported}} set aggregation_resource_mode {{normal normal}} ################################################################################ # START - Connect to the chassis ################################################################################ set ret [::ixiangpf::connect \ -reset 1 \ -device $chassis \ -aggregation_mode $aggregation_mode \ -aggregation_resource_mode $aggregation_resource_mode \ -port_list $port_list \ -ixnetwork_tcl_server $ixnetwork_tcl_server \ -tcl_server $chassis \ ] if {[keylget ret status] != $::SUCCESS} { error $ret } set i -1 set ch_vport_list [list] foreach {port} $port_list { if {[catch {keylget ret port_handle.$chassis.$port} port_handle]} { error "connection status: $ret: $port_handle" } set ph_[incr i] $port_handle lappend ch_vport_list $port_handle } set vpinfo_rval [::ixia::vport_info \ -mode set_info \ -port_list $ch_vport_list \ -port_name_list $vport_name_list \ ] if {[keylget vpinfo_rval status] != $::SUCCESS} { error $vpinfo_rval } proc keylprint {var_ref} { upvar 1 $var_ref var set level [expr [info level] - 1] foreach key [keylkeys var] { set indent [string repeat " " $level] puts -nonewline $indent if {[catch {keylkeys var $key} catch_rval] || [llength $catch_rval] == 0} { puts "$key: [keylget var $key]" continue } else { puts $key puts "$indent[string repeat "-" [string length $key]]" } set rec_key [keylget var $key] keylprint rec_key puts "" } } proc create_topology {ph name} { set topology_1_status [::ixiangpf::topology_config \ -topology_name $name \ -port_handle $ph \ ] if {[keylget topology_1_status status] != $::SUCCESS} { error $topology_1_status } return [keylget topology_1_status topology_handle] } proc create_devicegroup {topology name} { set device_group_status [::ixiangpf::topology_config \ -topology_handle $topology \ -device_group_name $name \ -device_group_multiplier 1 \ -device_group_enabled 1 \ ] if {[keylget device_group_status status] != $::SUCCESS} { error $device_group_status } return [keylget device_group_status device_group_handle] } proc create_devicegroup_linked {networkgroup name} { set device_group_status [::ixiangpf::topology_config \ -device_group_name $name \ -device_group_multiplier 1 \ -device_group_enabled 1 \ -device_group_handle $networkgroup \ ] if {[keylget device_group_status status] != $::SUCCESS} { error $device_group_status } return [keylget device_group_status device_group_handle] } proc create_ethernet {topology devicegroup name} { set mv_src_mac_addr_status [::ixiangpf::multivalue_config \ -pattern counter \ -counter_start 00.11.01.00.00.01 \ -counter_step 00.00.00.00.00.01 \ -counter_direction increment \ -nest_step 00.00.01.00.00.00 \ -nest_owner $topology \ -nest_enabled 1 \ ] if {[keylget mv_src_mac_addr_status status] != $::SUCCESS} { error $mv_src_mac_addr_status } set mv_src_mac_addr [keylget mv_src_mac_addr_status multivalue_handle] set ethernet_status [::ixiangpf::interface_config \ -protocol_name $name \ -protocol_handle $devicegroup \ -mtu 1500 \ -src_mac_addr $mv_src_mac_addr \ -vlan 0 \ -vlan_id 1 \ -vlan_id_step 0 \ -vlan_id_count 1 \ -vlan_tpid 0x8100 \ -vlan_user_priority 0 \ -vlan_user_priority_step 0 \ -use_vpn_parameters 0 \ -site_id 0 \ ] if {[keylget ethernet_status status] != $::SUCCESS} { error $ethernet_status } return [keylget ethernet_status ethernet_handle] } proc create_ipv4 {topology ethernet name ip_address gw_address} { set mv_intf_ip_addr_status [::ixiangpf::multivalue_config \ -pattern counter \ -counter_start $ip_address \ -counter_step 0.0.1.0 \ -counter_direction increment \ -nest_step 0.1.0.0 \ -nest_owner $topology \ -nest_enabled 1 \ ] if {[keylget mv_intf_ip_addr_status status] != $::SUCCESS} { error $mv_intf_ip_addr_status } set mv_intf_ip_addr [keylget mv_intf_ip_addr_status multivalue_handle] set mv_gateway_status [::ixiangpf::multivalue_config \ -pattern counter \ -counter_start $gw_address \ -counter_step 0.0.1.0 \ -counter_direction increment \ -nest_step 0.0.0.1 \ -nest_owner $topology \ -nest_enabled 0 \ ] if {[keylget mv_gateway_status status] != $::SUCCESS} { error $mv_gateway_status } set mv_gateway [keylget mv_gateway_status multivalue_handle] set ipv4_status [::ixiangpf::interface_config \ -protocol_name $name \ -protocol_handle $ethernet \ -ipv4_resolve_gateway 1 \ -ipv4_manual_gateway_mac 00.00.00.00.00.01 \ -gateway $mv_gateway \ -intf_ip_addr $mv_intf_ip_addr \ -netmask 255.255.255.0 \ ] if {[keylget ipv4_status status] != $::SUCCESS} { error $ipv4_status } return [keylget ipv4_status ipv4_handle] } proc create_ipv4_loopback {topology devicegroup networkgroup ip_address name} { set mv_intf_ip_addr_status [::ixiangpf::multivalue_config \ -pattern counter \ -counter_start $ip_address \ -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 $networkgroup,$devicegroup,$topology \ -nest_enabled 0,0,1 \ ] if {[keylget mv_intf_ip_addr_status status] != $::SUCCESS} { error $mv_intf_ip_addr_status } set mv_intf_ip_addr [keylget mv_intf_ip_addr_status multivalue_handle] set ipv4_loopback_status [::ixiangpf::interface_config \ -protocol_name $name \ -protocol_handle $devicegroup \ -enable_loopback 1 \ -connected_to_handle $networkgroup \ -intf_ip_addr $mv_intf_ip_addr \ -netmask 255.255.255.255 \ ] if {[keylget ipv4_loopback_status status] != $::SUCCESS} { error $ipv4_loopback_status } return [keylget ipv4_loopback_status ipv4_loopback_handle] } proc create_ldp {topology ipv4 lsr_id} { set ldp_status [::ixiangpf::emulation_ldp_config \ -handle $ipv4 \ -mode create \ -recovery_time 120000 \ -reconnect_time 120000 \ -keepalive_interval 15 \ -keepalive_holdtime 45 \ -graceful_restart_enable 0 \ -interface_active 1 \ -hello_interval 5 \ -hello_hold_time 15 \ -label_space 0 \ -label_adv unsolicited \ -auth_mode null \ -lsr_id $lsr_id ] if {[keylget ldp_status status] != $::SUCCESS} { error $ldp_status } } proc create_ospf {topology ipv4 ip_address name} { set mv_router_id_status [::ixiangpf::multivalue_config \ -pattern counter \ -counter_start $ip_address \ -counter_step 0.0.0.1 \ -counter_direction increment \ -nest_step 0.1.0.0 \ -nest_owner $topology \ -nest_enabled 1 \ ] if {[keylget mv_router_id_status status] != $::SUCCESS} { error $mv_router_id_status } set mv_router_id [keylget mv_router_id_status multivalue_handle] set ospfv2_status [::ixiangpf::emulation_ospf_config \ -handle $ipv4 \ -mode create \ -protocol_name $name \ -area_id 0.0.0.0 \ -area_id_as_number 0 \ -area_id_type number \ -authentication_mode null \ -dead_interval 40 \ -demand_circuit 0 \ -graceful_restart_enable 0 \ -hello_interval 10 \ -router_interface_active 1 \ -enable_fast_hello 0 \ -hello_multiplier 2 \ -max_mtu 1500 \ -router_active 1 \ -router_asbr 0 \ -do_not_generate_router_lsa 0 \ -router_abr 0 \ -inter_flood_lsupdate_burst_gap 33 \ -lsa_refresh_time 1800 \ -lsa_retransmit_time 5 \ -max_ls_updates_per_burst 1 \ -oob_resync_breakout 0 \ -interface_cost 10 \ -lsa_discard_mode 1 \ -md5_key_id 1 \ -network_type ptop \ -neighbor_router_id 0.0.0.0 \ -type_of_service_routing 0 \ -external_capabilities 1 \ -multicast_capability 0 \ -nssa_capability 0 \ -external_attribute 0 \ -opaque_lsa_forwarded 0 \ -unused 0 \ -router_id $mv_router_id \ -router_priority 2 \ -te_enable 0 \ -te_max_bw 0 \ -te_max_resv_bw 0 \ -te_unresv_bw_priority0 0 \ -te_unresv_bw_priority1 0 \ -te_unresv_bw_priority2 0 \ -te_unresv_bw_priority3 0 \ -te_unresv_bw_priority4 0 \ -te_unresv_bw_priority5 0 \ -te_unresv_bw_priority6 0 \ -te_unresv_bw_priority7 0 \ -te_metric 0 \ -te_admin_group 0 \ -validate_received_mtu 1 \ -graceful_restart_helper_mode_enable 0 \ -strict_lsa_checking 1 \ -support_reason_sw_restart 1 \ -support_reason_sw_reload_or_upgrade 1 \ -support_reason_switch_to_redundant_processor_control 1 \ -support_reason_unknown 1 \ ] if {[keylget ospfv2_status status] != $::SUCCESS} { error $ospfv2_status } return [keylget ospfv2_status ospfv2_handle] } proc create_ospf_ldp_network_group {topology devicegroup ethernet ospf ip_address name} { set mv_ipv4_prefix_network_address_status [::ixiangpf::multivalue_config \ -pattern counter \ -counter_start $ip_address \ -counter_step 0.0.0.1 \ -counter_direction increment \ -nest_step 0.0.0.1,0.1.0.0 \ -nest_owner $devicegroup,$topology \ -nest_enabled 0,1 \ ] if {[keylget mv_ipv4_prefix_network_address_status status] != $::SUCCESS} { error $mv_ipv4_prefix_network_address_status } set mv_ipv4_prefix_network_address [keylget mv_ipv4_prefix_network_address_status multivalue_handle] set mv_ipv4_prefix_length_status [::ixiangpf::multivalue_config \ -pattern counter \ -counter_start 32 \ -counter_step 0 \ -counter_direction decrement \ -nest_step 1,1 \ -nest_owner $devicegroup,$topology \ -nest_enabled 0,0 \ ] if {[keylget mv_ipv4_prefix_length_status status] != $::SUCCESS} { error $mv_ipv4_prefix_length_status } set mv_ipv4_prefix_length [keylget mv_ipv4_prefix_length_status multivalue_handle] set network_group_status [::ixiangpf::emulation_ospf_network_group_config \ -handle $ospf \ -type ipv4-prefix \ -protocol_name $name \ -multiplier 1 \ -enable_device 1 \ -connected_to_handle $ethernet \ -ipv4_prefix_network_address $mv_ipv4_prefix_network_address \ -ipv4_prefix_length $mv_ipv4_prefix_length \ -ipv4_prefix_number_of_addresses 1 \ -ipv4_prefix_metric 0 \ -ipv4_prefix_active 1 \ -ipv4_prefix_allow_propagate 0 \ -ipv4_prefix_route_origin another_area \ ] if {[keylget network_group_status status] != $::SUCCESS} { error $network_group_status } return [keylget network_group_status network_group_handle] } proc create_bgp {topology devicegroup networkgroup ipv4loopback remote_ip local_ip} { set mv_remote_ip_addr_status [::ixiangpf::multivalue_config \ -pattern counter \ -counter_start $remote_ip \ -counter_step 255.255.255.255 \ -counter_direction decrement \ -nest_step 0.0.0.1,0.0.0.1,0.0.0.1 \ -nest_owner $networkgroup,$devicegroup,$topology \ -nest_enabled 0,0,0 \ ] if {[keylget mv_remote_ip_addr_status status] != $::SUCCESS} { error $mv_remote_ip_addr_status } set mv_remote_ip_addr [keylget mv_remote_ip_addr_status multivalue_handle] set mv_local_router_id_status [::ixiangpf::multivalue_config \ -pattern counter \ -counter_start $local_ip \ -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 $networkgroup,$devicegroup,$topology \ -nest_enabled 0,0,1 \ ] if {[keylget mv_local_router_id_status status] != $::SUCCESS} { error $mv_local_router_id_status } set mv_local_router_id [keylget mv_local_router_id_status multivalue_handle] set bgp_ipv4_peer_status [::ixiangpf::emulation_bgp_config \ -mode enable \ -md5_enable 0 \ -handle $ipv4loopback \ -remote_ip_addr $mv_remote_ip_addr \ -enable_4_byte_as 0 \ -local_as 0 \ -update_interval 0 \ -count 1 \ -local_router_id $mv_local_router_id \ -hold_time 90 \ -neighbor_type internal \ -graceful_restart_enable 0 \ -restart_time 45 \ -stale_time 0 \ -tcp_window_size 8192 \ -local_router_id_enable 1 \ -ipv4_capability_mdt_nlri 1 \ -ipv4_capability_unicast_nlri 1 \ -ipv4_filter_unicast_nlri 1 \ -ipv4_capability_multicast_nlri 1 \ -ipv4_filter_multicast_nlri 1 \ -ipv4_capability_mpls_nlri 1 \ -ipv4_filter_mpls_nlri 1 \ -ipv4_capability_mpls_vpn_nlri 1 \ -ipv4_filter_mpls_vpn_nlri 1 \ -ipv4_capability_multicast_vpn_nlri 1 \ -ipv4_filter_multicast_vpn_nlri 1 \ -ipv6_capability_unicast_nlri 1 \ -ipv6_filter_unicast_nlri 1 \ -ipv6_capability_multicast_nlri 1 \ -ipv6_filter_multicast_nlri 1 \ -ipv6_capability_mpls_nlri 1 \ -ipv6_filter_mpls_nlri 1 \ -ipv6_capability_mpls_vpn_nlri 1 \ -ipv6_filter_mpls_vpn_nlri 1 \ -ipv6_capability_multicast_vpn_nlri 1 \ -ipv6_filter_multicast_vpn_nlri 1 \ -vpls_capability_nlri 1 \ -vpls_filter_nlri 1 \ -ttl_value 64 \ -updates_per_iteration 1 \ -bfd_registration 0 \ -bfd_registration_mode multi_hop \ -act_as_restarted 0 \ -discard_ixia_generated_routes 0 \ -flap_down_time 0 \ -local_router_id_type same \ -enable_flap 0 \ -send_ixia_signature_with_routes 0 \ -flap_up_time 0 \ -next_hop_enable 0 \ -next_hop_ip 0.0.0.0 \ -advertise_end_of_rib 0 \ -configure_keepalive_timer 0 \ -keepalive_timer 30 \ ] if {[keylget bgp_ipv4_peer_status status] != $::SUCCESS} { error $bgp_ipv4_peer_status } return [list \ [keylget bgp_ipv4_peer_status bgp_handle] \ [keylget bgp_ipv4_peer_status handle] \ ] } proc create_bgp_vpls {topology devicegroup networkgroup bgp_peer name} { set mv_rd_assign_value_status [::ixiangpf::multivalue_config \ -pattern counter \ -counter_start 1 \ -counter_step 1 \ -counter_direction increment \ -nest_step 1,1,0 \ -nest_owner $networkgroup,$devicegroup,$topology \ -nest_enabled 0,0,1 \ ] if {[keylget mv_rd_assign_value_status status] != $::SUCCESS} { error $mv_rd_assign_value_status } set mv_rd_assign_value [keylget mv_rd_assign_value_status multivalue_handle] set mv_target_assign_status [::ixiangpf::multivalue_config \ -pattern counter \ -counter_start 1 \ -counter_step 1 \ -counter_direction increment \ -nest_step 1,1,0 \ -nest_owner $networkgroup,$devicegroup,$topology \ -nest_enabled 0,0,1 \ ] if {[keylget mv_target_assign_status status] != $::SUCCESS} { error $mv_target_assign_status } set mv_target_assign [keylget mv_target_assign_status multivalue_handle] # set mv_l2_status [::ixiangpf::multivalue_config \ # -pattern counter \ # -counter_start a0.11.01.00.00.01 \ # -counter_step 1 \ # -counter_direction increment \ # -nest_step 0,0,0 \ # -nest_owner $networkgroup,$devicegroup,$topology \ # -nest_enabled 0,0,0 \ # ] # if {[keylget mv_l2_status status] != $::SUCCESS} { # error $mv_l2_status # } # puts "...... [::ixia::keylprint mv_l2_status]" # set mv_l2 [keylget mv_l2_status multivalue_handle] #puts "mv_l2 = $mv_l2" set bgp_ipv4_l2_site_status [::ixiangpf::emulation_bgp_route_config \ -handle $bgp_peer \ -mode add \ -protocol_name $name \ -active 1 \ -max_route_ranges 1 \ -num_sites 1 \ -cluster_list_enable 0 \ -cluster_list 0.0.0.0 \ -vpls_nlri 1 \ -rd_admin_value 100 \ -rd_assign_value $mv_rd_assign_value \ -control_word_enable 0 \ -seq_delivery_enable 0 \ -mtu 1500 \ -site_id 1 \ -target 100 \ -target_assign $mv_target_assign \ -rd_type 0 \ -target_type as \ -advertise_label_block 1 \ -num_labels 1000 \ -num_labels_type single_value \ -label_block_offset 0 \ -label_block_offset_type single_value \ -label_value 16 \ -label_value_type single_value \ ] if {[keylget bgp_ipv4_l2_site_status status] != $::SUCCESS} { error $bgp_ipv4_l2_site_status } } ############################################ ## configure bgp vpls device group on first port ############################################ set topology_1_handle [create_topology $ph_0 {Topology 1}] set deviceGroup_1_handle [create_devicegroup $topology_1_handle {Device Group 1}] set ethernet_1_handle [create_ethernet $topology_1_handle $deviceGroup_1_handle {Ethernet 1}] set ipv4_1_handle [create_ipv4 \ $topology_1_handle $ethernet_1_handle \ {IPv4 1} \ 100.1.0.2 \ 100.1.0.1 \ ] create_ldp $topology_1_handle $ipv4_1_handle 1.1.1.1 set ospfv2_1_handle [create_ospf \ $topology_1_handle $ipv4_1_handle \ 192.0.0.1 \ {OSPFv2-IF 1} \ ] set networkGroup_1_handle [create_ospf_ldp_network_group \ $topology_1_handle $deviceGroup_1_handle $ethernet_1_handle $ospfv2_1_handle \ 2.2.2.2 \ {Network Group 1} \ ] set deviceGroup_2_handle [create_devicegroup_linked $networkGroup_1_handle {Device Group 4}] set ipv4Loopback_1_handle [create_ipv4_loopback \ $topology_1_handle $deviceGroup_2_handle $networkGroup_1_handle \ 2.2.2.2 \ {IPv4 Loopback 1} \ ] set bgpIpv4Peer_1_list [create_bgp \ $topology_1_handle $deviceGroup_2_handle $networkGroup_1_handle $ipv4Loopback_1_handle \ 3.3.3.3 \ 192.0.0.1 \ ] set bgpIpv4Peer_1_handle [lindex $bgpIpv4Peer_1_list 0] set bgpIpv4Peer_1_items [lindex $bgpIpv4Peer_1_list 1] create_bgp_vpls \ $topology_1_handle $deviceGroup_2_handle $networkGroup_1_handle $bgpIpv4Peer_1_handle \ {BGP VPLS L2Site 2} ############################################ ## configure bgp vpls device group on second port ############################################ set topology_2_handle [create_topology $ph_1 {Topology 2}] set deviceGroup_3_handle [create_devicegroup $topology_2_handle {Device Group 2}] set ethernet_2_handle [create_ethernet $topology_2_handle $deviceGroup_3_handle {Ethernet 2}] set ipv4_2_handle [create_ipv4 \ $topology_2_handle $ethernet_2_handle \ {IPv4 2} \ 100.1.0.1 \ 100.1.0.2 \ ] create_ldp $topology_2_handle $ipv4_2_handle 1.1.1.2 set ospfv2_2_handle [create_ospf \ $topology_2_handle $ipv4_2_handle \ 194.0.0.1 \ {OSPFv2-IF 2} \ ] set networkGroup_2_handle [create_ospf_ldp_network_group \ $topology_2_handle $deviceGroup_3_handle $ethernet_2_handle $ospfv2_2_handle \ 3.3.3.3 \ {Network Group 2} \ ] set deviceGroup_4_handle [create_devicegroup_linked $networkGroup_2_handle {Device Group 4}] set ipv4Loopback_2_handle [create_ipv4_loopback \ $topology_2_handle $deviceGroup_4_handle $networkGroup_2_handle \ 3.3.3.3 \ {IPv4 Loopback 2} \ ] set bgpIpv4Peer_2_list [create_bgp \ $topology_2_handle $deviceGroup_4_handle $networkGroup_2_handle $ipv4Loopback_2_handle \ 2.2.2.2 \ 194.0.0.1 \ ] set bgpIpv4Peer_2_handle [lindex $bgpIpv4Peer_2_list 0] set bgpIpv4Peer_2_items [lindex $bgpIpv4Peer_2_list 1] create_bgp_vpls \ $topology_2_handle $deviceGroup_4_handle $networkGroup_2_handle $bgpIpv4Peer_2_handle \ {BGP VPLS L2Site 2} ############################################ ## start all protocols ############################################ set ret [::ixiangpf::test_control -action start_all_protocols] if {[keylget ret status] != $::SUCCESS} { error $ret } after 30000 ############################################ ## get learned routes ############################################ set learned_info_1 [::ixiangpf::emulation_bgp_info \ -mode learned_info \ -handle $bgpIpv4Peer_1_handle \ ] if {[keylget learned_info_1 status] != $::SUCCESS} { error $learned_info_1 } foreach bgp_item $bgpIpv4Peer_1_items { set vpls_routes [keylget learned_info_1 $bgp_item.learned_info.vpls_routes] puts "$bgp_item vpls routes:" keylprint vpls_routes } set learned_info_2 [::ixiangpf::emulation_bgp_info \ -mode learned_info \ -handle $bgpIpv4Peer_2_handle \ ] if {[keylget learned_info_2 status] != $::SUCCESS} { error $learned_info_2 } foreach bgp_item $bgpIpv4Peer_2_items { set vpls_routes [keylget learned_info_2 $bgp_item.learned_info.vpls_routes] puts "$bgp_item vpls routes:" keylprint vpls_routes } ############################################ ## stop all protocols ############################################ set ret [::ixiangpf::test_control -action stop_all_protocols] if {[keylget ret status] != $::SUCCESS} { error $ret } puts "SUCCESS - $test_name - [clock format [clock seconds]]" return 1