*** Settings *** Documentation This test suite is to by-pass interface manager and create/delete the tunnels between the switches directly inorder for ITM to scale and build mesh among more number of switches. Suite Setup ITM Direct Tunnels Start Suite Suite Teardown ITM Direct Tunnels Stop Suite Test Teardown Get Model Dump ${ODL_SYSTEM_IP} ${data_models} Library OperatingSystem Library String Library RequestsLibrary Variables ../../variables/genius/Modules.py Resource ../../libraries/DataModels.robot Library Collections Resource ../../libraries/Utils.robot Library re Resource ../../libraries/VpnOperations.robot Resource ../../libraries/ClusterManagement.robot Resource ../../libraries/KarafKeywords.robot Resource ../../libraries/Utils.robot Resource ../../libraries/Genius.robot Resource ../../variables/Variables.robot Resource ../../libraries/OVSDB.robot *** Variables *** *** Test Cases *** Create and Verify VTEP [Documentation] This testcase creates a Internal Transport Manager - ITM tunnel between 2 DPNs ${Dpn_id_1} Genius.Get Dpn Ids ${conn_id_1} ${Dpn_id_2} Genius.Get Dpn Ids ${conn_id_2} ${vlan}= Set Variable 0 ${gateway-ip}= Set Variable 0.0.0.0 Genius.Create Vteps ${Dpn_id_1} ${Dpn_id_2} ${TOOLS_SYSTEM_IP} ${TOOLS_SYSTEM_2_IP} ${vlan} ${gateway-ip} Wait Until Keyword Succeeds 40 10 Get ITM ${itm_created[0]} ${subnet} ${vlan} ... ${Dpn_id_1} ${TOOLS_SYSTEM_IP} ${Dpn_id_2} ${TOOLS_SYSTEM_2_IP} ${type} Set Variable odl-interface:tunnel-type-vxlan ${tunnel-1} Wait Until Keyword Succeeds 40 20 Get_Tunnel ${Dpn_id_1} ${Dpn_id_2} ${tunnel-2} Wait Until Keyword Succeeds 40 20 Get_Tunnel ${Dpn_id_2} ${Dpn_id_1} ${tunnel-type}= Set Variable type: vxlan Wait Until Keyword Succeeds 40 5 Get Data From URI session ${CONFIG_API}/itm-state:dpn-endpoints/DPN-TEPs-info/${Dpn_id_1}/ Wait Until Keyword Succeeds 40 5 Get Data From URI session ${CONFIG_API}/itm-state:dpn-endpoints/DPN-TEPs-info/${Dpn_id_2}/ Wait Until Keyword Succeeds 40 10 Ovs Verification For 2 Dpn ${conn_id_1} ${TOOLS_SYSTEM_IP} ${TOOLS_SYSTEM_2_IP} ... ${tunnel-1} ${tunnel-type} Wait Until Keyword Succeeds 40 10 Ovs Verification For 2 Dpn ${conn_id_2} ${TOOLS_SYSTEM_2_IP} ${TOOLS_SYSTEM_IP} ... ${tunnel-2} ${tunnel-type} ${resp} RequestsLibrary.Get Request session ${OPERATIONAL_API}/itm-state:tunnels_state/ ${respjson} RequestsLibrary.To Json ${resp.content} pretty_print=True Should Be Equal As Strings ${resp.status_code} 200 Should Contain ${resp.content} ${Dpn_id_1} ${tunnel-1} Should Contain ${resp.content} ${Dpn_id_2} ${tunnel-2} ${Port_num1} Get Port Number ${conn_id_1} ${Bridge-1} ${tunnel-1} ${Port_num2} Get Port Number ${conn_id_2} ${Bridge-2} ${tunnel-2} ${check-3} Wait Until Keyword Succeeds 40 10 Genius.Check Table0 Entry For 2 Dpn ${conn_id_1} ${Bridge-1} ... ${Port_num1} ${check-4} Wait Until Keyword Succeeds 40 10 Genius.Check Table0 Entry For 2 Dpn ${conn_id_2} ${Bridge-2} ... ${Port_num2} Verify Tunnels By Enabling BFD [Documentation] This test case will check the tunnel exists by bringing up/down a switch and check tunnels exist by enabling BFD ${result} Run Keyword And Return Status Verify Tunnel Monitoring is on Run Keyword If '${result}' == 'False' Enable_Tunnel_monitoring Verify Tunnel State ${TOOLS_SYSTEM_1_IP} Verify Tunnel State ${TOOLS_SYSTEM_2_IP} Verify VTEP After Restarting OVS [Documentation] Verify Testcase, Verifying tunnel state by restarting OVS Verify Tunnel Status as UP OVSDB.Restart OVSDB ${TOOLS_SYSTEM_1_IP} Wait Until Keyword Succeeds 30 3 Verify Tunnel Status as UP Verify VTEP After Restarting Controller [Documentation] Verify Testcase, Verifying tunnel state by restarting CONTROLLER Verify Tunnel Status as UP ClusterManagement.Stop_Members_From_List_Or_All ClusterManagement.Start_Members_From_List_Or_All Wait Until Keyword Succeeds 10 2 Check Service Status ACTIVE OPERATIONAL Wait Until Keyword Succeeds 30 3 Verify Tunnel Status as UP Delete and Verify VTEP [Documentation] This Delete testcase , deletes the ITM tunnel created between 2 dpns. ${Dpn_id_1} Genius.Get Dpn Ids ${conn_id_1} ${Dpn_id_2} Genius.Get Dpn Ids ${conn_id_2} ${tunnel-1} Get_Tunnel ${Dpn_id_1} ${Dpn_id_2} ${tunnel-2} Get_Tunnel ${Dpn_id_2} ${Dpn_id_1} Remove All Elements At URI And Verify ${CONFIG_API}/itm:transport-zones/transport-zone/${itm_created[0]}/ ${resp} RequestsLibrary.Get Request session ${OPERATIONAL_API}/itm-state:tunnels_state/ Should Not Contain ${resp} ${tunnel-1} ${tunnel-2} ${Ovs-del-1} Wait Until Keyword Succeeds 40 10 Genius.Check Tunnel Delete On OVS ${conn_id_1} ${tunnel-1} ${Ovs-del-2} Wait Until Keyword Succeeds 40 10 Genius.Check Tunnel Delete On OVS ${conn_id_2} ${tunnel-2} *** Keywords *** Get_Tunnel [Arguments] ${src} ${dst} [Documentation] This Keyword Gets the Tunnel Interface name which has been created between 2 DPNS by passing source , destination DPN Ids along with the type of tunnel which is configured. ${resp} RequestsLibrary.Get Request session ${CONFIG_API}/itm-state:dpn-teps-state/dpns-teps/${src}/remote-dpns/${dst}/ log ${resp.content} ${respjson} RequestsLibrary.To Json ${resp.content} pretty_print=True Should Be Equal As Strings ${resp.status_code} 200 Should Contain ${resp.content} ${dst} ${json}= evaluate json.loads('''${resp.content}''') json ${return} Run Keyword And Return Status Should contain ${resp.content} tunnel-name log ${return} ${ret} Run Keyword If '${return}'=='True' Check_Interface_Name ${json["remote-dpns"][0]} tunnel-name [Return] ${ret} Check_Interface_Name [Arguments] ${json} ${expected_tunnel_interface_name} [Documentation] This keyword Checks the Tunnel interface name is tunnel-interface-names in the output or not . ${Tunnels} Collections.Get From Dictionary ${json} ${expected_tunnel_interface_name} Log ${Tunnels} [Return] ${Tunnels} Enable_Tunnel_Monitoring [Documentation] In this we will enable tunnel monitoring by tep:enable command running in karaf console ${output} Issue_Command_On_Karaf_Console tep:enable-tunnel-monitor true Verify Tunnel State [Arguments] ${TOOLS_SYSTEM_IP} [Documentation] In this we will Verify Tunnel State by Stopping/Starting Switch OVSDB.Stop OVS ${TOOLS_SYSTEM_IP} Wait Until Keyword Succeeds 2min 20 sec Verify Tunnel Down OVSDB.Start OVS ${TOOLS_SYSTEM_IP} Wait Until Keyword Succeeds 2min 20 sec Verify Tunnel Status as UP Verify Tunnel Down [Documentation] In this we will check whether tunnel is in down or not ${output}= Issue Command On Karaf Console ${TEP_SHOW_STATE} Should Contain ${output} DOWN Get Port Number [Arguments] ${connection_id} ${Bridgename} ${tunnel} [Documentation] In this we get Port Number to check table0 entry for 2 Dpn Switch Connection ${connection_id} ${check-1} Execute Command sudo ovs-ofctl -O OpenFlow13 show ${Bridgename} Log ${check-1} ${lines} Get Lines Containing String ${check-1} ${tunnel} Log ${lines} ${port} Get Regexp Matches ${lines} \\d+ ${port_num} Get From List ${port} 0 Should Contain ${check-1} ${port_num} [Return] ${port_num}