X-Git-Url: https://git.opendaylight.org/gerrit/gitweb?a=blobdiff_plain;f=csit%2Fsuites%2Ftopoprocessing%2Fbasic-topology-operations%2F070_Underlay_update.robot;h=3af5826dbd1068c08406a7a8a68f4abd4fdc81ac;hb=395709912c21508c55310157e864bfb812099dd6;hp=7e7db158d138066580b1b776074c58660ff1e393;hpb=d110b05ff4321cc94e4911b0a484941f624b9f36;p=integration%2Ftest.git diff --git a/csit/suites/topoprocessing/basic-topology-operations/070_Underlay_update.robot b/csit/suites/topoprocessing/basic-topology-operations/070_Underlay_update.robot index 7e7db158d1..3af5826dbd 100644 --- a/csit/suites/topoprocessing/basic-topology-operations/070_Underlay_update.robot +++ b/csit/suites/topoprocessing/basic-topology-operations/070_Underlay_update.robot @@ -6,7 +6,7 @@ Documentation Test suite to verify update behaviour during different topopro ... xmls and verify output. Topology-id on the end of each urls must match topology-id from xml. Yang models of components in topology are defined in xmls. Suite Setup Setup Environment Suite Teardown Clean Environment -Test Teardown Refresh Underlay Topologies And Delete Overlay Topology ${OVERLAY_TOPO_URL} +Test Teardown Refresh Underlay Topologies And Delete Overlay Topology Library RequestsLibrary Library SSHLibrary Library XML @@ -17,9 +17,6 @@ Resource ../../../libraries/KarafKeywords.robot Resource ../../../libraries/Utils.robot Resource ../../../libraries/TopoprocessingKeywords.robot -*** Variables *** -${OVERLAY_TOPO_URL} ${TOPOLOGY_URL}/topo:1 - *** Test Cases *** Unification Node Update [Documentation] Test processing of updates using unification operation on Network Topology model @@ -28,18 +25,19 @@ Unification Node Update ${request} Prepare Unification Topology Request ${UNIFICATION_NT} ${model} node network-topo:1 network-topo:2 ${request} Insert Target Field ${request} 0 ${ISIS_NODE_TE_ROUTER_ID_IPV4} 0 ${request} Insert Target Field ${request} 1 ${ISIS_NODE_TE_ROUTER_ID_IPV4} 0 - ${resp} Send Basic Request And Test If Contain X Times ${request} ${OVERLAY_TOPO_URL} node: 8 + Basic Request Put ${request} ${OVERLAY_TOPO_URL} + ${resp} Wait Until Keyword Succeeds 3x 1s Output Topo Should Be Complete node_count=8 supporting-node_count=10 tp_count=14 tp-ref_count=14 #Update a node, expecting a unification of two nodes into one ${node} Create Isis Node bgp:1 router-id-ipv4=192.168.1.2 Basic Request Put ${node} network-topology:network-topology/topology/network-topo:1/node/bgp:1 - ${resp} Basic Request Get And Test ${OVERLAY_TOPO_URL} node: 7 + ${resp} Wait Until Keyword Succeeds 3x 1s Output Topo Should Be Complete node_count=7 supporting-node_count=10 tp_count=11 tp-ref_count=11 : FOR ${index} IN RANGE 1 11 \ Should Contain X Times ${resp.content} bgp:${index} 1 Check Aggregated Node in Topology ${model} ${resp.content} 0 bgp:2 bgp:1 #Update a unified node, expecting creation of a new overlay node ${node} Create Isis Node bgp:3 router-id-ipv4=192.168.3.1 Basic Request Put ${node} network-topology:network-topology/topology/network-topo:1/node/bgp:3 - ${resp} Basic Request Get And Test ${OVERLAY_TOPO_URL} node: 8 + ${resp} Wait Until Keyword Succeeds 3x 1s Output Topo Should Be Complete node_count=8 supporting-node_count=10 tp_count=9 tp-ref_count=9 : FOR ${index} IN RANGE 1 11 \ Should Contain X Times ${resp.content} bgp:${index} 1 @@ -49,18 +47,19 @@ Unification Node Inventory ${request} Prepare Unification Topology Request ${UNIFICATION_NT} ${model} node openflow-topo:1 openflow-topo:2 ${request} Insert Target Field ${request} 0 ${OPENFLOW_NODE_IP_ADDRESS} 0 ${request} Insert Target Field ${request} 1 ${OPENFLOW_NODE_IP_ADDRESS} 0 - ${resp} Send Basic Request And Test If Contain X Times ${request} ${OVERLAY_TOPO_URL} node: 7 + Basic Request Put ${request} ${OVERLAY_TOPO_URL} + ${resp} Wait Until Keyword Succeeds 3x 1s Output Topo Should Be Complete node_count=7 supporting-node_count=10 tp_count=12 tp-ref_count=12 #Update a node, expecting unification of two nodes into one ${node} Create Openflow Node openflow:2 192.168.1.1 Basic Request Put ${node} opendaylight-inventory:nodes/node/openflow:2 - ${resp} Basic Request Get And Test ${OVERLAY_TOPO_URL} node: 6 + ${resp} Wait Until Keyword Succeeds 3x 1s Output Topo Should Be Complete node_count=6 supporting-node_count=10 tp_count=12 tp-ref_count=12 : FOR ${index} IN RANGE 1 11 \ Should Contain X Times ${resp.content} of-node:${index} 1 Check Aggregated Node in Topology ${model} ${resp.content} 5 of-node:2 of-node:6 of-node:1 #Update a unified node, expecting creation of a new overlay node ${node} Create Openflow Node openflow:4 192.168.3.1 Basic Request Put ${node} opendaylight-inventory:nodes/node/openflow:4 - ${resp} Basic Request Get And Test ${OVERLAY_TOPO_URL} node: 7 + ${resp} Wait Until Keyword Succeeds 3x 1s Output Topo Should Be Complete node_count=7 supporting-node_count=10 tp_count=12 tp-ref_count=12 : FOR ${index} IN RANGE 1 11 \ Should Contain X Times ${resp.content} of-node:${index} 1 @@ -69,14 +68,13 @@ Filtration Range Number Node Update Network Topology Model ${request} Prepare Filtration Topology Request ${FILTRATION_NT} ${model} node network-topo:2 ${request} Insert Filter ${request} ${FILTER_RANGE_NUMBER} ${OVSDB_OVS_VERSION} ${request} Set Range Number Filter ${request} 20 25 - ${resp} Send Basic Request And Test If Contain X Times ${request} ${OVERLAY_TOPO_URL} node: 4 + Basic Request Put ${request} ${OVERLAY_TOPO_URL} + ${resp} Wait Until Keyword Succeeds 3x 1s Output Topo Should Be Complete node_count=4 supporting-node_count=4 node-ref_count=4 tp_count=5 tp-ref_count=5 ${request} Create Isis Node bgp:7 17 Basic Request Put ${request} network-topology:network-topology/topology/network-topo:2/node/bgp:7 - ${resp} Basic Request Get ${OVERLAY_TOPO_URL} - Should Contain ${resp.content} topo:1 + ${resp} Wait Until Keyword Succeeds 3x 1s Output Topo Should Be Complete node_count=3 supporting-node_count=3 node-ref_count=3 tp_count=3 tp-ref_count=3 : FOR ${index} IN RANGE 8 11 \ Should Contain X Times ${resp.content} bgp:${index} 1 - Should Contain X Times ${resp.content} 3 Should Not Contain ${resp.content} bgp:7 ${topology_id} Set Variable network-topo:2 Check Aggregated Termination Point in Node ${model} ${resp.content} ${topology_id} bgp:8 tp:8:1 tp:8:1 @@ -84,12 +82,12 @@ Filtration Range Number Node Update Network Topology Model Check Aggregated Termination Point in Node ${model} ${resp.content} ${topology_id} bgp:10 tp:10:1 tp:10:1 ${request} Create Isis Node bgp:7 23 Basic Request Put ${request} network-topology:network-topology/topology/network-topo:2/node/bgp:7 + ${resp} Wait Until Keyword Succeeds 3x 1s Output Topo Should Be Complete node_count=4 supporting-node_count=4 node-ref_count=4 tp_count=3 tp-ref_count=3 ${request} Create OVSDB Termination Point tp:7:1 1119 Basic Request Put ${request} network-topology:network-topology/topology/network-topo:2/node/bgp:7/termination-point/tp:7:1 - ${resp} Basic Request Get ${OVERLAY_TOPO_URL} + ${resp} Wait Until Keyword Succeeds 3x 1s Output Topo Should Be Complete node_count=4 supporting-node_count=4 node-ref_count=4 tp_count=4 tp-ref_count=4 : FOR ${index} IN RANGE 7 11 \ Should Contain X Times ${resp.content} bgp:${index} 1 - Should Contain X Times ${resp.content} 4 Check Aggregated Termination Point in Node ${model} ${resp.content} ${topology_id} bgp:7 tp:7:1 tp:7:1 Check Aggregated Termination Point in Node ${model} ${resp.content} ${topology_id} bgp:8 tp:8:1 tp:8:1 Check Aggregated Termination Point in Node ${model} ${resp.content} ${topology_id} bgp:9 tp:9:1 tp:9:1 @@ -99,16 +97,18 @@ Filtration Range Number Node Update Inventory Model ${request} Prepare Filtration Topology Request ${FILTRATION_NT} opendaylight-inventory-model node openflow-topo:2 ${request} Insert Filter ${request} ${FILTER_RANGE_NUMBER} ${OPENFLOW_NODE_SERIAL_NUMBER} ${request} Set Range Number Filter ${request} 20 25 - ${resp} Send Basic Request And Test If Contain X Times ${request} ${OVERLAY_TOPO_URL} node: 3 - Should Contain ${resp.content} topo:1 + Basic Request Put ${request} ${OVERLAY_TOPO_URL} + ${resp} Wait Until Keyword Succeeds 3x 1s Output Topo Should Be Complete node_count=3 supporting-node_count=3 node-ref_count=3 tp_count=0 tp-ref_count=0 + #Update a Node so it passes filtration ${request} Create Openflow Node openflow:7 192.168.2.3 23 Basic Request Put ${request} opendaylight-inventory:nodes/node/openflow:7 - ${resp} Basic Request Get ${OVERLAY_TOPO_URL} + ${resp} Wait Until Keyword Succeeds 3x 1s Output Topo Should Be Complete node_count=4 supporting-node_count=4 node-ref_count=4 tp_count=0 tp-ref_count=0 : FOR ${index} IN RANGE 7 11 \ Should Contain X Times ${resp.content} of-node:${index} 1 + #Update a Node so it is filtered out ${request} Create Openflow Node openflow:7 192.168.2.3 17 Basic Request Put ${request} opendaylight-inventory:nodes/node/openflow:7 - ${resp} Basic Request Get ${OVERLAY_TOPO_URL} + ${resp} Wait Until Keyword Succeeds 3x 1s Output Topo Should Be Complete node_count=3 supporting-node_count=3 node-ref_count=3 tp_count=0 tp-ref_count=0 : FOR ${index} IN RANGE 8 11 \ Should Contain X Times ${resp.content} of-node:${index} 1 Should Not Contain ${resp.content} of-node:7 @@ -119,18 +119,17 @@ Filtration Range Number Termination Point Update NT ${request} Prepare Filtration Topology Request ${FILTRATION_NT} ${model} termination-point network-topo:2 ${request} Insert Filter ${request} ${FILTER_RANGE_NUMBER} ${OVSDB_OFPORT} ${request} Set Range Number Filter ${request} 1115 1119 - ${resp} Send Basic Request And Test If Contain X Times ${request} ${OVERLAY_TOPO_URL} node: 5 + Basic Request Put ${request} ${OVERLAY_TOPO_URL} + ${resp} Wait Until Keyword Succeeds 3x 1s Output Topo Should Be Complete node_count=5 supporting-node_count=5 node-ref_count=5 tp_count=3 tp-ref_count=3 #Update a previously out-of-range termination point, so it passes filtration ${terminationPoint} Create OVSDB Termination Point tp:8:1 1115 Basic Request Put ${terminationPoint} network-topology:network-topology/topology/network-topo:2/node/bgp:8/termination-point/tp:8:1 - ${resp} Basic Request Get And Test ${OVERLAY_TOPO_URL} node: 5 - Should Contain X Times ${resp.content} 4 + ${resp} Wait Until Keyword Succeeds 3x 1s Output Topo Should Be Complete node_count=5 supporting-node_count=5 node-ref_count=5 tp_count=4 tp-ref_count=4 Check Aggregated Termination Point in Node ${model} ${resp.content} network-topo:2 bgp:8 tp:8:1 tp:8:1 #Update a previsouly in-range termination point, so it is filtered out ${terminationPoint} Create OVSDB Termination Point tp:7:2 1110 Basic Request Put ${terminationPoint} network-topology:network-topology/topology/network-topo:2/node/bgp:7/termination-point/tp:7:2 - ${resp} Basic Request Get And Test ${OVERLAY_TOPO_URL} node: 5 - Should Contain X Times ${resp.content} 3 + ${resp} Wait Until Keyword Succeeds 3x 1s Output Topo Should Be Complete node_count=5 supporting-node_count=5 node-ref_count=5 tp_count=3 tp-ref_count=3 Check Aggregated Termination Point in Node ${model} ${resp.content} network-topo:2 bgp:7 tp:7:1 tp:7:1 Filtration Range Number Termination Point Update Inventory @@ -139,21 +138,19 @@ Filtration Range Number Termination Point Update Inventory ${request} Prepare Filtration Topology Request ${FILTRATION_NT} ${model} termination-point openflow-topo:1 ${request} Insert Filter ${request} ${FILTER_RANGE_NUMBER} ${OPENFLOW_NODE_CONNECTOR_PORT_NUMBER} ${request} Set Range Number Filter ${request} 2 4 - ${resp} Send Basic Request And Test If Contain X Times ${request} ${OVERLAY_TOPO_URL} node: 5 - Should Contain X Times ${resp.content} 5 + Basic Request Put ${request} ${OVERLAY_TOPO_URL} + ${resp} Wait Until Keyword Succeeds 3x 1s Output Topo Should Be Complete node_count=5 supporting-node_count=5 node-ref_count=5 tp_count=5 tp-ref_count=5 #Update a previously out-of-range termination point, so it passes filtration ${nodeConnector} Create Openflow Node Connector openflow:2:1 3 Basic Request Put ${nodeConnector} opendaylight-inventory:nodes/node/openflow:2/node-connector/openflow:2:1 - ${resp} Basic Request Get And Test ${OVERLAY_TOPO_URL} node: 5 - Should Contain X Times ${resp.content} 6 + ${resp} Wait Until Keyword Succeeds 3x 1s Output Topo Should Be Complete node_count=5 supporting-node_count=5 node-ref_count=5 tp_count=6 tp-ref_count=6 Check Aggregated Termination Point in Node ${model} ${resp.content} openflow-topo:1 of-node:2 tp:2:1 tp:2:1 Check Aggregated Termination Point in Node ${model} ${resp.content} openflow-topo:1 of-node:2 tp:2:2 tp:2:2 Check Aggregated Termination Point in Node ${model} ${resp.content} openflow-topo:1 of-node:2 tp:2:3 tp:2:3 #Update an in-range termination point, so it is filtered out ${nodeConnector} Create Openflow Node Connector openflow:3:2 5 Basic Request Put ${nodeConnector} opendaylight-inventory:nodes/node/openflow:3/node-connector/openflow:3:2 - ${resp} Basic Request Get And Test ${OVERLAY_TOPO_URL} node: 5 - Should Contain X Times ${resp.content} 5 + ${resp} Wait Until Keyword Succeeds 3x 1s Output Topo Should Be Complete node_count=5 supporting-node_count=5 node-ref_count=5 tp_count=5 tp-ref_count=5 Check Aggregated Termination Point in Node ${model} ${resp.content} openflow-topo:1 of-node:3 tp:3:1 tp:3:1 Filtration Range Number Link Update Network Topology Model @@ -161,19 +158,19 @@ Filtration Range Number Link Update Network Topology Model ${request} Prepare Filtration Topology Request ${FILTRATION_NT} network-topology-model link network-topo:1 ${request} Insert Filter ${request} ${FILTER_RANGE_NUMBER} ${IGP_LINK_METRIC} ${request} Set Range Number Filter ${request} 11 13 - ${resp} Send Basic Request And Test If Contain X Times ${request} ${OVERLAY_TOPO_URL} link: 3 - Should Contain ${resp.content} topo:1 + Basic Request Put ${request} ${OVERLAY_TOPO_URL} + ${resp} Wait Until Keyword Succeeds 3x 1s Output Topo Should Be Complete link_count=3 link-ref_count=3 #Filter a link out ${request} Create Link link:1:4 bgp:1 bgp:4 linkA 15 Basic Request Put ${request} network-topology:network-topology/topology/network-topo:1/link/link:1:4 - ${resp} Basic Request Get And Test ${OVERLAY_TOPO_URL} 2 + ${resp} Wait Until Keyword Succeeds 3x 1s Output Topo Should Be Complete link_count=2 link-ref_count=2 Should Contain X Times ${resp.content} /network-topology/topology/network-topo:1/link/link:1:3 1 Should Contain X Times ${resp.content} /network-topology/topology/network-topo:1/link/link:1:2-1 1 Should Not Contain ${resp.content} network-topology/topology/network-topo:1/link/link:1:4 #Put the link back in ${request} Create Link link:1:4 bgp:1 bgp:4 linkA 12 Basic Request Put ${request} network-topology:network-topology/topology/network-topo:1/link/link:1:4 - ${resp} Basic Request Get And Test ${OVERLAY_TOPO_URL} 3 + ${resp} Wait Until Keyword Succeeds 3x 1s Output Topo Should Be Complete link_count=3 link-ref_count=3 Should Contain X Times ${resp.content} /network-topology/topology/network-topo:1/link/link:1:4 1 Should Contain X Times ${resp.content} /network-topology/topology/network-topo:1/link/link:1:3 1 Should Contain X Times ${resp.content} /network-topology/topology/network-topo:1/link/link:1:2-1 1 @@ -183,17 +180,17 @@ Filtration Range Number Link Update Inventory Model ${request} Prepare Filtration Topology Request ${FILTRATION_NT} opendaylight-inventory-model link openflow-topo:3 ${request} Insert Filter ${request} ${FILTER_RANGE_NUMBER} ${IGP_LINK_METRIC} ${request} Set Range Number Filter ${request} 14 15 - ${resp} Send Basic Request And Test If Contain X Times ${request} ${OVERLAY_TOPO_URL} link: 2 - Should Contain ${resp.content} topo:1 + Basic Request Put ${request} ${OVERLAY_TOPO_URL} + ${resp} Wait Until Keyword Succeeds 3x 1s Output Topo Should Be Complete link_count=2 link-ref_count=2 ${request} Create Link link:11:12 of-node:11 of-node:12 linkB 14 Basic Request Put ${request} network-topology:network-topology/topology/openflow-topo:3/link/link:11:12 - ${resp} Basic Request Get And Test ${OVERLAY_TOPO_URL} 3 + ${resp} Wait Until Keyword Succeeds 3x 1s Output Topo Should Be Complete link_count=3 link-ref_count=3 Should Contain X Times ${resp.content} /network-topology/topology/openflow-topo:3/link/link:14:12 1 Should Contain X Times ${resp.content} /network-topology/topology/openflow-topo:3/link/link:15:13 1 Should Contain X Times ${resp.content} /network-topology/topology/openflow-topo:3/link/link:11:12 1 ${request} Create Link link:11:12 of-node:11 of-node:12 linkB 13 Basic Request Put ${request} network-topology:network-topology/topology/openflow-topo:3/link/link:11:12 - ${resp} Basic Request Get And Test ${OVERLAY_TOPO_URL} 2 + ${resp} Wait Until Keyword Succeeds 3x 1s Output Topo Should Be Complete link_count=2 link-ref_count=2 Should Contain X Times ${resp.content} /network-topology/topology/openflow-topo:3/link/link:14:12 1 Should Contain X Times ${resp.content} /network-topology/topology/openflow-topo:3/link/link:15:13 1 @@ -203,18 +200,17 @@ Unification Filtration Node Update Inside Network Topology model ${request} Insert Filter With ID ${request} ${FILTER_IPV4} ${ISIS_NODE_TE_ROUTER_ID_IPV4} 1 ${request} Insert Apply Filters ${request} 1 1 ${request} Set IPV4 Filter ${request} 192.168.2.1/24 - ${resp} Send Basic Request And Test If Contain X Times ${request} ${OVERLAY_TOPO_URL} node: 2 - Should Contain ${resp.content} topo:1 - Should Contain ${resp.content} bgp: 3 + Basic Request Put ${request} ${OVERLAY_TOPO_URL} + ${resp} Wait Until Keyword Succeeds 3x 1s Output Topo Should Be Complete node_count=2 supporting-node_count=3 node-ref_count=3 tp_count=0 tp-ref_count=0 ${request} Create Isis Node bgp:17 10 192.168.2.1 Basic Request Put ${request} network-topology:network-topology/topology/network-topo:4/node/bgp:17 - ${resp} Basic Request Get ${OVERLAY_TOPO_URL} + ${resp} Wait Until Keyword Succeeds 3x 1s Output Topo Should Be Complete node_count=2 supporting-node_count=4 node-ref_count=4 tp_count=0 tp-ref_count=0 : FOR ${index} IN RANGE 17 21 \ Should Contain X Times ${resp.content} bgp:${index} 1 Check Aggregated Node in Topology ${model} ${resp.content} 0 bgp:18 bgp:17 bgp:20 ${request} Create Isis Node bgp:17 10 192.168.1.2 Basic Request Put ${request} network-topology:network-topology/topology/network-topo:4/node/bgp:17 - ${resp} Basic Request Get ${OVERLAY_TOPO_URL} + ${resp} Wait Until Keyword Succeeds 3x 1s Output Topo Should Be Complete node_count=2 supporting-node_count=3 node-ref_count=3 tp_count=0 tp-ref_count=0 : FOR ${index} IN RANGE 18 21 \ Should Contain X Times ${resp.content} bgp:${index} 1 Check Aggregated Node in Topology ${model} ${resp.content} 0 bgp:18 bgp:20 @@ -225,14 +221,11 @@ Unification Filtration Node Update Inside Inventory model ${request} Insert Filter With ID ${request} ${FILTER_IPV4} ${OPENFLOW_NODE_IP_ADDRESS} 1 ${request} Insert Apply Filters ${request} 1 1 ${request} Set IPV4 Filter ${request} 192.168.2.1/24 - ${resp} Send Basic Request And Test If Contain X Times ${request} ${OVERLAY_TOPO_URL} node: 2 - Should Contain ${resp.content} topo:1 - Should Contain ${resp.content} of-node: 4 + Basic Request Put ${request} ${OVERLAY_TOPO_URL} + ${resp} Wait Until Keyword Succeeds 3x 1s Output Topo Should Be Complete node_count=2 supporting-node_count=4 node-ref_count=4 tp_count=0 tp-ref_count=0 ${request} Create Openflow Node openflow:17 192.168.1.2 Basic Request Put ${request} opendaylight-inventory:nodes/node/openflow:17 - ${resp} Basic Request Get ${OVERLAY_TOPO_URL} - Should Contain ${resp.content} topo:1 - Should Contain ${resp.content} of-node: 3 + ${resp} Wait Until Keyword Succeeds 3x 1s Output Topo Should Be Complete node_count=2 supporting-node_count=3 node-ref_count=3 tp_count=0 tp-ref_count=0 : FOR ${index} IN RANGE 18 21 \ Should Contain X Times ${resp.content} of-node:${index} 1 ${node} Get Element ${resp.content} xpath=.//node/supporting-node[node-ref='of-node:19']/.. @@ -243,7 +236,7 @@ Unification Filtration Node Update Inside Inventory model Should Not Contain ${node} of-node:17 ${request} Create Openflow Node openflow:17 192.168.2.3 Basic Request Put ${request} opendaylight-inventory:nodes/node/openflow:17 - ${resp} Basic Request Get ${OVERLAY_TOPO_URL} + ${resp} Wait Until Keyword Succeeds 3x 1s Output Topo Should Be Complete node_count=2 supporting-node_count=4 node-ref_count=4 tp_count=0 tp-ref_count=0 : FOR ${index} IN RANGE 17 21 \ Should Contain X Times ${resp.content} of-node:${index} 1 Check Aggregated Node in Topology ${model} ${resp.content} 0 of-node:17 of-node:19 of-node:20 @@ -254,13 +247,12 @@ Link Computation Aggregation Inside Update NT ${request} Prepare Unification Inside Topology Request ${UNIFICATION_NT_AGGREGATE_INSIDE} ${model} node network-topo:6 ${request} Insert Target Field ${request} 0 ${ISIS_NODE_TE_ROUTER_ID_IPV4} 0 ${request} Insert Link Computation Inside ${request} ${LINK_COMPUTATION_INSIDE} n:network-topology-model network-topo:6 - ${resp} Send Basic Request And Test If Contain X Times ${request} ${OVERLAY_TOPO_URL} node: 4 + Basic Request Put ${request} ${OVERLAY_TOPO_URL} + ${resp} Wait Until Keyword Succeeds 3x 1s Output Topo Should Be Complete node_count=4 supporting-node_count=5 node-ref_count=5 link_count=4 link-ref_count=4 #Divide double nodes from overlay topology ${request} Create Isis Node bgp:29 router-id-ipv4=192.168.1.3 Basic Request Put ${request} network-topology:network-topology/topology/network-topo:6/node/bgp:29 - ${resp} Basic Request Get ${OVERLAY_TOPO_URL} - Should Contain ${resp.content} topo:1 - Should Contain X Times ${resp.content} 4 + ${resp} Wait Until Keyword Succeeds 3x 1s Output Topo Should Be Complete node_count=5 supporting-node_count=5 node-ref_count=5 link_count=4 link-ref_count=4 ${node_26} Check Aggregated Node in Topology ${model} ${resp.content} 0 bgp:26 ${node_27} Check Aggregated Node in Topology ${model} ${resp.content} 0 bgp:27 ${node_28} Check Aggregated Node in Topology ${model} ${resp.content} 0 bgp:28 @@ -274,9 +266,7 @@ Link Computation Aggregation Inside Update NT #Update link to node out of topology ${request} Create Link link:28:29 bgp:28 bgp:31 linkB 11 Basic Request Put ${request} network-topology:network-topology/topology/network-topo:6/link/link:28:29 - ${resp} Basic Request Get ${OVERLAY_TOPO_URL} - Should Contain ${resp.content} topo:1 - Should Contain X Times ${resp.content} 3 + ${resp} Wait Until Keyword Succeeds 3x 1s Output Topo Should Be Complete node_count=5 supporting-node_count=5 node-ref_count=5 link_count=3 link-ref_count=3 #Refresh node IDs ${node_26} Check Aggregated Node in Topology ${model} ${resp.content} 0 bgp:26 ${node_27} Check Aggregated Node in Topology ${model} ${resp.content} 0 bgp:27