*** Settings *** Variables ../variables/Variables.py Variables ../variables/topoprocessing/Topologies.py Variables ../variables/topoprocessing/TopologyRequests.py Library RequestsLibrary Library SSHLibrary Library XML Resource CompareStream.robot Resource KarafKeywords.robot Resource SetupUtils.robot Resource Utils.robot *** Variables *** ${CONFIGURATION_XML} ${CURDIR}/../suites/topoprocessing/configuration.xml ${OPERATIONAL_XML} ${CURDIR}/../suites/topoprocessing/operational.xml ${CONFIGURATION_CFG} ${CURDIR}/../suites/topoprocessing/configuration.cfg ${OPERATIONAL_CFG} ${CURDIR}/../suites/topoprocessing/operational.cfg ${REMOTE_XML_FILE} ${WORKSPACE}/${BUNDLEFOLDER}/etc/opendaylight/karaf/80-topoprocessing-config.xml ${REMOTE_CFG_FILE} ${WORKSPACE}/${BUNDLEFOLDER}/etc/org.opendaylight.topoprocessing.cfg ${OUTPUT_TOPO_NAME} topo:1 ${OVERLAY_TOPO_URL} ${TOPOLOGY_URL}/${OUTPUT_TOPO_NAME} *** Keywords *** Basic Request Put [Arguments] ${request} ${overlay_topology_url} [Documentation] Send a simple HTTP PUT request to Configurational datastore ${resp} Put Request session ${CONFIG_API}/${overlay_topology_url} data=${request} Log ${CONFIG_API}/${overlay_topology_url} Should Match "${resp.status_code}" "20?" Wait For Karaf Log Correlation configuration successfully read Wait For Karaf Log Transaction successfully written Basic Request Get [Arguments] ${overlay_topology_url} [Documentation] Send a simple HTTP GET request to a given URL ${resp} Get Request session ${OPERATIONAL_API}/${overlay_topology_url} Should Be Equal As Strings ${resp.status_code} 200 [Return] ${resp} Send Basic Delete Request [Arguments] ${url} [Documentation] Sends a HTTP/DELETE request to a given URL ${resp} Delete Request session ${CONFIG_API}/${url} Log Deleting ${CONFIG_API}/${url} [Return] ${resp} Delete Underlay Node [Arguments] ${topology-id} ${node-id} [Documentation] Deletes a node from an underlay topology ${resp} Send Basic Delete Request ${TOPOLOGY_URL}/${topology-id}/node/${node-id} [Return] ${resp} Delete Underlay Termination Point [Arguments] ${topology-id} ${node-id} ${tp-id} [Documentation] Deletes a termination point from an underlay topology ${resp} Send Basic Delete Request ${TOPOLOGY_URL}/${topology-id}/node/${node-id}/termination-point/${tp-id} [Return] ${resp} Delete Underlay Link [Arguments] ${topology-id} ${link-id} [Documentation] Deletes a link from an underlay topology ${resp} Send Basic Delete Request ${TOPOLOGY_URL}/${topology-id}/link/${link-id} [Return] ${resp} Setup Environment [Documentation] Setup karaf enviroment for following tests Log ---- Setup Environment ---- SetupUtils.Setup_Utils_For_Setup_And_Teardown Open Connection ${ODL_SYSTEM_IP} Flexible Controller Login CompareStream.Run_Keyword_If_At_Least_Carbon Put File ${CONFIGURATION_CFG} ${REMOTE_CFG_FILE} CompareStream.Run_Keyword_If_At_Most_Boron Put File ${CONFIGURATION_XML} ${REMOTE_XML_FILE} Close Connection Wait Until Keyword Succeeds 2x 2s Issue Command On Karaf Console log:set DEBUG org.opendaylight.topoprocessing Install a Feature odl-restconf-noauth timeout=30 Create Session session http://${ODL_SYSTEM_IP}:${RESTCONFPORT} auth=${AUTH} headers=${SEND_ACCEPT_XML_HEADERS} Install Features odl-openflowplugin-nsf-model odl-topoprocessing-framework odl-topoprocessing-network-topology odl-topoprocessing-inventory odl-mdsal-models odl-ovsdb-southbound-impl Prepare New Feature Installation Insert Underlay topologies Install Features [Arguments] ${features} ${timeout}=180 [Documentation] Install features according to tested distribution CompareStream.Run_Keyword_If_At_Most_Beryllium Install Features for Beryllium Distribution ${features} ${timeout} CompareStream.Run_Keyword_If_At_Least_Boron Install Features for Other Distributions ${features} ${timeout} Install Features for Beryllium Distribution [Arguments] ${features} ${timeout} [Documentation] Will wait for features to install only once per run Install a Feature ${features} timeout=${timeout} Set Global Variable If It Does Not Exist \${WAIT_FOR_FEATURES_TO_INSTALL} ${TRUE} Run Keyword If ${WAIT_FOR_FEATURES_TO_INSTALL} Run Keywords Wait For Karaf Log Registering Topology Request Listener ${timeout} ... AND Set Global Variable \${WAIT_FOR_FEATURES_TO_INSTALL} ${FALSE} Install Features for Other Distributions [Arguments] ${features} ${timeout} [Documentation] Will wait for features to install only if no topoprocessing feature was installed ${installed_features} Issue Command On Karaf Console feature:list -i ${lines} Get Lines Containing String ${installed_features} odl-topoprocessing-framework ${length} Get Length ${lines} Install a Feature ${features} timeout=${timeout} Run Keyword If ${length} == 0 Wait For Karaf Log Registering Topology Request Listener ${timeout} Clean Environment [Documentation] Revert startup changes Log ---- Clean Environment ---- Open Connection ${ODL_SYSTEM_IP} Flexible Controller Login CompareStream.Run_Keyword_If_At_Least_Carbon Put File ${OPERATIONAL_CFG} ${REMOTE_CFG_FILE} CompareStream.Run_Keyword_If_At_Most_Boron Put File ${OPERATIONAL_XML} ${REMOTE_XML_FILE} Close Connection Delete All Sessions Delete Overlay Topology [Documentation] Delete overlay topologies from datastore Run Keyword If Test Failed Print Output Topo Log ---- Test Teardown ---- Log Deleting overlay topology from ${CONFIG_API}/${OVERLAY_TOPO_URL} ${resp} Delete Request session ${CONFIG_API}/${OVERLAY_TOPO_URL} Should Be Equal As Strings ${resp.status_code} 200 Print Output Topo [Documentation] Waits a while to allow any hanging transactions to finnish and then logs the output topology Log ---- Output Topo Dump After Cooldown---- Sleep 2s ${resp} Wait Until Keyword Succeeds 5x 250ms Basic Request Get ${OVERLAY_TOPO_URL} Log ${resp.content} Refresh Underlay Topologies And Delete Overlay Topology [Documentation] Deletes given overlay topology from datastore and overwrites the underlaying ones with initial topologies Delete Overlay Topology Insert Underlay Topologies Prepare New Feature Installation [Documentation] Clears karaf logs and CONFIGURATION datastore ${resp} Delete Request session ${CONFIG_API}/network-topology:network-topology ${resp} Delete Request session ${CONFIG_API}/opendaylight-inventory:nodes Issue Command On Karaf Console log:clear Insert Underlay Topologies [Documentation] Insert underlay topologies used by following tests Log Inserting underlay topologies # Network underlay topologies : FOR ${index} IN RANGE 1 7 \ ${resp} Put Request session ${CONFIG_API}/${TOPOLOGY_URL}/network-topo:${index} data=${NETWORK_UNDERLAY_TOPOLOGY_${index}} \ Log ${resp.content} \ Should Match "${resp.status_code}" "20?" # Openflow underlay nodes ${resp} Put Request session ${CONFIG_API}/opendaylight-inventory:nodes data=${OPENFLOW_UNDERLAY_NODES} Log ${resp.content} Should Match "${resp.status_code}" "20?" # Openflow underlay topologies : FOR ${index} IN RANGE 1 7 \ ${resp} Put Request session ${CONFIG_API}/${TOPOLOGY_URL}/openflow-topo:${index} data=${OPENFLOW_UNDERLAY_TOPOLOGY_${index}} \ Log ${resp.content} \ Should Match "${resp.status_code}" "20?" Issue Command On Karaf Console log:clear Log ${resp.content} Prepare Unification Inside Topology Request [Arguments] ${request_template} ${model} ${correlation_item} ${underlay_topo1} [Documentation] Prepare topology request for unification inside from template ${request_template} Set Element Text ${request_template} ${model} xpath=.//correlations/output-model ${request_template} Set Element Text ${request_template} aggregation-only xpath=.//correlations/correlation/type ${request_template} Set Element Text ${request_template} ${correlation_item} xpath=.//correlation/correlation-item ${request_template} Set Element Text ${request_template} unification xpath=.//correlation/aggregation/aggregation-type ${request_template} Set Element Text ${request_template} ${model} xpath=.//correlation/aggregation/mapping[1]/input-model ${request_template} Set Element Text ${request_template} ${underlay_topo1} xpath=.//correlation/aggregation/mapping[1]/underlay-topology ${request_template} Element to String ${request_template} [Return] ${request_template} Prepare Unification Topology Request [Arguments] ${request_template} ${model} ${correlation_item} ${underlay_topo1} ${underlay_topo2} [Documentation] Prepare topology request for unification on two topologies from template ${request_template} Prepare Unification Inside Topology Request ${request_template} ${model} ${correlation_item} ${underlay_topo1} ${request_template} Set Element Text ${request_template} ${underlay_topo2} xpath=.//correlation/aggregation/mapping[2]/underlay-topology ${request_template} Set Element Text ${request_template} ${model} xpath=.//correlation/aggregation/mapping[2]/input-model ${request_template} Element to String ${request_template} [Return] ${request_template} Prepare Unification Filtration Topology Request [Arguments] ${request_template} ${model} ${correlation_item} ${target_field1} ${underlay_topo1} ${target_field2} ... ${underlay_topo2} [Documentation] Prepare topology request for unification on two topologies from template ${request_template} Prepare Unification Filtration Inside Topology Request ${request_template} ${model} ${correlation_item} ${target_field1} ${underlay_topo1} ${request_template} Set Element Text ${request_template} ${underlay_topo2} xpath=.//correlation/aggregation/mapping[2]/underlay-topology Insert Target Field ${request_template} 2 ${target_field2} 1 ${request_template} Set Element Text ${request_template} ${model} xpath=.//correlation/aggregation/mapping[2]/input-model ${request_template} Element to String ${request_template} [Return] ${request_template} Prepare Unification Filtration Inside Topology Request [Arguments] ${request_template} ${model} ${correlation_item} ${target-field} ${underlay_topo} [Documentation] Prepare topology request for unification filtration inside from template ${request_template} Set Element Text ${request_template} ${model} xpath=.//correlations/output-model ${request_template} Set Element Text ${request_template} filtration-aggregation xpath=.//correlations/correlation/type ${request_template} Set Element Text ${request_template} ${correlation_item} xpath=.//correlation/correlation-item ${request_template} Set Element Text ${request_template} unification xpath=.//correlation/aggregation/aggregation-type ${request_template} Set Element Text ${request_template} ${model} xpath=.//correlation/aggregation/mapping[1]/input-model ${request_template} Set Element Text ${request_template} ${underlay_topo} xpath=.//correlation/aggregation/mapping[1]/underlay-topology Insert Target Field ${request_template} 1 ${target-field} 1 ${request_template} Set Element Text ${request_template} ${underlay_topo} xpath=.//correlation/filtration/underlay-topology ${request_template} Element to String ${request_template} [Return] ${request_template} Insert Apply Filters [Arguments] ${request_template} ${mapping} ${filter_id} ${request_template} Add Element ${request_template} ${APPLY_FILTERS} xpath=.//correlation/aggregation/mapping[${mapping}] ${request_template} Set Element Text ${request_template} ${filter_id} xpath=.//correlation/aggregation/mapping[${mapping}]/apply-filters [Return] ${request_template} Prepare Filtration Topology Request [Arguments] ${request_template} ${model} ${correlation_item} ${underlay_topo} [Documentation] Prepare topology request for filtration from template ${request_template} Set Element Text ${request_template} ${model} xpath=.//correlations/output-model ${request_template} Set Element Text ${request_template} ${correlation_item} xpath=.//correlation/correlation-item ${request_template} Set Element Text ${request_template} ${underlay_topo} xpath=.//correlation/filtration/underlay-topology [Return] ${request_template} Insert Target Field [Arguments] ${request_template} ${mapping_index} ${target_field_path} ${matching_key} [Documentation] Add target field to request ${target_field_template} Set Element Text ${TARGET_FIELD} ${target_field_path} xpath=.//target-field-path ${target_field_template} Set Element Text ${target_field_template} ${matching_key} xpath=.//matching-key ${request_template} Add Element ${request_template} ${target_field_template} xpath=.//correlation/aggregation/mapping[${mapping_index}] ${request_template} Element to String ${request_template} [Return] ${request_template} Insert Filter [Arguments] ${request_template} ${filter_template} ${target_field} [Documentation] Add filter to filtration ${request_template} Add Element ${request_template} ${filter_template} xpath=.//correlation/filtration ${model} Get Element Text ${request_template} xpath=.//correlations/output-model ${request_template} Set Element Text ${request_template} ${model} xpath=.//correlation/filtration/filter/input-model ${request_template} Set Element Text ${request_template} ${target_field} xpath=.//correlation/filtration/filter/target-field [Return] ${request_template} Insert Filter With ID [Arguments] ${request_template} ${filter_template} ${target_field} ${filter_id} [Documentation] Add filter to filtration with specified id ${request_template} Insert Filter ${request_template} ${filter_template} ${target_field} ${request_template} Set Element Text ${request_template} ${filter_id} xpath=.//correlation/filtration/filter/filter-id [Return] ${request_template} Set IPV4 Filter [Arguments] ${request_template} ${ip_address} [Documentation] Set filter ipv4 address ${request_template} Set Element Text ${request_template} ${ip_address} xpath=.//correlation/filtration/filter/ipv4-address-filter/ipv4-address ${request_template} Element to String ${request_template} [Return] ${request_template} Set Range Number Filter [Arguments] ${request_template} ${min_number} ${max_number} [Documentation] Set filter minimum and maximum number values ${request_template} Set Element Text ${request_template} ${min_number} xpath=.//correlation/filtration/filter/range-number-filter/min-number-value ${request_template} Set Element Text ${request_template} ${max_number} xpath=.//correlation/filtration/filter/range-number-filter/max-number-value ${request_template} Element to String ${request_template} [Return] ${request_template} Set Range String Filter [Arguments] ${request_template} ${min_value} ${max_value} [Documentation] Set filter minimum and maximum string values ${request_template} Set Element Text ${request_template} ${min_value} xpath=.//correlation/filtration/filter/range-string-filter/min-string-value ${request_template} Set Element Text ${request_template} ${max_value} xpath=.//correlation/filtration/filter/range-string-filter/max-string-value ${request_template} Element to String ${request_template} [Return] ${request_template} Set Specific Number Filter [Arguments] ${request_template} ${number} [Documentation] Set filter number value ${request_template} Set Element Text ${request_template} ${number} xpath=.//correlation/filtration/filter/specific-number-filter/specific-number ${request_template} Element to String ${request_template} [Return] ${request_template} Set Specific String Filter [Arguments] ${request_template} ${string_value} [Documentation] Set filter string value ${request_template} Set Element Text ${request_template} ${string_value} xpath=.//correlation/filtration/filter/specific-string-filter/specific-string ${request_template} Element to String ${request_template} [Return] ${request_template} Set IPV6 Filter [Arguments] ${request_template} ${ip_address} [Documentation] Set filter ipv6 address ${request_template} Set Element Text ${request_template} ${ip_address} xpath=.//correlation/filtration/filter/ipv6-address-filter/ipv6-address ${request_template} Element to String ${request_template} [Return] ${request_template} Set Script Filter [Arguments] ${request_template} ${script_language} ${script} [Documentation] Set filter script ${request_template} Set Element Text ${request_template} ${script_language} xpath=.//correlation/filtration/filter/script-filter/scripting/language ${request_template} Set Element Text ${request_template} ${script} xpath=.//correlation/filtration/filter/script-filter/scripting/script ${request_template} Element to String ${request_template} [Return] ${request_template} Insert Link Computation Inside [Arguments] ${request_template} ${link_computation_template} ${input_model} ${underlay_topology} [Documentation] Add link computation to request ${request_template} Add Element ${request_template} ${link_computation_template} xpath=. ${request_template} Set Element Text ${request_template} ${input_model} xpath=.//link-computation/node-info/input-model ${request_template} Set Element Text ${request_template} ${input_model} xpath=.//link-computation/link-info/input-model ${request_template} Set Element Text ${request_template} ${input_model} xpath=.//link-computation/output-model ${request_template} Set Element Text ${request_template} ${underlay_topology} xpath=.//link-computation/link-info/link-topology ${request_template} Set Element Attribute ${request_template} xmlns:n urn:opendaylight:topology:correlation xpath=./link-computation ${request_template} Element to String ${request_template} [Return] ${request_template} Insert Link Computation [Arguments] ${request_template} ${link_computation_template} ${input_model} ${underlay_topology_1} ${underlay_topology_2} [Documentation] Add link computation to request ${request_template} Add Element ${request_template} ${link_computation_template} xpath=. ${request_template} Set Element Text ${request_template} ${input_model} xpath=.//link-computation/node-info/input-model ${request_template} Set Element Text ${request_template} ${input_model} xpath=.//link-computation/link-info[1]/input-model ${request_template} Set Element Text ${request_template} ${input_model} xpath=.//link-computation/link-info[2]/input-model ${request_template} Set Element Text ${request_template} ${input_model} xpath=.//link-computation/output-model ${request_template} Set Element Text ${request_template} ${underlay_topology_1} xpath=.//link-computation/link-info[1]/link-topology ${request_template} Set Element Text ${request_template} ${underlay_topology_2} xpath=.//link-computation/link-info[2]/link-topology ${request_template} Set Element Attribute ${request_template} xmlns:n urn:opendaylight:topology:correlation xpath=./link-computation ${request_template} Element to String ${request_template} [Return] ${request_template} Insert Scripting into Request [Arguments] ${request} ${language} ${script} [Documentation] Insert Scripting into Request under aggregation node ${request} Add Element ${request} ${SCRIPTING} xpath=.//correlation/aggregation ${request} Set Element Text ${request} ${script} xpath=.//correlation/aggregation/scripting/script ${request} Set Element Text ${request} ${language} xpath=.//correlation/aggregation/scripting/language ${request} Element to String ${request} [Return] ${request} Create Isis Node [Arguments] ${node-id} ${ovs-version}=23 ${router-id-ipv4}=10.0.0.1 [Documentation] Create an isis node element with id and ip ${request} Set Element Text ${NODE_ISIS} ${node-id} xpath=.//node-id ${request} Set Element Text ${request} ${ovs-version} xpath=.//ovs-version ${request} Set Element Text ${request} ${router-id-ipv4} xpath=.//igp-node-attributes/isis-node-attributes/ted/te-router-id-ipv4 ${request} Element to String ${request} [Return] ${request} Create Openflow Node [Arguments] ${node-id} ${ip-address}=10.0.0.1 ${serial-number}=27 [Documentation] Create an Openflow node element with id and ip ${request} Set Element Text ${NODE_OPENFLOW} ${node-id} xpath=.//id ${request} Set Element Text ${request} ${ip-address} xpath=.//ip-address ${request} Set Element Text ${request} ${serial-number} xpath=.//serial-number ${request} Element to String ${request} [Return] ${request} Create OVSDB Termination Point [Arguments] ${tp-id} ${ofport} [Documentation] Create an OVSDB termination point element with id and port ${request} Set Element Text ${TERMINATION_POINT_OVSDB} ${tp-id} xpath=.//tp-id ${request} Set Element Text ${request} ${ofport} xpath=.//ofport ${request} Element to String ${request} [Return] ${request} Create Openflow Node Connector [Arguments] ${nc-id} ${port-number} [Documentation] Create an Openflow node connector element with id and port number ${request} Set Element Text ${NODE_CONNECTOR_OPENFLOW} ${nc-id} xpath=.//id ${request} Set Element Text ${request} ${port-number} xpath=.//port-number ${request} Element to String ${request} [Return] ${request} Create Link [Arguments] ${link-id} ${source-node} ${dest-node} ${name} ${metric} ${request} Set Element Text ${LINK} ${link-id} xpath=.//link-id ${request} Set Element Text ${request} ${source-node} xpath=.//source/source-node ${request} Set Element Text ${request} ${dest-node} xpath=.//destination/dest-node ${request} Set Element Text ${request} ${name} xpath=.//igp-link-attributes/name ${request} Set Element Text ${request} ${metric} xpath=.//igp-link-attributes/metric ${request} Element to String ${request} [Return] ${request} Extract Node from Topology [Arguments] ${topology} ${supp_node_id} [Documentation] Returns node that contains supporting node with ID specified in argument supp_node_id ${xpath} Set Variable .//node/supporting-node[node-ref='${supp_node_id}']/.. ${node} Get Element ${topology} xpath=${xpath} ${node} Element to String ${node} [Return] ${node} Extract Termination Point from Topology [Arguments] ${model} ${topology} ${topo_id} ${node_id} ${tp_id} [Documentation] Returns termination point that contains supporting termination point from specified topology, node and with specified id Check Supported Model ${model} ${xpath} Set Variable If '${model}' == 'network-topology-model' or '${model}' == 'opendaylight-inventory-model' .//termination-point[tp-ref='/network-topology:network-topology/topology/${topo_id}/node/${node_id}/termination-point/${tp_id}'] .//termination-point/supporting-termination-point[tp-ref='${tp_id}']/.. ${tp} Get Element ${topology} xpath=${xpath} ${tp} Element to String ${tp} [Return] ${tp} Extract Link from Topology [Arguments] ${model} ${topology} ${topo_id} ${link_id} [Documentation] Returns link that contains supporting link Check Supported Model ${model} ${xpath} Set Variable If '${model}' == 'network-topology-model' or '${model}' == 'opendaylight-inventory-model' .//link/supporting-link[link-ref='/network-topology/topology/${topo_id}/link/${link_id}']/.. .//link/supporting-link[tp-ref='${tp_id}']/.. ${link} Get Element ${topology} xpath=${xpath} ${link} Element to String ${link} [Return] ${link} Check Supported Model [Arguments] ${model} [Documentation] Checks if model is supported. Run Keyword If '${model}' != 'network-topology-model' and '${model}' != 'i2rs-model' and '${model}' != 'opendaylight-inventory-model' Fail Not supported model Check Aggregated Node in Topology [Arguments] ${model} ${topology} ${tp_count} @{supp_node_ids} [Documentation] Checks number of termination points and concrete supporting nodes in aggregated node and returns overlay node id. Model should be 'network-topology-model', 'opendaylight-inventory-model' or 'i2rs-model'. Check Supported Model ${model} ${node_id} Get From List ${supp_node_ids} 0 ${aggregated_node} Extract Node from Topology ${topology} ${node_id} ${supp_node_count} Get Length ${supp_node_ids} Should Contain X Times ${aggregated_node} ${supp_node_count} Should Contain X Times ${aggregated_node} ${tp_count} Should Contain X Times ${aggregated_node} ${tp_count} : FOR ${supp_node_id} IN @{supp_node_ids} \ Element Text Should Be ${aggregated_node} ${supp_node_id} xpath=.//supporting-node[node-ref='${supp_node_id}']/node-ref ${overlay_node_id} Get Element Text ${aggregated_node} xpath=./node-id [Return] ${overlay_node_id} Check Aggregated Termination Point in Node [Arguments] ${model} ${topology} ${topology_id} ${node_id} ${tp_id} @{supp_tp_ids} [Documentation] Checks supporting termination points in aggregated termination point. Model should be 'network-topology-model', 'opendaylight-inventory-model' or 'i2rs-model'. Check Supported Model ${model} ${tp} Extract Termination Point from Topology ${model} ${topology} ${topology_id} ${node_id} ${tp_id} ${supp_tp_count} Get Length ${supp_tp_ids} Should Contain X Times ${tp} ${supp_tp_count} : FOR ${supp_tp_id} IN @{supp_tp_ids} \ Should Contain X Times ${tp} ${supp_tp_id} 1 Check Filtered Nodes in Topology [Arguments] ${topology} ${tp_count} @{node_ids} [Documentation] Checks nodes in filtered topology : FOR ${node_id} IN @{node_ids} \ Element Text Should Be ${topology} ${node_id} xpath=.//node/supporting-node[node-ref='${node_id}']/node-ref Check Filtered Termination Points in Node [Arguments] ${topology} ${supp_node_id} @{supp_tp_ids} [Documentation] Checks termination points in filtered topology ${node} Extract Node from Topology ${topology} ${supp_node_id} ${supp_tp_count} Get Length ${supp_tp_ids} Should Contain X Times ${node} 1 Should Contain X Times ${node} ${supp_tp_count} Should Contain X Times ${node} ${supp_tp_count} : FOR ${supp_tp_id} IN @{supp_tp_ids} \ Should Contain X Times ${node} ${supp_tp_id} 1 Check Filtered Links In Topology [Arguments] ${topology} @{supp_link_ids} [Documentation] Checks links in filtered topology : FOR ${supp_link_id} IN @{supp_link_ids} \ Should Contain X Times ${topology} ${supp_link_id} 1 Check Overlay Link Source And Destination [Arguments] ${model} ${topology} ${topo_id} ${link_id} ${expected_source} ${expected_destination} [Documentation] Checks if the overlay link's source and destination specified by a supporting link ref matches given source and destination ${link} Extract Link from Topology ${model} ${topology} ${topo_id} ${link_id} ${link_source} Get Element Text ${link} xpath=.//source-node ${link_destination} Get Element Text ${link} xpath=.//dest-node Should Be Equal As Strings ${link_source} ${expected_source} Should Be Equal As Strings ${link_destination} ${expected_destination} Output Topo Should Be Complete [Arguments] ${node_count}=-1 ${supporting-node_count}=-1 ${node-ref_count}=-1 ${tp_count}=-1 ${tp-ref_count}=-1 ${link_count}=-1 ... ${link-ref_count}=-1 [Documentation] Verifies that the output topology contains the expected amount of essential elements ${resp} Wait Until Keyword Succeeds 5x 250ms Basic Request Get ${OVERLAY_TOPO_URL} Should Contain ${resp.content} ${OUTPUT_TOPO_NAME} Run Keyword If ${node_count}>-1 Should Contain X Times ${resp.content} ${node_count} Run Keyword If ${supporting-node_count}>-1 Should Contain X Times ${resp.content} ${supporting-node_count} Run Keyword If ${node-ref_count}>-1 Should Contain X Times ${resp.content} ${node-ref_count} Run Keyword If ${link_count}>-1 Should Contain X Times ${resp.content} ${link_count} Run Keyword If ${link-ref_count}>-1 Should Contain X Times ${resp.content} ${link-ref_count} Run Keyword If ${tp_count}>-1 Should Contain X Times ${resp.content} ${tp_count} Run Keyword If ${tp-ref_count}>-1 Should Contain X Times ${resp.content} ${tp-ref_count} Log ---- Output Topo ---- Log ${resp.content} [Return] ${resp} Set Global Variable If It Does Not Exist [Arguments] ${name} ${value} ${status} ${message} = Run Keyword And Ignore Error Variable Should Exist ${name} Run Keyword If "${status}" == "FAIL" Set Global Variable ${name} ${value}