X-Git-Url: https://osm.etsi.org/gitweb/?p=osm%2Ftests.git;a=blobdiff_plain;f=robot-systest%2Ftestsuite%2Fk8s_13-two_helm_kdu.robot;fp=robot-systest%2Ftestsuite%2Fk8s_13-two_helm_kdu.robot;h=763488b4db0e897923bc1a8f7a94a96fe6c9fcf3;hp=b57e635826ffdf88ccd9473d278607ac50df8f2e;hb=7a9e031926d2fa7ed5041485b3d41b0c1e85d2a9;hpb=23ff8f980f66ef57fb4d254336a018e3a697a187 diff --git a/robot-systest/testsuite/k8s_13-two_helm_kdu.robot b/robot-systest/testsuite/k8s_13-two_helm_kdu.robot index b57e635..763488b 100644 --- a/robot-systest/testsuite/k8s_13-two_helm_kdu.robot +++ b/robot-systest/testsuite/k8s_13-two_helm_kdu.robot @@ -1,3 +1,4 @@ +*** Comments *** # Licensed under the Apache License, Version 2.0 (the "License"); # you may not use this file except in compliance with the License. # You may obtain a copy of the License at @@ -10,6 +11,7 @@ # See the License for the specific language governing permissions and # limitations under the License. + *** Settings *** Documentation [K8s-13] Two Helm-based KDU stored in public and private OCI repositories. @@ -18,160 +20,167 @@ Library String Library Collections Library Process -Resource %{ROBOT_DEVOPS_FOLDER}/lib/vnfd_lib.robot -Resource %{ROBOT_DEVOPS_FOLDER}/lib/nsd_lib.robot -Resource %{ROBOT_DEVOPS_FOLDER}/lib/ns_lib.robot -Resource %{ROBOT_DEVOPS_FOLDER}/lib/connectivity_lib.robot -Resource %{ROBOT_DEVOPS_FOLDER}/lib/ssh_lib.robot -Resource %{ROBOT_DEVOPS_FOLDER}/lib/k8scluster_lib.robot -Resource %{ROBOT_DEVOPS_FOLDER}/lib/repo_lib.robot +Resource ../lib/vnfd_lib.resource +Resource ../lib/nsd_lib.resource +Resource ../lib/ns_lib.resource +Resource ../lib/ns_operation_lib.resource +Resource ../lib/connectivity_lib.resource +Resource ../lib/ssh_lib.resource +Resource ../lib/k8scluster_lib.resource +Resource ../lib/repo_lib.resource -Force Tags k8s_13 cluster_k8s daily azure +Test Tags k8s_13 cluster_k8s daily azure Suite Teardown Run Keyword And Ignore Error Suite Cleanup *** Variables *** # NS and VNF descriptor package folder and ids -${vnfd_pkg} two_helm_oci_knf -${vnfd_name} two_helm_oci_knf -${nsd_pkg} two_helm_oci_ns -${nsd_name} two_helm_oci_ns +${VNFD_PKG} two_helm_oci_knf +${VNFD_NAME} two_helm_oci_knf +${NSD_PKG} two_helm_oci_ns +${NSD_NAME} two_helm_oci_ns # NS instance name and configuration -${ns_name} ldap -${ns_config} {vld: [ {name: mgmtnet, vim-network-name: %{VIM_MGMT_NET}}], additionalParamsForVnf: [ {member-vnf-index: two_helm_oci, additionalParamsForKdu: [ {kdu_name: haproxy, additionalParams: {service: {type: LoadBalancer }, adminPassword: admin}}, {kdu_name: ldap, additionalParams: {service: {type: LoadBalancer }, adminPassword: admin}} ] } ] } - -${ns_id} ${EMPTY} -${publickey} ${EMPTY} -${vnf_member_index} two_helm_oci -${kdu1_name} haproxy -${kdu2_name} ldap -${upgrade_action} upgrade -${rollback_action} rollback -${replica_count} 3 +${NS_NAME} ldap +${NS_CONFIG} {vld: [ {name: mgmtnet, vim-network-name: %{VIM_MGMT_NET}}], additionalParamsForVnf: [ {member-vnf-index: two_helm_oci, additionalParamsForKdu: [ {kdu_name: haproxy, additionalParams: {service: {type: LoadBalancer }, adminPassword: admin}}, {kdu_name: ldap, additionalParams: {service: {type: LoadBalancer }, adminPassword: admin}} ] } ] } + +${NS_ID} ${EMPTY} +${PUBLICKEY} ${EMPTY} +${VNF_MEMBER_INDEX} two_helm_oci +${KDU1_NAME} haproxy +${KDU2_NAME} ldap +${UPGRADE_ACTION} upgrade +${ROLLBACK_ACTION} rollback +${REPLICA_COUNT} 3 # OCI helm repo configuration -${repo_name} osm-gitlab -${repo_uri} %{OCI_REGISTRY_URL} -${repo_user} %{OCI_REGISTRY_USER} -${repo_password} %{OCI_REGISTRY_PASSWORD} +${REPO_NAME} osm-gitlab +${REPO_URI} %{OCI_REGISTRY_URL} +${REPO_USER} %{OCI_REGISTRY_USER} +${REPO_PASSWORD} %{OCI_REGISTRY_PASSWORD} + *** Test Cases *** Create Package For CNF [Documentation] Create Package For CNF [Tags] prepare - Create VNFD '%{PACKAGES_FOLDER}/${vnfd_pkg}' + Create VNFD '%{PACKAGES_FOLDER}/${VNFD_PKG}' Create Package For NS [Documentation] Create Package For NS [Tags] prepare - Create NSD '%{PACKAGES_FOLDER}/${nsd_pkg}' + Create NSD '%{PACKAGES_FOLDER}/${NSD_PKG}' Create Helm OCI Repo [Documentation] Create Helm OCI Repo for openldap kdu [Tags] prepare - Create Repo ${repo_name} ${repo_uri} helm-chart ${repo_user} ${repo_password} --oci + Create Repo ${REPO_NAME} ${REPO_URI} helm-chart ${REPO_USER} ${REPO_PASSWORD} --oci Create Network Service Instance [Documentation] Create Network Service Instance [Tags] prepare - ${id}= Create Network Service ${nsd_name} %{VIM_TARGET} ${ns_name} ${ns_config} ${publickey} + ${id}= Create Network Service ${NSD_NAME} %{VIM_TARGET} ${NS_NAME} ${NS_CONFIG} ${PUBLICKEY} + Log ${id} Get Ns Id [Documentation] Get ID of NS instance [Tags] verify - ${id}= Get Ns Id ${ns_name} - Set Suite Variable ${ns_id} ${id} + ${id}= Get Ns Id ${NS_NAME} + Set Suite Variable ${NS_ID} ${id} Get Vnf Id [Documentation] Get ID of VNF [Tags] verify - Variable Should Exist ${ns_id} msg=Network service instance is not available - @{vnfr_list}= Get Ns Vnfr Ids ${ns_id} + Variable Should Exist ${NS_ID} msg=Network service instance is not available + @{vnfr_list}= Get Ns Vnfr Ids ${NS_ID} Log List ${vnfr_list} - Set Suite Variable ${vnf_id} ${vnfr_list}[0] + Set Suite Variable ${VNF_ID} ${vnfr_list}[0] Execute Upgrade Operation over first KDU [Documentation] Execute Upgrade Operation over first KDU [Tags] verify - Variable Should Exist ${ns_id} msg=Network service instance is not available - ${ns_op_id}= Execute NS K8s Action ${ns_name} ${upgrade_action} ${vnf_member_index} ${kdu1_name} replicaCount=${replica_count} + Variable Should Exist ${NS_ID} msg=Network service instance is not available + ${ns_op_id}= Execute NS K8s Action ${NS_NAME} ${UPGRADE_ACTION} ${VNF_MEMBER_INDEX} ${KDU1_NAME} replicaCount=${REPLICA_COUNT} + Log ${ns_op_id} Check Replicas After Upgrade Operation over first KDU [Documentation] Check Replicas After Upgrade Operation over first KDU [Tags] verify - Variable Should Exist ${ns_id} msg=Network service instance is not available - ${count}= Get Vnf Kdu Replica Count ${vnf_id} ${kdu1_name} + Variable Should Exist ${NS_ID} msg=Network service instance is not available + ${count}= Get Vnf Kdu Replica Count ${VNF_ID} ${KDU1_NAME} Log ${count} - Should Be Equal As Integers ${count} ${replica_count} + Should Be Equal As Integers ${count} ${REPLICA_COUNT} Execute Rollback Operation over first KDU [Documentation] Execute Rollback Operation over first KDU [Tags] verify - Variable Should Exist ${ns_id} msg=Network service instance is not available - ${ns_op_id}= Execute NS K8s Action ${ns_name} ${rollback_action} ${vnf_member_index} ${kdu1_name} + Variable Should Exist ${NS_ID} msg=Network service instance is not available + ${ns_op_id}= Execute NS K8s Action ${NS_NAME} ${ROLLBACK_ACTION} ${VNF_MEMBER_INDEX} ${KDU1_NAME} + Log ${ns_op_id} Check Replicas After Rollback Operation over first KDU [Documentation] Check Replicas After Rollback Operation over first KDU [Tags] verify - Variable Should Exist ${ns_id} msg=Network service instance is not available - ${count}= Get Vnf Kdu Replica Count ${vnf_id} ${kdu1_name} + Variable Should Exist ${NS_ID} msg=Network service instance is not available + ${count}= Get Vnf Kdu Replica Count ${VNF_ID} ${KDU1_NAME} Log ${count} Should Be Empty ${count} Execute Upgrade Operation over second KDU [Documentation] Execute Upgrade Operation over second KDU [Tags] verify - Variable Should Exist ${ns_id} msg=Network service instance is not available - ${ns_op_id}= Execute NS K8s Action ${ns_name} ${upgrade_action} ${vnf_member_index} ${kdu2_name} replicaCount=${replica_count} + Variable Should Exist ${NS_ID} msg=Network service instance is not available + ${ns_op_id}= Execute NS K8s Action ${NS_NAME} ${UPGRADE_ACTION} ${VNF_MEMBER_INDEX} ${KDU2_NAME} replicaCount=${REPLICA_COUNT} + Log ${ns_op_id} Check Replicas After Upgrade Operation over second KDU [Documentation] Check Replicas After Upgrade Operation over second KDU [Tags] verify - Variable Should Exist ${ns_id} msg=Network service instance is not available - ${count}= Get Vnf Kdu Replica Count ${vnf_id} ${kdu2_name} + Variable Should Exist ${NS_ID} msg=Network service instance is not available + ${count}= Get Vnf Kdu Replica Count ${VNF_ID} ${KDU2_NAME} Log ${count} - Should Be Equal As Integers ${count} ${replica_count} + Should Be Equal As Integers ${count} ${REPLICA_COUNT} Execute Rollback Operation over second KDU [Documentation] Execute Rollback Operation over second KDU [Tags] verify - Variable Should Exist ${ns_id} msg=Network service instance is not available - ${ns_op_id}= Execute NS K8s Action ${ns_name} ${rollback_action} ${vnf_member_index} ${kdu2_name} + Variable Should Exist ${NS_ID} msg=Network service instance is not available + ${ns_op_id}= Execute NS K8s Action ${NS_NAME} ${ROLLBACK_ACTION} ${VNF_MEMBER_INDEX} ${KDU2_NAME} + Log ${ns_op_id} Check Replicas After Rollback Operation over second KDU [Documentation] Check Replicas After Rollback Operation over second KDU [Tags] verify - Variable Should Exist ${ns_id} msg=Network service instance is not available - ${count}= Get Vnf Kdu Replica Count ${vnf_id} ${kdu2_name} + Variable Should Exist ${NS_ID} msg=Network service instance is not available + ${count}= Get Vnf Kdu Replica Count ${VNF_ID} ${KDU2_NAME} Log ${count} Should Be Empty ${count} Delete Network Service Instance [Documentation] Delete Network Service Instance [Tags] cleanup - Delete NS ${ns_name} + Delete NS ${NS_NAME} Delete Helm OCI Repo [Documentation] Delete Helm OCI Repo [Tags] prepare - Delete Repo ${repo_name} + Delete Repo ${REPO_NAME} Delete NS Descriptor Test [Documentation] Delete NS Descriptor Test [Tags] cleanup - Delete NSD ${nsd_name} + Delete NSD ${NSD_NAME} Delete VNF Descriptor Test [Documentation] Delete VNF Descriptor Test [Tags] cleanup - Delete VNFD ${vnfd_name} + Delete VNFD ${VNFD_NAME} *** Keywords *** Suite Cleanup [Documentation] Test Suit Cleanup: Deleting Descriptor, instance and vim - Run Keyword If Any Tests Failed Delete NS ${ns_name} - Run Keyword If Any Tests Failed Delete NSD ${nsd_name} - Run Keyword If Any Tests Failed Delete VNFD ${vnfd_name} + Run Keyword If Any Tests Failed Delete NS ${NS_NAME} + Run Keyword If Any Tests Failed Delete NSD ${NSD_NAME} + Run Keyword If Any Tests Failed Delete VNFD ${VNFD_NAME}