+*** Comments ***
# Copyright 2020 Canonical Ltd.
#
# Licensed under the Apache License, Version 2.0 (the "License");
# See the License for the specific language governing permissions and
# limitations under the License.
+
*** Settings ***
Documentation [K8s-01] Create K8s cluster.
Library Collections
Library Process
Library SSHLibrary
-Library %{ROBOT_DEVOPS_FOLDER}/lib/renderTemplate.py
+Library ../lib/renderTemplate.py
-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/ssh_lib.robot
+Resource ../lib/vnfd_lib.resource
+Resource ../lib/nsd_lib.resource
+Resource ../lib/ns_lib.resource
+Resource ../lib/ssh_lib.resource
-Force Tags k8s_01 cluster_k8s regression
+Test Tags k8s_01 cluster_k8s
Suite Teardown Run Keyword And Ignore Error Suite Cleanup
*** Variables ***
# NS and VNF descriptor package files
-${vnfd_pkg1} k8s_jujucontroller_vnf.tar.gz
-${vnfd_pkg2} k8s_jujumachine_vnf.tar.gz
-${nsd_pkg} k8s_juju_ns.tar.gz
-${vnfd_name1} k8s_jujucontroller_vnf
-${vnfd_name2} k8s_jujumachine_vnf
-${nsd_name} k8s_juju
+${VNFD_PKG1} k8s_jujucontroller_vnf.tar.gz
+${VNFD_PKG2} k8s_jujumachine_vnf.tar.gz
+${NSD_PKG} k8s_juju_ns.tar.gz
+${VNFD_NAME1} k8s_jujucontroller_vnf
+${VNFD_NAME2} k8s_jujumachine_vnf
+${NSD_NAME} k8s_juju
# VNF Member indexes
-${vnf_member_index_1} k8s_vnf1
-${vnf_member_index_2} k8s_vnf2
-${vnf_member_index_3} k8s_vnf3
-${vnf_member_index_4} k8s_vnf4
-${vnf_member_index_5} k8s_juju
-
-# Username
-${username} ubuntu
+${VNF_MEMBER_INDEX_1} k8s_vnf1
+${VNF_MEMBER_INDEX_2} k8s_vnf2
+${VNF_MEMBER_INDEX_3} k8s_vnf3
+${VNF_MEMBER_INDEX_4} k8s_vnf4
+${VNF_MEMBER_INDEX_5} k8s_juju
# Kubeconfig file
-${kubeconfig_file} /home/ubuntu/.kube/config
+${KUBECONFIG_FILE} /home/ubuntu/.kube/config
# NS instance name
-${ns_name} k8s-cluster
+${NS_NAME} k8s-cluster
# SSH keys and username to be used
-${publickey} %{HOME}/.ssh/id_rsa.pub
-${privatekey} %{HOME}/.ssh/id_rsa
-${username} ubuntu
-${password} ${EMPTY}
+${PUBLICKEY} %{HOME}/.ssh/id_rsa.pub
+${PRIVATEKEY} %{HOME}/.ssh/id_rsa
+${USERNAME} ubuntu
+${PASSWORD} ${EMPTY}
# Template and config file to use
-${template} k8s_juju_template.yaml
-${config_file} config.yaml
+${TEMPLATE} k8s_juju_template.yaml
+${CONFIG_FILE} config.yaml
*** Test Cases ***
Render a template
-
- ${stdout}= Render template %{ROBOT_DEVOPS_FOLDER}/resources/${template} %{ROBOT_DEVOPS_FOLDER}/resources/${config_file} IP_VM1=%{IP_VM1} IP_VM2=%{IP_VM2} IP_VM3=%{IP_VM3} IP_VM4=%{IP_VM4} IP_JUJU=%{IP_JUJU} NETWORK=%{VIM_MGMT_NET}
+ [Documentation] Generate from a template the instantiation parameters that will be used for the NS instance.
+ ${stdout}= Render Template ../resources/${TEMPLATE} ../resources/${CONFIG_FILE} IP_VM1=%{IP_VM1} IP_VM2=%{IP_VM2} IP_VM3=%{IP_VM3} IP_VM4=%{IP_VM4} IP_JUJU=%{IP_JUJU} NETWORK=%{VIM_MGMT_NET}
Log To Console \n${stdout}
-
Create Controller VNF Descriptor
-
- Create VNFD '%{PACKAGES_FOLDER}/${vnfd_pkg1}'
-
+ [Documentation] Upload first VNF package for the testsuite.
+ Create VNFD '%{PACKAGES_FOLDER}/${VNFD_PKG1}'
Create Machines VNF Descriptor
-
- Create VNFD '%{PACKAGES_FOLDER}/${vnfd_pkg2}'
-
+ [Documentation] Upload second VNF package for the testsuite.
+ Create VNFD '%{PACKAGES_FOLDER}/${VNFD_PKG2}'
Create K8s Cluster NS Descriptor
-
- Create NSD '%{PACKAGES_FOLDER}/${nsd_pkg}'
-
+ [Documentation] Upload NS package for the testsuite.
+ Create NSD '%{PACKAGES_FOLDER}/${NSD_PKG}'
Instantiate K8s Cluster Network Service
-
- ${id}= Create Network Service ${nsd_name} %{VIM_TARGET} ${ns_name} ns_config=${EMPTY} publickey=${publickey} ns_launch_max_wait_time=70min config_file=%{ROBOT_DEVOPS_FOLDER}/resources/${config_file}
- Set Suite Variable ${ns_id} ${id}
-
+ [Documentation] Instantiate NS for the testsuite.
+ ${id}= Create Network Service ${NSD_NAME} %{VIM_TARGET} ${NS_NAME} ns_config=${EMPTY} publickey=${PUBLICKEY} ns_launch_max_wait_time=70min config_file=%{ROBOT_DEVOPS_FOLDER}/resources/${CONFIG_FILE}
+ Set Suite Variable ${NS_ID} ${id}
Get Management Ip Addresses
-
- ${ip_addr_1} Get Vnf Management Ip Address ${ns_id} ${vnf_member_index_1}
- log ${ip_addr_1}
- Set Suite Variable ${vnf_1_ip_addr} ${ip_addr_1}
- ${ip_addr_2} Get Vnf Management Ip Address ${ns_id} ${vnf_member_index_2}
- log ${ip_addr_2}
- Set Suite Variable ${vnf_2_ip_addr} ${ip_addr_2}
- ${ip_addr_3} Get Vnf Management Ip Address ${ns_id} ${vnf_member_index_3}
- log ${ip_addr_3}
- Set Suite Variable ${vnf_3_ip_addr} ${ip_addr_3}
- ${ip_addr_4} Get Vnf Management Ip Address ${ns_id} ${vnf_member_index_4}
- log ${ip_addr_4}
- Set Suite Variable ${vnf_4_ip_addr} ${ip_addr_4}
- ${ip_addr_5} Get Vnf Management Ip Address ${ns_id} ${vnf_member_index_5}
- log ${ip_addr_5}
- Set Suite Variable ${vnf_5_ip_addr} ${ip_addr_5}
-
+ [Documentation] Get the mgmt IP addresses of the five VNF of the NS.
+ ${ip_addr_1}= Get Vnf Management Ip Address ${NS_ID} ${VNF_MEMBER_INDEX_1}
+ Log ${ip_addr_1}
+ Set Suite Variable ${VNF_1_IP_ADDR} ${ip_addr_1}
+ ${ip_addr_2}= Get Vnf Management Ip Address ${NS_ID} ${VNF_MEMBER_INDEX_2}
+ Log ${ip_addr_2}
+ Set Suite Variable ${VNF_2_IP_ADDR} ${ip_addr_2}
+ ${ip_addr_3}= Get Vnf Management Ip Address ${NS_ID} ${VNF_MEMBER_INDEX_3}
+ Log ${ip_addr_3}
+ Set Suite Variable ${VNF_3_IP_ADDR} ${ip_addr_3}
+ ${ip_addr_4}= Get Vnf Management Ip Address ${NS_ID} ${VNF_MEMBER_INDEX_4}
+ Log ${ip_addr_4}
+ Set Suite Variable ${VNF_4_IP_ADDR} ${ip_addr_4}
+ ${ip_addr_5}= Get Vnf Management Ip Address ${NS_ID} ${VNF_MEMBER_INDEX_5}
+ Log ${ip_addr_5}
+ Set Suite Variable ${VNF_5_IP_ADDR} ${ip_addr_5}
Test SSH Access
-
- Variable Should Exist ${vnf_1_ip_addr} msg=IP address of the management VNF '${vnf_member_index_1}' is not available
- Variable Should Exist ${vnf_2_ip_addr} msg=IP address of the management VNF '${vnf_member_index_2}' is not available
- Variable Should Exist ${vnf_3_ip_addr} msg=IP address of the management VNF '${vnf_member_index_3}' is not available
- Variable Should Exist ${vnf_4_ip_addr} msg=IP address of the management VNF '${vnf_member_index_4}' is not available
- Variable Should Exist ${vnf_5_ip_addr} msg=IP address of the management VNF '${vnf_member_index_5}' is not available
+ [Documentation] Check that the five VNF are accessible via SSH in their respective mgmt IP address.
+ Variable Should Exist ${VNF_1_IP_ADDR} msg=IP address of the management VNF '${VNF_MEMBER_INDEX_1}' is not available
+ Variable Should Exist ${VNF_2_IP_ADDR} msg=IP address of the management VNF '${VNF_MEMBER_INDEX_2}' is not available
+ Variable Should Exist ${VNF_3_IP_ADDR} msg=IP address of the management VNF '${VNF_MEMBER_INDEX_3}' is not available
+ Variable Should Exist ${VNF_4_IP_ADDR} msg=IP address of the management VNF '${VNF_MEMBER_INDEX_4}' is not available
+ Variable Should Exist ${VNF_5_IP_ADDR} msg=IP address of the management VNF '${VNF_MEMBER_INDEX_5}' is not available
Sleep 30s Waiting ssh daemon to be up
- Test SSH Connection ${vnf_1_ip_addr} ${username} ${password} ${privatekey}
- Test SSH Connection ${vnf_2_ip_addr} ${username} ${password} ${privatekey}
- Test SSH Connection ${vnf_3_ip_addr} ${username} ${password} ${privatekey}
- Test SSH Connection ${vnf_4_ip_addr} ${username} ${password} ${privatekey}
- Test SSH Connection ${vnf_5_ip_addr} ${username} ${password} ${privatekey}
-
-
-Check kubeconfig file
-
- Check If remote File Exists ${vnf_5_ip_addr} ${username} ${password} ${privatekey} ${kubeconfig_file}
+ Test SSH Connection ${VNF_1_IP_ADDR} ${USERNAME} ${PASSWORD} ${PRIVATEKEY}
+ Test SSH Connection ${VNF_2_IP_ADDR} ${USERNAME} ${PASSWORD} ${PRIVATEKEY}
+ Test SSH Connection ${VNF_3_IP_ADDR} ${USERNAME} ${PASSWORD} ${PRIVATEKEY}
+ Test SSH Connection ${VNF_4_IP_ADDR} ${USERNAME} ${PASSWORD} ${PRIVATEKEY}
+ Test SSH Connection ${VNF_5_IP_ADDR} ${USERNAME} ${PASSWORD} ${PRIVATEKEY}
+Check Kubeconfig File
+ [Documentation] Check that the Kubeconfig file of the provisioned cluster is present in the VNF.
+ Check If Remote File Exists ${VNF_5_IP_ADDR} ${USERNAME} ${PASSWORD} ${PRIVATEKEY} ${KUBECONFIG_FILE}
Delete NS Instance
+ [Documentation] Delete NS instance.
[Tags] cleanup
-
- Delete NS ${ns_name}
-
+ Delete NS ${NS_NAME}
Delete NS Descriptor
+ [Documentation] Delete NS package from OSM.
[Tags] cleanup
-
- Delete NSD ${nsd_name}
-
+ Delete NSD ${NSD_NAME}
Delete Controller VNF Descriptor
+ [Documentation] Delete first VNF package from OSM.
[Tags] cleanup
-
- Delete VNFD ${vnfd_name1}
+ Delete VNFD ${VNFD_NAME1}
Delete Machines VNF Descriptor
+ [Documentation] Delete second VNF package from OSM.
[Tags] cleanup
-
- Delete VNFD ${vnfd_name2}
+ Delete VNFD ${VNFD_NAME2}
*** Keywords ***
Suite Cleanup
[Documentation] Test Suite Cleanup: Deleting descriptors and NS instance
-
- 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_NAME1}
+ Run Keyword If Any Tests Failed Delete VNFD ${VNFD_NAME2}