-*** 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
# See the License for the specific language governing permissions and
# limitations under the License.
-
*** Settings ***
Documentation [EPA-05] EPA underlay PASSTHROUGH.
Library Collections
Library SSHLibrary
-Resource ../lib/vnfd_lib.resource
-Resource ../lib/vnf_lib.resource
-Resource ../lib/nsd_lib.resource
-Resource ../lib/ns_lib.resource
-Resource ../lib/ssh_lib.resource
-Resource ../lib/openstack_lib.resource
+Resource %{ROBOT_DEVOPS_FOLDER}/lib/vnfd_lib.robot
+Resource %{ROBOT_DEVOPS_FOLDER}/lib/vnf_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 %{ROBOT_DEVOPS_FOLDER}/lib/openstack_lib.robot
-Test Tags epa_05 cluster_epa
+Force Tags epa_05 cluster_epa
Suite Teardown Run Keyword And Ignore Error Suite Cleanup
*** Variables ***
# NS and VNF descriptor package folder and ids
-${VNFD_PKG} epa_1vm_passthrough_vnf
-${VNFD_NAME} epa_1vm_passthrough-vnf
-${NSD_PKG} epa_1vm_passthrough_ns
-${NSD_NAME} epa_1vm_passthrough-ns
-${NS_NAME} epa_05
+${vnfd_pkg} epa_1vm_passthrough_vnf
+${vnfd_name} epa_1vm_passthrough-vnf
+${nsd_pkg} epa_1vm_passthrough_ns
+${nsd_name} epa_1vm_passthrough-ns
+${ns_name} epa_05
# Fixed IPs and subnet for datanet VL
-${DATANET_SUBNET} 192.168.110.0/24
-${DATANET_IP1} 192.168.110.11
-${DATANET_IP2} 192.168.110.22
+${datanet_subnet} 192.168.110.0/24
+${datanet_ip1} 192.168.110.11
+${datanet_ip2} 192.168.110.22
-${VNF_MEMBER_INDEX_1} vnf1
-${VNF_MEMBER_INDEX_2} vnf2
-${USERNAME} ubuntu
-${PASSWORD} osm4u
-${NS_CONFIG} {vld: [ {name: mgmtnet, vim-network-name: %{VIM_MGMT_NET}} , {name: datanet, ip-profile: {ip-version: ipv4, subnet-address: "${DATANET_SUBNET}"}, vnfd-connection-point-ref: [ {member-vnf-index-ref: "${VNF_MEMBER_INDEX_1}", vnfd-connection-point-ref: vnf-data-ext, ip-address: "${DATANET_IP1}"}, {member-vnf-index-ref: "${VNF_MEMBER_INDEX_2}", vnfd-connection-point-ref: vnf-data-ext, ip-address: "${DATANET_IP2}"}]} ] }
-${SUCCESS_RETURN_CODE} 0
+${vnf_member_index_1} vnf1
+${vnf_member_index_2} vnf2
+${username} ubuntu
+${password} osm4u
+${ns_config} {vld: [ {name: mgmtnet, vim-network-name: %{VIM_MGMT_NET}} , {name: datanet, ip-profile: {ip-version: ipv4, subnet-address: "${datanet_subnet}"}, vnfd-connection-point-ref: [ {member-vnf-index-ref: "${vnf_member_index_1}", vnfd-connection-point-ref: vnf-data-ext, ip-address: "${datanet_ip1}"}, {member-vnf-index-ref: "${vnf_member_index_2}", vnfd-connection-point-ref: vnf-data-ext, ip-address: "${datanet_ip2}"}]} ] }
+${success_return_code} 0
*** Test Cases ***
Create VNF Descriptor
- [Documentation] Upload VNF package for the testsuite.
+
Remove Environment Variable OVERRIDES
- Create VNFD '%{PACKAGES_FOLDER}/${VNFD_PKG}'
+ Create VNFD '%{PACKAGES_FOLDER}/${vnfd_pkg}'
+
Create NS Descriptor
- [Documentation] Upload NS package for the testsuite.
- Create NSD '%{PACKAGES_FOLDER}/${NSD_PKG}'
+
+ Create NSD '%{PACKAGES_FOLDER}/${nsd_pkg}'
+
Instantiate Network Service
- [Documentation] Instantiate NS for the testsuite.
- ${id}= Create Network Service ${NSD_NAME} %{VIM_TARGET} ${NS_NAME} ${NS_CONFIG} ${EMPTY}
- Set Suite Variable ${NS_ID} ${id}
+
+ ${id}= Create Network Service ${nsd_name} %{VIM_TARGET} ${ns_name} ${ns_config} ${EMPTY}
+ Set Suite Variable ${ns_id} ${id}
+
Get Management Ip Addresses
- [Documentation] Get the mgmt IP addresses of both VNF of the NS.
- Variable Should Exist ${NS_ID} msg=Network service instance is not available
- ${ip}= Get Vnf Management Ip Address ${NS_ID} ${VNF_MEMBER_INDEX_1}
- Set Suite Variable ${IP_MGMT_1} ${ip}
- Log ${IP_MGMT_1}
- ${ip}= Get Vnf Management Ip Address ${NS_ID} ${VNF_MEMBER_INDEX_2}
- Set Suite Variable ${IP_MGMT_2} ${ip}
- Log ${IP_MGMT_2}
+
+ Variable Should Exist ${ns_id} msg=Network service instance is not available
+ ${ip} Get Vnf Management Ip Address ${ns_id} ${vnf_member_index_1}
+ Set Suite Variable ${ip_mgmt_1} ${ip}
+ Log ${ip_mgmt_1}
+
+ ${ip} Get Vnf Management Ip Address ${ns_id} ${vnf_member_index_2}
+ Set Suite Variable ${ip_mgmt_2} ${ip}
+ Log ${ip_mgmt_2}
+
Ping from Vnf1 to Vnf2
- [Documentation] Check connectivity from the first VNF to the second VNF using ping.
- Variable Should Exist ${IP_MGMT_1} msg=IP address of the data VNF '${VNF_MEMBER_INDEX_1}' is not available
+
+ Variable Should Exist ${ip_mgmt_1} msg=IP address of the data VNF '${vnf_member_index_1}' is not available
Sleep 30 seconds Wait for SSH daemon to be up
- ${stdout}= Execute Remote Command Check Rc Return Output ${IP_MGMT_1} ${USERNAME} ${PASSWORD} ${EMPTY} ip addr ; ping -c 5 ${DATANET_IP2}
+ ${stdout}= Execute Remote Command Check Rc Return Output ${ip_mgmt_1} ${username} ${password} ${EMPTY} ip addr ; ping -c 5 ${datanet_ip2}
Log ${stdout}
+
Ping from Vnf2 to Vnf1
- [Documentation] Check connectivity from the second VNF to the first VNF using ping.
- Variable Should Exist ${IP_MGMT_2} msg=IP address of the data VNF '${VNF_MEMBER_INDEX_2}' is not available
- ${stdout}= Execute Remote Command Check Rc Return Output ${IP_MGMT_2} ${USERNAME} ${PASSWORD} ${EMPTY} ip addr ; ping -c 5 ${DATANET_IP1}
+
+ Variable Should Exist ${ip_mgmt_2} msg=IP address of the data VNF '${vnf_member_index_2}' is not available
+ ${stdout}= Execute Remote Command Check Rc Return Output ${ip_mgmt_2} ${username} ${password} ${EMPTY} ip addr ; ping -c 5 ${datanet_ip1}
Log ${stdout}
+
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 VNF Descriptor
- [Documentation] Delete VNF package from OSM.
[Tags] cleanup
- Delete VNFD ${VNFD_NAME}
+
+ Delete VNFD ${vnfd_name}
+
*** 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_name}
+
+