*** 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 # # http://www.apache.org/licenses/LICENSE-2.0 # # Unless required by applicable law or agreed to in writing, software # distributed under the License is distributed on an "AS IS" BASIS, # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. # See the License for the specific language governing permissions and # limitations under the License. *** Settings *** Documentation [BASIC-18] NS with a VLD with a virtual link profile. Library OperatingSystem Library String Library Collections Library SSHLibrary Resource ../lib/vnfd_lib.resource Resource ../lib/nsd_lib.resource Resource ../lib/ns_lib.resource Resource ../lib/ssh_lib.resource Test Tags basic_18 cluster_main daily regression Suite Teardown Run Keyword And Ignore Error Suite Cleanup *** Variables *** # NS and VNF descriptor package folder and ids ${VNFD_PKG} ubuntu_4ifaces_vnf ${VNFD_NAME} ubuntu_4ifaces-vnf ${NSD_PKG} ubuntu_4ifaces_ns ${NSD_NAME} ubuntu_4ifaces-ns # NS instance name and configuration ${NS_NAME} basic_18 ${NS_CONFIG} {vld: [ {name: mgmtnet, vim-network-name: %{VIM_MGMT_NET}} ] } # SSH keys and username to be used ${PUBLICKEY} %{HOME}/.ssh/id_rsa.pub ${PRIVATEKEY} %{HOME}/.ssh/id_rsa ${USERNAME} ubuntu # VNFs data ${VNF_MEMBER_INDEX_1} vnf1 ${VNF_MEMBER_INDEX_2} vnf2 ${IFACE1_NAME} eth1 ${IFACE2_NAME} eth2 ${IFACE3_NAME} eth3 ${DATANET1_PREFIX} ^192.168.10.* ${DATANET2_PREFIX} ^192.168.20.* ${DATANET3_PREFIX} ^192.168.30.* ${SUCCESS_RETURN_CODE} 0 *** Test Cases *** Create VNF Descriptor [Documentation] Upload VNF package for the testsuite. Create VNFD '%{PACKAGES_FOLDER}/${VNFD_PKG}' Create NS Descriptor [Documentation] Upload NS package for the testsuite. 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} ${PUBLICKEY} Set Suite Variable ${NS_ID} ${id} Get Vnfs Info [Documentation] Get information from the two VNF of the Ns, specifically the VNF instance id and the mgmt IP address. 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_ID1} ${vnfr_list}[0] Set Suite Variable ${VNF_ID2} ${vnfr_list}[1] ${ip}= Get Vnf Management Ip Address ${NS_ID} ${VNF_MEMBER_INDEX_1} Set Suite Variable ${VNF1_IPMGMT} ${ip} Log ${VNF1_IPMGMT} ${ip}= Get Vnf Management Ip Address ${NS_ID} ${VNF_MEMBER_INDEX_2} Set Suite Variable ${VNF2_IPMGMT} ${ip} Log ${VNF2_IPMGMT} Check Vnf1 IPs [Documentation] Check whether IP addresses of the first VNF in the VNF record meet the expected CIDR. Variable Should Exist ${VNF_ID1} msg=VNF1 is not available ${rc} ${stdout}= Run And Return RC And Output osm vnf-show ${VNF_ID1} --literal | yq '.vdur[0].interfaces[] | select(.name == "${IFACE1_NAME}")' | yq -r '."ip-address"' Should Be Equal As Integers ${rc} ${SUCCESS_RETURN_CODE} msg=${stdout} values=False Should Match Regexp ${stdout} ${DATANET1_PREFIX} msg=${stdout} doesn't match subnet's regexp ${DATANET1_PREFIX} Set Suite Variable ${VNF1_IP1} ${stdout} ${rc} ${stdout}= Run And Return RC And Output osm vnf-show ${VNF_ID1} --literal | yq '.vdur[0].interfaces[] | select(.name == "${IFACE2_NAME}")' | yq -r '."ip-address"' Should Be Equal As Integers ${rc} ${SUCCESS_RETURN_CODE} msg=${stdout} values=False Should Match Regexp ${stdout} ${DATANET2_PREFIX} msg=${stdout} doesn't match subnet's regexp ${DATANET2_PREFIX} Set Suite Variable ${VNF1_IP2} ${stdout} ${rc} ${stdout}= Run And Return RC And Output osm vnf-show ${VNF_ID1} --literal | yq '.vdur[0].interfaces[] | select(.name == "${IFACE3_NAME}")' | yq -r '."ip-address"' Should Be Equal As Integers ${rc} ${SUCCESS_RETURN_CODE} msg=${stdout} values=False Should Match Regexp ${stdout} ${DATANET3_PREFIX} msg=${stdout} doesn't match subnet's regexp ${DATANET3_PREFIX} Set Suite Variable ${VNF1_IP3} ${stdout} Check Vnf2 IPs [Documentation] Check whether IP addresses of the second VNF in the VNF record meet the expected CIDR. Variable Should Exist ${VNF_ID1} msg=VNF2 is not available ${rc} ${stdout}= Run And Return RC And Output osm vnf-show ${VNF_ID2} --literal | yq '.vdur[0].interfaces[] | select(.name == "${IFACE1_NAME}")' | yq -r '."ip-address"' Should Be Equal As Integers ${rc} ${SUCCESS_RETURN_CODE} msg=${stdout} values=False Should Match Regexp ${stdout} ${DATANET1_PREFIX} msg=${stdout} doesn't match subnet's regexp ${DATANET1_PREFIX} Set Suite Variable ${VNF2_IP1} ${stdout} ${rc} ${stdout}= Run And Return RC And Output osm vnf-show ${VNF_ID2} --literal | yq '.vdur[0].interfaces[] | select(.name == "${IFACE2_NAME}")' | yq -r '."ip-address"' Should Be Equal As Integers ${rc} ${SUCCESS_RETURN_CODE} msg=${stdout} values=False Should Match Regexp ${stdout} ${DATANET2_PREFIX} msg=${stdout} doesn't match subnet's regexp ${DATANET2_PREFIX} Set Suite Variable ${VNF2_IP2} ${stdout} ${rc} ${stdout}= Run And Return RC And Output osm vnf-show ${VNF_ID2} --literal | yq '.vdur[0].interfaces[] | select(.name == "${IFACE3_NAME}")' | yq -r '."ip-address"' Should Be Equal As Integers ${rc} ${SUCCESS_RETURN_CODE} msg=${stdout} values=False Should Match Regexp ${stdout} ${DATANET3_PREFIX} msg=${stdout} doesn't match subnet's regexp ${DATANET3_PREFIX} Set Suite Variable ${VNF2_IP3} ${stdout} Verify Vnf1 Interfaces [Documentation] Check whether IP addresses of the first VNF configured inside the VM meet the expected CIDR. Variable Should Exist ${VNF1_IPMGMT} msg=IP address of the data VNF '${VNF_MEMBER_INDEX_1}' is not available Variable Should Exist ${PRIVATEKEY} msg=SSH private key not available Sleep 10 seconds Wait for SSH daemon to be up ${stdout}= Execute Remote Command Check Rc Return Output ${VNF1_IPMGMT} ${USERNAME} ${EMPTY} ${PRIVATEKEY} ip --brief addr show up | grep -v "^lo" | awk '{print $3}' Log ${stdout} @{ip}= Split String ${stdout} Should Match Regexp ${ip}[1] ${DATANET1_PREFIX} msg=${ip}[1] doesn't match subnet's regexp ${DATANET1_PREFIX} Should Match Regexp ${ip}[2] ${DATANET2_PREFIX} msg=${ip}[2] doesn't match subnet's regexp ${DATANET2_PREFIX} Should Match Regexp ${ip}[3] ${DATANET3_PREFIX} msg=${ip}[3] doesn't match subnet's regexp ${DATANET3_PREFIX} Verify Vnf2 Interfaces [Documentation] Check whether IP addresses of the second VNF configured inside the VM meet the expected CIDR. Variable Should Exist ${VNF2_IPMGMT} msg=IP address of the data VNF '${VNF_MEMBER_INDEX_2}' is not available Variable Should Exist ${PRIVATEKEY} msg=SSH private key not available ${stdout}= Execute Remote Command Check Rc Return Output ${VNF2_IPMGMT} ${USERNAME} ${EMPTY} ${PRIVATEKEY} ip --brief addr show up | grep -v "^lo" | awk '{print $3}' Log ${stdout} @{ip}= Split String ${stdout} Should Match Regexp ${ip}[1] ${DATANET1_PREFIX} msg=${ip}[1] doesn't match subnet's regexp ${DATANET1_PREFIX} Should Match Regexp ${ip}[2] ${DATANET2_PREFIX} msg=${ip}[2] doesn't match subnet's regexp ${DATANET2_PREFIX} Should Match Regexp ${ip}[3] ${DATANET3_PREFIX} msg=${ip}[3] doesn't match subnet's regexp ${DATANET3_PREFIX} Ping from Vnf1 to Vnf2 [Documentation] Check connectivity from the first VNF to the second VNF using ping. Variable Should Exist ${VNF1_IPMGMT} msg=IP address of the data VNF '${VNF_MEMBER_INDEX_1}' is not available Variable Should Exist ${PRIVATEKEY} msg=SSH private key not available ${stdout}= Execute Remote Command Check Rc Return Output ${VNF1_IPMGMT} ${USERNAME} ${EMPTY} ${PRIVATEKEY} ip addr ; ping -c 5 ${VNF2_IPMGMT} Log ${stdout} ${stdout}= Execute Remote Command Check Rc Return Output ${VNF1_IPMGMT} ${USERNAME} ${EMPTY} ${PRIVATEKEY} ping -c 5 ${VNF2_IP1} Log ${stdout} ${stdout}= Execute Remote Command Check Rc Return Output ${VNF1_IPMGMT} ${USERNAME} ${EMPTY} ${PRIVATEKEY} ping -c 5 ${VNF2_IP2} Log ${stdout} ${stdout}= Execute Remote Command Check Rc Return Output ${VNF1_IPMGMT} ${USERNAME} ${EMPTY} ${PRIVATEKEY} ping -c 5 ${VNF2_IP3} Log ${stdout} Ping from Vnf2 to Vnf1 [Documentation] Check connectivity from the second VNF to the first VNF using ping. Variable Should Exist ${VNF1_IPMGMT} msg=IP address of the data VNF '${VNF_MEMBER_INDEX_2}' is not available Variable Should Exist ${PRIVATEKEY} msg=SSH private key not available ${stdout}= Execute Remote Command Check Rc Return Output ${VNF2_IPMGMT} ${USERNAME} ${EMPTY} ${PRIVATEKEY} ip addr ; ping -c 5 ${VNF1_IPMGMT} Log ${stdout} ${stdout}= Execute Remote Command Check Rc Return Output ${VNF2_IPMGMT} ${USERNAME} ${EMPTY} ${PRIVATEKEY} ip addr ; ping -c 5 ${VNF1_IP1} Log ${stdout} ${stdout}= Execute Remote Command Check Rc Return Output ${VNF2_IPMGMT} ${USERNAME} ${EMPTY} ${PRIVATEKEY} ip addr ; ping -c 5 ${VNF1_IP2} Log ${stdout} ${stdout}= Execute Remote Command Check Rc Return Output ${VNF2_IPMGMT} ${USERNAME} ${EMPTY} ${PRIVATEKEY} ip addr ; ping -c 5 ${VNF1_IP3} Log ${stdout} Delete NS Instance [Documentation] Delete NS instance. [Tags] cleanup Delete NS ${NS_NAME} Delete NS Descriptor [Documentation] Delete NS package from OSM. [Tags] cleanup Delete NSD ${NSD_NAME} Delete VNF Descriptor [Documentation] Delete VNF package from OSM. [Tags] cleanup 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}