robot-systest/testsuite/basic_18-ns_ip_profile.robot - osm/tests - Gitiles

 #   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   %{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

 Force 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

     Create VNFD   '%{PACKAGES_FOLDER}/${vnfd_pkg}'


 Create NS Descriptor

     Create NSD   '%{PACKAGES_FOLDER}/${nsd_pkg}'


 Instantiate Network Service

     ${id}=   Create Network Service   ${nsd_name}   %{VIM_TARGET}   ${ns_name}   ${ns_config}   ${publickey}
     Set Suite Variable   ${ns_id}   ${id}


 Get Vnfs Info

     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

     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

     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

     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

     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

     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

     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
     [Tags]   cleanup

     Delete NS   ${ns_name}


 Delete NS Descriptor
     [Tags]   cleanup

     Delete NSD   ${nsd_name}


 Delete VNF Descriptor
     [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}
	# 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 %{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

	Force 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

	Create VNFD '%{PACKAGES_FOLDER}/${vnfd_pkg}'


	Create NS Descriptor

	Create NSD '%{PACKAGES_FOLDER}/${nsd_pkg}'


	Instantiate Network Service

	${id}= Create Network Service ${nsd_name} %{VIM_TARGET} ${ns_name} ${ns_config} ${publickey}
	Set Suite Variable ${ns_id} ${id}


	Get Vnfs Info

	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

	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

	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

	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

	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

	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

	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
	[Tags] cleanup

	Delete NS ${ns_name}


	Delete NS Descriptor
	[Tags] cleanup

	Delete NSD ${nsd_name}


	Delete VNF Descriptor
	[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}