tests/tt-workflow/Voltha_TT_MulticastTests.robot - voltha-system-tests - Gitiles

 # Copyright 2017 - present Open Networking Foundation
 #
 # 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.
 # FIXME Can we use the same test against BBSim and Hardware?

 *** Settings ***
 Documentation     Test various functional end-to-end scenarios for TT workflow
 Suite Setup       Setup Suite
 Test Setup        Setup
 Test Teardown     Teardown
 Suite Teardown    Teardown Suite
 Library           Collections
 Library           String
 Library           OperatingSystem
 Library           XML
 Library           RequestsLibrary
 Library           ../../libraries/DependencyLibrary.py
 Resource          ../../libraries/onos.robot
 Resource          ../../libraries/voltctl.robot
 Resource          ../../libraries/voltha.robot
 Resource          ../../libraries/utils.robot
 Resource          ../../libraries/k8s.robot
 Resource          ../../variables/variables.robot
 Resource          ../../libraries/power_switch.robot

 *** Variables ***
 ${POD_NAME}       flex-ocp-cord
 ${KUBERNETES_CONF}    ${KUBERNETES_CONFIGS_DIR}/${POD_NAME}.conf
 ${KUBERNETES_CONFIGS_DIR}    ~/pod-configs/kubernetes-configs
 #${KUBERNETES_CONFIGS_DIR}    ${KUBERNETES_CONFIGS_DIR}/${POD_NAME}.conf
 ${KUBERNETES_YAML}    ${KUBERNETES_CONFIGS_DIR}/${POD_NAME}.yml
 ${HELM_CHARTS_DIR}    ~/helm-charts
 ${VOLTHA_POD_NUM}    8
 ${NAMESPACE}      voltha
 ${INFRA_NAMESPACE}      default
 # For below variable value, using deployment name as using grep for
 # parsing radius pod name, we can also use full radius pod name
 ${RESTART_POD_NAME}    radius
 ${timeout}        60s
 ${of_id}          0
 ${logical_id}     0
 ${has_dataplane}    True
 ${teardown_device}    True
 ${scripts}        ../../scripts

 # Per-test logging on failure is turned off by default; set this variable to enable
 ${container_log_dir}    ${None}

 # logging flag to enable Collect Logs, can be passed via the command line too
 # example: -v logging:False
 ${logging}    True

 ${suppressaddsubscriber}    True

 # flag to choose the subscriber provisioning command type in ONOS
 # TT often provision a single services for a subscriber (eg: hsia, voip, ...) one after the other.
 # if set to True, command used is "volt-add-subscriber-unitag"
 # if set to False, comand used is "volt-add-subscriber-access"
 ${unitag_sub}    False

 *** Test Cases ***
 2 RG Same ONU Same Channel Multicast Test
     [Documentation]    Verify that 2 RG which are connected to the same ONU could join the same channel.
     [Tags]    functionalTT    2RGSameOnuSameChannel    multicastTT
     [Setup]    Start Logging    2RGSameOnuSameChannel
     [Teardown]    Run Keywords    Run Keyword If    ${logging}    Collect Logs
     ...           AND             Stop Logging    2RGSameOnuSameChannel
     ${test_onus_pon0}=    Set Variable    ${multicast_test_onu_pon_locations.pon_0[0]}
     ${test_onu1_sn}=    Set Variable    ${test_onus_pon0['onu_1']}
     ${test_onu1_uni}=    Set Variable    1
     ${test_onu2_sn}=    Set Variable    ${test_onus_pon0['onu_1']}
     ${test_onu2_uni}=    Set Variable    2
     ${channel_ip_list}=    Set Variable    ${multicast_ip_addresses[0]}
     ${channel_ip_1}=    Set Variable    ${channel_ip_list['channel_1']}
     ${matched}    ${src_onu1}    ${dst_onu1}=    Get ONU details with Given Sn and Service and UNI    ${test_onu1_sn}    mcast
     ...    ${test_onu1_uni}
     ${matched}    ${src_onu2}    ${dst_onu2}=    Get ONU details with Given Sn and Service and UNI    ${test_onu2_sn}    mcast
     ...    ${test_onu2_uni}
     Wait Until Keyword Succeeds    ${timeout}    15    TT 2 RG MCAST Test    ${src_onu1}    ${dst_onu1}
     ...    ${channel_ip_1}    ${src_onu2}    ${dst_onu2}    ${channel_ip_1}

 2 RG Same ONU Different Channel Multicast Test
     [Documentation]    Verify that 2 RG which are connected to the same ONU could join the different channel.
     [Tags]    functionalTT    2RGSameOnuDifferentChannel    multicastTT
     [Setup]    Start Logging    2RGSameOnuDifferentChannel
     [Teardown]    Run Keywords    Run Keyword If    ${logging}    Collect Logs
     ...           AND             Stop Logging    2RGSameOnuDifferentChannel
     ${test_onus_pon0}=    Set Variable    ${multicast_test_onu_pon_locations.pon_0[0]}
     ${test_onu1_sn}=    Set Variable    ${test_onus_pon0['onu_1']}
     ${test_onu1_uni}=    Set Variable    1
     ${test_onu2_sn}=    Set Variable    ${test_onus_pon0['onu_1']}
     ${test_onu2_uni}=    Set Variable    2
     ${channel_ip_list}=    Set Variable    ${multicast_ip_addresses[0]}
     ${channel_ip_1}=    Set Variable    ${channel_ip_list['channel_1']}
     ${channel_ip_2}=    Set Variable    ${channel_ip_list['channel_2']}
     ${matched}    ${src_onu1}    ${dst_onu1}=    Get ONU details with Given Sn and Service and UNI    ${test_onu1_sn}    mcast
     ...    ${test_onu1_uni}
     ${matched}    ${src_onu2}    ${dst_onu2}=    Get ONU details with Given Sn and Service and UNI    ${test_onu2_sn}    mcast
     ...    ${test_onu2_uni}
     Wait Until Keyword Succeeds    ${timeout}    15    TT 2 RG MCAST Test    ${src_onu1}    ${dst_onu1}
     ...    ${channel_ip_1}    ${src_onu2}    ${dst_onu2}    ${channel_ip_2}

 2 RG Different PON Different ONU Same Channel Multicast Test
     [Documentation]    Verify that 2 RG which are connected to the different ONUs
     ...    on the different PON Ports could join the same channel.
     [Tags]    functionalTT    2RGDifferentOnuandPonSameChannel    multicastTT   notready
     [Setup]    Start Logging    2RGDifferentOnuandPonSameChannel
     [Teardown]    Run Keywords    Collect Logs
     ...           AND             Stop Logging    2RGDifferentOnuandPonSameChannel
     ${test_onus_pon0}=    Set Variable    ${multicast_test_onu_pon_locations.pon_0[0]}
     ${test_onus_pon1}=    Set Variable    ${multicast_test_onu_pon_locations.pon_1[0]}
     ${test_onu1_sn}=    Set Variable    ${test_onus_pon0['onu_1']}
     ${test_onu1_uni}=    Set Variable    1
     ${test_onu2_sn}=    Set Variable    ${test_onus_pon1['onu_1']}
     ${test_onu2_uni}=    Set Variable    1
     ${channel_ip_list}=    Set Variable    ${multicast_ip_addresses[0]}
     ${channel_ip_1}=    Set Variable    ${channel_ip_list['channel_1']}
     ${matched}    ${src_onu1}    ${dst_onu1}=    Get ONU details with Given Sn and Service and UNI    ${test_onu1_sn}    mcast
     ...    ${test_onu1_uni}
     ${matched}    ${src_onu2}    ${dst_onu2}=    Get ONU details with Given Sn and Service and UNI    ${test_onu2_sn}    mcast
     ...    ${test_onu2_uni}
     Wait Until Keyword Succeeds    ${timeout}    15    TT 2 RG MCAST Test    ${src_onu1}    ${dst_onu1}
     ...    ${channel_ip_1}    ${src_onu2}    ${dst_onu2}    ${channel_ip_1}

 2 RG Different PON Different ONU Different Channels Multicast Test
     [Documentation]    Verify that 2 RG which are connected to the different ONUs
     ...    on the different PON Ports could join the different channels.
     [Tags]    functionalTT    2RGDifferentOnuandPonDifferentChannels    multicastTT   notready
     [Setup]    Start Logging    2RGDifferentOnuandPonDifferentChannels
     [Teardown]    Run Keywords    Collect Logs
     ...           AND             Stop Logging    2RGDifferentOnuandPonDifferentChannels
     ${test_onus_pon0}=    Set Variable    ${multicast_test_onu_pon_locations.pon_0[0]}
     ${test_onus_pon1}=    Set Variable    ${multicast_test_onu_pon_locations.pon_1[0]}
     ${test_onu1_sn}=    Set Variable    ${test_onus_pon0['onu_1']}
     ${test_onu1_uni}=    Set Variable    1
     ${test_onu2_sn}=    Set Variable    ${test_onus_pon1['onu_1']}
     ${test_onu2_uni}=    Set Variable    1
     ${channel_ip_list}=    Set Variable    ${multicast_ip_addresses[0]}
     ${channel_ip_1}=    Set Variable    ${channel_ip_list['channel_1']}
     ${channel_ip_2}=    Set Variable    ${channel_ip_list['channel_2']}
     ${matched}    ${src_onu1}    ${dst_onu1}=    Get ONU details with Given Sn and Service and UNI    ${test_onu1_sn}    mcast
     ...    ${test_onu1_uni}
     ${matched}    ${src_onu2}    ${dst_onu2}=    Get ONU details with Given Sn and Service and UNI    ${test_onu2_sn}    mcast
     ...    ${test_onu2_uni}
     Wait Until Keyword Succeeds    ${timeout}    15    TT 2 RG MCAST Test    ${src_onu1}    ${dst_onu1}
     ...    ${channel_ip_1}    ${src_onu2}    ${dst_onu2}    ${channel_ip_2}

 *** Keywords ***
 Get ONU details with Given Sn and Service and UNI
     [Documentation]    This keyword finds the ONU details (as required for multicast test)
     ...    with given serial number, service type and UNI
     [Arguments]    ${onu_sn}    ${service_type}    ${uni}
     ${matched}=    Set Variable    False
     FOR    ${I}    IN RANGE    0    ${num_all_onus}
         ${src}=    Set Variable    ${hosts.src[${I}]}
         ${dst}=    Set Variable    ${hosts.dst[${I}]}
         ${service}=    Get Variable Value    ${src['service_type']}    "null"
         ${onu}=    Get Variable Value    ${src['onu']}    "null"
         ${uni_id}=    Get Variable Value    ${src['uni_id']}    "null"
         Continue For Loop If    '${onu}' != '${onu_sn}' or '${service}' != '${service_type}'
         ${matched}=    Set Variable If
         ...    '${onu}' == '${onu_sn}' and '${service}' == '${service_type}' and '${uni}' == '${uni_id}'
         ...    True    False
         Exit For Loop If    ${matched}
     END
     [Return]    ${matched}    ${src}    ${dst}


 TT 2 RG MCAST Test
     [Documentation]    This keyword performs MCAST two RG at the Same Time for TT workflow
     [Arguments]    ${src_rg1}    ${dst_rg1}    ${channel_ip_rg1}    ${src_rg2}    ${dst_rg2}    ${channel_ip_rg2}
     # Check for iperf and jq tools RG1
     ${stdout}    ${stderr}    ${rc}=    Execute Remote Command    which iperf jq
     ...    ${src_rg1['ip']}    ${src_rg1['user']}    ${src_rg1['pass']}    ${src_rg1['container_type']}
     ...    ${src_rg1['container_name']}
     Pass Execution If    ${rc} != 0    Skipping test: iperf / jq not found on the RG

     # Check for iperf and jq tools RG2
     ${stdout}    ${stderr}    ${rc}=    Execute Remote Command    which iperf jq
     ...    ${src_rg2['ip']}    ${src_rg2['user']}    ${src_rg2['pass']}    ${src_rg2['container_type']}
     ...    ${src_rg2['container_name']}
     Pass Execution If    ${rc} != 0    Skipping test: iperf / jq not found on the RG

     #Reset the IP on the interface RG1
     ${output}=    Login And Run Command On Remote System    sudo ifconfig ${src_rg1['dp_iface_name']} 0
     ...    ${src_rg1['ip']}    ${src_rg1['user']}    ${src_rg1['pass']}    ${src_rg1['container_type']}
     ...    ${src_rg1['container_name']}
     # Kill iperf  on BNG
     ${rg_output}=    Run Keyword and Continue On Failure    Login And Run Command On Remote System
     ...    sudo kill -9 `pidof iperf`
     ...    ${dst_rg1['bng_ip']}    ${dst_rg1['bng_user']}    ${dst_rg1['bng_pass']}    ${dst_rg1['container_type']}
     ...    ${dst_rg1['container_name']}

     #Reset the IP on the interface RG2
     ${output}=    Login And Run Command On Remote System    sudo ifconfig ${src_rg1['dp_iface_name']} 0
     ...    ${src_rg2['ip']}    ${src_rg2['user']}    ${src_rg2['pass']}    ${src_rg2['container_type']}
     ...    ${src_rg2['container_name']}
     # Kill iperf  on BNG
     ${rg_output}=    Run Keyword and Continue On Failure    Login And Run Command On Remote System
     ...    sudo kill -9 `pidof iperf`
     ...    ${dst_rg2['bng_ip']}    ${dst_rg2['bng_user']}    ${dst_rg2['bng_pass']}    ${dst_rg2['container_type']}
     ...    ${dst_rg2['container_name']}

     # Setup RG1 for Multi-cast test
     ${output}=    Login And Run Command On Remote System
     ...    sudo ifconfig ${src_rg1['dp_iface_name']} ${src_rg1['mcast_rg']} up ; sudo kill -9 `pidof iperf`
     ...    ${src_rg1['ip']}    ${src_rg1['user']}    ${src_rg1['pass']}    ${src_rg1['container_type']}
     ...    ${src_rg1['container_name']}
     ${output}=    Login And Run Command On Remote System
     ...    sudo ip route add ${src_rg1['mcast_grp_subnet_mask']} dev ${src_rg1['dp_iface_name']} scope link
     ...    ${src_rg1['ip']}    ${src_rg1['user']}    ${src_rg1['pass']}    ${src_rg1['container_type']}
     ...    ${src_rg1['container_name']}

     # Setup RG2 for Multi-cast test
     ${output}=    Login And Run Command On Remote System
     ...    sudo ifconfig ${src_rg2['dp_iface_name']} ${src_rg2['mcast_rg']} up ; sudo kill -9 `pidof iperf`
     ...    ${src_rg2['ip']}    ${src_rg2['user']}    ${src_rg2['pass']}    ${src_rg2['container_type']}
     ...    ${src_rg2['container_name']}
     ${output}=    Login And Run Command On Remote System
     ...    sudo ip route add ${src_rg2['mcast_grp_subnet_mask']} dev ${src_rg2['dp_iface_name']} scope link
     ...    ${src_rg2['ip']}    ${src_rg2['user']}    ${src_rg2['pass']}    ${src_rg2['container_type']}
     ...    ${src_rg2['container_name']}

     # Setup iperf on the BNG
     ${server_output}=    Run Keyword If    '${channel_ip_rg1}'=='${channel_ip_rg2}'
     ...    Login And Run Command On Remote System    sudo iperf -c '${channel_ip_rg1}' -u -T 32 -t 60 -i 1 &
     ...    ${dst_rg1['bng_ip']}    ${dst_rg1['bng_user']}    ${dst_rg1['bng_pass']}    ${dst_rg1['container_type']}
     ...    ${dst_rg1['container_name']}
     ...    ELSE    Run Keywords    Run Keyword And Continue On Failure
     ...    Login And Run Command On Remote System    sudo iperf -c '${channel_ip_rg1}' -u -T 32 -t 60 -i 1 &
     ...    ${dst_rg1['bng_ip']}    ${dst_rg1['bng_user']}    ${dst_rg1['bng_pass']}    ${dst_rg1['container_type']}
     ...    ${dst_rg1['container_name']}     AND    Run Keyword And Continue On Failure
     ...    Login And Run Command On Remote System    sudo iperf -c '${channel_ip_rg2}' -u -T 32 -t 60 -i 1 &
     ...    ${dst_rg2['bng_ip']}    ${dst_rg2['bng_user']}    ${dst_rg2['bng_pass']}    ${dst_rg2['container_type']}
     ...    ${dst_rg2['container_name']}

     # Setup iperf on the RG1
     ${rg_output_rg1}=    Run Keyword and Continue On Failure    Wait Until Keyword Succeeds     90s    5s
     ...    Login And Run Command On Remote System
     ...    rm -rf /tmp/rg_output ; sudo iperf -s -u -B '${channel_ip_rg1}' -i 1 -D >> /tmp/rg_output
     ...    ${src_rg1['ip']}    ${src_rg1['user']}    ${src_rg1['pass']}    ${src_rg1['container_type']}
     ...    ${src_rg1['container_name']}

     # Setup iperf on the RG2
     ${rg_output_rg2}=    Run Keyword and Continue On Failure    Wait Until Keyword Succeeds     90s    5s
     ...    Login And Run Command On Remote System
     ...    rm -rf /tmp/rg_output ; sudo iperf -s -u -B '${channel_ip_rg2}' -i 1 -D >> /tmp/rg_output
     ...    ${src_rg2['ip']}    ${src_rg2['user']}    ${src_rg2['pass']}    ${src_rg2['container_type']}
     ...    ${src_rg2['container_name']}

     #Logging Outputs and Check iperf UDP Stream Outputs
     Log    ${rg_output_rg1}
     Log    ${rg_output_rg2}
     Sleep    60s
     ${output}=    Run Keyword and Continue On Failure     Wait Until Keyword Succeeds     90s    5s
     ...    Login And Run Command On Remote System
     ...    cat /tmp/rg_output | grep KBytes
     ...    ${src_rg1['ip']}    ${src_rg1['user']}    ${src_rg1['pass']}    ${src_rg1['container_type']}
     ...    ${src_rg1['container_name']}
     Log    ${output}
     Should Contain    ${output}    KBytes
     ${output}=    Run Keyword and Continue On Failure     Wait Until Keyword Succeeds     90s    5s
     ...    Login And Run Command On Remote System
     ...    cat /tmp/rg_output | grep KBytes
     ...    ${src_rg2['ip']}    ${src_rg2['user']}    ${src_rg2['pass']}    ${src_rg2['container_type']}
     ...    ${src_rg2['container_name']}
     Log    ${output}
     Should Contain    ${output}    KBytes

     # Kill iperf  on BNG
     ${rg_output}=    Run Keyword and Continue On Failure    Login And Run Command On Remote System
     ...    sudo kill -9 `pidof iperf`
     ...    ${dst_rg1['bng_ip']}    ${dst_rg1['bng_user']}    ${dst_rg1['bng_pass']}    ${dst_rg1['container_type']}
     ...    ${dst_rg1['container_name']}

     # Kill iperf on the RG1
     ${output}=    Run Keyword and Continue On Failure    Login And Run Command On Remote System
     ...    sudo kill -9 `pidof iperf`
     ...    ${src_rg1['ip']}    ${src_rg1['user']}    ${src_rg1['pass']}    ${src_rg1['container_type']}
     ...    ${src_rg1['container_name']}

     # Kill iperf on the RG2
     ${output}=    Run Keyword and Continue On Failure    Login And Run Command On Remote System
     ...    sudo kill -9 `pidof iperf`
     ...    ${src_rg2['ip']}    ${src_rg2['user']}    ${src_rg2['pass']}    ${src_rg2['container_type']}
     ...    ${src_rg2['container_name']}

 Setup Suite
     [Documentation]    Set up the test suite
     Common Test Suite Setup
     ${switch_type}=    Get Variable Value    ${web_power_switch.type}
     Run Keyword If  "${switch_type}"!=""    Set Global Variable    ${powerswitch_type}    ${switch_type}
     Run Keyword If    ${has_dataplane}    Clean Up Linux
     Run Keyword    Setup
     Wait Until Keyword Succeeds    ${timeout}    2s    Provision Subscription TT


 Clear All Devices Then Create New Device
     [Documentation]    Remove any devices from VOLTHA and ONOS
     # Remove all devices from voltha and nos
     Delete All Devices and Verify
     # Execute normal test Setup Keyword
     Setup

 Teardown Suite
     [Documentation]    Tear down steps for the suite
     Run Keyword If    ${has_dataplane}    Clean Up Linux
     Run Keyword If    ${teardown_device}    Delete All Devices And Verify
     Close All ONOS SSH Connections
	# Copyright 2017 - present Open Networking Foundation
	#
	# 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.
	# FIXME Can we use the same test against BBSim and Hardware?

	* Settings *
	Documentation Test various functional end-to-end scenarios for TT workflow
	Suite Setup Setup Suite
	Test Setup Setup
	Test Teardown Teardown
	Suite Teardown Teardown Suite
	Library Collections
	Library String
	Library OperatingSystem
	Library XML
	Library RequestsLibrary
	Library ../../libraries/DependencyLibrary.py
	Resource ../../libraries/onos.robot
	Resource ../../libraries/voltctl.robot
	Resource ../../libraries/voltha.robot
	Resource ../../libraries/utils.robot
	Resource ../../libraries/k8s.robot
	Resource ../../variables/variables.robot
	Resource ../../libraries/power_switch.robot

	* Variables *
	${POD_NAME} flex-ocp-cord
	${KUBERNETES_CONF} ${KUBERNETES_CONFIGS_DIR}/${POD_NAME}.conf
	${KUBERNETES_CONFIGS_DIR} ~/pod-configs/kubernetes-configs
	#${KUBERNETES_CONFIGS_DIR} ${KUBERNETES_CONFIGS_DIR}/${POD_NAME}.conf
	${KUBERNETES_YAML} ${KUBERNETES_CONFIGS_DIR}/${POD_NAME}.yml
	${HELM_CHARTS_DIR} ~/helm-charts
	${VOLTHA_POD_NUM} 8
	${NAMESPACE} voltha
	${INFRA_NAMESPACE} default
	# For below variable value, using deployment name as using grep for
	# parsing radius pod name, we can also use full radius pod name
	${RESTART_POD_NAME} radius
	${timeout} 60s
	${of_id} 0
	${logical_id} 0
	${has_dataplane} True
	${teardown_device} True
	${scripts} ../../scripts

	# Per-test logging on failure is turned off by default; set this variable to enable
	${container_log_dir} ${None}

	# logging flag to enable Collect Logs, can be passed via the command line too
	# example: -v logging:False
	${logging} True

	${suppressaddsubscriber} True

	# flag to choose the subscriber provisioning command type in ONOS
	# TT often provision a single services for a subscriber (eg: hsia, voip, ...) one after the other.
	# if set to True, command used is "volt-add-subscriber-unitag"
	# if set to False, comand used is "volt-add-subscriber-access"
	${unitag_sub} False

	* Test Cases *
	2 RG Same ONU Same Channel Multicast Test
	[Documentation] Verify that 2 RG which are connected to the same ONU could join the same channel.
	[Tags] functionalTT 2RGSameOnuSameChannel multicastTT
	[Setup] Start Logging 2RGSameOnuSameChannel
	[Teardown] Run Keywords Run Keyword If ${logging} Collect Logs
	... AND Stop Logging 2RGSameOnuSameChannel
	${test_onus_pon0}= Set Variable ${multicast_test_onu_pon_locations.pon_0[0]}
	${test_onu1_sn}= Set Variable ${test_onus_pon0['onu_1']}
	${test_onu1_uni}= Set Variable 1
	${test_onu2_sn}= Set Variable ${test_onus_pon0['onu_1']}
	${test_onu2_uni}= Set Variable 2
	${channel_ip_list}= Set Variable ${multicast_ip_addresses[0]}
	${channel_ip_1}= Set Variable ${channel_ip_list['channel_1']}
	${matched} ${src_onu1} ${dst_onu1}= Get ONU details with Given Sn and Service and UNI ${test_onu1_sn} mcast
	... ${test_onu1_uni}
	${matched} ${src_onu2} ${dst_onu2}= Get ONU details with Given Sn and Service and UNI ${test_onu2_sn} mcast
	... ${test_onu2_uni}
	Wait Until Keyword Succeeds ${timeout} 15 TT 2 RG MCAST Test ${src_onu1} ${dst_onu1}
	... ${channel_ip_1} ${src_onu2} ${dst_onu2} ${channel_ip_1}

	2 RG Same ONU Different Channel Multicast Test
	[Documentation] Verify that 2 RG which are connected to the same ONU could join the different channel.
	[Tags] functionalTT 2RGSameOnuDifferentChannel multicastTT
	[Setup] Start Logging 2RGSameOnuDifferentChannel
	[Teardown] Run Keywords Run Keyword If ${logging} Collect Logs
	... AND Stop Logging 2RGSameOnuDifferentChannel
	${test_onus_pon0}= Set Variable ${multicast_test_onu_pon_locations.pon_0[0]}
	${test_onu1_sn}= Set Variable ${test_onus_pon0['onu_1']}
	${test_onu1_uni}= Set Variable 1
	${test_onu2_sn}= Set Variable ${test_onus_pon0['onu_1']}
	${test_onu2_uni}= Set Variable 2
	${channel_ip_list}= Set Variable ${multicast_ip_addresses[0]}
	${channel_ip_1}= Set Variable ${channel_ip_list['channel_1']}
	${channel_ip_2}= Set Variable ${channel_ip_list['channel_2']}
	${matched} ${src_onu1} ${dst_onu1}= Get ONU details with Given Sn and Service and UNI ${test_onu1_sn} mcast
	... ${test_onu1_uni}
	${matched} ${src_onu2} ${dst_onu2}= Get ONU details with Given Sn and Service and UNI ${test_onu2_sn} mcast
	... ${test_onu2_uni}
	Wait Until Keyword Succeeds ${timeout} 15 TT 2 RG MCAST Test ${src_onu1} ${dst_onu1}
	... ${channel_ip_1} ${src_onu2} ${dst_onu2} ${channel_ip_2}

	2 RG Different PON Different ONU Same Channel Multicast Test
	[Documentation] Verify that 2 RG which are connected to the different ONUs
	... on the different PON Ports could join the same channel.
	[Tags] functionalTT 2RGDifferentOnuandPonSameChannel multicastTT notready
	[Setup] Start Logging 2RGDifferentOnuandPonSameChannel
	[Teardown] Run Keywords Collect Logs
	... AND Stop Logging 2RGDifferentOnuandPonSameChannel
	${test_onus_pon0}= Set Variable ${multicast_test_onu_pon_locations.pon_0[0]}
	${test_onus_pon1}= Set Variable ${multicast_test_onu_pon_locations.pon_1[0]}
	${test_onu1_sn}= Set Variable ${test_onus_pon0['onu_1']}
	${test_onu1_uni}= Set Variable 1
	${test_onu2_sn}= Set Variable ${test_onus_pon1['onu_1']}
	${test_onu2_uni}= Set Variable 1
	${channel_ip_list}= Set Variable ${multicast_ip_addresses[0]}
	${channel_ip_1}= Set Variable ${channel_ip_list['channel_1']}
	${matched} ${src_onu1} ${dst_onu1}= Get ONU details with Given Sn and Service and UNI ${test_onu1_sn} mcast
	... ${test_onu1_uni}
	${matched} ${src_onu2} ${dst_onu2}= Get ONU details with Given Sn and Service and UNI ${test_onu2_sn} mcast
	... ${test_onu2_uni}
	Wait Until Keyword Succeeds ${timeout} 15 TT 2 RG MCAST Test ${src_onu1} ${dst_onu1}
	... ${channel_ip_1} ${src_onu2} ${dst_onu2} ${channel_ip_1}

	2 RG Different PON Different ONU Different Channels Multicast Test
	[Documentation] Verify that 2 RG which are connected to the different ONUs
	... on the different PON Ports could join the different channels.
	[Tags] functionalTT 2RGDifferentOnuandPonDifferentChannels multicastTT notready
	[Setup] Start Logging 2RGDifferentOnuandPonDifferentChannels
	[Teardown] Run Keywords Collect Logs
	... AND Stop Logging 2RGDifferentOnuandPonDifferentChannels
	${test_onus_pon0}= Set Variable ${multicast_test_onu_pon_locations.pon_0[0]}
	${test_onus_pon1}= Set Variable ${multicast_test_onu_pon_locations.pon_1[0]}
	${test_onu1_sn}= Set Variable ${test_onus_pon0['onu_1']}
	${test_onu1_uni}= Set Variable 1
	${test_onu2_sn}= Set Variable ${test_onus_pon1['onu_1']}
	${test_onu2_uni}= Set Variable 1
	${channel_ip_list}= Set Variable ${multicast_ip_addresses[0]}
	${channel_ip_1}= Set Variable ${channel_ip_list['channel_1']}
	${channel_ip_2}= Set Variable ${channel_ip_list['channel_2']}
	${matched} ${src_onu1} ${dst_onu1}= Get ONU details with Given Sn and Service and UNI ${test_onu1_sn} mcast
	... ${test_onu1_uni}
	${matched} ${src_onu2} ${dst_onu2}= Get ONU details with Given Sn and Service and UNI ${test_onu2_sn} mcast
	... ${test_onu2_uni}
	Wait Until Keyword Succeeds ${timeout} 15 TT 2 RG MCAST Test ${src_onu1} ${dst_onu1}
	... ${channel_ip_1} ${src_onu2} ${dst_onu2} ${channel_ip_2}

	* Keywords *
	Get ONU details with Given Sn and Service and UNI
	[Documentation] This keyword finds the ONU details (as required for multicast test)
	... with given serial number, service type and UNI
	[Arguments] ${onu_sn} ${service_type} ${uni}
	${matched}= Set Variable False
	FOR ${I} IN RANGE 0 ${num_all_onus}
	${src}= Set Variable ${hosts.src[${I}]}
	${dst}= Set Variable ${hosts.dst[${I}]}
	${service}= Get Variable Value ${src['service_type']} "null"
	${onu}= Get Variable Value ${src['onu']} "null"
	${uni_id}= Get Variable Value ${src['uni_id']} "null"
	Continue For Loop If '${onu}' != '${onu_sn}' or '${service}' != '${service_type}'
	${matched}= Set Variable If
	... '${onu}' == '${onu_sn}' and '${service}' == '${service_type}' and '${uni}' == '${uni_id}'
	... True False
	Exit For Loop If ${matched}
	END
	[Return] ${matched} ${src} ${dst}


	TT 2 RG MCAST Test
	[Documentation] This keyword performs MCAST two RG at the Same Time for TT workflow
	[Arguments] ${src_rg1} ${dst_rg1} ${channel_ip_rg1} ${src_rg2} ${dst_rg2} ${channel_ip_rg2}
	# Check for iperf and jq tools RG1
	${stdout} ${stderr} ${rc}= Execute Remote Command which iperf jq
	... ${src_rg1['ip']} ${src_rg1['user']} ${src_rg1['pass']} ${src_rg1['container_type']}
	... ${src_rg1['container_name']}
	Pass Execution If ${rc} != 0 Skipping test: iperf / jq not found on the RG

	# Check for iperf and jq tools RG2
	${stdout} ${stderr} ${rc}= Execute Remote Command which iperf jq
	... ${src_rg2['ip']} ${src_rg2['user']} ${src_rg2['pass']} ${src_rg2['container_type']}
	... ${src_rg2['container_name']}
	Pass Execution If ${rc} != 0 Skipping test: iperf / jq not found on the RG

	#Reset the IP on the interface RG1
	${output}= Login And Run Command On Remote System sudo ifconfig ${src_rg1['dp_iface_name']} 0
	... ${src_rg1['ip']} ${src_rg1['user']} ${src_rg1['pass']} ${src_rg1['container_type']}
	... ${src_rg1['container_name']}
	# Kill iperf on BNG
	${rg_output}= Run Keyword and Continue On Failure Login And Run Command On Remote System
	... sudo kill -9 `pidof iperf`
	... ${dst_rg1['bng_ip']} ${dst_rg1['bng_user']} ${dst_rg1['bng_pass']} ${dst_rg1['container_type']}
	... ${dst_rg1['container_name']}

	#Reset the IP on the interface RG2
	${output}= Login And Run Command On Remote System sudo ifconfig ${src_rg1['dp_iface_name']} 0
	... ${src_rg2['ip']} ${src_rg2['user']} ${src_rg2['pass']} ${src_rg2['container_type']}
	... ${src_rg2['container_name']}
	# Kill iperf on BNG
	${rg_output}= Run Keyword and Continue On Failure Login And Run Command On Remote System
	... sudo kill -9 `pidof iperf`
	... ${dst_rg2['bng_ip']} ${dst_rg2['bng_user']} ${dst_rg2['bng_pass']} ${dst_rg2['container_type']}
	... ${dst_rg2['container_name']}

	# Setup RG1 for Multi-cast test
	${output}= Login And Run Command On Remote System
	... sudo ifconfig ${src_rg1['dp_iface_name']} ${src_rg1['mcast_rg']} up ; sudo kill -9 `pidof iperf`
	... ${src_rg1['ip']} ${src_rg1['user']} ${src_rg1['pass']} ${src_rg1['container_type']}
	... ${src_rg1['container_name']}
	${output}= Login And Run Command On Remote System
	... sudo ip route add ${src_rg1['mcast_grp_subnet_mask']} dev ${src_rg1['dp_iface_name']} scope link
	... ${src_rg1['ip']} ${src_rg1['user']} ${src_rg1['pass']} ${src_rg1['container_type']}
	... ${src_rg1['container_name']}

	# Setup RG2 for Multi-cast test
	${output}= Login And Run Command On Remote System
	... sudo ifconfig ${src_rg2['dp_iface_name']} ${src_rg2['mcast_rg']} up ; sudo kill -9 `pidof iperf`
	... ${src_rg2['ip']} ${src_rg2['user']} ${src_rg2['pass']} ${src_rg2['container_type']}
	... ${src_rg2['container_name']}
	${output}= Login And Run Command On Remote System
	... sudo ip route add ${src_rg2['mcast_grp_subnet_mask']} dev ${src_rg2['dp_iface_name']} scope link
	... ${src_rg2['ip']} ${src_rg2['user']} ${src_rg2['pass']} ${src_rg2['container_type']}
	... ${src_rg2['container_name']}

	# Setup iperf on the BNG
	${server_output}= Run Keyword If '${channel_ip_rg1}'=='${channel_ip_rg2}'
	... Login And Run Command On Remote System sudo iperf -c '${channel_ip_rg1}' -u -T 32 -t 60 -i 1 &
	... ${dst_rg1['bng_ip']} ${dst_rg1['bng_user']} ${dst_rg1['bng_pass']} ${dst_rg1['container_type']}
	... ${dst_rg1['container_name']}
	... ELSE Run Keywords Run Keyword And Continue On Failure
	... Login And Run Command On Remote System sudo iperf -c '${channel_ip_rg1}' -u -T 32 -t 60 -i 1 &
	... ${dst_rg1['bng_ip']} ${dst_rg1['bng_user']} ${dst_rg1['bng_pass']} ${dst_rg1['container_type']}
	... ${dst_rg1['container_name']} AND Run Keyword And Continue On Failure
	... Login And Run Command On Remote System sudo iperf -c '${channel_ip_rg2}' -u -T 32 -t 60 -i 1 &
	... ${dst_rg2['bng_ip']} ${dst_rg2['bng_user']} ${dst_rg2['bng_pass']} ${dst_rg2['container_type']}
	... ${dst_rg2['container_name']}

	# Setup iperf on the RG1
	${rg_output_rg1}= Run Keyword and Continue On Failure Wait Until Keyword Succeeds 90s 5s
	... Login And Run Command On Remote System
	... rm -rf /tmp/rg_output ; sudo iperf -s -u -B '${channel_ip_rg1}' -i 1 -D >> /tmp/rg_output
	... ${src_rg1['ip']} ${src_rg1['user']} ${src_rg1['pass']} ${src_rg1['container_type']}
	... ${src_rg1['container_name']}

	# Setup iperf on the RG2
	${rg_output_rg2}= Run Keyword and Continue On Failure Wait Until Keyword Succeeds 90s 5s
	... Login And Run Command On Remote System
	... rm -rf /tmp/rg_output ; sudo iperf -s -u -B '${channel_ip_rg2}' -i 1 -D >> /tmp/rg_output
	... ${src_rg2['ip']} ${src_rg2['user']} ${src_rg2['pass']} ${src_rg2['container_type']}
	... ${src_rg2['container_name']}

	#Logging Outputs and Check iperf UDP Stream Outputs
	Log ${rg_output_rg1}
	Log ${rg_output_rg2}
	Sleep 60s
	${output}= Run Keyword and Continue On Failure Wait Until Keyword Succeeds 90s 5s
	... Login And Run Command On Remote System
	... cat /tmp/rg_output \| grep KBytes
	... ${src_rg1['ip']} ${src_rg1['user']} ${src_rg1['pass']} ${src_rg1['container_type']}
	... ${src_rg1['container_name']}
	Log ${output}
	Should Contain ${output} KBytes
	${output}= Run Keyword and Continue On Failure Wait Until Keyword Succeeds 90s 5s
	... Login And Run Command On Remote System
	... cat /tmp/rg_output \| grep KBytes
	... ${src_rg2['ip']} ${src_rg2['user']} ${src_rg2['pass']} ${src_rg2['container_type']}
	... ${src_rg2['container_name']}
	Log ${output}
	Should Contain ${output} KBytes

	# Kill iperf on BNG
	${rg_output}= Run Keyword and Continue On Failure Login And Run Command On Remote System
	... sudo kill -9 `pidof iperf`
	... ${dst_rg1['bng_ip']} ${dst_rg1['bng_user']} ${dst_rg1['bng_pass']} ${dst_rg1['container_type']}
	... ${dst_rg1['container_name']}

	# Kill iperf on the RG1
	${output}= Run Keyword and Continue On Failure Login And Run Command On Remote System
	... sudo kill -9 `pidof iperf`
	... ${src_rg1['ip']} ${src_rg1['user']} ${src_rg1['pass']} ${src_rg1['container_type']}
	... ${src_rg1['container_name']}

	# Kill iperf on the RG2
	${output}= Run Keyword and Continue On Failure Login And Run Command On Remote System
	... sudo kill -9 `pidof iperf`
	... ${src_rg2['ip']} ${src_rg2['user']} ${src_rg2['pass']} ${src_rg2['container_type']}
	... ${src_rg2['container_name']}

	Setup Suite
	[Documentation] Set up the test suite
	Common Test Suite Setup
	${switch_type}= Get Variable Value ${web_power_switch.type}
	Run Keyword If "${switch_type}"!="" Set Global Variable ${powerswitch_type} ${switch_type}
	Run Keyword If ${has_dataplane} Clean Up Linux
	Run Keyword Setup
	Wait Until Keyword Succeeds ${timeout} 2s Provision Subscription TT


	Clear All Devices Then Create New Device
	[Documentation] Remove any devices from VOLTHA and ONOS
	# Remove all devices from voltha and nos
	Delete All Devices and Verify
	# Execute normal test Setup Keyword
	Setup

	Teardown Suite
	[Documentation] Tear down steps for the suite
	Run Keyword If ${has_dataplane} Clean Up Linux
	Run Keyword If ${teardown_device} Delete All Devices And Verify
	Close All ONOS SSH Connections