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# 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 end-to-end scenarios
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
${uprate} 0
${dnrate} 0
${has_dataplane} True
${teardown_device} True
${scripts} ../../scripts
# For dataplane bandwidth testing
${upper_margin_pct} 105 # Allow 5% over the limit
${lower_margin_pct} 90 # Allow 8% under the limit
${udp_rate_multiplier} 1.10 # Send UDP at bw profile limit * rate_multiplier
${udp_packet_bytes} 1470 # UDP payload in bytes
# 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
# Flag specific to Soak Jobs
${SOAK_TEST} False
${bbsim_port} 50060
*** Test Cases ***
Reboot DT ONUs Physically
[Documentation] This test reboots ONUs physically before execution all the tests
... Test case runs only on the PODs that are configured with PowerSwitch that
... controls the power off/on ONUs/OLT remotely (simulating a physical reboot)
[Tags] functionalDt PowerSwitch RebootAllDTONUs soak
[Setup] Start Logging RebootAllDTONUs
[Teardown] Run Keywords Run Keyword If ${logging} Collect Logs
... AND Stop Logging RebootAllDTONUs
Power Switch Connection Suite ${web_power_switch.ip} ${web_power_switch.user} ${web_power_switch.password}
FOR ${I} IN RANGE 0 ${num_all_onus}
${src}= Set Variable ${hosts.src[${I}]}
${dst}= Set Variable ${hosts.dst[${I}]}
Disable Switch Outlet ${src['power_switch_port']}
Sleep 10s
Enable Switch Outlet ${src['power_switch_port']}
END
Create Soak BBSim Device
[Documentation] This creates and enables the BBSim device as required by the soak testing
... The BBSim OLT and ONUs created as part of this test are not part of active testing
... but only to mock the load on Soak POD.
[Tags] soak
[Setup] Start Logging soakPodCreateBBSimLoad
[Teardown] Run Keywords Run Keyword If ${logging} Collect Logs
... AND Stop Logging soakPodCreateBBSimLoad
${num_bbsim} Get Length ${bbsim}
@{bbsim_olt_of_id_list}= Create List
FOR ${I} IN RANGE 0 ${num_bbsim}
${ip} Evaluate ${bbsim}[${I}].get("ip")
${serial_number} Evaluate ${bbsim}[${I}].get("serial")
${bbsim_olt_device_id}= Create Device ${ip} ${bbsim_port}
Log ${bbsim_olt_device_id}
Wait Until Keyword Succeeds ${timeout} 5s
... Validate OLT Device PREPROVISIONED UNKNOWN UNKNOWN ${bbsim_olt_device_id} by_dev_id=True
Enable Device ${bbsim_olt_device_id}
Wait Until Keyword Succeeds ${timeout} 5s
... Validate OLT Device ENABLED ACTIVE REACHABLE ${serial_number}
${bbsim_olt_of_id}= Wait Until Keyword Succeeds ${timeout} 15s Validate OLT Device in ONOS
... ${serial_number}
Log ${bbsim_olt_of_id}
Append To List ${bbsim_olt_of_id_list} ${bbsim_olt_of_id}
END
# Extra sleep time for ONUs to come up Active
Sleep 60s
FOR ${bbsim_olt_of_id} IN @{bbsim_olt_of_id_list}
Provision all subscribers on device ${ONOS_SSH_IP} ${ONOS_SSH_PORT} ${ONOS_SSH_IP} ${ONOS_REST_PORT}
... ${bbsim_olt_of_id}
${total_onus_per_bbsim_olt}= Count Enabled UNI Ports ${ONOS_SSH_IP} ${ONOS_SSH_PORT}
... ${bbsim_olt_of_id}
Wait for all flows to in ADDED state ${ONOS_SSH_IP} ${ONOS_SSH_PORT}
... ${bbsim_olt_of_id} dt ${total_onus_per_bbsim_olt} 1 true
... false false false true
END
Sanity E2E Test for OLT/ONU on POD for DT
[Documentation] Validates E2E Ping Connectivity and object states for the given scenario:
... Validate successful DHCP/E2E ping (no EAPOL and DHCP flows) for the tech profile that is used
... Traffic sent with same vlan from different RGs,
... should reach the NNI port on the OLT with the expected double tagged vlan ids
... Inner vlans from the RG should not change
[Tags] sanityDt soak
[Setup] Start Logging SanityTestDt
[Teardown] Run Keywords Run Keyword If ${logging} Collect Logs
... AND Stop Logging SanityTestDt
Setup ${SOAK_TEST}
Run Keyword If ${has_dataplane} Clean Up Linux
Perform Sanity Test DT
Test Subscriber Delete and Add for DT
[Documentation] Validates E2E Ping Connectivity and object states for the given scenario:
... Assuming that all the ONUs are DHCP/pingable (i.e. assuming sanityDt test was executed)
... Delete a subscriber and validate that the pings do not succeed and state is purged
... Disable and Enable the ONU (This is to replicate the existing DT behaviour)
... Re-add the subscriber, and validate that the flows are present and pings are successful
[Tags] functionalDt SubAddDeleteDt soak
[Setup] Start Logging SubAddDeleteDt
[Teardown] Run Keywords Run Keyword If ${logging} Collect Logs
... AND Stop Logging SubAddDeleteDt
FOR ${I} IN RANGE 0 ${num_all_onus}
${src}= Set Variable ${hosts.src[${I}]}
${dst}= Set Variable ${hosts.dst[${I}]}
${of_id}= Get ofID From OLT List ${src['olt']}
${nni_port}= Wait Until Keyword Succeeds ${timeout} 2s Get NNI Port in ONOS ${of_id}
${onu_device_id}= Get Device ID From SN ${src['onu']}
${olt_device_id}= Get OLTDeviceID From OLT List ${src['olt']}
${num_of_olt_onus}= Get Num of Onus From OLT SN ${src['olt']}
${onu_port}= Wait Until Keyword Succeeds ${timeout} 2s Get ONU Port in ONOS ${src['onu']}
... ${of_id}
# Remove Subscriber Access
Wait Until Keyword Succeeds ${timeout} 2s Execute ONOS CLI Command use single connection ${ONOS_SSH_IP}
... ${ONOS_SSH_PORT} volt-remove-subscriber-access ${of_id} ${onu_port}
Run Keyword If ${has_dataplane} Run Keyword And Continue On Failure
... Wait Until Keyword Succeeds ${timeout} 2s
... Check Ping False ${dst['dp_iface_ip_qinq']} ${src['dp_iface_name']}
... ${src['ip']} ${src['user']} ${src['pass']} ${src['container_type']} ${src['container_name']}
# Number of Access Flows on ONOS equals 4 * the Number of Active ONUs (2 for each downstream and upstream)
${onos_flows_count}= Evaluate 4 * ( ${num_of_olt_onus} - 1 )
Run Keyword And Continue On Failure Wait Until Keyword Succeeds ${timeout} 5s
... Verify Subscriber Access Flows Added Count DT ${ONOS_SSH_IP} ${ONOS_SSH_PORT}
... ${of_id} ${onos_flows_count}
# Verify VOLTHA flows for OLT equals twice the number of ONUS (minus ONU under test) + 1 for LLDP
${olt_flows}= Evaluate 2 * ( ${num_of_olt_onus} - 1 ) + 1
Run Keyword And Continue On Failure Wait Until Keyword Succeeds ${timeout} 5s Validate OLT Flows
... ${olt_flows} ${olt_device_id}
# Verify VOLTHA flows for ONU under test is Zero
Run Keyword Wait Until Keyword Succeeds ${timeout} 5s Validate Device Flows
... ${onu_device_id} 0
# Disable and Re-Enable the ONU (To replicate DT current workflow)
# TODO: Delete and Auto-Discovery Add of ONU (not yet supported)
Disable Device ${onu_device_id}
Wait Until Keyword Succeeds ${timeout} 5s
... Validate Device DISABLED UNKNOWN
... REACHABLE ${src['onu']}
Enable Device ${onu_device_id}
Wait Until Keyword Succeeds 360s 5s
... Validate Device ENABLED ACTIVE
... REACHABLE ${src['onu']}
# Add Subscriber Access
Wait Until Keyword Succeeds ${timeout} 2s Execute ONOS CLI Command use single connection ${ONOS_SSH_IP}
... ${ONOS_SSH_PORT} volt-add-subscriber-access ${of_id} ${onu_port}
# Verify subscriber access flows are added for the ONU port
Run Keyword And Continue On Failure Wait Until Keyword Succeeds ${timeout} 5s
... Verify Subscriber Access Flows Added For ONU DT ${ONOS_SSH_IP} ${ONOS_SSH_PORT} ${of_id}
... ${onu_port} ${nni_port} ${src['s_tag']}
Wait Until Keyword Succeeds ${timeout} 5s
... Validate Device ENABLED ACTIVE
... REACHABLE ${src['onu']} onu=True onu_reason=omci-flows-pushed
# Workaround for issue seen in VOL-4489. Keep this workaround until VOL-4489 is fixed.
Run Keyword If ${has_dataplane} Reboot XGSPON ONU ${src['olt']} ${src['onu']} omci-flows-pushed
# Workaround ends here for issue seen in VOL-4489.
Run Keyword If ${has_dataplane} Run Keyword And Continue On Failure
... Wait Until Keyword Succeeds ${timeout} 2s
... Check Ping True ${dst['dp_iface_ip_qinq']} ${src['dp_iface_name']}
... ${src['ip']} ${src['user']} ${src['pass']} ${src['container_type']} ${src['container_name']}
END
# Verify flows for all OLTs
Run Keyword Wait Until Keyword Succeeds ${timeout} 5s Validate All OLT Flows
Test Disable and Enable ONU for DT
[Documentation] Validates E2E Ping Connectivity and object states for the given scenario:
... Assuming that all the ONUs are DHCP/pingable (i.e. assuming sanityDt test was executed)
... Perform disable on the ONUs and validate that the pings do not succeed
... Perform enable on the ONUs and validate that the pings are successful
[Tags] functionalDt DisableEnableONUDt soak
[Setup] Start Logging DisableEnableONUDt
[Teardown] Run Keywords Run Keyword If ${logging} Collect Logs
... AND Stop Logging DisableEnableONUDt
FOR ${I} IN RANGE 0 ${num_all_onus}
${src}= Set Variable ${hosts.src[${I}]}
${dst}= Set Variable ${hosts.dst[${I}]}
${of_id}= Get ofID From OLT List ${src['olt']}
${onu_device_id}= Get Device ID From SN ${src['onu']}
${onu_port}= Wait Until Keyword Succeeds ${timeout} 2s Get ONU Port in ONOS ${src['onu']}
... ${of_id}
Disable Device ${onu_device_id}
Run Keyword And Continue On Failure Wait Until Keyword Succeeds ${timeout} 5s
... Validate Device DISABLED UNKNOWN
... REACHABLE ${src['onu']} onu=True onu_reason=omci-admin-lock
Wait Until Keyword Succeeds ${timeout} 2s
... Verify UNI Port Is Disabled ${ONOS_SSH_IP} ${ONOS_SSH_PORT} ${src['onu']}
# TODO: Yet to Verify on the GPON based Physical POD (VOL-2652)
Run Keyword If ${has_dataplane} Run Keyword And Continue On Failure
... Wait Until Keyword Succeeds ${timeout} 2s
... Check Ping False ${dst['dp_iface_ip_qinq']} ${src['dp_iface_name']}
... ${src['ip']} ${src['user']} ${src['pass']} ${src['container_type']} ${src['container_name']}
Sleep 5s
Enable Device ${onu_device_id}
Run Keyword And Continue On Failure Wait Until Keyword Succeeds 360s 5s
... Validate Device ENABLED ACTIVE
... REACHABLE ${src['onu']} onu=True onu_reason=onu-reenabled
Wait Until Keyword Succeeds ${timeout} 2s
... Verify UNI Port Is Enabled ${ONOS_SSH_IP} ${ONOS_SSH_PORT} ${src['onu']}
# Workaround for issue seen in VOL-4489. Keep this workaround until VOL-4489 is fixed.
Run Keyword If ${has_dataplane} Reboot XGSPON ONU ${src['olt']} ${src['onu']} omci-flows-pushed
# Workaround ends here for issue seen in VOL-4489.
Run Keyword If ${has_dataplane} Run Keyword And Continue On Failure
... Wait Until Keyword Succeeds ${timeout} 2s
... Check Ping True ${dst['dp_iface_ip_qinq']} ${src['dp_iface_name']}
... ${src['ip']} ${src['user']} ${src['pass']} ${src['container_type']} ${src['container_name']}
END
Test Disable and Delete OLT for DT
[Documentation] Validates E2E Ping Connectivity and object states for the given scenario:
... Assuming that all the ONUs are DHCP/pingable (i.e. assuming sanityDt test was executed)
... Perform disable on the OLT and validate ONUs state and that the pings do not succeed
... Perform delete on the OLT, Re-do Setup (Recreate the OLT) and Perform Sanity Test DT
[Tags] functionalDt DisableDeleteOLTDt soak
[Setup] Start Logging DisableDeleteOLTDt
[Teardown] Run Keywords Run Keyword If ${logging} Collect Logs
... AND Stop Logging DisableDeleteOLTDt
# Disable and Validate OLT Device
FOR ${I} IN RANGE 0 ${olt_count}
${olt_serial_number}= Get From Dictionary ${olt_ids}[${I}] sn
${olt_device_id}= Get OLTDeviceID From OLT List ${olt_serial_number}
Disable Device ${olt_device_id}
${of_id}= Get ofID From OLT List ${olt_serial_number}
Wait Until Keyword Succeeds ${timeout} 5s
... Validate OLT Device DISABLED UNKNOWN REACHABLE
... ${olt_serial_number}
${num_onus}= Set Variable ${list_olts}[${I}][onucount]
# Validate ONUs
Run Keyword Wait Until Keyword Succeeds ${timeout} 5s Validate ONUs After OLT Disable
... ${num_onus} ${olt_serial_number}
# Verify ONOS Flows
# When we disable the device we shouldn't have any flows provisioned on it
Run Keyword And Continue On Failure Wait Until Keyword Succeeds ${timeout} 5s
... Verify Subscriber Access Flows Added Count DT ${ONOS_SSH_IP} ${ONOS_SSH_PORT}
... ${of_id} 0
# Verify VOLTHA Flows
# OLT should only have 1 default flow for LLDP
Run Keyword Wait Until Keyword Succeeds ${timeout} 5s Validate OLT Flows 1
... ${olt_device_id}
${List_ONU_Serial} Create List
Set Suite Variable ${List_ONU_Serial}
Build ONU SN List ${List_ONU_Serial} ${olt_serial_number} ${num_onus}
Log ${List_ONU_Serial}
Run Keyword Wait Until Keyword Succeeds ${timeout} 5s Validate ONU Flows
... ${List_ONU_Serial} 0
# Delete OLT and Validate Empty Device List
Delete Device ${olt_device_id}
# Check that the OLT and the ONUs are actually removed from the system
Run Keyword And Continue On Failure Wait Until Keyword Succeeds ${timeout} 5s Validate Device Removed
... ${olt_serial_number}
Run Keyword and Continue On Failure Validate all ONUS for OLT Removed ${num_all_onus} ${hosts}
... ${olt_serial_number} ${timeout}
Wait Until Keyword Succeeds ${timeout} 5s
... Verify Device Flows Removed ${ONOS_SSH_IP} ${ONOS_SSH_PORT} ${of_id}
END
# Re-do Setup (Recreate the OLT) and Perform Sanity Test DT
Run Keyword Setup ${SOAK_TEST}
Run Keyword If ${has_dataplane} Clean Up Linux
Perform Sanity Test DT
Test Disable and Enable OLT for DT
[Documentation] Validates E2E Ping Connectivity and object states for the given scenario:
... Assuming that all the ONUs are DHCP/pingable (i.e. assuming sanityDt test was executed)
... Perform disable on the OLT and validate that the pings do not succeed
... Perform enable on the OLT and validate that the pings are successful
[Tags] functionalDt DisableEnableOLTDt soak
[Setup] Start Logging DisableEnableOLTDt
[Teardown] Run Keywords Run Keyword If ${logging} Collect Logs
... AND Stop Logging DisableEnableOLTDt
# Disable and Validate OLT Device
FOR ${I} IN RANGE 0 ${olt_count}
${olt_serial_number}= Get From Dictionary ${olt_ids}[${I}] sn
${olt_device_id}= Get OLTDeviceID From OLT List ${olt_serial_number}
${rc} ${output}= Run and Return Rc and Output
... ${VOLTCTL_CONFIG}; voltctl device disable ${olt_device_id}
Should Be Equal As Integers ${rc} 0
Wait Until Keyword Succeeds ${timeout} 5s Validate OLT Device DISABLED UNKNOWN REACHABLE
... ${olt_serial_number}
END
# Validate ONUs
FOR ${I} IN RANGE 0 ${num_all_onus}
${src}= Set Variable ${hosts.src[${I}]}
${dst}= Set Variable ${hosts.dst[${I}]}
${of_id}= Get ofID From OLT List ${src['olt']}
${onu_device_id}= Get Device ID From SN ${src['onu']}
${onu_port}= Wait Until Keyword Succeeds ${timeout} 2s
... Get ONU Port in ONOS ${src['onu']} ${of_id}
Wait Until Keyword Succeeds ${timeout} 2s
... Verify UNI Port Is Disabled ${ONOS_SSH_IP} ${ONOS_SSH_PORT} ${src['onu']}
Run Keyword If ${has_dataplane} Run Keyword And Continue On Failure
... Wait Until Keyword Succeeds ${timeout} 2s
... Check Ping False ${dst['dp_iface_ip_qinq']} ${src['dp_iface_name']}
... ${src['ip']} ${src['user']} ${src['pass']} ${src['container_type']} ${src['container_name']}
# Remove Subscriber Access (To replicate DT workflow)
Wait Until Keyword Succeeds ${timeout} 2s Execute ONOS CLI Command use single connection ${ONOS_SSH_IP}
... ${ONOS_SSH_PORT} volt-remove-subscriber-access ${of_id} ${onu_port}
# Delete ONU Device (To replicate DT workflow)
Delete Device ${onu_device_id}
END
Sleep 5s
# Enable the OLT back and check ONU, OLT status are back to "ACTIVE"
FOR ${I} IN RANGE 0 ${olt_count}
${olt_serial_number}= Get From Dictionary ${olt_ids}[${I}] sn
${olt_device_id}= Get OLTDeviceID From OLT List ${olt_serial_number}
Enable Device ${olt_device_id}
Wait Until Keyword Succeeds ${timeout} 5s Validate OLT Device ENABLED ACTIVE REACHABLE
... ${olt_serial_number}
#TODO: Update for PON_OLT ETHERNET_NNI
#Wait Until Keyword Succeeds ${timeout} 5s Validate OLT Port Types
#... PON_OLT ETHERNET_NNI
END
# Waiting extra time for the ONUs to come up
Sleep 60s
Run Keyword If ${has_dataplane} Clean Up Linux
Perform Sanity Test DT
Test Delete and ReAdd OLT for DT
[Documentation] Validates E2E Ping Connectivity and object states for the given scenario:
... Assuming that all the ONUs are DHCP/pingable (i.e. assuming sanityDt test was executed)
... Disable and Delete the OLT
... Create/Enable the same OLT again
... Validate DHCP/E2E pings succeed for all the ONUs connected to the OLT
[Tags] functionalDt DeleteReAddOLTDt soak
[Setup] Start Logging DeleteReAddOLTDt
[Teardown] Run Keywords Run Keyword If ${logging} Collect Logs
... AND Stop Logging DeleteReAddOLTDt
FOR ${I} IN RANGE 0 ${olt_count}
${olt_serial_number}= Get From Dictionary ${olt_ids}[${I}] sn
${of_id}= Get ofID From OLT List ${olt_serial_number}
Delete Device and Verify ${olt_serial_number}
Wait Until Keyword Succeeds ${timeout} 5s
... Verify Device Flows Removed ${ONOS_SSH_IP} ${ONOS_SSH_PORT} ${of_id}
END
# Recreate the OLTs
Setup ${SOAK_TEST}
Run Keyword If ${has_dataplane} Clean Up Linux
Perform Sanity Test DT
Test Disable ONUs and OLT Then Delete ONUs and OLT for DT
[Documentation] On deployed POD, disable the ONU, disable the OLT and then delete ONU and OLT.
... This TC is to confirm that ONU removal is not impacting OLT
... Devices will be removed during the execution of this TC
... so calling setup at the end to add the devices back to avoid the confusion.
[Tags] functionalDt DisableDeleteONUOLTDt
[Setup] Start Logging DisableDeleteONUOLTDt
[Teardown] Run Keywords Run Keyword If ${logging} Collect Logs
... AND Stop Logging DisableDeleteONUOLTDt
@{onu_reason}= Create List initial-mib-downloaded omci-flows-pushed
FOR ${I} IN RANGE 0 ${num_all_onus}
${src}= Set Variable ${hosts.src[${I}]}
${dst}= Set Variable ${hosts.dst[${I}]}
${onu_device_id}= Get Device ID From SN ${src['onu']}
Run Keyword And Continue On Failure Wait Until Keyword Succeeds ${timeout} 5s
... Validate Device ENABLED ACTIVE
... REACHABLE ${src['onu']} onu=True onu_reason=${onu_reason}
Wait Until Keyword Succeeds ${timeout} 5s
... Validate OLT Device ENABLED ACTIVE
... REACHABLE ${src['olt']}
Disable Device ${onu_device_id}
Run Keyword And Continue On Failure Wait Until Keyword Succeeds ${timeout} 5s
... Validate Device DISABLED UNKNOWN
... REACHABLE ${src['onu']} onu=false
Wait Until Keyword Succeeds ${timeout} 5s
... Validate OLT Device ENABLED ACTIVE
... REACHABLE ${src['olt']}
END
# Disable all OLTs
FOR ${I} IN RANGE 0 ${olt_count}
${olt_serial_number}= Get From Dictionary ${olt_ids}[${I}] sn
${olt_device_id}= Get OLTDeviceID From OLT List ${olt_serial_number}
${rc} ${output}= Run and Return Rc and Output
... ${VOLTCTL_CONFIG}; voltctl device disable ${olt_device_id}
Should Be Equal As Integers ${rc} 0
Wait Until Keyword Succeeds ${timeout} 5s Validate OLT Device DISABLED UNKNOWN REACHABLE
... ${olt_serial_number}
END
# Validate ONUs after OLT disable
FOR ${I} IN RANGE 0 ${num_all_onus}
${src}= Set Variable ${hosts.src[${I}]}
${dst}= Set Variable ${hosts.dst[${I}]}
${onu_device_id}= Get Device ID From SN ${src['onu']}
Wait Until Keyword Succeeds ${timeout} 5s
... Validate Device DISABLED DISCOVERED
... UNREACHABLE ${src['onu']} onu=false
Delete Device ${onu_device_id}
Wait Until Keyword Succeeds ${timeout} 5s
... Validate OLT Device DISABLED UNKNOWN
... REACHABLE ${src['olt']}
END
# Delete all OLTs
Delete All Devices and Verify
#Delete Device ${olt_device_id}
#TODO: Fix the following assertion
#Run Keyword And Continue On Failure Wait Until Keyword Succeeds ${timeout} 5s Test Empty Device List
#Run Keyword And Continue On Failure Wait Until Keyword Succeeds ${timeout} 5s
#... Verify Device Flows Removed ${ONOS_SSH_IP} ${ONOS_SSH_PORT} ${of_id}
# Re-do Setup (Recreate the OLT) and Perform Sanity Test DT
Run Keyword Setup
Run Keyword If ${has_dataplane} Clean Up Linux
Perform Sanity Test DT
Data plane verification using TCP for DT
[Documentation] Test bandwidth profile is met and not exceeded for each subscriber.
... Assumes iperf3 and jq installed on client and iperf -s running on DHCP server
[Tags] non-critical dataplaneDt BandwidthProfileTCPDt VOL-3061 soakDataplane
[Setup] Start Logging BandwidthProfileTCPDt
[Teardown] Run Keywords Run Keyword If ${logging} Collect Logs
... AND Stop Logging BandwidthProfileTCPDt
Pass Execution If '${has_dataplane}'=='False' Bandwidth profile validation can be done only in
... physical pod. Skipping this test in BBSIM.
Run Keyword If '${SOAK_TEST}'=='False' Clear All Devices Then Create New Device
... ELSE Setup Soak
Run Keyword If ${has_dataplane} Clean Up Linux
Perform Sanity Test DT
#${of_id}= Wait Until Keyword Succeeds ${timeout} 15s Validate OLT Device in ONOS
#... ${olt_serial_number}
FOR ${I} IN RANGE 0 ${num_all_onus}
${src}= Set Variable ${hosts.src[${I}]}
${dst}= Set Variable ${hosts.dst[${I}]}
${of_id}= Get ofID From OLT List ${src['olt']}
# Check for iperf3 and jq tools
${stdout} ${stderr} ${rc}= Execute Remote Command which iperf3 jq
... ${src['ip']} ${src['user']} ${src['pass']} ${src['container_type']} ${src['container_name']}
Pass Execution If ${rc} != 0 Skipping test: iperf3 / jq not found on the RG
${onu_port}= Wait Until Keyword Succeeds ${timeout} 2s Get ONU Port in ONOS ${src['onu']}
... ${of_id}
${subscriber_id}= Set Variable ${of_id}/${onu_port}
${bandwidth_profile_name} Get Bandwidth Profile Name For Given Subscriber ${subscriber_id}
... upstreamBandwidthProfile
${us_cir} ${us_cbs} ${us_pir} ${us_pbs} ${us_gir}= Get Bandwidth Profile Details Ietf Rest
... ${bandwidth_profile_name}
${limiting_bw_value_upstream}= Set Variable If ${us_pir} != 0 ${us_pir} ${us_gir}
${bandwidth_profile_name} Get Bandwidth Profile Name For Given Subscriber ${subscriber_id}
... downstreamBandwidthProfile
${ds_cir} ${ds_cbs} ${ds_pir} ${ds_pbs} ${ds_gir}= Get Bandwidth Profile Details Ietf Rest
... ${bandwidth_profile_name}
${limiting_bw_value_dnstream}= Set Variable If ${ds_pir} != 0 ${ds_pir} ${ds_gir}
# Stream TCP packets from RG to server
${updict}= Run Iperf3 Test Client ${src} server=${dst['dp_iface_ip_qinq']}
... args=-t 30
${actual_upstream_bw_used}= Evaluate ${updict['end']['sum_received']['bits_per_second']}/1000
# Stream TCP packets from server to RG
${dndict}= Run Iperf3 Test Client ${src} server=${dst['dp_iface_ip_qinq']}
... args=-R -t 30
${actual_dnstream_bw_used}= Evaluate ${dndict['end']['sum_received']['bits_per_second']}/1000
${pct_limit_up}= Evaluate 100*${actual_upstream_bw_used}/${limiting_bw_value_upstream}
${pct_limit_dn}= Evaluate 100*${actual_dnstream_bw_used}/${limiting_bw_value_dnstream}
Log Up: bwprof ${limiting_bw_value_upstream}Kbps, got ${actual_upstream_bw_used}Kbps (${pct_limit_up}%)
Log Down: bwprof ${limiting_bw_value_dnstream}Kbps, got ${actual_dnstream_bw_used}Kbps (${pct_limit_dn}%)
Should Be True ${pct_limit_up} <= ${upper_margin_pct}
... The upstream bandwidth exceeded the limit (${pct_limit_up}% of limit)
# VOL-3125: downstream bw limit not enforced. Uncomment when fixed.
#Should Be True ${pct_limit_dn} <= ${upper_margin_pct}
#... The downstream bandwidth exceeded the limit (${pct_limit_dn}% of limit)
Should Be True ${pct_limit_up} >= ${lower_margin_pct}
... The upstream bandwidth guarantee was not met (${pct_limit_up}% of resv)
Should Be True ${pct_limit_dn} >= ${lower_margin_pct}
... The downstream bandwidth guarantee was not met (${pct_limit_dn}% of resv)
END
Data plane verification using UDP for DT
[Documentation] Test bandwidth profile is met and not exceeded for each subscriber.
... Assumes iperf3 and jq installed on client and iperf -s running on DHCP server
[Tags] non-critical dataplaneDt BandwidthProfileUDPDt VOL-3061 soakDataplane
[Setup] Start Logging BandwidthProfileUDPDt
[Teardown] Run Keywords Run Keyword If ${logging} Collect Logs
... AND Stop Logging BandwidthProfileUDPDt
Pass Execution If '${has_dataplane}'=='False' Bandwidth profile validation can be done only in
... physical pod. Skipping this test in BBSIM.
FOR ${I} IN RANGE 0 ${num_all_onus}
${src}= Set Variable ${hosts.src[${I}]}
${dst}= Set Variable ${hosts.dst[${I}]}
${of_id}= Get ofID From OLT List ${src['olt']}
# Check for iperf3 and jq tools
${stdout} ${stderr} ${rc}= Execute Remote Command which iperf3 jq
... ${src['ip']} ${src['user']} ${src['pass']} ${src['container_type']} ${src['container_name']}
Pass Execution If ${rc} != 0 Skipping test: iperf3 / jq not found on the RG
${onu_port}= Wait Until Keyword Succeeds ${timeout} 2s Get ONU Port in ONOS ${src['onu']}
... ${of_id}
${subscriber_id}= Set Variable ${of_id}/${onu_port}
${bandwidth_profile_name} Get Bandwidth Profile Name For Given Subscriber ${subscriber_id}
... upstreamBandwidthProfile
${us_cir} ${us_cbs} ${us_pir} ${us_pbs} ${us_gir}= Get Bandwidth Profile Details Ietf Rest
... ${bandwidth_profile_name}
${limiting_bw_value_upstream}= Set Variable If ${us_pir} != 0 ${us_pir} ${us_gir}
${bandwidth_profile_name} Get Bandwidth Profile Name For Given Subscriber ${subscriber_id}
... downstreamBandwidthProfile
${ds_cir} ${ds_cbs} ${ds_pir} ${ds_pbs} ${ds_gir}= Get Bandwidth Profile Details Ietf Rest
... ${bandwidth_profile_name}
${limiting_bw_value_dnstream}= Set Variable If ${ds_pir} != 0 ${ds_pir} ${ds_gir}
# Stream UDP packets from RG to server
${uprate}= Run Keyword If ${limiting_bw_value_upstream} != 1000000
... Evaluate ${limiting_bw_value_upstream}*${udp_rate_multiplier}
... ELSE
... Set Variable ${limiting_bw_value_upstream}
${updict}= Run Iperf3 Test Client ${src} server=${dst['dp_iface_ip_qinq']}
... args=-u -b ${uprate}K -t 30 -l ${udp_packet_bytes} --pacing-timer 0
# With UDP test, bits per second is the sending rate. Multiply by the loss rate to get the throughput.
${actual_upstream_bw_used}= Evaluate
... (100 - ${updict['end']['sum']['lost_percent']})*${updict['end']['sum']['bits_per_second']}/100000
# Stream UDP packets from server to RG
${dnrate}= Run Keyword If ${limiting_bw_value_dnstream} != 1000000
... Evaluate ${limiting_bw_value_dnstream}*${udp_rate_multiplier}
... ELSE
... Set Variable ${limiting_bw_value_dnstream}
${dndict}= Run Iperf3 Test Client ${src} server=${dst['dp_iface_ip_qinq']}
... args=-u -b ${dnrate}K -R -t 30 -l ${udp_packet_bytes} --pacing-timer 0
# With UDP test, bits per second is the sending rate. Multiply by the loss rate to get the throughput.
${actual_dnstream_bw_used}= Evaluate
... (100 - ${dndict['end']['sum']['lost_percent']})*${dndict['end']['sum']['bits_per_second']}/100000
${pct_limit_up}= Evaluate 100*${actual_upstream_bw_used}/${limiting_bw_value_upstream}
${pct_limit_dn}= Evaluate 100*${actual_dnstream_bw_used}/${limiting_bw_value_dnstream}
Log Up: bwprof ${limiting_bw_value_upstream}Kbps, got ${actual_upstream_bw_used}Kbps (${pct_limit_up}%)
Log Down: bwprof ${limiting_bw_value_dnstream}Kbps, got ${actual_dnstream_bw_used}Kbps (${pct_limit_dn}%)
Should Be True ${pct_limit_up} <= ${upper_margin_pct}
... The upstream bandwidth exceeded the limit (${pct_limit_up}% of limit)
# VOL-3125: downstream bw limit not enforced. Uncomment when fixed.
#Should Be True ${pct_limit_dn} <= ${upper_margin_pct}
#... The downstream bandwidth exceeded the limit (${pct_limit_dn}% of limit)
Should Be True ${pct_limit_up} >= ${lower_margin_pct}
... The upstream bandwidth guarantee was not met (${pct_limit_up}% of resv)
Should Be True ${pct_limit_dn} >= ${lower_margin_pct}
... The downstream bandwidth guarantee was not met (${pct_limit_dn}% of resv)
END
Validate parsing of data traffic through voltha using tech profile
[Documentation] Assuming that test1 was executed where all the ONUs are authenticated/DHCP/pingable
... Prerequisite tools : Tcpdump and Mausezahn traffic generator on both RG and DHCP/BNG VMs
... Install jq tool to read json file, where test suite is being running
... This test sends TCP packets with pbits between 0 and 7 and validates that
... the pbits are preserved by the PON.
[Tags] dataplaneDt TechProfileDt VOL-3291 soakDataplane
[Setup] Start Logging TechProfileDt
[Teardown] Run Keywords Run Keyword If ${logging} Collect Logs
... AND Stop Logging TechProfileDt
Pass Execution If '${has_dataplane}'=='False'
... Skipping test: Technology profile validation can be done only in physical pod
FOR ${I} IN RANGE 0 ${num_all_onus}
${src}= Set Variable ${hosts.src[${I}]}
${dst}= Set Variable ${hosts.dst[${I}]}
${src_iface_name}= Fetch From Left ${src['dp_iface_name']} .
${bng_ip}= Get Variable Value ${dst['noroot_ip']}
${bng_user}= Get Variable Value ${dst['noroot_user']}
${bng_pass}= Get Variable Value ${dst['noroot_pass']}
Pass Execution If "${bng_ip}" == "${NONE}" or "${bng_user}" == "${NONE}" or "${bng_pass}" == "${NONE}"
... Skipping test: credentials for BNG login required in deployment config
${stdout} ${stderr} ${rc}= Execute Remote Command which mausezahn tcpdump
... ${src['ip']} ${src['user']} ${src['pass']} ${src['container_type']} ${src['container_name']}
Pass Execution If ${rc} != 0 Skipping test: mausezahn / tcpdump not found on the RG
${stdout} ${stderr} ${rc}= Execute Remote Command which mausezahn tcpdump
... ${bng_ip} ${bng_user} ${bng_pass} ${dst['container_type']} ${dst['container_name']}
Pass Execution If ${rc} != 0 Skipping test: mausezahn / tcpdump not found on the BNG
Log Upstream test
Run Keyword If ${has_dataplane} Create traffic with each pbit and capture at other end
... ${dst['dp_iface_ip_qinq']} ${dst['dp_iface_name']} ${src_iface_name}
... 0 tcp ${src['c_tag']} ${src['s_tag']} upstream vlan
... ${bng_ip} ${bng_user} ${bng_pass} ${dst['container_type']} ${dst['container_name']}
... ${src['ip']} ${src['user']} ${src['pass']} ${src['container_type']} ${src['container_name']}
Log Downstream test
${rg_ip} ${stderr} ${rc}= Execute Remote Command
... ifconfig ${src['dp_iface_name']} | grep 'inet addr:' | cut -d: -f2 | awk '{ print $1 }'
... ${src['ip']} ${src['user']} ${src['pass']} ${src['container_type']} ${src['container_name']}
Should Be Equal As Integers ${rc} 0 Could not get RG's IP address
Run Keyword If ${has_dataplane} Create traffic with each pbit and capture at other end
... ${rg_ip} ${src_iface_name} ${dst['dp_iface_name']}
... 0 tcp ${src['c_tag']} ${src['s_tag']} downstream tcp
... ${src['ip']} ${src['user']} ${src['pass']} ${src['container_type']} ${src['container_name']}
... ${bng_ip} ${bng_user} ${bng_pass} ${dst['container_type']} ${dst['container_name']}
END
Test Disable and Enable OLT PON Port for DT
[Documentation] Validates E2E Ping Connectivity and object states for the given scenario:
... Assuming that all the ONUs are DHCP/pingable (i.e. assuming sanityDt test was executed)
... Perform disable on the OLT PON Port and validate that the pings do not succeed
... Perform enable on the OLT PON Port and validate that the pings are successful
[Tags] functionalDt DisableEnableOltPonPortDt VOL-2577 soak
[Setup] Start Logging DisableEnableOltPonPortDt
[Teardown] Run Keywords Run Keyword If ${logging} Collect Logs
... AND Stop Logging DisableEnableOltPonPortDt
FOR ${I} IN RANGE 0 ${olt_count}
${olt_serial_number}= Get From Dictionary ${olt_ids}[${I}] sn
Disable Enable PON Port Per OLT DT ${olt_serial_number}
END
Data plane Bandwidth profile update verification for DT
[Documentation] Test bandwidth profile is updated for one subscriber and not changed for other subscribers.
... Assumes iperf3 and jq installed on client and iperf -s running on DHCP server
... Assumes Default and User_Bandwidth2 profiles are configured as bandwidth profiles
[Tags] non-critical dataplaneDt BandwidthProfileUpdateTCPDt VOL-2549
[Setup] Start Logging BandwidthProfileUpdateTCPDt
[Teardown] Run Keywords Collect Logs
... AND Stop Logging BandwidthProfileUpdateTCPDt
... AND Send File To Onos ${CURDIR}/../../tests/data/${POD_NAME}-sadis-DT.json
Pass Execution If '${has_dataplane}'=='False'
... Bandwidth profile validation can be done only in physical pod. Skipping this test in BBSIM.
Delete All Devices And Verify
Run Keyword If ${has_dataplane} Clean Up Linux
Setup
Perform Sanity Test DT
# Update the Bandwidth Profile for the First Subscriber under test
${src}= Set Variable ${hosts.src[${0}]}
${dst}= Set Variable ${hosts.dst[${0}]}
${of_id}= Get ofID From OLT List ${src['olt']}
${nni_port}= Wait Until Keyword Succeeds ${timeout} 2s Get NNI Port in ONOS ${of_id}
${onu_device_id}= Get Device ID From SN ${src['onu']}
${onu_port}= Wait Until Keyword Succeeds ${timeout} 2s Get ONU Port in ONOS ${src['onu']}
... ${of_id} ${src['uni_id']}
${subscriber_id}= Set Variable ${of_id}/${onu_port}
${oldBwName} Get Bandwidth Profile Name For Given Subscriber ${subscriber_id} upstreamBandwidthProfile
# Delete the existing subscriber
Wait Until Keyword Succeeds ${timeout} 2s Execute ONOS CLI Command use single connection ${ONOS_SSH_IP}
... ${ONOS_SSH_PORT} volt-remove-subscriber-access ${of_id} ${onu_port}
# Verify VOLTHA flows for ONU under test is Zero
Run Keyword Wait Until Keyword Succeeds ${timeout} 5s Validate Device Flows
... ${onu_device_id} 0
# Disable and Re-Enable the ONU (To replicate DT current workflow)
# TODO: Delete and Auto-Discovery Add of ONU (not yet supported)
Disable Device ${onu_device_id}
Wait Until Keyword Succeeds ${timeout} 5s
... Validate Device DISABLED UNKNOWN
... REACHABLE ${src['onu']}
Enable Device ${onu_device_id}
Wait Until Keyword Succeeds 360s 5s
... Validate Device ENABLED ACTIVE
... REACHABLE ${src['onu']}
# Change the bandwidth profile and load the configuration
${newBwName} Set Variable If ${oldBwName} == 'Default' 'User_Bandwidth2' 'Default'
${cmd} Catenate
... sed 's/upstreamBandwidthProfile": "${oldBwName}"/upstreamBandwidthProfile": "${newBwName}"/g'
... ${CURDIR}/../../tests/data/${POD_NAME}-sadis-DT.json > ${CURDIR}/../../tests/data/${POD_NAME}-sadis-new.json
${rc} Run and Return RC ${cmd}
Send File To Onos ${CURDIR}/../../tests/data/${POD_NAME}-sadis-new.json
# Re-add the subscriber with new bandwidth profile
Wait Until Keyword Succeeds ${timeout} 2s Execute ONOS CLI Command use single connection ${ONOS_SSH_IP}
... ${ONOS_SSH_PORT} volt-add-subscriber-access ${of_id} ${onu_port}
# Verify subscriber access flows are added for the ONU port
Run Keyword And Continue On Failure Wait Until Keyword Succeeds ${timeout} 5s
... Verify Subscriber Access Flows Added For ONU DT ${ONOS_SSH_IP} ${ONOS_SSH_PORT} ${of_id}
... ${onu_port} ${nni_port} ${src['s_tag']}
# Verify ONU state in voltha
Run Keyword And Continue On Failure Wait Until Keyword Succeeds ${timeout} 5s Validate Device
... ENABLED ACTIVE REACHABLE
... ${src['onu']} onu=True onu_reason=omci-flows-pushed
# Verify Meters in ONOS
Wait Until Keyword Succeeds ${timeout} 5s
... Verify Meters in ONOS Ietf ${ONOS_SSH_IP} ${ONOS_SSH_PORT} ${of_id} ${onu_port}
Run Keyword If ${has_dataplane} Run Keyword And Continue On Failure Validate DHCP and Ping True
... True ${src['dp_iface_name']} ${src['s_tag']} ${src['c_tag']} ${dst['dp_iface_ip_qinq']}
... ${src['ip']} ${src['user']} ${src['pass']} ${src['container_type']} ${src['container_name']}
... ${dst['dp_iface_name']} ${dst['ip']} ${dst['user']} ${dst['pass']} ${dst['container_type']}
... ${dst['container_name']}
# Verify new bandwidth profile is applied and other subscribers are working fine
${checkBwName} Get Bandwidth Profile Name For Given Subscriber ${subscriber_id} upstreamBandwidthProfile
Should Be Equal ${checkBwName} ${newBwName} The bandwidth profile is not updated properly
FOR ${I} IN RANGE 0 ${num_all_onus}
${src}= Set Variable ${hosts.src[${I}]}
${dst}= Set Variable ${hosts.dst[${I}]}
${of_id}= Get ofID From OLT List ${src['olt']}
# Check for iperf3 and jq tools
${stdout} ${stderr} ${rc}= Execute Remote Command which iperf3 jq
... ${src['ip']} ${src['user']} ${src['pass']} ${src['container_type']} ${src['container_name']}
Pass Execution If ${rc} != 0 Skipping test: iperf3 / jq not found on the RG
${onu_port}= Wait Until Keyword Succeeds ${timeout} 2s Get ONU Port in ONOS ${src['onu']}
... ${of_id}
${subscriber_id}= Set Variable ${of_id}/${onu_port}
${bandwidth_profile_name} Get Bandwidth Profile Name For Given Subscriber ${subscriber_id}
... upstreamBandwidthProfile
${us_cir} ${us_cbs} ${us_pir} ${us_pbs} ${us_gir}= Get Bandwidth Profile Details Ietf Rest
... ${bandwidth_profile_name}
${limiting_bw_value_upstream}= Set Variable If ${us_pir} != 0 ${us_pir} ${us_gir}
${bandwidth_profile_name} Get Bandwidth Profile Name For Given Subscriber ${subscriber_id}
... downstreamBandwidthProfile
${ds_cir} ${ds_cbs} ${ds_pir} ${ds_pbs} ${ds_gir}= Get Bandwidth Profile Details Ietf Rest
... ${bandwidth_profile_name}
${limiting_bw_value_dnstream}= Set Variable If ${ds_pir} != 0 ${ds_pir} ${ds_gir}
# Stream TCP packets from RG to server
${updict}= Run Iperf3 Test Client ${src} server=${dst['dp_iface_ip_qinq']}
... args=-t 30
${actual_upstream_bw_used}= Evaluate ${updict['end']['sum_received']['bits_per_second']}/1000
# Stream TCP packets from server to RG
${dndict}= Run Iperf3 Test Client ${src} server=${dst['dp_iface_ip_qinq']}
... args=-R -t 30
${actual_dnstream_bw_used}= Evaluate ${dndict['end']['sum_received']['bits_per_second']}/1000
${pct_limit_up}= Evaluate 100*${actual_upstream_bw_used}/${limiting_bw_value_upstream}
${pct_limit_dn}= Evaluate 100*${actual_dnstream_bw_used}/${limiting_bw_value_dnstream}
Log Up: bwprof ${limiting_bw_value_upstream}Kbps, got ${actual_upstream_bw_used}Kbps (${pct_limit_up}%)
Log Down: bwprof ${limiting_bw_value_dnstream}Kbps, got ${actual_dnstream_bw_used}Kbps (${pct_limit_dn}%)
Should Be True ${pct_limit_up} <= ${upper_margin_pct}
... The upstream bandwidth exceeded the limit (${pct_limit_up}% of limit)
# VOL-3125: downstream bw limit not enforced. Uncomment when fixed.
#Should Be True ${pct_limit_dn} <= ${upper_margin_pct}
#... The downstream bandwidth exceeded the limit (${pct_limit_dn}% of limit)
Should Be True ${pct_limit_up} >= ${lower_margin_pct}
... The upstream bandwidth guarantee was not met (${pct_limit_up}% of resv)
Should Be True ${pct_limit_dn} >= ${lower_margin_pct}
... The downstream bandwidth guarantee was not met (${pct_limit_dn}% of resv)
END
*** Keywords ***
Setup Suite
[Documentation] Set up the test suite
Common Test Suite Setup
#Restore all ONUs
#Run Keyword If ${has_dataplane} RestoreONUs ${num_all_onus}
#power_switch.robot needs it to support different vendor's power switch
${switch_type}= Get Variable Value ${web_power_switch.type}
Run Keyword If "${switch_type}"!="" Set Global Variable ${powerswitch_type} ${switch_type}
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
Reboot XGSPON ONU
[Documentation] Reboots the XGSPON ONU and verifies the ONU state after the reboot
[Arguments] ${olt_sn} ${onu_sn} ${reason}
FOR ${I} IN RANGE 0 ${num_olts}
${serial_number} Evaluate ${olts}[${I}].get("serial")
Continue For Loop If "${serial_number}"!="${olt_sn}"
${board_tech} Evaluate ${olts}[${I}].get("board_technology")
${onu_device_id}= Get Device ID From SN ${onu_sn}
Run Keyword If "${board_tech}"=="XGS-PON" Run Keywords
... Reboot Device ${onu_device_id}
... AND Wait Until Keyword Succeeds 120s 5s
... Validate Device ENABLED ACTIVE
... REACHABLE ${onu_sn} onu=True onu_reason=${reason}
END