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# Copyright 2022 - 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.
# Use bbsim-kind-dt-1OLTx1PONx2ONU.yaml
*** Settings ***
Documentation Test of try to catch memory leak in voltha components.
Suite Setup Setup Suite
Suite Teardown Teardown Suite
Test Setup Setup
Test Teardown Teardown
Library Collections
Library String
Library OperatingSystem
Library XML
Library RequestsLibrary
Library ../../libraries/DependencyLibrary.py
Library ../../libraries/utility.py WITH NAME utility
Resource ../../libraries/onos.robot
Resource ../../libraries/voltctl.robot
Resource ../../libraries/voltha.robot
Resource ../../libraries/utils.robot
Resource ../../libraries/k8s.robot
Resource ../../libraries/onu_utilities.robot
Resource ../../variables/variables.robot
*** Variables ***
${NAMESPACE} voltha
${INFRA_NAMESPACE} default
${timeout} 60s
${of_id} 0
${logical_id} 0
${has_dataplane} True
${external_libs} 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}
# determines the environment workflow: DT, TT or ATT (default)
# example: -v workflow:DT
${workflow} ATT
# KV Store Prefix
# example: -v kvstoreprefix:voltha/voltha_voltha
${kvstoreprefix} voltha/voltha_voltha
# flag debugmode is used, if true timeout calculation various, can be passed via the command line too
# example: -v debugmode:True
${debugmode} False
# logging flag to enable Collect Logs, can be passed via the command line too
# example: -v logging:True
${logging} False
# if True execution will be paused before clean up, only use in case of manual testing, do not use in ci pipeline!
# example: -v pausebeforecleanup:True
${pausebeforecleanup} False
# if True some outputs to console are done during running tests e.g. long duration flow test
# example: -v print2console:True
${print2console} False
# if True etcd check will be executed in test case teardown, if False etcd check will be executed in suite teardown
# example: -v etcdcheckintestteardown:False
${etcdcheckintestteardown} True
${data_dir} ../data
# number of iterations
# example: -v iterations:10
${iterations} 50
# address of Prometheus
# example: -v prometheusaddr:0.0.0.0
${prometheusaddr} 0.0.0.0
# port of Prometheus
# example: -v prometheusport:31301
${prometheusport} 31301
# 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 ***
Memory Leak Test Openonu Go Adapter
[Documentation] Test of try to catch memory leak in Openonu Go Adapter for all three workflows, ATT, DT and TT
... Multiple run of Flow and ONU setup and teardown to try to catch memory leak.
... Setup OLT and one (first) ONU, both will kept over the whole test
... Setup a second ONU and do following in specified loops (iterations):
... - do workflow related sanity test (bring up onu to omci flows pushed and setup flows)
... - remove flows
... - delete ONU
... - wait for onu auto detect
... Attention: Due VOL-4703 is not corrected memory leak tests will run in pipeline for DT workflow only!
... This is a temporaly workaround only! Has to be checked after introduction of voltha-go-controller.
[Tags] functionalMemoryLeak MemoryLeakTestOnuGo
[Setup] Run Keywords Start Logging MemoryLeakTestOnuGo
... AND Append Memory Consumption To File isTest=True action=test_start
Run Keyword If ${has_dataplane} Clean Up Linux
${output_file_onu}= Catenate SEPARATOR=/ ${OUTPUT DIR} MemoryConsumptionsOpenOnuAdapterOnuTest.txt
Create File ${output_file_onu} This file contains the memory consumptions of openonu adapter.
Append To File ${output_file_onu} \r\nTest: ${TEST NAME}
${start_mem_consumption_onu}= Get And Write Memory Consumption Per Container To File adapter-open-onu ${NAMESPACE}
... ${output_file_onu} Start settling_memory=True
${Device_Setup}= Set Variable True
Set Global Variable ${Device_Setup}
Setup
Get And Write Memory Consumption Per Container To File adapter-open-onu ${NAMESPACE}
... ${output_file_onu} Setup-OLT #settling_memory=True
Append Memory Consumption To File isTest=True action=test_setup
# Start first ONU
${src_onu_1}= Set Variable ${hosts.src[${0}]}
${bbsim_pod}= Get Pod Name By Label ${NAMESPACE} release bbsim0
Power On ONU ${NAMESPACE} ${bbsim_pod} ${src_onu_1['onu']}
${onu_reason}= Set Variable If "${workflow}"=="DT" initial-mib-downloaded
... "${workflow}"=="TT" initial-mib-downloaded
... "${workflow}"=="ATT" omci-flows-pushed
${admin_state} ${oper_status} ${connect_status} ${onu_state_nb} ${onu_state}=
... Map State ${onu_reason}
Wait Until Keyword Succeeds ${timeout} 1s
... Validate Device ${admin_state} ${oper_status} ${connect_status}
... ${src_onu_1['onu']} onu=True onu_reason=${onu_state}
${setup_mem_consumption_onu}= Get And Write Memory Consumption Per Container To File adapter-open-onu ${NAMESPACE}
... ${output_file_onu} Setup-ONU-1 settling_memory=True
# Start second ONU
${src_onu_2}= Set Variable ${hosts.src[${1}]}
${bbsim_pod}= Get Pod Name By Label ${NAMESPACE} release bbsim0
Power On ONU ${NAMESPACE} ${bbsim_pod} ${src_onu_2['onu']}
${onu_reason}= Set Variable If "${workflow}"=="DT" initial-mib-downloaded
... "${workflow}"=="TT" initial-mib-downloaded
... "${workflow}"=="ATT" omci-flows-pushed
${admin_state} ${oper_status} ${connect_status} ${onu_state_nb} ${onu_state}=
... Map State ${onu_reason}
Wait Until Keyword Succeeds ${timeout} 1s
... Validate Device ${admin_state} ${oper_status} ${connect_status}
... ${src_onu_2['onu']} onu=True onu_reason=${onu_state}
Get And Write Memory Consumption Per Container To File adapter-open-onu ${NAMESPACE} ${output_file_onu} Setup-ONU-2
Append Memory Consumption To File isTest=True action=test_setup_onu2
FOR ${I} IN RANGE 1 ${iterations} + 1
Run Keyword If ${print2console} Log \r\nStart iteration ${I} of ${iterations}. console=yes
Run Keyword If "${workflow}"=="DT" Perform Sanity Test DT
... ELSE IF "${workflow}"=="TT" Perform Sanity Tests TT
... ELSE Perform Sanity Test
Sleep 5s
Run Keyword If ${print2console} Log Remove Flows. console=yes
# Remove Flows
${src}= Set Variable ${hosts.src[1]}
${of_id}= Wait Until Keyword Succeeds ${timeout} 15s Validate OLT Device in ONOS ${src_onu_2['olt']}
${onu_sn_2}= Set Variable ${src_onu_2['onu']}
${onu_port_2}= Wait Until Keyword Succeeds ${timeout} 2s Get ONU Port in ONOS ${onu_sn_2}
... ${of_id} ${src_onu_2['uni_id']}
Remove Flows Conditional ${unitag_sub} ${onu_sn_2} ${of_id} ${onu_port_2}
Run Keyword If ${print2console} Log Check Flows removed. console=yes
# Check All Flows Removed
${expected_flows_onu}= Set Variable If "${workflow}"=="ATT" 1 0
Wait Until Keyword Succeeds ${timeout} 2s Validate number of flows ${ONOS_SSH_IP} ${ONOS_SSH_PORT}
... ${expected_flows_onu} ${of_id} any ${onu_port_2}
# Delete Device
Run Keyword If ${print2console} Log Get ONU Device IDs. console=yes
${onu_device_id}= Get Device ID From SN ${onu_sn_2}
Run Keyword If ${print2console} Log Delete ONU. (device id: ${onu_device_id}) console=yes
Wait Until Keyword Succeeds ${timeout} 1s Delete Device ${onu_device_id}
Run Keyword If ${print2console} Log Wait for ONU come back. console=yes
${onu_device_id_list}= Create List ${onu_device_id}
Wait Until Keyword Succeeds ${timeout} 1s Check for new ONU Device IDs ${onu_device_id_list}
${list_onus} Create List
Build ONU SN List ${list_onus}
Wait Until Keyword Succeeds ${timeout} 1s Check all ONU OperStatus ${list_onus} ACTIVE
Build ONU SN List ${list_onus}
${onu_reason}= Set Variable If "${workflow}"=="DT" initial-mib-downloaded
... "${workflow}"=="TT" initial-mib-downloaded
... "${workflow}"=="ATT" omci-flows-pushed
Wait Until Keyword Succeeds ${timeout} 1s
... Validate Device ENABLED ACTIVE REACHABLE ${onu_sn_2} onu_reason=${onu_reason} onu=True
${formatedIt}= Format String {:>3} ${I}
Get And Write Memory Consumption Per Container To File adapter-open-onu ${NAMESPACE} ${output_file_onu}
... Iteration ${formatedIt}
END
# Switch off second ONU
Power Off ONU ${NAMESPACE} ${bbsim_pod} ${src_onu_2['onu']}
Wait Until Keyword Succeeds 500s 30s
... Validate Memory Consumptions adapter-open-onu ${NAMESPACE} ${setup_mem_consumption_onu} ${output_file_onu}
... out_string=Validate
[Teardown] Run Keywords Printout ONU Serial Number and Device Id print2console=${print2console}
... AND Run Keyword If ${logging} Get Logical Id of OLT
... AND Run Keyword If ${logging} Collect Logs
... AND Teardown Test
... AND Append Memory Consumption To File isTest=True compare_to=test_setup
... AND Run Keyword And Ignore Error Wait Until Keyword Succeeds 300s 30s
... Validate Memory Consumptions adapter-open-onu ${NAMESPACE} ${start_mem_consumption_onu} ${output_file_onu}
... AND Append Memory Consumption To File isTest=True compare_to=test_start
... AND Stop Logging MemoryLeakTestOnuGo
Memory Leak Test Openolt Adapter
[Documentation] Test of try to catch memory leak in Openolt Adapter for all three workflows, ATT, DT and TT
... Multiple run of OLT setup and teardown to try to catch memory leak.
... - do workflow related sanity test (bring up onu to omci flows pushed and setup flows)
... - delete OLT devices
... - wait for OLT is removed
... - add and enable OLT again
... - wait for ONUs available again
... Hint: Also memory consumptions of Openonu GO Adapter will be validated!
... Hint: default timePower On ONU Device ${NAMESPACE}out in BBSim to mimic OLT reboot is 60 seconds!
... This behaviour of BBSim can be modified by 'oltRebootDelay: 60' in BBSim section of helm chart or
... used values.yaml during 'voltha up'.
... Attention: Due VOL-4703 is not corrected memory leak tests will run in pipeline for DT workflow only!
... This is a temporaly workaround only! Has to be checked after introduction of voltha-go-controller.
[Tags] functionalMemoryLeak MemoryLeakTestOlt
[Setup] Run Keywords Start Logging MemoryLeakTestOlt
... AND Append Memory Consumption To File isTest=True action=test_start
Run Keyword If ${has_dataplane} Clean Up Linux
${output_file_olt}= Catenate SEPARATOR=/ ${OUTPUT DIR} MemoryConsumptionsOpenOltAdapterOltTest.txt
Create File ${output_file_olt} This file contains the memory consumptions of openolt adapter.
Append To File ${output_file_olt} \r\nTest: ${TEST NAME}
${output_file_onu}= Catenate SEPARATOR=/ ${OUTPUT DIR} MemoryConsumptionsOpenOnuAdapterOltTest.txt
Create File ${output_file_onu} This file contains the memory consumptions of openonu adapter.
Append To File ${output_file_onu} \r\nTest: ${TEST NAME}
Run Keyword If ${print2console} Log \r\nStart ${iterations} iterations. console=yes
${start_mem_consumption_olt}= Get And Write Memory Consumption Per Container To File adapter-open-olt ${NAMESPACE}
... ${output_file_olt} Start settling_memory=True
${start_mem_consumption_onu}= Get And Write Memory Consumption Per Container To File adapter-open-onu ${NAMESPACE}
... ${output_file_onu} Start
${Device_Setup}= Set Variable True
Set Global Variable ${Device_Setup}
Setup
Power On ONU Device ${NAMESPACE}
${setup_mem_consumption_olt}= Get And Write Memory Consumption Per Container To File adapter-open-olt ${NAMESPACE}
... ${output_file_olt} Setup settling_memory=True
Append Memory Consumption To File isTest=True action=test_setup
Get And Write Memory Consumption Per Container To File adapter-open-onu ${NAMESPACE} ${output_file_onu} Setup
FOR ${I} IN RANGE 1 ${iterations} + 1
Run Keyword If ${print2console} Log \r\nStart iteration ${I} of ${iterations}. console=yes
Run Keyword If "${workflow}"=="DT" Perform Sanity Test DT
... ELSE IF "${workflow}"=="TT" Perform Sanity Tests TT
... ELSE Perform Sanity Test
Sleep 5s
Run Keyword If ${print2console} Log Delete OLTs. console=yes
Delete Devices In Voltha Type=openolt
Run Keyword If ${print2console} Log Check OLTs removed. console=yes
Wait Until Keyword Succeeds ${timeout} 1s Test Empty Device List
Sleep 20s
Run Keyword If ${print2console} Log Add OLTs (calling Setup). console=yes
Setup
Power On ONU Device ${NAMESPACE}
Run Keyword If ${print2console} Log Wait for ONUs come back. console=yes
${list_onus} Create List
Build ONU SN List ${list_onus}
Wait Until Keyword Succeeds ${timeout} 1s Check all ONU OperStatus ${list_onus} ACTIVE
Build ONU SN List ${list_onus}
${onu_reason}= Set Variable If "${workflow}"=="DT" initial-mib-downloaded
... "${workflow}"=="TT" initial-mib-downloaded
... "${workflow}"=="ATT" omci-flows-pushed
Wait Until Keyword Succeeds ${timeout} 1s
... Validate ONU Devices ENABLED ACTIVE REACHABLE ${list_onus} onu_reason=${onu_reason}
${formatedIt}= Format String {:>3} ${I}
Get And Write Memory Consumption Per Container To File adapter-open-olt ${NAMESPACE} ${output_file_olt}
... Iteration ${formatedIt}
Get And Write Memory Consumption Per Container To File adapter-open-onu ${NAMESPACE} ${output_file_onu}
... Iteration ${formatedIt}
END
Wait Until Keyword Succeeds 500s 30s
... Validate Memory Consumptions adapter-open-olt ${NAMESPACE} ${setup_mem_consumption_olt} ${output_file_onu}
... out_string=Validate
[Teardown] Run Keywords Printout ONU Serial Number and Device Id print2console=${print2console}
... AND Run Keyword If ${logging} Get Logical Id of OLT
... AND Run Keyword If ${logging} Collect Logs
... AND Teardown Test
... AND Append Memory Consumption To File isTest=True compare_to=test_setup
... AND Run Keyword And Ignore Error Wait Until Keyword Succeeds 300s 30s
... Validate Memory Consumptions adapter-open-olt ${NAMESPACE} ${start_mem_consumption_olt} ${output_file_olt}
... AND Validate Memory Consumptions adapter-open-onu ${NAMESPACE} ${start_mem_consumption_onu} ${output_file_onu}
... AND Append Memory Consumption To File isTest=True compare_to=test_start
... AND Stop Logging MemoryLeakTestOlt
*** Keywords ***
Setup Suite
[Documentation] Set up the test suite
Start Logging Setup or Teardown Setup-${SUITE NAME}
${LogInfo}= Catenate
... \r\nPassed arguments:
... debugmode:${debugmode}, logging:${logging}, pausebeforecleanup:${pausebeforecleanup},
... print2console:${print2console}, workflow:${workflow}, kvstoreprefix:${kvstoreprefix},
... iterations:${iterations}
Log ${LogInfo} console=yes
Create Global Memory Consumption File
${Device_Setup}= Set Variable False
Set Global Variable ${Device_Setup}
${Start_Time}= Get Time epoch
Set Global Variable ${Start_Time}
Common Test Suite Setup
# set tech profiles
${preload_tech_profile}= Set Variable If ${unitag_sub} and "${workflow}"=="TT" and not ${has_dataplane} True False
Set Suite Variable ${preload_tech_profile}
Run Keyword If ${preload_tech_profile} Set Tech Profile TT-HSIA ${INFRA_NAMESPACE} 64
Run Keyword If ${preload_tech_profile} Set Tech Profile TT-VoIP ${INFRA_NAMESPACE} 65
Run Keyword If ${preload_tech_profile} Set Tech Profile TT-multi-uni-MCAST-AdditionalBW-None ${INFRA_NAMESPACE} 66
# delete etcd MIB Template Data
Delete MIB Template Data ${INFRA_NAMESPACE}
# delete etcd onu data
Delete ONU Go Adapter ETCD Data namespace=${INFRA_NAMESPACE} validate=True
Run Keyword If ${logging} Collect Logs
Stop Logging Setup or Teardown Setup-${SUITE NAME}
Teardown Suite
[Documentation] Replaces the Suite Teardown in utils.robot.
... Cleans up and checks all ONU ports disabled in ONOS.
... Furthermore gives the possibility to pause the execution.
Start Logging Setup or Teardown Teardown-${SUITE NAME}
Append Memory Consumption To File compare_to=suite_setup
${End_Time}= Get Time epoch
FOR ${container} IN @{list_of_container}
${mem_consumption}= utility.get_memory_consumptions_range ${prometheusaddr}:${prometheusport} ${container}
... ${namespace} ${Start_Time} ${End_Time}
Write Memory Consumption File Per Container ${container} ${mem_consumption}
END
Run Keyword If ${pausebeforecleanup} Import Library Dialogs
Run Keyword If ${pausebeforecleanup} Pause Execution Press OK to continue with clean up!
Run Keyword If ${pausebeforecleanup} Log ${consumption_max} Teardown will be continued... console=yes
Run Keyword If ${teardown_device} and ${Device_Setup} Delete All Devices and Verify
Run Keyword Unless ${etcdcheckintestteardown} Wait Until Keyword Succeeds ${timeout} 1s
... Validate Onu Data In Etcd ${INFRA_NAMESPACE} 0 ${kvstoreprefix} without_pm_data=False
Run Keyword If ${Device_Setup} Wait for Ports in ONOS for all OLTs ${ONOS_SSH_IP} ${ONOS_SSH_PORT} 0 BBSM ${timeout}
Run Keyword If ${logging} Collect Logs
Stop Logging Setup or Teardown Teardown-${SUITE NAME}
Close All ONOS SSH Connections
Set Suite Variable ${TechProfile} ${EMPTY}
Run Keyword If ${preload_tech_profile} Remove Tech Profile ${INFRA_NAMESPACE} 64
Run Keyword If ${preload_tech_profile} Remove Tech Profile ${INFRA_NAMESPACE} 65
Run Keyword If ${preload_tech_profile} Remove Tech Profile ${INFRA_NAMESPACE} 66
Teardown Test
[Documentation] Post-test Teardown
# log ONOS flows after remove check
${flow}= Run Keyword If "${TEST STATUS}"=="FAIL" Execute ONOS CLI Command use single connection
... ${ONOS_SSH_IP} ${ONOS_SSH_PORT} flows -s any ${of_id}
Run Keyword If "${TEST STATUS}"=="FAIL" Log ${flow}
Run Keyword If ${pausebeforecleanup} Import Library Dialogs
Run Keyword If ${pausebeforecleanup} Pause Execution Press OK to continue with clean up!
Run Keyword If ${pausebeforecleanup} Log Teardown will be continued... console=yes
Run Keyword If ${teardown_device} and ${Device_Setup} Delete All Devices and Verify
# delete etcd MIB Template Data
Delete MIB Template Data ${INFRA_NAMESPACE}
# check etcd data are empty
Run Keyword If ${etcdcheckintestteardown} Wait Until Keyword Succeeds ${timeout} 1s
... Validate Onu Data In Etcd ${INFRA_NAMESPACE} 0 ${kvstoreprefix} without_pm_data=False
Sleep 5s
Create Global Memory Consumption File
[Documentation] Creates global memory consumption file and read the start values
${list_of_container}= Create List voltha ofagent adapter-open-olt adapter-open-onu
Set Global Variable ${list_of_container}
${global_output_file}= Catenate SEPARATOR=/ ${OUTPUT DIR} MemoryConsumptions${workflow}.txt
Create File ${global_output_file} This file contains the memory consumptions of all voltha adapter of workflow ${workflow}.
Set Global Variable ${global_output_file}
${time}= Get Time
Append To File ${global_output_file} \r\n------------------------------------------------------
Append To File ${global_output_file} \r\nMemory consumptions Suite Setup at ${time}
Append To File ${global_output_file} \r\n------------------------------------------------------
&{suite_setup} Create Dictionary
FOR ${container} IN @{list_of_container}
${mem_consumption}= Append Memory Consumption Per Container To File ${container}
Set To Dictionary ${suite_setup} ${container} ${mem_consumption}
END
&{memory_consumption_dict} Create Dictionary suite_setup ${suite_setup}
Set Global Variable ${memory_consumption_dict}
Append Memory Consumption To File
[Documentation] Appends data to global memory consumption file per container
[Arguments] ${isTest}=False ${action}=${EMPTY} ${output_file}=${global_output_file} ${compare_to}=${EMPTY}
${time}= Get Time
${TestOrSuite} Set Variable If ${isTest} Test Suite
${SetupOrTeardown} Set Variable If "${action}"!="${EMPTY}" Setup/Start (${action}) Teardown
Append To File ${global_output_file} \r\n------------------------------------------------------
Append To File ${global_output_file} \r\nMemory consumptions ${TestOrSuite} ${SetupOrTeardown} at ${time}
Run Keyword If ${isTest} Append To File ${global_output_file} \r\nTest: ${TEST NAME}
Append To File ${global_output_file} \r\n------------------------------------------------------
&{test_setup} Create Dictionary
FOR ${container} IN @{list_of_container}
${mem_consumption}= Append Memory Consumption Per Container To File ${container} output_file=${output_file}
... compare_to=${compare_to}
Run Keyword If "${action}"!="${EMPTY}" Set To Dictionary ${test_setup} ${container} ${mem_consumption}
END
Run Keyword If "${action}"!="${EMPTY}" Set To Dictionary ${memory_consumption_dict} ${action} ${test_setup}
Run Keyword If "${action}"!="${EMPTY}" Set Global Variable ${memory_consumption_dict}
Append Memory Consumption Per Container To File
[Documentation] Appends data to global memory consumption file per container
[Arguments] ${container} ${namespace}=${NAMESPACE} ${output_file}=${global_output_file} ${compare_to}=${EMPTY}
${mem_consumption}= Wait Until Keyword Succeeds 300s 5s
... Get Memory Consumptions ${prometheusaddr} ${prometheusport} ${container} ${namespace}
${formated_mem}= Format String {:>10} ${mem_consumption}
${prestring}= Catenate \r\nMemory consumptions of ${container}
${formated_prestring}= Format String {:<43} ${prestring}
${poststring}= Run Keyword If "${compare_to}"!="${EMPTY}" Compare Memory Consumptions ${mem_consumption}
... ${container} ${compare_to}
... ELSE Set Variable ${EMPTY}
${out_string}= Catenate ${formated_prestring} : ${formated_mem} Bytes ${poststring}
Append To File ${output_file} ${out_string}
[return] ${mem_consumption}
Compare Memory Consumptions
[Documentation] Compares the current memory consumptions with the compare-to value of passed container and
... creates corresponding string.
[Arguments] ${mem_consumption} ${container} ${compare_to}
${compare_value}= Get From Dictionary ${memory_consumption_dict['${compare_to}']} ${container}
${diff_value}= Evaluate ${mem_consumption}-${compare_value}
${percentage_value}= Evaluate 100*${mem_consumption}/${compare_value}
${percentage_value}= Convert To Number ${percentage_value} 2
${formated_start}= Format String {:>10} ${compare_value}
${formated_diff}= Format String {:>10} ${diff_value}
${formated_perc}= Format String {:>7} ${percentage_value}
${out_string}= Catenate : Corresponds ${formated_perc}% compared to ${compare_to} (${formated_start} Bytes) :
... Difference: ${formated_diff} Bytes
[return] ${out_string}
Get And Write Memory Consumption Per Container To File
[Documentation] Gets and write current memory consumptions to memory consumption file per container
[Arguments] ${container} ${namespace} ${output_file} ${addstring}=${EMPTY} ${settling_memory}=False
${mem_consumption}= Run Keyword If ${settling_memory} Settling Memory Consumptions ${prometheusaddr}
... ${prometheusport} ${container} ${namespace}
... ELSE Wait Until Keyword Succeeds 60s 5s Get Memory Consumptions ${prometheusaddr} ${prometheusport}
... ${container} ${namespace}
${time}= Get Time
${formated_mem}= Format String {:>10} ${mem_consumption}
${prestring}= Catenate Memory consumptions of ${container} ${addstring}
${formated_prestring}= Format String {:<54} ${prestring}
${out_string}= Catenate \r\n${formated_prestring} : ${formated_mem} Bytes at ${time}
Append To File ${output_file} ${out_string}
Run Keyword If ${print2console} Log ${formated_prestring} : ${formated_mem} Bytes at ${time} console=yes
[return] ${mem_consumption}
Check for new ONU Device IDs
[Documentation] Checks that no old onu device ids stay
[Arguments] ${old_device_ids}
${new_device_ids}= Get ONUs Device IDs from Voltha
Should Not Be Empty ${new_device_ids} No new ONU device IDs
FOR ${item} IN @{old_device_ids}
List Should Not Contain Value ${new_device_ids} ${item} Old device id ${item} still present.
END
Validate Memory Consumptions
[Documentation] Validates memory consumptions of passed POD
[Arguments] ${container} ${namespace} ${start_value} ${output_file} ${out_string}=Teardown
${mem_consumption}= Get And Write Memory Consumption Per Container To File ${container} ${namespace}
... ${output_file} ${out_string}
${mem_consumption}= Convert To Number ${mem_consumption} 1
${upper_bound}= Evaluate (${start_value} + (${start_value}*0.175))
Should Be True ${upper_bound} >= ${mem_consumption}
Settling Memory Consumptions
[Documentation] Delivers memory consumptions of passed POD after memory consumptions are leveled.
... - collecting memory consumption at least about 5 minutes, but max 20 minutes
... - built average of memory consumtions
... - wait current value does not deviate from the average by more than 12%.
... - deliver average value value
[Arguments] ${prometheusaddr} ${prometheusport} ${container} ${namespace}
@{consumption_list}= Create List
${consumption_sum}= Set Variable 0
${consumption_max}= Set Variable 0
${average_value}= Set Variable 0
FOR ${index} IN RANGE 1 21
${current_consumptions}= Get Memory Consumptions ${prometheusaddr} ${prometheusport} ${container} ${namespace}
Append To List ${consumption_list} ${current_consumptions}
${consumption_sum}= Evaluate ${consumption_sum}+${current_consumptions}
${consumption_max}= Set Variable If ${current_consumptions}>${consumption_max} ${current_consumptions}
... ${consumption_max}
${average_value}= Evaluate ${consumption_sum}/${index}
${upper_bound}= Evaluate (${average_value} + (${average_value}*0.12))
${lower_bound}= Evaluate (${average_value} - (${average_value}*0.12))
${time}= Get Time
${formatedIt}= Format String {:>3} ${index}
${formated_mem}= Format String {:>10} ${current_consumptions}
${prestring}= Catenate Memory consumptions of ${container} Leveling ${formatedIt}
${formated_prestring}= Format String {:<54} ${prestring}
Run Keyword If ${print2console} Log ${formated_prestring} : ${formated_mem} Bytes at ${time} console=yes
Exit For Loop If ${index}>5 and ${current_consumptions}<${upper_bound} and ${current_consumptions}>${lower_bound}
Sleep 60s
END
[return] ${average_value}
Get Memory Consumptions
[Documentation] Delivers memory consumptions of passed POD
[Arguments] ${prometheusaddr} ${prometheusport} ${container} ${namespace}
${mem_consumption}= utility.get_memory_consumptions ${prometheusaddr}:${prometheusport} ${container} ${namespace}
Should Be True ${mem_consumption} > 0
[return] ${mem_consumption}
Write Memory Consumption File Per Container
[Documentation] Writes memory consumptions file of passed POD for later evaluation.
[Arguments] ${container} ${mem_consumption}
${output_file}= Catenate SEPARATOR=/ ${OUTPUT DIR} MemoryConsumptions${workflow}${container}.txt
Create File ${output_file}
FOR ${value} IN @{mem_consumption}
${epoch}= Convert To String ${value[0]}
Append To File ${output_file} ${epoch},${value[1]}${\n}
END