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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.
# robot test functions
*** Settings ***
Documentation Library for various utilities
Library SSHLibrary
Library String
Library DateTime
Library Process
Library Collections
Library RequestsLibrary
Library OperatingSystem
Library CORDRobot
Library ImportResource resources=CORDRobot
*** Keywords ***
Check CLI Tools Configured
[Documentation] Tests that use 'voltctl' and 'kubectl' should execute this keyword in suite setup
# check voltctl and kubectl configured
${voltctl_rc}= Run And Return RC voltctl device list
${kubectl_rc}= Run And Return RC kubectl get pods
Run Keyword If ${voltctl_rc} != 0 or ${kubectl_rc} != 0 FATAL ERROR
... VOLTCTL and KUBECTL not configured. Please configure before executing tests.
Send File To Onos
[Documentation] Send the content of the file to Onos to selected section of configuration
... using Post Request
[Arguments] ${CONFIG_FILE} ${section}
${Headers}= Create Dictionary Content-Type application/json
${File_Data}= OperatingSystem.Get File ${CONFIG_FILE}
Log ${Headers}
Log ${File_Data}
${resp}= Post Request ONOS
... /onos/v1/network/configuration/${section} headers=${Headers} data=${File_Data}
Should Be Equal As Strings ${resp.status_code} 200
Common Test Suite Setup
[Documentation] Setup the test suite
Set Global Variable ${KUBECTL_CONFIG} export KUBECONFIG=%{KUBECONFIG}
Set Global Variable ${VOLTCTL_CONFIG} export VOLTCONFIG=%{VOLTCONFIG}
${k8s_node_ip}= Evaluate ${nodes}[0].get("ip")
${ONOS_REST_IP}= Get Environment Variable ONOS_REST_IP ${k8s_node_ip}
${ONOS_SSH_IP}= Get Environment Variable ONOS_SSH_IP ${k8s_node_ip}
Set Global Variable ${ONOS_REST_IP}
Set Global Variable ${ONOS_SSH_IP}
${k8s_node_user}= Evaluate ${nodes}[0].get("user")
${k8s_node_pass}= Evaluate ${nodes}[0].get("pass")
Check CLI Tools Configured
${onos_auth}= Create List karaf karaf
${HEADERS} Create Dictionary Content-Type=application/json
Create Session ONOS http://${ONOS_REST_IP}:${ONOS_REST_PORT} auth=${ONOS_AUTH}
${olt_ip}= Evaluate ${olts}[0].get("ip")
${olt_user}= Evaluate ${olts}[0].get("user")
${olt_pass}= Evaluate ${olts}[0].get("pass")
${olt_serial_number}= Evaluate ${olts}[0].get("serial")
${num_onus}= Get Length ${hosts.src}
${num_onus}= Convert to String ${num_onus}
#send sadis file to onos
${sadis_file}= Get Variable Value ${sadis.file}
Log To Console \nSadis File:${sadis_file}
Run Keyword Unless '${sadis_file}' is '${None}' Send File To Onos ${sadis_file} apps/
Set Suite Variable ${num_onus}
Set Suite Variable ${olt_serial_number}
Set Suite Variable ${olt_ip}
Set Suite Variable ${olt_user}
Set Suite Variable ${olt_pass}
@{container_list}= Create List adapter-open-olt adapter-open-onu voltha-api-server
... voltha-ro-core voltha-rw-core-11 voltha-rw-core-12 voltha-ofagent
Set Suite Variable ${container_list}
${datetime}= Get Current Date
Set Suite Variable ${datetime}
WPA Reassociate
[Documentation] Executes a particular wpa_cli reassociate, which performs force reassociation
[Arguments] ${iface} ${ip} ${user} ${pass}=${None}
... ${container_type}=${None} ${container_name}=${None}
#Below for loops are used instead of sleep time, to execute reassociate command and check status
FOR ${i} IN RANGE 70
${output}= Login And Run Command On Remote System
... wpa_cli -i ${iface} reassociate ${ip} ${user}
... ${pass} ${container_type} ${container_name}
${passed}= Run Keyword And Return Status Should Contain ${output} OK
Exit For Loop If ${passed}
END
Should Be True ${passed} Status does not contain 'SUCCESS'
FOR ${i} IN RANGE 70
${output}= Login And Run Command On Remote System
... wpa_cli -i ${iface} status | grep SUCCESS ${ip} ${user}
... ${pass} ${container_type} ${container_name}
${passed}= Run Keyword And Return Status Should Contain ${output} SUCCESS
Exit For Loop If ${passed}
END
Should Be True ${passed} Status does not contain 'SUCCESS'
Validate Authentication After Reassociate
[Arguments] ${auth_pass} ${iface} ${ip} ${user} ${pass}=${None}
... ${container_type}=${None} ${container_name}=${None}
[Documentation]
... Executes a particular reassociate request on the RG using wpa_cli.
... auth_pass determines if authentication should pass
${wpa_log}= Catenate SEPARATOR=. /tmp/wpa ${iface} log
${output}= Login And Run Command On Remote System truncate -s 0 ${wpa_log}; cat ${wpa_log}
... ${ip} ${user} ${pass} ${container_type} ${container_name}
Log ${output}
Should Not Contain ${output} authentication completed successfully
WPA Reassociate ${iface} ${ip} ${user} ${pass} ${container_type} ${container_name}
Run Keyword If '${auth_pass}' == 'True' Wait Until Keyword Succeeds ${timeout} 2s
... Check Remote File Contents True ${wpa_log} ${iface}.*authentication completed successfully
... ${ip} ${user} ${pass} ${container_type} ${container_name}
Run Keyword If '${auth_pass}' == 'False' Sleep 20s
Run Keyword If '${auth_pass}' == 'False' Check Remote File Contents False /tmp/wpa.log
... ${iface}.*authentication completed successfully ${ip} ${user} ${pass}
... ${container_type} ${container_name}
Send Dhclient Request To Release Assigned IP
[Arguments] ${iface} ${ip} ${user} ${path_dhcpleasefile} ${pass}=${None}
... ${container_type}=${None} ${container_name}=${None}
[Documentation] Executes a dhclient with option to release ip against a particular interface on the RG (src)
${result}= Login And Run Command On Remote System
... dhclient -nw -r ${iface} && rm ${path_dhcpleasefile}/dhclient.* ${ip} ${user}
... ${pass} ${container_type} ${container_name}
Log ${result}
#Should Contain ${result} DHCPRELEASE
[Return] ${result}
Check Remote File Contents For WPA Logs
[Arguments] ${file_should_exist} ${file} ${pattern} ${ip} ${user} ${pass}=${None}
... ${container_type}=${None} ${container_name}=${None} ${prompt}=~$
[Documentation] Checks for particular pattern count in a file
${result}= Login And Run Command On Remote System
... cat ${file} | grep '${pattern}' | wc -l ${ip} ${user} ${pass}
... ${container_type} ${container_name} ${prompt}
[Return] ${result}
Perform Sanity Test
[Documentation] This keyword performs Sanity Test Procedure
... Sanity test performs authentication, dhcp and pings for all the ONUs given for the POD
... This keyword can be used to call in any other tests where sanity check is required
... and avoids duplication of code.
${of_id}= Wait Until Keyword Succeeds ${timeout} 15s Validate OLT Device in ONOS ${olt_serial_number}
Set Global Variable ${of_id}
${nni_port}= Run Keyword And Continue On Failure Wait Until Keyword Succeeds ${timeout} 2s
... Get NNI Port in ONOS ${of_id}
Set Global Variable ${nni_port}
FOR ${I} IN RANGE 0 ${num_onus}
${src}= Set Variable ${hosts.src[${I}]}
${dst}= Set Variable ${hosts.dst[${I}]}
Run Keyword and Ignore Error Collect Logs
${onu_device_id}= Get Device ID From SN ${src['onu']}
${onu_port}= Run Keyword And Continue On Failure Wait Until Keyword Succeeds ${timeout} 2s
... Get ONU Port in ONOS ${src['onu']} ${of_id}
# Check ONU port is Enabled in ONOS
Run Keyword And Continue On Failure Wait Until Keyword Succeeds 120s 2s
... Verify ONU Port Is Enabled ${ONOS_SSH_IP} ${ONOS_SSH_PORT} ${onu_port}
# Verify EAPOL flows are added for the ONU port
Run Keyword And Continue On Failure Wait Until Keyword Succeeds ${timeout} 2s
... Verify Eapol Flows Added For ONU ${ONOS_SSH_IP} ${ONOS_SSH_PORT} ${onu_port}
# 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
# Perform Authentication
${wpa_log}= Run Keyword If ${has_dataplane} Catenate SEPARATOR=.
... /tmp/wpa ${src['dp_iface_name']} log
Run Keyword If ${has_dataplane} Run Keyword And Continue On Failure Validate Authentication True
... ${src['dp_iface_name']} wpa_supplicant.conf ${src['ip']} ${src['user']} ${src['pass']}
... ${src['container_type']} ${src['container_name']} ${wpa_log}
Run Keyword And Continue On Failure Wait Until Keyword Succeeds ${timeout} 2
... Verify ONU in AAA-Users ${ONOS_SSH_IP} ${ONOS_SSH_PORT} ${onu_port}
Run Keyword And Continue On Failure Wait Until Keyword Succeeds ${timeout} 2
... Execute ONOS CLI Command ${ONOS_SSH_IP} ${ONOS_SSH_PORT}
... volt-add-subscriber-access ${of_id} ${onu_port}
# Verify that no pending flows exist for the ONU port
Run Keyword And Continue On Failure Wait Until Keyword Succeeds ${timeout} 2s
... Verify No Pending Flows For ONU ${ONOS_SSH_IP} ${ONOS_SSH_PORT} ${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 ${ONOS_SSH_IP} ${ONOS_SSH_PORT} ${of_id}
... ${onu_port} ${nni_port} ${src['c_tag']} ${src['s_tag']}
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']}
Run Keyword And Continue On Failure Wait Until Keyword Succeeds ${timeout} 2s
... Validate Subscriber DHCP Allocation ${ONOS_SSH_IP} ${ONOS_SSH_PORT} ${onu_port}
Run Keyword and Ignore Error Get Device Output from Voltha ${onu_device_id}
Run Keyword and Ignore Error Collect Logs
END
Perform Sanity Test DT
[Documentation] This keyword performs Sanity Test Procedure for DT Workflow
... Sanity test performs dhcp and pings (without EAPOL and DHCP flows) for all the ONUs given for the POD
... This keyword can be used to call in any other tests where sanity check is required
... and avoids duplication of code.
${of_id}= Wait Until Keyword Succeeds ${timeout} 15s Validate OLT Device in ONOS ${olt_serial_number}
Set Global Variable ${of_id}
${nni_port}= Run Keyword And Continue On Failure Wait Until Keyword Succeeds ${timeout} 2s
... Get NNI Port in ONOS ${of_id}
Set Global Variable ${nni_port}
FOR ${I} IN RANGE 0 ${num_onus}
${src}= Set Variable ${hosts.src[${I}]}
${dst}= Set Variable ${hosts.dst[${I}]}
${onu_device_id}= Get Device ID From SN ${src['onu']}
${onu_port}= Run Keyword And Continue On Failure Wait Until Keyword Succeeds ${timeout} 2s
... Get ONU Port in ONOS ${src['onu']} ${of_id}
# Check ONU port is Enabled in ONOS
Run Keyword And Continue On Failure Wait Until Keyword Succeeds 120s 2s
... Verify ONU Port Is Enabled ${ONOS_SSH_IP} ${ONOS_SSH_PORT} ${onu_port}
Run Keyword And Continue On Failure Wait Until Keyword Succeeds ${timeout} 2
... Execute ONOS CLI Command ${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
# TODO: Yet to Verify on the GPON based Physical POD (VOL-2652)
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']}
Run Keyword and Ignore Error Get Device Output from Voltha ${onu_device_id}
Run Keyword and Ignore Error Collect Logs
END
# Verify ONOS Flows
# 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_onus}
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
# Number of per OLT Flows equals Twice the Number of Active ONUs (each for downstream and upstream) + 1 for LLDP
${olt_flows}= Evaluate 2 * ${num_onus} + 1
# Number of per ONU Flows equals 2 (one each for downstream and upstream)
${onu_flows}= Set Variable 2
Run Keyword Wait Until Keyword Succeeds ${timeout} 5s Validate OLT Flows ${olt_flows}
${List_ONU_Serial} Create List
Set Suite Variable ${List_ONU_Serial}
Build ONU SN List ${List_ONU_Serial}
Log ${List_ONU_Serial}
Run Keyword Wait Until Keyword Succeeds ${timeout} 5s Validate ONU Flows
... ${List_ONU_Serial} ${onu_flows}
Setup
[Documentation] Pre-test Setup
#test for empty device list
Test Empty Device List
Run Keyword If ${has_dataplane} Wait Until Keyword Succeeds 120s 10s Openolt is Up
... ${olt_ip} ${olt_user} ${olt_pass}
Run Keyword If ${has_dataplane} Sleep 60s
#create/preprovision device
${olt_device_id}= Create Device ${olt_ip} ${OLT_PORT}
Set Suite Variable ${olt_device_id}
#validate olt states
Wait Until Keyword Succeeds ${timeout} 5s
... Validate OLT Device PREPROVISIONED UNKNOWN UNKNOWN ${olt_device_id}
Sleep 5s
Enable Device ${olt_device_id}
Wait Until Keyword Succeeds 180s 5s
... Validate OLT Device ENABLED ACTIVE REACHABLE ${olt_serial_number}
${logical_id}= Get Logical Device ID From SN ${olt_serial_number}
Set Suite Variable ${logical_id}
Validate ONUs After OLT Disable
[Documentation] Validates the ONUs state in Voltha, ONUs port state in ONOS
... and that pings do not succeed After corresponding OLT is Disabled
FOR ${I} IN RANGE 0 ${num_onus}
${src}= Set Variable ${hosts.src[${I}]}
${dst}= Set Variable ${hosts.dst[${I}]}
${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}
Run Keyword And Continue On Failure Wait Until Keyword Succeeds ${timeout} 5s
... Validate Device ENABLED DISCOVERED
... UNREACHABLE ${src['onu']} onu=True onu_reason=stopping-openomci
Run Keyword And Continue On Failure Wait Until Keyword Succeeds ${timeout} 2s
... Verify ONU Port Is Disabled ${ONOS_SSH_IP} ${ONOS_SSH_PORT} ${onu_port}
Run Keyword If ${has_dataplane} Run Keyword And Continue On Failure
... Wait Until Keyword Succeeds 60s 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']}
Run Keyword and Ignore Error Get Device Output from Voltha ${onu_device_id}
Run Keyword and Ignore Error Collect Logs
END
Delete All Devices and Verify
[Documentation] Remove any devices from VOLTHA and ONOS
# Clear devices from VOLTHA
Disable Devices In Voltha Root=true
Sleep 5s
Wait Until Keyword Succeeds ${timeout} 2s Test Devices Disabled In Voltha Root=true
Delete Devices In Voltha Root=true
Run Keyword If ${has_dataplane} Sleep 30s
Wait Until Keyword Succeeds ${timeout} 2s Test Empty Device List
# Clear devices from ONOS
#Remove All Devices From ONOS
#... http://karaf:karaf@${ONOS_REST_IP}:${ONOS_REST_PORT}
Teardown
[Documentation] kills processes and cleans up interfaces on src+dst servers
Run Keyword If ${has_dataplane} Clean Up Linux
Teardown Suite
[Documentation] Clean up device if desired
Run Keyword If ${teardown_device} Delete All Devices and Verify
Delete Device and Verify
[Documentation] Disable -> Delete devices via voltctl and verify its removed
${olt_device_id}= Get Device ID From SN ${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
Sleep 5s
Wait Until Keyword Succeeds ${timeout} 5s
... Validate OLT Device DISABLED UNKNOWN REACHABLE ${olt_serial_number}
${rc} ${output}= Run and Return Rc and Output
... ${VOLTCTL_CONFIG}; voltctl device delete ${olt_device_id}
Run Keyword If ${has_dataplane} Sleep 50s
Should Be Equal As Integers ${rc} 0
Wait Until Keyword Succeeds ${timeout} 5s Validate Device Removed ${olt_device_id}
Repeat Sanity Test
[Documentation] This keyword performs Sanity Test Procedure
... Sanity test performs authentication, dhcp and pings for all the ONUs given for the POD
... This keyword can be used to call in any other tests where sanity check is required
... with wpa reassociation
${of_id}= Wait Until Keyword Succeeds ${timeout} 15s Validate OLT Device in ONOS ${olt_serial_number}
Set Global Variable ${of_id}
FOR ${I} IN RANGE 0 ${num_onus}
Run Keyword and Ignore Error Collect Logs
${src}= Set Variable ${hosts.src[${I}]}
${dst}= Set Variable ${hosts.dst[${I}]}
${onu_port}= Run Keyword And Continue On Failure Wait Until Keyword Succeeds ${timeout} 2s
... Get ONU Port in ONOS ${src['onu']} ${of_id}
# Check ONU port is Enabled in ONOD
Run Keyword And Continue On Failure Wait Until Keyword Succeeds 120s 2s
... Verify ONU Port Is Enabled ${ONOS_SSH_IP} ${ONOS_SSH_PORT} ${onu_port}
# Verify EAPOL flows are added for the ONU port
Run Keyword And Continue On Failure Wait Until Keyword Succeeds ${timeout} 2s
... Verify Eapol Flows Added For ONU ${ONOS_SSH_IP} ${ONOS_SSH_PORT} ${onu_port}
# 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
# Perform Authentication
Run Keyword If ${has_dataplane} Run Keyword And Continue On Failure
... Validate Authentication After Reassociate
... True ${src['dp_iface_name']} ${src['ip']} ${src['user']} ${src['pass']}
... ${src['container_type']} ${src['container_name']}
Wait Until Keyword Succeeds ${timeout} 2s
... Verify ONU in AAA-Users ${ONOS_SSH_IP} ${ONOS_SSH_PORT} ${onu_port}
Wait Until Keyword Succeeds ${timeout} 2s
... Execute ONOS CLI Command ${ONOS_SSH_IP} ${ONOS_SSH_PORT}
... volt-add-subscriber-access ${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']}
Wait Until Keyword Succeeds ${timeout} 2s Run Keyword And Continue On Failure
... Validate Subscriber DHCP Allocation ${ONOS_SSH_IP} ${ONOS_SSH_PORT} ${onu_port}
Run Keyword and Ignore Error Get Device Output from Voltha ${onu_device_id}
Run Keyword and Ignore Error Collect Logs
END
Collect Logs
[Documentation] Collect Logs from voltha and onos cli for various commands
Run Keyword and Ignore Error Get Device List from Voltha
Run Keyword and Ignore Error Get Device Output from Voltha ${olt_device_id}
Run Keyword and Ignore Error Get Logical Device Output from Voltha ${logical_id}
Get ONOS Status ${ONOS_SSH_IP} ${ONOS_SSH_PORT}
Verify ping is succesful except for given device
[Arguments] ${num_onus} ${exceptional_onu_id}
[Documentation] Checks that ping for all the devices are successful except the given ONU.
${pingStatus} Set Variable True
FOR ${I} IN RANGE 0 ${num_onus}
${src}= Set Variable ${hosts.src[${I}]}
${dst}= Set Variable ${hosts.dst[${I}]}
${onu_device_id}= Get Device ID From SN ${src['onu']}
${pingStatus} Run Keyword If '${onu_device_id}' == '${exceptional_onu_id}' Set Variable False
Run Keyword And Continue On Failure Wait Until Keyword Succeeds 60s 2s
... Check Ping ${pingStatus} ${dst['dp_iface_ip_qinq']} ${src['dp_iface_name']}
... ${src['ip']} ${src['user']} ${src['pass']} ${src['container_type']} ${src['container_name']}
END
Start Logging
[Arguments] ${label}
[Documentation] Start logging for test ${label}
${kail_process}= Run Keyword If "${container_log_dir}" != "${None}" Start Process kail -n default
... -n voltha cwd=${container_log_dir} stdout=${label}-combined.log
Set Test Variable ${kail_process}
Stop Logging
[Arguments] ${label}
[Documentation] End logging for test; remove logfile if test passed
Run sync
Run Keyword If ${kail_process} Terminate Process ${kail_process}
${test_logfile}= Run Keyword If "${container_log_dir}" != "${None}"
... Join Path ${container_log_dir} ${label}-combined.log
Run Keyword If Test Passed Run Keyword If "${test_logfile}" != "${None}" Remove File ${test_logfile}
Clean Up Linux
[Documentation] Kill processes and clean up interfaces on src+dst servers
FOR ${I} IN RANGE 0 ${num_onus}
${src}= Set Variable ${hosts.src[${I}]}
${dst}= Set Variable ${hosts.dst[${I}]}
Run Keyword And Ignore Error Kill Linux Process [w]pa_supplicant ${src['ip']}
... ${src['user']} ${src['pass']} ${src['container_type']} ${src['container_name']}
Run Keyword And Ignore Error Kill Linux Process [d]hclient ${src['ip']}
... ${src['user']} ${src['pass']} ${src['container_type']} ${src['container_name']}
Run Keyword If '${dst['ip']}' != '${None}' Run Keyword And Ignore Error
... Kill Linux Process [d]hcpd ${dst['ip']} ${dst['user']}
... ${dst['pass']} ${dst['container_type']} ${dst['container_name']}
Delete IP Addresses from Interface on Remote Host ${src['dp_iface_name']} ${src['ip']}
... ${src['user']} ${src['pass']} ${src['container_type']} ${src['container_name']}
Run Keyword If '${dst['ip']}' != '${None}' Delete Interface on Remote Host
... ${dst['dp_iface_name']}.${src['s_tag']} ${dst['ip']} ${dst['user']} ${dst['pass']}
... ${dst['container_type']} ${dst['container_name']}
END
Clean WPA Process
[Documentation] Kills wpa_supplicant processes only for all RGs
FOR ${I} IN RANGE 0 ${num_onus}
${src}= Set Variable ${hosts.src[${I}]}
${dst}= Set Variable ${hosts.dst[${I}]}
Run Keyword And Ignore Error Kill Linux Process [w]pa_supplicant ${src['ip']}
... ${src['user']} ${src['pass']} ${src['container_type']} ${src['container_name']}
END
Should Be Larger Than
[Documentation] Verify that value_1 is > value_2
[Arguments] ${value_1} ${value_2}
Run Keyword If ${value_1} <= ${value_2}
... Fail The value ${value_1} is not larger than ${value_2}
Should Be Larger Than Or Equal To
[Documentation] Verify that value_1 is >= value_2
[Arguments] ${value_1} ${value_2}
Run Keyword If ${value_1} < ${value_2}
... Fail The value ${value_1} is not larger than or equal to ${value_2}
Should Be Float
[Documentation] Verify that value is a floating point number type
[Arguments] ${value}
${type} Evaluate type(${value}).__name__
Should Be Equal ${type} float
Should Be Newer Than Or Equal To
[Documentation] Compare two RFC3339 dates
[Arguments] ${value_1} ${value_2}
${unix_v1} Parse RFC3339 ${value_1}
${unix_v2} Parse RFC3339 ${value_2}
Run Keyword If ${unix_v1} < ${unix_v2}
... Fail The value ${value_1} is not newer than or equal to ${value_2}
Get Current Time
[Documentation] Return the current time in RFC3339 format
${output}= Run date -u +"%FT%T%:z"
[return] ${output}
Parse RFC3339
[Documentation] Parse an RFC3339 timestamp
[Arguments] ${dateStr}
${rc} ${output}= Run and Return Rc and Output date --date="${dateStr}" "+%s"
Should Be Equal As Numbers ${rc} 0
[return] ${output}