Resource ./Utils.robot
*** Variables ***
-${vlan_topo} sudo mn --controller=remote,ip=${CONTROLLER} --custom vlan_vtn_test.py --topo vlantopo
+${vlan_topo_10} sudo mn --controller=remote,ip=${CONTROLLER} --custom vlan_vtn_test.py --topo vlantopo
+${vlan_topo_13} sudo mn --controller=remote,ip=${CONTROLLER} --custom vlan_vtn_test.py --topo vlantopo --switch ovsk,protocols=OpenFlow13
${REST_CONTEXT_VTNS} controller/nb/v2/vtn/default/vtns
${REST_CONTEXT} controller/nb/v2/vtn/default
${VERSION_VTN} controller/nb/v2/vtn/version
${VTN_INVENTORY} restconf/operational/vtn-inventory:vtn-nodes
-${DUMPFLOWS} dpctl dump-flows -O OpenFlow13
+${DUMPFLOWS_OF10} dpctl dump-flows -O OpenFlow10
+${DUMPFLOWS_OF13} dpctl dump-flows -O OpenFlow13
${index} 7
@{FLOWELMENTS} nw_src=10.0.0.1 nw_dst=10.0.0.3 actions=drop
@{BRIDGE1_DATAFLOW} "reason":"PORTMAPPED" "path":{"tenant":"Tenant1","bridge":"vBridge1","interface":"if2"}
${vlanmap_bridge2} {"vlan": "300"}
@{VLANMAP_BRIDGE1_DATAFLOW} "reason":"VLANMAPPED" "path":{"tenant":"Tenant1","bridge":"vBridge1_vlan"}
@{VLANMAP_BRIDGE2_DATAFLOW} "reason":"VLANMAPPED" "path":{"tenant":"Tenant1","bridge":"vBridge2_vlan"}
-${pathpolicy_topo} sudo mn --controller=remote,ip=${CONTROLLER} --custom topo-3sw-2host_multipath.py --topo pathpolicytopo --switch ovsk,protocols=OpenFlow13
+${pathpolicy_topo_13} sudo mn --controller=remote,ip=${CONTROLLER} --custom topo-3sw-2host_multipath.py --topo pathpolicytopo --switch ovsk,protocols=OpenFlow13
+${pathpolicy_topo_10} sudo mn --controller=remote,ip=${CONTROLLER} --custom topo-3sw-2host_multipath.py --topo pathpolicytopo --switch ovsk,protocols=OpenFlow10
@{PATHMAP_ATTR} "index":"1" "condition":"flowcond_path" "policy":"1"
${policy_id} 1
@{PATHPOLICY_ATTR} "id":"1" "type":"OF" "name":"s4-eth2"
${custom} ${CURDIR}/${CREATE_PATHPOLICY_TOPOLOGY_FILE_PATH}
+${in_port} 1
+${out_before_pathpolicy} output:2
+${out_after_pathpolicy} output:3
*** Keywords ***
Start SuiteVtnMa
Verify Data Flows
[Arguments] ${vtn_name} ${vBridge_name}
[Documentation] Verify the reason and physical data flows for the specified vtn and vbridge
- ${resp}= RequestsLibrary.Get session ${REST_CONTEXT_VTNS}/${vtn_name}/flows/detail
+ ${resp}= RequestsLibrary.Get session ${REST_CONTEXT_VTNS}/${vtn_name}/flows/detail
Run Keyword If '${vBridge_name}' == 'vBridge1' DataFlowsForBridge ${resp} @{BRIDGE1_DATAFLOW}
... ELSE IF '${vBridge_name}' == 'vBridge2' DataFlowsForBridge ${resp} @{BRIDGE2_DATAFLOW}
... ELSE IF '${vBridge_name}' == 'vBridge1_vlan' DataFlowsForBridge ${resp} @{VLANMAP_BRIDGE1_DATAFLOW}
... ELSE DataFlowsForBridge ${resp} @{VLANMAP_BRIDGE2_DATAFLOW}
DataFlowsForBridge
+ [Arguments] ${resp} @{BRIDGE_DATAFLOW}
[Documentation] Verify whether the required attributes exists.
- [Arguments] ${resp} @{BRIDGE_DATAFLOW}
: FOR ${dataflowElement} IN @{BRIDGE_DATAFLOW}
\ should Contain ${resp.content} ${dataflowElement}
: FOR ${pathpolicyElement} IN @{PATHPOLICY_ATTR}
\ should Contain ${resp.content} ${pathpolicyElement}
-Verify flowEntryBeforePathPolicy
- [Documentation] Checking Flows on switch S1 and switch S3 before applying path policy
- write ${DUMPFLOWS}
- ${result} Read Until mininet>
- @{list_to_verify} Create List in_port=1 actions=output:2 actions=output:3
- : FOR ${flowverifyElement} IN @{list_to_verify}
- \ should Contain ${result} ${flowverifyElement}
-
-Verify flowEntryAfterPathPolicy
+Verify flowEntryPathPolicy
+ [Arguments] ${of_version} ${port} ${output}
[Documentation] Checking Flows on switch S1 and switch S3 after applying path policy
+ ${DUMPFLOWS}= Set Variable If "${of_version}"=="OF10" ${DUMPFLOWS_OF10} ${DUMPFLOWS_OF13}
write ${DUMPFLOWS}
${result} Read Until mininet>
- @{list_to_verify} Create List in_port=1 actions=output:3 in_port=2
- : FOR ${flowverifyElement} IN @{list_to_verify}
- \ should Contain ${result} ${flowverifyElement}
+ Should Contain ${result} in_port=${port} actions=${output}
Start PathSuiteVtnMaTest
[Documentation] Start VTN Manager Test Suite and Mininet
Start SuiteVtnMaTest
- Start Mininet ${MININET} ${pathpolicy_topo} ${custom}
+ Start Mininet ${MININET} ${pathpolicy_topo_13} ${custom}
+
+Start PathSuiteVtnMaTestOF10
+ [Documentation] Start VTN Manager Test Suite and Mininet in Open Flow 10 Specification
+ Start SuiteVtnMaTest
+ Start Mininet ${MININET} ${pathpolicy_topo_10} ${custom}
Stop PathSuiteVtnMaTest
[Documentation] Cleanup/Shutdown work at the completion of all tests.
${resp}= RequestsLibrary.Post session ${REST_CONTEXT_VTNS}/${vtn_name}/vbridges/${vBridge_name}/macmap/allow data=${macmap_data} headers=${HEADERS}
Should Be Equal As Strings ${resp.status_code} 201
+Get DynamicMacAddress
+ [Arguments] ${h}
+ [Documentation] Get Dynamic mac address of Host
+ write ${h} ifconfig -a | grep HWaddr
+ ${source} Read Until mininet>
+ ${HWaddress}= Split String ${source} ${SPACE}
+ ${sourceHWaddr}= Get from List ${HWaddress} ${index}
+ ${sourceHWaddress}= Convert To Lowercase ${sourceHWaddr}
+ Return From Keyword ${sourceHWaddress} # Also [Return] would work here.
+
+Add a vBridgeMacMapping
+ [Arguments] ${tenant_name} ${Bridge_name} ${bridge_macmap_data}
+ [Documentation] Create a vbridge macmap for a bridge
+ ${json_data}= json.dumps ${bridge_macmap_data}
+ ${resp}= RequestsLibrary.Post session ${REST_CONTEXT_VTNS}/${tenant_name}/vbridges/${Bridge_name}/macmap/allow data=${json_data} headers=${HEADERS}
+ Should Be Equal As Strings ${resp.status_code} 201
+
Mininet Ping Should Succeed
[Arguments] ${host1} ${host2}
Write ${host1} ping -c 10 ${host2}
Should Be Equal As Strings ${resp.status_code} 200
Start vlan_topo
+ [Arguments] ${OF}
Clean Mininet System
${mininet_conn_id1}= Open Connection ${MININET} prompt=${DEFAULT_LINUX_PROMPT} timeout=30s
Set Suite Variable ${mininet_conn_id1}
Login With Public Key ${MININET_USER} ${USER_HOME}/.ssh/${SSH_KEY} any
Execute Command sudo ovs-vsctl set-manager ptcp:6644
Put File ${CURDIR}/${CREATE_VLAN_TOPOLOGY_FILE_PATH}
- Write ${vlan_topo}
+ Run Keyword If '${OF}' == 'OF13' Write ${vlan_topo_13}
+ ... ELSE IF '${OF}' == 'OF10' Write ${vlan_topo_10}
${result} Read Until mininet>
Add a vlanmap
Should Be Equal As Strings ${resp.status_code} 200
Verify FlowMacAddress
- [Arguments] ${host1} ${host2}
- ${booleanValue}= Run Keyword And Return Status Verify macaddress ${host1} ${host2}
+ [Arguments] ${host1} ${host2} ${OF_VERSION}
+ [Documentation] Verify the source and destination mac address.
+ Run Keyword If '${OF_VERSION}' == 'OF10' Verify Flows On OpenFlow ${host1} ${host2} ${DUMPFLOWS_OF10}
+ ... ELSE VerifyFlowsOnOpenFlow ${host1} ${host2} ${DUMPFLOWS_OF13}
+
+Verify Flows On OpenFlow
+ [Arguments] ${host1} ${host2} ${DUMPFLOWS}
+ [Documentation] Verify the mac addresses on the specified open flow.
+ ${booleanValue}= Run Keyword And Return Status Verify macaddress ${host1} ${host2} ${DUMPFLOWS}
Should Be Equal As Strings ${booleanValue} True
Verify RemovedFlowMacAddress
- [Arguments] ${host1} ${host2}
- ${booleanValue}= Run Keyword And Return Status Verify macaddress ${host1} ${host2}
+ [Arguments] ${host1} ${host2} ${OF_VERSION}
+ [Documentation] Verify the removed source and destination mac address.
+ Run Keyword If '${OF_VERSION}' == 'OF10' Verify Removed Flows On OpenFlow ${host1} ${host2} ${DUMPFLOWS_OF10}
+ ... ELSE VerifyRemovedFlowsOnOpenFlow ${host1} ${host2} ${DUMPFLOWS_OF13}
+
+Verify Removed Flows On OpenFlow
+ [Arguments] ${host1} ${host2} ${DUMPFLOWS}
+ [Documentation] Verify the removed mac addresses on the specified open flow.
+ ${booleanValue}= Run Keyword And Return Status Verify macaddress ${host1} ${host2} ${DUMPFLOWS}
Should Not Be Equal As Strings ${booleanValue} True
Verify macaddress
- [Arguments] ${host1} ${host2}
+ [Arguments] ${host1} ${host2} ${DUMPFLOWS}
+ [Documentation] Verify the source and destination mac address after ping in the dumpflows
write ${host1} ifconfig -a | grep HWaddr
${sourcemacaddr} Read Until mininet>
${macaddress}= Split String ${sourcemacaddr} ${SPACE}
Should Be Equal As Strings ${booleanValue} True
Verify Actions on Flow Entry
- write ${DUMPFLOWS}
+ write ${DUMPFLOWS_OF13}
${result} Read Until mininet>
: FOR ${flowElement} IN @{FLOWELMENTS}
\ should Contain ${result} ${flowElement}