*** Settings ***
-Library SSHLibrary
-Resource Utils.robot
-Library String
Library Collections
-Variables ../variables/Variables.py
+Library ipaddress
+Library OperatingSystem
Library RequestsLibrary
+Library SSHLibrary
+Library String
+Resource ClusterManagement.robot
+Resource Utils.robot
+Resource ${CURDIR}/TemplatedRequests.robot
+Resource ../variables/Variables.robot
+Resource ../variables/netvirt/Variables.robot
*** Variables ***
-${OVSDB_CONFIG_DIR} ../variables/ovsdb
+${OVSDB_CONFIG_DIR} ${CURDIR}/../variables/ovsdb
+${OVSDB_NODE_PORT} 6634
${SOUTHBOUND_CONFIG_API} ${CONFIG_TOPO_API}/topology/ovsdb:1/node/ovsdb:%2F%2F
+${SOUTHBOUND_NODE_CONFIG_API} ${CONFIG_TOPO_API}/topology/ovsdb:1/node/ovsdb:%2F%2F${TOOLS_SYSTEM_IP}:${OVSDB_NODE_PORT}
*** Keywords ***
+Log Request
+ [Arguments] ${resp_content}
+ ${resp_json} = BuiltIn.Run Keyword If '''${resp_content}''' != '${EMPTY}' RequestsLibrary.To Json ${resp_content} pretty_print=True
+ ... ELSE BuiltIn.Set Variable ${EMPTY}
+ BuiltIn.Log ${resp_json}
+ [Return] ${resp_json}
+
+Create OVSDB Node
+ [Arguments] ${node_ip} ${port}=${OVSDB_NODE_PORT}
+ ${body} = OperatingSystem.Get File ${OVSDB_CONFIG_DIR}/create_node.json
+ ${body} = Replace String ${body} 127.0.0.1 ${node_ip}
+ ${body} = Replace String ${body} 61644 ${port}
+ ${uri} = Builtin.Set Variable ${CONFIG_TOPO_API}/topology/ovsdb:1/
+ BuiltIn.Log URI is ${uri}
+ BuiltIn.Log data: ${body}
+ ${resp} = RequestsLibrary.Post Request session ${uri} data=${body}
+ OVSDB.Log Request ${resp.content}
+ BuiltIn.Should Contain ${ALLOWED_STATUS_CODES} ${resp.status_code}
+
Connect To Ovsdb Node
- [Arguments] ${mininet_ip}
+ [Arguments] ${node_ip} ${port}=${OVSDB_NODE_PORT}
[Documentation] This will Initiate the connection to OVSDB node from controller
- ${sample} OperatingSystem.Get File ${OVSDB_CONFIG_DIR}/connect.json
- ${sample1} Replace String ${sample} 127.0.0.1 ${mininet_ip}
- ${body} Replace String ${sample1} 61644 ${OVSDB_PORT}
- Log URL is ${SOUTHBOUND_CONFIG_API}${mininet_ip}:${OVSDB_PORT}
- ${resp} RequestsLibrary.Put session ${SOUTHBOUND_CONFIG_API}${mininet_ip}:${OVSDB_PORT} data=${body}
- Log ${resp.content}
- Should Be Equal As Strings ${resp.status_code} 200
+ ${body} = OperatingSystem.Get File ${OVSDB_CONFIG_DIR}/connect.json
+ ${body} = String.Replace String ${body} 127.0.0.1 ${node_ip}
+ ${body} = String.Replace String ${body} 61644 ${port}
+ ${uri} = BuiltIn.Set Variable ${SOUTHBOUND_CONFIG_API}${node_ip}:${port}
+ BuiltIn.Log URI is ${uri}
+ BuiltIn.Log data: ${body}
+ ${resp} = RequestsLibrary.Put Request session ${uri} data=${body}
+ OVSDB.Log Request ${resp.content}
+ BuiltIn.Should Contain ${ALLOWED_STATUS_CODES} ${resp.status_code}
Disconnect From Ovsdb Node
- [Arguments] ${mininet_ip}
+ [Arguments] ${node_ip} ${port}=${OVSDB_NODE_PORT}
[Documentation] This request will disconnect the OVSDB node from the controller
- ${resp} RequestsLibrary.Delete session ${SOUTHBOUND_CONFIG_API}${mininet_ip}:${OVSDB_PORT}
- Should Be Equal As Strings ${resp.status_code} 200
+ ${resp} = RequestsLibrary.Delete Request session ${SOUTHBOUND_CONFIG_API}${node_ip}:${port}
+ BuiltIn.Should Be Equal As Strings ${resp.status_code} 200
Add Bridge To Ovsdb Node
- [Arguments] ${mininet_ip} ${bridge_num} ${datapath_id}
+ [Arguments] ${node_id} ${node_ip} ${bridge} ${datapath_id} ${port}=${OVSDB_NODE_PORT}
[Documentation] This will create a bridge and add it to the OVSDB node.
- ${sample} OperatingSystem.Get File ${OVSDB_CONFIG_DIR}/create_bridge.json
- ${sample1} Replace String ${sample} tcp:127.0.0.1:6633 tcp:${CONTROLLER}:6633
- ${sample2} Replace String ${sample1} 127.0.0.1 ${mininet_ip}
- ${sample3} Replace String ${sample2} br01 ${bridge_num}
- ${sample4} Replace String ${sample3} 61644 ${OVSDB_PORT}
- ${body} Replace String ${sample4} 0000000000000001 ${datapath_id}
- Log URL is ${SOUTHBOUND_CONFIG_API}${mininet_ip}:${OVSDB_PORT}%2Fbridge%2F${bridge_num}
- ${resp} RequestsLibrary.Put session ${SOUTHBOUND_CONFIG_API}${mininet_ip}:${OVSDB_PORT}%2Fbridge%2F${bridge_num} data=${body}
- Log ${resp.content}
- Should Be Equal As Strings ${resp.status_code} 200
+ ${body} = OperatingSystem.Get File ${OVSDB_CONFIG_DIR}/create_bridge.json
+ ${body} = String.Replace String ${body} ovsdb://127.0.0.1:61644 ovsdb://${node_id}
+ ${body} = String.Replace String ${body} tcp:127.0.0.1:6633 tcp:${ODL_SYSTEM_IP}:6633
+ ${body} = String.Replace String ${body} 127.0.0.1 ${node_ip}
+ ${body} = String.Replace String ${body} br01 ${bridge}
+ ${body} = String.Replace String ${body} 61644 ${port}
+ ${body} = String.Replace String ${body} 0000000000000001 ${datapath_id}
+ ${node_id_} = BuiltIn.Evaluate """${node_id}""".replace("/","%2F")
+ ${uri} = BuiltIn.Set Variable ${SOUTHBOUND_CONFIG_API}${node_id_}%2Fbridge%2F${bridge}
+ BuiltIn.Log URI is ${uri}
+ BuiltIn.Log data: ${body}
+ ${resp} = RequestsLibrary.Put Request session ${uri} data=${body}
+ OVSDB.Log Request ${resp.content}
+ BuiltIn.Should Contain ${ALLOWED_STATUS_CODES} ${resp.status_code}
Delete Bridge From Ovsdb Node
- [Arguments] ${mininet_ip} ${bridge_num}
+ [Arguments] ${node_id} ${bridge}
[Documentation] This request will delete the bridge node from the OVSDB
- ${resp} RequestsLibrary.Delete session ${SOUTHBOUND_CONFIG_API}${mininet_ip}:${OVSDB_PORT}%2Fbridge%2F${bridge_num}
- Should Be Equal As Strings ${resp.status_code} 200
+ ${resp} = RequestsLibrary.Delete Request session ${SOUTHBOUND_CONFIG_API}${node_id}%2Fbridge%2F${bridge}
+ BuiltIn.Should Be Equal As Strings ${resp.status_code} 200
+
+Add Termination Point
+ [Arguments] ${node_id} ${bridge} ${tp_name} ${remote_ip}=${TOOLS_SYSTEM_IP}
+ [Documentation] Using the json data body file as a template, a REST config request is made to
+ ... create a termination-point ${tp_name} on ${bridge} for the given ${node_id}. The ports
+ ... remote-ip defaults to ${TOOLS_SYSTEM_IP}
+ ${body} = OperatingSystem.Get File ${OVSDB_CONFIG_DIR}/create_port.json
+ ${body} = String.Replace String ${body} 192.168.0.21 ${remote_ip}
+ ${body} = String.Replace String ${body} vxlanport ${tp_name}
+ ${node_id_} = BuiltIn.Evaluate """${node_id}""".replace("/","%2F")
+ ${uri} = BuiltIn.Set Variable ${SOUTHBOUND_CONFIG_API}${node_id_}%2Fbridge%2F${bridge}
+ ${resp} = RequestsLibrary.Put Request session ${uri}/termination-point/${tp_name}/ data=${body}
+ BuiltIn.Should Contain ${ALLOWED_STATUS_CODES} ${resp.status_code}
Add Vxlan To Bridge
- [Arguments] ${mininet_ip} ${bridge_num} ${vxlan_port} ${remote_ip} ${custom_port}=create_port.json
+ [Arguments] ${node_ip} ${bridge} ${vxlan_port} ${remote_ip} ${port}=${OVSDB_NODE_PORT}
[Documentation] This request will create vxlan port for vxlan tunnel and attach it to the specific bridge
- ${sample} OperatingSystem.Get File ${OVSDB_CONFIG_DIR}/${custom_port}
- ${body} Replace String ${sample} 192.168.0.21 ${remote_ip}
- Log URL is ${SOUTHBOUND_CONFIG_API}${mininet_ip}:${OVSDB_PORT}%2Fbridge%2F${bridge_num}/termination-point/${vxlan_port}/
- ${resp} RequestsLibrary.Put session ${SOUTHBOUND_CONFIG_API}${mininet_ip}:${OVSDB_PORT}%2Fbridge%2F${bridge_num}/termination-point/${vxlan_port}/ data=${body}
- Log ${resp.content}
- Should Be Equal As Strings ${resp.status_code} 200
+ OVSDB.Add Termination Point ${node_ip}:${port} ${bridge} ${vxlan_port} ${remote_ip}
+
+Verify OVS Reports Connected
+ [Arguments] ${tools_system}=${TOOLS_SYSTEM_IP}
+ [Documentation] Uses "vsctl show" to check for string "is_connected"
+ ${output} = Verify Ovs-vsctl Output show is_connected ${tools_system}
+ [Return] ${output}
+
+Verify Ovs-vsctl Output
+ [Arguments] ${vsctl_args} ${expected_output} ${ovs_system}=${TOOLS_SYSTEM_IP} ${should_match}=True
+ [Documentation] A wrapper keyword to make it easier to validate ovs-vsctl output, and gives an easy
+ ... way to check this output in a WUKS. The argument ${should_match} can control if the match should
+ ... exist (True} or not (False) or don't care (anything but True or False). ${should_match} is True by default
+ ${output} = Utils.Run Command On Mininet ${ovs_system} sudo ovs-vsctl ${vsctl_args}
+ BuiltIn.Log ${output}
+ BuiltIn.Run Keyword If "${should_match}" == "True" BuiltIn.Should Contain ${output} ${expected_output}
+ BuiltIn.Run Keyword If "${should_match}" == "False" BuiltIn.Should Not Contain ${output} ${expected_output}
+ [Return] ${output}
+
+Get OVSDB UUID
+ [Arguments] ${ovs_system_ip}=${TOOLS_SYSTEM_IP} ${controller_http_session}=session
+ [Documentation] Queries the topology in the operational datastore and searches for the node that has
+ ... the ${ovs_system_ip} argument as the "remote-ip". If found, the value returned will be the value of
+ ... node-id stripped of "ovsdb://uuid/". If not found, ${EMPTY} will be returned.
+ ${uuid} = Set Variable ${EMPTY}
+ ${resp} = RequestsLibrary.Get Request ${controller_http_session} ${OPERATIONAL_TOPO_API}/topology/ovsdb:1
+ OVSDB.Log Request ${resp.content}
+ BuiltIn.Should Be Equal As Strings ${resp.status_code} 200
+ ${resp_json} = RequestsLibrary.To Json ${resp.content}
+ ${topologies} = Collections.Get From Dictionary ${resp_json} topology
+ ${topology} = Collections.Get From List ${topologies} 0
+ ${node_list} = Collections.Get From Dictionary ${topology} node
+ BuiltIn.Log ${node_list}
+ # Since bridges are also listed as nodes, but will not have the extra "ovsdb:connection-info data,
+ # we need to use "Run Keyword And Ignore Error" below.
+ : FOR ${node} IN @{node_list}
+ \ ${node_id} = Collections.Get From Dictionary ${node} node-id
+ \ ${node_uuid} = String.Replace String ${node_id} ovsdb://uuid/ ${EMPTY}
+ \ ${status} ${connection_info} = BuiltIn.Run Keyword And Ignore Error Collections.Get From Dictionary ${node} ovsdb:connection-info
+ \ ${status} ${remote_ip} = BuiltIn.Run Keyword And Ignore Error Collections.Get From Dictionary ${connection_info} remote-ip
+ \ ${uuid} = Set Variable If '${remote_ip}' == '${ovs_system_ip}' ${node_uuid} ${uuid}
+ [Return] ${uuid}
Collect OVSDB Debugs
- [Arguments] ${switch}=br-int
+ [Arguments] ${switch}=${INTEGRATION_BRIDGE}
[Documentation] Used to log useful test debugs for OVSDB related system tests.
- ${output}= Run Command On Remote System ${TOOLS_SYSTEM_IP} sudo ovs-vsctl show
- Log ${output}
- ${output}= Run Command On Remote System ${TOOLS_SYSTEM_IP} sudo ovs-ofctl -O OpenFlow13 dump-flows ${switch} | cut -d',' -f3-
- Log ${output}
+ ${output} = Utils.Run Command On Mininet ${TOOLS_SYSTEM_IP} sudo ovs-vsctl show
+ BuiltIn.Log ${output}
+ ${output} = Utils.Run Command On Mininet ${TOOLS_SYSTEM_IP} sudo ovs-ofctl -O OpenFlow13 dump-flows ${switch} | cut -d',' -f3-
+ BuiltIn.Log ${output}
+
+Clean OVSDB Test Environment
+ [Arguments] ${tools_system}=${TOOLS_SYSTEM_IP}
+ [Documentation] General Use Keyword attempting to sanitize test environment for OVSDB related
+ ... tests. Not every step will always be neccessary, but should not cause any problems for
+ ... any new ovsdb test suites.
+ Utils.Clean Mininet System ${tools_system}
+ Utils.Run Command On Mininet ${tools_system} sudo ovs-vsctl del-manager
+ Utils.Run Command On Mininet ${tools_system} sudo /usr/share/openvswitch/scripts/ovs-ctl stop
+ Utils.Run Command On Mininet ${tools_system} sudo rm -rf /etc/openvswitch/conf.db
+ Utils.Run Command On Mininet ${tools_system} sudo /usr/share/openvswitch/scripts/ovs-ctl start
+
+Restart OVSDB
+ [Arguments] ${ovs_ip}
+ [Documentation] Restart the OVS node without cleaning the current configuration.
+ ${output} = Utils.Run Command On Mininet ${ovs_ip} sudo systemctl restart openvswitch
+ BuiltIn.Log ${output}
+
+Set Controller In OVS Bridge
+ [Arguments] ${tools_system} ${bridge} ${controller_opt} ${ofversion}=13
+ [Documentation] Sets controller for the OVS bridge ${bridge} using ${controller_opt} and OF version ${ofversion}.
+ Utils.Run Command On Mininet ${tools_system} sudo ovs-vsctl set bridge ${bridge} protocols=OpenFlow${ofversion}
+ Utils.Run Command On Mininet ${tools_system} sudo ovs-vsctl set-controller ${bridge} ${controller_opt}
+
+Check OVS OpenFlow Connections
+ [Arguments] ${tools_system} ${of_connections}
+ [Documentation] Check OVS instance with IP ${tools_system} has ${of_connections} OpenFlow connections.
+ ${output} = Utils.Run Command On Mininet ${tools_system} sudo ovs-vsctl show
+ BuiltIn.Log ${output}
+ BuiltIn.Should Contain X Times ${output} is_connected ${of_connections}
+
+Add Multiple Managers to OVS
+ [Arguments] ${tools_system}=${TOOLS_SYSTEM_IP} ${controller_index_list}=${EMPTY} ${ovs_mgr_port}=6640
+ [Documentation] Connect OVS to the list of controllers in the ${controller_index_list} or all if no list is provided.
+ ${index_list} = ClusterManagement.List Indices Or All given_list=${controller_index_list}
+ Utils.Clean Mininet System ${tools_system}
+ ${ovs_opt} = BuiltIn.Set Variable
+ : FOR ${index} IN @{index_list}
+ \ ${ovs_opt} = BuiltIn.Catenate ${ovs_opt} ${SPACE}tcp:${ODL_SYSTEM_${index}_IP}:${ovs_mgr_port}
+ \ BuiltIn.Log ${ovs_opt}
+ Utils.Run Command On Mininet ${tools_system} sudo ovs-vsctl set-manager ${ovs_opt}
+ ${output} = BuiltIn.Wait Until Keyword Succeeds 5s 1s Verify OVS Reports Connected ${tools_system}
+ BuiltIn.Log ${output}
+ ${controller_index} = Collections.Get_From_List ${index_list} 0
+ ${session} = ClusterManagement.Resolve_Http_Session_For_Member member_index=${controller_index}
+ ${ovsdb_uuid} = BuiltIn.Wait Until Keyword Succeeds 30s 2s OVSDB.Get OVSDB UUID controller_http_session=${session}
+ [Return] ${ovsdb_uuid}
+
+Get DPID
+ [Arguments] ${ip}
+ [Documentation] Returns the dpnid from the system at the given ip address using ovs-ofctl assuming br-int is present.
+ ${output} = Utils.Run Command On Remote System ${ip} sudo ovs-ofctl show -O Openflow13 ${INTEGRATION_BRIDGE} | head -1 | awk -F "dpid:" '{print $2}'
+ ${dpnid} = BuiltIn.Convert To Integer ${output} 16
+ BuiltIn.Log ${dpnid}
+ [Return] ${dpnid}
+
+Get Subnet
+ [Arguments] ${ip}
+ [Documentation] Return the subnet from the system at the given ip address and interface
+ ${output} = Utils.Run Command On Remote System ${ip} /usr/sbin/ip addr show | grep ${ip} | cut -d' ' -f6
+ ${interface} = ipaddress.ip_interface ${output}
+ ${network} = BuiltIn.Set Variable ${interface.network.__str__()}
+ [Return] ${network}
+
+Get Ethernet Adapter
+ [Arguments] ${ip}
+ [Documentation] Returns the ethernet adapter name from the system at the given ip address using ip addr show.
+ ${adapter} = Utils.Run Command On Remote System ${ip} /usr/sbin/ip addr show | grep ${ip} | cut -d " " -f 11
+ BuiltIn.Log ${adapter}
+ [Return] ${adapter}
+
+Get Default Gateway
+ [Arguments] ${ip}
+ [Documentation] Returns the default gateway at the given ip address using route command.
+ ${gateway} = Utils.Run Command On Remote System ${ip} /usr/sbin/route -n | grep '^0.0.0.0' | cut -d " " -f 10
+ BuiltIn.Log ${gateway}
+ [Return] ${gateway}
+
+Get Port Number
+ [Arguments] ${subportid} ${ip_addr}
+ [Documentation] Get the port number for the given sub-port id
+ ${command} = Set Variable sudo ovs-ofctl -O OpenFlow13 show ${INTEGRATION_BRIDGE} | grep ${subportid} | awk '{print$1}'
+ BuiltIn.Log sudo ovs-ofctl -O OpenFlow13 show ${INTEGRATION_BRIDGE} | grep ${subportid} | awk '{print$1}'
+ ${output} = Utils.Run Command On Remote System ${ip_addr} ${command}
+ ${port_number} = BuiltIn.Should Match Regexp ${output} [0-9]+
+ [Return] ${port_number}
+
+Get Port Metadata
+ [Arguments] ${ip_addr} ${port}
+ [Documentation] Get the Metadata for a given port
+ ${cmd} = Set Variable sudo ovs-ofctl dump-flows -O Openflow13 ${INTEGRATION_BRIDGE} | grep table=0 | grep in_port=${port}
+ ${output} = Utils.Run Command On Remote System ${ip_addr} ${cmd}
+ @{list_any_matches} = String.Get_Regexp_Matches ${output} metadata:(\\w{12}) 1
+ ${metadata} = Builtin.Convert To String @{list_any_matches}
+ ${output} = String.Get Substring ${metadata} 2
+ [Return] ${output}
+
+Log Config And Operational Topology
+ [Documentation] For debugging purposes, this will log both config and operational topo data stores
+ ${resp} RequestsLibrary.Get Request session ${CONFIG_TOPO_API}
+ OVSDB.Log Request ${resp.content}
+ ${resp} = RequestsLibrary.Get Request session ${OPERATIONAL_TOPO_API}
+ OVSDB.Log Request ${resp.content}
+
+Config and Operational Topology Should Be Empty
+ [Documentation] This will check that only the expected output is there for both operational and config
+ ... topology data stores. Empty probably means that only ovsdb:1 is there.
+ ${config_resp} RequestsLibrary.Get Request session ${CONFIG_TOPO_API}
+ ${operational_resp} RequestsLibrary.Get Request session ${OPERATIONAL_TOPO_API}
+ BuiltIn.Should Contain ${config_resp.content} {"topology-id":"ovsdb:1"}
+ BuiltIn.Should Contain ${operational_resp.content} {"topology-id":"ovsdb:1"}
+
+Modify Multi Port Body
+ [Arguments] ${ovs_1_port_name} ${ovs_2_port_name} ${bridge}
+ [Documentation] Updates two port names for the given ${bridge} in config store
+ ${body} = OperatingSystem.Get File ${OVSDB_CONFIG_DIR}/bug_7414/create_multiple_ports.json
+ ${ovs_1_ovsdb_uuid} = Get OVSDB UUID ${TOOLS_SYSTEM_IP}
+ ${ovs_2_ovsdb_uuid} = Get OVSDB UUID ${TOOLS_SYSTEM_2_IP}
+ ${body} = Replace String ${body} OVS_1_UUID ${ovs_1_ovsdb_uuid}
+ ${body} = Replace String ${body} OVS_2_UUID ${ovs_2_ovsdb_uuid}
+ ${body} = Replace String ${body} OVS_1_BRIDGE_NAME ${bridge}
+ ${body} = Replace String ${body} OVS_2_BRIDGE_NAME ${bridge}
+ ${body} = Replace String ${body} OVS_1_IP ${TOOLS_SYSTEM_IP}
+ ${body} = Replace String ${body} OVS_2_IP ${TOOLS_SYSTEM_2_IP}
+ ${body} = Replace String ${body} OVS_1_PORT_NAME ${ovs_1_port_name}
+ ${body} = Replace String ${body} OVS_2_PORT_NAME ${ovs_2_port_name}
+ ${uri} = Builtin.Set Variable ${CONFIG_TOPO_API}
+ BuiltIn.Log URI is ${uri}
+ BuiltIn.Log data: ${body}
+ ${resp} = RequestsLibrary.Put Request session ${uri} data=${body}
+ OVSDB.Log Request ${resp.content}
+ BuiltIn.Should Contain ${ALLOWED_STATUS_CODES} ${resp.status_code}
+ [Return] ${body}
+
+Create Qos
+ [Arguments] ${qos}
+ ${body} = OperatingSystem.Get File ${OVSDB_CONFIG_DIR}/create_qos.json
+ ${uri} = BuiltIn.Set Variable ${CONFIG_TOPO_API}/topology/ovsdb:1/node/ovsdb:HOST1/ovsdb:qos-entries/${qos}/
+ ${body} = Replace String ${body} QOS-1 ${qos}
+ BuiltIn.Log URI is ${uri}
+ BuiltIn.Log data: ${body}
+ ${resp} = RequestsLibrary.Put Request session ${uri} data=${body}
+ OVSDB.Log Request ${resp.content}
+ BuiltIn.Should Contain ${ALLOWED_STATUS_CODES} ${resp.status_code}
+
+Create Queue
+ [Arguments] ${queue}
+ ${body} = OperatingSystem.Get File ${OVSDB_CONFIG_DIR}/create_qoslinkedqueue.json
+ ${body} = Replace String ${body} QUEUE-1 ${queue}
+ ${uri} = BuiltIn.Set Variable ${CONFIG_TOPO_API}/topology/ovsdb:1/node/ovsdb:HOST1/ovsdb:queues/${queue}/
+ BuiltIn.Log URI is ${uri}
+ BuiltIn.Log data: ${body}
+ ${resp} = RequestsLibrary.Put Request session ${uri} data=${body}
+ OVSDB.Log Request ${resp.content}
+ BuiltIn.Should Contain ${ALLOWED_STATUS_CODES} ${resp.status_code}
+
+Update Qos
+ [Arguments] ${qos}
+ ${body} = OperatingSystem.Get File ${OVSDB_CONFIG_DIR}/update_existingqos.json
+ ${uri} = BuiltIn.Set Variable ${CONFIG_TOPO_API}/topology/ovsdb:1/node/ovsdb:HOST1/ovsdb:qos-entries/${QOS}/
+ BuiltIn.Log URL is ${uri}
+ BuiltIn.Log data: ${body}
+ ${resp} = RequestsLibrary.Put Request session ${uri} data=${body}
+ OVSDB.Log Request ${resp.content}
+ BuiltIn.Should Contain ${ALLOWED_STATUS_CODES} ${resp.status_code}
+
+Create Qos Linked Queue
+ ${body} OperatingSystem.Get File ${OVSDB_CONFIG_DIR}/bug_7160/create_qoslinkedqueue.json
+ ${resp} RequestsLibrary.Put Request session ${CONFIG_TOPO_API}/topology/ovsdb:1/node/ovsdb:HOST1 data=${body}
+ OVSDB.Log Request ${resp.content}
+ BuiltIn.Should Contain ${ALLOWED_STATUS_CODES} ${resp.status_code}
+
+Add OVS Logging
+ [Arguments] ${conn_id}
+ [Documentation] Add higher levels of OVS logging
+ SSHLibrary.Switch Connection ${conn_id}
+ @{modules} = BuiltIn.Create List bridge:file:dbg connmgr:file:dbg inband:file:dbg ofp_actions:file:dbg ofp_errors:file:dbg
+ ... ofp_msgs:file:dbg ovsdb_error:file:dbg rconn:file:dbg tunnel:file:dbg vconn:file:dbg
+ : FOR ${module} IN @{modules}
+ \ Utils.Write Commands Until Expected Prompt sudo ovs-appctl --target ovs-vswitchd vlog/set ${module} ${DEFAULT_LINUX_PROMPT_STRICT}
+ Utils.Write Commands Until Expected Prompt sudo ovs-appctl --target ovs-vswitchd vlog/list ${DEFAULT_LINUX_PROMPT_STRICT}
+
+Reset OVS Logging
+ [Arguments] ${conn_id}
+ [Documentation] Reset the OVS logging
+ SSHLibrary.Switch Connection ${conn_id}
+ ${output} = Utils.Write Commands Until Expected Prompt sudo ovs-appctl --target ovs-vswitchd vlog/set :file:info ${DEFAULT_LINUX_PROMPT_STRICT}
+
+Suite Setup
+ SetupUtils.Setup_Utils_For_Setup_And_Teardown
+ KarafKeywords.Open Controller Karaf Console On Background
+ RequestsLibrary.Create Session session http://${ODL_SYSTEM_IP}:${RESTCONFPORT} auth=${AUTH} headers=${HEADERS}
+ OVSDB.Log Config And Operational Topology
+
+Suite Teardown
+ [Arguments] ${uris}=@{EMPTY}
+ [Documentation] Cleans up test environment, close existing sessions.
+ OVSDB.Clean OVSDB Test Environment ${TOOLS_SYSTEM_IP}
+ : FOR ${uri} IN @{uris}
+ \ RequestsLibrary.Delete Request session ${uri}
+ ${resp} = RequestsLibrary.Get Request session ${CONFIG_TOPO_API}
+ OVSDB.Log Config And Operational Topology
+ RequestsLibrary.Delete All Sessions
+
+Get DumpFlows And Ovsconfig
+ [Arguments] ${conn_id} ${bridge}
+ [Documentation] Get the OvsConfig and Flow entries from OVS
+ SSHLibrary.Switch Connection ${conn_id}
+ Write Commands Until Expected Prompt sudo ovs-vsctl show ${DEFAULT_LINUX_PROMPT_STRICT}
+ Write Commands Until Expected Prompt sudo ovs-vsctl list Open_vSwitch ${DEFAULT_LINUX_PROMPT_STRICT}
+ Write Commands Until Expected Prompt sudo ovs-ofctl show ${bridge} -OOpenFlow13 ${DEFAULT_LINUX_PROMPT_STRICT}
+ Write Commands Until Expected Prompt sudo ovs-ofctl dump-flows ${bridge} -OOpenFlow13 ${DEFAULT_LINUX_PROMPT_STRICT}
+ Write Commands Until Expected Prompt sudo ovs-ofctl dump-groups ${bridge} -OOpenFlow13 ${DEFAULT_LINUX_PROMPT_STRICT}
+ Write Commands Until Expected Prompt sudo ovs-ofctl dump-group-stats ${bridge} -OOpenFlow13 ${DEFAULT_LINUX_PROMPT_STRICT}
+ Write Commands Until Expected Prompt sudo ovs-vsctl list interface ${DEFAULT_LINUX_PROMPT_STRICT}
+
+Start OVS
+ [Arguments] ${ovs_ip}
+ [Documentation] start the OVS node.
+ ${output} = Utils.Run Command On Mininet ${ovs_ip} sudo /usr/share/openvswitch/scripts/ovs-ctl start
+ BuiltIn.Log ${output}
+
+Stop OVS
+ [Arguments] ${ovs_ip}
+ [Documentation] Stop the OVS node.
+ ${output} = Utils.Run Command On Mininet ${ovs_ip} sudo /usr/share/openvswitch/scripts/ovs-ctl stop
+ BuiltIn.Log ${output}
+
+Get Bridge Data
+ [Documentation] This keyword returns first bridge name and UUID from list of bridges.
+ ${result} = SSHLibrary.Execute Command sudo ovs-vsctl show
+ ${uuid} = String.Get Line ${result} 0
+ ${line} ${bridge_name} Builtin.Should Match Regexp ${result} Bridge ([\\w-]+)
+ [Return] ${uuid} ${bridge_name}
+
+Delete OVS Controller
+ [Arguments] ${ovs_ip} ${bridge}=${INTEGRATION_BRIDGE}
+ [Documentation] Delete controller from OVS
+ ${del_ctr} = Utils.Run Command On Remote System ${ovs_ip} sudo ovs-vsctl del-controller ${bridge}
+ BuiltIn.Log ${del_ctr}
+
+Delete OVS Manager
+ [Arguments] ${ovs_ip}
+ [Documentation] Delete manager from OVS
+ ${del_mgr} = Utils.Run Command On Remote System ${ovs_ip} sudo ovs-vsctl del-manager
+ BuiltIn.Log ${del_mgr}
+
+Delete Groups On Bridge
+ [Arguments] ${ovs_ip} ${br}=${INTEGRATION_BRIDGE}
+ [Documentation] Delete OVS groups from ${br}
+ ${del_grp} = Utils.Run Command On Remote System ${ovs_ip} sudo ovs-ofctl -O Openflow13 del-groups ${br}
+ BuiltIn.Log ${del_grp}
+
+Get Ports From Bridge By Type
+ [Arguments] ${ovs_ip} ${br} ${type}
+ [Documentation] Get ${type} ports for a bridge ${br} on node ${ovs_ip}.
+ ${ports} = Utils.Run Command On Remote System ${ovs_ip} sudo ovs-vsctl list-ports ${br} | grep "${type}"
+ ${ports_list} = String.Split to lines ${ports}
+ [Return] ${ports_list}
+
+Delete Ports On Bridge By Type
+ [Arguments] ${ovs_ip} ${br} ${type}
+ [Documentation] List all ports of ${br} and delete ${type} ports
+ ${ports_present} = Get Ports From Bridge By Type ${ovs_ip} ${br} ${type}
+ : FOR ${port} IN @{ports_present}
+ \ ${del-ports} = Utils.Run Command On Remote System ${ovs_ip} sudo ovs-vsctl del-port ${br} ${port}
+ \ BuiltIn.Log ${del-ports}
+ ${ports_present_after_delete} = Get Ports From Bridge By Type ${ovs_ip} ${br} ${type}
+ BuiltIn.Log ${ports_present_after_delete}
+
+Get Tunnel Id And Packet Count
+ [Arguments] ${conn_id} ${table_id} ${tun_id} ${mac}=""
+ [Documentation] Get tunnel id and packet count from specified table id
+ ... Using regex get the n_packet and the tunnel_id from the table flow.
+ ${tun_id} = BuiltIn.Convert To Hex ${tun_id} prefix=0x lowercase=yes
+ ${cmd} = BuiltIn.Run Keyword If "${table_id}" == "${INTERNAL_TUNNEL_TABLE}" BuiltIn.Set Variable sudo ovs-ofctl dump-flows br-int -OOpenFlow13 | grep table=${table_id} | grep ${mac} | grep tun_id=${tun_id} | grep goto_table:${ELAN_DMACTABLE}
+ ... ELSE BuiltIn.Set Variable sudo ovs-ofctl dump-flows br-int -OOpenFlow13 | grep table=${table_id} | grep ${mac}
+ SSHLibrary.Switch Connection ${conn_id}
+ ${output} = Utils.Write Commands Until Expected Prompt ${cmd} ${DEFAULT_LINUX_PROMPT_STRICT}
+ @{list}= Split to lines ${output}
+ ${output} = Set Variable @{list}[0]
+ ${output} = String.Get Regexp Matches ${output} n_packets=([0-9]+),.*set_field:(0x[0-9a-z]+)|n_packets=([0-9]+),.*tun_id=(0x[0-9a-z]+) 1 2 3
+ ... 4
+ ${output} = BuiltIn.Set Variable @{output}[0]
+ ${output} Convert To List ${output}
+ ${packet_count} ${tunnel_id} = BuiltIn.Run Keyword If "${table_id}" == "${ELAN_DMACTABLE}" BuiltIn.Set Variable @{output}[0] @{output}[1]
+ ... ELSE IF "${table_id}" == "${INTERNAL_TUNNEL_TABLE}" BuiltIn.Set Variable @{output}[2] @{output}[3]
+ ... ELSE IF "${table_id}" == "${L3_TABLE}" BuiltIn.Set Variable @{output}[0] @{output}[1]
+ ${tunnel_id} = Convert To Integer ${tunnel_id} 16
+ [Return] ${tunnel_id} ${packet_count}
+
+Verify Dump Flows For Specific Table
+ [Arguments] ${compute_ip} ${table_num} ${flag} ${additional_args}=${EMPTY} @{matching_paras}
+ [Documentation] To Verify flows are present for the corresponding table Number
+ ${flow_output} = Utils.Run Command On Remote System ${compute_ip} sudo ovs-ofctl -O OpenFlow13 dump-flows ${INTEGRATION_BRIDGE}|grep table=${table_num} ${additional_args}
+ Log ${flow_output}
+ : FOR ${matching_str} IN @{matching_paras}
+ \ BuiltIn.Run Keyword If ${flag}==True BuiltIn.Should Contain ${flow_output} ${matching_str}
+ \ ... ELSE BuiltIn.Should Not Contain ${flow_output} ${matching_str}
+
+Verify Vni Segmentation Id and Tunnel Id
+ [Arguments] ${port1} ${port2} ${net1} ${net2} ${vm1_ip} ${vm2_ip}
+ ... ${ip}=""
+ [Documentation] Get tunnel id and packet count from specified table id and destination port mac address
+ ${port_mac1} = OpenStackOperations.Get Port Mac ${port1}
+ ${port_mac2} = OpenStackOperations.Get Port Mac ${port2}
+ ${segmentation_id1} = OpenStackOperations.Get Network Segmentation Id ${net1}
+ ${segmentation_id2} = OpenStackOperations.Get Network Segmentation Id ${net2}
+ ${egress_tun_id} ${before_count_egress_port1} = OVSDB.Get Tunnel Id And Packet Count ${OS_CMP1_CONN_ID} ${L3_TABLE} tun_id=${segmentation_id2} mac=${port_mac2}
+ BuiltIn.Should Be Equal As Numbers ${segmentation_id2} ${egress_tun_id}
+ ${egress_tun_id} ${before_count_egress_port2} = OVSDB.Get Tunnel Id And Packet Count ${OS_CMP2_CONN_ID} ${L3_TABLE} tun_id=${segmentation_id1} mac=${port_mac1}
+ BuiltIn.Should Be Equal As Numbers ${segmentation_id1} ${egress_tun_id}
+ ${ingress_tun_id} ${before_count_ingress_port1} = OVSDB.Get Tunnel Id And Packet Count ${OS_CMP1_CONN_ID} ${INTERNAL_TUNNEL_TABLE} tun_id=${segmentation_id1}
+ BuiltIn.Should Be Equal As Numbers ${segmentation_id1} ${ingress_tun_id}
+ ${ingress_tun_id} ${before_count_ingress_port2} = OVSDB.Get Tunnel Id And Packet Count ${OS_CMP2_CONN_ID} ${INTERNAL_TUNNEL_TABLE} tun_id=${segmentation_id2}
+ BuiltIn.Should Be Equal As Numbers ${segmentation_id2} ${ingress_tun_id}
+ ${ping_cmd} = BuiltIn.Run Keyword If '${ip}'=='ipv4' BuiltIn.Set Variable ping -c ${DEFAULT_PING_COUNT} ${vm2_ip}
+ ... ELSE BuiltIn.Set Variable ping6 -c ${DEFAULT_PING_COUNT} ${vm2_ip}
+ ${output} = OpenStackOperations.Execute Command on VM Instance ${net1} ${vm1_ip} ${ping_cmd}
+ BuiltIn.Should Contain ${output} 64 bytes
+ BuiltIn.Wait Until Keyword Succeeds 60s 5s OVSDB.Verify Vni Packet Count After Traffic ${before_count_egress_port1} ${before_count_egress_port2} ${before_count_ingress_port1}
+ ... ${before_count_ingress_port2} ${segmentation_id1} ${segmentation_id2} ${port_mac1} ${port_mac2}
+
+Verify Vni Packet Count After Traffic
+ [Arguments] ${before_count_egress_port1} ${before_count_egress_port2} ${before_count_ingress_port1} ${before_count_ingress_port2} ${segmentation_id1} ${segmentation_id2}
+ ... ${port_mac1} ${port_mac2}
+ [Documentation] Verify the packet count after the traffic sent
+ ${tun_id} ${after_count_egress_port2} = OVSDB.Get Tunnel Id And Packet Count ${OS_CMP2_CONN_ID} ${L3_TABLE} tun_id=${segmentation_id1} mac=${port_mac1}
+ ${tun_id} ${after_count_ingress_port2} = OVSDB.Get Tunnel Id And Packet Count ${OS_CMP2_CONN_ID} ${INTERNAL_TUNNEL_TABLE} tun_id=${segmentation_id2}
+ ${tun_id} ${after_count_egress_port1} = OVSDB.Get Tunnel Id And Packet Count ${OS_CMP1_CONN_ID} ${L3_TABLE} tun_id=${segmentation_id2} mac=${port_mac2}
+ ${tun_id} ${after_count_ingress_port1} = OVSDB.Get Tunnel Id And Packet Count ${OS_CMP1_CONN_ID} ${INTERNAL_TUNNEL_TABLE} tun_id=${segmentation_id1}
+ ${diff_count_egress_port1} = BuiltIn.Evaluate ${after_count_egress_port1} - ${before_count_egress_port1}
+ ${diff_count_ingress_port1} = BuiltIn.Evaluate ${after_count_ingress_port1} - ${before_count_ingress_port1}
+ ${diff_count_egress_port2} = BuiltIn.Evaluate ${after_count_egress_port2} - ${before_count_egress_port2}
+ ${diff_count_ingress_port2} = BuiltIn.Evaluate ${after_count_ingress_port2} - ${before_count_ingress_port2}
+ BuiltIn.Should Be True ${diff_count_egress_port1} >= ${DEFAULT_PING_COUNT}
+ BuiltIn.Should Be True ${diff_count_ingress_port1} >= ${DEFAULT_PING_COUNT}
+ BuiltIn.Should Be True ${diff_count_egress_port2} >= ${DEFAULT_PING_COUNT}
+ BuiltIn.Should Be True ${diff_count_ingress_port2} >= ${DEFAULT_PING_COUNT}