*** Settings ***
Documentation Library containing Keywords used for SXP cluster testing
+Library Collections
Library RequestsLibrary
Resource ./ClusterManagement.robot
+Resource ./CompareStream.robot
Resource ./SetupUtils.robot
Resource ./SxpLib.robot
@{SXP_PACKAGE} org.opendaylight.sxp
${DEVICE_SESSION} device_1
${CONTROLLER_SESSION} ClusterManagement__session_1
-${SXP_LOG_LEVEL} INFO
${VIRTUAL_IP} ${TOOLS_SYSTEM_2_IP}
${VIRTUAL_IP_MASK} 255.255.255.0
${VIRTUAL_INTERFACE} dummy0
[Documentation] Create sessions asociated with SXP cluster setup
ClusterManagement.ClusterManagement_Setup
SetupUtils.Setup_Utils_For_Setup_And_Teardown
- SetupUtils.Setup_Logging_For_Debug_Purposes_On_List_Or_All ${SXP_LOG_LEVEL} ${SXP_PACKAGE}
+ SetupUtils.Setup_Logging_For_Debug_Purposes_On_List_Or_All DEBUG ${SXP_PACKAGE}
Setup Device Session
[Documentation] Create session on the SXP device
Clean SXP Cluster Session
[Documentation] Clean sessions asociated with SXP cluster setup
ClusterManagement.Flush_Iptables_From_List_Or_All
+ BuiltIn.Wait Until Keyword Succeeds 60x 1s ClusterManagement.Verify_Members_Are_Ready member_index_list=${EMPTY} verify_cluster_sync=True verify_restconf=True
+ ... verify_system_status=False service_list=@{EMPTY}
RequestsLibrary.Delete All Sessions
SetupUtils.Setup_Logging_For_Debug_Purposes_On_List_Or_All INFO ${SXP_PACKAGE}
Check Shards Status
[Documentation] Check Status for all shards in SXP application.
ClusterManagement.Check_Cluster_Is_In_Sync
+ CompareStream.Run_Keyword_If_At_Least_Phosphorus Collections.Remove Values From List ${SHARD_OPER_LIST} entity-ownership
+ Log ${SHARD_OPER_LIST}
ClusterManagement.Verify_Leader_Exists_For_Each_Shard shard_name_list=${SHARD_OPER_LIST} shard_type=operational
ClusterManagement.Verify_Leader_Exists_For_Each_Shard shard_name_list=${SHARD_CONF_LIST} shard_type=config
[Arguments] ${peer_mode}=listener
[Documentation] Setup and connect SXP cluster topology
SxpLib.Add Node ${DEVICE_NODE_ID} session=${DEVICE_SESSION}
- : FOR ${i} IN RANGE ${NUM_ODL_SYSTEM}
- \ SxpLib.Add Connection version4 ${peer_mode} ${ODL_SYSTEM_${i+1}_IP} 64999 node=${DEVICE_NODE_ID}
- \ ... session=${DEVICE_SESSION}
+ BuiltIn.Wait Until Keyword Succeeds 240x 1s SxpLib.Check Node Started ${DEVICE_NODE_ID} session=${DEVICE_SESSION}
+ FOR ${i} IN RANGE ${NUM_ODL_SYSTEM}
+ SxpLib.Add Connection version4 ${peer_mode} ${ODL_SYSTEM_${i+1}_IP} 64999 node=${DEVICE_NODE_ID}
+ ... session=${DEVICE_SESSION}
+ END
${cluster_mode} = Sxp.Get Opposing Mode ${peer_mode}
SxpLib.Add Node ${INADDR_ANY} session=${CONTROLLER_SESSION}
+ BuiltIn.Wait Until Keyword Succeeds 240x 1s Check Cluster Node Started ${INADDR_ANY} ip=${EMPTY}
SxpLib.Add Connection version4 ${cluster_mode} ${DEVICE_NODE_ID} 64999 ${INADDR_ANY} session=${CONTROLLER_SESSION}
- BuiltIn.Wait Until Keyword Succeeds 12x 10s SxpLib.Check Node Started ${DEVICE_NODE_ID} session=${DEVICE_SESSION}
- BuiltIn.Wait Until Keyword Succeeds 12x 10s Check Cluster Node started ${INADDR_ANY} ip=${EMPTY}
- BuiltIn.Wait Until Keyword Succeeds 48x 10s Check Device is Connected ${DEVICE_NODE_ID} session=${DEVICE_SESSION}
+ BuiltIn.Wait Until Keyword Succeeds 480x 1s Check Device is Connected ${DEVICE_NODE_ID} session=${DEVICE_SESSION}
Clean SXP Cluster
[Documentation] Disconnect SXP cluster topology
SxpLib.Delete Node ${DEVICE_NODE_ID} session=${DEVICE_SESSION}
- BuiltIn.Wait Until Keyword Succeeds 3x 10s SxpLib.Delete Node ${INADDR_ANY} session=${CONTROLLER_SESSION}
+ BuiltIn.Wait Until Keyword Succeeds 240x 1s SxpLib.Check Node Stopped ${DEVICE_NODE_ID} session=${DEVICE_SESSION}
+ BuiltIn.Wait Until Keyword Succeeds 60x 1s SxpLib.Delete Node ${INADDR_ANY} session=${CONTROLLER_SESSION}
+ BuiltIn.Wait Until Keyword Succeeds 240x 1s SxpClusterLib.Check Cluster Node Stopped ${INADDR_ANY} ip=${EMPTY}
-Check Cluster Node started
+Check Cluster Node Started
[Arguments] ${node} ${port}=64999 ${ip}=${node}
[Documentation] Verify that SxpNode has data written to Operational datastore and Node is running on one of cluster nodes
+ ${resp} = RequestsLibrary.Get Request ${CONTROLLER_SESSION} /restconf/operational/network-topology:network-topology/topology/sxp/node/${node}/
+ BuiltIn.Should Be Equal As Strings ${resp.status_code} 200
${started} = BuiltIn.Set Variable ${False}
- : FOR ${i} IN RANGE ${NUM_ODL_SYSTEM}
- \ ${rc} = Utils.Run Command On Remote System ${ODL_SYSTEM_${i+1}_IP} netstat -tln | grep -q ${ip}:${port} && echo 0 || echo 1 ${ODL_SYSTEM_USER} ${ODL_SYSTEM_PASSWORD}
- \ ... prompt=${ODL_SYSTEM_PROMPT}
- \ ${started} = BuiltIn.Set Variable If '${rc}' == '0' ${True} ${started}
+ FOR ${i} IN RANGE ${NUM_ODL_SYSTEM}
+ ${rc} = Utils.Run Command On Remote System ${ODL_SYSTEM_${i+1}_IP} netstat -tln | grep -q ${ip}:${port} && echo 0 || echo 1 ${ODL_SYSTEM_USER} ${ODL_SYSTEM_PASSWORD}
+ ... prompt=${ODL_SYSTEM_PROMPT}
+ ${started} = BuiltIn.Set Variable If '${rc}' == '0' ${True} ${started}
+ END
BuiltIn.Should Be True ${started}
-Check Cluster Node stopped
+Check Cluster Node Stopped
[Arguments] ${node} ${port}=64999 ${ip}=${node}
[Documentation] Verify that SxpNode has data removed from Operational datastore and Node is stopped
+ ${resp} = RequestsLibrary.Get Request ${CONTROLLER_SESSION} /restconf/operational/network-topology:network-topology/topology/sxp/node/${node}/
+ BuiltIn.Should Be Equal As Strings ${resp.status_code} 404
${stopped} = BuiltIn.Set Variable ${False}
- : FOR ${i} IN RANGE ${NUM_ODL_SYSTEM}
- \ ${rc} = Utils.Run Command On Remote System ${ODL_SYSTEM_${i+1}_IP} netstat -tln | grep -q ${ip}:${port} && echo 0 || echo 1 ${ODL_SYSTEM_USER} ${ODL_SYSTEM_PASSWORD}
- \ ... prompt=${ODL_SYSTEM_PROMPT}
- \ ${stopped} = BuiltIn.Set Variable If '${rc}' == '1' ${True} ${stopped}
+ FOR ${i} IN RANGE ${NUM_ODL_SYSTEM}
+ ${rc} = Utils.Run Command On Remote System ${ODL_SYSTEM_${i+1}_IP} netstat -tln | grep -q ${ip}:${port} && echo 0 || echo 1 ${ODL_SYSTEM_USER} ${ODL_SYSTEM_PASSWORD}
+ ... prompt=${ODL_SYSTEM_PROMPT}
+ ${stopped} = BuiltIn.Set Variable If '${rc}' == '1' ${True} ${stopped}
+ END
BuiltIn.Should Be True ${stopped}
Check Device is Connected
[Documentation] Checks if SXP device is connected to the cluster. It means it has connection in state "on" with one of the cluster members.
${resp} = SxpLib.Get Connections node=${node} session=${session}
${is_connected} = BuiltIn.Set Variable ${False}
- : FOR ${i} IN RANGE ${NUM_ODL_SYSTEM}
- \ ${is_connected} = Sxp.Find Connection ${resp} ${version} any ${ODL_SYSTEM_${i+1}_IP}
- \ ... ${port} on
- \ BuiltIn.Exit For Loop If ${is_connected}
+ FOR ${i} IN RANGE ${NUM_ODL_SYSTEM}
+ ${is_connected} = Sxp.Find Connection ${resp} ${version} any ${ODL_SYSTEM_${i+1}_IP}
+ ... ${port} on
+ BuiltIn.Exit For Loop If ${is_connected}
+ END
BuiltIn.Should Be True ${is_connected}
Check Cluster is Connected
Get Owner Controller
[Arguments] ${running_member}=1
[Documentation] Find cluster controller that is marked as cluster owner by requesting ownership data from ${running_member} node of the cluster
- ${owner} ${candidates} = BuiltIn.Wait Until Keyword Succeeds 5x 2s ClusterManagement.Get_Owner_And_Successors_For_Device org.opendaylight.sxp.controller.boot.SxpControllerInstance
+ ${owner} ${candidates} = BuiltIn.Wait Until Keyword Succeeds 60x 1s ClusterManagement.Get_Owner_And_Successors_For_Device org.opendaylight.sxp.controller.boot.SxpControllerInstance
... Sxp ${running_member}
[Return] ${owner}
Map Followers To Mac Addresses
[Documentation] Creates Map containing ODL_SYSTEM_IP to corresponding MAC-ADDRESS
${mac_addresses} = BuiltIn.Create dictionary
- : FOR ${i} IN RANGE ${NUM_ODL_SYSTEM}
- \ ${mac_address} Find Mac Address Of Ip Address ${ODL_SYSTEM_${i+1}_IP}
- \ Collections.Set To Dictionary ${mac_addresses} ${ODL_SYSTEM_${i+1}_IP} ${mac_address}
+ FOR ${i} IN RANGE ${NUM_ODL_SYSTEM}
+ ${mac_address} Find Mac Address Of Ip Address ${ODL_SYSTEM_${i+1}_IP}
+ Collections.Set To Dictionary ${mac_addresses} ${ODL_SYSTEM_${i+1}_IP} ${mac_address}
+ END
BuiltIn.Log ${mac_addresses}
[Return] ${mac_addresses}
Create Virtual Interface
[Documentation] Create virtual interface on all of the cluster nodes
- : FOR ${i} IN RANGE ${NUM_ODL_SYSTEM}
- \ Utils.Run Command On Remote System ${ODL_SYSTEM_${i+1}_IP} sudo modprobe dummy ${ODL_SYSTEM_USER} ${ODL_SYSTEM_PASSWORD}
- \ Utils.Run Command On Remote System And Log ${ODL_SYSTEM_${i+1}_IP} sudo ip link show ${ODL_SYSTEM_USER} ${ODL_SYSTEM_PASSWORD}
+ FOR ${i} IN RANGE ${NUM_ODL_SYSTEM}
+ Utils.Run Command On Remote System ${ODL_SYSTEM_${i+1}_IP} sudo modprobe dummy ${ODL_SYSTEM_USER} ${ODL_SYSTEM_PASSWORD}
+ Utils.Run Command On Remote System And Log ${ODL_SYSTEM_${i+1}_IP} sudo ip link show ${ODL_SYSTEM_USER} ${ODL_SYSTEM_PASSWORD}
+ END
Delete Virtual Interface
[Documentation] Create virtual interface on all of the cluster nodes
- : FOR ${i} IN RANGE ${NUM_ODL_SYSTEM}
- \ Utils.Run Command On Remote System ${ODL_SYSTEM_${i+1}_IP} sudo ip link delete ${VIRTUAL_INTERFACE} type dummy ${ODL_SYSTEM_USER} ${ODL_SYSTEM_PASSWORD}
- \ Utils.Run Command On Remote System ${ODL_SYSTEM_${i+1}_IP} sudo rmmod dummy ${ODL_SYSTEM_USER} ${ODL_SYSTEM_PASSWORD}
- \ Utils.Run Command On Remote System And Log ${ODL_SYSTEM_${i+1}_IP} sudo ip link show ${ODL_SYSTEM_USER} ${ODL_SYSTEM_PASSWORD}
+ FOR ${i} IN RANGE ${NUM_ODL_SYSTEM}
+ Utils.Run Command On Remote System ${ODL_SYSTEM_${i+1}_IP} sudo ip link delete ${VIRTUAL_INTERFACE} type dummy ${ODL_SYSTEM_USER} ${ODL_SYSTEM_PASSWORD}
+ Utils.Run Command On Remote System ${ODL_SYSTEM_${i+1}_IP} sudo rmmod dummy ${ODL_SYSTEM_USER} ${ODL_SYSTEM_PASSWORD}
+ Utils.Run Command On Remote System And Log ${ODL_SYSTEM_${i+1}_IP} sudo ip link show ${ODL_SYSTEM_USER} ${ODL_SYSTEM_PASSWORD}
+ END