This has the potential to reduce some logs that end up in
the output.xml. We do use --removewuks when we generate the
html reports, but that is post processing. All the iterations
are still being logged in output.xml. Hopefully this will
help reduce the final log size of output.xml
Change-Id: If84c43ac659750e53efe2b2c18c6e81bab801ad7
Signed-off-by: Jamo Luhrsen <jluhrsen@redhat.com>
13 files changed:
Should Contain ${output} active
Poll VM Is ACTIVE
Should Contain ${output} active
Poll VM Is ACTIVE
- [Arguments] ${vm_name} ${retry}=600s ${retry_interval}=5s
+ [Arguments] ${vm_name} ${retry}=600s ${retry_interval}=30s
[Documentation] Run these commands to check whether the created vm instance is active or not.
Wait Until Keyword Succeeds ${retry} ${retry_interval} Verify VM Is ACTIVE ${vm_name}
[Documentation] Run these commands to check whether the created vm instance is active or not.
Wait Until Keyword Succeeds ${retry} ${retry_interval} Verify VM Is ACTIVE ${vm_name}
[Documentation] Verify Flow Table and Datapath
${SRCMAC_CN1} = Create List ${VM_MACAddr_ELAN1[0]}
${SRCMAC_CN2} = Create List ${VM_MACAddr_ELAN1[1]}
[Documentation] Verify Flow Table and Datapath
${SRCMAC_CN1} = Create List ${VM_MACAddr_ELAN1[0]}
${SRCMAC_CN2} = Create List ${VM_MACAddr_ELAN1[1]}
- Wait Until Keyword Succeeds 30s 5s Verify Flows Are Present For ELAN Service ${OS_COMPUTE_1_IP} ${SRCMAC_CN1} ${VM_MACAddr_ELAN1}
- Wait Until Keyword Succeeds 30s 5s Verify Flows Are Present For ELAN Service ${OS_COMPUTE_2_IP} ${SRCMAC_CN2} ${VM_MACAddr_ELAN1}
+ Wait Until Keyword Succeeds 30s 10s Verify Flows Are Present For ELAN Service ${OS_COMPUTE_1_IP} ${SRCMAC_CN1} ${VM_MACAddr_ELAN1}
+ Wait Until Keyword Succeeds 30s 10s Verify Flows Are Present For ELAN Service ${OS_COMPUTE_2_IP} ${SRCMAC_CN2} ${VM_MACAddr_ELAN1}
Log Verify Datapath Test
${output} = Execute Command on VM Instance @{NETWORKS}[0] ${VM_IP_ELAN1[0]} ping -c 3 ${VM_IP_ELAN1[1]}
Should Contain ${output} ${PING_PASS}
Log Verify Datapath Test
${output} = Execute Command on VM Instance @{NETWORKS}[0] ${VM_IP_ELAN1[0]} ping -c 3 ${VM_IP_ELAN1[1]}
Should Contain ${output} ${PING_PASS}
Log Delete VM and verify flows updated
Delete Vm Instance ${VM_INSTANCES_ELAN1[0]}
${SRCMAC_CN1} = Create List ${VM_MACAddr_ELAN1[0]}
Log Delete VM and verify flows updated
Delete Vm Instance ${VM_INSTANCES_ELAN1[0]}
${SRCMAC_CN1} = Create List ${VM_MACAddr_ELAN1[0]}
- Wait Until Keyword Succeeds 30s 5s Verify Flows Are Removed For ELAN Service ${OS_COMPUTE_1_IP} ${SRCMAC_CN1}
+ Wait Until Keyword Succeeds 30s 10s Verify Flows Are Removed For ELAN Service ${OS_COMPUTE_1_IP} ${SRCMAC_CN1}
Remove RSA Key From KnowHosts ${VM_IP_ELAN1[0]}
Log ReCreate VM and verify flow updated
Create Vm Instance With Port On Compute Node ${ELAN1_PORT_LIST[0]} ${VM_INSTANCES_ELAN1[0]} ${OS_COMPUTE_1_IP}
Poll VM Is ACTIVE ${VM_INSTANCES_ELAN1[0]}
Remove RSA Key From KnowHosts ${VM_IP_ELAN1[0]}
Log ReCreate VM and verify flow updated
Create Vm Instance With Port On Compute Node ${ELAN1_PORT_LIST[0]} ${VM_INSTANCES_ELAN1[0]} ${OS_COMPUTE_1_IP}
Poll VM Is ACTIVE ${VM_INSTANCES_ELAN1[0]}
- ${VM_IP_ELAN1} ${DHCP_IP_ELAN1} Wait Until Keyword Succeeds 180s 10s Collect VM IP Addresses true
+ ${VM_IP_ELAN1} ${DHCP_IP_ELAN1} Wait Until Keyword Succeeds 180s 30s Collect VM IP Addresses true
... @{VM_INSTANCES_ELAN1}
Log ${VM_IP_ELAN1}
Set Suite Variable ${VM_IP_ELAN1}
... @{VM_INSTANCES_ELAN1}
Log ${VM_IP_ELAN1}
Set Suite Variable ${VM_IP_ELAN1}
- Wait Until Keyword Succeeds 30s 5s Verify Flows Are Present For ELAN Service ${OS_COMPUTE_1_IP} ${SRCMAC_CN1} ${VM_MACAddr_ELAN1}
+ Wait Until Keyword Succeeds 30s 10s Verify Flows Are Present For ELAN Service ${OS_COMPUTE_1_IP} ${SRCMAC_CN1} ${VM_MACAddr_ELAN1}
${output} = Execute Command on VM Instance @{NETWORKS}[0] ${VM_IP_ELAN1[0]} ping -c 3 ${VM_IP_ELAN1[1]}
Should Contain ${output} ${PING_PASS}
${output} = Execute Command on VM Instance @{NETWORKS}[0] ${VM_IP_ELAN1[1]} ping -c 3 ${VM_IP_ELAN1[0]}
${output} = Execute Command on VM Instance @{NETWORKS}[0] ${VM_IP_ELAN1[0]} ping -c 3 ${VM_IP_ELAN1[1]}
Should Contain ${output} ${PING_PASS}
${output} = Execute Command on VM Instance @{NETWORKS}[0] ${VM_IP_ELAN1[1]} ping -c 3 ${VM_IP_ELAN1[0]}
Log Delete VM instances
: FOR ${VmInstance} IN @{VM_INSTANCES_ELAN1}
\ Delete Vm Instance ${VmInstance}
Log Delete VM instances
: FOR ${VmInstance} IN @{VM_INSTANCES_ELAN1}
\ Delete Vm Instance ${VmInstance}
- Wait Until Keyword Succeeds 30s 5s Verify Flows Are Removed For ELAN Service ${OS_COMPUTE_1_IP} ${VM_MACAddr_ELAN1}
- Wait Until Keyword Succeeds 30s 5s Verify Flows Are Removed For ELAN Service ${OS_COMPUTE_2_IP} ${VM_MACAddr_ELAN1}
+ Wait Until Keyword Succeeds 30s 10s Verify Flows Are Removed For ELAN Service ${OS_COMPUTE_1_IP} ${VM_MACAddr_ELAN1}
+ Wait Until Keyword Succeeds 30s 10s Verify Flows Are Removed For ELAN Service ${OS_COMPUTE_2_IP} ${VM_MACAddr_ELAN1}
Verify Datapath for Multiple ELAN with Multiple DPN
[Documentation] Verify Flow Table and Data path for Multiple ELAN with Multiple DPN
Verify Datapath for Multiple ELAN with Multiple DPN
[Documentation] Verify Flow Table and Data path for Multiple ELAN with Multiple DPN
${SRCMAC_CN1} = Create List ${VM_MACAddr_ELAN2[0]} ${VM_MACAddr_ELAN3[0]}
${SRCMAC_CN2} = Create List ${VM_MACAddr_ELAN2[1]} ${VM_MACAddr_ELAN3[1]}
${MAC_LIST} = Create List @{VM_MACAddr_ELAN2} @{VM_MACAddr_ELAN3}
${SRCMAC_CN1} = Create List ${VM_MACAddr_ELAN2[0]} ${VM_MACAddr_ELAN3[0]}
${SRCMAC_CN2} = Create List ${VM_MACAddr_ELAN2[1]} ${VM_MACAddr_ELAN3[1]}
${MAC_LIST} = Create List @{VM_MACAddr_ELAN2} @{VM_MACAddr_ELAN3}
- Wait Until Keyword Succeeds 30s 5s Verify Flows Are Present For ELAN Service ${OS_COMPUTE_1_IP} ${SRCMAC_CN1} ${MAC_LIST}
- Wait Until Keyword Succeeds 30s 5s Verify Flows Are Present For ELAN Service ${OS_COMPUTE_2_IP} ${SRCMAC_CN2} ${MAC_LIST}
+ Wait Until Keyword Succeeds 30s 10s Verify Flows Are Present For ELAN Service ${OS_COMPUTE_1_IP} ${SRCMAC_CN1} ${MAC_LIST}
+ Wait Until Keyword Succeeds 30s 10s Verify Flows Are Present For ELAN Service ${OS_COMPUTE_2_IP} ${SRCMAC_CN2} ${MAC_LIST}
${output} = Execute Command on VM Instance @{NETWORKS}[1] ${VM_IP_ELAN2[0]} ping -c 3 ${VM_IP_ELAN2[1]}
Should Contain ${output} ${PING_PASS}
${output} = Execute Command on VM Instance @{NETWORKS}[2] ${VM_IP_ELAN3[1]} ping -c 3 ${VM_IP_ELAN3[0]}
${output} = Execute Command on VM Instance @{NETWORKS}[1] ${VM_IP_ELAN2[0]} ping -c 3 ${VM_IP_ELAN2[1]}
Should Contain ${output} ${PING_PASS}
${output} = Execute Command on VM Instance @{NETWORKS}[2] ${VM_IP_ELAN3[1]} ping -c 3 ${VM_IP_ELAN3[0]}
# collected immediately after when that step fails, as is the nature of robot test cases.
Reboot Nova VM ${VM_INSTANCES_ELAN2[0]}
Poll VM Is ACTIVE ${VM_INSTANCES_ELAN2[0]}
# collected immediately after when that step fails, as is the nature of robot test cases.
Reboot Nova VM ${VM_INSTANCES_ELAN2[0]}
Poll VM Is ACTIVE ${VM_INSTANCES_ELAN2[0]}
- ${VM_IP_ELAN2} ${DHCP_IP_ELAN2} Wait Until Keyword Succeeds 180s 10s Collect VM IP Addresses true
+ ${VM_IP_ELAN2} ${DHCP_IP_ELAN2} Wait Until Keyword Succeeds 180s 30s Collect VM IP Addresses true
... @{VM_INSTANCES_ELAN2}
Log ${VM_IP_ELAN2}
Should Not Contain ${VM_IP_ELAN2} None
... @{VM_INSTANCES_ELAN2}
Log ${VM_IP_ELAN2}
Should Not Contain ${VM_IP_ELAN2} None
- Wait Until Keyword Succeeds 30s 5s Verify Flows Are Present For ELAN Service ${OS_COMPUTE_1_IP} ${SRCMAC_CN1} ${MAC_LIST}
+ Wait Until Keyword Succeeds 30s 10s Verify Flows Are Present For ELAN Service ${OS_COMPUTE_1_IP} ${SRCMAC_CN1} ${MAC_LIST}
${output} = Execute Command on VM Instance @{NETWORKS}[1] ${VM_IP_ELAN2[1]} ping -c 3 ${VM_IP_ELAN2[0]}
Should Contain ${output} ${PING_PASS}
[Teardown] Run Keywords Get Test Teardown Debugs
${output} = Execute Command on VM Instance @{NETWORKS}[1] ${VM_IP_ELAN2[1]} ping -c 3 ${VM_IP_ELAN2[0]}
Should Contain ${output} ${PING_PASS}
[Teardown] Run Keywords Get Test Teardown Debugs
: FOR ${VM} IN @{VM_INSTANCES_ELAN1}
\ Poll VM Is ACTIVE ${VM}
Log Get IP address for ELAN1
: FOR ${VM} IN @{VM_INSTANCES_ELAN1}
\ Poll VM Is ACTIVE ${VM}
Log Get IP address for ELAN1
- Wait Until Keyword Succeeds 180s 10s Collect VM IP Addresses true @{VM_INSTANCES_ELAN1}
+ Wait Until Keyword Succeeds 180s 30s Collect VM IP Addresses true @{VM_INSTANCES_ELAN1}
${VM_IP_ELAN1} ${DHCP_IP_ELAN1} Collect VM IP Addresses false @{VM_INSTANCES_ELAN1}
Log ${VM_IP_ELAN1}
Set Suite Variable ${VM_IP_ELAN1}
${VM_IP_ELAN1} ${DHCP_IP_ELAN1} Collect VM IP Addresses false @{VM_INSTANCES_ELAN1}
Log ${VM_IP_ELAN1}
Set Suite Variable ${VM_IP_ELAN1}
${VM_INSTANCES} = Create List @{VM_INSTANCES_ELAN2} @{VM_INSTANCES_ELAN3}
: FOR ${VM} IN @{VM_INSTANCES}
\ Poll VM Is ACTIVE ${VM}
${VM_INSTANCES} = Create List @{VM_INSTANCES_ELAN2} @{VM_INSTANCES_ELAN3}
: FOR ${VM} IN @{VM_INSTANCES}
\ Poll VM Is ACTIVE ${VM}
- ${VM_IP_ELAN2} ${DHCP_IP_ELAN2} Wait Until Keyword Succeeds 180s 10s Collect VM IP Addresses true
+ ${VM_IP_ELAN2} ${DHCP_IP_ELAN2} Wait Until Keyword Succeeds 180s 30s Collect VM IP Addresses true
... @{VM_INSTANCES_ELAN2}
Log ${VM_IP_ELAN2}
Set Suite Variable ${VM_IP_ELAN2}
... @{VM_INSTANCES_ELAN2}
Log ${VM_IP_ELAN2}
Set Suite Variable ${VM_IP_ELAN2}
- ${VM_IP_ELAN3} ${DHCP_IP_ELAN3} Wait Until Keyword Succeeds 180s 10s Collect VM IP Addresses true
+ ${VM_IP_ELAN3} ${DHCP_IP_ELAN3} Wait Until Keyword Succeeds 180s 30s Collect VM IP Addresses true
... @{VM_INSTANCES_ELAN3}
Log ${VM_IP_ELAN3}
Set Suite Variable ${VM_IP_ELAN3}
... @{VM_INSTANCES_ELAN3}
Log ${VM_IP_ELAN3}
Set Suite Variable ${VM_IP_ELAN3}
[Documentation] Check if the netvirt piece has been loaded into the karaf instance
[Tags] Check netvirt is loaded
${netvirt}= Create Dictionary netvirt:1=1
[Documentation] Check if the netvirt piece has been loaded into the karaf instance
[Tags] Check netvirt is loaded
${netvirt}= Create Dictionary netvirt:1=1
- Wait Until Keyword Succeeds 6s 1s ClusterManagement.Check_Item_Occurrence_Member_List_Or_All uri=${OPERATIONAL_NODES_NETVIRT} dictionary=${netvirt}
+ Wait Until Keyword Succeeds 6s 2s ClusterManagement.Check_Item_Occurrence_Member_List_Or_All uri=${OPERATIONAL_NODES_NETVIRT} dictionary=${netvirt}
Check External Net for Tenant
[Documentation] Check External Net for Tenant
Check External Net for Tenant
[Documentation] Check External Net for Tenant
Check Operational topology
[Documentation] Check Operational topology
${dictionary}= Create Dictionary ovsdb://uuid/=5
Check Operational topology
[Documentation] Check Operational topology
${dictionary}= Create Dictionary ovsdb://uuid/=5
- Wait Until Keyword Succeeds 20s 2s ClusterManagement.Check_Item_Occurrence_Member_List_Or_All uri=${OPERATIONAL_TOPO_API} dictionary=${dictionary}
+ Wait Until Keyword Succeeds 20s 5s ClusterManagement.Check_Item_Occurrence_Member_List_Or_All uri=${OPERATIONAL_TOPO_API} dictionary=${dictionary}
Get bridge setup
[Documentation] This request is verifying that the br-int bridge has been created
Get bridge setup
[Documentation] This request is verifying that the br-int bridge has been created
: FOR ${VM} IN @{VM_INSTANCES}
\ Poll VM Is ACTIVE ${VM}
Wait Until Keyword Succeeds 30s 10s Wait For Routes To Propogate ${NETWORKS} ${SUBNETS_CIDR}
: FOR ${VM} IN @{VM_INSTANCES}
\ Poll VM Is ACTIVE ${VM}
Wait Until Keyword Succeeds 30s 10s Wait For Routes To Propogate ${NETWORKS} ${SUBNETS_CIDR}
- ${status} ${message} Run Keyword And Ignore Error Wait Until Keyword Succeeds 60s 5s Collect VM IP Addresses
+ ${status} ${message} Run Keyword And Ignore Error Wait Until Keyword Succeeds 60s 15s Collect VM IP Addresses
... true @{VM_INSTANCES_NET10}
... true @{VM_INSTANCES_NET10}
- ${status} ${message} Run Keyword And Ignore Error Wait Until Keyword Succeeds 60s 5s Collect VM IP Addresses
+ ${status} ${message} Run Keyword And Ignore Error Wait Until Keyword Succeeds 60s 15s Collect VM IP Addresses
... true @{VM_INSTANCES_NET20}
${VM_IP_NET10} ${DHCP_IP1} Collect VM IP Addresses false @{VM_INSTANCES_NET10}
${VM_IP_NET20} ${DHCP_IP2} Collect VM IP Addresses false @{VM_INSTANCES_NET20}
... true @{VM_INSTANCES_NET20}
${VM_IP_NET10} ${DHCP_IP1} Collect VM IP Addresses false @{VM_INSTANCES_NET10}
${VM_IP_NET20} ${DHCP_IP2} Collect VM IP Addresses false @{VM_INSTANCES_NET20}
${cn2_conn_id} = Start Packet Capture on Node ${OS_COMPUTE_2_IP} file_Name=tcpDumpCN2
${os_conn_id} = Start Packet Capture on Node ${OS_CONTROL_NODE_IP} file_Name=tcpDumpOS
${vm_instances} = Create List @{VM_IP_NET10} @{VM_IP_NET20}
${cn2_conn_id} = Start Packet Capture on Node ${OS_COMPUTE_2_IP} file_Name=tcpDumpCN2
${os_conn_id} = Start Packet Capture on Node ${OS_CONTROL_NODE_IP} file_Name=tcpDumpOS
${vm_instances} = Create List @{VM_IP_NET10} @{VM_IP_NET20}
- Wait Until Keyword Succeeds 30s 5s Check For Elements At URI ${FIB_ENTRY_URL} ${vm_instances}
- Wait Until Keyword Succeeds 30s 5s Verify Flows Are Present For L3VPN ${OS_COMPUTE_1_IP} ${vm_instances}
- Wait Until Keyword Succeeds 30s 5s Verify Flows Are Present For L3VPN ${OS_COMPUTE_2_IP} ${vm_instances}
- Wait Until Keyword Succeeds 30s 5s Verify GWMAC Entry On ODL ${GWMAC_ADDRS}
- Wait Until Keyword Succeeds 30s 5s Verify GWMAC Flow Entry On Flow Table ${OS_COMPUTE_1_IP}
- Wait Until Keyword Succeeds 30s 5s Verify GWMAC Flow Entry On Flow Table ${OS_COMPUTE_2_IP}
+ Wait Until Keyword Succeeds 30s 10s Check For Elements At URI ${FIB_ENTRY_URL} ${vm_instances}
+ Wait Until Keyword Succeeds 30s 10s Verify Flows Are Present For L3VPN ${OS_COMPUTE_1_IP} ${vm_instances}
+ Wait Until Keyword Succeeds 30s 10s Verify Flows Are Present For L3VPN ${OS_COMPUTE_2_IP} ${vm_instances}
+ Wait Until Keyword Succeeds 30s 10s Verify GWMAC Entry On ODL ${GWMAC_ADDRS}
+ Wait Until Keyword Succeeds 30s 10s Verify GWMAC Flow Entry On Flow Table ${OS_COMPUTE_1_IP}
+ Wait Until Keyword Succeeds 30s 10s Verify GWMAC Flow Entry On Flow Table ${OS_COMPUTE_2_IP}
${dst_ip_list} = Create List ${VM_IP_NET10[1]} @{VM_IP_NET20}
Test Operations From Vm Instance ${NETWORKS[0]} ${VM_IP_NET10[0]} ${dst_ip_list}
${dst_ip_list} = Create List ${VM_IP_NET20[1]} @{VM_IP_NET10}
${dst_ip_list} = Create List ${VM_IP_NET10[1]} @{VM_IP_NET20}
Test Operations From Vm Instance ${NETWORKS[0]} ${VM_IP_NET10[0]} ${dst_ip_list}
${dst_ip_list} = Create List ${VM_IP_NET20[1]} @{VM_IP_NET10}
Update Router @{ROUTERS}[0] ${cmd}
Show Router @{ROUTERS}[0] -D
${vm_instances} = Create List @{EXTRA_NW_SUBNET}
Update Router @{ROUTERS}[0] ${cmd}
Show Router @{ROUTERS}[0] -D
${vm_instances} = Create List @{EXTRA_NW_SUBNET}
- Wait Until Keyword Succeeds 30s 5s Check For Elements At URI ${FIB_ENTRY_URL} ${vm_instances}
+ Wait Until Keyword Succeeds 30s 10s Check For Elements At URI ${FIB_ENTRY_URL} ${vm_instances}
${output} = Execute Command on VM Instance @{NETWORKS}[0] ${VM_IP_NET10[1]} ping -c 3 @{EXTRA_NW_IP}[1]
Should Contain ${output} 64 bytes
${output} = Execute Command on VM Instance @{NETWORKS}[1] ${VM_IP_NET20[1]} ping -c 3 @{EXTRA_NW_IP}[1]
${output} = Execute Command on VM Instance @{NETWORKS}[0] ${VM_IP_NET10[1]} ping -c 3 @{EXTRA_NW_IP}[1]
Should Contain ${output} 64 bytes
${output} = Execute Command on VM Instance @{NETWORKS}[1] ${VM_IP_NET20[1]} ping -c 3 @{EXTRA_NW_IP}[1]
Verify L3VPN Datapath With Router Association
[Documentation] Datapath test across the networks using L3VPN with router association.
${vm_instances} = Create List @{VM_IP_NET10} @{VM_IP_NET20}
Verify L3VPN Datapath With Router Association
[Documentation] Datapath test across the networks using L3VPN with router association.
${vm_instances} = Create List @{VM_IP_NET10} @{VM_IP_NET20}
- Wait Until Keyword Succeeds 30s 5s Check For Elements At URI ${VPN_IFACES_URL} ${vm_instances}
+ Wait Until Keyword Succeeds 30s 10s Check For Elements At URI ${VPN_IFACES_URL} ${vm_instances}
${RD} = Strip String ${RDS[0]} characters="[]
${RD} = Strip String ${RDS[0]} characters="[]
- Wait Until Keyword Succeeds 60s 5s Check For Elements At URI ${CONFIG_API}/odl-fib:fibEntries/vrfTables/${RD}/ ${vm_instances}
- Wait Until Keyword Succeeds 60s 5s Verify Flows Are Present For L3VPN ${OS_COMPUTE_1_IP} ${vm_instances}
- Wait Until Keyword Succeeds 60s 5s Verify Flows Are Present For L3VPN ${OS_COMPUTE_2_IP} ${vm_instances}
- Wait Until Keyword Succeeds 30s 5s Verify GWMAC Entry On ODL ${GWMAC_ADDRS}
- Wait Until Keyword Succeeds 30s 5s Verify GWMAC Flow Entry On Flow Table ${OS_COMPUTE_1_IP}
- Wait Until Keyword Succeeds 30s 5s Verify GWMAC Flow Entry On Flow Table ${OS_COMPUTE_2_IP}
+ Wait Until Keyword Succeeds 60s 15s Check For Elements At URI ${CONFIG_API}/odl-fib:fibEntries/vrfTables/${RD}/ ${vm_instances}
+ Wait Until Keyword Succeeds 60s 15s Verify Flows Are Present For L3VPN ${OS_COMPUTE_1_IP} ${vm_instances}
+ Wait Until Keyword Succeeds 60s 15s Verify Flows Are Present For L3VPN ${OS_COMPUTE_2_IP} ${vm_instances}
+ Wait Until Keyword Succeeds 30s 15s Verify GWMAC Entry On ODL ${GWMAC_ADDRS}
+ Wait Until Keyword Succeeds 30s 15s Verify GWMAC Flow Entry On Flow Table ${OS_COMPUTE_1_IP}
+ Wait Until Keyword Succeeds 30s 15s Verify GWMAC Flow Entry On Flow Table ${OS_COMPUTE_2_IP}
Log Check datapath from network1 to network2
${dst_ip_list} = Create List @{VM_IP_NET10}[1] @{VM_IP_NET20}
Test Operations From Vm Instance ${NETWORKS[0]} @{VM_IP_NET10}[0] ${dst_ip_list}
Log Check datapath from network1 to network2
${dst_ip_list} = Create List @{VM_IP_NET10}[1] @{VM_IP_NET20}
Test Operations From Vm Instance ${NETWORKS[0]} @{VM_IP_NET10}[0] ${dst_ip_list}
Wait Until Keyword Succeeds 3s 1s Check For Elements Not At URI ${ROUTER_URL} ${router_list}
${resp}= VPN Get L3VPN vpnid=${VPN_INSTANCE_ID[0]}
Should Not Contain ${resp} ${router_id}
Wait Until Keyword Succeeds 3s 1s Check For Elements Not At URI ${ROUTER_URL} ${router_list}
${resp}= VPN Get L3VPN vpnid=${VPN_INSTANCE_ID[0]}
Should Not Contain ${resp} ${router_id}
- Wait Until Keyword Succeeds 30s 5s Verify GWMAC Flow Entry Removed From Flow Table ${OS_COMPUTE_1_IP}
- Wait Until Keyword Succeeds 30s 5s Verify GWMAC Flow Entry Removed From Flow Table ${OS_COMPUTE_2_IP}
+ Wait Until Keyword Succeeds 30s 10s Verify GWMAC Flow Entry Removed From Flow Table ${OS_COMPUTE_1_IP}
+ Wait Until Keyword Succeeds 30s 10s Verify GWMAC Flow Entry Removed From Flow Table ${OS_COMPUTE_2_IP}
Delete Router With NonExistentRouter Name
[Documentation] Delete router with nonExistentRouter name
Delete Router With NonExistentRouter Name
[Documentation] Delete router with nonExistentRouter name
Verify BGP Neighbor Status
[Documentation] Verify BGP status established
Verify BGP Neighbor Status
[Documentation] Verify BGP status established
- ${output} = Wait Until Keyword Succeeds 60s 10s Verify BGP Neighbor Status On Quagga ${DCGW_SYSTEM_IP} ${ODL_SYSTEM_IP}
+ ${output} = Wait Until Keyword Succeeds 60s 15s Verify BGP Neighbor Status On Quagga ${DCGW_SYSTEM_IP} ${ODL_SYSTEM_IP}
Log ${output}
${output1} = Execute Show Command On Quagga ${DCGW_SYSTEM_IP} show ip bgp vrf ${DCGW_RD}
Log ${output1}
Log ${output}
${output1} = Execute Show Command On Quagga ${DCGW_SYSTEM_IP} show ip bgp vrf ${DCGW_RD}
Log ${output1}
Verify Routes Exchange Between ODL And DCGW
[Documentation] Verify routes exchange between ODL and DCGW
${fib_values} = Create List ${LOOPBACK_IP} @{VM_IPS}
Verify Routes Exchange Between ODL And DCGW
[Documentation] Verify routes exchange between ODL and DCGW
${fib_values} = Create List ${LOOPBACK_IP} @{VM_IPS}
- Wait Until Keyword Succeeds 60s 5s Check For Elements At URI ${CONFIG_API}/odl-fib:fibEntries/vrfTables/${DCGW_RD}/ ${fib_values}
- Wait Until Keyword Succeeds 60s 5s Verify Routes On Quagga ${DCGW_SYSTEM_IP} ${DCGW_RD} ${fib_values}
+ Wait Until Keyword Succeeds 60s 15s Check For Elements At URI ${CONFIG_API}/odl-fib:fibEntries/vrfTables/${DCGW_RD}/ ${fib_values}
+ Wait Until Keyword Succeeds 60s 15s Verify Routes On Quagga ${DCGW_SYSTEM_IP} ${DCGW_RD} ${fib_values}
[Teardown] Run Keywords Report_Failure_Due_To_Bug 7607
... AND Get Test Teardown Debugs
[Teardown] Run Keywords Report_Failure_Due_To_Bug 7607
... AND Get Test Teardown Debugs
\ Poll VM Is ACTIVE ${VM}
Wait Until Keyword Succeeds 30s 10s Wait For Routes To Propogate ${NETWORKS} ${SUBNETS_CIDR}
${prefix_net10}= Replace String ${SUBNETS_CIDR[0]} ::/64 (:[a-f0-9]{,4}){,4}
\ Poll VM Is ACTIVE ${VM}
Wait Until Keyword Succeeds 30s 10s Wait For Routes To Propogate ${NETWORKS} ${SUBNETS_CIDR}
${prefix_net10}= Replace String ${SUBNETS_CIDR[0]} ::/64 (:[a-f0-9]{,4}){,4}
- ${status} ${message} Run Keyword And Ignore Error Wait Until Keyword Succeeds 5x 60s Collect VM IPv6 SLAAC Addresses
+ ${status} ${message} Run Keyword And Ignore Error Wait Until Keyword Succeeds 3x 60s Collect VM IPv6 SLAAC Addresses
... true ${prefix_net10} @{VM_INSTANCES_NET10}
${prefix_net20}= Replace String ${SUBNETS_CIDR[1]} ::/64 (:[a-f0-9]{,4}){,4}
... true ${prefix_net10} @{VM_INSTANCES_NET10}
${prefix_net20}= Replace String ${SUBNETS_CIDR[1]} ::/64 (:[a-f0-9]{,4}){,4}
- ${status} ${message} Run Keyword And Ignore Error Wait Until Keyword Succeeds 5x 60s Collect VM IPv6 SLAAC Addresses
+ ${status} ${message} Run Keyword And Ignore Error Wait Until Keyword Succeeds 3x 60s Collect VM IPv6 SLAAC Addresses
... true ${prefix_net20} @{VM_INSTANCES_NET20}
${VM_IP_NET10}= Collect VM IPv6 SLAAC Addresses false ${prefix_net10} @{VM_INSTANCES_NET10}
${VM_IP_NET20}= Collect VM IPv6 SLAAC Addresses false ${prefix_net20} @{VM_INSTANCES_NET20}
... true ${prefix_net20} @{VM_INSTANCES_NET20}
${VM_IP_NET10}= Collect VM IPv6 SLAAC Addresses false ${prefix_net10} @{VM_INSTANCES_NET10}
${VM_IP_NET20}= Collect VM IPv6 SLAAC Addresses false ${prefix_net20} @{VM_INSTANCES_NET20}
${cn2_conn_id} = Start Packet Capture on Node ${OS_COMPUTE_2_IP} file_Name=tcpDumpCN2
${os_conn_id} = Start Packet Capture on Node ${OS_CONTROL_NODE_IP} file_Name=tcpDumpOS
${vm_instances} = Create List @{VM_IP_NET10} @{VM_IP_NET20}
${cn2_conn_id} = Start Packet Capture on Node ${OS_COMPUTE_2_IP} file_Name=tcpDumpCN2
${os_conn_id} = Start Packet Capture on Node ${OS_CONTROL_NODE_IP} file_Name=tcpDumpOS
${vm_instances} = Create List @{VM_IP_NET10} @{VM_IP_NET20}
- Wait Until Keyword Succeeds 30s 5s Check For Elements At URI ${FIB_ENTRY_URL} ${vm_instances}
- Wait Until Keyword Succeeds 30s 5s Verify Flows Are Present For L3VPN ${OS_COMPUTE_1_IP} ${VM_IP_NET10}
- Wait Until Keyword Succeeds 30s 5s Verify Flows Are Present For L3VPN ${OS_COMPUTE_1_IP} ${VM_IP_NET20}
- Wait Until Keyword Succeeds 30s 5s Verify GWMAC Entry On ODL ${GWMAC_ADDRS}
- Wait Until Keyword Succeeds 30s 5s Verify GWMAC Flow Entry On Flow Table ${OS_COMPUTE_1_IP} ipv6
- Wait Until Keyword Succeeds 30s 5s Verify GWMAC Flow Entry On Flow Table ${OS_COMPUTE_2_IP} ipv6
+ Wait Until Keyword Succeeds 30s 10s Check For Elements At URI ${FIB_ENTRY_URL} ${vm_instances}
+ Wait Until Keyword Succeeds 30s 10s Verify Flows Are Present For L3VPN ${OS_COMPUTE_1_IP} ${VM_IP_NET10}
+ Wait Until Keyword Succeeds 30s 10s Verify Flows Are Present For L3VPN ${OS_COMPUTE_1_IP} ${VM_IP_NET20}
+ Wait Until Keyword Succeeds 30s 10s Verify GWMAC Entry On ODL ${GWMAC_ADDRS}
+ Wait Until Keyword Succeeds 30s 10s Verify GWMAC Flow Entry On Flow Table ${OS_COMPUTE_1_IP}
+ Wait Until Keyword Succeeds 30s 10s Verify GWMAC Flow Entry On Flow Table ${OS_COMPUTE_2_IP}
${dst_ip_list} = Create List ${VM_IP_NET10[1]} @{VM_IP_NET20}
Test Operations From Vm Instance ${NETWORKS[0]} ${VM_IP_NET10[0]} ${dst_ip_list}
${dst_ip_list} = Create List ${VM_IP_NET20[1]} @{VM_IP_NET10}
${dst_ip_list} = Create List ${VM_IP_NET10[1]} @{VM_IP_NET20}
Test Operations From Vm Instance ${NETWORKS[0]} ${VM_IP_NET10[0]} ${dst_ip_list}
${dst_ip_list} = Create List ${VM_IP_NET20[1]} @{VM_IP_NET10}
Update Router @{ROUTERS}[0] ${cmd}
Show Router @{ROUTERS}[0] -D
${vm_instances} = Create List @{EXTRA_NW_SUBNET}
Update Router @{ROUTERS}[0] ${cmd}
Show Router @{ROUTERS}[0] -D
${vm_instances} = Create List @{EXTRA_NW_SUBNET}
- Wait Until Keyword Succeeds 30s 5s Check For Elements At URI ${FIB_ENTRY_URL} ${vm_instances}
+ Wait Until Keyword Succeeds 30s 10s Check For Elements At URI ${FIB_ENTRY_URL} ${vm_instances}
${output} = Execute Command on VM Instance @{NETWORKS}[0] ${VM_IP_NET10[1]} ping6 -c 3 @{EXTRA_NW_IP}[1]
Should Contain ${output} 64 bytes
${output} = Execute Command on VM Instance @{NETWORKS}[1] ${VM_IP_NET20[1]} ping6 -c 3 @{EXTRA_NW_IP}[1]
${output} = Execute Command on VM Instance @{NETWORKS}[0] ${VM_IP_NET10[1]} ping6 -c 3 @{EXTRA_NW_IP}[1]
Should Contain ${output} 64 bytes
${output} = Execute Command on VM Instance @{NETWORKS}[1] ${VM_IP_NET20[1]} ping6 -c 3 @{EXTRA_NW_IP}[1]
[Documentation] Datapath test across the networks using L3VPN with router association.
Log Verify VPN interfaces, FIB entries and Flow table
${vm_instances} = Create List @{VM_IP_NET10} @{VM_IP_NET20}
[Documentation] Datapath test across the networks using L3VPN with router association.
Log Verify VPN interfaces, FIB entries and Flow table
${vm_instances} = Create List @{VM_IP_NET10} @{VM_IP_NET20}
- Wait Until Keyword Succeeds 30s 5s Check For Elements At URI ${VPN_IFACES_URL} ${vm_instances}
+ Wait Until Keyword Succeeds 30s 10s Check For Elements At URI ${VPN_IFACES_URL} ${vm_instances}
${RD} = Strip String ${RDS[0]} characters="[]
${RD} = Strip String ${RDS[0]} characters="[]
- Wait Until Keyword Succeeds 60s 5s Check For Elements At URI ${CONFIG_API}/odl-fib:fibEntries/vrfTables/${RD}/ ${vm_instances}
- Wait Until Keyword Succeeds 60s 5s Verify Flows Are Present For L3VPN ${OS_COMPUTE_1_IP} ${vm_instances}
- Wait Until Keyword Succeeds 60s 5s Verify Flows Are Present For L3VPN ${OS_COMPUTE_2_IP} ${vm_instances}
- Wait Until Keyword Succeeds 30s 5s Verify GWMAC Entry On ODL ${GWMAC_ADDRS}
- Wait Until Keyword Succeeds 30s 5s Verify GWMAC Flow Entry On Flow Table ${OS_COMPUTE_1_IP}
- Wait Until Keyword Succeeds 30s 5s Verify GWMAC Flow Entry On Flow Table ${OS_COMPUTE_2_IP}
+ Wait Until Keyword Succeeds 60s 15s Check For Elements At URI ${CONFIG_API}/odl-fib:fibEntries/vrfTables/${RD}/ ${vm_instances}
+ Wait Until Keyword Succeeds 60s 15s Verify Flows Are Present For L3VPN ${OS_COMPUTE_1_IP} ${vm_instances}
+ Wait Until Keyword Succeeds 60s 15s Verify Flows Are Present For L3VPN ${OS_COMPUTE_2_IP} ${vm_instances}
+ Wait Until Keyword Succeeds 30s 10s Verify GWMAC Entry On ODL ${GWMAC_ADDRS}
+ Wait Until Keyword Succeeds 30s 10s Verify GWMAC Flow Entry On Flow Table ${OS_COMPUTE_1_IP}
+ Wait Until Keyword Succeeds 30s 10s Verify GWMAC Flow Entry On Flow Table ${OS_COMPUTE_2_IP}
Log Check datapath from network1 to network2
${dst_ip_list} = Create List @{VM_IP_NET10}[1] @{VM_IP_NET20}
Test Operations From Vm Instance ${NETWORKS[0]} @{VM_IP_NET10}[0] ${dst_ip_list}
Log Check datapath from network1 to network2
${dst_ip_list} = Create List @{VM_IP_NET10}[1] @{VM_IP_NET20}
Test Operations From Vm Instance ${NETWORKS[0]} @{VM_IP_NET10}[0] ${dst_ip_list}
Wait Until Keyword Succeeds 3s 1s Check For Elements Not At URI ${ROUTER_URL} ${router_list}
${resp}= VPN Get L3VPN vpnid=${VPN_INSTANCE_ID[0]}
Should Not Contain ${resp} ${router_id}
Wait Until Keyword Succeeds 3s 1s Check For Elements Not At URI ${ROUTER_URL} ${router_list}
${resp}= VPN Get L3VPN vpnid=${VPN_INSTANCE_ID[0]}
Should Not Contain ${resp} ${router_id}
- Wait Until Keyword Succeeds 30s 5s Verify GWMAC Flow Entry Removed From Flow Table ${OS_COMPUTE_1_IP}
- Wait Until Keyword Succeeds 30s 5s Verify GWMAC Flow Entry Removed From Flow Table ${OS_COMPUTE_2_IP}
+ Wait Until Keyword Succeeds 30s 10s Verify GWMAC Flow Entry Removed From Flow Table ${OS_COMPUTE_1_IP}
+ Wait Until Keyword Succeeds 30s 10s Verify GWMAC Flow Entry Removed From Flow Table ${OS_COMPUTE_2_IP}
Delete Router With NonExistentRouter Name
[Documentation] Delete router with nonExistentRouter name
Delete Router With NonExistentRouter Name
[Documentation] Delete router with nonExistentRouter name
Should Not Contain ${VM_IP_NET2} None
Should Not Contain ${VM_IP_NET3} None
${vm_instances} = Create List @{VM_IP_NET1} @{VM_IP_NET2} @{VM_IP_NET3}
Should Not Contain ${VM_IP_NET2} None
Should Not Contain ${VM_IP_NET3} None
${vm_instances} = Create List @{VM_IP_NET1} @{VM_IP_NET2} @{VM_IP_NET3}
- Wait Until Keyword Succeeds 30s 5s Check For Elements At URI ${FIB_ENTRIES_URL} ${vm_instances}
+ Wait Until Keyword Succeeds 30s 10s Check For Elements At URI ${FIB_ENTRIES_URL} ${vm_instances}
Verify Ping On Same Networks
Verify Ping On Different Networks
Verify Ping On Same Networks
Verify Ping On Different Networks
[Documentation] Verify that GARP request are sent to controller
Set Suite Variable ${FIB_ENTRY_1} ${VM_IP_NET1[0]}
Set Suite Variable ${FIB_ENTRY_3} ${VM_IP_NET1[1]}
[Documentation] Verify that GARP request are sent to controller
Set Suite Variable ${FIB_ENTRY_1} ${VM_IP_NET1[0]}
Set Suite Variable ${FIB_ENTRY_3} ${VM_IP_NET1[1]}
- Wait Until Keyword Succeeds 10s 1s Verify Flows Are Present ${OS_COMPUTE_1_IP}
- Wait Until Keyword Succeeds 10s 1s Verify Flows Are Present ${OS_COMPUTE_2_IP}
+ Wait Until Keyword Succeeds 10s 2s Verify Flows Are Present ${OS_COMPUTE_1_IP}
+ Wait Until Keyword Succeeds 10s 2s Verify Flows Are Present ${OS_COMPUTE_2_IP}
${output}= Get Fib Entries session
${resp}= Should Match Regexp ${output} destPrefix\\":\\"${FIB_ENTRY_3}\/32".*"${OS_COMPUTE_2_IP}\\"
${resp}= Should Match Regexp ${output} destPrefix\\":\\"${FIB_ENTRY_1}\/32".*"${OS_COMPUTE_1_IP}\\"
${output}= Get Fib Entries session
${resp}= Should Match Regexp ${output} destPrefix\\":\\"${FIB_ENTRY_3}\/32".*"${OS_COMPUTE_2_IP}\\"
${resp}= Should Match Regexp ${output} destPrefix\\":\\"${FIB_ENTRY_1}\/32".*"${OS_COMPUTE_1_IP}\\"
${rx_packet0_after} = Execute Command on VM Instance @{NETWORKS}[0] ${VM_IP_NET1[0]} ifconfig eth0
Should Not Be Equal ${rx_packet0_before} ${rx_packet0_after}
Should Not Be Equal ${rx_packet1_before} ${rx_packet1_after}
${rx_packet0_after} = Execute Command on VM Instance @{NETWORKS}[0] ${VM_IP_NET1[0]} ifconfig eth0
Should Not Be Equal ${rx_packet0_before} ${rx_packet0_after}
Should Not Be Equal ${rx_packet1_before} ${rx_packet1_after}
- Wait Until Keyword Succeeds 30s 5s Verify Flows Are Present ${OS_COMPUTE_1_IP}
- Wait Until Keyword Succeeds 30s 5s Verify Flows Are Present ${OS_COMPUTE_2_IP}
+ Wait Until Keyword Succeeds 30s 10s Verify Flows Are Present ${OS_COMPUTE_1_IP}
+ Wait Until Keyword Succeeds 30s 10s Verify Flows Are Present ${OS_COMPUTE_2_IP}
Wait Until Keyword Succeeds 5s 1s Verify Learnt IP ${FIB_ENTRY_2} session
${output}= Get Fib Entries session
${resp}= Should Match Regexp ${output} destPrefix\\":\\"${FIB_ENTRY_3}\\/32".*"${OS_COMPUTE_2_IP}\\"
Wait Until Keyword Succeeds 5s 1s Verify Learnt IP ${FIB_ENTRY_2} session
${output}= Get Fib Entries session
${resp}= Should Match Regexp ${output} destPrefix\\":\\"${FIB_ENTRY_3}\\/32".*"${OS_COMPUTE_2_IP}\\"
# for dhcp addresses
: FOR ${vm} IN @{NET_1_VM_INSTANCES} @{NET_2_VM_INSTANCES}
\ Poll VM Is ACTIVE ${vm}
# for dhcp addresses
: FOR ${vm} IN @{NET_1_VM_INSTANCES} @{NET_2_VM_INSTANCES}
\ Poll VM Is ACTIVE ${vm}
- ${status} ${message} Run Keyword And Ignore Error Wait Until Keyword Succeeds 60s 5s Collect VM IP Addresses
+ ${status} ${message} Run Keyword And Ignore Error Wait Until Keyword Succeeds 60s 15s Collect VM IP Addresses
... true @{NET_1_VM_INSTANCES}
... true @{NET_1_VM_INSTANCES}
- ${status} ${message} Run Keyword And Ignore Error Wait Until Keyword Succeeds 60s 5s Collect VM IP Addresses
+ ${status} ${message} Run Keyword And Ignore Error Wait Until Keyword Succeeds 60s 15s Collect VM IP Addresses
... true @{NET_2_VM_INSTANCES}
${NET1_VM_IPS} ${NET1_DHCP_IP} Collect VM IP Addresses false @{NET_1_VM_INSTANCES}
${NET2_VM_IPS} ${NET2_DHCP_IP} Collect VM IP Addresses false @{NET_2_VM_INSTANCES}
... true @{NET_2_VM_INSTANCES}
${NET1_VM_IPS} ${NET1_DHCP_IP} Collect VM IP Addresses false @{NET_1_VM_INSTANCES}
${NET2_VM_IPS} ${NET2_DHCP_IP} Collect VM IP Addresses false @{NET_2_VM_INSTANCES}
# for dhcp addresses
: FOR ${vm} IN @{NET_1_VM_INSTANCES} @{NET_2_VM_INSTANCES} @{NET_3_VM_INSTANCES}
\ Poll VM Is ACTIVE ${vm}
# for dhcp addresses
: FOR ${vm} IN @{NET_1_VM_INSTANCES} @{NET_2_VM_INSTANCES} @{NET_3_VM_INSTANCES}
\ Poll VM Is ACTIVE ${vm}
- ${status} ${message} Run Keyword And Ignore Error Wait Until Keyword Succeeds 60s 5s Collect VM IP Addresses
+ ${status} ${message} Run Keyword And Ignore Error Wait Until Keyword Succeeds 60s 15s Collect VM IP Addresses
... true @{NET_1_VM_INSTANCES}
... true @{NET_1_VM_INSTANCES}
- ${status} ${message} Run Keyword And Ignore Error Wait Until Keyword Succeeds 60s 5s Collect VM IP Addresses
+ ${status} ${message} Run Keyword And Ignore Error Wait Until Keyword Succeeds 60s 15s Collect VM IP Addresses
... true @{NET_2_VM_INSTANCES}
... true @{NET_2_VM_INSTANCES}
- ${status} ${message} Run Keyword And Ignore Error Wait Until Keyword Succeeds 60s 5s Collect VM IP Addresses
+ ${status} ${message} Run Keyword And Ignore Error Wait Until Keyword Succeeds 60s 15s Collect VM IP Addresses
... true @{NET_3_VM_INSTANCES}
${NET3_L3_VM_IPS} ${NET3_DHCP_IP} Collect VM IP Addresses false @{NET_3_VM_INSTANCES}
${NET2_L3_VM_IPS} ${NET2_DHCP_IP} Collect VM IP Addresses false @{NET_2_VM_INSTANCES}
... true @{NET_3_VM_INSTANCES}
${NET3_L3_VM_IPS} ${NET3_DHCP_IP} Collect VM IP Addresses false @{NET_3_VM_INSTANCES}
${NET2_L3_VM_IPS} ${NET2_DHCP_IP} Collect VM IP Addresses false @{NET_2_VM_INSTANCES}
# for dhcp addresses
: FOR ${vm} IN @{VM_INSTANCES_FLOATING} @{VM_INSTANCES_SNAT}
\ Poll VM Is ACTIVE ${vm}
# for dhcp addresses
: FOR ${vm} IN @{VM_INSTANCES_FLOATING} @{VM_INSTANCES_SNAT}
\ Poll VM Is ACTIVE ${vm}
- ${status} ${message} Run Keyword And Ignore Error Wait Until Keyword Succeeds 60s 5s Collect VM IP Addresses
+ ${status} ${message} Run Keyword And Ignore Error Wait Until Keyword Succeeds 60s 15s Collect VM IP Addresses
... true @{VM_INSTANCES_FLOATING}
... true @{VM_INSTANCES_FLOATING}
- ${status} ${message} Run Keyword And Ignore Error Wait Until Keyword Succeeds 60s 5s Collect VM IP Addresses
+ ${status} ${message} Run Keyword And Ignore Error Wait Until Keyword Succeeds 60s 15s Collect VM IP Addresses
... true @{VM_INSTANCES_SNAT}
${FLOATING_VM_IPS} ${FLOATING_DHCP_IP} Collect VM IP Addresses false @{VM_INSTANCES_FLOATING}
${SNAT_VM_IPS} ${SNAT_DHCP_IP} Collect VM IP Addresses false @{VM_INSTANCES_SNAT}
... true @{VM_INSTANCES_SNAT}
${FLOATING_VM_IPS} ${FLOATING_DHCP_IP} Collect VM IP Addresses false @{VM_INSTANCES_FLOATING}
${SNAT_VM_IPS} ${SNAT_DHCP_IP} Collect VM IP Addresses false @{VM_INSTANCES_SNAT}
# for dhcp addresses
: FOR ${vm} IN @{NET_1_VM_INSTANCES}
\ OpenStackOperations.Poll VM Is ACTIVE ${vm}
# for dhcp addresses
: FOR ${vm} IN @{NET_1_VM_INSTANCES}
\ OpenStackOperations.Poll VM Is ACTIVE ${vm}
- ${status} ${message} BuiltIn.Run Keyword And Ignore Error BuiltIn.Wait Until Keyword Succeeds 60s 5s OpenStackOperations.Collect VM IP Addresses
+ ${status} ${message} BuiltIn.Run Keyword And Ignore Error BuiltIn.Wait Until Keyword Succeeds 60s 15s OpenStackOperations.Collect VM IP Addresses
... true @{NET_1_VM_INSTANCES}
${NET1_VM_IPS} ${NET1_DHCP_IP} OpenStackOperations.Collect VM IP Addresses false @{NET_1_VM_INSTANCES}
${NET2_VM_IPS} ${NET2_DHCP_IP} OpenStackOperations.Collect VM IP Addresses false @{NET_2_VM_INSTANCES}
... true @{NET_1_VM_INSTANCES}
${NET1_VM_IPS} ${NET1_DHCP_IP} OpenStackOperations.Collect VM IP Addresses false @{NET_1_VM_INSTANCES}
${NET2_VM_IPS} ${NET2_DHCP_IP} OpenStackOperations.Collect VM IP Addresses false @{NET_2_VM_INSTANCES}
# for dhcp addresses
: FOR ${vm} IN @{VM_INSTANCES}
\ Poll VM Is ACTIVE ${vm}
# for dhcp addresses
: FOR ${vm} IN @{VM_INSTANCES}
\ Poll VM Is ACTIVE ${vm}
- ${status} ${message} Run Keyword And Ignore Error Wait Until Keyword Succeeds 60s 5s Collect VM IP Addresses
+ ${status} ${message} Run Keyword And Ignore Error Wait Until Keyword Succeeds 60s 15s Collect VM IP Addresses
... true @{VM_INSTANCES}
${NET1_VM_IPS} ${NET1_DHCP_IP} Collect VM IP Addresses false @{VM_INSTANCES}
${VM_INSTANCES}= Collections.Combine Lists ${VM_INSTANCES}
... true @{VM_INSTANCES}
${NET1_VM_IPS} ${NET1_DHCP_IP} Collect VM IP Addresses false @{VM_INSTANCES}
${VM_INSTANCES}= Collections.Combine Lists ${VM_INSTANCES}