Library OperatingSystem
Library RequestsLibrary
Resource ../../../libraries/DevstackUtils.robot
+Resource ../../../libraries/DataModels.robot
Resource ../../../libraries/OpenStackOperations.robot
Resource ../../../libraries/SetupUtils.robot
Resource ../../../libraries/Utils.robot
+Resource ../../../variables/netvirt/Variables.robot
*** Variables ***
+${SECURITY_GROUP} sg-connectivity
@{NETWORKS_NAME} network_1 network_2 network_3
@{SUBNETS_NAME} subnet_1 subnet_2 subnet_3
-@{NET_1_VM_INSTANCES} l3_instance_net_1_1 l3_instance_net_1_2 l3_instance_net_1_3
-@{NET_2_VM_INSTANCES} l3_instance_net_2_1 l3_instance_net_2_2 l3_instance_net_2_3
-@{NET_3_VM_INSTANCES} l3_instance_net_3_1 l3_instance_net_3_2 l3_instance_net_3_3
+@{NET_1_VM_INSTANCES} l3_net_1_vm_1 l3_net_1_vm_2 l3_net_1_vm_3
+@{NET_2_VM_INSTANCES} l3_net_2_vm_1 l3_net_2_vm_2 l3_net_2_vm_3
+@{NET_3_VM_INSTANCES} l3_net_3_vm_1 l3_net_3_vm_2 l3_net_3_vm_3
@{SUBNETS_RANGE} 50.0.0.0/24 60.0.0.0/24 70.0.0.0/24
${network1_vlan_id} 1236
*** Test Cases ***
Create VLAN Network (network_1)
[Documentation] Create Network with neutron request.
- Create Network @{NETWORKS_NAME}[0] --provider:network_type=vlan --provider:physical_network=${PUBLIC_PHYSICAL_NETWORK} --provider:segmentation_id=${network1_vlan_id}
+ # in the case that the controller under test is using legacy netvirt features, vlan segmentation is not supported,
+ # and we cannot create a vlan network. If those features are installed we will instead stick with vxlan.
+ : FOR ${feature_name} IN @{legacy_feature_list}
+ \ ${feature_check_status}= Run Keyword And Return Status Verify Feature Is Installed ${feature_name}
+ \ Exit For Loop If '${feature_check_status}' == 'True'
+ Run Keyword If '${feature_check_status}' == 'True' Create Network @{NETWORKS_NAME}[0]
+ ... ELSE Create Network @{NETWORKS_NAME}[0] --provider-network-type vlan --provider-physical-network ${PUBLIC_PHYSICAL_NETWORK} --provider-segment ${network1_vlan_id}
Create VXLAN Network (network_2)
[Documentation] Create Network with neutron request.
Create Vm Instances For network_1
[Documentation] Create Four Vm instances using flavor and image names for a network.
- Create Vm Instances network_1 ${NET_1_VM_INSTANCES} sg=csit
+ Create Vm Instances network_1 ${NET_1_VM_INSTANCES} sg=${SECURITY_GROUP}
Create Vm Instances For network_2
[Documentation] Create Four Vm instances using flavor and image names for a network.
- Create Vm Instances network_2 ${NET_2_VM_INSTANCES} sg=csit
+ Create Vm Instances network_2 ${NET_2_VM_INSTANCES} sg=${SECURITY_GROUP}
Create Vm Instances For network_3
[Documentation] Create Four Vm instances using flavor and image names for a network.
- Create Vm Instances network_3 ${NET_3_VM_INSTANCES} sg=csit
+ Create Vm Instances network_3 ${NET_3_VM_INSTANCES} sg=${SECURITY_GROUP}
Check Vm Instances Have Ip Address
- [Documentation] Test case to verify that all created VMs are ready and have received their ip addresses.
- ... We are polling first and longest on the last VM created assuming that if it's received it's address
- ... already the other instances should have theirs already or at least shortly thereafter.
- # first, ensure all VMs are in ACTIVE state. if not, we can just fail the test case and not waste time polling
- # for dhcp addresses
- : FOR ${vm} IN @{NET_1_VM_INSTANCES} @{NET_2_VM_INSTANCES} @{NET_3_VM_INSTANCES}
- \ Wait Until Keyword Succeeds 15s 5s Verify VM Is ACTIVE ${vm}
- : FOR ${index} IN RANGE 1 5
- \ ${NET1_L3_VM_IPS} ${NET1_DHCP_IP} Verify VMs Received DHCP Lease @{NET_1_VM_INSTANCES}
- \ ${NET2_L3_VM_IPS} ${NET2_DHCP_IP} Verify VMs Received DHCP Lease @{NET_2_VM_INSTANCES}
- \ ${NET3_L3_VM_IPS} ${NET3_DHCP_IP} Verify VMs Received DHCP Lease @{NET_3_VM_INSTANCES}
- \ ${VM_IPS}= Collections.Combine Lists ${NET1_L3_VM_IPS} ${NET2_L3_VM_IPS} ${NET3_L3_VM_IPS} ${NET1_DHCP_IP}
- \ ... ${NET2_DHCP_IP} ${NET3_DHCP_IP}
- \ ${status} ${message} Run Keyword And Ignore Error List Should Not Contain Value ${VM_IPS} None
- \ Exit For Loop If '${status}' == 'PASS'
- \ BuiltIn.Sleep 5s
- : FOR ${vm} IN @{NET_1_VM_INSTANCES} @{NET_2_VM_INSTANCES} @{NET_3_VM_INSTANCES}
- \ Write Commands Until Prompt nova console-log ${vm} 30s
+ @{NET1_L3_VM_IPS} ${NET1_L3_DHCP_IP} = Get VM IPs @{NET_1_VM_INSTANCES}
+ @{NET2_L3_VM_IPS} ${NET2_L3_DHCP_IP} = Get VM IPs @{NET_2_VM_INSTANCES}
+ @{NET3_L3_VM_IPS} ${NET3_L3_DHCP_IP} = Get VM IPs @{NET_3_VM_INSTANCES}
Set Suite Variable ${NET1_L3_VM_IPS}
- Set Suite Variable ${NET1_DHCP_IP}
Set Suite Variable ${NET2_L3_VM_IPS}
- Set Suite Variable ${NET2_DHCP_IP}
Set Suite Variable ${NET3_L3_VM_IPS}
- Set Suite Variable ${NET3_DHCP_IP}
Should Not Contain ${NET1_L3_VM_IPS} None
Should Not Contain ${NET2_L3_VM_IPS} None
- Should Not Contain ${NET1_DHCP_IP} None
- Should Not Contain ${NET2_DHCP_IP} None
- Should Not Contain ${NET3_DHCP_IP} None
+ Should Not Contain ${NET3_L3_VM_IPS} None
+ Should Not Contain ${NET1_L3_DHCP_IP} None
+ Should Not Contain ${NET2_L3_DHCP_IP} None
+ Should Not Contain ${NET3_L3_DHCP_IP} None
[Teardown] Run Keywords Show Debugs @{NET_1_VM_INSTANCES} @{NET_2_VM_INSTANCES} @{NET_3_VM_INSTANCES}
... AND Get Test Teardown Debugs
[Documentation] Delete Networks with neutron request.
: FOR ${NetworkElement} IN @{NETWORKS_NAME}
\ Delete Network ${NetworkElement}
+
+Verify Flows Cleanup
+ [Documentation] Verify that flows have been cleaned up properly after removing all neutron configurations
+ Verify Flows Are Cleaned Up On All OpenStack Nodes