*** Settings *** Documentation Test suite to verify packet flows between vm instances. Suite Setup OpenStackOperations.OpenStack Suite Setup Suite Teardown OpenStackOperations.OpenStack Suite Teardown Test Setup SetupUtils.Setup_Test_With_Logging_And_Without_Fast_Failing Test Teardown OpenStackOperations.Get Test Teardown Debugs Library SSHLibrary 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 ../../../libraries/KarafKeywords.robot Resource ../../../variables/netvirt/Variables.robot *** Variables *** ${SECURITY_GROUP} l2_sg @{NETWORKS} l2_net_1 l2_net_2 @{SUBNETS} l2_sub_1 l2_sub_2 @{NET_1_VMS} l2_net_1_vm_1 l2_net_1_vm_2 l2_net_1_vm_3 @{NET_2_VMS} l2_net_2_vm_1 l2_net_2_vm_2 l2_net_2_vm_3 @{SUBNET_CIDRS} 21.0.0.0/24 22.0.0.0/24 ${NET_1_VLAN_ID} 1121 *** Test Cases *** Create VLAN Network net_1 [Documentation] Create Network with neutron request. # 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. ${feature_check_status} = OpenStackOperations.Is Feature Installed ${legacy_feature_list} BuiltIn.Run Keyword If '${feature_check_status}' == 'True' OpenStackOperations.Create Network @{NETWORKS}[0] ... ELSE OpenStackOperations.Create Network @{NETWORKS}[0] --provider-network-type vlan --provider-physical-network ${PUBLIC_PHYSICAL_NETWORK} --provider-segment ${NET_1_VLAN_ID} Create Subnet For net_1 [Documentation] Create Sub Nets for the Networks with neutron request. OpenStackOperations.Create SubNet @{NETWORKS}[0] @{SUBNETS}[0] @{SUBNET_CIDRS}[0] Create VXLAN Network net_2 [Documentation] Create Network with neutron request. OpenStackOperations.Create Network @{NETWORKS}[1] Create Subnet For net_2 [Documentation] Create Sub Nets for the Networks with neutron request. OpenStackOperations.Create SubNet @{NETWORKS}[1] @{SUBNETS}[1] @{SUBNET_CIDRS}[1] Add Ssh Allow All Rule [Documentation] Allow all TCP/UDP/ICMP packets for this suite OpenStackOperations.Create Allow All SecurityGroup ${SECURITY_GROUP} Create Vm Instances For net_1 [Documentation] Create VM instances using flavor and image names for a network. OpenStackOperations.Create Vm Instance On Compute Node @{NETWORKS}[0] @{NET_1_VMS}[0] ${OS_CMP1_HOSTNAME} sg=${SECURITY_GROUP} OpenStackOperations.Create Vm Instance On Compute Node @{NETWORKS}[0] @{NET_1_VMS}[1] ${OS_CMP1_HOSTNAME} sg=${SECURITY_GROUP} OpenStackOperations.Create Vm Instance On Compute Node @{NETWORKS}[0] @{NET_1_VMS}[2] ${OS_CMP2_HOSTNAME} sg=${SECURITY_GROUP} Create Vm Instances For net_2 [Documentation] Create VM instances using flavor and image names for a network. OpenStackOperations.Create Vm Instance On Compute Node @{NETWORKS}[1] @{NET_2_VMS}[0] ${OS_CMP1_HOSTNAME} sg=${SECURITY_GROUP} OpenStackOperations.Create Vm Instance On Compute Node @{NETWORKS}[1] @{NET_2_VMS}[1] ${OS_CMP2_HOSTNAME} sg=${SECURITY_GROUP} OpenStackOperations.Create Vm Instance On Compute Node @{NETWORKS}[1] @{NET_2_VMS}[2] ${OS_CMP2_HOSTNAME} sg=${SECURITY_GROUP} Check Vm Instances Have Ip Address @{NET_1_VM_IPS} ${NET_1_DHCP_IP} = OpenStackOperations.Get VM IPs @{NET_1_VMS} @{NET_2_VM_IPS} ${NET_2_DHCP_IP} = OpenStackOperations.Get VM IPs @{NET_2_VMS} BuiltIn.Set Suite Variable @{NET_1_VM_IPS} BuiltIn.Set Suite Variable @{NET_2_VM_IPS} BuiltIn.Should Not Contain ${NET_1_VM_IPS} None BuiltIn.Should Not Contain ${NET_2_VM_IPS} None BuiltIn.Should Not Contain ${NET_1_DHCP_IP} None BuiltIn.Should Not Contain ${NET_2_DHCP_IP} None [Teardown] BuiltIn.Run Keywords OpenStackOperations.Show Debugs @{NET_1_VMS} @{NET_2_VMS} ... AND OpenStackOperations.Get Test Teardown Debugs Ping Vm Instance1 In net_1 [Documentation] Check reachability of vm instances by pinging to them. OpenStackOperations.Ping Vm From DHCP Namespace @{NETWORKS}[0] @{NET_1_VM_IPS}[0] Ping Vm Instance2 In net_1 [Documentation] Check reachability of vm instances by pinging to them. OpenStackOperations.Ping Vm From DHCP Namespace @{NETWORKS}[0] @{NET_1_VM_IPS}[1] Ping Vm Instance3 In net_1 [Documentation] Check reachability of vm instances by pinging to them. OpenStackOperations.Ping Vm From DHCP Namespace @{NETWORKS}[0] @{NET_1_VM_IPS}[2] Ping Vm Instance1 In net_2 [Documentation] Check reachability of vm instances by pinging to them. OpenStackOperations.Ping Vm From DHCP Namespace @{NETWORKS}[1] @{NET_2_VM_IPS}[0] Ping Vm Instance2 In net_2 [Documentation] Check reachability of vm instances by pinging to them. OpenStackOperations.Ping Vm From DHCP Namespace @{NETWORKS}[1] @{NET_2_VM_IPS}[1] Ping Vm Instance3 In net_2 [Documentation] Check reachability of vm instances by pinging to them. OpenStackOperations.Ping Vm From DHCP Namespace @{NETWORKS}[1] @{NET_2_VM_IPS}[2] Connectivity Tests From Vm Instance1 In net_1 [Documentation] Login to the vm instance and test some operations OpenStackOperations.Test Operations From Vm Instance @{NETWORKS}[0] @{NET_1_VM_IPS}[0] ${NET_1_VM_IPS} Connectivity Tests From Vm Instance2 In net_1 [Documentation] Login to the vm instance and test operations OpenStackOperations.Test Operations From Vm Instance @{NETWORKS}[0] @{NET_1_VM_IPS}[1] ${NET_1_VM_IPS} Connectivity Tests From Vm Instance3 In net_1 [Documentation] Login to the vm instance and test operations OpenStackOperations.Test Operations From Vm Instance @{NETWORKS}[0] @{NET_1_VM_IPS}[2] ${NET_1_VM_IPS} Connectivity Tests From Vm Instance1 In net_2 [Documentation] Login to the vm instance and test operations OpenStackOperations.Test Operations From Vm Instance @{NETWORKS}[1] @{NET_2_VM_IPS}[0] ${NET_2_VM_IPS} Connectivity Tests From Vm Instance2 In net_2 [Documentation] Logging to the vm instance using generated key pair. OpenStackOperations.Test Operations From Vm Instance @{NETWORKS}[1] @{NET_2_VM_IPS}[1] ${NET_2_VM_IPS} Connectivity Tests From Vm Instance3 In net_2 [Documentation] Login to the vm instance using generated key pair. OpenStackOperations.Test Operations From Vm Instance @{NETWORKS}[1] @{NET_2_VM_IPS}[2] ${NET_2_VM_IPS} Delete A Vm Instance [Documentation] Delete Vm instances using instance names. OpenStackOperations.Delete Vm Instance @{NET_1_VMS}[0] No Ping For Deleted Vm [Documentation] Check non reachability of deleted vm instances by pinging to them. OpenStackOperations.Ping From DHCP Should Not Succeed @{NETWORKS}[0] @{NET_1_VM_IPS}[0] Delete Vm Instances In net_1 [Documentation] Delete Vm instances using instance names in net_1. : FOR ${vm} IN @{NET_1_VMS} \ OpenStackOperations.Delete Vm Instance ${vm} Delete Vm Instances In net_2 [Documentation] Delete Vm instances using instance names in net_2. : FOR ${vm} IN @{NET_2_VMS} \ OpenStackOperations.Delete Vm Instance ${vm} Delete Sub Network In net_1 [Documentation] Delete Sub Net for the Networks with neutron request. OpenStackOperations.Delete SubNet @{SUBNETS}[0] Delete Sub Network In net_2 [Documentation] Delete Sub Net for the Networks with neutron request. OpenStackOperations.Delete SubNet @{SUBNETS}[1] Delete Networks [Documentation] Delete Networks with neutron request. : FOR ${networks} IN @{NETWORKS} \ OpenStackOperations.Delete Network ${networks} Delete Security Group [Documentation] Delete security group with neutron request OpenStackOperations.Delete SecurityGroup ${SECURITY_GROUP} Verify Flows Cleanup [Documentation] Verify that flows have been cleaned up properly after removing all neutron configurations ${feature_check_status}= Run Keyword And Return Status Verify Feature Is Installed odl-vtn-manager-neutron BuiltIn.Run Keyword If '${feature_check_status}' != 'True' DataModels.Verify Flows Are Cleaned Up On All OpenStack Nodes