Library SSHLibrary
Resource Netvirt.robot
Resource Utils.robot
+Resource L2GatewayOperations.robot
Resource ../variables/Variables.robot
*** Keywords ***
\ ${output}= Write Commands Until Prompt nova boot --image ${image} --flavor ${flavor} --nic net-id=${net_id} ${VmElement} --security-groups ${sg} 30s
\ Log ${output}
+Create Vm Instance With Port
+ [Arguments] ${port_name} ${vm_instance_name} ${image}=cirros-0.3.4-x86_64-uec ${flavor}=m1.nano ${sg}=default
+ [Documentation] Create One VM instance using given ${port_name} and for given ${compute_node}
+ ${devstack_conn_id}= Get ControlNode Connection
+ Switch Connection ${devstack_conn_id}
+ ${port_id}= Get Port Id ${port_name} ${devstack_conn_id}
+ ${output}= Write Commands Until Prompt nova boot --image ${image} --flavor ${flavor} --nic port-id=${port_id} ${vm_instance_name} --security-groups ${sg} 30s
+ Log ${output}
+
+Create Vm Instance With Ports
+ [Arguments] ${port_name} ${port2_name} ${vm_instance_name} ${image}=cirros-0.3.4-x86_64-uec ${flavor}=m1.nano ${sg}=default
+ [Documentation] Create One VM instance using given ${port_name} and for given ${compute_node}
+ ${devstack_conn_id}= Get ControlNode Connection
+ Switch Connection ${devstack_conn_id}
+ ${port_id}= Get Port Id ${port_name} ${devstack_conn_id}
+ ${port2_id}= Get Port Id ${port2_name} ${devstack_conn_id}
+ ${output}= Write Commands Until Prompt nova boot --image ${image} --flavor ${flavor} --nic port-id=${port_id} --nic port-id=${port2_id} ${vm_instance_name} --security-groups ${sg} 30s
+ Log ${output}
+
Create Vm Instance With Port On Compute Node
[Arguments] ${port_name} ${vm_instance_name} ${compute_node} ${image}=cirros-0.3.4-x86_64-uec ${flavor}=m1.nano ${sg}=default
[Documentation] Create One VM instance using given ${port_name} and for given ${compute_node}
Log ${output}
Should Contain ${output} active
-Verify VMs Received DHCP Lease
- [Arguments] @{vm_list}
+Collect VM IP Addresses
+ [Arguments] ${fail_on_none} @{vm_list}
[Documentation] Using nova console-log on the provided ${vm_list} to search for the string "obtained" which
... correlates to the instance receiving it's IP address via DHCP. Also retrieved is the ip of the nameserver
... if available in the console-log output. The keyword will also return a list of the learned ips as it
${devstack_conn_id}= Get ControlNode Connection
Switch Connection ${devstack_conn_id}
${ip_list} Create List @{EMPTY}
- ${dhcp_ip} Create List @{EMPTY}
: FOR ${vm} IN @{vm_list}
\ ${vm_ip_line}= Write Commands Until Prompt nova console-log ${vm} | grep -i "obtained" 30s
\ Log ${vm_ip_line}
\ ... ELSE Append To List ${ip_list} None
\ ${dhcp_ip_line}= Write Commands Until Prompt nova console-log ${vm} | grep "^nameserver" 30s
\ Log ${dhcp_ip_line}
- \ @{dhcp_ip} Get Regexp Matches ${dhcp_ip_line} [0-9]{1,3}\\.[0-9]{1,3}\\.[0-9]{1,3}\\.[0-9]{1,3}
+ \ ${dhcp_ip} Get Regexp Matches ${dhcp_ip_line} [0-9]{1,3}\\.[0-9]{1,3}\\.[0-9]{1,3}\\.[0-9]{1,3}
\ ${dhcp_ip_length} Get Length ${dhcp_ip}
\ Run Keyword If ${dhcp_ip_length}<=0 Append To List ${dhcp_ip} None
\ Log ${dhcp_ip}
${dhcp_length} Get Length ${dhcp_ip}
+ Run Keyword If '${fail_on_none}' == 'true' Should Not Contain ${ip_list} None
+ Run Keyword If '${fail_on_none}' == 'true' Should Not Contain ${dhcp_ip} None
+ Should Be True ${dhcp_length} <= 1
Return From Keyword If ${dhcp_length}==0 ${ip_list} ${EMPTY}
- [Return] ${ip_list} @{dhcp_ip}[0]
+ [Return] ${ip_list} ${dhcp_ip}
View Vm Console
[Arguments] ${vm_instance_names}
Should Not Contain ${output} 64 bytes
Ping Vm From Control Node
- [Arguments] ${vm_floating_ip}
+ [Arguments] ${vm_floating_ip} ${additional_args}=${EMPTY}
[Documentation] Ping VM floating IP from control node
Log ${vm_floating_ip}
${devstack_conn_id}= Get ControlNode Connection
Switch Connection ${devstack_conn_id}
- ${output}= Write Commands Until Prompt ping -c 3 ${vm_floating_ip} 20s
+ ${output}= Write Commands Until Prompt ping ${additional_args} -c 3 ${vm_floating_ip} 20s
Log ${output}
Close Connection
Should Contain ${output} 64 bytes
Run Keyword If ${rcode} Write Commands Until Prompt exit
Check Ping
- [Arguments] ${ip_address}
+ [Arguments] ${ip_address} ${ttl}=64
[Documentation] Run Ping command on the IP available as argument
- ${output}= Write Commands Until Expected Prompt ping -c 3 ${ip_address} ${OS_SYSTEM_PROMPT}
+ ${output}= Write Commands Until Expected Prompt ping -t ${ttl} -c 3 ${ip_address} ${OS_SYSTEM_PROMPT}
Should Contain ${output} 64 bytes
Check Metadata Access
[Return] ${output}
Test Operations From Vm Instance
- [Arguments] ${net_name} ${src_ip} ${dest_ips} ${user}=cirros ${password}=cubswin:)
+ [Arguments] ${net_name} ${src_ip} ${dest_ips} ${user}=cirros ${password}=cubswin:) ${ttl}=64
[Documentation] Login to the vm instance using ssh in the network.
${devstack_conn_id}= Get ControlNode Connection
Switch Connection ${devstack_conn_id}
\ Log ${dest_ip}
\ ${string_empty}= Run Keyword And Return Status Should Be Empty ${dest_ip}
\ Run Keyword If ${string_empty} Continue For Loop
- \ Run Keyword If ${rcode} Check Ping ${dest_ip}
+ \ Run Keyword If ${rcode} Check Ping ${dest_ip} ttl=${ttl}
Run Keyword If ${rcode} Check Metadata Access
[Teardown] Exit From Vm Console
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 br-int -OOpenFlow13 ${DEFAULT_LINUX_PROMPT_STRICT}
- Write Commands Until Expected Prompt sudo ovs-ofctl dump-ports-desc br-int -OOpenFlow13 ${DEFAULT_LINUX_PROMPT_STRICT}
Write Commands Until Expected Prompt sudo ovs-ofctl dump-flows br-int -OOpenFlow13 ${DEFAULT_LINUX_PROMPT_STRICT}
Write Commands Until Expected Prompt sudo ovs-ofctl dump-groups br-int -OOpenFlow13 ${DEFAULT_LINUX_PROMPT_STRICT}
Write Commands Until Expected Prompt sudo ovs-ofctl dump-group-stats br-int -OOpenFlow13 ${DEFAULT_LINUX_PROMPT_STRICT}
Switch Connection ${devstack_conn_id}
${MacAddr-list} Create List
: FOR ${portName} IN @{portName_list}
- \ ${output} = Write Commands Until Prompt neutron port-list | grep "${portName}" | awk '{print $6}' 30s
- \ Log ${output}
- \ ${splitted_output}= Split String ${output} ${EMPTY}
- \ ${macAddr}= Get from List ${splitted_output} 0
- \ Log ${macAddr}
+ \ ${macAddr}= OpenStackOperations.Get Port Mac ${portName} ${devstack_conn_id}
\ Append To List ${MacAddr-list} ${macAddr}
[Return] ${MacAddr-list}
+
+Get Port Ip
+ [Arguments] ${port_name}
+ [Documentation] Keyword would return the IP of the ${port_name} received.
+ Switch Connection ${devstack_conn_id}
+ ${output}= Write Commands Until Prompt neutron port-list | grep "${port_name}" | awk '{print $11}' | awk -F "\\"" '{print $2}' 30s
+ Log ${output}
+ ${splitted_output}= Split String ${output} ${EMPTY}
+ ${port_ip}= Get from List ${splitted_output} 0
+ Log ${port_ip}
+ [Return] ${port_ip}
+
+Get Port Mac
+ [Arguments] ${port_name} ${conn_id}=${devstack_conn_id}
+ [Documentation] Keyword would return the MAC ID of the ${port_name} received.
+ Switch Connection ${conn_id}
+ ${output}= Write Commands Until Prompt neutron port-list | grep "${port_name}" | awk '{print $6}' 30s
+ Log ${output}
+ ${splitted_output}= Split String ${output} ${EMPTY}
+ ${port_mac}= Get from List ${splitted_output} 0
+ Log ${port_mac}
+ [Return] ${port_mac}
+
+Create L2Gateway
+ [Arguments] ${bridge_name} ${intf_name} ${gw_name}
+ [Documentation] Keyword to create an L2 Gateway ${gw_name} for bridge ${bridge_name} connected to interface ${intf_name} (Using Neutron CLI).
+ Switch Connection ${devstack_conn_id}
+ ${l2gw_output}= Write Commands Until Prompt ${L2GW_CREATE} name=${bridge_name},interface_names=${intf_name} ${gw_name} 30s
+ Log ${l2gw_output}
+ [Return] ${l2gw_output}
+
+Create L2Gateway Connection
+ [Arguments] ${gw_name} ${net_name}
+ [Documentation] Keyword would create a new L2 Gateway Connection for ${gw_name} to ${net_name} (Using Neutron CLI).
+ Switch Connection ${devstack_conn_id}
+ ${l2gw_output}= Write Commands Until Prompt ${L2GW_CONN_CREATE} ${gw_name} ${net_name} 30s
+ Log ${l2gw_output}
+ [Return] ${l2gw_output}
+
+Get All L2Gateway
+ [Documentation] Keyword to return all the L2 Gateways available (Using Neutron CLI).
+ Switch Connection ${devstack_conn_id}
+ ${output}= Write Commands Until Prompt ${L2GW_GET_YAML} 30s
+ [Return] ${output}
+
+Get All L2Gateway Connection
+ [Documentation] Keyword to return all the L2 Gateway connections available (Using Neutron CLI).
+ Switch Connection ${devstack_conn_id}
+ ${output}= Write Commands Until Prompt ${L2GW_GET_CONN_YAML} 30s
+ [Return] ${output}
+
+Get L2Gateway
+ [Arguments] ${gw_id}
+ [Documentation] Keyword to check if the ${gw_id} is available in the L2 Gateway list (Using Neutron CLI).
+ Switch Connection ${devstack_conn_id}
+ ${output}= Write Commands Until Prompt ${L2GW_SHOW} ${gw_id} 30s
+ Log ${output}
+ [Return] ${output}
+
+Get L2gw Id
+ [Arguments] ${l2gw_name}
+ [Documentation] Keyword to retrieve the L2 Gateway ID for the ${l2gw_name} (Using Neutron CLI).
+ Switch Connection ${devstack_conn_id}
+ ${output}= Write Commands Until Prompt ${L2GW_GET} | grep "${l2gw_name}" | awk '{print $2}' 30s
+ Log ${output}
+ ${splitted_output}= Split String ${output} ${EMPTY}
+ ${l2gw_id}= Get from List ${splitted_output} 0
+ Log ${l2gw_id}
+ [Return] ${l2gw_id}
+
+Get L2gw Connection Id
+ [Arguments] ${l2gw_name}
+ [Documentation] Keyword to retrieve the L2 Gateway Connection ID for the ${l2gw_name} (Using Neutron CLI).
+ Switch Connection ${devstack_conn_id}
+ ${l2gw_id}= OpenStackOperations.Get L2gw Id ${l2gw_name}
+ ${output}= Write Commands Until Prompt ${L2GW_GET_CONN} | grep "${l2gw_id}" | awk '{print $2}' 30s
+ Log ${output}
+ ${splitted_output}= Split String ${output} ${EMPTY}
+ ${l2gw_conn_id}= Get from List ${splitted_output} 0
+ Log ${l2gw_conn_id}
+ [Return] ${l2gw_conn_id}
+
+Neutron Port List Rest
+ [Documentation] Keyword to get all ports details in Neutron (Using REST).
+ ${resp} = RequestsLibrary.Get Request session ${PORT_URL}
+ Log ${resp.content}
+ Should Be Equal As Strings ${resp.status_code} 200
+ [Return] ${resp.content}
+
+Get Neutron Port Rest
+ [Arguments] ${port_id}
+ [Documentation] Keyword to get the specific port details in Neutron (Using REST).
+ ${resp} = RequestsLibrary.Get Request session ${CONFIG_API}/${GET_PORT_URL}/${port_id}
+ Log ${resp.content}
+ Should Be Equal As Strings ${resp.status_code} 200
+ [Return] ${resp.content}
+
+Update Port Rest
+ [Arguments] ${port_id} ${json_data}
+ [Documentation] Keyword to update ${port_id} with json data received in ${json_data} (Using REST).
+ Log ${json_data}
+ ${resp} = RequestsLibrary.Put Request session ${CONFIG_API}/${GET_PORT_URL}/${port_id} ${json_data}
+ Log ${resp.content}
+ Should Be Equal As Strings ${resp.status_code} 200
+ [Return] ${resp.content}
+
+Create And Configure Security Group
+ [Arguments] ${sg-name}
+ Neutron Security Group Create ${sg-name}
+ Neutron Security Group Rule Create ${sg-name} direction=ingress port_range_max=65535 port_range_min=1 protocol=tcp remote_ip_prefix=0.0.0.0/0
+ Neutron Security Group Rule Create ${sg-name} direction=egress port_range_max=65535 port_range_min=1 protocol=tcp remote_ip_prefix=0.0.0.0/0
+ Neutron Security Group Rule Create ${sg-name} direction=ingress protocol=icmp remote_ip_prefix=0.0.0.0/0
+ Neutron Security Group Rule Create ${sg-name} direction=egress protocol=icmp remote_ip_prefix=0.0.0.0/0
+ Neutron Security Group Rule Create ${sg-name} direction=ingress port_range_max=65535 port_range_min=1 protocol=udp remote_ip_prefix=0.0.0.0/0
+ Neutron Security Group Rule Create ${sg-name} direction=egress port_range_max=65535 port_range_min=1 protocol=udp remote_ip_prefix=0.0.0.0/0
+
+Create SFC Flow Classifier
+ [Arguments] ${name} ${src_ip} ${dest_ip} ${protocol} ${dest_port} ${neutron_src_port}
+ [Documentation] Create a flow classifier for SFC
+ ${devstack_conn_id}= Get ControlNode Connection
+ Switch Connection ${devstack_conn_id}
+ ${cmd}= Set Variable neutron flow-classifier-create --ethertype IPv4 --source-ip-prefix ${src_ip}/32 --destination-ip-prefix ${dest_ip}/32 --protocol ${protocol} --destination-port ${dest_port}:${dest_port} --logical-source-port ${neutron_src_port} ${name}
+ Log ${cmd}
+ ${output}= Write Commands Until Prompt ${cmd} 30s
+ Log ${output}
+ Close Connection
+ Should Contain ${output} Created a new flow_classifier
+ [Return] ${output}
+
+Delete SFC Flow Classifier
+ [Arguments] ${name}
+ [Documentation] Delete a SFC flow classifier
+ ${devstack_conn_id}= Get ControlNode Connection
+ Switch Connection ${devstack_conn_id}
+ ${cmd}= Set Variable neutron flow-classifier-delete ${name}
+ Log ${cmd}
+ ${output}= Write Commands Until Prompt ${cmd} 30s
+ Log ${output}
+ Close Connection
+ Should Contain ${output} Deleted flow_classifier
+ [Return] ${output}
+
+Create SFC Port Pair
+ [Arguments] ${name} ${port_in} ${port_out}
+ [Documentation] Creates a neutron port pair for SFC
+ ${devstack_conn_id}= Get ControlNode Connection
+ Switch Connection ${devstack_conn_id}
+ ${cmd}= Set Variable neutron port-pair-create --ingress=${port_in} --egress=${port_out} ${name}
+ Log ${cmd}
+ ${output}= Write Commands Until Prompt ${cmd} 30s
+ Log ${output}
+ Close Connection
+ Should Contain ${output} Created a new port_pair
+ [Return] ${output}
+
+Delete SFC Port Pair
+ [Arguments] ${name}
+ [Documentation] Delete a SFC port pair
+ ${devstack_conn_id}= Get ControlNode Connection
+ Switch Connection ${devstack_conn_id}
+ ${cmd}= Set Variable neutron port-pair-delete ${name}
+ Log ${cmd}
+ ${output}= Write Commands Until Prompt ${cmd} 30s
+ Log ${output}
+ Close Connection
+ Should Contain ${output} Deleted port_pair
+ [Return] ${output}
+
+Create SFC Port Pair Group
+ [Arguments] ${name} ${port_pair}
+ [Documentation] Creates a port pair group with a single port pair for SFC
+ ${devstack_conn_id}= Get ControlNode Connection
+ Switch Connection ${devstack_conn_id}
+ ${cmd}= Set Variable neutron port-pair-group-create --port-pair ${port_pair} ${name}
+ Log ${cmd}
+ ${output}= Write Commands Until Prompt ${cmd} 30s
+ Log ${output}
+ Close Connection
+ Should Contain ${output} Created a new port_pair_group
+ [Return] ${output}
+
+Create SFC Port Pair Group With Two Pairs
+ [Arguments] ${name} ${port_pair1} ${port_pair2}
+ [Documentation] Creates a port pair group with two port pairs for SFC
+ ${devstack_conn_id}= Get ControlNode Connection
+ Switch Connection ${devstack_conn_id}
+ ${cmd}= Set Variable neutron port-pair-group-create --port-pair ${port_pair1} --port-pair ${port_pair2} ${name}
+ Log ${cmd}
+ ${output}= Write Commands Until Prompt ${cmd} 30s
+ Log ${output}
+ Close Connection
+ Should Contain ${output} Created a new port_pair_group
+ [Return] ${output}
+
+Delete SFC Port Pair Group
+ [Arguments] ${name}
+ [Documentation] Delete a SFC port pair group
+ ${devstack_conn_id}= Get ControlNode Connection
+ Switch Connection ${devstack_conn_id}
+ ${cmd}= Set Variable neutron port-pair-group-delete ${name}
+ Log ${cmd}
+ ${output}= Write Commands Until Prompt ${cmd} 30s
+ Log ${output}
+ Close Connection
+ Should Contain ${output} Deleted port_pair_group
+ [Return] ${output}
+
+Create SFC Port Chain
+ [Arguments] ${name} ${pg1} ${pg2} ${fc}
+ [Documentation] Creates a port pair chain with two port groups and a singel classifier.
+ ${devstack_conn_id}= Get ControlNode Connection
+ Switch Connection ${devstack_conn_id}
+ ${cmd}= Set Variable neutron port-chain-create --port-pair-group ${pg1} --port-pair-group ${pg2} --flow-classifier ${fc} ${name}
+ Log ${cmd}
+ ${output}= Write Commands Until Prompt ${cmd} 30s
+ Log ${output}
+ Close Connection
+ Should Contain ${output} Created a new port_chain
+ [Return] ${output}
+
+Delete SFC Port Chain
+ [Arguments] ${name}
+ [Documentation] Delete a SFC port chain
+ ${devstack_conn_id}= Get ControlNode Connection
+ Switch Connection ${devstack_conn_id}
+ ${cmd}= Set Variable neutron port-chain-delete ${name}
+ Log ${cmd}
+ ${output}= Write Commands Until Prompt ${cmd} 30s
+ Log ${output}
+ Close Connection
+ Should Contain ${output} Deleted port_chain
+ [Return] ${output}