Library OperatingSystem
Library RequestsLibrary
Library SSHLibrary
+Library String
Resource DataModels.robot
Resource DevstackUtils.robot
Resource L2GatewayOperations.robot
*** Keywords ***
Get Tenant ID From Security Group
[Documentation] Returns tenant ID by reading it from existing default security-group.
- ${rc} ${output}= Run And Return Rc And Output openstack security group show default | grep "| tenant_id" | awk '{print $4}'
- Should Be True '${rc}' == '0'
+ ${output} = OpenStack CLI openstack security group show default | grep "| tenant_id" | awk '{print $4}'
[Return] ${output}
Get Tenant ID From Network
[Arguments] ${network_uuid}
[Documentation] Returns tenant ID by reading it from existing network.
- ${resp}= Get_From_Uri uri=${CONFIG_API}/neutron:neutron/networks/network/${network_uuid}/ accept=${ACCEPT_EMPTY} session=session
- ${tenant_id}= Utils.Extract Value From Content ${resp} /network/0/tenant-id strip
+ ${resp} = TemplatedRequests.Get_From_Uri uri=${CONFIG_API}/neutron:neutron/networks/network/${network_uuid}/ accept=${ACCEPT_EMPTY} session=session
+ ${tenant_id} = Utils.Extract Value From Content ${resp} /network/0/tenant-id strip
[Return] ${tenant_id}
Create Network
[Arguments] ${network_name} ${additional_args}=${EMPTY} ${verbose}=TRUE
[Documentation] Create Network with neutron request.
- ${rc} ${output}= Run And Return Rc And Output openstack network create ${network_name} ${additional_args}
- Log ${output}
- Should Be True '${rc}' == '0'
+ ${output} = OpenStack CLI openstack network create ${network_name} ${additional_args}
[Return] ${output}
Update Network
[Arguments] ${network_name} ${additional_args}=${EMPTY}
[Documentation] Update Network with neutron request.
- ${cmd}= Set Variable If '${OPENSTACK_BRANCH}'=='stable/newton' neutron -v net-update ${network_name} ${additional_args} openstack network set ${network_name} ${additional_args}
- ${rc} ${output}= Run And Return Rc And Output ${cmd}
- Log ${output}
- Should Be True '${rc}' == '0'
+ ${cmd} = BuiltIn.Set Variable If '${OPENSTACK_BRANCH}'=='stable/newton' neutron -v net-update ${network_name} ${additional_args} openstack network set ${network_name} ${additional_args}
+ ${rc} ${output} = OperatingSystem.Run And Return Rc And Output ${cmd}
+ BuiltIn.Log ${output}
+ BuiltIn.Should Be True '${rc}' == '0'
[Return] ${output}
Show Network
[Arguments] ${network_name}
[Documentation] Show Network with neutron request.
- ${rc} ${output}= Run And Return Rc And Output openstack network show ${network_name}
- Log ${output}
- Should Be True '${rc}' == '0'
+ ${output} = OpenStack CLI openstack network show ${network_name}
[Return] ${output}
List Networks
[Documentation] List networks and return output with neutron client.
- ${rc} ${output}= Run And Return Rc And Output openstack network list
- Log ${output}
- Should Be True '${rc}' == '0'
+ ${output} = OpenStack CLI openstack network list
[Return] ${output}
List Subnets
[Documentation] List subnets and return output with neutron client.
- ${rc} ${output}= Run And Return Rc And Output openstack subnet list
- Log ${output}
- Should Be True '${rc}' == '0'
+ ${output} = OpenStack CLI openstack subnet list
[Return] ${output}
Delete Network
[Arguments] ${network_name}
[Documentation] Delete Network with neutron request.
- ${rc} ${output}= Run And Return Rc And Output openstack network delete ${network_name}
- Log ${output}
- Should Be True '${rc}' == '0'
+ ${output} = OpenStack CLI openstack network delete ${network_name}
Create SubNet
- [Arguments] ${network_name} ${subnet} ${range_ip} ${additional_args}=${EMPTY}
+ [Arguments] ${network_name} ${subnet_name} ${range_ip} ${additional_args}=${EMPTY}
[Documentation] Create SubNet for the Network with neutron request.
- ${rc} ${output}= Run And Return Rc And Output openstack subnet create --network ${network_name} --subnet-range ${range_ip} ${subnet} ${additional_args}
- Log ${output}
- Should Be True '${rc}' == '0'
+ ${output} = OpenStack CLI openstack subnet create --network ${network_name} --subnet-range ${range_ip} ${subnet_name} ${additional_args}
Update SubNet
[Arguments] ${subnet_name} ${additional_args}=${EMPTY}
[Documentation] Update subnet with neutron request.
- ${cmd}= Set Variable If '${OPENSTACK_BRANCH}'=='stable/newton' neutron -v subnet-update ${subnet_name} ${additional_args} openstack subnet set ${subnet_name} ${additional_args}
- ${rc} ${output}= Run And Return Rc And Output ${cmd}
- Log ${output}
- Should Be True '${rc}' == '0'
+ ${cmd} = BuiltIn.Set Variable If '${OPENSTACK_BRANCH}'=='stable/newton' neutron -v subnet-update ${subnet_name} ${additional_args} openstack subnet set ${subnet_name} ${additional_args}
+ ${rc} ${output} = OperatingSystem.Run And Return Rc And Output ${cmd}
+ BuiltIn.Log ${output}
+ BuiltIn.Should Be True '${rc}' == '0'
[Return] ${output}
Show SubNet
[Arguments] ${subnet_name}
[Documentation] Show subnet with neutron request.
- ${rc} ${output}= Run And Return Rc And Output openstack subnet show ${subnet_name}
- Log ${output}
- Should Be True '${rc}' == '0'
+ ${output} = OpenStack CLI openstack subnet show ${subnet_name}
[Return] ${output}
Create Port
[Documentation] Create Port with neutron request.
# if allowed_address_pairs is not empty we need to create the arguments to pass to the port create command. They are
# in a different format with the neutron vs openstack cli.
- ${address_pair_length}= Get Length ${allowed_address_pairs}
- ${allowed_pairs_argv}= Set Variable If '${OPENSTACK_BRANCH}'=='stable/newton' and '${address_pair_length}'=='2' --allowed-address-pairs type=dict list=true ip_address=@{allowed_address_pairs}[0] ip_address=@{allowed_address_pairs}[1]
- ${allowed_pairs_argv}= Set Variable If '${OPENSTACK_BRANCH}'!='stable/newton' and '${address_pair_length}'=='2' --allowed-address ip-address=@{allowed_address_pairs}[0] --allowed-address ip-address=@{allowed_address_pairs}[1] ${allowed_pairs_argv}
- ${allowed_pairs_argv}= Set Variable If '${address_pair_length}'=='0' ${EMPTY} ${allowed_pairs_argv}
- ${cmd}= Set Variable If '${OPENSTACK_BRANCH}'=='stable/newton' neutron -v port-create ${network_name} --name ${port_name} --security-group ${sg} ${additional_args} ${allowed_pairs_argv} openstack port create --network ${network_name} ${port_name} --security-group ${sg} ${additional_args} ${allowed_pairs_argv}
- ${rc} ${output}= Run And Return Rc And Output ${cmd}
- Log ${output}
- Should Be True '${rc}' == '0'
+ ${address_pair_length} = BuiltIn.Get Length ${allowed_address_pairs}
+ ${allowed_pairs_argv} = BuiltIn.Set Variable If '${OPENSTACK_BRANCH}'=='stable/newton' and '${address_pair_length}'=='2' --allowed-address-pairs type=dict list=true ip_address=@{allowed_address_pairs}[0] ip_address=@{allowed_address_pairs}[1]
+ ${allowed_pairs_argv} = BuiltIn.Set Variable If '${OPENSTACK_BRANCH}'!='stable/newton' and '${address_pair_length}'=='2' --allowed-address ip-address=@{allowed_address_pairs}[0] --allowed-address ip-address=@{allowed_address_pairs}[1] ${allowed_pairs_argv}
+ ${allowed_pairs_argv} = BuiltIn.Set Variable If '${address_pair_length}'=='0' ${EMPTY} ${allowed_pairs_argv}
+ ${cmd} = BuiltIn.Set Variable If '${OPENSTACK_BRANCH}'=='stable/newton' neutron -v port-create ${network_name} --name ${port_name} --security-group ${sg} ${additional_args} ${allowed_pairs_argv} openstack port create --network ${network_name} ${port_name} --security-group ${sg} ${additional_args} ${allowed_pairs_argv}
+ ${rc} ${output} = OperatingSystem.Run And Return Rc And Output ${cmd}
+ BuiltIn.Log ${output}
+ BuiltIn.Should Be True '${rc}' == '0'
Update Port
[Arguments] ${port_name} ${additional_args}=${EMPTY}
[Documentation] Update port with neutron request.
- ${rc} ${output}= Run And Return Rc And Output openstack port set ${port_name} ${additional_args}
- Log ${output}
- Should Be True '${rc}' == '0'
+ ${output} = OpenStack CLI openstack port set ${port_name} ${additional_args}
[Return] ${output}
Show Port
[Arguments] ${port_name}
[Documentation] Show port with neutron request.
- ${rc} ${output}= Run And Return Rc And Output openstack port show ${port_name}
- Log ${output}
- Should Be True '${rc}' == '0'
+ ${output} = OpenStack CLI openstack port show ${port_name}
[Return] ${output}
Delete Port
[Arguments] ${port_name}
[Documentation] Delete Port with neutron request.
- ${rc} ${output}= Run And Return Rc And Output openstack port delete ${port_name}
- Log ${output}
- Should Be True '${rc}' == '0'
+ ${output} = OpenStack CLI openstack port delete ${port_name}
List Ports
[Documentation] List ports and return output with neutron client.
- ${rc} ${output}= Run And Return Rc And Output openstack port list
- Log ${output}
- Should Be True '${rc}' == '0'
+ ${output} = OpenStack CLI openstack port list
[Return] ${output}
List Nova VMs
[Documentation] List VMs and return output with nova client.
- ${output}= OpenStack CLI openstack server list --all-projects
+ ${output} = OpenStack CLI openstack server list --all-projects
[Return] ${output}
Create And Associate Floating IPs
[Arguments] ${external_net} @{vm_list}
[Documentation] Create and associate floating IPs to VMs with nova request
- ${ip_list}= Create List @{EMPTY}
+ ${ip_list} = BuiltIn.Create List @{EMPTY}
: FOR ${vm} IN @{vm_list}
- \ ${rc} ${output}= Run And Return Rc And Output openstack floating ip create ${external_net}
- \ Log ${output}
- \ Should Be True '${rc}' == '0'
- \ @{ip} Get Regexp Matches ${output} [0-9]{1,3}\\.[0-9]{1,3}\\.[0-9]{1,3}\\.[0-9]{1,3}
- \ ${ip_length} Get Length ${ip}
- \ Run Keyword If ${ip_length}>0 Append To List ${ip_list} @{ip}[0]
- \ ... ELSE Append To List ${ip_list} None
- \ OpenStack CLI openstack server add floating ip ${vm} @{ip}[0]
+ \ ${output} = OpenStack CLI openstack floating ip create ${external_net}
+ \ BuiltIn.Log ${output}
+ \ BuiltIn.Should Be True '${rc}' == '0'
+ \ @{ip} = String.Get Regexp Matches ${output} [0-9]{1,3}\\.[0-9]{1,3}\\.[0-9]{1,3}\\.[0-9]{1,3}
+ \ ${ip_length} = BuiltIn.Get Length ${ip}
+ \ BuiltIn.Run Keyword If ${ip_length}>0 Collections.Append To List ${ip_list} @{ip}[0]
+ \ ... ELSE Collections.Append To List ${ip_list} None
+ \ ${output} = OpenStack CLI openstack server add floating ip ${vm} @{ip}[0]
[Return] ${ip_list}
Delete Floating IP
[Arguments] ${fip}
[Documentation] Delete floating ip with neutron request.
- ${rc} ${output}= Run And Return Rc And Output openstack floating ip delete ${fip}
- Log ${output}
- Should Be True '${rc}' == '0'
-
-Verify Gateway Ips
- [Documentation] Verifies the Gateway Ips with dump flow.
- ${output}= Write Commands Until Prompt And Log sudo ovs-ofctl -O OpenFlow13 dump-flows br-int
- : FOR ${GatewayIpElement} IN @{GATEWAY_IPS}
- \ Should Contain ${output} ${GatewayIpElement}
-
-Verify Dhcp Ips
- [Documentation] Verifies the Dhcp Ips with dump flow.
- ${output}= Write Commands Until Prompt And Log sudo ovs-ofctl -O OpenFlow13 dump-flows br-int
- : FOR ${DhcpIpElement} IN @{DHCP_IPS}
- \ Should Contain ${output} ${DhcpIpElement}
-
-Verify No Dhcp Ips
- [Documentation] Verifies the Dhcp Ips with dump flow.
- ${output}= Write Commands Until Prompt And Log sudo ovs-ofctl -O OpenFlow13 dump-flows br-int
- : FOR ${DhcpIpElement} IN @{DHCP_IPS}
- \ Should Not Contain ${output} ${DhcpIpElement}
+ ${output} = OpenStack CLI openstack floating ip delete ${fip}
Delete SubNet
[Arguments] ${subnet}
[Documentation] Delete SubNet for the Network with neutron request.
- Log ${subnet}
- ${rc} ${output}= Run And Return Rc And Output openstack subnet delete ${subnet}
- Should Be True '${rc}' == '0'
-
-Verify No Gateway Ips
- [Documentation] Verifies the Gateway Ips removed with dump flow.
- ${output}= Write Commands Until Prompt And Log sudo ovs-ofctl -O OpenFlow13 dump-flows br-int
- : FOR ${GatewayIpElement} IN @{GATEWAY_IPS}
- \ Should Not Contain ${output} ${GatewayIpElement}
+ ${output} = OpenStack CLI openstack subnet delete ${subnet}
Delete Vm Instance
[Arguments] ${vm_name}
[Documentation] Delete Vm instances using instance names.
- OpenStack CLI openstack server delete ${vm_name}
+ ${output} = OpenStack CLI openstack server delete ${vm_name}
Get Net Id
[Arguments] ${network_name}
[Documentation] Retrieve the net id for the given network name to create specific vm instance
- ${rc} ${output}= Run And Return Rc And Output openstack network list | grep "${network_name}" | awk '{print $2}'
- Should Be True '${rc}' == '0'
- ${splitted_output}= Split String ${output} ${EMPTY}
- ${net_id}= Get from List ${splitted_output} 0
+ ${output} = OpenStack CLI openstack network list | grep "${network_name}" | awk '{print $2}'
+ ${splitted_output} = String.Split String ${output} ${EMPTY}
+ ${net_id} = Collections.Get from List ${splitted_output} 0
[Return] ${net_id}
Get Subnet Id
[Arguments] ${subnet_name}
[Documentation] Retrieve the subnet id for the given subnet name
- ${rc} ${output}= Run And Return Rc And Output openstack subnet show "${subnet_name}" | grep " id " | awk '{print $4}'
- Should Be True '${rc}' == '0'
- ${splitted_output}= Split String ${output} ${EMPTY}
- ${subnet_id}= Get from List ${splitted_output} 0
+ ${output} = OpenStack CLI openstack subnet show "${subnet_name}" | grep " id " | awk '{print $4}'
+ ${splitted_output} = String.Split String ${output} ${EMPTY}
+ ${subnet_id} = Collections.Get from List ${splitted_output} 0
[Return] ${subnet_id}
Get Port Id
[Arguments] ${port_name}
[Documentation] Retrieve the port id for the given port name to attach specific vm instance to a particular port
- ${rc} ${output}= Run And Return Rc And Output openstack port list | grep "${port_name}" | awk '{print $2}'
- Should Be True '${rc}' == '0'
- ${splitted_output}= Split String ${output} ${EMPTY}
- ${port_id}= Get from List ${splitted_output} 0
+ ${output} = OpenStack CLI openstack port list | grep "${port_name}" | awk '{print $2}'
+ ${splitted_output} = String.Split String ${output} ${EMPTY}
+ ${port_id} = Collections.Get from List ${splitted_output} 0
[Return] ${port_id}
Get Router Id
[Arguments] ${router1}
[Documentation] Retrieve the router id for the given router name
- ${rc} ${output}= Run And Return Rc And Output openstack router show "${router1}" |awk '/ id / {print $4}'
- Should Be True '${rc}' == '0'
- ${splitted_output}= Split String ${output} ${EMPTY}
- ${router_id}= Get from List ${splitted_output} 0
+ ${output} = OpenStack CLI openstack router show "${router1}" |awk '/ id / {print $4}'
+ ${splitted_output} = String.Split String ${output} ${EMPTY}
+ ${router_id} = Collections.Get from List ${splitted_output} 0
[Return] ${router_id}
Create Vm Instances
[Arguments] ${net_name} ${vm_instance_names} ${image}=${EMPTY} ${flavor}=m1.nano ${sg}=default ${min}=1
... ${max}=1
[Documentation] Create X Vm Instance with the net id of the Netowrk.
- ${image} Set Variable If "${image}"=="${EMPTY}" ${CIRROS_${OPENSTACK_BRANCH}} ${image}
- ${net_id}= Get Net Id ${net_name}
- : FOR ${VmElement} IN @{vm_instance_names}
- \ OpenStack CLI openstack server create --image ${image} --flavor ${flavor} --nic net-id=${net_id} ${VmElement} --security-group ${sg} --min ${min} --max ${max}
+ ${image} BuiltIn.Set Variable If "${image}"=="${EMPTY}" ${CIRROS_${OPENSTACK_BRANCH}} ${image}
+ ${net_id} = OpenStackOperations.Get Net Id ${net_name}
+ : FOR ${vm} IN @{vm_instance_names}
+ \ ${output} = OpenStack CLI openstack server create --image ${image} --flavor ${flavor} --nic net-id=${net_id} ${vm} --security-group ${sg} --min ${min} --max ${max}
Create Vm Instance On Compute Node
[Arguments] ${net_name} ${vm_name} ${node_hostname} ${image}=${EMPTY} ${flavor}=m1.nano ${sg}=default
[Documentation] Create a VM instance on a specific compute node.
- ${image} = Set Variable If "${image}"=="${EMPTY}" ${CIRROS_${OPENSTACK_BRANCH}} ${image}
- ${net_id} = Get Net Id ${net_name}
- OpenStack CLI openstack server create ${vm_name} --image ${image} --flavor ${flavor} --nic net-id=${net_id} --security-group ${sg} --availability-zone nova:${node_hostname}
+ ${image} = BuiltIn.Set Variable If "${image}"=="${EMPTY}" ${CIRROS_${OPENSTACK_BRANCH}} ${image}
+ ${net_id} = OpenStackOperations.Get Net Id ${net_name}
+ ${output} = OpenStack CLI openstack server create ${vm_name} --image ${image} --flavor ${flavor} --nic net-id=${net_id} --security-group ${sg} --availability-zone nova:${node_hostname}
Create Vm Instance With Port
[Arguments] ${port_name} ${vm_instance_name} ${image}=${EMPTY} ${flavor}=m1.nano ${sg}=default
[Documentation] Create One VM instance using given ${port_name} and for given ${compute_node}
- ${image} Set Variable If "${image}"=="${EMPTY}" ${CIRROS_${OPENSTACK_BRANCH}} ${image}
- ${port_id}= Get Port Id ${port_name}
- OpenStack CLI openstack server create --image ${image} --flavor ${flavor} --nic port-id=${port_id} ${vm_instance_name} --security-group ${sg}
+ ${image} = BuiltIn.Set Variable If "${image}"=="${EMPTY}" ${CIRROS_${OPENSTACK_BRANCH}} ${image}
+ ${port_id} = OpenStackOperations.Get Port Id ${port_name}
+ ${output} = OpenStack CLI openstack server create --image ${image} --flavor ${flavor} --nic port-id=${port_id} ${vm_instance_name} --security-group ${sg}
Create Vm Instance With Ports
[Arguments] ${port_name} ${port2_name} ${vm_instance_name} ${image}=${EMPTY} ${flavor}=m1.nano ${sg}=default
[Documentation] Create One VM instance using given ${port_name} and for given ${compute_node}
- ${image} Set Variable If "${image}"=="${EMPTY}" ${CIRROS_${OPENSTACK_BRANCH}} ${image}
- ${port_id}= Get Port Id ${port_name}
- ${port2_id}= Get Port Id ${port2_name}
- OpenStack CLI openstack server create --image ${image} --flavor ${flavor} --nic port-id=${port_id} --nic port-id=${port2_id} ${vm_instance_name} --security-group ${sg}
+ ${image} BuiltIn.Set Variable If "${image}"=="${EMPTY}" ${CIRROS_${OPENSTACK_BRANCH}} ${image}
+ ${port_id} = OpenStackOperations.Get Port Id ${port_name}
+ ${port2_id} = OpenStackOperations.Get Port Id ${port2_name}
+ ${output} = OpenStack CLI openstack server create --image ${image} --flavor ${flavor} --nic port-id=${port_id} --nic port-id=${port2_id} ${vm_instance_name} --security-group ${sg}
Create Vm Instance With Port On Compute Node
[Arguments] ${port_name} ${vm_instance_name} ${node_hostname} ${image}=${EMPTY} ${flavor}=m1.nano ${sg}=default
[Documentation] Create One VM instance using given ${port_name} and for given ${compute_node}
- ${image} Set Variable If "${image}"=="${EMPTY}" ${CIRROS_${OPENSTACK_BRANCH}} ${image}
- ${port_id}= Get Port Id ${port_name}
- OpenStack CLI openstack server create --image ${image} --flavor ${flavor} --nic port-id=${port_id} --security-group ${sg} --availability-zone nova:${node_hostname} ${vm_instance_name}
+ ${image} = BuiltIn.Set Variable If "${image}"=="${EMPTY}" ${CIRROS_${OPENSTACK_BRANCH}} ${image}
+ ${port_id} = OpenStackOperations.Get Port Id ${port_name}
+ ${output} = OpenStack CLI openstack server create --image ${image} --flavor ${flavor} --nic port-id=${port_id} --security-group ${sg} --availability-zone nova:${node_hostname} ${vm_instance_name}
Get Hypervisor Hostname From IP
[Arguments] ${hypervisor_ip}
[Documentation] Returns the hostname found for the given IP address if it's listed in hypervisor list. For debuggability
... the full listing is logged first, then followed by a grep | cut to focus on the actual hostname to return
- OpenStack CLI openstack hypervisor list
- ${hostname}= OpenStack CLI openstack hypervisor list -f value | grep "${hypervisor_ip} " | cut -d" " -f 2
+ ${output} = OpenStack CLI openstack hypervisor list
+ ${hostname} = OpenStack CLI openstack hypervisor list -f value | grep "${hypervisor_ip} " | cut -d" " -f 2
[Return] ${hostname}
Create Nano Flavor
[Documentation] Create a nano flavor
- ${rc} ${output}= Run And Return Rc And Output openstack flavor create m1.nano --id auto --ram 64 --disk 0 --vcpus 1
- Log ${output}
- Should Be True '${rc}' == '0'
+ ${output} = OpenStack CLI openstack flavor create m1.nano --id auto --ram 64 --disk 0 --vcpus 1
Verify VM Is ACTIVE
[Arguments] ${vm_name}
[Documentation] Run these commands to check whether the created vm instance is active or not.
- ${output}= OpenStack CLI openstack server show ${vm_name} | grep OS-EXT-STS:vm_state
- Should Contain ${output} active
+ ${output} = OpenStack CLI openstack server show ${vm_name} | grep OS-EXT-STS:vm_state
+ BuiltIn.Should Contain ${output} active
Poll VM Is ACTIVE
[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}
+ BuiltIn.Wait Until Keyword Succeeds ${retry} ${retry_interval} OpenStackOperations.Verify VM Is ACTIVE ${vm_name}
Get Match
[Arguments] ${text} ${regexp} ${index}=0
- [Documentation] Wrapper around Get Regexp Matches to return None if not found or the first match if found.
+ [Documentation] Wrapper around String.Get Regexp Matches to return None if not found or the first match if found.
@{matches} = String.Get Regexp Matches ${text} ${regexp}
- ${matches_length} = Get Length ${matches}
+ ${matches_length} = BuiltIn.Get Length ${matches}
BuiltIn.Set Suite Variable ${OS_MATCH} None
BuiltIn.Run Keyword If ${matches_length} > ${index} BuiltIn.Set Suite Variable ${OS_MATCH} @{matches}[${index}]
[Return] ${OS_MATCH}
[Arguments] ${fail_on_none} ${vm}
[Documentation] Get the vm ip address and nameserver by scraping the vm's console log.
... Get VM IP returns three values: [0] the vm IP, [1] the DHCP IP and [2] the vm console log.
- ${vm_console_output}= OpenStack CLI openstack console log show ${vm} log_output=False
- ${vm_ip} = Set Variable None
- ${dhcp_ip} = Set Variable None
- ${match} = Get Match ${vm_console_output} ${REGEX_OBTAINED}
- ${vm_ip} = Get Match ${match} ${REGEX_IPV4} 0
- ${match} = Get Match ${vm_console_output} ${REGEX_IPROUTE}
- ${dhcp_ip} = Get Match ${match} ${REGEX_IPV4} 1
- BuiltIn.Run Keyword If '${fail_on_none}' == 'true' Should Not Contain ${vm_ip} None
- BuiltIn.Run Keyword If '${fail_on_none}' == 'true' Should Not Contain ${dhcp_ip} None
+ ${vm_console_output} = OpenStack CLI With No Log openstack console log show ${vm}
+ ${vm_ip} = BuiltIn.Set Variable None
+ ${dhcp_ip} = BuiltIn.Set Variable None
+ ${match} = OpenStackOperations.Get Match ${vm_console_output} ${REGEX_OBTAINED}
+ ${vm_ip} = OpenStackOperations.Get Match ${match} ${REGEX_IPV4} 0
+ ${match} = OpenStackOperations.Get Match ${vm_console_output} ${REGEX_IPROUTE}
+ ${dhcp_ip} = OpenStackOperations.Get Match ${match} ${REGEX_IPV4} 1
+ BuiltIn.Run Keyword If '${fail_on_none}' == 'true' BuiltIn.Should Not Contain ${vm_ip} None
+ BuiltIn.Run Keyword If '${fail_on_none}' == 'true' BuiltIn.Should Not Contain ${dhcp_ip} None
[Return] ${vm_ip} ${dhcp_ip} ${vm_console_output}
Get VM IPs
... may have different dhcp server addresses. Not sure what TODO about that, but noting it here for reference.
@{vm_ips} BuiltIn.Create List @{EMPTY}
: FOR ${vm} IN @{vms}
- \ Poll VM Is ACTIVE ${vm}
- \ ${status} ${ips_and_console_log} Run Keyword And Ignore Error Wait Until Keyword Succeeds 180s 15s
- \ ... Get VM IP true ${vm}
+ \ OpenStackOperations.Poll VM Is ACTIVE ${vm}
+ \ ${status} ${ips_and_console_log} BuiltIn.Run Keyword And Ignore Error BuiltIn.Wait Until Keyword Succeeds 180s 15s
+ \ ... OpenStackOperations.Get VM IP true ${vm}
\ # If there is trouble with Get VM IP, the status will be FAIL and the return value will be a string of what went
\ # wrong. We need to handle both the PASS and FAIL cases. In the FAIL case we know we wont have access to the
\ # console log, as it would not be returned; so we need to grab it again to log it. We also can append 'None' to
\ # the vm ip list if status is FAIL.
- \ Run Keyword If "${status}" == "PASS" BuiltIn.Log ${ips_and_console_log[2]}
+ \ BuiltIn.Run Keyword If "${status}" == "PASS" BuiltIn.Log ${ips_and_console_log[2]}
\ BuiltIn.Run Keyword If "${status}" == "PASS" Collections.Append To List ${vm_ips} ${ips_and_console_log[0]}
\ BuiltIn.Run Keyword If "${status}" == "FAIL" Collections.Append To List ${vm_ips} None
- \ ${vm_console_output}= BuiltIn.Run Keyword If "${status}" == "FAIL" OpenStack CLI openstack console log show ${vm}
+ \ ${vm_console_output} = BuiltIn.Run Keyword If "${status}" == "FAIL" OpenStack CLI openstack console log show ${vm}
\ BuiltIn.Run Keyword If "${status}" == "FAIL" BuiltIn.Log ${vm_console_output}
- Copy DHCP Files From Control Node
+ OpenStackOperations.Copy DHCP Files From Control Node
[Return] @{vm_ips} ${ips_and_console_log[1]}
Collect VM IPv6 SLAAC Addresses
... obtain and compare IP info (Neutron DB vs dnsmasque/ODL DHCP) and to test L2 connectivity as well.
... Returns an empty list if no IPv6 addresses found or if SSH connection fails.
... Otherwise, returns a list of IPv6 addresses.
- ${ipv6_list} Create List @{EMPTY}
+ ${ipv6_list} = BuiltIn.Create List @{EMPTY}
: FOR ${vm} IN @{vm_list}
- \ ${output}= OpenStack CLI openstack server show ${vm} -f shell
- \ ${pattern}= Replace String ${subnet} ::/64 (:[a-f0-9]{,4}){,4}
- \ @{vm_ipv6}= Get Regexp Matches ${output} ${pattern}
- \ ${vm_ip_length} Get Length ${vm_ipv6}[0]
- \ ${ipv6_data_from_vm}= Run Keyword If ${vm_ip_length}>0 Execute Command on VM Instance ${network} ${vm_ipv6[0]}
+ \ ${output} = OpenStack CLI openstack server show ${vm} -f shell
+ \ ${pattern} = String.Replace String ${subnet} ::/64 (:[a-f0-9]{,4}){,4}
+ \ @{vm_ipv6} = String.Get Regexp Matches ${output} ${pattern}
+ \ ${vm_ip_length} = BuiltIn.Get Length ${vm_ipv6}[0]
+ \ ${ipv6_data_from_vm} = BuiltIn.Run Keyword If ${vm_ip_length}>0 OpenStackOperations.Execute Command on VM Instance ${network} ${vm_ipv6[0]}
\ ... ip -6 a
- \ @{ipv6}= Get Regexp Matches ${ipv6_data_from_vm} ${pattern}
- \ ${ipv6_addr_list_length} Get Length @{ipv6}
- \ Run Keyword If ${ipv6_addr_list_length}>0 Append To List ${ipv6_list} ${ipv6[0]}
- \ ... ELSE Append To List ${ipv6_list} None
+ \ @{ipv6} = String.Get Regexp Matches ${ipv6_data_from_vm} ${pattern}
+ \ ${ipv6_addr_list_length} BuiltIn.Get Length @{ipv6}
+ \ BuiltIn.Run Keyword If ${ipv6_addr_list_length}>0 Collections.Append To List ${ipv6_list} ${ipv6[0]}
+ \ ... ELSE Collections.Append To List ${ipv6_list} None
[Return] ${ipv6_list}
View Vm Console
[Arguments] ${vm_instance_names}
[Documentation] View Console log of the created vm instances using nova show.
- : FOR ${VmElement} IN @{vm_instance_names}
- \ OpenStack CLI openstack server show ${VmElement}
- \ ${output}= OpenStack CLI openstack console log show ${VmElement}
+ : FOR ${vm} IN @{vm_instance_names}
+ \ ${output} = OpenStack CLI openstack server show ${vm}
+ \ ${output} = OpenStack CLI openstack console log show ${vm}
Ping Vm From DHCP Namespace
[Arguments] ${net_name} ${vm_ip}
[Documentation] Reach all Vm Instance with the net id of the Netowrk.
- Get ControlNode Connection
- ${net_id}= Get Net Id ${net_name}
- ${output}= Write Commands Until Prompt And Log sudo ip netns exec qdhcp-${net_id} ping -c 3 ${vm_ip} 20s
- Should Contain ${output} 64 bytes
+ OpenStackOperations.Get ControlNode Connection
+ ${net_id} = OpenStackOperations.Get Net Id ${net_name}
+ ${output} = DevstackUtils.Write Commands Until Prompt And Log sudo ip netns exec qdhcp-${net_id} ping -c 3 ${vm_ip} 20s
+ BuiltIn.Should Contain ${output} 64 bytes
Ping From DHCP Should Not Succeed
[Arguments] ${net_name} ${vm_ip}
[Documentation] Should Not Reach Vm Instance with the net id of the Netowrk.
Return From Keyword If "skip_if_${SECURITY_GROUP_MODE}" in @{TEST_TAGS}
- Get ControlNode Connection
- ${net_id}= Get Net Id ${net_name}
- ${output}= Write Commands Until Prompt And Log sudo ip netns exec qdhcp-${net_id} ping -c 3 ${vm_ip} 20s
- Should Not Contain ${output} 64 bytes
+ OpenStackOperations.Get ControlNode Connection
+ ${net_id} = OpenStackOperations.Get Net Id ${net_name}
+ ${output} = DevstackUtils.Write Commands Until Prompt And Log sudo ip netns exec qdhcp-${net_id} ping -c 3 ${vm_ip} 20s
+ BuiltIn.Should Not Contain ${output} 64 bytes
Ping Vm From Control Node
[Arguments] ${vm_floating_ip} ${additional_args}=${EMPTY}
[Documentation] Ping VM floating IP from control node
- Get ControlNode Connection
- ${output}= Write Commands Until Prompt And Log ping ${additional_args} -c 3 ${vm_floating_ip} 20s
- Should Contain ${output} 64 bytes
+ OpenStackOperations.Get ControlNode Connection
+ ${output} = DevstackUtils.Write Commands Until Prompt And Log ping ${additional_args} -c 3 ${vm_floating_ip} 20s
+ BuiltIn.Should Contain ${output} 64 bytes
Curl Metadata Server
[Documentation] Ping to the expected destination ip.
- ${output}= Write Commands Until Expected Prompt curl -i http://169.254.169.254 ${OS_SYSTEM_PROMPT}
- Write Commands Until Prompt exit
- Should Contain ${output} 200
+ ${output} = Utils.Write Commands Until Expected Prompt curl -i http://169.254.169.254 ${OS_SYSTEM_PROMPT}
+ DevstackUtils.Write Commands Until Prompt exit
+ BuiltIn.Should Contain ${output} 200
Close Vm Instance
[Documentation] Exit the vm instance.
- ${output}= Write Commands Until Prompt And Log exit
+ ${output} = DevstackUtils.Write Commands Until Prompt And Log exit
Check If Console Is VmInstance
[Arguments] ${console}=cirros
[Documentation] Check if the session has been able to login to the VM instance
- ${output}= Write Commands Until Expected Prompt id ${OS_SYSTEM_PROMPT}
- Should Contain ${output} ${console}
+ ${output} = Utils.Write Commands Until Expected Prompt id ${OS_SYSTEM_PROMPT}
+ BuiltIn.Should Contain ${output} ${console}
Exit From Vm Console
[Documentation] Check if the session has been able to login to the VM instance and exit the instance
- ${rcode}= Run Keyword And Return Status Check If Console Is VmInstance cirros
- Run Keyword If ${rcode} Write Commands Until Prompt exit
+ ${rcode} = BuiltIn.Run Keyword And Return Status OpenStackOperations.Check If Console Is VmInstance cirros
+ BuiltIn.Run Keyword If ${rcode} DevstackUtils.Write Commands Until Prompt exit
Check Ping
[Arguments] ${ip_address} ${ttl}=64
[Documentation] Run Ping command on the IP available as argument
- ${ethertype}= Get Regexp Matches ${ip_address} ${IP_REGEX}
- ${output}= Run Keyword If ${ethertype} Write Commands Until Expected Prompt ping -t ${ttl} -c 3 ${ip_address} ${OS_SYSTEM_PROMPT}
- ... ELSE Write Commands Until Expected Prompt ping6 -t ${ttl} -c 3 ${ip_address} ${OS_SYSTEM_PROMPT}
- Should Contain ${output} 64 bytes
+ ${ethertype} = String.Get Regexp Matches ${ip_address} ${IP_REGEX}
+ ${output} = BuiltIn.Run Keyword If ${ethertype} Utils.Write Commands Until Expected Prompt ping -t ${ttl} -c 3 ${ip_address} ${OS_SYSTEM_PROMPT}
+ ... ELSE Utils.Write Commands Until Expected Prompt ping6 -t ${ttl} -c 3 ${ip_address} ${OS_SYSTEM_PROMPT}
+ BuiltIn.Should Contain ${output} 64 bytes
Check No Ping
[Arguments] ${ip_address} ${ttl}=64
[Documentation] Run Ping command to the IP given as argument, executing 3 times and expecting NOT to see "64 bytes"
- ${output}= Write Commands Until Expected Prompt ping -t ${ttl} -c 3 ${ip_address} ${OS_SYSTEM_PROMPT}
- Should Not Contain ${output} 64 bytes
+ ${output} = Utils.Write Commands Until Expected Prompt ping -t ${ttl} -c 3 ${ip_address} ${OS_SYSTEM_PROMPT}
+ BuiltIn.Should Not Contain ${output} 64 bytes
Check Metadata Access
[Documentation] Try curl on the Metadataurl and check if it is okay
- ${output}= Write Commands Until Expected Prompt curl -i http://169.254.169.254 ${OS_SYSTEM_PROMPT}
- Should Contain ${output} 200
+ ${output} = Utils.Write Commands Until Expected Prompt curl -i http://169.254.169.254 ${OS_SYSTEM_PROMPT}
+ BuiltIn.Should Contain ${output} 200
Execute Command on VM Instance
[Arguments] ${net_name} ${vm_ip} ${cmd} ${user}=cirros ${password}=cubswin:)
[Documentation] Login to the vm instance using ssh in the network, executes a command inside the VM and returns the ouput.
- Get ControlNode Connection
- ${net_id} = Get Net Id ${net_name}
- ${output} = Write Commands Until Expected Prompt sudo ip netns exec qdhcp-${net_id} ssh ${user}@${vm_ip} -o ConnectTimeout=10 -o StrictHostKeyChecking=no -o UserKnownHostsFile=/dev/null password:
- ${output} = Write Commands Until Expected Prompt ${password} ${OS_SYSTEM_PROMPT}
- ${rcode} = Run Keyword And Return Status Check If Console Is VmInstance
- ${output} = Run Keyword If ${rcode} Write Commands Until Expected Prompt ${cmd} ${OS_SYSTEM_PROMPT}
+ OpenStackOperations.Get ControlNode Connection
+ ${net_id} = OpenStackOperations.Get Net Id ${net_name}
+ ${output} = Utils.Write Commands Until Expected Prompt sudo ip netns exec qdhcp-${net_id} ssh ${user}@${vm_ip} -o ConnectTimeout=10 -o StrictHostKeyChecking=no -o UserKnownHostsFile=/dev/null password:
+ ${output} = Utils.Write Commands Until Expected Prompt ${password} ${OS_SYSTEM_PROMPT}
+ ${rcode} = BuiltIn.Run Keyword And Return Status OpenStackOperations.Check If Console Is VmInstance
+ ${output} = BuiltIn.Run Keyword If ${rcode} Utils.Write Commands Until Expected Prompt ${cmd} ${OS_SYSTEM_PROMPT}
[Teardown] Exit From Vm Console
[Return] ${output}
[Arguments] ${net_name} ${src_ip} ${dest_ips} ${user}=cirros ${password}=cubswin:) ${ttl}=64
... ${ping_should_succeed}=True ${check_metadata}=True
[Documentation] Login to the vm instance using ssh in the network.
- Get ControlNode Connection
- ${net_id}= Get Net Id ${net_name}
- ${output}= Write Commands Until Expected Prompt sudo ip netns exec qdhcp-${net_id} ssh -o ConnectTimeout=10 -o StrictHostKeyChecking=no ${user}@${src_ip} -o UserKnownHostsFile=/dev/null password:
- ${output}= Write Commands Until Expected Prompt ${password} ${OS_SYSTEM_PROMPT}
- ${rcode}= Run Keyword And Return Status Check If Console Is VmInstance
- Run Keyword If ${rcode} Write Commands Until Expected Prompt ifconfig ${OS_SYSTEM_PROMPT}
- Run Keyword If ${rcode} Write Commands Until Expected Prompt route -n ${OS_SYSTEM_PROMPT}
- Run Keyword If ${rcode} Write Commands Until Expected Prompt route -A inet6 ${OS_SYSTEM_PROMPT}
- Run Keyword If ${rcode} Write Commands Until Expected Prompt arp -an ${OS_SYSTEM_PROMPT}
- Run Keyword If ${rcode} Write Commands Until Expected Prompt ip -f inet6 neigh show ${OS_SYSTEM_PROMPT}
+ OpenStackOperations.Get ControlNode Connection
+ ${net_id} = OpenStackOperations.Get Net Id ${net_name}
+ ${output} = Utils.Write Commands Until Expected Prompt sudo ip netns exec qdhcp-${net_id} ssh -o ConnectTimeout=10 -o StrictHostKeyChecking=no ${user}@${src_ip} -o UserKnownHostsFile=/dev/null password:
+ ${output} = Utils.Write Commands Until Expected Prompt ${password} ${OS_SYSTEM_PROMPT}
+ ${rcode} = BuiltIn.Run Keyword And Return Status OpenStackOperations.Check If Console Is VmInstance
+ BuiltIn.Run Keyword If ${rcode} Utils.Write Commands Until Expected Prompt ifconfig ${OS_SYSTEM_PROMPT}
+ BuiltIn.Run Keyword If ${rcode} Utils.Write Commands Until Expected Prompt route -n ${OS_SYSTEM_PROMPT}
+ BuiltIn.Run Keyword If ${rcode} Utils.Write Commands Until Expected Prompt route -A inet6 ${OS_SYSTEM_PROMPT}
+ BuiltIn.Run Keyword If ${rcode} Utils.Write Commands Until Expected Prompt arp -an ${OS_SYSTEM_PROMPT}
+ BuiltIn.Run Keyword If ${rcode} Utils.Write Commands Until Expected Prompt ip -f inet6 neigh show ${OS_SYSTEM_PROMPT}
: FOR ${dest_ip} IN @{dest_ips}
- \ ${string_empty}= Run Keyword And Return Status Should Be Empty ${dest_ip}
- \ Run Keyword If ${string_empty} Continue For Loop
- \ Run Keyword If ${rcode} and "${ping_should_succeed}" == "True" Check Ping ${dest_ip} ttl=${ttl}
- \ ... ELSE Check No Ping ${dest_ip} ttl=${ttl}
- ${ethertype}= Get Regexp Matches ${src_ip} ${IP_REGEX}
- Run Keyword If ${rcode} and "${check_metadata}" and ${ethertype} == "True" Check Metadata Access
+ \ ${string_empty} = BuiltIn.Run Keyword And Return Status Should Be Empty ${dest_ip}
+ \ BuiltIn.Run Keyword If ${string_empty} Continue For Loop
+ \ BuiltIn.Run Keyword If ${rcode} and "${ping_should_succeed}" == "True" OpenStackOperations.Check Ping ${dest_ip} ttl=${ttl}
+ \ ... ELSE OpenStackOperations.Check No Ping ${dest_ip} ttl=${ttl}
+ ${ethertype} = String.Get Regexp Matches ${src_ip} ${IP_REGEX}
+ BuiltIn.Run Keyword If ${rcode} and "${check_metadata}" and ${ethertype} == "True" OpenStackOperations.Check Metadata Access
[Teardown] Exit From Vm Console
Test Netcat Operations From Vm Instance
[Arguments] ${net_name} ${vm_ip} ${dest_ip} ${additional_args}=${EMPTY} ${port}=12345 ${user}=cirros
... ${password}=cubswin:)
[Documentation] Use Netcat to test TCP/UDP connections to the controller
- ${client_data} Set Variable Test Client Data
- ${server_data} Set Variable Test Server Data
- Get ControlNode Connection
- ${output}= Write Commands Until Prompt And Log ( ( echo "${server_data}" | sudo timeout 60 nc -l ${additional_args} ${port} ) & )
- ${output}= Write Commands Until Prompt And Log sudo netstat -nlap | grep ${port}
- ${nc_output}= Execute Command on VM Instance ${net_name} ${vm_ip} sudo echo "${client_data}" | nc -v -w 5 ${additional_args} ${dest_ip} ${port}
- ${output}= Execute Command on VM Instance ${net_name} ${vm_ip} sudo route -n
- Log ${output}
- ${output}= Execute Command on VM Instance ${net_name} ${vm_ip} sudo arp -an
- Log ${output}
- Should Match Regexp ${nc_output} ${server_data}
+ ${client_data} BuiltIn.Set Variable Test Client Data
+ ${server_data} BuiltIn.Set Variable Test Server Data
+ OpenStackOperations.Get ControlNode Connection
+ ${output} = DevstackUtils.Write Commands Until Prompt And Log ( ( echo "${server_data}" | sudo timeout 60 nc -l ${additional_args} ${port} ) & )
+ ${output} = DevstackUtils.Write Commands Until Prompt And Log sudo netstat -nlap | grep ${port}
+ ${nc_output} = OpenStackOperations.Execute Command on VM Instance ${net_name} ${vm_ip} sudo echo "${client_data}" | nc -v -w 5 ${additional_args} ${dest_ip} ${port}
+ BuiltIn.Log ${output}
+ ${output} = OpenStackOperations.Execute Command on VM Instance ${net_name} ${vm_ip} sudo route -n
+ BuiltIn.Log ${output}
+ ${output} = OpenStackOperations.Execute Command on VM Instance ${net_name} ${vm_ip} sudo arp -an
+ BuiltIn.Log ${output}
+ BuiltIn.Should Match Regexp ${nc_output} ${server_data}
Ping Other Instances
[Arguments] ${list_of_external_dst_ips}
[Documentation] Check reachability with other network's instances.
- ${rcode}= Run Keyword And Return Status Check If Console Is VmInstance
+ ${rcode} = BuiltIn.Run Keyword And Return Status OpenStackOperations.Check If Console Is VmInstance
: FOR ${dest_ip} IN @{list_of_external_dst_ips}
- \ Check Ping ${dest_ip}
+ \ OpenStackOperations.Check Ping ${dest_ip}
Create Router
[Arguments] ${router_name}
[Documentation] Create Router and Add Interface to the subnets.
- ${rc} ${output}= Run And Return Rc And Output openstack router create ${router_name}
- Should Be True '${rc}' == '0'
+ ${output} = OpenStack CLI openstack router create ${router_name}
List Routers
[Documentation] List Routers and return output with neutron client.
- ${rc} ${output}= Run And Return Rc And Output openstack router list -f value
- Log ${output}
- Should Be True '${rc}' == '0'
+ ${output} = OpenStack CLI openstack router list -f value
[Return] ${output}
Add Router Interface
[Arguments] ${router_name} ${interface_name}
- ${rc} ${output}= Run And Return Rc And Output openstack router add subnet ${router_name} ${interface_name}
- Should Be True '${rc}' == '0'
+ ${output} = OpenStack CLI openstack router add subnet ${router_name} ${interface_name}
Show Router Interface
[Arguments] ${router_name}
[Documentation] List Routers interface associated with given Router and return output with neutron client.
- ${rc} ${output}= Run And Return Rc And Output openstack port list --router ${router_name} -f value
- Should Be True '${rc}' == '0'
+ ${output} = OpenStack CLI openstack port list --router ${router_name} -f value
[Return] ${output}
Add Router Gateway
[Arguments] ${router_name} ${external_network_name}
- ${cmd}= Set Variable If '${OPENSTACK_BRANCH}'=='stable/newton' neutron -v router-gateway-set ${router_name} ${external_network_name} openstack router set ${router_name} --external-gateway ${external_network_name}
- ${rc} ${output}= Run And Return Rc And Output ${cmd}
- Should Be True '${rc}' == '0'
+ ${cmd} = BuiltIn.Set Variable If '${OPENSTACK_BRANCH}'=='stable/newton' neutron -v router-gateway-set ${router_name} ${external_network_name} openstack router set ${router_name} --external-gateway ${external_network_name}
+ ${rc} ${output} = OperatingSystem.Run And Return Rc And Output ${cmd}
+ BuiltIn.Should Be True '${rc}' == '0'
Remove Interface
[Arguments] ${router_name} ${interface_name}
[Documentation] Remove Interface to the subnets.
- ${rc} ${output}= Run And Return Rc And Output openstack router remove subnet ${router_name} ${interface_name}
- Should Be True '${rc}' == '0'
+ ${output} = OpenStack CLI openstack router remove subnet ${router_name} ${interface_name}
Remove Gateway
[Arguments] ${router_name}
Update Router
[Arguments] ${router_name} ${cmd}
[Documentation] Update the router with the command. Router name and command should be passed as argument.
- ${rc} ${output} = Run And Return Rc And Output openstack router set ${router_name} ${cmd}
- Should Be True '${rc}' == '0'
+ ${output} = OpenStack CLI openstack router set ${router_name} ${cmd}
Show Router
[Arguments] ${router_name} ${options}
[Documentation] Show information of a given router. Router name and optional fields should be sent as arguments.
- ${rc} ${output} = Run And Return Rc And Output openstack router show ${router_name}
- Log ${output}
+ ${output} = OpenStack CLI openstack router show ${router_name}
Delete Router
[Arguments] ${router_name}
[Documentation] Delete Router and Interface to the subnets.
- ${rc} ${output}= Run And Return Rc And Output openstack router delete ${router_name}
- Log ${output}
- Should Be True '${rc}' == '0'
+ ${output} = OpenStack CLI openstack router delete ${router_name}
Get DumpFlows And Ovsconfig
[Arguments] ${conn_id}
[Documentation] Get the OvsConfig and Flow entries from OVS from the Openstack Node
SSHLibrary.Switch Connection ${conn_id}
- Write Commands Until Expected Prompt ip -o link ${DEFAULT_LINUX_PROMPT_STRICT}
- Write Commands Until Expected Prompt ip -o addr ${DEFAULT_LINUX_PROMPT_STRICT}
- Write Commands Until Expected Prompt ip route ${DEFAULT_LINUX_PROMPT_STRICT}
- Write Commands Until Expected Prompt arp -an ${DEFAULT_LINUX_PROMPT_STRICT}
- ${nslist}= Write Commands Until Expected Prompt ip netns list | awk '{print $1}' ${DEFAULT_LINUX_PROMPT_STRICT}
+ Utils.Write Commands Until Expected Prompt ip -o link ${DEFAULT_LINUX_PROMPT_STRICT}
+ Utils.Write Commands Until Expected Prompt ip -o addr ${DEFAULT_LINUX_PROMPT_STRICT}
+ Utils.Write Commands Until Expected Prompt ip route ${DEFAULT_LINUX_PROMPT_STRICT}
+ Utils.Write Commands Until Expected Prompt arp -an ${DEFAULT_LINUX_PROMPT_STRICT}
+ ${nslist} = Utils.Write Commands Until Expected Prompt ip netns list | awk '{print $1}' ${DEFAULT_LINUX_PROMPT_STRICT}
@{lines} Split To Lines ${nslist} end=-1
: FOR ${line} IN @{lines}
- \ Write Commands Until Expected Prompt sudo ip netns exec ${line} ip -o link ${DEFAULT_LINUX_PROMPT_STRICT}
- \ Write Commands Until Expected Prompt sudo ip netns exec ${line} ip -o addr ${DEFAULT_LINUX_PROMPT_STRICT}
- \ Write Commands Until Expected Prompt sudo ip netns exec ${line} ip route ${DEFAULT_LINUX_PROMPT_STRICT}
- 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-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}
+ \ Utils.Write Commands Until Expected Prompt sudo ip netns exec ${line} ip -o link ${DEFAULT_LINUX_PROMPT_STRICT}
+ \ Utils.Write Commands Until Expected Prompt sudo ip netns exec ${line} ip -o addr ${DEFAULT_LINUX_PROMPT_STRICT}
+ \ Utils.Write Commands Until Expected Prompt sudo ip netns exec ${line} ip route ${DEFAULT_LINUX_PROMPT_STRICT}
+ Utils.Write Commands Until Expected Prompt sudo ovs-vsctl show ${DEFAULT_LINUX_PROMPT_STRICT}
+ Utils.Write Commands Until Expected Prompt sudo ovs-vsctl list Open_vSwitch ${DEFAULT_LINUX_PROMPT_STRICT}
+ Utils.Write Commands Until Expected Prompt sudo ovs-ofctl show br-int -OOpenFlow13 ${DEFAULT_LINUX_PROMPT_STRICT}
+ Utils.Write Commands Until Expected Prompt sudo ovs-ofctl dump-flows br-int -OOpenFlow13 ${DEFAULT_LINUX_PROMPT_STRICT}
+ Utils.Write Commands Until Expected Prompt sudo ovs-ofctl dump-groups br-int -OOpenFlow13 ${DEFAULT_LINUX_PROMPT_STRICT}
+ Utils.Write Commands Until Expected Prompt sudo ovs-ofctl dump-group-stats br-int -OOpenFlow13 ${DEFAULT_LINUX_PROMPT_STRICT}
Get Karaf Log Type From Test Start
[Arguments] ${ip} ${test_name} ${type} ${user}=${ODL_SYSTEM_USER} ${password}=${ODL_SYSTEM_PASSWORD} ${prompt}=${ODL_SYSTEM_PROMPT}
... ${log_file}=${WORKSPACE}/${BUNDLEFOLDER}/data/log/karaf.log
- ${cmd} Set Variable sed '1,/ROBOT MESSAGE: Starting test ${test_name}/d' ${log_file} | grep '${type}'
- ${output} Run Command On Controller ${ip} ${cmd} ${user} ${password} ${prompt}
+ ${cmd} = BuiltIn.Set Variable sed '1,/ROBOT MESSAGE: Starting test ${test_name}/d' ${log_file} | grep '${type}'
+ ${output} = Utils.Run Command On Controller ${ip} ${cmd} ${user} ${password} ${prompt}
[Return] ${output}
Get Karaf Log Types From Test Start
[Arguments] ${ip} ${test_name} ${types} ${user}=${ODL_SYSTEM_USER} ${password}=${ODL_SYSTEM_PASSWORD} ${prompt}=${ODL_SYSTEM_PROMPT}
... ${log_file}=${WORKSPACE}/${BUNDLEFOLDER}/data/log/karaf.log
: FOR ${type} IN @{types}
- \ Get Karaf Log Type From Test Start ${ip} ${test_name} ${type} ${user} ${password}
+ \ OpenStackOperations.Get Karaf Log Type From Test Start ${ip} ${test_name} ${type} ${user} ${password}
\ ... ${prompt} ${log_file}
Get Karaf Log Events From Test Start
[Arguments] ${test_name} ${user}=${ODL_SYSTEM_USER} ${password}=${ODL_SYSTEM_PASSWORD} ${prompt}=${ODL_SYSTEM_PROMPT}
- ${log_types} = Create List ERROR WARN Exception
- Run Keyword If 0 < ${NUM_ODL_SYSTEM} Get Karaf Log Types From Test Start ${ODL_SYSTEM_IP} ${test_name} ${log_types}
- Run Keyword If 1 < ${NUM_ODL_SYSTEM} Get Karaf Log Types From Test Start ${ODL_SYSTEM_2_IP} ${test_name} ${log_types}
- Run Keyword If 2 < ${NUM_ODL_SYSTEM} Get Karaf Log Types From Test Start ${ODL_SYSTEM_3_IP} ${test_name} ${log_types}
+ ${log_types} = BuiltIn.Create List ERROR WARN Exception
+ BuiltIn.Run Keyword If 0 < ${NUM_ODL_SYSTEM} OpenStackOperations.Get Karaf Log Types From Test Start ${ODL_SYSTEM_IP} ${test_name} ${log_types}
+ BuiltIn.Run Keyword If 1 < ${NUM_ODL_SYSTEM} OpenStackOperations.Get Karaf Log Types From Test Start ${ODL_SYSTEM_2_IP} ${test_name} ${log_types}
+ BuiltIn.Run Keyword If 2 < ${NUM_ODL_SYSTEM} OpenStackOperations.Get Karaf Log Types From Test Start ${ODL_SYSTEM_3_IP} ${test_name} ${log_types}
Get ControlNode Connection
SSHLibrary.Switch Connection ${OS_CNTL_CONN_ID}
Get OvsDebugInfo
[Documentation] Get the OvsConfig and Flow entries from all Openstack nodes
- Run Keyword If 0 < ${NUM_OS_SYSTEM} Get DumpFlows And Ovsconfig ${OS_CNTL_CONN_ID}
- Run Keyword If 1 < ${NUM_OS_SYSTEM} Get DumpFlows And Ovsconfig ${OS_CMP1_CONN_ID}
- Run Keyword If 2 < ${NUM_OS_SYSTEM} Get DumpFlows And Ovsconfig ${OS_CMP2_CONN_ID}
+ BuiltIn.Run Keyword If 0 < ${NUM_OS_SYSTEM} OpenStackOperations.Get DumpFlows And Ovsconfig ${OS_CNTL_CONN_ID}
+ BuiltIn.Run Keyword If 1 < ${NUM_OS_SYSTEM} OpenStackOperations.Get DumpFlows And Ovsconfig ${OS_CMP1_CONN_ID}
+ BuiltIn.Run Keyword If 2 < ${NUM_OS_SYSTEM} OpenStackOperations.Get DumpFlows And Ovsconfig ${OS_CMP2_CONN_ID}
Get Test Teardown Debugs
[Arguments] ${test_name}=${TEST_NAME}
- Get OvsDebugInfo
- Run Keyword And Ignore Error Get Model Dump ${HA_PROXY_IP} ${netvirt_data_models}
- Get Karaf Log Events From Test Start ${test_name}
+ OpenStackOperations.Get OvsDebugInfo
+ BuiltIn.Run Keyword And Ignore Error DataModels.Get Model Dump ${HA_PROXY_IP} ${netvirt_data_models}
+ OpenStackOperations.Get Karaf Log Events From Test Start ${test_name}
Get Test Teardown Debugs For SFC
[Arguments] ${test_name}=${TEST_NAME}
- Run Keyword And Ignore Error Get Model Dump ${HA_PROXY_IP} ${netvirt_sfc_data_models}
+ BuiltIn.Run Keyword And Ignore Error DataModels.Get Model Dump ${HA_PROXY_IP} ${netvirt_sfc_data_models}
Show Debugs
[Arguments] @{vm_indices}
[Documentation] Run these commands for debugging, it can list state of VM instances and ip information in control node
- Get ControlNode Connection
- ${output}= Write Commands Until Prompt And Log sudo ip netns list
+ OpenStackOperations.Get ControlNode Connection
+ ${output} = DevstackUtils.Write Commands Until Prompt And Log sudo ip netns list
: FOR ${index} IN @{vm_indices}
- \ ${rc} ${output}= Run And Return Rc And Output nova show ${index}
- \ Log ${output}
- List Nova VMs
- List Routers
- List Networks
- List Subnets
- List Ports
- List Security Groups
+ \ ${rc} ${output} = OperatingSystem.Run And Return Rc And Output nova show ${index}
+ \ BuiltIn.Log ${output}
+ OpenStackOperations.List Nova VMs
+ OpenStackOperations.List Routers
+ OpenStackOperations.List Networks
+ OpenStackOperations.List Subnets
+ OpenStackOperations.List Ports
+ OpenStackOperations.List Security Groups
List Security Groups
[Documentation] Logging keyword to display all security groups using the openstack cli. Assumes openstack
... credentials are already sourced
- ${rc} ${output}= Run And Return Rc And Output openstack security group list
- Log ${output}
- Should Be True '${rc}' == '0'
+ ${output} = OpenStack CLI openstack security group list
[Return] ${output}
Neutron Security Group Show
[Arguments] ${SecurityGroupRuleName}
[Documentation] Displays the neutron security group configurations that belongs to a given neutron security group name
- ${rc} ${output}= Run And Return Rc And Output openstack security group show ${SecurityGroupRuleName}
- Log ${output}
- Should Be True '${rc}' == '0'
+ ${output} = OpenStack CLI openstack security group show ${SecurityGroupRuleName}
[Return] ${output}
Neutron Port Show
[Arguments] ${PortName}
[Documentation] Display the port configuration that belong to a given neutron port
- ${rc} ${output}= Run And Return Rc And Output openstack port show ${PortName}
- Log ${output}
- Should Be True '${rc}' == '0'
+ ${output} = OpenStack CLI openstack port show ${PortName}
[Return] ${output}
Neutron Security Group Create
[Arguments] ${SecurityGroupName} ${additional_args}=${EMPTY}
[Documentation] Create a security group with specified name ,description & protocol value according to security group template
- Get ControlNode Connection
- ${rc} ${output}= Run And Return Rc And Output openstack security group create ${SecurityGroupName} ${additional_args}
- Log ${output}
- Should Be True '${rc}' == '0'
- ${sgp_id}= Should Match Regexp ${output} [0-9a-f]{8}-[0-9a-f]{4}-[0-9a-f]{4}-[0-9a-f]{4}-[0-9a-f]{12}
- Log ${sgp_id}
+ OpenStackOperations.Get ControlNode Connection
+ ${output} = OpenStack CLI openstack security group create ${SecurityGroupName} ${additional_args}
+ ${sgp_id} = BuiltIn.Should Match Regexp ${output} ${REGEX_UUID}
[Return] ${output} ${sgp_id}
Neutron Security Group Update
[Arguments] ${SecurityGroupName} ${additional_args}=${EMPTY}
[Documentation] Updating security groups
- ${rc} ${output}= Run And Return Rc And Output openstack security group set ${SecurityGroupName} ${additional_args}
- Log ${output}
- Should Be True '${rc}' == '0'
+ ${output} = OpenStack CLI openstack security group set ${SecurityGroupName} ${additional_args}
[Return] ${output}
Delete SecurityGroup
[Arguments] ${sg_name}
[Documentation] Delete Security group
- ${rc} ${output}= Run And Return Rc And Output openstack security group delete ${sg_name}
- Log ${output}
- Should Be True '${rc}' == '0'
+ ${output} = OpenStack CLI openstack security group delete ${sg_name}
Neutron Security Group Rule Create
[Arguments] ${Security_group_name} &{Kwargs}
- [Documentation] Creates neutron security rule with Openstack CLI with or without optional params, here security group name is mandatory args, rule with optional params can be created by passing the optional args values ex: direction=${INGRESS_EGRESS}, Then these optional params are catenated with mandatory args, example of usage: "Neutron Security Group Rule Create ${SGP_SSH} direction=${RULE_PARAMS[0]} ethertype=${RULE_PARAMS[1]} ..."
- Run Keyword If ${Kwargs} Log ${Kwargs}
- ${description} Run Keyword If ${Kwargs} Pop From Dictionary ${Kwargs} description default=${None}
- ${direction} Run Keyword If ${Kwargs} Pop From Dictionary ${Kwargs} direction default=${None}
- ${ethertype} Run Keyword If ${Kwargs} Pop From Dictionary ${Kwargs} ethertype default=${None}
- ${port_range_max} Run Keyword If ${Kwargs} Pop From Dictionary ${Kwargs} port_range_max default=${None}
- ${port_range_min} Run Keyword If ${Kwargs} Pop From Dictionary ${Kwargs} port_range_min default=${None}
- ${protocol} Run Keyword If ${Kwargs} Pop From Dictionary ${Kwargs} protocol default=${None}
- ${remote_group_id} Run Keyword If ${Kwargs} Pop From Dictionary ${Kwargs} remote_group_id default=${None}
- ${remote_ip_prefix} Run Keyword If ${Kwargs} Pop From Dictionary ${Kwargs} remote_ip_prefix default=${None}
- ${cmd}= Set Variable openstack security group rule create ${Security_group_name}
- ${cmd}= Run Keyword If '${description}'!='None' Catenate ${cmd} --description ${description}
- ... ELSE Catenate ${cmd}
- ${cmd}= Run Keyword If '${direction}'!='None' Catenate ${cmd} --${direction}
- ... ELSE Catenate ${cmd}
- ${cmd}= Run Keyword If '${ethertype}'!='None' Catenate ${cmd} --ethertype ${ethertype}
- ... ELSE Catenate ${cmd}
- ${cmd}= Run Keyword If '${port_range_min}'!='None' and '${port_range_max}'!='None' Catenate ${cmd} --dst-port ${port_range_min}:${port_range_max}
- ... ELSE IF '${port_range_max}'!='None' Catenate ${cmd} --dst-port ${port_range_max}
- ... ELSE IF '${port_range_min}'!='None' Catenate ${cmd} --dst-port ${port_range_min}
- ... ELSE Catenate ${cmd}
- ${cmd}= Run Keyword If '${protocol}'!='None' Catenate ${cmd} --protocol ${protocol}
- ... ELSE Catenate ${cmd}
- ${cmd}= Run Keyword If '${remote_group_id}'!='None' Catenate ${cmd} --remote-group ${remote_group_id}
- ... ELSE Catenate ${cmd}
- ${cmd}= Run Keyword If '${remote_ip_prefix}'!='None' Catenate ${cmd} --src-ip ${remote_ip_prefix}
- ... ELSE Catenate ${cmd}
- ${rc} ${output}= Run And Return Rc And Output ${cmd}
- ${rule_id}= Should Match Regexp ${output} [0-9a-f]{8}-[0-9a-f]{4}-[0-9a-f]{4}-[0-9a-f]{4}-[0-9a-f]{12}
- Log ${rule_id}
- Should Be True '${rc}' == '0'
+ [Documentation] Creates neutron security rule with Openstack CLI with or without optional params, here security group name is mandatory args, rule with optional params can be created by passing the optional args values ex: direction=${INGRESS_EGRESS}, Then these optional params are BuiltIn.Catenated with mandatory args, example of usage: "OpenStack Neutron Security Group Rule Create ${SGP_SSH} direction=${RULE_PARAMS[0]} ethertype=${RULE_PARAMS[1]} ..."
+ BuiltIn.Run Keyword If ${Kwargs} BuiltIn.Log ${Kwargs}
+ ${description} BuiltIn.Run Keyword If ${Kwargs} Collections.Pop From Dictionary ${Kwargs} description default=${None}
+ ${direction} BuiltIn.Run Keyword If ${Kwargs} Collections.Pop From Dictionary ${Kwargs} direction default=${None}
+ ${ethertype} BuiltIn.Run Keyword If ${Kwargs} Collections.Pop From Dictionary ${Kwargs} ethertype default=${None}
+ ${port_range_max} BuiltIn.Run Keyword If ${Kwargs} Collections.Pop From Dictionary ${Kwargs} port_range_max default=${None}
+ ${port_range_min} BuiltIn.Run Keyword If ${Kwargs} Collections.Pop From Dictionary ${Kwargs} port_range_min default=${None}
+ ${protocol} BuiltIn.Run Keyword If ${Kwargs} Collections.Pop From Dictionary ${Kwargs} protocol default=${None}
+ ${remote_group_id} BuiltIn.Run Keyword If ${Kwargs} Collections.Pop From Dictionary ${Kwargs} remote_group_id default=${None}
+ ${remote_ip_prefix} BuiltIn.Run Keyword If ${Kwargs} Collections.Pop From Dictionary ${Kwargs} remote_ip_prefix default=${None}
+ ${cmd} = BuiltIn.Set Variable openstack security group rule create ${Security_group_name}
+ ${cmd} = BuiltIn.Run Keyword If '${description}'!='None' BuiltIn.Catenate ${cmd} --description ${description}
+ ... ELSE BuiltIn.Catenate ${cmd}
+ ${cmd} = BuiltIn.Run Keyword If '${direction}'!='None' BuiltIn.Catenate ${cmd} --${direction}
+ ... ELSE BuiltIn.Catenate ${cmd}
+ ${cmd} = BuiltIn.Run Keyword If '${ethertype}'!='None' BuiltIn.Catenate ${cmd} --ethertype ${ethertype}
+ ... ELSE BuiltIn.Catenate ${cmd}
+ ${cmd} = BuiltIn.Run Keyword If '${port_range_min}'!='None' and '${port_range_max}'!='None' BuiltIn.Catenate ${cmd} --dst-port ${port_range_min}:${port_range_max}
+ ... ELSE IF '${port_range_max}'!='None' BuiltIn.Catenate ${cmd} --dst-port ${port_range_max}
+ ... ELSE IF '${port_range_min}'!='None' BuiltIn.Catenate ${cmd} --dst-port ${port_range_min}
+ ... ELSE BuiltIn.Catenate ${cmd}
+ ${cmd} = BuiltIn.Run Keyword If '${protocol}'!='None' BuiltIn.Catenate ${cmd} --protocol ${protocol}
+ ... ELSE BuiltIn.Catenate ${cmd}
+ ${cmd} = BuiltIn.Run Keyword If '${remote_group_id}'!='None' BuiltIn.Catenate ${cmd} --remote-group ${remote_group_id}
+ ... ELSE BuiltIn.Catenate ${cmd}
+ ${cmd} = BuiltIn.Run Keyword If '${remote_ip_prefix}'!='None' BuiltIn.Catenate ${cmd} --src-ip ${remote_ip_prefix}
+ ... ELSE BuiltIn.Catenate ${cmd}
+ ${rc} ${output} = OperatingSystem.Run And Return Rc And Output ${cmd}
+ ${rule_id} = BuiltIn.Should Match Regexp ${output} ${REGEX_UUID}
+ BuiltIn.Log ${rule_id}
+ BuiltIn.Should Be True '${rc}' == '0'
[Return] ${output} ${rule_id}
Neutron Security Group Rule Create Legacy Cli
[Arguments] ${Security_group_name} &{Kwargs}
- [Documentation] Creates neutron security rule with neutron request with or without optional params, here security group name is mandatory args, rule with optional params can be created by passing the optional args values ex: direction=${INGRESS_EGRESS}, Then these optional params are catenated with mandatory args, example of usage: "Neutron Security Group Rule Create ${SGP_SSH} direction=${RULE_PARAMS[0]} ethertype=${RULE_PARAMS[1]} ..."
- Run Keyword If ${Kwargs} Log ${Kwargs}
- ${description} Run Keyword If ${Kwargs} Pop From Dictionary ${Kwargs} description default=${None}
- ${direction} Run Keyword If ${Kwargs} Pop From Dictionary ${Kwargs} direction default=${None}
- ${ethertype} Run Keyword If ${Kwargs} Pop From Dictionary ${Kwargs} ethertype default=${None}
- ${port_range_max} Run Keyword If ${Kwargs} Pop From Dictionary ${Kwargs} port_range_max default=${None}
- ${port_range_min} Run Keyword If ${Kwargs} Pop From Dictionary ${Kwargs} port_range_min default=${None}
- ${protocol} Run Keyword If ${Kwargs} Pop From Dictionary ${Kwargs} protocol default=${None}
- ${remote_group_id} Run Keyword If ${Kwargs} Pop From Dictionary ${Kwargs} remote_group_id default=${None}
- ${remote_ip_prefix} Run Keyword If ${Kwargs} Pop From Dictionary ${Kwargs} remote_ip_prefix default=${None}
- ${cmd}= Set Variable neutron security-group-rule-create ${Security_group_name}
- ${cmd}= Run Keyword If '${description}'!='None' Catenate ${cmd} --description ${description}
- ... ELSE Catenate ${cmd}
- ${cmd}= Run Keyword If '${direction}'!='None' Catenate ${cmd} --direction ${direction}
- ... ELSE Catenate ${cmd}
- ${cmd}= Run Keyword If '${ethertype}'!='None' Catenate ${cmd} --ethertype ${ethertype}
- ... ELSE Catenate ${cmd}
- ${cmd}= Run Keyword If '${port_range_max}'!='None' Catenate ${cmd} --port_range_max ${port_range_max}
- ... ELSE Catenate ${cmd}
- ${cmd}= Run Keyword If '${port_range_min}'!='None' Catenate ${cmd} --port_range_min ${port_range_min}
- ... ELSE Catenate ${cmd}
- ${cmd}= Run Keyword If '${protocol}'!='None' Catenate ${cmd} --protocol ${protocol}
- ... ELSE Catenate ${cmd}
- ${cmd}= Run Keyword If '${remote_group_id}'!='None' Catenate ${cmd} --remote_group_id ${remote_group_id}
- ... ELSE Catenate ${cmd}
- ${cmd}= Run Keyword If '${remote_ip_prefix}'!='None' Catenate ${cmd} --remote_ip_prefix ${remote_ip_prefix}
- ... ELSE Catenate ${cmd}
- ${rc} ${output}= Run And Return Rc And Output ${cmd}
- ${rule_id}= Should Match Regexp ${output} [0-9a-f]{8}-[0-9a-f]{4}-[0-9a-f]{4}-[0-9a-f]{4}-[0-9a-f]{12}
- Log ${rule_id}
- Should Be True '${rc}' == '0'
+ [Documentation] Creates neutron security rule with neutron request with or without optional params, here security group name is mandatory args, rule with optional params can be created by passing the optional args values ex: direction=${INGRESS_EGRESS}, Then these optional params are BuiltIn.Catenated with mandatory args, example of usage: "OpenStack Neutron Security Group Rule Create ${SGP_SSH} direction=${RULE_PARAMS[0]} ethertype=${RULE_PARAMS[1]} ..."
+ BuiltIn.Run Keyword If ${Kwargs} BuiltIn.Log ${Kwargs}
+ ${description} BuiltIn.Run Keyword If ${Kwargs} Collections.Pop From Dictionary ${Kwargs} description default=${None}
+ ${direction} BuiltIn.Run Keyword If ${Kwargs} Collections.Pop From Dictionary ${Kwargs} direction default=${None}
+ ${ethertype} BuiltIn.Run Keyword If ${Kwargs} Collections.Pop From Dictionary ${Kwargs} ethertype default=${None}
+ ${port_range_max} BuiltIn.Run Keyword If ${Kwargs} Collections.Pop From Dictionary ${Kwargs} port_range_max default=${None}
+ ${port_range_min} BuiltIn.Run Keyword If ${Kwargs} Collections.Pop From Dictionary ${Kwargs} port_range_min default=${None}
+ ${protocol} BuiltIn.Run Keyword If ${Kwargs} Collections.Pop From Dictionary ${Kwargs} protocol default=${None}
+ ${remote_group_id} BuiltIn.Run Keyword If ${Kwargs} Collections.Pop From Dictionary ${Kwargs} remote_group_id default=${None}
+ ${remote_ip_prefix} BuiltIn.Run Keyword If ${Kwargs} Collections.Pop From Dictionary ${Kwargs} remote_ip_prefix default=${None}
+ ${cmd} = BuiltIn.Set Variable neutron security-group-rule-create ${Security_group_name}
+ ${cmd} = BuiltIn.Run Keyword If '${description}'!='None' BuiltIn.Catenate ${cmd} --description ${description}
+ ... ELSE BuiltIn.Catenate ${cmd}
+ ${cmd} = BuiltIn.Run Keyword If '${direction}'!='None' BuiltIn.Catenate ${cmd} --direction ${direction}
+ ... ELSE BuiltIn.Catenate ${cmd}
+ ${cmd} = BuiltIn.Run Keyword If '${ethertype}'!='None' BuiltIn.Catenate ${cmd} --ethertype ${ethertype}
+ ... ELSE BuiltIn.Catenate ${cmd}
+ ${cmd} = BuiltIn.Run Keyword If '${port_range_max}'!='None' BuiltIn.Catenate ${cmd} --port_range_max ${port_range_max}
+ ... ELSE BuiltIn.Catenate ${cmd}
+ ${cmd} = BuiltIn.Run Keyword If '${port_range_min}'!='None' BuiltIn.Catenate ${cmd} --port_range_min ${port_range_min}
+ ... ELSE BuiltIn.Catenate ${cmd}
+ ${cmd} = BuiltIn.Run Keyword If '${protocol}'!='None' BuiltIn.Catenate ${cmd} --protocol ${protocol}
+ ... ELSE BuiltIn.Catenate ${cmd}
+ ${cmd} = BuiltIn.Run Keyword If '${remote_group_id}'!='None' BuiltIn.Catenate ${cmd} --remote_group_id ${remote_group_id}
+ ... ELSE BuiltIn.Catenate ${cmd}
+ ${cmd} = BuiltIn.Run Keyword If '${remote_ip_prefix}'!='None' BuiltIn.Catenate ${cmd} --remote_ip_prefix ${remote_ip_prefix}
+ ... ELSE BuiltIn.Catenate ${cmd}
+ ${rc} ${output} = OperatingSystem.Run And Return Rc And Output ${cmd}
+ ${rule_id} = BuiltIn.Should Match Regexp ${output} ${REGEX_UUID}
+ BuiltIn.Log ${rule_id}
+ BuiltIn.Should Be True '${rc}' == '0'
[Return] ${output} ${rule_id}
Security Group Create Without Default Security Rules
[Arguments] ${sg_name} ${additional_args}=${EMPTY}
[Documentation] Create Neutron Security Group with no default rules, using specified name and optional arguments.
- Neutron Security Group Create ${sg_name} ${additional_args}
+ OpenStackOperations.Neutron Security Group Create ${sg_name} ${additional_args}
Delete All Security Group Rules ${sg_name}
Delete All Security Group Rules
[Arguments] ${sg_name}
[Documentation] Delete all security rules from a specified security group
- ${rc} ${sg_rules_output}= Run And Return Rc And Output openstack security group rule list ${sg_name} -cID -fvalue
- Log ${sg_rules_output}
- Should Be True '${rc}' == '0'
- @{sg_rules}= Split String ${sg_rules_output} \n
+ ${sg_rules_output} = OpenStack CLI openstack security group rule list ${sg_name} -cID -fvalue
+ @{sg_rules} = String.Split String ${sg_rules_output} \n
: FOR ${rule} IN @{sg_rules}
- \ ${rc} ${output}= Run And Return Rc And Output openstack security group rule delete ${rule}
- \ Log ${output}
- \ Should Be True '${rc}' == '0'
+ \ ${output} = OpenStack CLI openstack security group rule delete ${rule}
Create Allow All SecurityGroup
[Arguments] ${sg_name} ${ether_type}=IPv4
[Documentation] Allow all TCP/UDP/ICMP packets for this suite
- Neutron Security Group Create ${sg_name}
- Neutron Security Group Rule Create ${sg_name} direction=ingress ethertype=${ether_type} port_range_max=65535 port_range_min=1 protocol=tcp
- Neutron Security Group Rule Create ${sg_name} direction=egress ethertype=${ether_type} port_range_max=65535 port_range_min=1 protocol=tcp
- Neutron Security Group Rule Create ${sg_name} direction=ingress ethertype=${ether_type} protocol=icmp
- Neutron Security Group Rule Create ${sg_name} direction=egress ethertype=${ether_type} protocol=icmp
- Neutron Security Group Rule Create ${sg_name} direction=ingress ethertype=${ether_type} port_range_max=65535 port_range_min=1 protocol=udp
- Neutron Security Group Rule Create ${sg_name} direction=egress ethertype=${ether_type} port_range_max=65535 port_range_min=1 protocol=udp
+ OpenStackOperations.Neutron Security Group Create ${sg_name}
+ OpenStackOperations.Neutron Security Group Rule Create ${sg_name} direction=ingress ethertype=${ether_type} port_range_max=65535 port_range_min=1 protocol=tcp
+ OpenStackOperations.Neutron Security Group Rule Create ${sg_name} direction=egress ethertype=${ether_type} port_range_max=65535 port_range_min=1 protocol=tcp
+ OpenStackOperations.Neutron Security Group Rule Create ${sg_name} direction=ingress ethertype=${ether_type} protocol=icmp
+ OpenStackOperations.Neutron Security Group Rule Create ${sg_name} direction=egress ethertype=${ether_type} protocol=icmp
+ OpenStackOperations.Neutron Security Group Rule Create ${sg_name} direction=ingress ethertype=${ether_type} port_range_max=65535 port_range_min=1 protocol=udp
+ OpenStackOperations.Neutron Security Group Rule Create ${sg_name} direction=egress ethertype=${ether_type} port_range_max=65535 port_range_min=1 protocol=udp
Create Neutron Port With Additional Params
[Arguments] ${network_name} ${port_name} ${additional_args}=${EMPTY}
[Documentation] Create Port With given additional parameters
- ${rc} ${output}= Run And Return Rc And Output neutron -v port-create ${network_name} --name ${port_name} ${additional_args}
- Log ${output}
- Should Be True '${rc}' == '0'
- ${port_id}= Should Match Regexp ${OUTPUT} [0-9a-f]{8}-[0-9a-f]{4}-[0-9a-f]{4}-[0-9a-f]{4}-[0-9a-f]{12}
- Log ${port_id}
+ ${rc} ${output} = OperatingSystem.Run And Return Rc And Output neutron -v port-create ${network_name} --name ${port_name} ${additional_args}
+ BuiltIn.Log ${output}
+ BuiltIn.Should Be True '${rc}' == '0'
+ ${port_id} = BuiltIn.Should Match Regexp ${OUTPUT} ${REGEX_UUID}
[Return] ${OUTPUT} ${port_id}
Get Ports MacAddr
- [Arguments] ${portName_list}
+ [Arguments] ${ports}
[Documentation] Retrieve the port MacAddr for the given list of port name and return the MAC address list.
- ${MacAddr-list} Create List
- : FOR ${portName} IN @{portName_list}
- \ ${macAddr}= OpenStackOperations.Get Port Mac ${portName}
- \ Append To List ${MacAddr-list} ${macAddr}
- [Return] ${MacAddr-list}
+ ${macs} BuiltIn.Create List
+ : FOR ${port} IN @{ports}
+ \ ${mac} = OpenStackOperations.Get Port Mac ${port}
+ \ Collections.Append To List ${macs} ${mac}
+ [Return] ${macs}
Get Port Ip
[Arguments] ${port_name}
[Documentation] Keyword would return the IP of the ${port_name} received.
- ${rc} ${output}= Run And Return Rc And Output openstack port list | grep "${port_name}" | awk -F\\' '{print $2}'
- ${splitted_output}= Split String ${output} ${EMPTY}
- ${port_ip}= Get from List ${splitted_output} 0
- Should Be True '${rc}' == '0'
+ ${output} = OpenStack CLI openstack port list | grep "${port_name}" | awk -F\\' '{print $2}'
+ ${splitted_output} = String.Split String ${output} ${EMPTY}
+ ${port_ip} = Collections.Get from List ${splitted_output} 0
[Return] ${port_ip}
Get Port Mac
[Arguments] ${port_name}
[Documentation] Keyword would return the MAC ID of the ${port_name} received.
- ${rc} ${output}= Run And Return Rc And Output openstack port show ${port_name} | grep mac_address | awk '{print $4}'
- ${splitted_output}= Split String ${output} ${EMPTY}
- ${port_mac}= Get from List ${splitted_output} 0
- Should Be True '${rc}' == '0'
+ ${output} = OpenStack CLI openstack port show ${port_name} | grep mac_address | awk '{print $4}'
+ ${splitted_output} = String.Split String ${output} ${EMPTY}
+ ${port_mac} = Collections.Get from List ${splitted_output} 0
[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).
- ${rc} ${l2gw_output}= Run And Return Rc And Output ${L2GW_CREATE} name=${bridge_name},interface_names=${intf_name} ${gw_name}
- Log ${l2gw_output}
+ ${rc} ${l2gw_output} = OperatingSystem.Run And Return Rc And Output ${L2GW_CREATE} name=${bridge_name},interface_names=${intf_name} ${gw_name}
+ BuiltIn.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).
- ${rc} ${l2gw_output}= Run And Return Rc And Output ${L2GW_CONN_CREATE} ${gw_name} ${net_name}
- Log ${l2gw_output}
- Should Be True '${rc}' == '0'
+ ${rc} ${l2gw_output} = OperatingSystem.Run And Return Rc And Output ${L2GW_CONN_CREATE} ${gw_name} ${net_name}
+ BuiltIn.Log ${l2gw_output}
+ BuiltIn.Should Be True '${rc}' == '0'
[Return] ${l2gw_output}
Get All L2Gateway
[Documentation] Keyword to return all the L2 Gateways available (Using Neutron CLI).
- ${rc} ${output}= Run And Return Rc And Output ${L2GW_GET_YAML}
- Should Be True '${rc}' == '0'
+ ${rc} ${output} = OperatingSystem.Run And Return Rc And Output ${L2GW_GET_YAML}
+ BuiltIn.Should Be True '${rc}' == '0'
[Return] ${output}
Get All L2Gateway Connection
[Documentation] Keyword to return all the L2 Gateway connections available (Using Neutron CLI).
- ${rc} ${output}= Run And Return Rc And Output ${L2GW_GET_CONN_YAML}
- Should Be True '${rc}' == '0'
+ ${rc} ${output} = OperatingSystem.Run And Return Rc And Output ${L2GW_GET_CONN_YAML}
+ BuiltIn.Should Be True '${rc}' == '0'
[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).
- ${rc} ${output}= Run And Return Rc And Output ${L2GW_SHOW} ${gw_id}
- Log ${output}
- Should Be True '${rc}' == '0'
+ ${rc} ${output} = OperatingSystem.Run And Return Rc And Output ${L2GW_SHOW} ${gw_id}
+ BuiltIn.Log ${output}
+ BuiltIn.Should Be True '${rc}' == '0'
[Return] ${output}
Get L2gw Id
[Arguments] ${l2gw_name}
[Documentation] Keyword to retrieve the L2 Gateway ID for the ${l2gw_name} (Using Neutron CLI).
- ${rc} ${output}= Run And Return Rc And Output ${L2GW_GET} | grep "${l2gw_name}" | awk '{print $2}'
- Log ${output}
- Should Be True '${rc}' == '0'
- ${splitted_output}= Split String ${output} ${EMPTY}
- ${l2gw_id}= Get from List ${splitted_output} 0
+ ${rc} ${output} = OperatingSystem.Run And Return Rc And Output ${L2GW_GET} | grep "${l2gw_name}" | awk '{print $2}'
+ BuiltIn.Log ${output}
+ BuiltIn.Should Be True '${rc}' == '0'
+ ${splitted_output} = String.Split String ${output} ${EMPTY}
+ ${l2gw_id} = Collections.Get from List ${splitted_output} 0
[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).
- ${l2gw_id}= OpenStackOperations.Get L2gw Id ${l2gw_name}
- ${rc} ${output}= Run And Return Rc And Output ${L2GW_GET_CONN} | grep "${l2gw_id}" | awk '{print $2}'
- Should Be True '${rc}' == '0'
- ${splitted_output}= Split String ${output} ${EMPTY}
- ${splitted_output}= Split String ${output} ${EMPTY}
- ${l2gw_conn_id}= Get from List ${splitted_output} 0
+ ${l2gw_id} = OpenStackOperations.Get L2gw Id ${l2gw_name}
+ ${rc} ${output} = OperatingSystem.Run And Return Rc And Output ${L2GW_GET_CONN} | grep "${l2gw_id}" | awk '{print $2}'
+ BuiltIn.Should Be True '${rc}' == '0'
+ ${splitted_output} = String.Split String ${output} ${EMPTY}
+ ${splitted_output} = String.Split String ${output} ${EMPTY}
+ ${l2gw_conn_id} = Collections.Get from List ${splitted_output} 0
[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
+ BuiltIn.Log ${resp.content}
+ BuiltIn.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
+ BuiltIn.Log ${resp.content}
+ BuiltIn.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}
+ BuiltIn.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
+ BuiltIn.Log ${resp.content}
+ BuiltIn.Should Be Equal As Strings ${resp.status_code} 200
[Return] ${resp.content}
Create And Configure Security Group
[Arguments] ${sg-name}
[Documentation] Create Security Group with given name, and default allow rules for TCP/UDP/ICMP protocols.
- 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
+ OpenStackOperations.Neutron Security Group Create ${sg-name}
+ OpenStackOperations.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
+ OpenStackOperations.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
+ OpenStackOperations.Neutron Security Group Rule Create ${sg-name} direction=ingress protocol=icmp remote_ip_prefix=0.0.0.0/0
+ OpenStackOperations.Neutron Security Group Rule Create ${sg-name} direction=egress protocol=icmp remote_ip_prefix=0.0.0.0/0
+ OpenStackOperations.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
+ OpenStackOperations.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
Add Security Group To VM
[Arguments] ${vm} ${sg}
[Documentation] Add the security group provided to the given VM.
- ${output}= OpenStack CLI openstack server add security group ${vm} ${sg}
+ ${output} = OpenStack CLI openstack server add security group ${vm} ${sg}
Remove Security Group From VM
[Arguments] ${vm} ${sg}
[Documentation] Remove the security group provided to the given VM.
- Get ControlNode Connection
- OpenStack CLI openstack server remove security group ${vm} ${sg}
+ OpenStackOperations.Get ControlNode Connection
+ ${output} = OpenStack CLI openstack server remove security group ${vm} ${sg}
Create SFC Flow Classifier
[Arguments] ${name} ${src_ip} ${dest_ip} ${protocol} ${dest_port} ${neutron_src_port}
[Documentation] Create a flow classifier for SFC
- ${rc} ${output}= Run And Return Rc And Output openstack sfc 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 ${output}
- Should Be True '${rc}' == '0'
- Should Contain ${output} ${name}
+ ${output} = OpenStack CLI openstack sfc 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}
+ BuiltIn.Should Contain ${output} ${name}
[Return] ${output}
Delete SFC Flow Classifier
[Arguments] ${name}
[Documentation] Delete a SFC flow classifier
- Get ControlNode Connection
- ${rc} ${output}= Run And Return Rc And Output openstack sfc flow classifier delete ${name}
- Log ${output}
- Should Be True '${rc}' == '0'
+ OpenStackOperations.Get ControlNode Connection
+ ${output} = OpenStack CLI openstack sfc flow classifier delete ${name}
[Return] ${output}
Create SFC Port Pair
[Arguments] ${name} ${port_in} ${port_out}
[Documentation] Creates a neutron port pair for SFC
- Get ControlNode Connection
- ${rc} ${output}= Run And Return Rc And Output openstack sfc port pair create --ingress=${port_in} --egress=${port_out} ${name}
- Log ${output}
- Should Be True '${rc}' == '0'
- Should Contain ${output} ${name}
+ OpenStackOperations.Get ControlNode Connection
+ ${output} = OpenStack CLI openstack sfc port pair create --ingress=${port_in} --egress=${port_out} ${name}
+ BuiltIn.Should Contain ${output} ${name}
[Return] ${output}
Delete SFC Port Pair
[Arguments] ${name}
[Documentation] Delete a SFC port pair
- ${rc} ${output}= Run And Return Rc And Output openstack sfc port pair delete ${name}
- Log ${output}
- Should Be True '${rc}' == '0'
+ ${output} = OpenStack CLI openstack sfc port pair delete ${name}
[Return] ${output}
Create SFC Port Pair Group
[Arguments] ${name} ${port_pair}
[Documentation] Creates a port pair group with a single port pair for SFC
- ${rc} ${output}= Run And Return Rc And Output openstack sfc port pair group create --port-pair ${port_pair} ${name}
- Log ${output}
- Should Be True '${rc}' == '0'
- Should Contain ${output} ${name}
+ ${output} = OpenStack CLI openstack sfc port pair group create --port-pair ${port_pair} ${name}
+ BuiltIn.Should Contain ${output} ${name}
[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
- ${rc} ${output}= Run And Return Rc And Output openstack sfc port pair group create --port-pair ${port_pair1} --port-pair ${port_pair2} ${name}
- Log ${output}
- Should Be True '${rc}' == '0'
- Should Contain ${output} ${name}
+ ${output} = OpenStack CLI openstack sfc port pair group create --port-pair ${port_pair1} --port-pair ${port_pair2} ${name}
+ BuiltIn.Should Contain ${output} ${name}
[Return] ${output}
Delete SFC Port Pair Group
[Arguments] ${name}
[Documentation] Delete a SFC port pair group
- Get ControlNode Connection
- ${rc} ${output}= Run And Return Rc And Output openstack sfc port pair group delete ${name}
- Log ${output}
- Should Be True '${rc}' == '0'
+ OpenStackOperations.Get ControlNode Connection
+ ${output} = OpenStack CLI openstack sfc port pair group delete ${name}
[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.
- ${rc} ${output}= Run And Return Rc And Output openstack sfc port chain create --port-pair-group ${pg1} --port-pair-group ${pg2} --flow-classifier ${fc} ${name}
- Log ${output}
- Should Be True '${rc}' == '0'
- Should Contain ${output} ${name}
+ ${output} = OpenStack CLI openstack sfc port chain create --port-pair-group ${pg1} --port-pair-group ${pg2} --flow-classifier ${fc} ${name}
+ BuiltIn.Should Contain ${output} ${name}
[Return] ${output}
Delete SFC Port Chain
[Arguments] ${name}
[Documentation] Delete a SFC port chain
- ${rc} ${output}= Run And Return Rc And Output openstack sfc port chain delete ${name}
- Log ${output}
- Should Be True '${rc}' == '0'
+ ${output} = OpenStack CLI openstack sfc port chain delete ${name}
[Return] ${output}
Reboot Nova VM
[Arguments] ${vm_name}
[Documentation] Reboot NOVA VM
- OpenStack CLI openstack server reboot --wait ${vm_name}
- Wait Until Keyword Succeeds 35s 10s Verify VM Is ACTIVE ${vm_name}
+ ${output} = OpenStack CLI openstack server reboot --wait ${vm_name}
+ BuiltIn.Wait Until Keyword Succeeds 35s 10s OpenStackOperations.Verify VM Is ACTIVE ${vm_name}
Remove RSA Key From KnownHosts
[Arguments] ${vm_ip}
[Documentation] Remove RSA
- Get ControlNode Connection
- ${output}= Write Commands Until Prompt And Log sudo cat /root/.ssh/known_hosts 30s
- ${output}= Write Commands Until Prompt And Log sudo ssh-keygen -f "/root/.ssh/known_hosts" -R ${vm_ip} 30s
- ${output}= Write Commands Until Prompt sudo cat "/root/.ssh/known_hosts" 30s
+ OpenStackOperations.Get ControlNode Connection
+ ${output} = DevstackUtils.Write Commands Until Prompt And Log sudo cat /root/.ssh/known_hosts 30s
+ ${output} = DevstackUtils.Write Commands Until Prompt And Log sudo ssh-keygen -f "/root/.ssh/known_hosts" -R ${vm_ip} 30s
+ ${output} = DevstackUtils.Write Commands Until Prompt sudo cat "/root/.ssh/known_hosts" 30s
Wait For Routes To Propogate
[Arguments] ${networks} ${subnets}
[Documentation] Check propagated routes
- Get ControlNode Connection
+ OpenStackOperations.Get ControlNode Connection
: FOR ${INDEX} IN RANGE 0 1
- \ ${net_id}= Get Net Id @{networks}[${INDEX}]
- \ ${is_ipv6}= Get Regexp Matches @{subnets}[${INDEX}] ${IP6_REGEX}
- \ ${length}= Get Length ${is_ipv6}
- \ ${cmd}= Set Variable If ${length} == 0 ip route ip -6 route
- \ ${output}= Write Commands Until Expected Prompt sudo ip netns exec qdhcp-${net_id} ${cmd} ]>
- \ Should Contain ${output} @{subnets}[${INDEX}]
+ \ ${net_id} = OpenStackOperations.Get Net Id @{networks}[${INDEX}]
+ \ ${is_ipv6} = String.Get Regexp Matches @{subnets}[${INDEX}] ${IP6_REGEX}
+ \ ${length} = BuiltIn.Get Length ${is_ipv6}
+ \ ${cmd} = BuiltIn.Set Variable If ${length} == 0 ip route ip -6 route
+ \ ${output} = Utils.Write Commands Until Expected Prompt sudo ip netns exec qdhcp-${net_id} ${cmd} ]>
+ \ BuiltIn.Should Contain ${output} @{subnets}[${INDEX}]
Neutron Cleanup
[Arguments] ${vms}=@{EMPTY} ${networks}=@{EMPTY} ${subnets}=@{EMPTY} ${ports}=@{EMPTY} ${sgs}=@{EMPTY}
[Documentation] Get a list of different OpenStack resources that might be in use.
@{modules} = BuiltIn.Create List server port network subnet security group
... security group rule
- Run Keyword If "${ODL_ENABLE_L3_FWD}"=="yes" Append To List ${modules} floating ip router
+ BuiltIn.Run Keyword If "${ODL_ENABLE_L3_FWD}"=="yes" Collections.Append To List ${modules} floating ip router
: FOR ${module} IN @{modules}
- \ OpenStack CLI openstack ${module} list
+ \ ${output} = OpenStack CLI openstack ${module} list
OpenStack CLI Get List
[Arguments] ${cmd}
[Return] @{list}
OpenStack CLI
- [Arguments] ${cmd} ${log_output}=True
- [Documentation] Run the given OpenStack ${cmd}.
+ [Arguments] ${cmd}
+ [Documentation] Run the given OpenStack ${cmd} and log the output.
+ ${rc} ${output} = OperatingSystem.Run And Return Rc And Output ${cmd}
+ BuiltIn.Log ${output}
+ BuiltIn.Should Be True '${rc}' == '0'
+ [Return] ${output}
+
+OpenStack CLI With No Log
+ [Arguments] ${cmd}
+ [Documentation] Run the given OpenStack ${cmd} and do not log the output.
${rc} ${output} = OperatingSystem.Run And Return Rc And Output ${cmd}
- Run Keyword If "${log_output}"=="True" BuiltIn.Log ${output}
- Should Be True '${rc}' == '0'
+ BuiltIn.Should Be True '${rc}' == '0'
[Return] ${output}
OpenStack Cleanup All
[Documentation] Cleanup all Openstack resources with best effort. The keyword will query for all resources
... in use and then attempt to delete them. Errors are ignored to allow the cleanup to continue.
- @{fips} = Run Keyword If "${ODL_ENABLE_L3_FWD}"=="yes" OpenStack CLI Get List openstack floating ip list -f json
- ... ELSE Create List @{EMPTY}
+ @{fips} = BuiltIn.Run Keyword If "${ODL_ENABLE_L3_FWD}"=="yes" OpenStack CLI Get List openstack floating ip list -f json
+ ... ELSE BuiltIn.Create List @{EMPTY}
: FOR ${fip} IN @{fips}
\ BuiltIn.Run Keyword And Ignore Error Delete Floating IP ${fip['ID']}
@{vms} = OpenStack CLI Get List openstack server list -f json
: FOR ${vm} IN @{vms}
\ BuiltIn.Run Keyword And Ignore Error Delete Vm Instance ${vm['ID']}
- @{routers} = Run Keyword If "${ODL_ENABLE_L3_FWD}"=="yes" OpenStack CLI Get List openstack router list -f json
- ... ELSE Create List @{EMPTY}
+ @{routers} = BuiltIn.Run Keyword If "${ODL_ENABLE_L3_FWD}"=="yes" OpenStack CLI Get List openstack router list -f json
+ ... ELSE BuiltIn.Create List @{EMPTY}
: FOR ${router} IN @{routers}
\ BuiltIn.Run Keyword And Ignore Error Cleanup Router ${router['ID']}
@{ports} = OpenStack CLI Get List openstack port list -f json
[Documentation] Delete a router, but first remove any interfaces or gateways so that the delete will be successful.
@{ports} = OpenStack CLI Get List openstack port list --router ${id} -f json --long
: FOR ${port} IN @{ports}
- \ ${subnet_id} = Get Match ${port['Fixed IP Addresses']} [0-9a-f]{8}-[0-9a-f]{4}-[0-9a-f]{4}-[0-9a-f]{4}-[0-9a-f]{12} 0
+ \ ${subnet_id} = OpenStackOperations.Get Match ${port['Fixed IP Addresses']} ${REGEX_UUID} 0
\ BuiltIn.Run Keyword If "${port['Device Owner']}" == "network:router_gateway" BuiltIn.Run Keyword And Ignore Error Remove Gateway ${id}
\ BuiltIn.Run Keyword If "${port['Device Owner']}" == "network:router_interface" BuiltIn.Run Keyword And Ignore Error Remove Interface ${id} ${subnet_id}
BuiltIn.Run Keyword And Ignore Error Delete Router ${id}
SetupUtils.Setup_Utils_For_Setup_And_Teardown
@{tcpdump_port_6653_conn_ids} = OpenStackOperations.Start Packet Capture On Nodes tcpdump_port_6653 port 6653 ${OS_CONTROL_NODE_IP} ${OS_COMPUTE_1_IP} ${OS_COMPUTE_2_IP}
BuiltIn.Set Suite Variable @{tcpdump_port_6653_conn_ids}
- Run Keyword If "${PRE_CLEAN_OPENSTACK_ALL}"=="True" OpenStack Cleanup All
+ BuiltIn.Run Keyword If "${PRE_CLEAN_OPENSTACK_ALL}"=="True" OpenStack Cleanup All
DevstackUtils.Devstack Suite Setup
- Add OVS Logging On All OpenStack Nodes
+ OpenStackOperations.Add OVS Logging On All OpenStack Nodes
OpenStack Suite Teardown
[Documentation] Wrapper teardown keyword that can be used in any suite running in an openstack environement
[Documentation] Copy the current DHCP files to the robot vm. The keyword must be called
... after the subnet(s) are created and before the subnet(s) are deleted.
${suite_} = BuiltIn.Evaluate """${SUITE_NAME}""".replace(" ","_").replace("/","_").replace(".","_")
- ${dstdir} = Set Variable /tmp/qdhcp/${suite_}
+ ${dstdir} = BuiltIn.Set Variable /tmp/qdhcp/${suite_}
OperatingSystem.Create Directory ${dstdir}
- Get ControlNode Connection
+ OpenStackOperations.Get ControlNode Connection
BuiltIn.Run Keyword And Ignore Error SSHLibrary.Get Directory /opt/stack/data/neutron/dhcp ${dstdir} recursive=True
Is Feature Installed
[Arguments] ${features}=none
: FOR ${feature} IN @{features}
- \ ${status} ${output} Run Keyword And Ignore Error Builtin.Should Contain ${CONTROLLERFEATURES} ${feature}
+ \ ${status} ${output} BuiltIn.Run Keyword And Ignore Error BuiltIn.Should Contain ${CONTROLLERFEATURES} ${feature}
\ Return From Keyword If "${status}" == "PASS" True
[Return] False
Add OVS Logging On All OpenStack Nodes
[Documentation] Add higher levels of OVS logging to all the OpenStack nodes
- Run Keyword If 0 < ${NUM_OS_SYSTEM} OVSDB.Add OVS Logging ${OS_CNTL_CONN_ID}
- Run Keyword If 1 < ${NUM_OS_SYSTEM} OVSDB.Add OVS Logging ${OS_CMP1_CONN_ID}
- Run Keyword If 2 < ${NUM_OS_SYSTEM} OVSDB.Add OVS Logging ${OS_CMP2_CONN_ID}
+ BuiltIn.Run Keyword If 0 < ${NUM_OS_SYSTEM} OVSDB.Add OVS Logging ${OS_CNTL_CONN_ID}
+ BuiltIn.Run Keyword If 1 < ${NUM_OS_SYSTEM} OVSDB.Add OVS Logging ${OS_CMP1_CONN_ID}
+ BuiltIn.Run Keyword If 2 < ${NUM_OS_SYSTEM} OVSDB.Add OVS Logging ${OS_CMP2_CONN_ID}
Reset OVS Logging On All OpenStack Nodes
[Documentation] Reset the OVS logging to all the OpenStack nodes
- Run Keyword If 0 < ${NUM_OS_SYSTEM} OVSDB.Reset OVS Logging ${OS_CNTL_CONN_ID}
- Run Keyword If 1 < ${NUM_OS_SYSTEM} OVSDB.Reset OVS Logging ${OS_CMP1_CONN_ID}
- Run Keyword If 2 < ${NUM_OS_SYSTEM} OVSDB.Reset OVS Logging ${OS_CMP2_CONN_ID}
+ BuiltIn.Run Keyword If 0 < ${NUM_OS_SYSTEM} OVSDB.Reset OVS Logging ${OS_CNTL_CONN_ID}
+ BuiltIn.Run Keyword If 1 < ${NUM_OS_SYSTEM} OVSDB.Reset OVS Logging ${OS_CMP1_CONN_ID}
+ BuiltIn.Run Keyword If 2 < ${NUM_OS_SYSTEM} OVSDB.Reset OVS Logging ${OS_CMP2_CONN_ID}
Start Packet Capture On Nodes
[Arguments] ${tag} ${filter} @{ips}
Code Review / integration / test.git / commitdiff