2 Documentation Openstack library. This library is useful for tests to create network, subnet, router and vm instances
5 Library OperatingSystem
6 Resource DataModels.robot
8 Resource SSHKeywords.robot
9 Resource L2GatewayOperations.robot
10 Resource ../variables/Variables.robot
11 Resource ../variables/netvirt/Variables.robot
12 Variables ../variables/netvirt/Modules.py
15 Get Tenant ID From Security Group
16 [Documentation] Returns tenant ID by reading it from existing default security-group.
17 ${rc} ${output}= Run And Return Rc And Output openstack security group show default | grep "| tenant_id" | awk '{print $4}'
19 Should Not Be True ${rc}
22 Get Tenant ID From Network
23 [Arguments] ${network_uuid}
24 [Documentation] Returns tenant ID by reading it from existing network.
25 ${resp}= Get_From_Uri uri=${CONFIG_API}/neutron:neutron/networks/network/${network_uuid}/ accept=${ACCEPT_EMPTY} session=session
26 ${tenant_id}= Utils.Extract Value From Content ${resp} /network/0/tenant-id strip
30 [Arguments] ${network_name} ${additional_args}=${EMPTY} ${verbose}=TRUE
31 [Documentation] Create Network with neutron request.
32 ${rc} ${output}= Run And Return Rc And Output openstack network create ${network_name} ${additional_args}
34 Should Not Be True ${rc}
38 [Arguments] ${network_name} ${additional_args}=${EMPTY}
39 [Documentation] Update Network with neutron request.
40 ${cmd}= Set Variable If '${OPENSTACK_BRANCH}'=='stable/newton' neutron -v net-update ${network_name} ${additional_args} openstack network set ${network_name} ${additional_args}
41 ${rc} ${output}= Run And Return Rc And Output ${cmd}
43 Should Not Be True ${rc}
47 [Arguments] ${network_name}
48 [Documentation] Show Network with neutron request.
49 ${rc} ${output}= Run And Return Rc And Output openstack network show ${network_name}
51 Should Not Be True ${rc}
55 [Documentation] List networks and return output with neutron client.
56 ${rc} ${output}= Run And Return Rc And Output openstack network list
58 Should Not Be True ${rc}
62 [Documentation] List subnets and return output with neutron client.
63 ${rc} ${output}= Run And Return Rc And Output openstack subnet list
65 Should Not Be True ${rc}
69 [Arguments] ${network_name}
70 [Documentation] Delete Network with neutron request.
71 ${rc} ${output}= Run And Return Rc And Output openstack network delete ${network_name}
73 Should Not Be True ${rc}
76 [Arguments] ${network_name} ${subnet} ${range_ip} ${additional_args}=${EMPTY}
77 [Documentation] Create SubNet for the Network with neutron request.
78 ${rc} ${output}= Run And Return Rc And Output openstack subnet create --network ${network_name} --subnet-range ${range_ip} ${subnet} ${additional_args}
80 Should Not Be True ${rc}
83 [Arguments] ${subnet_name} ${additional_args}=${EMPTY}
84 [Documentation] Update subnet with neutron request.
85 ${cmd}= Set Variable If '${OPENSTACK_BRANCH}'=='stable/newton' neutron -v subnet-update ${subnet_name} ${additional_args} openstack subnet set ${subnet_name} ${additional_args}
86 ${rc} ${output}= Run And Return Rc And Output ${cmd}
88 Should Not Be True ${rc}
92 [Arguments] ${subnet_name}
93 [Documentation] Show subnet with neutron request.
94 ${rc} ${output}= Run And Return Rc And Output openstack subnet show ${subnet_name}
96 Should Not Be True ${rc}
100 [Arguments] ${network_name} ${port_name} ${sg}=default ${additional_args}=${EMPTY} ${allowed_address_pairs}=${EMPTY}
101 [Documentation] Create Port with neutron request.
102 # if allowed_address_pairs is not empty we need to create the arguments to pass to the port create command. They are
103 # in a different format with the neutron vs openstack cli.
104 ${address_pair_length}= Get Length ${allowed_address_pairs}
105 ${allowed_pairs_argv}= Set Variable If '${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]
106 ${allowed_pairs_argv}= Set Variable If '${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}
107 ${allowed_pairs_argv}= Set Variable If '${address_pair_length}'=='0' ${EMPTY} ${allowed_pairs_argv}
108 ${cmd}= Set Variable If '${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}
109 ${rc} ${output}= Run And Return Rc And Output ${cmd}
111 Should Not Be True ${rc}
114 [Arguments] ${port_name} ${additional_args}=${EMPTY}
115 [Documentation] Update port with neutron request.
116 ${rc} ${output}= Run And Return Rc And Output openstack port set ${port_name} ${additional_args}
118 Should Not Be True ${rc}
122 [Arguments] ${port_name}
123 [Documentation] Show port with neutron request.
124 ${rc} ${output}= Run And Return Rc And Output openstack port show ${port_name}
126 Should Not Be True ${rc}
130 [Arguments] ${port_name}
131 [Documentation] Delete Port with neutron request.
132 ${rc} ${output}= Run And Return Rc And Output openstack port delete ${port_name}
134 Should Not Be True ${rc}
137 [Documentation] List ports and return output with neutron client.
138 ${rc} ${output}= Run And Return Rc And Output openstack port list
140 Should Not Be True ${rc}
144 [Documentation] List VMs and return output with nova client.
145 ${rc} ${output}= Run And Return Rc And Output openstack server list
147 Should Not Be True ${rc}
150 Create And Associate Floating IPs
151 [Arguments] ${external_net} @{vm_list}
152 [Documentation] Create and associate floating IPs to VMs with nova request
153 ${ip_list}= Create List @{EMPTY}
154 : FOR ${vm} IN @{vm_list}
155 \ ${rc} ${output}= Run And Return Rc And Output openstack floating ip create ${external_net}
157 \ Should Not Be True ${rc}
158 \ @{ip} Get Regexp Matches ${output} [0-9]{1,3}\\.[0-9]{1,3}\\.[0-9]{1,3}\\.[0-9]{1,3}
159 \ ${ip_length} Get Length ${ip}
160 \ Run Keyword If ${ip_length}>0 Append To List ${ip_list} @{ip}[0]
161 \ ... ELSE Append To List ${ip_list} None
162 \ ${rc} ${output}= Run And Return Rc And Output openstack server add floating ip ${vm} @{ip}[0]
164 \ Should Not Be True ${rc}
168 [Documentation] Verifies the Gateway Ips with dump flow.
169 ${output}= Write Commands Until Prompt sudo ovs-ofctl -O OpenFlow13 dump-flows br-int
171 : FOR ${GatewayIpElement} IN @{GATEWAY_IPS}
172 \ Should Contain ${output} ${GatewayIpElement}
175 [Documentation] Verifies the Dhcp Ips with dump flow.
176 ${output}= Write Commands Until Prompt sudo ovs-ofctl -O OpenFlow13 dump-flows br-int
178 : FOR ${DhcpIpElement} IN @{DHCP_IPS}
179 \ Should Contain ${output} ${DhcpIpElement}
182 [Documentation] Verifies the Dhcp Ips with dump flow.
183 ${output}= Write Commands Until Prompt sudo ovs-ofctl -O OpenFlow13 dump-flows br-int
185 : FOR ${DhcpIpElement} IN @{DHCP_IPS}
186 \ Should Not Contain ${output} ${DhcpIpElement}
189 [Arguments] ${subnet}
190 [Documentation] Delete SubNet for the Network with neutron request.
192 ${rc} ${output}= Run And Return Rc And Output openstack subnet delete ${subnet}
194 Should Not Be True ${rc}
196 Verify No Gateway Ips
197 [Documentation] Verifies the Gateway Ips removed with dump flow.
198 ${output}= Write Commands Until Prompt sudo ovs-ofctl -O OpenFlow13 dump-flows br-int
200 : FOR ${GatewayIpElement} IN @{GATEWAY_IPS}
201 \ Should Not Contain ${output} ${GatewayIpElement}
204 [Arguments] ${vm_name}
205 [Documentation] Delete Vm instances using instance names.
206 ${rc} ${output}= Run And Return Rc And Output openstack server delete ${vm_name}
211 [Arguments] ${network_name} ${devstack_conn_id}
212 [Documentation] Retrieve the net id for the given network name to create specific vm instance
213 ${rc} ${output}= Run And Return Rc And Output openstack network list | grep "${network_name}" | awk '{print $2}'
215 Should Not Be True ${rc}
216 ${splitted_output}= Split String ${output} ${EMPTY}
217 ${net_id}= Get from List ${splitted_output} 0
222 [Arguments] ${subnet_name} ${devstack_conn_id}
223 [Documentation] Retrieve the subnet id for the given subnet name
224 ${rc} ${output}= Run And Return Rc And Output openstack subnet show "${subnet_name}" | grep " id " | awk '{print $4}'
226 Should Not Be True ${rc}
227 ${splitted_output}= Split String ${output} ${EMPTY}
228 ${subnet_id}= Get from List ${splitted_output} 0
230 [Return] ${subnet_id}
233 [Arguments] ${port_name} ${devstack_conn_id}
234 [Documentation] Retrieve the port id for the given port name to attach specific vm instance to a particular port
235 ${rc} ${output}= Run And Return Rc And Output openstack port list | grep "${port_name}" | awk '{print $2}'
237 Should Not Be True ${rc}
238 ${splitted_output}= Split String ${output} ${EMPTY}
239 ${port_id}= Get from List ${splitted_output} 0
244 [Arguments] ${router1} ${devstack_conn_id}
245 [Documentation] Retrieve the router id for the given router name
246 ${rc} ${output}= Run And Return Rc And Output openstack router list -f table | grep "${router1}" | awk '{print $2}'
248 Should Not Be True ${rc}
249 ${splitted_output}= Split String ${output} ${EMPTY}
250 ${router_id}= Get from List ${splitted_output} 0
252 [Return] ${router_id}
255 [Arguments] ${net_name} ${vm_instance_names} ${image}=cirros-0.3.4-x86_64-uec ${flavor}=m1.nano ${sg}=default
256 [Documentation] Create X Vm Instance with the net id of the Netowrk.
257 ${net_id}= Get Net Id ${net_name} ${devstack_conn_id}
258 : FOR ${VmElement} IN @{vm_instance_names}
259 \ ${rc} ${output}= Run And Return Rc And Output openstack server create --image ${image} --flavor ${flavor} --nic net-id=${net_id} ${VmElement} --security-group ${sg}
260 \ Should Not Be True ${rc}
263 Create Vm Instance With Port
264 [Arguments] ${port_name} ${vm_instance_name} ${image}=cirros-0.3.4-x86_64-uec ${flavor}=m1.nano ${sg}=default
265 [Documentation] Create One VM instance using given ${port_name} and for given ${compute_node}
266 ${port_id}= Get Port Id ${port_name} ${devstack_conn_id}
267 ${rc} ${output}= Run And Return Rc And Output openstack server create --image ${image} --flavor ${flavor} --nic port-id=${port_id} ${vm_instance_name} --security-groups ${sg}
270 Create Vm Instance With Ports
271 [Arguments] ${port_name} ${port2_name} ${vm_instance_name} ${image}=cirros-0.3.4-x86_64-uec ${flavor}=m1.nano ${sg}=default
272 [Documentation] Create One VM instance using given ${port_name} and for given ${compute_node}
273 ${port_id}= Get Port Id ${port_name} ${devstack_conn_id}
274 ${port2_id}= Get Port Id ${port2_name} ${devstack_conn_id}
275 ${rc} ${output}= Run And Return Rc And Output openstack server create --image ${image} --flavor ${flavor} --nic port-id=${port_id} --nic port-id=${port2_id} ${vm_instance_name} --security-group ${sg}
277 Should Not Be True ${rc}
279 Create Vm Instance With Port On Compute Node
280 [Arguments] ${port_name} ${vm_instance_name} ${compute_node} ${image}=cirros-0.3.4-x86_64-uec ${flavor}=m1.nano ${sg}=default
281 [Documentation] Create One VM instance using given ${port_name} and for given ${compute_node}
282 ${port_id}= Get Port Id ${port_name} ${devstack_conn_id}
283 ${hostname_compute_node}= Run Command On Remote System ${compute_node} hostname
284 ${rc} ${output}= Run And Return Rc And Output openstack server create --image ${image} --flavor ${flavor} --nic port-id=${port_id} --security-group ${sg} --availability-zone nova:${hostname_compute_node} ${vm_instance_name}
286 Should Not Be True ${rc}
289 [Arguments] ${vm_name}
290 [Documentation] Run these commands to check whether the created vm instance is active or not.
291 ${rc} ${output}= Run And Return Rc And Output openstack server show ${vm_name} | grep OS-EXT-STS:vm_state
293 Should Not Be True ${rc}
294 Should Contain ${output} active
296 Collect VM IP Addresses
297 [Arguments] ${fail_on_none} @{vm_list}
298 [Documentation] Using nova console-log on the provided ${vm_list} to search for the string "obtained" which
299 ... correlates to the instance receiving it's IP address via DHCP. Also retrieved is the ip of the nameserver
300 ... if available in the console-log output. The keyword will also return a list of the learned ips as it
301 ... finds them in the console log output, and will have "None" for Vms that no ip was found.
302 ${ip_list} Create List @{EMPTY}
303 : FOR ${vm} IN @{vm_list}
304 \ ${rc} ${vm_ip_line}= Run And Return Rc And Output openstack console log show ${vm} | grep -i "obtained"
307 \ @{vm_ip} Get Regexp Matches ${vm_ip_line} [0-9]{1,3}\\.[0-9]{1,3}\\.[0-9]{1,3}\\.[0-9]{1,3}
308 \ ${vm_ip_length} Get Length ${vm_ip}
309 \ Run Keyword If ${vm_ip_length}>0 Append To List ${ip_list} @{vm_ip}[0]
310 \ ... ELSE Append To List ${ip_list} None
311 \ ${rc} ${dhcp_ip_line}= Run And Return Rc And Output openstack console log show ${vm} | grep "^nameserver"
312 \ Log ${dhcp_ip_line}
314 \ ${dhcp_ip} Get Regexp Matches ${dhcp_ip_line} [0-9]{1,3}\\.[0-9]{1,3}\\.[0-9]{1,3}\\.[0-9]{1,3}
315 \ ${dhcp_ip_length} Get Length ${dhcp_ip}
316 \ Run Keyword If ${dhcp_ip_length}<=0 Append To List ${dhcp_ip} None
318 ${dhcp_length} Get Length ${dhcp_ip}
319 Run Keyword If '${fail_on_none}' == 'true' Should Not Contain ${ip_list} None
320 Run Keyword If '${fail_on_none}' == 'true' Should Not Contain ${dhcp_ip} None
321 Should Be True ${dhcp_length} <= 1
322 Return From Keyword If ${dhcp_length}==0 ${ip_list} ${EMPTY}
323 [Return] ${ip_list} ${dhcp_ip}
325 Collect VM IPv6 SLAAC Addresses
326 [Arguments] ${fail_on_none} ${prefix} @{vm_list}
327 [Documentation] Using nova console-log on the provided ${vm_list} to search for the string "inet6" which
328 ... correlates to the instance generated IPv6 address, based on the ${prefix} received from ODL (SLAAC mode).
329 ${ip_list} Create List @{EMPTY}
330 : FOR ${vm} IN @{vm_list}
332 \ ${rc} ${vm_ip_line}= Run And Return Rc And Output nova console-log ${vm} | grep -i "inet6"
335 \ @{vm_ip_list} Get Regexp Matches ${vm_ip_line} ${prefix}
336 \ ${vm_ip_length} Get Length ${vm_ip_list}
337 \ Run Keyword If ${vm_ip_length}>0 Append To List ${ip_list} @{vm_ip_list}[0]
338 \ ... ELSE Append To List ${ip_list} None
340 Run Keyword If '${fail_on_none}' == 'true' Should Not Contain ${ip_list} None
345 [Arguments] ${vm_instance_names}
346 [Documentation] View Console log of the created vm instances using nova show.
347 : FOR ${VmElement} IN @{vm_instance_names}
348 \ ${rc} ${output}= Run And Return Rc And Output nova show ${VmElement}
350 \ Should Not Be True ${rc}
351 \ ${rc} ${output}= Run And Return Rc And Output openstack console log show ${VmElement}
353 \ Should Not Be True ${rc}
355 Ping Vm From DHCP Namespace
356 [Arguments] ${net_name} ${vm_ip}
357 [Documentation] Reach all Vm Instance with the net id of the Netowrk.
359 ${devstack_conn_id}= Get ControlNode Connection
360 Switch Connection ${devstack_conn_id}
361 ${net_id}= Get Net Id ${net_name} ${devstack_conn_id}
363 ${output}= Write Commands Until Prompt sudo ip netns exec qdhcp-${net_id} ping -c 3 ${vm_ip} 20s
366 Should Contain ${output} 64 bytes
368 Ping From DHCP Should Not Succeed
369 [Arguments] ${net_name} ${vm_ip}
370 [Documentation] Should Not Reach Vm Instance with the net id of the Netowrk.
371 Return From Keyword If "skip_if_${SECURITY_GROUP_MODE}" in @{TEST_TAGS}
373 ${devstack_conn_id}= Get ControlNode Connection
374 Switch Connection ${devstack_conn_id}
375 ${net_id}= Get Net Id ${net_name} ${devstack_conn_id}
377 ${output}= Write Commands Until Prompt sudo ip netns exec qdhcp-${net_id} ping -c 3 ${vm_ip} 20s
380 Should Not Contain ${output} 64 bytes
382 Ping Vm From Control Node
383 [Arguments] ${vm_floating_ip} ${additional_args}=${EMPTY}
384 [Documentation] Ping VM floating IP from control node
385 Log ${vm_floating_ip}
386 ${devstack_conn_id}= Get ControlNode Connection
387 Switch Connection ${devstack_conn_id}
388 ${output}= Write Commands Until Prompt ping ${additional_args} -c 3 ${vm_floating_ip} 20s
391 Should Contain ${output} 64 bytes
394 [Arguments] ${dest_vm_ip}
395 [Documentation] Ping to the expected destination ip.
396 ${output}= Write Commands Until Expected Prompt ping -c 3 ${dest_vm_ip} ${OS_SYSTEM_PROMPT}
401 [Documentation] Ping to the expected destination ip.
402 ${output}= Write Commands Until Expected Prompt curl -i http://169.254.169.254 ${OS_SYSTEM_PROMPT}
403 Write Commands Until Prompt exit
404 Should Contain ${output} 200
407 [Documentation] Exit the vm instance.
408 ${output}= Write Commands Until Prompt exit
411 Check If Console Is VmInstance
412 [Arguments] ${console}=cirros
413 [Documentation] Check if the session has been able to login to the VM instance
414 ${output}= Write Commands Until Expected Prompt id ${OS_SYSTEM_PROMPT}
415 Should Contain ${output} ${console}
418 [Documentation] Check if the session has been able to login to the VM instance and exit the instance
419 ${rcode}= Run Keyword And Return Status Check If Console Is VmInstance cirros
420 Run Keyword If ${rcode} Write Commands Until Prompt exit
424 [Arguments] ${ip_address} ${ttl}=64
425 [Documentation] Run Ping command on the IP available as argument
426 ${ethertype}= Get Regexp Matches ${ip_address} ${IP_REGEX}
427 ${output}= Run Keyword If ${ethertype} Write Commands Until Expected Prompt ping -t ${ttl} -c 3 ${ip_address} ${OS_SYSTEM_PROMPT}
428 ... ELSE Write Commands Until Expected Prompt ping6 -t ${ttl} -c 3 ${ip_address} ${OS_SYSTEM_PROMPT}
429 Should Contain ${output} 64 bytes
432 [Arguments] ${ip_address} ${ttl}=64
433 [Documentation] Run Ping command to the IP given as argument, executing 3 times and expecting NOT to see "64 bytes"
434 ${output}= Write Commands Until Expected Prompt ping -t ${ttl} -c 3 ${ip_address} ${OS_SYSTEM_PROMPT}
435 Should Not Contain ${output} 64 bytes
437 Check Metadata Access
438 [Documentation] Try curl on the Metadataurl and check if it is okay
439 ${output}= Write Commands Until Expected Prompt curl -i http://169.254.169.254 ${OS_SYSTEM_PROMPT}
440 Should Contain ${output} 200
442 Execute Command on VM Instance
443 [Arguments] ${net_name} ${vm_ip} ${cmd} ${user}=cirros ${password}=cubswin:)
444 [Documentation] Login to the vm instance using ssh in the network, executes a command inside the VM and returns the ouput.
445 ${devstack_conn_id} = Get ControlNode Connection
446 Switch Connection ${devstack_conn_id}
447 ${net_id} = Get Net Id ${net_name} ${devstack_conn_id}
449 ${output} = Write Commands Until Expected Prompt sudo ip netns exec qdhcp-${net_id} ssh ${user}@${vm_ip} -o ConnectTimeout=10 -o StrictHostKeyChecking=no -o UserKnownHostsFile=/dev/null d:
451 ${output} = Write Commands Until Expected Prompt ${password} ${OS_SYSTEM_PROMPT}
453 ${rcode} = Run Keyword And Return Status Check If Console Is VmInstance
454 ${output} = Run Keyword If ${rcode} Write Commands Until Expected Prompt ${cmd} ${OS_SYSTEM_PROMPT}
455 [Teardown] Exit From Vm Console
458 Test Operations From Vm Instance
459 [Arguments] ${net_name} ${src_ip} ${dest_ips} ${user}=cirros ${password}=cubswin:) ${ttl}=64
460 ... ${ping_should_succeed}=True ${check_metadata}=True
461 [Documentation] Login to the vm instance using ssh in the network.
462 ${devstack_conn_id}= Get ControlNode Connection
463 Switch Connection ${devstack_conn_id}
465 ${net_id}= Get Net Id ${net_name} ${devstack_conn_id}
466 ${output}= Write Commands Until Expected Prompt sudo ip netns exec qdhcp-${net_id} ssh -o ConnectTimeout=10 -o StrictHostKeyChecking=no ${user}@${src_ip} -o UserKnownHostsFile=/dev/null d:
468 ${output}= Write Commands Until Expected Prompt ${password} ${OS_SYSTEM_PROMPT}
470 ${rcode}= Run Keyword And Return Status Check If Console Is VmInstance
471 Run Keyword If ${rcode} Write Commands Until Expected Prompt ifconfig ${OS_SYSTEM_PROMPT}
472 Run Keyword If ${rcode} Write Commands Until Expected Prompt route -n ${OS_SYSTEM_PROMPT}
473 Run Keyword If ${rcode} Write Commands Until Expected Prompt route -A inet6 ${OS_SYSTEM_PROMPT}
474 Run Keyword If ${rcode} Write Commands Until Expected Prompt arp -an ${OS_SYSTEM_PROMPT}
475 Run Keyword If ${rcode} Write Commands Until Expected Prompt ip -6 neigh ${OS_SYSTEM_PROMPT}
476 : FOR ${dest_ip} IN @{dest_ips}
478 \ ${string_empty}= Run Keyword And Return Status Should Be Empty ${dest_ip}
479 \ Run Keyword If ${string_empty} Continue For Loop
480 \ Run Keyword If ${rcode} and "${ping_should_succeed}" == "True" Check Ping ${dest_ip} ttl=${ttl}
481 \ ... ELSE Check No Ping ${dest_ip} ttl=${ttl}
482 ${ethertype}= Get Regexp Matches ${src_ip} ${IP_REGEX}
483 Run Keyword If ${rcode} and "${check_metadata}" and ${ethertype} == "True" Check Metadata Access
484 [Teardown] Exit From Vm Console
486 Test Netcat Operations From Vm Instance
487 [Arguments] ${net_name} ${vm_ip} ${dest_ip} ${additional_args}=${EMPTY} ${port}=12345 ${user}=cirros
488 ... ${password}=cubswin:)
489 [Documentation] Use Netcat to test TCP/UDP connections to the controller
490 ${client_data} Set Variable Test Client Data
491 ${server_data} Set Variable Test Server Data
492 ${devstack_conn_id}= Get ControlNode Connection
493 Switch Connection ${devstack_conn_id}
495 ${output}= Write Commands Until Prompt ( ( echo "${server_data}" | sudo timeout 60 nc -l ${additional_args} ${port} ) & )
497 ${output}= Write Commands Until Prompt sudo netstat -nlap | grep ${port}
499 ${nc_output}= Execute Command on VM Instance ${net_name} ${vm_ip} sudo echo "${client_data}" | nc -v -w 5 ${additional_args} ${dest_ip} ${port}
501 ${output}= Execute Command on VM Instance ${net_name} ${vm_ip} sudo route -n
503 ${output}= Execute Command on VM Instance ${net_name} ${vm_ip} sudo arp -an
505 Should Match Regexp ${nc_output} ${server_data}
508 [Arguments] ${list_of_external_dst_ips}
509 [Documentation] Check reachability with other network's instances.
510 ${rcode}= Run Keyword And Return Status Check If Console Is VmInstance
511 : FOR ${dest_ip} IN @{list_of_external_dst_ips}
513 \ Check Ping ${dest_ip}
516 [Arguments] ${router_name}
517 [Documentation] Create Router and Add Interface to the subnets.
518 ${rc} ${output}= Run And Return Rc And Output openstack router create ${router_name}
519 Should Not Be True ${rc}
522 [Documentation] List Router and return output with neutron client.
523 ${rc} ${output}= Run And Return Rc And Output openstack router list -f value
525 Should Not Be True ${rc}
529 [Arguments] ${router_name} ${interface_name}
530 ${rc} ${output}= Run And Return Rc And Output openstack router add subnet ${router_name} ${interface_name}
531 Should Not Be True ${rc}
533 Show Router Interface
534 [Arguments] ${router_name}
535 [Documentation] List Router interface associated with given Router and return output with neutron client.
536 ${rc} ${output}= Run And Return Rc And Output openstack port list --router ${router_name} -f value
538 Should Not Be True ${rc}
542 [Arguments] ${router_name} ${external_network_name}
543 ${cmd}= Set Variable If '${OPENSTACK_BRANCH}'=='stable/newton' neutron -v router-gateway-set ${router_name} ${external_network_name} openstack router set ${router_name} --external-gateway ${external_network_name}
544 ${rc} ${output}= Run And Return Rc And Output ${cmd}
545 Should Not Be True ${rc}
548 [Arguments] ${router_name} ${interface_name}
549 [Documentation] Remove Interface to the subnets.
550 ${rc} ${output}= Run And Return Rc And Output openstack router remove subnet ${router_name} ${interface_name}
551 Should Not Be True ${rc}
554 [Arguments] ${router_name} ${cmd}
555 [Documentation] Update the router with the command. Router name and command should be passed as argument.
556 ${rc} ${output} = Run And Return Rc And Output openstack router set ${router_name} ${cmd}
557 Should Not Be True ${rc}
560 [Arguments] ${router_name} ${options}
561 [Documentation] Show information of a given router. Router name and optional fields should be sent as arguments.
562 ${rc} ${output} = Run And Return Rc And Output openstack router show ${router_name}
566 [Arguments] ${router_name}
567 [Documentation] Delete Router and Interface to the subnets.
568 ${rc} ${output}= Run And Return Rc And Output openstack router delete ${router_name}
569 Should Not Be True ${rc}
571 Get DumpFlows And Ovsconfig
572 [Arguments] ${openstack_node_ip}
573 [Documentation] Get the OvsConfig and Flow entries from OVS from the Openstack Node
574 Log ${openstack_node_ip}
575 SSHLibrary.Open Connection ${openstack_node_ip} prompt=${DEFAULT_LINUX_PROMPT}
576 SSHKeywords.Flexible SSH Login ${OS_USER} ${DEVSTACK_SYSTEM_PASSWORD}
577 SSHLibrary.Set Client Configuration timeout=${default_devstack_prompt_timeout}
578 Write Commands Until Expected Prompt ip -o link ${DEFAULT_LINUX_PROMPT_STRICT}
579 Write Commands Until Expected Prompt ip -o addr ${DEFAULT_LINUX_PROMPT_STRICT}
580 Write Commands Until Expected Prompt ip route ${DEFAULT_LINUX_PROMPT_STRICT}
581 Write Commands Until Expected Prompt arp -an ${DEFAULT_LINUX_PROMPT_STRICT}
582 ${nslist}= Write Commands Until Expected Prompt ip netns list | awk '{print $1}' ${DEFAULT_LINUX_PROMPT_STRICT}
583 @{lines} Split To Lines ${nslist}
584 : FOR ${line} IN @{lines}
585 \ Write Commands Until Expected Prompt sudo ip netns exec ${line} ip -o link ${DEFAULT_LINUX_PROMPT_STRICT}
586 \ Write Commands Until Expected Prompt sudo ip netns exec ${line} ip -o addr ${DEFAULT_LINUX_PROMPT_STRICT}
587 \ Write Commands Until Expected Prompt sudo ip netns exec ${line} ip route ${DEFAULT_LINUX_PROMPT_STRICT}
588 Write Commands Until Expected Prompt sudo ovs-vsctl show ${DEFAULT_LINUX_PROMPT_STRICT}
589 Write Commands Until Expected Prompt sudo ovs-vsctl list Open_vSwitch ${DEFAULT_LINUX_PROMPT_STRICT}
590 Write Commands Until Expected Prompt sudo ovs-ofctl show br-int -OOpenFlow13 ${DEFAULT_LINUX_PROMPT_STRICT}
591 Write Commands Until Expected Prompt sudo ovs-ofctl dump-flows br-int -OOpenFlow13 ${DEFAULT_LINUX_PROMPT_STRICT}
592 Write Commands Until Expected Prompt sudo ovs-ofctl dump-groups br-int -OOpenFlow13 ${DEFAULT_LINUX_PROMPT_STRICT}
593 Write Commands Until Expected Prompt sudo ovs-ofctl dump-group-stats br-int -OOpenFlow13 ${DEFAULT_LINUX_PROMPT_STRICT}
595 Get Karaf Log Type From Test Start
596 [Arguments] ${ip} ${test_name} ${type} ${user}=${ODL_SYSTEM_USER} ${password}=${ODL_SYSTEM_PASSWORD} ${prompt}=${ODL_SYSTEM_PROMPT}
597 ... ${log_file}=${WORKSPACE}/${BUNDLEFOLDER}/data/log/karaf.log
598 ${cmd} Set Variable sed '1,/ROBOT MESSAGE: Starting test ${test_name}/d' ${log_file} | grep '${type}'
599 ${output} Run Command On Controller ${ip} ${cmd} ${user} ${password} ${prompt}
602 Get Karaf Log Types From Test Start
603 [Arguments] ${ip} ${test_name} ${types} ${user}=${ODL_SYSTEM_USER} ${password}=${ODL_SYSTEM_PASSWORD} ${prompt}=${ODL_SYSTEM_PROMPT}
604 ... ${log_file}=${WORKSPACE}/${BUNDLEFOLDER}/data/log/karaf.log
605 : FOR ${type} IN @{types}
606 \ Get Karaf Log Type From Test Start ${ip} ${test_name} ${type} ${user} ${password}
607 \ ... ${prompt} ${log_file}
609 Get Karaf Log Events From Test Start
610 [Arguments] ${test_name} ${user}=${ODL_SYSTEM_USER} ${password}=${ODL_SYSTEM_PASSWORD} ${prompt}=${ODL_SYSTEM_PROMPT}
611 ${log_types} = Create List ERROR WARN Exception
612 Run Keyword If 0 < ${NUM_ODL_SYSTEM} Get Karaf Log Types From Test Start ${ODL_SYSTEM_IP} ${test_name} ${log_types}
613 Run Keyword If 1 < ${NUM_ODL_SYSTEM} Get Karaf Log Types From Test Start ${ODL_SYSTEM_2_IP} ${test_name} ${log_types}
614 Run Keyword If 2 < ${NUM_ODL_SYSTEM} Get Karaf Log Types From Test Start ${ODL_SYSTEM_3_IP} ${test_name} ${log_types}
616 Get ControlNode Connection
617 ${control_conn_id}= SSHLibrary.Open Connection ${OS_CONTROL_NODE_IP} prompt=${DEFAULT_LINUX_PROMPT_STRICT}
618 SSHKeywords.Flexible SSH Login ${OS_USER} ${DEVSTACK_SYSTEM_PASSWORD}
619 SSHLibrary.Set Client Configuration timeout=30s
620 [Return] ${control_conn_id}
623 [Documentation] Get the OvsConfig and Flow entries from all Openstack nodes
624 Run Keyword If 0 < ${NUM_OS_SYSTEM} Get DumpFlows And Ovsconfig ${OS_CONTROL_NODE_IP}
625 Run Keyword If 1 < ${NUM_OS_SYSTEM} Get DumpFlows And Ovsconfig ${OS_COMPUTE_1_IP}
626 Run Keyword If 2 < ${NUM_OS_SYSTEM} Get DumpFlows And Ovsconfig ${OS_COMPUTE_2_IP}
628 Get Test Teardown Debugs
629 [Arguments] ${test_name}=${TEST_NAME}
631 Run Keyword And Ignore Error Get Model Dump ${HA_PROXY_IP} ${netvirt_data_models}
632 Get Karaf Log Events From Test Start ${test_name}
634 Get Suite Teardown Debugs
636 Get Model Dump ${HA_PROXY_IP} ${netvirt_data_models}
639 [Arguments] @{vm_indices}
640 [Documentation] Run these commands for debugging, it can list state of VM instances and ip information in control node
641 ${devstack_conn_id}= Get ControlNode Connection
642 Switch Connection ${devstack_conn_id}
643 ${output}= Write Commands Until Prompt sudo ip netns list
646 : FOR ${index} IN @{vm_indices}
647 \ ${rc} ${output}= Run And Return Rc And Output nova show ${index}
655 Neutron Security Group Show
656 [Arguments] ${SecurityGroupRuleName}
657 [Documentation] Displays the neutron security group configurations that belongs to a given neutron security group name
658 ${cmd}= Set Variable openstack security group show ${SecurityGroupRuleName}
660 ${rc} ${output}= Run And Return Rc And Output ${cmd}
662 Should Not Be True ${rc}
666 [Arguments] ${PortName}
667 [Documentation] Display the port configuration that belong to a given neutron port
668 ${cmd}= Set Variable openstack port show ${PortName}
670 ${rc} ${output}= Run And Return Rc And Output ${cmd}
672 Should Not Be True ${rc}
675 Neutron Security Group Create
676 [Arguments] ${SecurityGroupName} ${additional_args}=${EMPTY}
677 [Documentation] Create a security group with specified name ,description & protocol value according to security group template
678 ${devstack_conn_id}= Get ControlNode Connection
679 Switch Connection ${devstack_conn_id}
680 ${cmd}= Set Variable openstack security group create ${SecurityGroupName} ${additional_args}
682 ${rc} ${output}= Run And Return Rc And Output ${cmd}
684 Should Not Be True ${rc}
685 ${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}
687 [Return] ${output} ${sgp_id}
689 Neutron Security Group Update
690 [Arguments] ${SecurityGroupName} ${additional_args}=${EMPTY}
691 [Documentation] Updating security groups
692 ${cmd}= Set Variable openstack security group set ${SecurityGroupName} ${additional_args}
694 ${rc} ${output}= Run And Return Rc And Output ${cmd}
696 Should Not Be True ${rc}
700 [Arguments] ${sg_name}
701 [Documentation] Delete Security group
702 ${rc} ${output}= Run And Return Rc And Output openstack security group delete ${sg_name}
704 Should Not Be True ${rc}
706 Neutron Security Group Rule Create
707 [Arguments] ${Security_group_name} &{Kwargs}
708 [Documentation] Creates neutron security rule with Openstack CLI with or without optional params, here security group name is mandatory args, rule with optional params can be created by passing the optional args values ex: direction=${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]} ..."
709 Run Keyword If ${Kwargs} Log ${Kwargs}
710 ${description} Run Keyword If ${Kwargs} Pop From Dictionary ${Kwargs} description default=${None}
711 ${direction} Run Keyword If ${Kwargs} Pop From Dictionary ${Kwargs} direction default=${None}
712 ${ethertype} Run Keyword If ${Kwargs} Pop From Dictionary ${Kwargs} ethertype default=${None}
713 ${port_range_max} Run Keyword If ${Kwargs} Pop From Dictionary ${Kwargs} port_range_max default=${None}
714 ${port_range_min} Run Keyword If ${Kwargs} Pop From Dictionary ${Kwargs} port_range_min default=${None}
715 ${protocol} Run Keyword If ${Kwargs} Pop From Dictionary ${Kwargs} protocol default=${None}
716 ${remote_group_id} Run Keyword If ${Kwargs} Pop From Dictionary ${Kwargs} remote_group_id default=${None}
717 ${remote_ip_prefix} Run Keyword If ${Kwargs} Pop From Dictionary ${Kwargs} remote_ip_prefix default=${None}
718 ${cmd}= Set Variable openstack security group rule create ${Security_group_name}
719 ${cmd}= Run Keyword If '${description}'!='None' Catenate ${cmd} --description ${description}
720 ... ELSE Catenate ${cmd}
721 ${cmd}= Run Keyword If '${direction}'!='None' Catenate ${cmd} --${direction}
722 ... ELSE Catenate ${cmd}
723 ${cmd}= Run Keyword If '${ethertype}'!='None' Catenate ${cmd} --ethertype ${ethertype}
724 ... ELSE Catenate ${cmd}
725 ${cmd}= Run Keyword If '${port_range_min}'!='None' and '${port_range_max}'!='None' Catenate ${cmd} --dst-port ${port_range_min}:${port_range_max}
726 ... ELSE IF '${port_range_max}'!='None' Catenate ${cmd} --dst-port ${port_range_max}
727 ... ELSE IF '${port_range_min}'!='None' Catenate ${cmd} --dst-port ${port_range_min}
728 ... ELSE Catenate ${cmd}
729 ${cmd}= Run Keyword If '${protocol}'!='None' Catenate ${cmd} --protocol ${protocol}
730 ... ELSE Catenate ${cmd}
731 ${cmd}= Run Keyword If '${remote_group_id}'!='None' Catenate ${cmd} --remote-group ${remote_group_id}
732 ... ELSE Catenate ${cmd}
733 ${cmd}= Run Keyword If '${remote_ip_prefix}'!='None' Catenate ${cmd} --src-ip ${remote_ip_prefix}
734 ... ELSE Catenate ${cmd}
735 ${rc} ${output}= Run And Return Rc And Output ${cmd}
736 ${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}
738 Should Not Be True ${rc}
739 [Return] ${output} ${rule_id}
741 Neutron Security Group Rule Create Legacy Cli
742 [Arguments] ${Security_group_name} &{Kwargs}
743 [Documentation] Creates neutron security rule with neutron request with or without optional params, here security group name is mandatory args, rule with optional params can be created by passing the optional args values ex: direction=${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]} ..."
744 Run Keyword If ${Kwargs} Log ${Kwargs}
745 ${description} Run Keyword If ${Kwargs} Pop From Dictionary ${Kwargs} description default=${None}
746 ${direction} Run Keyword If ${Kwargs} Pop From Dictionary ${Kwargs} direction default=${None}
747 ${ethertype} Run Keyword If ${Kwargs} Pop From Dictionary ${Kwargs} ethertype default=${None}
748 ${port_range_max} Run Keyword If ${Kwargs} Pop From Dictionary ${Kwargs} port_range_max default=${None}
749 ${port_range_min} Run Keyword If ${Kwargs} Pop From Dictionary ${Kwargs} port_range_min default=${None}
750 ${protocol} Run Keyword If ${Kwargs} Pop From Dictionary ${Kwargs} protocol default=${None}
751 ${remote_group_id} Run Keyword If ${Kwargs} Pop From Dictionary ${Kwargs} remote_group_id default=${None}
752 ${remote_ip_prefix} Run Keyword If ${Kwargs} Pop From Dictionary ${Kwargs} remote_ip_prefix default=${None}
753 ${cmd}= Set Variable neutron security-group-rule-create ${Security_group_name}
754 ${cmd}= Run Keyword If '${description}'!='None' Catenate ${cmd} --description ${description}
755 ... ELSE Catenate ${cmd}
756 ${cmd}= Run Keyword If '${direction}'!='None' Catenate ${cmd} --direction ${direction}
757 ... ELSE Catenate ${cmd}
758 ${cmd}= Run Keyword If '${ethertype}'!='None' Catenate ${cmd} --ethertype ${ethertype}
759 ... ELSE Catenate ${cmd}
760 ${cmd}= Run Keyword If '${port_range_max}'!='None' Catenate ${cmd} --port_range_max ${port_range_max}
761 ... ELSE Catenate ${cmd}
762 ${cmd}= Run Keyword If '${port_range_min}'!='None' Catenate ${cmd} --port_range_min ${port_range_min}
763 ... ELSE Catenate ${cmd}
764 ${cmd}= Run Keyword If '${protocol}'!='None' Catenate ${cmd} --protocol ${protocol}
765 ... ELSE Catenate ${cmd}
766 ${cmd}= Run Keyword If '${remote_group_id}'!='None' Catenate ${cmd} --remote_group_id ${remote_group_id}
767 ... ELSE Catenate ${cmd}
768 ${cmd}= Run Keyword If '${remote_ip_prefix}'!='None' Catenate ${cmd} --remote_ip_prefix ${remote_ip_prefix}
769 ... ELSE Catenate ${cmd}
770 ${rc} ${output}= Run And Return Rc And Output ${cmd}
771 ${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}
773 Should Not Be True ${rc}
774 [Return] ${output} ${rule_id}
776 Security Group Create Without Default Security Rules
777 [Arguments] ${sg_name} ${additional_args}=${EMPTY}
778 [Documentation] Create Neutron Security Group with no default rules, using specified name and optional arguments.
779 Neutron Security Group Create ${sg_name} ${additional_args}
780 Delete All Security Group Rules ${sg_name}
782 Delete All Security Group Rules
783 [Arguments] ${sg_name}
784 [Documentation] Delete all security rules from a specified security group
785 ${rc} ${sg_rules_output}= Run And Return Rc And Output openstack security group rule list ${sg_name} -cID -fvalue
786 Log ${sg_rules_output}
787 Should Not Be True ${rc}
788 @{sg_rules}= Split String ${sg_rules_output} \n
789 : FOR ${rule} IN @{sg_rules}
790 \ ${rc} ${output}= Run And Return Rc And Output openstack security group rule delete ${rule}
792 \ Should Not Be True ${rc}
794 Create Neutron Port With Additional Params
795 [Arguments] ${network_name} ${port_name} ${additional_args}=${EMPTY}
796 [Documentation] Create Port With given additional parameters
797 ${cmd}= Set Variable neutron -v port-create ${network_name} --name ${port_name} ${additional_args}
799 ${rc} ${output}= Run And Return Rc And Output ${cmd}
801 Should Not Be True ${rc}
802 ${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}
804 [Return] ${OUTPUT} ${port_id}
807 [Arguments] ${portName_list}
808 [Documentation] Retrieve the port MacAddr for the given list of port name and return the MAC address list.
809 ${MacAddr-list} Create List
810 : FOR ${portName} IN @{portName_list}
811 \ ${macAddr}= OpenStackOperations.Get Port Mac ${portName} ${devstack_conn_id}
812 \ Append To List ${MacAddr-list} ${macAddr}
813 [Return] ${MacAddr-list}
816 [Arguments] ${port_name}
817 [Documentation] Keyword would return the IP of the ${port_name} received.
818 ${rc} ${output}= Run And Return Rc And Output neutron port-list | grep "${port_name}" | awk '{print $11}' | awk -F "\\"" '{print $2}'
820 ${splitted_output}= Split String ${output} ${EMPTY}
821 ${port_ip}= Get from List ${splitted_output} 0
823 Should Not Be True ${rc}
827 [Arguments] ${port_name} ${conn_id}=${devstack_conn_id}
828 [Documentation] Keyword would return the MAC ID of the ${port_name} received.
829 ${rc} ${output}= Run And Return Rc And Output openstack port show ${port_name} | grep mac_address | awk '{print $4}'
831 ${splitted_output}= Split String ${output} ${EMPTY}
832 ${port_mac}= Get from List ${splitted_output} 0
834 Should Not Be True ${rc}
838 [Arguments] ${bridge_name} ${intf_name} ${gw_name}
839 [Documentation] Keyword to create an L2 Gateway ${gw_name} for bridge ${bridge_name} connected to interface ${intf_name} (Using Neutron CLI).
840 ${rc} ${l2gw_output}= Run And Return Rc And Output ${L2GW_CREATE} name=${bridge_name},interface_names=${intf_name} ${gw_name}
842 [Return] ${l2gw_output}
844 Create L2Gateway Connection
845 [Arguments] ${gw_name} ${net_name}
846 [Documentation] Keyword would create a new L2 Gateway Connection for ${gw_name} to ${net_name} (Using Neutron CLI).
847 ${rc} ${l2gw_output}= Run And Return Rc And Output ${L2GW_CONN_CREATE} ${gw_name} ${net_name}
849 Should Not Be True ${rc}
850 [Return] ${l2gw_output}
853 [Documentation] Keyword to return all the L2 Gateways available (Using Neutron CLI).
854 ${rc} ${output}= Run And Return Rc And Output ${L2GW_GET_YAML}
855 Should Not Be True ${rc}
858 Get All L2Gateway Connection
859 [Documentation] Keyword to return all the L2 Gateway connections available (Using Neutron CLI).
860 ${rc} ${output}= Run And Return Rc And Output ${L2GW_GET_CONN_YAML}
861 Should Not Be True ${rc}
866 [Documentation] Keyword to check if the ${gw_id} is available in the L2 Gateway list (Using Neutron CLI).
867 ${rc} ${output}= Run And Return Rc And Output ${L2GW_SHOW} ${gw_id}
869 Should Not Be True ${rc}
873 [Arguments] ${l2gw_name}
874 [Documentation] Keyword to retrieve the L2 Gateway ID for the ${l2gw_name} (Using Neutron CLI).
875 ${rc} ${output}= Run And Return Rc And Output ${L2GW_GET} | grep "${l2gw_name}" | awk '{print $2}'
877 Should Not Be True ${rc}
878 ${splitted_output}= Split String ${output} ${EMPTY}
879 ${l2gw_id}= Get from List ${splitted_output} 0
883 Get L2gw Connection Id
884 [Arguments] ${l2gw_name}
885 [Documentation] Keyword to retrieve the L2 Gateway Connection ID for the ${l2gw_name} (Using Neutron CLI).
886 ${l2gw_id}= OpenStackOperations.Get L2gw Id ${l2gw_name}
887 ${rc} ${output}= Run And Return Rc And Output ${L2GW_GET_CONN} | grep "${l2gw_id}" | awk '{print $2}'
889 Should Not Be True ${rc}
890 ${splitted_output}= Split String ${output} ${EMPTY}
891 ${splitted_output}= Split String ${output} ${EMPTY}
892 ${l2gw_conn_id}= Get from List ${splitted_output} 0
894 [Return] ${l2gw_conn_id}
896 Neutron Port List Rest
897 [Documentation] Keyword to get all ports details in Neutron (Using REST).
898 ${resp} = RequestsLibrary.Get Request session ${PORT_URL}
900 Should Be Equal As Strings ${resp.status_code} 200
901 [Return] ${resp.content}
903 Get Neutron Port Rest
904 [Arguments] ${port_id}
905 [Documentation] Keyword to get the specific port details in Neutron (Using REST).
906 ${resp} = RequestsLibrary.Get Request session ${CONFIG_API}/${GET_PORT_URL}/${port_id}
908 Should Be Equal As Strings ${resp.status_code} 200
909 [Return] ${resp.content}
912 [Arguments] ${port_id} ${json_data}
913 [Documentation] Keyword to update ${port_id} with json data received in ${json_data} (Using REST).
915 ${resp} = RequestsLibrary.Put Request session ${CONFIG_API}/${GET_PORT_URL}/${port_id} ${json_data}
917 Should Be Equal As Strings ${resp.status_code} 200
918 [Return] ${resp.content}
920 Create And Configure Security Group
921 [Arguments] ${sg-name}
922 [Documentation] Create Security Group with given name, and default allow rules for TCP/UDP/ICMP protocols.
923 Neutron Security Group Create ${sg-name}
924 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
925 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
926 Neutron Security Group Rule Create ${sg-name} direction=ingress protocol=icmp remote_ip_prefix=0.0.0.0/0
927 Neutron Security Group Rule Create ${sg-name} direction=egress protocol=icmp remote_ip_prefix=0.0.0.0/0
928 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
929 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
931 Add Security Group To VM
932 [Arguments] ${vm} ${sg}
933 [Documentation] Add the security group provided to the given VM.
934 ${rc} ${output}= Run And Return Rc And Output openstack server add security group ${vm} ${sg}
936 Should Not Be True ${rc}
938 Create SFC Flow Classifier
939 [Arguments] ${name} ${src_ip} ${dest_ip} ${protocol} ${dest_port} ${neutron_src_port}
940 [Documentation] Create a flow classifier for SFC
941 ${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}
943 ${rc} ${output}= Run And Return Rc And Output ${cmd}
945 Should Not Be True ${rc}
946 Should Contain ${output} Created a new flow_classifier
949 Delete SFC Flow Classifier
951 [Documentation] Delete a SFC flow classifier
952 ${devstack_conn_id}= Get ControlNode Connection
953 Switch Connection ${devstack_conn_id}
954 ${cmd}= Set Variable neutron flow-classifier-delete ${name}
956 ${rc} ${output}= Run And Return Rc And Output ${cmd}
958 Should Not Be True ${rc}
959 Should Contain ${output} Deleted flow_classifier
963 [Arguments] ${name} ${port_in} ${port_out}
964 [Documentation] Creates a neutron port pair for SFC
965 ${devstack_conn_id}= Get ControlNode Connection
966 Switch Connection ${devstack_conn_id}
967 ${cmd}= Set Variable neutron port-pair-create --ingress=${port_in} --egress=${port_out} ${name}
969 ${rc} ${output}= Run And Return Rc And Output ${cmd}
971 Should Not Be True ${rc}
972 Should Contain ${output} Created a new port_pair
977 [Documentation] Delete a SFC port pair
978 ${cmd}= Set Variable neutron port-pair-delete ${name}
980 ${rc} ${output}= Run And Return Rc And Output ${cmd}
982 Should Not Be True ${rc}
983 Should Contain ${output} Deleted port_pair
986 Create SFC Port Pair Group
987 [Arguments] ${name} ${port_pair}
988 [Documentation] Creates a port pair group with a single port pair for SFC
989 ${cmd}= Set Variable neutron port-pair-group-create --port-pair ${port_pair} ${name}
991 ${rc} ${output}= Run And Return Rc And Output ${cmd}
993 Should Not Be True ${rc}
994 Should Contain ${output} Created a new port_pair_group
997 Create SFC Port Pair Group With Two Pairs
998 [Arguments] ${name} ${port_pair1} ${port_pair2}
999 [Documentation] Creates a port pair group with two port pairs for SFC
1000 ${cmd}= Set Variable neutron port-pair-group-create --port-pair ${port_pair1} --port-pair ${port_pair2} ${name}
1002 ${rc} ${output}= Run And Return Rc And Output ${cmd}
1004 Should Not Be True ${rc}
1005 Should Contain ${output} Created a new port_pair_group
1008 Delete SFC Port Pair Group
1010 [Documentation] Delete a SFC port pair group
1011 ${devstack_conn_id}= Get ControlNode Connection
1012 ${cmd}= Set Variable neutron port-pair-group-delete ${name}
1014 ${rc} ${output}= Run And Return Rc And Output ${cmd}
1016 Should Not Be True ${rc}
1017 Should Contain ${output} Deleted port_pair_group
1020 Create SFC Port Chain
1021 [Arguments] ${name} ${pg1} ${pg2} ${fc}
1022 [Documentation] Creates a port pair chain with two port groups and a singel classifier.
1023 ${cmd}= Set Variable neutron port-chain-create --port-pair-group ${pg1} --port-pair-group ${pg2} --flow-classifier ${fc} ${name}
1025 ${rc} ${output}= Run And Return Rc And Output ${cmd}
1027 Should Not Be True ${rc}
1028 Should Contain ${output} Created a new port_chain
1031 Delete SFC Port Chain
1033 [Documentation] Delete a SFC port chain
1034 ${cmd}= Set Variable neutron port-chain-delete ${name}
1036 ${rc} ${output}= Run And Return Rc And Output ${cmd}
1038 Should Not Be True ${rc}
1039 Should Contain ${output} Deleted port_chain
1043 [Arguments] ${vm_name}
1044 [Documentation] Reboot NOVA VM
1045 ${rc} ${output}= Run And Return Rc And Output openstack server reboot --wait ${vm_name}
1047 Should Not Be True ${rc}
1048 Wait Until Keyword Succeeds 35s 10s Verify VM Is ACTIVE ${vm_name}
1050 Remove RSA Key From KnowHosts
1051 [Arguments] ${vm_ip}
1052 [Documentation] Remove RSA
1053 ${devstack_conn_id}= Get ControlNode Connection
1054 Switch Connection ${devstack_conn_id}
1055 ${output}= Write Commands Until Prompt sudo cat /root/.ssh/known_hosts 30s
1057 ${output}= Write Commands Until Prompt sudo ssh-keygen -f "/root/.ssh/known_hosts" -R ${vm_ip} 30s
1059 ${output}= Write Commands Until Prompt sudo cat "/root/.ssh/known_hosts" 30s
1061 Wait For Routes To Propogate
1062 [Arguments] ${networks} ${subnets}
1063 [Documentation] Check propagated routes
1064 ${devstack_conn_id} = Get ControlNode Connection
1065 Switch Connection ${devstack_conn_id}
1066 : FOR ${INDEX} IN RANGE 0 1
1067 \ ${net_id}= Get Net Id @{networks}[${INDEX}] ${devstack_conn_id}
1068 \ ${is_ipv6}= Get Regexp Matches @{subnets}[${INDEX}] ${IP6_REGEX}
1069 \ ${length}= Get Length ${is_ipv6}
1070 \ ${cmd}= Set Variable If ${length} == 0 ip route ip -6 route
1071 \ ${output}= Write Commands Until Expected Prompt sudo ip netns exec qdhcp-${net_id} ${cmd} ]>
1072 \ Should Contain ${output} @{subnets}[${INDEX}]