diff options
Diffstat (limited to 'docs/testing/user')
10 files changed, 2519 insertions, 608 deletions
diff --git a/docs/testing/user/testspecification/highavailability/index.rst b/docs/testing/user/testspecification/highavailability/index.rst index e69de29b..715f84d0 100644 --- a/docs/testing/user/testspecification/highavailability/index.rst +++ b/docs/testing/user/testspecification/highavailability/index.rst @@ -0,0 +1,743 @@ +.. This work is licensed under a Creative Commons Attribution 4.0 International +.. License. +.. http://creativecommons.org/licenses/by/4.0 +.. (c) OPNFV, China Mobile and others. + +========================================== +OpenStack Services HA test specification +========================================== + +.. toctree:: +:maxdepth: + +Scope +===== + +The HA test area evaluates the ability of the System Under Test to support service +continuity and recovery from component failures on part of OpenStack controller services("nova-api", +"neutron-server", "keystone", "glance-api", "cinder-api") and on "load balancer" service. + +The tests in this test area will emulate component failures by killing the +processes of above target services, stressing the CPU load or blocking +disk I/O on the selected controller node, and then check if the impacted +services are still available and the killed processes are recovered on the +selected controller node within a given time interval. + + +References +================ + +This test area references the following specifications: + +- ETSI GS NFV-REL 001 + + - http://www.etsi.org/deliver/etsi_gs/NFV-REL/001_099/001/01.01.01_60/gs_nfv-rel001v010101p.pdf + +- OpenStack High Availability Guide + + - https://docs.openstack.org/ha-guide/ + + +Definitions and abbreviations +============================= + +The following terms and abbreviations are used in conjunction with this test area + +- SUT - system under test +- Monitor - tools used to measure the service outage time and the process + outage time +- Service outage time - the outage time (seconds) of the specific OpenStack + service +- Process outage time - the outage time (seconds) from the specific processes + being killed to recovered + + +System Under Test (SUT) +======================= + +The system under test is assumed to be the NFVi and VIM in operation on a +Pharos compliant infrastructure. + +SUT is assumed to be in high availability configuration, which typically means +more than one controller nodes are in the System Under Test. + +Test Area Structure +==================== + +The HA test area is structured with the following test cases in a sequential +manner. + +Each test case is able to run independently. Preceding test case's failure will +not affect the subsequent test cases. + +Preconditions of each test case will be described in the following test +descriptions. + + +Test Descriptions +================= + +--------------------------------------------------------------- +Test Case 1 - Controller node OpenStack service down - nova-api +--------------------------------------------------------------- + +Short name +---------- + +opnfv.ha.tc001.nova-api_service_down + +Use case specification +---------------------- + +This test case verifies the service continuity capability in the face of the +software process failure. It kills the processes of OpenStack "nova-api" +service on the selected controller node, then checks whether the "nova-api" +service is still available during the failure, by creating a VM then deleting +the VM, and checks whether the killed processes are recovered within a given +time interval. + + +Test preconditions +------------------ + +There is more than one controller node, which is providing the "nova-api" +service for API end-point. +Denoted a controller node as Node1 in the following configuration. + + +Basic test flow execution description and pass/fail criteria +------------------------------------------------------------ + +Methodology for verifying service continuity and recovery +''''''''''''''''''''''''''''''''''''''''''''''''''''''''' + +The service continuity and process recovery capabilities of "nova-api" service +is evaluated by monitoring service outage time, process outage time, and results +of nova operations. + +Service outage time is measured by continuously executing "openstack server list" +command in loop and checking if the response of the command request is returned +with no failure. +When the response fails, the "nova-api" service is considered in outage. +The time between the first response failure and the last response failure is +considered as service outage time. + +Process outage time is measured by checking the status of "nova-api" processes on +the selected controller node. The time of "nova-api" processes being killed to +the time of the "nova-api" processes being recovered is the process outage time. +Process recovery is verified by checking the existence of "nova-api" processes. + +All nova operations are carried out correctly within a given time interval which +suggests that the "nova-api" service is continuously available. + +Test execution +'''''''''''''' +* Test action 1: Connect to Node1 through SSH, and check that "nova-api" + processes are running on Node1 +* Test action 2: Create a image with "openstack image create test-cirros + --file cirros-0.3.5-x86_64-disk.img --disk-format qcow2 --container-format bare" +* Test action 3: Execute"openstack flavor create m1.test --id auto --ram 512 + --disk 1 --vcpus 1" to create flavor "m1.test". +* Test action 4: Start two monitors: one for "nova-api" processes and the other + for "openstack server list" command. + Each monitor will run as an independent process +* Test action 5: Connect to Node1 through SSH, and then kill the "nova-api" + processes +* Test action 6: When "openstack server list" returns with no error, calculate + the service outage time, and execute command "openstack server create + --flavor m1.test --image test-cirros test-instance" +* Test action 7: Continuously Execute "openstack server show test-instance" + to check if the status of VM "test-instance" is "Active" +* Test action 8: If VM "test-instance" is "Active", execute "openstack server + delete test-instance", then execute "openstack server list" to check if the + VM is not in the list +* Test action 9: Continuously measure process outage time from the monitor until + the process outage time is more than 30s + +Pass / fail criteria +'''''''''''''''''''' + +The process outage time is less than 30s. + +The service outage time is less than 5s. + +The nova operations are carried out in above order and no errors occur. + +A negative result will be generated if the above is not met in completion. + +Post conditions +--------------- + +Restart the process of "nova-api" if they are not running. +Delete image with "openstack image delete test-cirros" +Delete flavor with "openstack flavor delete m1.test" + + +--------------------------------------------------------------------- +Test Case 2 - Controller node OpenStack service down - neutron-server +--------------------------------------------------------------------- + +Short name +---------- + +opnfv.ha.tc002.neutron-server_service_down + +Use case specification +---------------------- + +This test verifies the high availability of the "neutron-server" service +provided by OpenStack controller nodes. It kills the processes of OpenStack +"neutron-server" service on the selected controller node, then checks whether +the "neutron-server" service is still available, by creating a network and +deleting the network, and checks whether the killed processes are recovered. + +Test preconditions +------------------ + +There is more than one controller node, which is providing the "neutron-server" +service for API end-point. +Denoted a controller node as Node1 in the following configuration. + +Basic test flow execution description and pass/fail criteria +------------------------------------------------------------ + +Methodology for monitoring high availability +'''''''''''''''''''''''''''''''''''''''''''' + +The high availability of "neutron-server" service is evaluated by monitoring +service outage time, process outage time, and results of neutron operations. + +Service outage time is tested by continuously executing "openstack router list" +command in loop and checking if the response of the command request is returned +with no failure. +When the response fails, the "neutron-server" service is considered in outage. +The time between the first response failure and the last response failure is +considered as service outage time. + +Process outage time is tested by checking the status of "neutron-server" +processes on the selected controller node. The time of "neutron-server" +processes being killed to the time of the "neutron-server" processes being +recovered is the process outage time. Process recovery is verified by checking +the existence of "neutron-server" processes. + +Test execution +'''''''''''''' + +* Test action 1: Connect to Node1 through SSH, and check that "neutron-server" + processes are running on Node1 +* Test action 2: Start two monitors: one for "neutron-server" process and the + other for "openstack router list" command. + Each monitor will run as an independent process. +* Test action 3: Connect to Node1 through SSH, and then kill the + "neutron-server" processes +* Test action 4: When "openstack router list" returns with no error, calculate + the service outage time, and execute "openstack network create test-network" +* Test action 5: Continuously executing "openstack network show test-network", + check if the status of "test-network" is "Active" +* Test action 6: If "test-network" is "Active", execute "openstack network + delete test-network", then execute "openstack network list" to check if the + "test-network" is not in the list +* Test action 7: Continuously measure process outage time from the monitor until + the process outage time is more than 30s + +Pass / fail criteria +'''''''''''''''''''' + +The process outage time is less than 30s. + +The service outage time is less than 5s. + +The neutron operations are carried out in above order and no errors occur. + +A negative result will be generated if the above is not met in completion. + +Post conditions +--------------- + +Restart the processes of "neutron-server" if they are not running. + + +--------------------------------------------------------------- +Test Case 3 - Controller node OpenStack service down - keystone +--------------------------------------------------------------- + +Short name +---------- + +opnfv.ha.tc003.keystone_service_down + +Use case specification +---------------------- + +This test verifies the high availability of the "keystone" service provided by +OpenStack controller nodes. It kills the processes of OpenStack "keystone" +service on the selected controller node, then checks whether the "keystone" +service is still available by executing command "openstack user list" and +whether the killed processes are recovered. + +Test preconditions +------------------ + +There is more than one controller node, which is providing the "keystone" +service for API end-point. +Denoted a controller node as Node1 in the following configuration. + +Basic test flow execution description and pass/fail criteria +------------------------------------------------------------ + +Methodology for monitoring high availability +'''''''''''''''''''''''''''''''''''''''''''' + +The high availability of "keystone" service is evaluated by monitoring service +outage time and process outage time + +Service outage time is tested by continuously executing "openstack user list" +command in loop and checking if the response of the command request is reutrned +with no failure. +When the response fails, the "keystone" service is considered in outage. +The time between the first response failure and the last response failure is +considered as service outage time. + +Process outage time is tested by checking the status of "keystone" processes on +the selected controller node. The time of "keystone" processes being killed to +the time of the "keystone" processes being recovered is the process outage +time. Process recovery is verified by checking the existence of "keystone" +processes. + +Test execution +'''''''''''''' + +* Test action 1: Connect to Node1 through SSH, and check that "keystone" + processes are running on Node1 +* Test action 2: Start two monitors: one for "keystone" process and the other + for "openstack user list" command. + Each monitor will run as an independent process. +* Test action 3: Connect to Node1 through SSH, and then kill the "keystone" + processes +* Test action 4: Calculate the service outage time and process outage time +* Test action 5: The test passes if process outage time is less than 20s and + service outage time is less than 5s +* Test action 6: Continuously measure process outage time from the monitor until + the process outage time is more than 30s + +Pass / fail criteria +'''''''''''''''''''' + +The process outage time is less than 30s. + +The service outage time is less than 5s. + +A negative result will be generated if the above is not met in completion. + +Post conditions +--------------- + +Restart the processes of "keystone" if they are not running. + + +----------------------------------------------------------------- +Test Case 4 - Controller node OpenStack service down - glance-api +----------------------------------------------------------------- + +Short name +---------- + +opnfv.ha.tc004.glance-api_service_down + +Use case specification +---------------------- + +This test verifies the high availability of the "glance-api" service provided +by OpenStack controller nodes. It kills the processes of OpenStack "glance-api" +service on the selected controller node, then checks whether the "glance-api" +service is still available, by creating image and deleting image, and checks +whether the killed processes are recovered. + +Test preconditions +------------------ + +There is more than one controller node, which is providing the "glance-api" +service for API end-point. +Denoted a controller node as Node1 in the following configuration. + + +Basic test flow execution description and pass/fail criteria +------------------------------------------------------------ + +Methodology for monitoring high availability +'''''''''''''''''''''''''''''''''''''''''''' + +The high availability of "glance-api" service is evaluated by monitoring +service outage time, process outage time, and results of glance operations. + +Service outage time is tested by continuously executing "openstack image list" +command in loop and checking if the response of the command request is returned +with no failure. +When the response fails, the "glance-api" service is considered in outage. +The time between the first response failure and the last response failure is +considered as service outage time. + +Process outage time is tested by checking the status of "glance-api" processes +on the selected controller node. The time of "glance-api" processes being +killed to the time of the "glance-api" processes being recovered is the process +outage time. Process recovery is verified by checking the existence of +"glance-api" processes. + +Test execution +'''''''''''''' + +* Test action 1: Connect to Node1 through SSH, and check that "glance-api" + processes are running on Node1 +* Test action 2: Start two monitors: one for "glance-api" process and the other + for "openstack image list" command. + Each monitor will run as an independent process. +* Test action 3: Connect to Node1 through SSH, and then kill the "glance-api" + processes +* Test action 4: When "openstack image list" returns with no error, calculate + the service outage time, and execute "openstack image create test-image + --file cirros-0.3.5-x86_64-disk.img --disk-format qcow2 --container-format bare" +* Test action 5: Continuously execute "openstack image show test-image", check + if status of "test-image" is "active" +* Test action 6: If "test-image" is "active", execute "openstack image delete + test-image". Then execute "openstack image list" to check if "test-image" is + not in the list +* Test action 7: Continuously measure process outage time from the monitor until + the process outage time is more than 30s + +Pass / fail criteria +'''''''''''''''''''' + +The process outage time is less than 30s. + +The service outage time is less than 5s. + +The glance operations are carried out in above order and no errors occur. + +A negative result will be generated if the above is not met in completion. + +Post conditions +--------------- + +Restart the processes of "glance-api" if they are not running. + +Delete image with "openstack image delete test-image". + + +----------------------------------------------------------------- +Test Case 5 - Controller node OpenStack service down - cinder-api +----------------------------------------------------------------- + +Short name +---------- + +opnfv.ha.tc005.cinder-api_service_down + +Use case specification +---------------------- + +This test verifies the high availability of the "cinder-api" service provided +by OpenStack controller nodes. It kills the processes of OpenStack "cinder-api" +service on the selected controller node, then checks whether the "cinder-api" +service is still available by executing command "openstack volume list" and +whether the killed processes are recovered. + +Test preconditions +------------------ + +There is more than one controller node, which is providing the "cinder-api" +service for API end-point. +Denoted a controller node as Node1 in the following configuration. + +Basic test flow execution description and pass/fail criteria +------------------------------------------------------------ + +Methodology for monitoring high availability +'''''''''''''''''''''''''''''''''''''''''''' + +The high availability of "cinder-api" service is evaluated by monitoring +service outage time and process outage time + +Service outage time is tested by continuously executing "openstack volume list" +command in loop and checking if the response of the command request is returned +with no failure. +When the response fails, the "cinder-api" service is considered in outage. +The time between the first response failure and the last response failure is +considered as service outage time. + +Process outage time is tested by checking the status of "cinder-api" processes +on the selected controller node. The time of "cinder-api" processes being +killed to the time of the "cinder-api" processes being recovered is the process +outage time. Process recovery is verified by checking the existence of +"cinder-api" processes. + +Test execution +'''''''''''''' + +* Test action 1: Connect to Node1 through SSH, and check that "cinder-api" + processes are running on Node1 +* Test action 2: Start two monitors: one for "cinder-api" process and the other + for "openstack volume list" command. + Each monitor will run as an independent process. +* Test action 3: Connect to Node1 through SSH, and then execute kill the + "cinder-api" processes +* Test action 4: Continuously measure service outage time from the monitor until + the service outage time is more than 5s +* Test action 5: Continuously measure process outage time from the monitor until + the process outage time is more than 30s + +Pass / fail criteria +'''''''''''''''''''' + +The process outage time is less than 30s. + +The service outage time is less than 5s. + +The cinder operations are carried out in above order and no errors occur. + +A negative result will be generated if the above is not met in completion. + +Post conditions +--------------- + +Restart the processes of "cinder-api" if they are not running. + + +------------------------------------------------------------ +Test Case 6 - Controller Node CPU Overload High Availability +------------------------------------------------------------ + +Short name +---------- + +opnfv.ha.tc006.cpu_overload + +Use case specification +---------------------- + +This test verifies the availability of services when one of the controller node +suffers from heavy CPU overload. When the CPU usage of the specified controller +node is up to 100%, which breaks down the OpenStack services on this node, +the Openstack services should continue to be available. This test case stresses +the CPU usage of a specific controller node to 100%, then checks whether all +services provided by the SUT are still available with the monitor tools. + +Test preconditions +------------------ + +There is more than one controller node, which is providing the "cinder-api", +"neutron-server", "glance-api" and "keystone" services for API end-point. +Denoted a controller node as Node1 in the following configuration. + +Basic test flow execution description and pass/fail criteria +------------------------------------------------------------ + +Methodology for monitoring high availability +'''''''''''''''''''''''''''''''''''''''''''' + +The high availability of related OpenStack service is evaluated by monitoring service +outage time + +Service outage time is tested by continuously executing "openstack router list", +"openstack stack list", "openstack volume list", "openstack image list" commands +in loop and checking if the response of the command request is returned with no +failure. +When the response fails, the related service is considered in outage. The time +between the first response failure and the last response failure is considered +as service outage time. + + +Methodology for stressing CPU usage +''''''''''''''''''''''''''''''''''' + +To evaluate the high availability of target OpenStack service under heavy CPU +load, the test case will first get the number of logical CPU cores on the +target controller node by shell command, then use the number to execute 'dd' +command to continuously copy from /dev/zero and output to /dev/null in loop. +The 'dd' operation only uses CPU, no I/O operation, which is ideal for +stressing the CPU usage. + +Since the 'dd' command is continuously executed and the CPU usage rate is +stressed to 100%, the scheduler will schedule each 'dd' command to be +processed on a different logical CPU core. Eventually to achieve all logical +CPU cores usage rate to 100%. + +Test execution +'''''''''''''' + +* Test action 1: Start four monitors: one for "openstack image list" command, + one for "openstack router list" command, one for "openstack stack list" + command and the last one for "openstack volume list" command. Each monitor + will run as an independent process. +* Test action 2: Connect to Node1 through SSH, and then stress all logical CPU + cores usage rate to 100% +* Test action 3: Continuously measure all the service outage times until they are + more than 5s +* Test action 4: Kill the process that stresses the CPU usage + +Pass / fail criteria +'''''''''''''''''''' + +All the service outage times are less than 5s. + +A negative result will be generated if the above is not met in completion. + +Post conditions +--------------- + +No impact on the SUT. + + +----------------------------------------------------------------- +Test Case 7 - Controller Node Disk I/O Overload High Availability +----------------------------------------------------------------- + +Short name +---------- + +opnfv.ha.tc007.disk_I/O_overload + +Use case specification +---------------------- + +This test verifies the high availability of control node. When the disk I/O of +the specific disk is overload, which breaks down the OpenStack services on this +node, the read and write services should continue to be available. This test +case blocks the disk I/O of the specific controller node, then checks whether +the services that need to read or write the disk of the controller node are +available with some monitor tools. + +Test preconditions +------------------ + +There is more than one controller node. +Denoted a controller node as Node1 in the following configuration. +The controller node has at least 20GB free disk space. + +Basic test flow execution description and pass/fail criteria +------------------------------------------------------------ + +Methodology for monitoring high availability +'''''''''''''''''''''''''''''''''''''''''''' + +The high availability of nova service is evaluated by monitoring +service outage time + +Service availability is tested by continuously executing +"openstack flavor list" command in loop and checking if the response of the +command request is returned with no failure. +When the response fails, the related service is considered in outage. + + +Methodology for stressing disk I/O +'''''''''''''''''''''''''''''''''' + +To evaluate the high availability of target OpenStack service under heavy I/O +load, the test case will execute shell command on the selected controller node +to continuously writing 8kb blocks to /test.dbf + +Test execution +'''''''''''''' + +* Test action 1: Connect to Node1 through SSH, and then stress disk I/O by + continuously writing 8kb blocks to /test.dbf +* Test action 2: Start a monitor: for "openstack flavor list" command +* Test action 3: Create a flavor called "test-001" +* Test action 4: Check whether the flavor "test-001" is created +* Test action 5: Continuously measure service outage time from the monitor + until the service outage time is more than 5s +* Test action 6: Stop writing to /test.dbf and delete file /test.dbf + +Pass / fail criteria +'''''''''''''''''''' + +The service outage time is less than 5s. + +The nova operations are carried out in above order and no errors occur. + +A negative result will be generated if the above is not met in completion. + +Post conditions +--------------- + +Delete flavor with "openstack flavor delete test-001". + +-------------------------------------------------------------------- +Test Case 8 - Controller Load Balance as a Service High Availability +-------------------------------------------------------------------- + +Short name +---------- + +opnfv.ha.tc008.load_balance_service_down + +Use case specification +---------------------- + +This test verifies the high availability of "load balancer" service. When +the "load balancer" service of a specified controller node is killed, whether +"load balancer" service on other controller nodes will work, and whether the +controller node will restart the "load balancer" service are checked. This +test case kills the processes of "load balancer" service on the selected +controller node, then checks whether the request of the related OpenStack +command is processed with no failure and whether the killed processes are +recovered. + +Test preconditions +------------------ + +There is more than one controller node, which is providing the "load balancer" +service for rest-api. Denoted as Node1 in the following configuration. + +Basic test flow execution description and pass/fail criteria +------------------------------------------------------------ + +Methodology for monitoring high availability +'''''''''''''''''''''''''''''''''''''''''''' + +The high availability of "load balancer" service is evaluated by monitoring +service outage time and process outage time + +Service outage time is tested by continuously executing "openstack image list" +command in loop and checking if the response of the command request is returned +with no failure. +When the response fails, the "load balancer" service is considered in outage. +The time between the first response failure and the last response failure is +considered as service outage time. + +Process outage time is tested by checking the status of processes of "load +balancer" service on the selected controller node. The time of those processes +being killed to the time of those processes being recovered is the process +outage time. +Process recovery is verified by checking the existence of processes of "load +balancer" service. + +Test execution +'''''''''''''' + +* Test action 1: Connect to Node1 through SSH, and check that processes of + "load balancer" service are running on Node1 +* Test action 2: Start two monitors: one for processes of "load balancer" + service and the other for "openstack image list" command. Each monitor will + run as an independent process +* Test action 3: Connect to Node1 through SSH, and then kill the processes of + "load balancer" service +* Test action 4: Continuously measure service outage time from the monitor until + the service outage time is more than 5s +* Test action 5: Continuously measure process outage time from the monitor until + the process outage time is more than 30s + +Pass / fail criteria +'''''''''''''''''''' + +The process outage time is less than 30s. + +The service outage time is less than 5s. + +A negative result will be generated if the above is not met in completion. + +Post conditions +--------------- +Restart the processes of "load balancer" if they are not running. + + + diff --git a/docs/testing/user/testspecification/ipv6/index.rst b/docs/testing/user/testspecification/ipv6/index.rst new file mode 100644 index 00000000..674c69d8 --- /dev/null +++ b/docs/testing/user/testspecification/ipv6/index.rst @@ -0,0 +1,1776 @@ +.. This work is licensed under a Creative Commons Attribution 4.0 International License. +.. http://creativecommons.org/licenses/by/4.0 +.. (c) OPNFV + +======================== +IPv6 test specification +======================== + +.. toctree:: + :maxdepth: 2 + +Scope +===== + +The IPv6 test area will evaluate the ability for a SUT to support IPv6 +Tenant Network features and functionality. The tests in this test area will +evaluate, + +- network, subnet, port, router API CRUD operations +- interface add and remove operations +- security group and security group rule API CRUD operations +- IPv6 address assignment with dual stack, dual net, multiprefix in mode DHCPv6 stateless or SLAAC + +References +================ + +- upstream openstack API reference + + - http://developer.openstack.org/api-ref + +- upstream openstack IPv6 reference + + - https://docs.openstack.org/newton/networking-guide/config-ipv6.html + +Definitions and abbreviations +============================= + +The following terms and abbreviations are used in conjunction with this test area + +- API - Application Programming Interface +- CIDR - Classless Inter-Domain Routing +- CRUD - Create, Read, Update, and Delete +- DHCP - Dynamic Host Configuration Protocol +- DHCPv6 - Dynamic Host Configuration Protocol version 6 +- ICMP - Internet Control Message Protocol +- NFVI - Network Functions Virtualization Infrastructure +- NIC - Network Interface Controller +- RA - Router Advertisements +- radvd - The Router Advertisement Daemon +- SDN - Software Defined Network +- SLAAC - Stateless Address Auto Configuration +- TCP - Transmission Control Protocol +- UDP - User Datagram Protocol +- VM - Virtual Machine +- vNIC - virtual Network Interface Card + +System Under Test (SUT) +======================= + +The system under test is assumed to be the NFVI and VIM deployed with a Pharos compliant infrastructure. + +Test Area Structure +==================== + +The test area is structured based on network, port and subnet operations. Each test case +is able to run independently, i.e. irrelevant of the state created by a previous test. + +Test Descriptions +================= + +API Used and Reference +---------------------- + +Networks: https://developer.openstack.org/api-ref/networking/v2/index.html#networks + +- show network details +- update network +- delete network +- list networks +- create netowrk +- bulk create networks + +Subnets: https://developer.openstack.org/api-ref/networking/v2/index.html#subnets + +- list subnets +- create subnet +- bulk create subnet +- show subnet details +- update subnet +- delete subnet + +Routers and interface: https://developer.openstack.org/api-ref/networking/v2/index.html#routers-routers + +- list routers +- create router +- show router details +- update router +- delete router +- add interface to router +- remove interface from router + +Ports: https://developer.openstack.org/api-ref/networking/v2/index.html#ports + +- show port details +- update port +- delete port +- list port +- create port +- bulk create ports + +Security groups: https://developer.openstack.org/api-ref/networking/v2/index.html#security-groups-security-groups + +- list security groups +- create security groups +- show security group +- update security group +- delete security group + +Security groups rules: https://developer.openstack.org/api-ref/networking/v2/index.html#security-group-rules-security-group-rules + +- list security group rules +- create security group rule +- show security group rule +- delete security group rule + +Servers: https://developer.openstack.org/api-ref/compute/ + +- list servers +- create server +- create multiple servers +- list servers detailed +- show server details +- update server +- delete server + +------------------------------------------------------------------ +Test Case 1 - Create and Delete Bulk Network, IPv6 Subnet and Port +------------------------------------------------------------------ + +Short name +---------- + +opnfv.ipv6.bulk_network_subnet_port_create_delete + +Use case specification +---------------------- + +This test case evaluates the SUT API ability of creating and deleting multiple networks, +IPv6 subnets, ports in one request, the reference is, + +tempest.api.network.test_networks.BulkNetworkOpsIpV6Test.test_bulk_create_delete_network +tempest.api.network.test_networks.BulkNetworkOpsIpV6Test.test_bulk_create_delete_subnet +tempest.api.network.test_networks.BulkNetworkOpsIpV6Test.test_bulk_create_delete_port + +Test preconditions +------------------ + +None + +Basic test flow execution description and pass/fail criteria +------------------------------------------------------------ + +Test execution +''''''''''''''' + +* Test action 1: Create 2 networks using bulk create, storing the "id" parameters returned in the response +* Test action 2: List all networks, verifying the two network id's are found in the list +* **Test assertion 1:** The two "id" parameters are found in the network list +* Test action 3: Delete the 2 created networks using the stored network ids +* Test action 4: List all networks, verifying the network ids are no longer present +* **Test assertion 2:** The two "id" parameters are not present in the network list +* Test action 5: Create 2 networks using bulk create, storing the "id" parameters returned in the response +* Test action 6: Create an IPv6 subnets on each of the two networks using bulk create commands, + storing the associated "id" parameters +* Test action 7: List all subnets, verify the IPv6 subnets are found in the list +* **Test assertion 3:** The two IPv6 subnet "id" parameters are found in the network list +* Test action 8: Delete the 2 IPv6 subnets using the stored "id" parameters +* Test action 9: List all subnets, verify the IPv6 subnets are no longer present in the list +* **Test assertion 4:** The two IPv6 subnet "id" parameters, are not present in list +* Test action 10: Delete the 2 networks created in test action 5, using the stored network ids +* Test action 11: List all networks, verifying the network ids are no longer present +* **Test assertion 5:** The two "id" parameters are not present in the network list +* Test action 12: Create 2 networks using bulk create, storing the "id" parameters returned in the response +* Test action 13: Create a port on each of the two networks using bulk create commands, + storing the associated "port_id" parameters +* Test action 14: List all ports, verify the port_ids are found in the list +* **Test assertion 6:** The two "port_id" parameters are found in the ports list +* Test action 15: Delete the 2 ports using the stored "port_id" parameters +* Test action 16: List all ports, verify port_ids are no longer present in the list +* **Test assertion 7:** The two "port_id" parameters, are not present in list +* Test action 17: Delete the 2 networks created in test action 12, using the stored network ids +* Test action 18: List all networks, verifying the network ids are no longer present +* **Test assertion 8:** The two "id" parameters are not present in the network list + +Pass / fail criteria +''''''''''''''''''''' + +This test evaluates the ability to use bulk create commands to create networks, IPv6 subnets and ports on +the SUT API. Specifically it verifies that: + +* Bulk network create commands return valid "id" parameters which are reported in the list commands +* Bulk IPv6 subnet commands return valid "id" parameters which are reported in the list commands +* Bulk port commands return valid "port_id" parameters which are reported in the list commands +* All items created using bulk create commands are able to be removed using the returned identifiers + +Post conditions +--------------- + +N/A + +------------------------------------------------------------------- +Test Case 2 - Create, Update and Delete an IPv6 Network and Subnet +------------------------------------------------------------------- + +Short name +----------- + +opnfv.ipv6.network_subnet_create_update_delete + +Use case specification +---------------------- + +This test case evaluates the SUT API ability of creating, updating, deleting +network and IPv6 subnet with the network, the reference is + +tempest.api.network.test_networks.NetworksIpV6Test.test_create_update_delete_network_subnet + +Test preconditions +------------------ + +None + +Basic test flow execution description and pass/fail criteria +------------------------------------------------------------ + +Test execution +''''''''''''''' + +* Test action 1: Create a network, storing the "id" and "status" parameters returned + in the response +* Test action 2: Verify the value of the created network's "status" is ACTIVE +* **Test assertion 1:** The created network's "status" is ACTIVE +* Test action 3: Update this network with a new_name +* Test action 4: Verify the network's name equals the new_name +* **Test assertion 2:** The network's name equals to the new_name after name updating +* Test action 5: Create an IPv6 subnet within the network, storing the "id" parameters + returned in the response +* Test action 6: Update this IPv6 subnet with a new_name +* Test action 7: Verify the IPv6 subnet's name equals the new_name +* **Test assertion 3:** The IPv6 subnet's name equals to the new_name after name updating +* Test action 8: Delete the IPv6 subnet created in test action 5, using the stored subnet id +* Test action 9: List all subnets, verifying the subnet id is no longer present +* **Test assertion 4:** The IPv6 subnet "id" is not present in the subnet list +* Test action 10: Delete the network created in test action 1, using the stored network id +* Test action 11: List all networks, verifying the network id is no longer present +* **Test assertion 5:** The network "id" is not present in the network list + + +Pass / fail criteria +''''''''''''''''''''' + +This test evaluates the ability to create, update, delete network, IPv6 subnet on the +SUT API. Specifically it verifies that: + +* Create network commands return ACTIVE "status" parameters which are reported in the list commands +* Update network commands return updated "name" parameters which equals to the "name" used +* Update subnet commands return updated "name" parameters which equals to the "name" used +* All items created using create commands are able to be removed using the returned identifiers + +Post conditions +--------------- + +None + +------------------------------------------------- +Test Case 3 - Check External Network Visibility +------------------------------------------------- + +Short name +----------- + +opnfv.ipv6.external_network_visibility + +Use case specification +---------------------- + +This test case verifies user can see external networks but not subnets, the reference is, + +tempest.api.network.test_networks.NetworksIpV6Test.test_external_network_visibility + +Test preconditions +------------------ + +1. The SUT has at least one external network. +2. In the external network list, there is no network without external router, i.e., +all networks in this list are with external router. +3. There is one external network with configured public network id and there is +no subnet on this network + +Basic test flow execution description and pass/fail criteria +------------------------------------------------------------ + +Test execution +''''''''''''''' + +* Test action 1: List all networks with external router, storing the "id"s parameters returned in the response +* Test action 2: Verify list in test action 1 is not empty +* **Test assertion 1:** The network with external router list is not empty +* Test action 3: List all netowrks without external router in test action 1 list +* Test action 4: Verify list in test action 3 is empty +* **Test assertion 2:** networks without external router in the external network + list is empty +* Test action 5: Verify the configured public network id is found in test action 1 stored "id"s +* **Test assertion 3:** the public network id is found in the external network "id"s +* Test action 6: List the subnets of the external network with the configured + public network id +* Test action 7: Verify list in test action 6 is empty +* **Test assertion 4:** There is no subnet of the external network with the configured + public network id + +Pass / fail criteria +''''''''''''''''''''' + +This test evaluates the ability to use list commands to list external networks, pre-configured +public network. Specifically it verifies that: + +* Network list commands to find visible networks with external router +* Network list commands to find visible network with pre-configured public network id +* Subnet list commands to find no subnet on the pre-configured public network + +Post conditions +--------------- + +None + +--------------------------------------------- +Test Case 4 - List IPv6 Networks and Subnets +--------------------------------------------- + +Short name +----------- + +opnfv.ipv6.network_subnet_list + +Use case specification +---------------------- + +This test case evaluates the SUT API ability of listing netowrks, +subnets after creating a network and an IPv6 subnet, the reference is + +tempest.api.network.test_networks.NetworksIpV6Test.test_list_networks +tempest.api.network.test_networks.NetworksIpV6Test.test_list_subnets + +Test preconditions +------------------ + +None + +Basic test flow execution description and pass/fail criteria +------------------------------------------------------------ + +Test execution +''''''''''''''' + +* Test action 1: Create a network, storing the "id" parameter returned in the response +* Test action 2: List all networks, verifying the network id is found in the list +* **Test assertion 1:** The "id" parameter is found in the network list +* Test action 3: Create an IPv6 subnet of the network created in test action 1. + storing the "id" parameter returned in the response +* Test action 4: List all subnets of this network, verifying the IPv6 subnet id + is found in the list +* **Test assertion 2:** The "id" parameter is found in the IPv6 subnet list +* Test action 5: Delete the IPv6 subnet using the stored "id" parameters +* Test action 6: List all subnets, verify subnet_id is no longer present in the list +* **Test assertion 3:** The IPv6 subnet "id" parameter is not present in list +* Test action 7: Delete the network created in test action 1, using the stored network ids +* Test action 8: List all networks, verifying the network id is no longer present +* **Test assertion 4:** The network "id" parameter is not present in the network list + +Pass / fail criteria +'''''''''''''''''''' + +This test evaluates the ability to use create commands to create network, IPv6 subnet, list +commands to list the created networks, IPv6 subnet on the SUT API. Specifically it verifies that: + +* Create commands to create network, IPv6 subnet +* List commands to find that netowrk, IPv6 subnet in the all networks, subnets list after creating +* All items created using create commands are able to be removed using the returned identifiers + +Post conditions +--------------- + +None + +------------------------------------------------------------- +Test Case 5 - Show Details of an IPv6 Network and Subnet +------------------------------------------------------------- + +Short name +---------- + +opnfv.ipv6.network_subnet_show + +Use case specification +---------------------- + +This test case evaluates the SUT API ability of showing the network, subnet +details, the reference is, + +tempest.api.network.test_networks.NetworksIpV6Test.test_show_network +tempest.api.network.test_networks.NetworksIpV6Test.test_show_subnet + +Test preconditions +------------------ + +None + +Basic test flow execution description and pass/fail criteria +------------------------------------------------------------ + +Test execution +''''''''''''''' + +* Test action 1: Create a network, storing the "id" and "name" parameter returned in the response +* Test action 2: Show the network id and name, verifying the network id and name equal to the + "id" and "name" stored in test action 1 +* **Test assertion 1:** The id and name equal to the "id" and "name" stored in test action 1 +* Test action 3: Create an IPv6 subnet of the network, storing the "id" and CIDR parameter + returned in the response +* Test action 4: Show the details of the created IPv6 subnet, verifying the + id and CIDR in the details are equal to the stored id and CIDR in test action 3. +* **Test assertion 2:** The "id" and CIDR in show details equal to "id" and CIDR stored in test action 3 +* Test action 5: Delete the IPv6 subnet using the stored "id" parameter +* Test action 6: List all subnets on the network, verify the IPv6 subnet id is no longer present in the list +* **Test assertion 3:** The IPv6 subnet "id" parameter is not present in list +* Test action 7: Delete the network created in test action 1, using the stored network id +* Test action 8: List all networks, verifying the network id is no longer present +* **Test assertion 4:** The "id" parameter is not present in the network list + +Pass / fail criteria +''''''''''''''''''''' + +This test evaluates the ability to use create commands to create network, IPv6 subnet and show +commands to show network, IPv6 subnet details on the SUT API. Specifically it verifies that: + +* Network show commands return correct "id" and "name" parameter which equal to the returned response in the create commands +* IPv6 subnet show commands return correct "id" and CIDR parameter which equal to the returned response in the create commands +* All items created using create commands are able to be removed using the returned identifiers + +Post conditions +--------------- + +None + +------------------------------------------------------------- +Test Case 6 - Create an IPv6 Port in Allowed Allocation Pools +------------------------------------------------------------- + +Short name +---------- + +opnfv.ipv6.port_create_in_allocation_pool + +Use case specification +---------------------- + +This test case evaluates the SUT API ability of creating +an IPv6 subnet within allowed IPv6 address allocation pool and creating +a port whose address is in the range of the pool, the reference is, + +tempest.api.network.test_ports.PortsIpV6TestJSON.test_create_port_in_allowed_allocation_pools + +Test preconditions +------------------ + +There should be an IPv6 CIDR configuration, which prefixlen is less than 126. + +Basic test flow execution description and pass/fail criteria +------------------------------------------------------------ + +Test execution +''''''''''''''' + +* Test action 1: Create a network, storing the "id" parameter returned in the response +* Test action 2: Check the allocation pools configuration, verifying the prefixlen + of the IPv6 CIDR configuration is less than 126. +* **Test assertion 1:** The prefixlen of the IPv6 CIDR configuration is less than 126 +* Test action 3: Get the allocation pool by setting the start_ip and end_ip + based on the IPv6 CIDR configuration. +* Test action 4: Create an IPv6 subnet of the network within the allocation pools, + storing the "id" parameter returned in the response +* Test action 5: Create a port of the network, storing the "id" parameter returned in the response +* Test action 6: Verify the port's id is in the range of the allocation pools which is got is test action 3 +* **Test assertion 2:** the port's id is in the range of the allocation pools +* Test action 7: Delete the port using the stored "id" parameter +* Test action 8: List all ports, verify the port id is no longer present in the list +* **Test assertion 3:** The port "id" parameter is not present in list +* Test action 9: Delete the IPv6 subnet using the stored "id" parameter +* Test action 10: List all subnets on the network, verify the IPv6 subnet id is no longer present in the list +* **Test assertion 4:** The IPv6 subnet "id" parameter is not present in list +* Test action 11: Delete the network created in test action 1, using the stored network id +* Test action 12: List all networks, verifying the network id is no longer present +* **Test assertion 5:** The "id" parameter is not present in the network list + +Pass / fail criteria +''''''''''''''''''''' + +This test evaluates the ability to use create commands to create an IPv6 subnet within allowed +IPv6 address allocation pool and create a port whose address is in the range of the pool. Specifically it verifies that: + +* IPv6 subnet create command to create an IPv6 subnet within allowed IPv6 address allocation pool +* Port create command to create a port whose id is in the range of the allocation pools +* All items created using create commands are able to be removed using the returned identifiers + +Post conditions +--------------- + +None + +------------------------------------------------------------- +Test Case 7 - Create an IPv6 Port with Empty Security Groups +------------------------------------------------------------- + +Short name +----------- + +opnfv.ipv6.port_create_empty_security_group + +Use case specification +---------------------- + +This test case evaluates the SUT API ability of creating port with empty +security group, the reference is, + +tempest.api.network.test_ports.PortsIpV6TestJSON.test_create_port_with_no_securitygroups + +Test preconditions +------------------ + +None + +Basic test flow execution description and pass/fail criteria +------------------------------------------------------------ + +Test execution +''''''''''''''' + +* Test action 1: Create a network, storing the "id" parameter returned in the response +* Test action 2: Create an IPv6 subnet of the network, storing the "id" parameter returned in the response +* Test action 3: Create a port of the network with an empty security group, storing the "id" parameter returned in the response +* Test action 4: Verify the security group of the port is not none but is empty +* **Test assertion 1:** the security group of the port is not none but is empty +* Test action 5: Delete the port using the stored "id" parameter +* Test action 6: List all ports, verify the port id is no longer present in the list +* **Test assertion 2:** The port "id" parameter is not present in list +* Test action 7: Delete the IPv6 subnet using the stored "id" parameter +* Test action 8: List all subnets on the network, verify the IPv6 subnet id is no longer present in the list +* **Test assertion 3:** The IPv6 subnet "id" parameter is not present in list +* Test action 9: Delete the network created in test action 1, using the stored network id +* Test action 10: List all networks, verifying the network id is no longer present +* **Test assertion 4:** The "id" parameter is not present in the network list + +Pass / fail criteria +''''''''''''''''''''' + +This test evaluates the ability to use create commands to create port with +empty security group of the SUT API. Specifically it verifies that: + +* Port create commands to create a port with an empty security group +* All items created using create commands are able to be removed using the returned identifiers + +Post conditions +--------------- + +None + +----------------------------------------------------- +Test Case 8 - Create, Update and Delete an IPv6 Port +----------------------------------------------------- + +Short name +---------- + +opnfv.ipv6.port_create_update_delete + +Use case specification +---------------------- + +This test case evaluates the SUT API ability of creating, updating, +deleting IPv6 port, the reference is, + +tempest.api.network.test_ports.PortsIpV6TestJSON.test_create_update_delete_port + +Test preconditions +------------------ + +None + +Basic test flow execution description and pass/fail criteria +------------------------------------------------------------ + +Test execution +''''''''''''''' + +* Test action 1: Create a network, storing the "id" parameter returned in the response +* Test action 2: Create a port of the network, storing the "id" and "admin_state_up" parameters + returned in the response +* Test action 3: Verify the value of port's 'admin_state_up' is True +* **Test assertion 1:** the value of port's 'admin_state_up' is True after creating +* Test action 4: Update the port's name with a new_name and set port's admin_state_up to False, + storing the name and admin_state_up parameters returned in the response +* Test action 5: Verify the stored port's name equals to new_name and the port's admin_state_up is False. +* **Test assertion 2:** the stored port's name equals to new_name and the port's admin_state_up is False +* Test action 6: Delete the port using the stored "id" parameter +* Test action 7: List all ports, verify the port is no longer present in the list +* **Test assertion 3:** The port "id" parameter is not present in list +* Test action 8: Delete the network created in test action 1, using the stored network id +* Test action 9: List all networks, verifying the network id is no longer present +* **Test assertion 4:** The "id" parameter is not present in the network list + +Pass / fail criteria +'''''''''''''''''''' + +This test evaluates the ability to use create/update/delete commands to create/update/delete port +of the SUT API. Specifically it verifies that: + +* Port create commands return True of 'admin_state_up' in response +* Port update commands to update 'name' to new_name and 'admin_state_up' to false +* All items created using create commands are able to be removed using the returned identifiers + +Post conditions +--------------- + +None + +------------------------------ +Test Case 9 - List IPv6 Ports +------------------------------ + +Short name +---------- + +opnfv.ipv6.tc009.port_list + +Use case specification +---------------------- + +This test case evaluates the SUT ability of creating a port on a network and +finding the port in the all ports list, the reference is, + +tempest.api.network.test_ports.PortsIpV6TestJSON.test_list_ports + +Test preconditions +------------------ + +None + +Basic test flow execution description and pass/fail criteria +------------------------------------------------------------ + +Test execution +''''''''''''''' + +* Test action 1: Create a network, storing the "id" parameter returned in the response +* Test action 2: Create a port of the network, storing the "id" parameter returned in the response +* Test action 3: List all ports, verify the port id is found in the list +* **Test assertion 1:** The "id" parameter is found in the port list +* Test action 4: Delete the port using the stored "id" parameter +* Test action 5: List all ports, verify the port is no longer present in the list +* **Test assertion 2:** The port "id" parameter is not present in list +* Test action 6: Delete the network created in test action 1, using the stored network id +* Test action 7: List all networks, verifying the network id is no longer present +* **Test assertion 3:** The "id" parameter is not present in the network list + +Pass / fail criteria +''''''''''''''''''''' + +This test evaluates the ability to use list commands to list the networks and ports on +the SUT API. Specifically it verifies that: + +* Port list command to list all ports, the created port is found in the list. +* All items created using create commands are able to be removed using the returned identifiers + +Post conditions +--------------- + +None + +------------------------------------------------------- +Test Case 10 - Show Key/Valus Details of an IPv6 Port +------------------------------------------------------- + +Short name +---------- + +opnfv.ipv6.tc010.port_show_details + +Use case specification +---------------------- + +This test case evaluates the SUT ability of showing the port +details, the values in the details should be equal to the values to create the port, +the reference is, + +tempest.api.network.test_ports.PortsIpV6TestJSON.test_show_port + +Test preconditions +------------------ + +None + +Basic test flow execution description and pass/fail criteria +------------------------------------------------------------ + +Test execution +''''''''''''''' + +* Test action 1: Create a network, storing the "id" parameter returned in the response +* Test action 2: Create a port of the network, storing the "id" parameter returned in the response +* Test action 3: Show the details of the port, verify the stored port's id + in test action 2 exists in the details +* **Test assertion 1:** The "id" parameter is found in the port shown details +* Test action 4: Verify the values in the details of the port are the same as the values + to create the port +* **Test assertion 2:** The values in the details of the port are the same as the values + to create the port +* Test action 5: Delete the port using the stored "id" parameter +* Test action 6: List all ports, verify the port is no longer present in the list +* **Test assertion 3:** The port "id" parameter is not present in list +* Test action 7: Delete the network created in test action 1, using the stored network id +* Test action 8: List all networks, verifying the network id is no longer present +* **Test assertion 4:** The "id" parameter is not present in the network list + +Pass / fail criteria +''''''''''''''''''''' + +This test evaluates the ability to use show commands to show port details on the SUT API. +Specifically it verifies that: + +* Port show commands to show the details of the port, whose id is in the details +* Port show commands to show the details of the port, whose values are the same as the values + to create the port +* All items created using create commands are able to be removed using the returned identifiers + +Post conditions +--------------- + +None + +--------------------------------------------------------- +Test Case 11 - Add Multiple Interfaces for an IPv6 Router +--------------------------------------------------------- + +Short name +----------- + +opnfv.ipv6.router_add_multiple_interface + +Use case specification +---------------------- + +This test case evaluates the SUT ability of adding multiple interface +to a router, the reference is, + +tempest.api.network.test_routers.RoutersIpV6Test.test_add_multiple_router_interfaces + +Test preconditions +------------------ + +None + +Basic test flow execution description and pass/fail criteria +------------------------------------------------------------ + +Test execution +''''''''''''''' + +* Test action 1: Create 2 networks named network01 and network02 sequentially, + storing the "id" parameters returned in the response +* Test action 2: Create an IPv6 subnet01 in network01, an IPv6 subnet02 in network02 sequentially, + storing the "id" parameters returned in the response +* Test action 3: Create a router, storing the "id" parameter returned in the response +* Test action 4: Create interface01 with subnet01 and the router +* Test action 5: Verify the router_id stored in test action 3 equals to the interface01's 'device_id' + and subnet01_id stored in test action 2 equals to the interface01's 'subnet_id' +* **Test assertion 1:** the router_id equals to the interface01's 'device_id' + and subnet01_id equals to the interface01's 'subnet_id' +* Test action 5: Create interface02 with subnet02 and the router +* Test action 6: Verify the router_id stored in test action 3 equals to the interface02's 'device_id' + and subnet02_id stored in test action 2 equals to the interface02's 'subnet_id' +* **Test assertion 2:** the router_id equals to the interface02's 'device_id' + and subnet02_id equals to the interface02's 'subnet_id' +* Test action 7: Delete the interfaces, router, IPv6 subnets and networks, networks, subnets, then list + all interfaces, ports, IPv6 subnets, networks, the test passes if the deleted ones + are not found in the list. +* **Test assertion 3:** The interfaces, router, IPv6 subnets and networks ids are not present in the lists + after deleting + +Pass / fail criteria +''''''''''''''''''''' + +This test evaluates the ability to use bulk create commands to create networks, IPv6 subnets and ports on +the SUT API. Specifically it verifies that: + +* Interface create commands to create interface with IPv6 subnet and router, interface 'device_id' and + 'subnet_id' should equal to the router id and IPv6 subnet id, respectively. +* Interface create commands to create multiple interface with the same router and multiple IPv6 subnets. +* All items created using create commands are able to be removed using the returned identifiers + +Post conditions +--------------- + +None + +------------------------------------------------------------------- +Test Case 12 - Add and Remove an IPv6 Router Interface with port_id +------------------------------------------------------------------- + +Short name +---------- + +opnfv.ipv6.router_interface_add_remove_with_port + +Use case specification +---------------------- + +This test case evaluates the SUT abiltiy of adding, removing router interface to +a port, the subnet_id and port_id of the interface will be checked, +the port's device_id will be checked if equals to the router_id or not. The +reference is, + +tempest.api.network.test_routers.RoutersIpV6Test.test_add_remove_router_interface_with_port_id + +Test preconditions +------------------ + +None + +Basic test flow execution description and pass/fail criteria +------------------------------------------------------------ + +Test execution +''''''''''''''' + +* Test action 1: Create a network, storing the "id" parameter returned in the response +* Test action 2: Create an IPv6 subnet of the network, storing the "id" parameter returned in the response +* Test action 3: Create a router, storing the "id" parameter returned in the response +* Test action 4: Create a port of the network, storing the "id" parameter returned in the response +* Test action 5: Add router interface to the port created, storing the "id" parameter returned in the response +* Test action 6: Verify the interface's keys include 'subnet_id' and 'port_id' +* **Test assertion 1:** the interface's keys include 'subnet_id' and 'port_id' +* Test action 7: Show the port details, verify the 'device_id' in port details equals to the router id stored + in test action 3 +* **Test assertion 2:** 'device_id' in port details equals to the router id +* Test action 8: Delete the interface, port, router, subnet and network, then list + all interfaces, ports, routers, subnets and networks, the test passes if the deleted + ones are not found in the list. +* **Test assertion 3:** interfaces, ports, routers, subnets and networks are not found in the lists after deleting + +Pass / fail criteria +''''''''''''''''''''' + +This test evaluates the ability to use add/remove commands to add/remove router interface to the port, +show commands to show port details on the SUT API. Specifically it verifies that: + +* Router_interface add commands to add router interface to a port, the interface's keys should include 'subnet_id' and 'port_id' +* Port show commands to show 'device_id' in port details, which should be equal to the router id +* All items created using create commands are able to be removed using the returned identifiers + +Post conditions +--------------- + +None + +--------------------------------------------------------------------- +Test Case 13 - Add and Remove an IPv6 Router Interface with subnet_id +--------------------------------------------------------------------- + +Short name +---------- + +opnfv.ipv6.router_interface_add_remove + +Use case specification +---------------------- + +This test case evaluates the SUT API ability of adding and removing a router interface with +the IPv6 subnet id, the reference is + +tempest.api.network.test_routers.RoutersIpV6Test.test_add_remove_router_interface_with_subnet_id + +Test preconditions +------------------ + +None + +Basic test flow execution description and pass/fail criteria +------------------------------------------------------------ + +Test execution +''''''''''''''' + +* Test action 1: Create a network, storing the "id" parameter returned in the response +* Test action 2: Create an IPv6 subnet with the network created, storing the "id" parameter + returned in the response +* Test action 3: Create a router, storing the "id" parameter returned in the response +* Test action 4: Add a router interface with the stored ids of the router and IPv6 subnet +* **Test assertion 1:** Key 'subnet_id' is included in the added interface's keys +* **Test assertion 2:** Key 'port_id' is included in the added interface's keys +* Test action 5: Show the port info with the stored interface's port id +* **Test assertion 3:**: The stored router id is equal to the device id shown in the port info +* Test action 6: Delete the router interface created in test action 4, using the stored subnet id +* Test action 7: List all router interfaces, verifying the router interface is no longer present +* **Test assertion 4:** The router interface with the stored subnet id is not present + in the router interface list +* Test action 8: Delete the router created in test action 3, using the stored router id +* Test action 9: List all routers, verifying the router id is no longer present +* **Test assertion 5:** The router "id" parameter is not present in the router list +* Test action 10: Delete the subnet created in test action 2, using the stored subnet id +* Test action 11: List all subnets, verifying the subnet id is no longer present +* **Test assertion 6:** The subnet "id" parameter is not present in the subnet list +* Test action 12: Delete the network created in test action 1, using the stored network id +* Test action 13: List all networks, verifying the network id is no longer present +* **Test assertion 7:** The network "id" parameter is not present in the network list + +Pass / fail criteria +'''''''''''''''''''' + +This test evaluates the ability to add and remove router interface with the subnet id on the +SUT API. Specifically it verifies that: + +* Router interface add command returns valid 'subnet_id' parameter which is reported + in the interface's keys +* Router interface add command returns valid 'port_id' parameter which is reported + in the interface's keys +* All items created using create commands are able to be removed using the returned identifiers + +Post conditions +--------------- + +None + +------------------------------------------------------------------- +Test Case 14 - Create, Show, List, Update and Delete an IPv6 router +------------------------------------------------------------------- + +Short name +---------- + +opnfv.ipv6.router_create_show_list_update_delete + +Use case specification +---------------------- + +This test case evaluates the SUT API ability of creating, showing, listing, updating +and deleting routers, the reference is + +tempest.api.network.test_routers.RoutersIpV6Test.test_create_show_list_update_delete_router + +Test preconditions +------------------ + +There should exist an OpenStack external network. + +Basic test flow execution description and pass/fail criteria +------------------------------------------------------------ + +Test execution +''''''''''''''' + +* Test action 1: Create a router, set the admin_state_up to be False and external_network_id + to be public network id, storing the "id" parameter returned in the response +* **Test assertion 1:** The created router's admin_state_up is False +* **Test assertion 2:** The created router's external network id equals to the public network id +* Test action 2: Show details of the router created in test action 1, using the stored router id +* **Test assertion 3:** The router's name shown is the same as the router created +* **Test assertion 4:** The router's external network id shown is the same as the public network id +* Test action 3: List all routers and verify if created router is in response message +* **Test assertion 5:** The stored router id is in the router list +* Test action 4: Update the name of router and verify if it is updated +* **Test assertion 6:** The name of router equals to the name used to update in test action 4 +* Test action 5: Show the details of router, using the stored router id +* **Test assertion 7:** The router's name shown equals to the name used to update in test action 4 +* Test action 6: Delete the router created in test action 1, using the stored router id +* Test action 7: List all routers, verifying the router id is no longer present +* **Test assertion 8:** The "id" parameter is not present in the router list + +Pass / fail criteria +''''''''''''''''''''' + +This test evaluates the ability to create, show, list, update and delete router on +the SUT API. Specifically it verifies that: + +* Router create command returns valid "admin_state_up" and "id" parameters which equal to the + "admin_state_up" and "id" returned in the response +* Router show command returns valid "name" parameter which equals to the "name" returned in the response +* Router show command returns valid "external network id" parameters which equals to the public network id +* Router list command returns valid "id" parameter which equals to the stored router "id" +* Router update command returns updated "name" parameters which equals to the "name" used to update +* Router created using create command is able to be removed using the returned identifiers + +Post conditions +--------------- + +None + +--------------------------------------------------------------------------- +Test Case 15 - Create, List, Update, Show and Delete an IPv6 security group +--------------------------------------------------------------------------- + +Short name +---------- + +opnfv.ipv6.security_group_create_list_update_show_delete + +Use case specification +---------------------- + +This test case evaluates the SUT API ability of creating, listing, updating, showing +and deleting security groups, the reference is + +tempest.api.network.test_security_groups.SecGroupIPv6Test.test_create_list_update_show_delete_security_group + +Test preconditions +------------------ + +None + +Basic test flow execution description and pass/fail criteria +------------------------------------------------------------ + +Test execution +''''''''''''''' + +* Test action 1: Create a security group, storing the "id" parameter returned in the response +* Test action 2: List all security groups and verify if created security group is there in response +* **Test assertion 1:** The created security group's "id" is found in the list +* Test action 3: Update the name and description of this security group, using the stored id +* Test action 4: Verify if the security group's name and description are updated +* **Test assertion 2:** The security group's name equals to the name used in test action 3 +* **Test assertion 3:** The security group's description equals to the description used in test action 3 +* Test action 5: Show details of the updated security group, using the stored id +* **Test assertion 4:** The security group's name shown equals to the name used in test action 3 +* **Test assertion 5:** The security group's description shown equals to the description used in test action 3 +* Test action 6: Delete the security group created in test action 1, using the stored id +* Test action 7: List all security groups, verifying the security group's id is no longer present +* **Test assertion 6:** The "id" parameter is not present in the security group list + +Pass / fail criteria +'''''''''''''''''''' + +This test evaluates the ability to create list, update, show and delete security group on +the SUT API. Specifically it verifies that: + +* Security group create commands return valid "id" parameter which is reported in the list commands +* Security group update commands return valid "name" and "description" parameters which are + reported in the show commands +* Security group created using create command is able to be removed using the returned identifiers + +Post conditions +--------------- + +None + +--------------------------------------------------------------- +Test Case 16 - Create, Show and Delete IPv6 security group rule +--------------------------------------------------------------- + +Short name +---------- + +opnfv.ipv6.security_group_rule_create_show_delete + +Use case specification +---------------------- + +This test case evaluates the SUT API ability of creating, showing, listing and deleting +security group rules, the reference is + +tempest.api.network.test_security_groups.SecGroupIPv6Test.test_create_show_delete_security_group_rule + +Test preconditions +------------------ + +None + +Basic test flow execution description and pass/fail criteria +------------------------------------------------------------ + +Test execution +''''''''''''''' + +* Test action 1: Create a security group, storing the "id" parameter returned in the response +* Test action 2: Create a rule of the security group with protocol tcp, udp and icmp, respectively, + using the stored security group's id, storing the "id" parameter returned in the response +* Test action 3: Show details of the created security group rule, using the stored id of the + security group rule +* **Test assertion 1:** All the created security group rule's values equal to the rule values + shown in test action 3 +* Test action 4: List all security group rules +* **Test assertion 2:** The stored security group rule's id is found in the list +* Test action 5: Delete the security group rule, using the stored security group rule's id +* Test action 6: List all security group rules, verifying the security group rule's id is no longer present +* **Test assertion 3:** The security group rule "id" parameter is not present in the list +* Test action 7: Delete the security group, using the stored security group's id +* Test action 8: List all security groups, verifying the security group's id is no longer present +* **Test assertion 4:** The security group "id" parameter is not present in the list + +Pass / fail criteria +''''''''''''''''''''' + +This test evaluates the ability to create, show, list and delete security group rules on +the SUT API. Specifically it verifies that: + +* Security group rule create command returns valid values which are reported in the show command +* Security group rule created using create command is able to be removed using the returned identifiers + +Post conditions +--------------- + +None + +---------------------------------------- +Test Case 17 - List IPv6 Security Groups +---------------------------------------- + +Short name +---------- + +opnfv.ipv6.security_group_list + +Use case specification +---------------------- + +This test case evaluates the SUT API ability of listing security groups, the reference is + +tempest.api.network.test_security_groups.SecGroupIPv6Test.test_list_security_groups + +Test preconditions +------------------ + +There should exist a default security group. + +Basic test flow execution description and pass/fail criteria +------------------------------------------------------------ + +Test execution +''''''''''''''' + +* Test action 1: List all security groups +* Test action 2: Verify the default security group exists in the list, the test passes + if the default security group exists +* **Test assertion 1:** The default security group is in the list + +Pass / fail criteria +''''''''''''''''''''' + +This test evaluates the ability to list security groups on the SUT API. +Specifically it verifies that: + +* Security group list command return valid security groups which include the default security group + +Post conditions +--------------- + +None + +---------------------------------------------------------------------------- +Test Case 18 - IPv6 Address Assignment - Dual Stack, SLAAC, DHCPv6 Stateless +---------------------------------------------------------------------------- + +Short name +---------- + +opnfv.ipv6.dhcpv6_stateless + +Use case specification +---------------------- + +This test case evaluates IPv6 address assignment in ipv6_ra_mode 'dhcpv6_stateless' +and ipv6_address_mode 'dhcpv6_stateless'. +In this case, guest instance obtains IPv6 address from OpenStack managed radvd +using SLAAC and optional info from dnsmasq using DHCPv6. This test case then +verifies the ping6 available VM can ping all of the v4 addresses and other's +v6 addresses as well as the router's in the same network, the reference is + +tempest.scenario.test_network_v6.TestGettingAddress.test_dhcp6_stateless_from_os + +Test preconditions +------------------ + +There should exist a public router or a public network. + +Basic test flow execution description and pass/fail criteria +------------------------------------------------------------ + +Test execution +''''''''''''''' + +* Test action 1: Create one network, storing the "id" parameter returned in the response +* Test action 2: Create one IPv4 subnet of the created network, storing the "id" + parameter returned in the response +* Test action 3: If there exists a public router, use it as the router. Otherwise, + use the public network to create a router +* Test action 4: Connect the IPv4 subnet to the router, using the stored IPv4 subnet id +* Test action 5: Create one IPv6 subnet of the network created in test action 1 in + ipv6_ra_mode 'dhcpv6_stateless' and ipv6_address_mode 'dhcpv6_stateless', + storing the "id" parameter returned in the response +* Test action 6: Connect the IPv6 subnet to the router, using the stored IPv6 subnet id +* Test action 7: Boot two VMs on this network, storing the "id" parameters returned in the response +* **Test assertion 1:** The vNICs of all VMs get all v6 addresses actually assigned +* **Test assertion 2:** Each VM can ping the other's v4 private address +* **Test assertion 3:** The ping6 available VM can ping all of the other's v6 addresses + as well as the router's +* Test action 8: Delete the 2 VMs created in test action 7, using the stored ids +* Test action 9: List all VMs, verifying the ids are no longer present +* **Test assertion 4:** The two "id" parameters are not present in the VM list +* Test action 10: Delete the IPv4 subnet created in test action 2, using the stored ids +* Test action 11: Delete the IPv6 subnet created in test action 5, using the stored ids +* Test action 12: List all subnets, verifying the ids are no longer present +* **Test assertion 5:** The "id" parameters of IPv4 and IPv6 are not present in the list +* Test action 13: Delete the network created in test action 1, using the stored ids +* Test action 14: List all networks, verifying the id is no longer present +* **Test assertion 6:** The "id" parameter is not present in the network list + +Pass / fail criteria +''''''''''''''''''''' + +This test evaluates the ability to assign IPv6 address in ipv6_ra_mode +'dhcpv6_stateless' and ipv6_address_mode 'dhcpv6_stateless', +and verify the ping6 available VM can ping all of the v4 addresses and other's +v6 addresses as well as the router's in the same network. Specifically it verifies that: + +* The IPv6 addresses in mode 'dhcpv6_stateless' assigned successfully +* The VM can ping the IPv4 and IPv6 private addresses +* All items created using create commands are able to be removed using the returned identifiers + +Post conditions +--------------- + +None + +-------------------------------------------------------------------------------------- +Test Case 19 - IPv6 Address Assignment - Dual Net, Dual Stack, SLAAC, DHCPv6 Stateless +-------------------------------------------------------------------------------------- + +Short name +---------- + +opnfv.ipv6.dualnet_dhcpv6_stateless + +Use case specification +---------------------- + +This test case evaluates IPv6 address assignment in ipv6_ra_mode 'dhcpv6_stateless' +and ipv6_address_mode 'dhcpv6_stateless'. +In this case, guest instance obtains IPv6 address from OpenStack managed radvd +using SLAAC and optional info from dnsmasq using DHCPv6. This test case then +verifies the ping6 available VM can ping all of the v4 addresses in another network +and other's v6 addresses as well as the router's in the same network, the reference is + +tempest.scenario.test_network_v6.TestGettingAddress.test_dualnet_dhcp6_stateless_from_os + +Test preconditions +------------------ + +There should exists a public router or a public network. + +Basic test flow execution description and pass/fail criteria +------------------------------------------------------------ + +Test execution +''''''''''''''' + +* Test action 1: Create one network, storing the "id" parameter returned in the response +* Test action 2: Create one IPv4 subnet of the created network, storing the "id" + parameter returned in the response +* Test action 3: If there exists a public router, use it as the router. Otherwise, + use the public network to create a router +* Test action 4: Connect the IPv4 subnet to the router, using the stored IPv4 subnet id +* Test action 5: Create another network, storing the "id" parameters returned in the response +* Test action 6: Create one IPv6 subnet of network created in test action 5 in + ipv6_ra_mode 'dhcpv6_stateless' and ipv6_address_mode 'dhcpv6_stateless', + storing the "id" parameter returned in the response +* Test action 7: Connect the IPv6 subnet to the router, using the stored IPv6 subnet id +* Test action 8: Boot two VMs on these two networks, storing the "id" parameters returned in the response +* Test action 9: Turn on 2nd NIC of each VM +* **Test assertion 1:** The vNICs of all VMs get all v6 addresses actually assigned +* **Test assertion 2:** Each VM can ping the other's v4 private address +* **Test assertion 3:** The ping6 available VM can ping all of the other's v6 addresses + as well as the router's +* Test action 10: Delete the 2 VMs created in test action 8, using the stored ids +* Test action 11: List all VMs, verifying the ids are no longer present +* **Test assertion 4:** The two "id" parameters are not present in the VM list +* Test action 12: Delete the IPv4 subnet created in test action 2, using the stored id +* Test action 13: Delete the IPv6 subnet created in test action 6, using the stored id +* Test action 14: List all subnets, verifying the ids are no longer present +* **Test assertion 5:** The "id" parameters of IPv4 and IPv6 are not present in the list +* Test action 15: Delete the 2 networks created in test action 1 and 5, using the stored ids +* Test action 16: List all networks, verifying the ids are no longer present +* **Test assertion 6:** The two "id" parameters are not present in the network list + +Pass / fail criteria +'''''''''''''''''''' + +This test evaluates the ability to assign IPv6 address in ipv6_ra_mode 'dhcpv6_stateless' +and ipv6_address_mode 'dhcpv6_stateless', +and verify the ping6 available VM can ping all of the v4 addresses and other's +v6 addresses as well as the router's in another network. Specifically it verifies that: + +* The IPv6 addresses in mode 'dhcpv6_stateless' assigned successfully +* The VM can ping the IPv4 and IPv6 private addresses +* All items created using create commands are able to be removed using the returned identifiers + +Post conditions +--------------- + +None + +----------------------------------------------------------------------------------------------- +Test Case 20 - IPv6 Address Assignment - Multiple Prefixes, Dual Stack, SLAAC, DHCPv6 Stateless +----------------------------------------------------------------------------------------------- + +Short name +---------- + +opnfv.ipv6.multiple_prefixes_dhcpv6_stateless + +Use case specification +---------------------- + +This test case evaluates IPv6 address assignment in ipv6_ra_mode 'dhcpv6_stateless' +and ipv6_address_mode 'dhcpv6_stateless'. +In this case, guest instance obtains IPv6 address from OpenStack managed radvd +using SLAAC and optional info from dnsmasq using DHCPv6. This test case then +verifies the ping6 available VM can ping all of the v4 addresses and other's +v6 addresses as well as the router's in the same network, the reference is + +tempest.scenario.test_network_v6.TestGettingAddress.test_multi_prefix_dhcpv6_stateless + +Test preconditions +------------------ + +There should exist a public router or a public network. + +Basic test flow execution description and pass/fail criteria +------------------------------------------------------------ + +Test execution +''''''''''''''' + +* Test action 1: Create one network, storing the "id" parameter returned in the response +* Test action 2: Create one IPv4 subnet of the created network, storing the "id" + parameter returned in the response +* Test action 3: If there exists a public router, use it as the router. Otherwise, + use the public network to create a router +* Test action 4: Connect the IPv4 subnet to the router, using the stored IPv4 subnet id +* Test action 5: Create two IPv6 subnets of the network created in test action 1 in + ipv6_ra_mode 'dhcpv6_stateless' and ipv6_address_mode 'dhcpv6_stateless', + storing the "id" parameters returned in the response +* Test action 6: Connect the two IPv6 subnets to the router, using the stored IPv6 subnet id +* Test action 7: Boot two VMs on this network, storing the "id" parameters returned in the response +* **Test assertion 1:** The vNICs of all VMs get all v6 addresses actually assigned +* **Test assertion 2:** Each VM can ping the other's v4 private address +* **Test assertion 3:** The ping6 available VM can ping all of the other's v6 addresses + as well as the router's +* Test action 8: Delete the 2 VMs created in test action 7, using the stored ids +* Test action 9: List all VMs, verifying the ids are no longer present +* **Test assertion 4:** The two "id" parameters are not present in the VM list +* Test action 10: Delete the IPv4 subnet created in test action 2, using the stored ids +* Test action 11: Delete two IPv6 subnets created in test action 5, using the stored ids +* Test action 12: List all subnets, verifying the ids are no longer present +* **Test assertion 5:** The "id" parameters of IPv4 and IPv6 are not present in the list +* Test action 13: Delete the network created in test action 1, using the stored ids +* Test action 14: List all networks, verifying the id is no longer present +* **Test assertion 6:** The "id" parameter is not present in the network list + +Pass / fail criteria +''''''''''''''''''''' + +This test evaluates the ability to assign IPv6 address in ipv6_ra_mode 'dhcpv6_stateless' +and ipv6_address_mode 'dhcpv6_stateless', +and verify the ping6 available VM can ping all of the v4 addresses and other's +v6 addresses with different prefixes as well as the router's in the same network. +Specifically it verifies that: + +* The different prefixes IPv6 addresses in mode 'dhcpv6_stateless' assigned successfully +* The VM can ping the IPv4 and IPv6 private addresses +* All items created using create commands are able to be removed using the returned identifiers + +Post conditions +--------------- + +None + +--------------------------------------------------------------------------------------------------------- +Test Case 21 - IPv6 Address Assignment - Dual Net, Multiple Prefixes, Dual Stack, SLAAC, DHCPv6 Stateless +--------------------------------------------------------------------------------------------------------- + +Short name +---------- + +opnfv.ipv6.dualnet_multiple_prefixes_dhcpv6_stateless + +Use case specification +---------------------- + +This test case evaluates IPv6 address assignment in ipv6_ra_mode 'dhcpv6_stateless' +and ipv6_address_mode 'dhcpv6_stateless'. +In this case, guest instance obtains IPv6 address from OpenStack managed radvd +using SLAAC and optional info from dnsmasq using DHCPv6. This test case then +verifies the ping6 available VM can ping all of the v4 addresses in another network +and other's v6 addresses as well as the router's in the same network, the reference is + +tempest.scenario.test_network_v6.TestGettingAddress.test_dualnet_multi_prefix_dhcpv6_stateless + +Test preconditions +------------------ + +There should exist a public router or a public network. + +Basic test flow execution description and pass/fail criteria +------------------------------------------------------------ + +Test execution +''''''''''''''' + +* Test action 1: Create one network, storing the "id" parameter returned in the response +* Test action 2: Create one IPv4 subnet of the created network, storing the "id" + parameter returned in the response +* Test action 3: If there exists a public router, use it as the router. Otherwise, + use the public network to create a router +* Test action 4: Connect the IPv4 subnet to the router, using the stored IPv4 subnet id +* Test action 5: Create another network, storing the "id" parameters returned in the response +* Test action 6: Create two IPv6 subnets of network created in test action 5 in + ipv6_ra_mode 'dhcpv6_stateless' and ipv6_address_mode 'dhcpv6_stateless', + storing the "id" parameters returned in the response +* Test action 7: Connect the two IPv6 subnets to the router, using the stored IPv6 subnet ids +* Test action 8: Boot two VMs on these two networks, storing the "id" parameters returned in the response +* Test action 9: Turn on 2nd NIC of each VM +* **Test assertion 1:** The vNICs of all VMs get all v6 addresses actually assigned +* **Test assertion 2:** Each VM can ping the other's v4 private address +* **Test assertion 3:** The ping6 available VM can ping all of the other's v6 addresses + as well as the router's +* Test action 10: Delete the 2 VMs created in test action 8, using the stored ids +* Test action 11: List all VMs, verifying the ids are no longer present +* **Test assertion 4:** The two "id" parameters are not present in the VM list +* Test action 12: Delete the IPv4 subnet created in test action 2, using the stored ids +* Test action 13: Delete two IPv6 subnets created in test action 6, using the stored ids +* Test action 14: List all subnets, verifying the ids are no longer present +* **Test assertion 5:** The "id" parameters of IPv4 and IPv6 are not present in the list +* Test action 15: Delete the 2 networks created in test action 1 and 5, using the stored ids +* Test action 16: List all networks, verifying the ids are no longer present +* **Test assertion 6:** The two "id" parameters are not present in the network list + +Pass / fail criteria +''''''''''''''''''''' + +This test evaluates the ability to assign IPv6 address in ipv6_ra_mode 'dhcpv6_stateless' +and ipv6_address_mode 'dhcpv6_stateless', +and verify the ping6 available VM can ping all of the v4 addresses and other's +v6 addresses with different prefixes as well as the router's in another network. +Specifically it verifies that: + +* The IPv6 addresses in mode 'dhcpv6_stateless' assigned successfully +* The VM can ping the IPv4 and IPv6 private addresses +* All items created using create commands are able to be removed using the returned identifiers + +Post conditions +--------------- + +None + +---------------------------------------------------------- +Test Case 22 - IPv6 Address Assignment - Dual Stack, SLAAC +---------------------------------------------------------- + +Short name +---------- + +opnfv.ipv6.slaac + +Use case specification +---------------------- + +This test case evaluates IPv6 address assignment in ipv6_ra_mode 'slaac' and +ipv6_address_mode 'slaac'. +In this case, guest instance obtains IPv6 address from OpenStack managed radvd +using SLAAC. This test case then verifies the ping6 available VM can ping all +of the v4 addresses and other's v6 addresses as well as the router's in the +same network, the reference is + +tempest.scenario.test_network_v6.TestGettingAddress.test_slaac_from_os + +Test preconditions +------------------ + +There should exist a public router or a public network. + +Basic test flow execution description and pass/fail criteria +------------------------------------------------------------ + +Test execution +''''''''''''''' + +* Test action 1: Create one network, storing the "id" parameter returned in the response +* Test action 2: Create one IPv4 subnet of the created network, storing the "id" + parameter returned in the response +* Test action 3: If there exists a public router, use it as the router. Otherwise, + use the public network to create a router +* Test action 4: Connect the IPv4 subnet to the router, using the stored IPv4 subnet id +* Test action 5: Create one IPv6 subnet of the network created in test action 1 in + ipv6_ra_mode 'slaac' and ipv6_address_mode 'slaac', storing the "id" parameter returned in the response +* Test action 6: Connect the IPv6 subnet to the router, using the stored IPv6 subnet id +* Test action 7: Boot two VMs on this network, storing the "id" parameters returned in the response +* **Test assertion 1:** The vNICs of all VMs get all v6 addresses actually assigned +* **Test assertion 2:** Each VM can ping the other's v4 private address +* **Test assertion 3:** The ping6 available VM can ping all of the other's v6 addresses + as well as the router's +* Test action 8: Delete the 2 VMs created in test action 7, using the stored ids +* Test action 9: List all VMs, verifying the ids are no longer present +* **Test assertion 4:** The two "id" parameters are not present in the VM list +* Test action 10: Delete the IPv4 subnet created in test action 2, using the stored ids +* Test action 11: Delete the IPv6 subnet created in test action 5, using the stored ids +* Test action 12: List all subnets, verifying the ids are no longer present +* **Test assertion 5:** The "id" parameters of IPv4 and IPv6 are not present in the list +* Test action 13: Delete the network created in test action 1, using the stored ids +* Test action 14: List all networks, verifying the id is no longer present +* **Test assertion 6:** The "id" parameter is not present in the network list + +Pass / fail criteria +''''''''''''''''''''' + +This test evaluates the ability to assign IPv6 address in ipv6_ra_mode 'slaac' +and ipv6_address_mode 'slaac', +and verify the ping6 available VM can ping all of the v4 addresses and other's +v6 addresses as well as the router's in the same network. Specifically it verifies that: + +* The IPv6 addresses in mode 'slaac' assigned successfully +* The VM can ping the IPv4 and IPv6 private addresses +* All items created using create commands are able to be removed using the returned identifiers + +Post conditions +--------------- + +None + +-------------------------------------------------------------------- +Test Case 23 - IPv6 Address Assignment - Dual Net, Dual Stack, SLAAC +-------------------------------------------------------------------- + +Short name +---------- + +opnfv.ipv6.dualnet_slaac + +Use case specification +---------------------- + +This test case evaluates IPv6 address assignment in ipv6_ra_mode 'slaac' and +ipv6_address_mode 'slaac'. +In this case, guest instance obtains IPv6 address from OpenStack managed radvd +using SLAAC. This test case then verifies the ping6 available VM can ping all +of the v4 addresses in another network and other's v6 addresses as well as the +router's in the same network, the reference is + +tempest.scenario.test_network_v6.TestGettingAddress.test_dualnet_slaac_from_os + +Test preconditions +------------------ + +There should exist a public router or a public network. + +Basic test flow execution description and pass/fail criteria +------------------------------------------------------------ + +Test execution +''''''''''''''' + +* Test action 1: Create one network, storing the "id" parameter returned in the response +* Test action 2: Create one IPv4 subnet of the created network, storing the "id" + parameter returned in the response +* Test action 3: If there exists a public router, use it as the router. Otherwise, + use the public network to create a router +* Test action 4: Connect the IPv4 subnet to the router, using the stored IPv4 subnet id +* Test action 5: Create another network, storing the "id" parameter returned in the response +* Test action 6: Create one IPv6 subnet of network created in test action 5 in + ipv6_ra_mode 'slaac' and ipv6_address_mode 'slaac', storing the "id" parameter returned in the response +* Test action 7: Connect the IPv6 subnet to the router, using the stored IPv6 subnet id +* Test action 8: Boot two VMs on these two networks, storing the "id" parameters returned in the response +* Test action 9: Turn on 2nd NIC of each VM +* **Test assertion 1:** The vNICs of all VMs get all v6 addresses actually assigned +* **Test assertion 2:** Each VM can ping the other's v4 private address +* **Test assertion 3:** The ping6 available VM can ping all of the other's v6 addresses + as well as the router's +* Test action 10: Delete the 2 VMs created in test action 8, using the stored ids +* Test action 11: List all VMs, verifying the ids are no longer present +* **Test assertion 4:** The two "id" parameters are not present in the VM list +* Test action 12: Delete the IPv4 subnet created in test action 2, using the stored ids +* Test action 13: Delete the IPv6 subnet created in test action 6, using the stored ids +* Test action 14: List all subnets, verifying the ids are no longer present +* **Test assertion 5:** The "id" parameters of IPv4 and IPv6 are not present in the list +* Test action 15: Delete the 2 networks created in test action 1 and 5, using the stored ids +* Test action 16: List all networks, verifying the ids are no longer present +* **Test assertion 6:** The two "id" parameters are not present in the network list + +Pass / fail criteria +''''''''''''''''''''' + +This test evaluates the ability to assign IPv6 address in ipv6_ra_mode 'slaac' +and ipv6_address_mode 'slaac', +and verify the ping6 available VM can ping all of the v4 addresses and other's +v6 addresses as well as the router's in another network. Specifically it verifies that: + +* The IPv6 addresses in mode 'slaac' assigned successfully +* The VM can ping the IPv4 and IPv6 private addresses +* All items created using create commands are able to be removed using the returned identifiers + +Post conditions +--------------- + +None + +----------------------------------------------------------------------------- +Test Case 24 - IPv6 Address Assignment - Multiple Prefixes, Dual Stack, SLAAC +----------------------------------------------------------------------------- + +Short name +---------- + +opnfv.ipv6.multiple_prefixes_slaac + +Use case specification +---------------------- + +This test case evaluates IPv6 address assignment in ipv6_ra_mode 'slaac' and +ipv6_address_mode 'slaac'. +In this case, guest instance obtains IPv6 address from OpenStack managed radvd +using SLAAC. This test case then verifies the ping6 available VM can ping all +of the v4 addresses and other's v6 addresses as well as the router's in the +same network, the reference is + +tempest.scenario.test_network_v6.TestGettingAddress.test_multi_prefix_slaac + +Test preconditions +------------------ + +There should exists a public router or a public network. + +Basic test flow execution description and pass/fail criteria +------------------------------------------------------------ + +Test execution +''''''''''''''' + +* Test action 1: Create one network, storing the "id" parameter returned in the response +* Test action 2: Create one IPv4 subnet of the created network, storing the "id + parameters returned in the response +* Test action 3: If there exists a public router, use it as the router. Otherwise, + use the public network to create a router +* Test action 4: Connect the IPv4 subnet to the router, using the stored IPv4 subnet id +* Test action 5: Create two IPv6 subnets of the network created in test action 1 in + ipv6_ra_mode 'slaac' and ipv6_address_mode 'slaac', storing the "id" parameters returned in the response +* Test action 6: Connect the two IPv6 subnets to the router, using the stored IPv6 subnet id +* Test action 7: Boot two VMs on this network, storing the "id" parameters returned in the response +* **Test assertion 1:** The vNICs of all VMs get all v6 addresses actually assigned +* **Test assertion 2:** Each VM can ping the other's v4 private address +* **Test assertion 3:** The ping6 available VM can ping all of the other's v6 addresses + as well as the router's +* Test action 8: Delete the 2 VMs created in test action 7, using the stored ids +* Test action 9: List all VMs, verifying the ids are no longer present +* **Test assertion 4:** The two "id" parameters are not present in the VM list +* Test action 10: Delete the IPv4 subnet created in test action 2, using the stored ids +* Test action 11: Delete two IPv6 subnets created in test action 5, using the stored ids +* Test action 12: List all subnets, verifying the ids are no longer present +* **Test assertion 5:** The "id" parameters of IPv4 and IPv6 are not present in the list +* Test action 13: Delete the network created in test action 1, using the stored ids +* Test action 14: List all networks, verifying the id is no longer present +* **Test assertion 6:** The "id" parameter is not present in the network list + +Pass / fail criteria +''''''''''''''''''''' + +This test evaluates the ability to assign IPv6 address in ipv6_ra_mode 'slaac' +and ipv6_address_mode 'slaac', +and verify the ping6 available VM can ping all of the v4 addresses and other's +v6 addresses with different prefixes as well as the router's in the same network. +Specifically it verifies that: + +* The different prefixes IPv6 addresses in mode 'slaac' assigned successfully +* The VM can ping the IPv4 and IPv6 private addresses +* All items created using create commands are able to be removed using the returned identifiers + +Post conditions +--------------- + +None + +--------------------------------------------------------------------------------------- +Test Case 25 - IPv6 Address Assignment - Dual Net, Dual Stack, Multiple Prefixes, SLAAC +--------------------------------------------------------------------------------------- + +Short name +---------- + +opnfv.ipv6.dualnet_multiple_prefixes_slaac + +Use case specification +---------------------- + +This test case evaluates IPv6 address assignment in ipv6_ra_mode 'slaac' and +ipv6_address_mode 'slaac'. +In this case, guest instance obtains IPv6 address from OpenStack managed radvd +using SLAAC. This test case then verifies the ping6 available VM can ping all +of the v4 addresses in another network and other's v6 addresses as well as the +router's in the same network, the reference is + +tempest.scenario.test_network_v6.TestGettingAddress.test_dualnet_multi_prefix_slaac + +Test preconditions +------------------ + +There should exist a public router or a public network. + +Basic test flow execution description and pass/fail criteria +------------------------------------------------------------ + +Test execution +''''''''''''''' + +* Test action 1: Create one network, storing the "id" parameter returned in the response +* Test action 2: Create one IPv4 subnet of the created network, storing the "id" + parameters returned in the response +* Test action 3: If there exists a public router, use it as the router. Otherwise, + use the public network to create a router +* Test action 4: Connect the IPv4 subnet to the router, using the stored IPv4 subnet id +* Test action 5: Create another network, storing the "id" parameters returned in the response +* Test action 6: Create two IPv6 subnets of network created in test action 5 in + ipv6_ra_mode 'slaac' and ipv6_address_mode 'slaac', storing the "id" parameters returned in the response +* Test action 7: Connect the two IPv6 subnets to the router, using the stored IPv6 subnet ids +* Test action 8: Boot two VMs on these two networks, storing the "id" parameters returned in the response +* Test action 9: Turn on 2nd NIC of each VM +* **Test assertion 1:** The vNICs of all VMs get all v6 addresses actually assigned +* **Test assertion 2:** Each VM can ping the other's v4 private address +* **Test assertion 3:** The ping6 available VM can ping all of the other's v6 addresses + as well as the router's +* Test action 10: Delete the 2 VMs created in test action 8, using the stored ids +* Test action 11: List all VMs, verifying the ids are no longer present +* **Test assertion 4:** The two "id" parameters are not present in the VM list +* Test action 12: Delete the IPv4 subnet created in test action 2, using the stored ids +* Test action 13: Delete two IPv6 subnets created in test action 6, using the stored ids +* Test action 14: List all subnets, verifying the ids are no longer present +* **Test assertion 5:** The "id" parameters of IPv4 and IPv6 are not present in the list +* Test action 15: Delete the 2 networks created in test action 1 and 5, using the stored ids +* Test action 16: List all networks, verifying the ids are no longer present +* **Test assertion 6:** The two "id" parameters are not present in the network list + +Pass / fail criteria +''''''''''''''''''''' + +This test evaluates the ability to assign IPv6 address in ipv6_ra_mode 'slaac' +and ipv6_address_mode 'slaac', +and verify the ping6 available VM can ping all of the v4 addresses and other's +v6 addresses with different prefixes as well as the router's in another network. +Specifically it verifies that: + +* The IPv6 addresses in mode 'slaac' assigned successfully +* The VM can ping the IPv4 and IPv6 private addresses +* All items created using create commands are able to be removed using the returned identifiers + +Post conditions +--------------- + +None + + diff --git a/docs/testing/user/testspecification/old_files/ipv6/designspecification.rst b/docs/testing/user/testspecification/old_files/ipv6/designspecification.rst deleted file mode 100644 index 9e403472..00000000 --- a/docs/testing/user/testspecification/old_files/ipv6/designspecification.rst +++ /dev/null @@ -1,133 +0,0 @@ -.. This work is licensed under a Creative Commons Attribution 4.0 International License. -.. http://creativecommons.org/licenses/by/4.0 -.. (c) Christopher Price (Ericsson AB) and others - -============================== -IPv6 test design specification -============================== - -This document outlines the approach and method for testing IPv6 in the OPNFV compliance test -suite. Providing a brief outline of the features to be tested, the methodology for testing, -schema's and criteria. - -Features to be tested -===================== - -The IPv6 compliance test plan outlines the method for testing IPv6 compliance to the OPNFV -platform behaviours and features of IPv6 enabled VNFi platforms. The specific features to -be tested by the IPv6 compliance test suite is outlined in the following table. - -.. table:: - :class: longtable - -+-----------------------------------------------------------+-------------------+--------------------------------------------------------------------+ -|Features / Requirements |Tests available | Test Cases | -+===========================================================+===================+====================================================================+ -|All topologies work in a multi-tenant environment |No | | -| | | | -| | | | -| | | | -| | | | -| | | | -+-----------------------------------------------------------+-------------------+--------------------------------------------------------------------+ -|IPv6 VM to VM only |No | | -| | | | -| | | | -+-----------------------------------------------------------+-------------------+--------------------------------------------------------------------+ -|IPv6 external L2 VLAN directly attached to a VM |No | | -| | | | -+-----------------------------------------------------------+-------------------+--------------------------------------------------------------------+ -|IPv6 subnet routed via L3 agent to an external IPv6 network|No | | -| | | | -|1. Both VLAN and overlay (e.g. GRE, VXLAN) subnet attached | | | -| to VMs; | | | -|2. Must be able to support multiple L3 agents for a given | | | -| external network to support scaling (neutron scheduler | | | -| to assign vRouters to the L3 agents) | | | -+-----------------------------------------------------------+-------------------+--------------------------------------------------------------------+ -|Ability for a NIC to support both IPv4 and IPv6 (dual |No | | -|stack) address. | | | -| | | | -|1. VM with a single interface associated with a network, | | | -| which is then associated with two subnets. | | | -|2. VM with two different interfaces associated with two | | | -| different networks and two different subnets. | | | -+-----------------------------------------------------------+-------------------+--------------------------------------------------------------------+ -|Support IPv6 Address assignment modes. |No | | -| | | | -|1. SLAAC | | | -|2. DHCPv6 Stateless | | | -|3. DHCPv6 Stateful | | | -+-----------------------------------------------------------+-------------------+--------------------------------------------------------------------+ -|Ability to create a port on an IPv6 DHCPv6 Stateful subnet |No | | -|and assign a specific IPv6 address to the port and have it | | | -|taken out of the DHCP address pool. | | | -+-----------------------------------------------------------+-------------------+--------------------------------------------------------------------+ -|Full support for IPv6 matching (i.e., IPv6, ICMPv6, TCP, |No | | -|UDP) in security groups. Ability to control and manage all | | | -|IPv6 security group capabilities via Neutron/Nova API (REST| | | -|and CLI) as well as via Horizon. | | | -+-----------------------------------------------------------+-------------------+--------------------------------------------------------------------+ -|During network/subnet/router create, there should be an |No | | -|option to allow user to specify the type of address | | | -|management they would like. This includes all options | | | -|including those low priority if implemented (e.g., toggle | | | -|on/off router and address prefix advertisements); It must | | | -|be supported via Neutron API (REST and CLI) as well as via | | | -|Horizon | | | -+-----------------------------------------------------------+-------------------+--------------------------------------------------------------------+ -|Security groups anti-spoofing: Prevent VM from using a |No | | -|source IPv6/MAC address which is not assigned to the VM | | | -+-----------------------------------------------------------+-------------------+--------------------------------------------------------------------+ -|Protect tenant and provider network from rogue RAs |No | | -| | | | -| | | | -| | | | -| | | | -| | | | -+-----------------------------------------------------------+-------------------+--------------------------------------------------------------------+ -|Support the ability to assign multiple IPv6 addresses to |No | | -|an interface; both for Neutron router interfaces and VM | | | -|interfaces. | | | -+-----------------------------------------------------------+-------------------+--------------------------------------------------------------------+ -|Ability for a VM to support a mix of multiple IPv4 and IPv6|No | | -|networks, including multiples of the same type. | | | -+-----------------------------------------------------------+-------------------+--------------------------------------------------------------------+ -|Support for IPv6 Prefix Delegation. |No | | -+-----------------------------------------------------------+-------------------+--------------------------------------------------------------------+ -|IPv6 First-Hop Security, IPv6 ND spoofing |No | | -+-----------------------------------------------------------+-------------------+--------------------------------------------------------------------+ -|IPv6 support in Neutron Layer3 High Availability |No | | -|(keepalived+VRRP). | | | -+-----------------------------------------------------------+-------------------+--------------------------------------------------------------------+ - - -Test approach for IPv6 -====================== - -The most common approach for testing IPv6 capabilities in the test suite is through interaction with the SUT control plane. -In this instance the test framework will exercise the NBI provided by the VIM to configure and leverage IPv6 related features -in the platform, instantiate workloads, and invoke behaviours in the platform. The suite may also interact directly with the -data plane to exercise platform capabilities and further invoke helper functions on the platform for the same purpose. - -Test result analysis --------------------- - -All functional tests in the IPv6 test suite will provide a pass/fail result on completion of the test. In addition test logs -and relevant additional information will be provided as part of the test log, available on test suite completion. - -Some tests in the compliance suite measure such metrics as latency and performance. At this time these tests are intended to -provide a feature based pass/fail metric not related to system performance. -These tests may however provide detailed results of performance and latency in the 'test report'_ document. - -Test identification -=================== - -TBD: WE need to identify the test naming scheme we will use in DoveTail in order that we can cross reference to the test -projects and maintain our suite effectively. This naming scheme needs to be externally relevant to non-OPNFV consumers and as -such some consideration is required on the selection. - -Pass Fail Criteria -================== - -This section requires some further work with the test teams to identify how and where we generate, store and provide results. diff --git a/docs/testing/user/testspecification/old_files/ipv6/index.rst b/docs/testing/user/testspecification/old_files/ipv6/index.rst deleted file mode 100644 index a806d644..00000000 --- a/docs/testing/user/testspecification/old_files/ipv6/index.rst +++ /dev/null @@ -1,19 +0,0 @@ -.. This work is licensed under a Creative Commons Attribution 4.0 International License. -.. http://creativecommons.org/licenses/by/4.0 -.. (c) OPNFV - -******************************* -OPNFV IPv6 Compliance Test Plan -******************************* - -.. toctree:: - :maxdepth: 2 - - ./testplan.rst - ./testprocedure.rst - ./testspecification.rst - ./designspecification.rst - ./ipv6.tc001.specification.rst - ./ipv6.tc026.specification.rst - ./ipv6_all_testcases.rst - diff --git a/docs/testing/user/testspecification/old_files/ipv6/ipv6.tc001.specification.rst b/docs/testing/user/testspecification/old_files/ipv6/ipv6.tc001.specification.rst deleted file mode 100644 index 5afb2095..00000000 --- a/docs/testing/user/testspecification/old_files/ipv6/ipv6.tc001.specification.rst +++ /dev/null @@ -1,59 +0,0 @@ -.. This work is licensed under a Creative Commons Attribution 4.0 International License. -.. http://creativecommons.org/licenses/by/4.0 -.. (c) OPNFV - -================================================================================================== -Dovetail IPv6 tc001 specification - Bulk Creation and Deletion of IPv6 Networks, Ports and Subnets -================================================================================================== - - -+-----------------------+----------------------------------------------------------------------------------------------------+ -|test case name |Bulk creation and deletion of IPv6 networks, ports and subnets | -| | | -+-----------------------+----------------------------------------------------------------------------------------------------+ -|id |dovetail.ipv6.tc001 | -+-----------------------+----------------------------------------------------------------------------------------------------+ -|objective |To verify that platform is able to create/delete networks, ports and subnets in bulk operation | -+-----------------------+----------------------------------------------------------------------------------------------------+ -|test items |tempest.api.network.test_networks.BulkNetworkOpsIpV6Test.test_bulk_create_delete_network | -| |{idempotent_id('d4f9024d-1e28-4fc1-a6b1-25dbc6fa11e2')} | -| |tempest.api.network.test_networks.BulkNetworkOpsIpV6Test.test_bulk_create_delete_port | -| |{idempotent_id('48037ff2-e889-4c3b-b86a-8e3f34d2d060')} | -| |tempest.api.network.test_networks.BulkNetworkOpsIpV6Test.test_bulk_create_delete_subnet | -| |{idempotent_id('8936533b-c0aa-4f29-8e53-6cc873aec489')} | -+-----------------------+----------------------------------------------------------------------------------------------------+ -|environmental | | -|requirements & | environment can be deployed on bare metal of virtualized infrastructure | -|preconditions | deployment can be HA or non-HA | -| | | -+-----------------------+----------------------------------------------------------------------------------------------------+ -|scenario dependencies | NA | -+-----------------------+----------------------------------------------------------------------------------------------------+ -|procedural |Step 1: create/delete network: | -|requirements | create 2 networks in one request | -| | asserting that the networks are found in the list after creation | -| | | -| |Step 2: create/delete subnet: | -| | create 2 subnets in one request | -| | asserting that the subnets are found in the list after creation | -| | | -| |Step 3: create/delete port: | -| | create 2 ports in one request | -| | asserting that the ports are found in the list after creation | -| | | -+-----------------------+----------------------------------------------------------------------------------------------------+ -|input specifications |The parameters needed to execute Neutron network APIs. | -| |Refer to Neutron Networking API v2.0 `[1]`_ `[2]`_ | -+-----------------------+----------------------------------------------------------------------------------------------------+ -|output specifications |The responses after executing Network network APIs. | -| |Refer to Neutron Networking API v2.0 `[1]`_ `[2]`_ | -+-----------------------+----------------------------------------------------------------------------------------------------+ -|pass/fail criteria |If normal response code 200 is returned, the test passes. | -| |Otherwise, the test fails with various error codes. | -| |Refer to Neutron Networking API v2.0 `[1]`_ `[2]`_ | -+-----------------------+----------------------------------------------------------------------------------------------------+ -|test report |TBD | -+-----------------------+----------------------------------------------------------------------------------------------------+ - -.. _`[1]`: http://developer.openstack.org/api-ref/networking/v2/ -.. _`[2]`: http://wiki.openstack.org/wiki/Neutron/APIv2-specification diff --git a/docs/testing/user/testspecification/old_files/ipv6/ipv6.tc026.specification.rst b/docs/testing/user/testspecification/old_files/ipv6/ipv6.tc026.specification.rst deleted file mode 100644 index e7fd82e7..00000000 --- a/docs/testing/user/testspecification/old_files/ipv6/ipv6.tc026.specification.rst +++ /dev/null @@ -1,54 +0,0 @@ -.. This work is licensed under a Creative Commons Attribution 4.0 International License. -.. http://creativecommons.org/licenses/by/4.0 -.. (c) OPNFV - -============================================================== -Dovetail IPv6 tc026 specification - Service VM as IPv6 vRouter -============================================================== - - -+-----------------------+--------------------------------------------------------------------------+ -|test case name |Service VM as IPv6 vRouter | -| | | -+-----------------------+--------------------------------------------------------------------------+ -|id |dovetail.ipv6.tc026 | -+-----------------------+--------------------------------------------------------------------------+ -|objective |IPv6 connnectivity, service VM as IPv6 vRouter | -+-----------------------+--------------------------------------------------------------------------+ -|modules under test |neutron, nova, etc | -+-----------------------+--------------------------------------------------------------------------+ -|dependent test project |yardstick | -+-----------------------+--------------------------------------------------------------------------+ -|test items |yardstick_tc027 | -+-----------------------+--------------------------------------------------------------------------+ -|environmental | OpenStack-only environment | -|requirements & | environment can be deplyed on bare metal of virtualized infrastructure | -|preconditions | deployment can be HA or non-HA | -| | test case image needs to be installed into Glance with ping6 included | -+-----------------------+--------------------------------------------------------------------------+ -|scenario dependencies | nosdn | -+-----------------------+--------------------------------------------------------------------------+ -|procedural |step 1: to setup IPv6 testing environment | -|requirements | 1.1 disable security group | -| | 1.2 create (ipv6, ipv4) router, network and subnet | -| | 1.3 create vRouter, VM1, VM2 | -| |step 2: to run ping6 to verify IPv6 connectivity | -| | 2.1 ssh to VM1 | -| | 2.2 ping6 to ipv6 router from VM1 | -| | 2.3 get the result and store the logs | -| |step 3: to teardown IPv6 testing environment | -| | 3.1 delete vRouter, VM1, VM2 | -| | 3.2 delete (ipv6, ipv4) router, network and subnet | -| | 3.3 enable security group | -+-----------------------+--------------------------------------------------------------------------+ -|input specifications |packetsize: 56 | -| |ping_count: 5 | -| | | -+-----------------------+--------------------------------------------------------------------------+ -|output specifications |output includes max_rtt, min_rtt, average_rtt | -+-----------------------+--------------------------------------------------------------------------+ -|pass/fail criteria |ping6 connectivity success, no SLA | -+-----------------------+--------------------------------------------------------------------------+ -|test report | dovetail dashboard DB here | -+-----------------------+--------------------------------------------------------------------------+ - diff --git a/docs/testing/user/testspecification/old_files/ipv6/ipv6_all_testcases.rst b/docs/testing/user/testspecification/old_files/ipv6/ipv6_all_testcases.rst deleted file mode 100644 index 02115ec3..00000000 --- a/docs/testing/user/testspecification/old_files/ipv6/ipv6_all_testcases.rst +++ /dev/null @@ -1,243 +0,0 @@ -.. This work is licensed under a Creative Commons Attribution 4.0 International License. -.. http://creativecommons.org/licenses/by/4.0 -.. (c) OPNFV - -================================================== -IPv6 Compliance Testing Methodology and Test Cases -================================================== - -IPv6 Compliance Testing focuses on overlay IPv6 capabilities, i.e. to validate that -IPv6 capability is supported in tenant networks, subnets and routers. Both Tempest API -testing and Tempest Scenario testing are reused as much as we can in IPv6 Compliance -Testing. In addition, Yardstick Test Case 027 is also used to validate a specific use case -of using a Service VM as an IPv6 vRouter. - -IPv6 Compliance Testing test cases are described as follows: - ---------------------------------------------------------------- -Test Case 1: Create and Delete an IPv6 Network, Port and Subnet ---------------------------------------------------------------- - -.. code-block:: bash - - tempest.api.network.test_networks.BulkNetworkOpsIpV6Test.test_bulk_create_delete_network - tempest.api.network.test_networks.BulkNetworkOpsIpV6Test.test_bulk_create_delete_port - tempest.api.network.test_networks.BulkNetworkOpsIpV6Test.test_bulk_create_delete_subnet - ------------------------------------------------------------------ -Test Case 2: Create, Update and Delete an IPv6 Network and Subnet ------------------------------------------------------------------ - -.. code-block:: bash - - tempest.api.network.test_networks.NetworksIpV6Test.test_create_update_delete_network_subnet - ----------------------------------------------- -Test Case 3: Check External Network Visibility ----------------------------------------------- - -.. code-block:: bash - - tempest.api.network.test_networks.NetworksIpV6Test.test_external_network_visibility - -------------------------------------------------------- -Test Case 4: List IPv6 Networks and Subnets of a Tenant -------------------------------------------------------- - -.. code-block:: bash - - tempest.api.network.test_networks.NetworksIpV6Test.test_list_networks - tempest.api.network.test_networks.NetworksIpV6Test.test_list_subnets - ------------------------------------------------------------ -Test Case 5: Show Information of an IPv6 Network and Subnet ------------------------------------------------------------ - -.. code-block:: bash - - tempest.api.network.test_networks.NetworksIpV6Test.test_show_network - tempest.api.network.test_networks.NetworksIpV6Test.test_show_subnet - ------------------------------------------------------------- -Test Case 6: Create an IPv6 Port in Allowed Allocation Pools ------------------------------------------------------------- - -.. code-block:: bash - - tempest.api.network.test_ports.PortsIpV6TestJSON.test_create_port_in_allowed_allocation_pools - --------------------------------------------------------- -Test Case 7: Create an IPv6 Port without Security Groups --------------------------------------------------------- - -.. code-block:: bash - - tempest.api.network.test_ports.PortsIpV6TestJSON.test_create_port_with_no_securitygroups - ---------------------------------------------------- -Test Case 8: Create, Update and Delete an IPv6 Port ---------------------------------------------------- - -.. code-block:: bash - - tempest.api.network.test_ports.PortsIpV6TestJSON.test_create_update_delete_port - ----------------------------------------- -Test Case 9: List IPv6 Ports of a Tenant ----------------------------------------- - -.. code-block:: bash - - tempest.api.network.test_ports.PortsIpV6TestJSON.test_list_ports - ----------------------------------------------- -Test Case 10: Show Information of an IPv6 Port ----------------------------------------------- - -.. code-block:: bash - - tempest.api.network.test_ports.PortsIpV6TestJSON.test_show_port - --------------------------------------------------------- -Test Case 11: Add Multiple Interfaces for an IPv6 Router --------------------------------------------------------- - -.. code-block:: bash - - tempest.api.network.test_routers.RoutersIpV6Test.test_add_multiple_router_interfaces - ------------------------------------------------------------------- -Test Case 12: Add and Remove an IPv6 Router Interface with port_id ------------------------------------------------------------------- - -.. code-block:: bash - - tempest.api.network.test_routers.RoutersIpV6Test.test_add_remove_router_interface_with_port_id - --------------------------------------------------------------------- -Test Case 13: Add and Remove an IPv6 Router Interface with subnet_id --------------------------------------------------------------------- - -.. code-block:: bash - - tempest.api.network.test_routers.RoutersIpV6Test.test_add_remove_router_interface_with_subnet_id - ------------------------------------------------------------------- -Test Case 14: Create, Update, Delete, List and Show an IPv6 Router ------------------------------------------------------------------- - -.. code-block:: bash - - tempest.api.network.test_routers.RoutersIpV6Test.test_create_show_list_update_delete_router - --------------------------------------------------------------------------- -Test Case 15: Create, Update, Delete, List and Show an IPv6 Security Group --------------------------------------------------------------------------- - -.. code-block:: bash - - tempest.api.network.test_security_groups.SecGroupIPv6Test.test_create_list_update_show_delete_security_group - ----------------------------------------------------------- -Test Case 16: Create, Delete and Show Security Group Rules ----------------------------------------------------------- - -.. code-block:: bash - - tempest.api.network.test_security_groups.SecGroupIPv6Test.test_create_show_delete_security_group_rule - --------------------------------------- -Test Case 17: List All Security Groups --------------------------------------- - -.. code-block:: bash - - tempest.api.network.test_security_groups.SecGroupIPv6Test.test_list_security_groups - --------------------------------------------------------- -Test Case 18: IPv6 Address Assignment - DHCPv6 Stateless --------------------------------------------------------- - -.. code-block:: bash - - tempest.scenario.test_network_v6.TestGettingAddress.test_dhcp6_stateless_from_os - --------------------------------------------------------------------- -Test Case 19: IPv6 Address Assignment - Dual Stack, DHCPv6 Stateless --------------------------------------------------------------------- - -.. code-block:: bash - - tempest.scenario.test_network_v6.TestGettingAddress.test_dualnet_dhcp6_stateless_from_os - ---------------------------------------------------------------------------- -Test Case 20: IPv6 Address Assignment - Multiple Prefixes, DHCPv6 Stateless ---------------------------------------------------------------------------- - -.. code-block:: bash - - tempest.scenario.test_network_v6.TestGettingAddress.test_multi_prefix_dhcpv6_stateless - ---------------------------------------------------------------------------------------- -Test Case 21: IPv6 Address Assignment - Dual Stack, Multiple Prefixes, DHCPv6 Stateless ---------------------------------------------------------------------------------------- - -.. code-block:: bash - - tempest.scenario.test_network_v6.TestGettingAddress.test_dualnet_multi_prefix_dhcpv6_stateless - ---------------------------------------------- -Test Case 22: IPv6 Address Assignment - SLAAC ---------------------------------------------- - -.. code-block:: bash - - tempest.scenario.test_network_v6.TestGettingAddress.test_slaac_from_os - ---------------------------------------------------------- -Test Case 23: IPv6 Address Assignment - Dual Stack, SLAAC ---------------------------------------------------------- - -.. code-block:: bash - - tempest.scenario.test_network_v6.TestGettingAddress.test_dualnet_slaac_from_os - ----------------------------------------------------------------- -Test Case 24: IPv6 Address Assignment - Multiple Prefixes, SLAAC ----------------------------------------------------------------- - -.. code-block:: bash - - tempest.scenario.test_network_v6.TestGettingAddress.test_multi_prefix_slaac - ----------------------------------------------------------------------------- -Test Case 25: IPv6 Address Assignment - Dual Stack, Multiple Prefixes, SLAAC ----------------------------------------------------------------------------- - -.. code-block:: bash - - tempest.scenario.test_network_v6.TestGettingAddress.test_dualnet_multi_prefix_slaac - -------------------------------------------- -Test Case 26: Service VM as an IPv6 vRouter -------------------------------------------- - -.. code-block:: bash - - # Refer to Yardstick Test Case 027 - # Instruction: http://artifacts.opnfv.org/ipv6/docs/configurationguide/index.html - # Step 1: Set up Service VM as an IPv6 vRouter - # 1.1: Install OPNFV and Preparation - # 1.2: Disable Security Groups in OpenStack ML2 Setup - # 1.3: Create IPv4 and IPv6 Neutron routers, networks and subnets - # 1.4: Boot vRouter VM, and Guest VM1 and Guest VM2 - # Step 2: Verify IPv6 Connectivity - # 2.1: ssh to Guest VM1 - # 2.2: Ping6 from Guest VM1 to Guest VM2 - # 2.3: Ping6 from Guest VM1 to vRouter VM - # 2.4: Ping6 from Guest VM1 to Neutron IPv6 Router Namespace - # Step 3: Tear down Setup - # 3.1: Delete Guest VM1, Guest VM2 and vRouter VM - # 3.2: Delete IPv4 and IPv6 Neutron routers, networks and subnets - # 3.3: Enable Security Groups - diff --git a/docs/testing/user/testspecification/old_files/ipv6/testplan.rst b/docs/testing/user/testspecification/old_files/ipv6/testplan.rst deleted file mode 100644 index 3470e7a6..00000000 --- a/docs/testing/user/testspecification/old_files/ipv6/testplan.rst +++ /dev/null @@ -1,34 +0,0 @@ -.. This work is licensed under a Creative Commons Attribution 4.0 International License. -.. http://creativecommons.org/licenses/by/4.0 -.. (c) OPNFV - -=============================== -OPNFV IPv6 Compliance Test Plan -=============================== - -Introduction -============ - -The IPv6 compliance test plan outlines the method for testing IPv6 Tenant Network feature -compliance with the OPNFV platform. - -Scope ------ - -This test, and other tests in the test suite, are designed to verify an entire SUT, -and not any individual component of the system. - -Test suite scope and procedures -=============================== - -The IPv6 compliance test suite will evaluate the ability for a SUT to support IPv6 -Tenant Network features and functionality provided by OPNFV platform. - -Please refer to the complete list of the test cases for details. - -Test suite execution -==================== - -Please refer to each test case for specific setup and execution procedure. - -.._[1]: http://www.opnfv.org diff --git a/docs/testing/user/testspecification/old_files/ipv6/testprocedure.rst b/docs/testing/user/testspecification/old_files/ipv6/testprocedure.rst deleted file mode 100644 index 2119ed61..00000000 --- a/docs/testing/user/testspecification/old_files/ipv6/testprocedure.rst +++ /dev/null @@ -1,9 +0,0 @@ -.. This work is licensed under a Creative Commons Attribution 4.0 International License. -.. http://creativecommons.org/licenses/by/4.0 -.. (c) Christopher Price (Ericsson AB) and others - -=================== -IPv6 test procedure -=================== - -Draft to be patched this week, someone feel free to work on this in parallel. diff --git a/docs/testing/user/testspecification/old_files/ipv6/testspecification.rst b/docs/testing/user/testspecification/old_files/ipv6/testspecification.rst deleted file mode 100644 index e51f2a5b..00000000 --- a/docs/testing/user/testspecification/old_files/ipv6/testspecification.rst +++ /dev/null @@ -1,57 +0,0 @@ -.. This work is licensed under a Creative Commons Attribution 4.0 International License. -.. http://creativecommons.org/licenses/by/4.0 -.. (c) Christopher Price (Ericsson AB) and others - -=============================================== -Test specification - Service VM as IPv6 vRouter -=============================================== - -Draft to be worked on, this represents the YardStick test but I would suggest we need to break -this into a set of tests which provide more details per action with boundary validation. - -Test Item -========= - -TBD -> IPv6 Ping... - -Identify the items or features to be tested by this test case. The item description and -definition can be referenced from any one of several sources, depending on the level of the -test case specification. It may be a good idea to reference the source documents as well. - -Environmental requirements -========================== - -For ipv6 Test Case 18-25, those test cases are scenario tests, they need to boot virtual -machines and ping6 in addition to test APIs, ping6 to vRouter is not supported by SDN controller -yet, such as Opendaylight (Boron and previous releases), so they are scenario dependent, -i.e., currently ipv6 Test Case 18-25 can only run on scenario os-nosdn-nofeature. - -Preconditions and procedural requirements -========================================= - -TBD - -.. <Start> -.. this section may be iterated over for a set of simillar test cases that would be run as one. - -Input Specifications -==================== - -TBD - -Output Specifications -===================== - -TBD - -.. <End> - -Test Reporting -============== - -The test report for this test case will be generated with links to relevant data sources. -This section can be updated once we have a template for the report in place. - -http://testresults.opnfv.org/grafana/dashboard/db/yardstick-tc027 - - |