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-rw-r--r--docs/testing/user/testspecification/dynamicnetwork/index.rst413
-rw-r--r--docs/testing/user/testspecification/securitygroup/index.rst450
-rw-r--r--docs/testing/user/testspecification/vimoperationscompute/index.rst661
-rw-r--r--docs/testing/user/testspecification/vimoperationsvolume/index.rst999
-rw-r--r--docs/testing/user/testspecification/vping/index.rst279
5 files changed, 2722 insertions, 80 deletions
diff --git a/docs/testing/user/testspecification/dynamicnetwork/index.rst b/docs/testing/user/testspecification/dynamicnetwork/index.rst
new file mode 100644
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+.. This work is licensed under a Creative Commons Attribution 4.0 International License.
+.. http://creativecommons.org/licenses/by/4.0
+.. (c) Huawei Technologies Co.,Ltd
+
+=====================================================
+Dynamic Network Runtime Operations test specification
+=====================================================
+
+.. toctree::
+ :maxdepth: 2
+
+Scope
+=====
+
+The dynamic network runtime operations test area evaluates the ability of the
+system under test to support dynamic network runtime operations through the
+life of a VNF (e.g. attach/detach, enable/disable, read stats).
+The tests in this test area will evaluate IPv4 network runtime operations
+functionality. These runtime operations includes hotpluging network interface,
+detaching floating-ip from VM, attaching floating-ip to VM, updating subnet's
+DNS, updating VM instance port admin state and updating router admin state.
+
+References
+==========
+
+- DNS
+
+ - https://docs.openstack.org/newton/networking-guide/config-dns-res.html
+
+Definitions and abbreviations
+=============================
+
+The following terms and abbreviations are used in conjunction with this test
+area
+
+- API - Application Programming Interface
+- DNS - Domain Name System
+- ICMP - Internet Control Message Protocol
+- MAC - Media Access Control
+- NIC - Network Interface Controller
+- NFVi - Network Functions Virtualization infrastructure
+- SSH - Secure Shell
+- TCP - Transmission Control Protocol
+- VIM - Virtual Infrastructure Manager
+- VM - Virtual Machine
+
+System Under Test (SUT)
+=======================
+
+The system under test is assumed to be the NFVi and VIM in operation on a
+Pharos compliant infrastructure.
+
+Test Area Structure
+===================
+
+The test area is structured based on dynamic network runtime operations. Each
+test case is able to run independently, i.e. irrelevant of the state created by
+a previous test. Specifically, every test performs clean-up operations which
+return the system to the same state as before the test.
+
+Test Descriptions
+=================
+
+API Used and Reference
+----------------------
+
+Security Groups: https://developer.openstack.org/api-ref/network/v2/index.html#security-groups-security-groups
+
+- create security group
+- delete security group
+
+Networks: https://developer.openstack.org/api-ref/networking/v2/index.html#networks
+
+- create network
+- delete network
+
+Routers and interface: https://developer.openstack.org/api-ref/networking/v2/index.html#routers-routers
+
+- create router
+- update router
+- delete router
+- add interface to router
+
+Subnets: https://developer.openstack.org/api-ref/networking/v2/index.html#subnets
+
+- create subnet
+- update subnet
+- delete subnet
+
+Servers: https://developer.openstack.org/api-ref/compute/
+
+- create keypair
+- create server
+- delete server
+- add/assign floating IP
+- disassociate floating IP
+
+Ports: https://developer.openstack.org/api-ref/networking/v2/index.html#ports
+
+- create port
+- update port
+- delete port
+
+Floating IPs: https://developer.openstack.org/api-ref/networking/v2/index.html#floating-ips-floatingips
+
+- create floating IP
+- delete floating IP
+
+--------------------------------------
+Test Case 1 - Basic network operations
+--------------------------------------
+
+Test case specification
+-----------------------
+
+tempest.scenario.test_network_basic_ops.TestNetworkBasicOps.test_network_basic_ops
+
+Test preconditions
+------------------
+
+* Nova has been configured to boot VMs with Neutron-managed networking
+* Openstack nova, neutron services are available
+* One public network
+
+Basic test flow execution description and pass/fail criteria
+------------------------------------------------------------
+
+Test execution
+''''''''''''''
+
+* Test action 1: Create a security group SG1, which has rules for allowing
+ incoming SSH and ICMP traffic
+* Test action 2: Create a neutron network NET1
+* Test action 3: Create a tenant router R1 which routes traffic to public network
+* Test action 4: Create a subnet SUBNET1 and add it as router interface
+* Test action 5: Create a server VM1 with SG1 and NET1, and assign a floating
+ IP FIP1 (via R1) to VM1
+* **Test assertion 1:** Ping FIP1 and SSH to VM1 via FIP1 successfully
+* **Test assertion 2:** Ping the internal gateway from VM1 successfully
+* **Test assertion 3:** Ping the default gateway from VM1 using its floating IP
+ FIP1 successfully
+* Test action 6: Detach FIP1 from VM1
+* **Test assertion 4:** VM1 becomes unreachable after FIP1 disassociated
+* Test action 7: Create a new server VM2 with NET1, and associate floating IP FIP1 to VM2
+* **Test assertion 5:** Ping FIP1 and SSH to VM2 via FIP1 successfully
+* Test action 8: Delete SG1, NET1, SUBNET1, R1, VM1, VM2 and FIP1
+
+Pass / fail criteria
+''''''''''''''''''''
+
+This test evaluates the functionality of basic network operations.
+Specifically, the test verifies that:
+
+* The Tempest host can ping VM's IP address. This implies, but does not
+ guarantee (see the ssh check that follows), that the VM has been assigned the
+ correct IP address and has connectivity to the Tempest host.
+
+* The Tempest host can perform key-based authentication to an ssh server hosted
+ at VM's IP address. This check guarantees that the IP address is associated
+ with the target VM.
+
+* The Tempest host can ssh into the VM via the IP address and successfully ping
+ the internal gateway address, implying connectivity to another VM on the same network.
+
+* The Tempest host can ssh into the VM via the IP address and successfully ping
+ the default gateway, implying external connectivity.
+
+* Detach the floating-ip from the VM and VM becomes unreachable.
+
+* Associate attached floating ip to a new VM and the new VM is reachable.
+
+* Floating IP status is updated correctly after each change.
+
+In order to pass this test, all test assertions listed in the test execution above need to pass.
+
+Post conditions
+---------------
+
+N/A
+
+---------------------------------------
+Test Case 2 - Hotplug network interface
+---------------------------------------
+
+Test case specification
+-----------------------
+
+tempest.scenario.test_network_basic_ops.TestNetworkBasicOps.test_hotplug_nic
+
+Test preconditions
+------------------
+
+* Nova has been configured to boot VMs with Neutron-managed networking
+* Compute interface_attach feature is enabled
+* VM vnic_type is not set to 'direct' or 'macvtap'
+* Openstack nova, neutron services are available
+* One public network
+
+Basic test flow execution description and pass/fail criteria
+------------------------------------------------------------
+
+Test execution
+''''''''''''''
+
+* Test action 1: Create a security group SG1, which has rules for allowing
+ incoming SSH and ICMP traffic
+* Test action 2: Create a neutron network NET1
+* Test action 3: Create a tenant router R1 which routes traffic to public network
+* Test action 4: Create a subnet SUBNET1 and add it as router interface
+* Test action 5: Create a server VM1 with SG1 and NET1, and assign a floating
+ IP FIP1 (via R1) to VM1
+* **Test assertion 1:** Ping FIP1 and SSH to VM1 with FIP1 successfully
+* Test action 6: Create a second neutron network NET2 and subnet SUBNET2, and
+ attach VM1 to NET2
+* Test action 7: Get VM1's ethernet interface NIC2 for NET2
+* **Test assertion 2:** Ping NET2's internal gateway successfully
+* Test action 8: Delete SG1, NET1, NET2, SUBNET1, SUBNET2, R1, NIC2, VM1 and FIP1
+
+Pass / fail criteria
+''''''''''''''''''''
+
+This test evaluates the functionality of adding network to an active VM.
+Specifically, the test verifies that:
+
+* New network interface can be added to an existing VM successfully.
+
+* The Tempest host can ssh into the VM via the IP address and successfully ping
+ the new network's internal gateway address, implying connectivity to the new network.
+
+In order to pass this test, all test assertions listed in the test execution above need to pass.
+
+Post conditions
+---------------
+
+N/A
+
+-------------------------------------------
+Test Case 3 - Update subnet's configuration
+-------------------------------------------
+
+Test case specification
+-----------------------
+
+tempest.scenario.test_network_basic_ops.TestNetworkBasicOps.test_subnet_details
+
+Test preconditions
+------------------
+
+* Nova has been configured to boot VMs with Neutron-managed networking
+* DHCP client is available
+* Tenant networks should be non-shared and isolated
+* Openstack nova, neutron services are available
+* One public network
+
+Basic test flow execution description and pass/fail criteria
+------------------------------------------------------------
+
+Test execution
+''''''''''''''
+
+* Test action 1: Create a security group SG1, which has rules for allowing
+ incoming SSH and ICMP traffic
+* Test action 2: Create a neutron network NET1
+* Test action 3: Create a tenant router R1 which routes traffic to public network
+* Test action 4: Create a subnet SUBNET1 and add it as router interface,
+ configure SUBNET1 with dns nameserver '1.2.3.4'
+* Test action 5: Create a server VM1 with SG1 and NET1, and assign a floating
+ IP FIP1 (via R1) to VM1
+* **Test assertion 1:** Ping FIP1 and SSH to VM1 with FIP1 successfully
+* **Test assertion 2:** Retrieve the VM1's configured dns and verify it matches
+ the one configured for SUBNET1
+* Test action 6: Update SUBNET1's dns to '9.8.7.6'
+* **Test assertion 3:** After triggering the DHCP renew from the VM manually,
+ retrieve the VM1's configured dns and verify it has been successfully updated
+* Test action 7: Delete SG1, NET1, SUBNET1, R1, VM1 and FIP1
+
+Pass / fail criteria
+''''''''''''''''''''
+
+This test evaluates the functionality of updating subnet's configurations.
+Specifically, the test verifies that:
+
+* Updating subnet's DNS server configurations are affecting the VMs.
+
+In order to pass this test, all test assertions listed in the test execution above need to pass.
+
+Post conditions
+---------------
+
+N/A
+
+----------------------------------------
+Test Case 4 - Update VM port admin state
+----------------------------------------
+
+Test case specification
+-----------------------
+
+tempest.scenario.test_network_basic_ops.TestNetworkBasicOps.test_update_instance_port_admin_state
+
+Test preconditions
+------------------
+
+* Nova has been configured to boot VMs with Neutron-managed networking
+* Network port_admin_state_change feature is enabled
+* Openstack nova, neutron services are available
+* One public network
+
+Basic test flow execution description and pass/fail criteria
+------------------------------------------------------------
+
+Test execution
+''''''''''''''
+
+* Test action 1: Create a security group SG1, which has rules for allowing
+ incoming SSH and ICMP traffic
+* Test action 2: Create a neutron network NET1
+* Test action 3: Create a tenant router R1 which routes traffic to public network
+* Test action 4: Create a subnet SUBNET1 and add it as router interface
+* Test action 5: Create a server VM1 with SG1 and NET1, and assign a floating
+ IP FIP1 (via R1) to VM1
+* Test action 6: Create a server VM2 with SG1 and NET1, and assign a floating
+ IP FIP2 to VM2
+* Test action 7: Get a SSH client SSHCLNT1 to VM2
+* **Test assertion 1:** Ping FIP1 and SSH to VM1 with FIP1 successfully
+* **Test assertion 2:** Ping FIP1 via SSHCLNT1 successfully
+* Test action 8: Update admin_state_up attribute of VM1 port to False
+* **Test assertion 3:** Ping FIP1 and SSH to VM1 with FIP1 failed
+* **Test assertion 4:** Ping FIP1 via SSHCLNT1 failed
+* Test action 9: Update admin_state_up attribute of VM1 port to True
+* **Test assertion 5:** Ping FIP1 and SSH to VM1 with FIP1 successfully
+* **Test assertion 6:** Ping FIP1 via SSHCLNT1 successfully
+* Test action 10: Delete SG1, NET1, SUBNET1, R1, SSHCLNT1, VM1, VM2 and FIP1, FIP2
+
+Pass / fail criteria
+''''''''''''''''''''
+
+This test evaluates the VM public and project connectivity status by changing VM port
+admin_state_up to True & False. Specifically, the test verifies that:
+
+* Public and project connectivity is reachable before updating admin_state_up
+ attribute of VM port to False.
+
+* Public and project connectivity is unreachable after updating admin_state_up
+ attribute of VM port to False.
+
+* Public and project connectivity is reachable after updating admin_state_up
+ attribute of VM port from False to True.
+
+In order to pass this test, all test assertions listed in the test execution above need to pass.
+
+Post conditions
+---------------
+
+N/A
+
+---------------------------------------
+Test Case 5 - Update router admin state
+---------------------------------------
+
+Test case specification
+-----------------------
+
+tempest.scenario.test_network_basic_ops.TestNetworkBasicOps.test_update_router_admin_state
+
+Test preconditions
+------------------
+
+* Nova has been configured to boot VMs with Neutron-managed networking
+* Multi-tenant networks capabilities
+* Openstack nova, neutron services are available
+* One public network
+
+Basic test flow execution description and pass/fail criteria
+------------------------------------------------------------
+
+Test execution
+''''''''''''''
+
+* Test action 1: Create a security group SG1, which has rules for allowing
+ incoming SSH and ICMP traffic
+* Test action 2: Create a neutron network NET1
+* Test action 3: Create a tenant router R1 which routes traffic to public network
+* Test action 4: Create a subnet SUBNET1 and add it as router interface
+* Test action 5: Create a server VM1 with SG1 and NET1, and assign a floating
+ IP FIP1 (via R1) to VM1
+* **Test assertion 1:** Ping FIP1 and SSH to VM1 with FIP1 successfully
+* Test action 6: Update admin_state_up attribute of R1 to False
+* **Test assertion 2:** Ping FIP1 and SSH to VM1 with FIP1 failed
+* Test action 7: Update admin_state_up attribute of R1 to True
+* **Test assertion 3:** Ping FIP1 and SSH to VM1 with FIP1 successfully
+* Test action 8: Delete SG1, NET1, SUBNET1, R1, VM1 and FIP1
+
+Pass / fail criteria
+''''''''''''''''''''
+
+This test evaluates the router public connectivity status by changing
+router admin_state_up to True & False.
+Specifically, the test verifies that:
+
+* Public connectivity is reachable before updating admin_state_up attribute of router to False.
+
+* Public connectivity is unreachable after updating admin_state_up attribute of router to False.
+
+* Public connectivity is reachable after updating admin_state_up attribute of router.
+ from False to True
+
+In order to pass this test, all test assertions listed in the test execution above need to pass.
+
+Post conditions
+---------------
+
+N/A
diff --git a/docs/testing/user/testspecification/securitygroup/index.rst b/docs/testing/user/testspecification/securitygroup/index.rst
new file mode 100644
index 00000000..0621b84d
--- /dev/null
+++ b/docs/testing/user/testspecification/securitygroup/index.rst
@@ -0,0 +1,450 @@
+.. This work is licensed under a Creative Commons Attribution 4.0 International License.
+.. http://creativecommons.org/licenses/by/4.0
+.. (c) Huawei Technologies Co.,Ltd
+
+===================================================
+Security Group and Port Security test specification
+===================================================
+
+.. toctree::
+ :maxdepth: 2
+
+Scope
+=====
+
+The security group and port security test area evaluates the ability of the
+system under test to support packet filtering by security group and port security.
+The tests in this test area will evaluate preventing MAC spoofing by port security,
+basic security group operations including testing cross/in tenant traffic, testing
+multiple security groups, using port security to disable security groups and
+updating security groups.
+
+References
+==========
+
+N/A
+
+Definitions and abbreviations
+=============================
+
+The following terms and abbreviations are used in conjunction with this test
+area
+
+- API - Application Programming Interface
+- ICMP - Internet Control Message Protocol
+- MAC - Media Access Control
+- NFVi - Network Functions Virtualization infrastructure
+- SSH - Secure Shell
+- TCP - Transmission Control Protocol
+- VIM - Virtual Infrastructure Manager
+- VM - Virtual Machine
+
+System Under Test (SUT)
+=======================
+
+The system under test is assumed to be the NFVi and VIM in operation on a
+Pharos compliant infrastructure.
+
+Test Area Structure
+===================
+
+The test area is structured based on the basic operations of security group and
+port security. Each test case is able to run independently, i.e. irrelevant of
+the state created by a previous test. Specifically, every test performs clean-up
+operations which return the system to the same state as before the test.
+
+Test Descriptions
+=================
+
+API Used and Reference
+----------------------
+
+Security Groups: https://developer.openstack.org/api-ref/network/v2/index.html#security-groups-security-groups
+
+- create security group
+- delete security group
+
+Networks: https://developer.openstack.org/api-ref/networking/v2/index.html#networks
+
+- create network
+- delete network
+- list networks
+- create floating ip
+- delete floating ip
+
+Routers and interface: https://developer.openstack.org/api-ref/networking/v2/index.html#routers-routers
+
+- create router
+- delete router
+- list routers
+- add interface to router
+
+Subnets: https://developer.openstack.org/api-ref/networking/v2/index.html#subnets
+
+- create subnet
+- list subnets
+- delete subnet
+
+Servers: https://developer.openstack.org/api-ref/compute/
+
+- create keypair
+- create server
+- delete server
+- add/assign floating ip
+
+Ports: https://developer.openstack.org/api-ref/networking/v2/index.html#ports
+
+- update port
+- list ports
+- show port details
+
+--------------------------------------------
+Test Case 1 - Port Security and MAC Spoofing
+--------------------------------------------
+
+Test case specification
+-----------------------
+
+tempest.scenario.test_network_basic_ops.TestNetworkBasicOps.test_port_security_macspoofing_port
+
+Test preconditions
+------------------
+
+* Neutron port-security extension API
+* Neutron security-group extension API
+* One public network
+
+Basic test flow execution description and pass/fail criteria
+------------------------------------------------------------
+
+Test execution
+''''''''''''''
+
+* Test action 1: Create a security group SG1, which has rules for allowing incoming
+ SSH and ICMP traffic
+* Test action 2: Create a neutron network NET1
+* Test action 3: Create a tenant router R1 which routes traffic to public network
+* Test action 4: Create a subnet SUBNET1 and add it as router interface
+* Test action 5: Create a server VM1 with SG1 and NET1, and assign a floating ip
+ FIP1 (via R1) to VM1
+* Test action 6: Verify can ping FIP1 successfully and can SSH to VM1 with FIP1
+* Test action 7: Create a second neutron network NET2 and subnet SUBNET2, and attach VM1 to NET2
+* Test action 8: Get VM1's ethernet interface NIC2 for NET2
+* Test action 9: Create second server VM2 on NET2
+* Test action 10: Verify VM1 is able to communicate with VM2 via NIC2
+* Test action 11: Login to VM1 and spoof the MAC address of NIC2 to "00:00:00:00:00:01"
+* Test action 12: Verify VM1 fails to communicate with VM2 via NIC2
+* **Test assertion 1:** The ping operation is failed
+* Test action 13: Update 'security_groups' to be none for VM1's NIC2 port
+* Test action 14: Update 'port_security_enable' to be False for VM1's NIC2 port
+* Test action 15: Verify now VM1 is able to communicate with VM2 via NIC2
+* **Test assertion 2:** The ping operation is successful
+* Test action 16: Delete SG1, NET1, NET2, SUBNET1, SUBNET2, R1, VM1, VM2 and FIP1
+
+Pass / fail criteria
+''''''''''''''''''''
+
+This test evaluates the ability to prevent MAC spoofing by using port security.
+Specifically, the test verifies that:
+
+* With port security, the ICMP packets from a spoof server cannot pass the port.
+
+* Without port security, the ICMP packets from a spoof server can pass the port.
+
+In order to pass this test, all test assertions listed in the test execution above need to pass.
+
+Post conditions
+---------------
+
+N/A
+
+------------------------------------------------------
+Test Case 2 - Test Security Group Cross Tenant Traffic
+------------------------------------------------------
+
+Test case specification
+-----------------------
+
+tempest.scenario.test_security_groups_basic_ops.TestSecurityGroupsBasicOps.test_cross_tenant_traffic
+
+Test preconditions
+------------------
+
+* Neutron security-group extension API
+* Two tenants
+* One public network
+
+Basic test flow execution description and pass/fail criteria
+------------------------------------------------------------
+
+Test execution
+''''''''''''''
+
+* Test action 1: Create a neutron network NET1 for primary tenant
+* Test action 2: Create a primary tenant router R1 which routes traffic to public network
+* Test action 3: Create a subnet SUBNET1 and add it as router interface
+* Test action 4: Create 2 empty security groups SG1 and SG2 for primary tenant
+* Test action 5: Add a tcp rule to SG1
+* Test action 6: Create a server VM1 with SG1, SG2 and NET1, and assign a floating ip
+ FIP1 (via R1) to VM1
+* Test action 7: Repeat test action 1 to 6 and create NET2, R2, SUBNET2, SG3, SG4,
+ FIP2 and VM2 for an alt_tenant
+* Test action 8: Verify VM1 fails to communicate with VM2 through FIP2
+* **Test assertion 1:** The ping operation is failed
+* Test action 9: Add ICMP rule to SG4
+* Test action 10: Verify VM1 is able to communicate with VM2 through FIP2
+* **Test assertion 2:** The ping operation is successful
+* Test action 11: Verify VM2 fails to communicate with VM1 through FIP1
+* **Test assertion 3:** The ping operation is failed
+* Test action 12: Add ICMP rule to SG2
+* Test action 13: Verify VM2 is able to communicate with VM1 through FIP1
+* **Test assertion 4:** The ping operation is successful
+* Test action 14: Delete SG1, SG2, SG3, SG4, NET1, NET2, SUBNET1, SUBNET2, R1, R2,
+ VM1, VM2, FIP1 and FIP2
+
+Pass / fail criteria
+''''''''''''''''''''
+
+This test evaluates the ability of the security group to filter packets cross tenant.
+Specifically, the test verifies that:
+
+* Without ICMP security group rule, the ICMP packets cannot be received by the server
+ in another tenant which differs from the source server.
+
+* With ingress ICMP security group rule enabled only at tenant1, the server in tenant2
+ can ping server in tenant1 but not the reverse direction.
+
+* With ingress ICMP security group rule enabled at tenant2 also, the ping works from both directions.
+
+In order to pass this test, all test assertions listed in the test execution above need to pass.
+
+Post conditions
+---------------
+
+N/A
+
+---------------------------------------------------
+Test Case 3 - Test Security Group in Tenant Traffic
+---------------------------------------------------
+
+Test case specification
+-----------------------
+
+tempest.scenario.test_security_groups_basic_ops.TestSecurityGroupsBasicOps.test_in_tenant_traffic
+
+Test preconditions
+------------------
+
+* Neutron security-group extension API
+* One public network
+
+Basic test flow execution description and pass/fail criteria
+------------------------------------------------------------
+
+Test execution
+''''''''''''''
+
+* Test action 1: Create a neutron network NET1
+* Test action 2: Create a tenant router R1 which routes traffic to public network
+* Test action 3: Create a subnet SUBNET1 and add it as router interface
+* Test action 4: Create 2 empty security groups SG1 and SG2
+* Test action 5: Add a tcp rule to SG1
+* Test action 6: Create a server VM1 with SG1, SG2 and NET1, and assign a floating ip
+ FIP1 (via R1) to VM1
+* Test action 7: Create second server VM2 with default security group and NET1
+* Test action 8: Verify VM1 fails to communicate with VM2 through VM2's fixed ip
+* **Test assertion 1:** The ping operation is failed
+* Test action 9: Add ICMP security group rule to default security group
+* Test action 10: Verify VM1 is able to communicate with VM2 through VM2's fixed ip
+* **Test assertion 2:** The ping operation is successful
+* Test action 11: Delete SG1, SG2, NET1, SUBNET1, R1, VM1, VM2 and FIP1
+
+Pass / fail criteria
+''''''''''''''''''''
+
+This test evaluates the ability of the security group to filter packets in one tenant.
+Specifically, the test verifies that:
+
+* Without ICMP security group rule, the ICMP packets cannot be received by the server
+ in the same tenant.
+
+* With ICMP security group rule, the ICMP packets can be received by the server
+ in the same tenant.
+
+In order to pass this test, all test assertions listed in the test execution above need to pass.
+
+Post conditions
+---------------
+
+N/A
+
+-------------------------------------------
+Test Case 4 - Test Multiple Security Groups
+-------------------------------------------
+
+Test case specification
+-----------------------
+
+tempest.scenario.test_security_groups_basic_ops.TestSecurityGroupsBasicOps.test_multiple_security_groups
+
+Test preconditions
+------------------
+
+* Neutron security-group extension API
+* One public network
+
+Basic test flow execution description and pass/fail criteria
+------------------------------------------------------------
+
+Test execution
+''''''''''''''
+
+* Test action 1: Create a neutron network NET1
+* Test action 2: Create a tenant router R1 which routes traffic to public network
+* Test action 3: Create a subnet SUBNET1 and add it as router interface
+* Test action 4: Create 2 empty security groups SG1 and SG2
+* Test action 5: Add a tcp rule to SG1
+* Test action 6: Create a server VM1 with SG1, SG2 and NET1, and assign a floating ip
+ FIP1 (via R1) to VM1
+* Test action 7: Verify failed to ping FIP1
+* **Test assertion 1:** The ping operation is failed
+* Test action 8: Add ICMP security group rule to SG2
+* Test action 9: Verify can ping FIP1 successfully
+* **Test assertion 2:** The ping operation is successful
+* Test action 10: Verify can SSH to VM1 with FIP1
+* **Test assertion 3:** Can SSH to VM1 successfully
+* Test action 11: Delete SG1, SG2, NET1, SUBNET1, R1, VM1 and FIP1
+
+Pass / fail criteria
+''''''''''''''''''''
+
+This test evaluates the ability of multiple security groups to filter packets.
+Specifically, the test verifies that:
+
+* A server with 2 security groups, one with TCP rule and without ICMP rule,
+ cannot receive the ICMP packets sending from the tempest host machine.
+
+* A server with 2 security groups, one with TCP rule and the other with ICMP rule,
+ can receive the ICMP packets sending from the tempest host machine and be connected
+ via the SSH client.
+
+In order to pass this test, all test assertions listed in the test execution above need to pass.
+
+Post conditions
+---------------
+
+N/A
+
+-------------------------------------------------------
+Test Case 5 - Test Port Security Disable Security Group
+-------------------------------------------------------
+
+Test case specification
+-----------------------
+
+tempest.scenario.test_security_groups_basic_ops.TestSecurityGroupsBasicOps.test_port_security_disable_security_group
+
+Test preconditions
+------------------
+
+* Neutron security-group extension API
+* Neutron port-security extension API
+* One public network
+
+Basic test flow execution description and pass/fail criteria
+------------------------------------------------------------
+
+Test execution
+''''''''''''''
+
+* Test action 1: Create a neutron network NET1
+* Test action 2: Create a tenant router R1 which routes traffic to public network
+* Test action 3: Create a subnet SUBNET1 and add it as router interface
+* Test action 4: Create 2 empty security groups SG1 and SG2
+* Test action 5: Add a tcp rule to SG1
+* Test action 6: Create a server VM1 with SG1, SG2 and NET1, and assign a floating ip
+ FIP1 (via R1) to VM1
+* Test action 7: Create second server VM2 with default security group and NET1
+* Test action 8: Update 'security_groups' to be none and 'port_security_enabled' to be
+ True for VM2's port
+* Test action 9: Verify VM1 fails to communicate with VM2 through VM2's fixed ip
+* **Test assertion 1:** The ping operation is failed
+* Test action 10: Update 'security_groups' to be none and 'port_security_enabled' to be
+ False for VM2's port
+* Test action 11: Verify VM1 is able to communicate with VM2 through VM2's fixed ip
+* **Test assertion 2:** The ping operation is successful
+* Test action 12: Delete SG1, SG2, NET1, SUBNET1, R1, VM1, VM2 and FIP1
+
+Pass / fail criteria
+''''''''''''''''''''
+
+This test evaluates the ability of port security to disable security group.
+Specifically, the test verifies that:
+
+* The ICMP packets cannot pass the port whose 'port_security_enabled' is True
+ and security_groups is none.
+
+* The ICMP packets can pass the port whose 'port_security_enabled' is False
+ and security_groups is none.
+
+In order to pass this test, all test assertions listed in the test execution above need to pass.
+
+Post conditions
+---------------
+
+N/A
+
+---------------------------------------------
+Test Case 6 - Test Update Port Security Group
+---------------------------------------------
+
+Test case specification
+-----------------------
+
+tempest.scenario.test_security_groups_basic_ops.TestSecurityGroupsBasicOps.test_port_update_new_security_group
+
+Test preconditions
+------------------
+
+* Neutron security-group extension API
+* One public network
+
+Basic test flow execution description and pass/fail criteria
+------------------------------------------------------------
+
+Test execution
+''''''''''''''
+
+* Test action 1: Create a neutron network NET1
+* Test action 2: Create a tenant router R1 which routes traffic to public network
+* Test action 3: Create a subnet SUBNET1 and add it as router interface
+* Test action 4: Create 2 empty security groups SG1 and SG2
+* Test action 5: Add a tcp rule to SG1
+* Test action 6: Create a server VM1 with SG1, SG2 and NET1, and assign a floating ip
+ FIP1 (via R1) to VM1
+* Test action 7: Create third empty security group SG3
+* Test action 8: Add ICMP rule to SG3
+* Test action 9: Create second server VM2 with default security group and NET1
+* Test action 10: Verify VM1 fails to communicate with VM2 through VM2's fixed ip
+* **Test assertion 1:** The ping operation is failed
+* Test action 11: Update 'security_groups' to be SG3 for VM2's port
+* Test action 12: Verify VM1 is able to communicate with VM2 through VM2's fixed ip
+* **Test assertion 2:** The ping operation is successful
+* Test action 13: Delete SG1, SG2, SG3, NET1, SUBNET1, R1, VM1, VM2 and FIP1
+
+Pass / fail criteria
+''''''''''''''''''''
+
+This test evaluates the ability to update port with a new security group.
+Specifically, the test verifies that:
+
+* Without ICMP security group rule, the VM cannot receive ICMP packets.
+
+* Update the port's security group which has ICMP rule, the VM can receive ICMP packets.
+
+In order to pass this test, all test assertions listed in the test execution above need to pass.
+
+Post conditions
+---------------
+
+N/A
diff --git a/docs/testing/user/testspecification/vimoperationscompute/index.rst b/docs/testing/user/testspecification/vimoperationscompute/index.rst
index 4ed37809..42a8e70e 100644
--- a/docs/testing/user/testspecification/vimoperationscompute/index.rst
+++ b/docs/testing/user/testspecification/vimoperationscompute/index.rst
@@ -1,6 +1,6 @@
.. This work is licensed under a Creative Commons Attribution 4.0 International License.
.. http://creativecommons.org/licenses/by/4.0
-.. (c) Ericsson AB
+.. (c) Ericsson AB, Huawei Technologies Co.,Ltd
=========================================
VIM compute operations test specification
@@ -12,47 +12,375 @@ VIM compute operations test specification
Scope
=====
+The VIM compute operations test area evaluates the ability of the system under
+test to support VIM compute operations. The test cases documented here are the
+compute API test cases in the OpenStack Interop guideline 2016.8 as implemented
+by the RefStack client. These test cases will evaluate basic OpenStack (as a VIM)
+compute operations, including:
+
+- Image management operations
+- Basic support operations
+- API version support operations
+- Quotas management operations
+- Basic server operations
+- Volume management operations
+
References
================
+- OpenStack Governance/Interop
+
+ - https://wiki.openstack.org/wiki/Governance/InteropWG
+
+- Defcore test cases
+
+ - https://github.com/openstack/interop/blob/master/2016.08.json
+
+- Refstack client
+
+ - https://github.com/openstack/refstack-client
Definitions and abbreviations
=============================
+The following terms and abbreviations are used in conjunction with this test area
-Use case description
-====================
-
+- API - Application Programming Interface
+- NFVi - Network Functions Virtualization infrastructure
+- SUT - System Under Test
+- UUID - Universally Unique Identifier
+- VIM - Virtual Infrastructure Manager
+- VM - Virtual Machine
System Under Test (SUT)
=======================
+The system under test is assumed to be the NFVi and VIM deployed with a Pharos compliant infrastructure.
-Test Suite Structure
+Test Area Structure
====================
+The test area is structured based on VIM compute API operations. Each test case is
+able to run independently, i.e. irrelevant of the state created by a previous test.
+Specifically, every test performs clean-up operations which return the system to
+the same state as before the test.
+
+For brevity, the test cases in this test area are summarized together based on
+the operations they are testing.
Test Descriptions
=================
+API Used and Reference
+----------------------
+
+Servers: https://developer.openstack.org/api-ref/compute/
+
+- create server
+- delete server
+- list servers
+- start server
+- stop server
+- update server
+- get server action
+- set server metadata
+- update server metadata
+- rebuild server
+
+- create image
+- delete image
+
+- create keypair
+- delete keypair
+
+Block storage: https://developer.openstack.org/api-ref/block-storage
+
+- create volume
+- delete volume
+- attach volume to server
+- detach volume from server
+
+-----------------------------------------------------
+Test Case 1 - Image operations within the Compute API
+-----------------------------------------------------
+
+Test case specification
+-----------------------
+
+tempest.api.compute.images.test_images_oneserver.ImagesOneServerTestJSON.test_create_delete_image
+tempest.api.compute.images.test_images_oneserver.ImagesOneServerTestJSON.test_create_image_specify_multibyte_character_image_name
+
+Test preconditions
+------------------
+
+* Compute server extension API
+
+Basic test flow execution description and pass/fail criteria
+------------------------------------------------------------
+
+Test execution
+''''''''''''''
+
+* Test action 1: Create a server VM1 with an image IMG1 and wait for VM1 to reach 'ACTIVE' status
+* Test action 2: Create a new server image IMG2 from VM1, specifying image name
+ and image metadata. Wait for IMG2 to reach 'ACTIVE' status, and then delete IMG2
+* **Test assertion 1:** Verify IMG2 is created with correct image name and image
+ metadata; verify IMG1's 'minRam' equals to IMG2's 'minRam' and IMG2's 'minDisk' equals
+ to IMG1's 'minDisk' or VM1's flavor disk size
+* **Test assertion 2:** Verify IMG2 is deleted correctly
+* Test action 3: Create another server IMG3 from VM1, specifying image name
+ with a 3 byte utf-8 character
+* **Test assertion 3:** Verify IMG3 is created correctly
+* Test action 4: Delete VM1, IMG1 and IMG3
+
+Pass / fail criteria
+''''''''''''''''''''
+
+This test evaluates the Compute API ability of creating image from server,
+deleting image, creating server image with multi-byte character name.
+Specifically, the test verifies that:
+
+* Compute server create image and delete image APIs work correctly.
+* Compute server image can be created with multi-byte character name.
+
+In order to pass this test, all test assertions listed in the test execution above need to pass.
+
+Post conditions
+---------------
+
+N/A
+
+-----------------------------------------------------
+Test Case 2 - Action operation within the Compute API
+-----------------------------------------------------
+
+Test case specification
+-----------------------
+
+tempest.api.compute.servers.test_instance_actions.InstanceActionsTestJSON.test_get_instance_action
+tempest.api.compute.servers.test_instance_actions.InstanceActionsTestJSON.test_list_instance_actions
+
+Test preconditions
+------------------
+
+* Compute server extension API
+
+Basic test flow execution description and pass/fail criteria
+------------------------------------------------------------
+
+Test execution
+''''''''''''''
+
+* Test action 1: Create a server VM1 and wait for VM1 to reach 'ACTIVE' status
+* Test action 2: Get the action details ACT_DTL of VM1
+* **Test assertion 1:** Verify ACT_DTL's 'instance_uuid' matches VM1's ID and
+ ACT_DTL's 'action' matched 'create'
+* Test action 3: Create a server VM2 and wait for VM2 to reach 'ACTIVE' status
+* Test action 4: Delete server VM2 and wait for VM2 to reach termination
+* Test action 5: Get the action list ACT_LST of VM2
+* **Test assertion 2:** Verify ACT_LST's length is 2 and two actions are 'create' and 'delete'
+* Test action 6: Delete VM1
+
+Pass / fail criteria
+''''''''''''''''''''
+
+This test evaluates the Compute API ability of getting the action details
+of a provided server and getting the action list of a deleted server.
+Specifically, the test verifies that:
+
+* Get the details of the action in a specified server.
+* List the actions that were performed on the specified server.
+
+In order to pass this test, all test assertions listed in the test execution above need to pass.
+
+Post conditions
+---------------
+
+N/A
+
+--------------------------------------------------------------------------
+Test Case 3 - Generate, import and delete SSH keys within Compute services
+--------------------------------------------------------------------------
+
+Test case specification
+-----------------------
+
+tempest.api.compute.servers.test_servers.ServersTestJSON.test_create_specify_keypair
+
+Test preconditions
+------------------
+
+* Compute server extension API
+
+Basic test flow execution description and pass/fail criteria
+------------------------------------------------------------
+
+Test execution
+''''''''''''''
+
+* Test action 1: Create a keypair KEYP1 and list all existing keypairs
+* Test action 2: Create a server VM1 with KEYP1 and wait for VM1 to reach 'ACTIVE' status
+* Test action 3: Show details of VM1
+* **Test assertion 1:** Verify value of 'key_name' in the details equals to the name of KEYP1
+* Test action 4: Delete KEYP1 and VM1
+
+Pass / fail criteria
+''''''''''''''''''''
+
+This test evaluates the Compute API ability of creating a keypair, listing
+keypairs and creating a server with a provided keypair.
+Specifically, the test verifies that:
+
+* Compute create keypair and list keypair APIs work correctly.
+* While creating a server, keypair can be specified.
+
+In order to pass this test, all test assertions listed in the test execution above need to pass.
+
+Post conditions
+---------------
+
+N/A
+
+--------------------------------------------------------
+Test Case 4 - List supported versions of the Compute API
+--------------------------------------------------------
+
+Test case specification
+-----------------------
+
+tempest.api.compute.test_versions.TestVersions.test_list_api_versions
+
+Test preconditions
+------------------
+
+* Compute versions extension API
+
+Basic test flow execution description and pass/fail criteria
+------------------------------------------------------------
+
+Test execution
+''''''''''''''
+
+* Test action 1: Get a List of versioned endpoints in the SUT
+* **Test assertion 1:** Verify endpoints versions start at 'v2.0'
+
+Pass / fail criteria
+''''''''''''''''''''
+
+This test evaluates the functionality of listing all available APIs to API consumers.
+Specifically, the test verifies that:
+
+* Compute list API versions API works correctly.
+
+In order to pass this test, all test assertions listed in the test execution above need to pass.
+
+Post conditions
+---------------
+
+N/A
+
+----------------------------------------------
+Test Case 5 - Quotas management in Compute API
+----------------------------------------------
+
+Test case specification
+-----------------------
+
+tempest.api.compute.test_quotas.QuotasTestJSON.test_get_default_quotas
+tempest.api.compute.test_quotas.QuotasTestJSON.test_get_quotas
+
+Test preconditions
+------------------
+
+* Compute quotas extension API
+
+Basic test flow execution description and pass/fail criteria
+------------------------------------------------------------
+
+Test execution
+''''''''''''''
+* Test action 1: Get the default quota set using the tenant ID
+* **Test assertion 1:** Verify the default quota set ID matches tenant ID and
+ the default quota set is complete
+* Test action 2: Get the quota set using the tenant ID
+* **Test assertion 2:** Verify the quota set ID matches tenant ID and the quota
+ set is complete
+* Test action 3: Get the quota set using the user ID
+* **Test assertion 3:** Verify the quota set ID matches tenant ID and the quota
+ set is complete
+
+Pass / fail criteria
+''''''''''''''''''''
+
+This test evaluates the functionality of getting quota set.
+Specifically, the test verifies that:
+
+* User can get the default quota set for its tenant.
+* User can get the quota set for its tenant.
+* User can get the quota set using user ID.
+
+In order to pass this test, all test assertions listed in the test execution above need to pass.
+
+Post conditions
+---------------
+
+N/A
+
+--------------------------------------------------------
+Test Case 6 - Basic server operations in the Compute API
+--------------------------------------------------------
+
+Test case specification
+-----------------------
+
+This test case evaluates the Compute API ability of basic server operations, including:
+
+- Create a server with admin password
+- Create a server with a name that already exists
+- Create a server with a numeric name
+- Create a server with a really long metadata
+- Create a server with a name whose length exceeding 255 characters
+- Create a server with an unknown flavor
+- Create a server with an unknown image ID
+- Create a server with an invalid network UUID
+- Delete a server using a server ID that exceeds length limit
+- Delete a server using a negative server ID
+- Get a nonexistent server details
+- Verify the instance host name is the same as the server name
+- Create a server with an invalid access IPv6 address
+- List all existent servers
+- Filter the (detailed) list of servers by flavor, image, server name, server status or limit
+- Lock a server and try server stop, unlock and retry
+- Get and delete metadata from a server
+- List and set metadata for a server
+- Reboot, rebuild, stop and start a server
+- Update a server's access addresses and server name
+
+The reference is,
+
+tempest.api.compute.servers.test_servers.ServersTestJSON.test_create_server_with_admin_password
+tempest.api.compute.servers.test_servers.ServersTestJSON.test_create_with_existing_server_name
+tempest.api.compute.servers.test_servers_negative.ServersNegativeTestJSON.test_create_numeric_server_name
+tempest.api.compute.servers.test_servers_negative.ServersNegativeTestJSON.test_create_server_metadata_exceeds_length_limit
+tempest.api.compute.servers.test_servers_negative.ServersNegativeTestJSON.test_create_server_name_length_exceeds_256
+tempest.api.compute.servers.test_servers_negative.ServersNegativeTestJSON.test_create_with_invalid_flavor
+tempest.api.compute.servers.test_servers_negative.ServersNegativeTestJSON.test_create_with_invalid_image
+tempest.api.compute.servers.test_servers_negative.ServersNegativeTestJSON.test_create_with_invalid_network_uuid
+tempest.api.compute.servers.test_servers_negative.ServersNegativeTestJSON.test_delete_server_pass_id_exceeding_length_limit
+tempest.api.compute.servers.test_servers_negative.ServersNegativeTestJSON.test_delete_server_pass_negative_id
+tempest.api.compute.servers.test_servers_negative.ServersNegativeTestJSON.test_get_non_existent_server
tempest.api.compute.servers.test_create_server.ServersTestJSON.test_host_name_is_same_as_server_name
+tempest.api.compute.servers.test_create_server.ServersTestManualDisk.test_host_name_is_same_as_server_name
+tempest.api.compute.servers.test_servers_negative.ServersNegativeTestJSON.test_invalid_ip_v6_address
tempest.api.compute.servers.test_create_server.ServersTestJSON.test_list_servers
tempest.api.compute.servers.test_create_server.ServersTestJSON.test_list_servers_with_detail
-tempest.api.compute.servers.test_create_server.ServersTestJSON.test_verify_created_server_vcpus
-tempest.api.compute.servers.test_create_server.ServersTestJSON.test_verify_server_details
-tempest.api.compute.servers.test_create_server.ServersTestManualDisk.test_host_name_is_same_as_server_name
tempest.api.compute.servers.test_create_server.ServersTestManualDisk.test_list_servers
tempest.api.compute.servers.test_create_server.ServersTestManualDisk.test_list_servers_with_detail
-tempest.api.compute.servers.test_create_server.ServersTestManualDisk.test_verify_created_server_vcpus
-tempest.api.compute.servers.test_create_server.ServersTestManualDisk.test_verify_server_details
-tempest.api.compute.servers.test_instance_actions.InstanceActionsTestJSON.test_get_instance_action
-tempest.api.compute.servers.test_instance_actions.InstanceActionsTestJSON.test_list_instance_actions
tempest.api.compute.servers.test_list_server_filters.ListServerFiltersTestJSON.test_list_servers_detailed_filter_by_flavor
tempest.api.compute.servers.test_list_server_filters.ListServerFiltersTestJSON.test_list_servers_detailed_filter_by_image
tempest.api.compute.servers.test_list_server_filters.ListServerFiltersTestJSON.test_list_servers_detailed_filter_by_server_name
tempest.api.compute.servers.test_list_server_filters.ListServerFiltersTestJSON.test_list_servers_detailed_filter_by_server_status
tempest.api.compute.servers.test_list_server_filters.ListServerFiltersTestJSON.test_list_servers_detailed_limit_results
-tempest.api.compute.servers.test_list_server_filters.ListServerFiltersTestJSON.test_list_servers_filter_by_active_status
tempest.api.compute.servers.test_list_server_filters.ListServerFiltersTestJSON.test_list_servers_filter_by_flavor
tempest.api.compute.servers.test_list_server_filters.ListServerFiltersTestJSON.test_list_servers_filter_by_image
tempest.api.compute.servers.test_list_server_filters.ListServerFiltersTestJSON.test_list_servers_filter_by_limit
@@ -72,41 +400,302 @@ tempest.api.compute.servers.test_list_servers_negative.ListServersNegativeTestJS
tempest.api.compute.servers.test_list_servers_negative.ListServersNegativeTestJSON.test_list_servers_status_non_existing
tempest.api.compute.servers.test_list_servers_negative.ListServersNegativeTestJSON.test_list_servers_with_a_deleted_server
tempest.api.compute.servers.test_server_actions.ServerActionsTestJSON.test_lock_unlock_server
-tempest.api.compute.servers.test_server_actions.ServerActionsTestJSON.test_reboot_server_hard
-tempest.api.compute.servers.test_server_actions.ServerActionsTestJSON.test_rebuild_server
-tempest.api.compute.servers.test_server_actions.ServerActionsTestJSON.test_stop_start_server
tempest.api.compute.servers.test_server_metadata.ServerMetadataTestJSON.test_delete_server_metadata_item
tempest.api.compute.servers.test_server_metadata.ServerMetadataTestJSON.test_get_server_metadata_item
tempest.api.compute.servers.test_server_metadata.ServerMetadataTestJSON.test_list_server_metadata
tempest.api.compute.servers.test_server_metadata.ServerMetadataTestJSON.test_set_server_metadata
tempest.api.compute.servers.test_server_metadata.ServerMetadataTestJSON.test_set_server_metadata_item
tempest.api.compute.servers.test_server_metadata.ServerMetadataTestJSON.test_update_server_metadata
-tempest.api.compute.servers.test_servers.ServersTestJSON.test_create_server_with_admin_password
-tempest.api.compute.servers.test_servers.ServersTestJSON.test_create_specify_keypair
-tempest.api.compute.servers.test_servers.ServersTestJSON.test_create_with_existing_server_name
-tempest.api.compute.servers.test_servers.ServersTestJSON.test_update_access_server_address
-tempest.api.compute.servers.test_servers.ServersTestJSON.test_update_server_name
-tempest.api.compute.servers.test_servers_negative.ServersNegativeTestJSON.test_create_numeric_server_name
-tempest.api.compute.servers.test_servers_negative.ServersNegativeTestJSON.test_create_server_metadata_exceeds_length_limit
-tempest.api.compute.servers.test_servers_negative.ServersNegativeTestJSON.test_create_server_name_length_exceeds_256
-tempest.api.compute.servers.test_servers_negative.ServersNegativeTestJSON.test_create_with_invalid_flavor
-tempest.api.compute.servers.test_servers_negative.ServersNegativeTestJSON.test_create_with_invalid_image
-tempest.api.compute.servers.test_servers_negative.ServersNegativeTestJSON.test_create_with_invalid_network_uuid
-tempest.api.compute.servers.test_servers_negative.ServersNegativeTestJSON.test_delete_server_pass_id_exceeding_length_limit
-tempest.api.compute.servers.test_servers_negative.ServersNegativeTestJSON.test_delete_server_pass_negative_id
-tempest.api.compute.servers.test_servers_negative.ServersNegativeTestJSON.test_get_non_existent_server
-tempest.api.compute.servers.test_servers_negative.ServersNegativeTestJSON.test_invalid_ip_v6_address
+tempest.api.compute.servers.test_servers_negative.ServersNegativeTestJSON.test_server_name_blank
+tempest.api.compute.servers.test_server_actions.ServerActionsTestJSON.test_reboot_server_hard
tempest.api.compute.servers.test_servers_negative.ServersNegativeTestJSON.test_reboot_non_existent_server
+tempest.api.compute.servers.test_server_actions.ServerActionsTestJSON.test_rebuild_server
tempest.api.compute.servers.test_servers_negative.ServersNegativeTestJSON.test_rebuild_deleted_server
tempest.api.compute.servers.test_servers_negative.ServersNegativeTestJSON.test_rebuild_non_existent_server
-tempest.api.compute.servers.test_servers_negative.ServersNegativeTestJSON.test_rebuild_reboot_deleted_server
-tempest.api.compute.servers.test_servers_negative.ServersNegativeTestJSON.test_server_name_blank
+tempest.api.compute.servers.test_server_actions.ServerActionsTestJSON.test_stop_start_server
tempest.api.compute.servers.test_servers_negative.ServersNegativeTestJSON.test_stop_non_existent_server
+tempest.api.compute.servers.test_servers.ServersTestJSON.test_update_access_server_address
+tempest.api.compute.servers.test_servers.ServersTestJSON.test_update_server_name
tempest.api.compute.servers.test_servers_negative.ServersNegativeTestJSON.test_update_name_of_non_existent_server
tempest.api.compute.servers.test_servers_negative.ServersNegativeTestJSON.test_update_server_name_length_exceeds_256
tempest.api.compute.servers.test_servers_negative.ServersNegativeTestJSON.test_update_server_set_empty_name
-tempest.api.compute.test_quotas.QuotasTestJSON.test_get_default_quotas
-tempest.api.compute.test_quotas.QuotasTestJSON.test_get_quotas
-tempest.api.compute.test_versions.TestVersions.test_list_api_versions
+tempest.api.compute.servers.test_create_server.ServersTestJSON.test_verify_created_server_vcpus
+tempest.api.compute.servers.test_create_server.ServersTestJSON.test_verify_server_details
+tempest.api.compute.servers.test_create_server.ServersTestManualDisk.test_verify_created_server_vcpus
+tempest.api.compute.servers.test_create_server.ServersTestManualDisk.test_verify_server_details
+
+tempest.api.compute.servers.test_list_server_filters.ListServerFiltersTestJSON.test_list_servers_filter_by_active_status
+tempest.api.compute.servers.test_servers_negative.ServersNegativeTestJSON.test_rebuild_reboot_deleted_server
+
+Note: the last 2 test cases are the alias of another 2 test cases respectively, which are
+
+tempest.api.compute.servers.test_list_server_filters.ListServerFiltersTestJSON.test_list_servers_filter_by_server_status
+tempest.api.compute.servers.test_servers_negative.ServersNegativeTestJSON.test_rebuild_deleted_server
+
+Alias should always be included so that the test run will be tempest version agnostic,
+which can be used to test different version of OpenStack.
+
+Test preconditions
+------------------
+
+* Compute quotas extension API
+
+Basic test flow execution description and pass/fail criteria
+------------------------------------------------------------
+
+Test execution
+''''''''''''''
+
+* Test action 1: Create a server VM1 with a admin password 'testpassword'
+* **Test assertion 1:** Verify the password returned in the response equals to 'testpassword'
+* Test action 2: Generate a VM name VM_NAME
+* Test action 3: Create 2 servers VM2 and VM3 both with name VM_NAME
+* **Test assertion 2:** Verify VM2's ID is not equal to VM3's ID, and VM2's name equal to VM3's name
+* Test action 4: Create a server VM4 with a numeric name '12345'
+* **Test assertion 3:** Verify creating VM4 failed
+* Test action 5: Create a server VM5 with a long metadata '{'a': 'b' * 260}'
+* **Test assertion 4:** Verify creating VM5 failed
+* Test action 6: Create a server VM6 with name length exceeding 255 characters
+* **Test assertion 5:** Verify creating VM6 failed
+* Test action 7: Create a server VM7 with an unknown flavor '-1'
+* **Test assertion 6:** Verify creating VM7 failed
+* Test action 8: Create a server VM8 with an unknown image ID '-1'
+* **Test assertion 7:** Verify creating VM8 failed
+* Test action 9: Create a server VM9 with an invalid network UUID 'a-b-c-d-e-f-g-h-i-j'
+* **Test assertion 8:** Verify creating VM9 failed
+* Test action 10: Delete a server using a server ID that exceeds system's max integer limit
+* **Test assertion 9:** Verify deleting server failed
+* Test action 11: Delete a server using a server ID '-1'
+* **Test assertion 10:** Verify deleting server failed
+* Test action 12: Get a nonexistent server by using a random generated server ID
+* **Test assertion 11:** Verify get server failed
+* Test action 13: SSH into a provided server and get server's hostname
+* **Test assertion 12:** Verify server's host name is the same as the server name
+* Test action 14: SSH into a provided server and get server's hostname (manual disk configuration)
+* **Test assertion 13:** Verify server's host name is the same as the server name (manual disk configuration)
+* Test action 15: Create a server with an invalid access IPv6 address
+* **Test assertion 14:** Verify creating server failed, a bad request error is returned in response
+* Test action 16: List all existent servers
+* **Test assertion 15:** Verify a provided server is in the server list
+* Test action 17: List all existent servers in detail
+* **Test assertion 16:** Verify a provided server is in the detailed server list
+* Test action 18: List all existent servers (manual disk configuration)
+* **Test assertion 17:** Verify a provided server is in the server list (manual disk configuration)
+* Test action 19: List all existent servers in detail (manual disk configuration)
+* **Test assertion 18:** Verify a provided server is in the detailed server list (manual disk configuration)
+* Test action 20: List all existent servers in detail and filter the server list by flavor
+* **Test assertion 19:** Verify the filtered server list is correct
+* Test action 21: List all existent servers in detail and filter the server list by image
+* **Test assertion 20:** Verify the filtered server list is correct
+* Test action 22: List all existent servers in detail and filter the server list by server name
+* **Test assertion 21:** Verify the filtered server list is correct
+* Test action 23: List all existent servers in detail and filter the server list by server status
+* **Test assertion 22:** Verify the filtered server list is correct
+* Test action 24: List all existent servers in detail and filter the server list by display limit '1'
+* **Test assertion 23:** Verify the length of filtered server list is 1
+* Test action 25: List all existent servers and filter the server list by flavor
+* **Test assertion 24:** Verify the filtered server list is correct
+* Test action 26: List all existent servers and filter the server list by image
+* **Test assertion 25:** Verify the filtered server list is correct
+* Test action 27: List all existent servers and filter the server list by display limit '1'
+* **Test assertion 26:** Verify the length of filtered server list is 1
+* Test action 28: List all existent servers and filter the server list by server name
+* **Test assertion 27:** Verify the filtered server list is correct
+* Test action 29: List all existent servers and filter the server list by server status
+* **Test assertion 28:** Verify the filtered server list is correct
+* Test action 30: List all existent servers and filter the server list by server name wildcard
+* **Test assertion 29:** Verify the filtered server list is correct
+* Test action 31: List all existent servers and filter the server list by part of server name
+* **Test assertion 30:** Verify the filtered server list is correct
+* Test action 32: List all existent servers and filter the server list by a future change-since date
+* **Test assertion 31:** Verify the filtered server list is empty
+* Test action 33: List all existent servers and filter the server list by a invalid change-since date format
+* **Test assertion 32:** Verify a bad request error is returned in the response
+* Test action 34: List all existent servers and filter the server list by display limit '1'
+* **Test assertion 33:** Verify the length of filtered server list is 1
+* Test action 35: List all existent servers and filter the server list by a
+ display limit value greater than the length of the server list
+* **Test assertion 34:** Verify the length of filtered server list equals to the length of server list
+* Test action 36: List all existent servers and filter the server list by display limit '-1'
+* **Test assertion 35:** Verify a bad request error is returned in the response
+* Test action 37: List all existent servers and filter the server list by a string type limit value 'testing'
+* **Test assertion 36:** Verify a bad request error is returned in the response
+* Test action 38: List all existent servers and filter the server list by a nonexistent flavor
+* **Test assertion 37:** Verify the filtered server list is empty
+* Test action 39: List all existent servers and filter the server list by a nonexistent image
+* **Test assertion 38:** Verify the filtered server list is empty
+* Test action 40: List all existent servers and filter the server list by a nonexistent server name
+* **Test assertion 39:** Verify the filtered server list is empty
+* Test action 41: List all existent servers in detail and search the server list for a deleted server
+* **Test assertion 40:** Verify the deleted server is not in the server list
+* Test action 42: List all existent servers and filter the server list by a nonexistent server status
+* **Test assertion 41:** Verify the filtered server list is empty
+* Test action 43: List all existent servers in detail
+* **Test assertion 42:** Verify a provided deleted server's id is not in the server list
+* Test action 44: Lock a provided server VM10 and retrieve the server's status
+* **Test assertion 43:** Verify VM10 is in 'ACTIVE' status
+* Test action 45: Stop VM10
+* **Test assertion 44:** Verify stop VM10 failed
+* Test action 46: Unlock VM10 and stop VM10 again
+* **Test assertion 45:** Verify VM10 is stopped and in 'SHUTOFF' status
+* Test action 47: Start VM10
+* **Test assertion 46:** Verify VM10 is in 'ACTIVE' status
+* Test action 48: Delete metadata item 'key1' from a provided server
+* **Test assertion 47:** Verify the metadata item is removed
+* Test action 49: Get metadata item 'key2' from a provided server
+* **Test assertion 48:** Verify the metadata item is correct
+* Test action 50: List all metadata key/value pair for a provided server
+* **Test assertion 49:** Verify all metadata are retrieved correctly
+* Test action 51: Set metadata {'meta2': 'data2', 'meta3': 'data3'} for a provided server
+* **Test assertion 50:** Verify server's metadata are replaced correctly
+* Test action 52: Set metadata item nova's value to 'alt' for a provided server
+* **Test assertion 51:** Verify server's metadata are set correctly
+* Test action 53: Update metadata {'key1': 'alt1', 'key3': 'value3'} for a provided server
+* **Test assertion 52:** Verify server's metadata are updated correctly
+* Test action 54: Create a server with empty name parameter
+* **Test assertion 53:** Verify create server failed
+* Test action 55: Hard reboot a provided server
+* **Test assertion 54:** Verify server is rebooted successfully
+* Test action 56: Soft reboot a nonexistent server
+* **Test assertion 55:** Verify reboot failed, an error is returned in the response
+* Test action 57: Rebuild a provided server with new image, new server name and metadata
+* **Test assertion 56:** Verify server is rebuilt successfully, server image, name and metadata are correct
+* Test action 58: Create a server VM11
+* Test action 59: Delete VM11 and wait for VM11 to reach termination
+* Test action 60: Rebuild VM11 with another image
+* **Test assertion 57:** Verify rebuild server failed, an error is returned in the response
+* Test action 61: Rebuild a nonexistent server
+* **Test assertion 58:** Verify rebuild server failed, an error is returned in the response
+* Test action 62: Stop a provided server
+* **Test assertion 59:** Verify server reaches 'SHUTOFF' status
+* Test action 63: Start the stopped server
+* **Test assertion 60:** Verify server reaches 'ACTIVE' status
+* Test action 64: Stop a provided server
+* **Test assertion 61:** Verify stop server failed, an error is returned in the response
+* Test action 65: Create a server VM12 and wait it to reach 'ACTIVE' status
+* Test action 66: Update VM12's IPv4 and IPv6 access addresses
+* **Test assertion 62:** Verify VM12's access addresses have been updated correctly
+* Test action 67: Create a server VM13 and wait it to reach 'ACTIVE' status
+* Test action 68: Update VM13's server name with non-ASCII characters '\u00CD\u00F1st\u00E1\u00F1c\u00E9'
+* **Test assertion 63:** Verify VM13's server name has been updated correctly
+* Test action 69: Update the server name of a nonexistent server
+* **Test assertion 64:** Verify update server name failed, an 'object not found' error is returned in the response
+* Test action 70: Update a provided server's name with a 256-character long name
+* **Test assertion 65:** Verify update server name failed, a bad request is returned in the response
+* Test action 71: Update a provided server's server name with an empty string
+* **Test assertion 66:** Verify update server name failed, a bad request error is returned in the response
+* Test action 72: Get the number of vcpus of a provided server
+* Test action 73: Get the number of vcpus stated by the server's flavor
+* **Test assertion 67:** Verify that the number of vcpus reported by the server
+ matches the amount stated by the server's flavor
+* Test action 74: Create a server VM14
+* **Test assertion 68:** Verify VM14's server attributes are set correctly
+* Test action 75: Get the number of vcpus of a provided server (manual disk configuration)
+* Test action 76: Get the number of vcpus stated by the server's flavor (manual disk configuration)
+* **Test assertion 69:** Verify that the number of vcpus reported by the server
+ matches the amount stated by the server's flavor (manual disk configuration)
+* Test action 77: Create a server VM15 (manual disk configuration)
+* **Test assertion 70:** Verify VM15's server attributes are set correctly (manual disk configuration)
+* Test action 78: Delete all VMs created
+
+Pass / fail criteria
+''''''''''''''''''''
+
+This test evaluates the functionality of basic server operations.
+Specifically, the test verifies that:
+
+* If an admin password is provided on server creation, the server's root password should be set to that password
+* Create a server with a name that already exists is allowed
+* Create a server with a numeric name or a name that exceeds the length limit is not allowed
+* Create a server with a metadata that exceeds the length limit is not allowed
+* Create a server with an invalid flavor, an invalid image or an invalid network UUID is not allowed
+* Delete a server with a server ID that exceeds the length limit or a nonexistent server ID is not allowed
+* A provided server's host name is the same as the server name
+* Create a server with an invalid IPv6 access address is not allowed
+* A created server is in the (detailed) list of servers
+* Filter the (detailed) list of servers by flavor, image, server name, server status,
+ and display limit, respectively.
+* Filter the list of servers by a future date
+* Filter the list of servers by an invalid date format, a negative display limit or a string type
+ display limit value is not allowed
+* Filter the list of servers by a nonexistent flavor, image, server name or server status is not allowed
+* Deleted servers are not in the list of servers
+* Deleted servers do not show by default in list of servers
+* Locked server is not allowed to be stopped by non-admin user
+* Can get and delete metadata from servers
+* Can list, set and update server metadata
+* Create a server with name parameter empty is not allowed
+* Hard reboot a server and the server should be power cycled
+* Reboot, rebuild and stop a nonexistent server is not allowed
+* Rebuild a server using the provided image and metadata
+* Stop and restart a server
+* A server's name and access addresses can be updated
+* Update the name of a nonexistent server is not allowed
+* Update name of a server to a name that exceeds the name length limit is not allowed
+* Update name of a server to an empty string is not allowed
+* The number of vcpus reported by the server matches the amount stated by the server's flavor
+* The specified server attributes are set correctly
+
+In order to pass this test, all test assertions listed in the test execution above need to pass.
+
+Post conditions
+---------------
+
+N/A
+
+-----------------------------------------------------------------
+Test Case 7 - Retrieve volume information through the Compute API
+-----------------------------------------------------------------
+
+Test case specification
+-----------------------
+
+This test case evaluates the Compute API ability of attaching volume to a
+specific server and retrieve volume information, the reference is,
+
tempest.api.compute.volumes.test_attach_volume.AttachVolumeTestJSON.test_attach_detach_volume
tempest.api.compute.volumes.test_attach_volume.AttachVolumeTestJSON.test_list_get_volume_attachments
+
+Test preconditions
+------------------
+
+* Compute volume extension API
+
+Basic test flow execution description and pass/fail criteria
+------------------------------------------------------------
+
+Test execution
+''''''''''''''
+
+* Test action 1: Create a server VM1 and a volume VOL1
+* Test action 2: Attach VOL1 to VM1
+* **Test assertion 1:** Stop VM1 successfully and wait VM1 to reach 'SHUTOFF' status
+* **Test assertion 2:** Start VM1 successfully and wait VM1 to reach 'ACTIVE' status
+* **Test assertion 3:** SSH into VM1 and verify VOL1 is in VM1's root disk devices
+* Test action 3: Detach VOL1 from VM1
+* **Test assertion 4:** Stop VM1 successfully and wait VM1 to reach 'SHUTOFF' status
+* **Test assertion 5:** Start VM1 successfully and wait VM1 to reach 'ACTIVE' status
+* **Test assertion 6:** SSH into VM1 and verify VOL1 is not in VM1's root disk devices
+* Test action 4: Create a server VM2 and a volume VOL2
+* Test action 5: Attach VOL2 to VM2
+* Test action 6: List VM2's volume attachments
+* **Test assertion 7:** Verify the length of the list is 1 and VOL2 attachment is in the list
+* Test action 7: Retrieve VM2's volume information
+* **Test assertion 8:** Verify volume information is correct
+* Test action 8: Delete VM1, VM2, VOL1 and VOL2
+
+Pass / fail criteria
+''''''''''''''''''''
+
+This test evaluates the functionality of retrieving volume information.
+Specifically, the test verifies that:
+
+* Stop and start a server with an attached volume work correctly.
+* Retrieve a server's volume information correctly.
+
+In order to pass this test, all test assertions listed in the test execution above need to pass.
+
+Post conditions
+---------------
+
+N/A
diff --git a/docs/testing/user/testspecification/vimoperationsvolume/index.rst b/docs/testing/user/testspecification/vimoperationsvolume/index.rst
index ce039a5b..9a76c37c 100644
--- a/docs/testing/user/testspecification/vimoperationsvolume/index.rst
+++ b/docs/testing/user/testspecification/vimoperationsvolume/index.rst
@@ -1,36 +1,512 @@
.. This work is licensed under a Creative Commons Attribution 4.0 International License.
.. http://creativecommons.org/licenses/by/4.0
-.. (c) Ericsson AB
+.. (c) Ericsson AB, Huawei Technologies Co.,Ltd
-========================================
+=========================================
VIM volume operations test specification
-========================================
+=========================================
.. toctree::
:maxdepth: 2
-Each test case requires documentation according to:
-* Use case specification
-* Test preconditions
-* Basic test flow execution descriptor
-* Post conditions and pass fail criteria
+Scope
+=====
+
+The VIM volume operations test area evaluates the ability of the system under
+test to support VIM volume operations. The test cases documented here are the
+volume API test cases in the OpenStack Interop guideline 2016.8 as implemented
+by the RefStack client. These test cases will evaluate basic OpenStack (as a VIM)
+volume operations, including:
+
+- Volume attach and detach operations
+- Volume service availability zone operations
+- Volume cloning operations
+- Image copy-to-volume operations
+- Volume creation and deletion operations
+- Volume service extension listing
+- Volume metadata operations
+- Volume snapshot operations
+
+References
+================
+
+- OpenStack Governance/Interop
+
+ - https://wiki.openstack.org/wiki/Governance/InteropWG
+
+- Defcore test cases
+
+ - https://github.com/openstack/interop/blob/master/2016.08.json
+
+- Refstack client
+
+ - https://github.com/openstack/refstack-client
+
+Definitions and abbreviations
+=============================
+
+The following terms and abbreviations are used in conjunction with this test area
+
+- API - Application Programming Interface
+- NFVi - Network Functions Virtualization infrastructure
+- SUT - System Under Test
+- VIM - Virtual Infrastructure Manager
+- VM - Virtual Machine
+
+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 VIM volume API operations. Each test case is
+able to run independently, i.e. irrelevant of the state created by a previous test.
+Specifically, every test performs clean-up operations which return the system to
+the same state as before the test.
+
+For brevity, the test cases in this test area are summarized together based on
+the operations they are testing.
+
+Test Descriptions
+=================
+
+API Used and Reference
+----------------------
+
+Block storage: https://developer.openstack.org/api-ref/block-storage
+
+- create volume
+- delete volume
+- update volume
+- attach volume to server
+- detach volume from server
+- create volume metadata
+- update volume metadata
+- delete volume metadata
+- list volume
+
+- create snapshot
+- update snapshot
+- delete snapshot
+
+------------------------------------------------------------------------
+Test Case 1 - Volume attach and detach operations with the Cinder v2 API
+------------------------------------------------------------------------
+
+Test case specification
+-----------------------
-tempest.api.volume.test_availability_zone.AvailabilityZoneV2TestJSON.test_get_availability_zone_list
-tempest.api.volume.test_extensions.ExtensionsV2TestJSON.test_list_extensions
-tempest.api.volume.test_snapshot_metadata.SnapshotV2MetadataTestJSON.test_create_get_delete_snapshot_metadata
-tempest.api.volume.test_snapshot_metadata.SnapshotV2MetadataTestJSON.test_crud_snapshot_metadata
-tempest.api.volume.test_snapshot_metadata.SnapshotV2MetadataTestJSON.test_update_snapshot_metadata_item
-tempest.api.volume.test_volume_metadata.VolumesV2MetadataTest.test_create_get_delete_volume_metadata
-tempest.api.volume.test_volume_metadata.VolumesV2MetadataTest.test_crud_volume_metadata
-tempest.api.volume.test_volume_metadata.VolumesV2MetadataTest.test_update_volume_metadata_item
tempest.api.volume.test_volumes_actions.VolumesV2ActionsTest.test_attach_detach_volume_to_instance
tempest.api.volume.test_volumes_actions.VolumesV2ActionsTest.test_get_volume_attachment
-tempest.api.volume.test_volumes_actions.VolumesV2ActionsTest.test_reserve_unreserve_volume
-tempest.api.volume.test_volumes_actions.VolumesV2ActionsTest.test_volume_bootable
-tempest.api.volume.test_volumes_actions.VolumesV2ActionsTest.test_volume_readonly_update
-tempest.api.volume.test_volumes_get.VolumesV2GetTest.test_volume_create_get_update_delete
+tempest.api.volume.test_volumes_negative.VolumesV2NegativeTest.test_attach_volumes_with_nonexistent_volume_id
+tempest.api.volume.test_volumes_negative.VolumesV2NegativeTest.test_detach_volumes_with_invalid_volume_id
+
+Test preconditions
+------------------
+
+* Volume extension API
+
+Basic test flow execution description and pass/fail criteria
+------------------------------------------------------------
+
+Test execution
+''''''''''''''
+* Test action 1: Create a server VM1
+* Test action 2: Attach a provided VOL1 to VM1
+* **Test assertion 1:** Verify VOL1 is in 'in-use' status
+* Test action 3: Detach VOL1 from VM1
+* **Test assertion 2:** Verify VOL1 is in 'available' status
+* Test action 4: Create a server VM2
+* Test action 5: Attach a provided VOL2 to VM2 and wait for VOL2 to reach 'in-use' status
+* Test action 6: Retrieve VOL2's attachment information ATTCH_INFO
+* **Test assertion 3:** Verify ATTCH_INFO is correct
+* Test action 7: Create a server VM3 and wait for VM3 to reach 'ACTIVE' status
+* Test action 8: Attach a non-existent volume to VM3
+* **Test assertion 4:** Verify attach volume failed, a 'NOT FOUND' error is returned in the response
+* Test action 9: Detach a volume from a server by using an invalid volume ID
+* **Test assertion 5:** Verify detach volume failed, a 'NOT FOUND' error is returned in the response
+
+Pass / fail criteria
+''''''''''''''''''''
+
+This test evaluates the volume API ability of attaching a volume to a server
+and detaching a volume from a server. Specifically, the test verifies that:
+
+* Volumes can be attached and detached from servers.
+* Volume attachment information can be retrieved.
+* Attach and detach a volume using an invalid volume ID is not allowed.
+
+In order to pass this test, all test assertions listed in the test execution above need to pass.
+
+Post conditions
+---------------
+
+N/A
+
+--------------------------------------------------------------------------------
+Test Case 2 - Volume service availability zone operations with the Cinder v2 API
+--------------------------------------------------------------------------------
+
+Test case specification
+-----------------------
+
+tempest.api.volume.test_availability_zone.AvailabilityZoneV2TestJSON.test_get_availability_zone_list
+
+tempest.api.volume.test_availability_zone.AvailabilityZoneTestJSON.test_get_availability_zone_list
+
+Note: the second test case is the alias of the first one.
+Alias should always be included so that the test run will be tempest version agnostic,
+which can be used to test different version of Openstack.
+
+Test preconditions
+------------------
+
+* Volume extension API
+
+Basic test flow execution description and pass/fail criteria
+------------------------------------------------------------
+
+Test execution
+''''''''''''''
+* Test action 1: List all existent availability zones
+* **Test assertion 1:** Verify the availability zone list length is greater than 0
+
+Pass / fail criteria
+''''''''''''''''''''
+
+This test case evaluates the volume API ability of listing availability zones.
+Specifically, the test verifies that:
+
+* Availability zones can be listed.
+
+In order to pass this test, all test assertions listed in the test execution above need to pass.
+
+Post conditions
+---------------
+
+N/A
+
+--------------------------------------------------------------
+Test Case 3 - Volume cloning operations with the Cinder v2 API
+--------------------------------------------------------------
+
+Test case specification
+-----------------------
+
tempest.api.volume.test_volumes_get.VolumesV2GetTest.test_volume_create_get_update_delete_as_clone
+
+tempest.api.volume.test_volumes_get.VolumesGetTest.test_volume_create_get_update_delete_as_clone
+
+Note: the second test case is the alias of the first one.
+Alias should always be included so that the test run will be tempest version agnostic,
+which can be used to test different version of Openstack.
+
+Test preconditions
+------------------
+
+* Volume extension API
+* Cinder volume clones feature is enabled
+
+Basic test flow execution description and pass/fail criteria
+------------------------------------------------------------
+
+Test execution
+''''''''''''''
+* Test action 1: Create a volume VOL1
+* Test action 2: Create a volume VOL2 from source volume VOL1 with a specific name and metadata
+* Test action 2: Wait for VOL2 to reach 'available' status
+* **Test assertion 1:** Verify the name of VOL2 is correct
+* Test action 3: Retrieve VOL2's detail information
+* **Test assertion 2:** Verify the retrieved volume name, ID and metadata are the same as VOL2
+* **Test assertion 3:** Verify VOL2's bootable flag is 'False'
+* Test action 4: Update the name of VOL2 with the original value
+* Test action 5: Update the name of VOL2 with a new value
+* **Test assertion 4:** Verify the name of VOL2 is updated successfully
+* Test action 6: Create a volume VOL3 with no name specified and a description contains characters '@#$%^*'
+* **Test assertion 5:** Verify VOL3 is created successfully
+* Test action 7: Update the name of VOL3 and description with the original value
+* **Test assertion 6:** Verify VOL3's bootable flag is 'False'
+
+Pass / fail criteria
+''''''''''''''''''''
+
+This test case evaluates the volume API ability of creating a cloned volume from a source volume,
+getting cloned volume detail information and updating cloned volume attributes.
+
+Specifically, the test verifies that:
+
+* Cloned volume can be created from a source volume.
+* Cloned volume detail information can be retrieved.
+* Cloned volume detail information can be updated.
+
+In order to pass this test, all test assertions listed in the test execution above need to pass.
+
+Post conditions
+---------------
+
+N/A
+
+--------------------------------------------------------------------
+Test Case 4 - Image copy-to-volume operations with the Cinder v2 API
+--------------------------------------------------------------------
+
+Test case specification
+-----------------------
+
+tempest.api.volume.test_volumes_actions.VolumesV2ActionsTest.test_volume_bootable
tempest.api.volume.test_volumes_get.VolumesV2GetTest.test_volume_create_get_update_delete_from_image
+
+tempest.api.volume.test_volumes_get.VolumesActionsTest.test_volume_bootable
+tempest.api.volume.test_volumes_get.VolumesGetTest.test_volume_create_get_update_delete_from_image
+
+Note: the last 2 test cases are the alias of the former 2.
+Alias should always be included so that the test run will be tempest version agnostic,
+which can be used to test different version of Openstack.
+
+Test preconditions
+------------------
+
+* Volume extension API
+
+Basic test flow execution description and pass/fail criteria
+------------------------------------------------------------
+
+Test execution
+''''''''''''''
+* Test action 1: Set a provided volume VOL1's bootable flag to 'True'
+* Test action 2: Retrieve VOL1's bootable flag
+* **Test assertion 1:** Verify VOL1's bootable flag is 'True'
+* Test action 3: Set a provided volume VOL1's bootable flag to 'False'
+* Test action 4: Retrieve VOL1's bootable flag
+* **Test assertion 2:** Verify VOL1's bootable flag is 'False'
+* Test action 5: Create a bootable volume VOL2 from one image with a specific name and metadata
+* Test action 6: Wait for VOL2 to reach 'available' status
+* **Test assertion 3:** Verify the name of VOL2 name is correct
+* Test action 7: Retrieve VOL2's information
+* **Test assertion 4:** Verify the retrieved volume name, ID and metadata are the same as VOL2
+* **Test assertion 5:** Verify VOL2's bootable flag is 'True'
+* Test action 8: Update the name of VOL2 with the original value
+* Test action 9: Update the name of VOL2 with a new value
+* **Test assertion 6:** Verify the name of VOL2 is updated successfully
+* Test action 10: Create a volume VOL3 with no name specified and a description contains characters '@#$%^*'
+* **Test assertion 7:** Verify VOL3 is created successfully
+* Test action 11: Update the name of VOL3 and description with the original value
+* **Test assertion 8:** Verify VOL3's bootable flag is 'True'
+
+Pass / fail criteria
+''''''''''''''''''''
+
+This test case evaluates the volume API ability of updating volume's bootable flag and creating
+a bootable volume from an image, getting bootable volume detail information and updating bootable volume.
+
+Specifically, the test verifies that:
+
+* Volume bootable flag can be set and retrieved.
+* Bootable volume can be created from a source volume.
+* Bootable volume detail information can be retrieved.
+* Bootable volume detail information can be updated.
+
+In order to pass this test, all test assertions listed in the test execution above need to pass.
+
+Post conditions
+---------------
+
+N/A
+
+----------------------------------------------------------------------------
+Test Case 5 - Volume creation and deletion operations with the Cinder v2 API
+----------------------------------------------------------------------------
+
+Test case specification
+-----------------------
+
+tempest.api.volume.test_volumes_get.VolumesV2GetTest.test_volume_create_get_update_delete
+tempest.api.volume.test_volumes_negative.VolumesV2NegativeTest.test_create_volume_with_invalid_size
+tempest.api.volume.test_volumes_negative.VolumesV2NegativeTest.test_create_volume_with_nonexistent_source_volid
+tempest.api.volume.test_volumes_negative.VolumesV2NegativeTest.test_create_volume_with_nonexistent_volume_type
+tempest.api.volume.test_volumes_negative.VolumesV2NegativeTest.test_create_volume_with_out_passing_size
+tempest.api.volume.test_volumes_negative.VolumesV2NegativeTest.test_create_volume_with_size_negative
+tempest.api.volume.test_volumes_negative.VolumesV2NegativeTest.test_create_volume_with_size_zero
+
+tempest.api.volume.test_volumes_get.VolumesGetTest.test_volume_create_get_update_delete
+tempest.api.volume.test_volumes_negative.VolumesNegativeTest.test_create_volume_with_invalid_size
+tempest.api.volume.test_volumes_negative.VolumesNegativeTest.test_create_volume_with_nonexistent_source_volid
+tempest.api.volume.test_volumes_negative.VolumesNegativeTest.test_create_volume_with_nonexistent_volume_type
+
+tempest.api.volume.test_volumes_negative.VolumesV2NegativeTest.test_create_volume_without_passing_size
+tempest.api.volume.test_volumes_negative.VolumesNegativeTest.test_create_volume_without_passing_size
+
+tempest.api.volume.test_volumes_negative.VolumesNegativeTest.test_create_volume_with_size_negative
+tempest.api.volume.test_volumes_negative.VolumesNegativeTest.test_create_volume_with_size_zero
+
+Note: test cases 8 to 11 are the alias of the fist 4 test cases, test cases 12 and 13 are both alias of
+test case 5, and test cases 14 and 15 are the alias of the cases 6 and 7, respectively.
+Alias should always be included so that the test run will be tempest version agnostic,
+which can be used to test different version of OpenStack.
+
+Test preconditions
+------------------
+
+* Volume extension API
+
+Basic test flow execution description and pass/fail criteria
+------------------------------------------------------------
+
+Test execution
+''''''''''''''
+* Test action 1: Create a volume VOL1 with a specific name and metadata
+* Test action 2: Wait for VOL1 to reach 'available' status
+* **Test assertion 1:** Verify the name of VOL1 is correct
+* Test action 3: Retrieve VOL1's information
+* **Test assertion 2:** Verify the retrieved volume name, ID and metadata are the same as VOL1
+* **Test assertion 3:** Verify VOL1's bootable flag is 'False'
+* Test action 4: Update the name of VOL1 with the original value
+* Test action 5: Update the name of VOL1 with a new value
+* **Test assertion 4:** Verify the name of VOL1 is updated successfully
+* Test action 6: Create a volume VOL2 with no name specified and a description contains characters '@#$%^*'
+* **Test assertion 5:** Verify VOL2 is created successfully
+* Test action 7: Update the name of VOL2 and description with the original value
+* **Test assertion 6:** Verify VOL2's bootable flag is 'False'
+* Test action 8: Create a volume with an invalid size '#$%'
+* **Test assertion 7:** Verify create volume failed, a bad request error is returned in the response
+* Test action 9: Create a volume with a nonexistent source volume
+* **Test assertion 8:** Verify create volume failed, a 'Not Found' error is returned in the response
+* Test action 10: Create a volume with a nonexistent volume type
+* **Test assertion 9:** Verify create volume failed, a 'Not Found' error is returned in the response
+* Test action 11: Create a volume without passing a volume size
+* **Test assertion 10:** Verify create volume failed, a bad request error is returned in the response
+* Test action 12: Create a volume with a negative volume size
+* **Test assertion 11:** Verify create volume failed, a bad request error is returned in the response
+* Test action 13: Create a volume with volume size '0'
+* **Test assertion 12:** Verify create volume failed, a bad request error is returned in the response
+
+Pass / fail criteria
+''''''''''''''''''''
+
+This test case evaluates the volume API ability of creating a volume, getting volume
+detail information and updating volume, the reference is,
+Specifically, the test verifies that:
+
+* Volume can be created from a source volume.
+* Volume detail information can be retrieved/updated.
+* Create a volume with an invalid size is not allowed.
+* Create a volume with a nonexistent source volume or volume type is not allowed.
+* Create a volume without passing a volume size is not allowed.
+* Create a volume with a negative volume size is not allowed.
+* Create a volume with volume size '0' is not allowed.
+
+In order to pass this test, all test assertions listed in the test execution above need to pass.
+
+Post conditions
+---------------
+
+N/A
+
+--------------------------------------------------------------------------------
+Test Case 6 - Volume service extension listing operations with the Cinder v2 API
+--------------------------------------------------------------------------------
+
+Test case specification
+-----------------------
+
+tempest.api.volume.test_extensions.ExtensionsV2TestJSON.test_list_extensions
+
+tempest.api.volume.test_extensions.ExtensionsTestJSON.test_list_extensions
+
+Note: the second test case is the alias of the first one.
+Alias should always be included so that the test run will be tempest version agnostic,
+which can be used to test different version of Openstack.
+
+Test preconditions
+------------------
+
+* Volume extension API
+* At least one Cinder extension is configured
+
+Basic test flow execution description and pass/fail criteria
+------------------------------------------------------------
+
+Test execution
+''''''''''''''
+
+* Test action 1: List all cinder service extensions
+* **Test assertion 1:** Verify all extensions are list in the extension list
+
+Pass / fail criteria
+''''''''''''''''''''
+
+This test case evaluates the volume API ability of listing all existent volume service extensions.
+
+* Cinder service extensions can be listed.
+
+In order to pass this test, all test assertions listed in the test execution above need to pass.
+
+Post conditions
+---------------
+
+N/A
+
+----------------------------------------------------------
+Test Case 7 - Volume GET operations with the Cinder v2 API
+----------------------------------------------------------
+
+Test case specification
+-----------------------
+
+tempest.api.volume.test_volumes_negative.VolumesV2NegativeTest.test_get_invalid_volume_id
+tempest.api.volume.test_volumes_negative.VolumesV2NegativeTest.test_get_volume_without_passing_volume_id
+tempest.api.volume.test_volumes_negative.VolumesV2NegativeTest.test_volume_get_nonexistent_volume_id
+
+tempest.api.volume.test_volumes_negative.VolumesNegativeTest.test_get_invalid_volume_id
+tempest.api.volume.test_volumes_negative.VolumesNegativeTest.test_get_volume_without_passing_volume_id"
+tempest.api.volume.test_volumes_negative.VolumesNegativeTest.test_volume_get_nonexistent_volume_id
+
+Note: the latter 3 test cases is the alias of the first 3 ones.
+Alias should always be included so that the test run will be tempest version agnostic,
+which can be used to test different version of Openstack.
+
+Test preconditions
+------------------
+
+* Volume extension API
+
+Basic test flow execution description and pass/fail criteria
+------------------------------------------------------------
+
+Test execution
+''''''''''''''
+
+* Test action 1: Retrieve a volume with an invalid volume ID
+* **Test assertion 1:** Verify retrieve volume failed, a 'Not Found' error is returned in the response
+* Test action 2: Retrieve a volume with an empty volume ID
+* **Test assertion 2:** Verify retrieve volume failed, a 'Not Found' error is returned in the response
+* Test action 3: Retrieve a volume with a nonexistent volume ID
+* **Test assertion 3:** Verify retrieve volume failed, a 'Not Found' error is returned in the response
+
+Pass / fail criteria
+''''''''''''''''''''
+
+This test case evaluates the volume API ability of getting volumes.
+Specifically, the test verifies that:
+
+* Get a volume with an invalid/an empty/a nonexistent volume ID is not allowed.
+
+In order to pass this test, all test assertions listed in the test execution above need to pass.
+
+Post conditions
+---------------
+
+N/A
+
+--------------------------------------------------------------
+Test Case 8 - Volume listing operations with the Cinder v2 API
+--------------------------------------------------------------
+
+Test case specification
+-----------------------
+
tempest.api.volume.test_volumes_list.VolumesV2ListTestJSON.test_volume_list
tempest.api.volume.test_volumes_list.VolumesV2ListTestJSON.test_volume_list_by_name
tempest.api.volume.test_volumes_list.VolumesV2ListTestJSON.test_volume_list_details_by_name
@@ -43,40 +519,475 @@ tempest.api.volume.test_volumes_list.VolumesV2ListTestJSON.test_volumes_list_by_
tempest.api.volume.test_volumes_list.VolumesV2ListTestJSON.test_volumes_list_by_status
tempest.api.volume.test_volumes_list.VolumesV2ListTestJSON.test_volumes_list_details_by_availability_zone
tempest.api.volume.test_volumes_list.VolumesV2ListTestJSON.test_volumes_list_details_by_status
-tempest.api.volume.test_volumes_negative.VolumesV2NegativeTest.test_attach_volumes_with_nonexistent_volume_id
-tempest.api.volume.test_volumes_negative.VolumesV2NegativeTest.test_create_volume_with_invalid_size
-tempest.api.volume.test_volumes_negative.VolumesV2NegativeTest.test_create_volume_with_nonexistent_snapshot_id
-tempest.api.volume.test_volumes_negative.VolumesV2NegativeTest.test_create_volume_with_nonexistent_source_volid
-tempest.api.volume.test_volumes_negative.VolumesV2NegativeTest.test_create_volume_with_nonexistent_volume_type
-tempest.api.volume.test_volumes_negative.VolumesV2NegativeTest.test_create_volume_with_out_passing_size
-tempest.api.volume.test_volumes_negative.VolumesV2NegativeTest.test_create_volume_with_size_negative
-tempest.api.volume.test_volumes_negative.VolumesV2NegativeTest.test_create_volume_with_size_zero
-tempest.api.volume.test_volumes_negative.VolumesV2NegativeTest.test_create_volume_without_passing_size
-tempest.api.volume.test_volumes_negative.VolumesV2NegativeTest.test_delete_invalid_volume_id
-tempest.api.volume.test_volumes_negative.VolumesV2NegativeTest.test_delete_volume_without_passing_volume_id
-tempest.api.volume.test_volumes_negative.VolumesV2NegativeTest.test_detach_volumes_with_invalid_volume_id
-tempest.api.volume.test_volumes_negative.VolumesV2NegativeTest.test_get_invalid_volume_id
-tempest.api.volume.test_volumes_negative.VolumesV2NegativeTest.test_get_volume_without_passing_volume_id
tempest.api.volume.test_volumes_negative.VolumesV2NegativeTest.test_list_volumes_detail_with_invalid_status
tempest.api.volume.test_volumes_negative.VolumesV2NegativeTest.test_list_volumes_detail_with_nonexistent_name
tempest.api.volume.test_volumes_negative.VolumesV2NegativeTest.test_list_volumes_with_invalid_status
tempest.api.volume.test_volumes_negative.VolumesV2NegativeTest.test_list_volumes_with_nonexistent_name
+tempest.api.volume.v2.test_volumes_list.VolumesV2ListTestJSON.test_volume_list_details_pagination
+tempest.api.volume.v2.test_volumes_list.VolumesV2ListTestJSON.test_volume_list_details_with_multiple_params
+tempest.api.volume.v2.test_volumes_list.VolumesV2ListTestJSON.test_volume_list_pagination
+
+tempest.api.volume.test_volumes_list.VolumesListTestJSON.test_volume_list
+tempest.api.volume.test_volumes_list.VolumesListTestJSON.test_volume_list_by_name
+tempest.api.volume.test_volumes_list.VolumesListTestJSON.test_volume_list_details_by_name
+tempest.api.volume.test_volumes_list.VolumesListTestJSON.test_volume_list_param_display_name_and_status
+tempest.api.volume.test_volumes_list.VolumesListTestJSON.test_volume_list_with_detail_param_display_name_and_status
+tempest.api.volume.test_volumes_list.VolumesListTestJSON.test_volume_list_with_detail_param_metadata
+tempest.api.volume.test_volumes_list.VolumesListTestJSON.test_volume_list_with_details
+tempest.api.volume.test_volumes_list.VolumesListTestJSON.test_volume_list_with_param_metadata
+tempest.api.volume.test_volumes_list.VolumesListTestJSON.test_volume_list_by_availability_zone
+tempest.api.volume.test_volumes_list.VolumesListTestJSON.test_volume_list_by_status
+tempest.api.volume.test_volumes_list.VolumesListTestJSON.test_volume_list_details_by_availability_zone
+tempest.api.volume.test_volumes_list.VolumesListTestJSON.test_volume_list_details_by_status
+tempest.api.volume.test_volumes_negative.VolumesNegativeTest.test_list_volumes_detail_with_invalid_status
+tempest.api.volume.test_volumes_negative.VolumesNegativeTest.test_list_volumes_detail_with_nonexistent_name
+tempest.api.volume.test_volumes_negative.VolumesNegativeTest.test_list_volumes_with_invalid_status
+tempest.api.volume.test_volumes_negative.VolumesNegativeTest.test_list_volumes_with_nonexistent_name
+tempest.api.volume.v2.test_volumes_list.VolumesListTestJSON.test_volume_list_details_pagination
+tempest.api.volume.v2.test_volumes_list.VolumesListTestJSON.test_volume_list_details_with_multiple_params
+tempest.api.volume.v2.test_volumes_list.VolumesListTestJSON.test_volume_list_pagination
+
+Note: the latter 19 test cases is the alias of the first 19 ones.
+Alias should always be included so that the test run will be tempest version agnostic,
+which can be used to test different version of Openstack.
+
+Test preconditions
+------------------
+
+* Volume extension API
+* The backing file for the volume group that Nova uses has space for at least 3 1G volumes
+
+Basic test flow execution description and pass/fail criteria
+------------------------------------------------------------
+
+Test execution
+''''''''''''''
+
+* Test action 1: List all existent volumes
+* **Test assertion 1:** Verify the volume list is complete
+* Test action 2: List existent volumes and filter the volume list by volume name
+* **Test assertion 2:** Verify the length of filtered volume list is 1 and the retrieved volume is correct
+* Test action 3: List existent volumes in detail and filter the volume list by volume name
+* **Test assertion 3:** Verify the length of filtered volume list is 1 and the retrieved volume is correct
+* Test action 4: List existent volumes and filter the volume list by volume name and status 'available'
+* **Test assertion 4:** Verify the name and status parameters of the fetched volume are correct
+* Test action 5: List existent volumes in detail and filter the volume list by volume name and status 'available'
+* **Test assertion 5:** Verify the name and status parameters of the fetched volume are correct
+* Test action 6: List all existent volumes in detail and filter the volume list by volume metadata
+* **Test assertion 6:** Verify the metadata parameter of the fetched volume is correct
+* Test action 7: List all existent volumes in detail
+* **Test assertion 7:** Verify the volume list is complete
+* Test action 8: List all existent volumes and filter the volume list by volume metadata
+* **Test assertion 8:** Verify the metadata parameter of the fetched volume is correct
+* Test action 9: List existent volumes and filter the volume list by availability zone
+* **Test assertion 9:** Verify the availability zone parameter of the fetched volume is correct
+* Test action 10: List all existent volumes and filter the volume list by volume status 'available'
+* **Test assertion 10:** Verify the status parameter of the fetched volume is correct
+* Test action 11: List existent volumes in detail and filter the volume list by availability zone
+* **Test assertion 11:** Verify the availability zone parameter of the fetched volume is correct
+* Test action 12: List all existent volumes in detail and filter the volume list by volume status 'available'
+* **Test assertion 12:** Verify the status parameter of the fetched volume is correct
+* Test action 13: List all existent volumes in detail and filter the volume list by an invalid volume status 'null'
+* **Test assertion 13:** Verify the filtered volume list is empty
+* Test action 14: List all existent volumes in detail and filter the volume list by a non-existent volume name
+* **Test assertion 14:** Verify the filtered volume list is empty
+* Test action 15: List all existent volumes and filter the volume list by an invalid volume status 'null'
+* **Test assertion 15:** Verify the filtered volume list is empty
+* Test action 16: List all existent volumes and filter the volume list by a non-existent volume name
+* **Test assertion 16:** Verify the filtered volume list is empty
+* Test action 17: List all existent volumes in detail and paginate the volume list by desired volume IDs
+* **Test assertion 17:** Verify only the desired volumes are listed in the filtered volume list
+* Test action 18: List all existent volumes in detail and filter the volume list by volume status 'available' and display limit '2'
+* Test action 19: Sort the filtered volume list by IDs in ascending order
+* **Test assertion 18:** Verify the length of filtered volume list is 2
+* **Test assertion 19:** Verify the status of retrieved volumes is correct
+* **Test assertion 20:** Verify the filtered volume list is sorted correctly
+* Test action 20: List all existent volumes in detail and filter the volume list by volume status 'available' and display limit '2'
+* Test action 21: Sort the filtered volume list by IDs in descending order
+* **Test assertion 21:** Verify the length of filtered volume list is 2
+* **Test assertion 22:** Verify the status of retrieved volumes is correct
+* **Test assertion 23:** Verify the filtered volume list is sorted correctly
+* Test action 22: List all existent volumes and paginate the volume list by desired volume IDs
+* **Test assertion 24:** Verify only the desired volumes are listed in the filtered volume list
+
+Pass / fail criteria
+''''''''''''''''''''
+
+This test case evaluates the volume API ability of getting a list of volumes and filtering the volume list.
+Specifically, the test verifies that:
+
+* Get a list of volumes (in detail) successful.
+* Get a list of volumes (in detail) and filter volumes by name/status/metadata/availability zone successful.
+* Volume list pagination functionality is working.
+* Get a list of volumes in detail using combined condition successful.
+
+In order to pass this test, all test assertions listed in the test execution above need to pass.
+
+Post conditions
+---------------
+
+N/A
+
+---------------------------------------------------------------
+Test Case 9 - Volume metadata operations with the Cinder v2 API
+---------------------------------------------------------------
+
+Test case specification
+-----------------------
+
+tempest.api.volume.test_volume_metadata.VolumesV2MetadataTest.test_create_get_delete_volume_metadata
+tempest.api.volume.test_volume_metadata.VolumesV2MetadataTest.test_update_volume_metadata_item
+
+tempest.api.volume.test_volume_metadata.VolumesMetadataTest.test_crud_volume_metadata
+tempest.api.volume.test_volume_metadata.VolumesV2MetadataTest.test_crud_volume_metadata
+
+tempest.api.volume.test_volume_metadata.VolumesMetadataTest.test_update_volume_metadata_item
+tempest.api.volume.test_volume_metadata.VolumesMetadataTest.test_update_show_volume_metadata_item
+
+Note: Test case 3 and 4 are the alias of the first test case, and the last 2 test cases
+are the alias of the second test case.
+Alias should always be included so that the test run will be tempest version agnostic,
+which can be used to test different version of OpenStack.
+
+Test preconditions
+------------------
+
+* Volume extension API
+
+Basic test flow execution description and pass/fail criteria
+------------------------------------------------------------
+
+Test execution
+''''''''''''''
+
+* Test action 1: Create metadata for a provided volume VOL1
+* Test action 2: Get the metadata of VOL1
+* **Test assertion 1:** Verify the metadata of VOL1 is correct
+* Test action 3: Update the metadata of VOL1
+* **Test assertion 2:** Verify the metadata of VOL1 is updated
+* Test action 4: Delete one metadata item 'key1' of VOL1
+* **Test assertion 3:** Verify the metadata item 'key1' is deleted
+* Test action 5: Create metadata for a provided volume VOL2
+* **Test assertion 4:** Verify the metadata of VOL2 is correct
+* Test action 6: Update one metadata item 'key3' of VOL2
+* **Test assertion 5:** Verify the metadata of VOL2 is updated
+
+Pass / fail criteria
+''''''''''''''''''''
+
+This test case evaluates the volume API ability of creating metadata for a volume, getting the
+metadata of a volume, updating volume metadata and deleting a metadata item of a volume.
+Specifically, the test verifies that:
+
+* Create metadata for volume successfully.
+* Get metadata of volume successfully.
+* Update volume metadata and metadata item successfully.
+* Delete metadata item of a volume successfully.
+
+In order to pass this test, all test assertions listed in the test execution above need to pass.
+
+Post conditions
+---------------
+
+N/A
+
+---------------------------------------------------------------------------------
+Test Case 10 - Verification of read-only status on volumes with the Cinder v2 API
+---------------------------------------------------------------------------------
+
+Test case specification
+-----------------------
+
+tempest.api.volume.test_volumes_actions.VolumesV2ActionsTest.test_volume_readonly_update
+
+tempest.api.volume.test_volumes_actions.VolumesActionsTest.test_volume_readonly_update
+
+Note: the second test case is the alias of the first one.
+Alias should always be included so that the test run will be tempest version agnostic,
+which can be used to test different version of Openstack.
+
+Test preconditions
+------------------
+
+* Volume extension API
+
+Basic test flow execution description and pass/fail criteria
+------------------------------------------------------------
+
+Test execution
+''''''''''''''
+
+* Test action 1: Update a provided volume VOL1's read-only access mode to 'True'
+* **Test assertion 1:** Verify VOL1 is in read-only access mode
+* Test action 2: Update a provided volume VOL1's read-only access mode to 'False'
+* **Test assertion 2:** Verify VOL1 is not in read-only access mode
+
+Pass / fail criteria
+''''''''''''''''''''
+
+This test case evaluates the volume API ability of setting and updating volume read-only access mode.
+Specifically, the test verifies that:
+
+* Volume read-only access mode can be set and updated.
+
+In order to pass this test, all test assertions listed in the test execution above need to pass.
+
+Post conditions
+---------------
+
+N/A
+
+-------------------------------------------------------------------
+Test Case 11 - Volume reservation operations with the Cinder v2 API
+-------------------------------------------------------------------
+
+Test case specification
+-----------------------
+
+tempest.api.volume.test_volumes_actions.VolumesV2ActionsTest.test_reserve_unreserve_volume
tempest.api.volume.test_volumes_negative.VolumesV2NegativeTest.test_reserve_volume_with_negative_volume_status
tempest.api.volume.test_volumes_negative.VolumesV2NegativeTest.test_reserve_volume_with_nonexistent_volume_id
tempest.api.volume.test_volumes_negative.VolumesV2NegativeTest.test_unreserve_volume_with_nonexistent_volume_id
-tempest.api.volume.test_volumes_negative.VolumesV2NegativeTest.test_update_volume_with_empty_volume_id
-tempest.api.volume.test_volumes_negative.VolumesV2NegativeTest.test_update_volume_with_invalid_volume_id
-tempest.api.volume.test_volumes_negative.VolumesV2NegativeTest.test_update_volume_with_nonexistent_volume_id
+
+tempest.api.volume.test_volumes_actions.VolumesActionsTest.test_reserve_unreserve_volume
+tempest.api.volume.test_volumes_negative.VolumesNegativeTest.test_reserve_volume_with_negative_volume_status
+tempest.api.volume.test_volumes_negative.VolumesNegativeTest.test_reserve_volume_with_nonexistent_volume_id
+tempest.api.volume.test_volumes_negative.VolumesNegativeTest.test_unreserve_volume_with_nonexistent_volume_id
+
+Note: the last 4 test cases are the alias of the first 4 ones.
+Alias should always be included so that the test run will be tempest version agnostic,
+which can be used to test different version of Openstack.
+
+Test preconditions
+------------------
+
+* Volume extension API
+
+Basic test flow execution description and pass/fail criteria
+------------------------------------------------------------
+
+Test execution
+''''''''''''''
+
+* Test action 1: Update a provided volume VOL1 as reserved
+* **Test assertion 1:** Verify VOL1 is in 'attaching' status
+* Test action 2: Update VOL1 as un-reserved
+* **Test assertion 2:** Verify VOL1 is in 'available' status
+* Test action 3: Update a provided volume VOL2 as reserved
+* Test action 4: Update VOL2 as reserved again
+* **Test assertion 3:** Verify update VOL2 status failed, a bad request error is returned in the response
+* Test action 5: Update VOL2 as un-reserved
+* Test action 6: Update a non-existent volume as reserved by using an invalid volume ID
+* **Test assertion 4:** Verify update non-existent volume as reserved failed, a 'Not Found' error is returned in the response
+* Test action 7: Update a non-existent volume as un-reserved by using an invalid volume ID
+* **Test assertion 5:** Verify update non-existent volume as un-reserved failed, a 'Not Found' error is returned in the response
+
+Pass / fail criteria
+''''''''''''''''''''
+
+This test case evaluates the volume API ability of reserving and un-reserving volumes.
+Specifically, the test verifies that:
+
+* Volume can be reserved and un-reserved.
+* Update a non-existent volume as reserved is not allowed.
+* Update a non-existent volume as un-reserved is not allowed.
+
+In order to pass this test, all test assertions listed in the test execution above need to pass.
+
+Post conditions
+---------------
+
+N/A
+
+----------------------------------------------------------------------------------
+Test Case 12 - Volume snapshot creation/deletion operations with the Cinder v2 API
+----------------------------------------------------------------------------------
+
+Test case specification
+-----------------------
+
+tempest.api.volume.test_snapshot_metadata.SnapshotV2MetadataTestJSON.test_create_get_delete_snapshot_metadata
+tempest.api.volume.test_snapshot_metadata.SnapshotV2MetadataTestJSON.test_update_snapshot_metadata_item
+tempest.api.volume.test_volumes_negative.VolumesV2NegativeTest.test_create_volume_with_nonexistent_snapshot_id
+tempest.api.volume.test_volumes_negative.VolumesV2NegativeTest.test_delete_invalid_volume_id
+tempest.api.volume.test_volumes_negative.VolumesV2NegativeTest.test_delete_volume_without_passing_volume_id
tempest.api.volume.test_volumes_negative.VolumesV2NegativeTest.test_volume_delete_nonexistent_volume_id
-tempest.api.volume.test_volumes_negative.VolumesV2NegativeTest.test_volume_get_nonexistent_volume_id
tempest.api.volume.test_volumes_snapshots.VolumesV2SnapshotTestJSON.test_snapshot_create_get_list_update_delete
+tempest.api.volume.test_volumes_snapshots.VolumesV2SnapshotTestJSON.test_volume_from_snapshot
tempest.api.volume.test_volumes_snapshots.VolumesV2SnapshotTestJSON.test_snapshots_list_details_with_params
tempest.api.volume.test_volumes_snapshots.VolumesV2SnapshotTestJSON.test_snapshots_list_with_params
-tempest.api.volume.test_volumes_snapshots.VolumesV2SnapshotTestJSON.test_volume_from_snapshot
-tempest.api.volume.test_volumes_snapshots_list.VolumesV2SnapshotListTestJSON.test_snapshots_list_details_with_params
-tempest.api.volume.test_volumes_snapshots_list.VolumesV2SnapshotListTestJSON.test_snapshots_list_with_params
tempest.api.volume.test_volumes_snapshots_negative.VolumesV2SnapshotNegativeTestJSON.test_create_snapshot_with_nonexistent_volume_id
tempest.api.volume.test_volumes_snapshots_negative.VolumesV2SnapshotNegativeTestJSON.test_create_snapshot_without_passing_volume_id
-tempest.api.volume.v2.test_volumes_list.VolumesV2ListTestJSON.test_volume_list_details_pagination
-tempest.api.volume.v2.test_volumes_list.VolumesV2ListTestJSON.test_volume_list_details_with_multiple_params
-tempest.api.volume.v2.test_volumes_list.VolumesV2ListTestJSON.test_volume_list_pagination
+
+tempest.api.volume.test_snapshot_metadata.SnapshotMetadataTestJSON.test_crud_snapshot_metadata
+tempest.api.volume.test_snapshot_metadata.SnapshotV2MetadataTestJSON.test_crud_snapshot_metadata
+
+tempest.api.volume.test_snapshot_metadata.SnapshotMetadataTestJSON.test_update_snapshot_metadata_item
+tempest.api.volume.test_snapshot_metadata.SnapshotMetadataTestJSON.test_update_show_snapshot_metadata_item
+
+tempest.api.volume.test_volumes_negative.VolumesNegativeTest.test_create_volume_with_nonexistent_snapshot_id
+tempest.api.volume.test_volumes_negative.VolumesNegativeTest.test_delete_invalid_volume_id
+tempest.api.volume.test_volumes_negative.VolumesNegativeTest.test_delete_volume_without_passing_volume_id
+tempest.api.volume.test_volumes_negative.VolumesNegativeTest.test_volume_delete_nonexistent_volume_id
+tempest.api.volume.test_volumes_snapshots.VolumesSnapshotTestJSON.test_snapshot_create_get_list_update_delete
+tempest.api.volume.test_volumes_snapshots.VolumesSnapshotTestJSON.test_volume_from_snapshot
+
+tempest.api.volume.test_volumes_snapshots_list.VolumesSnapshotListTestJSON.test_snapshots_list_details_with_params
+tempest.api.volume.test_volumes_snapshots_list.VolumesV2SnapshotListTestJSON.test_snapshots_list_details_with_params
+
+tempest.api.volume.test_volumes_snapshots_list.VolumesSnapshotListTestJSON.test_snapshots_list_with_params
+tempest.api.volume.test_volumes_snapshots_list.VolumesV2SnapshotListTestJSON.test_snapshots_list_with_params
+
+tempest.api.volume.test_volumes_snapshots_negative.VolumesSnapshotNegativeTestJSON.test_create_snapshot_with_nonexistent_volume_id
+tempest.api.volume.test_volumes_snapshots_negative.VolumesSnapshotNegativeTestJSON.test_create_snapshot_without_passing_volume_id
+
+Note: test case 13 and 14 are the alias of test case 1, test case 15 and 16 are the alias of test case 2,
+test case 17 to 22 are the alias of test case 3 to 8 respectively, test case 23 and 24 are the alias of
+test case 9, test case 25 and 26 are the alias of test case 10, and test case 27 and 28 are the alias of
+test case 11 and 12 respectively.
+Alias should always be included so that the test run will be tempest version agnostic,
+which can be used to test different version of OpenStack.
+
+Test preconditions
+------------------
+
+* Volume extension API
+
+Basic test flow execution description and pass/fail criteria
+------------------------------------------------------------
+
+Test execution
+''''''''''''''
+
+* Test action 1: Create metadata for a provided snapshot SNAP1
+* Test action 2: Get the metadata of SNAP1
+* **Test assertion 1:** Verify the metadata of SNAP1 is correct
+* Test action 3: Update the metadata of SNAP1
+* **Test assertion 2:** Verify the metadata of SNAP1 is updated
+* Test action 4: Delete one metadata item 'key3' of SNAP1
+* **Test assertion 3:** Verify the metadata item 'key3' is deleted
+* Test action 5: Create metadata for a provided snapshot SNAP2
+* **Test assertion 4:** Verify the metadata of SNAP2 is correct
+* Test action 6: Update one metadata item 'key3' of SNAP2
+* **Test assertion 5:** Verify the metadata of SNAP2 is updated
+* Test action 7: Create a volume with a nonexistent snapshot
+* **Test assertion 6:** Verify create volume failed, a 'Not Found' error is returned in the response
+* Test action 8: Delete a volume with an invalid volume ID
+* **Test assertion 7:** Verify delete volume failed, a 'Not Found' error is returned in the response
+* Test action 9: Delete a volume with an empty volume ID
+* **Test assertion 8:** Verify delete volume failed, a 'Not Found' error is returned in the response
+* Test action 10: Delete a volume with a nonexistent volume ID
+* **Test assertion 9:** Verify delete volume failed, a 'Not Found' error is returned in the response
+* Test action 11: Create a snapshot SNAP2 from a provided volume VOL1
+* Test action 12: Retrieve SNAP2's detail information
+* **Test assertion 10:** Verify SNAP2 is created from VOL1
+* Test action 13: Update the name and description of SNAP2
+* **Test assertion 11:** Verify the name and description of SNAP2 are updated in the response body of update snapshot API
+* Test action 14: Retrieve SNAP2's detail information
+* **Test assertion 12:** Verify the name and description of SNAP2 are correct
+* Test action 15: Delete SNAP2
+* Test action 16: Create a volume VOL2 with a volume size
+* Test action 17: Create a snapshot SNAP3 from VOL2
+* Test action 18: Create a volume VOL3 from SNAP3 with a bigger volume size
+* Test action 19: Retrieve VOL3's detail information
+* **Test assertion 13:** Verify volume size and source snapshot of VOL3 are correct
+* Test action 20: List all snapshots in detail and filter the snapshot list by name
+* **Test assertion 14:** Verify the filtered snapshot list is correct
+* Test action 21: List all snapshots in detail and filter the snapshot list by status
+* **Test assertion 15:** Verify the filtered snapshot list is correct
+* Test action 22: List all snapshots in detail and filter the snapshot list by name and status
+* **Test assertion 16:** Verify the filtered snapshot list is correct
+* Test action 23: List all snapshots and filter the snapshot list by name
+* **Test assertion 17:** Verify the filtered snapshot list is correct
+* Test action 24: List all snapshots and filter the snapshot list by status
+* **Test assertion 18:** Verify the filtered snapshot list is correct
+* Test action 25: List all snapshots and filter the snapshot list by name and status
+* **Test assertion 19:** Verify the filtered snapshot list is correct
+* Test action 26: Create a snapshot from a nonexistent volume by using an invalid volume ID
+* **Test assertion 20:** Verify create snapshot failed, a 'Not Found' error is returned in the response
+* Test action 27: Create a snapshot from a volume by using an empty volume ID
+* **Test assertion 21:** Verify create snapshot failed, a 'Not Found' error is returned in the response
+
+Pass / fail criteria
+''''''''''''''''''''
+
+This test case evaluates the volume API ability of managing snapshot and snapshot metadata.
+Specifically, the test verifies that:
+
+* Create metadata for snapshot successfully.
+* Get metadata of snapshot successfully.
+* Update snapshot metadata and metadata item successfully.
+* Delete metadata item of a snapshot successfully.
+* Create a volume from a nonexistent snapshot is not allowed.
+* Delete a volume using an invalid volume ID is not allowed.
+* Delete a volume without passing the volume ID is not allowed.
+* Delete a non-existent volume is not allowed.
+* Create snapshot successfully.
+* Get snapshot's detail information successfully.
+* Update snapshot attributes successfully.
+* Delete snapshot successfully.
+* Creates a volume and a snapshot passing a size different from the source successfully.
+* List snapshot details by display_name and status filters successfully.
+* Create a snapshot from a nonexistent volume is not allowed.
+* Create a snapshot from a volume without passing the volume ID is not allowed.
+
+In order to pass this test, all test assertions listed in the test execution above need to pass.
+
+Post conditions
+---------------
+
+N/A
+
+--------------------------------------------------------------
+Test Case 13 - Volume update operations with the Cinder v2 API
+--------------------------------------------------------------
+
+Test case specification
+-----------------------
+
+tempest.api.volume.test_volumes_negative.VolumesV2NegativeTest.test_update_volume_with_empty_volume_id
+tempest.api.volume.test_volumes_negative.VolumesV2NegativeTest.test_update_volume_with_invalid_volume_id
+tempest.api.volume.test_volumes_negative.VolumesV2NegativeTest.test_update_volume_with_nonexistent_volume_id
+
+tempest.api.volume.test_volumes_negative.VolumesNegativeTest.test_update_volume_with_empty_volume_id
+tempest.api.volume.test_volumes_negative.VolumesNegativeTest.test_update_volume_with_invalid_volume_id
+tempest.api.volume.test_volumes_negative.VolumesNegativeTest.test_update_volume_with_nonexistent_volume_id
+
+Note: the last 3 test cases are the alias of the first 3 ones.
+Alias should always be included so that the test run will be tempest version agnostic,
+which can be used to test different version of Openstack.
+
+Test preconditions
+------------------
+
+* Volume extension API
+
+Basic test flow execution description and pass/fail criteria
+------------------------------------------------------------
+
+Test execution
+''''''''''''''
+
+* Test action 1: Update a volume by using an empty volume ID
+* **Test assertion 1:** Verify update volume failed, a 'Not Found' error is returned in the response
+* Test action 2: Update a volume by using an invalid volume ID
+* **Test assertion 2:** Verify update volume failed, a 'Not Found' error is returned in the response
+* Test action 3: Update a non-existent volume by using a random generated volume ID
+* **Test assertion 3:** Verify update volume failed, a 'Not Found' error is returned in the response
+
+Pass / fail criteria
+''''''''''''''''''''
+
+This test case evaluates the volume API ability of updating volume attributes.
+Specifically, the test verifies that:
+
+* Update a volume without passing the volume ID is not allowed.
+* Update a volume using an invalid volume ID is not allowed.
+* Update a non-existent volume is not allowed.
+
+In order to pass this test, all test assertions listed in the test execution above need to pass.
+
+Post conditions
+---------------
+
+N/A
diff --git a/docs/testing/user/testspecification/vping/index.rst b/docs/testing/user/testspecification/vping/index.rst
new file mode 100644
index 00000000..d7a207c0
--- /dev/null
+++ b/docs/testing/user/testspecification/vping/index.rst
@@ -0,0 +1,279 @@
+.. This work is licensed under a Creative Commons Attribution 4.0 International License.
+.. http://creativecommons.org/licenses/by/4.0
+.. (c) Ericsson AB
+
+========================
+Vping test specification
+========================
+
+.. toctree::
+ :maxdepth: 2
+
+Scope
+=====
+
+The vping test area evaluates basic NFVi capabilities of the system under test.
+These capabilities include creating a small number of virtual machines,
+establishing basic L3 connectivity between them and verifying connectivity by
+means of ICMP packets.
+
+
+References
+==========
+
+- Neutron Client
+
+ - https://docs.openstack.org/developer/python-neutronclient/usage/library.html
+
+- Nova Client
+
+ - https://docs.openstack.org/developer/python-novaclient/ref/v2/servers.html
+
+- SSHClient
+
+ - http://docs.paramiko.org/en/2.2/
+
+- SCPClient
+
+ - https://pypi.python.org/pypi/scp
+
+
+Definitions and abbreviations
+=============================
+
+The following terms and abbreviations are used in conjunction with this test
+area
+
+- ICMP - Internet Control Message Protocol
+- L3 - Layer 3
+- NFVi - Network functions virtualization infrastructure
+- SCP - Secure Copy
+- SSH - Secure Shell
+- VM - Virtual machine
+
+
+System Under Test (SUT)
+=======================
+
+The system under test is assumed to be the NFVi and VIM in operation on a
+Pharos compliant infrastructure.
+
+
+Test Area Structure
+===================
+
+The test area is structured in two separate tests which are executed
+sequentially. The order of the tests is arbitrary as there are no dependencies
+across the tests.
+
+
+Test Descriptions
+=================
+
+--------------------------------------------------------------------
+Test Case 1 - vPing using userdata provided by nova metadata service
+--------------------------------------------------------------------
+
+Short name
+----------
+
+opnfv.vping.userdata
+
+
+Use case specification
+----------------------
+
+This test evaluates the use case where an NFVi tenant boots up two VMs and
+requires L3 connectivity between those VMs. The target IP is passed to the VM
+that will initiate pings by using a custom userdata script provided by nova metadata service.
+
+
+Test preconditions
+------------------
+
+At least one compute node is available. No further pre-configuration needed.
+
+
+Basic test flow execution description and pass/fail criteria
+------------------------------------------------------------
+
+Methodology for verifying connectivity
+''''''''''''''''''''''''''''''''''''''
+
+Connectivity between VMs is tested by sending ICMP ping packets between
+selected VMs. The target IP is passed to the VM sending pings by using a
+custom userdata script by means of the config driver mechanism provided by
+Nova metadata service. Whether or not a ping was successful is determined by
+checking the console output of the source VMs.
+
+
+Test execution
+''''''''''''''
+
+* Test action 1:
+ * Create a private tenant network by using neutron client
+ * Create one subnet and one router in the network by neutron client
+ * Add one interface between the subnet and router
+ * Add one gateway route to the router by neutron client
+ * Store the network id in the response
+* **Test assertion 1:** The network id, subnet id and router id can be found in the response
+* Test action 2:
+ * Create an security group by using neutron client
+ * Store the security group id parameter in the response
+* **Test assertion 2:** The security group id can be found in the response
+* Test action 3: boot VM1 by using nova client with configured name, image, flavor, private tenant
+ network created in test action 1, security group created in test action 2
+* **Test assertion 3:** The VM1 object can be found in the response
+* Test action 4: Generate ping script with the IP of VM1 to be passed as userdata provided by
+ the **nova metadata service**.
+* Test action 5: Boot VM2 by using nova client with configured name, image, flavor, private tenant
+ network created in test action 1, security group created in test action 2, userdata created
+ in test action 4
+* **Test assertion 4:** The VM2 object can be found in the response
+* Test action 6: Inside VM2, the ping script is executed automatically when booted and it contains a
+ loop doing the ping until the return code is 0 or timeout reached. For each ping, when the return
+ code is 0, "vPing OK" is printed in the VM2 console-log, otherwise, "vPing KO" is printed.
+ Monitoring the console-log of VM2 to see the response generated by the script.
+* **Test assertion 5:** "vPing OK" is detected, when monitoring the console-log in VM2
+* Test action 7: delete VM1, VM2
+* **Test assertion 6:** VM1 and VM2 are not present in the VM list
+* Test action 8: delete security group, gateway, interface, router, subnet and network
+* **Test assertion 7:** The security group, gateway, interface, router, subnet and network are
+ no longer present in the lists after deleting
+
+
+Pass / fail criteria
+''''''''''''''''''''
+
+This test evaluates basic NFVi capabilities of the system under test.
+Specifically, the test verifies that:
+
+* Neutron client network, subnet, router, interface create commands return valid "id" parameters
+ which are shown in the create response message
+* Neutron client interface add command to add between subnet and router returns success code
+* Neutron client gateway add command to add to router returns success code
+* Neutron client security group create command returns valid "id" parameter which is shown in
+ the response message
+* Nova client VM create command returns valid VM attributes response message
+* Nova metadata server can transfer userdata configuration at nova client VM booting time
+* Ping command from one VM to the other in same private tenant network returns valid code
+* All items created using neutron client or nova client create commands are able to be removed by
+ using the returned identifiers
+
+In order to pass this test, all test assertions listed in the test execution
+above need to pass.
+
+
+Post conditions
+---------------
+
+None
+
+
+----------------------------------------------
+Test Case 2 - vPing using SSH to a floating IP
+----------------------------------------------
+
+Short name
+----------
+
+opnfv.vping.ssh
+
+
+Use case specification
+----------------------
+
+This test evaluates the use case where an NFVi tenant boots up two VMs and requires
+L3 connectivity between those VMs. An SSH connection is establised from the host to
+a floating IP associated with VM2 and ``ping`` is executed on VM2 with the IP of VM1 as target.
+
+
+Test preconditions
+------------------
+
+At least one compute node is available. There should exist an OpenStack external network
+and can assign floating IP.
+
+
+Basic test flow execution description and pass/fail criteria
+------------------------------------------------------------
+
+Methodology for verifying connectivity
+''''''''''''''''''''''''''''''''''''''
+
+Connectivity between VMs is tested by sending ICMP ping packets between
+selected VMs. To this end, the test establishes an SSH connection from the host
+running the test suite to a floating IP associated with VM2 and executes ``ping``
+on VM2 with the IP of VM1 as target.
+
+
+Test execution
+''''''''''''''
+
+
+* Test action 1:
+ * Create a private tenant network by neutron client
+ * Create one subnet and one router are created in the network by using neutron client
+ * Create one interface between the subnet and router
+ * Add one gateway route to the router by neutron client
+ * Store the network id in the response
+* **Test assertion 1:** The network id, subnet id and router id can be found in the response
+* Test action 2:
+ * Create an security group by using neutron client
+ * Store the security group id parameter in the response
+* **Test assertion 2:** The security group id can be found in the response
+* Test action 3: Boot VM1 by using nova client with configured name, image, flavor, private tenant
+ network created in test action 1, security group created in test action 2
+* **Test assertion 3:** The VM1 object can be found in the response
+* Test action 4: Boot VM2 by using nova client with configured name, image, flavor, private tenant
+ network created in test action 1, security group created in test action 2
+* **Test assertion 4:** The VM2 object can be found in the response
+* Test action 5: create one floating IP by using neutron client, storing the floating IP address
+ returned in the response
+* **Test assertion 5:** Floating IP address can be found in the response
+* Test action 6: Assign the floating IP address created in test action 5 to VM2 by using nova client
+* **Test assertion 6:** The assigned floating IP can be found in the VM2 console log file
+* Test action 7: Establish SSH connection between the test host and VM2 through the floating IP
+* **Test assertion 7:** SSH connection between the test host and VM2 is established within
+ 300 seconds
+* Test action 8: Copy the Ping script from the test host to VM2 by using SCPClient
+* **Test assertion 8:** The Ping script can be found inside VM2
+* Test action 9: Inside VM2, to execute the Ping script to ping VM1, the Ping script contains a
+ loop doing the ping until the return code is 0 or timeout reached, for each ping, when the return
+ code is 0, "vPing OK" is printed in the VM2 console-log, otherwise, "vPing KO" is printed.
+ Monitoring the console-log of VM2 to see the response generated by the script.
+* **Test assertion 9:** "vPing OK" is detected, when monitoring the console-log in VM2
+* Test action 10: delete VM1, VM2
+* **Test assertion 10:** VM1 and VM2 are not present in the VM list
+* Test action 11: delete floating IP, security group, gateway, interface, router, subnet and network
+* **Test assertion 11:** The security group, gateway, interface, router, subnet and network are
+ no longer present in the lists after deleting
+
+Pass / fail criteria
+''''''''''''''''''''
+
+This test evaluates basic NFVi capabilities of the system under test.
+Specifically, the test verifies that:
+
+* Neutron client network, subnet, router, interface create commands return valid "id" parameters
+ which are shown in the create response message
+* Neutron client interface add command to add between subnet and router return success code
+* Neutron client gateway add command to add to router return success code
+* Neutron client security group create command returns valid "id" parameter which is shown in the
+ response message
+* Nova client VM create command returns valid VM attributes response message
+* Neutron client floating IP create command return valid floating IP address
+* Nova client add floating IP command returns valid response message
+* SSH connection can be established using a floating IP
+* Ping command from one VM to another in same private tenant network returns valid code
+* All items created using neutron client or nova client create commands are able to be removed by
+ using the returned identifiers
+
+In order to pass this test, all test assertions listed in the test execution
+above need to pass.
+
+
+Post conditions
+---------------
+
+None