OSM E2E tests: Difference between revisions
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Revision as of 12:35, 8 September 2017
OSM packages and images for E2E tests
All VNF and NS packages as well as VM images required for the tests can be found here: http://osm-download.etsi.org/ftp/e2e-tests/
Test 1. Sanity check with simple NS
Objectives:
- Sanity check of correct E2E behaviour.
- Validate VM image management.
- Test access to the console from OSM UI
Steps:
- Onboard and deploy the Cirros NS, as described in https://osm.etsi.org/wikipub/index.php/OSM_Release_TWO#Deploying_your_first_Network_Service
- Access the console via OSM UI (user: “cirros”, pwd: “cubswin:)”)
- Check that the VMs are up and running and connected via the common link.
Images:
- cirros034.qcow2
Descriptors:
- cirros_vnf
- cirros_2vnf_ns
Test 2a. Failed deployment of scenario when the checksum is invalid
Objective:
- Testing that a wrong checksum prevents a successful deployment
Steps:
- Modify the checksum in the VNF descriptor (using the UI VNF catalog) to add a wrong but format-valid checksum (e.g.: “aaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaa”). Same images are used.
- Deploy the same NS as in test1
- Check that the system refuses to deploy the NS due to a checksum error (“VIM Exception vimconnException Image not found at VIM with filter…”)
Images:
- cirros034.qcow2
Descriptors:
- cirros_vnf
- cirros_2vnf_ns
Test 2b. Successful deployment of scenario when the descriptor has a checksum
Objective:
- Testing that a valid checksum in the VNF descriptor leads to a successful deployment
Steps:
- Modify the checksum in the VNF descriptor (using the UI VNF catalog) to add the valid checksum for the image (“ee1eca47dc88f4879d8a229cc70a07c6” for the cirros034 image).
- Deploy the same NS as in test1
- Check that the NS is successfully instantiated.
- Access the console via OSM UI (user: “cirros”, pwd: “cubswin:)”)
- Check that the VMs are up and running and connected via the common link.
Images:
- cirros034
Descriptors:
- cirros_vnf
- cirros_2vnf_ns
Test 3a. Instantiation time of large NS based on Cirros images
Objective:
- Check that instantiation time is bounded to avoid spurious timeouts.
- Measure delay in the deployment, and evaluate potential issues in the connector.
Steps:
- Onboard a “large NS” consisting of:
- 2 types of VNFs based on Cirros VM. VNF#1 should have 5 interfaces (+management), while VNF#2 would only require 1 interface (+management)
- Star topology, with 1 VNF in the middle and 5 instances of the other VNF connected to that one (+ the corresponding management interfaces)
- Launch NS instantiation, specifying the right mgmt network to be used
- Check that the UI reports a successful deployment
- Connect to each VNF via SSH (user: “cirros”, pwd: “cubswin:)”)
Images:
- cirros034
Descriptors:
- cirros_2ifaces_vnf
- cirros_6ifaces_vnf
- test3a_ns
Test 3b. Instantiation time of large NS based on Cirros images using IP profiles
Objective:
- Check that instantiation time is bounded to avoid spurious timeouts.
- Measure delay in the deployment, and evaluate potential issues in the connector.
- Check that IP profiles work properly in a large NS
Steps:
- Onboard a “large NS” consisting of:
- 2 types of VNFs based on Cirros VM. VNF#1 should have 5 interfaces (+management), while VNF#2 would only require 1 interface (+management)
- Star topology, with 1 VNF in the middle and 5 instances of the other VNF connected to that one (+ the corresponding management interfaces)
- Networks will have an IP profile so that DHCP is enabled
- Launch NS instantiation, specifying the right mgmt network to be used
- Check that the UI reports a successful deployment
- Connect to each VNF via SSH (user: “cirros”, pwd: “cubswin:)”) and configure the interfaces to use DHCP, e.g. by changing /etc/network/interfaces and running “ifup ethX”
- Check that connectivity is appropriate via ping from the different VMs
Images:
- cirros034
Descriptors:
- cirros_2ifaces_vnf
- cirros_6ifaces_vnf
- test3b_ns
Test 3c. Instantiation time of large NS based on Ubuntu images using IP profiles
Objective:
- Check that instantiation time is bounded to avoid spurious timeouts, even with large images (Ubuntu vs CirrOS).
- Measure delay in the deployment, and evaluate potential issues in the connector.
- Check that IP profiles work properly in a large NS
Steps:
- Onboard a “large NS” consisting of:
- 2 types of VNFs based on Ubuntu VM. VNF#1 should have 5 interfaces (+management), while VNF#2 would only require 1 interface (+management)
- Star topology, with 1 VNF in the middle and 5 instances of the other VNF connected to that one (+ the corresponding management interfaces)
- Networks will have an IP profile so that DHCP is enabled
- Launch NS instantiation, specifying the right mgmt network to be used
- Check that the UI reports a successful deployment
- Connect to each VNF via SSH (user: “osm”, pwd: “osm4u”).
- Check that connectivity is appropriate via ping from the different VMs
Images:
- US1604
Descriptors:
- ubuntu_2ifaces_vnf
- ubuntu_6ifaces_vnf
- test3c_ns
Test 4a. Day 0 configuration: SSH key injection to the default user
Objective:
- Testing SSH key injection to the default user
Steps:
- Onboard a variant of the NS of Test #1, but with Ubuntu VNFs.
- Add an SSH key through the UI (Launchpad > SSH Keys), where the key to be added is the public key.
- Instantiate the NS via UI, requesting the injection of a given SSH key for the default user. Specify also the right mgmt network to be used.
- Check that the UI reports a successful deployment
- Check that the VMs are accessible via SSH, using the private SSH key, from the management network.
Images:
- ubuntu1604
Descriptors:
- ubuntu_1iface_vnf
- test4a_ns
Test 4b. Day 0 configuration: user addition
Objective:
- Testing creation of new user and SSH key injection to that user
Steps:
- Onboard a the variant of the NS of Test #4a (test4b_ns), where the NS includes a user “osm” and SSH public key to be injected to every VNF.
- Launch NS instantiation via UI, specifying the right mgmt network to be used.
- Check that the UI reports a successful deployment.
- Check that the VMs are accessible from the management network via the new user “osm” using its private SSH key (the private key is stored in the folder "test4b_ns/keys" inside the NS package).
Images:
- ubuntu1604
Descriptors:
- ubuntu_1iface_vnf
- test4b_ns
Test 4c. Day 0 configuration: custom user script with cloud-init
Objective:
- Testing injection of cloud-init custom user script
Steps:
- Onboard a variant of the NS of Test #4a (test4c_ns), where the VNF includes a cloud-config custom script that creates a file in the VM and injects a SSH public key to the default user.
- Launch NS instantiation via UI, specifying the right mgmt network to be used
- Check that the UI reports a successful deployment.
- Access the VM via SSH and check that the file has been successfully created. The private key is "test4.pem", stored in the folder "ubuntu_1iface_cloudinit_newfile_vnf/keys" inside the VNF package.
Images:
- ubuntu1604
Descriptors:
- ubuntu_1iface_cloudinit_newfile_vnf
- test4c_ns
Test 5. Port security disabled
Objective:
- Testing the ability to disable port security on demand
Steps:
- Onboard a variant of the NS of Test #4 (test5_ns), but with a VNF whose single interface has port security disabled.
- Launch NS instantiation via UI, specifying the right mgmt network to be used
- Check that the UI reports a successful deployment.
- Connect to each VNF via SSH (user: “osm”, pwd: “osm4u”).
- Configure both VNFs with an additional IP address of the same subnet, e.g.: 192.168.50.X/24
- Do not remove the mgmt IP address.
- Add an additional IP address to the single interfaces using the command "ip addr add 192.168.50.X/24 dev eth0" and ping from one VNF to the other one.
- If port security and security groups have been properly disabled, the ping between both VNFs using the added IP addresses should work.
Images:
- US1604
Descriptors:
- ubuntu_1iface_noportsecurity_vnf
- test5_ns
Test 6a. Assignment of public IP addresses to management interfaces of single-interface VNFs
Objective:
- Testing the assignment of IP addresses from a pool to VNF management interfaces
Prerequisites:
- Configure the VIM to allow the dynamic assignment of public addresses from a pool
- Configure a VIM network (e.g. “public”) to use the appropriate pool, to allow external access via “public” IP addresses.
- Configure the datacenter in the RO to assign public IP addresses to VNF management interfaces (use_floating_ip: true)
Steps:
- Onboard and deploy a NS consisting of 2 Ubuntu VNFs interconnected by a single network (mgmt).
- Instantiate the NS via UI, specifying that the NS network “mgmt” must be mapped to the VIM network name “public”, so that a “public” IP address will be assigned from the pool.
- Check that the UI reports a successful deployment.
- Connect to each VNF via SSH (user: “osm”, pwd: “osm4u”) using the public IP address.
Images:
- US1604
Descriptors:
- ubuntu_1iface_userosm_vnf
- test6a_ns
Test 6b. Assignment of public IP addresses to management interfaces of multi-interface VNFs
Objective:
- Testing the assignment of IP addresses from a pool to VNF management interfaces in the case of multi-interface VNFs. The intention is to check that a single default route is injected.
Prerequisites:
- Configure the VIM to allow the dynamic assignment of public addresses from a pool
- Configure a VIM network (e.g. “public”) to use the appropriate pool, to allow external access via “public” IP addresses.
- Configure the datacenter in the RO to assign public IP addresses to VNF management interfaces (use_floating_ip: true)
Steps:
- Onboard and deploy a NS consisting of 2 Ubuntu VNFs interconnected by two networks (management and data).
- Instantiate the NS via UI, specifying that the NS network “mgmt” must be mapped to the VIM network name “public”, so that a “public” IP address will be assigned from the pool.
- Check that the UI reports a successful deployment.
- Connect to each VNF via SSH (user: “osm”, pwd: “osm4u”) using the public IP address.
Images:
- US1604
Descriptors:
- ubuntu_2ifaces_vnf
- test6b_ns
Test 6c. Assignment of public IP addresses to management interfaces of multi-interface VNFs even when IP profiles are used
Objective:
- Testing the assignment of IP addresses from a pool to VNF management interfaces in the case of multi-interface VNFs even when IP profiles are used. The intention is to check again that a single default route is injected and that IP profiles do not affect that single route.
Prerequisites:
- Configure the VIM to allow the dynamic assignment of public addresses from a pool
- Configure a VIM network (e.g. “public”) to use the appropriate pool, to allow external access via “public” IP addresses.
- Configure the datacenter in the RO to assign public IP addresses to VNF management interfaces (use_floating_ip: true)
Steps:
- Onboard and deploy the NS used in Test 3c, consisting of a star topology, with 1 VNF in the middle and 5 instances of the other VNF connected to that one (+ the corresponding management interfaces), where all the inter-VNF networks have an IP profile so that DHCP is enabled, but with no default gateway.
- Instantiate the NS via UI, specifying that the NS network “mgmt” must be mapped to the VIM network name “public”, so that a “public” IP address will be assigned from the pool. This is the only change with respect to Test 3c.
- Check that the UI reports a successful deployment.
- Connect to each VNF via SSH (user: “osm”, pwd: “osm4u”) using the public IP address.
Images:
- US1604
Descriptors:
- ubuntu_2ifaces_vnf
- ubuntu_6ifaces_vnf
- test3c_ns
Test 7a. EPA tests - phase 1
Objectives:
- Testing that the VIM can map properly vCPUs to pairs of physical HW threads
- Testing that the VIM can assign hugepages memory
- Testing that the VIM can assign SRIOV interfaces
- Testing that the order of interfaces is correct
Steps:
- Onboard pktgen_4psriov VNF, which requires:
- CPU pinning of paired threads
- Hugepages
- SRIOV interfaces
- Onboard a NS with 5 instances of pktgen_4psriov, in a star topology, with one of the VNFs in the middle (Emitter) and 4 VNFs attached (Receiver1-4).
- Check that all VNFs are accessible by SSH via mgmt interface (user: "pktgen", pwd: "pktgen")
- Check (at the VIM or the host) that the CPU pinning is correct.
- Check (at the VIM or the host) that hugepages have been assigned to the guest.
- Check with pktgen that the interfaces are correctly attached to SRIOV interfaces and in the right order:
- Emitter port 0 -> Receiver1 port 0
- Emitter port 1 -> Receiver2 port 1
- Emitter port 2 -> Receiver3 port 2
- Emitter port 3 -> Receiver4 port 3
Images:
- pktgen
Descriptors:
- pktgen_4psriov_vnfd
- test7a_ns
Test 7b. EPA tests - phase 2
Objectives:
- Testing that the VIM can map properly vCPUs to physical cores
- Testing that the VIM can assign passthrough interfaces
- Testing that the order of interfaces is correct
Steps:
- Equivalent to the previous test, but using a variant to the NS which requires:
- Full cores (instead of HW threads)
- Passthrough interfaces (instead of SR-IOV)
Images:
- pktgen
Descriptors:
- pktgen_4ppassthrough_vnfd
- test7b_ns