.. SPDX-License-Identifier: CC-BY-4.0 Troubleshooting =============== This section gives some guidelines about how to troubleshoot the test cases owned by Functest. **IMPORTANT**: As in the previous section, the steps defined below must be executed inside the Functest Docker container and after sourcing the OpenStack credentials:: . $creds or:: source /home/opnfv/functest/conf/env_file VIM --- This section covers the test cases related to the VIM (healthcheck, vping_ssh, vping_userdata, tempest_smoke, tempest_full, rally_sanity, rally_full). vPing common ^^^^^^^^^^^^ For both vPing test cases (**vPing_ssh**, and **vPing_userdata**), the first steps are similar: * Create Glance image * Create Network * Create Security Group * Create Instances After these actions, the test cases differ and will be explained in their respective section. These test cases can be run inside the container, using new Functest CLI as follows:: $ run_tests -t vping_ssh $ run_tests -t vping_userdata The Functest CLI is designed to route a call to the corresponding internal python scripts, located in paths:: /usr/lib/python3.8/site-packages/functest/opnfv_tests/openstack/vping/vping_ssh.py /usr/lib/python3.8/site-packages/functest/opnfv_tests/openstack/vping/vping_userdata.py Notes: #. There is one difference, between the Functest CLI based test case execution compared to the earlier used Bash shell script, which is relevant to point out in troubleshooting scenarios: The Functest CLI does **not yet** support the option to suppress clean-up of the generated OpenStack resources, following the execution of a test case. Explanation: After finishing the test execution, the corresponding script will remove, by default, all created resources in OpenStack (image, instances, network and security group). When troubleshooting, it is advisable sometimes to keep those resources in case the test fails and a manual testing is needed. It is actually still possible to invoke test execution, with suppression of OpenStack resource cleanup, however this requires invocation of a **specific Python script:** 'run_tests'. The `OPNFV Functest Developer Guide`_ provides guidance on the use of that Python script in such troubleshooting cases. Some of the common errors that can appear in this test case are:: vPing_ssh- ERROR - There has been a problem when creating the neutron network.... This means that there has been some problems with Neutron, even before creating the instances. Try to create manually a Neutron network and a Subnet to see if that works. The debug messages will also help to see when it failed (subnet and router creation). Example of Neutron commands (using 10.6.0.0/24 range for example):: neutron net-create net-test neutron subnet-create --name subnet-test --allocation-pool start=10.6.0.2,end=10.6.0.100 \ --gateway 10.6.0.254 net-test 10.6.0.0/24 neutron router-create test_router neutron router-interface-add test_subnet neutron router-gateway-set Another related error can occur while creating the Security Groups for the instances:: vPing_ssh- ERROR - Failed to create the security group... In this case, proceed to create it manually. These are some hints:: neutron security-group-create sg-test neutron security-group-rule-create sg-test --direction ingress --protocol icmp \ --remote-ip-prefix 0.0.0.0/0 neutron security-group-rule-create sg-test --direction ingress --ethertype IPv4 \ --protocol tcp --port-range-min 80 --port-range-max 80 --remote-ip-prefix 0.0.0.0/0 neutron security-group-rule-create sg-test --direction egress --ethertype IPv4 \ --protocol tcp --port-range-min 80 --port-range-max 80 --remote-ip-prefix 0.0.0.0/0 The next step is to create the instances. The image used is located in */home/opnfv/functest/data/cirros-0.5.1-x86_64-disk.img* and a Glance image is created with the name **functest-vping**. If booting the instances fails (i.e. the status is not **ACTIVE**), you can check why it failed by doing:: nova list nova show It might show some messages about the booting failure. To try that manually:: nova boot --flavor m1.small --image functest-vping --nic net-id= nova-test This will spawn a VM using the network created previously manually. In all the OPNFV tested scenarios from CI, it never has been a problem with the previous actions. Further possible problems are explained in the following sections. vPing_SSH ^^^^^^^^^ This test case creates a floating IP on the external network and assigns it to the second instance **opnfv-vping-2**. The purpose of this is to establish a SSH connection to that instance and SCP a script that will ping the first instance. This script is located in the repository under /usr/lib/python3.8/site-packages/functest/opnfv_tests/openstack/vping/ping.sh and takes an IP as a parameter. When the SCP is completed, the test will do a SSH call to that script inside the second instance. Some problems can happen here:: vPing_ssh- ERROR - Cannot establish connection to IP xxx.xxx.xxx.xxx. Aborting If this is displayed, stop the test or wait for it to finish, if you have used the special method of test invocation with specific suppression of OpenStack resource clean-up, as explained earlier. It means that the Container can not reach the Public/External IP assigned to the instance **opnfv-vping-2**. There are many possible reasons, and they really depend on the chosen scenario. For most of the ODL-L3 and ONOS scenarios this has been noticed and it is a known limitation. First, make sure that the instance **opnfv-vping-2** succeeded to get an IP from the DHCP agent. It can be checked by doing:: nova console-log opnfv-vping-2 If the message *Sending discover* and *No lease, failing* is shown, it probably means that the Neutron dhcp-agent failed to assign an IP or even that it was not responding. At this point it does not make sense to try to ping the floating IP. If the instance got an IP properly, try to ping manually the VM from the container:: nova list ping If the ping does not return anything, try to ping from the Host where the Docker container is running. If that solves the problem, check the iptables rules because there might be some rules rejecting ICMP or TCP traffic coming/going from/to the container. At this point, if the ping does not work either, try to reproduce the test manually with the steps described above in the vPing common section with the addition:: neutron floatingip-create nova floating-ip-associate nova-test Further troubleshooting is out of scope of this document, as it might be due to problems with the SDN controller. Contact the installer team members or send an email to the corresponding OPNFV mailing list for more information. vPing_userdata ^^^^^^^^^^^^^^ This test case does not create any floating IP neither establishes an SSH connection. Instead, it uses nova-metadata service when creating an instance to pass the same script as before (ping.sh) but as 1-line text. This script will be executed automatically when the second instance **opnfv-vping-2** is booted. The only known problem here for this test to fail is mainly the lack of support of cloud-init (nova-metadata service). Check the console of the instance:: nova console-log opnfv-vping-2 If this text or similar is shown:: checking http://169.254.169.254/2009-04-04/instance-id failed 1/20: up 1.13. request failed failed 2/20: up 13.18. request failed failed 3/20: up 25.20. request failed failed 4/20: up 37.23. request failed failed 5/20: up 49.25. request failed failed 6/20: up 61.27. request failed failed 7/20: up 73.29. request failed failed 8/20: up 85.32. request failed failed 9/20: up 97.34. request failed failed 10/20: up 109.36. request failed failed 11/20: up 121.38. request failed failed 12/20: up 133.40. request failed failed 13/20: up 145.43. request failed failed 14/20: up 157.45. request failed failed 15/20: up 169.48. request failed failed 16/20: up 181.50. request failed failed 17/20: up 193.52. request failed failed 18/20: up 205.54. request failed failed 19/20: up 217.56. request failed failed 20/20: up 229.58. request failed failed to read iid from metadata. tried 20 it means that the instance failed to read from the metadata service. Contact the Functest or installer teams for more information. Tempest ^^^^^^^ In the upstream OpenStack CI all the Tempest test cases are supposed to pass. If some test cases fail in an OPNFV deployment, the reason is very probably one of the following +----------------------------+------------------------------------------------+ | Error | Details | +============================+================================================+ | Resources required for | Such resources could be e.g. an external | | testcase execution are | network and access to the management subnet | | missing | (adminURL) from the Functest docker container. | +----------------------------+------------------------------------------------+ | OpenStack components or | Check running services in the controller and | | services are missing or | compute nodes (e.g. with "systemctl" or | | not configured properly | "service" commands). | | | Configuration parameters can be verified from | | | the related .conf files located under | | | '/etc/' directories. | +----------------------------+------------------------------------------------+ | Some resources required | The tempest.conf file, automatically generated | | for execution test cases | by Rally in Functest, does not contain all the | | are missing | needed parameters or some parameters are not | | | set properly. | | | The tempest.conf file is located in directory | | | 'root/.rally/verification/verifier- | | | /for-deployment-' | | | in the Functest Docker container. Use the | | | "rally deployment list" command in order to | | | check the UUID of the current deployment. | +----------------------------+------------------------------------------------+ When some Tempest test case fails, captured traceback and possibly also the related REST API requests/responses are output to the console. More detailed debug information can be found from tempest.log file stored into related Rally deployment folder. Functest offers a possibility to test a customized list of Tempest test cases. To enable that, add a new entry in docker/smoke/testcases.yaml on the "smoke" container with the following content:: - case_name: tempest_custom project_name: functest criteria: 100 blocking: false description: >- The test case allows running a customized list of tempest test cases run: name: tempest_common args: mode: "tempest.scenario.test_server_basic_ops.TestServerBasicOps.test_server_basic_ops|\ tempest.scenario.test_network_basic_ops.TestNetworkBasicOps.test_network_basic_ops" This is an example of running a customized list of Tempest tests in Functest:: sudo docker run --env-file env \ -v $(pwd)/openstack.creds:/home/opnfv/functest/conf/env_file \ -v $(pwd)/images:/home/opnfv/functest/images \ -v $(pwd)/my-custom-testcases.yaml:/usr/lib/python3.8/site-packages/xtesting/ci/testcases.yaml \ opnfv/functest-smoke run_tests -t tempest_custom Rally ^^^^^ The same error causes which were mentioned above for Tempest test cases, may also lead to errors in Rally as well. Possible scenarios are: * authenticate * glance * cinder * heat * keystone * neutron * nova * quotas * vm To know more about what those scenarios are doing, they are defined in directory: /usr/lib/python3.8/site-packages/functest/opnfv_tests/openstack/rally/scenario For more info about Rally scenario definition please refer to the Rally official documentation. `[3]`_ To check any possible problems with Rally, the logs are stored under */home/opnfv/functest/results/rally/* in the Functest Docker container. .. _`[3]`: https://rally.readthedocs.io/en/latest/index.html Controllers ----------- Opendaylight ^^^^^^^^^^^^ If the Basic Restconf test suite fails, check that the ODL controller is reachable and its Restconf module has been installed. If the Neutron Reachability test fails, verify that the modules implementing Neutron requirements have been properly installed. If any of the other test cases fails, check that Neutron and ODL have been correctly configured to work together. Check Neutron configuration files, accounts, IP addresses etc.). Features -------- Please refer to the dedicated feature user guides for details. VNF --- cloudify_ims ^^^^^^^^^^^^ vIMS deployment may fail for several reasons, the most frequent ones are described in the following table: +-----------------------------------+------------------------------------+ | Error | Comments | +===================================+====================================+ | Keystone admin API not reachable | Impossible to create vIMS user and | | | tenant | +-----------------------------------+------------------------------------+ | Impossible to retrieve admin role | Impossible to create vIMS user and | | id | tenant | +-----------------------------------+------------------------------------+ | Error when uploading image from | impossible to deploy VNF | | OpenStack to glance | | +-----------------------------------+------------------------------------+ | Cinder quota cannot be updated | Default quotas not sufficient, they| | | are adapted in the script | +-----------------------------------+------------------------------------+ | Impossible to create a volume | VNF cannot be deployed | +-----------------------------------+------------------------------------+ | SSH connection issue between the | if vPing test fails, vIMS test will| | Test Docker container and the VM | fail... | +-----------------------------------+------------------------------------+ | No Internet access from the VM | the VMs of the VNF must have an | | | external access to Internet | +-----------------------------------+------------------------------------+ | No access to OpenStack API from | Orchestrator can be installed but | | the VM | the vIMS VNF installation fails | +-----------------------------------+------------------------------------+ Please note that this test case requires resources (8 VM (2Go) + 1 VM (4Go)), it is there fore not recommended to run it on a light configuration. .. _`OPNFV Functest Developer Guide`: http://artifacts.opnfv.org/functest/docs/testing_developer_devguide/index.html#