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author | morganrOL <morgan.richomme@orange.com> | 2015-04-29 10:06:16 +0200 |
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committer | morganrOL <morgan.richomme@orange.com> | 2015-04-29 10:07:15 +0200 |
commit | 5ecba7a57eb11e724c99ad639612fb449cc6c60e (patch) | |
tree | df58bc881e7b3a1a168ed490e6595bcfe1418179 /docs | |
parent | 437560f787ea5ac56b59da786f1305d7dbbefa93 (diff) |
Update document for functest R1, add description section, split tooling installation from test running, add illustration
JIRA: FUNTEST-1
Change-Id: If0d738db54aa5835d2c28108f327bbcd6ac18d5a
Signed-off-by: morganrOL <morgan.richomme@orange.com>
Diffstat (limited to 'docs')
-rw-r--r-- | docs/functest.rst | 286 |
1 files changed, 246 insertions, 40 deletions
diff --git a/docs/functest.rst b/docs/functest.rst index d8606aaa..34ff8d6c 100644 --- a/docs/functest.rst +++ b/docs/functest.rst @@ -2,79 +2,191 @@ OPNFV functional test guide =========================== -The goal of this document consists in describing how to run functional tests on OPNFV solution and how to automate these tests. +Testing is a key challenge of OPNFV. +It shall be possible to run functional tests on any OPNFV solution. -For release 1, several test cases have been selected: - * Rally Bench test suite - * Tempest tes suite +The goal of this document consists in +* a description of functional tests for OPNFV +* a description of the tools needed to perform these tests +* the procedure to configure the tools and the scenarios associated with these tests + +Functional tests shall be automated and collected results shall be used to improve the robustness and the reliability of the overall system. + +Function tests may cover any domain that could lead to improve the OPNFV solution and define "Telco Cloud" KPI. + +The last section also describes how to automate these tests within the OPNFV continuous integration project. + +.. _ETSI: http://docbox.etsi.org/ISG/NFV/Open/Published/gs_NFV001v010101p%20-%20Use%20Cases.pdf + +ETSI NFV defined 9 use cases (ref ETSI_): + * VNF as a Service + * NFV as a service + * VNF Forwarding graphs + * Virtual Network Platform as a Service + * Virtualisation of Mobile Core and IMS + * Virtualisation of Mobile station + * Fixed Access NFV + * Virtualization of CDNs (vCDN) + * Virtualization of the Home environment + +.. _`Openstack Telco Working Group`: https://wiki.openstack.org/wiki/TelcoWorkingGroup + +Most of the use cases are also discussed in upstream projects (e.g. `Openstack Telco Working Group`_ ) + +For release 1 (Arno), 5 test suites have been selected: + * Rally Bench test suite for Openstack + * Openstack Tempest test suite * OpenDaylight test suite * vPing * vIMS +The 3 first suites are directly inherited from upstream projects. +vPing, that is already present in Tempest suite, has been developped to provided a basic "hellow world" functional test example. + +.. _`Continuous Integration`: https://build.opnfv.org/ci/view/functest/ + +vEPC, vPE, vHGW, vCDN use cases are not considered for first release. +It does not mean that such use cases cannot be tested on OPNFV Arno. +It means that these use cases have not been integrated in the `Continuous Integration`_ and no specific work (integration or developpment) have been done for R1. + .. _prereqs: ------------- Prerequisites ------------- -We assume that an OPNFV solution has been installed (System Under Test). -For release 1, the tools needed for functional testing are not part of the installer and are not automatically installed. +We assume that an OPNFV solution has been installed. + +.. _here: TBC + +The installation of the OPNFV solution is out of scope of this document but can be found [here_]. +In the rest of the document the OPNFV solution would be considered as the System Under Test (SUT). + +The installation and configuration of the tools needed to perform the tests will be described in the following sections. + +For release 1, the tools are not automatically installed. .. _pharos: https://wiki.opnfv.org/pharos -It is recommended to install the tools on the jump host server as defined in the Pharos project. +It is recommended to install the different tools on the jump host server as defined in the pharos_ project. +The high level architecture can be described as follow: + +.. figure:: overall_description.png + :scale: 50 + :alt: overall description -.. _installation: +.. _description: ------------- -Installation ------------- +------------------------------ +Description of the test cases +------------------------------ Rally bench test suite ====================== -Create or enter a folder where you want to check out the tool repos. Follow `Rally installation procedure`_. +.. _Rally: https://wiki.openstack.org/wiki/Rally -.. _`Rally installation procedure`: https://rally.readthedocs.org/en/latest/tutorial/step_0_installation.html +The OPNFV scenarios are based on the collection of Rally_ default scenarios: + * authenticate + * cinder + * nova + * vm + * glance + * keystone + * neutron + * quotas +The goal of this test suite is to test the different modules of OpenStack and get significant figures that could help us to define telco Cloud KPI. + +This test suite provides performance information on VIM (OpenStack) part. + +No SLA were defined for release 1, we just consider whether the tests are passed or failed. + +In the future SLA shall be considered (e.g. accepting booting time for a given image with a given flavour). + +Through its integration in Continuous Integration, the evolution of the performance of these tests shall also be considered. Tempest ======= -It is possible to use Rally to perform Tempest tests. See `tempest installation guide using Rally`_. +.. _Tempest: http://docs.openstack.org/developer/tempest/overview.html + +Tempest_ is the OpenStack Integration Test Suite. We use Rally to run Tempest suite. + +The goal of this test is to check the OpenStack installation (sanity checks). -.. _`tempest installation guide using Rally`: https://www.mirantis.com/blog/rally-openstack-tempest-testing-made-simpler/ OpenDaylight ============ -ODL wiki page describes system preparation and running tests. See `Integration Group CSIT`_. - -.. _`Integration Group CSIT`: https://wiki.opendaylight.org/view/CrossProject:Integration_Group:CSIT -Summary: Set up python2.7 virtual environment:: +vPing +===== - mkvirtualenv robot +The goal of this test can be described as follow: - pip install requests - pip install robotframework - pip install robotframework-sshlibrary - pip install robotframework-requests +.. figure:: vPing.png + :scale: 50 + :alt: vPing description + +The vPing test case is already present in Tempest suite. + +This example, using OpenStack python clients can be considered as an "hellow World" example and may be modified for future use. -vPing -===== vIMS ==== +vIMS is one of the testcases defined by ETSI. -.. _manualtest: +.. figure:: http://fr.wikipedia.org/wiki/IP_Multimedia_Subsystem#/media/File:Ims_overview.png + :scale: 50 + :alt: IMS (src wikipedia) + +the goal of this test consists in deploying a virtualized IP Multimedia Subsystem (vIMS) on OPNFV, configuring it to deliver services to a set of emulated SIP endpoints, deploying a virtualized test system that implements those emulated SIP endpoints, and performing a series of simple functional tests on the vIMS, including the ability to establish SIP sessions between emulated endpoints. + +This functional test will verify that + * The OpenStack Nova API can be called to instantiate a set of VMs that together comprise a vIMS network function + * The OpenStack Glance service is capable of serving up the required images + * The virtual networking component of the platform can provide working IP connectivity between and among the VMs + * The platform as a whole is capable of supporting the running of a real virtualized network function that delivers a typical service offered by a network operator, i.e. voice telephony + +Functional testing of vIMS in OPNFV Release 1 will be limited to a basic, non-scalable and non-fault-tolerant deployment of IMS. +Furthermore, in this release the vIMS will perform only control plane functions (i.e. processing of SIP signaling messages) and will not be passing RTP media streams. + +In future releases, the same software elements can be deployed with multiple instances of each VNF component to provide a fault tolerant and dynamically scalable deployment of IMS. With the addition of virtualized Session Border Controller software elements, the scope of vIMS functional testing can be further expanded to include the handling of RTP media. + +.. _clearwater: http://www.projectclearwater.org/ + +The vIMS core function is based on the clearwater_ open source solution. + + +.. _tooling_installation: + +---------------------- +Tooling installation +---------------------- + +2 tools are needed for the R1 functional tests: + * Rally + * Robot --------------- -Manual testing --------------- Rally ===== -Check your deployment:: + +.. _`Rally installation procedure`: https://rally.readthedocs.org/en/latest/tutorial/step_0_installation.html + +.. _`OpenRC`: http://docs.openstack.org/user-guide/common/cli_set_environment_variables_using_openstack_rc.html + +The Rally creation can be describe as follow (ref: `Rally installation procedure`_): + * Create or enter a folder where you want to check out the tool repos. + * $ git clone https://git.openstack.org/openstack/rally + * $ ./rally/install_rally.sh + * configure your `OpenRC`_ file to let Rally access to your OpenStack, you can either export it from Horizon or build it manually (OpenStack credentials are required) + * $ source Your_OpenRC_file + * $ rally deployment create --fromenv --name=my-opnfv-test + * $ rally-manage tempest install + +You can check if the configuration of rally is fine by typing 'rally deployment check', you shall see the list of available services as follow:: # rally deployment check keystone endpoints are valid and following service are available: @@ -90,20 +202,114 @@ Check your deployment:: | nova_ec2 | compute_ec2 | Available | | novav3 | computev3 | Available | +-----------+-------------+------------+ + + # rally show images + +--------------------------------------+----------------------------------------------+------------+ + | UUID | Name | Size (B) | + +--------------------------------------+----------------------------------------------+------------+ + | 0a15951f-6388-4d5d-8531-79e7205eb140 | cirros_2015_04_10_13_13_18 | 13167616 | + | 67734efd-75f6-4919-991e-bba9855f3ae1 | Ubuntu 12.04 64b | 260637184 | + | b1504066-045a-4f8f-8919-8c665ef3f400 | Ubuntu 14.04 64b | 253297152 | + +--------------------------------------+----------------------------------------------+------------+ + + # rally show flavors + +--------------------------------------+---------------------+-------+----------+-----------+-----------+ + | ID | Name | vCPUs | RAM (MB) | Swap (MB) | Disk (GB) | + +--------------------------------------+---------------------+-------+----------+-----------+-----------+ + | 110e6375-a058-4af6-b21e-b765187904d2 | m1.medium | 2 | 1024 | | 20 | + | 7084d7e7-415a-455d-a55a-2ad286ddf7c9 | m1.large | 4 | 4096 | | 80 | + | a0345ba7-c667-4fd2-964f-7e98f8cda279 | m1.xlarge | 4 | 8192 | | 200 | + | accdc28c-5e20-4859-a5cc-61cf9009e56d | m1.small | 1 | 512 | | 10 | + +--------------------------------------+---------------------+-------+----------+-----------+-----------+ + +Robot +===== +Summary: Set up python2.7 virtual environment:: -Create a new opnfv scenario directory and run test suite:: + mkvirtualenv robot - # cd ~/rally/samples/tasks/scenario/ - # mkdir opnfv - # wget http://git.opnfv.org/.. <TODO> - # rally task start --abort-on-sla-failure ./opnfv.json + pip install requests + pip install robotframework + pip install robotframework-sshlibrary + pip install robotframework-requests -Tempest -======= -If we consider running Tempest suite with Rally:: +------------------------------ +Functional test configuration +------------------------------ + +Rally bench suite +================= + +Rally bench scenarios have been aggregated in json files. +A script has been developed to simplify the management of the tests and the integration in CI, get it from git:: + + # wget https://git.opnfv.org/cgit/functest/tree/testcases/VIM/OpenStack/CI/libraries/run_rally.py + +Several scenarios are available (all based on native Rally scenarios): + * glance + * nova + * authenticate + * keystone + * neutron + * vm + * quotas + * request + * tempest + * all (every module except tempest) + +You can run the script as follow:: + #python run_rally.py keystone + +The script will: + * get the json scenario (if not already available) and put it into the scenario folder + * run rally + * generate the html result page into the result folder as opnfv-[module name]-[timestamp].html + * generate the json result page into the result folder as opnfv-[module name]-[timestamp].json + * generate OK or KO + +Tempest suite +============= + +It is possible to use Rally to perform Tempest tests (ref: `tempest installation guide using Rally`_) +You just need to run:: + + # rally verify start + +The different modes available are smoke, baremetal, compute, data_processing, identity, image, network, object_storage, orchestration, telemetry, and volume. By default if you do not precise anything then smoke tests be selected by default. + +.. _`tempest installation guide using Rally`: https://www.mirantis.com/blog/rally-openstack-tempest-testing-made-simpler/ + +OpenDaylight +============ +ODL wiki page describes system preparation and running tests. See `Integration Group CSIT`_. + +.. _`Integration Group CSIT`: https://wiki.opendaylight.org/view/CrossProject:Integration_Group:CSIT + + +vPing +===== + +vIMS +==== + + +.. _manualtest: + +-------------- +Test results +-------------- + +Rally bench suite +================= + +Results are available in the result folder through a html page and a json file. + +Tempest suite +============= + +You can get the results of tempest by typing:: - # rally verify start # rally verify list |