diff options
author | jose.lausuch <jose.lausuch@ericsson.com> | 2017-02-21 15:21:45 +0100 |
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committer | jose.lausuch <jose.lausuch@ericsson.com> | 2017-03-01 10:54:32 +0100 |
commit | 83714aaa9a09e7df27e06d5d95dadc89a8e67f9e (patch) | |
tree | 8d52ed9b7ab325e795ee9795da2a9bca2715feda /docs/testing/user/userguide/index.rst | |
parent | 8ad45aea10e3e2ec5168eacd53c7f32cf3a17e9b (diff) |
Restructure docs
DOCS directory restructured according to:
https://wiki.opnfv.org/display/DOC/Documentation+Guide
Now:
- release
- release notes
- testing
- developer
- dev guide (this is to be released on docs.opnfv.org)
- internship (docs about intern projects)
- user (this is to be released on docs.opnfv.org)
- config guide
- user guide
Change-Id: I1851189601aac3c5989f19f99d779efe23dbf3d1
Signed-off-by: jose.lausuch <jose.lausuch@ericsson.com>
Diffstat (limited to 'docs/testing/user/userguide/index.rst')
-rw-r--r-- | docs/testing/user/userguide/index.rst | 548 |
1 files changed, 548 insertions, 0 deletions
diff --git a/docs/testing/user/userguide/index.rst b/docs/testing/user/userguide/index.rst new file mode 100644 index 000000000..9436de2b9 --- /dev/null +++ b/docs/testing/user/userguide/index.rst @@ -0,0 +1,548 @@ +.. This work is licensed under a Creative Commons Attribution 4.0 International License. +.. http://creativecommons.org/licenses/by/4.0 + +========================= +OPNFV FUNCTEST user guide +========================= + +.. toctree:: + :maxdepth: 2 + +Version history +=============== ++------------+----------+------------------+----------------------------------+ +| **Date** | **Ver.** | **Author** | **Comment** | +| | | | | ++------------+----------+------------------+----------------------------------+ +| 2016-08-17 | 1.0.0 | Juha Haapavirta | Colorado release | +| | | Column Gaynor | | ++------------+----------+------------------+----------------------------------+ +| 2017-01-23 | 1.0.1 | Morgan Richomme | Adaptations for Danube | +| | | | | +| | | | | ++------------+----------+------------------+----------------------------------+ + + +Introduction +============ + +The goal of this document is to describe the OPNFV Functest test cases and to +provide a procedure to execute them. In the OPNFV Danube system release, +a Functest CLI utility is introduced for easier execution of test procedures. + +**IMPORTANT**: It is assumed here that the Functest Docker container is already +properly deployed and that all instructions described in this guide are to be +performed from *inside* the deployed Functest Docker container. + +.. include:: ./introduction.rst + +The different test cases are described in the remaining sections of this document. + +VIM (Virtualized Infrastructure Manager) +---------------------------------------- + +Healthcheck +^^^^^^^^^^^ +In Colorado release a new Tier 'healthcheck' with one testcase 'healthcheck' +was introduced. The healthcheck testcase verifies that some basic IP connectivity +and essential operations of OpenStack functionality over the command line are +working correctly. + +In particular, the following verifications are performed: + + * DHCP agent functionality for IP address allocation + * Openstack Authentication management functionality via the Keystone API + * OpenStack Image management functionality via the Glance API + * OpenStack Block Storage management functionality via the Cinder API + * OpenStack Networking management functionality via the Neutron API + * Openstack Compute management functionality via the NOVA API + +Self-obviously, successful completion of the 'healthcheck' testcase is a +necessary pre-requisite for the execution of all other test Tiers. + + +vPing_ssh +^^^^^^^^^ + +Given the script **ping.sh**:: + + #!/bin/sh + while true; do + ping -c 1 $1 2>&1 >/dev/null + RES=$? + if [ "Z$RES" = "Z0" ] ; then + echo 'vPing OK' + break + else + echo 'vPing KO' + fi + sleep 1 + done + + +The goal of this test is to establish an SSH connection using a floating IP +on the Public/External network and verify that 2 instances can talk over a Private +Tenant network:: + + vPing_ssh test case + +-------------+ +-------------+ + | | | | + | | Boot VM1 with IP1 | | + | +------------------->| | + | Tester | | System | + | | Boot VM2 | Under | + | +------------------->| Test | + | | | | + | | Create floating IP | | + | +------------------->| | + | | | | + | | Assign floating IP | | + | | to VM2 | | + | +------------------->| | + | | | | + | | Establish SSH | | + | | connection to VM2 | | + | | through floating IP| | + | +------------------->| | + | | | | + | | SCP ping.sh to VM2 | | + | +------------------->| | + | | | | + | | VM2 executes | | + | | ping.sh to VM1 | | + | +------------------->| | + | | | | + | | If ping: | | + | | exit OK | | + | | else (timeout): | | + | | exit Failed | | + | | | | + +-------------+ +-------------+ + +This test can be considered as an "Hello World" example. +It is the first basic use case which **must** work on any deployment. + +vPing_userdata +^^^^^^^^^^^^^^ + +This test case is similar to vPing_ssh but without the use of Floating IPs +and the Public/External network to transfer the ping script. +Instead, it uses Nova metadata service to pass it to the instance at booting time. +As vPing_ssh, it checks that 2 instances can talk to +each other on a Private Tenant network:: + + vPing_userdata test case + +-------------+ +-------------+ + | | | | + | | Boot VM1 with IP1 | | + | +------------------->| | + | | | | + | | Boot VM2 with | | + | | ping.sh as userdata| | + | | with IP1 as $1. | | + | +------------------->| | + | Tester | | System | + | | VM2 exeutes ping.sh| Under | + | | (ping IP1) | Test | + | +------------------->| | + | | | | + | | Monitor nova | | + | | console-log VM 2 | | + | | If ping: | | + | | exit OK | | + | | else (timeout) | | + | | exit Failed | | + | | | | + +-------------+ +-------------+ + +When the second VM boots it will execute the script passed as userdata +automatically. The ping will be detected by periodically capturing the output +in the console-log of the second VM. + + +Tempest +^^^^^^^ + +Tempest `[2]`_ is the reference OpenStack Integration test suite. +It is a set of integration tests to be run against a live OpenStack cluster. +Tempest has suites of tests for: + + * OpenStack API validation + * Scenarios + * Other specific tests useful in validating an OpenStack deployment + +Functest uses Rally `[3]`_ to run the Tempest suite. +Rally generates automatically the Tempest configuration file **tempest.conf**. +Before running the actual test cases, +Functest creates the needed resources (user, tenant) and +updates the appropriate parameters into the configuration file. + +When the Tempest suite is executed, each test duration is measured and the full +console output is stored to a *log* file for further analysis. + +The Tempest testcases are distributed accross two +Tiers: + + * Smoke Tier - Test Case 'tempest_smoke_serial' + * Components Tier - Test case 'tempest_full_parallel' + +NOTE: Test case 'tempest_smoke_serial' executes a defined set of tempest smoke +tests with a single thread (i.e. serial mode). Test case 'tempest_full_parallel' +executes all defined Tempest tests using several concurrent threads +(i.e. parallel mode). The number of threads activated corresponds to the number +of available logical CPUs. + +The goal of the Tempest test suite is to check the basic functionalities of the +different OpenStack components on an OPNFV fresh installation, using the +corresponding REST API interfaces. + + +Rally bench test suites +^^^^^^^^^^^^^^^^^^^^^^^ + +Rally `[3]`_ is a benchmarking tool that answers the question: + +*How does OpenStack work at scale?* + +The goal of this test suite is to benchmark all the different OpenStack modules and +get significant figures that could help to define Telco Cloud KPIs. + +The OPNFV Rally scenarios are based on the collection of the actual Rally scenarios: + + * authenticate + * cinder + * glance + * heat + * keystone + * neutron + * nova + * quotas + * requests + +A basic SLA (stop test on errors) has been implemented. + +The Rally testcases are distributed accross two Tiers: + + * Smoke Tier - Test Case 'rally_sanity' + * Components Tier - Test case 'rally_full' + +NOTE: Test case 'rally_sanity' executes a limited number of Rally smoke test +cases. Test case 'rally_full' executes the full defined set of Rally tests. + +SNAPS +----- + +SNAPS stands for "SNA/NFV Application development Platform and Stack". +This project seeks to develop baseline OpenStack NFV installations. It has been +developed by Steven Pisarski and provided an object oriented library to perform +functional and performance tests. It has been declined in several test suites in +Functest, 2 are part of healthcheck tier, one belongs to smoke tier. + +connection check +^^^^^^^^^^^^^^^^ +Connection_check consists in 9 test cases (test duration < 5s) checking the +connectivity with Glance, Keystone, Neutron, Nova and the external network. + +api_check +^^^^^^^^^ +This test case verifies the retrieval of OpenStack clients: Keystone, Glance, +Neutron and Nova and may perform some simple queries. When the config value of +snaps.use_keystone is True, functest must have access to the cloud's private +network. +This suite consists in 49 tests (test duration< 2 minutes) + +snaps_smoke +^^^^^^^^^^^ +This test case contains tests that setup and destroy environments with VMs with +and without Floating IPs with a newly created user and project. Set the config +value snaps.use_floating_ips (True|False) to toggle this functionality. When +the config value of snaps.use_keystone is True, functest must have access +the cloud's private network. +This suite consists in 38 tests (test duration < 10 minutes) + +More information on SNAPS can be found in `[13]`_ + + +SDN Controllers +--------------- + +There are currently 2 available controllers: + + * OpenDaylight (ODL) + * ONOS + +OpenDaylight +^^^^^^^^^^^^ + +The OpenDaylight (ODL) test suite consists of a set of basic tests inherited +from the ODL project using the Robot `[11]`_ framework. +The suite verifies creation and deletion of networks, subnets and ports with +OpenDaylight and Neutron. + +The list of tests can be described as follows: + + * Basic Restconf test cases + * Connect to Restconf URL + * Check the HTTP code status + + * Neutron Reachability test cases + * Get the complete list of neutron resources (networks, subnets, ports) + + * Neutron Network test cases + * Check OpenStack networks + * Check OpenDaylight networks + * Create a new network via OpenStack and check the HTTP status code returned by Neutron + * Check that the network has also been successfully created in OpenDaylight + + * Neutron Subnet test cases + * Check OpenStack subnets + * Check OpenDaylight subnets + * Create a new subnet via OpenStack and check the HTTP status code returned by Neutron + * Check that the subnet has also been successfully created in OpenDaylight + + * Neutron Port test cases + * Check OpenStack Neutron for known ports + * Check OpenDaylight ports + * Create a new port via OpenStack and check the HTTP status code returned by Neutron + * Check that the new port has also been successfully created in OpenDaylight + + * Delete operations + * Delete the port previously created via OpenStack + * Check that the port has been also succesfully deleted in OpenDaylight + * Delete previously subnet created via OpenStack + * Check that the subnet has also been successfully deleted in OpenDaylight + * Delete the network created via OpenStack + * Check that the network has also been succesfully deleted in OpenDaylight + +Note: the checks in OpenDaylight are based on the returned HTTP status +code returned by OpenDaylight. + + +ONOS +^^^^ + +TestON Framework is used to test the ONOS SDN controller functions. +The test cases deal with L2 and L3 functions. +The ONOS test suite can be run on any ONOS compliant scenario. + +The test cases are described as follows: + + * onosfunctest: The main executable file contains the initialization of + the docker environment and functions called by FUNCvirNetNB and + FUNCvirNetNBL3 + + * FUNCvirNetNB + + * Create Network: Post Network data and check it in ONOS + * Update Network: Update the Network and compare it in ONOS + * Delete Network: Delete the Network and check if it's NULL in ONOS or + not + * Create Subnet: Post Subnet data and check it in ONOS + * Update Subnet: Update the Subnet and compare it in ONOS + * Delete Subnet: Delete the Subnet and check if it's NULL in ONOS or not + * Create Port: Post Port data and check it in ONOS + * Update Port: Update the Port and compare it in ONOS + * Delete Port: Delete the Port and check if it's NULL in ONOS or not + + * FUNCvirNetNBL3 + + * Create Router: Post data for create Router and check it in ONOS + * Update Router: Update the Router and compare it in ONOS + * Delete Router: Delete the Router data and check it in ONOS + * Create RouterInterface: Post Router Interface data to an existing Router + and check it in ONOS + * Delete RouterInterface: Delete the RouterInterface and check the Router + * Create FloatingIp: Post data for create FloatingIp and check it in ONOS + * Update FloatingIp: Update the FloatingIp and compare it in ONOS + * Delete FloatingIp: Delete the FloatingIp and check that it is 'NULL' in + ONOS + * Create External Gateway: Post data to create an External Gateway for an + existing Router and check it in ONOS + * Update External Gateway: Update the External Gateway and compare the change + * Delete External Gateway: Delete the External Gateway and check that it is + 'NULL' in ONOS + + +Features +-------- + +Please refer to the dedicated feature user guides for details: + + * bgpvpn: http://artifacts.opnfv.org/sdnvpn/danube/docs/userguide/index.html + * copper: http://artifacts.opnfv.org/copper/danube/docs/userguide/index.html + * doctor: http://artifacts.opnfv.org/doctor/danube/userguide/index.html + * domino: http://artifacts.opnfv.org/domino/docs/userguide-single/index.html + * multisites: http://artifacts.opnfv.org/multisite/docs/userguide/index.html + * onos-sfc: http://artifacts.opnfv.org/onosfw/danube/userguide/index.html + * odl-sfc: http://artifacts.opnfv.org/sfc/danube/userguide/index.html + * promise: http://artifacts.opnfv.org/danube/colorado/docs/userguide/index.html + * security_scan: http://artifacts.opnfv.org/security_scan/colorado/docs/userguide/index.html + * TODO + +security_scan +^^^^^^^^^^^^^ + +Security Scanning, is a project to insure security compliance and vulnerability +checks, as part of an automated CI / CD platform delivery process. + +The project makes use of the existing SCAP format `[6]`_ to perform deep +scanning of NFVI nodes, to insure they are hardened and free of known CVE +reported vulnerabilities. + +The SCAP content itself, is then consumed and run using an upstream opensource tool +known as OpenSCAP `[7]`_. + +The OPNFV Security Group have developed the code that will called by the OPNFV Jenkins +build platform, to perform a complete scan. Resulting reports are then copied to the +OPNFV functest dashboard. + +The current work flow is as follows: + + * Jenkins Build Initiated + * security_scan.py script is called, and a config file is passed to the script as + an argument. + * The IP addresses of each NFVi node (compute / control) are gathered + * A scan profile is matched to the node type. + * The OpenSCAP application is remotely installed onto each target node gathered + on step 3, using upstream packaging (rpm and .deb). + * A scan is made against each node gathered within step 3. + * HTML Reports are downloaded for rendering on a dashboard. + * If the config file value 'clean' is set to 'True' then the application installed in + step 5 is removed, and all reports created at step 6 are deleted. + +Security scan is supported by Apex, TODO.... + + + +VNF +--- + + +vIMS +^^^^ +The IP Multimedia Subsystem or IP Multimedia Core Network Subsystem (IMS) is an +architectural framework for delivering IP multimedia services. + +vIMS has been integrated in Functest to demonstrate the capability to deploy a +relatively complex NFV scenario on the OPNFV platform. The deployment of a complete +functional VNF allows the test of most of the essential functions needed for a +NFV platform. + +The goal of this test suite consists of: + + * deploy a VNF orchestrator (Cloudify) + * deploy a Clearwater vIMS (IP Multimedia Subsystem) VNF from this + orchestrator based on a TOSCA blueprint defined in `[5]`_ + * run suite of signaling tests on top of this VNF + +The Clearwater architecture is described as follows: + +.. figure:: ../images/clearwater-architecture.png + :align: center + :alt: vIMS architecture + + +parser +^^^^^^ + +See parser user guide for details: `[12]`_ + + +.. include:: ./runfunctest.rst + + +Test results +============ + +Manual testing +-------------- + +In manual mode test results are displayed in the console and result files +are put in /home/opnfv/functest/results. + +Automated testing +-------------- + +In automated mode, test results are displayed in jenkins logs, a summary is provided +at the end of the job and can be described as follow:: + + +==================================================================================================================================================+ + | FUNCTEST REPORT | + +==================================================================================================================================================+ + | | + | Deployment description: | + | INSTALLER: fuel | + | SCENARIO: os-odl_l2-nofeature-ha | + | BUILD TAG: jenkins-functest-fuel-baremetal-daily-master-324 | + | CI LOOP: daily | + | | + +=========================+===============+============+===============+===========================================================================+ + | TEST CASE | TIER | DURATION | RESULT | URL | + +=========================+===============+============+===============+===========================================================================+ + | healthcheck | healthcheck | 03:07 | PASS | | + +-------------------------+---------------+------------+---------------+---------------------------------------------------------------------------+ + | vping_ssh | smoke | 00:56 | PASS | http://testresults.opnfv.org/test/api/v1/results/57ac13d79377c54b278bd4c1 | + +-------------------------+---------------+------------+---------------+---------------------------------------------------------------------------+ + | vping_userdata | smoke | 00:41 | PASS | http://testresults.opnfv.org/test/api/v1/results/57ac14019377c54b278bd4c2 | + +-------------------------+---------------+------------+---------------+---------------------------------------------------------------------------+ + | tempest_smoke_serial | smoke | 16:05 | FAIL | http://testresults.opnfv.org/test/api/v1/results/57ac17ca9377c54b278bd4c3 | + +-------------------------+---------------+------------+---------------+---------------------------------------------------------------------------+ + | rally_sanity | smoke | 12:19 | PASS | http://testresults.opnfv.org/test/api/v1/results/57ac1aad9377c54b278bd4cd | + +-------------------------+---------------+------------+---------------+---------------------------------------------------------------------------+ + | odl | sdn_suites | 00:24 | PASS | http://testresults.opnfv.org/test/api/v1/results/57ac1ad09377c54b278bd4ce | + +-------------------------+---------------+------------+---------------+---------------------------------------------------------------------------+ + | promise | features | 00:41 | PASS | http://testresults.opnfv.org/test/api/v1/results/57ac1ae59377c54b278bd4cf | + +-------------------------+---------------+------------+---------------+---------------------------------------------------------------------------+ + +Results are automatically pushed to the test results database, some additional +result files are pushed to OPNFV artifact web sites. + +Based on the results stored in the result database, a `Functest reporting`_ +portal is also automatically updated. This portal provides information on: + + * The overall status per scenario and per installer + * Tempest: Tempest test case including reported errors per scenario and installer + * vIMS: vIMS details per scenario and installer + +.. figure:: ../images/functest-reporting-status.png + :align: center + :alt: Functest reporting portal Fuel status page + + +Test Dashboard +============== + +Based on results collected in CI, a test dashboard is dynamically generated. + + +.. include:: ./troubleshooting.rst + + +References +========== + +.. _`[1]`: http://artifacts.opnfv.org/functest/colorado/docs/configguide/# +.. _`[2]`: http://docs.openstack.org/developer/tempest/overview.html +.. _`[3]`: https://rally.readthedocs.org/en/latest/index.html +.. _`[4]`: http://events.linuxfoundation.org/sites/events/files/slides/Functest%20in%20Depth_0.pdf +.. _`[5]`: https://github.com/Orange-OpenSource/opnfv-cloudify-clearwater/blob/master/openstack-blueprint.yaml +.. _`[6]`: https://scap.nist.gov/ +.. _`[7]`: https://github.com/OpenSCAP/openscap +.. _`[9]`: https://git.opnfv.org/cgit/functest/tree/testcases/VIM/OpenStack/CI/libraries/os_defaults.yaml +.. _`[11]`: http://robotframework.org/ +.. _`[12]`: http://artifacts.opnfv.org/parser/colorado/docs/userguide/index.html +.. _`[13]`: TODO URL doc SNAPS + +OPNFV main site: opnfvmain_. + +OPNFV functional test page: opnfvfunctest_. + +IRC support chan: #opnfv-testperf + +.. _opnfvmain: http://www.opnfv.org +.. _opnfvfunctest: https://wiki.opnfv.org/opnfv_functional_testing +.. _`OpenRC`: http://docs.openstack.org/user-guide/common/cli_set_environment_variables_using_openstack_rc.html +.. _`Rally installation procedure`: https://rally.readthedocs.org/en/latest/tutorial/step_0_installation.html +.. _`config_test.py` : https://git.opnfv.org/cgit/functest/tree/testcases/config_functest.py +.. _`config_functest.yaml` : https://git.opnfv.org/cgit/functest/tree/testcases/config_functest.yaml +.. _`Functest reporting`: http://testresults.opnfv.org/reporting/functest/release/colorado/index-status-fuel.html |