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authorcolumgaynor <colum.gaynor@nokia.com>2016-06-29 21:29:26 +0300
committerCédric Ollivier <cedric.ollivier@orange.com>2016-07-04 17:25:53 +0200
commitbcb0490d8e872504c0113199fd282e98b3dec47b (patch)
tree375254bc511265dc919bf004e220876295e39012 /docs/userguide/index.rst
parent42e93cdcb2702e0c740fda3c2dba936e9d6ab806 (diff)
Functest Userguide update for Colorado
Text updates to reflect the introduction of the Functest CLI for Functest Docker container environment. JIRA: FUNCTEST-238 Change-Id: Ifa742fb5c4a24ae94cc1e7062bcb8c0a2f49bf02 Signed-off-by: columgaynor <colum.gaynor@nokia.com>
Diffstat (limited to 'docs/userguide/index.rst')
-rw-r--r--docs/userguide/index.rst200
1 files changed, 124 insertions, 76 deletions
diff --git a/docs/userguide/index.rst b/docs/userguide/index.rst
index 60bbc5b1..ea267976 100644
--- a/docs/userguide/index.rst
+++ b/docs/userguide/index.rst
@@ -12,24 +12,45 @@ OPNFV FUNCTEST user guide
Introduction
============
-The goal of this document is to describe the Functest test cases as well as
-provide a procedure to execute them.
+The goal of this document is to describe the OPNFV Functest test cases and to
+provide a procedure to execute them. In the OPNFV Colorado system release,
+a Functest CLI utility is introduced for easier execution of test procedures.
-A presentation has been created for the first OPNFV Summit `[4]`_.
+A overview presentation has been created for the first OPNFV Summit `[4]`_.
-This document is a continuation of the Functest Configuration Guide`[1]`_ and it
-is assumed that the Functest Docker container is properly deployed.
+This document is a continuation of the OPNFV Functest Configuration Guide `[1]`_.
-**IMPORTANT**: All the instructions described in this guide must be performed
-inside the container.
+**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 section hereafter.
+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'
+is 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
^^^^^^^^^
@@ -50,7 +71,8 @@ Given the script **ping.sh**::
The goal of this test is to establish an SSH connection using a floating IP
-on the public network and verify that 2 instances can talk on a private network::
+on the Public/External network and verify that 2 instances can talk over a Private
+Tenant network::
vPing_ssh test case
+-------------+ +-------------+
@@ -88,15 +110,16 @@ on the public network and verify that 2 instances can talk on a private network:
+-------------+ +-------------+
This test can be considered as an "Hello World" example.
-It is the first basic use case which shall work on any deployment.
+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 network. It only checks that 2 instances can talk to each other
-on a private network but it also verifies that the Nova metadata service is
-properly working::
+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
+-------------+ +-------------+
@@ -123,7 +146,7 @@ properly working::
+-------------+ +-------------+
When the second VM boots it will execute the script passed as userdata
-automatically and the ping will be detected capturing periodically the output
+automatically. The ping will be detected by periodically capturing the output
in the console-log of the second VM.
@@ -132,7 +155,7 @@ 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 batteries of tests for:
+Tempest has suites of tests for:
* OpenStack API validation
* Scenarios
@@ -143,22 +166,25 @@ 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 in a *log* file for further analysis.
+console output is stored to a *log* file for further analysis.
-As an addition of Arno, Brahmaputra runs a customized set of Tempest test cases.
-The list is specificed through *--tests-file* when executing the Rally command.
-This option has been introduced in the version 0.1.2 of the Rally framework.
+The Tempest testcases are distributed accross two
+Tiers:
-This customized list contains more than 200 Tempest test cases and can be divided
-into two main sections:
+ * Smoke Tier - Test Case 'tempest_smoke_serial'
+ * Openstack Tier - Test case 'tempest_full_parallel'
- 1) Set of Tempest smoke test cases
- 2) Set of test cases from DefCore list `[8]`_
+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.
+different OpenStack components on an OPNFV fresh installation, using the
+corresponding REST API interfaces.
Rally bench test suites
@@ -183,13 +209,20 @@ The OPNFV Rally scenarios are based on the collection of the actual Rally scenar
* quotas
* requests
-A basic SLA (stop test on errors) have been implemented.
+A basic SLA (stop test on errors) has been implemented.
+
+The Rally testcases are distributed accross two Tiers:
+
+ * Smoke Tier - Test Case 'rally_sanity'
+ * Openstack 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.
SDN Controllers
---------------
-Brahmaputra introduces new SDN controllers.
There are currently 2 available controllers:
* OpenDaylight (ODL)
@@ -271,56 +304,42 @@ The test cases are described as follows:
* FUNCvirNetNBL3
- * Create Router: Post dataes for create Router and check it in ONOS
+ * 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 dataes and check it in ONOS
- * Create RouterInterface: Post RouterInterface data to an exist Router
+ * 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 dataes for create FloatingIp and check it in
- ONOS
+ * 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 if it's NULL in
- ONOS or not
- * Create External Gateway: Post dataes for create External Gateway to an
- exit Router and check it
- * Update External Gateway: Update the External Gateway and compare it
- * Delete External Gateway: Delete the External Gateway and check if it's
- NULL in ONOS or not
-
+ * 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
---------
+Open Contrail
+^^^^^^^^^^^^^
+**TODO:**
-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:
+Features
+--------
- * 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
+Doctor
+^^^^^^
-The Clearwater architecture is described as follows:
-
-.. figure:: ../images/clearwater-architecture.png
- :align: center
- :alt: vIMS architecture
+**TODO:**
Promise
^^^^^^^
-Promise provides a basic set of test cases as part of Brahmaputra.
+Promise provides a basic set of test cases as part of the deliverable.
The available 33 test cases can be grouped into 7 test suites:
@@ -350,7 +369,7 @@ The available 33 test cases can be grouped into 7 test suites:
#. Cleanup test allocations: Destroys all allocations in OpenStack.
-SDNVPN
+bgpvpn
^^^^^^
Many telecom network functions are relying on layer-3 infrastructure services,
within a VNF between components, or towards existing external networks.
@@ -359,24 +378,58 @@ existing service provider wide-area-networks (WAN). This proven technology
provides a good mechanism for inter-operation of a NFV Infrastructure (NFVI)
and WAN.
-The SDNVPN project defined a bgpvpn suite.
-This bgpvpn suite deals with 2 Tempest cases dedicated to the test of the
-OpenStack bgpvpn API:
+The SDNVPN project defined a 'bgpvpn' test suite.
+This 'bgpvpn' test suite deals with 2 Tempest cases dedicated to the test of
+the OpenStack 'bgpvpn' API:
* test_create_bgpvpn
* test_create_bgpvpn_as_non_admin_fail
+security_scan
+^^^^^^^^^^^^^
+
+**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
+
+
.. include:: ./runfunctest.rst
+
Test results
============
-For Brahmaputra test results, see the functest results document at `[12]`_
-
Note that the results are documented per scenario basis. Although most of the test
cases might show the same output, some of them are not supported by
-certain scenario. Please select the appropriate scenario and compare the results
-to the referenced in the documentation.
+certain scenarios. Please select the appropriate scenario and compare the results
+to that referenced in the documentation.
Test Dashboard
@@ -391,18 +444,13 @@ Based on results collected in CI, a test dashboard is dynamically generated.
References
==========
-.. _`[1]`: http://artifacts.opnfv.org/functest/docs/configguide/#functional-testing-installation
+.. _`[1]`: http://artifacts.opnfv.org/functest/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://wiki.opnfv.org/opnfv_test_dashboard
-.. _`[7]`: http://testresults.opnfv.org/testapi/test_projects/functest/cases
-.. _`[8]`: https://wiki.openstack.org/wiki/Governance/DefCoreCommittee
.. _`[9]`: https://git.opnfv.org/cgit/functest/tree/testcases/VIM/OpenStack/CI/libraries/os_defaults.yaml
-.. _`[10]`: https://git.opnfv.org/cgit/functest/tree/testcases/VIM/OpenStack/CI/rally_cert/task.yaml
.. _`[11]`: http://robotframework.org/
-.. _`[12]`: http://artifacts.opnfv.org/functest/brahmaputra/docs/results/index.html
OPNFV main site: opnfvmain_.