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author | kalyanreddy <reddyx.gundarapu@intel.com> | 2017-03-28 11:34:11 +0530 |
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committer | kalyanreddy <reddyx.gundarapu@intel.com> | 2017-03-28 11:35:49 +0530 |
commit | f1f3cc27f23bdde81c37d8142d4288d811bd5e45 (patch) | |
tree | 28aeabc93b7aed199fc123738d65d8f390a19a86 /docs/release/configurationguide/scenariomatrix.rst | |
parent | 1f4ef5ee33f715c03a85a868f12e89744f889cff (diff) |
Update documentation structure.
This patch is used to update documentation structure.
Change-Id: I50d4ef4256ccfc57a0434123e7532a50000582cf
Co-Authored by:Srinivas <srinivas.atmakuri@tcs.com>
Co-Authored by:RajithaY<rajithax.yerrumsetty@intel.com>
Co-Authored by:shravani paladugula <shravanix.paladugula@intel.com>
Co-Authored by:Navya Bathula <navyax.bathula@intel.com>
Signed-off-by: Gundarapu Kalyan Reddy <reddyx.gundarapu@intel.com>
Diffstat (limited to 'docs/release/configurationguide/scenariomatrix.rst')
-rw-r--r-- | docs/release/configurationguide/scenariomatrix.rst | 129 |
1 files changed, 129 insertions, 0 deletions
diff --git a/docs/release/configurationguide/scenariomatrix.rst b/docs/release/configurationguide/scenariomatrix.rst new file mode 100644 index 000000000..3da38ed60 --- /dev/null +++ b/docs/release/configurationguide/scenariomatrix.rst @@ -0,0 +1,129 @@ +.. This work is licensed under a Creative Commons Attribution 4.0 International License. + +.. http://creativecommons.org/licenses/by/4.0 + +============== +Scenariomatrix +============== + +Scenarios are implemented as deployable compositions through integration with an installation tool. +OPNFV supports multiple installation tools and for any given release not all tools will support all +scenarios. While our target is to establish parity across the installation tools to ensure they +can provide all scenarios, the practical challenge of achieving that goal for any given feature and +release results in some disparity. + +Danube scenario overeview +^^^^^^^^^^^^^^^^^^^^^^^^^ + +The following table provides an overview of the installation tools and available scenario's +in the Danube release of OPNFV. + +Scenario status is indicated by a weather pattern icon. All scenarios listed with +a weather pattern are possible to deploy and run in your environment or a Pharos lab, +however they may have known limitations or issues as indicated by the icon. + +Weather pattern icon legend: + ++---------------------------------------------+----------------------------------------------------------+ +| Weather Icon | Scenario Status | ++=============================================+==========================================================+ +| .. image:: images/weather-clear.jpg | Stable, no known issues | ++---------------------------------------------+----------------------------------------------------------+ +| .. image:: images/weather-few-clouds.jpg | Stable, documented limitations | ++---------------------------------------------+----------------------------------------------------------+ +| .. image:: images/weather-overcast.jpg | Deployable, stability or feature limitations | ++---------------------------------------------+----------------------------------------------------------+ +| .. image:: images/weather-dash.jpg | Not deployed with this installer | ++---------------------------------------------+----------------------------------------------------------+ + +Scenarios that are not yet in a state of "Stable, no known issues" will continue to be stabilised +and updates will be made on the stable/danube branch. While we intend that all Danube +scenarios should be stable it is worth checking regularly to see the current status. Due to +our dependency on upstream communities and code some issues may not be resolved prior to the D release. + +Scenario Naming +^^^^^^^^^^^^^^^ + +In OPNFV scenarios are identified by short scenario names, these names follow a scheme that +identifies the key components and behaviours of the scenario. The rules for scenario naming are as follows: + +.. code:: bash + + os-[controller]-[feature]-[mode]-[option] + +Details of the fields are + + * **[os]:** mandatory + + * Refers to the platform type used + * possible value: os (OpenStack) + + * **[controller]:** mandatory + + * Refers to the SDN controller integrated in the platform + * example values: nosdn, ocl, odl, onos + + * **[feature]:** mandatory + + * Refers to the feature projects supported by the scenario + * example values: nofeature, kvm, ovs, sfc + + * **[mode]:** mandatory + + * Refers to the deployment type, which may include for instance high availability + * possible values: ha, noha + + * **[option]:** optional + + * Used for the scenarios those do not fit into naming scheme. + * The optional field in the short scenario name should not be included if there is no optional scenario. + +Some examples of supported scenario names are: + + * **os-nosdn-kvm-noha** + + * This is an OpenStack based deployment using neutron including the OPNFV enhanced KVM hypervisor + + * **os-onos-nofeature-ha** + + * This is an OpenStack deployment in high availability mode including ONOS as the SDN controller + + * **os-odl_l2-sfc** + + * This is an OpenStack deployment using OpenDaylight and OVS enabled with SFC features + + * **os-nosdn-kvm_nfv_ovs_dpdk-ha** + + * This is an Openstack deployment with high availability using OVS, DPDK including the OPNFV enhanced KVM hypervisor + * This deployment has ``3-Contoller and 2-Compute nodes`` + + * **os-nosdn-kvm_nfv_ovs_dpdk-noha** + + * This is an Openstack deployment without high availability using OVS, DPDK including the OPNFV enhanced KVM hypervisor + * This deployment has ``1-Contoller and 3-Compute nodes`` + + * **os-nosdn-kvm_nfv_ovs_dpdk_bar-ha** + + * This is an Openstack deployment with high availability using OVS, DPDK including the OPNFV enhanced KVM hypervisor + and Barometer + * This deployment has ``3-Contoller and 2-Compute nodes`` + + * **os-nosdn-kvm_nfv_ovs_dpdk_bar-noha** + + * This is an Openstack deployment without high availability using OVS, DPDK including the OPNFV enhanced KVM hypervisor + and Barometer + * This deployment has ``1-Contoller and 3-Compute nodes`` + +Installing your scenario +^^^^^^^^^^^^^^^^^^^^^^^^ + +There are two main methods of deploying your target scenario, one method is to follow this guide which will +walk you through the process of deploying to your hardware using scripts or ISO images, the other method is +to set up a Jenkins slave and connect your infrastructure to the OPNFV Jenkins master. + +For the purposes of evaluation and development a number of Danube scenarios are able to be deployed +virtually to mitigate the requirements on physical infrastructure. Details and instructions on performing +virtual deployments can be found in the installer specific installation instructions. + +To set up a Jenkins slave for automated deployment to your lab, refer to the `Jenkins slave connect guide. +<http://artifacts.opnfv.org/brahmaputra.1.0/docs/opnfv-jenkins-slave-connection.brahmaputra.1.0.html>`_ |