From eac29d2946f5fad5c9d3ca9e28c92262cda84c78 Mon Sep 17 00:00:00 2001 From: Harry Huang Date: Sun, 11 Mar 2018 19:36:29 +0800 Subject: Add docs JIRA: AUTO-29 On behalf of Gerard Damm to commit his codes. Keep docs in auto/docs. Change-Id: Ibf7008d51332af3bdd1176cfe5fccb95714e446e Signed-off-by: Harry Huang --- docs/release/userguide/UC02-feature.userguide.rst | 119 ++++++++++++++++++++++ 1 file changed, 119 insertions(+) create mode 100644 docs/release/userguide/UC02-feature.userguide.rst (limited to 'docs/release/userguide/UC02-feature.userguide.rst') diff --git a/docs/release/userguide/UC02-feature.userguide.rst b/docs/release/userguide/UC02-feature.userguide.rst new file mode 100644 index 0000000..39f0fd3 --- /dev/null +++ b/docs/release/userguide/UC02-feature.userguide.rst @@ -0,0 +1,119 @@ +.. This work is licensed under a Creative Commons Attribution 4.0 International License. +.. http://creativecommons.org/licenses/by/4.0 +.. SPDX-License-Identifier CC-BY-4.0 +.. (c) optionally add copywriters name + + +================================================================ +Auto User Guide: Use Case 2 Resiliency Improvements Through ONAP +================================================================ + +This document provides the release notes for Fraser release of Auto, +specifically for Use Case 2: Resiliency Improvements Through ONAP. + +.. contents:: + :depth: 3 + :local: + + +Description +=========== + +This use case illustrates VNF failure recovery time reduction with ONAP, thanks to its automated monitoring and management. +It simulates an underlying problem (failure, stress, etc.: any adverse condition in the network that can impact VNFs), +tracks a VNF, and measures the amount of time it takes for ONAP to restore the VNF functionality. + +The benefit for NFV edge service providers is to assess what degree of added VIM+NFVI platform resilience for VNFs is obtained by +leveraging ONAP closed-loop control, vs. VIM+NFVI self-managed resilience (which may not be aware of the VNF or the corresponding +end-to-end Service, but only of underlying resources such as VMs and servers). + +Preconditions: +#. hardware environment in which Edge cloud may be deployed +#. Edge cloud has been deployed and is ready for operation +#. ONAP has been deployed onto a cloud and is interfaced (i.e. provisioned for API access) to the Edge cloud +#. Components of ONAP have been deployed on the Edge cloud as necessary for specific test objectives + +In future releases, Auto Use cases will also include the deployment of ONAP (if not already installed), the deployment +of test VNFs (pre-existing VNFs in pre-existing ONAP can be used in the test as well), the configuration of ONAP for +monitoring these VNFs (policies, CLAMP, DCAE), in addition to the test scripts which simulate a problem and measures recovery time. + +Different types of problems can be simulated, hence the identification of multiple test cases corresponding to this use case, +as illustrated in this diagram: + +.. image:: auto-UC02-testcases.jpg + + +Test execution high-level description +===================================== + +The following two MSCs (Message Sequence Charts) show the actors and high-level interactions. + +The first MSC shows the preparation activities (assuming the hardware, network, cloud, and ONAP have already been installed): +onboarding and deployment of VNFs (via ONAP portal and modules in sequence: SDC, VID, SO), and ONAP configuration +(policy framework, closed-loops in CLAMP, activation of DCAE). + +.. image:: auto-UC02-preparation.jpg + +The second MSC illustrates the pattern of all test cases for the Resiliency Improvements: +* simulate the chosen problem (a.k.a. a "Challenge") for this test case, for example suspend a VM which may be used by a VNF +* start tracking the target VNF of this test case +* measure the ONAP-orchestrated VNF Recovery Time +* then the test stops simulating the problem (for example: resume the VM that was suspended), + +In parallel, the MSC also shows the sequence of events happening in ONAP, thanks to its configuration to provide Service +Assurance for the VNF. + +.. image:: auto-UC02-pattern.jpg + + +Test design: data model, implementation modules +=============================================== + +The high-level design of classes shows the identification of several entities: +* Test Case: as identified above, each is a special case of the overall use case (e.g., categorized by challenge type) +* Test Definition: gathers all the information necessary to run a certain test case +* Metric Definition: describes a certain metric that may be measured, in addition to Recovery Time +* Challenge Definition: describe the challenge (problem, failure, stress, ...) simulated by the test case +* Recipient: entity that can receive commands and send responses, and that is queried by the Test Definition or Challenge Definition +(a recipient would be typically a management service, with interfaces (CLI or API) for clients to query) +* Resources: with 3 types (VNF, cloud virtual resource such as a VM, physical resource such as a server) + +Three of these entities have execution-time corresponding classes: +* Test Execution, which captures all the relevant data of the execution of a Test Definition +* Challenge Execution, which captures all the relevant data of the execution of a Challenge Definition +* Metric Value, which captures the a quantitative measurement of a Metric Definition (with a timestamp) + +.. image:: auto-UC02-data1.jpg + +The following diagram illustrates an implementation-independent design of the attributes of these entities: +.. image:: auto-UC02-data2.jpg + +This next diagram shows the Python classes and attributes, as implemented by this Use Case (for all test cases): + +.. image:: auto-UC02-data3.jpg + +Test definition data is stored in serialization files (Python pickles), while test execution data is stored in CSV +files, for easier post-analysis. + +The module design is straightforward: functions and classes for managing data, for interfacing with recipients, +for executing tests, and for interacting with the test user (choosing a Test Definition, showing the details +of a Test Definition, starting the execution). + +.. image:: auto-UC02-module1.jpg + +This last diagram shows the test user menu functions: + +.. image:: auto-UC02-module2.jpg + +In future releases of Auto, testing environments such as FuncTest and Yardstick might be leveraged. + +Also, anonymized test results could be collected from users willing to share them, and aggregates could be +maintained as benchmarks. + + + + + + + + -- cgit 1.2.3-korg