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author | Akhila Kishore <akhila.kishore@intel.com> | 2019-06-28 12:14:46 -0700 |
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committer | Akhila Kishore <akhila.kishore@intel.com> | 2019-06-28 12:22:26 -0700 |
commit | 24cda10dbd263b373c0e06593277aa43e43c4e5f (patch) | |
tree | d04bd311f44f01a09e97f290bb3112aef2974530 | |
parent | 6d986ee80c43da2098b3bb8da5a04dab8da696bd (diff) |
Adding document for vfw/edgex use case
Adding the setup instructions for vFW/EdgeX usecases.
Removed whitespaces.
Issue-ID: MULTICLOUD-692
Signed-off-by: Akhila Kishore <akhila.kishore@intel.com>
Change-Id: I87a99ad2fce1a936334145ffe5cbf25e3133d93d
-rw-r--r-- | docs/docs_usecases.rst | 2 | ||||
-rw-r--r-- | docs/docs_vfw_edgex_k8s.rst | 621 |
2 files changed, 623 insertions, 0 deletions
diff --git a/docs/docs_usecases.rst b/docs/docs_usecases.rst index b71ed2502..f233302f9 100644 --- a/docs/docs_usecases.rst +++ b/docs/docs_usecases.rst @@ -34,6 +34,8 @@ Use Cases :ref:`vIPsec with HPA Use Case <docs_vipsec_hpa>` +:ref:`vFirewall/edgex with multicloud kubernetes plugin <docs_vfw_edgex_multicloud_k8s>` + Functional Requirements ~~~~~~~~~~~~~~~~~~~~~~~ :ref:`5G - Real Time PM and High Volume Stream Data Collection <docs_realtime_pm>` diff --git a/docs/docs_vfw_edgex_k8s.rst b/docs/docs_vfw_edgex_k8s.rst new file mode 100644 index 000000000..32cf7d290 --- /dev/null +++ b/docs/docs_vfw_edgex_k8s.rst @@ -0,0 +1,621 @@ +.. This work is licensed under a Creative Commons Attribution 4.0 International License. +.. http://creativecommons.org/licenses/by/4.0 +.. Copyright 2018 ONAP + +.. _docs_vfw_edgex_multicloud_k8s: + +vFW/Edgex with Multicloud Kubernetes Plugin: Setting Up and Configuration +------------------------------------------------------------------------- + +Description +~~~~~~~~~~~ +This use case covers the deployment of vFW and Edgex HELM Charts in a Kubernetes based cloud region via the multicloud-k8s plugin. +The multicloud-k8s plugin provides APIs to upload self-contained HELM Charts that can be customized via the profile API and later installed in a particular cloud region. + +When the installation is complete (all the pods are either in running or completed state) + +vFW Helm Chart link: +-------------------- + +https://github.com/onap/multicloud-k8s/tree/master/kud/demo/firewall + +EdgeXFoundry Helm Chart link: +----------------------------- + +https://github.com/onap/multicloud-k8s/tree/master/kud/tests/vnfs/edgex/helm/edgex + + +**Create CSAR with Helm chart as an artifact** +---------------------------------------------- + +The CSAR is a heat template package with Helm chart in it. The basic package +consists of an **environment file**, **base_dummy.yaml file** (example), +**MANIFEST.json** and the **tar.gz** file (of Helm chart). +We need to zip all of these files before onboarding. +One thing to pay much attention to is the naming convention which must +be followed while making the tgz. +**NOTE: The Naming convention is for the helm chart tgz file.** + +**Naming convention follows the format:** + +<free format string>\_\ ***cloudtech***\ \_<technology>\_<subtype>.extension + +1. *Cloudtech:* is a fixed pattern and should not be changed if not + necessary +2. *Technology:* k8s, azure, aws +3. *Subtype*: charts, day0, config template +4. *Extension*: zip, tgz, csar + +NOTE: The .tgz file must be a tgz created from the top level helm chart +folder. I.e. a folder that contains a Chart.yaml file in it. + + +Listed below is an example of the contents inside a heat template +package +:: + + $ vfw-k8s/package$ ls + MANIFEST.json base_dummy.env base_dummy.yaml + vfw_cloudtech_k8s_charts.tgz vfw_k8s_demo.zip + + + + +**MANIFEST.json** +~~~~~~~~~~~~~~~~~ + +Key thing is note the addition of cloud artifact +:: + + type: "CLOUD_TECHNOLOGY_SPECIFIC_ARTIFACTS" + + { + "name": "", + "description": "", + "data": [ + { + "file": "base_dummy.yaml", + "type": "HEAT", + "isBase": "true", + "data": [ + { + "file": "base_dummy.env", + "type": "HEAT_ENV" + } + ] + }, + { + "file": "vfw_cloudtech_k8s_charts.tgz", + "type": "CLOUD_TECHNOLOGY_SPECIFIC_ARTIFACTS" + } + ] + } + +**Base\_dummy.yaml** +~~~~~~~~~~~~~~~~~~~~~ +Designed to be minimal HEAT template + +:: + + ##==================LICENSE_START======================================== + ## + ## Copyright (C) 2019 Intel Corporation + ## SPDX-License-Identifier: Apache-2.0 + ## + ##==================LICENSE_END=========================================== + + heat_template_version: 2016-10-14 + description: Heat template to deploy dummy VNF + + parameters: + dummy_name_0: + type: string + label: name of vm + description: Dummy name + + vnf_id: + type: string + label: id of vnf + description: Provided by ONAP + + vnf_name: + type: string + label: name of vnf + description: Provided by ONAP + + vf_module_id: + type: string + label: vnf module id + description: Provided by ONAP + + dummy_image_name: + type: string + label: Image name or ID + description: Dummy image name + + dummy_flavor_name: + type: string + label: flavor + description: Dummy flavor + + resources: + dummy_0: + type: OS::Nova::Server + properties: + name: { get_param: dummy_name_0 } + image: { get_param: dummy_image_name } + flavor: { get_param: dummy_flavor_name } metadata: { vnf_name: { get_param: vnf_name }, vnf_id: { get_param: vnf_id }, vf_module_id: { get_param: vf_module_id }} + + + + + + +**Base\_dummy.env** + +:: + + parameters: + vnf_id: PROVIDED_BY_ONAP + vnf_name: PROVIDED_BY_ONAP + vf_module_id: PROVIDED_BY_ONAP + dummy_name_0: dummy_1_0 + dummy_image_name: dummy + dummy_flavor_name: dummy.default + +**Onboard the CSAR** +-------------------- + +For onboarding instructions please refer to steps 4-9 from the document +`here <https://wiki.onap.org/display/DW/vFWCL+instantiation%2C+testing%2C+and+debuging>`__. + +**Steps for installing KUD Cloud** +---------------------------------- + +Follow the link to install KUD Kubernetes Deployment. KUD contains all +the packages required for running vfw use case. + +Kubernetes Baremetal deployment instructions here_ + +.. _here: https://wiki.onap.org/display/DW/Kubernetes+Baremetal+deployment+setup+instructions/ + +**REGISTER KUD CLOUD REGION with K8s-Plugin** +--------------------------------------------- + +API to support Reachability for Kubernetes Cloud + +**The command to POST connectivity info** +~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ +:: + + { + "cloud-region" : "<name>", // Must be unique across + "cloud-owner" : "<owner>", + "other-connectivity-list" : { + } + +This is a multipart upload and here is how you do the POST for this. + +#Using a json file (eg: post.json) containing content as above +:: + + curl -i -F "metadata=<post.json;type=application/json" -F file=@ + /home/ad_kkkamine/.kube/config -X POST http://MSB_NODE_IP:30280/api/multicloud-k8s/v1/v1/connectivity-info + +**Command to GET Connectivity Info** +~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ + +:: + + curl -i -X GET http://MSB_NODE_IP:30280/api/multicloud-k8s/v1/v1/connectivity-info/{name} + + +**Command to DELETE Connectivity Info** +~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ + +:: + + curl -i -X GET http://MSB_NODE_IP:30280/api/multicloud-k8s/v1/v1/connectivity-info/{name} + + +**Command to UPDATE/PUT Connectivity Info** +~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ + +:: + + curl -i -X GET http://MSB_NODE_IP:30280/api/multicloud-k8s/v1/v1/connectivity-info/{name} + +**Register KUD Cloud region with AAI** +-------------------------------------- + +With k8s cloud region, we need to add a tenant to the k8s cloud region. +The 'easy' way is to have the ESR information (in step 1 of cloud +registration) point to a real OpenStack tenant (e.g. the OOF tenant in +the lab where we tested). + +This will cause multicloud to add the tenant to the k8s cloud region and +then, similar to #10 in the documentation +`here <https://onap.readthedocs.io/en/casablanca/submodules/integration.git/docs/docs_vfwHPA.html#docs-vfw-hpa>`__, +the service-subscription can be added to that object. + +NOTE: use same name cloud-region and cloud-owner name + +An example is shown below for K8s cloud but following the steps 1,2,3 +from +`here <https://onap.readthedocs.io/en/latest/submodules/multicloud/framework.git/docs/multicloud-plugin-windriver/UserGuide-MultiCloud-WindRiver-TitaniumCloud.html#tutorial-onboard-instance-of-wind-river-titanium-cloud>`__. +The sample input below is for k8s cloud type. + +**Step 1 - Cloud Registration/ Create a cloud region to represent the instance.** + + +Note: highlighted part of the body refers to an existing OpenStack +tenant (OOF in this case). Has nothing to do with the K8s cloud region +we are adding. + +:: + + PUT https://{{AAI1_PUB_IP}}:{{AAI1_PUB_PORT}}/aai/v13/cloud-infrastructure/cloud-regions/cloud-region/k8scloudowner4/k8sregionfour + { + "cloud-owner": "k8scloudowner4", + "cloud-region-id": "k8sregionfour", + "cloud-type": "k8s", + "owner-defined-type": "t1", + "cloud-region-version": "1.0", + "complex-name": "clli1", + "cloud-zone": "CloudZone", + "sriov-automation": false, + "cloud-extra-info":"{\"openstack-region-id\":\"k8sregionthree\"}", + "esr-system-info-list": { + "esr-system-info": [ + { + "esr-system-info-id": "55f97d59-6cc3-49df-8e69-926565f00066", + "service-url": "http://10.12.25.2:5000/v3", + "user-name": "demo", + "password": "onapdemo", + "system-type": "VIM", + "ssl-insecure": true, + "cloud-domain": "Default", + "default-tenant": "OOF", + "tenant-id": "6bbd2981b210461dbc8fe846df1a7808", + "system-status": "active" + } + ] + } + } + +**Step 2 add a complex to the cloud** + +Note: just adding one that exists already + +:: + + PUT https://{{AAI1_PUB_IP}}:{{AAI1_PUB_PORT}}/aai/v13/cloud-infrastructure/cloud-regions/cloud-region/k8scloudowner4/k8sregionfour/relationship-list/relationship + { + "related-to": "complex", + "related-link": "/aai/v13/cloud-infrastructure/complexes/complex/clli1", + "relationship-data": [ + { + "relationship-key": "complex.physical-location-id", + "relationship-value": "clli1" + } + ] + } + +**Step 3 - Trigger the Multicloud plugin registration process** + + +:: + + POST http://{{MSB_IP}}:{{MSB_PORT}}/api/multicloud-titaniumcloud/v1/k8scloudowner4/k8sregionfour/registry + + +This registers the K8S cloud with Multicloud it also reaches out and +adds tenant information to the cloud (see example below you'll see all +kinds of flavor, image information that is associated with the OOF +tenant). + +If we had not done it this way, then wed have to go in to AAI at this +point and manually add a tenant to the cloud region. The first time I +tried this (k8s region one), I just made up some random tenant id and +put it in.) + +The tenant is there so you can add the service-subscription to it: + +**Making a Service Type:** + +:: + + PUT https://{{AAI1_PUB_IP}}:{{AAI1_PUB_PORT}}/aai/v13/service-design-and-creation/services/service/vfw-k8s + { + "service-description": "vfw-k8s", + "service-id": "vfw-k8s" + } + +Add subscription to service type to the customer (Demonstration in this +case which was already created by running the robot demo scripts) + +:: + + PUT https://{{AAI1_PUB_IP}}:{{AAI1_PUB_PORT}}/aai/v16/business/customers/customer/Demonstration/service-subscriptions/service-subscription/vfw-k8s + { + "service-type": "vfw-k8s" + } + +Add Service-Subscription to the tenant (resource-version changes based +on actual value at the time): + +:: + + PUT https://{{AAI1_PUB_IP}}:{{AAI1_PUB_PORT}}/aai/v16/cloud-infrastructure/cloud-regions/cloud-region/k8scloudowner4/k8sregionfour/tenants/tenant/6bbd2981b210461dbc8fe846df1a7808?resource-version=1559345527327 + { + "tenant-id": "6bbd2981b210461dbc8fe846df1a7808", + "tenant-name": "OOF", + "resource-version": "1559345527327", + "relationship-list": { + "relationship": [ + { + "related-to": "service-subscription", + "relationship-label": "org.onap.relationships.inventory.Uses", + "related-link": "/aai/v13/business/customers/customer/Demonstration/service-subscriptions/service-subscription/vfw-k8s", + "relationship-data": [ + { + "relationship-key": "customer.global-customer-id", + "relationship-value": "Demonstration" + }, + { + "relationship-key": "service-subscription.service-type", + "relationship-value": "vfw-k8s" + } + ] + } + ] + } + } + +**Distribute the CSAR** +----------------------- +Onboard a service it gets stored in SDC final action is distributed. SO +and other services are notified sdc listener in the multicloud sidecar. +When distribution happens it takes tar.gz file and uploads to k8s +plugin. + +**Create Profile Manually** +--------------------------- + +K8s-plugin artifacts start in the form of Definitions. These are nothing +but Helm Charts wrapped with some metadata about the chart itself. Once +the Definitions are created, we are ready to create some profiles so +that we can customize that definition and instantiate it in Kubernetes. + +NOTE: Refer this link_ for complete API lists and +documentation: + +.. _link : https://wiki.onap.org/display/DW/MultiCloud+K8s-Plugin-service+API + +A profile consists of the following: + +**manifest.yaml** + +- Contains the details for the profile and everything contained within + +A **HELM** values override yaml file. + +- It can have any name as long as it matches the corresponding entry in the **manifest.yaml** + +Any number of files organized in a folder structure + +- All these files should have a corresponding entry in **manifest.yaml** file + +**Creating a Profile Artifact** +~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ + +:: + + > cd multicloud-k8s/kud/tests/vnfs/testrb/helm/profile + > find . + manifest.yaml + override_values.yaml + testfol + testfol/subdir + testfol/subdir/deployment.yaml + + #Create profile tar.gz + > cd profile + > tar -cf profile.tar * + > gzip profile.tar + > mv profile.tar.gz ../ + +The manifest file contains the following + +:: + + --- + version: v1 + type: + values: "values_override.yaml" + configresource: + - filepath: testfol/subdir/deployment.yaml + chartpath: vault-consul-dev/templates/deployment.yaml + +Note: values: "values\_override.yaml" can **be** empty **file** **if** +you are creating **a** dummy **profile** + +Note: A dummy profile does not need any customization. The following is +optional in the manifest file. + +:: + + configresource: + - filepath: testfol/subdir/deployment.yaml + chartpath: vault-consul-dev/templates/deployment.yaml + + +With this information, we are ready to upload the profile with the +following JSON data + +:: + + { + "rb-name": "test-rbdef", + "rb-version": "v1", + "profile-name": "p1", + "release-name": "r1", //If release-name is not provided, profile-name will be used + "namespace": "testnamespace1", + "kubernetes-version": "1.12.3" + } + + +**Command to create (POST) Profile** +^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ + +:: + + curl -i -d @create_rbprofile.json -X POST http://MSB_NODE_IP:30280/api/multicloud-k8s/v1/v1/rb/definition/test-rbdef/v1/profile + + + +**Command to UPLOAD artifact for Profile** + +:: + + curl -i --data-binary @profile.tar.gz -X POST http://MSB_NODE_IP:30280/api/multicloud-k8s/v1/v1/rb/definition/test-rbdef/v1/profile/p1/content + + + +**Command to GET Profiles** + +:: + + curl -i http://MSB_NODE_IP:30280/api/multicloud-k8s/v1/v1/rb/definition/test-rbdef/v1/profile + # Get one Profile + curl -i http://MSB_NODE_IP:30280/api/multicloud-k8s/v1/v1/rb/definition/test-rbdef/v1/profile/p1 + + + +**Command to DELETE Profile** +:: + + curl -i -X DELETE http://MSB_NODE_IP:30280/api/multicloud-k8s/v1/v1/rb/definition/test-rbdef/v1/profile/p1 + + +**Instantiation** +----------------- + +Instantiation is done by SO. SO then talks to Multi Cloud-broker via MSB +and that in turn looks up the cloud region in AAI to find the endpoint. +If k8sregion one is registered with AAI and SO makes a call with that, +then the broker will know that it needs to talk to k8s-plugin based on +the type of the registration. + +**Instantiate the created Profile via the following REST API** + +:: + + Using the following JSON: + { + "cloud-region": "kud", + "profile-name": "p1", + "rb-name":"test-rbdef", + "rb-version":"v1", + "labels": { + } + } + +**NOTE**: Make sure that the namespace is already created before +instantiation. + +Instantiate the profile with the ID provided above + +**Command to Instantiate a Profile** + +:: + + curl -d @create_rbinstance.json http://MSB_NODE_IP:30280/api/multicloud-k8s/v1/v1/instance + + +The command returns the following JSON + +:: + + { + "id": "ZKMTSaxv", + "rb-name": "mongo", + "rb-version": "v1", + "profile-name": "profile1", + "cloud-region": "kud", + "namespace": "testns", + "resources": [ + { + "GVK": { + "Group": "", + "Version": "v1", + "Kind": "Service" + }, + "Name": "mongo" + }, + { + "GVK": { + "Group": "", + "Version": "v1", + "Kind": "Service" + }, + "Name": "mongo-read" + }, + { + "GVK": { + "Group": "apps", + "Version": "v1beta1", + "Kind": "StatefulSet" + }, + "Name": "profile1-mongo" + } + ] + } + +**Delete Instantiated Kubernetes resources** + +The **id** field from the returned JSON can be used to **DELETE** the +resources created in the previous step. This executes a Delete operation +using the Kubernetes API. + +:: + + curl -X DELETE http://MSB_NODE_IP:30280/api/multicloud-k8s/v1/v1/instance/ZKMTSaxv + + +**GET Instantiated Kubernetes resources** + + +The **id field** from the returned JSON can be used to **GET** the +resources created in the previous step. This executes a get operation +using the Kubernetes API. + +:: + + curl -X GET http://MSB_NODE_IP:30280/api/multicloud-k8s/v1/v1/instance/ZKMTSaxv + + +`*\ https://github.com/onap/oom/blob/master/kubernetes/multicloud/resources/config/provider-plugin.json <https://github.com/onap/oom/blob/master/kubernetes/multicloud/resources/config/provider-plugin.json>`__ + +**Create User parameters** + +We need to create parameters that ultimately get translated as: + +:: + + "user_directives": { + "attributes": [ + { + "attribute_name": "definition-name", + "attribute_value": "edgex" + }, + { + "attribute_name": "definition-version", + "attribute_value": "v1" + }, + { + "attribute_name": "profile-name", + "attribute_value": "profile1" + } + ] + } |