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Roger Maitland953b5f12018-03-22 15:24:04 -04001.. This work is licensed under a Creative Commons Attribution 4.0 International License.
2.. http://creativecommons.org/licenses/by/4.0
3.. Copyright 2018 Amdocs, Bell Canada
4
5.. Links
6.. _Curated applications for Kubernetes: https://github.com/kubernetes/charts
7.. _Services: https://kubernetes.io/docs/concepts/services-networking/service/
8.. _ReplicaSet: https://kubernetes.io/docs/concepts/workloads/controllers/replicaset/
9.. _StatefulSet: https://kubernetes.io/docs/concepts/workloads/controllers/statefulset/
10.. _Helm Documentation: https://docs.helm.sh/helm/
11.. _Helm: https://docs.helm.sh/
12.. _Kubernetes: https://Kubernetes.io/
Roger Maitlandda221582018-05-10 13:43:58 -040013.. _Kubernetes LoadBalancer: https://kubernetes.io/docs/concepts/services-networking/service/#type-loadbalancer
Roger Maitland953b5f12018-03-22 15:24:04 -040014.. _user-guide-label:
15
16OOM User Guide
17##############
18
19The ONAP Operations Manager (OOM) provide the ability to manage the entire
20life-cycle of an ONAP installation, from the initial deployment to final
21decommissioning. This guide provides instructions for users of ONAP to
22use the Kubernetes_/Helm_ system as a complete ONAP management system.
23
24This guide provides many examples of Helm command line operations. For a
25complete description of these commands please refer to the `Helm
26Documentation`_.
27
28.. figure:: oomLogoV2-medium.png
29 :align: right
30
31The following sections describe the life-cycle operations:
32
33- Deploy_ - with built-in component dependency management
34- Configure_ - unified configuration across all ONAP components
35- Monitor_ - real-time health monitoring feeding to a Consul UI and Kubernetes
36- Heal_- failed ONAP containers are recreated automatically
37- Scale_ - cluster ONAP services to enable seamless scaling
38- Upgrade_ - change-out containers or configuration with little or no service impact
39- Delete_ - cleanup individual containers or entire deployments
40
41.. figure:: oomLogoV2-Deploy.png
42 :align: right
43
44Deploy
45======
46
47The OOM team with assistance from the ONAP project teams, have built a
48comprehensive set of Helm charts, yaml files very similar to TOSCA files, that
49describe the composition of each of the ONAP components and the relationship
50within and between components. Using this model Helm is able to deploy all of
Roger Maitlandbb8adda2018-04-05 16:18:11 -040051ONAP with a few simple commands.
52
53Pre-requisites
54--------------
55Your environment must have both the Kubernetes `kubectl` and Helm setup as a one time activity.
56
57Install Kubectl
58~~~~~~~~~~~~~~~
59Enter the following to install kubectl (on Ubuntu, there are slight differences on other O/Ss), the Kubernetes command line interface used to manage a Kubernetes cluster::
60
Michael O'Brien42d87d02018-04-18 17:17:54 -040061 > curl -LO https://storage.googleapis.com/kubernetes-release/release/v1.8.10/bin/linux/amd64/kubectl
Roger Maitlandbb8adda2018-04-05 16:18:11 -040062 > chmod +x ./kubectl
63 > sudo mv ./kubectl /usr/local/bin/kubectl
64 > mkdir ~/.kube
65
66Paste kubectl config from Rancher (see the :ref:`cloud-setup-guide-label` for alternative Kubenetes environment setups) into the `~/.kube/config` file.
67
68Verify that the Kubernetes config is correct::
69
70 > kubectl get pods --all-namespaces
71
72At this point you should see six Kubernetes pods running.
73
74Install Helm
75~~~~~~~~~~~~
76Helm is used by OOM for package and configuration management. To install Helm, enter the following::
77
Roger Maitland46871952018-04-10 11:40:58 -040078 > wget http://storage.googleapis.com/kubernetes-helm/helm-v2.7.2-linux-amd64.tar.gz
79 > tar -zxvf helm-v2.7.2-linux-amd64.tar.gz
Roger Maitlandbb8adda2018-04-05 16:18:11 -040080 > sudo mv linux-amd64/helm /usr/local/bin/helm
81
82Verify the Helm version with::
83
84 > helm version
85
86Install the Helm Tiller application and initialize with::
87
88 > helm init
89
90Install the Helm Repo
91---------------------
92Once kubectl and Helm are setup, one needs to setup a local Helm server to server up the ONAP charts::
Roger Maitland953b5f12018-03-22 15:24:04 -040093
94 > helm install osn/onap
95
96.. note::
97 The osn repo is not currently available so creation of a local repository is
98 required.
99
100Helm is able to use charts served up from a repository and comes setup with a
101default CNCF provided `Curated applications for Kubernetes`_ repository called
102stable which should be removed to avoid confusion::
103
104 > helm repo remove stable
105
106.. To setup the Open Source Networking Nexus repository for helm enter::
107.. > helm repo add osn 'https://nexus3.onap.org:10001/helm/helm-repo-in-nexus/master/'
108
109To prepare your system for an installation of ONAP, you'll need to::
110
111 > git clone http://gerrit.onap.org/r/oom
Roger Maitlandbb8adda2018-04-05 16:18:11 -0400112 > cd oom/kubernetes
113
Roger Maitland953b5f12018-03-22 15:24:04 -0400114
Roger Maitland953b5f12018-03-22 15:24:04 -0400115To setup a local Helm server to server up the ONAP charts::
116
Roger Maitlandbb8adda2018-04-05 16:18:11 -0400117 > helm init
Roger Maitland953b5f12018-03-22 15:24:04 -0400118 > helm serve &
119
120Note the port number that is listed and use it in the Helm repo add as follows::
121
122 > helm repo add local http://127.0.0.1:8879
123
124To get a list of all of the available Helm chart repositories::
125
126 > helm repo list
127 NAME URL
128 local http://127.0.0.1:8879
129
Roger Maitland9e5067c2018-03-27 10:57:08 -0400130Then build your local Helm repository::
131
132 > make all
133
Roger Maitland953b5f12018-03-22 15:24:04 -0400134The Helm search command reads through all of the repositories configured on the
135system, and looks for matches::
136
137 > helm search -l
138 NAME VERSION DESCRIPTION
139 local/appc 2.0.0 Application Controller
140 local/clamp 2.0.0 ONAP Clamp
141 local/common 2.0.0 Common templates for inclusion in other charts
142 local/onap 2.0.0 Open Network Automation Platform (ONAP)
143 local/robot 2.0.0 A helm Chart for kubernetes-ONAP Robot
144 local/so 2.0.0 ONAP Service Orchestrator
145
146In any case, setup of the Helm repository is a one time activity.
147
148Once the repo is setup, installation of ONAP can be done with a single command::
149
Roger Maitlandd96413f2018-04-09 10:06:07 -0400150 > helm install local/onap --name development
Roger Maitland953b5f12018-03-22 15:24:04 -0400151
152This will install ONAP from a local repository in a 'development' Helm release.
153As described below, to override the default configuration values provided by
154OOM, an environment file can be provided on the command line as follows::
155
Roger Maitlandd96413f2018-04-09 10:06:07 -0400156 > helm install local/onap --name development -f onap-development.yaml
Roger Maitland953b5f12018-03-22 15:24:04 -0400157
158To get a summary of the status of all of the pods (containers) running in your
159deployment::
160
161 > kubectl get pods --all-namespaces -o=wide
162
163.. note::
164 The Kubernetes namespace concept allows for multiple instances of a component
165 (such as all of ONAP) to co-exist with other components in the same
166 Kubernetes cluster by isolating them entirely. Namespaces share only the
167 hosts that form the cluster thus providing isolation between production and
168 development systems as an example. The OOM deployment of ONAP in Beijing is
169 now done within a single Kubernetes namespace where in Amsterdam a namespace
170 was created for each of the ONAP components.
171
172.. note::
Roger Maitlandd96413f2018-04-09 10:06:07 -0400173 The Helm `--name` option refers to a release name and not a Kubernetes namespace.
Roger Maitland953b5f12018-03-22 15:24:04 -0400174
175
176To install a specific version of a single ONAP component (`so` in this example)
177with the given name enter::
178
179 > helm install onap/so --version 2.0.1 -n so
180
181To display details of a specific resource or group of resources type::
182
183 > kubectl describe pod so-1071802958-6twbl
184
185where the pod identifier refers to the auto-generated pod identifier.
186
187.. figure:: oomLogoV2-Configure.png
188 :align: right
189
190Configure
191=========
192
193Each project within ONAP has its own configuration data generally consisting
194of: environment variables, configuration files, and database initial values.
195Many technologies are used across the projects resulting in significant
196operational complexity and an inability to apply global parameters across the
197entire ONAP deployment. OOM solves this problem by introducing a common
198configuration technology, Helm charts, that provide a hierarchical
199configuration configuration with the ability to override values with higher
200level charts or command line options.
201
202The structure of the configuration of ONAP is shown in the following diagram.
203Note that key/value pairs of a parent will always take precedence over those
204of a child. Also note that values set on the command line have the highest
205precedence of all.
206
207.. graphviz::
208
209 digraph config {
210 {
211 node [shape=folder]
212 oValues [label="values.yaml"]
213 demo [label="onap-demo.yaml"]
214 prod [label="onap-production.yaml"]
215 oReq [label="requirements.yaml"]
216 soValues [label="values.yaml"]
217 soReq [label="requirements.yaml"]
218 mdValues [label="values.yaml"]
219 }
220 {
221 oResources [label="resources"]
222 }
223 onap -> oResources
224 onap -> oValues
225 oResources -> environments
226 oResources -> oReq
227 oReq -> so
228 environments -> demo
229 environments -> prod
230 so -> soValues
231 so -> soReq
232 so -> charts
233 charts -> mariadb
234 mariadb -> mdValues
235
236 }
237
238The top level onap/values.yaml file contains the values required to be set
239before deploying ONAP. Here is the contents of this file:
240
241.. include:: onap_values.yaml
242 :code: yaml
243
244One may wish to create a value file that is specific to a given deployment such
245that it can be differentiated from other deployments. For example, a
246onap-development.yaml file may create a minimal environment for development
247while onap-production.yaml might describe a production deployment that operates
248independently of the developer version.
249
250For example, if the production OpenStack instance was different from a
251developer's instance, the onap-production.yaml file may contain a different
252value for the vnfDeployment/openstack/oam_network_cidr key as shown below.
253
254.. code-block:: yaml
255
256 nsPrefix: onap
257 nodePortPrefix: 302
258 apps: consul msb mso message-router sdnc vid robot portal policy appc aai
259 sdc dcaegen2 log cli multicloud clamp vnfsdk aaf kube2msb
260 dataRootDir: /dockerdata-nfs
261
262 # docker repositories
263 repository:
264 onap: nexus3.onap.org:10001
265 oom: oomk8s
266 aai: aaionap
267 filebeat: docker.elastic.co
268
269 image:
270 pullPolicy: Never
271
272 # vnf deployment environment
273 vnfDeployment:
274 openstack:
275 ubuntu_14_image: "Ubuntu_14.04.5_LTS"
276 public_net_id: "e8f51956-00dd-4425-af36-045716781ffc"
277 oam_network_id: "d4769dfb-c9e4-4f72-b3d6-1d18f4ac4ee6"
278 oam_subnet_id: "191f7580-acf6-4c2b-8ec0-ba7d99b3bc4e"
279 oam_network_cidr: "192.168.30.0/24"
280 <...>
281
282
283To deploy ONAP with this environment file, enter::
284
285 > helm install local/onap -n beijing -f environments/onap-production.yaml
286
287.. include:: environments_onap_demo.yaml
288 :code: yaml
289
290When deploying all of ONAP a requirements.yaml file control which and what
291version of the ONAP components are included. Here is an excerpt of this
292file:
293
294.. code-block:: yaml
295
296 # Referencing a named repo called 'local'.
297 # Can add this repo by running commands like:
298 # > helm serve
299 # > helm repo add local http://127.0.0.1:8879
300 dependencies:
301 <...>
302 - name: so
303 version: ~2.0.0
304 repository: '@local'
305 condition: so.enabled
306 <...>
307
308The ~ operator in the `so` version value indicates that the latest "2.X.X"
309version of `so` shall be used thus allowing the chart to allow for minor
310upgrades that don't impact the so API; hence, version 2.0.1 will be installed
311in this case.
312
313The onap/resources/environment/onap-dev.yaml (see the excerpt below) enables
314for fine grained control on what components are included as part of this
315deployment. By changing this `so` line to `enabled: false` the `so` component
316will not be deployed. If this change is part of an upgrade the existing `so`
317component will be shut down. Other `so` parameters and even `so` child values
318can be modified, for example the `so`'s `liveness` probe could be disabled
319(which is not recommended as this change would disable auto-healing of `so`).
320
321.. code-block:: yaml
322
323 #################################################################
324 # Global configuration overrides.
325 #
326 # These overrides will affect all helm charts (ie. applications)
327 # that are listed below and are 'enabled'.
328 #################################################################
329 global:
330 <...>
331
332 #################################################################
333 # Enable/disable and configure helm charts (ie. applications)
334 # to customize the ONAP deployment.
335 #################################################################
336 aaf:
337 enabled: false
338 <...>
339 so: # Service Orchestrator
340 enabled: true
341
342 replicaCount: 1
343
344 liveness:
345 # necessary to disable liveness probe when setting breakpoints
346 # in debugger so K8s doesn't restart unresponsive container
347 enabled: true
348
349 <...>
350
Roger Maitlandda221582018-05-10 13:43:58 -0400351Accessing the ONAP Portal using OOM and a Kubernetes Cluster
352------------------------------------------------------------
353
354The ONAP deployment created by OOM operates in a private IP network that isn't
355publicly accessible (i.e. Openstack VMs with private internal network) which
356blocks access to the ONAP Portal. To enable direct access to this Portal from a
357user's own environment (a laptop etc.) the portal application's port 8989 is
358exposed through a `Kubernetes LoadBalancer`_ object.
359
360Typically, to be able to access the Kubernetes nodes publicly a public address is
361assigned. In Openstack this is a floating IP address.
362
363When the `portal-app` chart is deployed a Kubernetes service is created that
364instantiates a load balancer. The LB chooses the private interface of one of
365the nodes as in the example below (10.0.0.4 is private to the K8s cluster only).
366Then to be able to access the portal on port 8989 from outside the K8s &
367Openstack environment, the user needs to assign/get the floating IP address that
368corresponds to the private IP as follows::
369
370 > kubectl -n onap get services|grep "portal-app"
371 portal-app LoadBalancer 10.43.142.201 10.0.0.4 8989:30215/TCP,8006:30213/TCP,8010:30214/TCP 1d app=portal-app,release=dev
372
373
374In this example, use the 10.0.0.4 private address as a key find the
375corresponding public address which in this example is 10.12.6.155. If you're
376using OpenStack you'll do the lookup with the horizon GUI or the Openstack CLI
377for your tenant (openstack server list). That IP is then used in your
378`/etc/hosts` to map the fixed DNS aliases required by the ONAP Portal as shown
379below::
380
381 10.12.6.155 portal.api.simpledemo.onap.org
382 10.12.6.155 vid.api.simpledemo.onap.org
383 10.12.6.155 sdc.api.fe.simpledemo.onap.org
384 10.12.6.155 portal-sdk.simpledemo.onap.org
385 10.12.6.155 policy.api.simpledemo.onap.org
386 10.12.6.155 aai.api.sparky.simpledemo.onap.org
387 10.12.6.155 cli.api.simpledemo.onap.org
388 10.12.6.155 msb.api.discovery.simpledemo.onap.org
389
390Ensure you've disabled any proxy settings the browser you are using to access
391the portal and then simply access the familiar URL:
392http://portal.api.simpledemo.onap.org:8989/ONAPPORTAL/login.htm
393
394.. note:: Alternatives Considered.
395
396 Kubernetes port forwarding was considered but discarded as it would require
397 the end user to run a script that opens up port forwarding tunnels to each of
398 the pods that provides a portal application widget.
399
400 Reverting to a VNC server similar to what was deployed in the Amsterdam
401 release was also considered but there were many issues with resolution, lack
402 of volume mount, /etc/hosts dynamic update, file upload that were a tall order
403 to solve in time for the Beijing release.
404
Roger Maitland953b5f12018-03-22 15:24:04 -0400405.. figure:: oomLogoV2-Monitor.png
406 :align: right
407
408Monitor
409=======
410
411All highly available systems include at least one facility to monitor the
412health of components within the system. Such health monitors are often used as
413inputs to distributed coordination systems (such as etcd, zookeeper, or consul)
414and monitoring systems (such as nagios or zabbix). OOM provides two mechanims
415to monitor the real-time health of an ONAP deployment:
416
417- a Consul GUI for a human operator or downstream monitoring systems and
418 Kubernetes liveness probes that enable automatic healing of failed
419 containers, and
420- a set of liveness probes which feed into the Kubernetes manager which
421 are described in the Heal section.
422
423Within ONAP Consul is the monitoring system of choice and deployed by OOM in two parts:
424
425- a three-way, centralized Consul server cluster is deployed as a highly
426 available monitor of all of the ONAP components,and
427- a number of Consul agents.
428
429The Consul server provides a user interface that allows a user to graphically
430view the current health status of all of the ONAP components for which agents
431have been created - a sample from the ONAP Integration labs follows:
432
433.. figure:: consulHealth.png
434 :align: center
435
436To see the real-time health of a deployment go to: http://<kubernetes IP>:30270/ui/
437where a GUI much like the following will be found:
438
439
440.. figure:: oomLogoV2-Heal.png
441 :align: right
442
443Heal
444====
445
446The ONAP deployment is defined by Helm charts as mentioned earlier. These Helm
447charts are also used to implement automatic recoverability of ONAP components
448when individual components fail. Once ONAP is deployed, a "liveness" probe
449starts checking the health of the components after a specified startup time.
450
451Should a liveness probe indicate a failed container it will be terminated and a
452replacement will be started in its place - containers are ephemeral. Should the
453deployment specification indicate that there are one or more dependencies to
454this container or component (for example a dependency on a database) the
455dependency will be satisfied before the replacement container/component is
456started. This mechanism ensures that, after a failure, all of the ONAP
457components restart successfully.
458
459To test healing, the following command can be used to delete a pod::
460
461 > kubectl delete pod [pod name] -n [pod namespace]
462
463One could then use the following command to monitor the pods and observe the
464pod being terminated and the service being automatically healed with the
465creation of a replacement pod::
466
467 > kubectl get pods --all-namespaces -o=wide
468
469.. figure:: oomLogoV2-Scale.png
470 :align: right
471
472Scale
473=====
474
475Many of the ONAP components are horizontally scalable which allows them to
476adapt to expected offered load. During the Beijing release scaling is static,
477that is during deployment or upgrade a cluster size is defined and this cluster
478will be maintained even in the presence of faults. The parameter that controls
479the cluster size of a given component is found in the values.yaml file for that
480component. Here is an excerpt that shows this parameter:
481
482.. code-block:: yaml
483
484 # default number of instances
485 replicaCount: 1
486
487In order to change the size of a cluster, an operator could use a helm upgrade
488(described in detail in the next section) as follows::
489
490 > helm upgrade --set replicaCount=3 onap/so/mariadb
491
492The ONAP components use Kubernetes provided facilities to build clustered,
493highly available systems including: Services_ with load-balancers, ReplicaSet_,
494and StatefulSet_. Some of the open-source projects used by the ONAP components
495directly support clustered configurations, for example ODL and MariaDB Galera.
496
497The Kubernetes Services_ abstraction to provide a consistent access point for
498each of the ONAP components, independent of the pod or container architecture
499of that component. For example, SDN-C uses OpenDaylight clustering with a
500default cluster size of three but uses a Kubernetes service to and change the
501number of pods in this abstract this cluster from the other ONAP components
502such that the cluster could change size and this change is isolated from the
503other ONAP components by the load-balancer implemented in the ODL service
504abstraction.
505
506A ReplicaSet_ is a construct that is used to describe the desired state of the
507cluster. For example 'replicas: 3' indicates to Kubernetes that a cluster of 3
508instances is the desired state. Should one of the members of the cluster fail,
509a new member will be automatically started to replace it.
510
511Some of the ONAP components many need a more deterministic deployment; for
512example to enable intra-cluster communication. For these applications the
513component can be deployed as a Kubernetes StatefulSet_ which will maintain a
514persistent identifier for the pods and thus a stable network id for the pods.
515For example: the pod names might be web-0, web-1, web-{N-1} for N 'web' pods
516with corresponding DNS entries such that intra service communication is simple
517even if the pods are physically distributed across multiple nodes. An example
518of how these capabilities can be used is described in the Running Consul on
519Kubernetes tutorial.
520
521.. figure:: oomLogoV2-Upgrade.png
522 :align: right
523
524Upgrade
525=======
526
527Helm has built-in capabilities to enable the upgrade of pods without causing a
528loss of the service being provided by that pod or pods (if configured as a
529cluster). As described in the OOM Developer's Guide, ONAP components provide
530an abstracted 'service' end point with the pods or containers providing this
531service hidden from other ONAP components by a load balancer. This capability
532is used during upgrades to allow a pod with a new image to be added to the
533service before removing the pod with the old image. This 'make before break'
534capability ensures minimal downtime.
535
536Prior to doing an upgrade, determine of the status of the deployed charts::
537
538 > helm list
539 NAME REVISION UPDATED STATUS CHART NAMESPACE
540 so 1 Mon Feb 5 10:05:22 2018 DEPLOYED so-2.0.1 default
541
542When upgrading a cluster a parameter controls the minimum size of the cluster
543during the upgrade while another parameter controls the maximum number of nodes
544in the cluster. For example, SNDC configured as a 3-way ODL cluster might
545require that during the upgrade no fewer than 2 pods are available at all times
546to provide service while no more than 5 pods are ever deployed across the two
547versions at any one time to avoid depleting the cluster of resources. In this
548scenario, the SDNC cluster would start with 3 old pods then Kubernetes may add
549a new pod (3 old, 1 new), delete one old (2 old, 1 new), add two new pods (2
550old, 3 new) and finally delete the 2 old pods (3 new). During this sequence
551the constraints of the minimum of two pods and maximum of five would be
552maintained while providing service the whole time.
553
554Initiation of an upgrade is triggered by changes in the Helm charts. For
555example, if the image specified for one of the pods in the SDNC deployment
556specification were to change (i.e. point to a new Docker image in the nexus3
557repository - commonly through the change of a deployment variable), the
558sequence of events described in the previous paragraph would be initiated.
559
560For example, to upgrade a container by changing configuration, specifically an
561environment value::
562
563 > helm upgrade beijing onap/so --version 2.0.1 --set enableDebug=true
564
565Issuing this command will result in the appropriate container being stopped by
566Kubernetes and replaced with a new container with the new environment value.
567
568To upgrade a component to a new version with a new configuration file enter::
569
570 > helm upgrade beijing onap/so --version 2.0.2 -f environments/demo.yaml
571
572To fetch release history enter::
573
574 > helm history so
575 REVISION UPDATED STATUS CHART DESCRIPTION
576 1 Mon Feb 5 10:05:22 2018 SUPERSEDED so-2.0.1 Install complete
577 2 Mon Feb 5 10:10:55 2018 DEPLOYED so-2.0.2 Upgrade complete
578
579Unfortunately, not all upgrades are successful. In recognition of this the
580lineup of pods within an ONAP deployment is tagged such that an administrator
581may force the ONAP deployment back to the previously tagged configuration or to
582a specific configuration, say to jump back two steps if an incompatibility
583between two ONAP components is discovered after the two individual upgrades
584succeeded.
585
586This rollback functionality gives the administrator confidence that in the
587unfortunate circumstance of a failed upgrade the system can be rapidly brought
588back to a known good state. This process of rolling upgrades while under
589service is illustrated in this short YouTube video showing a Zero Downtime
590Upgrade of a web application while under a 10 million transaction per second
591load.
592
593For example, to roll-back back to previous system revision enter::
594
595 > helm rollback so 1
596
597 > helm history so
598 REVISION UPDATED STATUS CHART DESCRIPTION
599 1 Mon Feb 5 10:05:22 2018 SUPERSEDED so-2.0.1 Install complete
600 2 Mon Feb 5 10:10:55 2018 SUPERSEDED so-2.0.2 Upgrade complete
601 3 Mon Feb 5 10:14:32 2018 DEPLOYED so-2.0.1 Rollback to 1
602
603.. note::
604
605 The description field can be overridden to document actions taken or include
606 tracking numbers.
607
608Many of the ONAP components contain their own databases which are used to
609record configuration or state information. The schemas of these databases may
610change from version to version in such a way that data stored within the
611database needs to be migrated between versions. If such a migration script is
612available it can be invoked during the upgrade (or rollback) by Container
613Lifecycle Hooks. Two such hooks are available, PostStart and PreStop, which
614containers can access by registering a handler against one or both. Note that
615it is the responsibility of the ONAP component owners to implement the hook
616handlers - which could be a shell script or a call to a specific container HTTP
617endpoint - following the guidelines listed on the Kubernetes site. Lifecycle
618hooks are not restricted to database migration or even upgrades but can be used
619anywhere specific operations need to be taken during lifecycle operations.
620
621OOM uses Helm K8S package manager to deploy ONAP components. Each component is
622arranged in a packaging format called a chart - a collection of files that
623describe a set of k8s resources. Helm allows for rolling upgrades of the ONAP
624component deployed. To upgrade a component Helm release you will need an
625updated Helm chart. The chart might have modified, deleted or added values,
626deployment yamls, and more. To get the release name use::
627
628 > helm ls
629
630To easily upgrade the release use::
631
632 > helm upgrade [RELEASE] [CHART]
633
634To roll back to a previous release version use::
635
636 > helm rollback [flags] [RELEASE] [REVISION]
637
638For example, to upgrade the onap-so helm release to the latest SO container
639release v1.1.2:
640
641- Edit so values.yaml which is part of the chart
642- Change "so: nexus3.onap.org:10001/openecomp/so:v1.1.1" to
643 "so: nexus3.onap.org:10001/openecomp/so:v1.1.2"
644- From the chart location run::
645
646 > helm upgrade onap-so
647
648The previous so pod will be terminated and a new so pod with an updated so
649container will be created.
650
651.. figure:: oomLogoV2-Delete.png
652 :align: right
653
654Delete
655======
656
657Existing deployments can be partially or fully removed once they are no longer
658needed. To minimize errors it is recommended that before deleting components
659from a running deployment the operator perform a 'dry-run' to display exactly
660what will happen with a given command prior to actually deleting anything. For
661example::
662
663 > helm delete --dry-run beijing
664
665will display the outcome of deleting the 'beijing' release from the deployment.
666To completely delete a release and remove it from the internal store enter::
667
668 > helm delete --purge beijing
669
670One can also remove individual components from a deployment by changing the
671ONAP configuration values. For example, to remove `so` from a running
672deployment enter::
673
674 > helm upgrade beijing osn/onap --set so.enabled=false
675
676will remove `so` as the configuration indicates it's no longer part of the
677deployment. This might be useful if a one wanted to replace just `so` by
678installing a custom version.