.. This work is licensed under a
.. Creative Commons Attribution 4.0 International License.
.. http://creativecommons.org/licenses/by/4.0
-.. Copyright 2019 Amdocs, Bell Canada
+.. Copyright 2019-2020 Amdocs, Bell Canada, Orange, Samsung
.. _oom_quickstart_guide:
.. _quick-start-label:
.. figure:: oomLogoV2-medium.png
:align: right
-Once a kubernetes environment is available (follow the instructions in
+Once a Kubernetes environment is available (follow the instructions in
:ref:`cloud-setup-guide-label` if you don't have a cloud environment
available), follow the following instructions to deploy ONAP.
> git clone -b <BRANCH> http://gerrit.onap.org/r/oom --recurse-submodules
> cd oom/kubernetes
-where <BRANCH> can be an offical release tag, such as
-4.0.0-ONAP for Dublin
-5.0.1-ONAP for El Alto
-6.0.0-ONAP for Frankfurt
+where <BRANCH> can be an official release tag, such as
+
+* 4.0.0-ONAP for Dublin
+* 5.0.1-ONAP for El Alto
+* 6.0.0 for Frankfurt
+* 7.0.0 for Guilin
+* 8.0.0 for Honolulu
+* 9.0.0 for Istanbul
+* 10.0.0 for Jakarta
**Step 2.** Install Helm Plugins required to deploy ONAP::
- > sudo cp -R ~/oom/kubernetes/helm/plugins/ ~/.helm
+ > cp -R ~/oom/kubernetes/helm/plugins/ ~/.local/share/helm/plugins
+ > helm plugin install https://github.com/chartmuseum/helm-push.git \
+ --version 0.9.0
+
+.. note::
+ The ``--version 0.9.0`` is required as new version of helm (3.7.0 and up) is
+ now using ``push`` directly and helm-push is using ``cm-push`` starting
+ version ``0.10.0`` and up.
+
+**Step 3.** Install Chartmuseum::
+
+ > curl -LO https://s3.amazonaws.com/chartmuseum/release/latest/bin/linux/amd64/chartmuseum
+ > chmod +x ./chartmuseum
+ > mv ./chartmuseum /usr/local/bin
+
+**Step 4.** Install Cert-Manager::
+
+ > kubectl apply -f https://github.com/jetstack/cert-manager/releases/download/v1.2.0/cert-manager.yaml
+
+More details can be found :doc:`here <oom_setup_paas>`.
+**Step 4.1** Install Strimzi Kafka Operator:
-**Step 3.** Customize the helm charts like `oom/kubernetes/onap/values.yaml` or an override
-file like `onap-all.yaml`, `onap-vfw.yaml` or `openstack.yaml` file to suit your deployment
-with items like the OpenStack tenant information.
+- Add the helm repo::
+
+ > helm repo add strimzi https://strimzi.io/charts/
+
+- Install the operator::
+
+ > helm install strimzi-kafka-operator strimzi/strimzi-kafka-operator --namespace strimzi-system --version 0.28.0 --set watchAnyNamespace=true --create-namespace
+
+More details can be found :doc:`here <oom_setup_paas>`.
+
+**Step 5.** Customize the Helm charts like `oom/kubernetes/onap/values.yaml` or
+an override file like `onap-all.yaml`, `onap-vfw.yaml` or `openstack.yaml` file
+to suit your deployment with items like the OpenStack tenant information.
.. note::
- Standard and example override files (e.g. `onap-all.yaml`, `openstack.yaml`) can be found in
- the `oom/kubernetes/onap/resources/overrides/` directory.
+ Standard and example override files (e.g. `onap-all.yaml`, `openstack.yaml`)
+ can be found in the `oom/kubernetes/onap/resources/overrides/` directory.
a. You may want to selectively enable or disable ONAP components by changing
the ``enabled: true/false`` flags.
- b. Encrypt the OpenStack password using the shell tool for robot and put it in
- the robot helm charts or robot section of `openstack.yaml`
+ b. Encrypt the OpenStack password using the shell tool for Robot and put it in
+ the Robot Helm charts or Robot section of `openstack.yaml`
- c. Encrypt the OpenStack password using the java based script for SO helm charts
- or SO section of `openstack.yaml`.
+ c. Encrypt the OpenStack password using the java based script for SO Helm
+ charts or SO section of `openstack.yaml`.
- d. Update the OpenStack parameters that will be used by robot, SO and APPC helm
+ d. Update the OpenStack parameters that will be used by Robot, SO and APPC Helm
charts or use an override file to replace them.
- e. Add in the command line a value for the global master password (global.masterPassword).
+ e. Add in the command line a value for the global master password
+ (global.masterPassword).
b. Generating ROBOT Encrypted Password:
-The ROBOT encrypted Password uses the same encryption.key as SO but an
+The Robot encrypted Password uses the same encryption.key as SO but an
openssl algorithm that works with the python based Robot Framework.
.. note::
- To generate ROBOT ``openStackEncryptedPasswordHere``::
+ To generate Robot ``openStackEncryptedPasswordHere``::
cd so/resources/config/mso/
/oom/kubernetes/so/resources/config/mso# echo -n "<openstack tenant password>" | openssl aes-128-ecb -e -K `cat encryption.key` -nosalt | xxd -c 256 -p``
c. Generating SO Encrypted Password:
The SO Encrypted Password uses a java based encryption utility since the
Java encryption library is not easy to integrate with openssl/python that
-ROBOT uses in Dublin and upper versions.
+Robot uses in Dublin and upper versions.
.. note::
To generate SO ``openStackEncryptedPasswordHere`` and ``openStackSoEncryptedPassword``
d. Update the OpenStack parameters:
-There are assumptions in the demonstration VNF heat templates about the networking
-available in the environment. To get the most value out of these templates and the
-automation that can help confirm the setup is correct, please observe the following
-constraints.
+There are assumptions in the demonstration VNF Heat templates about the
+networking available in the environment. To get the most value out of these
+templates and the automation that can help confirm the setup is correct, please
+observe the following constraints.
``openStackPublicNetId:``
- This network should allow heat templates to add interfaces.
- This need not be an external network, floating IPs can be assigned to the ports on
- the VMs that are created by the heat template but its important that neutron allow
- ports to be created on them.
+ This network should allow Heat templates to add interfaces.
+ This need not be an external network, floating IPs can be assigned to the
+ ports on the VMs that are created by the heat template but its important that
+ neutron allow ports to be created on them.
``openStackPrivateNetCidr: "10.0.0.0/16"``
- This ip address block is used to assign OA&M addresses on VNFs to allow ONAP connectivity.
- The demonstration heat templates assume that 10.0 prefix can be used by the VNFs and the
- demonstration ip addressing plan embodied in the preload template prevent conflicts when
- instantiating the various VNFs. If you need to change this, you will need to modify the preload
- data in the robot helm chart like integration_preload_parametes.py and the demo/heat/preload_data
- in the robot container. The size of the CIDR should be sufficient for ONAP and the VMs you expect
- to create.
+ This ip address block is used to assign OA&M addresses on VNFs to allow ONAP
+ connectivity. The demonstration Heat templates assume that 10.0 prefix can be
+ used by the VNFs and the demonstration ip addressing plan embodied in the
+ preload template prevent conflicts when instantiating the various VNFs. If
+ you need to change this, you will need to modify the preload data in the
+ Robot Helm chart like integration_preload_parameters.py and the
+ demo/heat/preload_data in the Robot container. The size of the CIDR should
+ be sufficient for ONAP and the VMs you expect to create.
``openStackOamNetworkCidrPrefix: "10.0"``
- This ip prefix mush match the openStackPrivateNetCidr and is a helper variable to some of the
- robot scripts for demonstration. A production deployment need not worry about this
- setting but for the demonstration VNFs the ip asssignment strategy assumes 10.0 ip prefix.
-
+ This ip prefix mush match the openStackPrivateNetCidr and is a helper
+ variable to some of the Robot scripts for demonstration. A production
+ deployment need not worry about this setting but for the demonstration VNFs
+ the ip asssignment strategy assumes 10.0 ip prefix.
Example Keystone v2.0
:language: yaml
-**Step 4.** To setup a local Helm server to server up the ONAP charts::
+**Step 6.** To setup a local Helm server to server up the ONAP charts::
- > helm serve &
+ > chartmuseum --storage local --storage-local-rootdir ~/helm3-storage -port 8879 &
Note the port number that is listed and use it in the Helm repo add as
follows::
> helm repo add local http://127.0.0.1:8879
-**Step 5.** Verify your Helm repository setup with::
+**Step 7.** Verify your Helm repository setup with::
> helm repo list
NAME URL
local http://127.0.0.1:8879
-**Step 6.** Build a local Helm repository (from the kubernetes directory)::
+**Step 8.** Build a local Helm repository (from the kubernetes directory)::
+
+ > make SKIP_LINT=TRUE [HELM_BIN=<HELM_PATH>] all ; make SKIP_LINT=TRUE [HELM_BIN=<HELM_PATH>] onap
+
+`HELM_BIN`
+ Sets the helm binary to be used. The default value use helm from PATH
- > make all; make onap
-**Step 7.** Display the onap charts that available to be deployed::
+**Step 9.** Display the onap charts that available to be deployed::
- > helm search onap -l
+ > helm repo update
+ > helm search repo onap
.. literalinclude:: helm-search.txt
.. note::
- The setup of the Helm repository is a one time activity. If you make changes to your deployment charts or values be sure to use ``make`` to update your local Helm repository.
+ The setup of the Helm repository is a one time activity. If you make changes
+ to your deployment charts or values be sure to use ``make`` to update your
+ local Helm repository.
-**Step 8.** Once the repo is setup, installation of ONAP can be done with a
+**Step 10.** Once the repo is setup, installation of ONAP can be done with a
single command
.. note::
- The ``--timeout 900`` is currently required in Dublin and up to address long
- running initialization tasks for DMaaP and SO. Without this timeout value both
- applications may fail to deploy.
+ The ``--timeout 900s`` is currently required in Dublin and later
+ versions up to address long running initialization tasks for DMaaP
+ and SO. Without this timeout value both applications may fail to
+ deploy.
.. danger::
We've added the master password on the command line.
To deploy all ONAP applications use this command::
> cd oom/kubernetes
- > helm deploy dev local/onap --namespace onap --set global.masterPassword=myAwesomePasswordThatINeedToChange -f onap/resources/overrides/onap-all.yaml -f onap/resources/overrides/environment.yaml -f onap/resources/overrides/openstack.yaml --timeout 900
+ > helm deploy dev local/onap --namespace onap --create-namespace --set global.masterPassword=myAwesomePasswordThatINeedToChange -f onap/resources/overrides/onap-all.yaml -f onap/resources/overrides/environment.yaml -f onap/resources/overrides/openstack.yaml --timeout 900s
-All override files may be customized (or replaced by other overrides) as per needs.
+All override files may be customized (or replaced by other overrides) as per
+needs.
`onap-all.yaml`
- Enables the modules in the ONAP deployment. As ONAP is very modular, it is possible to customize ONAP and disable some components through this configuration file.
+ Enables the modules in the ONAP deployment. As ONAP is very modular, it is
+ possible to customize ONAP and disable some components through this
+ configuration file.
`onap-all-ingress-nginx-vhost.yaml`
- Alternative version of the `onap-all.yaml` but with global ingress controller enabled. It requires the cluster configured with the nginx ingress controller and load balancer.
- Please use this file instad `onap-all.yaml` if you want to use experimental ingress controller feature.
+ Alternative version of the `onap-all.yaml` but with global ingress controller
+ enabled. It requires the cluster configured with the nginx ingress controller
+ and load balancer. Please use this file instead `onap-all.yaml` if you want
+ to use experimental ingress controller feature.
`environment.yaml`
Includes configuration values specific to the deployment environment.
- Example: adapt readiness and liveness timers to the level of performance of your infrastructure
+ Example: adapt readiness and liveness timers to the level of performance of
+ your infrastructure
`openstack.yaml`
- Includes all the Openstack related information for the default target tenant you want to use to deploy VNFs from ONAP and/or additional parameters for the embedded tests.
+ Includes all the OpenStack related information for the default target tenant
+ you want to use to deploy VNFs from ONAP and/or additional parameters for the
+ embedded tests.
-**Step 9.** Verify ONAP installation
+**Step 11.** Verify ONAP installation
-Use the following to monitor your deployment and determine when ONAP is ready for use::
+Use the following to monitor your deployment and determine when ONAP is ready
+for use::
> kubectl get pods -n onap -o=wide
.. note::
- While all pods may be in a Running state, it is not a guarantee that all components are running fine.
+ While all pods may be in a Running state, it is not a guarantee that all
+ components are running fine.
- Launch the healthcheck tests using Robot to verify that the components are healthy::
+ Launch the healthcheck tests using Robot to verify that the components are
+ healthy::
> ~/oom/kubernetes/robot/ete-k8s.sh onap health
-**Step 10.** Undeploy ONAP::
+**Step 12.** Undeploy ONAP
+::
- > helm undeploy dev --purge
+ > helm undeploy dev
-More examples of using the deploy and undeploy plugins can be found here: https://wiki.onap.org/display/DW/OOM+Helm+%28un%29Deploy+plugins
+More examples of using the deploy and undeploy plugins can be found here:
+https://wiki.onap.org/display/DW/OOM+Helm+%28un%29Deploy+plugins