commit | a9e53c91e4ca773863bae4c66df9a560280e416c | [log] [tgz] |
---|---|---|
author | Tinoj Joseph <Tinoj.Joseph@radisys.com> | Tue Aug 23 10:08:46 2022 +0530 |
committer | Tinoj Joseph <Tinoj.Joseph@radisys.com> | Wed Aug 24 16:08:42 2022 +0530 |
tree | b1e7072ac4efa83442fff60f86e7a5bf810b09ad | |
parent | dd1fd9d86e0b375192958a115d34070c04a6f1a6 [diff] |
[VOL-4763] Updating redis helm charts for VGC Change-Id: I04a914af1b575392d58c263f2260d95d5f76b8e3
This repository defines Kubernetes Helm charts that can be used to deploy a VOLTHA instance. More information and documentation can be found in the voltha docs.
To deploy VOLTHA a Kubernetes environment is required. There are many mechanisms to deploy a Kubernetes environment and how to do so is out of scope for this project. A Simple search on the Internet will lead to the many possibilities.
In addition to a base Kubernetes in order to pass traffic to an OLT additional services that are external to VOLTHA are required, such as an OpenFlow Controller with applications to support authentication (EAPOL
) and IP address allocation (DHCP
) as examplified by the SEBA Project.
The following describes how to deploy VOLTHA.
To use the charts for VOLTHA the following Helm repositories should be added to your helm environment:
helm repo add onf https://charts.opencord.org helm repo update
VOLTHA relies to a set of infrastructure components (ONOS, Kafka, ETCD, ...) that can be installed via the voltha-infra
helm chart:
helm upgrade --install --create-namespace -n infra voltha-infra onf/voltha-infra
By default the voltha-infra
helm chart will install one instance of each component, but that can be customized via a custom value file or via flags, eg:
helm upgrade --install --create-namespace -n infra voltha-infra onf/voltha-infra \ --set onos-classic.replicas=3,onos-classic.atomix.replicas=3 \ --set kafka.replicaCount=3,kafka.zookeeper.replicaCount=3 \ --set etcd.statefulset.replicaCount=3
To deploy a released version of the voltha-infra
chart you can specify the --version
in the command. As an example to deploy the infrastructure for the 2.8 LTS release you can use --version 2.8.0
like:
helm upgrade --install --create-namespace -n infra --version 2.8.0 voltha-infra onf/voltha-infra
In order to access the ONOS CLI you need to expose the ONOS SSH port:
kubectl -n infra port-forward --address 0.0.0.0 svc/voltha-infra-onos-classic-hs 8101:8101
Once that is done you can ssh
into ONOS by:
ssh karaf@127.0.0.1 -p 8101
To access the ONOS Rest API and GUI you need to expose:
kubectl -n infra port-forward --address 0.0.0.0 svc/voltha-infra-onos-classic-hs 8181:8181
The ONOS configuration is defined in two separate variables in the value file:
onos-classic.config.netcfg
: multiline text (json)onos-classic.config.componentConfig
: yaml list of component name and multiline textBeing the content of the configuration multiline text is not possible to override the configuration via --set
it's necessary to create a custom value file with your content and install the chart with:
helm upgrade --install --create-namespace -n infra voltha-infra onf/voltha-infra -f myfile.yaml
VOLTHA comes with support for Jaeger and EFK (Elastic, Fluentd, Kibana) integration. In order to deploy those components together with the infrastructure add these flags to the command to install the VOLTHA infrastructure:
helm upgrade --install --create-namespace -n infra voltha-infra onf/voltha-infra \ --set voltha-tracing.enabled=true \ --set efk.enabled=true
Once kibana
is running execute this command to properly configure it:
curl -v -X POST -H Content-type:application/json -H kbn-xsrf:true http://localhost:5601/api/saved_objects/index-pattern/logst* -d '{"attributes":{"title":"logst*","timeFieldName":"@timestamp"}}'
NOTE In order to send a request to
kibana
you need to expose the port withkubectl port-forward -n infra --address 0.0.0.0 svc/voltha-infra-kibana 5601
VOLTHA encompass multiple components that work together to manage OLT devices. Such group of component is known as a stack
and is composed by:
To deploy a VOLTHA stack with the opensource adapters (OpenOLT and OpenONU) you can use the voltha-stack
chart:
helm upgrade --install --create-namespace \ -n voltha voltha onf/voltha-stack \ --set global.stack_name=voltha \ --set global.voltha_infra_name=voltha-infra \ --set global.voltha_infra_namespace=infra
We suggest to keep VOLTHA separated by deploying them in different namespaces. For example to install a second VOLTHA stack do:
helm upgrade --install --create-namespace \ -n voltha2 voltha2 onf/voltha-stack \ --set global.stack_name=voltha2 \ --set global.voltha_infra_name=voltha-infra \ --set global.voltha_infra_namespace=infra
If you add a different number of ONOS you need also to tell the ofagent
to connect to all of them by adding it to the voltha-stack
command. The following is an example for 3 ONOS instances.
helm upgrade --install --create-namespace \ -n voltha voltha onf/voltha-stack \ --set global.stack_name=voltha \ --set global.voltha_infra_name=voltha-infra \ --set global.voltha_infra_namespace=infra \ --set voltha.onos_classic.replicas=3
To deploy a released version of the voltha-stack
chart you can specify the --version
in the command. As an example to deploy VOLTHA 2.8 LTS release you can use --version 2.8.0
like:
helm upgrade --install --create-namespace \ -n voltha --version 2.8.0 voltha onf/voltha-stack \ --set global.stack_name=voltha \ --set global.voltha_infra_name=voltha-infra \ --set global.voltha_infra_namespace=infra
To enable tracing across the VOLTHA components add --set global.tracing.enabled=true
to the install command, for example:
helm upgrade --install --create-namespace \ -n voltha voltha onf/voltha-stack \ --set global.stack_name=voltha \ --set global.voltha_infra_name=voltha-infra \ --set global.voltha_infra_namespace=infra \ --set global.tracing.enabled=true
NOTE that the
Jaeger
pod must be up and running before the VOLTHA stack starts in order for the components to register.
To enable log correlation across the VOLTHA components add --set global.log_correlation.enabled=true
to the install command, for example:
helm upgrade --install --create-namespace \ -n voltha voltha onf/voltha-stack \ --set global.stack_name=voltha \ --set global.voltha_infra_name=voltha-infra \ --set global.voltha_infra_namespace=infra \ --set global.log_correlation.enabled=true
Up to release 0.10.0
of the voltha-stack
chart you can still use the openonu-py version of the adapter.
NOTE that this adapter is now unsupported, so you're in uncharted territory from now on.
helm upgrade --install --create-namespace \ -n voltha voltha onf/voltha-stack \ --set global.stack_name=voltha \ --set global.voltha_infra_name=voltha-infra \ --set global.voltha_infra_namespace=infra \ --set voltha-adapter-openonu.use_openonu_adapter_go=false
BBSim is a broadband simulator tool that is used as an OpenOLT compatible device in emulated environments.
In order to install a single BBSim instance to test VOLTHA, you can use the BBSim helm chart:
helm upgrade --install -n voltha bbsim0 onf/bbsim --set olt_id=10
While it's not mandatory to install BBSim in the same namespace as the VOLTHA stack it's advised to do so to make explicit which stack is controlling it.
voltctl
voltctl
is a replacement for the voltha-cli
container in VOLTHA that provides access to the VOLTHA CLI when a user connects to the container via SSH
. voltctl
provides a use model similar to docker
, etcdctl
, or kubectl
for VOLTHA.
As voltctl
is a binary executable as opposed to a Docker container it must be installed separately onto the machine(s) on which it is to be run. The Release Page for voltctl
maintains of pre-built binaries that can be installed. The following is an example of how, in the example environment, voltctl
can be installed with bash completion:
HOSTOS="$(uname -s | tr "[:upper:]" "[:lower:"])" HOSTARCH="$(uname -m | tr "[:upper:]" "[:lower:"])" if [ "$HOSTARCH" == "x86_64" ]; then HOSTARCH="amd64" fi sudo wget https://github.com/opencord/voltctl/releases/download/v1.7.4/voltctl-1.7.4-$HOSTOS-$HOSTARCH -O /usr/local/bin/voltctl sudo chmod +x /usr/local/bin/voltctl source <(voltctl completion bash)
If you are exposing the voltha-api
service on 127.0.0.1:55555
as per the examples in this guide there is no need to configure voltctl
, if you are exposing the service on a different port/IP you configure voltctl
with:
voltctl -s <voltha-api-ip>:<voltha-api-port> config > $HOME/.volt/config
If you want to deploy VOLTHA with the appropriate configuration for the dt
or tt
worflow two example files are provided in the ./examples
folder.
For you convenience here are the commands to deploy those workflows:
DT
helm upgrade --install -n infra voltha-infra onf/voltha-infra -f examples/dt-values.yaml helm upgrade --install -n voltha bbsim0 onf/bbsim --set olt_id=10 -f examples/dt-values.yaml helm upgrade --install --create-namespace -n voltha voltha onf/voltha-stack --set global.stack_name=voltha --set voltha_infra_name=voltha-infra --set voltha_infra_namespace=infra
DT-FTTB
helm upgrade --install -n infra voltha-infra onf/voltha-infra -f examples/dt-fttb-values.yaml helm upgrade --install -n voltha bbsim0 onf/bbsim --set olt_id=10 -f examples/dt-fttb-values.yaml helm upgrade --install --create-namespace -n voltha voltha onf/voltha-stack --set global.stack_name=voltha --set voltha_infra_name=voltha-infra --set voltha_infra_namespace=infra
TT
helm upgrade --install -n infra voltha-infra onf/voltha-infra -f examples/tt-values.yaml helm upgrade --install -n voltha bbsim0 onf/bbsim --set olt_id=10 -f examples/tt-values.yaml helm upgrade --install --create-namespace -n voltha voltha onf/voltha-stack --set global.stack_name=voltha --set voltha_infra_name=voltha-infra --set voltha_infra_namespace=infra
TT-MacLearner
helm upgrade --install -n infra voltha-infra onf/voltha-infra -f examples/tt-maclearner-values.yaml helm upgrade --install -n voltha bbsim0 onf/bbsim --set olt_id=10 -f examples/tt-maclearner-values.yaml helm upgrade --install --create-namespace -n voltha voltha onf/voltha-stack --set global.stack_name=voltha --set voltha_infra_name=voltha-infra --set voltha_infra_namespace=infra
A process to expose the VOLTHA API external to the Kubernetes cluster was described using the port-forward
option from the kubectl
command line tool. This mechanism, while convenient, is not recommended for a production deployment. For a production deployment a Kubernetes Ingress Controller is recommended.
There are many choices when deploying an ingress controller including open source and commercial options. This document does not recommend or require a specific ingress controller, but it is important to note that VOLTHA has only been tested using the NGINX Ingress Controller and thus examples for Kubernetes manifests are offered in that context.
To deploy the NGINX ingress controller please see the instructions on the NGINX site. For instructions on deploying an ingress controller when using a kind cluster, as is common for VOLTHA development, please see the instructions on the kind site.
The VOLTHA Helm charts were updated to deploy Ingress resources for the etcd and VOLTHA API services. By default these Ingress resources are disabled and not deployed.
By default the Ingress resources are defined without a host
option. This is convenient when running a single stack but is not sufficient when running multiple stacks and enabling external access to both stacks through the ingress controller.
When using multiple stacks and an Ingress controller virtual hosts will be required to differentiate the stacks and direct API requests to the correct service. If --set voltha.ingress.enableVirtualHosts=true
is used when installing the voltha stack then a virtual host will be defined using <stack-name>.voltha.local
. In order to use this virtual host this virtual host name will need to resolve to the IP address of your Ingress controller.
To include the Ingress resources when deploying VOLTHA the following values need to be set:
--set etcd.ingress.enabled=true
--set voltha.ingress.enabled=true
voltctl
Once the Ingress resources are defined voltctl
should be able to access the VOLTHA deployment without having to run kubectl port-forward
commands for each specific service. The configuration to voltctl
to utilize the ingress controller can be specified either via the command line options or via the voltctl configuration file (default ~/.volt/config
).
The important settings are
NOTE: Note hostname and port will vary depending on how you deploy as well as how the Ingress controller is accessed from outside the cluster. If you are deploying VOLTHA locally edit your /etc/hosts
file adding at the end the same hostname you specified in the voltctl
config, as an example 127.0.0.1 voltha.voltha.com
--server
/server
- the value of the external IP address of the ingress controller and the port on which it is listening (ex: localhost:443
or voltha.voltha.com:30474
).
--kvstore
/kvstore
- the value of the external IP address of the ingress controller and the point on which it is listening (ex: localhost:443
)
--tls
/tls.useTls
- indicates that TLS should be used when communicating through the ingress controller, which is required for the NGINX ingress controller (ex: true
)
CLI example:
voltctl --server=voltha.voltha.com:443 --kvstore=localhost:443 --tls version
voltctl
configuration file example:
server: voltha.example.com:443 kafka: localhost:443 kvstore: localhost:443 tls: useTls: true caCert: "" cert: "" key: "" verify: false grpc: timeout: 5m0s maxCallRecvMsgSize: 4M kvstoreconfig: timeout: 5s
Ok, now I have VOLTHA installed and everything is running. What can I do with it?
As first make sure that all components are running correctly:
$ kubectl get pods --all-namespaces NAMESPACE NAME READY STATUS RESTARTS AGE infra bbsim-sadis-server-6fcbdf9bd8-s7srz 1/1 Running 0 14m infra elasticsearch-master-0 1/1 Running 0 14m infra voltha-infra-etcd-0 1/1 Running 0 14m infra voltha-infra-fluentd-elasticsearch-9df8b 1/1 Running 0 14m infra voltha-infra-fluentd-elasticsearch-rgbvb 1/1 Running 0 14m infra voltha-infra-fluentd-elasticsearch-vfrcg 1/1 Running 0 14m infra voltha-infra-freeradius-7cbcdc66f-fhlt6 1/1 Running 0 14m infra voltha-infra-kafka-0 1/1 Running 0 14m infra voltha-infra-kibana-6cc8b8f779-7tlvp 1/1 Running 0 14m infra voltha-infra-onos-classic-0 1/1 Running 0 14m infra voltha-infra-voltha-infra-onos-config-loader-whdtz 0/1 Completed 3 14m infra voltha-infra-voltha-tracing-jaeger-7fffb6cdf6-l5r8s 1/1 Running 0 14m infra voltha-infra-zookeeper-0 1/1 Running 0 14m voltha bbsim0-6f9584b4dd-txtj4 1/1 Running 0 66s voltha voltha-voltha-adapter-openolt-5b5844b5b6-htlvp 1/1 Running 0 91s voltha voltha-voltha-adapter-openonu-85749df5fc-n5kdd 1/1 Running 0 91s voltha voltha-voltha-ofagent-5b5dc9b7b5-htxt6 1/1 Running 0 91s voltha voltha-voltha-rw-core-7d69cb4567-9cn2n 1/1 Running 0 91s
Note that is completely fine if the
onos-config-loader
pod restarts a few times, it is a job that loads configuration into ONOS and will fail until ONOS is ready to accept the configuration.
Once all the kubernetes pods are in Ready
and Running
state make sure the adapter registered with the core.
In order to use voltctl
you need to expose the voltha-api
service:
kubectl -n voltha port-forward --address 0.0.0.0 svc/voltha-voltha-api 55555
If you have deployed multiple stacks you need to change the
port-forward
command to connect to the stack you want to operate, eg:kubectl -n voltha2 port-forward --address 0.0.0.0 svc/voltha2-voltha-api 55555
Once that is done you can query rw-core
for a list of adapters:
$ voltctl adapter list ID VENDOR TYPE ENDPOINT VERSION CURRENTREPLICA TOTALREPLICAS LASTCOMMUNICATION brcm_openomci_onu_1 VOLTHA OpenONUGo brcm_openomci_onu voltha_brcm_openomci_onu unknown-version 1 1 openolt_1 VOLTHA OpenOLT openolt voltha_openolt 3.0.2 1 1
Once you completed the Sanity Checks
you can provision an OLT. We suggest to start with BBSim
(see above for installation instructions).
To create and enable the OLT device in VOLTHA you can use these voltctl
commands:
voltctl device create -t openolt -H bbsim0.voltha.svc:50060 voltctl device list --filter Type~openolt -q | xargs voltctl device enable
Once the OLT device is enabled you will see that an emulated ONU is reported to VOLTHA:
$ voltctl device list ID TYPE ROOT PARENTID SERIALNUMBER ADMINSTATE OPERSTATUS CONNECTSTATUS REASON 42b04dfc-a253-46a0-8b96-da0551648fd5 brcm_openomci_onu false 92a67593-06fa-4fad-87cb-b8befab90a56 BBSM00000001 ENABLED ACTIVE REACHABLE initial-mib-downloaded 92a67593-06fa-4fad-87cb-b8befab90a56 openolt true b367cec6-a771-417a-94a7-8b8922fac587 BBSIM_OLT_0 ENABLED ACTIVE REACHABLE
If you want to run the sanity-test
you can:
git clone https://github.com/opencord/voltha-system-tests.git && cd voltha-system-tests export KUBECONFIG="$(k3d kubeconfig write voltha-dev)" # or you KUBECONFIG file mkdir -p ~/.volt voltctl config > ~/.volt/config export VOLTCONFIG="~/.volt/config" make sanity-kind
This assumes that both the
onos-ssh
,onos-rest
andvoltha-api
ports are forwarded on the host and bbsim was installed withhelm install -n voltha bbsim0 onf/bbsim --set olt_id=10
.
NOTE that this is not required as part of your development loop. In that case you should be able to simply upgrade the component you are working on (see next section).
If you need to completely uninstall everything that you installed following this guide, you can simply remove the installed helm
charts:
helm del -n voltha voltha bbsim0 helm del -n infra voltha-infra
If you are using the bbsim-sadis-server
component as well then remember to remove the kube-config
configmap as well:
kubectl delete cm -n infra kube-config
NOTE that this section is intended for development purposes, it's not a guide for in service software upgrade.
The voltha-infra and voltha-stack charts pull the referenced version of every component, if your charts are up to date that will be the latest released one. If for your development and testing you'd like to have all the master
of each component, independently if that has been officially tagged and release there is a provided dev-values.yaml
. You can use it for the a voltha-stack
like so:
helm upgrade --install --create-namespace \ -n voltha voltha onf/voltha-stack \ --set global.stack_name=voltha \ --set voltha_infra_name=voltha-infra \ --set voltha_infra_namespace=infra \ -f examples/dev-values.yaml
After the feature you are working on is released by modifying the VERSION
file and removing -dev
you can remove the dev-values.yaml
file from your helm command.
When you have made a change to a component in VOLTHA and you need to test it the first step is to build a custom docker image. Every VOLTHA component has a make
target called docker-build
that builds the docker image with the code in the local folder, e.g.:
DOCKER_REGISTRY="voltha-test/" DOCKER_TAG="custom-feature" make docker-build
this generates the docker image for that repo, e.g. voltha-test/voltha-openonu-adapter-go:custom-feature
Now that you have the custom image with your changes you have to make the image available to your k8s cluster.
If you are developing locally please load the image into your cluster of choice via the specific command (e.g. kind load docker-image
).
If your cluster is remote, you want to share your image with others or test on Jenkins every VOLTHA component has a make
target called docker-push
that pushes the docker image to the registry you specify, e.g.
DOCKER_REGISTRY="voltha-test/" DOCKER_TAG="custom-feature" make docker-push
If you want to upgrade a component within a VOLTHA stack or use the custom built image you just created, you can use the same helm upgrade
command as per the installation guide while providing a new image for one of the component, via custom helm flags. The following is an example for the openonu adapter go with the image we built during previous steps:
--set voltha-adapter-openonu.images.adapter_open_onu_go.repository=voltha-test/voltha-openonu-adapter-go \ --set voltha-adapter-openonu.images.adapter_open_onu_go.tag=custom-feature
A full command looks like the following:
helm upgrade --install --create-namespace \ -n voltha voltha onf/voltha-stack \ --set global.stack_name=voltha \ --set voltha_infra_name=voltha-infra \ --set voltha_infra_namespace=infra \ --set voltha-adapter-openonu.images.adapter_open_onu_go.repository=voltha-test/voltha-openonu-adapter-go \ --set voltha-adapter-openonu.images.adapter_open_onu_go.tag=custom-feature
If as part of your development process you have published a new image with the same tag you can force its download simply by restarting the pod, for example:
kubectl delete pod -n voltha $(kubectl get pods -n voltha | grep openonu | awk '{print $1}')
In order for this to work the
imagePullPolicy
has to be set toAlways
.
If you are working on an helm chart you can install a stack omitting that component, and then use the local copy of your chart to install it, eg:
helm upgrade --install --create-namespace \ -n voltha voltha onf/voltha-stack \ --set global.stack_name=voltha \ --set voltha_infra_name=voltha-infra \ --set voltha_infra_namespace=infra \ --set voltha-adapter-openonu.enabled=false helm upgrade --install --create-namespace \ -n voltha opeonu-adapter voltha-adapter-openonu \ --set global.stack_name=voltha \ --set adapter_open_onu.kv_store_data_prefix=service/voltha/voltha_voltha \ --set adapter_open_onu.topics.core_topic=voltha_voltha_rwcore \ --set adapter_open_onu.topics.adapter_open_onu_topic=voltha_voltha_brcm_openomci_onu \ --set services.kafka.adapter.service=voltha-infra-kafka.infra.svc \ --set services.kafka.cluster.service=voltha-infra-kafka.infra.svc \ --set services.etcd.service=voltha-infra-etcd.infra.svc
Known VOLTHA issues are tracked in JIRA. Issues that may specifically be observed, or at the very least were discovered, in this environment can be found in JIRA via a JIRA Issue Search.
On patchset submission, jobs are run in Jenkins that validate the correctness of the helm charts.
The code for these jobs can be found in helm-repo-tools
The two scripts that should be run to test are:
helmlint.sh
chart_version_check.sh