X-Git-Url: https://gerrit.onap.org/r/gitweb?a=blobdiff_plain;f=vnfs%2FDAaaS%2FREADME.md;h=93e4ce975123c21c31e529256686d2dec2966f50;hb=fb9b7baa506e5c92bc243a30364e9f72ecd9c3f1;hp=b0838d54a8171eacdccfda305b85965de407a783;hpb=fd2de7f7bc953a7436d448e5fcebbfd34abaca36;p=demo.git diff --git a/vnfs/DAaaS/README.md b/vnfs/DAaaS/README.md index b0838d54..93e4ce97 100644 --- a/vnfs/DAaaS/README.md +++ b/vnfs/DAaaS/README.md @@ -1,30 +1,63 @@ # Distributed Analytics Framework -## Install -#### Pre-requisites + +## Pre-requisites | Required | Version | |------------|---------| | Kubernetes | 1.12.3+ | | Docker CE | 18.09+ | -| Helm | 2.12.1+ | -#### Download Framework +| Helm | >=2.12.1 and <=2.13.1 | +## Download Framework ```bash git clone https://github.com/onap/demo.git -DA_WORKING_DIR=$PWD/demo/vnfs/DAaaS -cd $DA_WORKING_DIR +DA_WORKING_DIR=$PWD/demo/vnfs/DAaaS/deploy +``` + +## Install Istio Service Mesh + +## Istio is installed in two Steps +```bash +1. Istio-Operator +2. Istio-config +``` + +## Download the Istio Installation repo + +```bash +cd $DA_WORKING_DIR/00-init +helm install --name=istio-operator istio-operator --namespace=istio-system +cd $DA_WORKING_DIR/00-init/istio +helm install --name istio istio-instance --namespace istio-system ``` -#### Install Rook-Ceph for Persistent Storage +## Install Metallb to act as a Loadbalancer +```bash +cd $DA_WORKING_DIR/00-init +NOTE: Update the IP Address Ranges before you Install Metallb +NOTE: If you are using a single IP, use /32 format +helm install --name metallb metallb --namespace metallb-system +``` + +## Install Rook-Ceph for Persistent Storage Note: This is unusual but Flex volume path can be different than the default value. values.yaml has the most common flexvolume path configured. In case of errors related to flexvolume please refer to the https://rook.io/docs/rook/v0.9/flexvolume.html#configuring-the-flexvolume-path to find the appropriate flexvolume-path and set it in values.yaml ```bash -cd 00-init/rook-ceph +cd $DA_WORKING_DIR/00-init/rook-ceph helm install -n rook . -f values.yaml --namespace=rook-ceph-system ``` Check for the status of the pods in rook-ceph namespace. Once all pods are in Ready state move on to the next section. + +```bash +$ kubectl get pods -n rook-ceph-system +NAME READY STATUS RESTARTS AGE +rook-ceph-agent-9wszf 1/1 Running 0 121s +rook-ceph-agent-xnbt8 1/1 Running 0 121s +rook-ceph-operator-bc77d6d75-ltwww 1/1 Running 0 158s +rook-discover-bvj65 1/1 Running 0 133s +rook-discover-nbfrp 1/1 Running 0 133s +``` ```bash $ kubectl -n rook-ceph get pod NAME READY STATUS RESTARTS AGE -rook-ceph-agent-4zkg8 1/1 Running 0 140s rook-ceph-mgr-a-d9dcf5748-5s9ft 1/1 Running 0 77s rook-ceph-mon-a-7d8f675889-nw5pl 1/1 Running 0 105s rook-ceph-mon-b-856fdd5cb9-5h2qk 1/1 Running 0 94s @@ -33,53 +66,330 @@ rook-ceph-osd-0-7cbbbf749f-j8fsd 1/1 Running 0 25s rook-ceph-osd-1-7f67f9646d-44p7v 1/1 Running 0 25s rook-ceph-osd-2-6cd4b776ff-v4d68 1/1 Running 0 25s rook-ceph-osd-prepare-vx2rz 0/2 Completed 0 60s -rook-discover-dhkb8 1/1 Running 0 140s +rook-ceph-tools-5bd5cdb949-j68kk 1/1 Running 0 53s +``` + +#### Troubleshooting Rook-Ceph installation + +In case your machine had rook previously installed successfully or unsuccessfully +and you are attempting a fresh installation of rook operator, you may face some issues. +Lets help you with that. + +* First check if there are some rook CRDs existing : +``` +kubectl get crds | grep rook +``` +If this return results like : +``` +otc@otconap7 /var/lib/rook $ kubectl get crds | grep rook +cephblockpools.ceph.rook.io 2019-07-19T18:19:05Z +cephclusters.ceph.rook.io 2019-07-19T18:19:05Z +cephfilesystems.ceph.rook.io 2019-07-19T18:19:05Z +cephobjectstores.ceph.rook.io 2019-07-19T18:19:05Z +cephobjectstoreusers.ceph.rook.io 2019-07-19T18:19:05Z +volumes.rook.io 2019-07-19T18:19:05Z +``` +then you should delete these previously existing rook based CRDs by generating a delete +manifest file by these commands and then deleting those files: +``` +helm template -n rook . -f values.yaml > ~/delete.yaml +kubectl delete -f ~/delete.yaml +``` + +After this, delete the below directory in all the nodes. +``` +sudo rm -rf /var/lib/rook/ +``` +Now, again attempt : +``` +helm install -n rook . -f values.yaml --namespace=rook-ceph-system ``` -#### Install Operator package +## Install Operator package +### Build docker images +#### collectd-operator ```bash -cd $DA_WORKING_DIR/operator +cd $DA_WORKING_DIR/../microservices + +## Note: The image tag and respository in the Collectd-operator helm charts needs to match the IMAGE_NAME +IMAGE_NAME=dcr.cluster.local:32644/collectd-operator:latest +./build_image.sh collectd-operator $IMAGE_NAME +``` +#### visualization-operator +```bash +cd $DA_WORKING_DIR/../microservices + +## Note: The image tag and respository in the Visualization-operator helm charts needs to match the IMAGE_NAME +IMAGE_NAME=dcr.cluster.local:32644/visualization-operator:latest +./build_image.sh visualization-operator $IMAGE_NAME +``` + +### Install the Operator Package +```bash +cd $DA_WORKING_DIR/deploy/operator helm install -n operator . -f values.yaml --namespace=operator ``` Check for the status of the pods in operator namespace. Check if Prometheus operator pods are in Ready state. ```bash kubectl get pods -n operator NAME READY STATUS RESTARTS -m3db-operator-0 1/1 Running 0 -etcd-operator-etcd-backup-operator-6cdc577f7d-ltgsr 1/1 Running 0 +m3db-operator-0 1/1 Running 0 +op-etcd-operator-etcd-backup-operator-6cdc577f7d-ltgsr 1/1 Running 0 op-etcd-operator-etcd-operator-79fd99f8b7-fdc7p 1/1 Running 0 op-etcd-operator-etcd-restore-operator-855f7478bf-r7qxp 1/1 Running 0 op-prometheus-operator-operator-5c9b87965b-wjtw5 1/1 Running 1 op-sparkoperator-6cb4db884c-75rcd 1/1 Running 0 strimzi-cluster-operator-5bffdd7b85-rlrvj 1/1 Running 0 ``` +#### Troubleshooting Operator installation +Sometimes deleting the previously installed Operator package will fail to remove all operator pods. To troubleshoot this ensure these following steps. -#### Install Collection package +1. Make sure that all the other deployments or helm release is deleted (purged). Operator package is a baseline package for the applications, so if the applications are still running while trying to delete the operator package might result in unwarrented state. + +2. Delete all the resources and CRDs associated with operator package. +```bash +#NOTE: Use the same release name and namespace as in installation of operator package in the previous section +cd $DA_WORKING_DIR/operator +helm template -n operator . -f values.yaml --namespace=operator > ../delete_operator.yaml +cd ../ +kubectl delete -f delete_operator.yaml +``` +## Install Collection package Note: Collectd.conf is avaliable in $DA_WORKING_DIR/collection/charts/collectd/resources/config directory. Any valid collectd.conf can be placed here. ```bash Default (For custom collectd skip this section) ======= -cd $DA_WORKING_DIR/collection +cd $DA_WORKING_DIR/deploy/collection helm install -n cp . -f values.yaml --namespace=edge1 Custom Collectd =============== -Build the image and set the image name with tag to COLLECTD_IMAGE_NAME -Push the image to docker registry using the command -docker push dcr.default.svc.local:32000/${COLLECTD_IMAGE_NAME} -Edit the values.yaml and change the image name as the value of COLLECTD_IMAGE_NAME -place the collectd.conf in $DA_WORKING_DIR/collection/charts/collectd/resources/config directory +1. Build the custom collectd image +2. Set COLLECTD_IMAGE_NAME with appropriate image_repository:tag +3. Push the image to docker registry using the command +4. docker push ${COLLECTD_IMAGE_NAME} +5. Edit the values.yaml and change the image repository and tag using + COLLECTD_IMAGE_NAME appropriately. +6. Place the collectd.conf in + $DA_WORKING_DIR/collection/charts/collectd/resources -cd $DA_WORKING_DIR/collection -helm install -n cp . -f values.yaml --namespace=edge1 +7. cd $DA_WORKING_DIR/collection +8. helm install -n cp . -f values.yaml --namespace=edge1 ``` #### Verify Collection package +* Check if all pods are up in edge1 namespace +* Check the prometheus UI using port-forwarding port 9090 (default for prometheus service) +``` +$ kubectl get pods -n edge1 +NAME READY STATUS RESTARTS AGE +cp-cadvisor-8rk2b 1/1 Running 0 15s +cp-cadvisor-nsjr6 1/1 Running 0 15s +cp-collectd-h5krd 1/1 Running 0 23s +cp-collectd-jc9m2 1/1 Running 0 23s +cp-prometheus-node-exporter-blc6p 1/1 Running 0 17s +cp-prometheus-node-exporter-qbvdx 1/1 Running 0 17s +prometheus-cp-prometheus-prometheus-0 4/4 Running 1 33s + +$ kubectl get svc -n edge1 +NAME TYPE CLUSTER-IP EXTERNAL-IP PORT(S) +cadvisor NodePort 10.43.53.122 80:30091/TCP +collectd ClusterIP 10.43.222.34 9103/TCP +cp13-prometheus-node-exporter ClusterIP 10.43.17.242 9100/TCP +cp13-prometheus-prometheus NodePort 10.43.26.155 9090:30090/TCP +prometheus-operated ClusterIP None 9090/TCP +``` +#### Configure Collectd Plugins +1. Using the sample [collectdglobal.yaml](microservices/collectd-operator/examples/collectd/collectdglobal.yaml), Configure the CollectdGlobal CR +2. If there are additional Types.db files to update, Copy the additional types.db files to resources folder. +3. Create a ConfigMap to load the types.db and update the configMap with name of the ConfigMap created. +4. Create and configure the required CollectdPlugin CRs. Use these samples as a reference [cpu_collectdplugin_cr.yaml](microservices/collectd-operator/examples/collectd/cpu_collectdplugin_cr.yaml), [prometheus_collectdplugin_cr.yaml](microservices/collectd-operator/examples/collectd/prometheus_collectdplugin_cr.yaml). +4. Use the same namespace where the collection package was installed. +5. Assuming it is edge1, create the config resources that are applicable. Apply the following commands in the same order. +```yaml +# Note: +## 1. Create Configmap is optional and required only if additional types.db file needs to be mounted. +## 2. Add/Remove --from-file accordingly. Use the correct file name based on the context. +kubectl create configmap typesdb-configmap --from-file ./resource/[FILE_NAME1] --from-file ./resource/[FILE_NAME2] +kubectl create -f edge1 collectdglobal.yaml +kubectl create -f edge1 [PLUGIN_NAME1]_collectdplugin_cr.yaml +kubectl create -f edge1 [PLUGIN_NAME2]_collectdplugin_cr.yaml +kubectl create -f edge1 [PLUGIN_NAME3]_collectdplugin_cr.yaml +... +``` + +#Install visualization package +```bash +Default (For custom Grafana dashboards skip this section) +======= +cd $DA_WORKING_DIR/visualization +helm install -n viz . -f values.yaml -f grafana-values.yaml + +Custom Grafana dashboards +========================= +1. Place the custom dashboard definition into the folder $DA_WORKING_DIR/visualization/charts/grafana/dashboards + Example dashboard definition can be found at $DA_WORKING_DIR/visualization/charts/grafana/dashboards/dashboard1.json +2. Create a configmap.yaml that imports above created dashboard.json file as config and copy that configmap.yaml to $DA_WORKING_DIR/visualization/charts/grafana/templates/ + Example configmap can be found at $DA_WORKING_DIR/visualization/charts/grafana/templates/configmap-add-dashboard.yaml +3. Add custom dashboard configuration to values.yaml or an overriding values.yaml. + Example configuration can be found in the "dashboardProviders" section of grafana-values.yaml + +4. cd $DA_WORKING_DIR/visualization +5. For a fresh install of visualization package, do "helm install" + e.g., helm install -n viz . -f values.yaml -f grafana-values.yaml + If the custom dashboard is being added to an already running Grafana, do "helm upgrade" + e.g., helm upgrade -n viz . -f values.yaml -f grafana-values.yaml -f ...... +``` + +#### Verify Visualization package +Check if the visualization pod is up ``` -TODO -1. Check if all pods are up uin edge1 namespace -2. Check the prometheus UI using the port 30090 +$ kubectl get pods + NAME READY STATUS RESTARTS AGE + viz-grafana-78dcffd75-sxnjv 1/1 Running 0 52m ``` -#### Onboard an Inference Application + +### Login to Grafana +``` +1. Get your 'admin' user password by running: + kubectl get secret --namespace default viz-grafana -o jsonpath="{.data.admin-password}" | base64 --decode ; echo + +2. Get the Grafana URL to visit by running these commands in the same shell: + export POD_NAME=$(kubectl get pods --namespace default -l "app=grafana,release=viz" -o jsonpath="{.items[0].metadata.name}") + kubectl --namespace default port-forward $POD_NAME 3000 + +3. Visit the URL : http://localhost:3000 and login with the password from step 1 and the username: admin +``` + +#### Configure Grafana Datasources +Using the sample [prometheus_grafanadatasource_cr.yaml](microservices/visualization-operator/examples/grafana/prometheus_grafanadatasource_cr.yaml), Configure the GrafanaDataSource CR by running the command below +```yaml +kubectl create -f [DATASOURCE_NAME1]_grafanadatasource_cr.yaml +kubectl create -f [DATASOURCE_NAME2]_grafanadatasource_cr.yaml +... +``` + +## Install Minio Model repository +* Prerequisite: Dynamic storage provisioner needs to be enabled. Either rook-ceph ($DA_WORKING_DIR/00-init) or another alternate provisioner needs to be enabled. +```bash +cd $DA_WORKING_DIR/minio + +Edit the values.yaml to set the credentials to access the minio UI. +Default values are +accessKey: "onapdaas" +secretKey: "onapsecretdaas" + +helm install -n minio . -f values.yaml --namespace=edge1 +``` + +## Install Messaging platform + +We have currently support strimzi based kafka operator. +Navigate to ```$DA_WORKING_DIR/deploy/messaging/charts/strimzi-kafka-operator``` directory. +Use the below command : +``` +helm install . -f values.yaml --name sko --namespace=test +``` + +NOTE: Make changes in the values.yaml if required. + +Once the strimzi operator ready, you shall get a pod like : + +``` +strimzi-cluster-operator-5cf7648b8c-zgxv7 1/1 Running 0 53m +``` + +Once this done, install the kafka package like any other helm charts you have. +Navigate to dir : ```$DA_WORKING_DIRdeploy/messaging``` and use command: +``` +helm install --name kafka-cluster charts/kafka/ +``` + +Once this done, you should have the following pods up and running. + +``` +kafka-cluster-entity-operator-b6557fc6c-hlnkm 3/3 Running 0 47m +kafka-cluster-kafka-0 2/2 Running 0 48m +kafka-cluster-kafka-1 2/2 Running 0 48m +kafka-cluster-kafka-2 2/2 Running 0 48m +kafka-cluster-zookeeper-0 2/2 Running 0 49m +kafka-cluster-zookeeper-1 2/2 Running 0 49m +kafka-cluster-zookeeper-2 2/2 Running 0 49m +``` + +You should have the following services when do a ```kubectl get svc``` + +``` +kafka-cluster-kafka-bootstrap ClusterIP 10.XX.YY.ZZ 9091/TCP,9092/TCP,9093/TCP 53m +kafka-cluster-kafka-brokers ClusterIP None 9091/TCP,9092/TCP,9093/TCP 53m +kafka-cluster-zookeeper-client ClusterIP 10.XX.YY.ZZ 2181/TCP 55m +kafka-cluster-zookeeper-nodes ClusterIP None 2181/TCP,2888/TCP,3888/TCP 55m +``` +#### Testing messaging + +You can test your kafka brokers by creating a simple producer and consumer. + +Producer : +``` +kubectl run kafka-producer -ti --image=strimzi/kafka:0.12.2-kafka-2.2.1 --rm=true --restart=Never -- bin/kafka-console-producer.sh --broker-list kafka-cluster-kafka-bootstrap:9092 --topic my-topic + ``` + Consumer : + ``` + +kubectl run kafka-consumer -ti --image=strimzi/kafka:0.12.2-kafka-2.2.1 --rm=true --restart=Never -- bin/kafka-console-consumer.sh --bootstrap-server kafka-cluster-kafka-bootstrap:9092 --topic my-topic --from-beginning +``` + +## Install Training Package + +#### Install M3DB (Time series Data lake) +##### Pre-requisites +1. kubernetes cluster with atleast 3 nodes +2. Etcd operator, M3DB operator +3. Node labelled with zone and region. + +```bash +## Defult region is us-west1, Default labels are us-west1-a, us-west1-b, us-west1-c +## If this is changed then isolationGroups in training-core/charts/m3db/values.yaml needs to be updated. +NODES=($(kubectl get nodes --output=jsonpath={.items..metadata.name})) + +kubectl label node/${NODES[0]} failure-domain.beta.kubernetes.io/region=us-west1 +kubectl label node/${NODES[1]} failure-domain.beta.kubernetes.io/region=us-west1 +kubectl label node/${NODES[2]} failure-domain.beta.kubernetes.io/region=us-west1 + +kubectl label node/${NODES[0]} failure-domain.beta.kubernetes.io/zone=us-west1-a --overwrite=true +kubectl label node/${NODES[1]} failure-domain.beta.kubernetes.io/zone=us-west1-b --overwrite=true +kubectl label node/${NODES[2]} failure-domain.beta.kubernetes.io/zone=us-west1-c --overwrite=true +``` +```bash +cd $DA_WORKING_DIR/training-core/charts/m3db +helm install -n m3db . -f values.yaml --namespace training +``` +``` +$ kubectl get pods -n training +NAME READY STATUS RESTARTS AGE +m3db-cluster-rep0-0 1/1 Running 0 103s +m3db-cluster-rep1-0 1/1 Running 0 83s +m3db-cluster-rep1-0 1/1 Running 0 62s +m3db-etcd-sjhgl4xfgc 1/1 Running 0 83s +m3db-etcd-lfs96hngz6 1/1 Running 0 67s +m3db-etcd-rmgdkkx4bq 1/1 Running 0 51s +``` + +##### Configure remote write from Prometheus to M3DB +```bash +cd $DA_WORKING_DIR/day2_configs/prometheus/ +``` +```yaml +cat << EOF > add_m3db_remote.yaml +spec: + remoteWrite: + - url: "http://m3coordinator-m3db.training.svc.cluster.local:7201/api/v1/prom/remote/write" + writeRelabelConfigs: + - targetLabel: metrics_storage + replacement: m3db_remote +EOF +``` +```bash +kubectl patch --namespace=edge1 prometheus cp-prometheus-prometheus -p "$(cat add_m3db_remote.yaml)" --type=merge ``` -TODO -``` \ No newline at end of file +Verify the prometheus GUI to see if the m3db remote write is enabled.