Difference between revisions of "PEC-REP/Current/GIMPEGuide/DeployGIM"

Latest revision as of 13:31, March 10, 2023

This topic is part of the manual Genesys Info Mart Private Edition Guide for version Current of Reporting.

Assumptions

The instructions on this page assume you are deploying the service in a service-specific namespace, named in accordance with the requirements on Creating namespaces. If you are using a single namespace for all private edition services, replace the namespace element in the commands on this page with the name of your single namespace or project.
Similarly, the configuration and environment setup instructions assume you need to create namespace-specific (in other words, service-specific) secrets. If you are using a single namespace for all private edition services, you might not need to create separate secrets for each service, depending on your credentials management requirements. However, if you do create service-specific secrets in a single namespace, be sure to avoid naming conflicts.

Important

Make sure to review Before you begin GIM deployment for the full list of prerequisites required to deploy GIM, including creation of the Info Mart database and, if applicable, S3-compatible storage for your exported data (see (see Create object storage).

Set up your environment

To prepare your environment for the deployment, complete the steps in this section for:

GKE
AKS

GKE environment setup

Ensure that the gcloud CLI and required Helm version are installed on the host where you will run the deployment.
Using the CLI, log in to the GKE cluster from the host where you will run the deployment:
```
gcloud container clusters get-credentials <cluster>
```
If the cluster administrator has not already done so, create a new namespace gim for GIM:
- Create a JSON file specifying the namespace metadata. For example, create-gim-namespace.json:
```
{
  "apiVersion": "v1",
  "kind": "Namespace",
  "metadata": {
    "name": "gim",
    "labels": {
      "name": "gim"
    }
  }
}
```
- Execute the following command to create the gim namespace:
  kubectl apply -f apply create-gim-namespace.json
- Confirm namespace creation:
```
kubectl describe namespace gim
```
Create the pull secret for the image registry.
- This step defines a secret so that Kubernetes can authenticate your image repository and pull artifacts from it. The repository is represented as docker-registry in the system. For information about downloading artifacts from the repository, see Downloading your Genesys Multicloud CX containers.
- When you configure the GIM service, you will reference the registry pull secret as a Helm chart override; see GIM Helm chart overrides.
```
kubectl create secret docker-registry <repository secret name> --docker-server=<repository> --docker-username=<username> --docker-password=<password/API key> --docker-email=<email id> -n gim
```

AKS environment setup

Ensure that the Azure CLI and required Helm version are installed on the host where you will run the deployment.

Using the CLI, log in to the Azure cluster from the host where you will run the deployment.

az aks get-credentials --resource-group <resource-group-name> --name <cluster-name> --admin

If the cluster administrator has not already done so, create a new namespace gim for GIM:
- Create a JSON file specifying the namespace metadata; for example, create-gim-namespace.json as in the following example:
```
{
  "apiVersion": "v1",
  "kind": "Namespace",
  "metadata": {
    "name": "gim",
    "labels": {
      "name": "gim"
    }
  }
}
```
- Execute the following command to create the gim namespace:
  kubectl apply -f apply create-gim-namespace.json
- Confirm namespace creation:
```
kubectl describe namespace gim
```
Create the pull secret for the image registry.
- This step defines a secret so that Kubernetes can authenticate your image repository and pull artifacts from it. The repository is represented as docker-registry in the system. For information about downloading artifacts from the repository, see Downloading your Genesys Multicloud CX containers.
- When you configure the GIM service, you will reference the registry pull secret as a Helm chart override; see GIM Helm chart overrides.
```
kubectl create secret docker-registry <repository secret name> --docker-server=<repository> --docker-username=<username> --docker-password=<password/API key> --docker-email=<email id> -n gim
```

Deploy

Execute the following command to install GIM:

helm upgrade --install gim <gim-helm-artifact> -f <gim-values.yaml> -n gim

Execute the following command to install GIM monitoring:

helm upgrade --install gim-monitoring <gim-monitoring-helm-artifact> -n gim

When the GIM service starts, it connects to the Info Mart database and checks if the GIM schema has been initialized. If the schema has not been initialized, the service runs a script to initialize the GIM schema.

Validate the deployment

You can consider GIM deployment successful when the pod is running and in Ready state. Genesys Info Mart does not report the Ready state for pods until internal health checks are satisfied and the pods are operational. For example, GIM does not report Ready until the first transformation job has completed successfully. In other words, if the GIM pod is running and in Ready state, it means that GIM successfully started, connected to Kafka and the Info Mart database, initialized the Info Mart database, and completed the first ETL cycle.

You can use standard kubectl commands like list and get to verify the successful deployment and readiness status of the Kubernetes objects, including connection to the database.

However, from a functional point of view, you cannot validate deployment of the GIM service and database unless GCA and GSP have been deployed as well. Do not expect consistent data until all three Genesys Info Mart services are up and running. For more details about functional checks you can perform to validate GIM deployment, see the equivalent validation section on the Deploy GIM Stream Processor page.

@@ Line 12: / Line 12: @@
 |structuredtext=To prepare your environment for the deployment, complete the steps in this section for:
-*[[{{FULLPAGENAME}}#PrepOpenShift|OpenShift]]
+*[[{{FULLPAGENAME}}#GIM_Env_GKE|GKE]]
-*[[{{FULLPAGENAME}}#PrepGKE|GKE]]
+*[[{{FULLPAGENAME}}#GIM_Env_AKS|AKS]]
-{{AnchorDiv|PrepOpenShift}}
+{{AnchorDiv|GIM_Env_GKE}}
-===Environment setup for OpenShift===
+===GKE environment setup===
-#Log in to the OpenShift cluster via CLI on the host where you will run the deployment:
+#Ensure that the gcloud CLI and required Helm version are installed on the host where you will run the deployment.
-#:<source lang="text">oc login --token <token> --server <URL of the API server></source>
+#Using the CLI, log in to the GKE cluster from the host where you will run the deployment:
-#(Optional) Check the cluster version:
+#:<source lang="text">gcloud container clusters get-credentials <cluster></source>
-#:<source lang="text">oc get clusterversion</source>
+#If the cluster administrator has not already done so, create a new namespace <code>gim</code> for GIM:
-#If the cluster administrator has not already done so, create a new project for GIM:
+#*Create a JSON file specifying the namespace metadata. For example, '''create-gim-namespace.json''':
-#:<source lang="text">oc new-project gim</source>
+#:<source lang="bash">{
-#Set the default project to GIM:
+  "apiVersion": "v1",
-#:<source lang="text">oc project gim</source>
+  "kind": "Namespace",
-#Create a secret for docker-registry in order to pull images from the Genesys JFrog repository:
+  "metadata": {
-#:<source lang="text">oc create secret docker-registry <repository secret name> --docker-server=<repository> --docker-username=<username> --docker-password=<password/API key> --docker-email=<email id> -n gim</source>
+    "name": "gim",
+    "labels": {
+      "name": "gim"
+    }
+  }
+}</source>
+#*Execute the following command to create the <code>gim</code> namespace:
+#*:<source lang="text">kubectl apply -f apply create-gim-namespace.json</source>
+#*Confirm namespace creation:
+#:<source lang="text">kubectl describe namespace gim</source>
+#Create the pull secret for the image registry.
+#*This step defines a secret so that Kubernetes can authenticate your image repository and pull artifacts from it. The repository is represented as <code>docker-registry</code> in the system. For information about downloading artifacts from the repository, see {{Link-AnywhereElse|product=PrivateEdition|version=Current|manual=PEGuide|topic=ManageServices}}.
+#*When you configure the GIM service, you will reference the registry pull secret as a Helm chart override; see {{Link-SomewhereInThisVersion|manual=GIMPEGuide|topic=ConfigureGIM|anchor=GIM_HelmOverrides|display text=GIM Helm chart overrides}}.
+#:<source lang="text">kubectl create secret docker-registry <repository secret name> --docker-server=<repository> --docker-username=<username> --docker-password=<password/API key> --docker-email=<email id> -n gim</source>
-{{AnchorDiv|PrepGKE}}
+{{AnchorDiv|GIM_Env_AKS}}
-===Environment setup for GKE===
+===AKS environment setup===
-#Ensure that the gcloud CLI and required Helm version are installed on the host where you will run the deployment.
+#Ensure that the Azure CLI and required Helm version are installed on the host where you will run the deployment.
-#Log in to the GKE cluster from the host where you will run the deployment:
+#Using the CLI, log in to the Azure cluster from the host where you will run the deployment.
-#:<source lang="text">gcloud container clusters get-credentials <cluster></source>
+#:<source lang="bash">
-#If the cluster administrator has not already done so, create a new namespace for GIM:
+az aks get-credentials --resource-group <resource-group-name> --name <cluster-name> --admin
-##Create a .json file specifying the namespace metadata. For example, '''create-gim-namespace.json''':
+</source>
-##:<source lang="bash">{
+#If the cluster administrator has not already done so, create a new namespace <code>gim</code> for GIM:
+#*Create a JSON file specifying the namespace metadata; for example, '''create-gim-namespace.json''' as in the following example:
+#:<source lang="bash">{
    "apiVersion": "v1",
    "kind": "Namespace",
@@ Line 47: / Line 62: @@
    }
 }</source>
-##Execute the following command to create the namespace:
+#*Execute the following command to create the <code>gim</code> namespace:
-##:<source lang="text">kubectl apply -f apply create-gim-namespace.json</source>
+#*:<source lang="text">kubectl apply -f apply create-gim-namespace.json</source>
-##Confirm namespace creation:
+#*Confirm namespace creation:
-##:<source lang="text">kubectl describe namespace gim</source>
+#:<source lang="text">kubectl describe namespace gim</source>
-#Create a secret for docker-registry in order to pull images from the Genesys JFrog repository:
+#Create the pull secret for the image registry.
+#*This step defines a secret so that Kubernetes can authenticate your image repository and pull artifacts from it. The repository is represented as <code>docker-registry</code> in the system. For information about downloading artifacts from the repository, see {{Link-AnywhereElse|product=PrivateEdition|version=Current|manual=PEGuide|topic=ManageServices}}.
+#*When you configure the GIM service, you will reference the registry pull secret as a Helm chart override; see {{Link-SomewhereInThisVersion|manual=GIMPEGuide|topic=ConfigureGIM|anchor=GIM_HelmOverrides|display text=GIM Helm chart overrides}}.
 #:<source lang="text">kubectl create secret docker-registry <repository secret name> --docker-server=<repository> --docker-username=<username> --docker-password=<password/API key> --docker-email=<email id> -n gim</source>
 |Status=No

Genesys Info Mart Private Edition Guide

Overview

Configure and deploy GSP

Configure and deploy GIM

Configure and deploy GCA

Upgrade, roll back, or uninstall

Observability