Deploying a Red Hat Process Automation Manager fixed managed server environment on Red Hat OpenShift Container Platform

Red Hat Process Automation Manager 7.5

Red Hat Customer Content Services

Abstract

This document describes how to deploy a Red Hat Process Automation Manager 7.5 fixed managed server environment on Red Hat OpenShift Container Platform.

Preface

As a system engineer, you can deploy a Red Hat Process Automation Manager fixed managed server environment on Red Hat OpenShift Container Platform to provide an infrastructure to execute services, process applications, and other business assets. This environment includes a fixed number of Process Servers in a single deployment; you cannot add or remove servers at a later point. You can use Business Central Monitoring to manage and update the processes running on Process Servers in this environment.

Prerequisites

  • Red Hat OpenShift Container Platform version 3.11 is deployed.
  • At least four gigabytes of memory are available in the OpenShift cluster/namespace.
  • The OpenShift project for the deployment has been created.
  • You are logged in to the project using the oc command. For more information about the oc command-line tool, see the OpenShift CLI Reference. If you want to use the OpenShift Web console to deploy templates, you must also be logged on using the Web console.
  • Dynamic persistent volume (PV) provisioning is enabled. Alternatively, if dynamic PV provisioning is not enabled, enough persistent volumes must be available. By default, the following sizes are required:

    • Each deployed replicated set of Process Server pods requires, by default, one 1Gi PV for the database. You can change the database PV size in the template parameters. This requirement does not apply if you use an external database server.
    • Business Central Monitoring requires one 64Mi PV.
    • Smart Router requires one 64Mi PV.
  • Your OpenShift environment supports persistent volumes with ReadWriteMany mode. For information about access mode support in OpenShift Online volume plug-ins, see Access Modes.

    Important

    ReadWriteMany mode is not supported on OpenShift Online and OpenShift Dedicated.

Note

Since Red Hat Process Automation Manager version 7.5, support for Red Hat OpenShift Container Platform 3.x is deprecated, including installation using all templates and using the Automation Broker (Ansible Playbook). New features might not be added, and this functionality will be removed in a future release.

Chapter 1. Overview of Red Hat Process Automation Manager on Red Hat OpenShift Container Platform

You can deploy Red Hat Process Automation Manager into a Red Hat OpenShift Container Platform environment.

In this solution, components of Red Hat Process Automation Manager are deployed as separate OpenShift pods. You can scale each of the pods up and down individually to provide as few or as many containers as required for a particular component. You can use standard OpenShift methods to manage the pods and balance the load.

The following key components of Red Hat Process Automation Manager are available on OpenShift:

  • Process Server, also known as Execution Server or KIE Server, is the infrastructure element that runs decision services, process applications, and other deployable assets (collectively referred to as services) . All logic of the services runs on execution servers.

    A database server is normally required for Process Server. You can provide a database server in another OpenShift pod or configure an execution server on OpenShift to use any other database server. Alternatively, Process Server can use an H2 database; in this case, you cannot scale the pod.

    You can scale up a Process Server pod to provide as many copies as required, running on the same host or different hosts. As you scale a pod up or down, all of its copies use the same database server and run the same services. OpenShift provides load balancing and a request can be handled by any of the pods.

    You can deploy a separate Process Server pod to run a different group of services. That pod can also be scaled up or down. You can have as many separate replicated Process Server pods as required.

  • Business Central is a web-based interactive environment used for authoring services. It also provides a management and monitoring console. You can use Business Central to develop services and deploy them to Process Servers. You can also use Business Central to monitor the execution of processes.

    Business Central is a centralized application. However, you can configure it for high availability, where multiple pods run and share the same data.

    Business Central includes a Git repository that holds the source for the services that you develop on it. It also includes a built-in Maven repository. Depending on configuration, Business Central can place the compiled services (KJAR files) into the built-in Maven repository or (if configured) into an external Maven repository.

    Important

    In the current version, high-availability Business Central functionality is for Technology Preview only. For more information on Red Hat Technology Preview features, see Technology Preview Features Scope.

  • Business Central Monitoring is a web-based management and monitoring console. It can manage the deployment of services to Process Servers and provide monitoring information, but does not include authoring capabilities. You can use this component to manage staging and production environments.
  • Smart Router is an optional layer between Process Servers and other components that interact with them. When your environment includes many services running on different Process Servers, Smart Router provides a single endpoint to all client applications. A client application can make a REST API call that requires any service. Smart Router automatically calls the Process Server that can process a particular request.

You can arrange these and other components into various environment configurations within OpenShift.

The following environment types are typical:

  • Authoring: An environment for creating and modifying services using Business Central. It consists of pods that provide Business Central for the authoring work and a Process Server for test execution of the services. For instructions about deploying this environment, see Deploying a Red Hat Process Automation Manager authoring environment on Red Hat OpenShift Container Platform.
  • Managed deployment: An environment for running existing services for staging and production purposes. This environment includes several groups of Process Server pods; you can deploy and undeploy services on every such group and also scale the group up or down as necessary. Use Business Central Monitoring to deploy, run, and stop the services and to monitor their execution.

    You can deploy two types of managed environment. In a freeform server environment, you initially deploy Business Central Monitoring and one Process Server. You can additionally deploy any number of Process Servers. Business Central Monitoring can connects to all servers in the same namespace. For instructions about deploying this environment, see Deploying a Red Hat Process Automation Manager freeform managed server environment on Red Hat OpenShift Container Platform.

    Alternatively, you can deploy a fixed managed server environment. A single deployment includes Business Central Monitoring, Smart Router, and a preset number of Process Servers (by default, two servers, but you can modify the template to change the number). You cannot easily add or remove servers at a later time. For instructions about deploying this environment, see Deploying a Red Hat Process Automation Manager fixed managed server environment on Red Hat OpenShift Container Platform.

  • Deployment with immutable servers: An alternate environment for running existing services for staging and production purposes. In this environment, when you deploy a Process Server pod, it builds an image that loads and starts a service or group of services. You cannot stop any service on the pod or add any new service to the pod. If you want to use another version of a service or modify the configuration in any other way, you deploy a new server image and displace the old one. In this system, the Process Server runs like any other pod on the OpenShift environment; you can use any container-based integration workflows and do not need to use any other tools to manage the pods. Optionally, you can use Business Central Monitoring to monitor the performance of the environment and to stop and restart some of the service instances, but not to deploy additional services to any Process Server or undeploy any existing ones (you cannot add or remove containers). For instructions about deploying this environment, see Deploying a Red Hat Process Automation Manager immutable server environment on Red Hat OpenShift Container Platform.

You can also deploy a trial or evaluation environment. This environment includes Business Central and a Process Server. You can set it up quickly and use it to evaluate or demonstrate developing and running assets. However, the environment does not use any persistent storage, and any work you do in the environment is not saved. For instructions about deploying this environment, see Deploying a Red Hat Process Automation Manager trial environment on Red Hat OpenShift Container Platform.

To deploy a Red Hat Process Automation Manager environment on OpenShift, you can use the templates that are provided with Red Hat Process Automation Manager. You can modify the templates to ensure that the configuration suits your environment.

Chapter 2. Preparing to deploy Red Hat Process Automation Manager in your OpenShift environment

Before deploying Red Hat Process Automation Manager in your OpenShift environment, you must complete several tasks. You do not need to repeat these tasks if you want to deploy additional images, for example, for new versions of processes or for other processes.

2.1. Ensuring the availability of image streams and the image registry

To deploy Red Hat Process Automation Manager components on Red Hat OpenShift Container Platform, you must ensure that OpenShift can download the correct images from the Red Hat registry. To download the images, OpenShift requires image streams, which contain the information about the location of images. OpenShift also must be configured to authenticate with the Red Hat registry using your service account user name and password.

Some versions of the OpenShift environment include the required image streams. You must check if they are available. If image streams are available in OpenShift by default, you can use them if the OpenShift infrastructure is configured for registry authentication server. The administrator must complete the registry authentication configuration when installing the OpenShift environment.

Otherwise, you can configure registry authentication in your own project and install the image streams in that project.

Procedure

  1. Determine whether Red Hat OpenShift Container Platform is configured with the user name and password for Red Hat registry access. For details about the required configuration, see Configuring a Registry Location. If you are using an OpenShift Online subscription, it is configured for Red Hat registry access.
  2. If Red Hat OpenShift Container Platform is configured with the user name and password for Red Hat registry access, enter the following commands:

    $ oc get imagestreamtag -n openshift | grep -F rhpam-businesscentral | grep -F 7.5
    $ oc get imagestreamtag -n openshift | grep -F rhpam-kieserver | grep -F 7.5

    If the outputs of both commands are not empty, the required image streams are available in the openshift namespace and no further action is required.

  3. If the output of one or both of the commands is empty or if OpenShift is not configured with the user name and password for Red Hat registry access, complete the following steps:

    1. Ensure you are logged in to OpenShift with the oc command and that your project is active.
    2. Complete the steps documented in Registry Service Accounts for Shared Environments. You must log in to the Red Hat Customer Portal to access the document and to complete the steps to create a registry service account.
    3. Select the OpenShift Secret tab and click the link under Download secret to download the YAML secret file.
    4. View the downloaded file and note the name that is listed in the name: entry.
    5. Enter the following commands:

      oc create -f <file_name>.yaml
      oc secrets link default <secret_name> --for=pull
      oc secrets link builder <secret_name> --for=pull

      Replace <file_name> with the name of the downloaded file and <secret_name> with the name that is listed in the name: entry of the file.

    6. Download the rhpam-7.5.1-openshift-templates.zip product deliverable file from the Software Downloads page and extract the rhpam75-image-streams.yaml file.
    7. Enter the following command:

      $ oc apply -f rhpam75-image-streams.yaml
      Note

      If you complete these steps, you install the image streams into the namespace of your project. In this case, when you deploy the templates, you must set the IMAGE_STREAM_NAMESPACE parameter to the name of this project.

2.2. Creating the secrets for Process Server

OpenShift uses objects called secrets to hold sensitive information such as passwords or keystores. For more information about OpenShift secrets, see the Secrets chapter in the OpenShift documentation.

You must create an SSL certificate for HTTP access to Process Server and provide it to your OpenShift environment as a secret.

Procedure

  1. Generate an SSL keystore with a private and public key for SSL encryption for Process Server. For more information on how to create a keystore with self-signed or purchased SSL certificates, see Generate a SSL Encryption Key and Certificate.

    Note

    In a production environment, generate a valid signed certificate that matches the expected URL for Process Server.

  2. Save the keystore in a file named keystore.jks.
  3. Record the name of the certificate. The default value for this name in Red Hat Process Automation Manager configuration is jboss.
  4. Record the password of the keystore file. The default value for this name in Red Hat Process Automation Manager configuration is mykeystorepass.
  5. Use the oc command to generate a secret named kieserver-app-secret from the new keystore file:

    $ oc create secret generic kieserver-app-secret --from-file=keystore.jks

2.3. Creating the secrets for Business Central

You must create an SSL certificate for HTTP access to Business Central and provide it to your OpenShift environment as a secret.

Do not use the same certificate and keystore for Business Central and Process Server.

Procedure

  1. Generate an SSL keystore with a private and public key for SSL encryption for Business Central. For more information on how to create a keystore with self-signed or purchased SSL certificates, see Generate a SSL Encryption Key and Certificate.

    Note

    In a production environment, generate a valid signed certificate that matches the expected URL for Business Central.

  2. Save the keystore in a file named keystore.jks.
  3. Record the name of the certificate. The default value for this name in Red Hat Process Automation Manager configuration is jboss.
  4. Record the password of the keystore file. The default value for this name in Red Hat Process Automation Manager configuration is mykeystorepass.
  5. Use the oc command to generate a secret named businesscentral-app-secret from the new keystore file:

    $ oc create secret generic businesscentral-app-secret --from-file=keystore.jks

2.4. Creating the secrets for Smart Router

You must create an SSL certificate for HTTP access to Smart Router and provide it to your OpenShift environment as a secret.

Do not use the same certificate and keystore for Smart Router as the ones used for Process Server or Business Central.

Procedure

  1. Generate an SSL keystore with a private and public key for SSL encryption for Smart Router. For more information on how to create a keystore with self-signed or purchased SSL certificates, see Generate a SSL Encryption Key and Certificate.

    Note

    In a production environment, generate a valid signed certificate that matches the expected URL for Smart Router.

  2. Save the keystore in a file named keystore.jks.
  3. Record the name of the certificate. The default value for this name in Red Hat Process Automation Manager configuration is jboss.
  4. Record the password of the keystore file. The default value for this name in Red Hat Process Automation Manager configuration is mykeystorepass.
  5. Use the oc command to generate a secret named smartrouter-app-secret from the new keystore file:

    $ oc create secret generic smartrouter-app-secret --from-file=keystore.jks

2.5. Preparing a Maven mirror repository for offline use

If your Red Hat OpenShift Container Platform environment does not have outgoing access to the public Internet, you must prepare a Maven repository with a mirror of all the necessary artifacts and make this repository available to your environment.

Note

You do not need to complete this procedure if your Red Hat OpenShift Container Platform environment is connected to the Internet.

Prerequisites

  • A computer that has outgoing access to the public Internet is available.

Procedure

  1. Prepare a Maven release repository to which you can write. The repository must allow read access without authentication. Your OpenShift environment must have access to this repository. You can deploy a Nexus repository manager in the OpenShift environment. For instructions about setting up Nexus on OpenShift, see Setting up Nexus. Use this repository as a separate mirror repository.

    Alternatively, if you use a custom external repository (for example, Nexus) for your services, you can use the same repository as a mirror repository.

  2. On the computer that has an outgoing connection to the public Internet, complete the following steps:

    1. Download the latest version of the Offliner tool.
    2. Download the rhpam-7.5.1-offliner.txt product deliverable file from the Software Downloads page of the Red Hat Customer Portal.
    3. Enter the following command to use the Offliner tool to download the required artifacts:

      java -jar offliner-<version>.jar -r https://maven.repository.redhat.com/ga/ -r https://repo1.maven.org/maven2/ -d /home/user/temp rhpam-7.5.1-offliner.txt

      Replace /home/user/temp with an empty temporary directory and <version> with the version of the Offliner tool that you downloaded. The download can take a significant amount of time.

    4. Upload all artifacts from the temporary directory to the Maven mirror repository that you prepared. You can use the Maven Repository Provisioner utility to upload the artifacts.
  3. If you developed services outside Business Central and they have additional dependencies, add the dependencies to the mirror repository. If you developed the services as Maven projects, you can use the following steps to prepare these dependencies automatically. Complete the steps on the computer that has an outgoing connection to the public Internet.

    1. Create a backup of the local Maven cache directory (~/.m2/repository) and then clear the directory.
    2. Build the source of your projects using the mvn clean install command.
    3. For every project, enter the following command to ensure that Maven downloads all runtime dependencies for all the artifacts generated by the project:

      mvn -e -DskipTests dependency:go-offline -f /path/to/project/pom.xml --batch-mode -Djava.net.preferIPv4Stack=true

      Replace /path/to/project/pom.xml with the correct path to the pom.xml file of the project.

    4. Upload all artifacts from the local Maven cache directory (~/.m2/repository) to the Maven mirror repository that you prepared. You can use the Maven Repository Provisioner utility to upload the artifacts.

Chapter 3. Fixed managed server environment

You can deploy a fixed managed server environment that, in a single deployment, includes several different pods running Process Server. No processes are initially loaded on the servers. The database servers are, by default, also run in pods. Each Process Server pod can be separately scaled as necessary.

A pod with Business Central Monitoring and a pod with Smart Router are also deployed. You must use Business Central Monitoring to deploy, load, and unload processes on your Process Servers. You can also use it to view monitoring information.

Smart Router is a single endpoint that can receive calls from client applications to any of your processes and route each call automatically to the server that runs the process.

You cannot easily add or remove Process Servers at a later time.

You must provide a Maven repository with the processes (KJAR files) that you want to deploy on the servers. Your integration process must ensure that the required versions of the processes are uploaded to the Maven repository. You can use Business Central in a development environment to create the processes and upload them to the Maven repository.

3.1. Deploying a fixed managed server environment

You can deploy a fixed managed server environment using a single template. The name of the template file is rhpam75-prod.yaml.

The template includes two Process Server pods (with PostgreSQL database pods), Smart Router in a high-availability configuration, and Business Central Monitoring in a high-availability configuration.

You can change the number of replicas of all components when configuring the deployment. If you want to modify the number of independent Process Server pods or to use a different database server, you must modify the template. For instructions about modifying the template, see Section 3.3, “Modifying a template for a managed environment”.

Note

The fixed managed environment template is deprecated in Red Hat Process Automation Manager 7.5. It will be removed in a future release.

3.1.1. Starting configuration of the template for a fixed managed server environment

To deploy a fixed managed server environment, use the rhpam75-prod.yaml template file.

Procedure

  1. Download the rhpam-7.5.1-openshift-templates.zip product deliverable file from the Software Downloads page of the Red Hat Customer Portal.
  2. Extract the rhpam75-prod.yaml template file.
  3. By default, the template includes two Process Servers. Each of the serves uses a PostgreSQL database server in a pod. To change the number of Process Servers or to use a MySQL database server in a pod or an external database server, modify the template as described in Section 3.3, “Modifying a template for a managed environment”.
  4. Use one of the following methods to start deploying the template:

    • To use the OpenShift Web UI, in the OpenShift application console select Add to Project → Import YAML / JSON and then select or paste the rhpam75-prod.yaml file. In the Add Template window, ensure Process the template is selected and click Continue.
    • To use the OpenShift command line console, prepare the following command line:

      oc new-app -f <template-path>/rhpam75-prod.yaml -p BUSINESS_CENTRAL_HTTPS_SECRET=businesscentral-app-secret -p KIE_SERVER_HTTPS_SECRET=kieserver-app-secret -p PARAMETER=value

      In this command line, make the following changes:

      • Replace <template-path> with the path to the downloaded template file.
      • Use as many -p PARAMETER=value pairs as needed to set the required parameters.

Next steps

Set the parameters for the template. Follow the steps in Section 3.1.2, “Setting required parameters for a fixed managed server environment” to set common parameters. You can view the template file to see descriptions for all parameters.

3.1.2. Setting required parameters for a fixed managed server environment

When configuring the template to deploy a fixed managed server environment, you must set the following parameters in all cases.

Prerequisites

Procedure

  1. Set the following parameters:

    • Business Central Monitoring Server Keystore Secret Name (BUSINESS_CENTRAL_HTTPS_SECRET): The name of the secret for Business Central, as created in Section 2.3, “Creating the secrets for Business Central”.
    • KIE Server Keystore Secret Name (KIE_SERVER_HTTPS_SECRET): The name of the secret for Process Server, as created in Section 2.2, “Creating the secrets for Process Server”.
    • Smart Router Keystore Secret Name (KIE_SERVER_ROUTER_HTTPS_SECRET): The name of the secret for Smart Router, as created in Section 2.4, “Creating the secrets for Smart Router”.
    • Business Central Monitoring Server Certificate Name (BUSINESS_CENTRAL_HTTPS_NAME): The name of the certificate in the keystore that you created in Section 2.3, “Creating the secrets for Business Central”.
    • Business Central Monitoring Server Keystore Password (BUSINESS_CENTRAL_HTTPS_PASSWORD): The password for the keystore that you created in Section 2.3, “Creating the secrets for Business Central”.
    • KIE Server Certificate Name (KIE_SERVER_HTTPS_NAME): The name of the certificate in the keystore that you created in Section 2.2, “Creating the secrets for Process Server”.
    • KIE Server Keystore Password (KIE_SERVER_HTTPS_PASSWORD): The password for the keystore that you created in Section 2.2, “Creating the secrets for Process Server”.
    • Smart Router Certificate Name (KIE_SERVER_ROUTER_HTTPS_NAME): The name of the certificate in the keystore that you created in Section 2.4, “Creating the secrets for Smart Router”.
    • Smart Router Keystore Password (KIE_SERVER_ROUTER_HTTPS_PASSWORD): The password for the keystore that you created in Section 2.4, “Creating the secrets for Smart Router”.
    • Application Name (APPLICATION_NAME): The name of the OpenShift application. It is used in the default URLs for Business Central Monitoring and Process Server. OpenShift uses the application name to create a separate set of deployment configurations, services, routes, labels, and artifacts. You can deploy several applications using the same template into the same project, as long as you use different application names. Also, the application name determines the name of the server configuration (server template) that the Process Server joins on Business Central Monitoring. If you are deploying several Process Servers, you must ensure each of the servers has a different application name.
    • Maven repository URL (MAVEN_REPO_URL): A URL for a Maven repository. You must upload all the processes (KJAR files) that are to be deployed on the Process Server into this repository.
    • Maven repository ID (MAVEN_REPO_ID): An identifier for the Maven repository. The default value is repo-custom.
    • Maven repository username (MAVEN_REPO_USERNAME): The username for the Maven repository.
    • Maven repository password (MAVEN_REPO_PASSWORD): The password for the Maven repository.
    • KIE Server Mode (KIE_SERVER_MODE): In the rhpam75-kieserver-*.yaml templates the default value is PRODUCTION. In PRODUCTION mode, you cannot deploy SNAPSHOT versions of KJAR artifacts on the Process Server and cannot change versions of an artifact in an existing container. To deploy a new version with PRODUCTION mode, create a new container on the same Process Server. To deploy SNAPSHOT versions or to change versions of an artifact in an existing container, set this parameter to DEVELOPMENT.
    • ImageStream Namespace (IMAGE_STREAM_NAMESPACE): The namespace where the image streams are available. If the image streams were already available in your OpenShift environment (see Section 2.1, “Ensuring the availability of image streams and the image registry”), the namespace is openshift. If you have installed the image streams file, the namespace is the name of the OpenShift project.
  2. You can set the following user names and passwords. By default, the deployment automatically generates the passwords.

    • KIE Admin User (KIE_ADMIN_USER) and KIE Admin Password (KIE_ADMIN_PWD): The user name and password for the administrative user.
    • KIE Server User (KIE_SERVER_USER) and KIE Server Password (KIE_SERVER_PWD): The user name and password that a client application can use to connect to any of the Process Servers.

Next steps

If necessary, set additional parameters.

To complete the deployment, follow the procedure in Section 3.1.10, “Completing deployment of the template for a fixed managed server environment”.

3.1.3. Configuring the image stream namespace for a fixed managed server environment

If you created image streams in a namespace that is not openshift, you must configure the namespace in the template.

If all image streams were already available in your Red Hat OpenShift Container Platform environment, you can skip this procedure.

Prerequisites

Procedure

If you installed an image streams file according to instructions in Section 2.1, “Ensuring the availability of image streams and the image registry”, set the ImageStream Namespace (IMAGE_STREAM_NAMESPACE) parameter to the name of your OpenShift project.

3.1.4. Configuring pod replica numbers for a fixed managed server environment

When configuring the template to deploy a fixed managed server environment, you can set the initial number of replicas for Process Server, Business Central Monitoring, and Smart Router.

Prerequisites

Procedure

To configure the numbers of replicas, set the following parameters:

  • Business Central Monitoring Container Replicas (BUSINESS_CENTRAL_MONITORING_CONTAINER_REPLICAS): The number of replicas that the deployment initially creates for Business Central Monitoring. If you do not want to use a high-availability configuration for Business Central Monitoring, set this number to 1.
  • KIE Server Container Replicas (KIE_SERVER_CONTAINER_REPLICAS): The number of replicas that the deployment initially creates for Process Server.
  • Smart Router Container Replicas (SMART_ROUTER_CONTAINER_REPLICAS): The number of replicas that the deployment initially creates for Smart Router.

Next steps

If necessary, set additional parameters.

To complete the deployment, follow the procedure in Section 3.1.10, “Completing deployment of the template for a fixed managed server environment”.

3.1.5. Configuring access to a Maven mirror in an environment without a connection to the public Internet for a fixed managed server environment

When configuring the template to deploy a fixed managed server environment, if your OpenShift environment does not have a connection to the public Internet, you must configure access to a Maven mirror that you set up according to Section 2.5, “Preparing a Maven mirror repository for offline use”.

Prerequisites

Procedure

To configure access to the Maven mirror, set the following parameters:

  • Maven mirror URL (MAVEN_MIRROR_URL): The URL for the Maven mirror repository that you set up in Section 2.5, “Preparing a Maven mirror repository for offline use”. This URL must be accessible from a pod in your OpenShift environment.
  • Maven mirror of (MAVEN_MIRROR_OF): The value that determines which artifacts are to be retrieved from the mirror. For instructions about setting the mirrorOf value, see Mirror Settings in the Apache Maven documentation. The default value is external:*. With this value, Maven retrieves every required artifact from the mirror and does not query any other repositories.

    • If you configure an external Maven repository (MAVEN_REPO_URL), change MAVEN_MIRROR_OF to exclude the artifacts in this repository from the mirror, for example, external:*,!repo-custom. Replace repo-custom with the ID that you configured in MAVEN_REPO_ID.
    • If you configure a built-in Business Central Maven repository (BUSINESS_CENTRAL_MAVEN_SERVICE), change MAVEN_MIRROR_OF to exclude the artifacts in this repository from the mirror: external:*,!repo-rhpamcentr.
    • If you configure both repositories, change MAVEN_MIRROR_OF to exclude the artifacts in both repositories from the mirror: external:*,!repo-rhpamcentr,!repo-custom. Replace repo-custom with the ID that you configured in MAVEN_REPO_ID.

Next steps

If necessary, set additional parameters.

To complete the deployment, follow the procedure in Section 3.1.10, “Completing deployment of the template for a fixed managed server environment”.

3.1.6. Setting parameters for RH-SSO authentication for a fixed managed server environment

If you want to use RH-SSO authentication, complete the following additional configuration when configuring the template to deploy a fixed managed server environment.

Important

Do not configure LDAP authentication and RH-SSO authentication in the same deployment.

Prerequisites

  • A realm for Red Hat Process Automation Manager is created in the RH-SSO authentication system.
  • User names and passwords for Red Hat Process Automation Manager are created in the RH-SSO authentication system. For a list of the available roles, see Chapter 4, Red Hat Process Automation Manager roles and users. The following users are required in order to set the parameters for the environment:

    • An administrative user with the kie-server,rest-all,admin roles. This user can administer and use the environment. Process Servers use this user to authenticate with Business Central Monitoring.
    • A server user with the kie-server,rest-all,user roles. This user can make REST API calls to the Process Server. Business Central Monitoring uses this user to authenticate with Process Servers.
  • Clients are created in the RH-SSO authentication system for all components of the Red Hat Process Automation Manager environment that you are deploying. The client setup contains the URLs for the components. You can review and edit the URLs after deploying the environment. Alternatively, the Red Hat Process Automation Manager deployment can create the clients. However, this option provides less detailed control over the environment.
  • You started the configuration of the template, as described in Section 3.1.1, “Starting configuration of the template for a fixed managed server environment”.

Procedure

  1. Set the KIE_ADMIN_USER and KIE_ADMIN_PASSWORD parameters of the template to the user name and password of the administrative user that you created in the RH-SSO authentication system.
  2. Set the KIE_SERVER_USER and KIE_SERVER_PASSWORD parameters of the template to the user name and password of the server user that you created in the RH-SSO authentication system.
  3. Set the following parameters:

    • RH-SSO URL (SSO_URL): The URL for RH-SSO.
    • RH-SSO Realm name (SSO_REALM): The RH-SSO realm for Red Hat Process Automation Manager.
    • RH-SSO Disable SSL Certificate Validation (SSO_DISABLE_SSL_CERTIFICATE_VALIDATION): Set to true if your RH-SSO installation does not use a valid HTTPS certificate.
  4. Complete one of the following procedures:

    1. If you created the client for Red Hat Process Automation Manager within RH-SSO, set the following parameters in the template:

      • Business Central Monitoring RH-SSO Client name (BUSINESS_CENTRAL_SSO_CLIENT): The RH-SSO client name for Business Central Monitoring.
      • For each Process Server defined in the template:

        • KIE Server n RH-SSO Client name (KIE_SERVERn_SSO_CLIENT): The RH-SSO client name for this Process Server.
        • KIE Server n RH-SSO Client Secret (KIE_SERVERn_SSO_SECRET): The secret string that is set in RH-SSO for the client for this Process Server.
    2. To create the clients for Red Hat Process Automation Manager within RH-SSO, set the following parameters in the template:

      • For each Process Server defined in the template:

        • KIE Server n RH-SSO Client name (KIE_SERVERn_SSO_CLIENT): The name of the client to create in RH-SSO for this Process Server.
        • KIE Server n RH-SSO Client Secret (KIE_SERVERn_SSO_SECRET): The secret string to set in RH-SSO for the client for this Process Server.
      • RH-SSO Realm Admin Username (SSO_USERNAME) and RH-SSO Realm Admin Password (SSO_PASSWORD): The user name and password for the realm administrator user for the RH-SSO realm for Red Hat Process Automation Manager. You must provide this user name and password in order to create the required clients.

Next steps

If necessary, set additional parameters.

To complete the deployment, follow the procedure in Section 3.1.10, “Completing deployment of the template for a fixed managed server environment”.

After completing the deployment, review the URLs for components of Red Hat Process Automation Manager in the RH-SSO authentication system to ensure they are correct.

3.1.7. Setting parameters for LDAP authentication for a fixed managed server environment

If you want to use LDAP authentication, complete the following additional configuration when configuring the template to deploy a fixed managed server environment.

Important

Do not configure LDAP authentication and RH-SSO authentication in the same deployment.

Prerequisites

Procedure

  1. In the LDAP service, create all user names in the deployment parameters. If you do not set any of the parameters, create users with the default user names. The created users must also be assigned to roles:

    • KIE_ADMIN_USER: default user name adminUser, roles: kie-server,rest-all,admin
    • KIE_SERVER_USER: default user name executionUser, roles kie-server,rest-all,guest

      For the user roles that you can configure in LDAP, see Roles and users.

  2. Set the AUTH_LDAP* parameters of the template. These parameters correspond to the settings of the LdapExtended Login module of Red Hat JBoss EAP. For instructions about using these settings, see LdapExtended login module.

    If the LDAP server does not define all the roles required for your deployment, you can map LDAP groups to Red Hat Process Automation Manager roles. To enable LDAP role mapping, set the following parameters:

    • RoleMapping rolesProperties file path (AUTH_ROLE_MAPPER_ROLES_PROPERTIES): The fully qualified path name of a file that defines role mapping, for example, /opt/eap/standalone/configuration/rolemapping/rolemapping.properties. You must provide this file and mount it at this path in all applicable deployment configurations; for instructions, see Section 3.2, “(Optional) Providing the LDAP role mapping file”.
    • RoleMapping replaceRole property (AUTH_ROLE_MAPPER_REPLACE_ROLE): If set to true, mapped roles replace the roles defined on the LDAP server; if set to false, both mapped roles and roles defined on the LDAP server are set as user application roles. The default setting is false.

Next steps

If necessary, set additional parameters.

To complete the deployment, follow the procedure in Section 3.1.10, “Completing deployment of the template for a fixed managed server environment”.

3.1.8. Setting parameters for using an external database server for a fixed managed server environment

If you modified the template to use an external database server for the Process Server, as described in Section 3.3, “Modifying a template for a managed environment”, complete the following additional configuration when configuring the template to deploy a fixed managed server environment.

Prerequisites

Procedure

  1. Set the following parameters:

    • KIE Server External Database Driver (KIE_SERVER_EXTERNALDB_DRIVER): The driver for the server, depending on the server type:

      • mysql
      • postgresql
      • mariadb
      • mssql
      • db2
      • oracle
      • sybase
    • KIE Server External Database User (KIE_SERVER_EXTERNALDB_USER) and KIE Server External Database Password (KIE_SERVER_EXTERNALDB_PWD): The user name and password for the external database server
    • KIE Server External Database URL (KIE_SERVER_EXTERNALDB_URL): The JDBC URL for the external database server
    • KIE Server External Database Dialect (KIE_SERVER_EXTERNALDB_DIALECT): The Hibernate dialect for the server, depending on the server type:

      • org.hibernate.dialect.MySQL5InnoDBDialect (used for MySQL and MariaDB)
      • org.hibernate.dialect.PostgreSQL82Dialect
      • org.hibernate.dialect.SQLServer2012Dialect (used for MS SQL)
      • org.hibernate.dialect.DB2Dialect
      • org.hibernate.dialect.Oracle10gDialect
      • org.hibernate.dialect.SybaseASE157Dialect
    • KIE Server External Database Host (KIE_SERVER_EXTERNALDB_SERVICE_HOST): The host name of the external database server
    • KIE Server External Database Port (KIE_SERVER_EXTERNALDB_SERVICE_PORT): The port number of the external database server
    • KIE Server External Database name (KIE_SERVER_EXTERNALDB_DB): The database name to use on the external database server
    • JDBC Connection Checker class (KIE_SERVER_EXTERNALDB_CONNECTION_CHECKER): The name of the JDBC connection checker class for the database server. Without this information, a database server connection cannot be restored after it is lost, for example, if the database server is rebooted.
    • JDBC Exception Sorter class (KIE_SERVER_EXTERNALDB_EXCEPTION_SORTER): The name of the JDBC exception sorter class for the database server. Without this information, a database server connection cannot be restored after it is lost, for example, if the database server is rebooted.
  2. If you created a custom image for using an external database server other than MySQL or PostgreSQL, as described in Section 3.4, “Building a custom Process Server extension image for an external database”, set the following parameters:

    • Drivers Extension Image (EXTENSIONS_IMAGE): The ImageStreamTag definition of the extension image, for example, jboss-kie-db2-extension-openshift-image:11.1.4.4
    • Drivers ImageStream Namespace (EXTENSIONS_IMAGE_NAMESPACE): The namespace to which you uploaded the extension image, for example, openshift or your project namespace.

Next steps

If necessary, set additional parameters.

To complete the deployment, follow the procedure in Section 3.1.10, “Completing deployment of the template for a fixed managed server environment”.

3.1.9. Enabling Prometheus metric collection for a fixed managed server environment

If you want to configure your Process Server deployment to use Prometheus to collect and store metrics, enable support for this feature in Process Server at deployment time.

Prerequisites

Procedure

To enable support for Prometheus metric collection, set the Prometheus Server Extension Disabled (PROMETHEUS_SERVER_EXT_DISABLED) parameter to false.

Next steps

If necessary, set additional parameters.

To complete the deployment, follow the procedure in Section 3.1.10, “Completing deployment of the template for a fixed managed server environment”.

For instructions about configuring Prometheus metrics collection, see Managing and monitoring Process Server.

3.1.10. Completing deployment of the template for a fixed managed server environment

After setting all the required parameters in the OpenShift Web UI or in the command line, complete deployment of the template.

Procedure

Depending on the method that you are using, complete the following steps:

  • In the OpenShift Web UI, click Create.

    • If the This will create resources that may have security or project behavior implications message appears, click Create Anyway.
  • Complete the command line and press Enter.

3.2. (Optional) Providing the LDAP role mapping file

If you configure the AUTH_ROLE_MAPPER_ROLES_PROPERTIES parameter, you must provide a file that defines the role mapping. Mount this file on all affected deployment configurations.

Procedure

  1. Create the role mapping properties file, for example, my-role-map. The file must contain entries in the following format:

    ldap_role = product_role1, product_role2...

    For example:

    admins = kie-server,rest-all,admin
  2. Create an OpenShift configuration map from the file by entering the following command:

    oc create configmap ldap-role-mapping --from-file=<new_name>=<existing_name>

    Replace <new_name> with the name that the file is to have on the pods (it must be the same as the name specified in the AUTH_ROLE_MAPPER_ROLES_PROPERTIES file) and <existing_name> with the name of the file that you created. Example:

    oc create configmap ldap-role-mapping --from-file=rolemapping.properties=my-role-map
  3. Mount the configuration map on every deployment configuration that is configured for role mapping.

    The following deployment configurations can be affected in this environment:

    • myapp-rhpamcentrmon: Business Central Monitoring
    • myapp-kieserver-n: Process Server number n. By default, the numbers are 1 and 2.

    Replace myapp with the application name. Sometimes, several Process Server deployments can be present under different application names.

    For every deployment configuration, run the command:

     oc set volume dc/<deployment_config_name> --add --type configmap --configmap-name ldap-role-mapping --mount-path=<mapping_dir> --name=ldap-role-mapping

    Replace <mapping_dir> with the directory name (without file name) set in the AUTH_ROLE_MAPPER_ROLES_PROPERTIES parameter, for example, /opt/eap/standalone/configuration/rolemapping .

3.3. Modifying a template for a managed environment

To adjust the managed environment to your needs, you need to modify the rhpam75-prod.yaml template before deploying the environment.

By default, the templates create two replicated Process Server pods. You can deploy separate processes on each of the pods. To add more replicated Process Server pods, you need to modify the template before deploying the environment.

By default, the templates create a PostgreSQL pod to provide the database server for each replicated Process Server. If you prefer to use PostgreSQL or to use an external server (outside the OpenShift project), you need to modify the template before deploying the environment.

For the rhpam75-prod.yaml template you can also adjust the initial number of replicas for Business Central Monitoring.

An OpenShift template defines a set of objects that can be created by OpenShift. To change an environment configuration, you need to modify, add, or delete these objects. To simplify this task, comments are provided in the Red Hat Process Automation Manager templates.

Some comments mark blocks within the template, staring with BEGIN and ending with END. For example, the following block is named Sample block:

## Sample block BEGIN
sample line 1
sample line 2
sample line 3
## Sample block END

For some changes, you might need to replace a block in one template file with a block from another template file provided with Red Hat Process Automation Manager. In this case, delete the block, then paste the new block in its exact location.

Note that named blocks can be nested.

Procedure

  • If you want to add more replicated Process Server pods, repeat the following actions for every additional pod:

    1. Pick a number for the new pod. The default pods have the numbers 1 and 2, so you can use 3 for the first new pod, then 4 and so on.
    2. Copy the following blocks of the file, marked with comments from BEGIN to END, into the end of the file:

      • KIE server services 1
      • PostgreSQL service 1
      • KIE server routes 1
      • KIE server deployment config 1
      • PostgreSQL deployment config 1
      • PostgreSQL persistent volume claim 1
    3. In the new copies, replace all instances of -1 with the new pod number, for example, -3.
  • If you want to use MySQL instead of PostgreSQL, replace several blocks of the file, marked with comments from BEGIN to END, with blocks from the rhpam75-kieserver-postgresql.yaml file, then modify some of the newly added blocks:

    1. Replace the block named MySQL database parameters with the block named PosgreSQL database parameters. (Take this block and all subsequent replacement blocks from the rhpam75-kieserver-postgresql.yaml file.)

      Repeat the following actions for every replicated Process Server pod number, for example, 1 and 2 in the unmodified template. N refers to the pod number, for example, 1.

      • Replace the block named PosgreSQL service N with the block named MySQL service.
      • Replace the block named PosgreSQL driver settings N with the block named MySQL driver settings.
      • Replace the block named PosgreSQL deployment config N with the block named MySQL deployment config.
      • Replace the block named PosgreSQL persistent volume claim N with the block named MySQL persistent volume claim.
      • In all the newly added blocks, make the following replacements manually, where N is the pod number:

        • -mysql with -mysql-N, except in -mysql-pvol and in -mysql-claim
        • -mysql-claim with -mysql-claim-N
  • If you want to use an external database server, replace several blocks of the file, marked with comments from BEGIN to END, with blocks from the rhpam75-kieserver-externaldb.yaml file, remove some blocks, and modify some of the newly added blocks:

    1. Replace the block named MySQL database parameters with the block named External database parameters. (Take this block and all subsequent replacement blocks from the rhpam75-kieserver-external.yaml file.)

      Repeat the following actions for every replicated Process Server pod number, for example, 1 and 2 in the unmodified template. N refers to the pod number, for example, 1.

      • Remove the block named PosgreSQL service N
      • Remove the block named PosgreSQL deployment config N
      • Remove the block named PosgreSQL persistent volume claim N
      • Replace the block named PosgreSQL driver settings N with the block named External database driver settings.
      • In the new External database driver settings block, if any of the following values are different for different Process Server pods in the infrastructure, set the values for this particular pod:

        • RHPAM_USERNAME: The user name for logging in to the database server
        • RHPAM_PASSWORD: The password for logging in to the database server
        • RHPAM_XA_CONNECTION_PROPERTY_URL: The full URL for logging in to the database server
        • RHPAM_SERVICE_HOST: The host name of the database server
        • RHPAM_DATABASE: The database name
Important

The standard Process Server image includes drivers for MySQL and PostgreSQL external database servers. If you want to use another database server, you must build a custom Process Server image. For instructions, see Section 3.4, “Building a custom Process Server extension image for an external database”.

  • If you want to change the number of replicas initially created for Business Central Monitoring, on the line below the comment ## Replicas for Business Central Monitoring, change the number of replicas to the desired value.

3.4. Building a custom Process Server extension image for an external database

If you want to use an external database server for a Process Server and the database server is not a MySQL or PostgreSQL server, you must build a custom Process Server extension image with drivers for this server before deploying your environment.

Complete the steps in this build procedure to provide drivers for any of the following database servers:

  • Microsoft SQL Server
  • MariaDB
  • IBM DB2
  • Oracle Database
  • Sybase

For the supported versions of the database servers, see Red Hat Process Automation Manager 7 Supported Configurations.

The build procedure creates a custom extension image that extends the existing Process Server image. You must import this custom extension image into your OpenShift environment and then reference it in the EXTENSION_IMAGE parameter.

Prerequisites

  • You are logged in to your OpenShift environment using the oc command. Your OpenShift user must have the registry-editor role.
  • For Oracle Database or Sybase, you downloaded the JDBC driver from the database server vendor.
  • You have installed the following required software:

    • Docker
    • Cekit version 3.2
    • The following libraries and extensions for Cekit:

      • odcs-client, provided by the python3-odcs-client package or similar package
      • docker, provided by the python3-docker package or similar package
      • docker-squash, provided by the python3-docker-squash package or similar package
      • behave, provided by the python3-behave package or similar package
      • s2i, provided by the source-to-image package or similar package

Procedure

  1. For IBM DB2, Oracle Database, or Sybase, provide the JDBC driver JAR file in a local directory.
  2. Download the rhpam-7.5.1-openshift-templates.zip product deliverable file from the Software Downloads page of the Red Hat Customer Portal.
  3. Unzip the file and, using the command line, change to the templates/contrib/jdbc directory of the unzipped file. This directory contains the source code for the custom build.
  4. Run one of the following commands, depending on the database server type:

    • For Microsoft SQL Server:

      make build mssql
    • For MariaDB:

      make build mariadb
    • For IBM DB2:

      make build db2
    • For Oracle Database:

      make build oracle artifact=/tmp/ojdbc7.jar version=7.0

      In this command, replace /tmp/ojdbc7.jar with the path name of the downloaded Oracle Database driver and 7.0 with the version of the driver.

    • For Sybase:

      make build sybase artifact=/tmp/jconn4-16.0_PL05.jar version=16.0_PL05

      In this command, replace /tmp/jconn4-16.0_PL05.jar with the path name of the downloaded Sybase driver and 16.0_PL05 with the version of the driver.

  5. Run the following command to list the Docker images that are available locally:

    docker images

    Note the name of the image that was built, for example, jboss-kie-db2-extension-openshift-image, and the version tag of the image, for example, 11.1.4.4 (not the latest tag).

  6. Access the registry of your OpenShift environment directly and push the image to the registry. Depending on your user permissions, you can push the image into the openshift namespace or into a project namespace. For instructions about accessing the registry and pushing the images, see Accessing the Registry Directly.
  7. When configuring your Process Server deployment with a template that supports an external database server, set the following parameters:

    • Drivers Extension Image (EXTENSIONS_IMAGE): The ImageStreamTag definition of the extension image, for example, jboss-kie-db2-extension-openshift-image:11.1.4.4
    • Drivers ImageStream Namespace (EXTENSIONS_IMAGE_NAMESPACE): The namespace to which you uploaded the extension image, for example, openshift or your project namespace.

Chapter 4. Red Hat Process Automation Manager roles and users

To access Business Central or Process Server, you must create users and assign them appropriate roles before the servers are started.

The Business Central and Process Server use Java Authentication and Authorization Service (JAAS) login module to authenticate the users. If both Business Central and Process Server are running on a single instance, then they share the same JAAS subject and security domain. Therefore, a user, who is authenticated for Business Central can also access Process Server.

However, if Business Central and Process Server are running on different instances, then the JAAS login module is triggered for both individually. Therefore, a user, who is authenticated for Business Central, needs to be authenticated separately to access the Process Server (for example, to view or manage process definitions in Business Central). In case, the user is not authenticated on the Process Server, then 401 error is logged in the log file, displaying Invalid credentials to load data from remote server. Contact your system administrator. message in Business Central.

This section describes available Red Hat Process Automation Manager user roles.

Note

The admin, analyst, developer, manager, process-admin, user, and rest-all roles are reserved for Business Central. The kie-server role is reserved for Process Server. For this reason, the available roles can differ depending on whether Business Central, Process Server, or both are installed.

  • admin: Users with the admin role are the Business Central administrators. They can manage users and create, clone, and manage the repositories. They have full access to make required changes in the application. Users with the admin role have access to all areas within Red Hat Process Automation Manager.
  • analyst: Users with the analyst role have access to all high-level features. They can model and execute their projects. However, these users cannot add contributors to spaces or delete spaces in the Design → Projects view. Access to the Deploy → Execution Servers view, which is intended for administrators, is not available to users with the analyst role. However, the Deploy button is available to these users when they access the Library perspective.
  • developer: Users with the developer role have access to almost all features and can manage rules, models, process flows, forms, and dashboards. They can manage the asset repository, they can create, build, and deploy projects, and they can use Red Hat CodeReady Studio to view processes. Only certain administrative functions such as creating and cloning a new repository are hidden from users with the developer role.
  • manager: Users with the manager role can view reports. These users are usually interested in statistics about the business processes and their performance, business indicators, and other business-related reporting. A user with this role has access only to process and task reports.
  • process-admin: Users with the process-admin role are business process administrators. They have full access to business processes, business tasks, and execution errors. These users can also view business reports and have access to the Task Inbox list.
  • user: Users with the user role can work on the Task Inbox list, which contains business tasks that are part of currently running processes. Users with this role can view process and task reports and manage processes.
  • rest-all: Users with the rest-all role can access Business Central REST capabilities.
  • kie-server: Users with the kie-server role can access Process Server (KIE Server) REST capabilities. This role is mandatory for users to have access to Manage and Track views in Business Central.

Chapter 5. OpenShift template reference information

Red Hat Process Automation Manager provides the following OpenShift templates. To access the templates, download and extract the rhpam-7.5.1-openshift-templates.zip product deliverable file from the Software Downloads page of the Red Hat customer portal.

  • rhpam75-prod.yaml provides a high-availability Business Central Monitoring instance, a Smart Router, two distinct Process Servers connected to the Business Central and to the Smart Router, and two PostgreSQL instances. Each Process Server uses its own PostgreSQL instance. You can use this environment to execute business assets in a production or staging environment. You can configure the number of replicas for each component. For details about this template, see Section 5.1, “rhpam75-prod.yaml template”.

5.1. rhpam75-prod.yaml template

Application template for a managed HA production runtime environment, for Red Hat Process Automation Manager 7.5 - Deprecated

5.1.1. Parameters

Templates allow you to define parameters which take on a value. That value is then substituted wherever the parameter is referenced. References can be defined in any text field in the objects list field. Refer to the Openshift documentation for more information.

Variable nameImage Environment VariableDescriptionExample valueRequired

APPLICATION_NAME

 — 

The name for the application.

myapp

True

MAVEN_MIRROR_URL

MAVEN_MIRROR_URL

Maven mirror that the KIE server must use. If you configure a mirror, this mirror must contain all artifacts that are required for deploying your services.

 — 

False

MAVEN_MIRROR_OF

MAVEN_MIRROR_OF

Maven mirror configuration for KIE server.

external:*

False

MAVEN_REPO_ID

MAVEN_REPO_ID

The id to use for the maven repository. If set, it can be excluded from the optionally configured mirror by adding it to MAVEN_MIRROR_OF. For example: external:*,!repo-rhpamcentr,!repo-custom. If MAVEN_MIRROR_URL is set but MAVEN_MIRROR_ID is not set, an id will be generated randomly, but won’t be usable in MAVEN_MIRROR_OF.

repo-custom

False

MAVEN_REPO_URL

MAVEN_REPO_URL

Fully qualified URL to a Maven repository or service.

http://nexus.nexus-project.svc.cluster.local:8081/nexus/content/groups/public/

True

MAVEN_REPO_USERNAME

MAVEN_REPO_USERNAME

Username to access the Maven repository, if required.

 — 

False

MAVEN_REPO_PASSWORD

MAVEN_REPO_PASSWORD

Password to access the Maven repository, if required.

 — 

False

BUSINESS_CENTRAL_MAVEN_SERVICE

RHPAMCENTR_MAVEN_REPO_SERVICE

The service name for the optional Business Central, where it can be reached, to allow service lookups (for maven repo usage), if required.

myapp-rhpamcentr

False

BUSINESS_CENTRAL_MAVEN_USERNAME

RHPAMCENTR_MAVEN_REPO_USERNAME

Username to access the Maven service hosted by Business Central inside EAP.

mavenUser

False

BUSINESS_CENTRAL_MAVEN_PASSWORD

RHPAMCENTR_MAVEN_REPO_PASSWORD

Password to access the Maven service hosted by Business Central inside EAP.

maven1!

False

KIE_ADMIN_USER

KIE_ADMIN_USER

KIE administrator username.

adminUser

False

KIE_ADMIN_PWD

KIE_ADMIN_PWD

KIE administrator password.

 — 

False

KIE_SERVER_USER

KIE_SERVER_USER

KIE server username. (Sets the org.kie.server.user system property)

executionUser

False

KIE_SERVER_PWD

KIE_SERVER_PWD

KIE server password. (Sets the org.kie.server.pwd system property)

 — 

False

IMAGE_STREAM_NAMESPACE

 — 

Namespace in which the ImageStreams for Red Hat Process Automation Manager images are installed. These ImageStreams are normally installed in the openshift namespace. You should only need to modify this if you installed the ImageStreams in a different namespace/project.

openshift

True

KIE_SERVER_IMAGE_STREAM_NAME

 — 

The name of the image stream to use for KIE server. Default is "rhpam-kieserver-rhel8".

rhpam-kieserver-rhel8

True

IMAGE_STREAM_TAG

 — 

A named pointer to an image in an image stream. Default is "7.5.0".

7.5.0

True

SMART_ROUTER_HOSTNAME_HTTP

 — 

Custom hostname for http service route. Leave blank for default hostname, e.g. <application-name>-smartrouter-<project>.<default-domain-suffix>'

 — 

False

SMART_ROUTER_HOSTNAME_HTTPS

 — 

Custom hostname for https service route. Leave blank for default hostname, e.g. secure-<application-name>-smartrouter-<project>.<default-domain-suffix>'

 — 

False

KIE_SERVER_ROUTER_ID

KIE_SERVER_ROUTER_ID

Router ID used when connecting to the controller. (router property org.kie.server.router.id)

kie-server-router

True

KIE_SERVER_ROUTER_PROTOCOL

KIE_SERVER_ROUTER_PROTOCOL

KIE server router protocol. (Used to build the org.kie.server.router.url.external property)

http

False

KIE_SERVER_ROUTER_URL_EXTERNAL

KIE_SERVER_ROUTER_URL_EXTERNAL

Public URL where the router can be found. Format http://<host>:<port> (router property org.kie.server.router.url.external)

 — 

False

KIE_SERVER_ROUTER_NAME

KIE_SERVER_ROUTER_NAME

Router name used when connecting to the controller. (router property org.kie.server.router.name)

KIE Server Router

True

KIE_SERVER_CONTROLLER_USER

KIE_SERVER_CONTROLLER_USER

KIE server controller username. (Sets the org.kie.server.controller.user system property)

controllerUser

False

KIE_SERVER_CONTROLLER_PWD

KIE_SERVER_CONTROLLER_PWD

KIE server controller password. (Sets the org.kie.server.controller.pwd system property)

 — 

False

KIE_SERVER_CONTROLLER_TOKEN

KIE_SERVER_CONTROLLER_TOKEN

KIE server controller token for bearer authentication. (Sets the org.kie.server.controller.token system property)

 — 

False

KIE_SERVER_PERSISTENCE_DS

KIE_SERVER_PERSISTENCE_DS

KIE server persistence datasource. (Sets the org.kie.server.persistence.ds system property)

java:/jboss/datasources/rhpam

False

POSTGRESQL_IMAGE_STREAM_NAMESPACE

 — 

Namespace in which the ImageStream for the PostgreSQL image is installed. The ImageStream is already installed in the openshift namespace. You should only need to modify this if you installed the ImageStream in a different namespace/project. Default is "openshift".

openshift

False

POSTGRESQL_IMAGE_STREAM_TAG

 — 

The PostgreSQL image version, which is intended to correspond to the PostgreSQL version. Default is "10".

10

False

KIE_SERVER_POSTGRESQL_USER

RHPAM_USERNAME

KIE server PostgreSQL database username.

rhpam

False

KIE_SERVER_POSTGRESQL_PWD

RHPAM_PASSWORD

KIE server PostgreSQL database password.

 — 

False

KIE_SERVER_POSTGRESQL_DB

RHPAM_DATABASE

KIE server PostgreSQL database name.

rhpam7

False

POSTGRESQL_MAX_PREPARED_TRANSACTIONS

POSTGRESQL_MAX_PREPARED_TRANSACTIONS

Allows the PostgreSQL to handle XA transactions.

100

True

DB_VOLUME_CAPACITY

 — 

Size of persistent storage for the database volume.

1Gi

True

KIE_SERVER_POSTGRESQL_DIALECT

KIE_SERVER_PERSISTENCE_DIALECT

KIE server PostgreSQL Hibernate dialect.

org.hibernate.dialect.PostgreSQLDialect

True

KIE_SERVER_MODE

KIE_SERVER_MODE

The KIE Server mode. Valid values are 'DEVELOPMENT' or 'PRODUCTION'. In production mode, you can not deploy SNAPSHOT versions of artifacts on the KIE server and can not change the version of an artifact in an existing container. (Sets the org.kie.server.mode system property).

PRODUCTION

False

KIE_MBEANS

KIE_MBEANS

KIE server mbeans enabled/disabled. (Sets the kie.mbeans and kie.scanner.mbeans system properties)

enabled

False

DROOLS_SERVER_FILTER_CLASSES

DROOLS_SERVER_FILTER_CLASSES

KIE server class filtering. (Sets the org.drools.server.filter.classes system property)

true

False

PROMETHEUS_SERVER_EXT_DISABLED

PROMETHEUS_SERVER_EXT_DISABLED

If set to false, the prometheus server extension will be enabled. (Sets the org.kie.prometheus.server.ext.disabled system property)

false

False

BUSINESS_CENTRAL_HOSTNAME_HTTP

HOSTNAME_HTTP

Custom hostname for http service route. Leave blank for default hostname, e.g.: <application-name>-rhpamcentrmon-<project>.<default-domain-suffix>

 — 

False

BUSINESS_CENTRAL_HOSTNAME_HTTPS

HOSTNAME_HTTPS

Custom hostname for https service route. Leave blank for default hostname, e.g.: secure-<application-name>-rhpamcentrmon-<project>.<default-domain-suffix>

 — 

False

KIE_SERVER1_HOSTNAME_HTTP

HOSTNAME_HTTP

Custom hostname for http service route. Leave blank for default hostname, e.g.: <application-name>-kieserver-<project>.<default-domain-suffix>

 — 

False

KIE_SERVER1_HOSTNAME_HTTPS

HOSTNAME_HTTPS

Custom hostname for https service route. Leave blank for default hostname, e.g.: secure-<application-name>-kieserver-<project>.<default-domain-suffix>

 — 

False

KIE_SERVER1_USE_SECURE_ROUTE_NAME

KIE_SERVER_USE_SECURE_ROUTE_NAME

If true, the KIE server will use secure-<application-name>-kieserver vs. <application-name>-kieserver as the KIE server route endpoint for Business Central to report. Therefore, Business Central displays the secure link to the user.

false

False

KIE_SERVER2_HOSTNAME_HTTP

HOSTNAME_HTTP

Custom hostname for http service route. Leave blank for default hostname, e.g.: <application-name>-kieserver-<project>.<default-domain-suffix>

 — 

False

KIE_SERVER2_HOSTNAME_HTTPS

HOSTNAME_HTTPS

Custom hostname for https service route. Leave blank for default hostname, e.g.: secure-<application-name>-kieserver-<project>.<default-domain-suffix>

 — 

False

KIE_SERVER2_USE_SECURE_ROUTE_NAME

KIE_SERVER_USE_SECURE_ROUTE_NAME

If true, will use secure-APPLICATION_NAME-kieserver-2 vs. APPLICATION_NAME-kieserver-2 as the route name.

false

False

BUSINESS_CENTRAL_HTTPS_SECRET

 — 

The name of the secret containing the keystore file for Business Central.

businesscentral-app-secret

True

BUSINESS_CENTRAL_HTTPS_KEYSTORE

HTTPS_KEYSTORE

The name of the keystore file within the secret.

keystore.jks

False

BUSINESS_CENTRAL_HTTPS_NAME

HTTPS_NAME

The name associated with the server certificate.

jboss

False

BUSINESS_CENTRAL_HTTPS_PASSWORD

HTTPS_PASSWORD

The password for the keystore and certificate.

mykeystorepass

False

KIE_SERVER_ROUTER_HTTPS_SECRET

 — 

The name of the secret containing the keystore file for Smart Router.

smartrouter-app-secret

True

KIE_SERVER_ROUTER_HTTPS_KEYSTORE

 — 

The name of the keystore file within the secret.

keystore.jks

False

KIE_SERVER_ROUTER_HTTPS_NAME

KIE_SERVER_ROUTER_TLS_KEYSTORE_KEYALIAS

The name associated with the server certificate.

jboss

False

KIE_SERVER_ROUTER_HTTPS_PASSWORD

KIE_SERVER_ROUTER_TLS_KEYSTORE_PASSWORD

The password for the keystore and certificate.

mykeystorepass

False

KIE_SERVER_HTTPS_SECRET

 — 

The name of the secret containing the keystore file for KIE Server.

kieserver-app-secret

True

KIE_SERVER_HTTPS_KEYSTORE

HTTPS_KEYSTORE

The name of the keystore file within the secret.

keystore.jks

False

KIE_SERVER_HTTPS_NAME

HTTPS_NAME

The name associated with the server certificate.

jboss

False

KIE_SERVER_HTTPS_PASSWORD

HTTPS_PASSWORD

The password for the keystore and certificate.

mykeystorepass

False

KIE_SERVER_BYPASS_AUTH_USER

KIE_SERVER_BYPASS_AUTH_USER

Allows the KIE server to bypass the authenticated user for task-related operations, for example, queries. (Sets the org.kie.server.bypass.auth.user system property)

false

False

TIMER_SERVICE_DATA_STORE_REFRESH_INTERVAL

TIMER_SERVICE_DATA_STORE_REFRESH_INTERVAL

Sets refresh-interval for the EJB timer service database-data-store.

30000

False

BUSINESS_CENTRAL_MEMORY_LIMIT

 — 

Business Central Monitoring Container memory limit.

2Gi

False

KIE_SERVER_MEMORY_LIMIT

 — 

KIE server Container memory limit.

1Gi

False

SMART_ROUTER_MEMORY_LIMIT

 — 

Smart Router Container memory limit

512Mi

False

BUSINESS_CENTRAL_MONITORING_CONTAINER_REPLICAS

 — 

Business Central Monitoring Container Replicas, defines how many Business Central Monitoring containers will be started.

3

True

SMART_ROUTER_CONTAINER_REPLICAS

 — 

Smart Router Container Replicas, defines how many smart router containers will be started.

2

True

KIE_SERVER_CONTAINER_REPLICAS

 — 

KIE Server Container Replicas, defines how many KIE Server containers will be started.

3

True

SSO_URL

SSO_URL

RH-SSO URL.

https://rh-sso.example.com/auth

False

SSO_REALM

SSO_REALM

RH-SSO Realm name.

 — 

False

BUSINESS_CENTRAL_SSO_CLIENT

SSO_CLIENT

Business Central Monitoring RH-SSO Client name.

 — 

False

BUSINESS_CENTRAL_SSO_SECRET

SSO_SECRET

Business Central Monitoring RH-SSO Client Secret.

252793ed-7118-4ca8-8dab-5622fa97d892

False

KIE_SERVER1_SSO_CLIENT

SSO_CLIENT

KIE Server 1 RH-SSO Client name.

 — 

False

KIE_SERVER1_SSO_SECRET

SSO_SECRET

KIE Server 1 RH-SSO Client Secret.

252793ed-7118-4ca8-8dab-5622fa97d892

False

KIE_SERVER2_SSO_CLIENT

SSO_CLIENT

KIE Server 2 RH-SSO Client name.

 — 

False

KIE_SERVER2_SSO_SECRET

SSO_SECRET

KIE Server 2 RH-SSO Client Secret.

252793ed-7118-4ca8-8dab-5622fa97d892

False

SSO_USERNAME

SSO_USERNAME

RH-SSO Realm Admin Username used to create the Client if it doesn’t exist.

 — 

False

SSO_PASSWORD

SSO_PASSWORD

RH-SSO Realm Admin Password used to create the Client.

 — 

False

SSO_DISABLE_SSL_CERTIFICATE_VALIDATION

SSO_DISABLE_SSL_CERTIFICATE_VALIDATION

RH-SSO Disable SSL Certificate Validation.

false

False

SSO_PRINCIPAL_ATTRIBUTE

SSO_PRINCIPAL_ATTRIBUTE

RH-SSO Principal Attribute to use as username.

preferred_username

False

AUTH_LDAP_URL

AUTH_LDAP_URL

LDAP Endpoint to connect for authentication.

ldap://myldap.example.com

False

AUTH_LDAP_BIND_DN

AUTH_LDAP_BIND_DN

Bind DN used for authentication.

uid=admin,ou=users,ou=exmample,ou=com

False

AUTH_LDAP_BIND_CREDENTIAL

AUTH_LDAP_BIND_CREDENTIAL

LDAP Credentials used for authentication.

Password

False

AUTH_LDAP_JAAS_SECURITY_DOMAIN

AUTH_LDAP_JAAS_SECURITY_DOMAIN

The JMX ObjectName of the JaasSecurityDomain used to decrypt the password.

 — 

False

AUTH_LDAP_BASE_CTX_DN

AUTH_LDAP_BASE_CTX_DN

LDAP Base DN of the top-level context to begin the user search.

ou=users,ou=example,ou=com

False

AUTH_LDAP_BASE_FILTER

AUTH_LDAP_BASE_FILTER

LDAP search filter used to locate the context of the user to authenticate. The input username or userDN obtained from the login module callback is substituted into the filter anywhere a {0} expression is used. A common example for the search filter is (uid={0}).

(uid={0})

False

AUTH_LDAP_SEARCH_SCOPE

AUTH_LDAP_SEARCH_SCOPE

The search scope to use.

SUBTREE_SCOPE

False

AUTH_LDAP_SEARCH_TIME_LIMIT

AUTH_LDAP_SEARCH_TIME_LIMIT

The timeout in milliseconds for user or role searches.

10000

False

AUTH_LDAP_DISTINGUISHED_NAME_ATTRIBUTE

AUTH_LDAP_DISTINGUISHED_NAME_ATTRIBUTE

The name of the attribute in the user entry that contains the DN of the user. This may be necessary if the DN of the user itself contains special characters, backslash for example, that prevent correct user mapping. If the attribute does not exist, the entry’s DN is used.

distinguishedName

False

AUTH_LDAP_PARSE_USERNAME

AUTH_LDAP_PARSE_USERNAME

A flag indicating if the DN is to be parsed for the username. If set to true, the DN is parsed for the username. If set to false the DN is not parsed for the username. This option is used together with usernameBeginString and usernameEndString.

true

False

AUTH_LDAP_USERNAME_BEGIN_STRING

AUTH_LDAP_USERNAME_BEGIN_STRING

Defines the String which is to be removed from the start of the DN to reveal the username. This option is used together with usernameEndString and only taken into account if parseUsername is set to true.

 — 

False

AUTH_LDAP_USERNAME_END_STRING

AUTH_LDAP_USERNAME_END_STRING

Defines the String which is to be removed from the end of the DN to reveal the username. This option is used together with usernameEndString and only taken into account if parseUsername is set to true.

 — 

False

AUTH_LDAP_ROLE_ATTRIBUTE_ID

AUTH_LDAP_ROLE_ATTRIBUTE_ID

Name of the attribute containing the user roles.

memberOf

False

AUTH_LDAP_ROLES_CTX_DN

AUTH_LDAP_ROLES_CTX_DN

The fixed DN of the context to search for user roles. This is not the DN where the actual roles are, but the DN where the objects containing the user roles are. For example, in a Microsoft Active Directory server, this is the DN where the user account is.

ou=groups,ou=example,ou=com

False

AUTH_LDAP_ROLE_FILTER

AUTH_LDAP_ROLE_FILTER

A search filter used to locate the roles associated with the authenticated user. The input username or userDN obtained from the login module callback is substituted into the filter anywhere a {0} expression is used. The authenticated userDN is substituted into the filter anywhere a {1} is used. An example search filter that matches on the input username is (member={0}). An alternative that matches on the authenticated userDN is (member={1}).

(memberOf={1})

False

AUTH_LDAP_ROLE_RECURSION

AUTH_LDAP_ROLE_RECURSION

The number of levels of recursion the role search will go below a matching context. Disable recursion by setting this to 0.

1

False

AUTH_LDAP_DEFAULT_ROLE

AUTH_LDAP_DEFAULT_ROLE

A role included for all authenticated users.

user

False

AUTH_LDAP_ROLE_NAME_ATTRIBUTE_ID

AUTH_LDAP_ROLE_NAME_ATTRIBUTE_ID

Name of the attribute within the roleCtxDN context which contains the role name. If the roleAttributeIsDN property is set to true, this property is used to find the role object’s name attribute.

name

False

AUTH_LDAP_PARSE_ROLE_NAME_FROM_DN

AUTH_LDAP_PARSE_ROLE_NAME_FROM_DN

A flag indicating if the DN returned by a query contains the roleNameAttributeID. If set to true, the DN is checked for the roleNameAttributeID. If set to false, the DN is not checked for the roleNameAttributeID. This flag can improve the performance of LDAP queries.

false

False

AUTH_LDAP_ROLE_ATTRIBUTE_IS_DN

AUTH_LDAP_ROLE_ATTRIBUTE_IS_DN

Whether or not the roleAttributeID contains the fully-qualified DN of a role object. If false, the role name is taken from the value of the roleNameAttributeId attribute of the context name. Certain directory schemas, such as Microsoft Active Directory, require this attribute to be set to true.

false

False

AUTH_LDAP_REFERRAL_USER_ATTRIBUTE_ID_TO_CHECK

AUTH_LDAP_REFERRAL_USER_ATTRIBUTE_ID_TO_CHECK

If you are not using referrals, you can ignore this option. When using referrals, this option denotes the attribute name which contains users defined for a certain role, for example member, if the role object is inside the referral. Users are checked against the content of this attribute name. If this option is not set, the check will always fail, so role objects cannot be stored in a referral tree.

 — 

False

AUTH_ROLE_MAPPER_ROLES_PROPERTIES

AUTH_ROLE_MAPPER_ROLES_PROPERTIES

When present, the RoleMapping Login Module will be configured to use the provided file. This parameter defines the fully-qualified file path and name of a properties file or resource which maps roles to replacement roles. The format is original_role=role1,role2,role3

 — 

False

AUTH_ROLE_MAPPER_REPLACE_ROLE

AUTH_ROLE_MAPPER_REPLACE_ROLE

Whether to add to the current roles, or replace the current roles with the mapped ones. Replaces if set to true.

 — 

False

5.1.2. Objects

The CLI supports various object types. A list of these object types as well as their abbreviations can be found in the Openshift documentation.

5.1.2.1. Services

A service is an abstraction which defines a logical set of pods and a policy by which to access them. Refer to the container-engine documentation for more information.

ServicePortNameDescription

${APPLICATION_NAME}-rhpamcentrmon

8080

http

All the Business Central Monitoring web server’s ports.

8443

https

${APPLICATION_NAME}-rhpamcentrmon-ping

8888

ping

The JGroups ping port for clustering.

${APPLICATION_NAME}-smartrouter

9000

http

The smart router server http and https ports.

9443

https

${APPLICATION_NAME}-kieserver-1

8080

http

All the KIE server web server’s ports. (First KIE server)

8443

https

${APPLICATION_NAME}-kieserver-1-ping

8888

ping

The JGroups ping port for clustering.

${APPLICATION_NAME}-kieserver-2

8080

http

All the KIE server web server’s ports. (Second KIE server)

8443

https

${APPLICATION_NAME}-kieserver-2-ping

8888

ping

The JGroups ping port for clustering.

${APPLICATION_NAME}-postgresql-1

5432

 — 

The first database server’s port.

${APPLICATION_NAME}-postgresql-2

5432

 — 

The second database server’s port.

5.1.2.2. Routes

A route is a way to expose a service by giving it an externally-reachable hostname such as www.example.com. A defined route and the endpoints identified by its service can be consumed by a router to provide named connectivity from external clients to your applications. Each route consists of a route name, service selector, and (optionally) security configuration. Refer to the Openshift documentation for more information.

ServiceSecurityHostname

${APPLICATION_NAME}-rhpamcentrmon-http

none

${BUSINESS_CENTRAL_HOSTNAME_HTTP}

${APPLICATION_NAME}-rhpamcentrmon-https

TLS passthrough

${BUSINESS_CENTRAL_HOSTNAME_HTTPS}

${APPLICATION_NAME}-kieserver-1-http

none

${KIE_SERVER1_HOSTNAME_HTTP}

${APPLICATION_NAME}-kieserver-1-https

TLS passthrough

${KIE_SERVER1_HOSTNAME_HTTPS}

${APPLICATION_NAME}-kieserver-2-http

none

${KIE_SERVER2_HOSTNAME_HTTP}

${APPLICATION_NAME}-kieserver-2-https

TLS passthrough

${KIE_SERVER2_HOSTNAME_HTTPS}

${APPLICATION_NAME}-smartrouter-http

none

${SMART_ROUTER_HOSTNAME_HTTP}

${APPLICATION_NAME}-smartrouter-https

TLS passthrough

${SMART_ROUTER_HOSTNAME_HTTPS}

5.1.2.3. Deployment Configurations

A deployment in OpenShift is a replication controller based on a user defined template called a deployment configuration. Deployments are created manually or in response to triggered events. Refer to the Openshift documentation for more information.

5.1.2.3.1. Triggers

A trigger drives the creation of new deployments in response to events, both inside and outside OpenShift. Refer to the Openshift documentation for more information.

DeploymentTriggers

${APPLICATION_NAME}-rhpamcentrmon

ImageChange

${APPLICATION_NAME}-smartrouter

ImageChange

${APPLICATION_NAME}-kieserver-1

ImageChange

${APPLICATION_NAME}-postgresql-1

ImageChange

${APPLICATION_NAME}-kieserver-2

ImageChange

${APPLICATION_NAME}-postgresql-2

ImageChange

5.1.2.3.2. Replicas

A replication controller ensures that a specified number of pod "replicas" are running at any one time. If there are too many, the replication controller kills some pods. If there are too few, it starts more. Refer to the container-engine documentation for more information.

DeploymentReplicas

${APPLICATION_NAME}-rhpamcentrmon

3

${APPLICATION_NAME}-smartrouter

2

${APPLICATION_NAME}-kieserver-1

3

${APPLICATION_NAME}-postgresql-1

1

${APPLICATION_NAME}-kieserver-2

3

${APPLICATION_NAME}-postgresql-2

1

5.1.2.3.3. Pod Template
5.1.2.3.3.1. Service Accounts

Service accounts are API objects that exist within each project. They can be created or deleted like any other API object. Refer to the Openshift documentation for more information.

DeploymentService Account

${APPLICATION_NAME}-smartrouter

${APPLICATION_NAME}-smartrouter

${APPLICATION_NAME}-kieserver-1

${APPLICATION_NAME}-kieserver

${APPLICATION_NAME}-kieserver-2

${APPLICATION_NAME}-kieserver

5.1.2.3.3.2. Image
DeploymentImage

${APPLICATION_NAME}-rhpamcentrmon

rhpam-businesscentral-monitoring-rhel8

${APPLICATION_NAME}-smartrouter

rhpam-smartrouter-rhel8

${APPLICATION_NAME}-kieserver-1

${KIE_SERVER_IMAGE_STREAM_NAME}

${APPLICATION_NAME}-postgresql-1

postgresql

${APPLICATION_NAME}-kieserver-2

${KIE_SERVER_IMAGE_STREAM_NAME}

${APPLICATION_NAME}-postgresql-2

postgresql

5.1.2.3.3.3. Readiness Probe

${APPLICATION_NAME}-rhpamcentrmon

Http Get on http://localhost:8080/rest/ready

${APPLICATION_NAME}-kieserver-1

Http Get on http://localhost:8080/services/rest/server/readycheck

${APPLICATION_NAME}-postgresql-1

/usr/libexec/check-container

${APPLICATION_NAME}-kieserver-2

Http Get on http://localhost:8080/services/rest/server/readycheck

${APPLICATION_NAME}-postgresql-2

/usr/libexec/check-container

5.1.2.3.3.4. Liveness Probe

${APPLICATION_NAME}-rhpamcentrmon

Http Get on http://localhost:8080/rest/healthy

${APPLICATION_NAME}-kieserver-1

Http Get on http://localhost:8080/services/rest/server/healthcheck

${APPLICATION_NAME}-postgresql-1

/usr/libexec/check-container --live

${APPLICATION_NAME}-kieserver-2

Http Get on http://localhost:8080/services/rest/server/healthcheck

${APPLICATION_NAME}-postgresql-2

/usr/libexec/check-container --live

5.1.2.3.3.5. Exposed Ports
DeploymentsNamePortProtocol

${APPLICATION_NAME}-rhpamcentrmon

jolokia

8778

TCP

http

8080

TCP

https

8443

TCP

ping

8888

TCP

${APPLICATION_NAME}-smartrouter

http

9000

TCP

${APPLICATION_NAME}-kieserver-1

jolokia

8778

TCP

http

8080

TCP

https

8443

TCP

ping

8888

TCP

${APPLICATION_NAME}-postgresql-1

 — 

5432

TCP

${APPLICATION_NAME}-kieserver-2

jolokia

8778

TCP

http

8080

TCP

https

8443

TCP

ping

8888

TCP

${APPLICATION_NAME}-postgresql-2

 — 

5432

TCP

5.1.2.3.3.6. Image Environment Variables
DeploymentVariable nameDescriptionExample value

${APPLICATION_NAME}-rhpamcentrmon

APPLICATION_USERS_PROPERTIES

 — 

/opt/kie/data/configuration/application-users.properties

APPLICATION_ROLES_PROPERTIES

 — 

/opt/kie/data/configuration/application-roles.properties

KIE_ADMIN_PWD

KIE administrator password.

${KIE_ADMIN_PWD}

KIE_ADMIN_USER

KIE administrator username.

${KIE_ADMIN_USER}

KIE_SERVER_PWD

KIE server password. (Sets the org.kie.server.pwd system property)

${KIE_SERVER_PWD}

KIE_SERVER_USER

KIE server username. (Sets the org.kie.server.user system property)

${KIE_SERVER_USER}

MAVEN_MIRROR_URL

Maven mirror that the KIE server must use. If you configure a mirror, this mirror must contain all artifacts that are required for deploying your services.

${MAVEN_MIRROR_URL}

MAVEN_REPO_ID

The id to use for the maven repository. If set, it can be excluded from the optionally configured mirror by adding it to MAVEN_MIRROR_OF. For example: external:*,!repo-rhpamcentr,!repo-custom. If MAVEN_MIRROR_URL is set but MAVEN_MIRROR_ID is not set, an id will be generated randomly, but won’t be usable in MAVEN_MIRROR_OF.

${MAVEN_REPO_ID}

MAVEN_REPO_URL

Fully qualified URL to a Maven repository or service.

${MAVEN_REPO_URL}

MAVEN_REPO_USERNAME

Username to access the Maven repository, if required.

${MAVEN_REPO_USERNAME}

MAVEN_REPO_PASSWORD

Password to access the Maven repository, if required.

${MAVEN_REPO_PASSWORD}

KIE_SERVER_CONTROLLER_USER

KIE server controller username. (Sets the org.kie.server.controller.user system property)

${KIE_SERVER_CONTROLLER_USER}

KIE_SERVER_CONTROLLER_PWD

KIE server controller password. (Sets the org.kie.server.controller.pwd system property)

${KIE_SERVER_CONTROLLER_PWD}

KIE_SERVER_CONTROLLER_TOKEN

KIE server controller token for bearer authentication. (Sets the org.kie.server.controller.token system property)

${KIE_SERVER_CONTROLLER_TOKEN}

HTTPS_KEYSTORE_DIR

 — 

/etc/businesscentral-secret-volume

HTTPS_KEYSTORE

The name of the keystore file within the secret.

${BUSINESS_CENTRAL_HTTPS_KEYSTORE}

HTTPS_NAME

The name associated with the server certificate.

${BUSINESS_CENTRAL_HTTPS_NAME}

HTTPS_PASSWORD

The password for the keystore and certificate.

${BUSINESS_CENTRAL_HTTPS_PASSWORD}

JGROUPS_PING_PROTOCOL

 — 

openshift.DNS_PING

OPENSHIFT_DNS_PING_SERVICE_NAME

 — 

${APPLICATION_NAME}-rhpamcentrmon-ping

OPENSHIFT_DNS_PING_SERVICE_PORT

 — 

8888

SSO_URL

RH-SSO URL.

${SSO_URL}

SSO_OPENIDCONNECT_DEPLOYMENTS

 — 

ROOT.war

SSO_REALM

RH-SSO Realm name.

${SSO_REALM}

SSO_SECRET

Business Central Monitoring RH-SSO Client Secret.

${BUSINESS_CENTRAL_SSO_SECRET}

SSO_CLIENT

Business Central Monitoring RH-SSO Client name.

${BUSINESS_CENTRAL_SSO_CLIENT}

SSO_USERNAME

RH-SSO Realm Admin Username used to create the Client if it doesn’t exist.

${SSO_USERNAME}

SSO_PASSWORD

RH-SSO Realm Admin Password used to create the Client.

${SSO_PASSWORD}

SSO_DISABLE_SSL_CERTIFICATE_VALIDATION

RH-SSO Disable SSL Certificate Validation.

${SSO_DISABLE_SSL_CERTIFICATE_VALIDATION}

SSO_PRINCIPAL_ATTRIBUTE

RH-SSO Principal Attribute to use as username.

${SSO_PRINCIPAL_ATTRIBUTE}

HOSTNAME_HTTP

Custom hostname for http service route. Leave blank for default hostname, e.g.: <application-name>-rhpamcentrmon-<project>.<default-domain-suffix>

${BUSINESS_CENTRAL_HOSTNAME_HTTP}

HOSTNAME_HTTPS

Custom hostname for https service route. Leave blank for default hostname, e.g.: secure-<application-name>-rhpamcentrmon-<project>.<default-domain-suffix>

${BUSINESS_CENTRAL_HOSTNAME_HTTPS}

AUTH_LDAP_URL

LDAP Endpoint to connect for authentication.

${AUTH_LDAP_URL}

AUTH_LDAP_BIND_DN

Bind DN used for authentication.

${AUTH_LDAP_BIND_DN}

AUTH_LDAP_BIND_CREDENTIAL

LDAP Credentials used for authentication.

${AUTH_LDAP_BIND_CREDENTIAL}

AUTH_LDAP_JAAS_SECURITY_DOMAIN

The JMX ObjectName of the JaasSecurityDomain used to decrypt the password.

${AUTH_LDAP_JAAS_SECURITY_DOMAIN}

AUTH_LDAP_BASE_CTX_DN

LDAP Base DN of the top-level context to begin the user search.

${AUTH_LDAP_BASE_CTX_DN}

AUTH_LDAP_BASE_FILTER

LDAP search filter used to locate the context of the user to authenticate. The input username or userDN obtained from the login module callback is substituted into the filter anywhere a {0} expression is used. A common example for the search filter is (uid={0}).

${AUTH_LDAP_BASE_FILTER}

AUTH_LDAP_SEARCH_SCOPE

The search scope to use.

${AUTH_LDAP_SEARCH_SCOPE}

AUTH_LDAP_SEARCH_TIME_LIMIT

The timeout in milliseconds for user or role searches.

${AUTH_LDAP_SEARCH_TIME_LIMIT}

AUTH_LDAP_DISTINGUISHED_NAME_ATTRIBUTE

The name of the attribute in the user entry that contains the DN of the user. This may be necessary if the DN of the user itself contains special characters, backslash for example, that prevent correct user mapping. If the attribute does not exist, the entry’s DN is used.

${AUTH_LDAP_DISTINGUISHED_NAME_ATTRIBUTE}

AUTH_LDAP_PARSE_USERNAME

A flag indicating if the DN is to be parsed for the username. If set to true, the DN is parsed for the username. If set to false the DN is not parsed for the username. This option is used together with usernameBeginString and usernameEndString.

${AUTH_LDAP_PARSE_USERNAME}

AUTH_LDAP_USERNAME_BEGIN_STRING

Defines the String which is to be removed from the start of the DN to reveal the username. This option is used together with usernameEndString and only taken into account if parseUsername is set to true.

${AUTH_LDAP_USERNAME_BEGIN_STRING}

AUTH_LDAP_USERNAME_END_STRING

Defines the String which is to be removed from the end of the DN to reveal the username. This option is used together with usernameEndString and only taken into account if parseUsername is set to true.

${AUTH_LDAP_USERNAME_END_STRING}

AUTH_LDAP_ROLE_ATTRIBUTE_ID

Name of the attribute containing the user roles.

${AUTH_LDAP_ROLE_ATTRIBUTE_ID}

AUTH_LDAP_ROLES_CTX_DN

The fixed DN of the context to search for user roles. This is not the DN where the actual roles are, but the DN where the objects containing the user roles are. For example, in a Microsoft Active Directory server, this is the DN where the user account is.

${AUTH_LDAP_ROLES_CTX_DN}

AUTH_LDAP_ROLE_FILTER

A search filter used to locate the roles associated with the authenticated user. The input username or userDN obtained from the login module callback is substituted into the filter anywhere a {0} expression is used. The authenticated userDN is substituted into the filter anywhere a {1} is used. An example search filter that matches on the input username is (member={0}). An alternative that matches on the authenticated userDN is (member={1}).

${AUTH_LDAP_ROLE_FILTER}

AUTH_LDAP_ROLE_RECURSION

The number of levels of recursion the role search will go below a matching context. Disable recursion by setting this to 0.

${AUTH_LDAP_ROLE_RECURSION}

AUTH_LDAP_DEFAULT_ROLE

A role included for all authenticated users.

${AUTH_LDAP_DEFAULT_ROLE}

AUTH_LDAP_ROLE_NAME_ATTRIBUTE_ID

Name of the attribute within the roleCtxDN context which contains the role name. If the roleAttributeIsDN property is set to true, this property is used to find the role object’s name attribute.

${AUTH_LDAP_ROLE_NAME_ATTRIBUTE_ID}

AUTH_LDAP_PARSE_ROLE_NAME_FROM_DN

A flag indicating if the DN returned by a query contains the roleNameAttributeID. If set to true, the DN is checked for the roleNameAttributeID. If set to false, the DN is not checked for the roleNameAttributeID. This flag can improve the performance of LDAP queries.

${AUTH_LDAP_PARSE_ROLE_NAME_FROM_DN}

AUTH_LDAP_ROLE_ATTRIBUTE_IS_DN

Whether or not the roleAttributeID contains the fully-qualified DN of a role object. If false, the role name is taken from the value of the roleNameAttributeId attribute of the context name. Certain directory schemas, such as Microsoft Active Directory, require this attribute to be set to true.

${AUTH_LDAP_ROLE_ATTRIBUTE_IS_DN}

AUTH_LDAP_REFERRAL_USER_ATTRIBUTE_ID_TO_CHECK

If you are not using referrals, you can ignore this option. When using referrals, this option denotes the attribute name which contains users defined for a certain role, for example member, if the role object is inside the referral. Users are checked against the content of this attribute name. If this option is not set, the check will always fail, so role objects cannot be stored in a referral tree.

${AUTH_LDAP_REFERRAL_USER_ATTRIBUTE_ID_TO_CHECK}

AUTH_ROLE_MAPPER_ROLES_PROPERTIES

When present, the RoleMapping Login Module will be configured to use the provided file. This parameter defines the fully-qualified file path and name of a properties file or resource which maps roles to replacement roles. The format is original_role=role1,role2,role3

${AUTH_ROLE_MAPPER_ROLES_PROPERTIES}

AUTH_ROLE_MAPPER_REPLACE_ROLE

Whether to add to the current roles, or replace the current roles with the mapped ones. Replaces if set to true.

${AUTH_ROLE_MAPPER_REPLACE_ROLE}

${APPLICATION_NAME}-smartrouter

KIE_SERVER_ROUTER_HOST

 — 

 — 

KIE_SERVER_ROUTER_PORT

 — 

9000

KIE_SERVER_ROUTER_PORT_TLS

 — 

9443

KIE_SERVER_ROUTER_URL_EXTERNAL

Public URL where the router can be found. Format http://<host>:<port> (router property org.kie.server.router.url.external)

${KIE_SERVER_ROUTER_URL_EXTERNAL}

KIE_SERVER_ROUTER_ID

Router ID used when connecting to the controller. (router property org.kie.server.router.id)

${KIE_SERVER_ROUTER_ID}

KIE_SERVER_ROUTER_NAME

Router name used when connecting to the controller. (router property org.kie.server.router.name)

${KIE_SERVER_ROUTER_NAME}

KIE_SERVER_ROUTER_ROUTE_NAME

 — 

${APPLICATION_NAME}-smartrouter

KIE_SERVER_ROUTER_SERVICE

 — 

${APPLICATION_NAME}-smartrouter

KIE_SERVER_ROUTER_PROTOCOL

KIE server router protocol. (Used to build the org.kie.server.router.url.external property)

${KIE_SERVER_ROUTER_PROTOCOL}

KIE_SERVER_ROUTER_TLS_KEYSTORE_KEYALIAS

The name associated with the server certificate.

${KIE_SERVER_ROUTER_HTTPS_NAME}

KIE_SERVER_ROUTER_TLS_KEYSTORE_PASSWORD

The password for the keystore and certificate.

${KIE_SERVER_ROUTER_HTTPS_PASSWORD}

KIE_SERVER_ROUTER_TLS_KEYSTORE

 — 

/etc/smartrouter-secret-volume/${KIE_SERVER_ROUTER_HTTPS_KEYSTORE}

KIE_SERVER_CONTROLLER_USER

KIE server controller username. (Sets the org.kie.server.controller.user system property)

${KIE_SERVER_CONTROLLER_USER}

KIE_SERVER_CONTROLLER_PWD

KIE server controller password. (Sets the org.kie.server.controller.pwd system property)

${KIE_SERVER_CONTROLLER_PWD}

KIE_SERVER_CONTROLLER_TOKEN

KIE server controller token for bearer authentication. (Sets the org.kie.server.controller.token system property)

${KIE_SERVER_CONTROLLER_TOKEN}

KIE_SERVER_CONTROLLER_SERVICE

 — 

${APPLICATION_NAME}-rhpamcentrmon

KIE_SERVER_CONTROLLER_PROTOCOL

 — 

http

KIE_SERVER_ROUTER_REPO

 — 

/opt/rhpam-smartrouter/data

KIE_SERVER_ROUTER_CONFIG_WATCHER_ENABLED

 — 

true

${APPLICATION_NAME}-kieserver-1

KIE_ADMIN_USER

KIE administrator username.

${KIE_ADMIN_USER}

KIE_ADMIN_PWD

KIE administrator password.

${KIE_ADMIN_PWD}

KIE_SERVER_MODE

The KIE Server mode. Valid values are 'DEVELOPMENT' or 'PRODUCTION'. In production mode, you can not deploy SNAPSHOT versions of artifacts on the KIE server and can not change the version of an artifact in an existing container. (Sets the org.kie.server.mode system property).

${KIE_SERVER_MODE}

KIE_MBEANS

KIE server mbeans enabled/disabled. (Sets the kie.mbeans and kie.scanner.mbeans system properties)

${KIE_MBEANS}

DROOLS_SERVER_FILTER_CLASSES

KIE server class filtering. (Sets the org.drools.server.filter.classes system property)

${DROOLS_SERVER_FILTER_CLASSES}

PROMETHEUS_SERVER_EXT_DISABLED

If set to false, the prometheus server extension will be enabled. (Sets the org.kie.prometheus.server.ext.disabled system property)

${PROMETHEUS_SERVER_EXT_DISABLED}

KIE_SERVER_BYPASS_AUTH_USER

Allows the KIE server to bypass the authenticated user for task-related operations, for example, queries. (Sets the org.kie.server.bypass.auth.user system property)

${KIE_SERVER_BYPASS_AUTH_USER}

KIE_SERVER_CONTROLLER_USER

KIE server controller username. (Sets the org.kie.server.controller.user system property)

${KIE_SERVER_CONTROLLER_USER}

KIE_SERVER_CONTROLLER_PWD

KIE server controller password. (Sets the org.kie.server.controller.pwd system property)

${KIE_SERVER_CONTROLLER_PWD}

KIE_SERVER_CONTROLLER_TOKEN

KIE server controller token for bearer authentication. (Sets the org.kie.server.controller.token system property)

${KIE_SERVER_CONTROLLER_TOKEN}

KIE_SERVER_CONTROLLER_SERVICE

 — 

${APPLICATION_NAME}-rhpamcentrmon

KIE_SERVER_CONTROLLER_PROTOCOL

 — 

ws

KIE_SERVER_ID

 — 

${APPLICATION_NAME}-kieserver-1

KIE_SERVER_ROUTE_NAME

 — 

${APPLICATION_NAME}-kieserver-1

KIE_SERVER_USE_SECURE_ROUTE_NAME

If true, the KIE server will use secure-<application-name>-kieserver vs. <application-name>-kieserver as the KIE server route endpoint for Business Central to report. Therefore, Business Central displays the secure link to the user.

${KIE_SERVER1_USE_SECURE_ROUTE_NAME}

KIE_SERVER_USER

KIE server username. (Sets the org.kie.server.user system property)

${KIE_SERVER_USER}

KIE_SERVER_PWD

KIE server password. (Sets the org.kie.server.pwd system property)

${KIE_SERVER_PWD}

KIE_SERVER_CONTAINER_DEPLOYMENT

 — 

 

MAVEN_MIRROR_URL

Maven mirror that the KIE server must use. If you configure a mirror, this mirror must contain all artifacts that are required for deploying your services.

${MAVEN_MIRROR_URL}

MAVEN_MIRROR_OF

Maven mirror configuration for KIE server.

${MAVEN_MIRROR_OF}

MAVEN_REPOS

 — 

RHPAMCENTR,EXTERNAL

RHPAMCENTR_MAVEN_REPO_ID

 — 

repo-rhpamcentr

RHPAMCENTR_MAVEN_REPO_SERVICE

The service name for the optional Business Central, where it can be reached, to allow service lookups (for maven repo usage), if required.

${BUSINESS_CENTRAL_MAVEN_SERVICE}

RHPAMCENTR_MAVEN_REPO_PATH

 — 

/maven2/

RHPAMCENTR_MAVEN_REPO_USERNAME

Username to access the Maven service hosted by Business Central inside EAP.

${BUSINESS_CENTRAL_MAVEN_USERNAME}

RHPAMCENTR_MAVEN_REPO_PASSWORD

Password to access the Maven service hosted by Business Central inside EAP.

${BUSINESS_CENTRAL_MAVEN_PASSWORD}

EXTERNAL_MAVEN_REPO_ID

The id to use for the maven repository. If set, it can be excluded from the optionally configured mirror by adding it to MAVEN_MIRROR_OF. For example: external:*,!repo-rhpamcentr,!repo-custom. If MAVEN_MIRROR_URL is set but MAVEN_MIRROR_ID is not set, an id will be generated randomly, but won’t be usable in MAVEN_MIRROR_OF.

${MAVEN_REPO_ID}

EXTERNAL_MAVEN_REPO_URL

Fully qualified URL to a Maven repository or service.

${MAVEN_REPO_URL}

EXTERNAL_MAVEN_REPO_USERNAME

Username to access the Maven repository, if required.

${MAVEN_REPO_USERNAME}

EXTERNAL_MAVEN_REPO_PASSWORD

Password to access the Maven repository, if required.

${MAVEN_REPO_PASSWORD}

KIE_SERVER_ROUTER_SERVICE

 — 

${APPLICATION_NAME}-smartrouter

KIE_SERVER_ROUTER_PORT

 — 

9000

KIE_SERVER_ROUTER_PROTOCOL

KIE server router protocol. (Used to build the org.kie.server.router.url.external property)

${KIE_SERVER_ROUTER_PROTOCOL}

KIE_SERVER_PERSISTENCE_DS

KIE server persistence datasource. (Sets the org.kie.server.persistence.ds system property)

${KIE_SERVER_PERSISTENCE_DS}

DATASOURCES

 — 

RHPAM

RHPAM_JNDI

KIE server persistence datasource. (Sets the org.kie.server.persistence.ds system property)

${KIE_SERVER_PERSISTENCE_DS}

RHPAM_JTA

 — 

true

RHPAM_DATABASE

KIE server PostgreSQL database name.

${KIE_SERVER_POSTGRESQL_DB}

RHPAM_DRIVER

 — 

postgresql

KIE_SERVER_PERSISTENCE_DIALECT

KIE server PostgreSQL Hibernate dialect.

${KIE_SERVER_POSTGRESQL_DIALECT}

RHPAM_USERNAME

KIE server PostgreSQL database username.

${KIE_SERVER_POSTGRESQL_USER}

RHPAM_PASSWORD

KIE server PostgreSQL database password.

${KIE_SERVER_POSTGRESQL_PWD}

RHPAM_SERVICE_HOST

 — 

${APPLICATION_NAME}-postgresql-1

RHPAM_SERVICE_PORT

 — 

5432

TIMER_SERVICE_DATA_STORE

 — 

${APPLICATION_NAME}-postgresql-1

TIMER_SERVICE_DATA_STORE_REFRESH_INTERVAL

Sets refresh-interval for the EJB timer service database-data-store.

${TIMER_SERVICE_DATA_STORE_REFRESH_INTERVAL}

HTTPS_KEYSTORE_DIR

 — 

/etc/kieserver-secret-volume

HTTPS_KEYSTORE

The name of the keystore file within the secret.

${KIE_SERVER_HTTPS_KEYSTORE}

HTTPS_NAME

The name associated with the server certificate.

${KIE_SERVER_HTTPS_NAME}

HTTPS_PASSWORD

The password for the keystore and certificate.

${KIE_SERVER_HTTPS_PASSWORD}

JGROUPS_PING_PROTOCOL

 — 

openshift.DNS_PING

OPENSHIFT_DNS_PING_SERVICE_NAME

 — 

${APPLICATION_NAME}-kieserver-1-ping

OPENSHIFT_DNS_PING_SERVICE_PORT

 — 

8888

SSO_URL

RH-SSO URL.

${SSO_URL}

SSO_OPENIDCONNECT_DEPLOYMENTS

 — 

ROOT.war

SSO_REALM

RH-SSO Realm name.

${SSO_REALM}

SSO_SECRET

KIE Server 1 RH-SSO Client Secret.

${KIE_SERVER1_SSO_SECRET}

SSO_CLIENT

KIE Server 1 RH-SSO Client name.

${KIE_SERVER1_SSO_CLIENT}

SSO_USERNAME

RH-SSO Realm Admin Username used to create the Client if it doesn’t exist.

${SSO_USERNAME}

SSO_PASSWORD

RH-SSO Realm Admin Password used to create the Client.

${SSO_PASSWORD}

SSO_DISABLE_SSL_CERTIFICATE_VALIDATION

RH-SSO Disable SSL Certificate Validation.

${SSO_DISABLE_SSL_CERTIFICATE_VALIDATION}

SSO_PRINCIPAL_ATTRIBUTE

RH-SSO Principal Attribute to use as username.

${SSO_PRINCIPAL_ATTRIBUTE}

HOSTNAME_HTTP

Custom hostname for http service route. Leave blank for default hostname, e.g.: <application-name>-kieserver-<project>.<default-domain-suffix>

${KIE_SERVER1_HOSTNAME_HTTP}

HOSTNAME_HTTPS

Custom hostname for https service route. Leave blank for default hostname, e.g.: secure-<application-name>-kieserver-<project>.<default-domain-suffix>

${KIE_SERVER1_HOSTNAME_HTTPS}

AUTH_LDAP_URL

LDAP Endpoint to connect for authentication.

${AUTH_LDAP_URL}

AUTH_LDAP_BIND_DN

Bind DN used for authentication.

${AUTH_LDAP_BIND_DN}

AUTH_LDAP_BIND_CREDENTIAL

LDAP Credentials used for authentication.

${AUTH_LDAP_BIND_CREDENTIAL}

AUTH_LDAP_JAAS_SECURITY_DOMAIN

The JMX ObjectName of the JaasSecurityDomain used to decrypt the password.

${AUTH_LDAP_JAAS_SECURITY_DOMAIN}

AUTH_LDAP_BASE_CTX_DN

LDAP Base DN of the top-level context to begin the user search.

${AUTH_LDAP_BASE_CTX_DN}

AUTH_LDAP_BASE_FILTER

LDAP search filter used to locate the context of the user to authenticate. The input username or userDN obtained from the login module callback is substituted into the filter anywhere a {0} expression is used. A common example for the search filter is (uid={0}).

${AUTH_LDAP_BASE_FILTER}

AUTH_LDAP_SEARCH_SCOPE

The search scope to use.

${AUTH_LDAP_SEARCH_SCOPE}

AUTH_LDAP_SEARCH_TIME_LIMIT

The timeout in milliseconds for user or role searches.

${AUTH_LDAP_SEARCH_TIME_LIMIT}

AUTH_LDAP_DISTINGUISHED_NAME_ATTRIBUTE

The name of the attribute in the user entry that contains the DN of the user. This may be necessary if the DN of the user itself contains special characters, backslash for example, that prevent correct user mapping. If the attribute does not exist, the entry’s DN is used.

${AUTH_LDAP_DISTINGUISHED_NAME_ATTRIBUTE}

AUTH_LDAP_PARSE_USERNAME

A flag indicating if the DN is to be parsed for the username. If set to true, the DN is parsed for the username. If set to false the DN is not parsed for the username. This option is used together with usernameBeginString and usernameEndString.

${AUTH_LDAP_PARSE_USERNAME}

AUTH_LDAP_USERNAME_BEGIN_STRING

Defines the String which is to be removed from the start of the DN to reveal the username. This option is used together with usernameEndString and only taken into account if parseUsername is set to true.

${AUTH_LDAP_USERNAME_BEGIN_STRING}

AUTH_LDAP_USERNAME_END_STRING

Defines the String which is to be removed from the end of the DN to reveal the username. This option is used together with usernameEndString and only taken into account if parseUsername is set to true.

${AUTH_LDAP_USERNAME_END_STRING}

AUTH_LDAP_ROLE_ATTRIBUTE_ID

Name of the attribute containing the user roles.

${AUTH_LDAP_ROLE_ATTRIBUTE_ID}

AUTH_LDAP_ROLES_CTX_DN

The fixed DN of the context to search for user roles. This is not the DN where the actual roles are, but the DN where the objects containing the user roles are. For example, in a Microsoft Active Directory server, this is the DN where the user account is.

${AUTH_LDAP_ROLES_CTX_DN}

AUTH_LDAP_ROLE_FILTER

A search filter used to locate the roles associated with the authenticated user. The input username or userDN obtained from the login module callback is substituted into the filter anywhere a {0} expression is used. The authenticated userDN is substituted into the filter anywhere a {1} is used. An example search filter that matches on the input username is (member={0}). An alternative that matches on the authenticated userDN is (member={1}).

${AUTH_LDAP_ROLE_FILTER}

AUTH_LDAP_ROLE_RECURSION

The number of levels of recursion the role search will go below a matching context. Disable recursion by setting this to 0.

${AUTH_LDAP_ROLE_RECURSION}

AUTH_LDAP_DEFAULT_ROLE

A role included for all authenticated users.

${AUTH_LDAP_DEFAULT_ROLE}

AUTH_LDAP_ROLE_NAME_ATTRIBUTE_ID

Name of the attribute within the roleCtxDN context which contains the role name. If the roleAttributeIsDN property is set to true, this property is used to find the role object’s name attribute.

${AUTH_LDAP_ROLE_NAME_ATTRIBUTE_ID}

AUTH_LDAP_PARSE_ROLE_NAME_FROM_DN

A flag indicating if the DN returned by a query contains the roleNameAttributeID. If set to true, the DN is checked for the roleNameAttributeID. If set to false, the DN is not checked for the roleNameAttributeID. This flag can improve the performance of LDAP queries.

${AUTH_LDAP_PARSE_ROLE_NAME_FROM_DN}

AUTH_LDAP_ROLE_ATTRIBUTE_IS_DN

Whether or not the roleAttributeID contains the fully-qualified DN of a role object. If false, the role name is taken from the value of the roleNameAttributeId attribute of the context name. Certain directory schemas, such as Microsoft Active Directory, require this attribute to be set to true.

${AUTH_LDAP_ROLE_ATTRIBUTE_IS_DN}

AUTH_LDAP_REFERRAL_USER_ATTRIBUTE_ID_TO_CHECK

If you are not using referrals, you can ignore this option. When using referrals, this option denotes the attribute name which contains users defined for a certain role, for example member, if the role object is inside the referral. Users are checked against the content of this attribute name. If this option is not set, the check will always fail, so role objects cannot be stored in a referral tree.

${AUTH_LDAP_REFERRAL_USER_ATTRIBUTE_ID_TO_CHECK}

AUTH_ROLE_MAPPER_ROLES_PROPERTIES

When present, the RoleMapping Login Module will be configured to use the provided file. This parameter defines the fully-qualified file path and name of a properties file or resource which maps roles to replacement roles. The format is original_role=role1,role2,role3

${AUTH_ROLE_MAPPER_ROLES_PROPERTIES}

AUTH_ROLE_MAPPER_REPLACE_ROLE

Whether to add to the current roles, or replace the current roles with the mapped ones. Replaces if set to true.

${AUTH_ROLE_MAPPER_REPLACE_ROLE}

${APPLICATION_NAME}-postgresql-1

POSTGRESQL_USER

KIE server PostgreSQL database username.

${KIE_SERVER_POSTGRESQL_USER}

POSTGRESQL_PASSWORD

KIE server PostgreSQL database password.

${KIE_SERVER_POSTGRESQL_PWD}

POSTGRESQL_DATABASE

KIE server PostgreSQL database name.

${KIE_SERVER_POSTGRESQL_DB}

POSTGRESQL_MAX_PREPARED_TRANSACTIONS

Allows the PostgreSQL to handle XA transactions.

${POSTGRESQL_MAX_PREPARED_TRANSACTIONS}

${APPLICATION_NAME}-kieserver-2

KIE_ADMIN_USER

KIE administrator username.

${KIE_ADMIN_USER}

KIE_ADMIN_PWD

KIE administrator password.

${KIE_ADMIN_PWD}

KIE_SERVER_MODE

The KIE Server mode. Valid values are 'DEVELOPMENT' or 'PRODUCTION'. In production mode, you can not deploy SNAPSHOT versions of artifacts on the KIE server and can not change the version of an artifact in an existing container. (Sets the org.kie.server.mode system property).

${KIE_SERVER_MODE}

KIE_MBEANS

KIE server mbeans enabled/disabled. (Sets the kie.mbeans and kie.scanner.mbeans system properties)

${KIE_MBEANS}

DROOLS_SERVER_FILTER_CLASSES

KIE server class filtering. (Sets the org.drools.server.filter.classes system property)

${DROOLS_SERVER_FILTER_CLASSES}

PROMETHEUS_SERVER_EXT_DISABLED

If set to false, the prometheus server extension will be enabled. (Sets the org.kie.prometheus.server.ext.disabled system property)

${PROMETHEUS_SERVER_EXT_DISABLED}

KIE_SERVER_BYPASS_AUTH_USER

Allows the KIE server to bypass the authenticated user for task-related operations, for example, queries. (Sets the org.kie.server.bypass.auth.user system property)

${KIE_SERVER_BYPASS_AUTH_USER}

KIE_SERVER_CONTROLLER_USER

KIE server controller username. (Sets the org.kie.server.controller.user system property)

${KIE_SERVER_CONTROLLER_USER}

KIE_SERVER_CONTROLLER_PWD

KIE server controller password. (Sets the org.kie.server.controller.pwd system property)

${KIE_SERVER_CONTROLLER_PWD}

KIE_SERVER_CONTROLLER_TOKEN

KIE server controller token for bearer authentication. (Sets the org.kie.server.controller.token system property)

${KIE_SERVER_CONTROLLER_TOKEN}

KIE_SERVER_CONTROLLER_SERVICE

 — 

${APPLICATION_NAME}-rhpamcentrmon

KIE_SERVER_CONTROLLER_PROTOCOL

 — 

ws

KIE_SERVER_ID

 — 

${APPLICATION_NAME}-kieserver-2

KIE_SERVER_ROUTE_NAME

 — 

${APPLICATION_NAME}-kieserver-2

KIE_SERVER_USE_SECURE_ROUTE_NAME

If true, will use secure-APPLICATION_NAME-kieserver-2 vs. APPLICATION_NAME-kieserver-2 as the route name.

${KIE_SERVER2_USE_SECURE_ROUTE_NAME}

KIE_SERVER_USER

KIE server username. (Sets the org.kie.server.user system property)

${KIE_SERVER_USER}

KIE_SERVER_PWD

KIE server password. (Sets the org.kie.server.pwd system property)

${KIE_SERVER_PWD}

KIE_SERVER_CONTAINER_DEPLOYMENT

 — 

 

MAVEN_MIRROR_URL

Maven mirror that the KIE server must use. If you configure a mirror, this mirror must contain all artifacts that are required for deploying your services.

${MAVEN_MIRROR_URL}

MAVEN_MIRROR_OF

Maven mirror configuration for KIE server.

${MAVEN_MIRROR_OF}

MAVEN_REPOS

 — 

RHPAMCENTR,EXTERNAL

RHPAMCENTR_MAVEN_REPO_ID

 — 

repo-rhpamcentr

RHPAMCENTR_MAVEN_REPO_SERVICE

The service name for the optional Business Central, where it can be reached, to allow service lookups (for maven repo usage), if required.

${BUSINESS_CENTRAL_MAVEN_SERVICE}

RHPAMCENTR_MAVEN_REPO_PATH

 — 

/maven2/

RHPAMCENTR_MAVEN_REPO_USERNAME

Username to access the Maven service hosted by Business Central inside EAP.

${BUSINESS_CENTRAL_MAVEN_USERNAME}

RHPAMCENTR_MAVEN_REPO_PASSWORD

Password to access the Maven service hosted by Business Central inside EAP.

${BUSINESS_CENTRAL_MAVEN_PASSWORD}

EXTERNAL_MAVEN_REPO_ID

The id to use for the maven repository. If set, it can be excluded from the optionally configured mirror by adding it to MAVEN_MIRROR_OF. For example: external:*,!repo-rhpamcentr,!repo-custom. If MAVEN_MIRROR_URL is set but MAVEN_MIRROR_ID is not set, an id will be generated randomly, but won’t be usable in MAVEN_MIRROR_OF.

${MAVEN_REPO_ID}

EXTERNAL_MAVEN_REPO_URL

Fully qualified URL to a Maven repository or service.

${MAVEN_REPO_URL}

EXTERNAL_MAVEN_REPO_USERNAME

Username to access the Maven repository, if required.

${MAVEN_REPO_USERNAME}

EXTERNAL_MAVEN_REPO_PASSWORD

Password to access the Maven repository, if required.

${MAVEN_REPO_PASSWORD}

KIE_SERVER_ROUTER_SERVICE

 — 

${APPLICATION_NAME}-smartrouter

KIE_SERVER_ROUTER_PORT

 — 

9000

KIE_SERVER_ROUTER_PROTOCOL

KIE server router protocol. (Used to build the org.kie.server.router.url.external property)

${KIE_SERVER_ROUTER_PROTOCOL}

KIE_SERVER_PERSISTENCE_DS

KIE server persistence datasource. (Sets the org.kie.server.persistence.ds system property)

${KIE_SERVER_PERSISTENCE_DS}

DATASOURCES

 — 

RHPAM

RHPAM_JNDI

KIE server persistence datasource. (Sets the org.kie.server.persistence.ds system property)

${KIE_SERVER_PERSISTENCE_DS}

RHPAM_JTA

 — 

true

RHPAM_DATABASE

KIE server PostgreSQL database name.

${KIE_SERVER_POSTGRESQL_DB}

RHPAM_DRIVER

 — 

postgresql

KIE_SERVER_PERSISTENCE_DIALECT

KIE server PostgreSQL Hibernate dialect.

${KIE_SERVER_POSTGRESQL_DIALECT}

RHPAM_USERNAME

KIE server PostgreSQL database username.

${KIE_SERVER_POSTGRESQL_USER}

RHPAM_PASSWORD

KIE server PostgreSQL database password.

${KIE_SERVER_POSTGRESQL_PWD}

RHPAM_SERVICE_HOST

 — 

${APPLICATION_NAME}-postgresql-2

RHPAM_SERVICE_PORT

 — 

5432

TIMER_SERVICE_DATA_STORE

 — 

${APPLICATION_NAME}-postgresql-2

TIMER_SERVICE_DATA_STORE_REFRESH_INTERVAL

Sets refresh-interval for the EJB timer service database-data-store.

${TIMER_SERVICE_DATA_STORE_REFRESH_INTERVAL}

HTTPS_KEYSTORE_DIR

 — 

/etc/kieserver-secret-volume

HTTPS_KEYSTORE

The name of the keystore file within the secret.

${KIE_SERVER_HTTPS_KEYSTORE}

HTTPS_NAME

The name associated with the server certificate.

${KIE_SERVER_HTTPS_NAME}

HTTPS_PASSWORD

The password for the keystore and certificate.

${KIE_SERVER_HTTPS_PASSWORD}

JGROUPS_PING_PROTOCOL

 — 

openshift.DNS_PING

OPENSHIFT_DNS_PING_SERVICE_NAME

 — 

${APPLICATION_NAME}-kieserver-2-ping

OPENSHIFT_DNS_PING_SERVICE_PORT

 — 

8888

SSO_URL

RH-SSO URL.

${SSO_URL}

SSO_OPENIDCONNECT_DEPLOYMENTS

 — 

ROOT.war

SSO_REALM

RH-SSO Realm name.

${SSO_REALM}

SSO_SECRET

KIE Server 2 RH-SSO Client Secret.

${KIE_SERVER2_SSO_SECRET}

SSO_CLIENT

KIE Server 2 RH-SSO Client name.

${KIE_SERVER2_SSO_CLIENT}

SSO_USERNAME

RH-SSO Realm Admin Username used to create the Client if it doesn’t exist.

${SSO_USERNAME}

SSO_PASSWORD

RH-SSO Realm Admin Password used to create the Client.

${SSO_PASSWORD}

SSO_DISABLE_SSL_CERTIFICATE_VALIDATION

RH-SSO Disable SSL Certificate Validation.

${SSO_DISABLE_SSL_CERTIFICATE_VALIDATION}

SSO_PRINCIPAL_ATTRIBUTE

RH-SSO Principal Attribute to use as username.

${SSO_PRINCIPAL_ATTRIBUTE}

HOSTNAME_HTTP

Custom hostname for http service route. Leave blank for default hostname, e.g.: <application-name>-kieserver-<project>.<default-domain-suffix>

${KIE_SERVER2_HOSTNAME_HTTP}

HOSTNAME_HTTPS

Custom hostname for https service route. Leave blank for default hostname, e.g.: secure-<application-name>-kieserver-<project>.<default-domain-suffix>

${KIE_SERVER2_HOSTNAME_HTTPS}

AUTH_LDAP_URL

LDAP Endpoint to connect for authentication.

${AUTH_LDAP_URL}

AUTH_LDAP_BIND_DN

Bind DN used for authentication.

${AUTH_LDAP_BIND_DN}

AUTH_LDAP_BIND_CREDENTIAL

LDAP Credentials used for authentication.

${AUTH_LDAP_BIND_CREDENTIAL}

AUTH_LDAP_JAAS_SECURITY_DOMAIN

The JMX ObjectName of the JaasSecurityDomain used to decrypt the password.

${AUTH_LDAP_JAAS_SECURITY_DOMAIN}

AUTH_LDAP_BASE_CTX_DN

LDAP Base DN of the top-level context to begin the user search.

${AUTH_LDAP_BASE_CTX_DN}

AUTH_LDAP_BASE_FILTER

LDAP search filter used to locate the context of the user to authenticate. The input username or userDN obtained from the login module callback is substituted into the filter anywhere a {0} expression is used. A common example for the search filter is (uid={0}).

${AUTH_LDAP_BASE_FILTER}

AUTH_LDAP_SEARCH_SCOPE

The search scope to use.

${AUTH_LDAP_SEARCH_SCOPE}

AUTH_LDAP_SEARCH_TIME_LIMIT

The timeout in milliseconds for user or role searches.

${AUTH_LDAP_SEARCH_TIME_LIMIT}

AUTH_LDAP_DISTINGUISHED_NAME_ATTRIBUTE

The name of the attribute in the user entry that contains the DN of the user. This may be necessary if the DN of the user itself contains special characters, backslash for example, that prevent correct user mapping. If the attribute does not exist, the entry’s DN is used.

${AUTH_LDAP_DISTINGUISHED_NAME_ATTRIBUTE}

AUTH_LDAP_PARSE_USERNAME

A flag indicating if the DN is to be parsed for the username. If set to true, the DN is parsed for the username. If set to false the DN is not parsed for the username. This option is used together with usernameBeginString and usernameEndString.

${AUTH_LDAP_PARSE_USERNAME}

AUTH_LDAP_USERNAME_BEGIN_STRING

Defines the String which is to be removed from the start of the DN to reveal the username. This option is used together with usernameEndString and only taken into account if parseUsername is set to true.

${AUTH_LDAP_USERNAME_BEGIN_STRING}

AUTH_LDAP_USERNAME_END_STRING

Defines the String which is to be removed from the end of the DN to reveal the username. This option is used together with usernameEndString and only taken into account if parseUsername is set to true.

${AUTH_LDAP_USERNAME_END_STRING}

AUTH_LDAP_ROLE_ATTRIBUTE_ID

Name of the attribute containing the user roles.

${AUTH_LDAP_ROLE_ATTRIBUTE_ID}

AUTH_LDAP_ROLES_CTX_DN

The fixed DN of the context to search for user roles. This is not the DN where the actual roles are, but the DN where the objects containing the user roles are. For example, in a Microsoft Active Directory server, this is the DN where the user account is.

${AUTH_LDAP_ROLES_CTX_DN}

AUTH_LDAP_ROLE_FILTER

A search filter used to locate the roles associated with the authenticated user. The input username or userDN obtained from the login module callback is substituted into the filter anywhere a {0} expression is used. The authenticated userDN is substituted into the filter anywhere a {1} is used. An example search filter that matches on the input username is (member={0}). An alternative that matches on the authenticated userDN is (member={1}).

${AUTH_LDAP_ROLE_FILTER}

AUTH_LDAP_ROLE_RECURSION

The number of levels of recursion the role search will go below a matching context. Disable recursion by setting this to 0.

${AUTH_LDAP_ROLE_RECURSION}

AUTH_LDAP_DEFAULT_ROLE

A role included for all authenticated users.

${AUTH_LDAP_DEFAULT_ROLE}

AUTH_LDAP_ROLE_NAME_ATTRIBUTE_ID

Name of the attribute within the roleCtxDN context which contains the role name. If the roleAttributeIsDN property is set to true, this property is used to find the role object’s name attribute.

${AUTH_LDAP_ROLE_NAME_ATTRIBUTE_ID}

AUTH_LDAP_PARSE_ROLE_NAME_FROM_DN

A flag indicating if the DN returned by a query contains the roleNameAttributeID. If set to true, the DN is checked for the roleNameAttributeID. If set to false, the DN is not checked for the roleNameAttributeID. This flag can improve the performance of LDAP queries.

${AUTH_LDAP_PARSE_ROLE_NAME_FROM_DN}

AUTH_LDAP_ROLE_ATTRIBUTE_IS_DN

Whether or not the roleAttributeID contains the fully-qualified DN of a role object. If false, the role name is taken from the value of the roleNameAttributeId attribute of the context name. Certain directory schemas, such as Microsoft Active Directory, require this attribute to be set to true.

${AUTH_LDAP_ROLE_ATTRIBUTE_IS_DN}

AUTH_LDAP_REFERRAL_USER_ATTRIBUTE_ID_TO_CHECK

If you are not using referrals, you can ignore this option. When using referrals, this option denotes the attribute name which contains users defined for a certain role, for example member, if the role object is inside the referral. Users are checked against the content of this attribute name. If this option is not set, the check will always fail, so role objects cannot be stored in a referral tree.

${AUTH_LDAP_REFERRAL_USER_ATTRIBUTE_ID_TO_CHECK}

AUTH_ROLE_MAPPER_ROLES_PROPERTIES

When present, the RoleMapping Login Module will be configured to use the provided file. This parameter defines the fully-qualified file path and name of a properties file or resource which maps roles to replacement roles. The format is original_role=role1,role2,role3

${AUTH_ROLE_MAPPER_ROLES_PROPERTIES}

AUTH_ROLE_MAPPER_REPLACE_ROLE

Whether to add to the current roles, or replace the current roles with the mapped ones. Replaces if set to true.

${AUTH_ROLE_MAPPER_REPLACE_ROLE}

${APPLICATION_NAME}-postgresql-2

POSTGRESQL_USER

KIE server PostgreSQL database username.

${KIE_SERVER_POSTGRESQL_USER}

POSTGRESQL_PASSWORD

KIE server PostgreSQL database password.

${KIE_SERVER_POSTGRESQL_PWD}

POSTGRESQL_DATABASE

KIE server PostgreSQL database name.

${KIE_SERVER_POSTGRESQL_DB}

POSTGRESQL_MAX_PREPARED_TRANSACTIONS

Allows the PostgreSQL to handle XA transactions.

${POSTGRESQL_MAX_PREPARED_TRANSACTIONS}

5.1.2.3.3.7. Volumes
DeploymentNamemountPathPurposereadOnly

${APPLICATION_NAME}-rhpamcentrmon

businesscentral-keystore-volume

/etc/businesscentral-secret-volume

ssl certs

True

${APPLICATION_NAME}-smartrouter

${APPLICATION_NAME}-smartrouter

/opt/rhpam-smartrouter/data

 — 

false

${APPLICATION_NAME}-kieserver-1

kieserver-keystore-volume

/etc/kieserver-secret-volume

ssl certs

True

${APPLICATION_NAME}-postgresql-1

${APPLICATION_NAME}-postgresql-pvol

/var/lib/pgsql/data

postgresql

false

${APPLICATION_NAME}-kieserver-2

kieserver-keystore-volume

/etc/kieserver-secret-volume

ssl certs

True

${APPLICATION_NAME}-postgresql-2

${APPLICATION_NAME}-postgresql-pvol

/var/lib/pgsql/data

postgresql

false

5.1.2.4. External Dependencies

5.1.2.4.1. Volume Claims

A PersistentVolume object is a storage resource in an OpenShift cluster. Storage is provisioned by an administrator by creating PersistentVolume objects from sources such as GCE Persistent Disks, AWS Elastic Block Stores (EBS), and NFS mounts. Refer to the Openshift documentation for more information.

NameAccess Mode

${APPLICATION_NAME}-postgresql-claim-1

ReadWriteOnce

${APPLICATION_NAME}-postgresql-claim-2

ReadWriteOnce

${APPLICATION_NAME}-smartrouter-claim

ReadWriteMany

${APPLICATION_NAME}-rhpamcentr-claim

ReadWriteMany

5.1.2.4.2. Secrets

This template requires the following secrets to be installed for the application to run.

businesscentral-app-secret smartrouter-app-secret kieserver-app-secret

5.2. OpenShift usage quick reference

To deploy, monitor, manage, and undeploy Red Hat Process Automation Manager templates on Red Hat OpenShift Container Platform, you can use the OpenShift Web console or the oc command.

For instructions about using the Web console, see Create and build an image using the Web console.

For detailed instructions about using the oc command, see CLI Reference. The following commands are likely to be required:

  • To create a project, use the following command:

    $ oc new-project <project-name>

    For more information, see Creating a project using the CLI.

  • To deploy a template (create an application from a template), use the following command:

    $ oc new-app -f <template-name> -p <parameter>=<value> -p <parameter>=<value> ...

    For more information, see Creating an application using the CLI.

  • To view a list of the active pods in the project, use the following command:

    $ oc get pods
  • To view the current status of a pod, including information whether or not the pod deployment has completed and it is now in a running state, use the following command:

    $ oc describe pod <pod-name>

    You can also use the oc describe command to view the current status of other objects. For more information, see Application modification operations.

  • To view the logs for a pod, use the following command:

    $ oc logs <pod-name>
  • To view deployment logs, look up a DeploymentConfig name in the template reference and enter the following command:

    $ oc logs -f dc/<deployment-config-name>

    For more information, see Viewing deployment logs.

  • To view build logs, look up a BuildConfig name in the template reference and enter the command:

    $ oc logs -f bc/<build-config-name>

    For more information, see Accessing build logs.

  • To scale a pod in the application, look up a DeploymentConfig name in the template reference and enter the command:

    $ oc scale dc/<deployment-config-name> --replicas=<number>

    For more information, see Manual scaling.

  • To undeploy the application, you can delete the project by using the command:

    $ oc delete project <project-name>

    Alternatively, you can use the oc delete command to remove any part of the application, such as a pod or replication controller. For details, see Application modification operations.

Appendix A. Versioning information

Documentation last updated on Friday, June 25, 2021.

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