$ export ISO_IMAGE_NAME=<iso_image_name> (1)
To use RHACM in a disconnected environment, create a mirror registry that mirrors the OKD release images and Operator Lifecycle Manager (OLM) catalog that contains the required Operator images. OLM manages, installs, and upgrades Operators and their dependencies in the cluster. You can also use a disconnected mirror host to serve the FCOS ISO and RootFS disk images that are used to provision the bare-metal hosts.
The Red Hat Telco Radio Access Network (RAN) version 4.10 solution has been validated using the following Red Hat software products.
Product | Software version |
---|---|
Hub cluster OKD version |
4.10 |
GitOps ZTP plugin |
4.9 or 4.10 |
Red Hat Advanced Cluster Management (RHACM) |
2.4 or 2.5 |
Red Hat OpenShift GitOps |
1.4 |
Topology Aware Lifecycle Manager (TALM) |
4.10 (Technology Preview) |
Use Red Hat Advanced Cluster Management (RHACM), Red Hat OpenShift GitOps, and Topology Aware Lifecycle Manager (TALM) on the hub cluster in the disconnected environment to manage the deployment of multiple managed clusters.
You have installed the OKD CLI (oc
).
You have logged in as a user with cluster-admin
privileges.
You have configured a disconnected mirror registry for use in the cluster.
The disconnected mirror registry that you create must contain a version of TALM backup and pre-cache images that matches the version of TALM running in the hub cluster. The spoke cluster must be able to resolve these images in the disconnected mirror registry. |
Install RHACM in the hub cluster. See Installing RHACM in a disconnected environment.
Install GitOps and TALM in the hub cluster.
Before you begin installing clusters in the disconnected environment with Red Hat Advanced Cluster Management (RHACM), you must first host Fedora CoreOS (FCOS) images for it to use. Use a disconnected mirror to host the FCOS images.
Deploy and configure an HTTP server to host the FCOS image resources on the network. You must be able to access the HTTP server from your computer, and from the machines that you create.
The FCOS images might not change with every release of OKD. You must download images with the highest version that is less than or equal to the version that you install. Use the image versions that match your OKD version if they are available. You require ISO and RootFS images to install FCOS on the hosts. FCOS QCOW2 images are not supported for this installation type. |
Log in to the mirror host.
Obtain the FCOS ISO and RootFS images from mirror.openshift.com, for example:
Export the required image names and OKD version as environment variables:
$ export ISO_IMAGE_NAME=<iso_image_name> (1)
$ export ROOTFS_IMAGE_NAME=<rootfs_image_name> (2)
$ export OCP_VERSION=<ocp_version> (3)
1 | ISO image name, for example, rhcos-4.10.1-x86_64-live.x86_64.iso |
2 | RootFS image name, for example, rhcos-4.10.1-x86_64-live-rootfs.x86_64.img |
3 | OKD verison, for example, 4.10.1 |
Download the required images:
$ sudo wget https://mirror.openshift.com/pub/openshift-v4/dependencies/rhcos/4.10/${OCP_VERSION}/${ISO_IMAGE_NAME} -O /var/www/html/${ISO_IMAGE_NAME}
$ sudo wget https://mirror.openshift.com/pub/openshift-v4/dependencies/rhcos/4.10/${OCP_VERSION}/${ROOTFS_IMAGE_NAME} -O /var/www/html/${ROOTFS_IMAGE_NAME}
Verify that the images downloaded successfully and are being served on the disconnected mirror host, for example:
$ wget http://$(hostname)/${ISO_IMAGE_NAME}
Saving to: rhcos-4.10.1-x86_64-live.x86_64.iso
rhcos-4.10.1-x86_64-live.x86_64.iso- 11%[====> ] 10.01M 4.71MB/s
Red Hat Advanced Cluster Management (RHACM) uses the assisted service to deploy OKD clusters. The assisted service is deployed automatically when you enable the MultiClusterHub Operator with Central Infrastructure Management (CIM). When you have enabled CIM on the hub cluster, you then need to update the AgentServiceConfig
custom resource (CR) with references to the ISO and RootFS images that are hosted on the mirror registry HTTP server.
You have installed the OpenShift CLI (oc
).
You have logged in to the hub cluster as a user with cluster-admin
privileges.
You have enabled the assisted service on the hub cluster. For more information, see Enabling CIM.
Update the AgentServiceConfig
CR by running the following command:
$ oc edit AgentServiceConfig
Add the following entry to the items.spec.osImages
field in the CR:
- cpuArchitecture: x86_64
openshiftVersion: "4.10"
rootFSUrl: https://<host>/<path>/rhcos-live-rootfs.x86_64.img
url: https://<mirror-registry>/<path>/rhcos-live.x86_64.iso
where:
Is the fully qualified domain name (FQDN) for the target mirror registry HTTP server.
Is the path to the image on the target mirror registry.
Save and quit the editor to apply the changes.
You can configure the hub cluster to use a disconnected mirror registry for a disconnected environment.
You have a disconnected hub cluster installation with Red Hat Advanced Cluster Management (RHACM) 2.4 installed.
You have hosted the rootfs
and iso
images on an HTTP server.
If you enable TLS for the HTTP server, you must confirm the root certificate is signed by an authority trusted by the client and verify the trusted certificate chain between your OKD hub and managed clusters and the HTTP server. Using a server configured with an untrusted certificate prevents the images from being downloaded to the image creation service. Using untrusted HTTPS servers is not supported. |
Create a ConfigMap
containing the mirror registry config:
apiVersion: v1
kind: ConfigMap
metadata:
name: assisted-installer-mirror-config
namespace: assisted-installer
labels:
app: assisted-service
data:
ca-bundle.crt: <certificate> (1)
registries.conf: | (2)
unqualified-search-registries = ["registry.access.redhat.com", "docker.io"]
[[registry]]
location = <mirror_registry_url> (3)
insecure = false
mirror-by-digest-only = true
1 | The mirror registry’s certificate used when creating the mirror registry. |
2 | The configuration for the mirror registry. |
3 | The URL of the mirror registry. |
This updates mirrorRegistryRef
in the AgentServiceConfig
custom resource, as shown below:
apiVersion: agent-install.openshift.io/v1beta1
kind: AgentServiceConfig
metadata:
name: agent
spec:
databaseStorage:
volumeName: <db_pv_name>
accessModes:
- ReadWriteOnce
resources:
requests:
storage: <db_storage_size>
filesystemStorage:
volumeName: <fs_pv_name>
accessModes:
- ReadWriteOnce
resources:
requests:
storage: <fs_storage_size>
mirrorRegistryRef:
name: 'assisted-installer-mirror-config'
osImages:
- openshiftVersion: <ocp_version>
rootfs: <rootfs_url> (1)
url: <iso_url> (1)
1 | Must match the URLs of the HTTPD server. |
A valid NTP server is required during cluster installation. Ensure that a suitable NTP server is available and can be reached from the installed clusters through the disconnected network. |
You can configure your hub cluster with a set of ArgoCD applications that generate the required installation and policy custom resources (CR) for each site based on a zero touch provisioning (ZTP) GitOps flow.
You have a OKD hub cluster with Red Hat Advanced Cluster Management (RHACM) and Red Hat OpenShift GitOps installed.
You have extracted the reference deployment from the ZTP GitOps plugin container as described in the "Preparing the GitOps ZTP site configuration repository" section. Extracting the reference deployment creates the out/argocd/deployment
directory referenced in the following procedure.
Prepare the ArgoCD pipeline configuration:
Create a Git repository with the directory structure similar to the example directory. For more information, see "Preparing the GitOps ZTP site configuration repository".
Configure access to the repository using the ArgoCD UI. Under Settings configure the following:
Repositories - Add the connection information. The URL must end in .git
, for example, https://repo.example.com/repo.git
and credentials.
certificates - Add the public certificate for the repository, if needed.
Modify the two ArgoCD applications, out/argocd/deployment/clusters-app.yaml
and out/argocd/deployment/policies-app.yaml
, based on your Git repository:
Update the URL to point to the Git repository. The URL ends with .git
, for example, https://repo.example.com/repo.git
.
The targetRevision
indicates which Git repository branch to monitor.
path
specifies the path to the SiteConfig
and PolicyGenTemplate
CRs, respectively.
To install the ZTP GitOps plugin you must patch the ArgoCD instance in the hub cluster by using the patch file previously extracted into the out/argocd/deployment/
directory. Run the following command:
$ oc patch argocd openshift-gitops \
-n openshift-gitops --type=merge \
--patch-file out/argocd/deployment/argocd-openshift-gitops-patch.json
Apply the pipeline configuration to your hub cluster by using the following command:
$ oc apply -k out/argocd/deployment
Before you can use the ZTP GitOps pipeline, you need to prepare the Git repository to host the site configuration data.
You have configured the hub cluster GitOps applications for generating the required installation and policy custom resources (CRs).
You have deployed the managed clusters using zero touch provisioning (ZTP).
Create a directory structure with separate paths for the SiteConfig
and PolicyGenTemplate
CRs.
Export the argocd
directory from the ztp-site-generate
container image using the following commands:
$ podman pull registry.redhat.io/openshift4/ztp-site-generate-rhel8:v4.10
$ mkdir -p ./out
$ podman run --log-driver=none --rm registry.redhat.io/openshift4/ztp-site-generate-rhel8:v{product-version} extract /home/ztp --tar | tar x -C ./out
Check that the out
directory contains the following subdirectories:
out/extra-manifest
contains the source CR files that SiteConfig
uses to generate extra manifest configMap
.
out/source-crs
contains the source CR files that PolicyGenTemplate
uses to generate the Red Hat Advanced Cluster Management (RHACM) policies.
out/argocd/deployment
contains patches and YAML files to apply on the hub cluster for use in the next step of this procedure.
out/argocd/example
contains the examples for SiteConfig
and PolicyGenTemplate
files that represent the recommended configuration.
The directory structure under out/argocd/example
serves as a reference for the structure and content of your Git repository. The example includes SiteConfig
and PolicyGenTemplate
reference CRs for single-node, three-node, and standard clusters. Remove references to cluster types that you are not using. The following example describes a set of CRs for a network of single-node clusters:
example
├── policygentemplates
│ ├── common-ranGen.yaml
│ ├── example-sno-site.yaml
│ ├── group-du-sno-ranGen.yaml
│ ├── group-du-sno-validator-ranGen.yaml
│ ├── kustomization.yaml
│ └── ns.yaml
└── siteconfig
├── example-sno.yaml
├── KlusterletAddonConfigOverride.yaml
└── kustomization.yaml
Keep SiteConfig
and PolicyGenTemplate
CRs in separate directories. Both the SiteConfig
and PolicyGenTemplate
directories must contain a kustomization.yaml
file that explicitly includes the files in that directory.
This directory structure and the kustomization.yaml
files must be committed and pushed to your Git repository. The initial push to Git should include the kustomization.yaml
files. The SiteConfig
(example-sno.yaml
) and PolicyGenTemplate
(common-ranGen.yaml
, group-du-sno*.yaml
, and example-sno-site.yaml
) files can be omitted and pushed at a later time as required when deploying a site.
The KlusterletAddonConfigOverride.yaml
file is only required if one or more SiteConfig
CRs which make reference to it are committed and pushed to Git. See example-sno.yaml
for an example of how this is used.