Dealing With Air-Gapped Environments Just Got Much Easier

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Dealing with air-gapped environments can sometimes be challenging and costly in terms of time and effort put in order to provide customers with a cloud-like user experience.

Things differentiate too much and change too often, A thing which causes some of the simple procedures provided with the documentation to become much more complicated.

As we give declarative automation all of the credit with other components, it seems very logical to have things work the same way for image mirroring as well.

In the article, I’ll explain how you can save time and ease the mirroring process for air-gapped environments using two very simple tools called oc-mirror and mirror-registry.

Let’s get started!

Prerequisites

  • A Bastion server based on a RHEL8 operating system

Preparations

Download the needed installation files to use both mirror-registry and oc-mirror tools:

$ wget https://mirror.openshift.com/pub/openshift-v4/clients/mirror-registry/latest/mirror-registry.tar.gz$ wget https://mirror.openshift.com/pub/openshift-v4/amd64/clients/ocp-dev-preview/pre-release/oc-mirror.tar.gz

Make sure to extract the needed tools so you’ll be able to use them locally on your bastion server:

$ tar xvf oc-mirror.tar.gz -C /usr/local/bin/$ chmod +x /usr/local/bin/oc-mirror
$ tar xvf mirror-registry.tar.gzimage-archive.tar
execution-environment.tar
mirror-registry

As you can see, the mirror-registry tool comes with all needed container images for running a stand-alone Quay server. When deployed, mirror-registry will load those container images locally and deploy the disconnected registry instance using those images.

Creating An Offline Registry Using mirror-registry Tool

Create a directory for saving all the config files and root directories for the installation:

$ mkdir disconnected-mirror && cd disconnected-mirror

Now, we can start up our Quay instance locally, using mirror-registry CLI:

$ ./mirror-registry install --quayHostname registry.spaz.local --initUser admin --initPassword passwordINFO[2022-03-31 18:42:38] Install has begun                            
INFO[2022-03-31 18:42:38] Found execution environment at /root/disconnected-registry/execution-environment.tar
INFO[2022-03-31 18:42:38] Loading execution environment from execution-environment.tar
INFO[2022-03-31 18:43:06] Detected an installation to localhost
INFO[2022-03-31 18:43:06] Did not find SSH key in default location. Attempting to set up SSH keys.
INFO[2022-03-31 18:43:06] Generating SSH Key
INFO[2022-03-31 18:43:06] Generated SSH Key at /root/.ssh/quay_installer
INFO[2022-03-31 18:43:06] Adding key to ~/.ssh/authorized_keys
INFO[2022-03-31 18:43:06] Successfully set up SSH keys
INFO[2022-03-31 18:43:06] Attempting to set SELinux rules on /root/.ssh/quay_installer
WARN[2022-03-31 18:43:06] Could not set SELinux rule. If your system does not have SELinux enabled, you may ignore this.
INFO[2022-03-31 18:43:06] Found image archive at /root/disconnected-registry/image-archive.tar
INFO[2022-03-31 18:43:06] Detected an installation to localhost
INFO[2022-03-31 18:43:06] Unpacking image archive from /root/disconnected-registry/image-archive.tar
INFO[2022-03-31 18:43:21] Loading pause image archive from pause.tar
INFO[2022-03-31 18:43:42] Loading redis image archive from redis.tar
INFO[2022-03-31 18:44:20] Loading postgres image archive from postgres.tar
INFO[2022-03-31 18:44:39] Loading Quay image archive from quay.tar
INFO[2022-03-31 18:45:46] Attempting to set SELinux rules on image archive
WARN[2022-03-31 18:45:46] Could not set SELinux rule. If your system does not have SELinux enabled, you may ignore this.
INFO[2022-03-31 18:45:46] Running install playbook. This may take some time. To see playbook output run the installer with -v (verbose) flag.
INFO[2022-03-31 18:45:46] Detected an installation to localhost

As you can see, mirror-registry makes sure to run all the needed validations so that our Quay instance can be successfully deployed. When the installation finishes, you should see the following message:

INFO[2022-03-31 18:57:28] Quay installed successfully, permanent data is stored in /etc/quay-install 
INFO[2022-03-31 18:57:28] Quay is available at https://registry.spaz.local:8443 with credentials (admin, password)

That means that our Quay instance is up and running! Let's make sure to validate that:

$ podman pod psPOD ID        NAME        STATUS      CREATED         INFRA ID      # OF CONTAINERS
7cd58c3158af quay-pod Running 39 seconds ago 4abd27e126dd 4

We see that we have four containers running in our podman pod, all are used for the needed Quay ecosystem.

Try to access Quay's URL to verify that the installation was successful:

In order to mirror all the needed images successfully, you’ll need to download the needed credentials from Quay, To do so navigate to Account Settings --> Docker CLI Password --> Make sure to insert your admin password --> Docker Configuration --> Download admin-auth.json :

When downloaded you should see some things similar to this JSON file:

{"auths":{"registry.spaz.local:8443":{"auth":"YWRtaW46QmFJZW04a3hMcVk0b3FkdmdLOHQ5Q3M4ejY5MUNNd2YySTRuRFRKblpGcE9MQ3pYNzYxZmhGemx2SjFOMVY1dg==","email":"spaz@redhat.com"}}}

Make sure to add this section to your global pull secret, to pull successfully from Red Hat’s registries — You can find it by visiting cloud.redhat.com --> Openshift --> Downloads --> pull-secret

Let's make sure that we can log in to our Quay instance:

$ podman login --authfile pull-secret.json registry.spaz.local:8443 -u admin -p password --tls-verify=falseLogin Succeeded!

Great! now let’s update our trusted CA sources so that oc-mirror will be able to push images successfully to the offline registry:

$ cp /etc/quay-install/quay-rootCA/rootCA.pem /etc/pki/ca-trust/source/anchors/$ sudo update-ca-trust extract

Now we have all the needed prerequisites for our offline registry, Let’s move on to the next stage and mirror all the needed images!

Mirroring Images Using oc-mirror Tool

The oc-mirror tool brings some new and useful features to the table, it's a declarative tool that can help us mirror images to an offline registry quite easily. All of oc-mirror's configuration is controlled with a single YAML file, that can mirror the Openshift installation media, operators, Helm charts, container images and even provides q very nice query tool for release channels and versions.

For those of you who are familiar with how mirroring to an offline registry was made before, this is a dramatic and a very refreshing change.

Let’s start by saving the admin-auth.json file that we've downloaded in the previous stage to the needed directory, so that oc-mirror will be able to use it:

$ mkdir ~/.docker $ cp /root/auth-admin.json ~/.docker/config.json

As we’ve said before, oc-mirror is able to query the Red Hat's catalog indexes for channel releases for specific operators, Let's try to understand how.

Let’s try to query all of the supported operators with their latest versions, coming from the Openshift 4.9 release channel:

$ oc-mirror list operators --catalog registry.redhat.io/redhat/redhat-operator-index:v4.9NAME                                  DISPLAY NAME                                             DEFAULT CHANNEL
3scale-operator Red Hat Integration - 3scale threescale-2.11
advanced-cluster-management Advanced Cluster Management for Kubernetes release-2.4
amq-broker-rhel8 Red Hat Integration - AMQ Broker for RHEL 8 (Multiarch) 7.x
amq-online Red Hat Integration - AMQ Online stable
amq-streams Red Hat Integration - AMQ Streams stable
amq7-interconnect-operator Red Hat Integration - AMQ Interconnect 1.10.x
ansible-automation-platform-operator Ansible Automation Platform stable-2.1
ansible-cloud-addons-operator Ansible Cloud Addons stable-cluster-scoped
apicast-operator Red Hat Integration - 3scale APIcast gateway threescale-2.11
aws-efs-csi-driver-operator AWS EFS CSI Driver Operator stable
businessautomation-operator Business Automation stable

You see that we get the list for those operators. Before we had oc-mirror, we had to use grpcurl in order to extract a packages.out file and query those operators by hand.

Now let’s try to do the same, but now we’ll try using a specific operator package, for example odf-operator taken from the previous stage:

$ oc-mirror list operators --catalog registry.redhat.io/redhat/redhat-operator-index:v4.9 --package=odf-operatorPACKAGE       CHANNEL     HEAD
odf-operator stable-4.9 odf-operator.v4.9.4

We see that we get the latest version for that operator package, which is 4.9.4. Let's try it with some more operators:

$ oc-mirror list operators --catalog registry.redhat.io/redhat/redhat-operator-index:v4.9 --package=mcg-operator

PACKAGE CHANNEL HEAD
mcg-operator stable-4.9 mcg-operator.v4.9.4
$ oc-mirror list operators --catalog registry.redhat.io/redhat/redhat-operator-index:v4.9 --package=ocs-operatorPACKAGE       CHANNEL     HEAD
ocs-operator eus-4.8 ocs-operator.v4.8.9
ocs-operator stable-4.8 ocs-operator.v4.8.9
ocs-operator stable-4.9 ocs-operator.v4.9.4
$ oc-mirror list operators --catalog registry.redhat.io/redhat/redhat-operator-index:v4.9 --package=metallb-operatorPACKAGE           CHANNEL  HEAD
metallb-operator 4.9 metallb-operator.4.9.0-202203120157
metallb-operator stable metallb-operator.4.9.0-202203120157

Now that we’ve understood how we can query things, Let’s create the overall YAML file that will tell oc-mirror what it should mirror:

apiVersion: mirror.openshift.io/v1alpha1
kind: ImageSetConfiguration
archiveSize: 1
mirror:
ocp:
channels:
- name: stable-4.9
versions:
- "4.9.19"
operators:
- catalog: registry.redhat.io/redhat/redhat-operator-index:v4.9
headsonly: false
packages:
- name: odf-operator
startingVersion: '4.9.4'
- name: mcg-operator
startingVersion: '4.9.4'
- name: ocs-operator
startingVersion: '4.9.4'
- name: metallb-operator
startingVersion: '4.9.0-202203120157'
- name: advanced-cluster-management
startingVersion: '2.4.2'
- name: multicluster-engine
startingVersion: '1.0.0'
storageConfig:
registry:
imageURL: registry.spaz.local:8443/metadata

We see that we have three different sections:

  • ocp stands for the Openshift installation media, I chose to mirror the 4.9.19 version
  • operators stand for the operator packages that sould be taken from a given channel release, for example all operator packages that support Openshift 4.9, with a specific version
  • StorageConfig stands for the backend registry to be used for mirroring, While /metadata is where oc-mirror will save its metadata for further mirroring upgrades. That way mirroring data a few times will copy only the differential between mirrors.

Now let’s start mirroring!

$ oc-mirror --config=mirror-config.yaml docker://registry.spaz.local:8443INFO Checking push permissions for registry.spaz.local:8443 
workspace: ./mirrortmp3916255698
INFO Creating directory: oc-mirror-workspace/src/publish
INFO Creating directory: oc-mirror-workspace/src/v2
INFO Creating directory: oc-mirror-workspace/src/charts
INFO Downloading requested release 4.9.19
info: Mirroring 141 images to file://openshift/release ...

As you can see the mirroring phase has started, and once finished you’ll have all the needed images in our offline registry:

In order to take the Quay data-dir to your actual offline location, make sure to bring the /etc/quay-install directory with you.

This directory will be used in the disconnected environment in order to feed the new mirror-registry instance with the mirrored data.

Uninstall you connected Quay instance without deleting its content:

$ ./mirror-registry uninstall   __   __
/ \ / \ ______ _ _ __ __ __
/ /\ / /\ \ / __ \ | | | | / \ \ \ / /
/ / / / \ \ | | | | | | | | / /\ \ \ /
\ \ \ \ / / | |__| | | |__| | / ____ \ | |
\ \/ \ \/ / \_ ___/ \____/ /_/ \_\ |_|
\__/ \__/ \ \__
\___\ by Red Hat
Build, Store, and Distribute your Containers

INFO[2022-04-10 17:33:08] Uninstall has begun
Are you sure want to delete quayRoot directory /etc/quay-install? [y/n] n

Make sure that our pod has evacuated successfully:

$ podman pod psPOD ID      NAME        STATUS      CREATED     INFRA ID    # OF CONTAINERS

And that we have all the data saved in our /etc/quay-install directory:

$ ll /etc/quay-install/total 0
drwxrwxr-x+ 3 root root 22 Mar 31 18:56 pg-data
drwxr-xr-x 2 root root 90 Mar 31 18:56 quay-config
drwxr-xr-x 2 root root 60 Mar 31 18:56 quay-rootCA
drwxrwxr-x+ 4 root root 35 Apr 1 06:04 quay-storage

Note! Make sure to take the disconnected-mirror directory that was created in the previous stages, as it holds all the oc-mirror metadata.

Getting This Magic Into An Air-Gapped Environment

In your offline environment, run the following command to feed mirror-registry with the mirrored data:

$ ./mirror-registry install --quayHostname registry.spaz.local --initUser admin --initPassword password --quayRoot /etc/quay-install/

In an air-gapped environment, we also need that catalogSource and imageContentSourcePolicy files so that we'll be able to use our disconnected catalog from Operator Hub and install all the operator dependency images.

The oc-mirror tool creates a workspace under the provided disconnected-mirror directory, that holds the catalogSource and imageContentSourcePolicy files under a sub-directory called results-*:

$ ll oc-mirror-workspace/results-1648812081/total 8
-rwxr-xr-x 1 root root 230 Apr 1 07:33 catalogSource-redhat-operator-index.yaml
drwxr-xr-x 2 root root 6 Apr 1 07:21 charts
-rwxr-xr-x 1 root root 1101 Apr 1 07:33 imageContentSourcePolicy.yaml

The cool thing is that oc-mirror will update those files with every change that is made during the mirroring phase, for example - adding a new operator package to the mirror and updating the catalogSource image, so as the imageContentSourcePolicy file.

An example of how the imageContenctSourcePolicy file looks like:

---
apiVersion: operator.openshift.io/v1alpha1
kind: ImageContentSourcePolicy
metadata:
labels:
operators.openshift.org/catalog: "true"
name: catalog-0
spec:
repositoryDigestMirrors:
- mirrors:
- registry.spaz.local:8443/rhel8
source: registry.redhat.io/rhel8
- mirrors:
- registry.spaz.local:8443/rhacm2
source: registry.redhat.io/rhacm2
- mirrors:
- registry.spaz.local:8443/odf4
source: registry.redhat.io/odf4
- mirrors:
- registry.spaz.local:8443/redhat
source: registry.redhat.io/redhat
- mirrors:
- registry.spaz.local:8443/multicluster-engine
source: registry.redhat.io/multicluster-engine
- mirrors:
- registry.spaz.local:8443/openshift4
source: registry.redhat.io/openshift4
- mirrors:
- registry.spaz.local:8443/rhceph
source: registry.redhat.io/rhceph
- mirrors:
- registry.spaz.local:8443/ocs4
source: registry.redhat.io/ocs4
---
apiVersion: operator.openshift.io/v1alpha1
kind: ImageContentSourcePolicy
metadata:
name: release-0
spec:
repositoryDigestMirrors:
- mirrors:
- registry.spaz.local:8443/openshift/release
source: quay.io/openshift-release-dev/ocp-release
- mirrors:
- registry.spaz.local:8443/openshift/release
source: quay.io/openshift-release-dev/ocp-v4.0-art-dev

This is exactly what we’ve mirrored in the previous stages, all the repositories needed for installing odf-operator, metallb-operator, advanced-cluster-management, etc.

Make sure to apply those files in your disconnected environment:

$ oc apply -f oc-mirror-workspace/results-1648812081/imageContentSourcePolicy.yaml $ oc-mirror-workspace/results-1648812081/catalogSource-redhat-operator-index.yaml

Now you can test the operator installation using the Openshift console, in the Operator Hub section:

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Sr. Solution Architect, Red Hat

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Shon Paz

Shon Paz

Sr. Solution Architect, Red Hat

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