Rechercher
SupportConsoleDéveloppeursCommencer un essaiContact

Ce contenu n'est pas disponible dans la langue sélectionnée.

Chapter 5. Embedding in a RHEL for Edge image for offline use

download PDF

Embedding MicroShift containers in an rpm-ostree commit means that you can run a cluster in air-gapped, disconnected, or offline environments. You can embed Red Hat build of MicroShift containers in a Red Hat Enterprise Linux for Edge (RHEL for Edge) image so that container engines do not need to pull images over a network from a container registry. Workloads can start up immediately without network connectivity.

5.1. System requirements for installing MicroShift

The following conditions must be met prior to installing MicroShift:

  • A compatible version of RHEL or RHEL for Edge.
  • AArch64 or x86_64 system architecture.
  • 2 CPU cores.
  • 2 GB RAM for MicroShift or 3 GB RAM, required by RHEL for networked-based HTTPs or FTP installations.
  • 10 GB of storage.
  • You have an active MicroShift subscription on your Red Hat account. If you do not have a subscription, contact your sales representative for more information.
  • You have a Logical Volume Manager (LVM) Volume Group (VG) with sufficient capacity for the Persistent Volumes (PVs) of your workload.

5.2. Compatibility table

Plan to pair a supported version of RHEL for Edge with the MicroShift version you are using as described in the following compatibility table:

Red Hat Device Edge release compatibility matrix

Red Hat Enterprise Linux (RHEL) and MicroShift work together as a single solution for device-edge computing. You can update each component separately, but the product versions must be compatible. For example, an update of MicroShift from 4.14 to 4.16 requires a RHEL update. Supported configurations of Red Hat Device Edge use verified releases for each together as listed in the following table:

RHEL for Edge Version(s)

MicroShift Version

MicroShift Release Status

Supported MicroShift Version→MicroShift Version Updates

9.4

4.16

Generally Available

4.16.0→4.16.z, 4.14→4.16 and 4.15→4.16

9.2, 9.3

4.15

Generally Available

4.15.0→4.15.z, 4.14→4.15 and 4.15→4.16

9.2, 9.3

4.14

Generally Available

4.14.0→4.14.z, 4.14→4.15 and 4.14→4.16

9.2

4.13

Technology Preview

None

8.7

4.12

Developer Preview

None

5.3. Embedding MicroShift containers for offline deployments

You can use Image Builder to create rpm-ostree system images with embedded MicroShift container images. To embed container images, you must add the image references to your Image Builder blueprint.

Prerequisites

  • You have root-user access to your build host.
  • Your build host meets the Image Builder system requirements.
  • You have installed and set up Image Builder and the composer-cli tool.
  • You have created a RHEL for Edge image blueprint.
  • You have installed jq.

Procedure

  1. Get the exact list of container image references used by the MicroShift version you are deploying. You can either install the microshift-release-info RPM package by following step 2 or download and unpack the RPM by following step 3.

  2. To install the microshift-release-info RPM package:

    1. Install the microshift-release-info RPM package by running the following command: 

      $ sudo dnf install -y microshift-release-info-<release_version>

      Replace <release_version> with the numerical value of the release you are deploying, using the entire version number, such as 4.16.0.

    2. List the contents of the /usr/share/microshift/release directory to verify the presence of the release information files by running the following command: 

      $ ls /usr/share/microshift/release

      Example output

      release-x86_64.json
release-aarch64.json

      If you installed the microshift-release-info RPM, you can proceed to step 4.

  3. If you did not complete step 2, download and unpack the microshift-release-info RPM without installing it:

    1. Download the RPM package by running the following command: 

      $ sudo dnf download microshift-release-info-<release_version>

      Replace <release_version> with the numerical value of the release you are deploying, using the entire version number, such as 4.16.0.

      Example rpm

      microshift-release-info-4.16.0.*.el9.noarch.rpm 1

      1
      The * represents the date and commit ID. Your output should contain both, for example -202311101230.p0.g7dc6a00.assembly.4.16.0.

    2. Unpack the RPM package without installing it by running the following command: 

      $ rpm2cpio <my_microshift_release_info> | cpio -idmv 1
./usr/share/microshift/release/release-aarch64.json
./usr/share/microshift/release/release-x86_64.json
      1
      Replace <my_microshift_release_info> with the name of the RPM package from the previous step.

  4. Define the location of your JSON file, which contains the container reference information, by running the following command: 

    $ RELEASE_FILE=</path/to/your/release-$(uname -m).json>

    Replace </path/to/your/release-$(uname -m).json> with the full path to your JSON file. Be sure to use the file needed for your architecture.

  5. Define the location of your TOML file, which contains instructions for building the image, by running the following command: 

    $ BLUEPRINT_FILE=</path/to/your/blueprint.toml>

    Replace </path/to/your/blueprint.toml> with the full path to your JSON file.

  6. Generate and then embed the container image references in your blueprint TOML file by running the following command: 

    $  jq -r '.images | .[] | ("[[containers]]\nsource = \"" + . + "\"\n")' "${RELEASE_FILE}" >> "${BLUEPRINT_FILE}"

    Example resulting <my_blueprint.toml> fragment showing container references

    [[containers]]
source = "quay.io/openshift-release-dev/ocp-v4.0-art-dev@sha256:82cfef91557f9a70cff5a90accba45841a37524e9b93f98a97b20f6b2b69e5db"

[[containers]]
source = "quay.io/openshift-release-dev/ocp-v4.0-art-dev@sha256:82cfef91557f9a70cff5a90accba45841a37524e9b93f98a97b20f6b2b69e5db"

  7. You can manually embed any container image by adding it to the Image Builder blueprint using the following example:

    Example section for manually embedding container image to Image Builder

    [[containers]]
source = "<my_image_pullspec_with_tag_or_digest>"

    Replace <my_image_pullspec_with_tag_or_digest> with the exact reference to a container image used by the MicroShift version you are deploying.

5.4. Updating osbuilder worker configuration to prepare for image building

After you have updated the blueprint, you must update the osbuilder worker configuration to prepare for building the image with embedded MicroShift containers.

Prerequisites

  • You have root-user access to your build host.
  • Your build host meets the Image Builder system requirements.
  • You have installed and set up Image Builder and the composer-cli tool.
Note

You can create an /etc/osbuild-worker/osbuild-worker.toml directory and configuration file if they do not exist.

Procedure

  1. Add a pull secret for authenticating to the registry by setting the auth_file_path in the [containers] section of the /etc/osbuild-worker/osbuild-worker.toml osbuilder worker configuration file: 

    [containers]
auth_file_path = "/etc/osbuild-worker/pull-secret.json"
  2. Restart the osbuild-worker to apply configuration changes by restarting the host. Restarting the host ensures that all osbuild-worker services currently running are restarted.

5.5. Build and use the rpm-ostree image for offline deployments

You can use Image Builder to create rpm-ostree system images with embedded MicroShift container images. To embed container images, you must add the image references to your Image Builder blueprint. You can create the commit and ISO as needed for your use case.

Add the prerequisites listed here to the ones that are included in the procedures that follow.

5.5.1. Additional prerequisites for offline deployments

  • You have created and updated a RHEL for Edge image blueprint for offline use. The following procedures use the example of a blueprint created with container images. You must use the updated blueprint you created in the "Embedding MicroShift containers for offline deployments" procedure.
  • You have updated the /etc/osbuild-worker/osbuild-worker.toml configuration file for offline use.
Important

Replace minimal-microshift.toml in the following procedures with the name of the TOML you updated for offline use, <my_blueprint_name>.

5.5.2. Adding the MicroShift service to a blueprint

Adding the MicroShift RPM package to an Image Builder blueprint enables the build of a RHEL for Edge image with MicroShift embedded.

  • Start with step 1 to create your own minimal blueprint file which results in a faster MicroShift installation.

  • Start with step 2 to use the generated blueprint for installation which includes all the RPM packages and container images. This is a longer installation process, but a faster start up because container references are accessed locally.

    Important
    • Replace <microshift_blueprint.toml> in the following procedures with the name of the TOML file you are using.
    • Replace <microshift_blueprint> in the following procedures with the name you want to use for your blueprint.

Procedure

  1. Use the following example to create your own blueprint file:

    Custom Image Builder blueprint example

    cat > <microshift_blueprint.toml> <<EOF 1
name = "<microshift_blueprint>" 2

description = ""
version = "0.0.1"
modules = []
groups = []

[[packages]]
name = "microshift"
version = "*"

[customizations.services]
enabled = ["microshift"]
EOF

    1
    <microshift_blueprint.toml> is the name of the TOML file.
    2
    <microshift_blueprint> is the name of your blueprint.
    Note

    The wildcard * in the commands uses the latest MicroShift RPMs. If you need a specific version, substitute the wildcard for the version you want. For example, insert 4.16.0 to download the MicroShift 4.16.0 RPMs.

  2. Optional. Use the blueprint installed in the /usr/share/microshift/blueprint directory that is specific to your platform architecture. See the following example snippet for an explanation of the blueprint sections:

    Generated Image Builder blueprint example snippet

    name = "microshift_blueprint"
description = "MicroShift 4.16.1 on x86_64 platform"
version = "0.0.1"
modules = []
groups = []

[[packages]] 1
name = "microshift"
version = "4.16.1"
...
...

[customizations.services] 2
enabled = ["microshift"]

[customizations.firewall]
ports = ["22:tcp", "80:tcp", "443:tcp", "5353:udp", "6443:tcp", "30000-32767:tcp", "30000-32767:udp"]
...
...

[[containers]] 3
source = "quay.io/openshift-release-dev/ocp-v4.0-art-dev@sha256:f41e79c17e8b41f1b0a5a32c3e2dd7cd15b8274554d3f1ba12b2598a347475f4"

[[containers]]
source = "quay.io/openshift-release-dev/ocp-v4.0-art-dev@sha256:dbc65f1fba7d92b36cf7514cd130fe83a9bd211005ddb23a8dc479e0eea645fd"
...
…
EOF

    1
    References for all non-optional MicroShift RPM packages using the same version compatible with the microshift-release-info RPM.
    2
    References for automatically enabling MicroShift on system startup and applying default networking settings.
    3
    References for all non-optional MicroShift container images necessary for an offline deployment.

  3. Add the blueprint to the Image Builder by running the following command: 

    $ sudo composer-cli blueprints push <microshift_blueprint.toml> 1
    1
    Replace <microshift_blueprint.toml> with the name of your TOML file.

Verification

  1. Verify the Image Builder configuration listing only MicroShift packages by running the following command: 

    $ sudo composer-cli blueprints depsolve <microshift_blueprint> | grep microshift 1
    1
    Replace <microshift_blueprint> with the name of your blueprint.

    Example output

    blueprint: microshift_blueprint v0.0.1
    microshift-greenboot-4.16.1-202305250827.p0.g4105d3b.assembly.4.16.1.el9.noarch
    microshift-networking-4.16.1-202305250827.p0.g4105d3b.assembly.4.16.1.el9.x86_64
    microshift-release-info-4.16.1-202305250827.p0.g4105d3b.assembly.4.16.1.el9.noarch
    microshift-4.16.1-202305250827.p0.g4105d3b.assembly.4.16.1.el9.x86_64
    microshift-selinux-4.16.1-202305250827.p0.g4105d3b.assembly.4.16.1.el9.noarch

  2. Optional: Verify the Image Builder configuration listing all components to be installed by running the following command: 

    $ sudo composer-cli blueprints depsolve <microshift_blueprint> 1
    1
    Replace <microshift_blueprint> with the name of your blueprint.

5.5.3. Creating the RHEL for Edge image

Use the following procedure to create the ISO. The RHEL for Edge Installer image pulls the commit from the running container and creates an installable boot ISO with a Kickstart file configured to use the embedded rpm-ostree commit.

Prerequisites

  • Your build host meets the Image Builder system requirements.
  • You have installed and set up Image Builder and the composer-cli tool.
  • You have root-user access to your build host.
  • You have installed the podman tool.

Procedure

  1. Start an ostree container image build by running the following command: 

    $ BUILDID=$(sudo composer-cli compose start-ostree --ref "rhel/9/$(uname -m)/edge" minimal-microshift edge-container | awk '{print $2}')

    This command also returns the identification (ID) of the build for monitoring.

  2. You can check the status of the build periodically by running the following command: 

    $ sudo composer-cli compose status

    Example output of a running build

    ID                                     Status     Time                      Blueprint            Version   Type               Size
cc3377ec-4643-4483-b0e7-6b0ad0ae6332   RUNNING    Wed Jun 7 12:26:23 2023   minimal-microshift   0.0.1     edge-container

    Example output of a completed build

    ID                                     Status     Time                      Blueprint            Version   Type               Size
cc3377ec-4643-4483-b0e7-6b0ad0ae6332   FINISHED   Wed Jun 7 12:32:37 2023   minimal-microshift   0.0.1     edge-container

    Note

    You can use the watch command to monitor your build if you are familiar with how to start and stop it.

  3. Download the container image using the ID and get the image ready for use by running the following command: 

    $ sudo composer-cli compose image ${BUILDID}

  4. Change the ownership of the downloaded container image to the current user by running the following command: 

    $ sudo chown $(whoami). ${BUILDID}-container.tar

  5. Add read permissions for the current user to the image by running the following command: 

    $ sudo chmod a+r ${BUILDID}-container.tar

  6. Bootstrap a server on port 8085 for the ostree container image to be consumed by the ISO build by completing the following steps:

    1. Get the IMAGEID variable result by running the following command: 

      $ IMAGEID=$(cat < "./${BUILDID}-container.tar" | sudo podman load | grep -o -P '(?<=sha256[@:])[a-z0-9]*')

    2. Use the IMAGEID variable result to execute the podman command step by running the following command: 

      $ sudo podman run -d --name=minimal-microshift-server -p 8085:8080 ${IMAGEID}

      This command also returns the ID of the container saved in the IMAGEID variable for monitoring.

  7. Generate the installer blueprint file by running the following command: 

    cat > microshift-installer.toml <<EOF
name = "microshift-installer"

description = ""
version = "0.0.0"
modules = []
groups = []
packages = []
EOF

5.6. Additional resources

Red Hat logoGithubRedditYoutubeTwitter

Apprendre

Essayez, achetez et vendez

Communautés

À propos de la documentation Red Hat

Nous aidons les utilisateurs de Red Hat à innover et à atteindre leurs objectifs grâce à nos produits et services avec un contenu auquel ils peuvent faire confiance.

Rendre l’open source plus inclusif

Red Hat s'engage à remplacer le langage problématique dans notre code, notre documentation et nos propriétés Web. Pour plus de détails, consultez leBlog Red Hat.

À propos de Red Hat

Nous proposons des solutions renforcées qui facilitent le travail des entreprises sur plusieurs plates-formes et environnements, du centre de données central à la périphérie du réseau.

© 2024 Red Hat, Inc.