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dci-openshift-agent provides Red Hat OpenShift Container Platform (OCP) in Red Hat Distributed CI service.

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DCI OpenShift Agent

dci-openshift-agent provides Red Hat OpenShift Container Platform (RHOCP) in Red Hat Distributed CI service.

There are some benefits of running the DCI OCP Agent:

  1. Automation of nightly/dev preview/candidate/ga OCP component testing
  2. CI runs on your own hardware
  3. Red Hat doesn't have access to your hardware, the agent reports metrics/logs back to distributed-ci.io
  4. The agent leverages the OpenShift IPI/UPI/AI/ACM/ZTP installers
  5. You have access to all your jobs logs and metrics through distributed-ci.io where you can also set notifications for errors/exceptions

See the installer's documentation for details about the supported/required variables for each deployment method.

Requirements

Network requirements

This is a summary taken from the upstream Network requirements guide from OpenShift:

  • Each server needs 2 NICs pre-configured. NIC1 for the private/provisioning network and NIC2 for the baremetal network. NIC interface names must be identical across all nodes
  • Each server's NIC1 (provisioning) must be configured for PXE booting in BIOS/UEFI
  • Each server must have IPMI configured and functional
  • Each server must have static IP addresses for their baremetal NICs plus a dynamic pool of 5 or more IP addresses with a short TTL (2h) for the bootstrap VM
  • Must have 2 reserved virtual IPs for API (api.<cluster>.<domain>) and wildcard ingress (*.apps.<cluster>.<domain>) and DNS setup for both. Please follow the Openshift Baremetal DNS server configuration as a reference guide
  • Optional - Include DNS entries for the hostnames for each of the servers
  • Nightly builds require that the provisionhost (SNO or IPI installs) is able to communicate directly to the controller server.

Proposed network diagram

Systems requirements

DCI OpenShift Agent needs a dedicated system to act as a controller node. It is identified as the DCI Jumpbox in this document. This system will be added to a standard OCP topology by being connected to the OCP baremetal network. The DCI OpenShift Agent will drive the RHOCP installation workflow from there.

Therefore, the simplest working setup must be composed of at least 5 systems (1 system for DCI and 4 systems to match OCP minimum requirements).

Please use the OpenShift Baremetal Deploy Guide (a.k.a. openshift-kni) as a reference for how to properly configure the OCP networks, systems and DNS.

Choose the OCP version you want to install and follow these steps to configure the networks and install RHEL 8 on the OpenShift Provisioning node.

  1. Setting up access to DCI
  2. Installation of DCI Jumpbox
  3. Installation of Provision Host

As mentioned before, the DCI Jumpbox is NOT part of the RHOCP cluster. It is only dedicated to download RHOCP artifacts from DCI public infrastructure and to schedule the RHOCP cluster deployment across all systems under test (1x OpenShift Provisioning node and several OCP nodes).

The OpenShift Provisioning node is used by the OpenShift installer to provision the OpenShift cluster nodes.

The 3 remaining systems will run the freshly installed OCP Cluster. “3” is the minimum required number of nodes to run RHOCP but it can be more if you need to.

Jumpbox requirements

The Jumpbox can be a physical server or a virtual machine. In any case, it must:

NOTES:

  • Make sure rhel-8-for-x86_64-appstream-rpms repo provides access to libvirt => 6.0.0 packages
  • The installer may require access to other endpoint (CDNs). The list above is for well know URLs that be subject to change.

Systems under test

Systems under test will be installed through DCI workflow with each job and form the new “fresh” RHOCP cluster.

All files on these systems are NOT persistent between each dci-openshift-agent job as the RHOCP cluster is reinstalled at each time. Therefore, every expected customization and tests have to be automated from the DCI Jumpbox (by using hooks) and will therefore be applied after each deployment (More info at Jumpbox Configuration).

Optional DCI Access

  • We strongly advise the partners to provide the Red Hat DCI team with access to their jumpbox. This way, Red Hat engineers can help with initial setup and troubleshooting.
  • We suggest to run the full virtualized provided example first to understand how the dci-openshift-agent works before going to production with a real lab.

Setting up access to DCI

The DCI dashboard gives you a view into what jobs you have run in your distributed agent. In order to gain access to it you have to:

  1. Go to https://www.distributed-ci.io/ and click login. You will be redirected to sso.redhat.com so you'll use your RH account credentials
  2. If you are not part of any teams you can contact an admin to get yourself added
  3. You will have to create a Remote CI for use later, go on the left navigation bar on the Remotecis option and click on "Create a new remoteci"
  4. Fill out the description and which team it belongs to then click Create
  5. You should see your newly created remoteci in the list, you can get the credentials in YAML format by click the button in the Authentication column. This should be saved under ~/.config/dci-pipeline/dci_credentials.yml.

Installation of DCI Jumpbox

Before proceeding you should have set up your networks and systems according to the baremetal-deploy doc that was referenced above.

Provision the Jumphost with RHEL8. This includes subscribing the host to RHSM and ensuring it's receiving updates.

The dci-openshift-agent is packaged and available as a RPM file. However,dci-release and epel-release along with additional support repos must be installed first:

For RHEL-8

subscription-manager repos --enable=rhel-8-for-x86_64-baseos-rpms
subscription-manager repos --enable=rhel-8-for-x86_64-appstream-rpms
subscription-manager repos --enable=ansible-2-for-rhel-8-x86_64-rpms

For CentOS Stream 8

dnf install centos-release-ansible-29.noarch

For Both

dnf -y install https://dl.fedoraproject.org/pub/epel/epel-release-latest-8.noarch.rpm
dnf -y install https://packages.distributed-ci.io/dci-release.el8.noarch.rpm
dnf config-manager --add-repo=https://releases.ansible.com/ansible-runner/ansible-runner.el8.repo
dnf -y install dci-openshift-agent

Folders and files location

Once dci-openshift-agent package is installed, the files and resources you can find in this repository will be placed in the following locations:

  • /etc/dci-openshift-agent contains these folders and files: dcirc.sh.dist file, hooks folder, settings.yml file.
  • /usr/share/dci-openshift-agent/ gathers the following folders and files: action_plugins folder, ansible.cfg file, dci-openshift-agent.yml file, group_vars folder, plays folder, test-runner script and utils folder.
  • /var/lib/dci-openshift-agent folder holds the samples folder.
  • /usr/bin folder holds scripts such as dci-openshift-agent-ctl or dci-check-change.

Note: scripts provided in this agent are deprecated. You should use dci-pipeline instead.

Also, have in mind that:

  • dci-openshift-agent user (with sudo permissions) and group are created
  • Files under systemd folder in this repo will be used to create the corresponding system service for dci-openshift-agent.

Installation of OCP Provision Host

The provision host is part of the OCP requirements, as such you should follow the guide linked before. The main things you need to know about the provision host are:

  • Provision with RHEL8
  • Subscribe to RHSM and make sure it is receiving updates
  • Install the EPEL RPM package
  • Must have 2 NICs: one for the baremetal public/routed network and another for the provisioning private network
  • Create a kni user
  • Create a ssh key for the kni user

Copying the ssh key to your provisioner

# su - dci-openshift-agent
% ssh-keygen
% ssh-copy-id kni@provisionhost

Collections

The dci-openshift-agent relies on redhatci.ocp ansible collections that provide a set of roles and plugins that bring the functionality to the agent. The ansible collections are installed as a dependency of the agent and the project is hosted in https://github.com/redhatci/ansible-collection-redhatci-ocp

Pipelines

To configure your DCI job pipelines, you need to install dci-pipeline. Instructions at dci-pipeline documentation.

Here is an example of a pipeline job definition for dci-openshift-agent:

- name: ocp-install
  stage: ocp
  ansible_playbook: /usr/share/dci-openshift-agent/dci-openshift-agent.yml
  ansible_cfg: ~/my-lab-config/pipelines/ansible.cfg
  ansible_inventory: ~/my-lab-config/inventories/inventory
  dci_credentials: ~/.config/dci-pipeline/dci_credentials.yml
  ansible_extravars:
    dci_cache_dir: ~/dci-cache-dir
    dci_config_dirs:
      - ~/my-lab-config/ocp-install
    dci_gits_to_components:
      - ~/config
    dci_local_log_dir: ~/upload-errors
    dci_tags: []
  topic: OCP-4.11
  components:
    - ocp
  outputs:
    kubeconfig: kubeconfig

Ansible variables

This is the dci-openshift-agent variables that can be set in the ansible_extravars section of your pipeline job definition:

Variable Required Type Default Description
install_type False String ipi Openshift Installer type.
dci_must_gather_images False List ["registry.redhat.io/openshift4/ose-must-gather"] List of the must-gather images to use when retrieving "logs.*".
dci_teardown_on_failure False Boolean False Whether or not execute the teardown hook on a failure.
dci_teardown_on_success False Boolean True Whether or not execute the teardown hook on success.
dci_openshift_agent_conformance False String If defined it will run that category of conformance test.
dci_ocp_channel False String fast Update channel to use in the cluster, see upgrade_eus variable for EUS channel.
dci_custom_component False Boolean False Used to enable the use of custom OCP builds.
dci_custom_component_file False String Undefined A file that contains the custom OCP information in json. See custom builds for details.
dci_disconnected False Boolean False Signals that the OCP agent will run in disconnected.
dci_force_mirroring False Boolean False Force the copy of the OCP release images to the local_registry_host.
dci_openshift_csi_test_manifest False String "" Manifest file that contains the tests for CSI validation. Please review test-parameters and csi-e2e for details about drivers capabilities.
dci_sno_sideload_kernel_uri False String Undefined URI to a kernel RPM to sideload on an SNO cluster.
dci_delete_uefi_boot_entries False Boolean False Delete non-active UEFI boot entries for all the nodes in the cluster during success of a job.
dci_do_cni_tests False Boolean False Executes the CNI tests as described in the Openshift Badges documentation.
dci_do_virt_tests False Boolean False Execute the Kubevirt Conformance tests as described in the Openshift Badges documentation. Hyperconverged operator must be installed on the cluster. For airgapped environments this is only supported on OCP 4.9 and newer versions.
dci_pre_ga_catalog False String A Pre-GA catalog image to be used for Pre-GA operators testing, e.g., quay.io/prega/prega-operator-index:v4.17.0. The operators_index variable will be ignored if this variable is set.
dci_sos_report_nodes False List Undefined A list of nodes to generate SOS report from. Uses redhatci.ocp.sos_report module.
dci_upstream_operators False Boolean False Enable building upstream operators and make them available in the cluster. Requires dci_local_registry. Currently, SR-IOV is the only upstream operator available.
force_upgrade False Boolean False Force upgrade even if no version is available. This is set to true in a nightly build.
allow_explicit_upgrade False Boolean False Allow an explicit upgrade even if it is not available. This is set to true in a nightly build and when force_upgrade is set to true.
allow_upgrade_warnings False Boolean False Allow an upgrade even if there are warnings. This is set to true in a nightly build and when force_upgrade is set to true.
upgrade_eus False Boolean False Enable the EUS upgrade. Please see the EUS upgrade section for more details.
upgrade_operators False Boolean True In upgrade mode, enable the upgrade of installed operators after the cluster upgrade.
update_catalog_channel False Boolean True When performing operators upgrade, in disconnected mode, update disconnected catalogSources for mirroring.
storage_upgrade_tester False Boolean False only for upgrade; set it to true to launch CronJobs that are testing the storage service by deploying volumes (mounting and writing) during an upgrade.
tester_storage_class False String False only for upgrade; define which storage class to use for Storage upgrade tests. If is not defined, it will use the default storage class.
dci_workarounds False List [] List of workarounds to be considered in the execution. Each element of the list must be a String with the following format: bz<id> or gh-org-repo-<id>.
openshift_secret False Dict auths: Additional auths will be combined
operators_index False String registry.redhat.io/redhat/redhat-operator-index:v<ocp_version> Catalog index that contains the bundles for the operators that will be mirrored in disconnected environments. In connected environments, if defined it will update the operators catalog index.
opm_expire False Boolean True Enable or disable expiration label in the operator-mirror catalog.
opm_expire_time False String 24h Set the time used for the expiration label in the operator-mirror catalog.
opm_mirror_list False List [] List additional operators to be mirrored in disconnected environments. The package names of operators deployed using dci_operators must be included in this list.
dci_catalog_source_name False String mirrored-redhat-operators The name to use for the catalog source in disconnected environments.
dci_operators False List [] List of additional operators or custom operators deployments. Please see the Customizing the Operators installation section for more details.
apply_sriov_upgrade_settings False Boolean True Whether to apply SR-IOV recommended settings before operator upgrade.
enable_cnv False Boolean False Configures the CNV and the HCO operator.
dci_cnv_test False Boolean False Test the deploy of a VM using CNV and HCO operator.
cnv_api_version False String v1beta1 API version to use when deploying HCO operator: hco.kubevirt.io/cnv_api_version
enable_logs_stack False Boolean False Configures the OCP cluster logging subsystem using the Loki and ClusterLogging Operators. Please see the Logging Stack settings section for more details.
enable_sriov False Boolean False Configures the SRIOV Operator.
enable_acm False Boolean False Configures the ACM Operator. It converts the cluster into an ACM Hub.
enable_nfd False Boolean False Configures the NFD Operator.
enable_mlb False Boolean False Configures MetalLB operator.
enable_nmstate False Boolean False Configures the k8s NMstate operator and creates initial instance.
enable_odf False Boolean False Configures the ODF Operator and its dependencies(ocs, lso, mcg, odf-csi-addons). Staring OCP 4.10, ODF replaces OCS. See: [Openshift Data Foundation](https://access.redhat.com/documentation/. Creates a storage cluster using Red Hat OpenShift Data Foundation operators.
enable_nro False Boolean False Configures NUMA Resources Operator CRDs (NUMA-Aware). GA from 4.12.24, it is Technology preview before.
nro_topo_img_tag False String Tag of the NUMA Topology scheduler image, by default it matches the OCP release name, but non-GA releases will require this variable to specify a tag from a previous OCP release.
enable_nfs_storage False Boolean False Enable an NFS as external storage provisioner. Values for nfs_server and nfs_path are required if for this. See nfs_external_storage for details.
nfs_server False String NFS server's FQDN or IP Address. eg. my-nfs.mylab.local
nfs_path False String NFS export path. e.g. /exports/nfs-provisioner
performance_definition False String Path of a Performance Profile YAML to apply after the OCP install.
tuned_definition False String Path of Tuned YAML to apply after the application of the Performance Profile.
cnf_test_suites False List List of CNF Tests to perform: ['sctp','ptp','performance','sriov','dpdk'].
operator_skip_upgrade False List [] List of operators to skip during the upgrade.
custom_catalogs False List [] List of custom catalogs to install alongside default catalog sources.
operator_catalog_dir False String "" Absolute path to a directory that contains archive files created using the oc mirror plugin. See Mirroring from directory section for more information.
operator_catalog_dir_name False String catalog-from-file Name for the operator's catalog created using the images from operator_catalog_dir path.
operator_catalog_registry_path False String prega Path/Org in the local registry where the images will be mirrored into when loading operators from an oc_mirror archive.
install_all_from_catalog False String '' Name of a catalog from which all its operators need to be installed.
install_all_from_catalog_source False String openshift-marketplace Namespace where the catalog defined in install_all_from_catalog was created.
dci_erase_bootloader_on_disk False Boolean False Boolean to define if node disks should be deleted before powering off during the pre-run
dci_encrypt_etcd False Boolean False Boolean to perform etcd data encryption. OCP versions earlier than 4.12 use the aescbc encryption type, OCP 4.13 and later uses aesgcm.
increase_unavailable_workers False Boolean True Boolean to define if the default maxUnavailable setting of the MCP worker should be increased from 1 to 2 (Only applied with 4 or more worker nodes are available.
dci_console_pass False String Password for the core user. This is supported in IPI installer and requires customize_extramanifests_path defined.

NOTE: There are certain particularities about versioning that you can read more in depth in the versioning document

Inventory

The Ansible inventory file specified in the pipeline job definition includes the configuration for the dci-openshift-agent job and the inventory for the masters, workers (if any) and the provisioner.

Example:

[all:vars]
# The NIC used for provisioning network on all nodes
prov_nic=eno1
# The NIC used for baremetal network on all nodes
pub_nic=eno2
# Base domain
domain=example.com
# Name of the cluster
cluster=dciokd
# Disable the provisioning within the cluster (after installation)
#dci_disable_provisioning=false
# The directory used to store the cluster configuration files (install-config.yaml, pull-secret.txt, metal3-config.yaml)
dir="{{ ansible_user_dir }}/clusterconfigs"
# Virtual IP for the cluster ingress
dnsvip=1.2.3.4
# Override which NIC masters use for the private/provisioning network
#masters_prov_nic=eno1
# Disable TLS verification of BMC certificates
#disable_bmc_certificate_verification=true
# Enable some light caching on the provision host
#cache_enabled=false

# Activate disconnected mode in DCI OCP agent, requires you to set the next variables as well
#dci_disconnected=true
# Must be reachable from the cluster
#webserver_url="http://<jumpbox IP/DNS>:8080"
# Path of the file with the pull secret and registry auths in json format.
#pullsecret_file=/path/to/clusterX-pull-secret.txt
# Content of the pull secret as downloaded from from https://cloud.redhat.com/openshift/install/metal/user-provisioned
# *only* used when running a deployment without DCI.
#pullsecret='content-in-json-format'
# Path on the jumpbox
#disconnected_registry_auths_file=/path/to/auths.json
# Path on the jumpbox
#disconnected_registry_mirrors_file=/path/to/trust-bundle.yml
# Path on the jumpbox, must have enough space to hold your qcow images
# Please set setype to container_file_t if you create this folder manually
# sudo /usr/bin/chcon -t container_file_t /path/to/qcow/cache
#provision_cache_store="/path/to/qcow/cache"
# Registry host that will mirror all container images
#local_registry_host=local-registry
# Registry port
#local_registry_port=4443
# Registry namespace. In disconnected environments, the default value is set by the mirror-ocp-role
#local_repo=ocp4/openshift4
# NFS external storage variables
#enable_nfs_storage: false
#nfs_server=""
#nfs_path=""

# Master nodes
[masters]
master-0 name=master-0 ipmi_user=ADMIN ipmi_password=ADMIN ipmi_address=ipmi-master-0.dciokd.example.com provision_mac=aa:bb:cc:dd:ee:ff
master-1 name=master-1 ipmi_user=ADMIN ipmi_password=ADMIN ipmi_address=ipmi-master-1.dciokd.example.com provision_mac=aa:bb:cc:dd:ee:ff
master-2 name=master-2 ipmi_user=ADMIN ipmi_password=ADMIN ipmi_address=ipmi-master-2.dciokd.example.com provision_mac=aa:bb:cc:dd:ee:ff

[masters:vars]
role=master
hardware_profile=default
# If needed, you can set node labels too
#labels='{"node-role.kubernetes.io.foo":"", "node-role.kubernetes.io.bar":""}' # example

# Worker nodes
[workers]
worker-0 name=worker-0 ipmi_user=ADMIN ipmi_password=ADMIN ipmi_address=ipmi-worker-0.dciokd.example.com provision_mac=aa:bb:cc:dd:ee:ff

[workers:vars]
role=worker
hardware_profile=default
# If needed, you can set node labels too
#labels='{"node-role.kubernetes.io.foo":"", "node-role.kubernetes.io.bar":""}' # example

# Provision Host
[provisioner]
provisionhost ansible_user=kni prov_nic=eno1 pub_nic=ens3 ansible_ssh_common_args="-o StrictHostKeyChecking=no -o UserKnownHostsFile=/dev/null"

NOTE: If the jumpbox server is in a different network than the baremetal network, then include extcirdnet=<baremetal-network/mask> in the all:vars section of the inventory

NOTE: If you choose to create the provision_cache_store folder manually, make sure to set the container_file_t setype for it. This will help ensure a smooth installation of OCP nightly builds.

# sudo /usr/bin/chcon -t container_file_t /path/to/qcow/cache
# ls -lZd /path/to/qcow/cache
drwxr-xr-x. 19 dci dci system_u:object_r:container_file_t:s0 4096 may 02 18:28 /path/to/qcow/cache

Disconnected mode in DCI OCP agent

When using the agent in a disconnected environment, special variables should be used. See the disconnected doc for more details.

Pull secrets

Pull secrets are credentials used against container registries that require authentication.

DCI provide pull secrets used to deploy OCP on every job.

  • cloud.openshift.com - Insights monitoring
  • quay.io - Openshift releases
  • registry.ci.openshift.org - Nightly builds
  • registry.connect.redhat.com - Red Hat images
  • registry.redhat.io - Red Hat images

These pull secrets are used by default, but the agent allows using other pull secrets if needed through some variables.

  • openshift_secret: String with secrets that are appended to the job's provided pull secrets. Used to include additional credentials. This is an agent variable.
  • disconnected_registry_auths_file: A file with a string that contains the auths for private registries.
  • pullsecret_file: File with secrets in JSON format that will be used along with the ones provided by DCI job and the openshift_secret.

The content all these variables is merged by DCI, those secrets are combined in a single podman authentication file used to interact with the required registries during the mirroring, image inspections, pruning tasks performed byt the DCI Openshift agent.

Important:

  • Secrets are processed in the following order: Job secrets --> openshift_secret --> disconnected_auths --> pull_secret_file
  • If a registry entry exists in multiple sources, the last one processed takes priority
  • It is recommended that the additional secrets are set in the form of registryA/ to use an specific auth entry against a registry as recommended in the podman documentation

Disconnected environment

Another related variable is disconnected_registry_auths_files used in IPI or SNO installs.

This is an inventory variable used in disconnected environments. The content of this file is appended to the list of DCI provided pull secrets. This file is used for two main purposes.

  • To allow the cluster to communicate to a local registry
  • To use to mirror images to the local registry

Storing secrets

You can store secrets in an encrypted manner in your pipelines and YAML inventories by using dci-vault to generate your encrypted secrets. Details in the python-dciclient documentation.

Deploying operators

The Agent manages the mirroring and deployment of most of the day-2 operators. For others, it can configure them by setting up the corresponding operands.

The workflow for the deployment is:

  • Operator mirroring for disconnected environments

  • Operator installation

  • Operator configuration

Operators mirroring for disconnected environments

The opm_mirror_list variable, controls the operators that are mirrored when dci_disconnected is true. The Agent takes care of mirroring the required operator's images and creates a pruned catalog source for the OCP cluster. Some examples are below:

  • Explicit definition (This is recommended)

Example 1:

Definition of three operators. Two operators specify the channels, while the last compliance-operator includes all the channels.

opm_mirror_list:
  file-integrity-operator:
    channel: stable
  cluster-logging:
    channel: stable-5.8
  compliance-operator:

Example 2:

Same three operators, this time all the channels are included.

opm_mirror_list:
  file-integrity-operator:
  cluster-logging:
  compliance-operator:
  • Implicit definition, always includes all the channels (Prefer to use Example 2 above)

Example 3:

A pruned catalog with all operator's channels.

opm_mirror_list:
  - compliance-operator
  - file-integrity-operator
  - cluster-logging

NOTE: By default the catalog source name that can be used to create operator subscription is named mirrored-redhat-operators, can be changed with dci_catalog_source_name.

NOTE: Some operators may have other operators dependencies, for such cases the dependencies must be added to the list.

Operators installation

Operator subscriptions and installation monitoring are controlled by the dci_operators variable, which allows basic or custom installations. An example of how to define the dci_operators variable is shown below.

dci_operators:
  - name: compliance-operator
    catalog_source: mirrored-redhat-operators
    namespace: openshift-compliance
  - name: cluster-logging
    catalog_source: mirrored-redhat-operators
    namespace: openshift-logging
  - name: local-storage-operator
    catalog_source: mirrored-redhat-operators
    namespace: openshift-local-storage
    channel: stable
    starting_csv: 4.14.0-202307190803
    operator_group_name: local-storage
    skippable: true
    operator_group_spec:
      targetNamespaces:
        - openshift-local-storage
  - name: ocs-operator
    catalog_source: mirrored-redhat-operators
    namespace: openshift-storage
    operator_group_spec:
      targetNamespaces:
        - openshift-storage
    ns_labels:
      openshift.io/cluster-monitoring: "true"

Important: For a successful operator installation, ensure that the settings defined in dci_operators align with the packages available in the specified catalog_source. The following examples highlight potential misconfigurations that can cause the operator installation to fail:

  • Selecting an installation channel that is unavailable.
  • Configuring an operator group with settings not supported by the operator.
  • Specifying a starting CSV that is not available in the selected channel.

Operator configuration

For some operators, the agent support the operand creation by setting to true specific flags. See enable_<operator> variables above. Also, the operator configuration can be executed as part of a run during the /hooks/install.yml phase.

Install all operators from a catalog

All the operators available in a catalog can be installed on the cluster by setting install_all_from_catalog. This is mainly to test if the operators are deployable by OLM. There is no additional testing, or configuration executed after a running CSV is detected.

The catalog source namespace defaults to openshift-marketplace but that can be set using the install_all_from_catalog_source variable in case the catalog was created on a different namespace.

install_all_from_catalog: <my-ocp-catalog>
install_all_from_catalog_source: <my-ocp-catalog-namespace>

Additional Catalogs

Additional catalogs can be configured for the cluster to provide another source to install operators. Set the custom_catalogs variable with the references to the catalog images. For example:

custom_catalogs:
  - quay.io/telcoci/sriov-operator-catalog:latest
  - quay.io/telcoci/simple-demo-operator:v0.0.3
  - quay.io/telcoci/nfv-example-cnf-catalog:v0.2.9
  - icr.io/cpopen/ibm-operator-catalog:latest

All the images available in the defined catalogs will be mirrored when dci_disconnected is true and a local_image_registry is defined.

Please see the settings table for the variables names to control the Operators deployment.

Mirroring from directory

In fully disconnected environments, mirroring can be performed by loading operators previously stored in a local file. The oc mirror plugin, allows the creation of catalogs that can be stored on a USB stick that will be used later to load operators on a local image registry.

The dci-openshift-agent can consume files generated by the oc mirror plugin. The agent uploads these files to the local registry, creates the catalog source, and applies the corresponding ImageContentSourcePolicies (ICSPs). The catalog source is then used to deploy the operators enabled for testing.

The operator_catalog_dir variable should be set to a valid directory that contains one or multiple archive files generated using the oc mirror plugin. In the provided example, operator_catalog_dir: /data/ is used as the path to the archive tar files.

Subscriptions for the mirrored operators can be defined using the dci_operators variable as explained above.

Minio deployment

Some workloads like Migration Toolkit for Containers or Loki may require an object Object Storage provider. For such cases, a Minio instance can be deployed on the OCP cluster by setting true to the enable_minio flag.

In the DCI Openshift Agent integration, an initial bucket named loki is deployed and is used for the logging if no information about an external Object provider are provided.

The following variables allow customizing the Minio deployment. Please see the minio_setup role for additional details.

Variable Default Required Description
minio_claim_size 10Gi No Requested storage for Minio
minio_storage_class undefined Yes A storage Class with Support for RWX volumes
minio_namespace minio No Deployment Namespace
minio_access_key_id minioadmin No Minio's Initial Username
minio_access_key_secret minioadmin No Minio's Initial Password
monio_bucket_name minio No Initial Bucket name

The workloads that require Object Storage, can use the http://minio-service.minio:9000 endpoint and the default credentials set in the minio_setup role to start shipping data to Minio.

Logging stack

The enable_logs_stack variable allows configuring OCP to send log files and metrics produced by the infrastructure and workloads to a logging stack. This stack is integrated by the ClusterLogging, Loki and an Object storage system.

The following variables allow customizing the logs stack deployment. Please see the ocp_logging role for additional details.

Variable Required Type Default Description
logs_access_key_id False String undefined Key ID for the Object storage system.
logs_access_key_secret False String undefined Key Secret for the Object Storage system.
logs_bucket False String undefined Object Storage bucket name.
logs_endpoint False String undefined Object Storage endpoint.
logs_region False String undefined Object Storage region.
logs_loki_size False String undefined Loki Deployment Size. See Sizing for more details.
logs_storage_class False String undefined Cluster Storage class for Loki components.
logs_event_router_image False String registry.redhat.io/openshift-logging/eventrouter-rhel8:v5.2.1-1 Event Router image.
logs_settings False String "" An optional yaml file with the variables listed above. The variables defined there take precedence over the ones defined at role level

Enabling the openshift cluster-logging components requires high amounts of storage available for data persistency, please take this in consideration during the sizing of the Object Storage provider.

Network Observability stack

The enable_netobserv variable allows configuring the Network Observability operator to collect information about OCP network flows and traffic. This stack is integrated by the Network Observability Operator, Loki, an Object storage system and the Flow Collector.

The following variables allow customizing the Network Observability stack deployment. Please see the ocp_netobserv role for additional details.

Variable Default Required Description
setup_netobserv_stackaction 'install' No Role's default action
setup_netobserv_stacksampling 50 No Data sampling
setup_netobserv_stackagent_privileged true No Privileged mode allows collecting data from SRIOV functions
setup_netobserv_stackagent_memory 50Mi No Memory assigned to the agent
setup_netobserv_stackagent_cpu 100m No CPU assigned to the agent
setup_netobserv_stackagent_limits_memory 800Mi No Memory limit for the agent
setup_netobserv_stackprocessor_memory 100Mi No Memory assigned to the processor
setup_netobserv_stackprocessor_cpu 100m No CPU assigned to the processor
setup_netobserv_stackprocessor_limits_memory 800Mi No CPU limit for the processor
setup_netobserv_stackconsole_avg_utilization 50 No Average utilization for the console
setup_netobserv_stackconsole_max_replicas 3 No Console replicas
setup_netobserv_stackloki_tls_insecure_skip_verify true No Skip TLS verification
setup_netobserv_stackaccess_key_id minioadmin No Access Key ID for the object storage backend
setup_netobserv_stackaccess_key_secret minioadmin No Secret Key for the object storage backend
setup_netobserv_stackbucket network No Bucket for the Network Observability
setup_netobserv_stackendpoint http://minio-service.minio:9000 No Object Storage Endpoint. It must exist and be reachable
setup_netobserv_stackregion us-east-1 No Object Storage region
setup_netobserv_stackloki_size 1x.extra-small No Loki Stack size. See: Sizing for details
setup_netobserv_stackstorage_class managed-nfs-storage No Storage class for the Loki Stack

The configuration setting can be passed using the dci_netobserv_conf_file containing the variables listed above.

Enabling the Openshift Network observability Operator requires high amounts of storage available for data persistency, please take this in consideration during the sizing of the Object Storage provider. By default, the stack is configured to use the internal Minio deployment as backend.

Interacting with your RHOCP Cluster

After you run a DCI job you will be able to interact with the RHOCP cluster using the OC client, the API, or the GUI.

  1. Using the OC client

    export KUBECONFIG=/home/<user>/<clusterconfigs-path>/kubeconfig
    oc get nodes

    A copy of the generated kubeconfig file will be attached to the job files section in DCI.

  2. Using the GUI/API

    Obtain the credentials generated during the installation from /home/<user>/<clusterconfigs-path>/ocp_creds.txt in the jumphost.

    Get the the URL of the cluster GUI:

    $ oc whoami --show-console
    https://console-openshift-console.apps.<cluster>.<domain>

NOTE: The dci-openshift-agent is part of a Continuous integration tool aimed to perform OCP deployments, should not be considered for production workloads. Use the above connection methods if some troubleshooting is required.

Non-GA versions of API

Some of the APIs used by the dci-openshift-agent are still in the beta or alpha version. See the following table for details regarding its status.

API Why it is used
hco.kubevirt.io/v1beta1 As of Jan 2023, v1beta1 is the latest version for HyperConverged Cluster Operator.
kubevirt.io/v1alpha3 We only keep v1alpha3 for VirtualMachine on OCP-4.7 (k8s 1.20) because v1 does not exist yet for this version. For OCP versions >= 4.8, we use v1.
metal3.io/v1alpha1 As of Jan 2023, v1alpha1 is the latest version for the Provisioning API.
operators.coreos.com/v1alpha1 As of Jan 2023, v1alpha1 is the latest version for OperatorHub APIs such as CatalogSource, Subscription, CSV, and InstallPlan.
extensions.hive.openshift.io/v1beta1 As of Jan 2023, AgentClusterInstall API uses v1beta1 as the latest version.
agent-install.openshift.io/v1beta1 As of Jan 2023, both InfraEnv and AgentServiceConfig API use v1beta1 as the latest version.

Job outputs

A DCI job produces a set of relevant configuration files, logs, reports, and test results that are collected during the last execution stages. The following table depicts the most relevant.

File Section Description
install-config-yaml.txt Files Configuration file used for the cluster deployment
all-nodes.yaml Files The output oc get get nodes -o yaml command
*.log Files Log files generated during the job execution and stored in the dci_log directory
*.trace Files Tracing files generated during the job execution and stored in the dci_log directory
<cluster-name>-<master|worker>-console.log Files Console log from the specific master or worker node
<journal>-<master|worker>.log Files A dump of the node systemd logs for the cluster nodes
clusternetwork.yaml Files File describing the network configuration of the cluster
clusteroperator.txt Files Report of the status of the cluster operators
dci-openshift-agent-<timestamp> Files dci-openshift-agent tests report as JUnit format
clusterversion.txt Files Report of the OCP version applied to the cluster
events.txt Files Output of the oc get events -A command
kubeadmin-password Files Password assigned to the kubeadmin user
kubeconfig Files Kubeconfig file to interact with the deployed OCP cluster
nodes.txt Files Output of the oc get nodes command
pods.txt Files Output of the oc get pods -A command
must_gather.tar.gz Files Cluster state information. Useful for support cases or troubleshooting with O Must Gather tool
ocp_creds.txt Files A set of admin and non-admin credentials attached to an httpasswd identity provider
openshift_install.log Files Openshift installation log file
version.txt Files Report of the OCP client and server version using during the deployment
diff-jobs.txt Files A report that compares the current and previous job's components of the same type
*.junit Tests Processed JUnit files generated by the Job or partner tests
machine-configs.txt Tests Debugging information regarding the machine configs status
image-sources.yaml Files ImageDigestMirrorSetis or ImageContentSourcePolicies applied to the cluster
openshift_install_state.json Files The installation state of the cluster, contains paramaters used, progress, etc.
operators.json Files A JSON file with details about the operators installed in the cluster
worker-kernel-params.json Files A JSON file with details about the kernel argsuments used by the workers

You may find extra files for the case of Assisted jobs:

File Section Description
agent-config.yaml Files agent-config file from the Assisted deployment
install-config.yaml Files install-config file from the Assisted deployment
<pod_name>_ai_pod.log Files Log files from pods (assisted-db, assisted-installer, cluster-bootstrap and service) deployed during Assisted bootstrap stage
<service_name>.log Files Log files from services (bootkube and release-image) running during Assisted bootstrap stage
log-bundle-<date> Files If present, it represents the output of openshift-install gather bootstrap command

Troubleshooting common issues

Troubleshooting basic configuration

Review the following checklist to make sure you've got all the basic pieces in place:

  • Is the DCI repo configured?
  • Is the dci-openshift-agent package the latest version?
  • Does my credentials file contain my remote CI credentials as per the distributed-ci.io dashboard?
  • Does my inventory reflect my cluster's expected configuration? Check the following variables:
    • cluster
    • domain
    • prov_nic
    • pub_nic
    • IPMI configuration for all nodes in OCP cluster: ipmi_user, ipmi_password, ipmi_address
    • MAC addresses for all nodes in OCP cluster
  • Does my pipeline file reflect the right topic/component for my needs?
  • Is my dci-openshift-agent SSH key transferred to the provision host? e.g. can I SSH without a password from Jumpbox -> provisioner?

Troubleshooting network connectivity

First, take another look at the network requirements section and make sure your setup looks similar to the proposed basic diagram. Your particular lab may differ in how things are laid out, but the basic points to look for are:

  • Your provisioning network should be treated as an exclusive "out of band" network only intended to PXE boot the initial cluster OS
  • Your baremetal network should be capable of routing to:
    • Your jumpbox
    • Your cluster nodes' BMCs (e.g. your management network)
  • You should have outbound internet access from your Jumpbox (and OCP cluster unless in disconnected mode)
  • Your baremetal network should be DHCP enabled and have addresses for all of your cluster nodes plus the bootstrap VM (usually not an issue but make sure there are enough IP addresses to lease)
  • Your Jumpbox, provisioner, and cluster nodes all should be able to resolve your API and your wildcard DNS entries e.g. api.<cluster>.<domain> and *.apps.<cluster>.<domain>
  • The provision host should have 2 bridges setup: one for the provisioning network and another for the baremetal network, are both setup? Are the functional?

Here are a few things you can check to make sure the above assertions are true:

  • Can I query the power status of the cluster nodes from the provisioner and control-plane nodes via e.g. ipmitool?
  • Can I curl one of the mirror.openshift.com resources from the provisioner and cluster nodes?
  • Is the lab's DNS resolvable from all places via e.g. dig api.<cluster>.<domain> and dig foo.apps.<cluster>.<domain>?

Troubleshooting OCP bootstrapping

You can monitor the bootstrap/install process by logging into the provision host and tailing the file ~/clusterconfigs/.openshift_install.log.

If you're having issues once the agent gets to the point where baremetal-install is called, you can check a few things:

  • Check the ~/clusterconfigs/install-config.yaml.bkup file in your provision host (this is a copy of the install manifest fed to baremetal-install) and make sure the manifest looks correct
  • Is the bootstrap VM coming up? e.g. sudo virsh list --all should list a VM named *-bootstrap about 5-10 minutes after you started the run
  • Is the bootstrap VM getting IP address from the baremetal network? Run virsh console <bootstrap VM> and a linux login prompt should be visible, hit <Enter> and it should show 2 IP addresses: a DHCP one as per your configuration, and a static 172.22.0.22 on the provisioning network
  • Is your bootstrap VM up coming up correctly? You can ssh [email protected] and check the status of the pods running on the system by sudo podman ps. You should see (after a few minutes) some pods named ironic-{api,conductor,inspector}
  • Check the logs of the ironic-* pods with sudo podman logs <pod> and look for errors/exceptions
  • Is your ironic-conductor able to interact with the BMCs? Try logging yourself to the pod (sudo podman exec -it ironic-conductor /bin/sh) and make sure there is connectivity to the BMC e.g. ipmi -I lanplus -H <BMC host> -U <BMC user> -P <BMC password> power status

Troubleshooting OCP install

During the deployment, ironic services are started temporally in the bootstrap VM, to help bootstrapping the master nodes. Then after the master nodes are ready to take the role, bootstrap VM is deleted and ironic services are started in the cluster. At both stages you can interact with ironic to see details of the nodes

If you want to interact with ironic services during the bootstrap, get the baremetal network IP of ironic service from the bootstrap VM

[core@localhost ~]$ sudo ss -ntpl | grep 6385
[core@localhost ~]$ ip a s ens3

Get the bootstrap VM ironic credentials from the terraform variables back in the provision host

[dci@provisionhost ~]$ grep ironic_ clusterconfigs/terraform.baremetal.auto.tfvars.json
  "ironic_username": "bootstrap-user",
  "ironic_password": "foo",

If you want to interact with ironic services in the cluster, get the IP of ironic service from the metal3 resources

[dci@provisionhost ~]$ export KUBECONFIG=/home/dci/clusterconfigs/auth/kubeconfig
[dci@provisionhost ~]$ oc -n openshift-machine-api get pods # find the metal3 pod
[dci@provisionhost ~]$ oc -n openshift-machine-api describe pod <pod> | egrep ^IP:
IP:                   192.168.123.148
[dci@provisionhost ~]$ oc -n openshift-machine-api get secrets metal3-ironic-password \
  -o jsonpath='{.data.username}' | base64 -d
ironic-user
[dci@provisionhost ~]$ oc -n openshift-machine-api get secrets metal3-ironic-password \
  -o jsonpath='{.data.password}' | base64 -d
bar

Then prepare a clouds.yaml with the following information, and replace the IP addresses and password accordingly

NOTE: Starting with OCP 4.7 metal3-boostrap service uses auth_type: http_basic, but in in older versions it uses auth_type: none so there's no need to set auth section with the credentials

clouds:
  metal3-bootstrap:
    auth_type: http_basic
    auth:
      username: bootstrap-user
      password: $BOOTSTRAP_PASSWORD
    baremetal_endpoint_override: http://IP-Provisioining-bootstrapVM-IP:6385
    baremetal_introspection_endpoint_override: http://IP-Provisioining-bootstrapVM-IP:5050
  metal3:
    auth_type: http_basic
    auth:
      username: ironic-user
      password: $IRONIC_PASSWORD
    baremetal_endpoint_override: http://IP-Provisioining-Master-IP:6385
    baremetal_introspection_endpoint_override: http://IP-Provisioining-Master-IP:5050

Back in the provisioning host, install podman and start a container, set OS_CLOUD with metal3 if you want to use the ironic services on the cluster, or metal3-bootstrap if you want to use the services on the bootstrap VM (if still running)

[dci@provisionhost ~]$ sudo dnf install -y podman
[dci@provisionhost ~]$ podman run -ti --rm \
  --entrypoint /bin/bash \
  -v /home/dci/clouds.yaml:/clouds.yaml:z \
  -e OS_CLOUD=metal3
  quay.io/metal3-io/ironic-client

Finally from the pod you started, you can run ironic baremetal commands

[root@8ce291ff4f4a /]# baremetal node list
+--------------------------------------+----------+--------------------------------------+-------------+--------------------+-------------+
| UUID                                 | Name     | Instance UUID                        | Power State | Provisioning State | Maintenance |
+--------------------------------------+----------+--------------------------------------+-------------+--------------------+-------------+
| ba3d1990-e860-4685-9929-3c3356e6e29e | master-1 | 7a116082-1b8a-4f65-9991-242dd56ed44b | power on    | active             | False       |
| 3ab260c7-9a1e-48bf-841a-473a3cec2cbd | master-2 | a9658128-570c-45ad-9ef6-d4721aeaeb81 | power on    | active             | False       |
| d67ade66-d9e1-4825-b53e-381870ff5c81 | master-0 | 728106a3-1994-4e86-9a8c-838becf22aa5 | power on    | active             | False       |
+--------------------------------------+----------+--------------------------------------+-------------+--------------------+-------------+

dci-openshift-agent workflow

  1. "New DCI job"

    • Create a DCI job
    • tags: job
    • runs on: localhost
  2. "Pre-run"

    • Prepare the Jumpbox: /plays/pre-run.yml
    • Trigger partner Jumpbox preparation if needed: /hooks/pre-run.yml
    • tags: pre-run, hook-pre-run
    • runs on: localhost
  3. "Configure"

    • Prepare provisioner: /plays/configure-provisioner.yml
    • Trigger partner Provisioner preparation if needed: /hooks/configure.yml
    • tags: running, configure
    • runs on: provisioner
  4. "DCI Main"

    1. "Install" (dci_main is "install" or undefined)

      • Start OpenShift install: /plays/install.yml
      • Trigger partner install hook if needed: /hooks/install.yml.
      • tags: running, installing, hook-installing, post-installing
      • Runs the post installation: /plays/post-install.yml
      • runs on: provisioner
    2. "Upgrading" (dci_main is "upgrade")

      • Start OpenShift upgrade: /plays/upgrade.yml
      • Trigger partner upgrade hook if needed /hooks/upgrade.yml
      • tags: running, upgrading, hook-upgrading
      • runs on: provisioner
    3. "Deploy operators"

      • start operator deployment: /plays/deploy-operators.yml
      • tags: running, operator-deployment
      • runs on: provisioner
  5. "Red Hat tests"

    • start Red Hat tests: /plays/tests.yml
    • tags: running, testing, redhat-testing
    • runs on: localhost
  6. "Partner tests"

    • start partner tests: /hooks/tests.yml
    • tags: running, testing, partner-testing
    • runs on: localhost
  7. "Post-run"

    • Start post-run to collect results: /plays/post-run.yml and /hooks/post-run.yml
    • tags: post-run
    • runs on: localhost

    NOTE: All results files (logs, tests, ...) must be stored within the {{ dci_cluster_configs_dir }}/ directory in order to be properly uploaded to the DCI server. Test result files must follow the Junit format, must be stored within the {{ job_logs.path }} directory and the file name must follow the pattern *.xml.

  8. "Success"

    • Launch additional tasks when the job is successful: /hooks/success.yml
    • tags: success
    • runs on: localhost

Exit playbooks: The following playbooks are executed sequentially at any step that fail:

  • Teardown: /hooks/teardown.yml which is executed only when the boolean dci_teardown_on_success is set to true ( set to true by default)
  • Failure: /plays/failure.yml and /hooks/failure.yml during the running steps and /plays/error.yml during the other steps. /hooks/failure.yml was added to allow custom debug command to gather more meaningful logs.

NOTE: All the task files located in directory /etc/dci-openshift-agent/hooks/ are empty by default and should be customized by the user.

All the tasks prefixed with test_ will get exported in Junit using the Ansible Junit callback and submitted automatically to the DCI control server.

OCP upgrades using dci-openshift-agent

Test OCP upgrades using the dci-openshift agent

The dci-openshift-agent supports testing cluster upgrades by executing an upgrade pipeline.

See below and an example of a pipeline job definition:

- name: openshift-vanilla-upgrade-4.10
  stage: ocp-upgrade
  prev_stages: [ocp-upgrade, ocp]
  ansible_playbook: /usr/share/dci-openshift-agent/dci-openshift-agent.yml
  ansible_cfg: /var/lib/dci/pipelines/ansible.cfg
  ansible_inventory: /var/lib/dci/inventories/inventory
  dci_credentials: /etc/dci-openshift-agent/dci_credentials.yml
  configuration: "@QUEUE"
  ansible_extravars:
    dci_config_dirs: [/var/lib/dci/dallas-config/dci-openshift-agent]
    dci_local_log_dir: /var/lib/dci-pipeline/upload-errors
    dci_tags: []
    dci_cache_dir: /var/lib/dci-pipeline
    dci_base_ip: "{{ ansible_default_ipv4.address }}"
    dci_baseurl: "http://{{ dci_base_ip }}"
    dci_main: upgrade
    cnf_test_suites: []
    performance_definition: /<path>/performance-profile.yml
    tuned_definition: /<path>/tuned-definition.yml
    # Operators to mirror
    opm_mirror_list:
      loki-operator:
      cluster-logging:
  topic: OCP-4.10
  components:
    - ocp
  outputs:
    kubeconfig: "kubeconfig"
  success_tag: ocp-upgrade-4.10-ok

Please note the following settings:

  1. prev_stages: Indicates that this pipeline can only be executed after an OCP install or another OCP upgrade, as those will provide the kubeconfig used to interact with the cluster during the upgrade.
  2. dci_main: Instructs the agent to execute only the tasks related to a cluster upgrade. Accepted values are install and upgrade.
  3. opm_mirror_list: During the upgrade the operators already installed will be upgraded, those operators must be listed in this variable to perform the operators mirroring according to the target OCP version.

See: dci-pipeline documentation for more details about the configuration settings.

The agent supports 2 types of upgrades:

  1. Upgrades to the next support .- release version according the OCP update graph.
  2. Extended Update Support (EUS) upgrades, if the current cluster version is EUS supported version. See preparing EUS-EUS upgrade.

The upgrade process

Some of the relevant tasks executed during a cluster upgrade are listed below:

  1. A DCI job is created to track the upgrade process.
  2. The specific target version is calculated based on the OCP upgrade graph.
  3. The target OCP release is mirrored to the same images / that was used for the cluster deployment. For EUS upgrades, the intermediate release images are also mirrored 1.
  4. The ISO, rootfs, and other artifacts are mirrored to the same webserver_url used for the initial cluster deployment 1.
  5. The Image Content Source Policies and OCP signature for the new version are applied 1.
  6. The "cluster version" is patched for the new target version based on the calculated target version.
  7. The upgrade is executed and monitored for completion.
  8. The Red Hat operators catalog for the new OCP version is pruned and mirrored according to the opm_mirror_list or dci_operators variables defined in the pipeline file 1.
  9. The current Red Hat operators catalog is replaced with the new one for the target OCP version.
  10. Information about installed operators is collected based on the current subscriptions.
  11. The operator upgrade is executed for operators not listed in the operator_skip_upgrade list.
  12. An operator upgrade will be triggered if:
    • There is a new CSV version available for the currently installed operator in the current channel.
    • There is a new default channel available for the currently installed operator. That will usually imply the availability of a new CSV.
  13. Operators' upgrade starts and is monitored until it reaches the target CSV.
  14. Cluster resources, machine config pools, cluster operators, etc. are validated to declare a cluster as successfully upgraded.
  15. The relevant logs and cluster information are uploaded to the "Files" section of the DCI-UI.

1 Only in disconnected environments.

The EUS upgrade

OpenShift offers a way to facilitate the upgrade between two EUS versions. This allows upgrading between even versions, for example from ocp-4.8 to ocp-4.10. Detailed documentation is available in preparing EUS-EUS upgrade

To perform this type of upgrade with DCI, the following conditions must be met:

  • Activate the boolean upgrade_eus to true.
  • The cluster has to be installed in an EUS version.
  • The topic or target version must be an EUS release.

Transitioning between two OCP releases requires an intermediate version. It's possible to specify the intermediate version through version_inter, this ignores the upgrade path.

For example, to upgrade to a version where there's no path to it. Specify the intermediate version. version_inter:4.11.5 or to use candidate versions use version_inter:4.11.0-*.

Note the -*, this will help to include candidate versions in the search.

Upgrade notes:

  • The upgrade process is only supported when the installation was performed with the dci-openshift-agent.

  • For disconnected environments, it's required to mirror the same operators originally installed in the cluster in order to allow the upgrade to the version used for the upgrade.

  • Please see the ansible-variables section for more settings related to the upgrade process.

Custom Builds

This is a way to test with custom builds. The requirements are:

  • Pipeline

    • Must NOT contain ocp component
    • Must define:
      dci_custom_component: true
      dci_custom_component_file: /path/to/custom_component.json
  • Inventory

    • Must define a pullsecret with access to the custom build image
      pullsecret_file: /path/to/custom_pullsecret.json

Example of a custom component file:

{
  "data": {
    "pull_url": "registry.<sub-domain>.ci.openshift.org/<build-id>/release@sha256:abcdef...",
    "version": "4.15.0-0.ci.test-<timestamp>-<id>"
  },
  "tags": [
    "sha256:abcdef...",
    "build:nightly"
  ],
  "id": "",
  "type": "ocp",
  "url": "https://registry.<sub-domain>.ci.openshift.org/<build-id>/release:latest"
}

Keep the DCI OCP Agent Updated

It is recommended to keep the Jumpbox server updated, enable dnf-automatic updates to make sure system is using latest dci-openshift-agent

Install dnf-automatic

# dnf install -y dnf-automatic

Modify the default configuration to enable automatic downloads and apply updates

# vi /etc/dnf/automatic.conf
...
download_updates = yes
apply_updates = yes
...

Enable the dnf-automatic.timer

# systemctl enable --now dnf-automatic.timer

Getting involved

Refer to the development guide

Create your DCI account on distributed-ci.io

Every user needs to create his personal account by connecting to https://www.distributed-ci.io by using a Red Hat SSO account.

The account will be created in the DCI database at the first connection with the SSO account. For now, there is no reliable way to know your team automatically. Please contact the DCI team when this step has been reached, to be assigned in the correct organisation.

License

Apache License, Version 2.0 (see LICENSE file)

Contact

Email: Distributed-CI Team [email protected]

About

dci-openshift-agent provides Red Hat OpenShift Container Platform (OCP) in Red Hat Distributed CI service.

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