Red Hat OpenShift GitOps is an Operator that uses Argo CD as the declarative GitOps engine. It enables GitOps workflows across multicluster OpenShift and Kubernetes infrastructure. Using Red Hat OpenShift GitOps, administrators can consistently configure and deploy Kubernetes-based infrastructure and applications across clusters and development lifecycles. Red Hat OpenShift GitOps is based on the open source project Argo CD and provides a similar set of features to what the upstream offers, with additional automation, integration into Red Hat OpenShift Container Platform and the benefits of Red Hat’s enterprise support, quality assurance and focus on enterprise security.
Because Red Hat OpenShift GitOps releases on a different cadence from OpenShift Container Platform, the Red Hat OpenShift GitOps documentation is now available as separate documentation sets for each minor version of the product. The Red Hat OpenShift GitOps documentation is available at https://docs.openshift.com/gitops/. Documentation for specific versions is available using the version selector dropdown, or directly by adding the version to the URL, for example, https://docs.openshift.com/gitops/1.8. In addition, the Red Hat OpenShift GitOps documentation is also available on the Red Hat Portal at https://access.redhat.com/documentation/en-us/red_hat_openshift_gitops/. For additional information about the Red Hat OpenShift GitOps life cycle and supported platforms, refer to the Platform Life Cycle Policy. |
Red Hat OpenShift GitOps ensures consistency in applications when you deploy them to different clusters in different environments, such as: development, staging, and production. Red Hat OpenShift GitOps organizes the deployment process around the configuration repositories and makes them the central element. It always has at least two repositories:
Application repository with the source code
Environment configuration repository that defines the desired state of the application
These repositories contain a declarative description of the infrastructure you need in your specified environment. They also contain an automated process to make your environment match the described state.
Red Hat OpenShift GitOps uses Argo CD to maintain cluster resources. Argo CD is an open-source declarative tool for the continuous deployment (CD) of applications. Red Hat OpenShift GitOps implements Argo CD as a controller so that it continuously monitors application definitions and configurations defined in a Git repository. Then, Argo CD compares the specified state of these configurations with their live state on the cluster.
Argo CD reports any configurations that deviate from their specified state. These reports allow administrators to automatically or manually resync configurations to the defined state. Therefore, Argo CD enables you to deliver global custom resources, like the resources that are used to configure OpenShift Container Platform clusters.
Red Hat OpenShift GitOps helps you automate the following tasks:
Ensure that the clusters have similar states for configuration, monitoring, and storage
Apply or revert configuration changes to multiple OpenShift Container Platform clusters
Associate templated configuration with different environments
Promote applications across clusters, from staging to production
This glossary defines common OpenShift GitOps terms.
A controller that that performs the following actions:
Continuously watches the Git repository for changes
Monitors running applications
Compares the live state against the desired target state
Deploys new changes
Examples include Argo CD Application Controller detecting an OutOfSync
application state and optionally taking corrective action.
Application
custom resource (CR)A YAML manifest that describes how you intend to deploy the resources of your Argo CD application.
Application
custom resource definition (CRD)A resource object representing a deployed Argo CD application instance in an environment.
ApplicationSet
CRD (Argo CD application set)A resource object and a CRD that automatically generates Argo CD applications based on the contents of an ApplicationSet
CR. Cluster administrators use this CRD to define a single ApplicationSet
CR to generate and update multiple corresponding Argo CD Application
CRs.
A custom Kubernetes controller that exists within Argo CD and processes ApplicationSet
CRs. This controller automatically creates, updates, and deletes Argo CD applications based on the contents of an ApplicationSet
CR.
AppProject
CRDA CRD representing a logical grouping of applications within a project that governs where and how an application is allowed to manage resources. You can use the AppProject
CRD to restrict where and how Argo CD users are allowed to access those applications. Managing the AppProject
instances is an action typically restricted to Argo CD administrators.
A gRPC/REST server that exposes the API consumed by the web UI, CLI, continuous integration (CI), and continuous deployment (CD) systems.
An open-source declarative tool that automates the continuous deployment of Kubernetes-based infrastructure and applications across clusters and development lifecycles.
An application that tracks the continuous deployment of individual Kubernetes resources from the GitOps repository, where the resources are defined as manifests, to a target Kubernetes cluster.
ArgoCD
CRDA Kubernetes CRD that describes the wanted state for a given Argo CD cluster that allows you to configure the components that make up an Argo CD cluster.
A single installation of Argo CD within a namespace that encapsulates all of the stateful aspects of a running Argo CD. Each Argo CD instance usually has a one-to-one mapping with an ArgoCD
CR.
An entity within Argo CD that refers to the Argo CD open source project’s specific concept of projects, and the corresponding AppProject
CR.
An Argo CD project lets you define multiple namespaces and even clusters as allowed destinations. In contrast, an OpenShift project is restricted to a single namespace and is equivalent in concept to a namespace.
Argo CD project controls the behavior of Argo CD by restricting access to Git repositories and remote clusters. Examples include using the Argo CD project to control users by restricting who can access certain Argo CD applications or cluster resources through the Argo CD UI or Argo CD CLI.
An Argo CD component that performs the following actions:
Reads from source repositories such as Git, Helm, or Open Container Initiative (OCI)
Generates corresponding application manifests
Runs custom configuration management tooling
Returns the result to the Argo CD Application Controller
ArgoCD
CR)A CR that describes the wanted state for a given Argo CD instance. It allows you to configure the components and settings that make up an Argo CD instance.
A server that provides the API and UI for Argo CD.
A controller that you can use for managing the progressive deployment of applications hosted on Kubernetes and OpenShift Container Platform clusters. This controller has a set of CRDs that provides advanced deployment capabilities such as blue-green, canary, canary analysis, and experimentation.
A mode in which Argo CD is configured to manage all resources on the cluster including certain cluster-specific resources such as cluster configuration, cluster RBAC, Operator resources, platform Operators, or secrets.
In the GitOps context, you can have a control plane for every Argo CD you install. A GitOps control plane is any namespace where you can install an Argo CD. This control plane allows you to provision, manage, and operate Argo CD across networks, instances, and clusters.
Within a control plane namespace, Argo CD maintains a set of following Kubernetes resources, which define the continuous deployment between the source Git repository and destination clusters:
Argo CD Application
CRs
configmap
API objects
Secret
objects representing the GitOps repository credentials and cluster credentials for deployment targets
openshift-gitops
is the control plane namespace for the default Argo CD instance.
A declarative description of the infrastructure required in your specified environment, for system and application setup or configuration. You can specify this description in a YAML configuration file in the Git repository. The declarative setup contains an automated process to make your environment and infrastucture match the described state. Examples include defining Argo CD applications, projects, and settings declaratively by using YAML manifests.
A default instance that a Red Hat OpenShift GitOps Operator instantiates immediately after its installation, in the openshift-gitops
namespace, with additional permissions for managing certain cluster-scoped resources.
A declarative way to implement continuous deployment for cloud native applications. In GitOps, a Git repository contains deployment resources, which Argo CD keeps synchronizing with its cluster state.
argocd
CLI)A tool to configure and manage Red Hat OpenShift GitOps and Argo CD resources from the command line.
Modes that determine how you want to operate an Argo CD instance. The available modes are cluster-scoped instance and namespace-scoped instance.
The live state of application resources on a target cluster.
A cluster where you install Argo CD.
In the GitOps context, a manifest is a YAML representation of Kubernetes resources defined within a GitOps repository, with the intent to deploy those resources to a target Kubernetes cluster. Examples include the YAML representation of resources such as Deployment
, configmap
, or Secret
.
A software architecture where a single software instance serves multiple distinct user groups.
A mode in which Argo CD is configured to manage resources in only certain namespaces on a cluster and use the resources for application delivery.
A controller that continuously monitors Argo CD applications and provides a flexible way to notify users about important changes in the application state.
In the GitOps context, progressive delivery is a process of releasing application updates in a controlled and gradual manner.
An Operator that uses Argo CD as the declarative GitOps engine to enable GitOps workflows across multicluster OpenShift and Kubernetes infrastructures.
The process of comparing the latest code in the Git repository with the live state and determining the difference. For example, in the Argo CD UI, when you click Refresh, Argo CD connects to an application’s target Git repository, retrieves the content, and then generates manifests from that content. Argo CD then compares that target state against the live cluster state.
A cluster that you can add to Argo CD either declaratively or by using the GitOps CLI. Remote cluster is distinct from the local cluster where Argo CD is installed.
A configuration you use to exclude resources from discovery and sync so that Argo CD is unaware of them.
A configuration you use to include resources to discover, sync, and restrict the list of managed resources globally.
A software architecture where a single software instance serves a single user or group of users.
The process of synchronizing the live state of an application’s cluster resources with the target state defined within the Git repository to ensure consistency. Examples include syncing an application by applying changes to a cluster by using the Argo CD UI.
The status of an application that indicates whether the live state matches the target state.
The wanted state of application resources, as represented by files in a Git repository.
A custom Argo CD instance that you install and deploy to manage cluster configurations or deploy applications. By default, any new user-defined instance has permissions to manage resources only in the namespace where it is deployed.
Any process, usually defined within resources such as Deployment
, StatefulSet
, ReplicaSet
, Job
, or Pod
, running within a container. Examples include a Spring Boot application, a NodeJS Express application, or a Ruby on Rails application.