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Chapter 3. Architecture models


Red Hat OpenShift Service on AWS (ROSA) has the following cluster topologies:

  • Hosted control plane (HCP) - The control plane is hosted in a Red Hat account and the worker nodes are deployed in the customer’s AWS account.
  • Classic - The control plane and the worker nodes are deployed in the customer’s AWS account.

3.1. Comparing ROSA with HCP and ROSA Classic

Table 3.1. ROSA architectures comparison table
 
Hosted Control Plane (HCP)Classic

Control plane hosting

Control plane components, such as the API server etcd database, are hosted in a Red Hat-owned AWS account.

Control plane components, such as the API server etcd database, are hosted in a customer-owned AWS account.

Virtual Private Cloud (VPC)

Worker nodes communicate with the control plane over AWS PrivateLink.

Worker nodes and control plane nodes are deployed in the customer’s VPC.

Multi-zone deployment

The control plane is always deployed across multiple availability zones (AZs).

The control plane can be deployed within a single AZ or across multiple AZs.

Machine pools

Each machine pool is deployed in a single AZ (private subnet).

Machine pools can be deployed in single AZ or across multiple AZs.

Infrastructure Nodes

Does not use any dedicated nodes to host platform components, such as ingress and image registry.

Uses 2 (single-AZ) or 3 (multi-AZ) dedicated nodes to host platform components.

OpenShift Capabilities

Platform monitoring, image registry, and the ingress controller are deployed in the worker nodes.

Platform monitoring, image registry, and the ingress controller are deployed in the dedicated infrastructure nodes.

Cluster upgrades

The control plane and each machine pool can be upgraded separately.

The entire cluster must be upgraded at the same time.

Minimum EC2 footprint

2 EC2 instances are needed to create a cluster.

7 (single-AZ) or 9 (multi-AZ) EC2 instances are needed to create a cluster.

3.2. ROSA with HCP architecture

In Red Hat OpenShift Service on AWS (ROSA) with hosted control planes (HCP), the ROSA service hosts a highly-available, single-tenant OpenShift control plane. The hosted control plane is deployed across 3 availability zones with 2 API server instances and 3 etcd instances.

You can create a ROSA with HCP cluster with or without an internet-facing API server. Private API servers are only accessible from your VPC subnets. You access the hosted control plane through an AWS PrivateLink endpoint.

The worker nodes are deployed in your AWS account and run on your VPC private subnets. You can add additional private subnets from one or more availability zones to ensure high availability. Worker nodes are shared by OpenShift components and applications. OpenShift components such as the ingress controller, image registry, and monitoring are deployed on the worker nodes hosted on your VPC.

Figure 3.1. ROSA with HCP architecture

ROSA with HCP architecture

3.2.1. ROSA with HCP architecture on public and private networks

With ROSA with HCP, you can create your clusters on public or private networks. The following images depict the architecture of both public and private networks.

Figure 3.2. ROSA with HCP deployed on a public network

ROSA with HCP deployed on a public network

Figure 3.3. ROSA with HCP deployed on a private network

ROSA with HCP deployed on a private network

3.3. ROSA Classic architecture

In Red Hat OpenShift Service on AWS (ROSA) Classic, both the control plane and the worker nodes are deployed in your VPC subnets.

3.3.1. ROSA Classic architecture on public and private networks

With ROSA Classic, you can create clusters that are accessible over public or private networks.

You can customize access patterns for your API server endpoint and Red Hat SRE management in the following ways:

  • Public - API server endpoint and application routes are internet-facing.
  • Private - API server endpoint and application routes are private. Private ROSA Classic clusters use some public subnets, but no control plane or worker nodes are deployed in public subnets.
  • Private with AWS PrivateLink - API server endpoint and application routes are private. Public subnets or NAT gateways are not required in your VPC for egress. ROSA SRE management uses AWS PrivateLink.

The following image depicts the architecture of a ROSA Classic cluster deployed on both public and private networks.

Figure 3.4. ROSA Classic deployed on public and private networks

ROSA deployed on public and private networks

ROSA Classic clusters include infrastructure nodes where OpenShift components such as the ingress controller, image registry, and monitoring are deployed. The infrastructure nodes and the OpenShift components deployed on them are managed by ROSA Service SREs.

The following types of clusters are available with ROSA Classic:

  • Single zone cluster - The control plane and worker nodes are hosted on a single availability zone.
  • Multi-zone cluster - The control plane is hosted on three availability zones with an option to run worker nodes on one or three availability zones.

3.3.3. ROSA architecture with Local Zones

ROSA supports the use of AWS Local Zones, which are metropolis-centralized availability zones where customers can place latency-sensitive application workloads within a VPC. Local Zones are extensions of AWS Regions and are not enabled by default. When Local Zones are enabled and configured, the traffic is extended into the Local Zones for greater flexibility and lower latency. For more information, see "Configuring machine pools in Local Zones".

The following diagram displays a ROSA cluster without traffic routed into a Local Zone.

Figure 3.6. ROSA cluster without traffic routed into Local Zones

ROSA cluster without traffic routed into Local Zones

The following diagram displays a ROSA cluster with traffic routed into a Local Zone.

Figure 3.7. ROSA cluster with traffic routed into Local Zones

ROSA cluster with traffic routed into Local Zones
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