OpenShift Virtualization Migration with F5
2 TopicsDeploying F5 Distributed Cloud Customer Edge in Red Hat OpenShift Virtualization
Introduction Red Hat OpenShift Virtualization is a feature that brings virtual machine (VM) workloads into the Kubernetes platform, allowing them to run alongside containerized applications in a seamless, unified environment. Built on the open-source KubeVirt project, OpenShift Virtualization enables organizations to manage VMs using the same tools and workflows they use for containers. Why OpenShift Virtualization? Organizations today face critical needs such as: Rapid Migration: "I want to migrate ASAP" from traditional virtualization platforms to more modern solutions. Infrastructure Modernization: Transitioning legacy VM environments to leverage the benefits of hybrid and cloud-native architectures. Unified Management: Running VMs alongside containerized applications to simplify operations and enhance resource utilization. OpenShift Virtualization addresses these challenges by consolidating legacy and cloud-native workloads onto a single platform. This consolidation simplifies management, enhances operational efficiency, and facilitates infrastructure modernization without disrupting existing services. Integrating F5 Distributed Cloud Customer Edge (XC CE) into OpenShift Virtualization further enhances this environment by providing advanced networking and security capabilities. This combination offers several benefits: Multi-Tenancy: Deploy multiple CE VMs, each dedicated to a specific tenant, enabling isolation and customization for different teams or departments within a secure, multi-tenant environment. Load Balancing: Efficiently manage and distribute application traffic to optimize performance and resource utilization. Enhanced Security: Implement advanced threat protection at the edge to strengthen your security posture against emerging threats. Microservices Management: Seamlessly integrate and manage microservices, enhancing agility and scalability. This guide provides a step-by-step approach to deploying XC CE within OpenShift Virtualization, detailing the technical considerations and configurations required. Technical Overview Deploying XC CE within OpenShift Virtualization involves several key technical steps: Preparation Cluster Setup: Ensure an operational OpenShift cluster with OpenShift Virtualization installed. Access Rights: Confirm administrative permissions to configure compute and network settings. F5 XC Account: Obtain access to generate node tokens and download the XC CE images. Resource Optimization: Enable CPU Manager: Configure the CPU Manager to allocate CPU resources effectively. Configure Topology Manager: Set the policy to single-numa-node for optimal NUMA performance. Network Configuration: Open vSwitch (OVS) Bridges: Set up OVS bridges on worker nodes to handle networking for the virtual machines. NetworkAttachmentDefinitions (NADs): Use Multus CNI to define how virtual machines attach to multiple networks, supporting both external and internal connectivity. Image Preparation: Obtain XC CE Image: Download the XC CE image in qcow2 format suitable for KubeVirt. Generate Node Token: Create a one-time node token from the F5 Distributed Cloud Console for node registration. User Data Configuration: Prepare cloud-init user data with the node token and network settings to automate the VM initialization process. Deployment: Create DataVolumes: Import the XC CE image into the cluster using the Containerized Data Importer (CDI). Deploy VirtualMachine Resources: Apply manifests to deploy XC CE instances in OpenShift. Network Configuration Setting up the network involves creating Open vSwitch (OVS) bridges and defining NetworkAttachmentDefinitions (NADs) to enable multiple network interfaces for the virtual machines. Open vSwitch (OVS) Bridges Create a NodeNetworkConfigurationPolicy to define OVS bridges on all worker nodes: apiVersion: nmstate.io/v1 kind: NodeNetworkConfigurationPolicy metadata: name: ovs-vms spec: nodeSelector: node-role.kubernetes.io/worker: '' desiredState: interfaces: - name: ovs-vms type: ovs-bridge state: up bridge: allow-extra-patch-ports: true options: stp: true port: - name: eno1 ovn: bridge-mappings: - localnet: ce2-slo bridge: ovs-vms state: present Replace eno1 with the appropriate physical network interface on your nodes. This policy sets up an OVS bridge named ovs-vms connected to the physical interface. NetworkAttachmentDefinitions (NADs) Define NADs using Multus CNI to attach networks to the virtual machines. External Network (ce2-slo): External Network (ce2-slo): Connects VMs to the physical network with a specific VLAN ID. This setup allows the VMs to communicate with external systems, services, or networks, which is essential for applications that require access to resources outside the cluster or need to expose services to external users. apiVersion: k8s.cni.cncf.io/v1 kind: NetworkAttachmentDefinition metadata: name: ce2-slo namespace: f5-ce spec: config: | { "cniVersion": "0.4.0", "name": "ce2-slo", "type": "ovn-k8s-cni-overlay", "topology": "localnet", "netAttachDefName": "f5-ce/ce2-slo", "mtu": 1500, "vlanID": 3052, "ipam": {} } Internal Network (ce2-sli): Internal Network (ce2-sli): Provides an isolated Layer 2 network for internal communication. By setting the topology to "layer2", this network operates as an internal overlay network that is not directly connected to the physical network infrastructure. The mtu is set to 1400 bytes to accommodate any overhead introduced by encapsulation protocols used in the internal network overlay. apiVersion: k8s.cni.cncf.io/v1 kind: NetworkAttachmentDefinition metadata: name: ce2-sli namespace: f5-ce spec: config: | { "cniVersion": "0.4.0", "name": "ce2-sli", "type": "ovn-k8s-cni-overlay", "topology": "layer2", "netAttachDefName": "f5-ce/ce2-sli", "mtu": 1400, "ipam": {} } VirtualMachine Configuration Configuring the virtual machine involves preparing the image, creating cloud-init user data, and defining the VirtualMachine resource. Image Preparation Obtain XC CE Image: Download the qcow2 image from the F5 Distributed Cloud Console. Generate Node Token: Acquire a one-time node token for node registration. Cloud-Init User Data Create a user-data configuration containing the node token and network settings: #cloud-config write_files: - path: /etc/vpm/user_data content: | token: <your-node-token> slo_ip: <IP>/<prefix> slo_gateway: <Gateway IP> slo_dns: <DNS IP> owner: root permissions: '0644' Replace placeholders with actual network configurations. This file automates the VM's initial setup and registration. VirtualMachine Resource Definition Define the VirtualMachine resource, specifying CPU, memory, disks, network interfaces, and cloud-init configurations. Resources: Allocate sufficient CPU and memory. Disks: Reference the DataVolume containing the XC CE image. Interfaces: Attach NADs for network connectivity. Cloud-Init: Embed the user data for automatic configuration. Conclusion Deploying F5 Distributed Cloud CE in OpenShift Virtualization enables organizations to leverage advanced networking and security features within their existing Kubernetes infrastructure. This integration facilitates a more secure, efficient, and scalable environment for modern applications. For detailed deployment instructions and configuration examples, please refer to the attached PDF guide. Related Articles: BIG-IP VE in Red Hat OpenShift Virtualization VMware to Red Hat OpenShift Virtualization Migration OpenShift Virtualization499Views1like0CommentsSeamless Application Migration to OpenShift Virtualization with F5 Distributed Cloud
As organizations endeavor to modernize their infrastructure, migrating applications to advanced virtualization platforms like Red Hat OpenShift Virtualization becomes a strategic imperative. However, they often encounter challenges such as minimizing downtime, maintaining seamless connectivity, ensuring consistent security, and reducing operational complexity. Addressing these challenges is crucial for a successful migration. This article explores howF5 Distributed Cloud (F5 XC), in collaboration with Red Hat's Migration Toolkit for Virtualization (MTV), provides a robust solution to facilitate a smooth, secure, and efficient migration to OpenShift Virtualization. The Joint Solution: F5 XC CE and Red Hat MTV Building upon our previous work ondeploying F5 Distributed Cloud Customer Edge (XC CE) in Red Hat OpenShift Virtualization, we delve into the next phase of our joint solution with Red Hat. By leveraging F5 XC CE in both VMware and OpenShift environments, alongside Red Hat’s MTV, organizations can achieve a seamless migration of virtual machines (VMs) from VMware NSX to OpenShift Virtualization. This integration not only streamlines the migration process but also ensures continuous application performance and security throughout the transition. Key Components: Red Hat Migration Toolkit for Virtualization (MTV): Facilitates the migration of VMs from VMware NSX to OpenShift Virtualization, an add-on to OpenShift Container Platform F5 Distributed Cloud Customer Edge (XC CE) in VMware: Manages and secures application traffic within the existing VMware NSX environment. F5 XC CE in OpenShift: Ensures consistent load balancing and security in the new OpenShift Virtualization environment. Demonstration Architecture To illustrate the effectiveness of this joint solution, let’s delve into the Demo Architecture employed in our demo: The architecture leverages F5 XC CE in both environments to provide a unified and secure load balancing mechanism. Red Hat MTV acts as the migration engine, seamlessly transferring VMs while F5 XC CE manages traffic distribution to ensure zero downtime and maintain application availability and security. Benefits of the Joint Solution 1. Seamless Migration: Minimal Downtime: The phased migration approach ensures that applications remain available to users throughout the process. IP Preservation: Maintaining the same IP addresses reduces the complexity of network reconfiguration and minimizes potential disruptions. 2. Enhanced Security: Consistent Policies: Security measures such as Web Application Firewalls (WAF), bot detection, and DoS protection are maintained across both environments. Centralized Management: F5 XC CE provides a unified interface for managing security policies, ensuring robust protection during and after migration. 3. Operational Efficiency: Unified Platform: Consolidating legacy and cloud-native workloads onto OpenShift Virtualization simplifies management and enhances operational workflows. Scalability: Leveraging Kubernetes and OpenShift’s orchestration capabilities allows for greater scalability and flexibility in application deployment. 4. Improved User Experience: Continuous Availability: Users experience uninterrupted access to applications, unaware of the backend migration activities. Performance Optimization: Intelligent load balancing ensures optimal application performance by efficiently distributing traffic across environments. Watch the Demo Video To see this joint solution in action, watch our detailed demo video on the F5 DevCentral YouTube channel. The video walks you through the migration process, showcasing how F5 XC CE and Red Hat MTV work together to facilitate a smooth and secure transition from VMware NSX to OpenShift Virtualization. Conclusion Migrating virtual machines (VMs) from VMware NSX to OpenShift Virtualization is a significant step towards modernizing your infrastructure. With the combined capabilities of F5 Distributed Cloud Customer Edge and Red Hat’s Migration Toolkit for Virtualization, organizations can achieve this migration with confidence, ensuring minimal disruption, enhanced security, and improved operational efficiency. Related Articles: Deploying F5 Distributed Cloud Customer Edge in Red Hat OpenShift Virtualization BIG-IP VE in Red Hat OpenShift Virtualization VMware to Red Hat OpenShift Virtualization Migration OpenShift Virtualization136Views1like0Comments