This book is a one-stop guide for IT professionals with a background in traditional and software-defined networks looking to expand or hone their skill set and has been developed through a combination of extensive research and testing in both development and production environments. It provides reliable information on a fundamental component of NSX-T, logical routing.
A comprehensive understanding of this capability will help IT professionals with design, implementation, troubleshooting, and enhancements.The book starts with an introduction to the foundational components of the NSX-T platform and how NSX-T fits into the software-defined data center. The focus then moves to tunnel endpoints, which is a critical aspect of the NSX-T platform, and the differences between overlays and underlays are explained. Once the basics are covered, it provides a detailed description of how NSX-T components communicate.
Next, the book introduces logical routing and its components and provides a better understanding of how these components function with one another. Several packet walks are illustrated to explain NSX-T logical routing behavior in different scenarios. After mastering logical routing, it explains how NSX-T ensures data plane availability, which is explored at various layers of NSX-T.
Finally, the book explores the concepts and intricacies of routing into and out of the NSX-T environment. It deep dives into utilizing the Border Gateway Protocol (BGP), Open Shortest Path First (OSPF), and Static Routing.
You will:
- Know how VMware NSX-T endpoints communicate
- Understand how NSX-T logical routing works
- Know how NSX-T provides high availability for the data plane
- Understand how NSX-T operates with static and dynamic routing protocols
- Configure the platform
Autorentext
Shashank Mohan (Shank) is the ANZ Professional Services Practice Lead for Networking at VMware. He brings over a decade of experience in IT infrastructure and architecture, with a specialization in networking, virtual cloud networking (VCN), and VMware Cloud Foundation (VCF).
Shank is a VMware Advanced Professional in Network Virtualization, a vExpert in NSX and Security, and NSX Advanced Load Balancer (AVI), he is also CISCO and AWS certified.
Shank was born and raised in Sydney, Australia but now prefers the calm and cold capital city, Canberra. Between firmware upgrades and breaking his home lab, he makes time for weightlifting, gardening, and most importantly, his family. While Shank is a first-time author, he is a serial blogger. If you'd like to get in touch or continue to learn about virtualization, look up https://www.lab2prod.com.au/.
Inhalt
Chapter 1: Introduction
The Modern-Day Software-Defined Data Center
Software-Defined Datacenter ArchitectureVMware NSX-T: SDDC Networking
The Basics of NSX-TSummary
Chapter 2: Tunnel Endpoints
Overlay NetworkingNSX-T Transport Node Communication
Transport Node TypesWhat Is a Tunnel Endpoint?
Tunnel Endpoint CommunicationRouted Transport VLANs
Tunnel Endpoint ConfigurationTunnel Endpoint Failure
SummaryChapter 3: Remote Tunnel Endpoints
A Solution for Multiple Sites
NSX-T Federation ComponentsSummary
Chapter 4: Logical Routing
What Is Logical Routing?NSX-T Logical Components
Logical Routing ArchitecturePacket Flow Within the NSX-T Fabric
SummaryChapter 5: Data Plane Availability
Edge Cluster Deployment Considerations
Edge Failure TypesBidirectional Forwarding Detection (BFD)
Equal Cost Multipathing (ECMP)Summary
Chapter 6: Datacenter Routing
Chapter ObjectivesCommunication with the Physical Network
NSX-T and BGPNSX-T and OSPF
NSX-T and Static RoutingDeterministic Peering
Bidirectional Forwarding Detection (BFD)Unicast Reverse Path Forwarding (uRPF)
Summary