Book Image

Learning Windows Server Containers

Book Image

Learning Windows Server Containers

Overview of this book

Windows Server Containers are independent, isolated, manageable and portable application environments which are light weight and shippable. Decomposing your application into smaller manageable components or MicroServices helps in building scalable and distributed application environments. Windows Server Containers have a significant impact on application developers, development operations (DevOps) and infrastructure management teams. Applications can be built, shipped and deployed in a fast-paced manner on an easily manageable and updatable environment. Learning Windows Server Containers teaches you to build simple to advanced production grade container based application using Asp.Net Core, Visual Studio, Azure, Docker and PowerShell technologies. The book teaches you to build and deploy simple web applications as Windows and Hyper-V containers on Windows 10 and Windows Server 2016 on Azure. You will learn to build on top of Windows Container Base OS Images, integrate with existing images from Docker Hub, create custom images and publish to Hub. You will also learn to work with storage containers built using Volumes and SQL Server as container, create and configure custom networks, integrate with Redis Cache containers, configure continuous integration and deployment pipelines using VSTS and Git Repository. Further you can also learn to manage resources for a container, setting up monitoring and diagnostics, deploy composite container environments using Docker Compose on Windows and manage container clusters using Docker Swarm. The last chapter of the book focuses on building applications using Microsoft’s new and thinnest server platform – Nano Servers.
Table of Contents (19 chapters)
Credits
Foreword
About the Author
About the Reviewer
www.PacktPub.com
Customer Feedback
Preface

Container network routing


The following table summarizes the behavior of container traffic when connected in different networking modes.

Single node

The following table explains how a container network is routed across container hosts in a single networking mode:

Container-container traffic

Container-external traffic

NAT

Connection is established using Hyper-V virtual switch.

Routed via WinNAT using MAC Address translation.

Transparent

Connection is established using Hyper-V virtual switch.

Containers have direct access to the physical network of the host.

L2 bridge

Connection is established using Hyper-V virtual switch.

Containers have direct access to a physical network with MAC address translation.

Multinode

The following table explains how a container network is routed across container hosts in different networking modes:

Container-container traffic

Container-external traffic

NAT

Traffic is routed using the container host's IP and endpoint using WinNAT.

Traffic is routed using the container host's IP and...