Securing Cloud Containers: Building and Running Secure Cloud-Native Applications (Tech Today)
Author:Sina Manavi (Author), Abbas Kudrati (Author), Muhammad Aizuddin Zali (Author)
Publisher finelybook 出版社: Wiley
Publication Date 出版日期: 2025-08-11
Edition 版本: 1st
Language 语言: English
Print Length 页数: 352 pages
ISBN-10: 1394333730
ISBN-13: 9781394333738
Book Description
A practical and up-to-date roadmap to securing cloud containers on AWS, GCP, and Azure
Securing Cloud Containers: Building and Running Secure Cloud-Native Applications is a hands-on guide that shows you how to secure containerized applications and cloud infrastructure, including Kubernetes. The authors address the most common obstacles and pain points that security professionals, DevOps engineers, and IT architects encounter in the development of cloud applications, including industry standard compliance and adherence to security best practices.
The book provides step-by-step instructions on the strategies and tools you can use to develop secure containers, as well as real-world examples of secure cloud-native applications. After an introduction to containers and Kubernetes, you’ll explore the architecture of containerized applications, best practices for container security, security automation tools, the use of artificial intelligence in cloud security, and more.
Inside the book:
- An in-depth discussion of implementing a Zero Trust model in cloud environments
- Additional resources, including a glossary of important cloud and container security terms, recommendations for further reading, and lists of useful platform-specific tools (for Azure, Amazon Web Services, and Google Cloud Platform)
- An introduction to SecDevOps in cloud-based containers, including tools and frameworks designed for Azure, GCP, and AWS platforms
An invaluable and practical resource for IT system administrators, cloud engineers, cybersecurity and SecDevOps professionals, and related IT and security practitioners, Securing Cloud Containers is an up-to-date and accurate roadmap to cloud container security that explains the “why” and “how” of securing containers on the AWS, GCP, and Azure platforms.
Editorial Reviews
From the Back Cover
A hands-on roadmap to securing AWS, GCP, and Azure cloud containers
In Securing Cloud Containers: Building and Running Secure Cloud-Native Applications, a team of cloud security experts delivers a hands-on guide to securing containerized applications and cloud infrastructure, including Kubernetes. The book offers solutions to the most common obstacles and challenges faced by security professionals, DevOps engineers, and IT architects developing cloud applications.
You’ll find step-by-step instructions you can apply immediately to develop secure containers alongside real-world examples of secure, cloud-native applications. The authors provide an accessible introduction to containers and Kubernetes and explain the architecture of containerized applications, best practices for container security, security automation tools, and cloud security AI techniques.
Securing Cloud Containers offers in-depth discussions of Zero Trust cloud models, walkthroughs of platform-specific tools for Azure, AWS, and GCP, and up-to-date introductions to SecDevOps in cloud-based containers, including frameworks for each of the three major cloud platforms. It’s an invaluable and practical resource for IT system administrators, cloud engineers, cybersecurity and SecDevOps professionals, and other IT and security practitioners looking for an accurate cloud container roadmap that explains the “how” and the “why” of container security on AWS, GCP, and Azure.
About the Author
SINA MANAVI is the Global Head of Cloud Security and Compliance at DHL IT Services.
ABBAS KUDRATI is Asia’s Chief Identity Security Advisor at Silverfort. He is a former Chief Cybersecurity Advisor at Microsoft Asia and a Professor of Practice in Cybersecurity at LaTrobe University, Australia.
MUHAMMAD AIZUDDIN ZALI is a principal architect and team manager at DHL ITS for Secure Public Cloud Services – Container & Kafka Platform team.
