Engineering Secure Devices: A Practical Guide for Embedded System Architects and Developers

Engineering Secure Devices: A Practical Guide for Embedded System Architects and Developers book cover

Engineering Secure Devices: A Practical Guide for Embedded System Architects and Developers

Author(s): Dominik Merli (Author)

  • Publisher: No Starch Press
  • Publication Date: 23 July 2024
  • Language: English
  • Print length: 264 pages
  • ISBN-10: 1718503482
  • ISBN-13: 9781718503489

Book Description

This practical guide to building embedded and IoT devices securely is an essential resource for current and future developers tasked with protecting users from the potential threats of these ubiquitous devices.

As an engineer, you know that countless devices—from industrial components to smart household appliances—rely on embedded computer systems. But how do you balance the need for robust security with performance and innovative product design?

Engineering Secure Devices will guide you through crafting secure devices—from protecting crucial assets to the nature of attackers and the risks they pose. You’ll explore the technical intricacies and pros and cons of symmetric and asymmetric cryptography and learn how to use and analyse random number generators and cryptographic algorithms. You’ll learn how to ensure confidential data storage and secure memory, and devise secure device identity solutions and communication protocols to reinforce system architecture against potential threats. And finally, you’ll learn how to properly design secure boot and secure update processes, manage access control, and perform system monitoring to secure IoT devices.

Real-world case studies throughout highlight practical applications, solutions, and obstacles, such as firmware updates with SWUpdate, secure communication with MQTT, and advanced access control with AppArmor.

You’ll also dig into topics like:

  • Analyzing the performance of cryptographic implementations in both hardware and software
  • Considerations for secure boot and software update processes to ensure ongoing firmware integrity
  • Designing robust device architectures that withstand attacks while maintaining critical operations
  • Developing strategies to detect and respond to anomalies or security breaches in embedded systems

Whether you’re an IoT developer or an embedded system architect, Engineering Secure Devices equips you with the indispensable knowledge to design, secure, and support the next generation of smart devices—from webcams to four-legged robots.

Editorial Reviews

Review

“The book provides a well understandable introduction on how to design and implement secure embedded devices. Case studies exemplify the practical application of relevant security technologies, making this complex topic well accessible for both practitioners and students.” —Dr. Rainer Falk, Principal Key Expert for Embedded Security, Siemens AG

“This book has so much valuable and practical information on engineering secure devices with lessons learned by the author and comprehensible case studies. The detailed explanations of security basics and concepts allow the book to be used by beginners to get started on the topic, but even security professionals would definitely find it valuable. Whether you are a developer for an embedded system, responsible for product security, or just interested in the topic, this book is an excellent read!” —Matthias Niedermaier, OT Security Expert, Airbus

“This book is an indispensable technical guide for the design, implementation and maintenance of embedded systems in security-sensitive applications. It presents fundamental elements and illustrates how they are utilized in practice, providing seasoned insight into the construction of a secure embedded system.” —Marc Stöttinger, Professor for Computer Engineering and Security, RheinMain University of Applied Sciences

About the Author

Dominik Merli is a professor for IT security at the Augsburg Technical University of Applied Sciences, with more than a decade of experience in security engineering research and the implementation of practical protection measures. His research on embedded systems’ security for industrial, automotive, and semiconductor companies led to his PhD at the Technical University of Munich, after which he worked on security innovations for industrial products at Siemens before entering the education field.

View on Amazon

未经允许不得转载:Wow! eBook » Engineering Secure Devices: A Practical Guide for Embedded System Architects and Developers