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Practical Debugging for Embedded ARM Systems

Practical Debugging for Embedded ARM Systems

By : Nino Vidović
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Practical Debugging for Embedded ARM Systems

Practical Debugging for Embedded ARM Systems

3 (2)
By: Nino Vidović

Overview of this book

Are you truly unlocking the full potential of your embedded debugging tools? This hands-on guide cuts through the confusion of common workflows and shows you how to trace, profile, and debug ARM-based systems like a professional firmware engineer. Written by an industry expert, this book guides you through practical debugging scenarios using real hardware setups. You’ll explore both essential and advanced techniques, from setting breakpoints and analyzing memory to using hardware tracing, power profiling, and RTOS awareness. Through real-world crash analysis, you'll learn how to detect stack overflows, communication errors, memory leaks, and more. You will explore practical examples based on ARM Cortex-M target devices, which help you build structured and efficient debugging workflows. The learned skills can then be easily applied to other chip architectures as well. You’ll walk away with a clear understanding of the tools available, how to apply them in complex firmware projects, and the confidence to tackle even the most elusive bugs in production systems. Whether you’re refining your setup or debugging embedded systems at scale, this book will sharpen your skills and elevate your embedded development workflow. *Email sign-up and proof of purchase required
Table of Contents (9 chapters)
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Index

Disassembly

This section will discuss assembly code and how a so-called disassembly can help you to find out what exactly is happening on your target device.

Assembly is a low-level programming language that is closely related to machine code. It uses symbols and mnemonics to represent machine code instructions and to make it more understandable for humans than raw machine code.

Each computer architecture comes with its own set of assembly instructions, making assembly code not very portable.

Arm Cortex-M target devices support the Arm instruction set architecture (ISA). In this book's examples, we will use Armv7-M and Armv8-M, which are both 32-bit architectures. The standout feature of these devices is the Thumb-2 instruction set, which combines 16-bit and 32-bit instructions for optimal performance-to-code size ratio, single-cycle execution for most instructions, and support for deterministic hardware interrupts via a vector table [1][2].

What is a disassembly?

A disassembly is...

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