Beschreibung
Gain all the skills required to dive into the fundamentals of the Raspberry Pi hardware architecture and how data is stored in the Pis memory. This book provides you with working starting points for your own projects while you develop a working knowledge of Assembly language programming on the Raspberry Pi. You'll learn how to interface to the Pis hardware including accessing the GPIO ports. The book will cover the basics of code optimization as well as how to inter-operate with C and Python code, so you'll develop enough background to use the official ARM reference documentation for further projects.
With Raspberry Pi Assembly Language Programming as your guide you'll study how to read and reverse engineer machine code and then then apply those new skills to study code examples and take control of your Pis hardware and software both.
What You'll LearnProgram basic ARM 32-Bit Assembly LanguageInterface with the various hardware devices on the Raspberry PiComprehend code containing Assembly languageUse the official ARM reference documentation
Who This Book Is ForCoders who have already learned to program in a higher-level language like Python, Java, C#, or C and now wish to learn Assembly programming.
Autorenportrait
Stephen Smithis a retired Software Architect, located in Gibsons, BC, Canada. He's been developing software since high-school, or way too many years to record. Since retiring he has pursued Artificial Intelligence programming, earned his Advanced HAM Radio License and enjoys mountain biking, hiking, and nature photography. He continues to write his popular technology blog at smist08.wordpress.com.
Inhalt
Chapter 1: Getting Started.- Chapter 2: Loading and Adding.- Chapter 3: Tooling Up.- Chapter 4: Controlling Program Flow.- Chapter 5: Thanks for the Memories.- Chapter 6: Functions and the Stack.- Chapter 7: Linux Operating System Services.- Chapter 8: Programming GPIO Pins.- Chapter 9: Interacting with C and Python.- Chapter 10: Multiply, Divide and Accumulate.- Chapter 11: Floating Point Operations.- Chapter 12: Neon Coprocessor.- Chapter 13: Conditional Instructions and Optimizing Code.- Chapter 14: Reading and Understanding Code.- Chapter 15: Thumb Code.- Chapter 16: 64-Bits.- Appendix A: The ARM Instruction Set.- Appendix B: Linux System Calls.- Appendix C: Binary Formats.- Appendix D: Assembler Directives.- Appendix E: ASCII Character Set.
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