ARM designs the cores of microcontrollers which equip most "embedded systems" based on 32-bit processors. Cortex M3 is one of these designs, recently developed by ARM with microcontroller applications in mind. To conceive a particularly optimized piece of software (as is often the case in the world of embedded systems) it is often necessary to know how to program in an assembly language. This book explains the basics of programming in an assembly language, while being based on the architecture of Cortex M3 in detail and developing many examples. It is written for people who have never…mehr
ARM designs the cores of microcontrollers which equip most "embedded systems" based on 32-bit processors. Cortex M3 is one of these designs, recently developed by ARM with microcontroller applications in mind. To conceive a particularly optimized piece of software (as is often the case in the world of embedded systems) it is often necessary to know how to program in an assembly language. This book explains the basics of programming in an assembly language, while being based on the architecture of Cortex M3 in detail and developing many examples. It is written for people who have never programmed in an assembly language and is thus didactic and progresses step by step by defining the concepts necessary to acquiring a good understanding of these techniques.Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.
Vincent Mahout is a teacher at INSA of Toulouse (Grande Ecole d'Ingénieurs) under the authority of the Ministry of Education and Research. He is also a researcher at CNRS/LAAS (www.laas.fr), Toulouse, France.
Inhaltsangabe
Preface ix Chapter 1. Overview of Cortex-M3 Architecture 1 1.1. Assembly language versus the assembler 1 1.2. The world of ARM 2 Chapter 2. The Core of Cortex-M3 15 2.1. Modes, privileges and states 15 2.2. Registers 17 Chapter 3. The Proper Use of Assembly Directives 25 3.1. The concept of the directive 25 3.2. Structure of a program 27 3.3. A section of code 29 3.4. The data section 36 3.5. Is that all? 39 Chapter 4. Operands of Instructions 47 4.1. The constant and renaming 48 4.2. Operands for common instructions 49 4.3. Memory access operands: addressing modes 57 Chapter 5. Instruction Set 63 5.1. Reading guide 63 5.2. Arithmetic instructions 66 5.3. Logical and bit manipulation instructions 70 5.4. Internal transfer instructions 75 5.5. Test instructions 76 5.6. Branch instructions 77 5.7. Load/store instructions 80 5.8. "System" instructions and others 85 Chapter 6. Algorithmic and Data Structures 87 6.1. Flowchart versus algorithm 87 6.2. Alternative structures 89 6.3. Iterative structures 98 6.4. Compound conditions 106 6.5. Data structure 111 Chapter 7. Internal Modularity 119 7.1. Detailing the concept of procedure 119 7.2. Procedure arguments 123 7.3. Local data 136 Chapter 8. Managing Exceptions 147 8.1. What happens during Reset? 148 8.2. Possible exceptions 151 8.3. Priority management 161 8.4. Entry and return in exception processing 167 Chapter 9. From Listing to Executable: External Modularity 173 9.1. External modularity 175 9.2. The role of the assembler 182 9.3. The role of the linker 188 9.4. The loader and the debugging unit 196 Appendices 199 Appendix A. Instruction Set - Alphabetical List 201 Appendix B. The SysTick Timer 209 Appendix C. Example of a "Bootstrap" File 217 Appendix D. The GNU Assembler 227 Bibliography 239 Index 241
Preface ix Chapter 1. Overview of Cortex-M3 Architecture 1 1.1. Assembly language versus the assembler 1 1.2. The world of ARM 2 Chapter 2. The Core of Cortex-M3 15 2.1. Modes, privileges and states 15 2.2. Registers 17 Chapter 3. The Proper Use of Assembly Directives 25 3.1. The concept of the directive 25 3.2. Structure of a program 27 3.3. A section of code 29 3.4. The data section 36 3.5. Is that all? 39 Chapter 4. Operands of Instructions 47 4.1. The constant and renaming 48 4.2. Operands for common instructions 49 4.3. Memory access operands: addressing modes 57 Chapter 5. Instruction Set 63 5.1. Reading guide 63 5.2. Arithmetic instructions 66 5.3. Logical and bit manipulation instructions 70 5.4. Internal transfer instructions 75 5.5. Test instructions 76 5.6. Branch instructions 77 5.7. Load/store instructions 80 5.8. "System" instructions and others 85 Chapter 6. Algorithmic and Data Structures 87 6.1. Flowchart versus algorithm 87 6.2. Alternative structures 89 6.3. Iterative structures 98 6.4. Compound conditions 106 6.5. Data structure 111 Chapter 7. Internal Modularity 119 7.1. Detailing the concept of procedure 119 7.2. Procedure arguments 123 7.3. Local data 136 Chapter 8. Managing Exceptions 147 8.1. What happens during Reset? 148 8.2. Possible exceptions 151 8.3. Priority management 161 8.4. Entry and return in exception processing 167 Chapter 9. From Listing to Executable: External Modularity 173 9.1. External modularity 175 9.2. The role of the assembler 182 9.3. The role of the linker 188 9.4. The loader and the debugging unit 196 Appendices 199 Appendix A. Instruction Set - Alphabetical List 201 Appendix B. The SysTick Timer 209 Appendix C. Example of a "Bootstrap" File 217 Appendix D. The GNU Assembler 227 Bibliography 239 Index 241
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