文件名称:一步一步学习linux汇编语言程序设计
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linux 汇编语言
中文名: 一步一步学习linux汇编语言程序设计 原名: Assembly Language Step-by-Step - Programming with Linux, 作者: Jeff Duntemann 资源格式: PDF 版本: 第三版 出版社: Wiley Publishing,Inc书号: 978-0-470-49702-9发行时间: 2009年10月 地区: 美国 语言: 英文 简介: Jeff Duntemann "Assembly Language Step-by-Step: Programming with Linux, 3rd Edition" October 2009 | English | ISBN-13: 978-0-470-49702-9 | 645 Pages | PDF | 6.65 MB 这本大家期待已久的畅销书的新版本是介绍x86汇编语言的书籍 The eagerly anticipated new edition of the bestselling introduction to x86 assembly language 这本大家等待已久的新版本的介绍汇编语言的畅销书已经完成,它被重写并且集中于32位的保护模式linux 和*的NASM汇编语言编辑器。汇编语言是起人类的思想和纯硅头脑的计算机沟通的桥梁,并且很受欢迎的作者jeff dunteman仍然保留这他那独特的令人愉悦的写作风格并呈现在一步一步接近这最难懂的技术规则。 The long-awaited third edition of thjis bestselling introduction to assembly language has been completely rewritten to focus on 32-bit protected-mode Linux and the free NASM assembler. Assembly is the fundamental language bridging human ideas and the pure silicon hearts of computers, and popular author Jeff Dunteman retains his distinctive lighthearted style as he presents a step-by-step approach to this difficult technical discipline. 作者开篇,从最编程基础开始介绍:2进制和16进制系统,英特尔x86计算机构架,和linux下的软件开发过程。在刺激初上他系统地介绍了x86指令集,内存编址,编程过程,宏,和linux之上的 c 语言库接口 He starts at the very beginning, explaining the basic ideas of programmable computing, the binary and hexadecimal number systems, the Intel x86 computer architecture, and the process of software development under Linux. From that foundation he systematically treats the x86 instruction set, memory addressing, procedures, macros, and interface to the C-language code libraries upon which Linux itself is built. 遵从于介绍x86汇编概念的想法,着眼于从理解cpu运作来学习汇编语言 Serves as an ideal introduction to x86 computing concepts, as demonstrated by the only language directly understood by the CPU itself 使用易于理解,谈话式的风格来面向假设读者没有任何语言经验的人讲解。 Uses an approachable, conversational style that assumes no prior experience in programming of any kind Presents x86 architecture and assembly concepts through a cumulative tutorial approach that is ideal for self-paced instruction Focuses entirely on free, open-source software, including Ubuntu Linux, the NASM assembler, the Kate editor, and the Gdb/Insight debugger. Includes an x86 instruction set reference for the most common machine instructions, specifically tailored for use by programming beginners Woven into the presentation are plenty of assembly code examples, plus practical tips on software design, coding, testing, and debugging, all using free, open-source software that may be downloaded without charge from the Internet. Assembly Language Step-by-Step: Programming with Linux, 3rd Edition 目录: Contents Introduction: ‘‘Why Would You Want to Do That?’’ xxvii Chapter 1 Another Pleasant Valley Saturday 1 It’s All in the Plan 1 Steps and Tests 2 More Than Two Ways? 3 Computers Think Like Us 4 Had This Been the Real Thing . . . 4 Do Not Pass Go 5 The Game of Big Bux 6 Playing Big Bux 8 Assembly Language Programming As a Board Game 9 Code and Data 10 Addresses 11 Metaphor Check! 12 Chapter 2 Alien Bases 15 The Return of the New Math Monster 15 Counting in Martian 16 Dissecting a Martian Number 18 The Essence of a Number Base 20 Octal: How the Grinch Stole Eight and Nine 20 Who Stole Eight and Nine? 21 Hexadecimal: Solving the Digit Shortage 24 From Hex to Decimal and from Decimal to Hex 28 From Hex to Decimal 28 From Decimal to Hex 29 Practice. Practice! PRACTICE! 31 xv xvi Contents Arithmetic in Hex 32 Columns and Carries 35 Subtraction and Borrows 35 Borrows across Multiple Columns 37 What’s the Point? 38 Binary 38 Values in Binary 40 Why Binary? 42 Hexadecimal As Shorthand for Binary 43 Prepare to Compute 44 Chapter 3 Lifting the Hood 45 RAXie, We Hardly Knew Ye . . . 45 Gus to the Rescue 46 Switches, Transistors, and Memory 47 One If by Land . . . 48 Transistor Switches 48 The Incredible Shrinking Bit 50 Random Access 52 Memory Access Time 53 Bytes, Words, Double Words, and Quad Words 54 Pretty Chips All in a Row 55 The Shop Foreman and the Assembly Line 57 Talking to Memory 58 Riding the Data Bus 59 The Foreman’s Pockets 60 The Assembly Line 61 The Box That Follows a Plan 61 Fetch and Execute 63 The Foreman’s Innards 64 Changing Course 65 What vs. How: Architecture and Microarchitecture 66 Evolving Architectures 67 The Secret Machinery in the Basement 68 Enter the Plant Manager 70 Operating Systems: The Corner Office 70 BIOS: Software, Just Not as Soft 71 Multitasking Magic 71 Promotion to Kernel 73 The Core Explosion 73 The Plan 74 Contents xvii Chapter 4 Location, Location, Location 77 The Joy of Memory Models 77 16 Bits’ll Buy You 64K 79 The Nature of a Megabyte 82 Backward Compatibility and Virtual 86 Mode 83 16-Bit Blinders 83 The Nature of Segments 85 A Horizon, Not a Place 88 Making 20-Bit Addresses out of 16-Bit Registers 88 16-Bit and 32-Bit Registers 90 General-Purpose Registers 91 Register Halves 93 The Instruction Pointer 95 The Flags Register 96 The Three Major Assembly Programming Models 96 Real Mode Flat Model 97 Real Mode Segmented Model 99 Protected Mode Flat Model 101 What Protected Mode Won’t Let Us Do Anymore 104 Memory-Mapped Video 104 Direct Access to Port Hardware 105 Direct Calls into the BIOS 106 Looking Ahead: 64-Bit ‘‘Long Mode’’ 106 64-Bit Memory: What May Be Possible Someday vs. What We Can Do Now 107 Chapter 5 The Right to Assemble 109 Files and What’s Inside Them 110 Binary Files vs. Text Files 111 Looking at File Internals with the Bless Editor 112 Interpreting Raw Data 116 ‘‘Endianness’’ 117 Text In, Code Out 121 Assembly Language 121 Comments 124 Beware ‘‘Write-Only’’ Source Code! 124 Object Code and Linkers 125 Relocatability 128 The Assembly Language Development Process 128 The Discipline of Working Directories 129 Editing the Source Code File 131 xviii Contents Assembling the Source Code File 131 Assembler Errors 132 Back to the Editor 133 Assembler Warnings 134 Linking the Object Code File 135 Linker Errors 136 Testing the .EXE File 136 Errors versus Bugs 137 Are We There Yet? 138 Debuggers and Debugging 138 Taking a Trip Down Assembly Lane 139 Installing the Software 139 Step 1: Edit the Program in an Editor 142 Step 2: Assemble the Program with NASM 143 Step 3: Link the Program with LD 146 Step 4: Test the Executable File 147 Step 5: Watch It Run in the Debugger 147 Ready to Get Serious? 153 Chapter 6 A Place to Stand, with Access to Tools 155 The Kate Editor 157 Installing Kate 157 Launching Kate 158 Configuration 160 Kate Sessions 162 Creating a New Session 162 Opening an Existing Session 163 Deleting or Renaming Sessions 163 Kate’s File Management 164 Filesystem Browser Navigation 165 Adding a File to the Current Session 165 Dropping a File from the Current Session 166 Switching Between Session Files in the Editor 166 Creating a Brand-New File 166 Creating a Brand-New Folder on Disk 166 Deleting a File from Disk (Move File to Trash) 166 Reloading a File from Disk 167 Saving All Unsaved Changes in Session Files 167 Printing the File in the Editor Window 167 Exporting a File As HTML 167 Adding Items to the Toolbar 167 Kate’s Editing Controls 168 Cursor Movement 169 Bookmarks 169 Selecting Text 170 Contents xix Searching the Text 171 Using Search and Replace 172 Using Kate While Programming 172 Creating and Using Project Directories 173 Focus! 175 Linux and Terminals 176 The Linux Console 176 Character Encoding in Konsole 177 The Three Standard Unix Files 178 I/O Redirection 180 Simple Text Filters 182 Terminal Control with Escape Sequences 183 So Why Not GUI Apps? 185 Using Linux Make 186 Dependencies 187 When a File Is Up to Date 189 Chains of Dependencies 189 Invoking Make from Inside Kate 191 Using Touch to Force a Build 193 The Insight Debugger 194 Running Insight 195 Insight’s Many Windows 195 A Quick Insight Run-Through 197 Pick Up Your Tools . . . 200 Chapter 7 Following Your Instructions 201 Build Yourself a Sandbox 201 A Minimal NASM Program 202 Instructions and Their Operands 204 Source and Destination Operands 204 Immediate Data 205 Register Data 207 Memory Data 209 Confusing Data and Its Address 210 The Size of Memory Data 211 The Bad Old Days 211 Rally Round the Flags, Boys! 212 Flag Etiquette 215 Adding and Subtracting One with INC and DEC 215 Watching Flags from Insight 216 How Flags Change Program Execution 218 Signed and Unsigned Values 221 Two’s Complement and NEG 221 Sign Extension and MOVSX 224 xx Contents Implicit Operands and MUL 225 MUL and the Carry Flag 227 Unsigned Division with DIV 228 The x86 Slowpokes 229 Reading and Using an Assembly Language Reference 230 Memory Joggers for Complex Memories 230 An Assembly Language Reference for Beginners 231 Flags 232 NEG: Negate (Two’s Complement; i.e., Multiply by -1) 233 Flags affected 233 Legal forms 233 Examples 233 Notes 233 Legal Forms 234 Operand Symbols 234 Examples 235 235 Notes What’s Not Here . . . 235 Chapter 8 Our Object All Sublime 237 The Bones of an Assembly Language Program 237 The Initial Comment Block 239 The .data Section 240 The .bss Section 240 The .text Section 241 Labels 241 Variables for Initialized Data 242 String Variables 242 244 Deriving String Length with EQU and $ Last In, First Out via the Stack 246 Five Hundred Plates per Hour 246 Stacking Things Upside Down 248 Push-y Instructions 249 POP Goes the Opcode 251 Storage for the Short Term 253 Using Linux Kernel Services Through INT80 254 An Interrupt That Doesn’t Interrupt Anything 254 Getting Home Again 259 Exiting a Program via INT 80h 260 Software Interrupts versus Hardware Interrupts 261 INT 80h and the Portability Fetish 262 Designing a Non-Trivial Program 264 Defining the Problem 264 Starting with Pseudo-code 265 Contents xxi Successive Refinement 266 Those Inevitable ‘‘Whoops!’’ Moments 270 Scanning a Buffer 271 ‘‘Off By One’’ Errors 273 Going Further 277 Chapter 9 Bits, Flags, Branches, and Tables 279 Bits Is Bits (and Bytes Is Bits) 279 Bit Numbering 280 ‘‘It’s the Logical Thing to Do, Jim. . .’’ 280 The AND Instruction 281 Masking Out Bits 282 The OR Instruction 283 The XOR Instruction 284 The NOT Instruction 285 Segment Registers Don’t Respond to Logic! 285 Shifting Bits 286 Shift By What? 286 How Bit Shifting Works 287 Bumping Bits into the Carry Flag 287 The Rotate Instructions 288 Setting a Known Value into the Carry Flag 289 Bit-Bashing in Action 289 Splitting a Byte into Two Nybbles 292 Shifting the High Nybble into the Low Nybble 293 Using a Lookup Table 293 Multiplying by Shifting and Adding 295 Flags, Tests, and Branches 298 Unconditional Jumps 298 Conditional Jumps 299 Jumping on the Absence of a Condition 300 Flags 301 Comparisons with CMP 301 A Jungle of Jump Instructions 302 ‘‘Greater Than‘‘ Versus ’’Above’’ 303 Looking for 1-Bits with TEST 304 306 Looking for 0 Bits with BT Protected Mode Memory Addressing in Detail 307 Effective Address Calculations 308 Displacements 309 Base + Displacement Addressing 310 Base + Index Addressing 310 Index × Scale + Displacement Addressing 312 Other Addressing Schemes 313 xxii Contents LEA: The Top-Secret Math Machine 315 The Burden of 16-Bit Registers 317 Character Table Translation 318 Translation Tables 318 Translating with MOV or XLAT 320 Tables Instead of Calculations 325 Chapter 10 Dividing and Conquering 327 Boxes within Boxes 328 Procedures As Boxes for Code 329 Calling and Returning 336 Calls within Calls 338 The Dangers of Accidental Recursion 340 A Flag Etiquette Bug to Beware Of 341 Procedures and the Data They Need 342 Saving the Caller’s Registers 343 Local Data 346 More Table Tricks 347 Placing Constant Data in Procedure Definitions 349 Local Labels and the Lengths of Jumps 350 ’’Forcing’’ Local Label Access 353 Short, Near, and Far Jumps 354 Building External Procedure Libraries 355 Global and External Declarations 356 The Mechanics of Globals and Externals 357 Linking Libraries into Your Programs 365 The Dangers of Too Many Procedures and Too Many Libraries 366 The Art of Crafting Procedures 367 Maintainability and Reuse 367 Deciding What Should Be a Procedure 368 Use Comment Headers! 370 Simple Cursor Control in the Linux Console 371 Console Control Cautions 377 Creating and Using Macros 378 The Mechanics of Macro Definition 379 Defining Macros with Parameters 385 The Mechanics of Invoking Macros 386 Local Labels Within Macros 387 Macro Libraries As Include Files 388 Macros versus Procedures: Pros and Cons 389 Contents xxiii Chapter 11 Strings and Things 393 The Notion of an Assembly Language String 393 Turning Your ‘‘String Sense’’ Inside-Out 394 Source Strings and Destination Strings 395 A Text Display Virtual Screen 395 REP STOSB, the Software Machine Gun 402 Machine-Gunning the Virtual Display 403 Executing the STOSB Instruction 404 STOSB and the Direction Flag (DF) 405 Defining Lines in the Display Buffer 406 Sending the Buffer to the Linux Console 406 The Semiautomatic Weapon: STOSB without REP 407 Who Decrements ECX? 407 The LOOP Instructions 408 Displaying a Ruler on the Screen 409 MUL Is Not IMUL 410 Adding ASCII Digits 411 Adjusting AAA’s Adjustments 413 Ruler’s Lessons 414 16-bit and 32-bit Versions of STOS 414 MOVSB: Fast Block Copies 414 DF and Overlapping Block Moves 416 Single-Stepping REP String Instructions with Insight 418 Storing Data to Discontinuous Strings 419 Displaying an ASCII Table 419 Nested Instruction Loops 420 Jumping When ECX Goes to 0 421 Closing the Inner Loop 421 Closing the Outer Loop 422 Showchar Recap 423 Command-Line Arguments and Examining the Stack 424 Virtual Memory in Two Chunks 424 Anatomy of the Linux Stack 427 Why Stack Addresses Aren’t Predictable 429 Setting Command-Line Arguments with Insight 429 Examining the Stack with Insight’s Memory View 430 String Searches with SCASB 432 REPNE vs. REPE 435 Pop the Stack or Address It? 436 For Extra Credit . . . 438 xxiv Contents Chapter 12 Heading Out to C 439 What’s GNU? 440 The Swiss Army Compiler 441 Building Code the GNU Way 441 How to Use gcc in Assembly Work 443 Why Not gas? 444 Linking to the Standard C Library 445 C Calling Conventions 446 A Framework to Build On 447 Saving and Restoring Registers 447 Setting Up a Stack Frame 448 Destroying a Stack Frame 450 Characters Out via puts() 451 Formatted Text Output with printf() 452 Passing Parameters to printf() 454 Data In with fgets() and scanf() 456 Using scanf() for Entry of Numeric Values 458 Be a Time Lord 462 The C Library’s Time Machine 462 Fetching time_t Values from the System Clock 464 Converting a time_t Value to a Formatted String 464 Generating Separate Local Time Values 465 Making a Copy of glibc’s tm Struct with MOVSD 466 Understanding AT&T Instruction Mnemonics 470 AT&T Mnemonic Conventions 470 Examining gas Source Files Created by gcc 471 AT&T Memory Reference Syntax 474 Generating Random Numbers 475 Seeding the Generator with srand() 476 Generating Pseudorandom Numbers 477 Some Bits Are More Random Than Others 482 Calls to Addresses in Registers 483 How C Sees Command-Line Arguments 484 Simple File I/O 487 Converting Strings into Numbers with sscanf() 487 Creating and Opening Files 489 Reading Text from Files with fgets() 490 Writing Text to Files with fprintf() 493 Notes on Gathering Your Procedures into Libraries 494 Conclusion: Not the End, But Only the Beginning 503 Where to Now? 504 Stepping off Square One 506 Contents xxv Appenix A Partial x86 Instruction Set Reference 507 Notes on the Instruction Set Reference 510 AAA: Adjust AL after BCD Addition 512 ADC: Arithmetic Addition with Carry 513 ADD: Arithmetic Addition 515 AND: Logical AND 517 BT: Bit Test 519 CALL: Call Procedure 521 CLC: Clear Carry Flag (CF) 523 CLD: Clear Direction Flag (DF) 524 CMP: Arithmetic Comparison 525 DEC: Decrement Operand 527 DIV: Unsigned Integer Division 528 INC: Increment Operand 529 INT: Software Interrupt 530 531 IRET: Return from Interrupt J?: Jump on Condition 532 JCXZ: Jump If CX=0 534 JECXZ: Jump If ECX=0 535 536 JMP: Unconditional Jump LEA: Load Effective Address 537 LOOP: Loop until CX/ECX=0 538 LOOPNZ/LOOPNE: Loop While CX/ECX > 0 and ZF=0 540 LOOPZ/LOOPE: Loop While CX/ECX > 0 and ZF=1 541 MOV: Move (Copy) Right Operand into Left Operand 542 544 MOVS: Move String MOVSX: Move (Copy) with Sign Extension 546 MUL: Unsigned Integer Multiplication 547 NEG: Negate (Two’s Complement; i.e., Multiply by -1) 549 NOP: No Operation 550 NOT: Logical NOT (One’s Complement) 551 OR: Logical OR 552 POP: Pop Top of Stack into Operand 554 POPA/POPAD: Pop All GP Registers 555 POPF: Pop Top of Stack into 16-Bit Flags 556 POPFD: Pop Top of Stack into EFlags 557 PUSH: Push Operand onto Top of Stack 558 PUSHA: Push All 16-Bit GP Registers 559 PUSHAD: Push All 32-Bit GP Registers 560 PUSHF: Push 16-Bit Flags onto Stack 561 PUSHFD: Push 32-Bit EFlags onto Stack 562 RET: Return from Procedure 563 ROL: Rotate Left 564 xxvi Contents ROR: Rotate Right 566 SBB: Arithmetic Subtraction with Borrow 568 SHL: Shift Left 570 SHR: Shift Right 572 STC: Set Carry Flag (CF) 574 STD: Set Direction Flag (DF) 575 STOS: Store String 576 SUB: Arithmetic Subtraction 577 XCHG: Exchange Operands 579 XLAT: Translate Byte via Table 580 XOR: Exclusive Or 581 Appendix B Character Set Charts 583 Index 587