Operating System Concepts 10th Edition

【实例简介】Operating System Concepts 10th Edition

操作系统概念英文版第10版，很经典

【核心代码】

Contents
PART ONE OVERVIEW
Chapter 1 Introduction
1.1 What Operating Systems Do 4
1.2 Computer-System Organization 7
1.3 Computer-System Architecture 15
1.4 Operating-System Operations 21
1.5 Resource Management 27
1.6 Security and Protection 33
1.7 Virtualization 34
1.8 Distributed Systems 35
1.9 Kernel Data Structures 36
1.10 Computing Environments 40
1.11 Free and Open-Source Operating
Systems 46
Practice Exercises 53
Further Reading 54
Chapter 2 Operating-System Structures
2.1 Operating-System Services 55
2.2 User and Operating-System
Interface 58
2.3 System Calls 62
2.4 System Services 74
2.5 Linkers and Loaders 75
2.6 Why Applications Are
Operating-System Specific 77
2.7 Operating-System Design and
Implementation 79
2.8 Operating-System Structure 81
2.9 Building and Booting an Operating
System 92
2.10 Operating-System Debugging 95
2.11 Summary 100
Practice Exercises 101
Further Reading 101
PART TWO PROCESS MANAGEMENT
Chapter 3 Processes
3.1 Process Concept 106
3.2 Process Scheduling 110
3.3 Operations on Processes 116
3.4 Interprocess Communication 123
3.5 IPC in Shared-Memory Systems 125
3.6 IPC in Message-Passing Systems 127
3.7 Examples of IPC Systems 132
3.8 Communication in Client–
Server Systems 145
3.9 Summary 153
Practice Exercises 154
Further Reading 156
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Chapter 4 Threads & Concurrency
4.1 Overview 160
4.2 Multicore Programming 162
4.3 Multithreading Models 166
4.4 Thread Libraries 168
4.5 Implicit Threading 176
4.6 Threading Issues 188
4.7 Operating-System Examples 194
4.8 Summary 196
Practice Exercises 197
Further Reading 198
Chapter 5 CPU Scheduling
5.1 Basic Concepts 200
5.2 Scheduling Criteria 204
5.3 Scheduling Algorithms 205
5.4 Thread Scheduling 217
5.5 Multi-Processor Scheduling 220
5.6 Real-Time CPU Scheduling 227
5.7 Operating-System Examples 234
5.8 Algorithm Evaluation 244
5.9 Summary 250
Practice Exercises 251
Further Reading 254
PART THREE PROCESS SYNCHRONIZATION
Chapter 6 Synchronization Tools
6.1 Background 257
6.2 The Critical-Section Problem 260
6.3 Peterson’s Solution 262
6.4 Hardware Support for
Synchronization 265
6.5 Mutex Locks 270
6.6 Semaphores 272
6.7 Monitors 276
6.8 Liveness 283
6.9 Evaluation 284
6.10 Summary 286
Practice Exercises 287
Further Reading 288
Chapter 7 Synchronization Examples
7.1 Classic Problems of
Synchronization 289
7.2 Synchronization within the Kernel 295
7.3 POSIX Synchronization 299
7.4 Synchronization in Java 303
7.5 Alternative Approaches 311
7.6 Summary 314
Practice Exercises 314
Further Reading 315
Chapter 8 Deadlocks
8.1 System Model 318
8.2 Deadlock in Multithreaded
Applications 319
8.3 Deadlock Characterization 321
8.4 Methods for Handling Deadlocks 326
8.5 Deadlock Prevention 327
8.6 Deadlock Avoidance 330
8.7 Deadlock Detection 337
8.8 Recovery from Deadlock 341
8.9 Summary 343
Practice Exercises 344
Further Reading 346
Contents ?????
PART FOUR MEMORY MANAGEMENT
Chapter 9 Main Memory
9.1 Background 349
9.2 Contiguous Memory Allocation 356
9.3 Paging 360
9.4 Structure of the Page Table 371
9.5 Swapping 376
9.6 Example: Intel 32- and 64-bit
Architectures 379
9.7 Example: ARMv8 Architecture 383
9.8 Summary 384
Practice Exercises 385
Further Reading 387
Chapter 10 Virtual Memory
10.1 Background 389
10.2 Demand Paging 392
10.3 Copy-on-Write 399
10.4 Page Replacement 401
10.5 Allocation of Frames 413
10.6 Thrashing 419
10.7 Memory Compression 425
10.8 Allocating Kernel Memory 426
10.9 Other Considerations 430
10.10 Operating-System Examples 436
10.11 Summary 440
Practice Exercises 441
Further Reading 444
PART FIVE STORAGE MANAGEMENT
Chapter 11 Mass-Storage Structure
11.1 Overview of Mass-Storage
Structure 449
11.2 HDD Scheduling 457
11.3 NVM Scheduling 461
11.4 Error Detection and Correction 462
11.5 Storage Device Management 463
11.6 Swap-Space Management 467
11.7 Storage Attachment 469
11.8 RAID Structure 473
11.9 Summary 485
Practice Exercises 486
Further Reading 487
Chapter 12 I/O Systems
12.1 Overview 489
12.2 I/O Hardware 490
12.3 Application I/O Interface 500
12.4 Kernel I/O Subsystem 508
12.5 Transforming I/O Requests to
Hardware Operations 516
12.6 STREAMS 519
12.7 Performance 521
12.8 Summary 524
Practice Exercises 525
Further Reading 526
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PART SIX FILE SYSTEM
Chapter 13 File-System Interface
13.1 File Concept 529
13.2 Access Methods 539
13.3 Directory Structure 541
13.4 Protection 550
13.5 Memory-Mapped Files 555
13.6 Summary 560
Practice Exercises 560
Further Reading 561
Chapter 14 File-System Implementation
14.1 File-System Structure 564
14.2 File-System Operations 566
14.3 Directory Implementation 568
14.4 Allocation Methods 570
14.5 Free-Space Management 578
14.6 Efficiency and Performance 582
14.7 Recovery 586
14.8 Example: The WAFL File System 589
14.9 Summary 593
Practice Exercises 594
Further Reading 594
Chapter 15 File-System Internals
15.1 File Systems 597
15.2 File-System Mounting 598
15.3 Partitions and Mounting 601
15.4 File Sharing 602
15.5 Virtual File Systems 603
15.6 Remote File Systems 605
15.7 Consistency Semantics 608
15.8 NFS 610
15.9 Summary 615
Practice Exercises 616
Further Reading 617
PART SEVEN SECURITY AND PROTECTION
Chapter 16 Security
16.1 The Security Problem 621
16.2 Program Threats 625
16.3 System and Network Threats 634
16.4 Cryptography as a Security Tool 637
16.5 User Authentication 648
16.6 Implementing Security Defenses 653
16.7 An Example: Windows 10 662
16.8 Summary 664
Further Reading 665
Chapter 17 Protection
17.1 Goals of Protection 667
17.2 Principles of Protection 668
17.3 Protection Rings 669
17.4 Domain of Protection 671
17.5 Access Matrix 675
17.6 Implementation of the Access
Matrix 679
17.7 Revocation of Access Rights 682
17.8 Role-Based Access Control 683
17.9 Mandatory Access Control
(MAC) 684
17.10 Capability-Based Systems 685
17.11 Other Protection Improvement
Methods 687
17.12 Language-Based Protection 690
17.13 Summary 696
Further Reading 697
Contents ???
PART EIGHT ADVANCED TOPICS
Chapter 18 Virtual Machines
18.1 Overview 701
18.2 History 703
18.3 Benefits and Features 704
18.4 Building Blocks 707
18.5 Types of VMs and Their
Implementations 713
18.6 Virtualization and Operating-System
Components 719
18.7 Examples 726
18.8 Virtualization Research 728
18.9 Summary 729
Further Reading 730
Chapter 19 Networks and Distributed Systems
19.1 Advantages of Distributed
Systems 733
19.2 Network Structure 735
19.3 Communication Structure 738
19.4 Network and Distributed Operating
Systems 749
19.5 Design Issues in Distributed
Systems 753
19.6 Distributed File Systems 757
19.7 DFS Naming and Transparency 761
19.8 Remote File Access 764
19.9 Final Thoughts on Distributed File
Systems 767
19.10 Summary 768
Practice Exercises 769
Further Reading 770
PART NINE CASE STUDIES
Chapter 20 The Linux System
20.1 Linux History 775
20.2 Design Principles 780
20.3 Kernel Modules 783
20.4 Process Management 786
20.5 Scheduling 790
20.6 Memory Management 795
20.7 File Systems 803
20.8 Input and Output 810
20.9 Interprocess Communication 812
20.10 Network Structure 813
20.11 Security 816
20.12 Summary 818
Practice Exercises 819
Further Reading 819
Chapter 21 Windows 10
21.1 History 821
21.2 Design Principles 826
21.3 System Components 838
21.4 Terminal Services and Fast User
Switching 874
21.5 File System 875
21.6 Networking 880
21.7 Programmer Interface 884
21.8 Summary 895
Practice Exercises 896
Further Reading 897
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PART TEN APPENDICES
Chapter A Influentia Operating Systems
A.1 Feature Migration 1
A.2 Early Systems 2
A.3 Atlas 9
A.4 XDS-940 10
A.5 THE 11
A.6 RC 4000 11
A.7 CTSS 12
A.8 MULTICS 13
A.9 IBM OS/360 13
A.10 TOPS-20 15
A.11 CP/M and MS/DOS 15
A.12 Macintosh Operating System and
Windows 16
A.13 Mach 16
A.14 Capability-based Systems—Hydra and
CAP 18
A.15 Other Systems 20
Further Reading 21
Chapter B Windows 7
B.1 History 1
B.2 Design Principles 3
B.3 System Components 10
B.4 Terminal Services and Fast User
Switching 34
B.5 File System 35
B.6 Networking 41
B.7 Programmer Interface 46
B.8 Summary 55
Practice Exercises 55
Further Reading 56
Chapter C BSD UNIX
C.1 UNIX History 1
C.2 Design Principles 6
C.3 Programmer Interface 8
C.4 User Interface 15
C.5 Process Management 18
C.6 Memory Management 22
C.7 File System 25
C.8 I/O System 33
C.9 Interprocess Communication 36
C.10 Summary 41
Further Reading 42
Chapter D The Mach System
D.1 History of the Mach System 1
D.2 Design Principles 3
D.3 System Components 4
D.4 Process Management 7
D.5 Interprocess Communication 13
D.6 Memory Management 18
D.7 Programmer Interface 23
D.8 Summary 24
Further Reading 25
? Credits? 963
Index? ???965