Multiplayer Game Programming - Sanjay Madhav, Josh Glazer

Multiplayer Game Programming

Architecting Networked Games
Buch | Softcover
384 Seiten
2016
Addison Wesley (Verlag)
978-0-13-403430-0 (ISBN)
67,30 inkl. MwSt
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Multiplayer Game Programming is a detailed investigation of networked multiplayer game engineering. A guided tour through the trials and challenges of building a robust multiplayer architecture, this book provides explanations and in-depth working examples of all the engine-level systems needed in a multiplayer game.
The Practical Guide to Building Reliable Networked Multiplayer Games

Networked multiplayer games are a multibillion dollar business: some games now attract tens of millions of players. In this practical, code-rich guide, Joshua Glazer and Sanjay Madhav guide you through every aspect of engineering them. Drawing on their immense experience as both game developers and instructors, the authors lead you through building a robust multiplayer architecture, and creating every engine-level system. You’ll learn through in-depth working code examples for two complete games: an action game and a real time strategy (RTS) game.

First, Madhav and Glazer review the essentials of networking and network programming from the standpoint of game developers. Next, they walk through managing game data transmission, updating game objects across the network, and organizing the devices that join your game. You’ll learn how to ensure reliable performance despite the Internet’s inherent inconsistencies, and how to design game code for maximum security and scalability. The authors conclude by addressing two increasingly crucial issues: incorporating gamer services and hosting your games in the cloud.

This guide’s content has been extensively tested through the authors’ multiplayer game programming courses at USC. It is equally valuable both to students and to working game programmers moving into networked games.

Coverage includes



How games have evolved to meet the challenges of networked environments
Using Internet communication protocols and standards in game development
Working with Berkeley Socket, the most widely used networking construct in multiplayer gaming
Formatting game data for efficient Internet transmission
Synchronizing states so all players share the same world
Organizing networking topologies for large-scale games
Overcoming latency and jitter problems that cause delays or lost data
Scaling games without compromising performance
Combating security vulnerabilities and software cheats
Leveraging the networking functionality of the popular Unreal 4 and Unity game engines
Integrating gamer services such as matchmaking, achievements, and leaderboards
Running game servers in the cloud

About the Website C++ source code for all examples is available at github.com/MultiplayerBook. Instructors will also find a full set of PowerPoint slides and a sample syllabus.

Joshua Glazer is a cofounder and CTO of Naked Sky Entertainment, the independent development studio behind console and PC games such as RoboBlitz, MicroBot, Twister Mania, and more recently, the mobile hits Max Axe and Scrap Force. As a leader of the Naked Sky team, he has consulted on several external projects including Epic Games’ Unreal Engine, Riot Games’ League of Legends, THQ’s Destroy All Humans franchise, and numerous other projects for Electronic Arts, Midway, Microsoft, and Paramount Pictures. Joshua is also a part-time lecturer at the University of Southern California, where he has enjoyed teaching courses in multiplayer game programming and game engine development. Sanjay Madhav is a senior lecturer at the University of Southern California, where he teaches several programming and video game programming courses. His flagship course is an undergraduate-level game programming course that he has taught since 2008, but he has taught several other course topics, including game engines, data structures, and compiler development. He is also the author of Game Programming Algorithms and Techniques. Prior to joining USC, Sanjay worked as a programmer at several video game developers, including Electronic Arts, Neversoft, and Pandemic Studios. His credited games include Medal of Honor: Pacific Assault, Tony Hawk’s Project 8, Lord of the Rings: Conquest, and The Saboteur—most of which had networked multiplayer in one form or another.

Chapter 1: Overview of Networked Games 1

A Brief History of Multiplayer Games 2

Starsiege: Tribes 5

Age of Empires 10

Summary 13

Review Questions 14

Additional Readings 14

Chapter 2: The Internet 15

Origins: Packet Switching 16

The TCP/IP Layer Cake 17

The Physical Layer 19

The Link Layer 19

The Network Layer 23

The Transport Layer 39

The Application Layer 52

NAT 53

Summary 60

Review Questions 61

Additional Readings 62

Chapter 3: Berkeley Sockets 65

Creating Sockets 66

API Operating System Differences 68

Socket Address 71

UDP Sockets 79

TCP Sockets 83

Blocking and Non-Blocking I/O 88

Additional Socket Options 96

Summary 98

Review Questions 98

Additional Readings 99

Chapter 4: Object Serialization 101

The Need for Serialization 102

Streams 105

Referenced Data 119

Compression 124

Maintainability 130

Summary 136

Review Questions 136

Additional Readings 137

Chapter 5: Object Replication 139

The State of the World 140

Replicating an Object 140

Naïve World State Replication 148

Changes in World State 152

RPCs as Serialized Objects 159

Custom Solutions 162

Summary 163

Review Questions 163

Additional Readings 164

Chapter 6: Network Topologies and Sample Games 165

Network Topologies 166

Implementing Client-Server 170

Implementing Peer-to-Peer 182

Summary 196

Review Questions 197

Additional Reading 197

Chapter 7: Latency, Jitter, and Reliability 199

Latency 200

Jitter 204

Packet Loss 206

Reliability: TCP or UDP? 207

Packet Delivery Notification 209

Object Replication Reliability 221

Simulating Real-World Conditions 228

Summary 230

Review Questions 231

Additional Readings 232

Chapter 8: Improved Latency Handling 233

The Dumb Terminal Client 234

Client Side Interpolation 236

Client Side Prediction 238

Server Side Rewind 248

Summary 249

Review Questions 250

Additional Readings 251

Chapter 9: Scalability 253

Object Scope and Relevancy 254

Server Partitioning 260

Instancing 262

Prioritization and Frequency 263

Summary 263

Review Questions 264

Additional Readings 264

Chapter 10: Security 265

Packet Sniffing 266

Input Validation 270

Software Cheat Detection 271

Securing the Server 274

Summary 277

Review Questions 278

Additional Readings 278

Chapter 11: Real-World Engines 279

Unreal Engine 4 280

Unity 284

Summary 287

Review Questions 288

Additional Readings 288

Chapter 12: Gamer Services 289

Choosing a Gamer Service 290

Basic Setup 290

Lobbies and Matchmaking 294

Networking 298

Player Statistics 300

Player Achievements 305

Leaderboards 307

Other Services 308

Summary 309

Review Questions 310

Additional Readings 310

Chapter 13: Cloud Hosting Dedicated Servers 311

To Host or Not To Host 312

Tools of the Trade 313

Overview and Terminology 315

Local Server Process Manager 318

Virtual Machine Manager 324

Summary 333

Review Questions 334

Additional Readings 334

Appendix A: A Modern C++ Primer 337

C++11 338

References 339

Templates 341

Smart Pointers 343

STL Containers 347

Iterators 350

Additional Readings 351

Index 353

Erscheint lt. Verlag 5.1.2016
Reihe/Serie Game Design
Verlagsort Boston
Sprache englisch
Maße 179 x 227 mm
Gewicht 590 g
Themenwelt Informatik Software Entwicklung Spieleprogrammierung
ISBN-10 0-13-403430-9 / 0134034309
ISBN-13 978-0-13-403430-0 / 9780134034300
Zustand Neuware
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