Beschreibung:
Godfrey Nolan is president of RIIS LLC, where he specializes in website optimization. He has written numerous articles for magazines and newspapers in the United States, the United Kingdom, and Ireland. Nolan has had a healthy obsession with reverse engineering bytecode since he wrote Decompile Once, Run Anywhere, which first appeared in Web Techniques in September 1997.
Both Java and .NET use the idea of a "virtual machine," or VM. And while VMs are useful for some purposes, they undermine the security of your source code, because creation can be reversed, or decompiled. Which makes this one-of-a-kind book extremely useful: you must understand decompilation, to properly protect your intellectual property.
For example, how secure is your code after you run an obfuscator? The book will answer questions like this, and provide more thorough information about Java byte codes and the Java Virtual Machine (JVM) than any other book on the market. This book redresses the imbalance by providing insights into the features and limitations of today's decompilers and obfuscators, and offering a detailed look at what JVMs actually do.
Includes complete decompiler source
Includes complete obfuscator source
Includes a comprehensive chapter on strategies for protecting your code
Covers the basic theory behind many of the decompilers and obfuscators available on the market
Both Java and .NET use the idea of a "virtual machine" (VM) rather than a true executable. While very useful for some purposes, VMs make your source code and hence your intellectual property (IP) inherently less secure because the process can be reversed or "decompiled". This book is useful because you must understand how decompilation works in order to properly protect your IP. Anyone interested in protecting Java code from prying eyes will want to buy this one of a kind book as it separates fact from fiction about just how ineffective obfuscators are at protecting your corporate secrets.
Introduction; Inside the Class File; Tools of the Trade; Obfuscation (Theory and Practice); Decompiler Design; Decompiler Implementation; Future Proof.