E unibus pluram: massive-scale software diversity as a defense mechanism
Proceedings of the 2010 workshop on New security paradigms
Context-sensitive analysis without calling-context
Higher-Order and Symbolic Computation
Obfuscation by partial evaluation of distorted interpreters
PEPM '12 Proceedings of the ACM SIGPLAN 2012 workshop on Partial evaluation and program manipulation
A novel watermarking method for software protection in the cloud
Software—Practice & Experience
Tracking concept drift in malware families
Proceedings of the 5th ACM workshop on Security and artificial intelligence
Making abstract interpretation incomplete: modeling the potency of obfuscation
SAS'12 Proceedings of the 19th international conference on Static Analysis
Distributed application tamper detection via continuous software updates
Proceedings of the 28th Annual Computer Security Applications Conference
Fast location of similar code fragments using semantic 'juice'
PPREW '13 Proceedings of the 2nd ACM SIGPLAN Program Protection and Reverse Engineering Workshop
A novel obfuscation: class hierarchy flattening
FPS'12 Proceedings of the 5th international conference on Foundations and Practice of Security
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This book gives thorough, scholarly coverage of an area of growing importance in computer security and is a must have for every researcher, student, and practicing professional in software protection. Mikhail Atallah, Distinguished Professor of Computer Science at Purdue University Theory, Techniques, and Tools for Fighting Software Piracy, Tampering, and Malicious Reverse EngineeringThe last decade has seen significant progress in the development of techniques for resisting software piracy and tampering. These techniques are indispensable for software developers seeking to protect vital intellectual property. Surreptitious Software is the first authoritative, comprehensive resource for researchers, developers, and students who want to understand these approaches, the level of security they afford, and the performance penalty they incur.Christian Collberg and Jasvir Nagra bring together techniques drawn from related areas of computer science, including cryptography, steganography, watermarking, software metrics, reverse engineering, and compiler optimization. Using extensive sample code, they show readers how to implement protection schemes ranging from code obfuscation and software fingerprinting to tamperproofing and birthmarking, and discuss the theoretical and practical limitations of these techniques. Coverage includesMastering techniques that both attackers and defenders use to analyze programsUsing code obfuscation to make software harder to analyze and understandFingerprinting software to identify its author and to trace software pirates Tamperproofing software using guards that detect and respond to illegal modifications of code and dataStrengthening content protection through dynamic watermarking and dynamic obfuscation Detecting code theft via software similarity analysis and birthmarking algorithmsUsing hardware techniques to defend software and media against piracy and tampering Detecting software tampering in distributed systemUnderstanding the theoretical limits of code obfuscation