Book Image

Learning Linux Binary Analysis

By : Ryan "elfmaster" O'Neill
5 (1)
Book Image

Learning Linux Binary Analysis

5 (1)
By: Ryan "elfmaster" O'Neill

Overview of this book

Learning Linux Binary Analysis is packed with knowledge and code that will teach you the inner workings of the ELF format, and the methods used by hackers and security analysts for virus analysis, binary patching, software protection and more. This book will start by taking you through UNIX/Linux object utilities, and will move on to teaching you all about the ELF specimen. You will learn about process tracing, and will explore the different types of Linux and UNIX viruses, and how you can make use of ELF Virus Technology to deal with them. The latter half of the book discusses the usage of Kprobe instrumentation for kernel hacking, code patching, and debugging. You will discover how to detect and disinfect kernel-mode rootkits, and move on to analyze static code. Finally, you will be walked through complex userspace memory infection analysis. This book will lead you into territory that is uncharted even by some experts; right into the world of the computer hacker.
Table of Contents (17 chapters)
Learning Linux Binary Analysis
Credits
About the Author
Acknowledgments
About the Reviewers
www.PacktPub.com
Preface
Index

Identifying parasite code characteristics


We just reviewed some common methods for hijacking execution flow. If you can identify where the execution flow points, you can typically identify some or all of the parasite code. In the section Detecting PLT/GOT hooks, we determined the location of the parasite code for the hijacked puts() function by simply locating the PLT/GOT entry that had been modified and seeing where that address pointed to, which, in that case, was to an appended page containing parasite code.

Parasite code can be qualified as code that is unnaturally inserted into the binary; in other words, it wasn't linked in by the actual ELF object linker. With that said, there are several characteristics that can sometimes be attributed to injected code, depending on the techniques used.

Position independent code (PIC) is often used for parasites so that it can be injected into any point of a binary or memory and still execute properly regardless of its position in memory. PIC parasites...