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"It's imperative that everybody working in the field of cyber-security read this book to understand the growing threat of rootkits."
--Mark Russinovich, editor, Windows IT Pro / Windows & .NET Magazine
"This material is not only up-to-date, it defines up-to-date. It is truly cutting-edge. As the only book on the subject, Rootkits will be of interest to any Windows security researcher or security programmer. It's detailed, well researched and the technical information is excellent. The level of technical detail, research, and time invested in developing relevant examples is impressive. In one word: Outstanding."
--Tony Bautts, Security Consultant; CEO, Xtivix, Inc.
"This book is an essential read for anyone responsible for Windows security. Security professionals, Windows system administrators, and programmers in general will want to understand the techniques used by rootkit authors. At a time when many IT and security professionals are still worrying about the latest e-mail virus or how to get all of this month's security patches installed, Mr. Hoglund and Mr. Butler open your eyes to some of the most stealthy and significant threats to the Windows operating system. Only by understanding these offensive techniques can you properly defend the networks and systems for which you are responsible."
--Jennifer Kolde, Security Consultant, Author, and Instructor
"What's worse than being owned? Not knowing it. Find out what it means to be owned by reading Hoglund and Butler's first-of-a-kind book on rootkits. At the apex the malicious hacker toolset--which includes decompilers, disassemblers, fault-injection engines, kernel debuggers, payload collections, coverage tools, and flow analysis tools--is the rootkit. Beginning where Exploiting Software left off, this book shows how attackers hide in plain sight.
"Rootkits are extremely powerful and are the next wave of attack technology. Like other types of malicious code, rootkits thrive on stealthiness. They hide away from standard system observers, employing hooks, trampolines, and patches to get their work done. Sophisticated rootkits run in such a way that other programs that usually monitor machine behavior can't easily detect them. A rootkit thus provides insider access only to people who know that it is running and available to accept commands. Kernel rootkits can hide files and running processes to provide a backdoor into the target machine.
"Understanding the ultimate attacker's tool provides an important motivator for those of us trying to defend systems. No authors are better suited to give you a detailed hands-on understanding of rootkits than Hoglund and Butler. Better to own this book than to be owned."
--Gary McGraw, Ph.D., CTO, Cigital, coauthor of Exploiting Software (2004) and Building Secure Software (2002), both from Addison-Wesley
"Greg and Jamie are unquestionably the go-to experts when it comes to subverting the Windows API and creating rootkits. These two masters come together to pierce the veil of mystery surrounding rootkits, bringing this information out of the shadows. Anyone even remotely interested in security for Windows systems, including forensic analysis, should include this book very high on their must-read list."
--Harlan Carvey, author of Windows Forensics and Incident Recovery (Addison-Wesley, 2005)
Rootkits are the ultimate backdoor, giving hackers ongoing and virtually undetectable access to the systems they exploit. Now, two of the world's leading experts have written the first comprehensive guide to rootkits: what they are, how they work, how to build them, and how to detect them. Rootkit.com's Greg Hoglund and James Butler created and teach Black Hat's legendary course in rootkits. In this book, they reveal never-before-told offensive aspects of rootkit technology--learn how attackers can get in and stay in for years, without detection.
Hoglund and Butler show exactly how to subvert the Windows XP and Windows 2000 kernels, teaching concepts that are easily applied to virtually any modern operating system, from Windows Server 2003 to Linux and UNIX. They teach rootkit programming techniques that can be used for a wide range of software, from white hat security tools to operating system drivers and debuggers.
After reading this book, readers will be able to
The Basics of Rootkits: Leave No Trace
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Preface.
Acknowledgments.
About the Authors.
About the Cover.
1. Leave No Trace.
Understanding Attackers’ Motives.
What Is a Rootkit?
Why Do Rootkits Exist?
How Long Have Rootkits Been Around?
How Do Rootkits Work?
What a Rootkit Is Not.
Rootkits and Software Exploits.
Offensive Rootkit Technologies.
Conclusion.
2. Subverting the Kernel.
Important Kernel Components.
Rootkit Design.
Introducing Code into the Kernel.
Building the Windows Device Driver.
Loading and Unloading the Driver.
Logging the Debug Statements.
Fusion Rootkits: Bridging User and Kernel Modes.
Loading the Rootkit.
Decompressing the .sys File from a Resource.
Surviving Reboot.
Conclusion.
3. The Hardware Connection.
Ring Zero.
Tables, Tables, and More Tables.
Memory Pages.
The Memory Descriptor Tables.
The Interrupt Descriptor Table.
The System Service Dispatch Table.
The Control Registers.
Multiprocessor Systems.
Conclusion.
4. The Age-Old Art of Hooking.
Userland Hooks.
Kernel Hooks.
A Hybrid Hooking Approach.
Conclusion.
5. Runtime Patching.
Detour Patching.
Jump Templates.
Variations on the Method.
Conclusion.
6. Layered Drivers.
A Keyboard Sniffer.
The KLOG Rootkit: A Walk-through.
File Filter Drivers.
Conclusion.
7. Direct Kernel Object Manipulation.
DKOM Benefits and Drawbacks.
Determining the Version of the Operating System.
Communicating with the Device Driver from Userland.
Hiding with DKOM.
Token Privilege and Group Elevation with DKOM.
Conclusion.
8. Hardware Manipulation.
Why Hardware?
Modifying the Firmware.
Accessing the Hardware.
Example: Accessing the Keyboard Controller.
How Low Can You Go? Microcode Update.
Conclusion.
9. Covert Channels.
Remote Command, Control, and Exfiltration of Data.
Disguised TCP/IP Protocols.
Kernel TCP/IP Support for Your Rootkit Using TDI.
Raw Network Manipulation.
Kernel TCP/IP Support for Your Rootkit Using NDIS.
Host Emulation.
Conclusion.
10. Rootkit Detection.
Detecting Presence.
Detecting Behavior.
Conclusion.
Index.
A rootkit is a set of programs and code that allows a permanent and undetectable presence on a computer.
Historical BackgroundWe became interested in rootkits because of our professional work in computer security, but the pursuit of the subject quickly expanded into a personal mission (also known as late nights and weekends). This led Hoglund to found rootkit.com, a forum devoted to reverse engineering and rootkit development. Both of us are deeply involved with rootkit.com. Butler first contacted Hoglund online through this Web site because Butler had a new and powerful rootkit called FU that needed testing,1 Butler sent Hoglund some source code and a pre-compiled binary. However, by accident, he did not send Hoglund the source code to the kernel driver. To Butler's amazement, Hoglund just loaded the pre-compiled rootkit onto his workstation without question, and reported back that FU seemed to be working fine! Our trust in one another has only grown since then.2
Both of us have long been driven by an almost perverse need to reverse-engineer the Windows kernel. It's like when someone says we can't do something--then we accomplish it. It is very satisfying learning how so-called computer security products work and finding ways around them. This inevitably leads to better protection mechanisms.
The fact that a product claims to provide some level of protection does not necessarily mean it actually does. By playing the part of an attacker, we are always at an advantage. As the attacker we must think of only one thing that a defender didn't consider. Defenders, on the other hand, must think of every possible thing an attacker might do. The numbers work in the attacker's favor.
We teamed up a few years ago to offer the training class "Offensive Aspects of Rootkit Technology." This training started as a single day of material that since has grown to include hundreds of pages of notes and example code. The material for the class eventually became the foundation for this book. We now offer the rootkit training class several times a year at the Black Hat security conference, and also privately.
After training for awhile, we decided to deepen our relationship, and we now work together at HBGary, Inc. At HBGary, we tackle very complex rootkit problems on a daily basis. In this book, we use our experience to cover the threats that face Windows users today, and likely will only increase in the future.
Target AudienceThis book is intended for those who are interested in computer security and want a truer perspective concerning security threats. A lot has been written on how intruders gain access to computer systems, but little has been said regarding what can happen once an intruder gains that initial access. Like the title implies, this book will cover what an intruder can do to cover her presence on a compromised machine.
We believe that most software vendors, including Microsoft, do not take rootkits seriously. That is why we are publishing this book. The material in this book is not groundbreaking for someone who has worked with rootkits or operating systems for years--but for most people this book should prove that rootkits are a serious threat. It should prove that your virus scanner or desktop firewall is never good enough. It should prove that a rootkit can get into your computer and stay there for years without you ever knowing about it.
To best convey rootkit information, we wrote most of this book from an attacker's perspective; however, we end the book on a defensive posture. As you begin to learn your attackers' goals and techniques, you will begin to learn your own system's weaknesses and how to mitigate its shortcomings. Reading this book will help you improve the security of your system or help you make informed decisions when it comes to purchasing security software.
PrerequisitesAs all of the code samples are written in C, you will gain more insight if you already understand basic C concepts--the most important one being pointers. If you have no programming knowledge, you should still be able to follow along and understand the threats without needing to understand the particular implementation details. Some areas of the book draw on principles from the Windows device driver architecture, but experience writing device drivers is not required. We will walk you through writing your first Windows device driver and build from there.
ScopeThis book covers Windows rootkits, although most of the concepts apply to other operating systems as well, such as LINUX. We focus on kernel rootkits because these are the most difficult to detect. Many public rootkits for Windows are userland rootkits3 because these are the easiest to implement, since they do not involve the added complexity of understanding how the undocumented kernel works.
This book is not about specific real-world rootkits. Rather, it teaches the generic approaches used by all rootkits. In each chapter, we introduce a basic technique, explain its purposes, and show how it's implemented using code examples. Armed with this information, you should be able to expand the examples in a million different ways to perform a variety of tasks. When working in the kernel, you are really limited only by your imagination.
You can download most of the code in this book from rootkit.com. Throughout the book, we will reference the particular URL for each individual example. Other rootkit authors also publish research at rootkit.com that you may find useful for keeping up with the latest discoveries.
1. Butler was not interested in rootkits for malicious purposes. He was instead fascinated with the power of kernel modifications. This led Butler to develop one of the first rootkit-detection programs, VICE.
2. Hoglund still wonders, from time to time, whether that original version of FU is still running on his workstation.
3. Userland rootkits are rootkits that do not employ kernel-level modifications, but instead rely only upon user-program modifications.
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