Virtual Honeypots: From Botnet Tracking to Intrusion Detection

Overview

Praise for Virtual Honeypots

"A power-packed resource of technical, insightful information that unveils the world of honeypots in front of the reader’s eyes."

—Lenny Zeltser, Information Security Practice Leader at Gemini Systems

"This is one of the must-read security books of the year."

—Cyrus Peikari, CEO, Airscanner Mobile Security, author, security warrior

"This book clearly ranks as one of the most authoritative in the field of honeypots. It is comprehensive and well written. The authors provide us with an ...

See more details below
Paperback
$43.55
BN.com price
(Save 32%)$64.99 List Price
Other sellers (Paperback)
  • All (14) from $20.73   
  • New (7) from $35.20   
  • Used (7) from $20.73   
Virtual Honeypots: From Botnet Tracking to Intrusion Detection

Available on NOOK devices and apps  
  • NOOK Devices
  • NOOK HD/HD+ Tablet
  • NOOK
  • NOOK Color
  • NOOK Tablet
  • Tablet/Phone
  • NOOK for Windows 8 Tablet
  • NOOK for iOS
  • NOOK for Android
  • NOOK Kids for iPad
  • PC/Mac
  • NOOK for Windows 8
  • NOOK for PC
  • NOOK for Mac
  • NOOK Study

Want a NOOK? Explore Now

NOOK Book (eBook)
$27.49
BN.com price
(Save 42%)$47.99 List Price

Overview

Praise for Virtual Honeypots

"A power-packed resource of technical, insightful information that unveils the world of honeypots in front of the reader’s eyes."

—Lenny Zeltser, Information Security Practice Leader at Gemini Systems

"This is one of the must-read security books of the year."

—Cyrus Peikari, CEO, Airscanner Mobile Security, author, security warrior

"This book clearly ranks as one of the most authoritative in the field of honeypots. It is comprehensive and well written. The authors provide us with an insider’s look at virtual honeypots and even help us in setting up and understanding an otherwise very complex technology."

—Stefan Kelm, Secorvo Security Consulting

"Virtual Honeypots is the best reference for honeypots today. Security experts Niels Provos and Thorsten Holz cover a large breadth of cutting-edge topics, from low-interaction honeypots to botnets and malware. If you want to learn about the latest types of honeypots, how they work, and what they can do for you, this is the resource you need."

—Lance Spitzner, Founder, Honeynet Project

"Whether gathering intelligence for research and defense, quarantining malware outbreaks within the enterprise, or tending hacker ant farms at home for fun, you’ll find many practical techniques in the black art of deception detailed in this book. Honeypot magic revealed!"

—Doug Song, Chief Security Architect, Arbor Networks

"Seeking the safest paths through the unknown sunny islands called honeypots? Trying to avoid greedy pirates catching treasures deeper and deeper beyond your ports? With this book, any reader will definitely get the right map to handle current cyber-threats.

Designed by two famous white hats, Niels Provos and Thorsten Holz, it carefully teaches everything from the concepts to practical real-life examples with virtual honeypots. The main strength of this book relies in how it covers so many uses of honeypots: improving intrusion detection systems, slowing down and following incoming attackers, catching and analyzing 0-days or malwares or botnets, and so on.

Sailing the high seas of our cyber-society or surfing the Net, from students to experts, it’s a must-read for people really aware of computer security, who would like to fight against black-hats flags with advanced modern tools like honeypots."

—Laurent Oudot, Computer Security Expert, CEA

"Provos and Holz have written the book that the bad guys don’t want you to read. This detailed and comprehensive look at honeypots provides step-by-step instructions on tripping up attackers and learning their tricks while lulling them into a false sense of security. Whether you are a practitioner, an educator, or a student, this book has a tremendous amount to offer. The underlying theory of honeypots is covered, but the majority of the text is a ‘how-to’ guide on setting up honeypots, configuring them, and getting the most out of these traps, while keeping actual systems safe. Not since the invention of the firewall has a tool as useful as this provided security specialists with an edge in the never-ending arms race to secure computer systems. Virtual Honeypots is a must-read and belongs on the bookshelf of anyone who is serious about security."

—Aviel D. Rubin, Ph.D., Computer Science Professor and Technical Director of the Information Security Institute at Johns Hopkins University, and President and Founder, Independent Security Evaluators

"An awesome coverage of modern honeypot technologies, both conceptual and practical."

—Anton Chuvakin

"Honeypots have grown from simple geek tools to key components in research and threat monitoring at major entreprises and security vendors. Thorsten and Niels comprehensive coverage of tools and techniques takes you behind the scene with real-world examples of deployment, data acquisition, and analysis."

—Nicolas Fischbach, Senior Manager, Network Engineering Security, COLT Telecom, and Founder of Sécurité.Org

Honeypots have demonstrated immense value in Internet security, but physical honeypot deployment can be prohibitively complex, time-consuming, and expensive. Now, there’s a breakthrough solution. Virtual honeypots share many attributes of traditional honeypots, but you can run thousands of them on a single system-making them easier and cheaper to build, deploy, and maintain.

In this hands-on, highly accessible book, two leading honeypot pioneers systematically introduce virtual honeypot technology. One step at a time, you’ll learn exactly how to implement, configure, use, and maintain virtual honeypots in your own environment, even if you’ve never deployed a honeypot before.

You’ll learn through examples, including Honeyd, the acclaimed virtual honeypot created by coauthor Niels Provos. The authors also present multiple real-world applications for virtual honeypots, including network decoy, worm detection, spam prevention, and network simulation.

After reading this book, you will be able to

  • Compare high-interaction honeypots that provide real systems and services and the low-interaction honeypots that emulate them
  • Install and configure Honeyd to simulate multiple operating systems, services, and network environments
  • Use virtual honeypots to capture worms, bots, and other malware
  • Create high-performance "hybrid" honeypots that draw on technologies from both low- and high-interaction honeypots
  • Implement client honeypots that actively seek out dangerous Internet locations
  • Understand how attackers identify and circumvent honeypots
  • Analyze the botnets your honeypot identifies, and the malware it captures
  • Preview the future evolution of both virtual and physical honeypots
Read More Show Less

Product Details

  • ISBN-13: 9780321336323
  • Publisher: Addison-Wesley
  • Publication date: 7/30/2007
  • Pages: 440
  • Product dimensions: 7.00 (w) x 9.25 (h) x 0.95 (d)

Meet the Author

Niels Provos received a Ph.D. from the University of Michigan in 2003, where he studied experimental and theoretical aspects of computer and network security. He is one of the OpenSSH creators and known for his security work on OpenBSD. He developed Honeyd, a popular open source honeypot platform; SpyBye, a client honeypot that helps web masters to detect malware on their web pages; and many other tools such as Systrace and Stegdetect. He is a member of the Honeynet Project and an active contributor to open source projects. Provos is currently employed as senior staff engineer at Google, Inc.

Thorsten Holz is a Ph.D. student at the Laboratory for Dependable Distributed Systems at the University of Mannheim, Germany. He is one of the founders of the German Honeynet Project and a member of the Steering Committee of the Honeynet Research Alliance. His research interests include the practical aspects of secure systems, but he is also interested in more theoretical considerations of dependable systems. Currently, his work concentrates on bots/botnets, client honeypots, and malware in general. He regularly blogs at http://honeyblog.org.

Read More Show Less

Read an Excerpt

This book is about understanding computer security through experiment. Before now, you probably thought that if your computer was compromised, it was the end of the world. But we are going to show you how to look at the bright side of break-ins and teach you to appreciate the insights to be gained from botnets, worms, and malware. In every incident there is a lesson to be learned. Once you know about the many different kinds of honeypots, you can turn the tables on Internet-born attackers. This book discusses a vast range of deployment scenarios for honeypots, ranging from tracking botnets to capturing malware. We also encourage you to take the perspective of adversaries by analyzing how attackers might go about detecting your countermeasures. But first let us set the context appropriately.

Computer networks connect hundreds of thousands of computer systems across the world. We know the sum of all these networks as the Internet. Originally designed for research and military use, the Internet became enormously popular after Tim Berners-Lee invented the HyperText Transfer Protocol (HTTP) in 1990 and created the World Wide Web as we know it. As more of us started using the Net, almost all of our social problems transferred into the electronic realm as well. For example, it was human curiosity that created the first Internet worm. (Technically, the first network worm was created in 1982 by Shoch and Hupp of Xerox’s PARC, who developed worms such as the Vampire worm, which would seek out underutilized computers and have them solve complex computing tasks 81. However, in most minds, Internet worms started with Morris, who, among many other contributions, also invented the buffer overfiow.) Scanning networks for the number of installed computers or their respective configuration is another sign of our curiosity. In fact, receiving a constant stream of network probes is nowadays considered normal and expected. Unfortunately, many of these activities are no longer benign. Darker elements of society have figured out that the Internet provides new opportunities to turn a quick profit. Underground activities range from sending millions of spam e-mails, identity theft, and credit card fraud to extortion via distributed denial of service attacks.

As the Internet becomes increasingly popular, its security is also more important for keeping our electronic world healthy and functioning. Yet, despite decades of research and experience, we are still unable to make secure computer systems or even measure their security. Exploitation of newly discovered vulnerabilities often catches us by surprise. Exploit automation and massively global scanning for vulnerabilities make it easy for adversaries to compromise computer systems as soon as they can locate its weaknesses 91.

To learn which vulnerabilities are being used by adversaries (and they might even be some of which we are unaware), we could install a computer systems on a network and then observe what happens to it. If the system serves no other purpose, then every attempt to contact it seems suspect. If the system is attacked, we have learned something new. We call such a system a honeypot. Its compromise allows us to study which vulnerability was used to break into it or what an adversary does once he gained complete control over it. A honeypot can be any kind of computing system. It may run any operating system and any number of services. The services we configure determine the attack vectors open to an adversary.

In this book, we often talk about nefarious computer users who want to break into our honeypots. Many readers might expect that we would call these computer users hackers, a term adapted and distorted beyond recognition by the press. However, the authors prefer the traditional definition of the word: A hacker is a person who finds clever technical solutions to problems. Although there is no shortage of good hackers out there, the supply of people who attempt and succeed to break into computer systems is much larger. We refer to them as attackers or adversaries.

So far, we have claimed that honeypots allow us to study adversaries and gain insight into their motivations and techniques, but now we will prove it to you with a real case study.

A Real Case

This case tells the story of an actual compromise and what we learned from the adversaries. Our honeypot was closely monitored, and we could observe every single step the adversary took on our system. This incident started on April 3, when our Red Hat 8.0-based honeypot was compromised due to weak SSH passwords. The adversary got access to both a user and the root account. She probably considered herself very lucky to have gained access to a high-speed university network. What she did not know was that we had intentionally installed guessable passwords. (Evil grin.) Actually, this kind of attack is quite common. If you run an SSH server yourself, just take a look at its log files.

Using our log files and other information gathered on the honeypot, it was easy to reconstruct the series of events that took place. As in many movies, the attack took place in the middle of the night. Originating from a university host in Norway, the adversary initiated an attack against the honeypot’s SSH server shortly after midnight. Her automatic tools cycled through many thousand different user names and passwords before she got lucky and guessed the root password. With complete and unlimited access to our system, the adversary, arriving from an Italian IP address this time, downloaded several tools from different web servers to facilitate her malicious actions. Among these tools was an SSH scanner, an IRC client, and a root kit. Not surprisingly, our adversary used the SSH scanner to find more Internet systems with weak passwords. In addition to the root kit, a back door was installed to allow the adversary to come back at any time without anyone noticing. When the adversary was downloading the movie Get Rich Or Die Tryin’ (Spanish), we decided that things had gone on long enough, and we shut down the honeypot.

Attack Timeline

Our in-depth investigation produced the following timeline of events:

00:23:07 AM: After several minutes of scanning, the adversary manages to log in for the first time, utilizing the guest account. Not satisfied, the adversary continued to guess passwords for further accounts.

00:35:53 AM: Jackpot! Successful login in as root. However, despite getting root, the password guessing continues—a strong indicator that we are looking at a completely automated attack.

00:51:24 AM: The user guest logs in but logs off a few seconds later. We assume that the adversary manually verified the correctness of the automatically guessed user names and passwords.

00:52:44 AM: The user root logs in, but this time from the IP 83.103.xxx.xxx. While logged in, three new users are created. All of them with group and uid 0, the identity of the system administrator.

00:54:08 AM: The intruder logs in using the guest account and changes the password for this account. She then starts downloading a file with her tools of trade from a remote web server.

00:54:29 AM: The file completes downloading. It contains an SSH scanner, shell scripts to start it, and two dictionary files to generate user names and passwords. Ten seconds later, files xyz and 1 are downloaded as well. File xyz is another dictionary file for the previously mentioned SSH scanner. File 1 is a simple shell script, which facilitates the proper execution of the SSH scanner.

00:54:53 AM: The adversary initiates an SSH scan against the IP range 66.252.*. The scan finishes after about three minutes. Don’t worry: Our control mechanisms prevented any harm to other machines.

00:58:18 AM: The guest, george, and root users log out.

01:24:34 PM: User george logs back in, this time from IP address 151.81.xxx.xxx. The adversary switches to the root account and starts downloading a file called 90. A quick analysis reveals that it is some kind of kernel modifying program, probably a root kit.

02:22:43 PM: Another file is downloaded, and the adversary also changes the root password. The new file contains a modified SSH server that listens on port 3209 and another SSH scanner. From now on, all connections to the honeypot were made through the freshly installed back door.

02:23:32 PM: The adversary establishes a connection to the mail server mta238.mail.re2.yahoo.com but fails to send an e-mail due to improper formatting of the MAIL FROM header.

02:31:17 PM: The adversary downloads mirkforce.tgz, which contains a modified IRC client. A moment later, she executes the IRC client and connects to an IRC server running at 194.109.xxx.xxx.

02:58:04 PM: The adversary attempts to download the movie Get Rich Or Die Tryin’ via HTTP.

03:02:05 PM: A whois query is executed for the domains bogdan.mine.nuand pytycu.ro.

04:46:49 PM: The adversary starts scanning the IP range 125.240.* for more machines with weak SSH passwords. She stops scanning at about 05:01:16 PM.

04:58:37 PM: She downloads the compressed file scanjapan.tar to the /tmpdirectory. The file contains another SSH scanner with Japanese user name and password dictionaries.

05:30:29 PM: It was time to go home and have a beer, so we shut down the honeypot.

Once the incident was over, we had plenty of time to analyze what really happened. We saved copies of all tools involved and were able to determine their purpose in detail. For example, the installed root kit was called SucKIT and has been described in detail in Phrack, issue 58 78. SucKIT is installed by modifying kernel memory directly via /dev/kmemand does not require any support for load-able kernel modules. Among other things, SucKIT provides a password-protected remote access shell capable of bypassing firewall rules. It supports process, file, and connection hiding, and survives across reboots as well.

There is much more to be learned, and we have dedicated an entire chapter to case studies like this.

Target Audience

We wrote this book to appeal to a broad spectrum of readers. For the less experienced who are seeking an introduction to the world of honeypots, this book provides sufficient background and examples to set up and deploy honeypots even if you have never done so before. For the experienced reader, this book functions as a reference but should still reveal new aspects of honeypots and their deployment. Besides providing solid foundations for a wide range of honeypot technologies, we are looking at the future of honeypots and hope to stimulate you with new ideas that will still be useful years from now.

Road Map to the Book

Although you are more than welcome to read the chapters in almost any order, here is a chapter overview and some suggestions about the order that you may find helpful.

Chapter 1 provides a background on Internet protocols, honeypots in general, and useful networking tools. This chapter is intended as a starting point for readers who are just learning about this topic.

Chapters 2 and 3 present honeypot fundamentals important for understanding the rest of the book. We introduce the two prevalent honeypot types: high-interaction and low-interaction. Low-interaction honeypots emulate services or operating systems, whereas high-interaction honeypots provide real systems and services for an adversary to interact with.

Chapters 4 and 5 focus on Honeyd, a popular open source honeypot framework that allows you to set up and run hundreds of virtual honeypots on just a single physical machine. The virtual honeypots can be configured to mimic many different operating systems and services, allowing you to simulate arbitrary network configurations.

Chapter 6 presents different approaches for capturing malware, such as worms and bots, using honeypots. Because botnets and worms are significant risks to today’s Internet, the honeypots presented in this chapter will help you learn more about these threats.

Chapter 7 discusses different approaches for creating high-performance honeypots that combine technologies from both low-and high-interaction honeypots. These hybrid systems are capable of running honeypots on over 60,000 different IP addresses.

In Chapter 8, we turn the tables, and instead of waiting to be attacked, we present the concept of client honeypots that actively seek out dangerous places on the Internet to be compromised.

Taking the viewpoint of an attacker, Chapter 9 discusses how to detect the presence of honeypots and circumvent logging. This is what adversaries do to make the life of honeypot operators harder. By understanding their technologies, we are better prepared to defend against them.

In Chapter 10, we present several case studies and discuss what we learned from deploying virtual honeypots in the real world. For each honeypot that was compromised, we present a detailed analysis of the attackers’ steps and their tools.

Botnets, networks of compromised machines under remote control of an attacker, are one of the biggest threats on the Internet today. Chapter 11 presents details on botnets and shows what kind of information can be learned about them with the help of honeypots.

Because honeypots often capture malware, Chapter 12 introduces CWSandbox, a tool that helps you to automatically analyze these binaries by creating behavior profiles for each of them. We provide an overview of CWSandbox and examine a sample malware report in great detail.

If you are unfamiliar with honeypots and want to learn the basics before delving into more complex topics, we strongly encourage you to start with Chapters 1-3. These chapters will help you get an understanding of what the methodology is about and what results you can expect from deploying honeypots.

Once you know the basics, you can dive right into the more advanced topics of Honeyd in Chapters 4 and 5. Chapter 6 discusses capturing autonomously spreading malware like worms and bots. Closely related to Chapter 6 are Chapter 11 on botnets and Chapter 12 on malware analysis. But you can also learn more about hybrid approaches in Chapter 7 and the new concept of client-side honeypots in Chapter 8. Chapters 9 and 10 are also rather independent: The former introduces several ways to detect the presence of honeypots, a risk you should always have in mind. The latter presents several case studies that show you which kind of information you can learn with honeypots based on real-world examples.

Although the chapters are organized to build on each other and can be read in their original order, most chapters can be understood by themselves once you are familiar with the basics concepts. If any chapter looks particularly interesting to you, don’t hesitate to skip forward and read it.

Prerequisites

When reading this book, familiarity with the basic concepts of network security will prove helpful. We expect you to be familiar with the terms firewall and intrusion detection system (IDS), but it is not necessary for you to have extensive knowledge in any of these areas. Our first chapter lays the basic background for most of what is required to understand the rest of the book. We also make extensive use of references for anyone who would like to get more details on topics we discuss.

Since many honeypot solutions are designed to run on Linux or BSD variants, it is helpful to have some basic understanding of these operating systems. However, even if you are an avid Windows user, you can install a virtual machine to experiment with these operating systems. Doing so by itself teaches many of the principles that underly honeypot technologies. That way, you can better understand the tools we introduce and also experiment with them yourself. We often give step-by-step guidance on how to install and configure a specific solution and point you to further references. So even with only some background, you should be able to learn more about the fascinating topic of virtual honeypots.

Read More Show Less

Table of Contents

Preface xiii

Acknowledgments xxi

About the Authors xxiii

Chapter 1 Honeypot and Networking Background 1

1.1 Brief TCP/IP Introduction 1

1.2 Honeypot Background 7

1.3 Tools of the Trade 13

Chapter 2 High-Interaction Honeypots 19

2.1 Advantages and Disadvantages 20

2.2 VMware 22

2.3 User-Mode Linux 41

2.4 Argos 52

2.5 Safeguarding Your Honeypots 62

2.6 Summary 69

Chapter 3 Low-Interaction Honeypots 71

3.1 Advantages and Disadvantages 72

3.2 Deception Toolkit 73

3.3 LaBrea 74

3.4 Tiny Honeypot 81

3.5 GHH—Google Hack Honeypot 87

3.6 PHP.HoP—A Web-Based Deception Framework 94

3.7 Securing Your Low-Interaction Honeypots 98

3.8 Summary 103

Chapter 4 Honeyd—The Basics 105

4.1 Overview 106

4.2 Design Overview 109

4.3 Receiving Network Data 112

4.4 Runtime Flags 114

4.5 Configuration 115

4.6 Experiments with Honeyd 125

4.7 Services 129

4.8 Logging 131

4.9 Summary 134

Chapter 5 Honeyd—Advanced Topics 135

5.1 Advanced Configuration 136

5.2 Emulating Services 139

5.3 Subsystems 142

5.4 Internal Python Services 146

5.5 Dynamic Templates 148

5.6 Routing Topology 150

5.7 Honeydstats 154

5.8 Honeydctl 156

5.9 Honeycomb 158

5.10 Performance 160

5.11 Summary 161

Chapter 6 Collecting Malware with Honeypots 163

6.1 A Primer on Malicious Software 164

6.2 Nepenthes—A Honeypot Solution to Collect Malware 165

6.3 Honeytrap 197

6.4 Other Honeypot Solutions for Learning About Malware 204

6.5 Summary 207

Chapter 7 Hybrid Systems 209

7.1 Collapsar 211

7.2 Potemkin 214

7.3 RolePlayer 220

7.4 Research Summary 224

7.5 Building Your Own Hybrid Honeypot System 224

7.6 Summary 230

Chapter 8 Client Honeypots 231

8.1 Learning More About Client-Side Threats 232

8.2 Low-Interaction Client Honeypots 241

8.3 High-Interaction Client Honeypots 253

8.4 Other Approaches 263

8.5 Summary 272

Chapter 9 Detecting Honeypots 273

9.1 Detecting Low-Interaction Honeypots 274

9.2 Detecting High-Interaction Honeypots 280

9.3 Detecting Rootkits 302

9.4 Summary 305

Chapter 10 Case Studies 307

10.1 Blast-o-Mat: Using Nepenthes to Detect Infected Clients 308

10.2 Search Worms 327

10.3 Red Hat 8.0 Compromise 332

10.4 Windows 2000 Compromise 343

10.5 SUSE 9.1 Compromise 351

10.6 Summary 357

Chapter 11 Tracking Botnets 359

11.1 Bot and Botnet 101 360

11.2 Tracking Botnets 373

11.3 Case Studies 376

11.4 Defending Against Bots 387

11.5 Summary 390

Chapter 12 Analyzing Malware with CWSandbox 391

12.1 CWSandbox Overview 392

12.2 Behavior-Based Malware Analysis 394

12.3 CWSandbox—System Description 401

12.4 Results 405

12.5 Summary 413

Bibliography 415

Index 423

Read More Show Less

Preface

This book is about understanding computer security through experiment. Before now, you probably thought that if your computer was compromised, it was the end of the world. But we are going to show you how to look at the bright side of break-ins and teach you to appreciate the insights to be gained from botnets, worms, and malware. In every incident there is a lesson to be learned. Once you know about the many different kinds of honeypots, you can turn the tables on Internet-born attackers. This book discusses a vast range of deployment scenarios for honeypots, ranging from tracking botnets to capturing malware. We also encourage you to take the perspective of adversaries by analyzing how attackers might go about detecting your countermeasures. But first let us set the context appropriately.

Computer networks connect hundreds of thousands of computer systems across the world. We know the sum of all these networks as the Internet. Originally designed for research and military use, the Internet became enormously popular after Tim Berners-Lee invented the HyperText Transfer Protocol (HTTP) in 1990 and created the World Wide Web as we know it. As more of us started using the Net, almost all of our social problems transferred into the electronic realm as well. For example, it was human curiosity that created the first Internet worm. (Technically, the first network worm was created in 1982 by Shoch and Hupp of Xerox’s PARC, who developed worms such as the Vampire worm, which would seek out underutilized computers and have them solve complex computing tasks 81. However, in most minds, Internet worms started with Morris, who, among many other contributions, also invented the buffer overfiow.) Scanning networks for the number of installed computers or their respective configuration is another sign of our curiosity. In fact, receiving a constant stream of network probes is nowadays considered normal and expected. Unfortunately, many of these activities are no longer benign. Darker elements of society have figured out that the Internet provides new opportunities to turn a quick profit. Underground activities range from sending millions of spam e-mails, identity theft, and credit card fraud to extortion via distributed denial of service attacks.

As the Internet becomes increasingly popular, its security is also more important for keeping our electronic world healthy and functioning. Yet, despite decades of research and experience, we are still unable to make secure computer systems or even measure their security. Exploitation of newly discovered vulnerabilities often catches us by surprise. Exploit automation and massively global scanning for vulnerabilities make it easy for adversaries to compromise computer systems as soon as they can locate its weaknesses 91.

To learn which vulnerabilities are being used by adversaries (and they might even be some of which we are unaware), we could install a computer systems on a network and then observe what happens to it. If the system serves no other purpose, then every attempt to contact it seems suspect. If the system is attacked, we have learned something new. We call such a system a honeypot. Its compromise allows us to study which vulnerability was used to break into it or what an adversary does once he gained complete control over it. A honeypot can be any kind of computing system. It may run any operating system and any number of services. The services we configure determine the attack vectors open to an adversary.

In this book, we often talk about nefarious computer users who want to break into our honeypots. Many readers might expect that we would call these computer users hackers, a term adapted and distorted beyond recognition by the press. However, the authors prefer the traditional definition of the word: A hacker is a person who finds clever technical solutions to problems. Although there is no shortage of good hackers out there, the supply of people who attempt and succeed to break into computer systems is much larger. We refer to them as attackers or adversaries.

So far, we have claimed that honeypots allow us to study adversaries and gain insight into their motivations and techniques, but now we will prove it to you with a real case study.

A Real Case

This case tells the story of an actual compromise and what we learned from the adversaries. Our honeypot was closely monitored, and we could observe every single step the adversary took on our system. This incident started on April 3, when our Red Hat 8.0-based honeypot was compromised due to weak SSH passwords. The adversary got access to both a user and the root account. She probably considered herself very lucky to have gained access to a high-speed university network. What she did not know was that we had intentionally installed guessable passwords. (Evil grin.) Actually, this kind of attack is quite common. If you run an SSH server yourself, just take a look at its log files.

Using our log files and other information gathered on the honeypot, it was easy to reconstruct the series of events that took place. As in many movies, the attack took place in the middle of the night. Originating from a university host in Norway, the adversary initiated an attack against the honeypot’s SSH server shortly after midnight. Her automatic tools cycled through many thousand different user names and passwords before she got lucky and guessed the root password. With complete and unlimited access to our system, the adversary, arriving from an Italian IP address this time, downloaded several tools from different web servers to facilitate her malicious actions. Among these tools was an SSH scanner, an IRC client, and a root kit. Not surprisingly, our adversary used the SSH scanner to find more Internet systems with weak passwords. In addition to the root kit, a back door was installed to allow the adversary to come back at any time without anyone noticing. When the adversary was downloading the movie Get Rich Or Die Tryin’ (Spanish), we decided that things had gone on long enough, and we shut down the honeypot.

Attack Timeline

Our in-depth investigation produced the following timeline of events:

00:23:07 AM: After several minutes of scanning, the adversary manages to log in for the first time, utilizing the guest account. Not satisfied, the adversary continued to guess passwords for further accounts.

00:35:53 AM: Jackpot! Successful login in as root. However, despite getting root, the password guessing continues—a strong indicator that we are looking at a completely automated attack.

00:51:24 AM: The user guest logs in but logs off a few seconds later. We assume that the adversary manually verified the correctness of the automatically guessed user names and passwords.

00:52:44 AM: The user root logs in, but this time from the IP 83.103.xxx.xxx. While logged in, three new users are created. All of them with group and uid 0, the identity of the system administrator.

00:54:08 AM: The intruder logs in using the guest account and changes the password for this account. She then starts downloading a file with her tools of trade from a remote web server.

00:54:29 AM: The file completes downloading. It contains an SSH scanner, shell scripts to start it, and two dictionary files to generate user names and passwords. Ten seconds later, files xyz and 1 are downloaded as well. File xyz is another dictionary file for the previously mentioned SSH scanner. File 1 is a simple shell script, which facilitates the proper execution of the SSH scanner.

00:54:53 AM: The adversary initiates an SSH scan against the IP range 66.252.*. The scan finishes after about three minutes. Don’t worry: Our control mechanisms prevented any harm to other machines.

00:58:18 AM: The guest, george, and root users log out.

01:24:34 PM: User george logs back in, this time from IP address 151.81.xxx.xxx. The adversary switches to the root account and starts downloading a file called 90. A quick analysis reveals that it is some kind of kernel modifying program, probably a root kit.

02:22:43 PM: Another file is downloaded, and the adversary also changes the root password. The new file contains a modified SSH server that listens on port 3209 and another SSH scanner. From now on, all connections to the honeypot were made through the freshly installed back door.

02:23:32 PM: The adversary establishes a connection to the mail server mta238.mail.re2.yahoo.com but fails to send an e-mail due to improper formatting of the MAIL FROM header.

02:31:17 PM: The adversary downloads mirkforce.tgz, which contains a modified IRC client. A moment later, she executes the IRC client and connects to an IRC server running at 194.109.xxx.xxx.

02:58:04 PM: The adversary attempts to download the movie Get Rich Or Die Tryin’ via HTTP.

03:02:05 PM: A whois query is executed for the domains bogdan.mine.nuand pytycu.ro.

04:46:49 PM: The adversary starts scanning the IP range 125.240.* for more machines with weak SSH passwords. She stops scanning at about 05:01:16 PM.

04:58:37 PM: She downloads the compressed file scanjapan.tar to the /tmpdirectory. The file contains another SSH scanner with Japanese user name and password dictionaries.

05:30:29 PM: It was time to go home and have a beer, so we shut down the honeypot.

Once the incident was over, we had plenty of time to analyze what really happened. We saved copies of all tools involved and were able to determine their purpose in detail. For example, the installed root kit was called SucKIT and has been described in detail in Phrack, issue 58 78. SucKIT is installed by modifying kernel memory directly via /dev/kmemand does not require any support for load-able kernel modules. Among other things, SucKIT provides a password-protected remote access shell capable of bypassing firewall rules. It supports process, file, and connection hiding, and survives across reboots as well.

There is much more to be learned, and we have dedicated an entire chapter to case studies like this.

Target Audience

We wrote this book to appeal to a broad spectrum of readers. For the less experienced who are seeking an introduction to the world of honeypots, this book provides sufficient background and examples to set up and deploy honeypots even if you have never done so before. For the experienced reader, this book functions as a reference but should still reveal new aspects of honeypots and their deployment. Besides providing solid foundations for a wide range of honeypot technologies, we are looking at the future of honeypots and hope to stimulate you with new ideas that will still be useful years from now.

Road Map to the Book

Although you are more than welcome to read the chapters in almost any order, here is a chapter overview and some suggestions about the order that you may find helpful.

Chapter 1 provides a background on Internet protocols, honeypots in general, and useful networking tools. This chapter is intended as a starting point for readers who are just learning about this topic.

Chapters 2 and 3 present honeypot fundamentals important for understanding the rest of the book. We introduce the two prevalent honeypot types: high-interaction and low-interaction. Low-interaction honeypots emulate services or operating systems, whereas high-interaction honeypots provide real systems and services for an adversary to interact with.

Chapters 4 and 5 focus on Honeyd, a popular open source honeypot framework that allows you to set up and run hundreds of virtual honeypots on just a single physical machine. The virtual honeypots can be configured to mimic many different operating systems and services, allowing you to simulate arbitrary network configurations.

Chapter 6 presents different approaches for capturing malware, such as worms and bots, using honeypots. Because botnets and worms are significant risks to today’s Internet, the honeypots presented in this chapter will help you learn more about these threats.

Chapter 7 discusses different approaches for creating high-performance honeypots that combine technologies from both low-and high-interaction honeypots. These hybrid systems are capable of running honeypots on over 60,000 different IP addresses.

In Chapter 8, we turn the tables, and instead of waiting to be attacked, we present the concept of client honeypots that actively seek out dangerous places on the Internet to be compromised.

Taking the viewpoint of an attacker, Chapter 9 discusses how to detect the presence of honeypots and circumvent logging. This is what adversaries do to make the life of honeypot operators harder. By understanding their technologies, we are better prepared to defend against them.

In Chapter 10, we present several case studies and discuss what we learned from deploying virtual honeypots in the real world. For each honeypot that was compromised, we present a detailed analysis of the attackers’ steps and their tools.

Botnets, networks of compromised machines under remote control of an attacker, are one of the biggest threats on the Internet today. Chapter 11 presents details on botnets and shows what kind of information can be learned about them with the help of honeypots.

Because honeypots often capture malware, Chapter 12 introduces CWSandbox, a tool that helps you to automatically analyze these binaries by creating behavior profiles for each of them. We provide an overview of CWSandbox and examine a sample malware report in great detail.

If you are unfamiliar with honeypots and want to learn the basics before delving into more complex topics, we strongly encourage you to start with Chapters 1-3. These chapters will help you get an understanding of what the methodology is about and what results you can expect from deploying honeypots.

Once you know the basics, you can dive right into the more advanced topics of Honeyd in Chapters 4 and 5. Chapter 6 discusses capturing autonomously spreading malware like worms and bots. Closely related to Chapter 6 are Chapter 11 on botnets and Chapter 12 on malware analysis. But you can also learn more about hybrid approaches in Chapter 7 and the new concept of client-side honeypots in Chapter 8. Chapters 9 and 10 are also rather independent: The former introduces several ways to detect the presence of honeypots, a risk you should always have in mind. The latter presents several case studies that show you which kind of information you can learn with honeypots based on real-world examples.

Although the chapters are organized to build on each other and can be read in their original order, most chapters can be understood by themselves once you are familiar with the basics concepts. If any chapter looks particularly interesting to you, don’t hesitate to skip forward and read it.

Prerequisites

When reading this book, familiarity with the basic concepts of network security will prove helpful. We expect you to be familiar with the terms firewall and intrusion detection system (IDS), but it is not necessary for you to have extensive knowledge in any of these areas. Our first chapter lays the basic background for most of what is required to understand the rest of the book. We also make extensive use of references for anyone who would like to get more details on topics we discuss.

Since many honeypot solutions are designed to run on Linux or BSD variants, it is helpful to have some basic understanding of these operating systems. However, even if you are an avid Windows user, you can install a virtual machine to experiment with these operating systems. Doing so by itself teaches many of the principles that underly honeypot technologies. That way, you can better understand the tools we introduce and also experiment with them yourself. We often give step-by-step guidance on how to install and configure a specific solution and point you to further references. So even with only some background, you should be able to learn more about the fascinating topic of virtual honeypots.

Read More Show Less

Customer Reviews

Be the first to write a review
( 0 )
Rating Distribution

5 Star

(0)

4 Star

(0)

3 Star

(0)

2 Star

(0)

1 Star

(0)

Your Rating:

Your Name: Create a Pen Name or

Barnes & Noble.com Review Rules

Our reader reviews allow you to share your comments on titles you liked, or didn't, with others. By submitting an online review, you are representing to Barnes & Noble.com that all information contained in your review is original and accurate in all respects, and that the submission of such content by you and the posting of such content by Barnes & Noble.com does not and will not violate the rights of any third party. Please follow the rules below to help ensure that your review can be posted.

Reviews by Our Customers Under the Age of 13

We highly value and respect everyone's opinion concerning the titles we offer. However, we cannot allow persons under the age of 13 to have accounts at BN.com or to post customer reviews. Please see our Terms of Use for more details.

What to exclude from your review:

Please do not write about reviews, commentary, or information posted on the product page. If you see any errors in the information on the product page, please send us an email.

Reviews should not contain any of the following:

  • - HTML tags, profanity, obscenities, vulgarities, or comments that defame anyone
  • - Time-sensitive information such as tour dates, signings, lectures, etc.
  • - Single-word reviews. Other people will read your review to discover why you liked or didn't like the title. Be descriptive.
  • - Comments focusing on the author or that may ruin the ending for others
  • - Phone numbers, addresses, URLs
  • - Pricing and availability information or alternative ordering information
  • - Advertisements or commercial solicitation

Reminder:

  • - By submitting a review, you grant to Barnes & Noble.com and its sublicensees the royalty-free, perpetual, irrevocable right and license to use the review in accordance with the Barnes & Noble.com Terms of Use.
  • - Barnes & Noble.com reserves the right not to post any review -- particularly those that do not follow the terms and conditions of these Rules. Barnes & Noble.com also reserves the right to remove any review at any time without notice.
  • - See Terms of Use for other conditions and disclaimers.
Search for Products You'd Like to Recommend

Recommend other products that relate to your review. Just search for them below and share!

Create a Pen Name

Your Pen Name is your unique identity on BN.com. It will appear on the reviews you write and other website activities. Your Pen Name cannot be edited, changed or deleted once submitted.

 
Your Pen Name can be any combination of alphanumeric characters (plus - and _), and must be at least two characters long.

Continue Anonymously
Sort by: Showing 1 Customer Reviews
  • Posted January 16, 2012

    Comprehensive and Easy to Use

    From the first glance, I knew that this book would be more than helpful. As a student of Information Security, I’m always looking for new tools and methods for system hardening. When implemented properly, a virtual honeypot will allow you to maintain the integrity of your network, while auditing the methods used by would-be infiltrators.
    From the detailed Contents to the comprehensive Index, anything you want to know can be easily found. In-depth references make cross-referencing a breeze; along with the step-by-step installation for tools in Linux and Windows, there is no doubt that this book will be used. It would definitely find a home on the shelf of anyone serious about Information Security.

    Was this review helpful? Yes  No   Report this review
Sort by: Showing 1 Customer Reviews

If you find inappropriate content, please report it to Barnes & Noble
Why is this product inappropriate?
Comments (optional)