The Crypto (hidden or secret)-Currency.
It’s not clear if bitcoin is legal, but there is no company in control and no one
to arrest.
There are lots of ways to make money: You can earn it, find it,
counterfeit it, steal it. Or, if you’re Satoshi Nakamoto, a preternaturally (more than is usual or natural) talented
computer coder, you can invent it. That’s what he did on the evening of January
3, 2009, when he pressed a button on his keyboard and created a new currency
called bitcoin. It was all
bit and no coin. There was no paper, copper, or silver—just thirty-one thousand lines of
code and an announcement on the Internet.
Nakamoto, who claimed to be a
thirty-six-year-old Japanese man, said he had spent more than a year writing
the software, driven in part by anger over the recent financial crisis. He
wanted to create a currency that was impervious (not affected by something) to
unpredictable monetary policies as well as to the predations of bankers and
politicians. Nakamoto’s invention was controlled entirely by software, which
would release a total of twenty-one
million bitcoins, almost all of them over the next twenty years. Every
ten minutes or so, coins would be distributed through a process that resembled
a lottery.
Miners—people seeking the coins—would play the
lottery again and again; the fastest
computer would win the most money.
Interest in Nakamoto’s invention built steadily.
More and more people dedicated their computers to the lottery, and forty-four exchanges
popped up, allowing anyone with bitcoins to trade them for official currencies
like dollars or euros. Creative computer engineers could mine for bitcoins;
anyone could buy them. At first, a single bitcoin was valued at less than a
penny. But merchants gradually began to accept bitcoins, and at the end of 2010
their value began to appreciate rapidly. By June of 2011, a bitcoin was worth
more than twenty-nine dollars. Market gyrations (to gyrate means to turn round and round in a circle, usually very fast) followed, and by September the exchange rate
had fallen to five dollars. Still, with more than seven million bitcoins in
circulation, Nakamoto had created thirty-five million dollars of value.
And yet Nakamoto himself was a cipher (if you describe someone as a cipher, you mean that they
have no power and are used by other people to achieve a particular purpose). Before the
début of bitcoin, there was no record of any coder with that name. He used an
e-mail address and a Web site that were untraceable. In 2009 and 2010, he wrote
hundreds of posts in flawless
English, and though he invited other software developers to help him
improve the code, and corresponded with them, he never revealed a personal
detail. Then, in April, 2011, he sent a note to a developer saying that he had
“moved on to other things.” He
has not been heard from since.
When Nakamoto disappeared, hundreds of people posted theories about his
identity and whereabouts. Some wanted to know if he could be trusted. Might he
have created the currency in order to hoard (to collect and store a large supply of something, often secretly) coins and
cash out (to sell an investment)? “We can
effectively think of ‘Satoshi Nakamoto’ as being on top of a Ponzi scheme (a way of deceiving investors (= people who give money to a company hoping to get more back) by using the money they give to pay interest to existing customersrather than investing it),” George Ou, a
blogger and technology commentator, wrote.
It appeared, though, that Nakamoto was motivated
by politics, not crime. He had introduced the currency just a few months after
the collapse of the global banking sector, and published a five-hundred-word
essay about traditional fiat (an order given by a person in authority), or
government-backed, currencies. “The root problem with conventional currency is
all the trust that’s required to make it work,” he wrote. “The central bank
must be trusted not to debase (to reduce the value or quality of something) the
currency, but the history of fiat currencies (Legal tender, especially paper currency, authorized by a government but not based on or convertible into gold or silver.) is full of breaches of that trust. Banks must be trusted to hold our
money and transfer it electronically, but they lend it out in waves of credit
bubbles with barely a
fraction in reserve.”
Banks, however, do much more than lend money to
overzealous (too enthusiastic and eager) homebuyers. They also, for example, monitor payments so that no one can spend the same dollar
twice. Cash is immune to this problem: you can’t give two people the
same bill. But with digital currency there is the danger that someone can spend
the same money any number of times.
Nakamoto solved this problem using innovative
cryptography. The bitcoin software
encrypts each transaction—the sender and the receiver are identified
only by a string of numbers—but a public record of every coin’s movement is
published across the entire network. Buyers and sellers remain anonymous, but everyone can see that a
coin has moved from A to B,
and Nakamoto’s code can prevent
A from spending the coin a second time.
Nakamoto’s software would allow people to send money
directly to each other, without an intermediary, and no outside party
could create more bitcoins. Central banks and governments played no role. If
Nakamoto ran the world, he would have just fired Ben Bernanke, closed the
European Central Bank, and shut down Western Union. “Everything is based on crypto proof instead of
trust,” Nakamoto wrote in his 2009 essay.
Bitcoin, however, was doomed (certain to fail, die, or have problems) if the
code was unreliable. Earlier this year, Dan Kaminsky, a leading
Internet-security researcher, investigated the currency and was sure he would
find major weaknesses. Kaminsky is famous among hackers for discovering, in
2008, a fundamental flaw in the Internet which would have allowed a skilled
coder to take over any Web site or even to shut down the Internet. Kaminsky
alerted the Department of Homeland Security and executives at Microsoft and
Cisco (City Group for Smaller
Companies: an organization in the UK that represents smaller companies whose shares are publicly traded) to the problem and worked with them to patch (to repair a hole in a piece of clothing or other material by sewing a piece ofmaterial over it) it. He is
one of the most adept practitioners of “penetration testing,” the art of
compromising the security of computer systems at the behest (because someone has asked or ordered you to do something) of owners
who want to know their vulnerabilities. Bitcoin, he felt, was an easy
target.
“When I first looked at the code, I was sure I
was going to be able to break it,” Kaminsky said, noting that the programming
style was dense (it is thick and difficult to see through) and
inscrutable (very difficult to understand or get to know:). “The way the
whole thing was formatted was insane. Only the most paranoid, painstaking coder
in the world could avoid making mistakes.”
Kaminsky lives in Seattle, but, while visiting
family in San Francisco in July, he retreated to the basement of his mother’s
house to work on his bitcoin attacks. In a windowless room jammed with
computers, Kaminsky paced around talking to himself, trying to build a mental picture of the bitcoin
network. He quickly identified nine ways to compromise the system and
scoured Nakamoto’s code for an insertion point (to put something into something else) for his first
attack. But when he found the right spot, there was a message waiting for him.
“Attack Removed,” it said. The same thing happened over and over, infuriating
Kaminsky. “I came up with beautiful bugs,” he said. “But every time I went
after the code there was a line that addressed the problem.”
He was like a burglar who was certain that he
could break into a bank by digging a tunnel, drilling through a wall, or
climbing down a vent, and on each attempt he discovered a freshly poured cement
barrier with a sign telling him to go home. “I’ve never seen anything like it,”
Kaminsky said, still in awe (to feel great respect for someone).
Kaminsky ticked off the skills Nakamoto would
need to pull it off. “He’s a world-class programmer, with a deep understanding
of the C++ programming
language,” he said. “He understands economics, cryptography, and
peer-to-peer (involving sharing files or other resources between computers connected through a network, rather than using a central server (= a central computer that stores files)networking.”
“Either there’s a team of people who worked on
this,” Kaminsky said, “or this guy is a genius.”
Kaminsky wasn’t alone in this assessment. Soon
after creating the currency, Nakamoto posted a nine-page technical paper describing how bitcoin would
function. That document included three references to the work of Stuart
Haber, a researcher at H.P. Labs, in Princeton. Haber is a director of the International Association for
Cryptologic Research and knew all about bitcoin. “Whoever did this had a
deep understanding of cryptography,” Haber said when I called. “They’ve read
the academic papers, they have a keen intelligence, and they’re combining the
concepts in a genuinely new way.”
Haber noted that the community of cryptographers is very small:
about three hundred people a year attend the most important conference, the
annual gathering in Santa Barbara. In all likelihood, Nakamoto belonged to this
insular world. If I wanted to find him, the Crypto 2011 conference would be the
place to start.
“Here we go, team!” a cheerleader shouted before two burly guys heaved her
into the air.
It was a foggy Monday morning in mid-August, and
dozens of college cheerleaders had gathered on the athletic fields of the
University of California at Santa Barbara for a three-day training camp. Their
hollering could be heard on the steps of a nearby lecture hall, where a group
of bleary-eyed cryptographers, dressed in shorts and rumpled ( clothes or sheets are untidy because they have folds in them)T-shirts,
muttered about symmetric-key ciphers over steaming cups of coffee.
This was Crypto 2011, and the list of attendees
included representatives from the National Security Agency, the U.S. military,
and an assortment of foreign governments. Cryptographers are little known
outside this hermetic community, but our digital safety depends on them. They
write the algorithms that conceal (to hide something) bank
files, military plans, and your e-mail.
I approached Phillip Rogaway, the conference’s
program chair. He is a friendly, diminutive (extremely small) man who is a
professor of cryptography at the University of California at Davis and who has
also taught at Chiang Mai University, in Thailand. He bowed when he shook my
hand, and I explained that I was trying to learn more about what it would take to
create bitcoin. “The people who know how to do that are here,” Rogaway said.
“It’s likely I either know the person or know their work.” He offered to
introduce me to some of the attendees.
Nakamoto had good reason to hide: people who
experiment with currency tend to end up in trouble. In 1998, a Hawaiian
resident named Bernard von NotHaus began fabricating silver and gold coins that
he dubbed Liberty Dollars. Nine years later, the U.S. government charged
NotHaus with “conspiracy
against the United States.” He was found guilty and is awaiting
sentencing. “It is a violation of federal law for individuals . . . to create
private coin or currency systems to compete with the official coinage and
currency of the United States,” the F.B.I. announced at the end of the trial.
Online currencies aren’t exempt. In 2007, the
federal government filed charges against e-Gold, a company that sold a digital
currency redeemable (that can be exchanged for cash at a particular time) for gold. The government argued that the project enabled money laundering
and child pornography, since users did not have to provide thorough
identification. The company’s owners were found guilty of operating an unlicensed
money-transmitting business and the C.E.O. was sentenced to months of house
arrest. The company was effectively shut down.
Nakamoto seemed to be doing the same things as
these other currency developers who ran afoul (to experience problems, punishment, or harm because you do not obey a rule or disagree with a powerful organization, group, or person) of authorities. He was competing with the dollar and he insured the
anonymity of users, which made bitcoin attractive for criminals. This winter, a
Web site was launched called Silk
Road, which allowed users to buy and sell heroin, LSD, and marijuana as
long as they paid in bitcoin.
Still, Lewis Solomon, a professor emeritus
(no longer having a position, especially in a college or university, but keeping thetitle of the position) at George
Washington University Law School, who has written about alternative currencies,
argues that creating bitcoin might be legal. “Bitcoin is in a gray area, in
part because we don’t know whether it should be treated as a currency, a
commodity like gold, or possibly even a security,” he says.
Gray areas, however, are dangerous, which may be
why Nakamoto constructed bitcoin in secret. It may also explain why he built
the code with the same peer-to-peer technology that facilitates the exchange of pirated movies and
music: users connect
with each other instead of with a central server. There is no company in control,
no office to raid, and nobody to arrest.
Today, bitcoins can be used online to purchase beef jerky (meat (especially beef) cut in strips and dried in the sun) and socks made from alpaca (a South American animal with a long neck and long hair that looks like a llama) wool. Some computer retailers accept them, and you can use them to buy
falafel (fried balls of spicy food made from chickpeas (= pale brown round seeds)) from a restaurant in Hell’s Kitchen. In late August, I learned that
bitcoins could also get me a room at a Howard Johnson hotel in Fullerton,
California, ten minutes from Disneyland. I booked a reservation for my
four-year-old daughter and me and received an e-mail from the hotel requesting
a payment of 10.305 bitcoins.
By this time, it would have been pointless for
me to play the bitcoin lottery, which is set up so that the difficulty of
winning increases the more people play it. When bitcoin launched, my laptop
would have had a reasonable chance of winning from time to time. Now, however,
the computing power dedicated to playing the bitcoin lottery exceeds that of
the world’s most powerful supercomputer. So I set up an account with Mt. Gox, the leading bitcoin exchange, and transferred a
hundred and twenty dollars. A few days later, I bought 10.305 bitcoins with the
press of a button and just as easily sent them to the Howard Johnson.
It was a simple transaction that masked a
complex calculus. In 1971, Richard Nixon announced that U.S. dollars could no
longer be redeemed for
gold. Ever since, the value
of the dollar has been based on our faith in it. We trust that dollars
will be valuable tomorrow, so we accept payment in dollars today. Bitcoin is
similar: you have to trust that the system won’t get hacked, and that Nakamoto
won’t suddenly emerge to somehow plunder (to steal, especially during a war) it all. Once you
believe in it, the actual cost of a bitcoin—five dollars or thirty?—depends on
factors such as how many merchants are using it, how many might use it in the
future, and whether or not governments ban it.
My daughter and I arrived at the Howard Johnson
on a hot Friday afternoon and were met in the lobby by Jefferson Kim, the
hotel’s cherubic (having a round, attractive face like that of a child) twenty-eight-year-old general manager. “You’re the first person who’s
ever paid in bitcoin,” he said, shaking my hand enthusiastically.
Kim explained that he had started mining (is the industry and
activities connected with getting valuable or useful minerals) bitcoins two
months earlier. He liked that the currency was governed by a set of logical
rules, rather than the mysterious machinations (complicated and secret plans and activities) of the
Federal Reserve. A dollar today, he pointed out, buys you what a nickel bought
a century ago, largely because so much money has been printed. And, he asked, why trust a currency backed by a
government that is fourteen trillion dollars in debt?
Kim had also figured that bitcoin mining would
be a way to make up the twelve hundred dollars he’d spent on a high-performance
gaming computer. So far, he’d made only four hundred dollars, but it was fun to
be a pioneer. He wanted bitcoin to succeed, and in order for that to happen
businesses needed to start accepting it.
The truth
is that most people don’t spend the bitcoins they buy; they hoard
(to collect and store a large supply of something, often secretly) them,
hoping that they will appreciate. Businesses are afraid to accept them, because
they’re new and weird—and because the value can fluctuate wildly. (Kim
immediately exchanged the bitcoins I sent him for dollars to avoid just that
risk.) Still, the currency is young and has several attributes that appeal to
merchants. Robert Schwarz, the owner of a computer-repair business in Klamath
Falls, Oregon, began selling computers for bitcoin to sidestep steep
credit-card fees, which he estimates cost him three per cent on every
transaction. “One bank called me saying they had the lowest fees,” Schwarz
said. “I said, ‘No, you don’t. Bitcoin does.’ ” Because bitcoin transfers can’t
be reversed, merchants also don’t have to deal with credit-card charge-backs
from dissatisfied customers. Like cash, it’s gone once you part with it.
At the Howard Johnson, Kim led us to the
check-in counter. The lobby featured imitation-crystal chandeliers, ornately
framed oil paintings of Venice, and, inexplicably (so strange or unusual that you cannot understand or explain it), a pair of faux (not real, but made to look or seem real) elephant tusks painted gold. Kim explained that he hadn’t told his
mother, who owned the place, that her hotel was accepting bitcoins: “It would
be too hard to explain what a bitcoin is.” He said he had activated the
tracking program on his mother’s Droid (Android, A laptop computer that runs the Android operating system.), and she was currently about six miles away. Today, at least, there was
no danger of her finding out about her hotel’s financial innovation. The receptionist
handed me a room card, and Kim shook my hand. “So just enjoy your stay,” he
said.
Nakamoto’s extensive online postings have some distinctive characteristics.
First of all, there is the flawless
English. Over the course of two years, he dashed off (to write something very quickly) about
eighty thousand words—the approximate length of a novel—and made only a
few typos (a small mistake in a text made when it was typed or printed). He
covered topics ranging from the theories of the Austrian economist Ludwig von Mises to the
history of commodity markets. Perhaps most interestingly, when he created the
first fifty bitcoins, now known as the “genesis block,” (the origin of something, when it is begun or starts to exist) he permanently embedded a brief line of text into the data: “The Times
03/Jan/2009 Chancellor on brink of second bailout for banks.”
This is a reference to a Times of
London article that indicated that the British government had failed to
stimulate the economy. Nakamoto appeared to be saying that it was time to try
something new. The text, hidden amid a jumble (a confused mixture or group of things) of code,
was a sort of digital battle cry. It also indicated that Nakamoto read a
British newspaper. He used British spelling (“favour,” “colour,” “grey,”
“modernised”) and at one point described something as being “bloody hard.” An
apartment was a “flat,” math was “maths,” and his comments tended to appear
after normal business hours ended in the United Kingdom. In an initial post
announcing bitcoin, he employed American-style spelling. But after that a
British style appeared to flow naturally.
I had this in mind when I started to attend the
lectures at the Crypto 2011 conference, including ones with titles such as
“Leftover Hash Lemma, Revisited” and “Time-Lock Puzzles in the Random Oracle
Model.” In the back of a darkened auditorium, I stared at the attendee list. A
Frenchman onstage was talking about testing the security of encryption systems.
The most effective method, he said, is to attack the system and see if it
fails. I ran my finger past dozens of names and addresses, circling residents
of the United Kingdom and Ireland. There were nine.
I soon discovered that six were from the
University of Bristol, and they were all together at one of the conference’s
cocktail parties. They were happy to chat but entirely dismissive of bitcoin,
and none had worked with peer-to-peer technology. “It’s not at all interesting
to us,” one of them said. The two other cryptographers from Britain had no
history with large software projects. Then I started looking into a man named Michael Clear.
Clear was a young graduate student in
cryptography at Trinity College in Dublin. Many of the other research students
at Trinity posted profile pictures and phone numbers, but Clear’s page just had
an e-mail address. A Web search turned up three interesting details. In 2008,
Clear was named the top computer-science undergraduate at Trinity. The next
year, he was hired by Allied Irish Banks to improve its currency-trading
software, and he co-authored an academic paper on peer-to-peer technology. The
paper employed British spelling. Clear was well versed (to know a lot about a particular subject or be experienced in a particularskil) in economics, cryptography, and peer-to-peer networks.
I e-mailed him, and we agreed to meet the next
morning on the steps outside the lecture hall. Shortly after the appointed
time, a long-haired, square-jawed young man in a beige sweater walked up to me,
looking like an early-Zeppelin Robert Plant. With a pronounced brogue ( a way of speaking English, especially that of Irish or Scottish speakers), he
introduced himself. “I like to keep a low profile,” he said. “I’m curious to
know how you found me.”
I told him I had read about his work for Allied
Irish, as well as his paper on peer-to-peer technology, and was interested
because I was researching bitcoin. I said that his work gave him a unique
insight into the subject. He was wearing rectangular Armani glasses and
squinted (to look at something with your eyes partly closed) so much I
couldn’t see his eyes.
“My area of focus right now is fully homomorphic
(similarity in form) encryption,”
he said. “I haven’t been following bitcoin lately.”
He responded calmly to my questions. He was twenty-three
years old and studied theoretical cryptography by himself in Dublin—there
weren’t any other cryptographers at Trinity. But he had been programming
computers since he was ten and he could code in a variety of languages,
including C++, the language
of bitcoin. Given that he was working in the banking industry during
tumultuous (full of noise and excitement) times, I
asked how he felt about the ongoing economic crisis. “It could have been
averted (to prevent something bad from happening)” he said
flatly.
He didn’t want to say whether or not the new
currency could prevent future banking crises. “It needs to prove itself,” he
said. “But it’s an intriguing idea.”
I told him I had been looking for Nakamoto and
thought that he might be here at the Crypto 2011 conference. He said nothing.
Finally, I asked, “Are you Satoshi?”
He laughed, but didn’t respond. There was an
awkward silence.
“If you’d like, I’d be happy to review the
design for you,” he offered instead. “I could let you know what I think.”
“Sure,” I said hesitantly. “Do you need me to
send you a link to the code?”
“I think I can find it,” he said.
Soon after I met Clear, I travelled to Glasgow, Kentucky, to see what
bitcoin mining looked like. As I drove into the town of fourteen thousand, I
passed shuttered factories and a central square lined with empty storefronts.
On Howdy 106.5, a local radio station, a man tried to sell his bed, his
television, and his basset hound—all for a hundred and ten dollars.
I had come to visit Kevin Groce, a
forty-two-year-old bitcoin miner. His uncles had a garbage-hauling business and
had let him set up his operation at their facility. The dirt parking lot was
jammed with garbage trucks, which reeked (to have a very unpleasant smell) in the summer
sun.
“I like to call it the new moonshining,”
Groce said, in a smooth Kentucky drawl (a lazy way of speaking that uses long vowel sounds), as he led
me into a darkened room. One wall was lined with four-foot-tall homemade
computers with blinking green and red lights. The processors inside were
working so hard that their temperature had risen to a hundred and seventy
degrees, and heat radiated into the room. Each system was a jumble of wires and
hacked-together parts, with a fan from Walmart duct-taped (is a strong sticky tape that you use to join things together) to the top. Groce had built them three months earlier, for four thousand
dollars. Ever since, they had generated a steady flow of bitcoins, which Groce
exchanged for dollars, averaging about a thousand per month so far. He figured
his investment was going to pay off.
Groce was wiry ( hair is strong, thick, and rough to touch), with wisps (a thin, delicate piece of hair, grass, etc) of gray in
his hair, and he split his time between working on his dad’s farm, repairing
laptops at a local computer store, and mining bitcoin. Groce’s father didn’t
understand Kevin’s enthusiasm for the new currency and expected him to take
over the farm. “If it’s not attached to a cow, my dad doesn’t think much of
it,” Groce said.
Groce was engaged to be married, and planned to
use some of his bitcoin earnings to pay for a wedding in Las Vegas later in the
year. He had tried to explain to his fiancée (the woman who someone is engaged to be married to) how they could
afford it, but she doubted the financial prudence of filling a room with
bitcoin-mining rigs (a large structure ). “She gets to cussing (to say words that are not polite because you are angry) every time we talk about it,” Groce confided. Still, he was proud of the
powerful computing center he had constructed. The machines ran non-stop, and he
could control them remotely from his iPhone. The arrangement allowed him to cut
tobacco with his father and monitor his bitcoin operation at the same time.
Nakamoto knew that competition for bitcoins
would eventually lead people to build these kinds of powerful computing
clusters. Rather than let that effort go to waste, he designed software that
uses the processing power
of the lottery players to confirm and verify transactions. As people
like Groce try to win bitcoins, their computers are harnessed (to control something, usually in order to use its power) to analyze transactions and insure that no one spends money twice. In
other words, Groce’s backwoods (a place in the countryside that is a long way from any town and in which not many people live) operation functioned as a kind of bank.
Groce, however, didn’t look like a guy Wells
Fargo (is an American international banking and financial
services holding company headquartered in San Francisco,California, with "hubquarters" throughout the country) would hire. He liked to stay up late at the garbage-hauling center and thrash through Black
Sabbath tunes on his guitar. He gave all his computers pet names, like Topper
and the Dazzler, and, between guitar solos, tended to them as if they were
prize animals. “I grew up milking cows,” Groce said. “Now I’m just milking
these things.”
A week after the Crypto 2011 conference, I received an e-mail from Clear.
He said that he would send me his thoughts on bitcoin in a day. He added, “I also think I can identify
Satoshi.”
The next morning, Clear sent a lengthy e-mail.
“It is apparent that the person(s) behind the Satoshi name accumulated a not
insignificant knowledge of applied cryptography,” he wrote, adding that the
design was “elegant” and required “considerable effort and dedication, and
programming proficiency.” But Clear also described some of bitcoin’s
weaknesses. He pointed out that users were expected to download their own encryption software to
secure their virtual wallets. Clear felt that the bitcoin software should automatically provide such
security. He also worried about the system’s ability to grow and the
fact that early adopters received an outsized share of bitcoins.
“As far as the identity of the author, it would
be unfair to publish an identity when the person or persons has/have taken
major steps to remain anonymous,” he wrote. “But you may wish to talk to a
certain individual who matches the profile of the author on many levels.”
He then gave me a name.
For a few seconds, all I could hear on the other end of the line was
laughter.
“I would love to say that I’m Satoshi, because
bitcoin is very clever,” Vili Lehdonvirta said, finally. “But it’s not me.”
Lehdonvirta is a thirty-one-year-old Finnish
researcher at the Helsinki Institute for Information Technology. Clear had
discovered that Lehdonvirta used to be a video-game programmer and now studies
virtual currencies. Clear suggested that he was a solid fit for Nakamoto.
Lehdonvirta, however, pointed out that he has no
background in cryptography and limited C++ programming skills. “You need to be
a crypto expert to build something as sophisticated as bitcoin,” Lehdonvirta
said. “There aren’t many of those people, and I’m definitely not one of them.”
Still, Lehdonvirta had researched bitcoin and
worried about it. “The
only people who need cash in large denominations right now are criminals,”
he said, pointing out that cash is hard to move around and store. Bitcoin removes
those obstacles while preserving the anonymity of cash. Lehdonvirta is on the
advisory board of Electronic
Frontier Finland, an organization that advocates for online privacy,
among other things. Nonetheless, he believes that bitcoin takes privacy too far.
“Only anarchists want absolute, unbreakable financial privacy,” he said. “We
need to have a back door so that law enforcement can intercede (to use your influence to persuade someone in authority to forgive another person, or save this person from punishment).”
But Lehdonvirta admitted that it’s hard to stop
new technology, particularly when it has a compelling story. And part of what
attracts people to bitcoin, he said, is the mystery of Nakamoto’s true
identity. “Having a
mythical background is an excellent marketing trick,” Lehdonvirta said.
A few days later, I spoke with Clear again.
“Did you find Satoshi?” he asked cheerfully.
I told him that Lehdonvirta had made a
convincing denial, and that every other lead I’d been working on had gone
nowhere. I then took one more opportunity to question him and to explain all
the reasons that I suspected his involvement. Clear responded that his work for
Allied Irish Banks was brief and of “no importance.” He admitted that he was a
good programmer, understood cryptography, and appreciated the bitcoin design.
But, he said, economics had never been a particular interest of his. “I’m not
Satoshi,” Clear said. “But even if I was I wouldn’t tell you.”
The point, Clear continued, is that Nakamoto’s
identity shouldn’t matter. The system was built so that we don’t have to trust an individual, a
company, or a government. Anybody can review the code, and the network
isn’t controlled by any one entity. That’s what inspires confidence in the
system. Bitcoin, in other words, survives because of what you can see and what
you can’t. Users are hidden, but
transactions are exposed. The code is visible to all, but its origins
are mysterious. The currency is both real and elusive—just like its founder.
“You can’t kill it,” Clear said, with a touch of
bravado. “Bitcoin would survive a nuclear attack.”
Over the summer, bitcoin actually experienced a sort of nuclear attack.
Hackers targeted the burgeoning (developing quickly) currency, and though they couldn’t break Nakamoto’s code, they were able
to disrupt the exchanges and
destroy Web sites that helped users store bitcoins. The number of
transactions decreased and the exchange rate plummeted. Commentators predicted
the end of bitcoin. In September, however, volume began to increase again, and
the price stabilized, at least temporarily.
Meanwhile, in Kentucky, Kevin Groce added two
new systems to his bitcoin-mining operation at the garbage depot and planned to
build a dozen more. Ricky Wells, his uncle and a co-owner of the garbage
business, had offered to invest thirty thousand dollars, even though he didn’t
understand how bitcoin worked. “I’m just a risk-taking son of a bitch and I
know this thing’s making money,” Wells said. “Plus, these things are so damn
hot they’ll heat the whole building this winter.”
To Groce, bitcoin was an inevitable evolution in
money. People use printed money less and less as it is, he said. Consumers need
something like bitcoin to take its place. “It’s like eight-tracks going to
cassettes to CDs and now MP3s,” he said.
Even though his friends and most of his
relatives questioned his enthusiasm, Groce didn’t hide his confidence. He liked
to wear a T-shirt he designed that had the words “Bitcoin Millionaire”
emblazoned in gold on the chest. He admitted that people made fun of him for
it. “My fiancée keeps saying she’d rather I was just a regular old
millionaire,” he said. “But maybe I will be someday, if these rigs (a large structure that is used for removing oil or gas from the ground or the bottom of the sea:) keep working for
me.”
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