Yes, it’s driven by greed — but the mania for cryptocurrency could wind up building something much more important than wealth.
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The
sequence of words is meaningless: a random array strung together by an
algorithm let loose in an English dictionary. What makes them valuable
is that they’ve been generated exclusively for me, by a software tool
called MetaMask. In the lingo of cryptography, they’re known as my seed
phrase. They might read like an incoherent stream of consciousness, but
these words can be transformed into a key that unlocks a digital bank
account, or even an online identity. It just takes a few more steps.
On
the screen, I’m instructed to keep my seed phrase secure: Write it
down, or keep it in a secure place on your computer. I scribble the 12
words onto a notepad, click a button and my seed phrase is transformed
into a string of 64 seemingly patternless characters:
1b0be2162cedb2744d016943bb14e71de6af95a63af3790d6b41b1e719dc5c66
This
is what’s called a “private key” in the world of cryptography: a way of
proving identity, in the same, limited way that real-world keys attest
to your identity when you unlock your front door. My seed phrase will
generate that exact sequence of characters every time, but there’s no
known way to reverse-engineer the original phrase from the key, which is
why it is so important to keep the seed phrase in a safe location.
That private key number is then run through two additional transformations, creating a new string:
0x6c2ecd6388c550e8d99ada34a1cd55bedd052ad9
That string is my address on the Ethereum blockchain.
Ethereum
belongs to the same family as the cryptocurrency Bitcoin, whose value
has increased more than 1,000 percent in just the past year. Ethereum
has its own currencies, most notably Ether, but the platform has a wider
scope than just money. You can think of my Ethereum address as having
elements of a bank account, an email address and a Social Security
number. For now, it exists only on my computer as an inert string of
nonsense, but the second I try to perform any kind of transaction — say,
contributing to a crowdfunding campaign or voting in an online
referendum — that address is broadcast out to an improvised worldwide
network of computers that tries to verify the transaction. The results
of that verification are then broadcast to the wider network again,
where more machines enter into a kind of competition to perform complex
mathematical calculations, the winner of which gets to record that
transaction in the single, canonical record of every transaction ever
made in the history of Ethereum.
Because those transactions are
registered in a sequence of “blocks” of data, that record is called the
blockchain.
The
whole exchange takes no more than a few minutes to complete. From my
perspective, the experience barely differs from the usual routines of
online life.
But on a technical level, something miraculous is happening
— something that would have been unimaginable just a decade ago. I’ve
managed to complete a secure transaction without any of the traditional
institutions that we rely on to establish trust. No intermediary
brokered the deal; no social-media network captured the data from my
transaction to better target its advertising; no credit bureau tracked
the activity to build a portrait of my financial trustworthiness.
And
the platform that makes all this possible? No one owns it. There are no
venture investors backing Ethereum Inc., because there is no Ethereum
Inc. As an organizational form, Ethereum is far closer to a democracy
than a private corporation. No imperial chief executive calls the shots.
You earn the privilege of helping to steer Ethereum’s ship of state by
joining the community and doing the work. Like Bitcoin and most other
blockchain platforms, Ethereum is more a swarm than a formal entity. Its
borders are porous; its hierarchy is deliberately flattened.
Oh,
one other thing: Some members of that swarm have already accumulated a
paper net worth in the billions from their labors, as the value of one
“coin” of Ether rose from $8 on Jan. 1, 2017, to $843 exactly one year
later.
You
may be inclined to dismiss these transformations. After all, Bitcoin
and Ether’s runaway valuation looks like a case study in irrational
exuberance. And why should you care about an arcane technical
breakthrough that right now doesn’t feel all that different from signing
in to a website to make a credit card payment?
But
that dismissal would be shortsighted. If there’s one thing we’ve
learned from the recent history of the internet, it’s that seemingly
esoteric decisions about software architecture can unleash profound
global forces once the technology moves into wider circulation. If the
email standards adopted in the 1970s had included public-private key
cryptography as a default setting, we might have avoided the cataclysmic
email hacks that have afflicted everyone from Sony to John Podesta, and
millions of ordinary consumers might be spared routinized identity
theft. If Tim Berners-Lee, the inventor of the World Wide Web, had
included a protocol for mapping our social identity in his original
specs, we might not have Facebook.
The
true believers behind blockchain platforms like Ethereum argue that a
network of distributed trust is one of those advances in software
architecture that will prove, in the long run, to have historic
significance. That promise has helped fuel the huge jump in
cryptocurrency valuations. But in a way, the Bitcoin bubble may
ultimately turn out to be a distraction from the true significance of
the blockchain. The real promise of these new technologies, many of
their evangelists believe, lies not in displacing our currencies but in
replacing much of what we now think of as the internet, while at the
same time returning the online world to a more decentralized and
egalitarian system. If you believe the evangelists, the blockchain is
the future. But it is also a way of getting back to the internet’s
roots.
Once the inspiration
for utopian dreams of infinite libraries and global connectivity, the
internet has seemingly become, over the past year, a universal
scapegoat: the cause of almost every social ill that confronts us.
Russian trolls destroy the democratic system with fake news on Facebook;
hate speech flourishes on Twitter and Reddit; the vast fortunes of the
geek elite worsen income equality. For many of us who participated in
the early days of the web, the last few years have felt almost
postlapsarian. The web had promised a new kind of egalitarian media,
populated by small magazines, bloggers and self-organizing
encyclopedias; the information titans that dominated mass culture in the
20th century would give way to a more decentralized system, defined by
collaborative networks, not hierarchies and broadcast channels. The
wider culture would come to mirror the peer-to-peer architecture of the
internet itself. The web in those days was hardly a utopia — there were
financial bubbles and spammers and a thousand other problems — but
beneath those flaws, we assumed, there was an underlying story of
progress.
Last
year marked the point at which that narrative finally collapsed. The
existence of internet skeptics is nothing new, of course; the difference
now is that the critical voices increasingly belong to former
enthusiasts. “We have to fix the internet,” Walter Isaacson, Steve
Jobs’s biographer, wrote in an essay published a few weeks after Donald
Trump was elected president. “After 40 years, it has begun to corrode,
both itself and us.” The former Google strategist James Williams told
The Guardian: “The dynamics of the attention economy are structurally
set up to undermine the human will.” In a blog post, Brad Burnham, a
managing partner at Union Square Ventures, a top New York
venture-capital firm, bemoaned the collateral damage from the quasi
monopolies of the digital age: “Publishers find themselves becoming
commodity content suppliers in a sea of undifferentiated content in the
Facebook news feed. Websites see their fortunes upended by small changes
in Google’s search algorithms. And manufacturers watch helplessly as
sales dwindle when Amazon decides to source products directly in China
and redirect demand to their own products.” (Full disclosure: Burnham’s
firm invested in a company I started in 2006; we have had no financial
relationship since it sold in 2011.) Even Berners-Lee, the inventor of
the web itself, wrote a blog post voicing his concerns that the
advertising-based model of social media and search engines creates a
climate where “misinformation, or ‘fake news,’ which is surprising,
shocking or designed to appeal to our biases, can spread like wildfire.”
For
most critics, the solution to these immense structural issues has been
to propose either a new mindfulness about the dangers of these tools —
turning off our smartphones, keeping kids off social media — or the
strong arm of regulation and antitrust: making the tech giants subject
to the same scrutiny as other industries that are vital to the public
interest, like the railroads or telephone networks of an earlier age.
Both those ideas are commendable: We probably should develop a new set
of habits governing how we interact with social media, and it seems
entirely sensible that companies as powerful as Google and Facebook
should face the same regulatory scrutiny as, say, television networks.
But those interventions are unlikely to fix the core problems that the
online world confronts. After all, it was not just the antitrust
division of the Department of Justice that challenged Microsoft’s
monopoly power in the 1990s; it was also the emergence of new software
and hardware — the web, open-source software and Apple products — that
helped undermine Microsoft’s dominant position.
The
blockchain evangelists behind platforms like Ethereum believe that a
comparable array of advances in software, cryptography and distributed
systems has the ability to tackle today’s digital problems: the
corrosive incentives of online advertising; the quasi monopolies of
Facebook, Google and Amazon; Russian misinformation campaigns. If they
succeed, their creations may challenge the hegemony of the tech giants
far more effectively than any antitrust regulation. They even claim to
offer an alternative to the winner-take-all model of capitalism than has
driven wealth inequality to heights not seen since the age of the
robber barons.
That
remedy is not yet visible in any product that would be intelligible to
an ordinary tech consumer. The only blockchain project that has crossed
over into mainstream recognition so far is Bitcoin, which is in the
middle of a speculative bubble that makes the 1990s internet I.P.O.
frenzy look like a neighborhood garage sale. And herein lies the
cognitive dissonance that confronts anyone trying to make sense of the
blockchain: the potential power of this would-be revolution is being
actively undercut by the crowd it is attracting, a veritable goon squad
of charlatans, false prophets and mercenaries. Not for the first time,
technologists pursuing a vision of an open and decentralized network
have found themselves surrounded by a wave of opportunists looking to
make an overnight fortune. The question is whether, after the bubble has
burst, the very real promise of the blockchain can endure.
To some students
of modern technological history, the internet’s fall from grace follows
an inevitable historical script. As Tim Wu argued in his 2010 book,
“The Master Switch,” all the major information technologies of the 20th
century adhered to a similar developmental pattern, starting out as the
playthings of hobbyists and researchers motivated by curiosity and
community, and ending up in the hands of multinational corporations
fixated on maximizing shareholder value. Wu calls this pattern the
Cycle, and on the surface at least, the internet has followed the Cycle
with convincing fidelity. The internet began as a hodgepodge of
government-funded academic research projects and side-hustle hobbies.
But 20 years after the web first crested into the popular imagination,
it has produced in Google, Facebook and Amazon — and indirectly, Apple —
what may well be the most powerful and valuable corporations in the
history of capitalism.
Blockchain
advocates don’t accept the inevitability of the Cycle. The roots of the
internet were in fact more radically open and decentralized than
previous information technologies, they argue, and had we managed to
stay true to those roots, it could have remained that way. The online
world would not be dominated by a handful of information-age titans; our
news platforms would be less vulnerable to manipulation and fraud;
identity theft would be far less common; advertising dollars would be
distributed across a wider range of media properties.
To
understand why, it helps to think of the internet as two fundamentally
different kinds of systems stacked on top of each other, like layers in
an archaeological dig. One layer is composed of the software protocols
that were developed in the 1970s and 1980s and hit critical mass, at
least in terms of audience, in the 1990s. (A protocol is the software
version of a lingua franca, a way that multiple computers agree to
communicate with one another. There are protocols that govern the flow
of the internet’s raw data, and protocols for sending email messages,
and protocols that define the addresses of web pages.)
And then above
them, a second layer of web-based services — Facebook, Google, Amazon,
Twitter — that largely came to power in the following decade.
The
first layer — call it InternetOne — was founded on open protocols,
which in turn were defined and maintained by academic researchers and
international-standards bodies, owned by no one. In fact, that original
openness continues to be all around us, in ways we probably don’t
appreciate enough. Email is still based on the open protocols POP, SMTP
and IMAP; websites are still served up using the open protocol HTTP;
bits are still circulated via the original open protocols of the
internet, TCP/IP. You don’t need to understand anything about how these
software conventions work on a technical level to enjoy their benefits.
The key characteristic they all share is that anyone can use them, free
of charge.
You don’t need to pay a licensing fee to some corporation
that owns HTTP if you want to put up a web page; you don’t have to sell a
part of your identity to advertisers if you want to send an email using
SMTP. Along with Wikipedia, the open protocols of the internet
constitute the most impressive example of commons-based production in
human history.
To
see how enormous but also invisible the benefits of such protocols have
been, imagine that one of those key standards had not been developed:
for instance, the open standard we use for defining our geographic
location, GPS. Originally developed by the United States military, the
Global Positioning System was first made available for civilian use
during the Reagan administration. For about a decade, it was largely
used by the aviation industry, until individual consumers began to use
it in car navigation systems. And now we have smartphones that can pick
up a signal from GPS satellites orbiting above us, and we use that
extraordinary power to do everything from locating nearby restaurants to
playing Pokémon Go to coordinating disaster-relief efforts.
But
what if the military had kept GPS out of the public domain? Presumably,
sometime in the 1990s, a market signal would have gone out to the
innovators of Silicon Valley and other tech hubs, suggesting that
consumers were interested in establishing their exact geographic
coordinates so that those locations could be projected onto digital
maps. There would have been a few years of furious competition among
rival companies, who would toss their own proprietary satellites into
orbit and advance their own unique protocols, but eventually the market
would have settled on one dominant model, given all the efficiencies
that result from a single, common way of verifying location.
Call that imaginary firm GeoBook. Initially, the embrace of GeoBook would have been a leap forward for consumers and other companies trying to build location awareness into their hardware and software. But slowly, a darker narrative would have emerged: a single private corporation, tracking the movements of billions of people around the planet, building an advertising behemoth based on our shifting locations. Any start-up trying to build a geo-aware application would have been vulnerable to the whims of mighty GeoBook. Appropriately angry polemics would have been written denouncing the public menace of this Big Brother in the sky.
Call that imaginary firm GeoBook. Initially, the embrace of GeoBook would have been a leap forward for consumers and other companies trying to build location awareness into their hardware and software. But slowly, a darker narrative would have emerged: a single private corporation, tracking the movements of billions of people around the planet, building an advertising behemoth based on our shifting locations. Any start-up trying to build a geo-aware application would have been vulnerable to the whims of mighty GeoBook. Appropriately angry polemics would have been written denouncing the public menace of this Big Brother in the sky.
But
none of that happened, for a simple reason. Geolocation, like the
location of web pages and email addresses and domain names, is a problem
we solved with an open protocol. And because it’s a problem we don’t
have, we rarely think about how beautifully GPS does work and how many
different applications have been built on its foundation.
The
open, decentralized web turns out to be alive and well on the
InternetOne layer. But since we settled on the World Wide Web in the
mid-’90s, we’ve adopted very few new open-standard protocols. The
biggest problems that technologists tackled after 1995 — many of which
revolved around identity, community and payment mechanisms — were left
to the private sector to solve. This is what led, in the early 2000s, to
a powerful new layer of internet services, which we might call
InternetTwo.
For
all their brilliance, the inventors of the open protocols that shaped
the internet failed to include some key elements that would later prove
critical to the future of online culture. Perhaps most important, they
did not create a secure open standard that established human identity on
the network. Units of information could be defined — pages, links,
messages — but people did not have their own protocol: no way
to define and share your real name, your location, your interests or
(perhaps most crucial) your relationships to other people online.
This
turns out to have been a major oversight, because identity is the sort
of problem that benefits from one universally recognized solution. It’s
what Vitalik Buterin, a founder of Ethereum, describes as “base-layer”
infrastructure: things like language, roads and postal services,
platforms where commerce and competition are actually assisted by having
an underlying layer in the public domain. Offline, we don’t have an
open market for physical passports or Social Security numbers; we have a
few reputable authorities — most of them backed by the power of the
state — that we use to confirm to others that we are who we say we are.
But online, the private sector swooped in to fill that vacuum, and
because identity had that characteristic of being a universal problem,
the market was heavily incentivized to settle on one common standard for
defining yourself and the people you know.
The
self-reinforcing feedback loops that economists call “increasing
returns” or “network effects” kicked in, and after a period of
experimentation in which we dabbled in social-media start-ups like
Myspace and Friendster, the market settled on what is essentially a
proprietary standard for establishing who you are and whom you know.
That standard is Facebook. With more than two billion users, Facebook is
far larger than the entire internet at the peak of the dot-com bubble
in the late 1990s. And that user growth has made it the world’s
sixth-most-valuable corporation, just 14 years after it was founded.
Facebook is the ultimate embodiment of the chasm that divides
InternetOne and InternetTwo economies. No private company owned the
protocols that defined email or GPS or the open web. But one single
corporation owns the data that define social identity for two billion
people today — and one single person, Mark Zuckerberg, holds the
majority of the voting power in that corporation.
If
you see the rise of the centralized web as an inevitable turn of the
Cycle, and the open-protocol idealism of the early web as a kind of
adolescent false consciousness, then there’s less reason to fret about
all the ways we’ve abandoned the vision of InternetOne. Either we’re
living in a fallen state today and there’s no way to get back to Eden,
or Eden itself was a kind of fantasy that was always going to be
corrupted by concentrated power. In either case, there’s no point in
trying to restore the architecture of InternetOne; our only hope is to
use the power of the state to rein in these corporate giants, through
regulation and antitrust action. It’s a variation of the old Audre Lorde
maxim: “The master’s tools will never dismantle the master’s house.”
You can’t fix the problems technology has created for us by throwing
more technological solutions at it. You need forces outside the domain
of software and servers to break up cartels with this much power.
But
the thing about the master’s house, in this analogy, is that it’s a
duplex. The upper floor has indeed been built with tools that cannot be
used to dismantle it. But the open protocols beneath them still have the
potential to build something better.
One of the most
persuasive advocates of an open-protocol revival is Juan Benet, a
Mexican-born programmer now living on a suburban side street in Palo
Alto, Calif., in a three-bedroom rental that he shares with his
girlfriend and another programmer, plus a rotating cast of guests, some
of whom belong to Benet’s organization, Protocol Labs. On a warm day in
September, Benet greeted me at his door wearing a black Protocol Labs
hoodie. The interior of the space brought to mind the incubator/frat
house of HBO’s “Silicon Valley,” its living room commandeered by an
array of black computer monitors. In the entrance hallway, the words
“Welcome to Rivendell” were scrawled out on a whiteboard, a nod to the
Elven city from “Lord of the Rings.” “We call this house Rivendell,”
Benet said sheepishly. “It’s not a very good Rivendell. It doesn’t have
enough books, or waterfalls, or elves.”
Benet,
who is 29, considers himself a child of the first peer-to-peer
revolution that briefly flourished in the late 1990s and early 2000s,
driven in large part by networks like BitTorrent that distributed media
files, often illegally. That initial flowering was in many ways a
logical outgrowth of the internet’s decentralized, open-protocol roots.
The web had shown that you could publish documents reliably in a
commons-based network. Services like BitTorrent or Skype took that logic
to the next level, allowing ordinary users to add new functionality to
the internet: creating a distributed library of (largely pirated) media,
as with BitTorrent, or helping people make phone calls over the
internet, as with Skype.
Sitting
in the living room/office at Rivendell, Benet told me that he thinks of
the early 2000s, with the ascent of Skype and BitTorrent, as “the
‘summer’ of peer-to-peer” — its salad days. “But then peer-to-peer hit a
wall, because people started to prefer centralized architectures,” he
said. “And partly because the peer-to-peer business models were
piracy-driven.” A graduate of Stanford’s computer-science program, Benet
talks in a manner reminiscent of Elon Musk: As he speaks, his eyes dart
across an empty space above your head, almost as though he’s reading an
invisible teleprompter to find the words. He is passionate about the
technology Protocol Labs is developing, but also keen to put it in a
wider context. For Benet, the shift from distributed systems to more
centralized approaches set in motion changes that few could have
predicted. “The rules of the game, the rules that govern all of this
technology, matter a lot,” he said. “The structure of what we build now
will paint a very different picture of the way things will be five or 10
years in the future.” He continued: “It was clear to me then that
peer-to-peer was this extraordinary thing. What was not clear to me then
was how at risk it is. It was not clear to me that you had to take up
the baton, that it’s now your turn to protect it.”
Protocol
Labs is Benet’s attempt to take up that baton, and its first project is
a radical overhaul of the internet’s file system, including the basic
scheme we use to address the location of pages on the web. Benet calls
his system IPFS, short for InterPlanetary File System. The current
protocol — HTTP — pulls down web pages from a single location at a time
and has no built-in mechanism for archiving the online pages. IPFS
allows users to download a page simultaneously from multiple locations
and includes what programmers call “historic versioning,” so that past
iterations do not vanish from the historical record. To support the
protocol, Benet is also creating a system called Filecoin that will
allow users to effectively rent out unused hard-drive space. (Think of
it as a sort of Airbnb for data.) “Right now there are tons of hard
drives around the planet that are doing nothing, or close to nothing, to
the point where their owners are just losing money,” Benet said. “So
you can bring online a massive amount of supply, which will bring down
the costs of storage.” But as its name suggests, Protocol Labs has an
ambition that extends beyond these projects; Benet’s larger mission is
to support many new open-source protocols in the years to come.
Why
did the internet follow the path from open to closed? One part of the
explanation lies in sins of omission: By the time a new generation of
coders began to tackle the problems that InternetOne left unsolved,
there were near-limitless sources of capital to invest in those efforts,
so long as the coders kept their systems closed. The secret to the
success of the open protocols of InternetOne is that they were developed
in an age when most people didn’t care about online networks, so they
were able to stealthily reach critical mass without having to contend
with wealthy conglomerates and venture capitalists.
By the mid-2000s,
though, a promising new start-up like Facebook could attract millions of
dollars in financing even before it became a household brand. And that
private-sector money ensured that the company’s key software would
remain closed, in order to capture as much value as possible for
shareholders.
And
yet — as the venture capitalist Chris Dixon points out — there was
another factor, too, one that was more technical than financial in
nature. “Let’s say you’re trying to build an open Twitter,” Dixon
explained while sitting in a conference room at the New York offices of
Andreessen Horowitz, where he is a general partner. “I’m @cdixon at
Twitter. Where do you store that? You need a database.” A closed
architecture like Facebook’s or Twitter’s puts all the information about
its users — their handles, their likes and photos, the map of
connections they have to other individuals on the network — into a
private database that is maintained by the company. Whenever you look at
your Facebook newsfeed, you are granted access to some infinitesimally
small section of that database, seeing only the information that is
relevant to you.
Running
Facebook’s database is an unimaginably complex operation, relying on
hundreds of thousands of servers scattered around the world, overseen by
some of the most brilliant engineers on the planet. From Facebook’s
point of view, they’re providing a valuable service to humanity:
creating a common social graph for almost everyone on earth. The fact
that they have to sell ads to pay the bills for that service — and the
fact that the scale of their network gives them staggering power over
the minds of two billion people around the world — is an unfortunate,
but inevitable, price to pay for a shared social graph. And that
trade-off did in fact make sense in the mid-2000s; creating a single
database capable of tracking the interactions of hundreds of millions of
people — much less two billion — was the kind of problem that could be
tackled only by a single organization. But as Benet and his fellow
blockchain evangelists are eager to prove, that might not be true
anymore.
So
how can you get meaningful adoption of base-layer protocols in an age
when the big tech companies have already attracted billions of users and
collectively sit on hundreds of billions of dollars in cash? If you
happen to believe that the internet, in its current incarnation, is
causing significant and growing harm to society, then this seemingly
esoteric problem — the difficulty of getting people to adopt new
open-source technology standards — turns out to have momentous
consequences. If we can’t figure out a way to introduce new, rival
base-layer infrastructure, then we’re stuck with the internet we have
today. The best we can hope for is government interventions to scale
back the power of Facebook or Google, or some kind of consumer revolt
that encourages that marketplace to shift to less hegemonic online
services, the digital equivalent of forswearing big agriculture for
local farmers’ markets. Neither approach would upend the underlying
dynamics of InternetTwo.
The first hint
of a meaningful challenge to the closed-protocol era arrived in 2008,
not long after Zuckerberg opened the first international headquarters
for his growing company. A mysterious programmer (or group of
programmers) going by the name Satoshi Nakamoto circulated a paper on a
cryptography mailing list. The paper was called “Bitcoin: A Peer-to-Peer
Electronic Cash System,” and in it, Nakamoto outlined an ingenious
system for a digital currency that did not require a centralized trusted
authority to verify transactions. At the time, Facebook and Bitcoin
seemed to belong to entirely different spheres — one was a booming
venture-backed social-media start-up that let you share birthday
greetings and connect with old friends, while the other was a byzantine
scheme for cryptographic currency from an obscure email list. But 10
years later, the ideas that Nakamoto unleashed with that paper now pose
the most significant challenge to the hegemony of InternetTwo giants
like Facebook.
The
paradox about Bitcoin is that it may well turn out to be a genuinely
revolutionary breakthrough and at the same time a colossal failure as a
currency. As I write, Bitcoin has increased in value by nearly 100,000
percent over the past five years, making a fortune for its early
investors but also branding it as a spectacularly unstable payment
mechanism. The process for creating new Bitcoins has also turned out to
be a staggering energy drain.
History
is replete with stories of new technologies whose initial applications
end up having little to do with their eventual use. All the focus on
Bitcoin as a payment system may similarly prove to be a distraction, a
technological red herring. Nakamoto pitched Bitcoin as a “peer-to-peer
electronic-cash system” in the initial manifesto, but at its heart, the
innovation he (or she or they) was proposing had a more general
structure, with two key features.
First,
Bitcoin offered a kind of proof that you could create a secure database
— the blockchain — scattered across hundreds or thousands of computers,
with no single authority controlling and verifying the authenticity of
the data.
Second,
Nakamoto designed Bitcoin so that the work of maintaining that
distributed ledger was itself rewarded with small, increasingly scarce
Bitcoin payments. If you dedicated half your computer’s processing
cycles to helping the Bitcoin network get its math right — and thus fend
off the hackers and scam artists — you received a small sliver of the
currency. Nakamoto designed the system so that Bitcoins would grow
increasingly difficult to earn over time, ensuring a certain amount of
scarcity in the system. If you helped Bitcoin keep that database secure
in the early days, you would earn more Bitcoin than later arrivals. This
process has come to be called “mining.”
For
our purposes, forget everything else about the Bitcoin frenzy, and just
keep these two things in mind: What Nakamoto ushered into the world was
a way of agreeing on the contents of a database without anyone being
“in charge” of the database, and a way of compensating people for
helping make that database more valuable, without those people being on
an official payroll or owning shares in a corporate entity. Together,
those two ideas solved the distributed-database problem and the funding
problem. Suddenly there was a way of supporting open protocols that
wasn’t available during the infancy of Facebook and Twitter.
These
two features have now been replicated in dozens of new systems inspired
by Bitcoin. One of those systems is Ethereum, proposed in a white paper
by Vitalik Buterin when he was just 19. Ethereum does have its
currencies, but at its heart Ethereum was designed less to facilitate
electronic payments than to allow people to run applications on top of
the Ethereum blockchain. There are currently hundreds of Ethereum apps
in development, ranging from prediction markets to Facebook clones to
crowdfunding services. Almost all of them are in pre-alpha stage, not
ready for consumer adoption. Despite the embryonic state of the
applications, the Ether currency has seen its own miniature version of
the Bitcoin bubble, most likely making Buterin an immense fortune.
These
currencies can be used in clever ways. Juan Benet’s Filecoin system
will rely on Ethereum technology and reward users and developers who
adopt its IPFS protocol or help maintain the shared database it
requires. Protocol Labs is creating its own cryptocurrency, also called
Filecoin, and has plans to sell some of those coins on the open market
in the coming months. (In the summer of 2017, the company raised $135
million in the first 60 minutes of what Benet calls a “presale” of the
tokens to accredited investors.) Many cryptocurrencies are first made
available to the public through a process known as an initial coin
offering, or I.C.O.
The
I.C.O. abbreviation is a deliberate echo of the initial public offering
that so defined the first internet bubble in the 1990s. But there is a
crucial difference between the two. Speculators can buy in during an
I.C.O., but they are not buying an ownership stake in a private company
and its proprietary software, the way they might in a traditional I.P.O.
Afterward, the coins will continue to be created in exchange for labor —
in the case of Filecoin, by anyone who helps maintain the Filecoin
network. Developers who help refine the software can earn the coins, as
can ordinary users who lend out spare hard-drive space to expand the
network’s storage capacity. The Filecoin is a way of signaling that
someone, somewhere, has added value to the network.
Advocates
like Chris Dixon have started referring to the compensation side of the
equation in terms of “tokens,” not coins, to emphasize that the
technology here isn’t necessarily aiming to disrupt existing currency
systems. “I like the metaphor of a token because it makes it very clear
that it’s like an arcade,” he says. “You go to the arcade, and in the
arcade you can use these tokens. But we’re not trying to replace the
U.S. government. It’s not meant to be a real currency; it’s meant to be a
pseudo-currency inside this world.” Dan Finlay, a creator of MetaMask,
echoes Dixon’s argument. “To me, what’s interesting about this is that
we get to program new value systems,” he says. “They don’t have to
resemble money.”
Pseudo
or not, the idea of an I.C.O. has already inspired a host of shady
offerings, some of them endorsed by celebrities who would seem to be
unlikely blockchain enthusiasts, like DJ Khaled, Paris Hilton and Floyd
Mayweather. In a blog post published in October 2017, Fred Wilson, a
founder of Union Square Ventures and an early advocate of the blockchain
revolution, thundered against the spread of I.C.O.s. “I hate it,”
Wilson wrote, adding that most I.C.O.s “are scams. And the celebrities
and others who promote them on their social-media channels in an effort
to enrich themselves are behaving badly and possibly violating
securities laws.” Arguably the most striking thing about the surge of
interest in I.C.O.s — and in existing currencies like Bitcoin or Ether —
is how much financial speculation has already gravitated to platforms
that have effectively zero adoption among ordinary consumers. At least
during the internet bubble of late 1990s, ordinary people were buying
books on Amazon or reading newspapers online; there was clear evidence
that the web was going to become a mainstream platform. Today, the hype
cycles are so accelerated that billions of dollars are chasing a
technology that almost no one outside the cryptocommunity understands,
much less uses.
Let’s say,
for the sake of argument, that the hype is warranted, and blockchain
platforms like Ethereum become a fundamental part of our digital
infrastructure. How would a distributed ledger and a token economy
somehow challenge one of the tech giants? One of Fred Wilson’s partners
at Union Square Ventures, Brad Burnham, suggests a scenario revolving
around another tech giant that has run afoul of regulators and public
opinion in the last year: Uber.
“Uber is basically just a coordination
platform between drivers and passengers,” Burnham says. “Yes, it was
really innovative, and there were a bunch of things in the beginning
about reducing the anxiety of whether the driver was coming or not, and
the map — and a whole bunch of things that you should give them a lot of
credit for.” But when a new service like Uber starts to take off,
there’s a strong incentive for the marketplace to consolidate around a
single leader. The fact that more passengers are starting to use the
Uber app attracts more drivers to the service, which in turn attracts
more passengers. People have their credit cards stored with Uber; they
have the app installed already; there are far more Uber drivers on the
road. And so the switching costs of trying out some other rival service
eventually become prohibitive, even if the chief executive seems to be a
jerk or if consumers would, in the abstract, prefer a competitive
marketplace with a dozen Ubers. “At some point, the innovation around
the coordination becomes less and less innovative,” Burnham says.
The
blockchain world proposes something different. Imagine some group like
Protocol Labs decides there’s a case to be made for adding another
“basic layer” to the stack. Just as GPS gave us a way of discovering and
sharing our location, this new protocol would define a simple request: I
am here and would like to go there. A distributed ledger might record
all its users’ past trips, credit cards, favorite locations — all the
metadata that services like Uber or Amazon use to encourage lock-in.
Call it, for the sake of argument, the Transit protocol. The standards
for sending a Transit request out onto the internet would be entirely
open; anyone who wanted to build an app to respond to that request would
be free to do so. Cities could build Transit apps that allowed taxi
drivers to field requests. But so could bike-share collectives, or
rickshaw drivers.
Developers could create shared marketplace apps where
all the potential vehicles using Transit could vie for your business.
When you walked out on the sidewalk and tried to get a ride, you
wouldn’t have to place your allegiance with a single provider before
hailing. You would simply announce that you were standing at 67th and
Madison and needed to get to Union Square. And then you’d get a flurry
of competing offers. You could even theoretically get an offer from the
M.T.A., which could build a service to remind Transit users that it
might be much cheaper and faster just to jump on the 6 train.
How
would Transit reach critical mass when Uber and Lyft already dominate
the ride-sharing market? This is where the tokens come in. Early
adopters of Transit would be rewarded with Transit tokens, which could
themselves be used to purchase Transit services or be traded on
exchanges for traditional currency. As in the Bitcoin model, tokens
would be doled out less generously as Transit grew more popular. In the
early days, a developer who built an iPhone app that uses Transit might
see a windfall of tokens; Uber drivers who started using Transit as a
second option for finding passengers could collect tokens as a reward
for embracing the system; adventurous consumers would be rewarded with
tokens for using Transit in its early days, when there are fewer drivers
available compared with the existing proprietary networks like Uber or
Lyft.
As
Transit began to take off, it would attract speculators, who would put a
monetary price on the token and drive even more interest in the
protocol by inflating its value, which in turn would attract more
developers, drivers and customers. If the whole system ends up working
as its advocates believe, the result is a more competitive but at the
same time more equitable marketplace. Instead of all the economic value
being captured by the shareholders of one or two large corporations that
dominate the market, the economic value is distributed across a much
wider group: the early developers of Transit, the app creators who make
the protocol work in a consumer-friendly form, the early-adopter drivers
and passengers, the first wave of speculators. Token economies
introduce a strange new set of elements that do not fit the traditional
models: instead of creating value by owning something, as in the
shareholder equity model, people create value by improving the
underlying protocol, either by helping to maintain the ledger (as in
Bitcoin mining), or by writing apps atop it, or simply by using the
service. The lines between founders, investors and customers are far
blurrier than in traditional corporate models; all the incentives are
explicitly designed to steer away from winner-take-all outcomes.
And yet
at the same time, the whole system depends on an initial speculative
phase in which outsiders are betting on the token to rise in value.
“You
think about the ’90s internet bubble and all the great infrastructure
we got out of that,” Dixon says. “You’re basically taking that effect
and shrinking it down to the size of an application.”
Even decentralized cryptomovements
have their key nodes. For Ethereum, one of those nodes is the Brooklyn
headquarters of an organization called ConsenSys, founded by Joseph
Lubin, an early Ethereum pioneer. In November, Amanda Gutterman, the
26-year-old chief marketing officer for ConsenSys, gave me a tour of the
space. In our first few minutes together, she offered the obligatory
cup of coffee, only to discover that the drip-coffee machine in the
kitchen was bone dry. “How can we fix the internet if we can’t even make
coffee?” she said with a laugh.
Planted
in industrial Bushwick, a stone’s throw from the pizza mecca Roberta’s,
“headquarters” seemed an unlikely word. The front door was festooned
with graffiti and stickers; inside, the stairwells of the space appeared
to have been last renovated during the Coolidge administration. Just
about three years old, the ConsenSys network now includes more than 550
employees in 28 countries, and the operation has never raised a dime of
venture capital. As an organization, ConsenSys does not quite fit any of
the usual categories: It is technically a corporation, but it has
elements that also resemble nonprofits and workers’ collectives. The
shared goal of ConsenSys members is strengthening and expanding the
Ethereum blockchain. They support developers creating new apps and tools
for the platform, one of which is MetaMask, the software that generated
my Ethereum address. But they also offer consulting-style services for
companies, nonprofits or governments looking for ways to integrate
Ethereum’s smart contracts into their own systems.
The
true test of the blockchain will revolve — like so many of the online
crises of the past few years — around the problem of identity. Today
your digital identity is scattered across dozens, or even hundreds, of
different sites: Amazon has your credit-card information and your
purchase history; Facebook knows your friends and family; Equifax
maintains your credit history. When you use any of those services, you
are effectively asking for permission to borrow some of that information
about yourself in order perform a task: ordering a Christmas present
for your uncle, checking Instagram to see pictures from the office party
last night. But all these different fragments of your identity don’t
belong to you; they belong to Facebook and Amazon and Google, who are
free to sell bits of that information about you to advertisers without
consulting you. You, of course, are free to delete those accounts if you
choose, and if you stop checking Facebook, Zuckerberg and the Facebook
shareholders will stop making money by renting out your attention to
their true customers. But your Facebook or Google identity isn’t
portable. If you want to join another promising social network that is
maybe a little less infected with Russian bots, you can’t extract your
social network from Twitter and deposit it in the new service. You have
to build the network again from scratch (and persuade all your friends
to do the same).
The
blockchain evangelists think this entire approach is backward. You
should own your digital identity — which could include everything from
your date of birth to your friend networks to your purchasing history —
and you should be free to lend parts of that identity out to services as
you see fit. Given that identity was not baked into the original
internet protocols, and given the difficulty of managing a distributed
database in the days before Bitcoin, this form of “self-sovereign”
identity — as the parlance has it — was a practical impossibility. Now
it is an attainable goal. A number of blockchain-based services are
trying to tackle this problem, including a new identity system called
uPort that has been spun out of ConsenSys and another one called
Blockstack that is currently based on the Bitcoin platform. (Tim
Berners-Lee is leading the development of a comparable system, called
Solid, that would also give users control over their own data.) These
rival protocols all have slightly different frameworks, but they all
share a general vision of how identity should work on a truly
decentralized internet.
What
would prevent a new blockchain-based identity standard from following
Tim Wu’s Cycle, the same one that brought Facebook to such a dominant
position? Perhaps nothing. But imagine how that sequence would play out
in practice. Someone creates a new protocol to define your social
network via Ethereum. It might be as simple as a list of other Ethereum
addresses; in other words, Here are the public addresses of people I like and trust.
That way of defining your social network might well take off and
ultimately supplant the closed systems that define your network on
Facebook. Perhaps someday, every single person on the planet might use
that standard to map their social connections, just as every single
person on the internet uses TCP/IP to share data. But even if this new
form of identity became ubiquitous, it wouldn’t present the same
opportunities for abuse and manipulation that you find in the closed
systems that have become de facto standards. I might allow a
Facebook-style service to use my social map to filter news or gossip or
music for me, based on the activity of my friends, but if that service
annoyed me, I’d be free to sample other alternatives without the
switching costs. An open identity standard would give ordinary people
the opportunity to sell their attention to the highest bidder, or choose
to keep it out of the marketplace altogether.
Gutterman
suggests that the same kind of system could be applied to even more
critical forms of identity, like health care data. Instead of storing,
say, your genome on servers belonging to a private corporation, the
information would instead be stored inside a personal data archive.
“There may be many corporate entities that I don’t want seeing that
data, but maybe I’d like to donate that data to a medical study,” she
says. “I could use my blockchain-based self-sovereign ID to [allow] one
group to use it and not another. Or I could sell it over here and give
it away over there.”
The
token architecture would give a blockchain-based identity standard an
additional edge over closed standards like Facebook’s. As many critics
have observed, ordinary users on social-media platforms create almost
all the content without compensation, while the companies capture all
the economic value from that content through advertising sales. A
token-based social network would at least give early adopters a piece of
the action, rewarding them for their labors in making the new platform
appealing. “If someone can really figure out a version of Facebook that
lets users own a piece of the network and get paid,” Dixon says, “that
could be pretty compelling.”
Would
that information be more secure in a distributed blockchain than behind
the elaborate firewalls of giant corporations like Google or Facebook?
In this one respect, the Bitcoin story is actually instructive: It may
never be stable enough to function as a currency, but it does offer
convincing proof of just how secure a distributed ledger can be. “Look
at the market cap of Bitcoin or Ethereum: $80 billion, $25 billion,
whatever,” Dixon says. “That means if you successfully attack that
system, you could walk away with more than a billion dollars. You know
what a ‘bug bounty’ is? Someone says, ‘If you hack my system, I’ll give
you a million dollars.’ So Bitcoin is now a nine-year-old
multibillion-dollar bug bounty, and no one’s hacked it. It feels like
pretty good proof.”
Additional
security would come from the decentralized nature of these new identity
protocols. In the identity system proposed by Blockstack, the actual
information about your identity — your social connections, your
purchasing history — could be stored anywhere online. The blockchain
would simply provide cryptographically secure keys to unlock that
information and share it with other trusted providers. A system with a
centralized repository with data for hundreds of millions of users —
what security experts call “honey pots” — is far more appealing to
hackers. Which would you rather do: steal a hundred million credit
histories by hacking into a hundred million separate personal computers
and sniffing around until you found the right data on each machine? Or
just hack into one honey pot at Equifax and walk away with the same
amount of data in a matter of hours? As Gutterman puts it, “It’s the
difference between robbing a house versus robbing the entire village.”
So much of
the blockchain’s architecture is shaped by predictions about how that
architecture might be abused once it finds a wider audience. That is
part of its charm and its power. The blockchain channels the energy of
speculative bubbles by allowing tokens to be shared widely among true
supporters of the platform. It safeguards against any individual or
small group gaining control of the entire database. Its cryptography is
designed to protect against surveillance states or identity thieves. In
this, the blockchain displays a familial resemblance to political
constitutions: Its rules are designed with one eye on how those rules
might be exploited down the line.
Much
has been made of the anarcho-libertarian streak in Bitcoin and other
nonfiat currencies; the community is rife with words and phrases
(“self-sovereign”) that sound as if they could be slogans for some
militia compound in Montana. And yet in its potential to break up large
concentrations of power and explore less-proprietary models of
ownership, the blockchain idea offers a tantalizing possibility for
those who would like to distribute wealth more equitably and break up
the cartels of the digital age.
The
blockchain worldview can also sound libertarian in the sense that it
proposes nonstate solutions to capitalist excesses like information
monopolies.
But to believe in the blockchain is not necessarily to
oppose regulation, if that regulation is designed with complementary
aims. Brad Burnham, for instance, suggests that regulators should insist
that everyone have “a right to a private data store,” where all the
various facets of their online identity would be maintained. But
governments wouldn’t be required to design those identity protocols.
They would be developed on the blockchain, open source. Ideologically
speaking, that private data store would be a true team effort: built as
an intellectual commons, funded by token speculators, supported by the
regulatory state.
Like
the original internet itself, the blockchain is an idea with radical —
almost communitarian — possibilities that at the same time has attracted
some of the most frivolous and regressive appetites of capitalism. We
spent our first years online in a world defined by open protocols and
intellectual commons; we spent the second phase in a world increasingly
dominated by closed architectures and proprietary databases. We have
learned enough from this history to support the hypothesis that open
works better than closed, at least where base-layer issues are
concerned. But we don’t have an easy route back to the open-protocol
era. Some messianic next-generation internet protocol is not likely to
emerge out of Department of Defense research, the way the
first-generation internet did nearly 50 years ago.
Yes,
the blockchain may seem like the very worst of speculative capitalism
right now, and yes, it is demonically challenging to understand. But the
beautiful thing about open protocols is that they can be steered in
surprising new directions by the people who discover and champion them
in their infancy. Right now, the only real hope for a revival of the
open-protocol ethos lies in the blockchain. Whether it eventually lives
up to its egalitarian promise will in large part depend on the people
who embrace the platform, who take up the baton, as Juan Benet puts it,
from those early online pioneers. If you think the internet is not
working in its current incarnation, you can’t change the system through
think-pieces and F.C.C. regulations alone. You need new code.
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