Blockchain For Dummies E-Book

Blockchain For Dummies®

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ISBN 978-1-119-36559-4 (pbk); ISBN 978-1-119-36561-7 (ebk); ISBN 978-1-119-36560-0 (ebk)

Blockchain For Dummies®

To view this book's Cheat Sheet, simply go to www.dummies.com and search for “Blockchain For Dummies Cheat Sheet” in the Search box.

Table of Contents

Cover

Introduction

About This Book

Foolish Assumptions

Icons Used in This Book

Beyond the Book

Where to Go from Here

Part 1: Getting Started with Blockchain

Chapter 1: Introducing Blockchain

Beginning at the Beginning: What Blockchains Are

The Structure of Blockchains

Blockchain Applications

The Blockchain Life Cycle

Consensus: The Driving Force of Blockchains

Blockchains in Use

Chapter 2: Picking a Blockchain

Where Blockchains Add Substance

Choosing a Solution

Chapter 3: Getting Your Hands on Blockchain

Diving into the Bitcoin Blockchain

Using Smart Contracts with Bitcoin

Building a Private Blockchain with Docker and Ethereum

Part 2: Developing Your Knowledge

Chapter 4: Beholding the Bitcoin Blockchain

Getting a Brief History of the Bitcoin Blockchain

Debunking Some Common Bitcoin Misconceptions

Bitcoin: The New Wild West

Mining for Bitcoins

Making Your First Paper Wallet

Chapter 5: Encountering the Ethereum Blockchain

Exploring the Brief History of Ethereum

Ethereum: The Open-Source World Wide Computer

Hacking a Blockchain

Getting Up and Running on Ethereum

Building Your First Decentralized Autonomous Organization

Uncovering the Future of DAOs

Chapter 6: Regarding the Ripple Blockchain

Getting a Brief History of the Ripple Blockchain

Ripple: It’s All About Trust

Seeing How Ripple Differs from Other Blockchains

Unleashing the Full Power of Ripple

Exercising Caution with Ripple

Chapter 7: Finding the Factom Blockchain

A Matter of Trust

Building on Factom

Chapter 8: Digging into DigiByte

Getting Familiar with DigiByte: The Fast Blockchain

Mining on DigiByte

Signing Documents on DigiByte’s DiguSign

Earning DigiBytes While Gaming

Part 3: Powerful Blockchain Platforms

Chapter 9: Getting Your Hands on Hyperledger

Getting to Know Hyperledger: Dreams of a Hyper Future

Focusing on Fabric

Investigating the Iroha Project

Diving into Sawtooth Lake

Chapter 10: Applying Microsoft Azure

Bletchley: The Modular Blockchain Fabric

Building in the Azure Ecosystem

Getting Started with Chain on Azure

Deploying Blockchain Tools on Azure

Chapter 11: Getting Busy on IBM Bluemix

Business Blockchain on Bluemix

Watson’s Smart Blockchain

Building Your Starter Network on Big Blue

Part 4: Industry Impacts

Chapter 12: Financial Technology

Hauling Out Your Crystal Ball: Future Banking Trends

Going International: Global Financial Products

Squeezing Out Fraud

Chapter 13: Real Estate

Eliminating Title Insurance

Mortgages in the Blockchain World

Forecasting Regional Trends

Chapter 14: Insurance

Precisely Tailoring Coverage

Witnessing for You: The Internet of Things

Taking Out the Third Party in Insurance

Chapter 15: Government

The Smart Cities of Asia

The Battle for the Financial Capital of the World

Securing the World’s Borders

Chapter 16: Other Industries

Lean Governments

The Trust Layer for the Internet

Oracle of the Blockchain

Part 5: The Part of Tens

Chapter 17: Ten Free Blockchain Resources

Factom University

Ethereum 101

Build on Ripple

Programmable Money by Ripple

DigiKnow

Blockchain University

Bitcoin Core

Blockchain Alliance

Multichain Blog

HiveMind

Chapter 18: The Ten Rules to Never Break on the Blockchain

Don’t Use Cryptocurrency or Blockchains to Skirt the Law

Keep Your Contracts as Simple as Possible

Publish with Great Caution

Back Up, Back Up, Back Up Your Private Keys

Triple-Check the Address Before Sending Currency

Take Care When Using Exchanges

Beware Wi-Fi

Identify Your Blockchain Dev

Don’t Get Suckered

Don’t Trade Tokens Unless You Know What You’re Doing

Chapter 19: Ten Top Blockchain Projects

The R3 Consortium

T ZERO: Overstocking the Stock Market

Blockstream’s Distributed Systems

OpenBazaar’s Blockchain

Code Valley: Find Your Coder

Bitfury’s Digital Assets

Any Coin Can ShapeShift

Machine-Payable Apps on 21

Anonymous Transactions on Dash

ConsenSys: Decentralized Applications

About the Author

Advertisement Page

Connect with Dummies

End User License Agreement

Guide

Cover

Table of Contents

Begin Reading

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Introduction

Welcome to Blockchain For Dummies! If you want to find out what blockchains are and the basics of how to use them, this is the book for you. Many people think blockchains are difficult to understand. They might also think that blockchains are just about cryptocurrencies like Bitcoin, but they’re are so much more. Anyone can master the basics of blockchains.

In this book, you find helpful advice for navigating the blockchain world and cryptocurrencies that run them. You also find practical step-by-step tutorials that will build your understanding of how blockchains work and where they add value. You don’t need a background in programming, economics, or world affairs to understand this book, but I do touch on all these subjects because blockchain technology intersects all of them.

About This Book

This book explains the basics of blockchains, smart contracts, and cryptocurrencies. You probably picked up this book because you’ve heard about blockchains, know they’re important, but have no idea what they are, how they work, or why you should care. This book answers all these questions in easy-to-understand terms.

This book is a bit different than just about any other blockchain book on the market. It provides a survey of all the key blockchains in the public market, how they work, what they do, and something useful you can try with them today.

This book also covers the landscape of blockchain technology and points out some of the key things to be aware of for your own blockchain projects. Here, you find out how to install an Ethereum wallet, create and execute a smart contract, make entries into Bitcoin and Factom, and earn cryptocurrencies.

You don’t have to read the book cover to cover. Just flip to the subject that you’re interested in.

Finally, within this book, you may note that some web addresses break across two lines of text. If you’re reading this book in print and want to visit one of these web pages, simply key in the web address exactly as it’s noted in the text, pretending as though the line break doesn’t exist. If you’re reading this as an e-book, you’ve got it easy — just click the web address to be taken directly to the web page.

Foolish Assumptions

I don’t make many assumptions about you and your experience with cryptocurrency, programing, and legal matters but I do assume the following:

You have a computer and access to the Internet.

You know the basics of how to use your computer and the Internet.

You know how to navigate through menus within programs.

You’re new to blockchain and you aren’t a skilled programmer. Of course, if you are a skilled programmer, you can still get a lot out of this book — you just may be able to breeze past some of the step-by-step guidelines.

Icons Used in This Book

Throughout this book, I use icons in the margin to draw your attention to certain kinds of information. Here’s what the icons mean:

The Tip icon marks tips and shortcuts that you can use to make blockchains easier to use.

The Remember icon marks the information that’s especially important to know — the stuff you’ll want to commit to memory. To siphon off the most important information in each chapter, just skim through these icons.

The Technical Stuff icon marks information of a highly technical nature that you can skip over without missing the main point of the subject at hand.

The Warning icon tells you to watch out! It marks important information that may save you headaches — or tokens.

Beyond the Book

In addition to the material in the print or e-book you’re reading right now, this product also comes with some access-anywhere goodies on the web. Check out the free Cheat Sheet for more on blockchains. To get this Cheat Sheet, simply go to www.dummies.com and type Blockchain For Dummies Cheat Sheet in the Search box.

Where to Go from Here

You can apply blockchain technology to virtually every business domain. Right now there is explosive growth in financial, healthcare, government, insurance industries, and this is just the beginning. The whole world is changing and the possibilities are endless.

Part 1

Getting Started with Blockchain

IN THIS PART …

Discover what blockchains are all about and how they can benefit your organization.

Identify the right type of technology and the four steps to developing and executing an effective blockchain project.

Make your own smart contracts on Bitcoin, and determine where this technology can fit within your organization.

Discover the tools you need to step up and run your own private blockchain on Ethereum.

Chapter 1

Introducing Blockchain

IN THIS CHAPTER

Discovering the new world of blockchains

Understanding why they matter

Identifying the three types of blockchains

Deepening your knowledge of how blockchains work

Originally, blockchain was just the computer science term for how to structure and share data. Today blockchains are hailed the “fifth evolution” of computing.

Blockchains are a novel approach to the distributed database. The innovation comes from incorporating old technology in new ways. You can think of blockchains as distributed databases that a group of individuals controls and that store and share information.

There are many different types of blockchains and blockchain applications. Blockchain is an all-encompassing technology that is integrating across platforms and hardware all over the world.

Beginning at the Beginning: What Blockchains Are

A blockchain is a data structure that makes it possible to create a digital ledger of data and share it among a network of independent parties. There are many different types of blockchains.

Public blockchains:

Public blockchains, such as Bitcoin, are large distributed networks that are run through a native token. They’re open for anyone to participate at any level and have open-source code that their community maintains.

Permissioned blockchains:

Permissioned blockchains, such as Ripple, control roles that individuals can play within the network. They’re still large and distributed systems that use a native token. Their core code may or may not be open source.

Private blockchains:

Private blockchains tend to be smaller and do not utilize a token. Their membership is closely controlled. These types of blockchains are favored by consortiums that have trusted members and trade confidential information.

All three types of blockchains use cryptography to allow each participant on any given network to manage the ledger in a secure way without the need for a central authority to enforce the rules. The removal of central authority from database structure is one of the most important and powerful aspects of blockchains.

Blockchains create permanent records and histories of transactions, but nothing is really permanent. The permanence of the record is based on the permanence of the network. In the context of blockchains, this means that a large portion of a blockchain community would all have to agree to change the information and are incentivized not to change the data.

When data is recorded in a blockchain, it’s extremely difficult to change or remove it. When someone wants to add a record to a blockchain, also called a transaction or an entry, users in the network who have validation control verify the proposed transaction. This is where things get tricky because every blockchain has a slightly different spin on how this should work and who can validate a transaction.

What blockchains do

A blockchain is a peer-to-peer system with no central authority managing data flow. One of the key ways to removing central control while maintaining data integrity is to have a large distributed network of independent users. This means that the computers that make up the network are in more than one location. These computers are often referred to as full nodes.

Figure 1-1 shows a visualization of the structure of the Bitcoin blockchain network. You can see it in action at http://dailyblockchain.github.io.

To prevent the network from being corrupted, not only are blockchains decentralized but they often also utilize a cryptocurrency. A cryptocurrency is a digital token that has a market value. Cryptocurrencies are traded on exchanges like stocks.

Cryptocurrencies work a little differently for each blockchain. Basically, the software pays the hardware to operate. The software is the blockchain protocol. Well-known blockchain protocols include Bitcoin, Ethereum, Ripple, Hyperledger, and Factom. The hardware consists of the full nodes that are securing the data in the network.

Why blockchains matter

Blockchains are now recognized as the “fifth evolution” of computing, the missing trust layer for the Internet. This is one of the reasons that so many people have become excited about this topic.

Blockchains can create trust in digital data. When information has been written into a blockchain database, it’s nearly impossible to remove or change it. This capability has never existed before.

When data is permanent and reliable in a digital format, you can transact business online in ways that, in the past, were only possible offline. Everything that has stayed analog, including property rights and identity, can now be created and maintained online. Slow business and banking processes, such as money wires and fund settlements, can now be done nearly instantaneously. The implications for secure digital records are enormous for the global economy.

The first applications created were designed to piggyback on the secure digital value transfer that blockchains enable through the trading of their native tokens. These included things like the movement of money and assets. But the possibilities of the blockchain networks go far beyond the movement of value.

The Structure of Blockchains

Blockchains are composed of three core parts:

Block: A list of transactions recorded into a ledger over a given period. The size, period, and triggering event for blocks is different for every blockchain.

Not all blockchains are recording and securing a record of the movement of their cryptocurrency as their primary objective. But all blockchain do record the movement of their cryptocurrency or token. Think of the transaction as simply being the recording of data. Assigning a value to it (such as happens in a financial transaction) is used to interpret what that data means.

Chain: A hash that links one block to another, mathematically “chaining” them together. This is one of the most difficult concepts in blockchain to comprehend. It’s also the magic that glues blockchains together and allows them to create mathematical trust.

The hash in blockchain is created from the data that was in the previous block. The hash is a fingerprint of this data and locks blocks in order and time.

Although blockchains are a relatively new innovation, hashing is not. Hashing was invented over 30 years ago. This old innovation is being used because it creates a one-way function that cannot be decrypted. A hashing function creates a mathematical algorithm that maps data of any size to a bit string of a fixed size. A bit string is usually 32 characters long, which then represents the data that was hashed. The Secure Hash Algorithm (SHA) is one of some cryptographic hash functions used in blockchains. SHA-256 is a common algorithm that generates an almost-unique, fixed-size 256-bit (32-byte) hash. For practical purposes, think of a hash as a digital fingerprint of data that is used to lock it in place within the blockchain.

Network: The network is composed of “full nodes.” Think of them as the computer running an algorithm that is securing the network. Each node contains a complete record of all the transactions that were ever recorded in that blockchain.

The nodes are located all over the world and can be operated by anyone. It’s difficult, expensive, and time-consuming to operate a full node, so people don’t do it for free. They’re incentivized to operate a node because they want to earn cryptocurrency. The underlying blockchain algorithm rewards them for their service. The reward is usually a token or cryptocurrency, like Bitcoin.

The terms Bitcoin and blockchain are often used interchangeably, but they’re not the same. Bitcoin has a blockchain. The Bitcoin blockchain is the underlying protocol that enables the secure transfer of Bitcoin. The term Bitcoin is the name of the cryptocurrency that powers the Bitcoin network. The blockchain is a class of software, and Bitcoin is a specific cryptocurrency.

Blockchain Applications

Blockchain applications are built around the idea that network is the arbitrator. This type of system is an unforgiving and blind environment. Computer code becomes law, and rules are executed as they were written and interpreted by the network. Computers don’t have the same social biases and behaviors as humans do.

The network can’t interpret intent (at least not yet). Insurance contracts arbitrated on a blockchain have been heavily investigated as a use case built around this idea.

Another interesting thing that blockchains enable is impeccable record keeping. They can be used to create a clear timeline of who did what and when. Many industries and regulatory bodies spend countless hours trying to asses this problem. Blockchain-enabled record keeping will relieve some of the burdens that are created when we try to interpret the past.

The Blockchain Life Cycle

Blockchains originated with the creation of Bitcoin. It demonstrated that a group of individuals who had never met could operate online within a system that was desensitized to cheat others that were cooperating on the network.

The original Bitcoin network was built to secure the Bitcoin cryptocurrency. It has around 5,000 full nodes and is globally distributed. It’s primarily used to trade Bitcoin and exchange value, but the community saw the potential of doing a lot more with the network. Because of its size and time-tested security, it’s also being used to secure other smaller blockchains and blockchain applications.

The Ethereum network is a second evolution of the blockchain concept. It takes the traditional blockchain structure and adds a programming language that is built inside of it. Like Bitcoin, it has over 5,000 full nodes and is globally distributed. Ethereum is primarily used to trade Ether, make smart contracts, and create decentralized autonomous organizations (DAOs). It’s also being used to secure blockchain applications and smaller blockchains.

The Factom network is the third evolution in blockchain technology. It utilizes a lighter consensus system, incorporates voting, and stores a lot more information. It was built primarily to secure data and system. Factom operates with federated nodes and an unlimited number of auditing nodes. Its network is small, so it anchors itself into other distributed networks building bridges across the carries blockchains.

Consensus: The Driving Force of Blockchains

Blockchains are powerful tools because they create honest systems that self-correct without the need of a third party to enforce the rules. They accomplish the enforcement of rules through their consensus algorithm.

In the blockchain world, consensus is the process of developing an agreement among a group of commonly mistrusting shareholders. These are the full nodes on the network. The full nodes are validating transactions that are entered into the network to be recorded as part of the ledger.

Figure 1-2 shows the concept of how blockchains come to agreement.

Each blockchain has its own algorithms for creating agreement within its network on the entries being added. There are many different models for creating consensus because each blockchain is creating different kinds of entries. Some blockchains are trading value, others are storing data, and others are securing systems and contracts.

Bitcoin, for example, is trading the value of its token between members on its network. The tokens have a market value, so the requirements related to performance, scalability, consistency, threat model, and failure model will be higher. Bitcoin operates under the assumption that a malicious attacker may want to corrupt the history of trades in order to steal tokens. Bitcoin prevents this from happening by using a consensus model called “proof of work” that solves the Byzantine general’s problem: “How do you know that the information you are looking at has not been changed internally or externally?” Because changing or manipulating data is almost always possible, the reliability of data is a big problem for computer science.

Most blockchains operate under the premise that they will be attacked by outside forces or by users of the system. The expected threat and the degree of trust that the network has in the nodes that operate the blockchain will determine the type of consensus algorithm that they use to settle their ledger. For example, Bitcoin and Ethereum expect a very high degree of threat and use a strong consensus algorithm called proof of work. There is no trust in the network.

On the other end of the spectrum, blockchains that are used to record financial transactions between known parties can use a lighter and faster consensus. Their need for high-speed transactions is more important. Proof of work is too slow and costly for them to operate because of the comparatively few participants within the network and immediate finality need for each transaction.

Blockchains in Use

Hundreds of blockchains and blockchain applications are in existence today. The whole world has become obsessed with the ideas of moving money faster, incorporating and governing in a distributed network, and building secure applications and hardware.

You can see many of these public blockchains by going to a cryptocurrency exchange.

Figure 1-3 shows the altcoin exchange for Poloniex (https://poloniex.com), a cryptocurrency trading platform.

Blockchains are moving beyond the trading value market and are being incorporated into all sorts of industries. Blockchains add a new trust layer that now makes working online secure in a way that was not possible beforehand.

Current blockchain uses

Most up-and-running blockchain applications revolve around moving money or other forms of value quickly and cheaply. This includes trading public company stock, paying employees in other countries, and exchanging one currency for another.

Blockchains are also now being used as part of a software security stack. The U.S. Department of Homeland Security has been investigating blockchain software that secures Internet of Things (IoT) devices. The IoT world has some of the most to gain from this innovation, because it’s especially vulnerable to spoofing and other forms of hacking. IoT devices have also become more pervasive, and security has become more reliant on them. Hospital systems, self-driving cars, and safety systems are prime examples.

DAOs are another interesting blockchain innovation. This type of blockchain application represents a new way to organize and incorporate companies online. DAOs have been used to organize and invest funds via the Ethereum network.

Future blockchain applications

Larger and longer-run blockchain projects that are being explored now include government-backed land record systems, identity, and international travel security applications.

The possibilities of a blockchain-infused future have excited the imaginations of business people, governments, political groups, and humanitarians across the world. Countries such as the UK, Singapore, and the United Arab Emirates see it as a way to cut cost, create new financial instruments, and keep clean records. They have active investments and initiatives exploring blockchain.

Blockchains have laid a foundation where the need for trust has been taken out of the equation. Where before asking for “trust” was a big deal, with blockchains it’s small. Also, the infrastructure that enforces the rule if that trust is broken can be lighter. Much of society is built on trust and enforcement of rules. The social and economic implications of blockchain applications can be emotionally and politically polarizing because blockchain will change how we structure value-based and socially based transactions.

Chapter 2

Picking a Blockchain

IN THIS CHAPTER

Discovering the right blockchain for your needs

Making a plan for your project

Uncovering obstacles to your project

Building a project road map

The blockchain industry is complex and growing in size and capabilities every day. When you understand the three core types of blockchains and their limitations, you’ll know what’s possible with this new technology.

This chapter is all about assessing blockchain technology and developing a project plan. It puts the following chapters about individual blockchain platforms and applications into context.

Here, you see how to assess the three different types of blockchain platforms, what’s being built on each type, and why. I give you a few tools that help you outline your project, predict obstacles, and overcome challenges.