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CH04::intro: retitle and replace intro

- Introduce the problem keys solve (pseudonymonous encumbrance and
  satisfaction) and tell the user that we'll build up to addresses
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[[ch04_keys_addresses]] [[ch04_keys_addresses]]
== Keys, Addresses == Keys and Addresses
((("cryptography", "defined")))((("cryptography", see="also keys and Alice wants to pay Bob, but the the thousands of Bitcoin full nodes who
addresses")))You may have heard that bitcoin is based on _cryptography_, will verify her transaction don't know who Alice or Bob are--and we want
which is a branch of mathematics used extensively in computer security. to keep it that way to protect their privacy. Alice needs to
Cryptography means "secret writing" in Greek, but the science of communicate that Bob should receive some of her bitcoins without tying
cryptography encompasses more than just secret writing, which is any aspect of that transaction to Bob's real-world identity or to other
referred to as encryption. Cryptography can also be used to prove Bitcoin payments that Bob receives. The method Alice uses must ensure
knowledge of a secret without revealing that secret (digital signature), that only Bob can further spend the bitcoins he receives.
or prove the authenticity of data (digital fingerprint). These types of
cryptographic proofs are the mathematical tools critical to bitcoin and
used extensively in bitcoin applications.
((("encryption")))((("encryption", see="also keys and
addresses")))Ironically, encryption is not an important part of bitcoin,
as its communications and transaction data are not encrypted and do not
need to be encrypted to protect the funds. In this chapter we will
introduce some of the cryptography used in bitcoin to control ownership
of funds, in the form of keys, addresses, and wallets.
=== Introduction The original Bitcoin paper describes a very simple scheme for achieving
those goals, shown in <<pay-to-pure-pubkey>>. A receiver like Bob
accepts bitcoins to a public key in a transaction which is signed by the
spender (like Alice). The bitcoins which Alice is spending had been
previously received to one her public keys, and she uses the
corresponding private key to generate her signature. Full nodes can
verify that Alice's signature commits to the output of a hash function
that itself commits to Bob's public key and other transaction details.
((("digital keys", see="keys and addresses")))((("keys and addresses", [[pay-to-pure-pubkey]]
"overview of", id="KAover04")))((("digital signatures", "purpose .Transaction chain from original Bitcoin paper
of")))Ownership of bitcoin is established through _digital keys_, image::images/mbc2_abin01.png["Transaction chain from original Bitcoin paper"]
_Bitcoin addresses_, and _digital signatures_. The digital keys are not
actually stored in the network, but are instead created and stored by
users in a file, or simple database, called a _wallet_. The digital keys
in a user's wallet are completely independent of the Bitcoin protocol
and can be generated and managed by the user's wallet software without
reference to the blockchain or access to the internet. Keys enable many
of the interesting properties of bitcoin, including decentralized trust
and control, ownership attestation, and the cryptographic-proof security
model.
Most bitcoin transactions require a valid digital signature to be We'll examine public keys, private keys, signatures, and hash functions
included in the blockchain, which can only be generated with a secret in the following sections, and then use all of them together to describe
key; therefore, anyone with a copy of that key has control of the the addresses used by modern Bitcoin software.
bitcoin. ((("witnesses")))The digital signature used to spend funds is
also referred to as a _witness_, a term used in cryptography. The
witness data in a bitcoin transaction testifies to the true ownership of
the funds being spent.
((("public and private keys", "key pairs")))((("public and private
keys", see="also keys and addresses")))Keys come in pairs consisting of
a private (secret) key and a public key. Think of the public key as
similar to a bank account number and the private key as similar to the
secret PIN, or signature on a check, that provides control over the
account. These digital keys are very rarely seen by the users of
bitcoin. For the most part, they are stored inside the wallet file and
managed by the bitcoin wallet software.
In the payment portion of a bitcoin transaction, the recipient's public
key is represented by its digital fingerprint, called a _Bitcoin
address_, which is used in the same way as the beneficiary name on a
check (i.e., "Pay to the order of"). In most cases, a Bitcoin address is
generated from and corresponds to a public key. However, not all Bitcoin
addresses represent public keys; they can also represent other
beneficiaries such as scripts, as we will see later in this chapter.
This way, Bitcoin addresses abstract the recipient of funds, making
transaction destinations flexible, similar to paper checks: a single
payment instrument that can be used to pay into people's accounts, pay
into company accounts, pay for bills, or pay to cash. The Bitcoin
address is the only representation of the keys that users will routinely
see, because this is the part they need to share with the world.
First, we will introduce cryptography and explain the mathematics used
in bitcoin. Next, we will look at how keys are generated, stored, and
managed. We will review the various encoding formats used to represent
private and public keys, addresses, and script addresses. Finally, we
will look at advanced use of keys and addresses: vanity, multisignature,
and script addresses and paper wallets.
==== Public Key Cryptography and Cryptocurrency ==== Public Key Cryptography and Cryptocurrency

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