defmodule BSV do
@moduledoc """
![BSV-ex](https://github.com/libitx/bsv-ex/raw/master/media/poster.png)
![License](https://img.shields.io/github/license/libitx/bsv-ex?color=informational)
BSV-ex is a general purpose library for building Bitcoin SV applications in
Elixir. Under the hood, [Curvy](https://hexdocs.pm/curvy) is used for all
`secp256k1` flavoured crypto, making BSV-ex the first pure Elixir Bitcoin
library.
## Features
Currently supported features:
- Keypair generation and address encoding and decoding
- BIP-39 mnemonic phrase generation and BIP-32 hierarchical deterministic keys
- Script and smart contract builder with built in Script simulator
- Transaction builder, signing and verification
- Block and block header parsing and serialization
- Merkle proof parsing, serialization and verification
- Bitcoin Signed Messages and ECIES encryption (Electrum compatible)
## Installation
The package can be installed by adding `bsv` to your list of dependencies in
`mix.exs`:
```elixir
def deps do
[
{:bsv, "~> #{Mix.Project.config[:version]}"}
]
end
```
## Upgrading
Version `2.x` of this library is so signifcantly different to version `0.x`
that we skipped an entire version. This is a rewrite from top to bottom, with
an entirely new API, and makes no attempt to maintain backwards compatibility.
If upgrading from a previous version then be prepared to update your code
where it interfaces with this library. If this library is depended on by other
third party dependencies, then check each dependency and make sure it has been
upgraded to support version `2.x`.
Main changes:
* Many modules have been renamed to follow the conventions established in
[Money Button's bsv JavaScript library](https://github.com/moneybutton/bsv).
* `from_binary/2` and `to_binary/2` functions replace the old `parse/2` and
`serialize/2` functions.
* The old `Crypto` namespace and modules have been removed. Crypto code
unrelated to Bitcoin is no longer maintained. Hash functions can be found in
the `BSV.Hash` module, and ECDSA functions are provided by `Curvy`.
* An entirely new script and smart contract building API has been created.
## Configuration
Optionally, BSV can be configured for testnet network by editing your
application's configuration:
```elixir
config :bsv,
network: :test # defaults to :main
```
## Usage
BSV-ex is a comprehensive Bitcoin library. Many examples can be found through
the documentation. See the following for some quick-start examples:
### Keypairs, Addresses, BIP-32
Generate a new random keypair and derive its address.
```elixir
iex> keypair = BSV.KeyPair.new()
%BSV.KeyPair{
privkey: %BSV.PrivKey{
compressed: true,
d: <<119, 134, 104, 227, 196, 255, 3, 163, 39, 9, 0, 43, 84, 137, 55, 218, 146, 182, 246, 3, 18, 64, 159, 108, 46, 24, 108, 111, 239, 180, 74, 161>>
},
pubkey: %BSV.PubKey{
compressed: true,
point: %Curvy.Point{
x: 80675204119348790085831157628459085855227400073327708725575496785606354176436,
y: 9270420727654506759611377999115473532064051910093243567168505762017618809348
}
}
}
iex> address = BSV.Address.from_pubkey(keypair.pubkey)
iex> BSV.Address.to_string(address)
"19D5DoRKchdZbsP3fXYhopbFDdCJCPaLjr"
```
Generate a BIP-32 HD wallet, derive and child and its address.
```elixir
iex> mnemonic = BSV.Mnemonic.new()
"taste canvas eternal brain rent cement fat dilemma duty fame floor defy"
iex> seed = BSV.Mnemonic.to_seed(mnemonic)
iex> extkey = BSV.ExtKey.from_seed!(seed)
%BSV.ExtKey{
chain_code: <<110, 26, 215, 117, 61, 123, 141, 33, 144, 225, 219, 244, 190, 61, 102, 123, 48, 131, 110, 209, 3, 193, 247, 57, 46, 72, 196, 13, 33, 189, 61, 6>>,
child_index: 0,
depth: 0,
fingerprint: <<0, 0, 0, 0>>,
privkey: %BSV.PrivKey{
compressed: true,
d: <<177, 226, 248, 91, 203, 59, 219, 9, 27, 117, 171, 67, 62, 138, 86, 122, 9, 215, 241, 4, 118, 97, 110, 174, 141, 2, 86, 116, 186, 32, 155, 133>>
},
pubkey: %BSV.PubKey{
compressed: true,
point: %Curvy.Point{
x: 13957581247370416663735268664956755789623055115850818561656783044351458532461,
y: 13811705978617564383043442008879108616838570537839984416253146804416417872149
}
},
version: <<4, 136, 173, 228>>
}
# Derive child key and address
iex> child = BSV.ExtKey.derive(extkey, "m/0/1")
iex> address = BSV.Address.from_pubkey(child.pubkey)
iex> BSV.Address.to_string(address)
"1Cax2dCtapJZtwzYXCdLuTkZ1egG8JSugA"
```
### Building transactions
The `TxBuilder` module provides a simple declarative way to build any type of transaction.
```elixir
iex> alias BSV.Contract.{P2PKH, OpReturn}
iex> utxo = BSV.UTXO.from_params(utxo_params)
iex> builder = %BSV.TxBuilder{
...> inputs: [
...> P2PKH.unlock(utxo, %{keypair: keypair})
...> ],
...> outputs: [
...> P2PKH.lock(10000, %{address: address}),
...> OpReturn.lock(0, %{data: ["hello", "world"]})
...> ]
...> }
iex> tx = BSV.TxBuilder.to_tx(builder)
iex> rawtx = BSV.Tx.to_binary(tx, encoding: :hex)
"0100000001121a9ac1e0..."
```
### Creating custom contracts
The `BSV.Contract` module provides a way to define a locking script and
unlocking script in a pure Elixir function.
```elixir
# Define a module that implements the `Contract` behaviour
defmodule P2PKH do
use BSV.Contract
def locking_script(ctx, %{address: address}) do
ctx
|> op_dup
|> op_hash160
|> push(address.pubkey_hash)
|> op_equalverify
|> op_checksig
end
def unlocking_script(ctx, %{keypair: keypair}) do
ctx
|> sig(keypair.privkey)
|> push(BSV.PubKey.to_binary(keypair.pubkey))
end
end
```
Contracts can be tested using the built-in simulator.
```elixir
iex> keypair = BSV.KeyPair.new()
iex> lock_params = %{address: BSV.Address.from_pubkey(keypair.pubkey)}
iex> unlock_params = %{keypair: keypair}
iex> {:ok, vm} = BSV.Contract.simulate(P2PKH, lock_params, unlock_params)
iex> BSV.VM.valid?(vm)
true
```
"""
@typedoc "Bitcoin network"
@type network() :: :main | :test
@version Mix.Project.config[:version]
@doc """
Returns the currently configured Bitcoin network.
"""
@spec network() :: network()
def network(), do: Application.get_env(:bsv, :network, :main)
@doc """
Returns the version of the BSV-ex hex package.
"""
@spec version() :: String.t
def version(), do: @version
end