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Bitcoin Implementation in Scala
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Chris Stewart 35493249cc Implement difficulty calculation from nBits (#377) 
* Implement difficulty calculation from nBits

* Torkel's suggest to use bitvector indexing rather than bitmasks

* Explicitly import BitcoinSUnitTest
2019-03-12 07:49:51 -05:00
bench Fix bench project configuration (#338) 2019-02-16 14:54:17 -06:00
bitcoind-rpc Integrate big endian hashes, integrate them into the bitcoind-rpc project (#364) 2019-02-28 13:27:06 -06:00
bitcoind-rpc-test/src/test testkit refactor (rename and repackage) (#355) 2019-02-21 10:04:31 -06:00
core Implement difficulty calculation from nBits (#377) 2019-03-12 07:49:51 -05:00
core-test Implement difficulty calculation from nBits (#377) 2019-03-12 07:49:51 -05:00
doc Add secp256k1jni readme, start working main project readme, move old readme to core/README.md (#276) 2019-01-08 09:29:06 -06:00
eclair-rpc testkit refactor (rename and repackage) (#355) 2019-02-21 10:04:31 -06:00
eclair-rpc-test/src/test/scala/org/bitcoins/eclair testkit refactor (rename and repackage) (#355) 2019-02-21 10:04:31 -06:00
project Fix Ammonite compile errors (#368) 2019-03-01 06:36:13 -06:00
secp256k1@2e16ac7d6c Changing TxSigComponent to take a TransactionOutput instead of a ScriptPubKey, refactoring ScriptProgram into 3 companion objects PreExecutionScriptProgram, ExecutionInProgressScriptProgram, ExecutedScriptProgram 2018-05-19 09:25:32 -05:00
secp256k1jni updates osx binaries (#308) 2019-01-28 09:55:56 -06:00
testkit Move BitcoinSUnitTest abstract class to the testkit project so it can be reused across our codebase (#375) 2019-03-07 14:48:34 -06:00
zmq Updates READMEs for root, testkit and zmq (#356) 2019-02-21 07:44:33 -06:00
.gitignore Adding secp256k1 project, modifying .travis.yml file to try and build secp256k1 2017-02-21 09:09:53 -06:00
.gitmodules Adding specific commit for secp256k1 2018-04-25 16:44:48 -05:00
.jvmopts Reduce number of requests we send to eclair in testkits, add commandN… (#343) 2019-02-19 14:18:37 -06:00
.scalafmt.conf Added scalafmt and ran it (#264) 2018-12-09 14:43:31 -05:00
build.sbt Fix Ammonite compile errors (#368) 2019-03-01 06:36:13 -06:00
CONTRIBUTING.md Put tests for bitcoind-rpc and eclair-rpc into a separate project to … (#341) 2019-02-18 09:57:18 -06:00
inThisBuild.sbt Bump scalac to 2.12.8 (#340) 2019-02-16 14:52:04 -06:00
LICENSE updating license 2018-01-17 17:15:18 -06:00
README.md Adds Ammonite REPL in test scope (#323) 2019-02-26 06:16:12 -06:00

README.md

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Bitcoin-S

Design Principles

  • Immutable data structures everywhere
  • Algebraic Data Types to allow the compiler to check for exhaustiveness on match statements
  • Using property based testing to test robustness of code
  • Minimize dependencies to reduce attack surface

Projects

  1. core - this is where protocol data structures live, like Transactions, Blocks, or PrivateKeys. For more info read core/README.md

  2. core-test - this is where all test cases for the core project live

  3. bitcoind-rpc - this is a RPC client implementation for bitcoind. For more info read bitcoind-rpc/README.md

  4. bitcoind-rpc-test - this is where all test cases for the bitcoind-rpc project live

  5. eclair-rpc - this is a RPC client implementation for Eclair, which is a Lightning Network implementation. For more information please read eclair-rpc/README.md

  6. eclair-rpc-test - this is where all test cases for the eclair-rpc project live

  7. bench - benchmarks for Bitcoin-S. For more information please read bench/README.md

  8. testkit - This is a useful testkit for testing Bitcoin related applications. You can spin up Bitcoin and Lightning nodes arbitrarily and set them in specific states. For more information please read testkit/README.md

  9. zmq - bitcoind has a setting that publishes information about the state of the network over ZMQ. This project implements a subscriber that allows you to read and parse that information. For more information see zmq/README.md as well as the official Bitcoin Core ZMQ documentation

  10. secp256k1jni - JNI (Java Native Interface) for secp256k1, a optimized C library for EC operations on curve secp256k1. It has support for a wide range of cryptographic operations used in the Bitcoin protocol. Fore more information please read secp256k1jni/README.md

REPL

In any given sub project, it's possible to open a REPL session. This session has both main and test sources from Bitcoin-S available, as well as all dependencies for the given sub project. To do this:

// core project 
$ sbt coreTest/test:run // we do coreTest instead of core to have all test sources available

// this works as well
$ sbt
> project coreTest
> amm
...
Loading...
Compiling (synthetic)/ammonite/predef/interpBridge.sc
Compiling (synthetic)/ammonite/predef/replBridge.sc
Compiling (synthetic)/ammonite/predef/DefaultPredef.sc
Welcome to the Ammonite Repl 1.6.2
(Scala 2.12.7 Java 1.8.0_191)
If you like Ammonite, please support our development at www.patreon.com/lihaoyi
@ import org.bitcoins.core.protocol.ln.currency.MilliSatoshis 
import org.bitcoins.core.protocol.ln.currency.MilliSatoshis

@ MilliSatoshis(100) 
res1: MilliSatoshis = MilliSatoshisImpl(100)


// Bitcoind RPC project
$ sbt bitcoindRpcTest/test:run

// this works as well
$ sbt
> project bitcoindRpcTest
> amm

// Similarly for other projects

Artifacts

You need to add the Bitcoin-S Bintray to your resolvers to be able to access published artifacts.

sbt

With sbt, this can be done like this:

resolvers += Resolver.bintrayRepo("bitcoin-s", "bitcoin-s-core"),

Now you should be able to add Bitcoin-S artifacts like this:


"org.bitcoins" % "bitcoin-s-secp256k1jni" % "0.0.4"

"org.bitcoins" %% "bitcoin-s-core" % "0.0.4" withSources() withJavadoc()

"org.bitcoins" %% "bitcoin-s-bitcoind-rpc" % "0.0.4" withSources() withJavadoc()

"org.bitcoins" %% "bitcoin-s-eclair-rpc" % "0.0.4" withSources() withJavadoc()

"org.bitcoins" %% "bitcoin-s-testkit" % "0.0.4" withSources() withJavadoc()

"org.bitcoins" %% "bitcoin-s-zmq" % "0.0.4" withSources() withJavadoc()

Ammonite

Ammonite is (among other things) a modernized Scala REPL with syntax highlighting, multi-line editing, the ability to load artifacts directly in the REPL, and many other quality-of-life improvements missing in the default Scala REPL.

Ammonite is a project by Li Haoyi, and you can get it at ammonite.io

With Ammonite, this can be done like this:

@ import coursier.MavenRepository
import coursier.MavenRepository

@ interp.repositories() ++= Seq(MavenRepository("https://dl.bintray.com/bitcoin-s/bitcoin-s-core"))

@ import $ivy.`org.bitcoins::bitcoin-s-core:0.0.4`
import $ivy.$

@ import org.bitcoins.core.currency.Bitcoins
import org.bitcoins.core.currency.Bitcoins

@ Bitcoins(10)
res0: Bitcoins = BitcoinsImpl(10) // 🎉

This is only necessary one time, Ammonite remembers your resolvers across sessions.

Published artifacts

Versioned artifacts are available online.

Snapshots (not necessarily stable, use for local development) are available at JFrog.

Tagged versions are available at Bintray.