bitcoin-s/docs/chain/chain.md

title	id
Blockchain Verification	chain

Bitcoin-S comes bundled with a rudimentary blockchain verification module. This module is currently only released as a library, and not as a binary. This is because it (nor the documentation) is not deemed production ready. Use at your own risk, and without too much money depending on it.

Syncing and verifying block headers

Using the chain module of Bitcoin-S it's possible to sync and verify block headers from the Bitcoin blockchain. In this document we demonstrate how to do this, while persisting it to disk. We should be able to read this chain on subsequent runs, assuming we are connected to the same bitcoind instance.

import org.bitcoins.chain.blockchain._
import org.bitcoins.chain.blockchain.sync._
import org.bitcoins.chain.models._
import org.bitcoins.chain.config.ChainAppConfig
import org.bitcoins.rpc.config.BitcoindInstance
import org.bitcoins.rpc.client.common.BitcoindRpcClient
import org.bitcoins.rpc.client.common._
import org.bitcoins.testkit.chain._

import scala.concurrent._
import java.nio.file.Files

implicit val ec = ExecutionContext.global

// We are assuming that a `bitcoind` regtest node is running the background.
// You can see our `bitcoind` guides to see how to connect
// to a local or remote `bitcoind` node.

val bitcoindInstance = BitcoindInstance.fromDatadir()
val rpcCli = BitcoindRpcClient(bitcoindInstance)

// Next, we need to create a way to monitor the chain:

val getBestBlockHash = SyncUtil.getBestBlockHashFunc(rpcCli)

val getBlockHeader = SyncUtil.getBlockHeaderFunc(rpcCli)

// set a data directory
val datadir = Files.createTempDirectory("bitcoin-s-test")

// set the current network to regtest
import com.typesafe.config.ConfigFactory
val config = ConfigFactory.parseString {
    """
    | bitcoin-s {
    |   network = regtest
    | }
    |""".stripMargin
}

implicit val chainConfig = ChainAppConfig(datadir, config)

// Initialize the needed database tables if they don't exist:
val chainProjectInitF = chainConfig.initialize()
val blockHeaderDAO = BlockHeaderDAO()
val compactFilterHeaderDAO = CompactFilterHeaderDAO()
val compactFilterDAO = CompactFilterDAO()


//initialize the chain handler from the database
val chainHandlerF = ChainHandler.fromDatabase(blockHeaderDAO, compactFilterHeaderDAO, compactFilterDAO)

// Now, do the actual syncing:
val syncedChainApiF = for {
    _ <- chainProjectInitF
    handler <- chainHandlerF
    synced <- ChainSync.sync(handler, getBlockHeader, getBestBlockHash)
} yield synced

val syncResultF = syncedChainApiF.flatMap { chainApi =>
  chainApi.getBlockCount.map(count => println(s"chain api blockcount=${count}"))

  rpcCli.getBlockCount.map(count => println(s"bitcoind blockcount=${count}"))
}

syncResultF.onComplete { case result =>
  println(s"Sync result=${result}")
}