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DolphinCats friendly

Continuous Integration Clean GitHub issues Version

Table of Contents

Introduction

EventStoreDB is an open-source state-transition database, designed for businesses that are ready to harness the true power of event-driven architecture. It is a purpose-built database for event-driven applications, with a focus on high performance, scalability, and reliability.

Disclaimer

⚠️ Dolphin is a Scala wrapper for the Java client of EventStoreDB. It is a work in progress and is not ready nor recommended for production use.

Installation

Add the following to your build.sbt file:

libraryDependencies ++= Seq("io.github.lapsushq" %% "dolphin-core" % "0.0-`Latest Commit Hash`-SNAPSHOT", "io.github.lapsushq" %% "dolphin-circe" % "0.0-`Latest Commit Hash`-SNAPSHOT")

Usage

EventStoreDB distinguishes between a normal session and a persistent session. A normal session is a volatile session, which means that reads operate on the disk without the possibility of acknowledging. A persistent session, in turn, is a session that reads from the disk and provides a mechanism to acknowledge the read, in turn, you can not write with this type of subscription. This means that a persistent session could perform slower than the normal session.

Append to a stream

import dolphin.*
import cats.effect.{IO, IOApp}
import org.typelevel.log4cats.SelfAwareStructuredLogger
import org.typelevel.log4cats.slf4j.Slf4jLogger
import fs2.Stream

object Main extends IOApp.Simple {

  implicit val logger: SelfAwareStructuredLogger[IO] = Slf4jLogger.getLogger[IO]

  override def run: IO[Unit] =
    (for {
      session <- VolatileSession.stream[IO](Config.Default)
      _ <- Stream.eval(
        session.appendToStream(
          "ShoppingCart",
          """{"id": "9b188885-04a8-4ae0-b8a4-74a82c17d2ec", "value": 1}""".getBytes,
          Array.emptyByteArray,
          "Counter"
        )
      )
    } yield ())
      .compile
      .drain
}

Read from a stream

import dolphin.*
import dolphin.setting.ReadFromStreamSettings

import cats.effect.{IO, IOApp}

import org.typelevel.log4cats.SelfAwareStructuredLogger
import org.typelevel.log4cats.slf4j.Slf4jLogger
import fs2.Stream


object Main extends IOApp.Simple {

  implicit val logger: SelfAwareStructuredLogger[IO] = Slf4jLogger.getLogger[IO]

  override def run: IO[Unit] =
    (for {
      session <- VolatileSession.stream[IO](Config.Default)
      read <- Stream.eval(session.readStream("ShoppingCart", ReadFromStreamSettings.Default))
      data <- read.getEventData
      _ <- Stream.eval(IO.println(new String(data))) // {"id": "9b188885-04a8-4ae0-b8a4-74a82c17d2ec", "value": 1}
    } yield ())
      .compile
      .drain
}

EventStoreDB provides a mechanism to subscribe to a stream. This means that the client can subscribe to a stream and receive all the events that are appended to the stream. The client can also acknowledge the events that are received (if created with a persistent session).

Subscribe to a stream

There are two ways to subscribe to a stream. The first way is to use the subscribeToStream method on the session. This will return a Stream of Message objects. The second way is to use the subscribeToStream method on the session and provide a MessageHandler. This will return a Resource of Unit.

  • With subscribeToStream of Stream:
import dolphin.*
import cats.effect.{IO, IOApp}
import org.typelevel.log4cats.SelfAwareStructuredLogger
import org.typelevel.log4cats.slf4j.Slf4jLogger
import fs2.Stream

import java.util.UUID
import scala.concurrent.duration.*

object Main extends IOApp.Simple {

  implicit val logger: SelfAwareStructuredLogger[IO] = Slf4jLogger.getLogger[IO]

  private def program: Stream[IO, Unit] =
    for {
      session <- VolatileSession.stream[IO](Config.Default)
      _ <- Stream
        .iterateEval(UUID.randomUUID())(_ => IO(UUID.randomUUID()))
        .evalMap { uuid =>
          session
            .appendToStream(
              "ShoppingCart",
              s"""{"id": "${uuid}", "value": 1}""".getBytes,
              Array.emptyByteArray,
              "Counter"
            )
        }
        .metered(10.seconds)
        .concurrently {
          session.subscribeToStream("ShoppingCart").evalMap {
            case Message.Event(_, event, _) => logger.info(new String(event.getEventData))
            case Message.Cancelled(_, error) => logger.info(s"Received cancellation error: ${error}")
            case Message.Confirmation(_) => logger.info("Received confirmation")
          }
        }
    } yield ()

  override def run: IO[Unit] = program.compile.drain

}
  • With subscribeToStream of MessageHandler (i.e. Message[F, VolatileConsumer[F]] => F[Unit]):
import dolphin.*

import cats.effect.{IO, IOApp}
import org.typelevel.log4cats.SelfAwareStructuredLogger
import org.typelevel.log4cats.slf4j.Slf4jLogger

object Main extends IOApp.Simple {

  implicit val logger: SelfAwareStructuredLogger[IO] = Slf4jLogger.getLogger[IO]

  private val handlers: Message[IO, VolatileConsumer[IO]] => IO[Unit] = {
    case Message.Event(consumer, event, retryCount) =>
      logger.info(s"Received event: $event")
    case Message.Cancelled(consumer, error) =>
      logger.info(s"Received cancellation")
    case Message.Confirmation(consumer) =>
      logger.info(s"Received confirmation")
  }

  override def run: IO[Unit] =
    (for {
      session <- VolatileSession.resource[IO](Config.Default)
      _ <- session.subscribeToStream("ShoppingCart", handlers)

    } yield ()).useForever

}

Projections

Projections are a way to transform the data in a stream. EventStoreDB provides a mechanism to create and manage projections.

import dolphin.*

import cats.effect.{IO, IOApp, Resource}
import org.typelevel.log4cats.SelfAwareStructuredLogger
import org.typelevel.log4cats.slf4j.Slf4jLogger
import com.fasterxml.jackson.annotation.JsonProperty

object Main extends IOApp.Simple {

  implicit val logger: SelfAwareStructuredLogger[IO] = Slf4jLogger.getLogger[IO]

  private val GET_TOTAL_ON_A_SHOPPING_BASKET = """fromStream('Something').
      when({
        "$init": function() {
          return {
            state: {
              id: "",
              value: 0
            }
          }
        },

        Counter: function(s, e) {
          if (e.data.id)
              s.state.id = e.data.id;
          if (e.data.value)
              s.state.value = s.state.value + e.data.value;
        }
    }).outputState();"""

  // JsonProperty is super important as it is how EventStore will deserialize internally
  final case class ShoppingBasket(@JsonProperty("id") id: String, @JsonProperty("value") value: Int)

  // You need to provide an empty instance of the state
  object ShoppingBasket {
    val Empty = ShoppingBasket("", 0)
  }

    /* EventStoreDB will use `getState` and `setState` to manipulate the state. There is no need to implement them
    * yourself. But if you need to do so, you can do it by implementing the `Stateful` trait and overriding the `getState`
    * method. To override the `setState` method, you need to implement the `WithSetter` trait and override the `setState`.
    * 
    * You can distinguish between two `states`:
    *
    * - `ServerState` is the state that EventStoreDB will provide to you, in this case, the one given by the projection.
    * - `ClientState` is the state that you will receive which can be manipulated by you by overriding the `setState` method.
    */
  final case class Counter() extends Stateful[ShoppingBasket] {
    def init = ShoppingBasket.Empty
  }

  def program: Resource[IO, Unit] =
    for {
      session <- ProjectionManager.resource[IO](Config.Default)
      _       <- Resource.eval(session.create("Cart", GET_TOTAL_ON_A_SHOPPING_BASKET)).attempt
      state   <- Resource.eval(session.getState("Cart", classOf[Counter]))
      _       <- Resource.eval(logger.info(state.getState.toString()))
    } yield ()

  override def run: IO[Unit] = program.use(_ => IO.never)

}

Roadmap

Go to Roadmap for further information.

Note

  • This project is not affiliated with EventStoreDB. For further information about EventStoreDB, please visit EventStoreDB.
  • For further information about the Java client, please visit EventStoreDB Java Client.
  • There's a lot to change/improve, please feel free to open an issue if you have any questions or suggestions, or if you find any bugs.
  • For further information on usage and examples, please visit Dolphin Integration Tests.