I'm fairly new to both Scala and Akka and I'm trying to figure out how you would create a proper domain model, which also is an Actor.
Let's imagine we have a simple business case where you can open a new Bank Account. Let's say that one of the rules is that you can only create one bank account per last name (not realistic, but just for the sake of simplicity). My first approach, without applying any business rules, would look something like this:
object Main {
def main(args: Array[String]): Unit = {
implicit val system = ActorSystem("accout")
implicit val materializer = ActorMaterializer()
implicit val executionContext = system.dispatcher
val account = system.actorOf(Props[Account])
account ! CreateAccount("Doe")
}
}
case class CreateAccount(lastName: String)
class Account extends Actor {
var lastName: String = null
override def receive: Receive = {
case createAccount: CreateAccount =>
this.lastName = lastName
}
}
Eventually you would persist this data somewhere. However, when adding the rule that there can only be one Bank Account per last name, a query to some data storage needs to be done. Let's say we put that logic inside a repository and the repository eventually returns an Account
, we get to the problem where Account
isn't an Actor anymore, since the repository won't be able to create Actors.
This is definitely a wrong implementation and not how Actors should be used. My question is, what are ways to solve these kind of problems? I am aware that my knowledge of Akka is not on a decent level yet, so it might be a weird/stupid formulated question.
This might be a long answer and I am sorry there isn't a TLDR version. :)
Ok, so you want to "Actorize" your domain model? Bad idea. Domain models are not necessarily actors. Sometimes they are but often they are not. It would be an anti-pattern to deploy one actor per domain model because if you do that you are simply offloading the method calling to message calling but losing all of the single threaded paradigm of the method calling. You cannot guarantee the timing of the messages hitting your actor and programming based upon ASK patterns is a good way to introduce a system that is not scalable, eventually you have too many threads and too many futures and cant proceed further, the system bogs and chokes. So what does that mean for your particular problem?
First you have to stop thinking of the domain model as a single thing and definitely stop using POJO entities. I entirely agree with Martin Fowler when he discusses the anemic domain model. In a well built actor system there will often be three domain models. One is the persisted model which has entities that model your database. The second is the immutable model. This is the model that the actors use to communicate with each other. All the entities are immutable from the bottom up, all collections unmodifiable, all objects only have getters, all constructors copy the collections to new immutable collections. The immutable model means your actors never have to copy anything, they just pass around references to data. Lastly you will have the API model, this is usually the set of entities that model the JSON for the clients to consume. The API model is there to insulate the back end from client code changes and vice versa, its the contract between the systems.
To create your actors stop thinking about your persistent model and what you will do with it but instead start thinking of the use cases. What does your system have to do? Model your actors based on the use cases and that will change the implementation of the actors and their deployment strategies.
For example, consider a server that delivers inventory information to users including current stock levels, reviews by users and so on for products by a single vendor. The users hammer this information and it changes quickly as stock levels change. This information is likely stored in half a dozen different tables. We don't model an actor for each table but rather a single actor to serve this use case. In this case this information is accessed by a large group of people in heavy load environment. So we are best creating an actor to aggregate all of this data and replicating the actor to each node and whenever the data changes we inform all replicants on all nodes of the changes. This means the user getting the overview doesn't even touch the database. They hit the actors, get the immutable model, convert that to the API model and then return the data.
On the other hand if a user wants to change the stock levels, we need to make sure that two users don't do it concurrently yet large DB transactions slows down the system massively. So instead we pick one node that will hold the stock management actor for that vendor and we cluster shard the actor. Any requests are routed to that actor and handled serially. The company user logs in and notes the receipt of a delivery of 20 new items. The message goes from whatever node they hit to the node holding the actor for that vendor, the vendor then makes the appropriate database changes and the broadcasts the change which is picked up by all the replicated inventory view actors to change their data.
Now this is simplistic because you have to deal with lost messages (read the articles on why reliable messaging is not necessary). However once you start to go down that road you soon realize that simply making your domain model an actor system is an anti-pattern and there are better ways to do things.
Anyway that is my 2 cents :)
General Design
Actors should generally be simple dispatchers to business logic and contain as little functionality as possible. Think of Actors as similar to a Future
; when you want concurrency in scala you don't extend the Future class, you just use Future functionality around your existing logic.
Limiting your Actors to bare-bones responsibility has several advantages:
- Testing the code can be done without having to construct ActorSystems, probes, ActorRefs, etc...
- The business logic can easily be transplanted to other asynchronous libraries, e.g. Futures and akka streams.
- It's easier to create a "proper domain model" with plain old classes and functions than it is with Actors.
- Placing business logic in Actors naturally emphasizes a more object oriented code/system design rather than a functional approach (we picked scala for a reason).
Business Logic (No Akka)
Here we will setup all of the domain specific logic without using any akka related "stuff".
object BusinessLogicDomain {
type FirstName = String
type LastName = String
type Balance = Double
val defaultBalance : Balance = 0.0
case class Account(firstName : FirstName,
lastName : LastName,
balance : Balance = defaultBalance)
Lets model your account directory as a HashMap
:
type AccountDirectory = HashMap[LastName, Account]
val emptyDirectory : AccountDirectory = HashMap.empty[LastName, Account]
We can now create a function that matches your requirements for distinct account per last name:
def addAccount(newAccount : Account, accountDir : AccountDirectory) : AccountDirectory =
if(accountDir contains newAccount.lastName)
accountDir
else
accountDir + (newAccount.lastName -> newAccount)
}//end object BusinessLogicDomain
Repository
Now that the unpolluted business code is complete, and isolated, we can add the concurrency layer on top of the foundational logic.
Akka contains the "repository" functionality you are looking for in Agents. Agents are storage units that provide read/update functionality in a concurrent environment. We can create an Agent
to hold the directory:
import BusinessLogicDomain._
type DirectoryAgent = Agent[AccountDirectory]
val emptyDirectoryAgent : DirectoryAgent = Agent(emptyDirectory)
def updateDirAgent(newAccount : Account, directoryAgent : DirectoryAgent) : Unit =
directoryAgent send addAccount.curried(newAccount)
Note: An additional Actor isn't really necessary because an Agent is using an Actor "under the hood". So you can just use updateAgent
in your main method. However, I will add some Actor code below to demonstrate a clean receive
method.
Actor Code
With the business logic and repository finished the Actor's only responsibility is to update the agent using the business logic that sits outside of the Actor. This code should be as lean as possible:
class DirectoryActor(updateDir : (Account) => Unit) extends Actor {
override def receive : Receive = {
case account : Account => updateDir(account)
}
}
val props = Props(classOf[DirectoryActor], updateDirAgent(_, emptyDirectoryAgent))