MicroPlumberd.DirectConnect 1.0.8.32

dotnet add package MicroPlumberd.DirectConnect --version 1.0.8.32                
NuGet\Install-Package MicroPlumberd.DirectConnect -Version 1.0.8.32                
This command is intended to be used within the Package Manager Console in Visual Studio, as it uses the NuGet module's version of Install-Package.
<PackageReference Include="MicroPlumberd.DirectConnect" Version="1.0.8.32" />                
For projects that support PackageReference, copy this XML node into the project file to reference the package.
paket add MicroPlumberd.DirectConnect --version 1.0.8.32                
#r "nuget: MicroPlumberd.DirectConnect, 1.0.8.32"                
#r directive can be used in F# Interactive and Polyglot Notebooks. Copy this into the interactive tool or source code of the script to reference the package.
// Install MicroPlumberd.DirectConnect as a Cake Addin
#addin nuget:?package=MicroPlumberd.DirectConnect&version=1.0.8.32

// Install MicroPlumberd.DirectConnect as a Cake Tool
#tool nuget:?package=MicroPlumberd.DirectConnect&version=1.0.8.32                

micro-plumberd

Micro library for EventStore, CQRS and EventSourcing Just eXtreamly simple.

Documentation can be found here: MicroPlumberd Documentation

Getting started

Install nugets:

dotnet add package MicroPlumberd
dotnet add package MicroPlumberd.SourceGeneratiors

If you'd like to use direct dotnet-dotnet communication to execute command-handlers install MicroPlumberd.DirectConnect

dotnet add package MicroPlumberd.DirectConnect

Configure plumber

/// change to your connection-string.
string connectionString = $"esdb://admin:changeit@localhost:2113?tls=false&tlsVerifyCert=false";
var settings = EventStoreClientSettings.Create(connectionString);
var plumber = Plumber.Create(settings);

Aggregates

  1. Write an aggregate.
[Aggregate]
public partial class FooAggregate(Guid id) : AggregateBase<FooAggregate.FooState>(id)
{
    internal new FooState State => base.State;
    public record FooState { public string Name { get; set; } };
    private static FooState Given(FooState state, FooCreated ev) => state with { Name = ev.Name };
    private static FooState Given(FooState state, FooUpdated ev) => state with { Name =ev.Name };
    public void Open(string msg) => AppendPendingChange(new FooCreated() { Name = msg });
    public void Change(string msg) => AppendPendingChange(new FooUpdated() { Name = msg });
}

Comments:

  • State is encapsulated in nested class FooState.
  • Given methods, that are used when loading aggregate from the EventStoreDB are private and static. State is encouraged to be immutable.
  • [Aggregate] attribute is used by SourceGenerator that will generate dispatching code and handy metadata.
  1. Consume an aggregate.

If you want to create a new aggregate and save it to EventStoreDB:


FooAggregate aggregate = FooAggregate.New(Guid.NewGuid());
aggregate.Open("Hello");

await plumber.SaveNew(aggregate);

If you want to load aggregate from EventStoreDB, change it and save back to EventStoreDB

var aggregate = await plumber.Get<FooAggregate>("YOUR_ID");
aggregate.Change("World");
await plumber.SaveChanges(aggregate);

Write a read-model/processor

  1. Read-Models
[EventHandler]
public partial class FooModel
{
    private async Task Given(Metadata m, FooCreated ev)
    {
        // your code
    }
    private async Task Given(Metadata m, FooUpdated ev)
    {
         // your code
    }
}

Comments:

  • ReadModels have private async Given methods. Since they are async, you can invoke SQL here, or othere APIs to store your model.
  • Metadata contains standard stuff (Created, CorrelationId, CausationId), but can be reconfigured.
var fooModel = new FooModel();
var sub= await plumber.SubscribeModel(fooModel);

// or if you want to persist progress of your subscription
var sub2= await plumber.SubscribeModelPersistently(fooModel);

With SubscribeModel you can subscribe from start, from certain moment or from the end of the stream.

  1. Processors
[EventHandler]
public partial class FooProcessor(IPlumber plumber)
{
    private async Task Given(Metadata m, FooUpdated ev)
    {
        var agg = FooAggregate.New(Guid.NewGuid());
        agg.Open(ev.Name + " new");
        await plumber.SaveNew(agg);
    }
}

Implementing a processor is technically the same as implementing a read-model, but inside the Given method you would typically invoke a command or execute an aggregate.

Features

Conventions

  • SteamNameConvention - from aggregate type, and aggregate id
  • EventNameConvention - from aggregate? instance and event instance
  • MetadataConvention - to enrich event with metadata based on aggregate instance and event instance
  • EventIdConvention - from aggregate instance and event instance
  • OutputStreamModelConvention - for output stream name from model-type
  • GroupNameModelConvention - for group name from model-type

Ultra development cycle for Read-Models (EF example).

Imagine this:

  1. You create a read-model that subscribes persistently.
  2. You subscribe it with plumber.
  3. You changed something in the event and want to see the new model.
  4. Instead of re-creating old read-model, you can easily create new one. Just change MODEL_VER to reflect new version.

Please note that Sql schema create/drop auto-generation script will be covered in a different article. (For now we leave it for developers.)

Comments:

  • By creating a new read-model you can always compare the differences with the previous one.
  • You can leverage canary-deployment strategy and have 2 versions of your system running in parallel.
[OutputStream(FooModel.MODEL_NAME)]
[EventHandler]
public partial class FooModel : DbContext
{
    internal const string MODEL_VER = "_v1";
    internal const string MODEL_NAME = $"FooModel{MODEL_VER}";
    protected override void OnModelCreating(ModelBuilder modelBuilder)
    {
        modelBuilder
           .Entity<FooEntity>()
           .ToTable($"FooEntities{MODEL_VER}");
    }
    private async Task Given(Metadata m, FooCreated ev)
    {
        // your code
    }
    private async Task Given(Metadata m, FooUpdated ev)
    {
        // your code
    }
}

Subscription Sets - Models ultra-composition

  • You can easily create a stream that joins events together by event-type, and subscribe many read-models at once. Here it is named 'MasterStream', which is created out of events used to create DimentionLookupModel and MasterModel.
  • In this way, you can easily manage the composition and decoupling of read-models. You can nicely composite your read-models. And if you don't wish to decouple read-models, you can reuse your existing one.
/// Given simple models, where master-model has foreign-key used to obtain value from dimentionLookupModel

var dimentionTable = new DimentionLookupModel();
var factTable = new MasterModel(dimentionTable);

await plumber.SubscribeSet()
    .With(dimentionTable)
    .With(factTable)
    .SubscribeAsync("MasterStream", FromStream.Start);

GRPC Direct communication

/// Let's configure server:
services.AddCommandHandler<FooCommandHandler>().AddServerDirectConnect();

/// Add mapping to direct-connect service
app.MapDirectConnect();

Here is an example of a command handler code:

[CommandHandler]
public partial class FooCommandHandler(IPlumber plumber)
{

    [ThrowsFaultException<BusinessFault>]
    public async Task Handle(Guid id, CreateFoo cmd)
    {
        if (cmd.Name == "error")
            throw new BusinessFaultException("Foo");

        var agg = FooAggregate.New(id);
        agg.Open(cmd.Name);

        await plumber.SaveNew(agg);
    }

    [ThrowsFaultException<BusinessFault>]
    public async Task<HandlerOperationStatus> Handle(Guid id, ChangeFoo cmd)
    {
        if (cmd.Name == "error")
            throw new BusinessFaultException("Foo");

        var agg = await plumber.Get<FooAggregate>(id);
        agg.Change(cmd.Name);

        await plumber.SaveChanges(agg);
        return HandlerOperationStatus.Ok();
    }
}

And how on the client side:

service.AddClientDirectConnect().AddCommandInvokers();

// And invocation
 var clientPool = sp.GetRequiredService<IRequestInvokerPool>();
 var invoker = clientPool.Get("YOUR_GRPC_URL");
 await invoker.Execute(Guid.NewId(), new CreateFoo(){});

Aspects

You can easily inject aspects through decorator pattern.

Product Compatible and additional computed target framework versions.
.NET net8.0 is compatible.  net8.0-android was computed.  net8.0-browser was computed.  net8.0-ios was computed.  net8.0-maccatalyst was computed.  net8.0-macos was computed.  net8.0-tvos was computed.  net8.0-windows was computed. 
Compatible target framework(s)
Included target framework(s) (in package)
Learn more about Target Frameworks and .NET Standard.

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Version Downloads Last updated
1.0.8.32 154 3/13/2024
1.0.5.18 120 3/12/2024