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This skill configures Akka.NET with .NET Aspire for local development and production deployments, including clustering, persistence, and management integration.
npx playbooks add skill aaronontheweb/dotnet-skills --skill akka-aspire-configurationReview the files below or copy the command above to add this skill to your agents.
---
name: akka-net-aspire-configuration
description: Configure Akka.NET with .NET Aspire for local development and production deployments. Covers actor system setup, clustering, persistence, Akka.Management integration, and Aspire orchestration patterns.
invocable: false
---
# Configuring Akka.NET with .NET Aspire
## When to Use This Skill
Use this skill when:
- Setting up a new Akka.NET project with .NET Aspire orchestration
- Configuring Akka.Cluster with cluster bootstrapping and discovery
- Integrating Akka.Persistence with SQL Server
- Setting up Akka.Management for cluster management
- Configuring multi-replica actor systems in local development
- Deploying Akka.NET applications to Kubernetes with Aspire
## Related Skills
- **`akka-net-management`** - Deep dive into Akka.Management, Cluster Bootstrap, and discovery providers (Kubernetes, Azure, Config)
- **`microsoft-extensions-configuration`** - IValidateOptions patterns for configuration validation
- **`akka-net-best-practices`** - Cluster/local mode abstractions for testable actor systems
- **`aspire-integration-testing`** - Testing Aspire applications with real infrastructure
## Core Principles
1. **Configuration via Microsoft.Extensions.Configuration** - Use strongly-typed settings classes bound from appsettings.json (see `microsoft-extensions-configuration` skill)
2. **Akka.Hosting for DI Integration** - Use the Akka.Hosting library for seamless ASP.NET Core integration
3. **Aspire for Orchestration** - Let Aspire manage service dependencies, networking, and environment configuration
4. **Health Checks** - Always configure health checks for clustering, persistence, and readiness
5. **Separate Concerns** - Keep actor definitions, configuration, and Aspire orchestration in separate layers
6. **Validate Configuration at Startup** - Use `IValidateOptions<T>` and `.ValidateOnStart()` to fail fast on misconfiguration
## Project Structure
```
YourSolution/
├── src/
│ ├── YourApp.Actors/ # Actor definitions and business logic
│ │ ├── YourActor.cs
│ │ └── YourApp.Actors.csproj
│ ├── YourApp/ # ASP.NET Core web application
│ │ ├── Config/
│ │ │ ├── AkkaConfiguration.cs # Akka setup extension methods
│ │ │ └── AkkaSettings.cs # Configuration model
│ │ ├── Program.cs
│ │ ├── appsettings.json
│ │ └── YourApp.csproj
│ └── YourApp.AppHost/ # Aspire orchestration
│ ├── Program.cs
│ ├── AkkaManagementExtensions.cs
│ └── YourApp.AppHost.csproj
```
## Required NuGet Packages
### For Actor Project (YourApp.Actors.csproj)
```xml
<ItemGroup>
<PackageReference Include="Akka.Cluster.Hosting" />
<PackageReference Include="Akka.Streams" />
</ItemGroup>
```
### For Web Application (YourApp.csproj)
```xml
<ItemGroup>
<PackageReference Include="Akka.Hosting" />
<PackageReference Include="Akka.Cluster.Hosting" />
<PackageReference Include="Akka.Persistence.Sql.Hosting" />
<PackageReference Include="Akka.Management" />
<PackageReference Include="Akka.Management.Cluster.Bootstrap" />
<PackageReference Include="Akka.Discovery.KubernetesApi" />
<PackageReference Include="Akka.Discovery.Azure" />
<PackageReference Include="Akka.Discovery.Config.Hosting" />
<PackageReference Include="Petabridge.Cmd.Host" />
<PackageReference Include="Petabridge.Cmd.Cluster" />
</ItemGroup>
```
### For AppHost (YourApp.AppHost.csproj)
```xml
<Sdk Name="Aspire.AppHost.Sdk" Version="$(AspireVersion)" />
<ItemGroup>
<PackageReference Include="Aspire.Hosting.AppHost" />
<PackageReference Include="Aspire.Hosting.Azure.Storage" />
<PackageReference Include="Aspire.Hosting.SqlServer" />
</ItemGroup>
```
## Configuration Model (AkkaSettings.cs)
Create a strongly-typed configuration class:
```csharp
using System.Net;
using System.Security.Cryptography.X509Certificates;
using Akka.Cluster.Hosting;
using Akka.Remote.Hosting;
using Petabridge.Cmd.Host;
namespace YourApp.Config;
public class AkkaSettings
{
public string ActorSystemName { get; set; } = "YourSystem";
public bool LogConfigOnStart { get; set; } = false;
public RemoteOptions RemoteOptions { get; set; } = new()
{
PublicHostName = Dns.GetHostName(),
HostName = "0.0.0.0",
Port = 8081
};
public ClusterOptions ClusterOptions { get; set; } = new()
{
SeedNodes = [$"akka.tcp://YourSystem@{Dns.GetHostName()}:8081"],
Roles = ["your-role"]
};
public ShardOptions ShardOptions { get; set; } = new();
public AkkaManagementOptions? AkkaManagementOptions { get; set; }
public PetabridgeCmdOptions PbmOptions { get; set; } = new()
{
Host = "0.0.0.0",
Port = 9110
};
public TlsSettings? TlsSettings { get; set; }
}
public class TlsSettings
{
public bool Enabled { get; set; } = false;
public string? CertificatePath { get; set; }
public string? CertificatePassword { get; set; }
public bool ValidateCertificates { get; set; } = true;
public X509Certificate2? LoadCertificate()
{
if (string.IsNullOrWhiteSpace(CertificatePath))
return null;
if (!File.Exists(CertificatePath))
throw new FileNotFoundException($"Certificate file not found at: {CertificatePath}");
return !string.IsNullOrWhiteSpace(CertificatePassword)
? X509CertificateLoader.LoadPkcs12FromFile(CertificatePath, CertificatePassword)
: X509CertificateLoader.LoadCertificateFromFile(CertificatePath);
}
}
public class AkkaManagementOptions
{
public bool Enabled { get; set; }
public string? Hostname { get; set; }
public int Port { get; set; } = 8558;
public string ServiceName { get; set; } = "your-service";
public string PortName { get; set; } = "management";
public int RequiredContactPointsNr { get; set; } = 1;
public bool FilterOnFallbackPort { get; set; } = true;
public DiscoveryMethod DiscoveryMethod { get; set; } = DiscoveryMethod.Config;
}
public enum DiscoveryMethod
{
Config,
Kubernetes,
AzureTableStorage,
AwsEcsTagBased,
AwsEc2TagBased
}
```
## Akka Configuration Extension Methods (AkkaConfiguration.cs)
```csharp
using Akka.Cluster.Hosting;
using Akka.Discovery.Azure;
using Akka.Discovery.Config.Hosting;
using Akka.Discovery.KubernetesApi;
using Akka.Hosting;
using Akka.Management;
using Akka.Management.Cluster.Bootstrap;
using Akka.Persistence.Sql.Config;
using Akka.Persistence.Sql.Hosting;
using Akka.Remote.Hosting;
using LinqToDB;
namespace YourApp.Config;
public static class AkkaConfiguration
{
public static IServiceCollection ConfigureAkka(
this IServiceCollection services,
IConfiguration configuration,
Action<AkkaConfigurationBuilder, IServiceProvider> additionalConfig)
{
var akkaSettings = BindAkkaSettings(services, configuration);
var connectionString = configuration.GetConnectionString("DefaultConnection");
if (connectionString is null)
throw new Exception("DefaultConnection ConnectionString is missing");
const string roleName = "your-role";
services.AddAkka(akkaSettings.ActorSystemName, (builder, provider) =>
{
builder.ConfigureNetwork(provider)
.WithAkkaClusterReadinessCheck()
.WithActorSystemLivenessCheck()
.WithSqlPersistence(
connectionString: connectionString,
providerName: ProviderName.SqlServer2022,
databaseMapping: DatabaseMapping.SqlServer,
tagStorageMode: TagMode.TagTable,
deleteCompatibilityMode: true,
useWriterUuidColumn: true,
autoInitialize: true,
journalBuilder: journalBuilder =>
{
journalBuilder.WithHealthCheck(name: "Akka.Persistence.Sql.Journal[default]");
},
snapshotBuilder: snapshotBuilder =>
{
snapshotBuilder.WithHealthCheck(name: "Akka.Persistence.Sql.SnapshotStore[default]");
});
// Add your actors here
// Example: builder.WithActors((system, registry) => { ... });
additionalConfig(builder, provider);
});
return services;
}
public static AkkaSettings BindAkkaSettings(IServiceCollection services, IConfiguration configuration)
{
var akkaSettings = new AkkaSettings();
configuration.GetSection(nameof(AkkaSettings)).Bind(akkaSettings);
services.AddSingleton(akkaSettings);
return akkaSettings;
}
public static AkkaConfigurationBuilder ConfigureNetwork(
this AkkaConfigurationBuilder builder,
IServiceProvider serviceProvider)
{
var settings = serviceProvider.GetRequiredService<AkkaSettings>();
var configuration = serviceProvider.GetRequiredService<IConfiguration>();
// Apply TLS configuration if enabled
if (settings.TlsSettings is { Enabled: true })
{
ConfigureRemoteOptionsWithTls(settings);
}
builder.WithRemoting(settings.RemoteOptions);
if (settings.AkkaManagementOptions is { Enabled: true })
{
// Clear seed nodes when using Akka.Management
var clusterOptions = settings.ClusterOptions;
clusterOptions.SeedNodes = [];
builder
.WithClustering(clusterOptions)
.WithAkkaManagement(setup =>
{
setup.Http.HostName = settings.AkkaManagementOptions.Hostname?.ToLower();
setup.Http.Port = settings.AkkaManagementOptions.Port;
setup.Http.BindHostName = "0.0.0.0";
setup.Http.BindPort = settings.AkkaManagementOptions.Port;
})
.WithClusterBootstrap(options =>
{
options.ContactPointDiscovery.ServiceName = settings.AkkaManagementOptions.ServiceName;
options.ContactPointDiscovery.PortName = settings.AkkaManagementOptions.PortName;
options.ContactPointDiscovery.RequiredContactPointsNr =
settings.AkkaManagementOptions.RequiredContactPointsNr;
options.ContactPointDiscovery.ContactWithAllContactPoints = true;
options.ContactPointDiscovery.StableMargin = TimeSpan.FromSeconds(5);
options.ContactPoint.FilterOnFallbackPort =
settings.AkkaManagementOptions.FilterOnFallbackPort;
}, autoStart: true);
ConfigureDiscovery(builder, settings, configuration);
}
else
{
builder.WithClustering(settings.ClusterOptions);
}
return builder;
}
private static void ConfigureDiscovery(
AkkaConfigurationBuilder builder,
AkkaSettings settings,
IConfiguration configuration)
{
switch (settings.AkkaManagementOptions!.DiscoveryMethod)
{
case DiscoveryMethod.Kubernetes:
builder.WithKubernetesDiscovery();
break;
case DiscoveryMethod.AzureTableStorage:
var connectionString = configuration.GetConnectionString("AkkaManagementAzure");
if (connectionString is null)
throw new Exception("AkkaManagement table storage connection string [AkkaManagementAzure] is missing");
builder
.WithAzureDiscovery(options =>
{
options.ServiceName = settings.AkkaManagementOptions.ServiceName;
options.ConnectionString = connectionString;
options.HostName = settings.RemoteOptions.PublicHostName?.ToLower() ?? "localhost";
options.Port = settings.AkkaManagementOptions.Port;
})
.AddHocon(AzureDiscovery.DefaultConfiguration(), HoconAddMode.Append);
break;
case DiscoveryMethod.Config:
builder.WithConfigDiscovery(options =>
{
options.Services.Add(new Service
{
Name = settings.AkkaManagementOptions.ServiceName,
Endpoints =
[
$"{settings.AkkaManagementOptions.Hostname}:{settings.AkkaManagementOptions.Port}"
]
});
});
break;
default:
throw new ArgumentOutOfRangeException();
}
}
private static void ConfigureRemoteOptionsWithTls(AkkaSettings settings)
{
var tlsSettings = settings.TlsSettings!;
var remoteOptions = settings.RemoteOptions;
var certificate = tlsSettings.LoadCertificate();
if (certificate is null)
throw new InvalidOperationException("TLS is enabled but no certificate could be loaded");
remoteOptions.EnableSsl = true;
remoteOptions.Ssl = new SslOptions
{
X509Certificate = certificate,
SuppressValidation = !tlsSettings.ValidateCertificates
};
// Update seed nodes to use akka.ssl.tcp:// protocol
if (settings.ClusterOptions.SeedNodes?.Length > 0)
{
settings.ClusterOptions.SeedNodes = settings.ClusterOptions.SeedNodes
.Select(node => node.Replace("akka.tcp://", "akka.ssl.tcp://"))
.ToArray();
}
}
}
```
## Program.cs Integration
```csharp
using YourApp.Config;
using Petabridge.Cmd.Host;
using Petabridge.Cmd.Cluster;
var builder = WebApplication.CreateBuilder(args);
// Add services
builder.Services.AddRazorPages(); // or whatever your app needs
// Configure Akka.NET
builder.Services.ConfigureAkka(builder.Configuration,
(configurationBuilder, provider) =>
{
var options = provider.GetRequiredService<AkkaSettings>();
// Add Petabridge.Cmd for cluster management
configurationBuilder.AddPetabridgeCmd(
options: options.PbmOptions,
hostConfiguration: cmd =>
{
cmd.RegisterCommandPalette(ClusterCommands.Instance);
});
});
var app = builder.Build();
// Configure middleware
app.MapRazorPages();
app.Run();
```
## Aspire AppHost Configuration (Program.cs)
```csharp
using System.Net.Sockets;
var builder = DistributedApplication.CreateBuilder(args);
var config = builder.Configuration.GetSection("YourApp")
.Get<YourAppConfiguration>() ?? new YourAppConfiguration();
var saPassword = builder.AddParameter(
"sql-sa-password",
() => "YourStrong!Passw0rd",
secret: true);
var sqlServer = builder.AddSqlServer("sql", saPassword);
if (config.UseVolumes)
{
sqlServer.WithDataVolume();
}
var db = sqlServer.AddDatabase("YourDb");
var app = builder.AddProject<Projects.YourApp>("yourapp")
.WithReplicas(config.Replicas)
.WithReference(db, "DefaultConnection")
.ConfigureAkkaManagementForApp(config);
builder.Build().Run();
public class YourAppConfiguration
{
public int Replicas { get; set; } = 1;
public bool UseVolumes { get; set; } = false;
public bool UseAkkaManagement { get; set; } = false;
}
```
## Aspire Akka.Management Extensions (AkkaManagementExtensions.cs)
```csharp
using System.Net.Sockets;
using Aspire.Hosting.Azure;
namespace YourApp.AppHost;
public static class AkkaManagementExtensions
{
public static IResourceBuilder<ProjectResource> ConfigureAkkaManagementForApp(
this IResourceBuilder<ProjectResource> appBuilder,
YourAppConfiguration config)
{
if (!config.UseAkkaManagement) return appBuilder;
var builder = appBuilder.ApplicationBuilder;
// Setup Azure Table Storage for discovery
var azureStorage = builder.AddAzureStorage("storage")
.RunAsEmulator();
var tableStorage = azureStorage.AddTables("akka-discovery");
appBuilder.WaitFor(tableStorage)
.WithReference(tableStorage, "AkkaManagementAzure");
// Setup network endpoint ports
appBuilder
.WithEndpoint(name: "remote", protocol: ProtocolType.Tcp,
env: "AkkaSettings__RemoteOptions__Port")
.WithEndpoint(name: "management", protocol: ProtocolType.Tcp,
env: "AkkaSettings__AkkaManagementOptions__Port")
.WithEndpoint(name: "pbm", protocol: ProtocolType.Tcp,
env: "AkkaSettings__PbmOptions__Port");
// Configure Akka.Management settings via environment variables
appBuilder
.WithEnvironment("AkkaSettings__RemoteOptions__PublicHostName", "localhost")
.WithEnvironment("AkkaSettings__AkkaManagementOptions__Enabled", "true")
.WithEnvironment("AkkaSettings__AkkaManagementOptions__Hostname", "localhost")
.WithEnvironment("AkkaSettings__AkkaManagementOptions__DiscoveryMethod", "AzureTableStorage")
.WithEnvironment("AkkaSettings__AkkaManagementOptions__RequiredContactPointsNr",
config.Replicas.ToString())
.WithEnvironment("AkkaSettings__AkkaManagementOptions__FilterOnFallbackPort", "false");
return appBuilder;
}
}
```
## appsettings.json Configuration
```json
{
"ConnectionStrings": {
"DefaultConnection": "Server=localhost;Database=YourDb;User Id=sa;Password=YourStrong!Passw0rd;"
},
"AkkaSettings": {
"ActorSystemName": "YourSystem",
"LogConfigOnStart": false,
"RemoteOptions": {
"PublicHostName": null,
"HostName": "0.0.0.0",
"Port": 8081
},
"ClusterOptions": {
"Roles": ["your-role"],
"SeedNodes": []
},
"PbmOptions": {
"Host": "0.0.0.0",
"Port": 9110
}
}
}
```
## Common Patterns
### Pattern 1: Actor Registration with Dependency Injection
```csharp
// In your actor project
public static class ActorRegistration
{
public static AkkaConfigurationBuilder AddYourActor(
this AkkaConfigurationBuilder builder,
string roleName)
{
builder.WithActors((system, registry, resolver) =>
{
var props = resolver.Props<YourActor>();
var actor = system.ActorOf(props, "your-actor");
registry.Register<YourActor>(actor);
});
return builder;
}
}
// In AkkaConfiguration.cs
builder
.ConfigureNetwork(provider)
.WithSqlPersistence(...)
.AddYourActor(roleName); // Register your actor
```
### Pattern 2: Cluster Sharding Setup
```csharp
builder.WithShardRegion<YourEntityActor>(
typeName: "your-entity",
entityPropsFactory: (_, _, resolver) => resolver.Props<YourEntityActor>(),
extractEntityId: ExtractEntityId,
extractShardId: ExtractShardId,
shardOptions: new ShardOptions
{
Role = "your-role",
StateStoreMode = StateStoreMode.Persistence
});
private static string ExtractEntityId(object message)
{
return message switch
{
IEntityMessage msg => msg.EntityId,
_ => null
};
}
private static string ExtractShardId(object message)
{
return message switch
{
IEntityMessage msg => (msg.EntityId.GetHashCode() % 10).ToString(),
_ => null
};
}
```
### Pattern 3: Health Checks
Always configure health checks in Program.cs:
```csharp
builder.Services.AddHealthChecks()
.AddCheck("self", () => HealthCheckResult.Healthy("Application is running"),
tags: new[] { "liveness" });
// Akka health checks are added automatically by:
// - .WithAkkaClusterReadinessCheck()
// - .WithActorSystemLivenessCheck()
// - journalBuilder.WithHealthCheck()
// - snapshotBuilder.WithHealthCheck()
```
## Common Issues and Solutions
### Issue 1: Cluster Nodes Can't Discover Each Other
**Symptoms:** Nodes stay as "Unreachable" in cluster status
**Solution:**
1. Verify `RequiredContactPointsNr` matches the number of replicas
2. Check that all nodes use the same `ServiceName` in AkkaManagementOptions
3. Ensure Azure Table Storage connection string is correct
4. Verify firewall/network allows TCP on remote and management ports
### Issue 2: Persistence Initialization Fails
**Symptoms:** Application fails to start with SQL connection errors
**Solution:**
1. Ensure SQL Server is running (check Aspire dashboard)
2. Verify connection string is correctly configured
3. Set `autoInitialize: true` in WithSqlPersistence
4. Check that database exists and is accessible
### Issue 3: Split Brain in Development
**Symptoms:** Multiple separate clusters form instead of one unified cluster
**Solution:**
1. Use `FilterOnFallbackPort = false` in local development
2. Ensure all replicas use the same discovery configuration
3. Set `ContactWithAllContactPoints = true`
4. Increase `StableMargin` for slower dev machines
## Testing Akka.NET Actors
For comprehensive Akka.NET testing patterns using **Akka.Hosting.TestKit**, see the `akka-net-testing-patterns` skill.
That skill covers:
- Modern testing with Akka.Hosting.TestKit and dependency injection
- TestProbe patterns for verifying actor interactions
- Testing persistent actors and event sourcing
- Local cluster sharding tests with `AkkaExecutionMode.LocalTest`
- Scenario-based integration tests
- Best practices and anti-patterns
### Quick Example: Testing Akka + Aspire Integration
When testing Aspire applications with Akka.NET actors, combine `aspire-integration-testing` patterns with `akka-net-testing-patterns`:
```csharp
// Use Aspire's DistributedApplicationTestingBuilder for infrastructure
// Use Akka.Hosting.TestKit for actor testing
public class AkkaAspireIntegrationTests : IAsyncLifetime
{
private DistributedApplication? _app;
public async Task InitializeAsync()
{
var appHost = await DistributedApplicationTestingBuilder
.CreateAsync<Projects.YourApp_AppHost>();
_app = await appHost.BuildAsync();
await _app.StartAsync();
}
[Fact]
public async Task ActorSystem_WithRealDatabase_ShouldPersistEvents()
{
// Get SQL connection string from Aspire
var dbResource = _app!.GetResource("yourdb");
var connectionString = await dbResource.GetConnectionStringAsync();
// Create HttpClient to test actor endpoints
var httpClient = _app.CreateHttpClient("yourapp");
// Test actor behavior through HTTP API
var response = await httpClient.PostAsJsonAsync("/orders", new
{
OrderId = "ORDER-001",
Amount = 100.00m
});
response.Should().BeSuccessStatusCode();
// Verify data was persisted to real database
await using var connection = new SqlConnection(connectionString);
await connection.OpenAsync();
var events = await connection.QueryAsync<string>(
"SELECT EventType FROM EventJournal WHERE PersistenceId = 'order-ORDER-001'");
events.Should().Contain("OrderCreated");
}
public async Task DisposeAsync()
{
if (_app is not null)
await _app.DisposeAsync();
}
}
```
**For unit testing individual actors**, use `akka-net-testing-patterns` with in-memory persistence (no Aspire needed).
## Best Practices Summary
1. **Always use health checks** - Configure readiness and liveness checks for all components
2. **Bind settings from configuration** - Never hard-code hostnames, ports, or connection strings
3. **Use Akka.Management for multi-node** - Don't use static seed nodes for clusters with >1 replica
4. **Configure TLS for production** - Always use TLS in production environments
5. **Separate actor logic from configuration** - Keep actors pure and configuration in extension methods
6. **Use Petabridge.Cmd** - Essential for debugging and managing clusters
7. **Test with multiple replicas** - Always test with `Replicas > 1` to catch clustering issues
8. **Monitor persistence health** - Configure health checks for journal and snapshot stores
This skill shows how to configure Akka.NET with .NET Aspire for both local development and production deployments. It covers actor system setup, cluster bootstrapping and discovery, persistence with SQL Server, Akka.Management integration, and Aspire orchestration patterns. The guidance focuses on strong typing, health checks, and separate concerns for reliable deployments.
The skill provides a configuration model (AkkaSettings) bound from Microsoft.Extensions.Configuration, extension methods to register and configure Akka via Akka.Hosting, and Aspire AppHost integration for orchestration. It wires remoting, clustering, persistence, Akka.Management and bootstrapping, and supports discovery providers (Config, Kubernetes, Azure). TLS and SQL persistence are supported and validated at startup.
What if AkkaManagementOptions is enabled but connection strings are missing?
Startup will throw a clear exception; validate required connection strings in configuration or use ValidateOnStart to catch issues early.
Can I run the same configuration locally and in Kubernetes?
Yes. Use discovery method toggles (Config vs Kubernetes) and Aspire to supply environment-specific bindings such as hostnames, ports, and certificates.