// Design stable, compatible public APIs using extend-only design principles. Manage API compatibility, wire compatibility, and versioning for NuGet packages and distributed systems.
| name | api-design |
| description | Design stable, compatible public APIs using extend-only design principles. Manage API compatibility, wire compatibility, and versioning for NuGet packages and distributed systems. |
| invocable | false |
Use this skill when:
| Type | Definition | Scope |
|---|---|---|
| API/Source | Code compiles against newer version | Public method signatures, types |
| Binary | Compiled code runs against newer version | Assembly layout, method tokens |
| Wire | Serialized data readable by other versions | Network protocols, persistence formats |
Breaking any of these creates upgrade friction for users.
The foundation of stable APIs: never remove or modify, only extend.
Resources:
// SAFE: Add NEW overload methods that delegate to existing methods
// Existing method - do not modify its signature
public void Process(Order order) { ... }
// New overload - safe to add
public void Process(Order order, CancellationToken ct)
{
// implementation that handles cancellation
}
// SAFE: Add NEW overloads for additional functionality
// Existing method - do not modify
public void Send(Message msg) { ... }
// New overload - safe to add
public void Send(Message msg, Priority priority)
{
// implementation that handles priority
}
// ADD new types, interfaces, enums
public interface IOrderValidator { }
public enum OrderStatus { Pending, Complete, Cancelled }
// ADD new members to existing types
public class Order
{
public DateTimeOffset? ShippedAt { get; init; } // NEW
}
// REMOVE or RENAME public members
public void ProcessOrder(Order order); // Was: Process()
// CHANGE parameter types or order
public void Process(int orderId); // Was: Process(Order order)
// CHANGE return types
public Order? GetOrder(string id); // Was: public Order GetOrder()
// CHANGE access modifiers
internal class OrderProcessor { } // Was: public
// ADD optional parameters to EXISTING methods (binary incompatible!)
// The compiled IL method signature changes - callers compiled against
// the old signature will get MissingMethodException at runtime.
// Optional parameter defaults are baked into the CALLER's assembly at compile time.
public void Process(Order order, CancellationToken ct = default); // Breaks binary compat!
public void Send(Message msg, Priority priority = Priority.Normal); // Breaks binary compat!
// Correct approach: add a NEW overload method instead (see Safe Changes above)
// ADD required parameters without defaults
public void Process(Order order, ILogger logger); // Breaks callers!
// Step 1: Mark as obsolete with version (any release)
[Obsolete("Obsolete since v1.5.0. Use ProcessAsync instead.")]
public void Process(Order order) { }
// Step 2: Add new recommended API (same release)
public Task ProcessAsync(Order order, CancellationToken ct = default);
// Step 3: Remove in next major version (v2.0+)
// Only after users have had time to migrate
Prevent accidental breaking changes with automated API surface testing.
dotnet add package PublicApiGenerator
dotnet add package Verify.Xunit
[Fact]
public Task ApprovePublicApi()
{
var api = typeof(MyLibrary.PublicClass).Assembly.GeneratePublicApi();
return Verify(api);
}
Creates ApprovePublicApi.verified.txt:
namespace MyLibrary
{
public class OrderProcessor
{
public OrderProcessor() { }
public void Process(Order order) { }
public Task ProcessAsync(Order order, CancellationToken ct = default) { }
}
}
Any API change fails the test - reviewer must explicitly approve changes.
*.verified.txt filesFor distributed systems, serialized data must be readable across versions.
| Direction | Requirement |
|---|---|
| Backward | Old writers → New readers (current version reads old data) |
| Forward | New writers → Old readers (old version reads new data) |
Both are required for zero-downtime rolling upgrades.
Phase 1: Add read-side support (opt-in)
// New message type - readers deployed first
public sealed record HeartbeatV2(
Address From,
long SequenceNr,
long CreationTimeMs); // NEW field
// Deserializer handles both old and new
public object Deserialize(byte[] data, string manifest) => manifest switch
{
"Heartbeat" => DeserializeHeartbeatV1(data), // Old format
"HeartbeatV2" => DeserializeHeartbeatV2(data), // New format
_ => throw new NotSupportedException()
};
Phase 2: Enable write-side (opt-out, next minor version)
// Config to enable new format (off by default initially)
akka.cluster.use-heartbeat-v2 = on
Phase 3: Make default (future version)
After install base has absorbed read-side code.
Prefer schema-based formats over reflection-based:
| Format | Type | Wire Compatibility |
|---|---|---|
| Protocol Buffers | Schema-based | Excellent - explicit field numbers |
| MessagePack | Schema-based | Good - with contracts |
| System.Text.Json | Schema-based (with source gen) | Good - explicit properties |
| Newtonsoft.Json | Reflection-based | Poor - type names in payload |
| BinaryFormatter | Reflection-based | Terrible - never use |
See dotnet/serialization skill for details.
Mark non-public APIs explicitly:
// Attribute for documentation
[InternalApi]
public class ActorSystemImpl { }
// Namespace convention
namespace MyLibrary.Internal
{
public class InternalHelper { } // Public for extensibility, not for users
}
Document clearly:
Types in
.Internalnamespaces or marked with[InternalApi]may change between any releases without notice.
// DO: Seal classes not designed for inheritance
public sealed class OrderProcessor { }
// DON'T: Leave unsealed by accident
public class OrderProcessor { } // Users might inherit, blocking changes
// DO: Small, focused interfaces
public interface IOrderReader
{
Order? GetById(OrderId id);
}
public interface IOrderWriter
{
Task SaveAsync(Order order);
}
// DON'T: Monolithic interfaces (can't add methods without breaking)
public interface IOrderRepository
{
Order? GetById(OrderId id);
Task SaveAsync(Order order);
// Adding new methods breaks all implementations!
}
| Version | Changes Allowed |
|---|---|
| Patch (1.0.x) | Bug fixes, security patches |
| Minor (1.x.0) | New features, deprecations, obsolete removal |
| Major (x.0.0) | Breaking changes, old API removal |
[Obsolete] for at least one minor versionBefore removing or changing something, understand why it exists.
Assume every public API is used by someone. If you want to change it:
When reviewing PRs that touch public APIs:
[Obsolete] instead).verified.txt changes reviewed)// "Bug fix" that breaks users
public async Task<Order> GetOrderAsync(OrderId id) // Was sync!
{
// "Fixed" to be async - but breaks all callers
}
// Correct: Add new method, deprecate old
[Obsolete("Use GetOrderAsync instead")]
public Order GetOrder(OrderId id) => GetOrderAsync(id).Result;
public async Task<Order> GetOrderAsync(OrderId id) { }
// Changing defaults breaks users who relied on old behavior
public void Configure(bool enableCaching = true) // Was: false!
// Correct: New parameter with new name
public void Configure(
bool enableCaching = false, // Original default preserved
bool enableNewCaching = true) // New behavior opt-in
// AVOID: Type names in wire format
{ "$type": "MyApp.Order, MyApp", "Id": 123 }
// Renaming Order class = wire break!
// PREFER: Explicit discriminators
{ "type": "order", "id": 123 }
Write modern, high-performance C# code using records, pattern matching, value objects, async/await, Span<T>/Memory<T>, and best-practice API design patterns. Emphasizes functional-style programming with C# 12+ features.
Provides guidance for implementing OpenTelemetry instrumentation in .NET codebases, covering tracing (Activities/Spans), metrics, naming conventions, error handling, performance, and API design best practices.
Critical Akka.NET best practices including EventStream vs DistributedPubSub, supervision strategies, error handling, Props vs DependencyResolver, work distribution patterns, and cluster/local mode abstractions for testability.
Akka.Management for cluster bootstrapping, service discovery (Kubernetes, Azure, Config), health checks, and dynamic cluster formation without static seed nodes.
Write unit and integration tests for Akka.NET actors using modern Akka.Hosting.TestKit patterns. Covers dependency injection, TestProbes, persistence testing, and actor interaction verification. Includes guidance on when to use traditional TestKit.
Write integration tests using .NET Aspire's testing facilities with xUnit. Covers test fixtures, distributed application setup, endpoint discovery, and patterns for testing ASP.NET Core apps with real dependencies.