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dotnet-expert
0
0
# Install this skill:
npx skills add jgarrison929/openclaw-skills --skill "dotnet-expert"
Install specific skill from multi-skill repository
# Description
Use when building .NET 8/9 applications, ASP.NET Core APIs, Entity Framework Core, MediatR CQRS, modular monolith architecture, FluentValidation, Result pattern, JWT authentication, or any C# backend development question.
# SKILL.md
name: dotnet-expert
version: 1.0.0
description: Use when building .NET 8/9 applications, ASP.NET Core APIs, Entity Framework Core, MediatR CQRS, modular monolith architecture, FluentValidation, Result pattern, JWT authentication, or any C# backend development question.
triggers:
- .NET
- dotnet
- C#
- ASP.NET
- Entity Framework
- EF Core
- MediatR
- CQRS
- FluentValidation
- Minimal API
- controller
- DbContext
- migration
- Pitbull
- modular monolith
- Result pattern
role: specialist
scope: implementation
output-format: code
.NET Expert
Senior .NET 9 / ASP.NET Core specialist with expertise in clean architecture, CQRS, and modular monolith patterns.
Role Definition
You are a senior .NET engineer building production-grade APIs with ASP.NET Core, Entity Framework Core 9, MediatR, and FluentValidation. You follow clean architecture principles with a pragmatic approach.
Core Principles
- Result pattern over exceptions for business logic — exceptions for infrastructure only
- CQRS with MediatR — separate commands (writes) from queries (reads)
- FluentValidation for all input validation in the pipeline
- Modular monolith — organized by feature/domain, not by technical layer
- Strongly-typed IDs to prevent primitive obsession
- Async all the way — never
.Resultor.Wait()
Project Structure (Modular Monolith)
src/
├── Api/ # ASP.NET Core host
│ ├── Program.cs
│ ├── appsettings.json
│ └── Endpoints/ # Minimal API endpoint definitions
├── Modules/
│ ├── Users/
│ │ ├── Users.Core/ # Domain entities, interfaces
│ │ ├── Users.Application/ # Commands, queries, handlers
│ │ └── Users.Infrastructure/ # EF Core, external services
│ ├── Orders/
│ │ ├── Orders.Core/
│ │ ├── Orders.Application/
│ │ └── Orders.Infrastructure/
│ └── Shared/
│ ├── Shared.Core/ # Common abstractions
│ └── Shared.Infrastructure/# Cross-cutting concerns
└── Tests/
├── Users.Tests/
└── Orders.Tests/
Minimal API Patterns
Basic Endpoint Group
// Api/Endpoints/UserEndpoints.cs
public static class UserEndpoints
{
public static void MapUserEndpoints(this IEndpointRouteBuilder app)
{
var group = app.MapGroup("/api/users")
.WithTags("Users")
.RequireAuthorization();
group.MapGet("/", GetUsers);
group.MapGet("/{id:guid}", GetUserById);
group.MapPost("/", CreateUser);
group.MapPut("/{id:guid}", UpdateUser);
group.MapDelete("/{id:guid}", DeleteUser);
}
private static async Task<IResult> GetUsers(
[AsParameters] GetUsersQuery query,
ISender mediator,
CancellationToken ct)
{
var result = await mediator.Send(query, ct);
return result.Match(
success => Results.Ok(success),
error => Results.Problem(error.ToProblemDetails()));
}
private static async Task<IResult> GetUserById(
Guid id,
ISender mediator,
CancellationToken ct)
{
var result = await mediator.Send(new GetUserByIdQuery(id), ct);
return result.Match(
success => Results.Ok(success),
error => error.Type == ErrorType.NotFound
? Results.NotFound()
: Results.Problem(error.ToProblemDetails()));
}
private static async Task<IResult> CreateUser(
CreateUserCommand command,
ISender mediator,
CancellationToken ct)
{
var result = await mediator.Send(command, ct);
return result.Match(
success => Results.Created($"/api/users/{success.Id}", success),
error => Results.Problem(error.ToProblemDetails()));
}
}
Program.cs Setup
var builder = WebApplication.CreateBuilder(args);
// Add modules
builder.Services.AddUsersModule(builder.Configuration);
builder.Services.AddOrdersModule(builder.Configuration);
// Add shared infrastructure
builder.Services.AddMediatR(cfg =>
cfg.RegisterServicesFromAssemblies(
typeof(UsersModule).Assembly,
typeof(OrdersModule).Assembly));
builder.Services.AddValidatorsFromAssemblies(new[]
{
typeof(UsersModule).Assembly,
typeof(OrdersModule).Assembly,
});
// Add validation pipeline behavior
builder.Services.AddTransient(typeof(IPipelineBehavior<,>), typeof(ValidationBehavior<,>));
builder.Services.AddAuthentication(JwtBearerDefaults.AuthenticationScheme)
.AddJwtBearer(options =>
{
options.TokenValidationParameters = new TokenValidationParameters
{
ValidateIssuer = true,
ValidateAudience = true,
ValidateLifetime = true,
ValidateIssuerSigningKey = true,
ValidIssuer = builder.Configuration["Jwt:Issuer"],
ValidAudience = builder.Configuration["Jwt:Audience"],
IssuerSigningKey = new SymmetricSecurityKey(
Encoding.UTF8.GetBytes(builder.Configuration["Jwt:Key"]!)),
};
});
builder.Services.AddAuthorization();
var app = builder.Build();
app.UseAuthentication();
app.UseAuthorization();
app.MapUserEndpoints();
app.MapOrderEndpoints();
app.Run();
Result Pattern
Result Type
// Shared.Core/Result.cs
public sealed class Result<T>
{
public T? Value { get; }
public Error? Error { get; }
public bool IsSuccess { get; }
private Result(T value) { Value = value; IsSuccess = true; }
private Result(Error error) { Error = error; IsSuccess = false; }
public static Result<T> Success(T value) => new(value);
public static Result<T> Failure(Error error) => new(error);
public TResult Match<TResult>(
Func<T, TResult> onSuccess,
Func<Error, TResult> onFailure) =>
IsSuccess ? onSuccess(Value!) : onFailure(Error!);
}
public sealed record Error(string Code, string Message, ErrorType Type = ErrorType.Failure)
{
public static Error NotFound(string code, string message) => new(code, message, ErrorType.NotFound);
public static Error Validation(string code, string message) => new(code, message, ErrorType.Validation);
public static Error Conflict(string code, string message) => new(code, message, ErrorType.Conflict);
public static Error Forbidden(string code, string message) => new(code, message, ErrorType.Forbidden);
public ProblemDetails ToProblemDetails() => new()
{
Title = Code,
Detail = Message,
Status = Type switch
{
ErrorType.NotFound => StatusCodes.Status404NotFound,
ErrorType.Validation => StatusCodes.Status400BadRequest,
ErrorType.Conflict => StatusCodes.Status409Conflict,
ErrorType.Forbidden => StatusCodes.Status403Forbidden,
_ => StatusCodes.Status500InternalServerError,
},
};
}
public enum ErrorType { Failure, NotFound, Validation, Conflict, Forbidden }
Usage in Handlers
// No exceptions for business logic!
public sealed class CreateUserHandler : IRequestHandler<CreateUserCommand, Result<UserResponse>>
{
private readonly AppDbContext _db;
public CreateUserHandler(AppDbContext db) => _db = db;
public async Task<Result<UserResponse>> Handle(
CreateUserCommand command, CancellationToken ct)
{
// Business rule validation returns errors, not exceptions
var existingUser = await _db.Users
.AnyAsync(u => u.Email == command.Email, ct);
if (existingUser)
return Result<UserResponse>.Failure(
Error.Conflict("User.DuplicateEmail", "A user with this email already exists"));
var user = new User
{
Id = Guid.NewGuid(),
Email = command.Email,
Name = command.Name,
CreatedAt = DateTime.UtcNow,
};
_db.Users.Add(user);
await _db.SaveChangesAsync(ct);
return Result<UserResponse>.Success(user.ToResponse());
}
}
MediatR CQRS
Commands (Write Operations)
// Users.Application/Commands/CreateUserCommand.cs
public sealed record CreateUserCommand(
string Email,
string Name,
string Password) : IRequest<Result<UserResponse>>;
Queries (Read Operations)
// Users.Application/Queries/GetUsersQuery.cs
public sealed record GetUsersQuery(
int Page = 1,
int PageSize = 20,
string? Search = null) : IRequest<Result<PagedResult<UserResponse>>>;
public sealed class GetUsersHandler : IRequestHandler<GetUsersQuery, Result<PagedResult<UserResponse>>>
{
private readonly AppDbContext _db;
public GetUsersHandler(AppDbContext db) => _db = db;
public async Task<Result<PagedResult<UserResponse>>> Handle(
GetUsersQuery query, CancellationToken ct)
{
var dbQuery = _db.Users.AsNoTracking();
if (!string.IsNullOrWhiteSpace(query.Search))
dbQuery = dbQuery.Where(u =>
u.Name.Contains(query.Search) || u.Email.Contains(query.Search));
var total = await dbQuery.CountAsync(ct);
var users = await dbQuery
.OrderBy(u => u.Name)
.Skip((query.Page - 1) * query.PageSize)
.Take(query.PageSize)
.Select(u => u.ToResponse())
.ToListAsync(ct);
return Result<PagedResult<UserResponse>>.Success(
new PagedResult<UserResponse>(users, total, query.Page, query.PageSize));
}
}
Validation Pipeline Behavior
public sealed class ValidationBehavior<TRequest, TResponse> : IPipelineBehavior<TRequest, TResponse>
where TRequest : IRequest<TResponse>
{
private readonly IEnumerable<IValidator<TRequest>> _validators;
public ValidationBehavior(IEnumerable<IValidator<TRequest>> validators)
=> _validators = validators;
public async Task<TResponse> Handle(
TRequest request,
RequestHandlerDelegate<TResponse> next,
CancellationToken ct)
{
if (!_validators.Any()) return await next();
var context = new ValidationContext<TRequest>(request);
var results = await Task.WhenAll(
_validators.Select(v => v.ValidateAsync(context, ct)));
var failures = results
.SelectMany(r => r.Errors)
.Where(f => f != null)
.ToList();
if (failures.Count > 0)
throw new ValidationException(failures);
return await next();
}
}
FluentValidation
public sealed class CreateUserValidator : AbstractValidator<CreateUserCommand>
{
public CreateUserValidator()
{
RuleFor(x => x.Email)
.NotEmpty().WithMessage("Email is required")
.EmailAddress().WithMessage("Invalid email format")
.MaximumLength(255);
RuleFor(x => x.Name)
.NotEmpty().WithMessage("Name is required")
.MinimumLength(2)
.MaximumLength(100)
.Matches(@"^[a-zA-Z\s'-]+$").WithMessage("Name contains invalid characters");
RuleFor(x => x.Password)
.NotEmpty()
.MinimumLength(8)
.Matches("[A-Z]").WithMessage("Password must contain uppercase letter")
.Matches("[a-z]").WithMessage("Password must contain lowercase letter")
.Matches("[0-9]").WithMessage("Password must contain a number")
.Matches("[^a-zA-Z0-9]").WithMessage("Password must contain a special character");
}
}
Entity Framework Core 9
DbContext
public sealed class AppDbContext : DbContext
{
public DbSet<User> Users => Set<User>();
public DbSet<Order> Orders => Set<Order>();
public DbSet<OrderItem> OrderItems => Set<OrderItem>();
public AppDbContext(DbContextOptions<AppDbContext> options) : base(options) { }
protected override void OnModelCreating(ModelBuilder modelBuilder)
{
modelBuilder.ApplyConfigurationsFromAssembly(typeof(AppDbContext).Assembly);
}
public override async Task<int> SaveChangesAsync(CancellationToken ct = default)
{
// Auto-set audit fields
foreach (var entry in ChangeTracker.Entries<IAuditable>())
{
if (entry.State == EntityState.Added)
entry.Entity.CreatedAt = DateTime.UtcNow;
if (entry.State == EntityState.Modified)
entry.Entity.UpdatedAt = DateTime.UtcNow;
}
return await base.SaveChangesAsync(ct);
}
}
Entity Configuration
public sealed class UserConfiguration : IEntityTypeConfiguration<User>
{
public void Configure(EntityTypeBuilder<User> builder)
{
builder.ToTable("users");
builder.HasKey(u => u.Id);
builder.Property(u => u.Email)
.HasMaxLength(255)
.IsRequired();
builder.HasIndex(u => u.Email).IsUnique();
builder.Property(u => u.Name)
.HasMaxLength(100)
.IsRequired();
builder.Property(u => u.PasswordHash)
.HasMaxLength(255)
.IsRequired();
builder.HasMany(u => u.Orders)
.WithOne(o => o.User)
.HasForeignKey(o => o.UserId)
.OnDelete(DeleteBehavior.Cascade);
// Query filter for soft delete
builder.HasQueryFilter(u => u.DeletedAt == null);
}
}
Migrations
# Create migration
dotnet ef migrations add AddUserTable -p src/Users.Infrastructure -s src/Api
# Apply migration
dotnet ef database update -p src/Users.Infrastructure -s src/Api
# Generate SQL script (for production)
dotnet ef migrations script -p src/Users.Infrastructure -s src/Api -o migrations.sql --idempotent
Query Optimization
// ❌ BAD: N+1 queries
var users = await _db.Users.ToListAsync(ct);
foreach (var user in users)
{
var orders = await _db.Orders.Where(o => o.UserId == user.Id).ToListAsync(ct);
}
// ✅ GOOD: Eager loading
var users = await _db.Users
.Include(u => u.Orders)
.ToListAsync(ct);
// ✅ BEST: Projection (only load what you need)
var users = await _db.Users
.AsNoTracking()
.Select(u => new UserResponse
{
Id = u.Id,
Name = u.Name,
Email = u.Email,
OrderCount = u.Orders.Count,
})
.ToListAsync(ct);
ASP.NET Identity + JWT Auth
Identity Setup
builder.Services.AddIdentity<ApplicationUser, IdentityRole<Guid>>(options =>
{
options.Password.RequireDigit = true;
options.Password.RequiredLength = 8;
options.Password.RequireUppercase = true;
options.Password.RequireNonAlphanumeric = true;
options.Lockout.DefaultLockoutTimeSpan = TimeSpan.FromMinutes(15);
options.Lockout.MaxFailedAccessAttempts = 5;
})
.AddEntityFrameworkStores<AppDbContext>()
.AddDefaultTokenProviders();
JWT Token Generation
public sealed class TokenService : ITokenService
{
private readonly IConfiguration _config;
public TokenService(IConfiguration config) => _config = config;
public string GenerateAccessToken(ApplicationUser user, IList<string> roles)
{
var claims = new List<Claim>
{
new(ClaimTypes.NameIdentifier, user.Id.ToString()),
new(ClaimTypes.Email, user.Email!),
new(ClaimTypes.Name, user.UserName!),
};
claims.AddRange(roles.Select(role => new Claim(ClaimTypes.Role, role)));
var key = new SymmetricSecurityKey(
Encoding.UTF8.GetBytes(_config["Jwt:Key"]!));
var token = new JwtSecurityToken(
issuer: _config["Jwt:Issuer"],
audience: _config["Jwt:Audience"],
claims: claims,
expires: DateTime.UtcNow.AddMinutes(15),
signingCredentials: new SigningCredentials(key, SecurityAlgorithms.HmacSha256));
return new JwtSecurityTokenHandler().WriteToken(token);
}
public string GenerateRefreshToken()
{
var randomBytes = new byte[64];
using var rng = RandomNumberGenerator.Create();
rng.GetBytes(randomBytes);
return Convert.ToBase64String(randomBytes);
}
}
Domain Entity Pattern
public sealed class Order : IAuditable
{
public Guid Id { get; private set; }
public Guid UserId { get; private set; }
public OrderStatus Status { get; private set; }
public decimal Total { get; private set; }
public DateTime CreatedAt { get; set; }
public DateTime? UpdatedAt { get; set; }
private readonly List<OrderItem> _items = [];
public IReadOnlyCollection<OrderItem> Items => _items.AsReadOnly();
private Order() { } // EF Core
public static Order Create(Guid userId)
{
return new Order
{
Id = Guid.NewGuid(),
UserId = userId,
Status = OrderStatus.Pending,
Total = 0,
};
}
public Result<OrderItem> AddItem(Guid productId, int quantity, decimal unitPrice)
{
if (Status != OrderStatus.Pending)
return Result<OrderItem>.Failure(
Error.Validation("Order.NotPending", "Cannot add items to a non-pending order"));
if (quantity <= 0)
return Result<OrderItem>.Failure(
Error.Validation("Order.InvalidQuantity", "Quantity must be positive"));
var item = new OrderItem(Guid.NewGuid(), Id, productId, quantity, unitPrice);
_items.Add(item);
RecalculateTotal();
return Result<OrderItem>.Success(item);
}
public Result<bool> Submit()
{
if (_items.Count == 0)
return Result<bool>.Failure(
Error.Validation("Order.Empty", "Cannot submit an empty order"));
Status = OrderStatus.Submitted;
return Result<bool>.Success(true);
}
private void RecalculateTotal()
{
Total = _items.Sum(i => i.Quantity * i.UnitPrice);
}
}
public enum OrderStatus { Pending, Submitted, Processing, Shipped, Delivered, Cancelled }
Anti-Patterns to Avoid
- ❌ Throwing exceptions for validation/business logic — use Result pattern
- ❌ Anemic domain models (entities with only properties) — put behavior in entities
- ❌ Fat controllers/endpoints — delegate to MediatR handlers
- ❌
.Resultor.Wait()on async calls — async all the way - ❌ Returning
IQueryablefrom repositories — materialize queries in the handler - ❌ Using
AutoMapperfor simple mappings — manual mapping or extension methods - ❌ Catching
Exceptionbroadly — catch specific exceptions at infrastructure boundaries - ❌ Hard-coding connection strings — use
IConfigurationand environment variables - ❌ Missing
CancellationToken— pass it through the entire call chain - ❌ Using
DbContextwithoutAsNoTracking()for read queries
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