This project is a cross-platform architecture with new technologies and best practices.
The goal is to share knowledge with the technical community and use it in new projects.
⭐ Thanks for enjoying! ⭐
- .NET Core 2.2
- ASP.NET Core 2.2
- Entity Framework Core 2.2
- C# 7.3
- Angular 7.2
- Typescript 3.2
- HTML
- CSS
- SASS
- UIkit
- JWT
- Swagger
- FluentValidation
- Scrutor
- Serilog
- Docker
- Clean Code
- SOLID Principles
- DDD (Domain-Driven Design)
- Code Analysis
- Inversion of Control
- Unit of Work Pattern
- Repository Pattern
- Database Migrations
- Authentication
- Auhorization
- Performance
- Logging
- Angular 8
- .NET Core 3.0
- ASP.NET Core 3.0
- Entity Framework Core 3.0
- C# 8
Command Line
-
Install latest .NET Core SDK.
-
Open directory source\Web\Frontend in command line and execute npm run restore.
-
Open directory source\Web in command line and execute dotnet run.
-
Open https://localhost:8090.
Visual Studio Code
-
Install latest .NET Core SDK.
-
Install C# Extension.
-
Open directory source\Web\Frontend in command line and execute npm run restore.
-
Open source directory in Visual Studio Code.
-
Press F5.
Visual Studio
-
Install latest .NET Core SDK.
-
Open directory source\Web\Frontend in command line and execute npm run restore.
-
Open source\DotNetCoreArchitecture.sln in Visual Studio.
-
Set DotNetCoreArchitecture.Web as startup project.
-
Press F5.
Docker
-
Install Docker.
-
Execute docker-compose up --build -d --force-recreate in root directory.
-
Open http://localhost:8095.
Books
- Clean Code: A Handbook of Agile Software Craftsmanship - Robert C. Martin (Uncle Bob)
- Clean Architecture: A Craftsman's Guide to Software Structure and Design - Robert C. Martin (Uncle Bob)
- Domain-Driven Design: Tackling Complexity in the Heart of Software - Eric Evans
- Domain-Driven Design Reference: Definitions and Pattern Summaries - Eric Evans
- Implementing Domain-Driven Design - Vaughn Vernon
- Domain-Driven Design Distilled - Vaughn Vernon
VS Code Extensions
Packages were created to make this architecture clean of common features for any solution.
Source: https://github.com/rafaelfgx/DotNetCore
Published: https://www.nuget.org/profiles/rafaelfgx
Web: It contains the API (ASP.NET Core) and the Frontend (Angular).
Application: It is responsible for flow control.
Domain: It contains business rules and domain logic.
Model: It contains objects such as enums and models.
Database: It isolates and abstracts data persistence.
CrossCutting: It provides generic features.
Open the documentation generated by Swagger:
https://localhost:8090/swagger
Import "postman.json" file into Postman.
The Startup class is responsible for configuring the API.
public class Startup
{
public Startup(IHostingEnvironment environment)
{
Configuration = environment.Configuration();
Environment = environment;
}
private IConfiguration Configuration { get; }
private IHostingEnvironment Environment { get; }
public void Configure(IApplicationBuilder application)
{
application.UseExceptionMiddleware(Environment);
application.UseCorsAllowAny();
application.UseHttps();
application.UseAuthentication();
application.UseResponseCompression();
application.UseResponseCaching();
application.UseStaticFiles();
application.UseMvcWithDefaultRoute();
application.UseHealthChecks();
application.UseSwaggerDefault();
application.UseSpa(Environment);
}
public void ConfigureServices(IServiceCollection services)
{
services.AddLogger(Configuration);
services.AddCors();
services.AddJsonWebToken();
services.AddHash();
services.AddAuthenticationJwtBearer();
services.AddResponseCompression();
services.AddResponseCaching();
services.AddMvcDefault();
services.AddHealthChecks();
services.AddSwaggerDefault();
services.AddSpa();
services.AddFileService();
services.AddApplicationServices();
services.AddDomainServices();
services.AddDatabaseServices();
services.AddDatabaseContext(Configuration);
}
}
The Extensions class is responsible for adding and configuring services for dependency injection.
public static class Extensions
{
public static void AddApplicationServices(this IServiceCollection services)
{
services.AddMatchingInterface(typeof(IUserApplicationService).Assembly);
}
public static void AddDatabaseContext(this IServiceCollection services, IConfiguration configuration)
{
var connectionString = configuration.GetConnectionString(nameof(DatabaseContext));
services.AddDbContextMigrate<DatabaseContext>(options => options.ConfigureWarningsAsErrors().UseSqlServer(connectionString));
}
public static void AddDatabaseServices(this IServiceCollection services)
{
services.AddMatchingInterface(typeof(IDatabaseUnitOfWork).Assembly);
}
public static void AddDomainServices(this IServiceCollection services)
{
services.AddMatchingInterface(typeof(IUserDomainService).Assembly);
}
public static void AddJsonWebToken(this IServiceCollection services)
{
services.AddJsonWebToken(Guid.NewGuid().ToString(), TimeSpan.FromHours(12));
}
public static void AddSpa(this IServiceCollection services)
{
services.AddSpaStaticFiles("Frontend/dist");
}
public static void UseHealthChecks(this IApplicationBuilder application)
{
application.UseHealthChecks("/health");
}
public static void UseSpa(this IApplicationBuilder application, IHostingEnvironment environment)
{
application.UseSpaAngularServer(environment, "Frontend", "serve");
}
}
The Controller class is responsible for receiving, processing, and responding requests.
It must be as simple and small as possible, without any rule or logic.
[ApiController]
[RouteController]
public class UsersController : BaseController
{
public UsersController(IUserApplicationService userApplicationService)
{
UserApplicationService = userApplicationService;
}
private IUserApplicationService UserApplicationService { get; }
[HttpPost]
public async Task<IActionResult> AddAsync(AddUserModel addUserModel)
{
return Result(await UserApplicationService.AddAsync(addUserModel));
}
[AuthorizeEnum(Roles.Admin)]
[HttpDelete("{userId}")]
public async Task<IActionResult> DeleteAsync(long userId)
{
return Result(await UserApplicationService.DeleteAsync(userId));
}
[HttpGet("Grid")]
public async Task<PagedList<UserModel>> GridAsync([FromQuery]PagedListParameters parameters)
{
return await UserApplicationService.ListAsync(parameters);
}
[HttpPatch("{userId}/Inactivate")]
public async Task InactivateAsync(long userId)
{
await UserApplicationService.InactivateAsync(userId);
}
[HttpGet]
public async Task<IEnumerable<UserModel>> ListAsync()
{
return await UserApplicationService.ListAsync();
}
[HttpGet("{userId}")]
public async Task<UserModel> SelectAsync(long userId)
{
return await UserApplicationService.SelectAsync(userId);
}
[AllowAnonymous]
[HttpPost("SignIn")]
public async Task<IActionResult> SignInAsync(SignInModel signInModel)
{
return Result(await UserApplicationService.SignInAsync(signInModel));
}
[HttpPost("SignOut")]
public Task SignOutAsync()
{
return UserApplicationService.SignOutAsync(new SignOutModel(SignedInModel.UserId));
}
[HttpPut("{userId}")]
public async Task<IActionResult> UpdateAsync(UpdateUserModel updateUserModel)
{
return Result(await UserApplicationService.UpdateAsync(updateUserModel));
}
}
The Component class is responsible for being a small part of the application.
@Component({ selector: "app-login", templateUrl: "./login.component.html" })
export class AppLoginComponent {
signInModel = new SignInModel();
constructor(private readonly appAuthenticationService: AppAuthenticationService) { }
ngSubmit() {
this.appAuthenticationService.signIn(this.signInModel);
}
}
The Model class is responsible for containing a set of data.
export class SignInModel {
login: string | undefined;
password: string | undefined;
}
The Service class is responsible for accessing the API or containing logic that does not belong to component.
@Injectable({ providedIn: "root" })
export class AppUserService {
constructor(
private readonly http: HttpClient,
private readonly router: Router,
private readonly appTokenService: AppTokenService) { }
add(addUserModel: AddUserModel) {
return this.http.post<number>(`Users`, addUserModel);
}
delete(userId: number) {
return this.http.delete(`Users/${userId}`);
}
list() {
return this.http.get<UserModel[]>(`Users`);
}
select(userId: number) {
return this.http.get<UserModel>(`Users/${userId}`);
}
signIn(signInModel: SignInModel): void {
this.http
.post<TokenModel>(`Users/SignIn`, signInModel)
.subscribe((tokenModel) => {
if (tokenModel && tokenModel.token) {
this.appTokenService.set(tokenModel.token);
this.router.navigate(["/main/home"]);
}
});
}
signOut() {
if (this.appTokenService.any()) {
this.http.post(`Users/SignOut`, {}).subscribe();
}
this.appTokenService.clear();
this.router.navigate(["/login"]);
}
update(updateUserModel: UpdateUserModel) {
return this.http.put(`Users/${updateUserModel.userId}`, updateUserModel);
}
}
The Guard class is responsible for route security.
@Injectable()
export class AppGuard implements CanActivate {
constructor(
private readonly router: Router,
private readonly appTokenService: AppTokenService) { }
canActivate() {
if (this.appTokenService.any()) { return true; }
this.router.navigate(["/login"]);
return false;
}
}
The ErrorHandler class is responsible for centralizing the management of all errors and exceptions.
@Injectable()
export class AppErrorHandler implements ErrorHandler {
constructor(private readonly injector: Injector) { }
handleError(error: any) {
if (error instanceof HttpErrorResponse) {
switch (error.status) {
case 401: {
const router = this.injector.get<Router>(Router);
router.navigate(["/login"]);
return;
}
case 422: {
const appModalService = this.injector.get<AppModalService>(AppModalService);
appModalService.alert(error.error);
return;
}
}
}
console.error(error);
}
}
The HttpInterceptor class is responsible for intercepting request and response to do some logic, such as adding JWT to header in every request.
@Injectable()
export class AppHttpInterceptor implements HttpInterceptor {
constructor(private readonly appTokenService: AppTokenService) { }
intercept(request: HttpRequest<any>, next: HttpHandler) {
request = request.clone({
setHeaders: { Authorization: `Bearer ${this.appTokenService.get()}` }
});
return next.handle(request);
}
}
The ApplicationService class is responsible for flow control. It uses validator, factory, domain, repository and unit of work, but it does not contain business rules or domain logic.
public sealed class UserApplicationService : BaseApplicationService, IUserApplicationService
{
public UserApplicationService
(
IDatabaseUnitOfWork databaseUnitOfWork,
IUserDomainService userDomainService,
IUserLogApplicationService userLogApplicationService,
IUserRepository userRepository
)
{
DatabaseUnitOfWork = databaseUnitOfWork;
UserDomainService = userDomainService;
UserLogApplicationService = userLogApplicationService;
UserRepository = userRepository;
}
private IDatabaseUnitOfWork DatabaseUnitOfWork { get; }
private IUserDomainService UserDomainService { get; }
private IUserLogApplicationService UserLogApplicationService { get; }
private IUserRepository UserRepository { get; }
public async Task<IDataResult<long>> AddAsync(AddUserModel addUserModel)
{
var validation = new AddUserModelValidator().Valid(addUserModel);
if (!validation.Success)
{
return ErrorDataResult<long>(validation.Message);
}
UserDomainService.GenerateHash(addUserModel.SignIn);
var userEntity = UserEntityFactory.Create(addUserModel);
userEntity.Add();
await UserRepository.AddAsync(userEntity);
await DatabaseUnitOfWork.SaveChangesAsync();
return SuccessDataResult(userEntity.UserId);
}
public async Task<IResult> DeleteAsync(long userId)
{
await UserRepository.DeleteAsync(userId);
await DatabaseUnitOfWork.SaveChangesAsync();
return SuccessResult();
}
public async Task InactivateAsync(long userId)
{
var userEntity = UserEntityFactory.Create(userId);
userEntity.Inactivate();
await UserRepository.UpdatePartialAsync(userEntity.UserId, new { userEntity.Status });
await DatabaseUnitOfWork.SaveChangesAsync();
}
public async Task<PagedList<UserModel>> ListAsync(PagedListParameters parameters)
{
return await UserRepository.ListAsync<UserModel>(parameters);
}
public async Task<IEnumerable<UserModel>> ListAsync()
{
return await UserRepository.ListAsync<UserModel>();
}
public async Task<UserModel> SelectAsync(long userId)
{
return await UserRepository.SelectAsync<UserModel>(userId);
}
public async Task<IDataResult<TokenModel>> SignInAsync(SignInModel signInModel)
{
var validation = new SignInModelValidator().Valid(signInModel);
if (!validation.Success)
{
return ErrorDataResult<TokenModel>(validation.Message);
}
UserDomainService.GenerateHash(signInModel);
var signedInModel = await UserRepository.SignInAsync(signInModel);
validation = new SignedInModelValidator().Valid(signedInModel);
if (!validation.Success)
{
return ErrorDataResult<TokenModel>(validation.Message);
}
var addUserLogModel = new AddUserLogModel(signedInModel.UserId, LogType.SignIn);
await UserLogApplicationService.AddAsync(addUserLogModel);
var tokenModel = UserDomainService.GenerateToken(signedInModel);
return SuccessDataResult(tokenModel);
}
public async Task SignOutAsync(SignOutModel signOutModel)
{
var addUserLogModel = new AddUserLogModel(signOutModel.UserId, LogType.SignOut);
await UserLogApplicationService.AddAsync(addUserLogModel);
}
public async Task<IResult> UpdateAsync(UpdateUserModel updateUserModel)
{
var validation = new UpdateUserModelValidator().Valid(updateUserModel);
if (!validation.Success)
{
return ErrorResult(validation.Message);
}
var userEntity = await UserRepository.SelectAsync(updateUserModel.UserId);
if (userEntity == default)
{
return SuccessResult();
}
userEntity.ChangeEmail(updateUserModel.Email);
userEntity.ChangeFullName(updateUserModel.FullName.Name, updateUserModel.FullName.Surname);
await UserRepository.UpdateAsync(userEntity.UserId, userEntity);
await DatabaseUnitOfWork.SaveChangesAsync();
return SuccessResult();
}
}
The Entity class is responsible for business rules and domain logic.
The class must have an identity.
The property values must be assigned in the constructor and only be changed by methods.
The names of methods and properties must be the same as the business domain.
public class UserEntity
{
public UserEntity
(
long userId,
FullName fullName,
Email email,
SignIn signIn,
Roles roles,
Status status
)
{
UserId = userId;
FullName = fullName;
Email = email;
SignIn = signIn;
Roles = roles;
Status = status;
}
public long UserId { get; private set; }
public FullName FullName { get; private set; }
public Email Email { get; private set; }
public SignIn SignIn { get; private set; }
public Roles Roles { get; private set; }
public Status Status { get; private set; }
public ICollection<UserLogEntity> UsersLogs { get; private set; }
public void Add()
{
UserId = default;
Roles = Roles.User;
Status = Status.Active;
}
public void ChangeEmail(string address)
{
Email = new Email(address);
}
public void ChangeFullName(string name, string surname)
{
FullName = new FullName(name, surname);
}
public void Inactivate()
{
Status = Status.Inactive;
}
}
The ValueObject class is responsible for grouping data that adds value to entity.
The class must have no identity.
The property values must be assigned in the constructor and be immutable.
public sealed class SignIn
{
public SignIn(string login, string password)
{
Login = login;
Password = password;
}
public string Login { get; private set; }
public string Password { get; private set; }
}
The EntityFactory class is responsible for creating the entity.
public static class UserEntityFactory
{
public static UserEntity Create(long userId)
{
return new UserEntity(userId, default, default, default, default, default);
}
public static UserEntity Create(AddUserModel addUserModel)
{
return new UserEntity
(
addUserModel.UserId,
new FullName(addUserModel.FullName.Name, addUserModel.FullName.Surname),
new Email(addUserModel.Email),
new SignIn(addUserModel.SignIn.Login, addUserModel.SignIn.Password),
addUserModel.Roles,
default
);
}
}
The DomainService class is responsible for encapsulating domain logic that does not fit within the entity.
public class UserDomainService : IUserDomainService
{
public UserDomainService
(
IHash hash,
IJsonWebToken jsonWebToken
)
{
Hash = hash;
JsonWebToken = jsonWebToken;
}
private IHash Hash { get; }
private IJsonWebToken JsonWebToken { get; }
public void GenerateHash(SignInModel signInModel)
{
signInModel.Password = Hash.Create(signInModel.Password);
}
public TokenModel GenerateToken(SignedInModel signedInModel)
{
var claims = new List<Claim>();
claims.AddSub(signedInModel.UserId.ToString());
claims.AddRoles(signedInModel.Roles.ToString().Split(", "));
var token = JsonWebToken.Encode(claims);
return new TokenModel(token);
}
}
The Model class is responsible for containing a set of data.
public class SignInModel
{
public string Login { get; set; }
public string Password { get; set; }
}
The ModelValidator class is responsible for validating the model with defined rules.
public sealed class SignInModelValidator : Validator<SignInModel>
{
public SignInModelValidator()
{
WithMessage(Texts.LoginPasswordInvalid);
RuleFor(x => x.Login).NotEmpty();
RuleFor(x => x.Password).NotEmpty();
}
}
The Enum is responsible for being a set of named integer constants.
public enum Status
{
None = 0,
Active = 1,
Inactive = 2
}
The Context class is responsible for configuring and mapping the database.
public sealed class DatabaseContext : DbContext
{
public DatabaseContext(DbContextOptions options) : base(options) { }
protected override void OnModelCreating(ModelBuilder modelBuilder)
{
modelBuilder.ApplyConfigurationsFromAssembly();
modelBuilder.Seed();
}
}
The ContextFactory class is responsible for generating database migrations.
public sealed class DatabaseContextFactory : IDesignTimeDbContextFactory<DatabaseContext>
{
public DatabaseContext CreateDbContext(string[] args)
{
const string connectionString = "Server=(localdb)\\MSSQLLocalDB;Database=Database;Integrated Security=true;Connection Timeout=5;";
var builder = new DbContextOptionsBuilder<DatabaseContext>();
builder.UseSqlServer(connectionString);
return new DatabaseContext(builder.Options);
}
}
The ContextSeed class is responsible for seeding initial data.
public static class DatabaseContextSeed
{
public static void Seed(this ModelBuilder modelBuilder)
{
modelBuilder.SeedUsers();
}
private static void SeedUsers(this ModelBuilder modelBuilder)
{
modelBuilder.Entity<UserEntity>(x =>
{
x.HasData(new
{
UserId = 1L,
Roles = Roles.User | Roles.Admin,
Status = Status.Active
});
x.OwnsOne(y => y.FullName).HasData(new
{
UserEntityUserId = 1L,
Name = "Administrator",
Surname = "Administrator"
});
x.OwnsOne(y => y.Email).HasData(new
{
UserEntityUserId = 1L,
Address = "administrator@administrator.com"
});
});
}
}
The UnitOfWork class is responsible for managing transactions.
public sealed class DatabaseUnitOfWork : IDatabaseUnitOfWork
{
public DatabaseUnitOfWork(DatabaseContext context)
{
Context = context;
}
private DatabaseContext Context { get; }
public Task<int> SaveChangesAsync()
{
return Context.SaveChangesAsync();
}
}
The EntityConfiguration class is responsible for configuring and mapping the entity to table.
public sealed class UserEntityConfiguration : IEntityTypeConfiguration<UserEntity>
{
public void Configure(EntityTypeBuilder<UserEntity> builder)
{
builder.ToTable("Users", "User");
builder.HasKey(x => x.UserId);
builder.Property(x => x.UserId).IsRequired().ValueGeneratedOnAdd();
builder.Property(x => x.Roles).IsRequired();
builder.Property(x => x.Status).IsRequired();
builder.OwnsOne(x => x.FullName, y =>
{
y.Property(x => x.Name).HasColumnName(nameof(UserEntity.FullName.Name)).IsRequired().HasMaxLength(100);
y.Property(x => x.Surname).HasColumnName(nameof(UserEntity.FullName.Surname)).IsRequired().HasMaxLength(200);
});
builder.OwnsOne(x => x.Email, y =>
{
y.Property(x => x.Address).HasColumnName(nameof(UserEntity.Email)).IsRequired().HasMaxLength(300);
y.HasIndex(x => x.Address).IsUnique();
});
builder.OwnsOne(x => x.SignIn, y =>
{
y.Property(x => x.Login).HasColumnName(nameof(UserEntity.SignIn.Login)).IsRequired().HasMaxLength(100);
y.Property(x => x.Password).HasColumnName(nameof(UserEntity.SignIn.Password)).IsRequired().HasMaxLength(500);
y.HasIndex(x => x.Login).IsUnique();
});
builder.HasMany(x => x.UsersLogs).WithOne(x => x.User).HasForeignKey(x => x.UserId);
}
}
The Repository class is responsible for abstracting and isolating data persistence.
public sealed class UserRepository : EntityFrameworkCoreRelationalRepository<UserEntity>, IUserRepository
{
public UserRepository(DatabaseContext context) : base(context) { }
public Task<SignedInModel> SignInAsync(SignInModel signInModel)
{
return SingleOrDefaultAsync<SignedInModel>
(
userEntity =>
userEntity.SignIn.Login.Equals(signInModel.Login) &&
userEntity.SignIn.Password.Equals(signInModel.Password) &&
userEntity.Status == Status.Active
);
}
}