Layered Application Solution Template

This template provides a layered application structure based on the Domain Driven Design (DDD) practices.

Getting Started

Solution Structure

Based on the options you've specified, you will get a slightly different solution structure.

Default Structure

If you don't specify any additional options, you will have a solution as shown below:

bookstore-rider-solution-v6

Projects are organized in src and test folders. src folder contains the actual application which is layered based on DDD principles as mentioned before.

The diagram below shows the layers & project dependencies of the application:

layered-project-dependencies

Each section below will explain the related project & its dependencies.

.Domain.Shared Project

This project contains constants, enums and other objects these are actually a part of the domain layer, but needed to be used by all layers/projects in the solution.

A BookType enum and a BookConsts class (which may have some constant fields for the Book entity, like MaxNameLength) are good candidates for this project.

  • This project has no dependency on other projects in the solution. All other projects depend on this one directly or indirectly.

.Domain Project

This is the domain layer of the solution. It mainly contains entities, aggregate roots, domain services, value objects, repository interfaces and other domain objects.

A Book entity, a BookManager domain service and an IBookRepository interface are good candidates for this project.

  • Depends on the .Domain.Shared because it uses constants, enums and other objects defined in that project.

.Application.Contracts Project

This project mainly contains application service interfaces and Data Transfer Objects (DTO) of the application layer. It exists to separate the interface & implementation of the application layer. In this way, the interface project can be shared to the clients as a contract package.

An IBookAppService interface and a BookCreationDto class are good candidates for this project.

  • Depends on the .Domain.Shared because it may use constants, enums and other shared objects of this project in the application service interfaces and DTOs.

.Application Project

This project contains the application service implementations of the interfaces defined in the .Application.Contracts project.

A BookAppService class is a good candidate for this project.

  • Depends on the .Application.Contracts project to be able to implement the interfaces and use the DTOs.
  • Depends on the .Domain project to be able to use domain objects (entities, repository interfaces... etc.) to perform the application logic.

.EntityFrameworkCore Project

This is the integration project for the EF Core. It defines the DbContext and implements repository interfaces defined in the .Domain project.

  • Depends on the .Domain project to be able to reference to entities and repository interfaces.

This project is available only if you are using EF Core as the database provider. If you select another database provider, its name will be different.

.DbMigrator Project

This is a console application that simplifies the execution of database migrations on development and production environments. When you run this application, it:

  • Creates the database if necessary.
  • Applies the pending database migrations.
  • Seeds initial data if needed.

This project has its own appsettings.json file. So, if you want to change the database connection string, remember to change this file too.

Especially, seeding initial data is important at this point. ABP has a modular data seed infrastructure. See its documentation for more about the data seeding.

While creating database & applying migrations seem only necessary for relational databases, this project comes even if you choose a NoSQL database provider (like MongoDB). In that case, it still seeds the initial data which is necessary for the application.

  • Depends on the .EntityFrameworkCore project (for EF Core) since it needs to access to the migrations.
  • Depends on the .Application.Contracts project to be able to access permission definitions, because the initial data seeder grants all permissions to the admin role by default.

.HttpApi Project

This project is used to define your API Controllers.

Most of the time you don't need to manually define API Controllers since ABP's Auto API Controllers feature creates them automagically based on your application layer. However, in case of you need to write API controllers, this is the best place to do it.

  • Depends on the .Application.Contracts project to be able to inject the application service interfaces.

.HttpApi.Client Project

This is a project that defines C# client proxies to use the HTTP APIs of the solution. You can share this library to 3rd-party clients, so they can easily consume your HTTP APIs in their Dotnet applications (For other types of applications, they can still use your APIs, either manually or using a tool in their own platform)

Most of the time you don't need to manually create C# client proxies, thanks to ABP's Dynamic C# API Clients feature.

.HttpApi.Client.ConsoleTestApp project is a console application created to demonstrate the usage of the client proxies.

  • Depends on the .Application.Contracts project to be able to share the same application service interfaces and DTOs with the remote service.

You can delete this project & dependencies if you don't need to create C# client proxies for your APIs.

.Web Project

This project contains the User Interface (UI) of the application if you are using ASP.NET Core MVC UI. It contains Razor pages, JavaScript files, CSS files, images and so on...

This project contains the main appsettings.json file that contains the connection string and other configurations of the application.

  • Depends on the .HttpApi project since the UI layer needs to use APIs and the application service interfaces of the solution.

If you check the source code of the .Web.csproj file, you will see the references to the .Application and the .EntityFrameworkCore projects.

These references are actually not needed while coding your UI layer, because the UI layer normally doesn't depend on the EF Core or the Application layer's implementation. These startup templates are ready for tiered deployment, where the API layer is hosted on a separate server than the UI layer.

However, if you don't choose the --tiered option, these references will be in the .Web project to be able to host the Web, API and application layers in a single application endpoint.

This gives you the ability to use domain entities & repositories in your presentation layer. However, this is considered as a bad practice according to DDD.

Test Projects

The solution has multiple test projects, one for each layer:

  • .Domain.Tests is used to test the domain layer.
  • .Application.Tests is used to test the application layer.
  • .EntityFrameworkCore.Tests is used to test EF Core configuration and custom repositories.
  • .Web.Tests is used to test the UI (if you are using ASP.NET Core MVC UI).
  • .TestBase is a base (shared) project for all tests.

In addition, .HttpApi.Client.ConsoleTestApp is a console application (not an automated test project) which demonstrate the usage of HTTP APIs from a .NET application.

Test projects are prepared for integration testing;

  • It is fully integrated into the ABP and all services in your application.
  • It uses SQLite in-memory database for EF Core. For MongoDB, it uses the EphemeralMongo library.
  • Authorization is disabled, so any application service can be easily used in tests.

You can still create unit tests for your classes which will be harder to write (because you will need to prepare mock/fake objects), but faster to run (because it only tests a single class and skips all the initialization processes).

How to Run?

Set .Web as the startup project and run the application. The default username is admin and the password is 1q2w3E*.

See Getting Started With the ASP.NET Core MVC Template for more information.

Tiered Structure

If you have selected the ASP.NET Core UI and specified the --tiered option, the solution created will be a tiered solution. The purpose of the tiered structure is to be able to deploy Web applications and HTTP API to different servers:

bookstore-visual-studio-solution-v3

  • Browser runs your UI by executing HTML, CSS & JavaScript.
  • Web servers host static UI files (CSS, JavaScript, image... etc.) & dynamic components (e.g. Razor pages). It performs HTTP requests to the API server to execute the business logic of the application.
  • The API Server hosts the HTTP APIs which then use the application & domain layers of the application to perform the business logic.
  • Finally, database server hosts your database.

So, the resulting solution allows a 4-tiered deployment, by comparing to 3-tiered deployment of the default structure explained before.

Unless you actually need such a 4-tiered deployment, it's suggested to go with the default structure which is simpler to develop, deploy and maintain.

The solution structure is shown below:

bookstore-rider-solution-v6

As different from the default structure, two new projects come into play: .AuthServer & .HttpApi.Host.

.AuthServer Project

This project is used as an authentication server for other projects. .Web project uses OpenId Connect Authentication to get identity and access tokens for the current user from the AuthServer. Then uses the access token to call the HTTP API server. HTTP API server uses bearer token authentication to obtain claims from the access token to authorize the current user.

tiered-solution-applications

ABP uses the OpenIddict Module that uses the open-source OpenIddict-core library for the authentication between applications. See OpenIddict documentation for details about the OpenIddict and OpenID Connect protocol.

It has its own appsettings.json that contains database connection and other configurations.

.HttpApi.Host Project

This project is an application that hosts the API of the solution. It has its own appsettings.json that contains database connection and other configurations.

.Web Project

Just like the default structure, this project contains the User Interface (UI) of the application. It contains razor pages, JavaScript files, style files, images and so on...

This project contains an appsettings.json file, but this time it does not have a connection string because it never connects to the database. Instead, it mainly contains the endpoint of the remote API server and the authentication server.

Pre-requirements

  • Redis: The applications use Redis as a distributed cache. So, you need to have Redis installed & running.

How to Run?

You should run the application with the given order:

  • First, run the .AuthServer since other applications depend on it.
  • Then run the .HttpApi.Host since it is used by the .Web application.
  • Finally, you can run the .Web project and login to the application (using admin as the username and 1q2w3E* as the password).

Blazor UI

If you choose Blazor as the UI Framework (using the -u blazor or -u blazor-server option), the solution will have a project named .Blazor. This project contains the Blazor UI application. According to your choice, it will be a Blazor WebAssembly or Blazor Server application. If Blazor WebAssembly is selected, the solution will also have a .HttpApi.Host. This project is an ASP.NET Core application that hosts the backend application for the Blazor single page application.

.Blazor Project (Server)

The Blazor Server project is similar to the ASP.NET Core MVC project. It replaces .Web project with .Blazor in the solution structure above. It has the same folder structure and the same application flow. Since it's an ASP.NET Core application, it can contain .cshtml files and .razor components at the same time. If routing matches a razor component, the Blazor UI will be used. Otherwise, the request will be handled by the MVC framework.

abp solution structure blazor server

.Blazor Project (WebAssembly)

The Blazor WebAssembly project is a single page application that runs on the browser. You'll see it as .Blazor project in the solution. It uses the .HttpApi.Host project to communicate with the backend. It can't be used without the backend application. It contains only .razor components. It's a pure client-side application. It doesn't have any server-side code. Everything in this layer will be for the client side.

abp solution structure blazor wasm

Angular UI

If you choose Angular as the UI framework (using the -u angular option), the solution is being separated into two folders:

  • angular folder contains the Angular UI application, the client-side code.
  • aspnet-core folder contains the ASP.NET Core solution, the server-side code.

The server-side is similar to the solution described above. *.HttpApi.Host project serves the API, so the Angular application consumes it.

Angular application folder structure looks like below:

angular-folder-structure

Each of ABP modules is an NPM package. Some ABP modules are added as a dependency in package.json. These modules install with their dependencies. To see all ABP packages, you can run the following command in the angular folder:

yarn list --pattern abp

Angular application module structure:

Angular template structure diagram

AppModule

AppModule is the root module of the application. Some of the ABP modules and some essential modules are imported to AppModule.

ABP Config modules have also been imported to AppModule for initial requirements of the lazy-loadable ABP modules.

AppRoutingModule

There are lazy-loadable ABP modules in the AppRoutingModule as routes.

Paths of ABP Modules should not be changed.

You should add routes property in the data object to add a link on the menu to redirect to your custom pages.

{
   path: 'dashboard',
   loadChildren: () => import('./dashboard/dashboard.module').then(m => m.DashboardModule),
   canActivate: [authGuard, permissionGuard],
   data: {
      routes: {
         name: 'ProjectName::Menu:Dashboard',
         order: 2,
         iconClass: 'fa fa-dashboard',
         requiredPolicy: 'ProjectName.Dashboard.Host'
      } as ABP.Route
   }
}

In the above example;

  • If the user is not logged in, authGuard blocks access and redirects to the login page.
  • permissionGuard checks the user's permission with the requiredPolicy property of the routes object. If the user is not authorized to access the page, the 403 page appears.
  • The name property of routes is the menu link label. A localization key can be defined.
  • The iconClass property of the routes object is the menu link icon class.
  • The requiredPolicy property of the routes object is the required policy key to access the page.

After the above routes definition, if the user is authorized, the dashboard link will appear on the menu.

Shared Module

The modules that may be required for all modules have been imported to the SharedModule. You should import SharedModule to all modules.

See the Sharing Modules document.

Environments

The files under the src/environments folder have the essential configuration of the application.

Home Module

Home module is an example lazy-loadable module that loads on the root address of the application.

Styles

The required style files are added to the styles array in angular.json. AppComponent loads some style files lazily via LazyLoadService after the main bundle is loaded to shorten the first rendering time.

Testing

You should create your tests in the same folder as the file you want to test.

See the testing document.

Depended Packages

React Native

If the -m react-native option is specified in the new project command, the solution includes the React Native application in the react-native folder.

The server-side is similar to the solution described above. *.HttpApi.Host project serves the API, so the React Native application consumes it.

The React Native application was generated with Expo. Expo is a set of tools built around React Native to help you quickly start an app and, while it has many features.

React Native application folder structure as like below:

react-native-folder-structure

  • App.js is the bootstrap component of the application.
  • Environment.js file has the essential configuration of the application. prod and dev configurations are defined in this file.
  • Contexts are created in the src/contexts folder.
  • Higher order components are created in the src/hocs folder.
  • Custom hooks are created in src/hooks.
  • Axios interceptors are created in the src/interceptors folder.
  • Utility functions are exported from src/utils folder.

Components

Components that can be used on all screens are created in the src/components folder. All components have been created as a function that is able to use hooks.

Screens

react-native-navigation-structure

Screens are created by creating folders that separate their names in the src/screens folder. Certain parts of some screens can be split into components.

Each screen is used in a navigator in the src/navigators folder.

Navigation

React Navigation is used as a navigation library. Navigators are created in the src/navigators. A drawer navigator and several stack navigators have been created in this folder. See the above diagram for the navigation structure.

State Management

Redux is used as a state management library. Redux Toolkit library is used as a toolset for efficient Redux development.

Actions, reducers, sagas and selectors are created in the src/store folder. Store folder is as below:

react-native-store-folder

  • Store is defined in the src/store/index.js file.
  • Actions are payloads of information that send data from your application to your store.
  • Reducers specify how the application's state changes in response to actions sent to the store.
  • Redux-Saga is a library that aims to make application side effects (i.e. asynchronous things like data fetching and impure things like accessing the browser cache) easier to manage. Sagas are created in the src/store/sagas folder.
  • Reselect library is used to create memoized selectors. Selectors are created in the src/store/selectors folder.

APIs

Axios is used as an HTTP client library. An Axios instance has exported from src/api/API.js file to make HTTP calls with the same config. src/api folder also has the API files that have been created for API calls.

Theming

Native Base is used as UI components library. Native Base components can customize easily. See the Native Base customize documentation. We followed the same way.

  • Native Base theme variables are in the src/theme/variables folder.
  • Native Base component styles are in the src/theme/components folder. These files have been generated with Native Base's ejectTheme script.
  • Styles of components override with the files under the src/theme/overrides folder.

Testing

Unit tests will be created.

See the Testing Overview document.

Depended Libraries

  • Native Base is used as UI components library.
  • React Navigation is used as navigation library.
  • Axios is used as an HTTP client library.
  • Redux is used as state management library.
  • Redux Toolkit library is used as a toolset for efficient Redux development.
  • Redux-Saga is used to manage asynchronous processes.
  • Redux Persist is used as state persistence.
  • Reselect is used to create memoized selectors.
  • i18n-js is used as i18n library.
  • expo-font library allows loading fonts easily.
  • Formik is used to build forms.
  • Yup is used for form validations.

Social / External Logins

If you want to configure social/external logins for your application, please follow the Social/External Logins document.

What's Next?

See Also

Contributors


Last updated: November 09, 2024 Edit this page on GitHub

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