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Create an HTTP API for the product catalog

A database has already been defined to store the product catalog for eShop, along with an Entity Framework Core model, and a web app that ensures the database is created and updated to the latest schema by running migrations on startup.

ERD for the Catalog database

Getting familiar with the Catalog Database & Entity Framework Core Model

  1. Open the eShop.lab1.sln in Visual Studio or VS Code.
  2. An Entity Framework Core model is already defined for this database in the Catalog.Data project. Open the CatalogDbContext.cs file in this project and look at the code to see that the the various tables are defined via properties and classes implementing IEntityTypeConfiguration<TEntity>.
  3. The Catalog.Data project only defines the DbContext and entity types. The EF Core migrations are defined and managed in the Catalog.Data.Manager project. This is a web project that includes some custom code to facilitate creating and seeding the database when the application starts.
  4. Open the Program.cs file in the Catalog.Data.Manager project and take a few minutes to read the code, navigating to the definition/implementation of the AddMigration<TContext> method to get a sense of what it's doing to coordinate the creation of the database, application of migrations, and execution of the custom IDbSeeder<TContext> class. Also note the custom health check that indicates the status of the database initialization.

Creating Docker containers for the database

In order to successfully run the the Catalog.Data.Manager application and see the database be created, a PostgreSQL database server is required. The project is pre-configured to connect to a local server using trust authentication in its appsettings.Development.json file. Docker is a simple way to run instances of databases for development.

We're going to run 2 docker container:, the PostgreSQL container, and pgAdmin. This will make it easy to inspect the database using a visual tool:

Docker CLI

postgres

docker run --name postgres-dev -e POSTGRES_HOST_AUTH_METHOD=trust -p 5432:5432 -d postgres

pgAdmin

docker run --name pgadmin-dev -e PGADMIN_CONFIG_MASTER_PASSWORD_REQUIRED=False -e PGADMIN_CONFIG_SERVER_MODE=False -e [email protected] -e PGADMIN_DEFAULT_PASSWORD=admin -p 0:80 -d dpage/pgadmin4

Podman users: If using Podman CLI, omit the -p 0:80 argument when running the docker run command above, as Podman has slightly different default behavior with regards to port binding.

Docker Desktop

  1. Using Docker, create a container to host the PostgreSQL server with the following details:

    • Name: postgres-dev
    • Image: postgres:latest
    • Ports: 5432
    • Environment variables:
      • POSTGRES_HOST_AUTH_METHOD : trust

    Creating a container for PostgreSQL in Docker Desktop

  2. Create another container to host an instance of pgAdmin:

    • Name: pgadmin-dev
    • Image: dpage/pgadmin4:latest
    • Ports: 0 (random)
    • Environment variables:
      • PGADMIN_CONFIG_MASTER_PASSWORD_REQUIRED : False
      • PGADMIN_CONFIG_SERVER_MODE : False
      • PGADMIN_DEFAULT_EMAIL : [email protected]
      • PGADMIN_DEFAULT_PASSWORD : admin

    Creating a container for PostgreSQL in Docker Desktop

Running the Catalog.Data.Manager app

  1. Launch the Catalog.Data.Manager project and navigate to its /health endpoint in the browser.

  2. The application's logs will be shown in its console instance and will show the detail of it initializing the database. Once initialization has completed, the /health endpoint should return a Healthy response.

    Logs and health-check endpoint of the Catalog.Data.Manager project showing the database initialization status

  3. Stop the application and try launching it again and seeing the output of the /health endpoint return Degraded while the database initialization is still in progress.

  4. Find the port assigned to the pgAdmin container.

Docker CLI

docker ps

Image of the docker CLI showing the port for pgAdmin

###Docker Desktop

Image of docker desktop UI showing the port for pgAdmin

  1. Open the pgAdmin UI in another browser tab and add the local PostgreSQL server instance by right-clicking on the Servers node in the tree-view and selecting Register > Server (use host.docker.internal in the Connection tab).

  2. Expand the tree-view nodes under the server node you registered to see the that the tables representing the Entity Framework Core model have been created.

    pgAdmin UI showing the created tables

Using .NET Aspire to manage container instances

Containers are extremely useful for hosting service dependencies, but rather than creating and connecting to them manually, we can use the features of .NET Aspire to drive this from C#.

Visual Studio

  1. In Visual Studio, right-mouse click on the Catalog.Data.Manager project and select Add > .NET Aspire Orchestrator Support.... Change the Project name prefix to "eShop" and click OK in the displayed dialog:

    VS Add Aspire Orchestration dialog

  2. Two new projects were added to the solution: eShop.AppHost and eShop.ServiceDefaults. The AppHost project should also be set as the launch project for the solution.

  3. Open the Program.cs file in the AppHost project and change the name assigned to the Projects.Catalog_Data_Manager project to "catalog-db-mgr":

    var builder = DistributedApplication.CreateBuilder(args);
    
    builder.AddProject<Projects.Catalog_Data_Manager>("catalog-db-mgr");
    
    builder.Build().Run();

dotnet CLI

  1. Run the following commands in the src folder to create the eShop.AppHost and eShop.ServiceDefaults projects.

    dotnet new aspire-apphost -n eShop.AppHost
    dotnet new aspire-servicedefaults -n eShop.ServiceDefaults
    dotnet sln add eShop.AppHost
    dotnet sln add eShop.ServiceDefaults
  2. Now add a reference to the eShop.AppHost:

    cd eShop.AppHost
    dotnet add reference ..\Catalog.Data.Manager
  3. Open the Program.cs file in the AppHost project and add the following code:

    var builder = DistributedApplication.CreateBuilder(args);
    
    builder.AddProject<Projects.Catalog_Data_Manager>("catalog-db-mgr");
    
    builder.Build().Run();

Configuring PostgreSQL and pgAdmin

  1. Install the Aspire.Hosting.PostgreSQL package in the eShop.AppHost project:

    dotnet add package Aspire.Hosting.PostgreSQL
    <PackageReference Include="Aspire.Hosting.PostgreSQL" Version="9.0.0" />
  2. Use the methods on the builder variable to create a PostgreSQL instance called postgres with pgAdmin enabled, and a database called CatalogDB. Ensure that the catalog-db-mgr project resource is configured with a reference to the catalogDb:

    var builder = DistributedApplication.CreateBuilder(args);
    
    var postgres = builder.AddPostgres("postgres")
                          .WithPgAdmin();
    var catalogDb = postgres.AddDatabase("CatalogDB");
    
    builder.AddProject<Projects.Catalog_Data_Manager>("catalog-db-mgr")
        .WithReference(catalogDb);
    
    builder.Build().Run();
  3. In the Program.cs file of the Catalog.Data.Manager project, remove the line that maps the health-checks endpoint. This is no longer required as it's done by default by the app.MapDefaultEndpoints(); line that was added when Aspire orchestration was added.

  4. Launch the AppHost project and see that the Aspire dashboard is opened in the browser, with the various resources that make up our new distributed application listed, including the Catalog.Data.Manager project and the Docker containers.

  5. Use the dashboard to inspect the environment variables of the catalog-db-mgr resource and notice that it includes one that sets the connection string required to connect to the CatalogDB database:

    Environment variable containing the database connection string on the Aspire dashboard

    This environment variable will automatically override the value specified in the project's appsettings.Development.json file as configuration values provided from environment variables have higher precedence than those from appsettings.json files by default.

  6. Locate the pgAdmin resource in the dashboard and click on the hyperlink displayed for it in the Endpoints column. Note that the PostgreSQL server defined via the AppHost project was automatically registered with pgAdmin in the Aspire instances node:

    pgAdmin UI auto-configured by the Aspire AppHost project

  7. Back on the dashboard, click on the Traces item from the left-side menu, then find the trace entry with the name catalog-db-mgr: Migration operation CatalogDbContext and click on the View link in the Details column to open the trace view. Note all the spans displayed that represent calls from the application to the database during the database initialization. You might even see the first span errored as the database container was not yet available as the startup order of the different resources are not coordinated:

    Trace view of the catalog-db-mgr app in the dashboard

Create the Catalog API project

Now that we've setup the solution to use Aspire for composing our distributed application, let's add an HTTP API that provides the catalog details stored in the database.

  1. Add a new project to the solution using the ASP.NET Core Web API project template and call it Catalog.API, and ensure the following options are configured:

    • Framework: .NET 8.0 (Long Term Support)
    • Authentication Type: None
    • Configure for HTTPS: disabled
    • Enable container support: disabled
    • Enable OpenAPI support: enabled
    • Do not use top-level statements: disabled
    • Use controllers: disabled
    • Enlist in .NET Aspire orchestration: enabled

    VS Web API project template options

  2. In the newly created project, update the package reference to Swashbuckle.AspNetCore to version 6.5.0

  3. Open the Program.cs file of the eShop.AppHost project, and update it so the API project you just added is named "catalog-api" and has a reference to the CatalogDB:

    var builder = DistributedApplication.CreateBuilder(args);
    
    var postgres = builder.AddPostgres("postgres")
                          .WithPgAdmin();
    var catalogDb = postgres.AddDatabase("CatalogDB");
    
    builder.AddProject<Projects.Catalog_Data_Manager>("catalog-db-mgr")
        .WithReference(catalogDb);
    
    builder.AddProject<Projects.Catalog_API>("catalog-api")
        .WithReference(catalogDb);
    
    builder.Build().Run();
  4. Add a project reference from the Catalog.API project to the Catalog.Data project so that it can use Entity Framework Core to access the database.

  5. Open the Program.cs file of the Catalog.API project and delete the sample code that defines the weather forecasts API. This is all the code beginning with var summaries = new[] until the end of the file, with the exception of the app.Run() line.

  6. Immediately after the line that calls builder.AddServiceDefaults(), add a line to configure the CatalogDbContext in the application's DI container using the Npgsql Entity Framework Core Provider for PostgreSQL. Ensure that the name passed to the method matches the name defined for the database in the AppHost project's Program.cs file ("CatalogDB"). The AddNpgsqlDbContext method comes from the Aspire.Npgsql.EntityFrameworkCore.PostgreSQL Aspire component:

    builder.AddServiceDefaults();
    
    builder.AddNpgsqlDbContext<CatalogDbContext>("CatalogDB");
  7. Create a new file called CatalogApi.cs and define a static class inside of it called CatalogApi in the Microsoft.AspNetCore.Builder namespace:

    namespace Microsoft.AspNetCore.Builder;
    
    public static class CatalogApi
    {
    
    }
  8. In this class, add an extension method named MapCatalogApi on the IEndpointRouteBuilder type, returning that same type:

    public static IEndpointRouteBuilder MapCatalogApi(this IEndpointRouteBuilder app)
    {
        
        return app;
    }

    This method will define the endpoint routes for the Catalog API.

  9. In the method, add a call to app.MapGet to define an endpoint that responds to GET requests to the /items path, and is handled by an async lambda that accepts two parameters: a PaginationRequest type that will represent the shape of the request, and the CatalogDbContext instance that will come from the DI container:

    app.MapGet("/items", async ([AsParameters] PaginationRequest paginationRequest, CatalogDbContext db) =>
    {
    
    });
  10. Create a new file called PaginationRequest.cs in a new directory in the project called Model and in it define a struct type PaginationRequest with two integer properties, PageSize and PageIndex. This type will represent the optional request parameters that can be passed to the /items endpoint:

    namespace eShop.Catalog.API.Model;
    
    public readonly struct PaginationRequest(int pageSize = 10, int pageIndex = 0)
    {
        public readonly int PageSize { get; } = pageSize;
    
        public readonly int PageIndex { get; } = pageIndex;
    }
  11. Create another file called PaginatedItems.cs in the Model directory and in it define a type PaginatedItems<TItem> with properties PageIndex, PageSize, Count, and Data. This type will represent the shape of the response that will be returned from the /items endpoint:

    namespace eShop.Catalog.API.Model;
    
    public class PaginatedItems<TItem>(int pageIndex, int pageSize, long count, IEnumerable<TItem> data)
        where TItem : class
    {
        public int PageIndex { get; } = pageIndex;
    
        public int PageSize { get; } = pageSize;
    
        public long Count { get; } = count;
    
        public IEnumerable<TItem> Data { get;} = data;
    }
  12. Back in the CatalogApi.cs file, implement the lambda body for the /items endpoint so that the appropriate page of catalog items is retrieved from the database and returned in the response. Objects returned from the lambda will be automatically JSON serialized. The CatalogApi.cs file should now look something like this:

    using eShop.Catalog.API.Model;
    using eShop.Catalog.Data;
    using Microsoft.EntityFrameworkCore;
    
    namespace Microsoft.AspNetCore.Builder;
    
    public static class CatalogApi
    {
        public static IEndpointRouteBuilder MapCatalogApi(this IEndpointRouteBuilder app)
        {
            app.MapGet("/items", async ([AsParameters] PaginationRequest paginationRequest, CatalogDbContext db) =>
            {
                var pageSize = paginationRequest.PageSize;
                var pageIndex = paginationRequest.PageIndex;
    
                var totalItems = await db.CatalogItems
                    .LongCountAsync();
    
                var itemsOnPage = await db.CatalogItems
                    .OrderBy(c => c.Name)
                    .Skip(pageSize * pageIndex)
                    .Take(pageSize)
                    .AsNoTracking()
                    .ToListAsync();
    
                return new PaginatedItems<CatalogItem>(pageIndex, pageSize, totalItems, itemsOnPage);
            });
    
            return app;
        }
    }
  13. Go back to the Program.cs file of the Catalog.API project and add a call to the completed MapCatalogApi method, just before the call to app.Run():

    app.MapCatalogApi();
    
    app.Run();
  14. Ensure the solution builds successfully before continuing.

  15. Launch the AppHost project and click the hyperlink in the dashboard for the catalog-api resource's endpoint. This will open a new browser tab displaying the Swagger UI for the Catalog API.

    Catalog API Swagger UI

  16. Expand the API definition for the /items endpoint and click the Try it out button, followed by the Execute button. You should see the catalog items returned as JSON in the Response body section:

    Catalog API /items endpoint response in the Swagger UI

  17. As an alternative to the Swagger UI, open the Catalog.API.http file in the Catalog.API project. This file was added by default when the project was created.

  18. Edit the line defining a GET request to the /weatherforecasts endpoint so that it instead hits the /items endpoint:

    @Catalog.API_HostAddress = http://localhost:5180
    
    GET {{Catalog.API_HostAddress}}/items/
    Accept: application/json
    
    ###
  19. Click the Send request link displayed above it to send the request and have the response displayed:

    Catalog.API.http file open in Visual Studio

  20. Learn more about .http files in Visual Studio.