MCP server with Laravel

In this article, we will create a tool in our Laravel MCP server to add to-do items. We will then consume the MCP server from an MCP client like VS Code.

Source Code: https://github.com/medhatelmasry/mcp-todo-laravel

Getting Started

Create a standard Laravel app with the following command:

composer create-project laravel/laravel mcp-todo-laravel
cd mcp-todo-laravel

Install the official Laravel MCP package via Composer:

composer require laravel/mcp

Publish the MCP configuration and routing files:

php artisan vendor:publish --tag=ai-routes

This creates routes/ai.php, where we will register your MCP servers.

Open your application in VS Code. 

We need to register the ai.php in the application bootstrap file. Edit the bootstrap/app.php file. Make these changes:

1) Add this at the top:

use Illuminate\Support\Facades\Route;

2) Add this code just under “health: '/up',”:

then: function () {
  Route::prefix('mcp')
    ->middleware('api') // api middleware disables CSRF checks
    ->group(base_path('routes/ai.php'));
},

Create and Register the Server 

Generate an MCP server class to group our tools:

php artisan make:mcp-server TodoServer

This creates the following file:

<?php

namespace App\Mcp\Servers;

use Laravel\Mcp\Server;
use Laravel\Mcp\Server\Attributes\Instructions;
use Laravel\Mcp\Server\Attributes\Name;
use Laravel\Mcp\Server\Attributes\Version;

#[Name(Todo Server')]
#[Version('0.0.1')]
#[Instructions('This server is used to manage the to-do list. Tools are used to add to-do items.')]
class TodoServer extends Server {
    protected array $tools = [
        //
    ];

    protected array $resources = [
        //
    ];

    protected array $prompts = [
        //
    ];
}

Update the file with the text highlighted in yellow above.

Then, register it in routes/ai.php as either a local or web server (or both) by replacing the content with the following:

<?php
use App\Mcp\Servers\TodoServer;
use Laravel\Mcp\Facades\Mcp;

// Web server: accessible via HTTP POST at /mcp/todo
Mcp::web('/mcp/todo', TodoServer::class);

// Local server: runs as an Artisan command
Mcp::local('todo', TodoServer::class);

Create an MCP Tool 

Tools define the actions an AI can perform. Generate a new tool class with:

php artisan make:mcp-tool AddTodoTool

This adds the following tool:

<?php

namespace App\Mcp\Tools;

use Illuminate\Contracts\JsonSchema\JsonSchema;
use Laravel\Mcp\Request;
use Laravel\Mcp\Response;
use Laravel\Mcp\Server\Attributes\Description;
use Laravel\Mcp\Server\Tool;

#[Description('A description of what this tool does.')]
class AddTodoTool extends Tool {
    public function handle(Request $request): Response {
        //
        return Response::text('The content generated by the tool.');
    }
    public function schema(JsonSchema $schema): array {
        return [
            //
        ];
    }
}

Replace the above file with the following code:

<?php

namespace App\Mcp\Tools;

use Illuminate\Contracts\JsonSchema\JsonSchema;
use Laravel\Mcp\Request;
use Laravel\Mcp\Response;
use Laravel\Mcp\Server\Attributes\Description;
use Laravel\Mcp\Server\Tool;

#[Description('Add a to-do item to the database. It takes description, isDone (Boolean) and date as parameters.')]
class AddTodoTool extends Tool {
    public function handle(Request $request): Response {
        $validated = $request->validate( 
            [
                'description' => 'required|string',
                'isDone' => 'required|boolean',
                'created_at' => 'required|string',
            ]);

        logger($validated);

        return Response::text('The content generated by the tool.');
    }

    public function schema(JsonSchema $schema): array {
        return [
            'description' => $schema->string()
                ->description("The description of the to-do item")
                ->required(),
            'isDone' => $schema->boolean()
                ->description("True if done and False if not done")
                ->required(),
            'created_at' => $schema->string()
                ->description("The date when the to-do item was created")
                ->required(),
        ];
    }
}

Register the above tool in the $tools array in app/Mcp/Servers/TodoServer.php. Add the code highlighted in yellow below.

use App\Mcp\Tools\AddTodoTool;

. . . . . . . . . .

protected array $tools = [
    AddTodoTool::class,
];

Let’s now run the server with:

php artisan serve

Connecting to a Client

To test our server, we can use the MCP Inspector or add the endpoint to an AI IDE like VS Code. 

Let us first test with the MCP Inspector. In another terminal window from the same folder, start the MCP inspector with:

php artisan mcp:inspector mcp/todo

The inspector will open in your default browsesr. Add :8000 to the URL, then click on the black Connect button.

Click on Tools, followed by "List Tools".

Click on "Add Todo Tool", enter a description (like: Add to-do item: go to the gym), enter a date, then click on the "Run Tool" button - as shown below.

The following confirmation will be displayed:

We now know that the MCP server and to-do tool are working as expected. Let's consume the MCP service from VS Code. In Visual Studio Code, from the top menu, select View >> Pallette…

Choose "MCP: Add Server ...".

Choose "HTTP (HTTP or Server-Sent Events).

Enter http://localhost:8000/mcp/todo for the URL, then hit ENTER.

Give the server ID: todo-mcp-server.

Choose: Workspace Available in the workspace, runs locally.

A file gets created under .vscode named mcp.json that looks like this:

{
	"servers": {
		"todo-mcp-server": {
			"url": "http://localhost:8000/mcp/todo",
			"type": "http"
		}
	},
	"inputs": []
}

Make sure the server is running.

In Visual Studio Code, open the chat panel by clicking on the below tool.

Choose Agent mode.

Next, click on the "Configure Tools ..." tool as shown below.

The "Configure Tools ..." panel will open at the top and you should see that our todo-mcp-server is running. 

Close the "Configure Tools ..." panel by clicking on the blue OK button.

Enter the following prompt into the chat windows:

using the todo mcp server, add this todo item: fix the dish washer dated 2026-03-07

VS Code will seek your permission to proceed. Click on the "Allow in this Session" button.

Sample Output:

Extending the Laravel MCP Tool

Let us get our Todo tool to add items into a SQLite database. We can get AI to do some of the coding for us. Enter this prompt into the chat window:

Create a model called Todo, Add a migration. The database table should have description (string) and isDone ( Boolean). In the model, add all columns as fillable.

This may request that you agree to the execution of this terminal window command:

It then asks you to run this command to apply the migration:

php artisan migrate

Go ahead and run the above command. 

In app/Mcp/Tools/AddTodoTool.php:

1) Add this at the top:

use App\Models\Todo;

2) Add this code to the handle() method just before the final return statement:

Todo::create($validated);

Test it out by entering this prompt:

I need to put gas in the car and buy bread.

Sample Result:

The todos table in the database/database.sqlite database file will contain the data that was just inserted into the database.

Conclusion

We have successfully added a Todo MCP tool in a Laravel application. There are so many opportunities to get AI to participate in a new way of concievinng applications that users can interface with using a AI chat interaction.

Explore A2A protocol with .NET and GitHub Models

Let's explore the Agent-to-Agent (A2A) protocol using .NET. The A2A protocol standardizes communication between agents. It allows agents built with different frameworks and technologies to seamlesssly communicate with one-another.

What's A2A?

A2A is a standardized protocol that supports:

• Agent discovery through agent cards
• Message-based communication between agents
• Long-running agentic processes via tasks
• Cross-platform interoperability between different agent frameworks

The A2A protocol was developed by Google and later donated to the Linux Foundation.For more information, visit A2A protocol specification.

Source Code: https://github.com/medhatelmasry/A2Aapi

Get Started

In the following example, we will learn how to expose an agent with A2A. The example uses an AI model hosted on GitHub. In addition, we will use Swagger to simplify testing.

In a working directory on your computer, create an ASP.NET Minimal API project named A2Aapi with the following terminal window command:

dotnet new webapi -o A2Aapi
cd A2Aapi
dotnet new gitignore

Install the following NuGet packages:

# Hosting.A2A.AspNetCore for A2A protocol integration
dotnet add package Microsoft.Agents.AI.Hosting.A2A.AspNetCore -v 1.0.0-preview.260219.1

# Libraries to connect to GitHub AI models
dotnet add package Azure.Identity
dotnet add package Microsoft.Extensions.AI.OpenAI

# Swagger to test app
dotnet add package Microsoft.AspNetCore.OpenApi
dotnet add package Swashbuckle.AspNetCore

Configure connection to GitHub AI Models

You will need to get a Personal Access Token from GitHub. If this is the first time, follow this tutorial.

Add the following JSON to appsettings.Development.json file:

"GitHub": {
    "Token": "put-your-github-personal-access-token-here",
    "ApiEndpoint": "https://models.github.ai/inference",
    "Model": "openai/gpt-4o-mini"
}

NOTE: Replace put-your-github-personal-access-token-here with your GitHub Personal Access Token.

Edit the .gitignore file in the A2Aapi folder and add to it appsettings.Development.json so that your secrets do not find their way into source control by mistake.

Replace contents of Program.cs with the following code:

using OpenAI;
using Microsoft.Agents.AI.Hosting;
using Microsoft.Extensions.AI;
using Azure;
using OpenAI.Chat;

var builder = WebApplication.CreateBuilder(args);

builder.Services.AddOpenApi();
builder.Services.AddSwaggerGen();

string githubToken = builder.Configuration["GitHub:Token"]
    ?? throw new InvalidOperationException("GitHub:Token is not set.");
string apiEndpoint = builder.Configuration["GitHub:ApiEndpoint"]
    ?? throw new InvalidOperationException("GitHub:ApiEndpoint is not set.");
string model = builder.Configuration["GitHub:Model"]
    ?? throw new InvalidOperationException("GitHub:Model is not set.");

// Register the chat client
IChatClient chatClient = new ChatClient(
    model,
    new AzureKeyCredential(githubToken),
    new OpenAIClientOptions
    {
        Endpoint = new Uri(apiEndpoint)
    }
)
.AsIChatClient();

builder.Services.AddSingleton(chatClient);

// Register agents
var pirateAgent = builder.AddAIAgent("pirate", instructions: "You are a pirate. Speak like a pirate.");

var app = builder.Build();

app.MapOpenApi();
app.UseSwagger();
app.UseSwaggerUI();

// Expose the agent via A2A protocol. You can also customize the agentCard
app.MapA2A(pirateAgent, path: "/a2a/pirate", agentCard: new()
{
    Name = "Pirate Agent",
    Description = "An agent that speaks like a pirate.",
    Version = "1.0"
});

app.Run();

Test Agent

Run the web app with:

dotnet run

We have two options to test our agent: we can either use Swallger by pointing our browser to the /swagger endpoint, or we can use the A2Aapi.http REST Client that is built into the ASP.NET Minimal API template.

Option 1 - using Swagger

Point your browser to the URL displayed the the terminal window with /swagger. In my case it would be http://localhost:5112/swagger. You will see an interface similar to this:

Cloose the POST /a2a/pirate/v1/message:stream endpoint.

Click on the "Try it out" 

Enter the following JSON request then click on the Execute button:

{
  "message": {
    "kind": "message",
    "role": "user",
    "parts": [
      {
        "kind": "text",
        "text": "Hey pirate! Tell me where have you been",
        "metadata": {}
      }
    ],
    "messageId": null,
    "contextId": "foo"
  }
}

The server response looks like this:

This is the prompt we sent to the agent:

Hey pirate! Tell me where have you been

This is the response from the agent:

Ahoy, matey! I've been sailin' the seven seas, searchin' fer treasure and chasin' down the fiercest storms!

From the shores of Tortuga to the depths of Davy Jones' locker, me heart be filled with tales of adventure. And where be ye anchorin" yer ship, eh?

The response includes the contextId (conversation identifier), messageId (message identifier), and the actual content from the pirate agent.

Option 2 - using .http REST Client

If you are using VS Code, install the following VS Code extension:

Edit the A2Aapi.http in your project and add this request:

###
# Send A2A request to the pirate agent
POST {{A2Aapi_HostAddress}}/a2a/pirate/v1/message:stream
Accept: application/json
Content-Type: application/json

{
  "message": {
    "kind": "message",
    "role": "user",
    "parts": [
      {
        "kind": "text",
        "text": "Hey pirate! Tell me where have you been",
        "metadata": {}
      }
    ],
    "messageId": null,
    "contextId": "foo"
  }
}

Click on the "Send Request" link as shown below:

The response will show in a separate panel like this:

AgentCard Configuration

The AgentCard provides metadata about your agent for discovery and integration:

app.MapA2A(agent, "/a2a/my-agent", agentCard: new() {
   Name = "My Agent",
   Description = "A helpful agent that assists with tasks.",
   Version = "1.0",
});

The agent card can be accessed by sending this request:

# Send A2A request to the pirate agent
GET {{baseAddress}}/a2a/pirate/v1/card

Properties of the Agent Card

Name	Display name of the agent
Description	Brief description of the agent
Version	Version string for the agent
Url	Endpoint URL (automatically assigned if not specified)
Capabilities	Optional metadata about streaming, push notifications, and other features

Exposing More Agents

You can expose multiple agents in a single application, as long as their endpoints don't collide. Here's an example:

Add the following code to Program.cs right under the "// Register agents" comment line:

var mathAgent = builder.AddAIAgent("math", instructions: "You are a math expert.");
var scienceAgent = builder.AddAIAgent("science", instructions: "You are a science expert.");

Similarly, add these endpoint mappings to Program.cs right above the last "app.Run();" statement:

app.MapA2A(mathAgent, "/a2a/math");
app.MapA2A(scienceAgent, "/a2a/science");

You can test the math agent and science agents with these respective requests:

Test math agent

###
# Send A2A request to the math agent
POST {{A2Aapi_HostAddress}}/a2a/math/v1/message:stream
Accept: application/json
Content-Type: application/json

{
  "message": {
    "kind": "message",
    "role": "user",
    "parts": [
      {
        "kind": "text",
        "text": "add 2 and 7",
        "metadata": {}
      }
    ],
    "messageId": null,
    "contextId": null
  }
}

Test science agent

###
# Send A2A request to the science agent
POST {{A2Aapi_HostAddress}}/a2a/science/v1/message:stream
Accept: application/json
Content-Type: application/json

{
  "message": {
    "kind": "message",
    "role": "user",
    "parts": [
      {
        "kind": "text",
        "text": "how far is saturn from earth?",
        "metadata": {}
      }
    ],
    "messageId": null,
    "contextId": null
  }
}

Conclusion

Therea re many emerging protocols that are giving us an insight into the future landscapte of the Agentic AI world o the future. This is one amone others. I trust that is article gives you in insight into the significance of the A2A protocol.

References

A2A Integration

Agent2Agent (A2A) Protocol

Scaffolding Blazor pages with microsoft.dotnet-scaffold

In this tutorial, I will show you how to build a server-side Blazor application that connects directly to SQLite database using Entity Framework Core. We will scaffold the CRUD pages with the microsoft.dotnet-scaffold tool. There is also a quick into into the QuickGrid component.

Source Code: https://github.com/medhatelmasry/BlazorStudents

Companion Video: https://youtu.be/4hbE-GZ-WZA

Pre-requisites

1. .NET Framework 10+
2. VS Code (or any other .NET editor)
3. dotnet-ef tool
4. microsoft.dotnet-scaffold tool

Getting Started

In a terminal window, go to your working directory. Enter the following command to create a Server-Side Blazor application inside a directory called BlazorStudents:

dotnet new blazor -int server --auth individual -o BlazorStudents
cd BlazorStudents

Run the application by entering the following command:

dotnet watch

The following page will load into your default browser:

Open the BlazorStudents folder in Visual Studio Code (or any other .NET editor).

We will work with a very simple student model. Therefore, add a Student class file in a folder named Models with the following content: 

public class Student {
    public int StudentId { get; set; }

    [Required(ErrorMessage = "You must enter first name.")]
    public string? FirstName { get; set; }

    [Required(ErrorMessage = "You must enter last name.")]
    public string? LastName { get; set; }

    [Required(ErrorMessage = "You must enter school.")]
    public string? School { get; set; }
    
    [Required(ErrorMessage = "You must enter gender.")]
    public string? Gender { get; set; }
    
    [Required(ErrorMessage = "You must enter date of birth.")]
    public DateTime? DateOfBirth { get; set; }
}

From within a terminal window at the root of your BlazorStudents project,  run the following commands to add some required packages:

dotnet add package CsvHelper

The CsvHelper package will help us read data from a CSV.

Developers prefer having sample data when building data driven applications. Therefore, we will create some sample data to ensure that our application behaves as expected. Copy the CSV data at https://gist.github.com/medhatelmasry/e8d4edc2772a538419adda45e8f82685 and save it in a text file named students.csv in the wwwroot folder.

Edit Data/ApplicationDbContext.cs and add to the class the following property and methods:

public DbSet<Student> Students => Set<Student>();

protected override void OnModelCreating(ModelBuilder modelBuilder) {
  base.OnModelCreating(modelBuilder);
  modelBuilder.Entity<Student>().HasData(GetStudents());
}

private static IEnumerable<Student> GetStudents() {
  string[] p = { Directory.GetCurrentDirectory(), "wwwroot", "students.csv" };
  var csvFilePath = Path.Combine(p);

  var config = new CsvConfiguration(CultureInfo.InvariantCulture) {
    PrepareHeaderForMatch = args => args.Header.ToLower(),
  };

  var data = new List<Student>().AsEnumerable();
  using (var reader = new StreamReader(csvFilePath)) {
    using (var csvReader = new CsvReader(reader, config)) {
      data = csvReader.GetRecords<Student>().ToList();
    }
  }

  return data;
}

Notice the above code is adding contents of the wwwroot/students.csv file as seed data into the database.

We are now ready to apply Entity Framework migrations, create the database and seed data. If you have not done so already, you will need to globally install the Entity Framework CLI tool. This tool is installed globally on your computer by running the following command in a terminal window:

dotnet tool install --global dotnet-ef

To have a clean start with Entity Framework migrations, delete the Data/Migrations folder and the Data/app.db files.

From within a terminal window inside the BlazorStudents root directory, run the following command to create migrations:

dotnet ef migrations add Stu -o Data/Migrations

This results in the creation of a migration file ending with the name ....Stu.cs in the Data/Migrations folder. 

The next step is to create the SQLite Data/app.db database file. This is done by adding the following code to Program.cs, right before app.Run():

using (var scope = app.Services.CreateScope()) {
    var services = scope.ServiceProvider;

    var context = services.GetRequiredService<ApplicationDbContext>();    
    context.Database.Migrate();
}

Run the application. This will cause students data to be seeded in the database.

Scaffolding Blazor Components

If you have not done so already, install the dotnet scaffold tool with this terminal window command:

dotnet tool install -g microsoft.dotnet-scaffold

Let us scaffold the CRUD pages for students. Run the scaffold tool from the root directory of your application with this command:

dotnet scaffold

Follow these steps....

The scaffolding process adds the following pages to your application:

Edit Components/Layout/NavMenu.razor to add this menu item:

<div class="nav-item px-3">
    <NavLink class="nav-link" href="students">
        <span class="bi bi-lock-nav-menu" aria-hidden="true"></span> Students
    </NavLink>
</div>

Find the following code in Program.cs and delete it because the scaffold tool registered ApplicatioDbContext using DbContextFactory:

builder.Services.AddDbContext<ApplicationDbContext>(options => options.UseSqlite(connectionString));

Run the application with:

dotnet watch

The app will launch in your default browser.

You should have the full CRUD experience once you click on Students in the left navigation.

QuickGrid

If you open StudentPages/Index.razor in your editor, you will notice that the QuickGrid Blazor component is being used to display students data. This is the code that uses QuickGrid:

<QuickGrid Class="table" Items="context.Students">
  <PropertyColumn Property="student => student.FirstName" />
  <PropertyColumn Property="student => student.LastName" />
  <PropertyColumn Property="student => student.School" />
  <PropertyColumn Property="student => student.DateOfBirth" />

  <TemplateColumn Context="student">
    <a href="@($"students/edit?studentid={student.StudentId}")">Edit</a> |
    <a href="@($"students/details?studentid={student.StudentId}")">Details</a> |
    <a href="@($"students/delete?studentid={student.StudentId}")">Delete</a>
  </TemplateColumn>
</QuickGrid>

Visit the QuickGrid for Blazor site for more information on this freely available component.

Pagination

Let's extend the QuickGrid component to add paging to StudentPages/Index.razor. Add this directive right under the first line (@page "/students"):

@rendermode InteractiveServer

The above directive tells Blazor that a component should be rendered on the server and made fully interactive using the Blazor Server model.

Add this instance variable to the @code { .... } block

private PaginationState pagination = new PaginationState { ItemsPerPage = 10 };

Next, Add the following attribute to the opening <QuickGrid .... > tag:

Pagination="@pagination"

Finally, place this Paginator component right after the closing </QuickGrid> tag:

<Paginator State="@pagination" />

Refreah the Students List page. You will see pagination in action.

Sorting

Making the columns sortable involves just adding an attribute to the <PropertyColumn...> opening tags for FirstName, LastName, School, and DateOfBirth as follows:

<PropertyColumn Property="student => student.FirstName" Sortable="true" />
<PropertyColumn Property="student => student.LastName" Sortable="true" />
<PropertyColumn Property="student => student.School" Sortable="true" />
<PropertyColumn Property="student => student.DateOfBirth" Sortable="true" />

You can now click on the column titles to sort the columns as needed:

Filtering

Add this filter input field right above the <Quickgrid ...> opening tag:

<p>There are @filtered.Count() students.</p>

<div class="search-box">
    <input class="form-control me-sm-2 " style="width: 95%" type="search" autofocus @bind="itemsFilter"
           @bind:event="oninput" placeholder="Search Filter ..." />
</div>

Add these C# properties inside the @code { . . .  } block:

string? itemsFilter;

private List<Student>? studentList {
  get {
    var data = context.Students!.ToList();
    if (!data.Any()) {
      return null;
    } else {

      return data;
    }
  }
}

private IQueryable<Student> filtered {
  get {
    if (studentList == null || !studentList.Any()) {
      return Enumerable.Empty<Student>().AsQueryable();
    }

    if (string.IsNullOrEmpty(itemsFilter)) {
      return studentList!.AsQueryable();
    } else {
      var filteredList = studentList!.AsQueryable()
      .Where(
      b => b.FirstName!.Contains(itemsFilter, StringComparison.CurrentCultureIgnoreCase)
      || b.LastName!.Contains(itemsFilter, StringComparison.CurrentCultureIgnoreCase)
      || b.School!.Contains(itemsFilter, StringComparison.CurrentCultureIgnoreCase)
      || b.Gender!.Contains(itemsFilter, StringComparison.CurrentCultureIgnoreCase)
      || b.DateOfBirth.ToString()!.Contains(itemsFilter, StringComparison.CurrentCultureIgnoreCase)
      );
      return filteredList;
    }
  }
}

In the opening <QuickGrid ... > tag, change the value of the Items attribure from "context.Students" to simply:

@filtered

You can now filter any text in any of the columns as shown below:

Component CSS

With Blazor components, it is easy create CSS that targets individual components. Simply create a file with the same name as the component and add to it .css. 

For example:

Create a file named StudentPages/Index.razor.css in the same folder as the component itself with this styling:

p.create-new {
    background-color: orange;
}

In StudentPages/Index.razor component, add the following styling to the <p> tag that contains the “Create New” link as follows:

<p class="create-new">
    <a href="students/create">Create New</a>
</p>

You will notice that styling is successfully applied to the StudentPages/Index.razor component.

The .NET scaffold tool can be used for more than creating pages for Blazor app. Among other things, it can be used for scaffolding Aspire, API, MVC Controllerts, and Itentity.

docker-compose with SQL Server and ASP.NET

This article discussed one approach to having your ASP.NET development environment work with SQL Server (MSSQL) running in a docker container.

Source code: https://github.com/medhatelmasry/AspMSSQL

It is assumed that the following installed on your computer:

1. .NET 10.0 
2. Docker Desktop 
3. ‘dotnet-ef’ tool 

Setting up SQL Server docker container

To download a suitable SQL Server image from Docker Hub and run it on your local computer, type the following command from within a terminal window:

docker run --cap-add SYS_PTRACE -e ACCEPT_EULA=1 -e MSSQL_SA_PASSWORD=SqlPassword! -p 1444:1433 --name mssql -d mcr.microsoft.com/mssql/server:2022-latest

This starts a container named mssql that listens on port 1444 on your local computer. The sa password is SqlPassword!.

To ensure that the SQL Server container is running, type the following from within a terminal window:

docker ps

You will see a message like the following:

CONTAINER ID   IMAGE                                        ...... NAMES
e84053717017   mcr.microsoft.com/mssql/server:2022-latest   ...... mssql

Creating our ASP.NET MVC App

Create an ASP.NET MVC app named AspMSSQL with SQL Server support by running the following terminal window commands:

dotnet new mvc --auth individual --use-local-db -o AspMSSQL
cd AspMSSQL

To run the web application and see what it looks like, enter the following command:

dotnet watch

The app starts in your default browser and looks like this:

Let us configure our web application so that the connection string can be constructed from environment variables. Open the Program.cs file in your favourite editor and comment out (or delete) the following statements:

var connectionString = builder.Configuration.GetConnectionString("DefaultConnection") ?? throw new InvalidOperationException("Connection string 'DefaultConnection' not found.");

Replace the above code with the following:

var host = builder.Configuration["DBHOST"] ?? "localhost";
var port = builder.Configuration["DBPORT"] ?? "1444";
var password = builder.Configuration["DBPASSWORD"] ?? "SqlPassword!";
var db = builder.Configuration["DBNAME"] ?? "mydb";
var user = builder.Configuration["DBUSER"] ?? "sa";

string connectionString = $"Server={host},{port};Database={db};UID={user};PWD={password};TrustServerCertificate=True;";

Five environment variables are used in the database connection string. These are: DBHOST, DBPORT , DBPASSWORD, DBNAME and DBUSER. If these environment variables are not found then they will take on default values: localhost, 1444, SqlPassword!, mydb and sa respectively.

Go ahead and delete the connection string from appsettings.json as it is not needed anymore:

"ConnectionStrings": {
  "DefaultConnection": "Server=(localdb)\\mssqllocaldb;Database=aspnet-AspMSSQL; MultipleActiveResultSets=true"
},

Entity Framework Migrations

We can instruct our application to automatically process any outstanding Entity Framework migrations. This is done by adding the following statement to Program.cs right before the last app.Run() statement:

using (var scope = app.Services.CreateScope()) {
    var services = scope.ServiceProvider;

    var context = services.GetRequiredService<ApplicationDbContext>();    
    context.Database.Migrate();
}

Test app

Now, let's test our web app and see whether it can talk to the containerized MSSQL database server. Run the web application with the following terminal command:

dotnet watch

Click on the Register link on the top right side.

I entered an Email, Password and Confirm password, then clicked on the Register button. The website then displays the following page that requires that you confirm the email address:

Click on the “Click here to confirm your account” link. This leads you to a confirmation page:

Login with the email address and password that you registered with.

The message on the top right side confirms that the user was saved and that communication between the ASP.NET MVC app and SQL Server is working as expected.

Dockeri-zing app

We will generate the release version of the application by executing the following command from a terminal window in the root directory of the web app:

dotnet publish -o distrib

The above command instructs dotnet to produce the release version of the application in the distrib directory. When you inspect the distrib directory, you will see files like the following:

The highlighted file in the above image is the main DLL file that is the entry point into the web application. Let us run the DLL. To do this, change to the distrib directory, then run your main DLL file with:

cd distrib
dotnet AspMSSQL.dll

This displays the familiar messages from the web server that the app is ready to be accessed from a browser. 

Hit CTRL C to stop the web server.

We now have a good idea about the ASP.NET artifacts that need to be copied into a container.

In a terminal window, stop and remove the MSSQL container with:

docker rm -f mssql

Return to the root directory of your project by typing the following in a terminal window:

cd ..

Docker image for web app

We need to create a docker image that will contain the .NET runtime. At the time of writing this article, the current version of .NET is 10.0.

We can exclude files from being copied into the container imag Add a file named .dockerignore in the root of the web application with this content:

**/.git
**/.gitignore
**/node_modules
**/npm-debug.log
**/.DS_Store
**/bin
**/obj
**/.vs
**/.vscode
**/.env
**/*.user
**/*.suo
**/.idea
**/coverage
**/.nyc_output
**/docker-compose*.yml
**/Dockerfile*
**/.github
**/README.md
**/LICENSE

Create a text file named Dockerfile and add to it the following content:

# Build stage
FROM mcr.microsoft.com/dotnet/sdk:10.0 AS build
WORKDIR /src

# Copy project file and restore dependencies
COPY ["AspMSSQL.csproj", "."]
RUN dotnet restore "AspMSSQL.csproj"

# Copy the rest of the source code
COPY . .

# Build the application
RUN dotnet build "AspMSSQL.csproj" -c Release -o /app/build

# Publish stage
FROM build AS publish
RUN dotnet publish "AspMSSQL.csproj" -c Release -o /app/publish /p:UseAppHost=false

# Runtime stage
FROM mcr.microsoft.com/dotnet/aspnet:10.0 AS runtime
WORKDIR /app

# Install curl for health checks (optional)
RUN apt-get update && apt-get install -y curl && rm -rf /var/lib/apt/lists/*

# Copy published application from publish stage
COPY --from=publish /app/publish .

# Expose port 8080 (HTTP)
EXPOSE 8080

# Set environment variables
ENV ASPNETCORE_URLS=http://+:8080
ENV ASPNETCORE_ENVIRONMENT=Production

# Run the application
ENTRYPOINT ["dotnet", "AspMSSQL.dll"]

docker-compose.yml

We will next create a docker yml file that orchestrates the entire system involving two containers: a MSSQL database server and our web app. In the root folder of your application, create a text file named docker-compose.yml and add to it the following content:

services:
  # SQL Server Service
  mssql:
    image: mcr.microsoft.com/mssql/server:2022-latest
    container_name: aspmsql-mssql
    environment:
      ACCEPT_EULA: 'Y'
      MSSQL_SA_PASSWORD: 'SqlPassword!123'
      MSSQL_PID: 'Developer'
    ports:
      - "1433:1433"
    volumes:
      - ./mssql-data:/var/opt/mssql/data

  # ASP.NET Application Service
  aspmsql-app:
    build:
      context: .
      dockerfile: Dockerfile
    container_name: aspmsql-app
    depends_on:
      - mssql
    environment:
      ASPNETCORE_ENVIRONMENT: Development
      ASPNETCORE_URLS: http://+:8080
      DBHOST: mssql
      DBPORT: 1433
      DBUSER: sa
      DBPASSWORD: SqlPassword!123
      DBNAME: AspMSSQLDb
    ports:
      - "8080:8080"
    restart: unless-stopped

volumes:
  sqlserver-data:
    driver: local

Running the yml file

To find out if this all works, go to a terminal window and run the following command:

docker-compose up -d --build

Point your browser to http://localhost:8080/ and you should see the main web page. Register a user, confirm the email, and login. It should all work as expected.

Cleanup

Run the following command to shutdown docker-compose and cleanup:

docker-compose down

Conclusion

We have seen how straight forward and easy it is to containerize an application and its database with docker-compose.