Tutorials Microservices with .NET
DTO and Mapping Strategies — Complete Guide
DTO and Mapping Strategies — Complete Guide: free step-by-step lesson with examples, common mistakes, and interview tips — part of Microservices with .NET on Toolliyo Academy.
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Microservices with .NET · Lesson 25 of 120
Asynchronous Messaging
Beginner ✓ → Intermediate → Advanced → Professional
Intermediate · 2 — Building services · ~6 min · Module 3: RabbitMQ and Event-Driven Architecture
What is this?
Asynchronous Messaging is a key part of ShopNest Cloud-Native — your .NET microservices learning project. In plain terms: it helps Identity Service work correctly in a distributed system where each app deploys and scales on its own.
Why should you care?
You care about this when ShopNest services must react to events without blocking the HTTP request that started the flow.
See it live — copy this example
Create a Web API project (dotnet new webapi), paste the code, then run dotnet run.
builder.Services.AddMassTransit(x =>
{
x.AddConsumer<PaymentSucceededConsumer>();
x.UsingRabbitMq((ctx, cfg) =>
{
cfg.Host("localhost", "/", h => { h.Username("guest"); h.Password("guest"); });
cfg.ConfigureEndpoints(ctx);
});
});
Run Example »
Edit the code and click Run — like W3Schools Try it Yourself.
What happened?
- The example shows Asynchronous Messaging wired into Identity Service.
- Read each line, run it locally, then change one setting and observe what breaks or improves.
- That is how teams learn in production too — small experiments, not big bang rewrites.
Try it yourself
- Open or create the ShopNest project area for Identity Service.
- Apply the Asynchronous Messaging pattern from the lesson example.
- Run dotnet build && dotnet run (or docker compose up when the lesson uses containers).
- Change a string or number in the example and run again — predict the output first.
- Break the code on purpose (remove a semicolon), read the compiler error, then fix it.
Remember
Asynchronous Messaging connects to Identity Service in ShopNest Cloud-Native. Practice by editing the example yourself — do not only read. Move on when you can explain this topic in your own words without looking.
Real-world: Swiggy order → restaurant → rider flow
When a customer confirms food order, events notify restaurant prep and rider dispatch. No single 30-second HTTP chain.
Outcome: Restaurant promos deploy without taking down payment processing.
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