| title | titleSuffix | description | author | ms.author | ms.date | ms.topic | ms.service |
|---|---|---|---|---|---|---|---|
Tutorial: Code a client app |
Azure Digital Twins |
Follow this tutorial to learn how to write the minimal code for an Azure Digital Twins client app, using the .NET (C#) SDK. |
baanders |
baanders |
02/24/2022 |
tutorial |
digital-twins |
Developers working with Azure Digital Twins commonly write client applications for interacting with their instance of the Azure Digital Twins service. This developer-focused tutorial provides an introduction to programming against the Azure Digital Twins service, using the Azure Digital Twins SDK for .NET (C#). It walks you through writing a C# console client app step by step, starting from scratch.
[!div class="checklist"]
- Set up project
- Get started with project code
- Complete code sample
- Clean up resources
- Next steps
This Azure Digital Twins tutorial uses the command line for setup and project work. As such, you can use any code editor to walk through the exercises.
What you need to begin:
- Any code editor
- .NET Core 3.1 on your development machine. You can download this version of the .NET Core SDK for multiple platforms from Download .NET Core 3.1.
[!INCLUDE Azure Digital Twins: instance prereq]
[!INCLUDE Azure Digital Twins: local credentials prereq (outer)]
Once you're ready to go with your Azure Digital Twins instance, start setting up the client app project.
Open a command prompt or other console window on your machine, and create an empty project directory where you want to store your work during this tutorial. Name the directory whatever you want (for example, DigitalTwinsCodeTutorial).
Navigate into the new directory.
Once in the project directory, create an empty .NET console app project. In the command window, you can run the following command to create a minimal C# project for the console:
dotnet new console
This command will create several files inside your directory, including one called Program.cs where you'll write most of your code.
Keep the command window open, as you'll continue to use it throughout the tutorial.
Next, add two dependencies to your project that will be needed to work with Azure Digital Twins. The first is the package for the Azure Digital Twins SDK for .NET, the second provides tools to help with authentication against Azure.
dotnet add package Azure.DigitalTwins.Core
dotnet add package Azure.Identity
In this section, you'll begin writing the code for your new app project to work with Azure Digital Twins. The actions covered include:
- Authenticating against the service
- Uploading a model
- Catching errors
- Creating digital twins
- Creating relationships
- Querying digital twins
There's also a section showing the complete code at the end of the tutorial. You can use this section as a reference to check your program as you go.
To begin, open the file Program.cs in any code editor. You'll see a minimal code template that looks something like this:
:::row::: :::column::: :::image type="content" source="media/tutorial-code/starter-template.png" alt-text="Screenshot of a snippet of sample code in a code editor." lightbox="media/tutorial-code/starter-template.png"::: :::column-end::: :::column::: :::column-end::: :::row-end:::
First, add some using lines at the top of the code to pull in necessary dependencies.
:::code language="csharp" source="~/digital-twins-docs-samples/sdks/csharp/fullClientApp.cs" id="Azure_Digital_Twins_dependencies":::
Next, you'll add code to this file to fill out some functionality.
The first thing your app will need to do is authenticate against the Azure Digital Twins service. Then, you can create a service client class to access the SDK functions.
To authenticate, you need the host name of your Azure Digital Twins instance.
In Program.cs, paste the following code below the "Hello, World!" printout line in the Main method.
Set the value of adtInstanceUrl to your Azure Digital Twins instance host name.
:::code language="csharp" source="~/digital-twins-docs-samples/sdks/csharp/fullClientApp.cs" id="Authentication_code":::
Save the file.
In your command window, run the code with this command:
dotnet run
This command will restore the dependencies on first run, and then execute the program.
- If no error occurs, the program will print: "Service client created - ready to go".
- Since there isn't yet any error handling in this project, if there are any issues, you'll see an exception thrown by the code.
[!INCLUDE Azure Digital Twins: DefaultAzureCredential known issue note]
Azure Digital Twins has no intrinsic domain vocabulary. The types of elements in your environment that you can represent in Azure Digital Twins are defined by you, using models. Models are similar to classes in object-oriented programming languages; they provide user-defined templates for digital twins to follow and instantiate later. They're written in a JSON-like language called Digital Twins Definition Language (DTDL).
The first step in creating an Azure Digital Twins solution is defining at least one model in a DTDL file.
In the directory where you created your project, create a new .json file called SampleModel.json. Paste in the following file body:
:::code language="json" source="~/digital-twins-docs-samples/models/SampleModel.json":::
Tip
If you're using Visual Studio for this tutorial, you may want to select the newly-created JSON file and set the Copy to Output Directory property in the Property inspector to Copy if Newer or Copy Always. This will enable Visual Studio to find the JSON file with the default path when you run the program with F5 during the rest of the tutorial.
Tip
There is a language-agnostic DTDL Validator sample that you can use to check model documents to make sure the DTDL is valid. It is built on the DTDL parser library, which you can read more about in Parse and validate models.
Next, add some more code to Program.cs to upload the model you've created into your Azure Digital Twins instance.
First, add a few using statements to the top of the file:
:::code language="csharp" source="~/digital-twins-docs-samples/sdks/csharp/fullClientApp.cs" id="Model_dependencies":::
Next, prepare to use the asynchronous methods in the C# service SDK, by changing the Main method signature to allow for async execution.
:::code language="csharp" source="~/digital-twins-docs-samples/sdks/csharp/fullClientApp.cs" id="Async_signature":::
Note
Using async is not strictly required, as the SDK also provides synchronous versions of all calls. This tutorial practices using async.
Next comes the first bit of code that interacts with the Azure Digital Twins service. This code loads the DTDL file you created from your disk, and then uploads it to your Azure Digital Twins service instance.
Paste in the following code under the authorization code you added earlier.
:::code language="csharp" source="~/digital-twins-docs-samples/sdks/csharp/fullClientApp_excerpt_model.cs" id="ClientExcerptModel":::
In your command window, run the program with this command:
dotnet run
"Upload a model" will be printed in the output, indicating that this code was reached, but there's no output yet to indicate whether the upload was successful.
To add a print statement showing all models that have been successfully uploaded to the instance, add the following code right after the previous section:
:::code language="csharp" source="~/digital-twins-docs-samples/sdks/csharp/fullClientApp.cs" id="Print_model":::
Before you run the program again to test this new code, recall that the last time you ran the program, you uploaded your model already. Azure Digital Twins won't let you upload the same model twice, so if you attempt to upload the same model again, the program should throw an exception.
With this information in mind, run the program again with this command in your command window:
dotnet run
The program should throw an exception. When you attempt to upload a model that has been uploaded already, the service returns a "bad request" error via the REST API. As a result, the Azure Digital Twins client SDK will in turn throw an exception, for every service return code other than success.
The next section talks about exceptions like this and how to handle them in your code.
To keep the program from crashing, you can add exception code around the model upload code. Wrap the existing client call await client.CreateModelsAsync(typeList) in a try/catch handler, like this:
:::code language="csharp" source="~/digital-twins-docs-samples/sdks/csharp/fullClientApp.cs" id="Model_try_catch":::
Run the program again with dotnet run in your command window. You'll see that you get back more details about the model upload issue, including an error code stating that ModelIdAlreadyExists.
From this point forward, the tutorial will wrap all calls to service methods in try/catch handlers.
Now that you've uploaded a model to Azure Digital Twins, you can use this model definition to create digital twins. Digital twins are instances of a model, and represent the entities within your business environment—things like sensors on a farm, rooms in a building, or lights in a car. This section creates a few digital twins based on the model you uploaded earlier.
Add the following code to the end of the Main method to create and initialize three digital twins based on this model.
:::code language="csharp" source="~/digital-twins-docs-samples/sdks/csharp/fullClientApp.cs" id="Initialize_twins":::
In your command window, run the program with dotnet run. In the output, look for the print messages that sampleTwin-0, sampleTwin-1, and sampleTwin-2 were created.
Then, run the program again.
Notice that no error is thrown when the twins are created the second time, even though the twins already exist after the first run. Unlike model creation, twin creation is, on the REST level, a PUT call with upsert semantics. Using this kind of REST call means that if a twin already exists, an attempt to create the same twin again will just replace the original twin. No error is thrown.
Next, you can create relationships between the twins you've created, to connect them into a twin graph. Twin graphs are used to represent your entire environment.
Add a new static method to the Program class, underneath the Main method (the code now has two methods):
:::code language="csharp" source="~/digital-twins-docs-samples/sdks/csharp/fullClientApp.cs" id="Create_relationship":::
Next, add the following code to the end of the Main method, to call the CreateRelationship method and use the code you just wrote:
:::code language="csharp" source="~/digital-twins-docs-samples/sdks/csharp/fullClientApp.cs" id="Use_create_relationship":::
In your command window, run the program with dotnet run. In the output, look for print statements saying that the two relationships were created successfully.
Azure Digital Twins won't let you create a relationship if another relationship with the same ID already exists—so if you run the program multiple times, you'll see exceptions on relationship creation. This code catches the exceptions and ignores them.
The next code you'll add allows you to see the list of relationships you've created.
Add the following new method to the Program class:
:::code language="csharp" source="~/digital-twins-docs-samples/sdks/csharp/fullClientApp.cs" id="List_relationships":::
Then, add the following code to the end of the Main method to call the ListRelationships code:
:::code language="csharp" source="~/digital-twins-docs-samples/sdks/csharp/fullClientApp.cs" id="Use_list_relationships":::
In your command window, run the program with dotnet run. You should see a list of all the relationships you've created in an output statement that looks like this:
:::image type="content" source= "media/tutorial-code/list-relationships.png" alt-text="Screenshot of a console showing the program output, which results in a message that lists the twin relationships." lightbox="media/tutorial-code/list-relationships.png":::
A main feature of Azure Digital Twins is the ability to query your twin graph easily and efficiently to answer questions about your environment.
The last section of code to add in this tutorial runs a query against the Azure Digital Twins instance. The query used in this example returns all the digital twins in the instance.
Add this using statement to enable use of the JsonSerializer class to help present the digital twin information:
:::code language="csharp" source="~/digital-twins-docs-samples/sdks/csharp/fullClientApp.cs" id="Query_dependencies":::
Then, add the following code to the end of the Main method:
:::code language="csharp" source="~/digital-twins-docs-samples/sdks/csharp/fullClientApp.cs" id="Query_twins":::
In your command window, run the program with dotnet run. You should see all the digital twins in this instance in the output.
[!INCLUDE digital-twins-query-latency-note.md]
At this point in the tutorial, you have a complete client app that can perform basic actions against Azure Digital Twins. For reference, the full code of the program in Program.cs is listed below:
:::code language="csharp" source="~/digital-twins-docs-samples/sdks/csharp/fullClientApp.cs":::
After completing this tutorial, you can choose which resources you want to remove, depending on what you want to do next.
- If you plan to continue to the next tutorial, the instance used in this tutorial can be reused in the next one. You can keep the Azure Digital Twins resources you set up here and skip the rest of this section.
[!INCLUDE digital-twins-cleanup-clear-instance.md]
[!INCLUDE digital-twins-cleanup-basic.md]
You may also want to delete the project folder from your local machine.
In this tutorial, you created a .NET console client application from scratch. You wrote code for this client app to perform the basic actions on an Azure Digital Twins instance.
Continue to the next tutorial to explore the things you can do with such a sample client app:
[!div class="nextstepaction"] Explore the basics with a sample client app