Blazor State Management

jeremylikness

Jeremy Likness ⚡️

Posted on January 21, 2020

Blazor State Management

Imagine for a moment you are filling out the world's longest form. You've spent 30 minutes entering detailed information from your address to your date of birth to a list of the last seven countries you visited. You click the “submit” button and are immediately rewarded with a “The connection has been lost” message. No worries, right? Simply click the back button and … oh, no! The form is empty. You sound your barbaric yalp and pledge never to revisit the site again.

This is not the experience you want for your website visitors. Therefore, it is important to understand how to manage state in Blazor apps. Managing state while minimizing the amount of code you must write to manage state? “Yes, please!”

Watch the related video : State Management in Blazor Apps

Definition of Blazor State

First, let's be clear on what we mean by “state” in a Blazor app. For the best possible user experience, it's important to provide a consistent experience to the end user when their connection is temporarily lost and when they refresh or navigate back to the page. The components of this experience include:

  • The HTML Document Object Model (DOM) that represents the user interface (UI)
  • The fields and properties representing the data being input and/or output on the page
  • The state of registered services that are running as part of code for the page

In the absence of any special code, state is maintained in two places depending on the Blazor hosting model. For Blazor WebAssembly (client-side) apps, state is held in browser memory until the user refreshes or navigates away from the page. In Blazor Server apps, state is held in special “buckets” allocated to each client session known as circuits. These circuits can lose state when they time out after a disconnection and may be obliterated even during an active connection when the server is under memory pressure.

The Reference App

To illustrate the nuances of state, I started with the Blazor Health App:

From Angular to Blazor: The Health App

From Angular to Blazor: The Health App

Build a sample app in Blazor, a .NET-based framework for building web apps that run in the browser and leverages C# and Razor templates to generate cross-platform, HTML5-compliant WebAssembly code.

I extended it to include two pages to illustrate some nuances of navigation. In the related GitHub repository:

GitHub logo JeremyLikness / BlazorState

Examples of how to manage state in Blazor WebAssembly and Blazor Server apps.

BlazorState

Examples of how to manage state in Blazor WebAssembly and Blazor Server apps.

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This project is intended to illustrate how to better manage state in Blazor applications. It is based on the official documentation: ASP.NET Core Blazor state management.

To get started, fork the repo (optional) then clone it.

Download the related presentation from here.

👀 Read the related blog post: Blazor State Management.

Stating the Problem

The project contains several variations of a Blazor app for tracking health statistics. (For the background behind the sample app, read: From Angular to Blazor: The Health App). This version follows a layered architecture:

  • The BlazorState.ViewModel project can be shared across .NET Core apps including Xamarin and WPF.
  • The BlazorState.Shared Razor class library contains views, styles, and JavaScript code that can be shared between Blazor WebAssembly and Blazor Server projects. If you're…

There are several sample projects. The problem manifests differently in Blazor WebAssembly and Blazor Server projects.

State in Blazor WebAssembly

In Blazor WebAssembly (client projects) the state is held in memory. This means a refresh or forced navigation will destroy state. To see this in action:

  1. Set BlazorState.Wasm as the startup project and run it.
  2. Update the form information.
  3. Navigate to “results” and verify the same results exist.
  4. Navigate back to “home” and force a refresh (usually CTRL+F5). Note the form reverts to defaults.
  5. Update the form information, then manually navigate by adding /results to the URL bar in your browser and press ENTER. Note it also uses defaults.

Not a great experience! With Blazor Server, it's slightly different.

State in Blazor Server

Change the startup project to BlazorState.Server and run that project. Try the same steps you did for the client version and note the state is maintained because it is held in the server memory. While the app is open, stop and restart the web server. You should see a disconnect message. After the server comes back up, click the “reload” option and note that although the app recovers, it loses all its state.

Now we have a problem. Let's work on the solution!

Solutions Architecture

The following solutions uses an approach to architecture designed to maximize reuse. The Blazor.ViewModel project hosts an interface, properties and business logic for the app. It is a .NET Standard library implementation of the Model-View-ViewModel (MVVM) pattern that can be comfortably referenced by any type of .NET Core project, from WPF to Xamarin and even Blazor. Maximum reuse!

For UI and user experience logic, as well as shareable assets such as images, stylesheets, JavaScript code and even Razor view components, Blazor.Shared takes advantage of Razor Class Libraries. The solution implements a HealthModelBase to avoid duplicate MVVM code. It also implements all the state management solutions described here as services and/or components that are easily applied to both Blazor WebAssembly and Blazor Server projects. This further maximizes code reuse, as the “host” projects simply provide some structure to reference the share components and resources.

Blazor Architecture

Now that I've covered the problem and the approach for solutions, let's move on to managing state in our Blazor app!

Service Registration

The first step may not be so obvious, but for the sake of being thorough I want to address services. To see this in action, create a new Blazor client app and run it. The built-in template provides a few pages with simple navigation. Navigate to the Counter page and increment the counter. Now, navigate away from the page and come back. The counter resets to zero! This is because the state of the counter is held in the component, so it is reset each time the component is initialized:

<h1>Counter</h1>
<p>Current count: @currentCount</p>
<button class="btn btn-primary" @onclick="IncrementCount">Click me</button>
private int currentCount = 0;
private void IncrementCount()
{
   currentCount++;
}

To maintain state “in memory” (or “in circuit” for Blazor Server) you can create a counter “service”:

public class CounterService
{
   public int Count { get; private set; }
   public void Increment()
   {
      Count += 1;
   }
}

Register the service in Startup.cs:

public void ConfigureServices(IServiceCollection services)
{
   services.AddSingleton<CounterService, CounterService>();
}

…then remove the code-behind in the @code block in Counter.razor, inject the counter service and data-bind directly:

@inject CounterService Svc
<h1>Counter</h1>
<p>Current count: @Svc.Count</p>
<button class="btn btn-primary" @onclick="Svc.Increment">Click me</button>

The service will persist in memory when the components are destroyed/recreated and maintain a consistent count even when you navigate. This is the first step to maintain state. The reference app registers the main viewmodel in this fashion.

Browser Cache

One option to maintain state is to take advantage of the browser cache using HTML5 Web Storage. The API is very simple. The stateManagement.js file in BlazorState.Shared defines a simple, globally accessible interface. It uses the localStorage JavaScript API, but you may choose to use sessionStorage instead.

window.stateManager = {
   save: function (key, str) {
      localStorage[key] = str;
   },
   load: function (key) {
      return localStorage[key];
   }
};

This is included in the root index.html for Blazor WebAssembly projects and _Host.cshtml for Blazor Server projects. Including shared assets is as simple as using the path:

_content/{assembly}/path_to_file:

<script src="_content/BlazorState.Shared/stateManagement.js"></script>

Blazor's component model makes it simple to create a “wrapper” component that manages the state changes. This is implemented in StorageHelper.razor. First, the using statements reference the viewmodel, JavaScript interoperability, and the JSON serializer. The implementations are injected.

@using BlazorState.ViewModel;
@using Microsoft.JSInterop;
@using System.Text.Json;
@inject IJSRuntime JsRuntime
@inject IHealthModel Model

The template just wraps the child components and renders them when the state is loaded.

@if (hasLoaded)
{
@ChildContent
}
else
{
<p>Loading...</p>
}

After the component is initialized, the code attempts to load the viewmodel from the cache:

string vm;
try
{
   vm = await JsRuntime.InvokeAsync<string>("stateManager.load", 
      nameof(HealthModel));
}
catch(InvalidOperationException)
{
   return;
}

In Blazor Server, the components are pre-rendered on the server. JavaScript is not available, so the interop call will throw an InvalidOperationException. This is caught the first time. The second call happens from the client and will succeed if the viewmodel is cached. After the JSON for the viewmodel is loaded from cache, it is deserialized and the properties are moved to the global viewmodel instance.

var viewModel = JsonSerializer.Deserialize<HealthModel>(vm);
if (viewModel != null)
{
   isDeserializing = true;
   Model.AgeYears = viewModel.AgeYears;
   Model.HeightInches = viewModel.HeightInches;
   Model.IsFemale = viewModel.IsFemale;
   Model.IsImperial = viewModel.IsImperial;
   Model.WeightPounds = viewModel.WeightPounds;
   isDeserializing = false;
}

The isDeserializing flag is important to avoid an infinite loop, as you can see in the next code that registers for property change notifications:

Model.PropertyChanged += async (o, e) =>
{
   if (isDeserializing)
   {
      return;
   }
   var vmStr = JsonSerializer.Serialize(((HealthModel)Model));
   await JsRuntime.InvokeAsync<object>(
      "stateManager.save", nameof(HealthModel), vmStr);
};
hasLoaded = true;

If the properties on the viewmodel change, the viewmodel is serialized and stored in the cache. This is skipped when the property change was fired because of the initial load (hence the isDeserializing flag, otherwise it will serialize while trying to deserialize). Now the component is ready for use! Both Blazor.ServerLocal and Blazor.WasmLocal use the helper, and it is implemented the same way in App.razor:

<BlazorState.Shared.StorageHelper>
    <Router AppAssembly="@typeof(Program).Assembly">
      <Found Context="routeData">
         <RouteView RouteData="@routeData" DefaultLayout="@typeof(MainLayout)" />
      </Found>
      <NotFound>
         <LayoutView Layout="@typeof(MainLayout)">
            <p>Sorry, there's nothing at this address.</p>
         </LayoutView>
      </NotFound>
   </Router>
</BlazorState.Shared.StorageHelper>

By wrapping the router, the state management handles all pages and components in the app without having to write additional code. You can open the browser developer tools and navigate to the application “local storage” to watch the values change as you update the form.

Serialized viewmodel

It is important to note that the user can access their local cache, so if you are storing sensitive values, they should be encrypted. An example of this is provided by the Microsoft.ASpNetCore.ProtectedBrowserStorage package.

Server-side Management

Another way to handle state is by calling an API and persisting it on the server. How it is persisted is up to you: options range from SQL, NoSQL to simple caches like Redis. BlazorState.WasmRemote.Server is an ASP.NET hosted Blazor WebAssembly app. The StateController exposes an API that stores and retrieves the viewmodel using the remote IP address as a key. This is done to keep the demo simple; a production application with authentication would likely key to a user and/or session.

The StateService in Blazor.Shared handles making the API calls. The constructor takes in the global viewmodel instance, an instance of IStateServiceConfig that provides the URL of the API endpoint, and an instance of HttpClient. It is important to inject HttpClient rather than create a new instance because Blazor WebAssembly requires a version that is specifically configured to run in the browser sandbox. The constructor registers for property changed notifications from the viewmodel.

InitAsync is called by page components during initialization to load the viewmodel state.

public async Task InitAsync()
{
   _initializing = true;
   var vmJson = await _client.GetStringAsync(_config.Url);
   var vm = JsonSerializer.Deserialize<HealthModel>(vmJson, _options);
   _model.AgeYears = vm.AgeYears;
   _model.HeightInches = vm.HeightInches;
   _model.IsFemale = vm.IsFemale;
   _model.IsMetric = vm.IsMetric;
   _model.WeightPounds = vm.WeightPounds;
   _initializing = false;
}

The code is very similar to the client cache approach but retrieves the model from the API call rather than the local cache. The property change handler serializes and posts the model to the server:

private async void Model_PropertyChanged(object sender,
   System.ComponentModel.PropertyChangedEventArgs e)
{
   if (_initializing || _config == null)
   {
      return;
   }
   var vm = JsonSerializer.Serialize(_model);
   var content = new StringContent(vm);
   content.Headers.ContentType = new MediaTypeHeaderValue("application/json");
   await _client.PostAsync(_config.Url, content);
}

Set BlazorState.WasmRemote.Server as the startup project and run it to see this in action. You may need to update the correct URL (as the port may be different) in the Startup.cs implementation of IStateServiceConfig in the .Client project. With the solution running, open the network tab and note the calls as you update the form.

Server calls

The service is demonstrated for Blazor WebAssembly but will work the same for Blazor Server.

Conclusion

Blazor is not opinionated about how you manage state. The services and component model make it easy to implement project-wide solutions. This post focused on an implementation of the Model-View-ViewModel pattern and registered for property changed notifications to handle serializing state either locally or over an API. The same approach will work if you are using a different approach such as Redux. The important steps are to update your store when properties mutate and load from your state management solution when components initialize. The rest is browser history!

Check out the official documentation for ASP.NET Core Blazor state management.

Regards,

Jeremy Likness

💖 💪 🙅 🚩
jeremylikness
Jeremy Likness ⚡️

Posted on January 21, 2020

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