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title author description monikerRange ms.author ms.custom ms.date uid
Debug ASP.NET Core Blazor apps
guardrex
Learn how to debug Blazor apps, including debugging Blazor WebAssembly with browser developer tools or an integrated development environment (IDE).
>= aspnetcore-3.1
riande
mvc
02/09/2024
blazor/debug

Debug ASP.NET Core apps

[!INCLUDE]

This article describes how to debug Blazor apps, including debugging Blazor WebAssembly apps with browser developer tools or an integrated development environment (IDE).

:::moniker range=">= aspnetcore-8.0"

Blazor Web Apps can be debugged in Visual Studio or Visual Studio Code.

Blazor WebAssembly apps can be debugged:

  • In Visual Studio or Visual Studio Code.
  • Using browser developer tools in Chromium-based browsers, including Microsoft Edge, Google Chrome, and Firefox.

Available scenarios for Blazor WebAssembly debugging include:

  • Set and remove breakpoints.
  • Run the app with debugging support in IDEs.
  • Single-step through the code.
  • Resume code execution with a keyboard shortcut in IDEs.
  • In the Locals window, observe the values of local variables.
  • See the call stack, including call chains between JavaScript and .NET.
  • Use a symbol server for debugging, configured by Visual Studio preferences.

Unsupported scenarios include:

:::moniker-end

:::moniker range=">= aspnetcore-6.0 < aspnetcore-8.0"

Blazor Server apps can be debugged in Visual Studio or Visual Studio Code.

Blazor WebAssembly apps can be debugged:

  • In Visual Studio or Visual Studio Code.
  • Using browser developer tools in Chromium-based browsers, including Microsoft Edge and Google Chrome.

Unsupported scenarios for Blazor WebAssembly apps include:

  • Set and remove breakpoints.
  • Run the app with debugging support in IDEs.
  • Single-step through the code.
  • Resume code execution with a keyboard shortcut in IDEs.
  • In the Locals window, observe the values of local variables.
  • See the call stack, including call chains between JavaScript and .NET.
  • Debug in non-local scenarios (for example, Windows Subsystem for Linux (WSL) or Visual Studio Codespaces).
  • Use a symbol server for debugging.

:::moniker-end

:::moniker range="< aspnetcore-6.0"

Blazor Server apps can be debugged in Visual Studio or Visual Studio Code.

Blazor WebAssembly apps can be debugged:

  • In Visual Studio or Visual Studio Code.
  • Using browser developer tools in Chromium-based browsers, including Microsoft Edge and Google Chrome.

Unsupported scenarios for Blazor WebAssembly apps include:

  • Set and remove breakpoints.
  • Run the app with debugging support in IDEs.
  • Single-step through the code.
  • Resume code execution with a keyboard shortcut in IDEs.
  • In the Locals window, observe the values of local variables.
  • See the call stack, including call chains between JavaScript and .NET.
  • Hit breakpoints during app startup before the debug proxy is running. This includes breakpoints in the Program file and breakpoints in the OnInitialized{Async} lifecycle methods of components that are loaded by the first page requested from the app.
  • Debug in non-local scenarios (for example, Windows Subsystem for Linux (WSL) or Visual Studio Codespaces).
  • Use a symbol server for debugging.

:::moniker-end

Prerequisites

This section explains the prerequisites for debugging.

Browser prerequisites

:::moniker range=">= aspnetcore-8.0"

The latest version of the following browsers:

  • Google Chrome
  • Microsoft Edge
  • Firefox (browser developer tools only)

:::moniker-end

:::moniker range="< aspnetcore-8.0"

Debugging requires the latest version of the following browsers:

  • Google Chrome (default)
  • Microsoft Edge

:::moniker-end

Ensure that firewalls or proxies don't block communication with the debug proxy (NodeJS process). For more information, see the Firewall configuration section.

Note

Apple Safari on macOS isn't currently supported.

IDE prerequisites

The latest version of Visual Studio or Visual Studio Code is required.

Visual Studio Code prerequisites

Visual Studio Code requires the C# Dev Kit for Visual Studio Code (Getting Started with C# in VS Code). In the Visual Studio Code Extensions Marketplace, filter the extension list with "c# dev kit" to locate the extension:

C# Dev Kit in the Visual Studio Code Extensions Marketplace

Installing the C# Dev Kit automatically installs the following additional extensions:

If you encounter warnings or errors, you can open an issue (microsoft/vscode-dotnettools GitHub repository) describing the problem.

App configuration prerequisites

The guidance in this subsection applies to client-side debugging.

Open the Properties/launchSettings.json file of the startup project. Confirm the presence of the following inspectUri property in each launch profile of the file's profiles node. If the following property isn't present, add it to each profile:

"inspectUri": "{wsProtocol}://{url.hostname}:{url.port}/_framework/debug/ws-proxy?browser={browserInspectUri}"

The inspectUri property:

  • Enables the IDE to detect that the app is a Blazor app.
  • Instructs the script debugging infrastructure to connect to the browser through Blazor's debugging proxy.

The placeholder values for the WebSocket protocol (wsProtocol), host (url.hostname), port (url.port), and inspector URI on the launched browser (browserInspectUri) are provided by the framework.

Packages

:::moniker range=">= aspnetcore-8.0"

Blazor Web Apps: Microsoft.AspNetCore.Components.WebAssembly.Server: References an internal package (Microsoft.NETCore.BrowserDebugHost.Transport) for assemblies that share the browser debug host.

:::moniker-end

:::moniker range="< aspnetcore-8.0"

Blazor Server: Microsoft.AspNetCore.Components.WebAssembly.Server: References an internal package (Microsoft.NETCore.BrowserDebugHost.Transport) for assemblies that share the browser debug host.

:::moniker-end

Standalone Blazor WebAssembly: Microsoft.AspNetCore.Components.WebAssembly.DevServer: Development server for use when building Blazor apps. Calls xref:Microsoft.AspNetCore.Builder.WebAssemblyNetDebugProxyAppBuilderExtensions.UseWebAssemblyDebugging%2A?displayProperty=nameWithType internally to add middleware for debugging Blazor WebAssembly apps inside Chromium developer tools.

:::moniker range="< aspnetcore-8.0"

Hosted Blazor WebAssembly:

:::moniker-end

[!INCLUDE]

:::moniker range=">= aspnetcore-8.0"

Debug a Blazor Web App in an IDE

Visual Studio

The example in this section assumes that you've created a Blazor Web App with an interactive render mode of Auto (Server and WebAssembly) and per-component interactivity location.

  1. Open the app.
  2. Set a breakpoint on the currentCount++; line in the Counter component (Pages/Counter.razor) of the client project (.Client).
  3. Press F5 to run the app in the debugger.
  4. In the browser, navigate to Counter page at /counter. Wait a few seconds for the debug proxy to load and run. Select the Click me button to hit the breakpoint.
  5. In Visual Studio, inspect the value of the currentCount field in the Locals window.
  6. Press F5 to continue execution.

Breakpoints can also be hit in the server project in statically-rendered and interactively-rendered server-side components.

  1. Stop the debugger.

  2. Add the following component to the server app. The component applies the Interactive Server render mode (InteractiveServer).

    Components/Pages/Counter2.razor:

    @page "/counter-2"
@rendermode InteractiveServer

<PageTitle>Counter 2</PageTitle>

<h1>Counter 2</h1>

<p role="status">Current count: @currentCount</p>

<button class="btn btn-primary" @onclick="IncrementCount">Click me</button>

@code {
    private int currentCount = 0;

    private void IncrementCount()
    {
        currentCount++;
    }
}

  3. Set a breakpoint on the currentCount++; line in the Counter2 component.

  4. Press F5 to run the app in the debugger.

  5. In the browser, navigate to Counter2 page at /counter-2. Wait a few seconds for the debug proxy to load and run. Select the Click me button to hit the breakpoint.

  6. Press F5 to continue execution.

Breakpoints are not hit during app startup before the debug proxy is running. This includes breakpoints in the Program file and breakpoints in the OnInitialized{Async} lifecycle methods of components that are loaded by the first page requested from the app.

Visual Studio Code

The example in this section assumes that you've created a Blazor Web App with an interactive Auto (Server and WebAssembly) render mode and per-component interactivity location.

  1. Open the app in Visual Studio Code by opening the solution folder, which is the folder that contains the server and .Client project folders.
  2. Set a breakpoint on the currentCount++; line in the Counter component (Pages/Counter.razor) of the client project (.Client).
  3. Open the Run and Debug pane and select the Run and Debug button. Alternatively, press F5 (Start Debugging). Select the C# debugger in the command palette at the top of the UI. Select the default profile for the server project (for example, C#:BlazorSample [Default Configuration]).
  4. In the browser, navigate to Counter page at /counter. Wait a few seconds for the debug proxy to load and run. Select the Click me button to hit the breakpoint.
  5. Select the Continue button in the UI or press F5 (Continue) to continue execution.

Breakpoints can also be hit in the server project.

  1. Stop debugging by selecting the Stop button or press Shift+F5 on the keyboard.

  2. Add the following component to the server app. The component adopts the Interactive Server render mode (InteractiveServer).

    Components/Pages/Counter2.razor:

    @page "/counter-2"
@rendermode InteractiveServer

<PageTitle>Counter 2</PageTitle>

<h1>Counter 2</h1>

<p role="status">Current count: @currentCount</p>

<button class="btn btn-primary" @onclick="IncrementCount">Click me</button>

@code {
    private int currentCount = 0;

    private void IncrementCount()
    {
        currentCount++;
    }
}

  3. Set a breakpoint on the currentCount++; line in the Counter2 component.

  4. Select the Start Debugging button in the UI or press F5 (Start Debugging) to run the app in the debugger.

  5. In the browser, navigate to the Counter2 page at /counter-2. Wait a few seconds for the debug proxy to load and run. Select the Click me button to hit the breakpoint.

  6. Select the Continue button in the UI or press F5 (Continue) to continue execution.

Breakpoints are not hit during app startup before the debug proxy is running. This includes breakpoints in the Program file and breakpoints in the OnInitialized{Async} lifecycle methods of components that are loaded by the first page requested from the app.

Start Without Debugging [Ctrl+F5 (Windows) or +F5 (macOS)] isn't supported. When the app is run in Debug configuration, debugging overhead always results in a small performance reduction.

:::moniker-end

:::moniker range="< aspnetcore-8.0"

Debug a Blazor Server app in an IDE

Visual Studio

  1. Open the app.
  2. Set a breakpoint on the currentCount++; line in the Counter component (Pages/Counter.razor).
  3. Press F5 to run the app in the debugger.
  4. In the browser, navigate to Counter page at /counter. Wait a few seconds for the debug proxy to load and run. Select the Click me button to hit the breakpoint.
  5. In Visual Studio, inspect the value of the currentCount field in the Locals window.
  6. Press F5 to continue execution.

Breakpoints are not hit during app startup before the debug proxy is running. This includes breakpoints in the Program file and breakpoints in the OnInitialized{Async} lifecycle methods of components that are loaded by the first page requested from the app.

Visual Studio Code

  1. Open the app's folder in Visual Studio Code.
  2. Set a breakpoint on the currentCount++; line in the Counter component (Pages/Counter.razor).
  3. Open the Run and Debug pane and select the Run and Debug button. Alternatively, press F5 (Start Debugging). Select the C# debugger in the command palette at the top of the UI. Select the default profile (for example, C#:BlazorSample [Default Configuration]).
  4. Press F5 to run the app in the debugger.
  5. In the browser, navigate to Counter page at /counter. Wait a few seconds for the debug proxy to load and run. Select the Click me button to hit the breakpoint.
  6. Press F5 to continue execution.

Breakpoints are not hit during app startup before the debug proxy is running. This includes breakpoints in the Program file and breakpoints in the OnInitialized{Async} lifecycle methods of components that are loaded by the first page requested from the app.

Start Without Debugging [Ctrl+F5 (Windows) or +F5 (macOS)] isn't supported. When the app is run in Debug configuration, debugging overhead always results in a small performance reduction.

:::moniker-end

Debug a Blazor WebAssembly app in an IDE

Visual Studio

  1. Open the app.
  2. Set a breakpoint on the currentCount++; line in the Counter component (Pages/Counter.razor).
  3. Press F5 to run the app in the debugger.
  4. In the browser, navigate to Counter page at /counter. Wait a few seconds for the debug proxy to load and run. Select the Click me button to hit the breakpoint.
  5. In Visual Studio, inspect the value of the currentCount field in the Locals window.
  6. Press F5 to continue execution.

Breakpoints are not hit during app startup before the debug proxy is running. This includes breakpoints in the Program file and breakpoints in the OnInitialized{Async} lifecycle methods of components that are loaded by the first page requested from the app.

Visual Studio Code

  1. Open the app's folder in Visual Studio Code.
  2. Set a breakpoint on the currentCount++; line in the Counter component (Pages/Counter.razor).
  3. Open the Run and Debug pane and select the Run and Debug button. Alternatively, press F5 (Start Debugging). Select the C# debugger in the command palette at the top of the UI. Select the default profile (for example, C#:BlazorSample [Default Configuration]).
  4. Press F5 to run the app in the debugger.
  5. The standalone app is launched, and a debugging browser is opened.
  6. In the browser, navigate to Counter page at /counter. Wait a few seconds for the debug proxy to load and run. Select the Click me button to hit the breakpoint.
  7. Press F5 to continue execution.

Breakpoints are not hit during app startup before the debug proxy is running. This includes breakpoints in the Program file and breakpoints in the OnInitialized{Async} lifecycle methods of components that are loaded by the first page requested from the app.

Start Without Debugging [Ctrl+F5 (Windows) or +F5 (macOS)] isn't supported. When the app is run in Debug configuration, debugging overhead always results in a small performance reduction.

:::moniker range=">= aspnetcore-8.0"

Debugger support

Debugging is enabled for the runtime when debugger support is enabled with <DebuggerSupport>{VALUE}</DebuggerSupport>, where the {VALUE} place holder is either true or false.

By default, the Blazor framework disables debugger support for all non-Debug configurations. To enable debugger support for a non-Debug configuration, add a <DebuggerSupport> property to the app's project file.

In the following example, debugger support is enabled for the custom "DebugCustom" configuration:

<DebuggerSupport Condition="'$(Configuration)' == 'DebugCustom'">true</DebuggerSupport>

For more information, see Blazor WebAssembly custom debugger configuration (dotnet/runtime #96239).

:::moniker-end

:::moniker range="< aspnetcore-8.0"

Debug a hosted Blazor WebAssembly app in an IDE

Visual Studio

  1. With the :::no-loc text="Server"::: project selected in Solution Explorer, press F5 to run the app in the debugger.

    When debugging with a Chromium-based browser, such as Google Chrome or Microsoft Edge, a new browser window might open with a separate profile for the debugging session instead of opening a tab in an existing browser window with the user's profile. If debugging with the user's profile is a requirement, adopt one of the following approaches:

  2. In the :::no-loc text="Client"::: project, set a breakpoint on the currentCount++; line in the Counter component (Pages/Counter.razor).

  3. In the browser, navigate to Counter page at /counter. Wait a few seconds for the debug proxy to load and run. Select the Click me button to hit the breakpoint.

  4. In Visual Studio, inspect the value of the currentCount field in the Locals window.

  5. Press F5 to continue execution.

You can also debug server code in the :::no-loc text="Server"::: project:

  1. Set a breakpoint in the Pages/FetchData.razor page in xref:Microsoft.AspNetCore.Components.ComponentBase.OnInitializedAsync%2A.
  2. Set a breakpoint in the WeatherForecastController in the Get action method.
  3. Browse to the Fetch Data page to hit the first breakpoint in the FetchData component just before it issues an HTTP request to the server.
  4. Press F5 to continue execution and then hit the breakpoint on the server in the WeatherForecastController.
  5. Press F5 again to let execution continue and see the weather forecast table rendered in the browser.

Breakpoints are not hit during app startup before the debug proxy is running. This includes breakpoints in the Program file and breakpoints in the OnInitialized{Async} lifecycle methods of components that are loaded by the first page requested from the app.

Start Without Debugging [Ctrl+F5 (Windows) or +F5 (macOS)] isn't supported. When the app is run in Debug configuration, debugging overhead always results in a small performance reduction.

Visual Studio Code

Note

Only browser debugging is supported.

You can't automatically rebuild the backend :::no-loc text="Server"::: project of a hosted Blazor WebAssembly solution during debugging, for example by running the app with dotnet watch run.

To debug a published, hosted Blazor WebAssembly app, configure debugger support (DebuggerSupport) and copy output symbols to the publish directory (CopyOutputSymbolsToPublishDirectory) in the :::no-loc text="Client"::: project's project file:

<DebuggerSupport>true</DebuggerSupport>
<CopyOutputSymbolsToPublishDirectory>true</CopyOutputSymbolsToPublishDirectory>

By default, publishing an app disables the preceding properties by setting them to false.

Warning

Published, hosted Blazor WebAssembly apps should only enable debugging and copying output symbols when deploying published assets locally. Do not* deploy a published app into production with the DebuggerSupport and CopyOutputSymbolsToPublishDirectory properties set to true.

Start Without Debugging [Ctrl+F5 (Windows) or +F5 (macOS)] isn't supported. When the app is run in Debug configuration, debugging overhead always results in a small performance reduction.

:::moniker-end

Attach to an existing Visual Studio Code debugging session

To attach to a running Blazor app, open the .vscode/launch.json file and replace the {URL} placeholder with the URL where the app is running:

{
  "name": "Attach and Debug",
  "type": "blazorwasm",
  "request": "attach",
  "url": "{URL}"
}

Visual Studio Code launch options

The launch configuration options in the following table are supported for the blazorwasm debug type (.vscode/launch.json).

Option Description
browser The browser to launch for the debugging session. Set to edge or chrome. Defaults to edge.
cwd The working directory to launch the app under.
request Use launch to launch and attach a debugging session to a Blazor WebAssembly app or attach to attach a debugging session to an already-running app.
timeout The number of milliseconds to wait for the debugging session to attach. Defaults to 30,000 milliseconds (30 seconds).
trace Used to generate logs from the JS debugger. Set to true to generate logs.
url The URL to open in the browser when debugging.
webRoot Specifies the absolute path of the web server. Should be set if an app is served from a sub-route.

:::moniker range="< aspnetcore-8.0"

The additional options in the following table only apply to hosted Blazor WebAssembly apps.

Option Description
env The environment variables to provide to the launched process. Only applicable if hosted is set to true.
hosted Must be set to true if launching and debugging a hosted Blazor WebAssembly app.
program A reference to the executable to run the server of the hosted app. Must be set if hosted is true.

:::moniker-end

Debug Blazor WebAssembly with Google Chrome or Microsoft Edge

The guidance in this section applies debugging Blazor WebAssembly apps in:

  • Google Chrome running on Windows or macOS.
  • Microsoft Edge running on Windows.

  1. Run the app in a command shell with dotnet run.

  2. Launch a browser and navigate to the app's URL.

  3. Start remote debugging by pressing:

    • Shift+Alt+d on Windows.
    • Shift++d on macOS.

    The browser must be running with remote debugging enabled, which isn't the default. If remote debugging is disabled, an Unable to find debuggable browser tab error page is rendered with instructions for launching the browser with the debugging port open. Follow the instructions for your browser.

    After following the instructions to enable remote debugging, the app opens in a new browser window. Start remote debugging by pressing the HotKey combination in the new browser window:

    • Shift+Alt+d on Windows.
    • Shift++d on macOS.

    A new window developer tools browser tab opens showing a ghosted image of the app.

    [!NOTE] If you followed the instructions to open a new browser tab with remote debugging enabled, you can close the original browser window, leaving the second window open with the first tab running the app and the second tab running the debugger.

  4. After a moment, the Sources tab shows a list of the app's .NET assemblies and pages.

  5. Open the file:// node. In component code (.razor files) and C# code files (.cs), breakpoints that you set are hit when code executes in the app's browser tab (the initial tab opened after starting remote debugging). After a breakpoint is hit, single-step (F10) through the code or resume (F8) code execution normally in the debugging tab.

For Chromium-based browser debugging, Blazor provides a debugging proxy that implements the Chrome DevTools Protocol and augments the protocol with .NET-specific information. When debugging keyboard shortcut is pressed, Blazor points the Chrome DevTools at the proxy. The proxy connects to the browser window you're seeking to debug (hence the need to enable remote debugging).

:::moniker range=">= aspnetcore-8.0"

Debug a Blazor WebAssembly app with Firefox

The guidance in this section applies debugging Blazor WebAssembly apps in Firefox running on Windows.

Debugging a Blazor WebAssembly app with Firefox requires configuring the browser for remote debugging and connecting to the browser using the browser developer tools through the .NET WebAssembly debugging proxy.

Note

Debugging in Firefox from Visual Studio isn't supported at this time.

To debug a Blazor WebAssembly app in Firefox during development:

  1. Configure Firefox:
    • Open about:config in a new browser tab. Read and dismiss the warning that appears.
    • Enable devtools.debugger.remote-enabled by setting its value to True.
    • Enable devtools.chrome.enabled by setting its value to True.
    • Disable devtools.debugger.prompt-connection by setting its value to False.
  2. Close all Firefox instances.
  3. Run the app in a command shell with dotnet run.
  4. Relaunch the Firefox browser and navigate to the app.
  5. Open about:debugging in a new browser tab. Leave this tab open.
  6. Go back to the tab where the app is running. Start remote debugging by pressing Shift+Alt+d.
  7. In the Debugger tab, open the app source file you wish to debug under the file:// node and set a breakpoint. For example, set a breakpoint on the currentCount++; line in the IncrementCount method of the Counter component (Pages/Counter.razor).
  8. Navigate to the Counter component page (/counter) in the app's browser tab and select the counter button to hit the breakpoint.
  9. Press F5 to continue execution in the debugging tab.

:::moniker-end

Break on unhandled exceptions

The debugger doesn't break on unhandled exceptions by default because Blazor catches exceptions that are unhandled by developer code.

To break on unhandled exceptions:

  • Open the debugger's exception settings (Debug > Windows > Exception Settings) in Visual Studio.
  • Set the following JavaScript Exceptions settings:
    • All Exceptions
    • Uncaught Exceptions

Browser source maps

Browser source maps allow the browser to map compiled files back to their original source files and are commonly used for client-side debugging. However, Blazor doesn't currently map C# directly to JavaScript/WASM. Instead, Blazor does IL interpretation within the browser, so source maps aren't relevant.

Firewall configuration

If a firewall blocks communication with the debug proxy, create a firewall exception rule that permits communication between the browser and the NodeJS process.

Warning

Modification of a firewall configuration must be made with care to avoid creating security vulnerabilities. Carefully apply security guidance, follow best security practices, and respect warnings issued by the firewall's manufacturer.

Permitting open communication with the NodeJS process:

  • Opens up the Node server to any connection, depending on the firewall's capabilities and configuration.
  • Might be risky depending on your network.
  • Is only recommended on developer machines.

If possible, only allow open communication with the NodeJS process on trusted or private networks.

For Windows Firewall configuration guidance, see Create an Inbound Program or Service Rule. For more information, see Windows Defender Firewall with Advanced Security and related articles in the Windows Firewall documentation set.

Troubleshoot

If you're running into errors, the following tips may help:

  • Remove breakpoints:
    • Google Chrome: In the Debugger tab, open the developer tools in your browser. In the console, execute localStorage.clear() to remove any breakpoints.
    • Microsoft Edge: In the Application tab, open Local storage. Right-click the site and select Clear.
  • Confirm that you've installed and trusted the ASP.NET Core HTTPS development certificate. For more information, see xref:security/enforcing-ssl#troubleshoot-certificate-problems-such-as-certificate-not-trusted.
  • Visual Studio requires the Enable JavaScript debugging for ASP.NET (Chrome and Edge) option in Tools > Options > Debugging > General. This is the default setting for Visual Studio. If debugging isn't working, confirm that the option is selected.
  • If your environment uses an HTTP proxy, make sure that localhost is included in the proxy bypass settings. This can be done by setting the NO_PROXY environment variable in either:
    • The launchSettings.json file for the project.
    • At the user or system environment variables level for it to apply to all apps. When using an environment variable, restart Visual Studio for the change to take effect.
  • Ensure that firewalls or proxies don't block communication with the debug proxy (NodeJS process). For more information, see the Firewall configuration section.

Breakpoints in OnInitialized{Async} not hit

The Blazor framework's debugging proxy doesn't launch instantly on app startup, so breakpoints in the OnInitialized{Async} lifecycle methods might not be hit. We recommend adding a delay at the start of the method body to give the debug proxy some time to launch before the breakpoint is hit. You can include the delay based on an if compiler directive to ensure that the delay isn't present for a release build of the app.

xref:Microsoft.AspNetCore.Components.ComponentBase.OnInitialized%2A:

protected override void OnInitialized()
{
#if DEBUG
    Thread.Sleep(10000);
#endif

    ...
}

xref:Microsoft.AspNetCore.Components.ComponentBase.OnInitializedAsync%2A:

protected override async Task OnInitializedAsync()
{
#if DEBUG
    await Task.Delay(10000);
#endif

    ...
}

Visual Studio (Windows) timeout

If Visual Studio throws an exception that the debug adapter failed to launch mentioning that the timeout was reached, you can adjust the timeout with a Registry setting:

VsRegEdit.exe set "<VSInstallFolder>" HKCU JSDebugger\Options\Debugging "BlazorTimeoutInMilliseconds" dword {TIMEOUT}

The {TIMEOUT} placeholder in the preceding command is in milliseconds. For example, one minute is assigned as 60000.