ASP.NET Core Blazor startup
Note
This isn't the latest version of this article. For the current release, see the .NET 9 version of this article.
Warning
This version of ASP.NET Core is no longer supported. For more information, see .NET and .NET Core Support Policy. For the current release, see the .NET 8 version of this article.
Important
This information relates to a pre-release product that may be substantially modified before it's commercially released. Microsoft makes no warranties, express or implied, with respect to the information provided here.
For the current release, see the .NET 9 version of this article.
This article explains Blazor app startup configuration.
For general guidance on ASP.NET Core app configuration for server-side development, see Configuration in ASP.NET Core.
Startup process and configuration
The Blazor startup process is automatic and asynchronous via the Blazor script (blazor.*.js
), where the *
placeholder is:
web
for a Blazor Web Appserver
for a Blazor Server appwebassembly
for a Blazor WebAssembly app
The Blazor startup process is automatic and asynchronous via the Blazor script (blazor.*.js
), where the *
placeholder is:
server
for a Blazor Server appwebassembly
for a Blazor WebAssembly app
For the location of the script, see ASP.NET Core Blazor project structure.
To manually start Blazor:
Blazor Web App:
- Add an
autostart="false"
attribute and value to the Blazor<script>
tag. - Place a script that calls
Blazor.start()
after the Blazor<script>
tag and inside the closing</body>
tag. - Place static server-side rendering (static SSR) options in the
ssr
property. - Place server-side Blazor-SignalR circuit options in the
circuit
property. - Place client-side WebAssembly options in the
webAssembly
property.
<script src="{BLAZOR SCRIPT}" autostart="false"></script>
<script>
...
Blazor.start({
ssr: {
...
},
circuit: {
...
},
webAssembly: {
...
}
});
...
</script>
Standalone Blazor WebAssembly and Blazor Server:
- Add an
autostart="false"
attribute and value to the Blazor<script>
tag. - Place a script that calls
Blazor.start()
after the Blazor<script>
tag and inside the closing</body>
tag. - You can provide additional options in the
Blazor.start()
parameter.
<script src="{BLAZOR SCRIPT}" autostart="false"></script>
<script>
...
Blazor.start({
...
});
...
</script>
In the preceding example, the {BLAZOR SCRIPT}
placeholder is the Blazor script path and file name. For the location of the script, see ASP.NET Core Blazor project structure.
JavaScript initializers
JavaScript (JS) initializers execute logic before and after a Blazor app loads. JS initializers are useful in the following scenarios:
- Customizing how a Blazor app loads.
- Initializing libraries before Blazor starts up.
- Configuring Blazor settings.
JS initializers are detected as part of the build process and imported automatically. Use of JS initializers often removes the need to manually trigger script functions from the app when using Razor class libraries (RCLs).
To define a JS initializer, add a JS module to the project named {NAME}.lib.module.js
, where the {NAME}
placeholder is the assembly name, library name, or package identifier. Place the file in the project's web root, which is typically the wwwroot
folder.
For Blazor Web Apps:
beforeWebStart(options)
: Called before the Blazor Web App starts. For example,beforeWebStart
is used to customize the loading process, logging level, and other options. Receives the Blazor Web options (options
).afterWebStarted(blazor)
: Called after allbeforeWebStart
promises resolve. For example,afterWebStarted
can be used to register Blazor event listeners and custom event types. The Blazor instance is passed toafterWebStarted
as an argument (blazor
).beforeServerStart(options, extensions)
: Called before the first Server runtime is started. Receives SignalR circuit start options (options
) and any extensions (extensions
) added during publishing.afterServerStarted(blazor)
: Called after the first Interactive Server runtime is started.beforeWebAssemblyStart(options, extensions)
: Called before the Interactive WebAssembly runtime is started. Receives the Blazor options (options
) and any extensions (extensions
) added during publishing. For example, options can specify the use of a custom boot resource loader.afterWebAssemblyStarted(blazor)
: Called after the Interactive WebAssembly runtime is started.
Note
Legacy JS initializers (beforeStart
, afterStarted
) aren't invoked by default in a Blazor Web App. You can enable the legacy initializers to run with the enableClassicInitializers
option. However, legacy initializer execution is unpredictable.
<script>
Blazor.start({ enableClassicInitializers: true });
</script>
For Blazor Server, Blazor WebAssembly, and Blazor Hybrid apps:
beforeStart(options, extensions)
: Called before Blazor starts. For example,beforeStart
is used to customize the loading process, logging level, and other options specific to the hosting model.- Client-side,
beforeStart
receives the Blazor options (options
) and any extensions (extensions
) added during publishing. For example, options can specify the use of a custom boot resource loader. - Server-side,
beforeStart
receives SignalR circuit start options (options
). - In a
BlazorWebView
, no options are passed.
- Client-side,
afterStarted(blazor)
: Called after Blazor is ready to receive calls from JS. For example,afterStarted
is used to initialize libraries by making JS interop calls and registering custom elements. The Blazor instance is passed toafterStarted
as an argument (blazor
).
Additional .NET WebAssembly runtime callbacks:
onRuntimeConfigLoaded(config)
: Called when the boot configuration is downloaded. Allows the app to modify parameters (config) before the runtime starts (the parameter isMonoConfig
fromdotnet.d.ts
):export function onRuntimeConfigLoaded(config) { // Sample: Enable startup diagnostic logging when the URL contains // parameter debug=1 const params = new URLSearchParams(location.search); if (params.get("debug") == "1") { config.diagnosticTracing = true; } }
onRuntimeReady({ getAssemblyExports, getConfig })
: Called after the .NET WebAssembly runtime has started (the parameter isRuntimeAPI
fromdotnet.d.ts
):export function onRuntimeReady({ getAssemblyExports, getConfig }) { // Sample: After the runtime starts, but before Main method is called, // call [JSExport]ed method. const config = getConfig(); const exports = await getAssemblyExports(config.mainAssemblyName); exports.Sample.Greet(); }
Both callbacks can return a Promise
, and the promise is awaited before the startup continues.
For the file name:
- If the JS initializers are consumed as a static asset in the project, use the format
{ASSEMBLY NAME}.lib.module.js
, where the{ASSEMBLY NAME}
placeholder is the app's assembly name. For example, name the fileBlazorSample.lib.module.js
for a project with an assembly name ofBlazorSample
. Place the file in the app'swwwroot
folder. - If the JS initializers are consumed from an RCL, use the format
{LIBRARY NAME/PACKAGE ID}.lib.module.js
, where the{LIBRARY NAME/PACKAGE ID}
placeholder is the project's library name or package identifier. For example, name the fileRazorClassLibrary1.lib.module.js
for an RCL with a package identifier ofRazorClassLibrary1
. Place the file in the library'swwwroot
folder.
For Blazor Web Apps:
The following example demonstrates JS initializers that load custom scripts before and after the Blazor Web App has started by appending them to the <head>
in beforeWebStart
and afterWebStarted
:
export function beforeWebStart() {
var customScript = document.createElement('script');
customScript.setAttribute('src', 'beforeStartScripts.js');
document.head.appendChild(customScript);
}
export function afterWebStarted() {
var customScript = document.createElement('script');
customScript.setAttribute('src', 'afterStartedScripts.js');
document.head.appendChild(customScript);
}
The preceding beforeWebStart
example only guarantees that the custom script loads before Blazor starts. It doesn't guarantee that awaited promises in the script complete their execution before Blazor starts.
For Blazor Server, Blazor WebAssembly, and Blazor Hybrid apps:
The following example demonstrates JS initializers that load custom scripts before and after Blazor has started by appending them to the <head>
in beforeStart
and afterStarted
:
export function beforeStart(options, extensions) {
var customScript = document.createElement('script');
customScript.setAttribute('src', 'beforeStartScripts.js');
document.head.appendChild(customScript);
}
export function afterStarted(blazor) {
var customScript = document.createElement('script');
customScript.setAttribute('src', 'afterStartedScripts.js');
document.head.appendChild(customScript);
}
The preceding beforeStart
example only guarantees that the custom script loads before Blazor starts. It doesn't guarantee that awaited promises in the script complete their execution before Blazor starts.
Note
MVC and Razor Pages apps don't automatically load JS initializers. However, developer code can include a script to fetch the app's manifest and trigger the load of the JS initializers.
For examples of JS initializers, see the following resources:
- ASP.NET Core Blazor JavaScript with static server-side rendering (static SSR)
- Use Razor components in JavaScript apps and SPA frameworks (
quoteContainer2
example) - ASP.NET Core Blazor event handling (Custom clipboard paste event example)
- Enable QR code generation for TOTP authenticator apps in an ASP.NET Core Blazor Web App
- Basic Test App in the ASP.NET Core GitHub repository (
BasicTestApp.lib.module.js
)
- Use Razor components in JavaScript apps and SPA frameworks (
quoteContainer2
example) - ASP.NET Core Blazor event handling (Custom clipboard paste event example)
- Deployment layout for ASP.NET Core hosted Blazor WebAssembly apps
- Basic Test App in the ASP.NET Core GitHub repository (
BasicTestApp.lib.module.js
)
Note
Documentation links to .NET reference source usually load the repository's default branch, which represents the current development for the next release of .NET. To select a tag for a specific release, use the Switch branches or tags dropdown list. For more information, see How to select a version tag of ASP.NET Core source code (dotnet/AspNetCore.Docs #26205).
Ensure libraries are loaded in a specific order
Append custom scripts to the <head>
in beforeStart
and afterStarted
in the order that they should load.
The following example loads script1.js
before script2.js
and script3.js
before script4.js
:
export function beforeStart(options, extensions) {
var customScript1 = document.createElement('script');
customScript1.setAttribute('src', 'script1.js');
document.head.appendChild(customScript1);
var customScript2 = document.createElement('script');
customScript2.setAttribute('src', 'script2.js');
document.head.appendChild(customScript2);
}
export function afterStarted(blazor) {
var customScript1 = document.createElement('script');
customScript1.setAttribute('src', 'script3.js');
document.head.appendChild(customScript1);
var customScript2 = document.createElement('script');
customScript2.setAttribute('src', 'script4.js');
document.head.appendChild(customScript2);
}
Import additional modules
Use top-level import
statements in the JS initializers file to import additional modules.
additionalModule.js
:
export function logMessage() {
console.log('logMessage is logging');
}
In the JS initializers file (.lib.module.js
):
import { logMessage } from "/additionalModule.js";
export function beforeStart(options, extensions) {
...
logMessage();
}
Import map
Import maps are supported by ASP.NET Core and Blazor.
Initialize Blazor when the document is ready
The following example starts Blazor when the document is ready:
<script src="{BLAZOR SCRIPT}" autostart="false"></script>
<script>
document.addEventListener("DOMContentLoaded", function() {
Blazor.start();
});
</script>
In the preceding example, the {BLAZOR SCRIPT}
placeholder is the Blazor script path and file name. For the location of the script, see ASP.NET Core Blazor project structure.
Chain to the Promise
that results from a manual start
To perform additional tasks, such as JS interop initialization, use then
to chain to the Promise
that results from a manual Blazor app start:
<script src="{BLAZOR SCRIPT}" autostart="false"></script>
<script>
Blazor.start().then(function () {
...
});
</script>
In the preceding example, the {BLAZOR SCRIPT}
placeholder is the Blazor script path and file name. For the location of the script, see ASP.NET Core Blazor project structure.
Note
For a library to automatically execute additional tasks after Blazor has started, use a JavaScript initializer. Use of a JS initializer doesn't require the consumer of the library to chain JS calls to Blazor's manual start.
Load client-side boot resources
When an app loads in the browser, the app downloads boot resources from the server:
- JavaScript code to bootstrap the app
- .NET runtime and assemblies
- Locale specific data
Customize how these boot resources are loaded using the loadBootResource
API. The loadBootResource
function overrides the built-in boot resource loading mechanism. Use loadBootResource
for the following scenarios:
- Load static resources, such as timezone data or
dotnet.wasm
, from a CDN. - Load compressed assemblies using an HTTP request and decompress them on the client for hosts that don't support fetching compressed contents from the server.
- Alias resources to a different name by redirecting each
fetch
request to a new name.
Note
External sources must return the required Cross-Origin Resource Sharing (CORS) headers for browsers to allow cross-origin resource loading. CDNs usually provide the required headers.
loadBootResource
parameters appear in the following table.
Parameter | Description |
---|---|
type |
The type of the resource. Permissible types include: assembly , pdb , dotnetjs , dotnetwasm , and timezonedata . You only need to specify types for custom behaviors. Types not specified to loadBootResource are loaded by the framework per their default loading behaviors. The dotnetjs boot resource (dotnet.*.js ) must either return null for default loading behavior or a URI for the source of the dotnetjs boot resource. |
name |
The name of the resource. |
defaultUri |
The relative or absolute URI of the resource. |
integrity |
The integrity string representing the expected content in the response. |
The loadBootResource
function can return a URI string to override the loading process. In the following example, the following files from bin/Release/{TARGET FRAMEWORK}/wwwroot/_framework
are served from a CDN at https://cdn.example.com/blazorwebassembly/{VERSION}/
:
dotnet.*.js
dotnet.wasm
- Timezone data
The {TARGET FRAMEWORK}
placeholder is the target framework moniker (for example, net7.0
). The {VERSION}
placeholder is the shared framework version (for example, 7.0.0
).
Blazor Web App:
<script src="{BLAZOR SCRIPT}" autostart="false"></script>
<script>
Blazor.start({
webAssembly: {
loadBootResource: function (type, name, defaultUri, integrity) {
console.log(`Loading: '${type}', '${name}', '${defaultUri}', '${integrity}'`);
switch (type) {
case 'dotnetjs':
case 'dotnetwasm':
case 'timezonedata':
return `https://cdn.example.com/blazorwebassembly/{VERSION}/${name}`;
}
}
}
});
</script>
Standalone Blazor WebAssembly:
<script src="{BLAZOR SCRIPT}" autostart="false"></script>
<script>
Blazor.start({
loadBootResource: function (type, name, defaultUri, integrity) {
console.log(`Loading: '${type}', '${name}', '${defaultUri}', '${integrity}'`);
switch (type) {
case 'dotnetjs':
case 'dotnetwasm':
case 'timezonedata':
return `https://cdn.example.com/blazorwebassembly/{VERSION}/${name}`;
}
}
});
</script>
In the preceding example, the {BLAZOR SCRIPT}
placeholder is the Blazor script path and file name. For the location of the script, see ASP.NET Core Blazor project structure.
To customize more than just the URLs for boot resources, the loadBootResource
function can call fetch
directly and return the result. The following example adds a custom HTTP header to the outbound requests. To retain the default integrity checking behavior, pass through the integrity
parameter.
Blazor Web App:
<script src="{BLAZOR SCRIPT}" autostart="false"></script>
<script>
Blazor.start({
webAssembly: {
loadBootResource: function (type, name, defaultUri, integrity) {
if (type == 'dotnetjs') {
return null;
} else {
return fetch(defaultUri, {
cache: 'no-cache',
integrity: integrity,
headers: { 'Custom-Header': 'Custom Value' }
});
}
}
}
});
</script>
Standalone Blazor WebAssembly:
<script src="{BLAZOR SCRIPT}" autostart="false"></script>
<script>
Blazor.start({
loadBootResource: function (type, name, defaultUri, integrity) {
if (type == 'dotnetjs') {
return null;
} else {
return fetch(defaultUri, {
cache: 'no-cache',
integrity: integrity,
headers: { 'Custom-Header': 'Custom Value' }
});
}
}
});
</script>
In the preceding example, the {BLAZOR SCRIPT}
placeholder is the Blazor script path and file name. For the location of the script, see ASP.NET Core Blazor project structure.
When the loadBootResource
function returns null
, Blazor uses the default loading behavior for the resource. For example, the preceding code returns null
for the dotnetjs
boot resource (dotnet.*.js
) because the dotnetjs
boot resource must either return null
for default loading behavior or a URI for the source of the dotnetjs
boot resource.
The loadBootResource
function can also return a Response
promise. For an example, see Host and deploy ASP.NET Core Blazor WebAssembly.
For more information, see ASP.NET Core Blazor WebAssembly .NET runtime and app bundle caching.
Control headers in C# code
Control headers at startup in C# code using the following approaches.
In the following examples, a Content Security Policy (CSP) is applied to the app via a CSP header. The {POLICY STRING}
placeholder is the CSP policy string.
Server-side and prerendered client-side scenarios
Use ASP.NET Core Middleware to control the headers collection.
In the Program
file:
In Startup.Configure
of Startup.cs
:
app.Use(async (context, next) =>
{
context.Response.Headers.Append("Content-Security-Policy", "{POLICY STRING}");
await next();
});
The preceding example uses inline middleware, but you can also create a custom middleware class and call the middleware with an extension method in the Program
file. For more information, see Write custom ASP.NET Core middleware.
Client-side development without prerendering
Pass StaticFileOptions to MapFallbackToFile that specifies response headers at the OnPrepareResponse stage.
In the server-side Program
file:
In Startup.Configure
of Startup.cs
:
var staticFileOptions = new StaticFileOptions
{
OnPrepareResponse = context =>
{
context.Context.Response.Headers.Append("Content-Security-Policy",
"{POLICY STRING}");
}
};
...
app.MapFallbackToFile("index.html", staticFileOptions);
For more information on CSPs, see Enforce a Content Security Policy for ASP.NET Core Blazor.
Client-side loading progress indicators
A loading progress indicator shows the loading progress of the app to users, indicating that the app is loading normally and that the user should wait until loading is finished.
Blazor Web App loading progress
The loading progress indicator used in Blazor WebAssembly apps isn't present in an app created from the Blazor Web App project template. Usually, a loading progress indicator isn't desirable for interactive WebAssembly components because Blazor Web Apps prerender client-side components on the server for fast initial load times. For mixed-render-mode situations, the framework or developer code must also be careful to avoid the following problems:
- Showing multiple loading indicators on the same rendered page.
- Inadvertently discarding prerendered content while the .NET WebAssembly runtime is loading.
A future release of .NET might provide a framework-based loading progress indicator. In the meantime, you can add a custom loading progress indicator to a Blazor Web App.
Create a LoadingProgress
component in the .Client
app that calls OperatingSystem.IsBrowser:
- When
false
, display a loading progress indicator while the Blazor bundle is downloaded and before the Blazor runtime activates on the client. - When
true
, render the requested component's content.
The following demonstration uses the loading progress indicator found in apps created from the Blazor WebAssembly template, including a modification of the styles that the template provides. The styles are loaded into the app's <head>
content by the HeadContent component. For more information, see Control head content in ASP.NET Core Blazor apps.
LoadingProgress.razor
:
@if (!OperatingSystem.IsBrowser())
{
<HeadContent>
<style>
.loading-progress {
position: relative;
display: block;
width: 8rem;
height: 8rem;
margin: 20vh auto 1rem auto;
}
.loading-progress circle {
fill: none;
stroke: #e0e0e0;
stroke-width: 0.6rem;
transform-origin: 50% 50%;
transform: rotate(-90deg);
}
.loading-progress circle:last-child {
stroke: #1b6ec2;
stroke-dasharray:
calc(3.142 * var(--blazor-load-percentage, 0%) * 0.8),
500%;
transition: stroke-dasharray 0.05s ease-in-out;
}
.loading-progress-text {
position: relative;
text-align: center;
font-weight: bold;
top: -90px;
}
.loading-progress-text:after {
content: var(--blazor-load-percentage-text, "Loading");
}
code {
color: #c02d76;
}
</style>
</HeadContent>
<svg class="loading-progress">
<circle r="40%" cx="50%" cy="50%" />
<circle r="40%" cx="50%" cy="50%" />
</svg>
<div class="loading-progress-text"></div>
}
else
{
@ChildContent
}
@code {
[Parameter]
public RenderFragment? ChildContent { get; set; }
}
In a component that adopts Interactive WebAssembly rendering, wrap the component's Razor markup with the LoadingProgress
component. The following example demonstrates the approach with the Counter
component of an app created from the Blazor Web App project template.
Pages/Counter.razor
:
@page "/counter"
@rendermode InteractiveWebAssembly
<PageTitle>Counter</PageTitle>
<LoadingProgress>
<h1>Counter</h1>
<p role="status">Current count: @currentCount</p>
<button class="btn btn-primary" @onclick="IncrementCount">Click me</button>
</LoadingProgress>
@code {
private int currentCount = 0;
private void IncrementCount()
{
currentCount++;
}
}
Blazor WebAssembly app loading progress
The project template contains Scalable Vector Graphics (SVG) and text indicators that show the loading progress of the app.
The progress indicators are implemented with HTML and CSS using two CSS custom properties (variables) provided by Blazor:
--blazor-load-percentage
: The percentage of app files loaded.--blazor-load-percentage-text
: The percentage of app files loaded, rounded to the nearest whole number.
Using the preceding CSS variables, you can create custom progress indicators that match the styling of your app.
In the following example:
resourcesLoaded
is an instantaneous count of the resources loaded during app startup.totalResources
is the total number of resources to load.
const percentage = resourcesLoaded / totalResources * 100;
document.documentElement.style.setProperty(
'--blazor-load-percentage', `${percentage}%`);
document.documentElement.style.setProperty(
'--blazor-load-percentage-text', `"${Math.floor(percentage)}%"`);
The default round progress indicator is implemented in HTML in the wwwroot/index.html
file:
<div id="app">
<svg class="loading-progress">
<circle r="40%" cx="50%" cy="50%" />
<circle r="40%" cx="50%" cy="50%" />
</svg>
<div class="loading-progress-text"></div>
</div>
To review the project template markup and styling for the default progress indicators, see the ASP.NET Core reference source:
Note
Documentation links to .NET reference source usually load the repository's default branch, which represents the current development for the next release of .NET. To select a tag for a specific release, use the Switch branches or tags dropdown list. For more information, see How to select a version tag of ASP.NET Core source code (dotnet/AspNetCore.Docs #26205).
Instead of using the default round progress indicator, the following example shows how to implement a linear progress indicator.
Add the following styles to wwwroot/css/app.css
:
.linear-progress {
background: silver;
width: 50vw;
margin: 20% auto;
height: 1rem;
border-radius: 10rem;
overflow: hidden;
position: relative;
}
.linear-progress:after {
content: '';
position: absolute;
inset: 0;
background: blue;
scale: var(--blazor-load-percentage, 0%) 100%;
transform-origin: left top;
transition: scale ease-out 0.5s;
}
A CSS variable (var(...)
) is used to pass the value of --blazor-load-percentage
to the scale
property of a blue pseudo-element that indicates the loading progress of the app's files. As the app loads, --blazor-load-percentage
is updated automatically, which dynamically changes the progress indicator's visual representation.
In wwwroot/index.html
, remove the default SVG round indicator in <div id="app">...</div>
and replace it with the following markup:
<div class="linear-progress"></div>
Configure the .NET WebAssembly runtime
In advanced programming scenarios, the configureRuntime
function with the dotnet
runtime host builder is used to configure the .NET WebAssembly runtime. For example, dotnet.withEnvironmentVariable
sets an environment variable that:
- Configures the .NET WebAssembly runtime.
- Changes the behavior of a C library.
Note
A documentation request is pending in the dotnet/runtime
GitHub repository for more information on environment variables that configure the .NET WebAssembly runtime or affect the behavior of C libraries. Although the documentation request is pending, more information and cross-links to additional resources are available in the request, Question/request for documentation on .NET WASM runtime env vars (dotnet/runtime
#98225).
The configureRuntime
function can also be used to enable integration with a browser profiler.
For the placeholders in the following examples that set an environment variable:
- The
{BLAZOR SCRIPT}
placeholder is the Blazor script path and file name. For the location of the script, see ASP.NET Core Blazor project structure. - The
{NAME}
placeholder is the environment variable's name. - The
{VALUE}
placeholder is the environment variable's value.
Blazor Web App:
<script src="{BLAZOR SCRIPT}" autostart="false"></script>
<script>
Blazor.start({
webAssembly: {
configureRuntime: dotnet => {
dotnet.withEnvironmentVariable("{NAME}", "{VALUE}");
}
}
});
</script>
Standalone Blazor WebAssembly:
<script src="{BLAZOR SCRIPT}" autostart="false"></script>
<script>
Blazor.start({
configureRuntime: dotnet => {
dotnet.withEnvironmentVariable("{NAME}", "{VALUE}");
}
});
</script>
Note
The .NET runtime instance can be accessed using the .NET WebAssembly Runtime API (Blazor.runtime
). For example, the app's build configuration can be obtained using Blazor.runtime.runtimeBuildInfo.buildConfiguration
.
For more information on the .NET WebAssembly runtime configuration, see the runtime's TypeScript definition file (dotnet.d.ts
) in the dotnet/runtime
GitHub repository.
Note
Documentation links to .NET reference source usually load the repository's default branch, which represents the current development for the next release of .NET. To select a tag for a specific release, use the Switch branches or tags dropdown list. For more information, see How to select a version tag of ASP.NET Core source code (dotnet/AspNetCore.Docs #26205).
Disable enhanced navigation and form handling
This section applies to Blazor Web Apps.
To disable enhanced navigation and form handling, set disableDomPreservation
to true
for Blazor.start
:
<script src="{BLAZOR SCRIPT}" autostart="false"></script>
<script>
Blazor.start({
ssr: { disableDomPreservation: true }
});
</script>
In the preceding example, the {BLAZOR SCRIPT}
placeholder is the Blazor script path and file name. For the location of the script, see ASP.NET Core Blazor project structure.