Response Caching Middleware in ASP.NET Core

By John Luo and Rick Anderson

This article explains how to configure Response Caching Middleware in an ASP.NET Core app. The middleware determines when responses are cacheable, stores responses, and serves responses from cache. For an introduction to HTTP caching and the [ResponseCache] attribute, see Response Caching.

The Response caching middleware:

  • Enables caching server responses based on HTTP cache headers. Implements the standard HTTP caching semantics. Caches based on HTTP cache headers like proxies do.
  • Is typically not beneficial for UI apps such as Razor Pages because browsers generally set request headers that prevent caching. Output caching, which is available in ASP.NET Core 7.0 and later, benefits UI apps. With output caching, configuration decides what should be cached independently of HTTP headers.
  • May be beneficial for public GET or HEAD API requests from clients where the Conditions for caching are met.

To test response caching, use Fiddler, or another tool that can explicitly set request headers. Setting headers explicitly is preferred for testing caching. For more information, see Troubleshooting.

Configuration

In Program.cs, add the Response Caching Middleware services AddResponseCaching to the service collection and configure the app to use the middleware with the UseResponseCaching extension method. UseResponseCaching adds the middleware to the request processing pipeline:

var builder = WebApplication.CreateBuilder(args);

builder.Services.AddResponseCaching();

var app = builder.Build();

app.UseHttpsRedirection();

// UseCors must be called before UseResponseCaching
//app.UseCors();

app.UseResponseCaching();

Warning

UseCors must be called before UseResponseCaching when using CORS middleware.

The sample app adds headers to control caching on subsequent requests:

  • Cache-Control: Caches cacheable responses for up to 10 seconds.
  • Vary: Configures the middleware to serve a cached response only if the Accept-Encoding header of subsequent requests matches that of the original request.
var builder = WebApplication.CreateBuilder(args);

builder.Services.AddResponseCaching();

var app = builder.Build();

app.UseHttpsRedirection();

// UseCors must be called before UseResponseCaching
//app.UseCors();

app.UseResponseCaching();

app.Use(async (context, next) =>
{
    context.Response.GetTypedHeaders().CacheControl =
        new Microsoft.Net.Http.Headers.CacheControlHeaderValue()
        {
            Public = true,
            MaxAge = TimeSpan.FromSeconds(10)
        };
    context.Response.Headers[Microsoft.Net.Http.Headers.HeaderNames.Vary] =
        new string[] { "Accept-Encoding" };

    await next();
});

app.MapGet("/", () => DateTime.Now.Millisecond);

app.Run();

The preceding headers are not written to the response and are overridden when a controller, action, or Razor Page:

  • Has a [ResponseCache] attribute. This applies even if a property isn't set. For example, omitting the VaryByHeader property will cause the corresponding header to be removed from the response.

Response Caching Middleware only caches server responses that result in a 200 (OK) status code. Any other responses, including error pages, are ignored by the middleware.

Warning

Responses containing content for authenticated clients must be marked as not cacheable to prevent the middleware from storing and serving those responses. See Conditions for caching for details on how the middleware determines if a response is cacheable.

The preceding code typically doesn't return a cached value to a browser. Use Fiddler, Postman, or another tool that can explicitly set request headers and is preferred for testing caching. For more information, see Troubleshooting in this article.

Options

Response caching options are shown in the following table.

Option Description
MaximumBodySize The largest cacheable size for the response body in bytes. The default value is 64 * 1024 * 1024 (64 MB).
SizeLimit The size limit for the response cache middleware in bytes. The default value is 100 * 1024 * 1024 (100 MB).
UseCaseSensitivePaths Determines if responses are cached on case-sensitive paths. The default value is false.

The following example configures the middleware to:

  • Cache responses with a body size smaller than or equal to 1,024 bytes.
  • Store the responses by case-sensitive paths. For example, /page1 and /Page1 are stored separately.
var builder = WebApplication.CreateBuilder(args);

builder.Services.AddResponseCaching(options =>
{
    options.MaximumBodySize = 1024;
    options.UseCaseSensitivePaths = true;
});

var app = builder.Build();

app.UseHttpsRedirection();

// UseCors must be called before UseResponseCaching
//app.UseCors();

app.UseResponseCaching();

app.Use(async (context, next) =>
{
    context.Response.GetTypedHeaders().CacheControl =
        new Microsoft.Net.Http.Headers.CacheControlHeaderValue()
        {
            Public = true,
            MaxAge = TimeSpan.FromSeconds(10)
        };
    context.Response.Headers[Microsoft.Net.Http.Headers.HeaderNames.Vary] =
        new string[] { "Accept-Encoding" };

    await next(context);
});

app.MapGet("/", () => DateTime.Now.Millisecond);

app.Run();

VaryByQueryKeys

When using MVC, web API controllers, or Razor Pages page models, the [ResponseCache] attribute specifies the parameters necessary for setting the appropriate headers for response caching. The only parameter of the [ResponseCache] attribute that strictly requires the middleware is VaryByQueryKeys, which doesn't correspond to an actual HTTP header. For more information, see Response caching in ASP.NET Core.

When not using the [ResponseCache] attribute, response caching can be varied with VaryByQueryKeys. Use the ResponseCachingFeature directly from the HttpContext.Features:

var responseCachingFeature = context.HttpContext.Features.Get<IResponseCachingFeature>();

if (responseCachingFeature != null)
{
    responseCachingFeature.VaryByQueryKeys = new[] { "MyKey" };
}

Using a single value equal to * in VaryByQueryKeys varies the cache by all request query parameters.

HTTP headers used by Response Caching Middleware

The following table provides information on HTTP headers that affect response caching.

Header Details
Authorization The response isn't cached if the header exists.
Cache-Control The middleware only considers caching responses marked with the public cache directive. Control caching with the following parameters:
  • max-age
  • max-stale†
  • min-fresh
  • must-revalidate
  • no-cache
  • no-store
  • only-if-cached
  • private
  • public
  • s-maxage
  • proxy-revalidate‡
†If no limit is specified to max-stale, the middleware takes no action.
proxy-revalidate has the same effect as must-revalidate.

For more information, see RFC 9111: Request Directives.
Pragma A Pragma: no-cache header in the request produces the same effect as Cache-Control: no-cache. This header is overridden by the relevant directives in the Cache-Control header, if present. Considered for backward compatibility with HTTP/1.0.
Set-Cookie The response isn't cached if the header exists. Any middleware in the request processing pipeline that sets one or more cookies prevents the Response Caching Middleware from caching the response (for example, the cookie-based TempData provider).
Vary The Vary header is used to vary the cached response by another header. For example, cache responses by encoding by including the Vary: Accept-Encoding header, which caches responses for requests with headers Accept-Encoding: gzip and Accept-Encoding: text/plain separately. A response with a header value of * is never stored.
Expires A response deemed stale by this header isn't stored or retrieved unless overridden by other Cache-Control headers.
If-None-Match The full response is served from cache if the value isn't * and the ETag of the response doesn't match any of the values provided. Otherwise, a 304 (Not Modified) response is served.
If-Modified-Since If the If-None-Match header isn't present, a full response is served from cache if the cached response date is newer than the value provided. Otherwise, a 304 - Not Modified response is served.
Date When serving from cache, the Date header is set by the middleware if it wasn't provided on the original response.
Content-Length When serving from cache, the Content-Length header is set by the middleware if it wasn't provided on the original response.
Age The Age header sent in the original response is ignored. The middleware computes a new value when serving a cached response.

Caching respects request Cache-Control directives

The middleware respects the rules of RFC 9111: HTTP Caching (Section 5.2. Cache-Control). The rules require a cache to honor a valid Cache-Control header sent by the client. Under the specification, a client can make requests with a no-cache header value and force the server to generate a new response for every request. Currently, there's no developer control over this caching behavior when using the middleware because the middleware adheres to the official caching specification.

For more control over caching behavior, explore other caching features of ASP.NET Core. See the following topics:

Troubleshooting

The Response Caching Middleware uses IMemoryCache, which has a limited capacity. When the capacity is exceeded, the memory cache is compacted.

If caching behavior isn't as expected, confirm that responses are cacheable and capable of being served from the cache. Examine the request's incoming headers and the response's outgoing headers. Enable logging to help with debugging.

When testing and troubleshooting caching behavior, a browser typically sets request headers that prevent caching. For example, a browser may set the Cache-Control header to no-cache or max-age=0 when refreshing a page. Fiddler, Postman, and other tools can explicitly set request headers and are preferred for testing caching.

Conditions for caching

  • The request must result in a server response with a 200 (OK) status code.
  • The request method must be GET or HEAD.
  • Response Caching Middleware must be placed before middleware that require caching. For more information, see ASP.NET Core Middleware.
  • The Authorization header must not be present.
  • Cache-Control header parameters must be valid, and the response must be marked public and not marked private.
  • The Pragma: no-cache header must not be present if the Cache-Control header isn't present, as the Cache-Control header overrides the Pragma header when present.
  • The Set-Cookie header must not be present.
  • Vary header parameters must be valid and not equal to *.
  • The Content-Length header value (if set) must match the size of the response body.
  • The IHttpSendFileFeature isn't used.
  • The response must not be stale as specified by the Expires header and the max-age and s-maxage cache directives.
  • Response buffering must be successful. The size of the response must be smaller than the configured or default SizeLimit. The body size of the response must be smaller than the configured or default MaximumBodySize.
  • The response must be cacheable according to RFC 9111: HTTP Caching. For example, the no-store directive must not exist in request or response header fields. See RFC 9111: HTTP Caching (Section 3: Storing Responses in Caches for details.

Note

The Antiforgery system for generating secure tokens to prevent Cross-Site Request Forgery (CSRF) attacks sets the Cache-Control and Pragma headers to no-cache so that responses aren't cached. For information on how to disable antiforgery tokens for HTML form elements, see Prevent Cross-Site Request Forgery (XSRF/CSRF) attacks in ASP.NET Core.

Additional resources

This article explains how to configure Response Caching Middleware in an ASP.NET Core app. The middleware determines when responses are cacheable, stores responses, and serves responses from cache. For an introduction to HTTP caching and the [ResponseCache] attribute, see Response Caching.

View or download sample code (how to download)

Configuration

Response Caching Middleware is implicitly available for ASP.NET Core apps via the shared framework.

In Startup.ConfigureServices, add the Response Caching Middleware to the service collection:

public void ConfigureServices(IServiceCollection services)
{
    services.AddResponseCaching();
    services.AddRazorPages();
}

Configure the app to use the middleware with the UseResponseCaching extension method, which adds the middleware to the request processing pipeline in Startup.Configure:

public void Configure(IApplicationBuilder app, IWebHostEnvironment env)
{
    if (env.IsDevelopment())
    {
        app.UseDeveloperExceptionPage();
    }
    else
    {
        app.UseExceptionHandler("/Error");
    }

    app.UseStaticFiles();
    app.UseRouting();
    // UseCors must be called before UseResponseCaching
    // app.UseCors("myAllowSpecificOrigins");

    app.UseResponseCaching();

    app.Use(async (context, next) =>
    {
        context.Response.GetTypedHeaders().CacheControl = 
            new Microsoft.Net.Http.Headers.CacheControlHeaderValue()
            {
                Public = true,
                MaxAge = TimeSpan.FromSeconds(10)
            };
        context.Response.Headers[Microsoft.Net.Http.Headers.HeaderNames.Vary] = 
            new string[] { "Accept-Encoding" };

        await next();
    });

    app.UseEndpoints(endpoints =>
    {
        endpoints.MapRazorPages();
    });
}

Warning

UseCors must be called before UseResponseCaching when using CORS middleware.

The sample app adds headers to control caching on subsequent requests:

  • Cache-Control: Caches cacheable responses for up to 10 seconds.
  • Vary: Configures the middleware to serve a cached response only if the Accept-Encoding header of subsequent requests matches that of the original request.
// using Microsoft.AspNetCore.Http;

app.Use(async (context, next) =>
{
    context.Response.GetTypedHeaders().CacheControl = 
        new Microsoft.Net.Http.Headers.CacheControlHeaderValue()
        {
            Public = true,
            MaxAge = TimeSpan.FromSeconds(10)
        };
    context.Response.Headers[Microsoft.Net.Http.Headers.HeaderNames.Vary] = 
        new string[] { "Accept-Encoding" };

    await next();
});

The preceding headers are not written to the response and are overridden when a controller, action, or Razor Page:

  • Has a [ResponseCache] attribute. This applies even if a property isn't set. For example, omitting the VaryByHeader property will cause the corresponding header to be removed from the response.

Response Caching Middleware only caches server responses that result in a 200 (OK) status code. Any other responses, including error pages, are ignored by the middleware.

Warning

Responses containing content for authenticated clients must be marked as not cacheable to prevent the middleware from storing and serving those responses. See Conditions for caching for details on how the middleware determines if a response is cacheable.

Options

Response caching options are shown in the following table.

Option Description
MaximumBodySize The largest cacheable size for the response body in bytes. The default value is 64 * 1024 * 1024 (64 MB).
SizeLimit The size limit for the response cache middleware in bytes. The default value is 100 * 1024 * 1024 (100 MB).
UseCaseSensitivePaths Determines if responses are cached on case-sensitive paths. The default value is false.

The following example configures the middleware to:

  • Cache responses with a body size smaller than or equal to 1,024 bytes.
  • Store the responses by case-sensitive paths. For example, /page1 and /Page1 are stored separately.
services.AddResponseCaching(options =>
{
    options.MaximumBodySize = 1024;
    options.UseCaseSensitivePaths = true;
});

VaryByQueryKeys

When using MVC / web API controllers or Razor Pages page models, the [ResponseCache] attribute specifies the parameters necessary for setting the appropriate headers for response caching. The only parameter of the [ResponseCache] attribute that strictly requires the middleware is VaryByQueryKeys, which doesn't correspond to an actual HTTP header. For more information, see Response caching in ASP.NET Core.

When not using the [ResponseCache] attribute, response caching can be varied with VaryByQueryKeys. Use the ResponseCachingFeature directly from the HttpContext.Features:

var responseCachingFeature = context.HttpContext.Features.Get<IResponseCachingFeature>();

if (responseCachingFeature != null)
{
    responseCachingFeature.VaryByQueryKeys = new[] { "MyKey" };
}

Using a single value equal to * in VaryByQueryKeys varies the cache by all request query parameters.

HTTP headers used by Response Caching Middleware

The following table provides information on HTTP headers that affect response caching.

Header Details
Authorization The response isn't cached if the header exists.
Cache-Control The middleware only considers caching responses marked with the public cache directive. Control caching with the following parameters:
  • max-age
  • max-stale†
  • min-fresh
  • must-revalidate
  • no-cache
  • no-store
  • only-if-cached
  • private
  • public
  • s-maxage
  • proxy-revalidate‡
†If no limit is specified to max-stale, the middleware takes no action.
proxy-revalidate has the same effect as must-revalidate.

For more information, see RFC 9111: Request Directives.
Pragma A Pragma: no-cache header in the request produces the same effect as Cache-Control: no-cache. This header is overridden by the relevant directives in the Cache-Control header, if present. Considered for backward compatibility with HTTP/1.0.
Set-Cookie The response isn't cached if the header exists. Any middleware in the request processing pipeline that sets one or more cookies prevents the Response Caching Middleware from caching the response (for example, the cookie-based TempData provider).
Vary The Vary header is used to vary the cached response by another header. For example, cache responses by encoding by including the Vary: Accept-Encoding header, which caches responses for requests with headers Accept-Encoding: gzip and Accept-Encoding: text/plain separately. A response with a header value of * is never stored.
Expires A response deemed stale by this header isn't stored or retrieved unless overridden by other Cache-Control headers.
If-None-Match The full response is served from cache if the value isn't * and the ETag of the response doesn't match any of the values provided. Otherwise, a 304 (Not Modified) response is served.
If-Modified-Since If the If-None-Match header isn't present, a full response is served from cache if the cached response date is newer than the value provided. Otherwise, a 304 - Not Modified response is served.
Date When serving from cache, the Date header is set by the middleware if it wasn't provided on the original response.
Content-Length When serving from cache, the Content-Length header is set by the middleware if it wasn't provided on the original response.
Age The Age header sent in the original response is ignored. The middleware computes a new value when serving a cached response.

Caching respects request Cache-Control directives

The middleware respects the rules of RFC 9111: HTTP Caching (Section 5.2. Cache-Control). The rules require a cache to honor a valid Cache-Control header sent by the client. Under the specification, a client can make requests with a no-cache header value and force the server to generate a new response for every request. Currently, there's no developer control over this caching behavior when using the middleware because the middleware adheres to the official caching specification.

For more control over caching behavior, explore other caching features of ASP.NET Core. See the following topics:

Troubleshooting

If caching behavior isn't as expected, confirm that responses are cacheable and capable of being served from the cache. Examine the request's incoming headers and the response's outgoing headers. Enable logging to help with debugging.

When testing and troubleshooting caching behavior, a browser may set request headers that affect caching in undesirable ways. For example, a browser may set the Cache-Control header to no-cache or max-age=0 when refreshing a page. The following tools can explicitly set request headers and are preferred for testing caching:

Conditions for caching

  • The request must result in a server response with a 200 (OK) status code.
  • The request method must be GET or HEAD.
  • In Startup.Configure, Response Caching Middleware must be placed before middleware that require caching. For more information, see ASP.NET Core Middleware.
  • The Authorization header must not be present.
  • Cache-Control header parameters must be valid, and the response must be marked public and not marked private.
  • The Pragma: no-cache header must not be present if the Cache-Control header isn't present, as the Cache-Control header overrides the Pragma header when present.
  • The Set-Cookie header must not be present.
  • Vary header parameters must be valid and not equal to *.
  • The Content-Length header value (if set) must match the size of the response body.
  • The IHttpSendFileFeature isn't used.
  • The response must not be stale as specified by the Expires header and the max-age and s-maxage cache directives.
  • Response buffering must be successful. The size of the response must be smaller than the configured or default SizeLimit. The body size of the response must be smaller than the configured or default MaximumBodySize.
  • The response must be cacheable according to RFC 9111: HTTP Caching. For example, the no-store directive must not exist in request or response header fields. See RFC 9111: HTTP Caching (Section 3: Storing Responses in Caches for details.

Note

The Antiforgery system for generating secure tokens to prevent Cross-Site Request Forgery (CSRF) attacks sets the Cache-Control and Pragma headers to no-cache so that responses aren't cached. For information on how to disable antiforgery tokens for HTML form elements, see Prevent Cross-Site Request Forgery (XSRF/CSRF) attacks in ASP.NET Core.

Additional resources