AspNetCore.CacheOutput 3.1.0

dotnet add package AspNetCore.CacheOutput --version 3.1.0                
NuGet\Install-Package AspNetCore.CacheOutput -Version 3.1.0                
This command is intended to be used within the Package Manager Console in Visual Studio, as it uses the NuGet module's version of Install-Package.
<PackageReference Include="AspNetCore.CacheOutput" Version="3.1.0" />                
For projects that support PackageReference, copy this XML node into the project file to reference the package.
paket add AspNetCore.CacheOutput --version 3.1.0                
#r "nuget: AspNetCore.CacheOutput, 3.1.0"                
#r directive can be used in F# Interactive and Polyglot Notebooks. Copy this into the interactive tool or source code of the script to reference the package.
// Install AspNetCore.CacheOutput as a Cake Addin
#addin nuget:?package=AspNetCore.CacheOutput&version=3.1.0

// Install AspNetCore.CacheOutput as a Cake Tool
#tool nuget:?package=AspNetCore.CacheOutput&version=3.1.0                

AspNetCore.CacheOutput

Strathweb.CacheOutput library (https://github.com/filipw/Strathweb.CacheOutput) redone to work with ASP.NET Core

CacheOutput will take care of server side caching and set the appropriate client side (response) headers for you.

You can specify the following properties:

  • ClientTimeSpan (corresponds to CacheControl MaxAge HTTP header)
  • MustRevalidate (corresponds to MustRevalidate HTTP header - indicates whether the origin server requires revalidation of a cache entry on any subsequent use when the cache entry becomes stale)
  • ExcludeQueryStringFromCacheKey (do not vary cache by querystring values)
  • ServerTimeSpan (time how long the response should be cached on the server side)
  • AnonymousOnly (cache enabled only for requests when Thread.CurrentPrincipal is not set)

Additionally, the library is setting ETags for you, and keeping them unchanged for the duration of the caching period. Caching by default can only be applied to GET actions.

Installation

You can build from the source here, or you can install the Nuget version:

  1. Install core package: Install-Package AspNetCore.CacheOutput

  2. Depending on which cache provider you decided to use install any of the following packages:

    • Install-Package AspNetCore.CacheOutput.InMemory

    • Install-Package AspNetCore.CacheOutput.Redis

  3. In "Startup" class "ConfigureServices" method depending on previosly installed cache provider register additional services:

    • For AspNetCore.CacheOutput.InMemory cache provider:

      services.AddInMemoryCacheOutput();
      
    • For AspNetCore.CacheOutput.Redis cache provider:

      services.AddRedisCacheOutput(Configuration.GetConnectionString("<redis connection string name>"));
      

Usage

// Cache for 100 seconds on the server, inform the client that response is valid for 100 seconds
[CacheOutput(ClientTimeSpan = 100, ServerTimeSpan = 100)]
public IEnumerable<string> Get()
{
    return new string[] { "value1", "value2" };
}

// Cache for 100 seconds on the server, inform the client that response is valid for 100 seconds. Cache for anonymous users only.
[CacheOutput(ClientTimeSpan = 100, ServerTimeSpan = 100, AnonymousOnly = true)]
public IEnumerable<string> Get()
{
    return new string[] { "value1", "value2" };
}

// Inform the client that response is valid for 50 seconds. Force client to revalidate.
[CacheOutput(ClientTimeSpan = 50, MustRevalidate = true)]
public string Get(int id)
{
    return "value";
}

// Cache for 50 seconds on the server. Ignore querystring parameters when serving cached content.
[CacheOutput(ServerTimeSpan = 50, ExcludeQueryStringFromCacheKey = true)]
public string Get(int id)
{
    return "value";
}

Caching convention

In order to determine the expected content type of the response, CacheOutput will run Web APIs internal content negotiation process, based on the incoming request & the return type of the action on which caching is applied.

Each individual content type response is cached separately (so out of the box, you can expect the action to be cached as JSON and XML, if you introduce more formatters, those will be cached as well).

Important: We use action name as part of the key. Therefore it is necessary that action names are unique inside the controller - that's the only way we can provide consistency.

So you either should use unique method names inside a single controller, or (if you really want to keep them the same names when overloading) you need to use ActionName attribute to provide uniqeness for caching. Example:

[CacheOutput(ClientTimeSpan = 50, ServerTimeSpan = 50)]
public IEnumerable<Team> Get()
{
    return Teams;
}

[ActionName("GetById")]
[CacheOutput(ClientTimeSpan = 50, ServerTimeSpan = 50)]
public IEnumerable<Team> Get(int id)
{
    return Teams;
}

If you want to bypass the content negotiation process, you can do so by using the MediaType property:

[CacheOutput(ClientTimeSpan = 50, ServerTimeSpan = 50, MediaType = "image/jpeg")]
public HttpResponseMessage Get(int id)
{
    var response = new HttpResponseMessage(HttpStatusCode.OK);
    response.Content = GetImage(id); // e.g. StreamContent, ByteArrayContent,...
    response.Content.Headers.ContentType = new MediaTypeHeaderValue("image/jpeg");
    
    return response;
}

This will always return a response with image/jpeg as value for the Content-Type header.

Ignoring caching

You can set up caching globally (add global caching filter) or on controller level (decorate the controller with the caching attribute). This means that caching settings will cascade down to all the actions in your entire application (in the first case) or in the controller (in the second case).

You can still instruct a specific action to opt out from caching by using [IgnoreCacheOutput] attribute.

[CacheOutput(ClientTimeSpan = 50, ServerTimeSpan = 50)]
public class IgnoreController : Controller
{
    [HttpGet("cached")]
    public string GetCached()
    {
        return DateTime.Now.ToString();
    }

    [IgnoreCacheOutput]
    [HttpGet("uncached")]
    public string GetUnCached()
    {
        return DateTime.Now.ToString();
    }
}

Server-side caching

By default you can use AspNetCore.CacheOutput.InMemory cache provider to cache on the server side. However, you are free to swap this with anything else (static Dictionary, Memcached, Redis, whatever..) as long as you implement the following IApiCacheOutput interface (part of the distributed assembly).

public interface IApiCacheOutput
{
    Task RemoveStartsWithAsync(string key);
    Task<T> GetAsync<T>(string key) where T : class;
    Task RemoveAsync(string key);
    Task<bool> ContainsAsync(string key);
    Task AddAsync(string key, object value, DateTimeOffset expiration, string dependsOnKey = null);
}

Suppose you have a custom implementation:

public class MyCache : IApiCacheOutput
{
    // omitted for brevity
}

You can register your implementation in "Startup" class "ConfigureServices" method:

services.AddSingleton<IApiCacheOutput, MyCache>();

Cache invalidation

Invalidation on action level - done through attributes. For example:

public class TeamsController : Controller
{
    [CacheOutput(ClientTimeSpan = 50, ServerTimeSpan = 50)]
    public IEnumerable<Team> Get()
    {
        // return something
    }

    [CacheOutput(ClientTimeSpan = 50, ServerTimeSpan = 50)]
    public IEnumerable<Player> GetTeamPlayers(int id)
    {
        // return something
    }

    [InvalidateCacheOutput(nameof(Get))]
    public void Post(Team value)
    {
        // this invalidates Get action cache
    }
}

Obviously, multiple attributes are supported. You can also invalidate methods from separate controller:

[InvalidateCacheOutput(typeof(OtherController), nameof(Get))] // this will invalidate Get in a different controller
[InvalidateCacheOutput(nameof(Get))] // this will invalidate Get in this controller
public void Post(Team value)
{
    // do stuff
}

If an error occurs that would prevent the resource from getting updated, return a non-Success status code to stop the invalidation:

[InvalidateCacheOutput(nameof(Get)] // this will invalidate Get upon a successful request
public void Put(Team value)
{
    try{
      // do stuff that causes an error
    }
    catch (...specific error)
    {
       Response.StatusCode = (int)HttpStatusCode.BadRequest;  // Prevents clearing the cache for the controller(s)
    }
}

This works with ActionResults as well:

[InvalidateCacheOutput(nameof(Get)] // this will invalidate Get upon a successful request
public ActionResult Put(Team value)
{
    try{
      // do stuff that causes an error
    }
    catch (...specific error)
    {
       return BadRequest();  // Prevents clearing the cache for the controller(s)
    }
    return NoContent();
}

Please note that the Forbiden() ActionResult does not have a StatusCode causing it to fall back to the Response.StatusCode usage. Since ActionResult values aren't merged into the Response until much later, the Response.StatusCode will be defaulted to 200 and cause the cache to be invalidated. Setting the Response.StatusCode to 403 will cause it to behave as expected.

Customizing the cache keys

You can provide your own cache key generator. To do this, you need to implement the ICacheKeyGenerator interface. The default implementation should suffice in most situations.

When implementing, it is easiest to inherit your custom generator from the DefaultCacheKeyGenerator class.

To set your custom implementation as the default register your implementation in "Startup" class "ConfigureServices" method:

services.AddSingleton<ICacheKeyGenerator, MyCustomCacheKeyGenerator>();

You can set a specific cache key generator for an action, using the CacheKeyGenerator property:

[CacheOutput(CacheKeyGenerator=typeof(SuperNiceCacheKeyGenerator))]

Important: register it with your DI as itself:

services.AddSingleton<SuperNiceCacheKeyGenerator, SuperNiceCacheKeyGenerator>();

Finding a matching cache key generator is done in this order:

  1. Checks if CacheKeyGenerator property set in current action CacheOutputAttribute.
  2. Default globally registered CacheKeyGenerator.
  3. DefaultCacheKeyGenerator

JSONP

We automatically exclude callback parameter from cache key to allow for smooth JSONP support.

So:

/api/something?abc=1&callback=jQuery1213

is cached as:

/api/something?abc=1

Position of the callback parameter does not matter.

Etags

For client side caching, in addition to MaxAge, we will issue Etags. You can use the Etag value to make a request with If-None-Match header. If the resource is still valid, server will then response with a 304 status code.

For example:

GET /api/myresource
Accept: application/json

Status Code: 200
Cache-Control: max-age=100
Content-Length: 24
Content-Type: application/json; charset=utf-8
Date: Fri, 25 Jan 2013 03:37:11 GMT
ETag: "5c479911-97b9-4b78-ae3e-d09db420d5ba"
Server: Microsoft-HTTPAPI/2.0

On the next request:

GET /api/myresource
Accept: application/json
If-None-Match: "5c479911-97b9-4b78-ae3e-d09db420d5ba"

Status Code: 304
Cache-Control: max-age=100
Content-Length: 0
Date: Fri, 25 Jan 2013 03:37:13 GMT
Server: Microsoft-HTTPAPI/2.0

License

Licensed under MIT. License included.

Product Compatible and additional computed target framework versions.
.NET net5.0 was computed.  net5.0-windows was computed.  net6.0 is compatible.  net6.0-android was computed.  net6.0-ios was computed.  net6.0-maccatalyst was computed.  net6.0-macos was computed.  net6.0-tvos was computed.  net6.0-windows was computed.  net7.0 is compatible.  net7.0-android was computed.  net7.0-ios was computed.  net7.0-maccatalyst was computed.  net7.0-macos was computed.  net7.0-tvos was computed.  net7.0-windows was computed.  net8.0 is compatible.  net8.0-android was computed.  net8.0-browser was computed.  net8.0-ios was computed.  net8.0-maccatalyst was computed.  net8.0-macos was computed.  net8.0-tvos was computed.  net8.0-windows was computed. 
.NET Core netcoreapp3.1 is compatible. 
Compatible target framework(s)
Included target framework(s) (in package)
Learn more about Target Frameworks and .NET Standard.
  • .NETCoreApp 3.1

    • No dependencies.
  • net6.0

    • No dependencies.
  • net7.0

    • No dependencies.
  • net8.0

    • No dependencies.

NuGet packages (4)

Showing the top 4 NuGet packages that depend on AspNetCore.CacheOutput:

Package Downloads
AspNetCore.CacheOutput.InMemory

InMemoryOutputCacheProvider for AspNetCore.CacheOutput package

AspNetCore.CacheOutput.Redis

StackExchangeRedisOutputCacheProvider for AspNetCore.CacheOutput package

AspNetCore.CacheOutput.LiteDB

Provider for caching using ASPNet OutputCache using LiteDatabase. For using with ASP.NET Core port of Strathweb.CacheOutput library developed by Alexander Shabunevich (https://github.com/Iamcerba/AspNetCore.CacheOutput)

NetcodeHub.Packages.Wrappers.OutputCache

NetcodeHubOutputCacheService is a robust .NET library designed to simplify caching operations in your applications. This package provides a straightforward interface to interact with caching mechanisms, ensuring efficient and thread-safe caching of data. It integrates seamlessly with various caching stores through the IOutputCacheStore interface, supporting asynchronous operations to set, retrieve, and remove cached data.

GitHub repositories

This package is not used by any popular GitHub repositories.

Version Downloads Last updated
3.1.0 87,757 2/26/2024
3.0.0 208,794 4/4/2023
3.0.0-pre3 210 4/4/2023
3.0.0-pre2 147 4/3/2023
3.0.0-pre1 1,771 2/5/2023
2.1.0 293,985 11/25/2021
2.0.3.1 6,791 10/18/2021
2.0.2 18,612 9/8/2021
2.0.0-pre2 878 7/7/2021
2.0.0-pre1 475 5/5/2021
1.0.11.2 155,863 10/29/2020
1.0.11.1 35,457 7/21/2020
1.0.11 20,197 2/8/2020
1.0.10 16,160 3/4/2019
1.0.9 15,712 12/18/2018
1.0.5 803 11/12/2018
1.0.4 4,933 2/21/2018
1.0.3 2,508 2/13/2018