260

I have read lots of information about page caching and partial page caching in a MVC application. However, I would like to know how you would cache data.

In my scenario I will be using LINQ to Entities (entity framework). On the first call to GetNames (or whatever the method is) I want to grab the data from the database. I want to save the results in cache and on the second call to use the cached version if it exists.

Can anyone show an example of how this would work, where this should be implemented (model?) and if it would work.

I have seen this done in traditional ASP.NET apps , typically for very static data.

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1
  • 1
    In reviewing the answers below, be sure to consider whether you want to have your controller have knowledge of / responsibility for data access and caching concerns. Generally you want to separate this. See the Repository Pattern for a good way to do so: deviq.com/repository-pattern
    – ssmith
    Jul 14, 2016 at 17:35

14 Answers 14

Reset to default
411

Here's a nice and simple cache helper class/service I use: 

using System.Runtime.Caching;  

public class InMemoryCache: ICacheService
{
    public T GetOrSet<T>(string cacheKey, Func<T> getItemCallback) where T : class
    {
        T item = MemoryCache.Default.Get(cacheKey) as T;
        if (item == null)
        {
            item = getItemCallback();
            MemoryCache.Default.Add(cacheKey, item, DateTime.Now.AddMinutes(10));
        }
        return item;
    }
}

interface ICacheService
{
    T GetOrSet<T>(string cacheKey, Func<T> getItemCallback) where T : class;
}

Usage:

cacheProvider.GetOrSet("cache key", (delegate method if cache is empty));

Cache provider will check if there's anything by the name of "cache id" in the cache, and if there's not, it will call a delegate method to fetch data and store it in cache.

Example:

var products=cacheService.GetOrSet("catalog.products", ()=>productRepository.GetAll())
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27
  • 3
    I've adapted this so that the caching mechanism is used per user session by using HttpContext.Current.Session instead. I've also put a Cache property on my BaseController class so its easy access and updated the constructor allow for DI for unit testing. Hope this helps.
    – WestDiscGolf
    Jan 8, 2010 at 12:23
  • 1
    You can also make this class and method static for reusability among other controllers.
    – Alex
    Mar 9, 2010 at 19:45
  • 5
    This class shouldn't depend on HttpContext. I simplified it just for example purpose here. Cache object must be inserted through constructor - it can be replaced then with other caching mechanisms . All this is achieved with IoC/DI, along with static (singleton) life cycle.
    – Hrvoje Hudo
    Jul 26, 2010 at 11:12
  • 3
    @Brendan - and worse still, it has magic strings in place for the cache keys, rather than inferring them from the method name and parameters.
    – ssmith
    Jun 3, 2011 at 20:58
  • 5
    This is an awesome low level solution. Like others have alluded to, you'd want to wrap this in a type safe, domain-specific class. Accessing this directly in your controllers would be a maintenance nightmare because of the magic strings.
    – Josh Noe
    Aug 1, 2013 at 16:15
79

Reference the System.Web dll in your model and use System.Web.Caching.Cache

    public string[] GetNames()
    {
      string[] names = Cache["names"] as string[];
      if(names == null) //not in cache
      {
        names = DB.GetNames();
        Cache["names"] = names;
      }
      return names;
    }

A bit simplified but I guess that would work. This is not MVC specific and I have always used this method for caching data.

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  • 91
    I don't recommend this solution: in the return, you might get a null object again, because it's re-reading in the cache and it might have been dropped from the cache already. I'd rather do: public string[] GetNames() { string[] noms = Cache["names"]; if(noms == null) { noms = DB.GetNames(); Cache["names"] = noms; } return (noms); }
    – Oli
    Jul 8, 2009 at 15:30
  • I agree with Oli.. getting the results from the actual call to the DB is better than getting them from the cache
    – CodeClimber
    Jul 8, 2009 at 21:48
  • 1
    Does this work with the DB.GetNames().AsQueryable method of delaying the query?
    – Chase Florell
    Aug 9, 2010 at 21:56
  • Not unless you change return value from string[] to IEnumerable<string>
    – terjetyl
    Aug 10, 2010 at 8:55
  • 14
    If you don't set expiration..when does cache expire by default?
    – Chaka
    Sep 27, 2013 at 13:58
43

I'm referring to TT's post and suggest the following approach:

Reference the System.Web dll in your model and use System.Web.Caching.Cache

public string[] GetNames()
{ 
    var noms = Cache["names"];
    if(noms == null) 
    {    
        noms = DB.GetNames();
        Cache["names"] = noms; 
    }

    return ((string[])noms);
}

You should not return a value re-read from the cache, since you'll never know if at that specific moment it is still in the cache. Even if you inserted it in the statement before, it might already be gone or has never been added to the cache - you just don't know.

So you add the data read from the database and return it directly, not re-reading from the cache.

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3
  • But doesn't the line Cache["names"] = noms; put in the cache?
    – Omar
    Jan 19, 2010 at 17:16
  • 2
    @Baddie Yes it does. But this example is different to the first Oli is referring to, because he doesn't access the cache again - the problem is that just doing: return (string[])Cache["names"]; .. COULD result in a null value being returned, because it COULD have expired. It's not likely, but it can happen. This example is better, because we store the actual value returned from the db in memory, cache that value, and then return that value, not the value re-read from the cache.
    – jamiebarrow
    Nov 2, 2010 at 16:19
  • Or... the value re-read from cache, if it still exists (!= null). Hence, the entire point of caching. This is just to say that it double-checks for null values, and reads the database where necessary. Very smart, thanks Oli!
    – Sean Kendle
    Nov 23, 2015 at 20:33
42

For .NET 4.5+ framework

add reference: System.Runtime.Caching

add using statement: using System.Runtime.Caching;

public string[] GetNames()
{ 
    var noms = System.Runtime.Caching.MemoryCache.Default["names"];
    if(noms == null) 
    {    
        noms = DB.GetNames();
        System.Runtime.Caching.MemoryCache.Default["names"] = noms; 
    }

    return ((string[])noms);
}

In the .NET Framework 3.5 and earlier versions, ASP.NET provided an in-memory cache implementation in the System.Web.Caching namespace. In previous versions of the .NET Framework, caching was available only in the System.Web namespace and therefore required a dependency on ASP.NET classes. In the .NET Framework 4, the System.Runtime.Caching namespace contains APIs that are designed for both Web and non-Web applications.

More info:

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4
  • Where is Db.GerNames() coming from?
    – Junior
    Oct 25, 2017 at 17:54
  • DB.GetNames is just a method from the DAL that fetches some names from the database. This is whatever you normally would retrieve.
    – juFo
    Oct 26, 2017 at 5:42
  • This should be on the top as it have the current relevant solution
    – BYISHIMO Audace
    Jun 14, 2019 at 9:32
  • 2
    Thanks, needed to add System.Runtime.Caching nuget package as well (v4.5).
    – Steve Greene
    Jul 16, 2019 at 17:39
26

Steve Smith did two great blog posts which demonstrate how to use his CachedRepository pattern in ASP.NET MVC. It uses the repository pattern effectively and allows you to get caching without having to change your existing code.

http://ardalis.com/Introducing-the-CachedRepository-Pattern

http://ardalis.com/building-a-cachedrepository-via-strategy-pattern

In these two posts he shows you how to set up this pattern and also explains why it is useful. By using this pattern you get caching without your existing code seeing any of the caching logic. Essentially you use the cached repository as if it were any other repository.

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2
8

I have used it in this way and it works for me. https://msdn.microsoft.com/en-us/library/system.web.caching.cache.add(v=vs.110).aspx parameters info for system.web.caching.cache.add.

public string GetInfo()
{
     string name = string.Empty;
     if(System.Web.HttpContext.Current.Cache["KeyName"] == null)
     {
         name = GetNameMethod();
         System.Web.HttpContext.Current.Cache.Add("KeyName", name, null, DateTime.Noew.AddMinutes(5), Cache.NoSlidingExpiration, CacheitemPriority.AboveNormal, null);
     }
     else
     {
         name = System.Web.HttpContext.Current.Cache["KeyName"] as string;
     }

      return name;

}
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2
  • extra upvotes for fully qualifying stuff with it's full namespace!!
    – Ninjanoel
    Nov 28, 2019 at 8:34
  • 1
    DateTime.Noew in answer. Be careful.
    – L0uis
    Oct 12, 2020 at 18:40
4

AppFabric Caching is distributed and an in-memory caching technic that stores data in key-value pairs using physical memory across multiple servers. AppFabric provides performance and scalability improvements for .NET Framework applications. Concepts and Architecture

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1
  • This is specific to Azure, not ASP.NET MVC in general.
    – Henry C
    Apr 29, 2015 at 9:51
3

Extending @Hrvoje Hudo's answer...

Code:

using System;
using System.Runtime.Caching;

public class InMemoryCache : ICacheService
{
    public TValue Get<TValue>(string cacheKey, int durationInMinutes, Func<TValue> getItemCallback) where TValue : class
    {
        TValue item = MemoryCache.Default.Get(cacheKey) as TValue;
        if (item == null)
        {
            item = getItemCallback();
            MemoryCache.Default.Add(cacheKey, item, DateTime.Now.AddMinutes(durationInMinutes));
        }
        return item;
    }

    public TValue Get<TValue, TId>(string cacheKeyFormat, TId id, int durationInMinutes, Func<TId, TValue> getItemCallback) where TValue : class
    {
        string cacheKey = string.Format(cacheKeyFormat, id);
        TValue item = MemoryCache.Default.Get(cacheKey) as TValue;
        if (item == null)
        {
            item = getItemCallback(id);
            MemoryCache.Default.Add(cacheKey, item, DateTime.Now.AddMinutes(durationInMinutes));
        }
        return item;
    }
}

interface ICacheService
{
    TValue Get<TValue>(string cacheKey, Func<TValue> getItemCallback) where TValue : class;
    TValue Get<TValue, TId>(string cacheKeyFormat, TId id, Func<TId, TValue> getItemCallback) where TValue : class;
}

Examples

Single item caching (when each item is cached based on its ID because caching the entire catalog for the item type would be too intensive).

Product product = cache.Get("product_{0}", productId, 10, productData.getProductById);

Caching all of something

IEnumerable<Categories> categories = cache.Get("categories", 20, categoryData.getCategories);

Why TId

The second helper is especially nice because most data keys are not composite. Additional methods could be added if you use composite keys often. In this way you avoid doing all sorts of string concatenation or string.Formats to get the key to pass to the cache helper. It also makes passing the data access method easier because you don't have to pass the ID into the wrapper method... the whole thing becomes very terse and consistant for the majority of use cases.

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1
  • 1
    Your interface definitions are missing the "durationInMinutes" param. ;-)
    – Tech0
    May 11, 2015 at 12:48
3

Here's an improvement to Hrvoje Hudo's answer. This implementation has a couple of key improvements:

  • Cache keys are created automatically based on the function to update data and the object passed in that specifies dependencies
  • Pass in time span for any cache duration
  • Uses a lock for thread safety

Note that this has a dependency on Newtonsoft.Json to serialize the dependsOn object, but that can be easily swapped out for any other serialization method.

ICache.cs

public interface ICache
{
    T GetOrSet<T>(Func<T> getItemCallback, object dependsOn, TimeSpan duration) where T : class;
}

InMemoryCache.cs

using System;
using System.Reflection;
using System.Runtime.Caching;
using Newtonsoft.Json;

public class InMemoryCache : ICache
{
    private static readonly object CacheLockObject = new object();

    public T GetOrSet<T>(Func<T> getItemCallback, object dependsOn, TimeSpan duration) where T : class
    {
        string cacheKey = GetCacheKey(getItemCallback, dependsOn);
        T item = MemoryCache.Default.Get(cacheKey) as T;
        if (item == null)
        {
            lock (CacheLockObject)
            {
                item = getItemCallback();
                MemoryCache.Default.Add(cacheKey, item, DateTime.Now.Add(duration));
            }
        }
        return item;
    }

    private string GetCacheKey<T>(Func<T> itemCallback, object dependsOn) where T: class
    {
        var serializedDependants = JsonConvert.SerializeObject(dependsOn);
        var methodType = itemCallback.GetType();
        return methodType.FullName + serializedDependants;
    }
}

Usage:

var order = _cache.GetOrSet(
    () => _session.Set<Order>().SingleOrDefault(o => o.Id == orderId)
    , new { id = orderId }
    , new TimeSpan(0, 10, 0)
);
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1
  • 2
    The if (item == null) should be inside the lock. Now when this if is before the lock, race condition can occur. Or even better, you should keep if before the lock, but recheck if cache is still empty as the first line inside the lock. Because if two threads come at the same time, they both update the cache. Your current lock is not helpful.
    – Al Kepp
    Jan 19, 2018 at 11:51
3 
public sealed class CacheManager
{
    private static volatile CacheManager instance;
    private static object syncRoot = new Object();
    private ObjectCache cache = null;
    private CacheItemPolicy defaultCacheItemPolicy = null;

    private CacheEntryRemovedCallback callback = null;
    private bool allowCache = true;

    private CacheManager()
    {
        cache = MemoryCache.Default;
        callback = new CacheEntryRemovedCallback(this.CachedItemRemovedCallback);

        defaultCacheItemPolicy = new CacheItemPolicy();
        defaultCacheItemPolicy.AbsoluteExpiration = DateTime.Now.AddHours(1.0);
        defaultCacheItemPolicy.RemovedCallback = callback;
        allowCache = StringUtils.Str2Bool(ConfigurationManager.AppSettings["AllowCache"]); ;
    }
    public static CacheManager Instance
    {
        get
        {
            if (instance == null)
            {
                lock (syncRoot)
                {
                    if (instance == null)
                    {
                        instance = new CacheManager();
                    }
                }
            }

            return instance;
        }
    }

    public IEnumerable GetCache(String Key)
    {
        if (Key == null || !allowCache)
        {
            return null;
        }

        try
        {
            String Key_ = Key;
            if (cache.Contains(Key_))
            {
                return (IEnumerable)cache.Get(Key_);
            }
            else
            {
                return null;
            }
        }
        catch (Exception)
        {
            return null;
        }
    }

    public void ClearCache(string key)
    {
        AddCache(key, null);
    }

    public bool AddCache(String Key, IEnumerable data, CacheItemPolicy cacheItemPolicy = null)
    {
        if (!allowCache) return true;
        try
        {
            if (Key == null)
            {
                return false;
            }

            if (cacheItemPolicy == null)
            {
                cacheItemPolicy = defaultCacheItemPolicy;
            }

            String Key_ = Key;

            lock (Key_)
            {
                return cache.Add(Key_, data, cacheItemPolicy);
            }
        }
        catch (Exception)
        {
            return false;
        }
    }

    private void CachedItemRemovedCallback(CacheEntryRemovedArguments arguments)
    {
        String strLog = String.Concat("Reason: ", arguments.RemovedReason.ToString(), " | Key-Name: ", arguments.CacheItem.Key, " | Value-Object: ", arguments.CacheItem.Value.ToString());
        LogManager.Instance.Info(strLog);
    }
}
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1
  • 4
    Consider adding some explanation
    – Mike Debela
    Jun 1, 2016 at 10:57
1

I use two classes. First one the cache core object:

public class Cacher<TValue>
    where TValue : class
{
    #region Properties
    private Func<TValue> _init;
    public string Key { get; private set; }
    public TValue Value
    {
        get
        {
            var item = HttpRuntime.Cache.Get(Key) as TValue;
            if (item == null)
            {
                item = _init();
                HttpContext.Current.Cache.Insert(Key, item);
            }
            return item;
        }
    }
    #endregion

    #region Constructor
    public Cacher(string key, Func<TValue> init)
    {
        Key = key;
        _init = init;
    }
    #endregion

    #region Methods
    public void Refresh()
    {
        HttpRuntime.Cache.Remove(Key);
    }
    #endregion
}

Second one is list of cache objects:

public static class Caches
{
    static Caches()
    {
        Languages = new Cacher<IEnumerable<Language>>("Languages", () =>
                                                          {
                                                              using (var context = new WordsContext())
                                                              {
                                                                  return context.Languages.ToList();
                                                              }
                                                          });
    }
    public static Cacher<IEnumerable<Language>> Languages { get; private set; }
}
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0

I will say implementing Singleton on this persisting data issue can be a solution for this matter in case you find previous solutions much complicated

 public class GPDataDictionary
{
    private Dictionary<string, object> configDictionary = new Dictionary<string, object>();

    /// <summary>
    /// Configuration values dictionary
    /// </summary>
    public Dictionary<string, object> ConfigDictionary
    {
        get { return configDictionary; }
    }

    private static GPDataDictionary instance;
    public static GPDataDictionary Instance
    {
        get
        {
            if (instance == null)
            {
                instance = new GPDataDictionary();
            }
            return instance;
        }
    }

    // private constructor
    private GPDataDictionary() { }

}  // singleton
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2
  • This worked for me perfectly that is Why I recommend this to everyone whom may be helped by this
    – GeraGamo
    Nov 5, 2015 at 4:59
  • Not so much caching as in-memory object storage.
    – NOCARRIER
    Oct 20, 2023 at 23:50
0 
HttpContext.Current.Cache.Insert("subjectlist", subjectlist);
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-8

You can also try and use the caching built into ASP MVC:

Add the following attribute to the controller method you'd like to cache:

[OutputCache(Duration=10)]

In this case the ActionResult of this will be cached for 10 seconds.

More on this here

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2
  • 4
    OutputCache is for the rendering of Action , the question was in relation to caching data not the page.
    – Coolcoder
    Dec 11, 2008 at 14:22
  • it is off topic but OutputCache also cache the database data
    – Muflix
    Feb 5, 2018 at 13:58

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