Aar*_*ght 31 .net multithreading caching atomic
背景:
我维护了几个可以或已经从缓存中受益的Winforms应用程序和类库.我也知道缓存应用程序块和System.Web.Caching命名空间(根据我的收集,在ASP.NET之外使用它是完全可以的).
我发现,尽管上述两个类在技术上都是"线程安全的",因为单个方法是同步的,但它们似乎并没有真正适用于多线程方案.具体来说,它们没有实现类似于.NET 4.0中新类的GetOrAdd方法ConcurrentDictionary.
我认为这种方法是缓存/查找功能的原始方法,显然框架设计者也意识到了这一点 - 这就是为什么方法存在于并发集合中的原因.但是,除了我还没有在生产应用程序中使用.NET 4.0这一事实,字典不是一个完整的缓存 - 它没有像过期,持久/分布式存储等功能.
为什么这很重要:
"富客户端"应用程序(甚至是某些Web应用程序)中的一个相当典型的设计是在应用程序启动时立即开始预加载缓存,阻止客户端请求尚未加载的数据(随后将其缓存以备将来使用)使用).如果用户正在快速浏览他的工作流程,或者网络连接速度很慢,那么客户端与预加载器竞争并不常见,并且两次请求相同的数据真的没有多大意义. ,特别是如果请求相对昂贵.
所以我似乎留下了一些同样糟糕的选择:
不要试图使操作成为原子,并冒着两次加载数据的风险(并且可能有两个不同的线程在不同的副本上运行);
序列化对缓存的访问,这意味着锁定整个缓存只是为了加载单个项目 ;
开始重新发明轮子只是为了获得一些额外的方法.
澄清:示例时间表
假设当应用程序启动时,它需要加载3个数据集,每个数据集需要10秒才能加载.请考虑以下两个时间表:
00:00 - Start loading Dataset 1 00:10 - Start loading Dataset 2 00:19 - User asks for Dataset 2
在上面的例子中,如果我们不使用任何类型的同步,用户必须等待整整10秒才能获得1秒内可用的数据,因为代码将看到该项目尚未加载到缓存中并尝试重新加载它.
00:00 - Start loading Dataset 1 00:10 - Start loading Dataset 2 00:11 - User asks for Dataset 1
在这种情况下,用户要求已经在缓存中的数据.但是如果我们序列化对缓存的访问,他将不得不等待另外9秒,因为缓存管理器(无论是什么)都不知道要求的特定项目,只有那个"东西"是被要求和"某事"正在进行中.
问题:
是否有任何.NET(4.0之前版本)的缓存库可以实现这样的原子操作,正如人们对线程安全缓存所期望的那样?
或者,是否有一些方法来扩展现有的"线程安全"缓存以支持此类操作,而无需序列化对缓存的访问(这将首先破坏使用线程安全实现的目的)?我怀疑是否有,但也许我只是累了,忽略了一个明显的解决方法.
或者...还有什么我想念的吗?如果两个竞争线程碰巧同时第一次或在到期后同时请求相同的项目,那么让两个竞争线程相互流动只是标准做法吗?
我知道你的痛苦,因为我是Dedoose的建筑师之一.我已经搞砸了许多缓存库,最终在经历了多次灾难之后构建了这个库.此缓存管理器的一个假设是,此类存储的所有集合都实现了一个接口,以便将Guid作为每个对象的"Id"属性.因为这是一个RIA,它包含了很多方法来添加/更新/删除这些集合中的项目.
这是我的CollectionCacheManager
public class CollectionCacheManager
{
private static readonly object _objLockPeek = new object();
private static readonly Dictionary<String, object> _htLocksByKey = new Dictionary<string, object>();
private static readonly Dictionary<String, CollectionCacheEntry> _htCollectionCache = new Dictionary<string, CollectionCacheEntry>();
private static DateTime _dtLastPurgeCheck;
public static List<T> FetchAndCache<T>(string sKey, Func<List<T>> fGetCollectionDelegate) where T : IUniqueIdActiveRecord
{
List<T> colItems = new List<T>();
lock (GetKeyLock(sKey))
{
if (_htCollectionCache.Keys.Contains(sKey) == true)
{
CollectionCacheEntry objCacheEntry = _htCollectionCache[sKey];
colItems = (List<T>) objCacheEntry.Collection;
objCacheEntry.LastAccess = DateTime.Now;
}
else
{
colItems = fGetCollectionDelegate();
SaveCollection<T>(sKey, colItems);
}
}
List<T> objReturnCollection = CloneCollection<T>(colItems);
return objReturnCollection;
}
public static List<Guid> FetchAndCache(string sKey, Func<List<Guid>> fGetCollectionDelegate)
{
List<Guid> colIds = new List<Guid>();
lock (GetKeyLock(sKey))
{
if (_htCollectionCache.Keys.Contains(sKey) == true)
{
CollectionCacheEntry objCacheEntry = _htCollectionCache[sKey];
colIds = (List<Guid>)objCacheEntry.Collection;
objCacheEntry.LastAccess = DateTime.Now;
}
else
{
colIds = fGetCollectionDelegate();
SaveCollection(sKey, colIds);
}
}
List<Guid> colReturnIds = CloneCollection(colIds);
return colReturnIds;
}
private static List<T> GetCollection<T>(string sKey) where T : IUniqueIdActiveRecord
{
List<T> objReturnCollection = null;
if (_htCollectionCache.Keys.Contains(sKey) == true)
{
CollectionCacheEntry objCacheEntry = null;
lock (GetKeyLock(sKey))
{
objCacheEntry = _htCollectionCache[sKey];
objCacheEntry.LastAccess = DateTime.Now;
}
if (objCacheEntry.Collection != null && objCacheEntry.Collection is List<T>)
{
objReturnCollection = CloneCollection<T>((List<T>)objCacheEntry.Collection);
}
}
return objReturnCollection;
}
public static void SaveCollection<T>(string sKey, List<T> colItems) where T : IUniqueIdActiveRecord
{
CollectionCacheEntry objCacheEntry = new CollectionCacheEntry();
objCacheEntry.Key = sKey;
objCacheEntry.CacheEntry = DateTime.Now;
objCacheEntry.LastAccess = DateTime.Now;
objCacheEntry.LastUpdate = DateTime.Now;
objCacheEntry.Collection = CloneCollection(colItems);
lock (GetKeyLock(sKey))
{
_htCollectionCache[sKey] = objCacheEntry;
}
}
public static void SaveCollection(string sKey, List<Guid> colIDs)
{
CollectionCacheEntry objCacheEntry = new CollectionCacheEntry();
objCacheEntry.Key = sKey;
objCacheEntry.CacheEntry = DateTime.Now;
objCacheEntry.LastAccess = DateTime.Now;
objCacheEntry.LastUpdate = DateTime.Now;
objCacheEntry.Collection = CloneCollection(colIDs);
lock (GetKeyLock(sKey))
{
_htCollectionCache[sKey] = objCacheEntry;
}
}
public static void UpdateCollection<T>(string sKey, List<T> colItems) where T : IUniqueIdActiveRecord
{
lock (GetKeyLock(sKey))
{
if (_htCollectionCache.ContainsKey(sKey) == true)
{
CollectionCacheEntry objCacheEntry = _htCollectionCache[sKey];
objCacheEntry.LastAccess = DateTime.Now;
objCacheEntry.LastUpdate = DateTime.Now;
objCacheEntry.Collection = new List<T>();
//Clone the collection before insertion to ensure it can't be touched
foreach (T objItem in colItems)
{
objCacheEntry.Collection.Add(objItem);
}
_htCollectionCache[sKey] = objCacheEntry;
}
else
{
SaveCollection<T>(sKey, colItems);
}
}
}
public static void UpdateItem<T>(string sKey, T objItem) where T : IUniqueIdActiveRecord
{
lock (GetKeyLock(sKey))
{
if (_htCollectionCache.ContainsKey(sKey) == true)
{
CollectionCacheEntry objCacheEntry = _htCollectionCache[sKey];
List<T> colItems = (List<T>)objCacheEntry.Collection;
colItems.RemoveAll(o => o.Id == objItem.Id);
colItems.Add(objItem);
objCacheEntry.Collection = colItems;
objCacheEntry.LastAccess = DateTime.Now;
objCacheEntry.LastUpdate = DateTime.Now;
}
}
}
public static void UpdateItems<T>(string sKey, List<T> colItemsToUpdate) where T : IUniqueIdActiveRecord
{
lock (GetKeyLock(sKey))
{
if (_htCollectionCache.ContainsKey(sKey) == true)
{
CollectionCacheEntry objCacheEntry = _htCollectionCache[sKey];
List<T> colCachedItems = (List<T>)objCacheEntry.Collection;
foreach (T objItem in colItemsToUpdate)
{
colCachedItems.RemoveAll(o => o.Id == objItem.Id);
colCachedItems.Add(objItem);
}
objCacheEntry.Collection = colCachedItems;
objCacheEntry.LastAccess = DateTime.Now;
objCacheEntry.LastUpdate = DateTime.Now;
}
}
}
public static void RemoveItemFromCollection<T>(string sKey, T objItem) where T : IUniqueIdActiveRecord
{
lock (GetKeyLock(sKey))
{
List<T> objCollection = GetCollection<T>(sKey);
if (objCollection != null && objCollection.Count(o => o.Id == objItem.Id) > 0)
{
objCollection.RemoveAll(o => o.Id == objItem.Id);
UpdateCollection<T>(sKey, objCollection);
}
}
}
public static void RemoveItemsFromCollection<T>(string sKey, List<T> colItemsToAdd) where T : IUniqueIdActiveRecord
{
lock (GetKeyLock(sKey))
{
Boolean bCollectionChanged = false;
List<T> objCollection = GetCollection<T>(sKey);
foreach (T objItem in colItemsToAdd)
{
if (objCollection != null && objCollection.Count(o => o.Id == objItem.Id) > 0)
{
objCollection.RemoveAll(o => o.Id == objItem.Id);
bCollectionChanged = true;
}
}
if (bCollectionChanged == true)
{
UpdateCollection<T>(sKey, objCollection);
}
}
}
public static void AddItemToCollection<T>(string sKey, T objItem) where T : IUniqueIdActiveRecord
{
lock (GetKeyLock(sKey))
{
List<T> objCollection = GetCollection<T>(sKey);
if (objCollection != null && objCollection.Count(o => o.Id == objItem.Id) == 0)
{
objCollection.Add(objItem);
UpdateCollection<T>(sKey, objCollection);
}
}
}
public static void AddItemsToCollection<T>(string sKey, List<T> colItemsToAdd) where T : IUniqueIdActiveRecord
{
lock (GetKeyLock(sKey))
{
List<T> objCollection = GetCollection<T>(sKey);
Boolean bCollectionChanged = false;
foreach (T objItem in colItemsToAdd)
{
if (objCollection != null && objCollection.Count(o => o.Id == objItem.Id) == 0)
{
objCollection.Add(objItem);
bCollectionChanged = true;
}
}
if (bCollectionChanged == true)
{
UpdateCollection<T>(sKey, objCollection);
}
}
}
public static void PurgeCollectionByMaxLastAccessInMinutes(int iMinutesSinceLastAccess)
{
DateTime dtThreshHold = DateTime.Now.AddMinutes(iMinutesSinceLastAccess * -1);
if (_dtLastPurgeCheck == null || dtThreshHold > _dtLastPurgeCheck)
{
lock (_objLockPeek)
{
CollectionCacheEntry objCacheEntry;
List<String> colKeysToRemove = new List<string>();
foreach (string sCollectionKey in _htCollectionCache.Keys)
{
objCacheEntry = _htCollectionCache[sCollectionKey];
if (objCacheEntry.LastAccess < dtThreshHold)
{
colKeysToRemove.Add(sCollectionKey);
}
}
foreach (String sKeyToRemove in colKeysToRemove)
{
_htCollectionCache.Remove(sKeyToRemove);
}
}
_dtLastPurgeCheck = DateTime.Now;
}
}
public static void ClearCollection(String sKey)
{
lock (GetKeyLock(sKey))
{
lock (_objLockPeek)
{
if (_htCollectionCache.ContainsKey(sKey) == true)
{
_htCollectionCache.Remove(sKey);
}
}
}
}
#region Helper Methods
private static object GetKeyLock(String sKey)
{
//Ensure even if hell freezes over this lock exists
if (_htLocksByKey.Keys.Contains(sKey) == false)
{
lock (_objLockPeek)
{
if (_htLocksByKey.Keys.Contains(sKey) == false)
{
_htLocksByKey[sKey] = new object();
}
}
}
return _htLocksByKey[sKey];
}
private static List<T> CloneCollection<T>(List<T> colItems) where T : IUniqueIdActiveRecord
{
List<T> objReturnCollection = new List<T>();
//Clone the list - NEVER return the internal cache list
if (colItems != null && colItems.Count > 0)
{
List<T> colCachedItems = (List<T>)colItems;
foreach (T objItem in colCachedItems)
{
objReturnCollection.Add(objItem);
}
}
return objReturnCollection;
}
private static List<Guid> CloneCollection(List<Guid> colIds)
{
List<Guid> colReturnIds = new List<Guid>();
//Clone the list - NEVER return the internal cache list
if (colIds != null && colIds.Count > 0)
{
List<Guid> colCachedItems = (List<Guid>)colIds;
foreach (Guid gId in colCachedItems)
{
colReturnIds.Add(gId);
}
}
return colReturnIds;
}
#endregion
#region Admin Functions
public static List<CollectionCacheEntry> GetAllCacheEntries()
{
return _htCollectionCache.Values.ToList();
}
public static void ClearEntireCache()
{
_htCollectionCache.Clear();
}
#endregion
}
public sealed class CollectionCacheEntry
{
public String Key;
public DateTime CacheEntry;
public DateTime LastUpdate;
public DateTime LastAccess;
public IList Collection;
}
以下是我如何使用它的示例:
public static class ResourceCacheController
{
#region Cached Methods
public static List<Resource> GetResourcesByProject(Guid gProjectId)
{
String sKey = GetCacheKeyProjectResources(gProjectId);
List<Resource> colItems = CollectionCacheManager.FetchAndCache<Resource>(sKey, delegate() { return ResourceAccess.GetResourcesByProject(gProjectId); });
return colItems;
}
#endregion
#region Cache Dependant Methods
public static int GetResourceCountByProject(Guid gProjectId)
{
return GetResourcesByProject(gProjectId).Count;
}
public static List<Resource> GetResourcesByIds(Guid gProjectId, List<Guid> colResourceIds)
{
if (colResourceIds == null || colResourceIds.Count == 0)
{
return null;
}
return GetResourcesByProject(gProjectId).FindAll(objRes => colResourceIds.Any(gId => objRes.Id == gId)).ToList();
}
public static Resource GetResourceById(Guid gProjectId, Guid gResourceId)
{
return GetResourcesByProject(gProjectId).SingleOrDefault(o => o.Id == gResourceId);
}
#endregion
#region Cache Keys and Clear
public static void ClearCacheProjectResources(Guid gProjectId)
{ CollectionCacheManager.ClearCollection(GetCacheKeyProjectResources(gProjectId));
}
public static string GetCacheKeyProjectResources(Guid gProjectId)
{
return string.Concat("ResourceCacheController.ProjectResources.", gProjectId.ToString());
}
#endregion
internal static void ProcessDeleteResource(Guid gProjectId, Guid gResourceId)
{
Resource objRes = GetResourceById(gProjectId, gResourceId);
if (objRes != null)
{ CollectionCacheManager.RemoveItemFromCollection(GetCacheKeyProjectResources(gProjectId), objRes);
}
}
internal static void ProcessUpdateResource(Resource objResource)
{
CollectionCacheManager.UpdateItem(GetCacheKeyProjectResources(objResource.Id), objResource);
}
internal static void ProcessAddResource(Guid gProjectId, Resource objResource)
{
CollectionCacheManager.AddItemToCollection(GetCacheKeyProjectResources(gProjectId), objResource);
}
}
这是有问题的接口:
public interface IUniqueIdActiveRecord
{
Guid Id { get; set; }
}
希望这会有所帮助,我已经经历过几次地狱而已经最终到达这个解决方案,对我们来说这是一个天赐之物,但我不能保证它是完美的,只是我们还没有发现问题.
| 归档时间: |
|
| 查看次数: |
6363 次 |
| 最近记录: |