本文整理汇总了C#中System.ServiceModel.ServiceBehaviorAttribute.ConcurrencyMode属性的典型用法代码示例。如果您正苦于以下问题:C# ServiceBehaviorAttribute.ConcurrencyMode属性的具体用法?C# ServiceBehaviorAttribute.ConcurrencyMode怎么用?C# ServiceBehaviorAttribute.ConcurrencyMode使用的例子?那么, 这里精选的属性代码示例或许可以为您提供帮助。您也可以进一步了解该属性所在类System.ServiceModel.ServiceBehaviorAttribute
的用法示例。
在下文中一共展示了ServiceBehaviorAttribute.ConcurrencyMode属性的1个代码示例,这些例子默认根据受欢迎程度排序。您可以为喜欢或者感觉有用的代码点赞,您的评价将有助于系统推荐出更棒的C#代码示例。
示例1: GetWebPage
//引入命名空间
using System;
using System.ServiceModel;
[ServiceContract]
public interface IHttpFetcher
{
[OperationContract]
string GetWebPage(string address);
}
// These classes have the invariant that:
// this.slow.GetWebPage(this.cachedAddress) == this.cachedWebPage.
// When you read cached values you can assume they are valid. When
// you write the cached values, you must guarantee that they are valid.
// With ConcurrencyMode.Single, WCF does not call again into the object
// so long as the method is running. After the operation returns the object
// can be called again, so you must make sure state is consistent before
// returning.
[ServiceBehavior(ConcurrencyMode = ConcurrencyMode.Single)]
class SingleCachingHttpFetcher : IHttpFetcher
{
string cachedWebPage;
string cachedAddress;
readonly IHttpFetcher slow;
public string GetWebPage(string address)
{
// <-- Can assume cache is valid.
if (this.cachedAddress == address)
{
return this.cachedWebPage;
}
// <-- Cache is no longer valid because we are changing
// one of the values.
this.cachedAddress = address;
string webPage = slow.GetWebPage(address);
this.cachedWebPage = webPage;
// <-- Cache is valid again here.
return this.cachedWebPage;
// <-- Must guarantee that the cache is valid because we are returning.
}
}
// With ConcurrencyMode.Reentrant, WCF makes sure that only one
// thread runs in your code at a time. However, when you call out on a
// channel, the operation can get called again on another thread. Therefore
// you must confirm that state is consistent both before channel calls and
// before you return.
[ServiceBehavior(ConcurrencyMode = ConcurrencyMode.Reentrant)]
class ReentrantCachingHttpFetcher : IHttpFetcher
{
string cachedWebPage;
string cachedAddress;
readonly SlowHttpFetcher slow;
public ReentrantCachingHttpFetcher()
{
this.slow = new SlowHttpFetcher();
}
public string GetWebPage(string address)
{
// <-- Can assume that cache is valid.
if (this.cachedAddress == address)
{
return this.cachedWebPage;
}
// <-- Must guarantee that the cache is valid, because
// the operation can be called again before we return.
string webPage = slow.GetWebPage(address);
// <-- Can assume cache is valid.
// <-- Cache is no longer valid because we are changing
// one of the values.
this.cachedAddress = address;
this.cachedWebPage = webPage;
// <-- Cache is valid again here.
return this.cachedWebPage;
// <-- Must guarantee that cache is valid because we are returning.
}
}
// With ConcurrencyMode.Multiple, threads can call an operation at any time.
// It is your responsibility to guard your state with locks. If
// you always guarantee you leave state consistent when you leave
// the lock, you can assume it is valid when you enter the lock.
[ServiceBehavior(ConcurrencyMode = ConcurrencyMode.Multiple)]
class MultipleCachingHttpFetcher : IHttpFetcher
{
string cachedWebPage;
string cachedAddress;
readonly SlowHttpFetcher slow;
readonly object ThisLock = new object();
public MultipleCachingHttpFetcher()
{
this.slow = new SlowHttpFetcher();
}
public string GetWebPage(string address)
{
lock (this.ThisLock)
{
// <-- Can assume cache is valid.
if (this.cachedAddress == address)
{
return this.cachedWebPage;
// <-- Must guarantee that cache is valid because
// the operation returns and releases the lock.
}
// <-- Must guarantee that cache is valid here because
// the operation releases the lock.
}
string webPage = slow.GetWebPage(address);
lock (this.ThisLock)
{
// <-- Can assume cache is valid.
// <-- Cache is no longer valid because the operation
// changes one of the values.
this.cachedAddress = address;
this.cachedWebPage = webPage;
// <-- Cache is valid again here.
// <-- Must guarantee that cache is valid because
// the operation releases the lock.
}
return webPage;
}
}