async-await原理解析
在用async包裹的方法体中,可以使用await关键字以同步的方式编写异步调用的代码。那么它的内部实现原理是什么样的呢?我们是否可以自定义await以实现定制性的需求呢?先来看一个简单的例子:
1 class Test { 2 public static void Main (string[] args) { 3 Task.Run (new Func<Task<string>>(task1)); 4 Console.ReadLine (); 5 } 6 7 private async static Task<string> task1() { 8 string ret = await task2 (); 9 Console.WriteLine ("Await Task Result:" + ret); 10 return ret; 11 } 12 13 private static Task<string> task2() { 14 return Task.FromResult<string> ("Task2"); 15 } 16 }
通过ILSpy反编译(要关闭"视图-选项-反编译await/async"菜单项),得到如下代码:
1 internal class Test 2 { 3 [CompilerGenerated] 4 [StructLayout(LayoutKind.Auto)] 5 private struct <task1>d__0 : IAsyncStateMachine 6 { 7 public int <>1__state; 9 public AsyncTaskMethodBuilder<string> <>t__builder; 11 public string <ret>5__1; 13 private TaskAwaiter<string> <>u__$awaiter2; 15 private object <>t__stack; 16 17 void IAsyncStateMachine.MoveNext() 18 { 19 string result; 20 try 21 { 22 int num = this.<>1__state; 23 if (num != -3) 24 { 25 TaskAwaiter<string> taskAwaiter; 26 if (num != 0) 27 { 28 taskAwaiter = Test.task2().GetAwaiter(); 29 if (!taskAwaiter.IsCompleted) 30 { 31 this.<>1__state = 0; 32 this.<>u__$awaiter2 = taskAwaiter; 33 this.<>t__builder.AwaitUnsafeOnCompleted<TaskAwaiter<string>, Test.<task1>d__0>(ref taskAwaiter, ref this); 34 return; 35 } 36 } 37 else 38 { 39 taskAwaiter = this.<>u__$awaiter2; 40 this.<>u__$awaiter2 = default(TaskAwaiter<string>); 41 this.<>1__state = -1; 42 } 43 string arg_86_0 = taskAwaiter.GetResult(); 44 taskAwaiter = default(TaskAwaiter<string>); 45 string text = arg_86_0; 46 this.<ret>5__1 = text; 47 Console.WriteLine("Await Task Result:" + this.<ret>5__1); 48 result = this.<ret>5__1; 49 } 50 } 51 catch (Exception exception) 52 { 53 this.<>1__state = -2; 54 this.<>t__builder.SetException(exception); 55 return; 56 } 57 this.<>1__state = -2; 58 this.<>t__builder.SetResult(result); 59 } 60 61 [DebuggerHidden] 62 void IAsyncStateMachine.SetStateMachine(IAsyncStateMachine param0) 63 { 64 this.<>t__builder.SetStateMachine(param0); 65 } 66 } 67 68 public static void Main(string[] args) 69 { 70 Task.Run<string>(new Func<Task<string>>(Test.task1)); 71 Console.ReadLine(); 72 } 73 74 [DebuggerStepThrough, AsyncStateMachine(typeof(Test.<task1>d__0))] 75 private static Task<string> task1() 76 { 77 Test.<task1>d__0 <task1>d__; 78 <task1>d__.<>t__builder = AsyncTaskMethodBuilder<string>.Create(); 79 <task1>d__.<>1__state = -1; 80 AsyncTaskMethodBuilder<string> <>t__builder = <task1>d__.<>t__builder; 81 <>t__builder.Start<Test.<task1>d__0>(ref <task1>d__); 82 return <task1>d__.<>t__builder.Task; 83 } 84 85 private static Task<string> task2() 86 { 87 return Task.FromResult<string>("Task2"); 88 } 89 }
按照代码的调用顺序,我们关注下task1()的内部实现。
首先是初始化结构体<task1>d_0的实例<task1>d__。那么<task1>d__0是个什么东东呢?由编译器的生成代码中可以看到,它是一个实现了IAsyncStateMachine接口的结构体,而用户代码则被编译器重新组织进了MoveNext()方法中。<task1>d__0有个内部状态成员<>1__state,MoveNext()方法根据这个状态调转到相应的代码块中加以执行。
了解了<task1>d__0的声明实现,再看下task1()方法中的具体调用。在创建实例<task1>d__之后,设置初始状态<>1__state为-1,并调用<>t__builder的Start方法。不难推断,在Start方法中会调用<task1>d__.MoveNext(),此时内部状态为-1,会先调用Test.task2().GetAwaiter()获取其所关联的TaskAwaiter实例。如果awaiter当前是未结束的话,则设置<>1__state为0,并将当前<task1>d__作为参数关联到TaskAwaiter实例的onCompletedContinuation回调延续中去。当未来某个时刻,TaskAwaiter所关联的Task任务结束时,会设置awaiter的异步结果并触发回调延续,导致调用<task1>d__.MoveNext()方法,并最终跳转到用户代码块中,获取awaiter的异步结果并交由用户代码处理。这个回调,基于Task.ConfigureAwait(true/false)的不同,会在后续切换到当前线程或是从线程池中取了一个空闲线程来处理(更细节可参考.net源码分析)。
这里要顺便提一句,在本例中,通过Task.Run创建了taskX1,await之后的代码与taskX1没有任何关系,从编译器生成的代码来看,在调用task1()方法并调用<task1>d__.Start()方法之后taskX便结束了,虽然task1()方法返回了新的Task<string>实例,但是只是特定类型的返回值而已,与taskX1或Task没有任何关系。
由以上分析可以看到,async/await只是一个语法糖,async告知编译器要生成状态机代码,await则是配合生成GetAwaiter(),并封装跳转的用户代码块。除此之外,async/await与Task没有任何直接关系。而TaskAwaiter的作用,是实现INotifyCompletion(在System.Runtime.CompilerServices命名空间)以桥接异步回调过程。那么第二个自定义await的问题便一目了然了:任何类型,只需要实现GetAwaiter()方法以返回INotifyCompletion实例,便可以被await。
举个例子:
1 class TestAwaiter<T> : INotifyCompletion { 2 private T result; 3 private Action continuation; 4 5 // INotifyCompletion Implement 6 public void OnCompleted(Action continuation) { this.continuation = continuation; } 7 8 // Compiler Call Methods 9 public bool IsCompleted { get; private set; } 10 public T GetResult() { return result; } 11 public TestAwaiter<T> GetAwaiter() { return this; }
// Self Call Methods 12 public void SetResult(T ret) { 13 result = ret; 14 if (continuation != null) { 15 continuation (); 16 } 17 } 18 } 19 20 class Test { 21 public static void Main (string[] args) { 22 Task.Run (new Action(task1)); 23 Console.ReadLine (); 24 } 25 26 private async static void task1() { 27 Console.WriteLine ("Begin await:"); 28 int ret = await testAwaiter (); 29 Console.WriteLine ("Await Task Result:" + ret); 30 } 31 32 private static TestAwaiter<int> testAwaiter() { 33 TestAwaiter<int> awaiter = new TestAwaiter<int> (); 34 ThreadPool.QueueUserWorkItem (_ => { 35 Thread.Sleep(3000); 36 awaiter.SetResult (100); 37 }); 38 return awaiter; 39 } 40 }
这里没有再定义单独的类型以返回TestAwaiter,而是把二者都封装在了TestAwaiter内部。运行结果如下:
Begin await:
Await Task Result:100
