zoukankan      html  css  js  c++  java
  • 深入理解WCF系统体系(之二:WCF客户端如何构建?(下))

    前一节介绍了WCF客户端构建的过程,其间又说明了WCF框架中核心ClientRuntime对象建立过程,以及客户端所采用的ClientMessageInspectors、ClientMessageFormatter、ClientOperationSelector等等基础。

    本节目录:
    1、RealProxy建立的过程
    2、TransparentProxy建立的过程
    3、服务调用过程。

    4、总结 

     
    1、RealProxy建立的过程
     

    通过之前的介绍,大家都应该有个共识:客户端通过透明代理建立对应的实际代理对服务进行调用,而在WCF在实际代理对象类型为ServiceChannelProxy。实际代理对象ServiceChannelProxy的建立又是通过它的构造函数完成。先来看看它的构造函数:

     internal ServiceChannelProxy(Type interfaceType, Type proxiedType, MessageDirection direction, ServiceChannel serviceChannel) : base(proxiedType)
        {
            if (!MessageDirectionHelper.IsDefined(direction))
            {
                throw DiagnosticUtility.ExceptionUtility.ThrowHelperError(new ArgumentOutOfRangeException("direction"));
            }
            this.interfaceType = interfaceType;
            this.proxiedType = proxiedType;
            this.serviceChannel = serviceChannel;
            this.proxyRuntime = serviceChannel.ClientRuntime.GetRuntime();
            this.methodDataCache = new MethodDataCache();
            this.objectWrapper = new MbrObject(this, proxiedType);

        } 

    在WCF客户端中,ChannelFactory通过绑定创建; 在  ChannelFactory创建的过程中,会初始化ServiceEndpoint;通过ServiceEndpoint又创建ServiceChannelFactory;通过ServiceChannelFactory

    创建ServiceChannel。而ServiceChannelProxy接口中的Type类型就是契约接口类型,MessageDirection

    是一个枚举类型,有Input\Output两个枚举值。这些类型,真实代理对象就创建成功。

    通过以上述过程,真实代理对象就创建成功。

     
    2、TransparentProxy建立的过程
     

    首先看看一下代码:

    var instanceContext = new InstanceContext(new CalculatorCallback());
    using (var channkeFactory = new DuplexChannelFactory<ICalculator>(instanceContext,"calculator"))
    {                
        ICalculator proxy = channkeFactory.CreateChannel();        
    }
    通过上节的分析,通过channkeFactory.CreateChannel()得到的proxy就是TransparentProxy对象。那么channkeFactory通过CreateChannel创建TransparentProxy对象都经过了那些过程呢。?要了解这个过程,还得从源

    码分析得出:

    public class DuplexChannelFactory<TChannel> : ChannelFactory<TChannel>
    {
        public TChannel CreateChannel(InstanceContext callbackInstance)
        {
             return this.CreateChannel(callbackInstance, base.CreateEndpointAddress(base.Endpoint), null);
        }

        public static TChannel CreateChannel(object callbackObject, string endpointConfigurationName)
        {
            return DuplexChannelFactory<TChannel>.CreateChannel(DuplexChannelFactory<TChannel>.GetInstanceContextForObject(callbackObject), endpointConfigurationName);
        }

        public override TChannel CreateChannel(EndpointAddress address, Uri via)
        {
            return this.CreateChannel(base.CallbackInstance, address, via);
        }

        public TChannel CreateChannel(InstanceContext callbackInstance, EndpointAddress address)
        {
            if (address == null)
            {
                throw DiagnosticUtility.ExceptionUtility.ThrowHelperArgumentNull("address");
            }
            return this.CreateChannel(callbackInstance, address, address.Uri);
        }

        public static TChannel CreateChannel(InstanceContext callbackInstance, string endpointConfigurationName)
        {
            TChannel channel = new DuplexChannelFactory<TChannel>(callbackInstance, endpointConfigurationName).CreateChannel();
            ChannelFactory<TChannel>.SetFactoryToAutoClose(channel);
            return channel;
        }

        public static TChannel CreateChannel(object callbackObject, Binding binding, EndpointAddress endpointAddress)
        {
            return DuplexChannelFactory<TChannel>.CreateChannel(DuplexChannelFactory<TChannel>.GetInstanceContextForObject(callbackObject), binding, endpointAddress);
        }

        public static TChannel CreateChannel(InstanceContext callbackInstance, Binding binding, EndpointAddress endpointAddress)
        {
            TChannel channel = new DuplexChannelFactory<TChannel>(callbackInstance, binding, endpointAddress).CreateChannel();
            ChannelFactory<TChannel>.SetFactoryToAutoClose(channel);
            return channel;
        }

        public virtual TChannel CreateChannel(InstanceContext callbackInstance, EndpointAddress address, Uri via)
        {
            if (address == null)
            {
                throw DiagnosticUtility.ExceptionUtility.ThrowHelperArgumentNull("address");
            }
            if ((base.CallbackType != null) && (callbackInstance == null))
            {
                throw DiagnosticUtility.ExceptionUtility.ThrowHelperError(new InvalidOperationException(SR.GetString("SFxCreateDuplexChannelNoCallback1")));
            }
            if (callbackInstance == null)
            {
                throw DiagnosticUtility.ExceptionUtility.ThrowHelperError(new InvalidOperationException(SR.GetString("SFxCreateDuplexChannelNoCallback")));
            }
            if (callbackInstance.UserObject == null)
            {
                throw DiagnosticUtility.ExceptionUtility.ThrowHelperError(new InvalidOperationException(SR.GetString("SFxCreateDuplexChannelNoCallbackUserObject")));
            }
            if (!base.HasDuplexOperations())
            {
                throw DiagnosticUtility.ExceptionUtility.ThrowHelperError(new InvalidOperationException(SR.GetString("SFxCreateDuplexChannel1"new object[] { base.Endpoint.Contract.Name })));
            }
            Type c = callbackInstance.UserObject.GetType();
            Type callbackContractType = base.Endpoint.Contract.CallbackContractType;
            if ((callbackContractType != null) && !callbackContractType.IsAssignableFrom(c))
            {
                throw DiagnosticUtility.ExceptionUtility.ThrowHelperError(new InvalidOperationException(SR.GetString("SFxCreateDuplexChannelBadCallbackUserObject"new object[] { callbackContractType })));
            }
            base.EnsureOpened();
            TChannel local = (TChannel) base.ServiceChannelFactory.CreateChannel(typeof(TChannel), address, via);
            IDuplexContextChannel channel = local as IDuplexContextChannel;
            if (channel != null)
            {
                channel.CallbackInstance = callbackInstance;
            }
            return local;
        }

        public static TChannel CreateChannel(object callbackObject, Binding binding, EndpointAddress endpointAddress, Uri via)
        {
            return DuplexChannelFactory<TChannel>.CreateChannel(DuplexChannelFactory<TChannel>.GetInstanceContextForObject(callbackObject), binding, endpointAddress, via);
        }

        public static TChannel CreateChannel(InstanceContext callbackInstance, Binding binding, EndpointAddress endpointAddress, Uri via)
        {
            TChannel channel = new DuplexChannelFactory<TChannel>(callbackInstance, binding).CreateChannel(endpointAddress, via);
            ChannelFactory<TChannel>.SetFactoryToAutoClose(channel);
            return channel;
        }

    }
    查看以上代码,我们发现DuplexChannelFactory<TChannel>类的CreateChannel()方法中没有不带参数的,那它通过CreateChannel()方法创建TransparentProxy时,肯定是调用了基类的方法。
    接下去分析ChannelFactory<TChannel>的CreateChannel方法。代码如下:
    public class ChannelFactory<TChannel> : ChannelFactory, IChannelFactory<TChannel>, IChannelFactory, ICommunicationObject
    {
        public TChannel CreateChannel()
        {
            return this.CreateChannel(base.CreateEndpointAddress(base.Endpoint), null);
        }
        public virtual TChannel CreateChannel(EndpointAddress address, Uri via)
        {
            TChannel local;
            bool traceOpenAndClose = base.TraceOpenAndClose;
            try
            {
                using (ServiceModelActivity activity = (DiagnosticUtility.ShouldUseActivity && base.TraceOpenAndClose) ? ServiceModelActivity.CreateBoundedActivity() : null)
                {
                    if (DiagnosticUtility.ShouldUseActivity)
                    {
                        ServiceModelActivity.Start(activity, this.OpenActivityName, this.OpenActivityType);
                        base.TraceOpenAndClose = false;
                    }
                    if (address == null)
                    {
                        throw DiagnosticUtility.ExceptionUtility.ThrowHelperArgumentNull("address");
                    }
                    if (base.HasDuplexOperations())
                    {
                        throw DiagnosticUtility.ExceptionUtility.ThrowHelperError(new InvalidOperationException(SR.GetString("SFxCreateNonDuplexChannel1"new object[] { base.Endpoint.Contract.Name })));
                    }
                    base.EnsureOpened();
                    local = (TChannel) this.ServiceChannelFactory.CreateChannel(typeof(TChannel), address, via);
                }
            }
            finally
            {
                base.TraceOpenAndClose = traceOpenAndClose;
            }
            return local;
        }
    }
     

    注意到这一句:

    local = (TChannel) this.ServiceChannelFactory.CreateChannel(typeof(TChannel), address, via);

    继续分析ServiceChannelFactory.CreateChannel(typeof(TChannel), address, via)的过程:

    internal abstract class ServiceChannelFactory : ChannelFactoryBase
    {
        public object CreateChannel(Type channelType, EndpointAddress address, Uri via)
        {
            if (via == null)
            {
                via = this.ClientRuntime.Via;
                if (via == null)
                {
                    via = address.Uri;
                }
            }
            ServiceChannel serviceChannel = this.CreateServiceChannel(address, via);
            serviceChannel.Proxy = CreateProxy(channelType, channelType, MessageDirection.Input, serviceChannel);
            serviceChannel.ClientRuntime.GetRuntime().InitializeChannel((IClientChannel) serviceChannel.Proxy);
            OperationContext current = OperationContext.Current;
            if ((current != null) && (current.InstanceContext != null))
            {
                current.InstanceContext.WmiChannels.Add((IChannel) serviceChannel.Proxy);
                serviceChannel.WmiInstanceContext = current.InstanceContext;
            }
            return serviceChannel.Proxy;
        }

            [SecuritySafeCritical]
        internal static object CreateProxy(Type interfaceType, Type proxiedType, MessageDirection direction, ServiceChannel serviceChannel)
        {
         if (!proxiedType.IsInterface)
            {
                throw DiagnosticUtility.ExceptionUtility.ThrowHelperError(new InvalidOperationException(SR.GetString("SFxChannelFactoryTypeMustBeInterface")));
            }
            ServiceChannelProxy proxy = new ServiceChannelProxy(interfaceType, proxiedType, direction, serviceChannel);
            return proxy.GetTransparentProxy();
        }
    }
     

    CreateChannel方法返回的是serviceChannel.Proxy,而serviceChannel.Proxy又是

    proxy.GetTransparentProxy()获取到的TransparentProxy.

     
    3、服务调用过程。
    WCF客户端对服务接口的调用最终通过RealProxy对象,也就是ServiceChannelProxy的Invoke方法来完成。

    下面来看看Invoke方法。

     public override IMessage Invoke(IMessage message)
        {
            IMessage message3;
            try
            {
                IMethodCallMessage methodCall = message as IMethodCallMessage;
                if (methodCall == null)
                {
                    throw DiagnosticUtility.ExceptionUtility.ThrowHelperError(new ArgumentException(SR.GetString("SFxExpectedIMethodCallMessage")));
                }
                MethodData methodData = this.GetMethodData(methodCall);
                switch (methodData.MethodType)
                {
                    case MethodType.Service:
                        return this.InvokeService(methodCall, methodData.Operation);

                    case MethodType.BeginService:
                        return this.InvokeBeginService(methodCall, methodData.Operation);

                    case MethodType.EndService:
                        return this.InvokeEndService(methodCall, methodData.Operation);

                    case MethodType.Channel:
                        return this.InvokeChannel(methodCall);

                    case MethodType.Object:
                        return this.InvokeObject(methodCall);

                    case MethodType.GetType:
                        return this.InvokeGetType(methodCall);
                }
                throw DiagnosticUtility.ExceptionUtility.ThrowHelperError(new InvalidOperationException(string.Format(CultureInfo.InvariantCulture, "Invalid proxy method type"new object[0])));
            }
            catch (Exception exception)
            {
                if (Fx.IsFatal(exception))
                {
                    throw;
                }
                message3 = this.CreateReturnMessage(exception, message as IMethodCallMessage);
            }
            return message3;
        }
     
     

    3.1、MethodData的Service类型

    MethodType.Service为同步调用方式;MethodType.BeginService、MethodType.EndService为异步方式。

    首先看看MethodType.Service,它调用了ServiceChannelProxy的InvokeService方法完成。InvokeService方法定义如下:

        private IMethodReturnMessage InvokeService(IMethodCallMessage methodCall, ProxyOperationRuntime operation)
        {
            object[] objArray;
            object[] ins = operation.MapSyncInputs(methodCall, out objArray);
            object ret = this.serviceChannel.Call(operation.Action, operation.IsOneWay, operation, ins, objArray);
            object[] returnArgs = operation.MapSyncOutputs(methodCall, objArray, ref ret);
            return this.CreateReturnMessage(ret, returnArgs, methodCall);
        }
     

    可以看出,在  InvokeService中,通过serviceChannel.Call返回调用结果,最有又通过ServerChannelProxy的

    CreateReturnMessage方法返回Message。

    ProxyOperationRuntime在WCF中也是很重要的对象。它的定义以及构造函数如下:

    internal class ProxyOperationRuntime
    {
        // Fields
        private string action;
        private MethodInfo beginMethod;
        private bool deserializeReply;
        internal static readonly object[] EmptyArray = new object[0];
        private ParameterInfo[] endOutParams;
        private readonly IClientFaultFormatter faultFormatter;
        private readonly IClientMessageFormatter formatter;
        private ParameterInfo[] inParams;
        private readonly bool isInitiating;
        private readonly bool isOneWay;
        private readonly bool isTerminating;
        private readonly string name;
        internal static readonly ParameterInfo[] NoParams = new ParameterInfo[0];
        private ParameterInfo[] outParams;
        private readonly IParameterInspector[] parameterInspectors;
        private readonly ImmutableClientRuntime parent;
        private string replyAction;
        private ParameterInfo returnParam;
        private bool serializeRequest;
        private MethodInfo syncMethod;

        // Methods
        internal ProxyOperationRuntime(ClientOperation operation, ImmutableClientRuntime parent)
        {
            if (operation == null)
            {
                throw DiagnosticUtility.ExceptionUtility.ThrowHelperArgumentNull("operation");
            }
            if (parent == null)
            {
                throw DiagnosticUtility.ExceptionUtility.ThrowHelperArgumentNull("parent");
            }
            this.parent = parent;
            this.formatter = operation.Formatter;
            this.isInitiating = operation.IsInitiating;
            this.isOneWay = operation.IsOneWay;
            this.isTerminating = operation.IsTerminating;
            this.name = operation.Name;
            this.parameterInspectors = EmptyArray<IParameterInspector>.ToArray(operation.ParameterInspectors);
            this.faultFormatter = operation.FaultFormatter;
            this.serializeRequest = operation.SerializeRequest;
            this.deserializeReply = operation.DeserializeReply;
            this.action = operation.Action;
            this.replyAction = operation.ReplyAction;
            this.beginMethod = operation.BeginMethod;
            this.syncMethod = operation.SyncMethod;
            if (this.beginMethod != null)
            {
                this.inParams = ServiceReflector.GetInputParameters(this.beginMethod, true);
                if (this.syncMethod != null)
                {
                    this.outParams = ServiceReflector.GetOutputParameters(this.syncMethod, false);
                }
                else
                {
                    this.outParams = NoParams;
                }
                this.endOutParams = ServiceReflector.GetOutputParameters(operation.EndMethod, true);
                this.returnParam = operation.EndMethod.ReturnParameter;
            }
            else if (this.syncMethod != null)
            {
                this.inParams = ServiceReflector.GetInputParameters(this.syncMethod, false);
                this.outParams = ServiceReflector.GetOutputParameters(this.syncMethod, false);
                this.returnParam = this.syncMethod.ReturnParameter;
            }
            if ((this.formatter == null) && (this.serializeRequest || this.deserializeReply))
            {
                throw DiagnosticUtility.ExceptionUtility.ThrowHelperError(new InvalidOperationException(SR.GetString("ClientRuntimeRequiresFormatter0"new object[] { this.name })));
            }
        }

        [SecurityCritical]
        internal object[] MapSyncInputs(IMethodCallMessage methodCall, out object[] outs)
        {
            if (this.outParams.Length == 0)
            {
                outs = EmptyArray;
            }
            else
            {
                outs = new object[this.outParams.Length];
            }
            if (this.inParams.Length == 0)
            {
                return EmptyArray;
            }
            return methodCall.InArgs;
        }

            [SecurityCritical]
        internal object[] MapSyncOutputs(IMethodCallMessage methodCall, object[] outs, ref object ret)
        {
            return this.MapOutputs(this.outParams, methodCall, outs, ref ret);
        }

            [SecurityCritical]
        private object[] MapOutputs(ParameterInfo[] parameters, IMethodCallMessage methodCall, object[] outs, ref object ret)
        {
            if ((ret == null) && (this.returnParam != null))
            {
                ret = GetDefaultParameterValue(TypeLoader.GetParameterType(this.returnParam));
            }
            if (parameters.Length == 0)
            {
                return null;
            }
            object[] args = methodCall.Args;
            for (int i = 0; i < parameters.Length; i++)
            {
                if (outs[i] == null)
                {
                    args[parameters[i].Position] = GetDefaultParameterValue(TypeLoader.GetParameterType(parameters[i]));
                }
                else
                {
                    args[parameters[i].Position] = outs[i];
                }
            }
            return args;
        }

        /
        ****/
     }
     

    IMethodCallMessage的InArgs:获取未标记为 out 参数的参数数组;Args:获取传递给该方法的参数数组(MSDN中的定义)。

     
    那么最核心的ServiceChannel的Call方法又做了什么事情呢。。?让我们看看它的定义:
    internal object Call(string action, bool oneway, ProxyOperationRuntime operation, object[] ins, object[] outs)
        {
            return this.Call(action, oneway, operation, ins, outs, this.operationTimeout);
        }

        internal object Call(string action, bool oneway, ProxyOperationRuntime operation, object[] ins, object[] outs, TimeSpan timeout)
        {
            this.ThrowIfDisallowedInitializationUI();
            this.ThrowIfIdleAborted(operation);
            ProxyRpc rpc = new ProxyRpc(this, operation, action, ins, timeout);
            using (rpc.Activity = DiagnosticUtility.ShouldUseActivity ? ServiceModelActivity.CreateBoundedActivity() : null)
            {
                if (DiagnosticUtility.ShouldUseActivity)
                {
                    ServiceModelActivity.Start(rpc.Activity, SR.GetString("ActivityProcessAction"new object[] { action }), ActivityType.ProcessAction);
                }
                this.PrepareCall(operation, oneway, ref rpc);
                if (!this.explicitlyOpened)
                {
                    this.EnsureDisplayUI();
                    this.EnsureOpened(rpc.TimeoutHelper.RemainingTime());
                }
                else
                {
                    this.ThrowIfOpening();
                    base.ThrowIfDisposedOrNotOpen();
                }
                try
                {
                    ConcurrencyBehavior.UnlockInstanceBeforeCallout(OperationContext.Current);
                    if (oneway)
                    {
                        this.binder.Send(rpc.Request, rpc.TimeoutHelper.RemainingTime());
                    }
                    else
                    {
                        rpc.Reply = this.binder.Request(rpc.Request, rpc.TimeoutHelper.RemainingTime());
                        if (rpc.Reply == null)
                        {
                            base.ThrowIfFaulted();
                            throw DiagnosticUtility.ExceptionUtility.ThrowHelperError(new CommunicationException(SR.GetString("SFxServerDidNotReply")));
                        }
                    }
                }
                finally
                {
                    this.CompletedIOOperation();
                    CallOnceManager.SignalNextIfNonNull(this.autoOpenManager);
                    ConcurrencyBehavior.LockInstanceAfterCallout(OperationContext.Current);
                }
                rpc.OutputParameters = outs;
                this.HandleReply(operation, ref rpc);
            }
            return rpc.ReturnValue;

    上面代码中有至关重要的一段:

     
    if (oneway) 

                    {
                        this.binder.Send(rpc.Request, rpc.TimeoutHelper.RemainingTime());
                    }
                    else
                    {
                        rpc.Reply = this.binder.Request(rpc.Request, rpc.TimeoutHelper.RemainingTime());
             }

      

     通过是否单程oneway,来进行Send或者Request。那binder由是什么对象呢。。?

    在ServiceChannel中,定义:

    privatereadonly IChannelBinder binder。这点可以从RealProxy对象中可以看出来:

     
    在本例中使用netTcpBinding绑定,所以binder为DuplexChannelBinder。不同的协议类型,

    binder就不一样。以wsHttpBinding为例,它的binder为RequestChannelBinder。

     

     DuplexChannelBinder的Send与Request定义如下:

     
          public void Send(Message message, TimeSpan timeout) 

          {
            this.channel.Send(message, timeout);
          }

         public Message Request(Message message, TimeSpan timeout)
         {
            SyncDuplexRequest request = null;
            bool flag = false;
            RequestReplyCorrelator.PrepareRequest(message);
            lock (this.ThisLock)
            {
                if (!this.Pumping)
                {
                    flag = true;
                    this.syncPumpEnabled = true;
                }
                if (!flag)
                {
                    request = new SyncDuplexRequest(this);
                }
                this.RequestStarting(message, request);
            }
            if (flag)
            {
                TimeoutHelper helper = new TimeoutHelper(timeout);
                UniqueId messageId = message.Headers.MessageId;
                try
                {
                    this.channel.Send(message, helper.RemainingTime());
                    if ((DiagnosticUtility.ShouldUseActivity && (ServiceModelActivity.Current != null)) && (ServiceModelActivity.Current.ActivityType == ActivityType.ProcessAction))
                    {
                        ServiceModelActivity.Current.Suspend();
                    }
                    while (true)
                    {
                        Message message2;
                        do
                        {
                            TimeSpan span = helper.RemainingTime();
                            if (!this.channel.TryReceive(span, out message2))
                            {
                                throw TraceUtility.ThrowHelperError(this.GetReceiveTimeoutException(timeout), message);
                            }
                            if (message2 == null)
                            {
                                this.AbortRequests();
                                return null;
                            }
                            if (message2.Headers.RelatesTo == messageId)
                            {
                                this.ThrowIfInvalidReplyIdentity(message2);
                                return message2;
                            }
                        }
                        while (this.HandleRequestAsReply(message2));
                        if (DiagnosticUtility.ShouldTraceInformation)
                        {
                            EndpointDispatcher endpointDispatcher = null;
                            if ((this.ChannelHandler != null) && (this.ChannelHandler.Channel != null))
                            {
                                endpointDispatcher = this.ChannelHandler.Channel.EndpointDispatcher;
                            }
                            TraceUtility.TraceDroppedMessage(message2, endpointDispatcher);
                        }
                        message2.Close();
                    }
                }
                finally
                {
                    lock (this.ThisLock)
                    {
                        this.RequestCompleting(null);
                        this.syncPumpEnabled = false;
                        if (this.pending > 0)
                        {
                            this.EnsurePumping();
                        }
                    }
                }
            }
        TimeoutHelper helper2 = new TimeoutHelper(timeout);
            this.channel.Send(message, helper2.RemainingTime());
            this.EnsurePumping();
            return request.WaitForReply(helper2.RemainingTime());
        }

     

    在Request中,除了调用Channel的Send方法以外,还调用了SyncDuplexRequest的WaitForReply返回消息。

    SyncDuplexRequest的WaitForReply定义如下:
        
        internal Message WaitForReply(TimeSpan timeout)

        {
            try
            {
                if (!TimeoutHelper.WaitOne(this.wait, timeout))
                {
                    throw DiagnosticUtility.ExceptionUtility.ThrowHelperError(this.parent.GetReceiveTimeoutException(timeout));
                }
            }
            finally
            {
                this.CloseWaitHandle();
            }
            this.parent.ThrowIfInvalidReplyIdentity(this.reply);
            return this.reply;
        }

     
     

    3.2MethodData的Channel类型:

     private IMethodReturnMessage InvokeChannel(IMethodCallMessage methodCall)
        {
            string str = null;
            ActivityType unknown = ActivityType.Unknown;
            if (DiagnosticUtility.ShouldUseActivity && ((ServiceModelActivity.Current == null) || (ServiceModelActivity.Current.ActivityType != ActivityType.Close)))
            {
                MethodData methodData = this.GetMethodData(methodCall);
                if ((methodData.MethodBase.DeclaringType == typeof(ICommunicationObject)) && methodData.MethodBase.Name.Equals("Close", StringComparison.Ordinal))
                {
                    str = SR.GetString("ActivityClose"new object[] { this.serviceChannel.GetType().FullName });
                    unknown = ActivityType.Close;
                }
            }
            using (ServiceModelActivity activity = string.IsNullOrEmpty(str) ? null : ServiceModelActivity.CreateBoundedActivity())
            {
                if (DiagnosticUtility.ShouldUseActivity)
                {
                    ServiceModelActivity.Start(activity, str, unknown);
                }
                return this.ExecuteMessage(this.serviceChannel, methodCall);
            }
        }

            private IMethodReturnMessage ExecuteMessage(object target, IMethodCallMessage methodCall)
        {
            MethodBase methodBase = methodCall.MethodBase;
            object[] args = methodCall.Args;
            object ret = null;
            try
            {
                ret = methodBase.Invoke(target, args);
            }
            catch (TargetInvocationException exception)
            {
                return this.CreateReturnMessage(exception.InnerException, methodCall);
            }
            return this.CreateReturnMessage(ret, args, args.Length, null, methodCall);
        }

    对于Channel,直接调用methodBase.Invoke进行调用

     
     

    3.3、MethodData的Object类型

     

    private IMethodReturnMessage InvokeObject(IMethodCallMessage methodCall)
        {
            return RemotingServices.ExecuteMessage(this.objectWrapper, methodCall);
        }
    RemotingServices中ExecuteMessage的定义如下:
        [SecurityPermission(SecurityAction.LinkDemand, Flags=SecurityPermissionFlag.Infrastructure)]
        public static IMethodReturnMessage ExecuteMessage(MarshalByRefObject target, IMethodCallMessage reqMsg)
        {
            if (target == null)
            {
                throw new ArgumentNullException("target");
            }
            RealProxy realProxy = GetRealProxy(target);
            if ((realProxy is RemotingProxy) && !realProxy.DoContextsMatch())
            {
                throw new RemotingException(Environment.GetResourceString("Remoting_Proxy_WrongContext"));
            }
            StackBuilderSink sink = new StackBuilderSink(target);
            return (IMethodReturnMessage) sink.SyncProcessMessage(reqMsg, 0true);
        }
    StackBuilderSink中SyncProcessMessage的处理过程:
            public virtual IMessage SyncProcessMessage(IMessage msg)
        {
            return this.SyncProcessMessage(msg, 0false);
        }

            internal virtual IMessage SyncProcessMessage(IMessage msg, int methodPtr, bool fExecuteInContext)
        {
            IMessage message3;
            IMessage message = InternalSink.ValidateMessage(msg);
            if (message != null)
            {
                return message;
            }
            IMethodCallMessage message2 = msg as IMethodCallMessage;
            LogicalCallContext threadCallContext = null;
            object obj2 = CallContext.GetLogicalCallContext().GetData("__xADCall");
            bool flag = false;
            try
            {
                object server = this._server;
                VerifyIsOkToCallMethod(server, message2);
                LogicalCallContext callCtx = null;
                if (message2 != null)
                {
                    callCtx = message2.LogicalCallContext;
                }
                else
                {
                    callCtx = (LogicalCallContext) msg.Properties["__CallContext"];
                }
                threadCallContext = CallContext.SetLogicalCallContext(callCtx);
                flag = true;
                callCtx.PropagateIncomingHeadersToCallContext(msg);
                PreserveThreadPrincipalIfNecessary(callCtx, threadCallContext);
                if (this.IsOKToStackBlt(message2, server) && ((Message) message2).Dispatch(server, fExecuteInContext))
                {
                    message3 = new StackBasedReturnMessage();
                    ((StackBasedReturnMessage) message3).InitFields((Message) message2);
                    LogicalCallContext context4 = CallContext.GetLogicalCallContext();
                    context4.PropagateOutgoingHeadersToMessage(message3);
                    ((StackBasedReturnMessage) message3).SetLogicalCallContext(context4);
                    return message3;
                }
                MethodBase methodBase = GetMethodBase(message2);
                object[] outArgs = null;
                object ret = null;
                RemotingMethodCachedData reflectionCachedData = InternalRemotingServices.GetReflectionCachedData(methodBase);
                object[] args = Message.CoerceArgs(message2, reflectionCachedData.Parameters);
                ret = this.PrivateProcessMessage(methodBase.MethodHandle, args, server, methodPtr, fExecuteInContext, out outArgs);
                this.CopyNonByrefOutArgsFromOriginalArgs(reflectionCachedData, args, ref outArgs);
                LogicalCallContext logicalCallContext = CallContext.GetLogicalCallContext();
                if (((obj2 != null) && ((bool) obj2)) && (logicalCallContext != null))
                {
                    logicalCallContext.RemovePrincipalIfNotSerializable();
                }
                message3 = new ReturnMessage(ret, outArgs, (outArgs == null) ? 0 : outArgs.Length, logicalCallContext, message2);
                logicalCallContext.PropagateOutgoingHeadersToMessage(message3);
                CallContext.SetLogicalCallContext(threadCallContext);
            }
            catch (Exception exception)
            {
                message3 = new ReturnMessage(exception, message2);
                ((ReturnMessage) message3).SetLogicalCallContext(message2.LogicalCallContext);
                if (flag)
                {
                    CallContext.SetLogicalCallContext(threadCallContext);
                }
            }
            return message3;

     

    3.4MethodData的GetType类型

    private IMethodReturnMessage InvokeGetType(IMethodCallMessage methodCall)
        {
            return this.CreateReturnMessage(this.proxiedType, null0, SetActivityIdInLogicalCallContext(methodCall.LogicalCallContext), methodCall);
        }
         private IMethodReturnMessage CreateReturnMessage(object ret, object[] outArgs, int outArgsCount, LogicalCallContext callCtx, IMethodCallMessage mcm)
        {
            return new ReturnMessage(ret, outArgs, outArgsCount, callCtx, mcm);
        }

     

    它调用了ReturnMessage的如下构造函数:

      public ReturnMessage(object ret, object[] outArgs, int outArgsCount, LogicalCallContext callCtx, IMethodCallMessage mcm)   

     {
            this._ret = ret;
            this._outArgs = outArgs;
            this._outArgsCount = outArgsCount;
            if (callCtx != null)
            {
                this._callContext = callCtx;
            }
            else
            {
                this._callContext = CallContext.GetLogicalCallContext();
            }
            if (mcm != null)
            {
                this._URI = mcm.Uri;
                this._methodName = mcm.MethodName;
                this._methodSignature = null;
                this._typeName = mcm.TypeName;
                this._hasVarArgs = mcm.HasVarArgs;
                this._methodBase = mcm.MethodBase;
            }
        }

     

    4、总结:

      WCF的客户端框架中介绍了很多MS封装的内部对象,整个流程的说明介绍这些对象时根据流程的介绍的需要进行

    了一些介绍。下面对这些对象做个总结以认清它们之间的关系。

    4.1、WCF客户端流程:

    WCF客户端流程如下图:

     

    上图流程说明:

        1、由DuplexChannelFactory的父类:ChannelFactory<TChannel>的父类ChannelFactory初始化

    Endpoint。

     2、ChannelFactory调用ServiceChannelFactroy的BuildChannelFactory,通过初始化的Endpoint创建

    ServiceChannelFactroy。(根据契约需要的通道形状,会生成继承自ServiceChannelFactory的

    ServiceChannelFactoryOverX,)

       3、ServiceChannelFactroy创建ServiceChannelFactroy的过程中,会初始化ClientRuntime对象
       4、ServiceChannelFactoryOverX通过CreateInnerChannelBinder创建IChannelBinder对象。
       5、ServiceChannelFactoryOverX通过CreateInnerChannelBinder方法创建IChannelBinder对象
       6、ServiceChannelFactoryOverX通过CreateChannel创建ServiceChannel,并通过ImmutableClientRuntime初始化Channel。
       7、实际代理ServiceChannelProxy 通过ServiceChannel对象,契约接口定义生成RealProxy。
       8、通过RealProxy获取TransparentProxy对象
       9、TransparentProxy对象调用服务
       10、ServiceChannel通过IChannelBinder对象发送消息
     

    4.2、WCF客户端使用到的对象关系

    在这两节分析WCF客户端时,介绍了很多内部 对象。通过UML关系图描述一下这些类型之间的关系:

     

    在上图中,以接口为分界线,上半部分生成ServiceChannel;下半部分生成调用服务的代理。 

     4.3、ServiceChannel生成时序图

    最后后通过时序图介绍一下ServiceChannel、IChannelBinder对象生成过程:

     

     

    备注:本节以及前一节中所有流程的说明都是以netTcpBiding作为传输协议来进行的,其他协议也类似。

  • 相关阅读:
    leetcode——202.快乐数
    leetcode——136. 只出现一次的数字
    leetcode——74.搜索二维矩阵
    leetcode——240.搜索二维矩阵
    leetcode——414.第三大的数
    020 迭代器模式
    019 模板模式
    018 中介者模式
    017 命令模式
    016 责任链模式
  • 原文地址:https://www.cnblogs.com/Leo_wl/p/2443091.html
Copyright © 2011-2022 走看看