// // System.Runtime.Remoting.Proxies.RealProxy.cs // // Authors: // Dietmar Maurer (dietmar@ximian.com) // Lluis Sanchez (lsg@ctv.es) // Patrik Torstensson // // (C) 2001 Ximian, Inc. http://www.ximian.com // // // Copyright (C) 2004 Novell, Inc (http://www.novell.com) // // Permission is hereby granted, free of charge, to any person obtaining // a copy of this software and associated documentation files (the // "Software"), to deal in the Software without restriction, including // without limitation the rights to use, copy, modify, merge, publish, // distribute, sublicense, and/or sell copies of the Software, and to // permit persons to whom the Software is furnished to do so, subject to // the following conditions: // // The above copyright notice and this permission notice shall be // included in all copies or substantial portions of the Software. // // THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, // EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF // MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND // NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE // LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION // OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION // WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. // using System; using System.Reflection; using System.Runtime.Remoting; using System.Runtime.Remoting.Messaging; using System.Runtime.Remoting.Activation; using System.Runtime.Remoting.Contexts; using System.Runtime.CompilerServices; using System.Runtime.Serialization; using System.Runtime.InteropServices; namespace System.Runtime.Remoting.Proxies { #pragma warning disable 169, 649 [StructLayout (LayoutKind.Sequential)] internal class TransparentProxy { public RealProxy _rp; IntPtr _class; bool _custom_type_info; } #pragma warning restore 169, 649 [ComVisible (true)] [StructLayout (LayoutKind.Sequential)] public abstract class RealProxy { // other classes visible to the runtime // derive from this class so keep these locals // in sync with the definition RealProxy // in object-internals.h #pragma warning disable 169, 414 #region Sync with object-internals.h Type class_to_proxy; internal Context _targetContext; MarshalByRefObject _server; int _targetDomainId = -1; internal string _targetUri; internal Identity _objectIdentity; Object _objTP; object _stubData; #endregion #pragma warning restore 169, 414 protected RealProxy () { } protected RealProxy (Type classToProxy) : this(classToProxy, IntPtr.Zero, null) { } internal RealProxy (Type classToProxy, ClientIdentity identity) : this(classToProxy, IntPtr.Zero, null) { _objectIdentity = identity; } protected RealProxy (Type classToProxy, IntPtr stub, object stubData) { if (!classToProxy.IsMarshalByRef && !classToProxy.IsInterface) throw new ArgumentException("object must be MarshalByRef"); this.class_to_proxy = classToProxy; if (stub != IntPtr.Zero) throw new NotSupportedException ("stub is not used in Mono"); } [MethodImplAttribute(MethodImplOptions.InternalCall)] extern static Type InternalGetProxyType (object transparentProxy); public Type GetProxiedType() { if (_objTP == null) { if (class_to_proxy.IsInterface) return typeof(MarshalByRefObject); else return class_to_proxy; } return InternalGetProxyType (_objTP); } public virtual ObjRef CreateObjRef (Type requestedType) { return RemotingServices.Marshal ((MarshalByRefObject) GetTransparentProxy(), null, requestedType); } public virtual void GetObjectData (SerializationInfo info, StreamingContext context) { Object obj = GetTransparentProxy(); RemotingServices.GetObjectData (obj, info, context); } internal Identity ObjectIdentity { get { return _objectIdentity; } set { _objectIdentity = value; } } [MonoTODO] public virtual IntPtr GetCOMIUnknown (bool fIsMarshalled) { throw new NotImplementedException (); } [MonoTODO] public virtual void SetCOMIUnknown (IntPtr i) { throw new NotImplementedException (); } [MonoTODO] public virtual IntPtr SupportsInterface (ref Guid iid) { throw new NotImplementedException (); } public static object GetStubData (RealProxy rp) { return rp._stubData; } public static void SetStubData (RealProxy rp, object stubData) { rp._stubData = stubData; } public abstract IMessage Invoke (IMessage msg); /* this is called from unmanaged code */ internal static object PrivateInvoke (RealProxy rp, IMessage msg, out Exception exc, out object [] out_args) { MonoMethodMessage mMsg = (MonoMethodMessage) msg; mMsg.LogicalCallContext = CallContext.CreateLogicalCallContext (true); CallType call_type = mMsg.CallType; bool is_remproxy = (rp is RemotingProxy); out_args = null; IMethodReturnMessage res_msg = null; if (call_type == CallType.BeginInvoke) // todo: set CallMessage in runtime instead mMsg.AsyncResult.CallMessage = mMsg; if (call_type == CallType.EndInvoke) res_msg = (IMethodReturnMessage)mMsg.AsyncResult.EndInvoke (); // Check for constructor msg if (mMsg.MethodBase.IsConstructor) { if (is_remproxy) res_msg = (IMethodReturnMessage) (rp as RemotingProxy).ActivateRemoteObject ((IMethodMessage) msg); else msg = new ConstructionCall (rp.GetProxiedType ()); } if (null == res_msg) { bool failed = false; try { res_msg = (IMethodReturnMessage)rp.Invoke (msg); } catch (Exception ex) { failed = true; if (call_type == CallType.BeginInvoke) { // If async dispatch crashes, don't propagate the exception. // The exception will be raised when calling EndInvoke. mMsg.AsyncResult.SyncProcessMessage (new ReturnMessage (ex, msg as IMethodCallMessage)); res_msg = new ReturnMessage (null, null, 0, null, msg as IMethodCallMessage); } else throw; } // Note, from begining this code used AsyncResult.IsCompleted for // checking if it was a remoting or custom proxy, but in some // cases the remoting proxy finish before the call returns // causing this method to be called, therefore causing all kind of bugs. if ((!is_remproxy) && call_type == CallType.BeginInvoke && !failed) { IMessage asyncMsg = null; // allow calltype EndInvoke to finish asyncMsg = mMsg.AsyncResult.SyncProcessMessage (res_msg as IMessage); out_args = res_msg.OutArgs; res_msg = new ReturnMessage (asyncMsg, null, 0, null, res_msg as IMethodCallMessage); } } if (res_msg.LogicalCallContext != null && res_msg.LogicalCallContext.HasInfo) CallContext.UpdateCurrentLogicalCallContext (res_msg.LogicalCallContext); exc = res_msg.Exception; // todo: remove throw exception from the runtime invoke if (null != exc) { out_args = null; throw exc.FixRemotingException(); } else if (res_msg is IConstructionReturnMessage) { if (out_args == null) out_args = res_msg.OutArgs; } else if (mMsg.CallType == CallType.BeginInvoke) { // We don't have OutArgs in this case. } else if (mMsg.CallType == CallType.Sync) { out_args = ProcessResponse (res_msg, mMsg); } else if (mMsg.CallType == CallType.EndInvoke) { out_args = ProcessResponse (res_msg, mMsg.AsyncResult.CallMessage); } else { if (out_args == null) out_args = res_msg.OutArgs; } return res_msg.ReturnValue; } [MethodImplAttribute(MethodImplOptions.InternalCall)] internal extern virtual object InternalGetTransparentProxy (string className); public virtual object GetTransparentProxy () { if (_objTP == null) { string name; IRemotingTypeInfo rti = this as IRemotingTypeInfo; if (rti != null) { name = rti.TypeName; if (name == null || name == typeof(MarshalByRefObject).AssemblyQualifiedName) name = class_to_proxy.AssemblyQualifiedName; } else name = class_to_proxy.AssemblyQualifiedName; _objTP = InternalGetTransparentProxy (name); } return _objTP; } [MonoTODO] [ComVisible (true)] public IConstructionReturnMessage InitializeServerObject(IConstructionCallMessage ctorMsg) { throw new NotImplementedException(); } protected void AttachServer(MarshalByRefObject s) { _server = s; } protected MarshalByRefObject DetachServer() { MarshalByRefObject ob = _server; _server = null; return ob; } protected MarshalByRefObject GetUnwrappedServer() { return _server; } internal void SetTargetDomain (int domainId) { _targetDomainId = domainId; } // Called by the runtime internal object GetAppDomainTarget () { if (_server == null) { ClientActivatedIdentity identity = RemotingServices.GetIdentityForUri (_targetUri) as ClientActivatedIdentity; if (identity == null) throw new RemotingException ("Server for uri '" + _targetUri + "' not found"); _server = identity.GetServerObject (); } return _server; } static object[] ProcessResponse (IMethodReturnMessage mrm, MonoMethodMessage call) { // Check return type MethodInfo mi = (MethodInfo) call.MethodBase; if (mrm.ReturnValue != null && !mi.ReturnType.IsInstanceOfType (mrm.ReturnValue)) throw new InvalidCastException ("Return value has an invalid type"); // Check out parameters int no; if (call.NeedsOutProcessing (out no)) { ParameterInfo[] parameters = mi.GetParameters(); object[] outArgs = new object [no]; int narg = 0; foreach (ParameterInfo par in parameters) { if (par.IsOut && !par.ParameterType.IsByRef) { // Special marshalling required object outArg = par.Position < mrm.ArgCount ? mrm.GetArg (par.Position) : null; if (outArg != null) { object local = call.GetArg (par.Position); if (local == null) throw new RemotingException ("Unexpected null value in local out parameter '" + par.Name + "'"); RemotingServices.UpdateOutArgObject (par, local, outArg); } } else if (par.ParameterType.IsByRef) { object outArg = par.Position < mrm.ArgCount ? mrm.GetArg (par.Position) : null; if (outArg != null && !par.ParameterType.GetElementType ().IsInstanceOfType (outArg)) { throw new InvalidCastException ("Return argument '" + par.Name + "' has an invalid type"); } outArgs [narg++] = outArg; } } return outArgs; } else return new object [0]; } } }