//---------------------------------------------------------------------------- // Copyright (c) Microsoft Corporation. All rights reserved. //---------------------------------------------------------------------------- namespace System.ServiceModel.WasHosting { using System; using System.Collections.Generic; using System.Diagnostics; using System.Diagnostics.CodeAnalysis; using System.ServiceModel; using System.Web; using System.Web.Hosting; using System.ServiceModel.Channels; using System.ServiceModel.Activation; using System.Runtime; abstract class BaseProcessProtocolHandler : ProcessProtocolHandler { string protocolId; IAdphManager adphManager; // Mapping from listenerChannelId->listenerChannelContext (i.e. IAdphManager, appId) Dictionary listenerChannelIdMapping = new Dictionary(); [SuppressMessage(FxCop.Category.Performance, FxCop.Rule.AvoidUncalledPrivateCode, Justification = "Instantiated by ASP.NET")] protected BaseProcessProtocolHandler(string protocolId) : base() { this.protocolId = protocolId; } internal virtual void HandleStartListenerChannelError(IListenerChannelCallback listenerChannelCallback, Exception ex) { // This is the workaround to let WAS know that the LC is started and then gracefully stopped. listenerChannelCallback.ReportStarted(); listenerChannelCallback.ReportStopped(0); } // Start per-process listening for messages public override void StartListenerChannel(IListenerChannelCallback listenerChannelCallback, IAdphManager adphManager) { DiagnosticUtility.DebugAssert(listenerChannelCallback != null, "The listenerChannelCallback parameter must not be null"); DiagnosticUtility.DebugAssert(adphManager != null, "The adphManager parameter must not be null"); int channelId = listenerChannelCallback.GetId(); ListenerChannelContext listenerChannelContext; lock (this.listenerChannelIdMapping) { if (!listenerChannelIdMapping.TryGetValue(channelId, out listenerChannelContext)) { int listenerChannelDataLength = listenerChannelCallback.GetBlobLength(); byte[] listenerChannelData = new byte[listenerChannelDataLength]; listenerChannelCallback.GetBlob(listenerChannelData, ref listenerChannelDataLength); Debug.Print("BaseProcessProtocolHandler.StartListenerChannel() GetBlob() contains " + listenerChannelDataLength + " bytes"); listenerChannelContext = ListenerChannelContext.Hydrate(listenerChannelData); this.listenerChannelIdMapping.Add(channelId, listenerChannelContext); Debug.Print("BaseProcessProtocolHandler.StartListenerChannel() listenerChannelContext.ListenerChannelId: " + listenerChannelContext.ListenerChannelId); } } if (this.adphManager == null) { this.adphManager = adphManager; } try { // wether or not a previous AppDomain was running, we're going to start a new one now: Debug.Print("BaseProcessProtocolHandler.StartListenerChannel() calling StartAppDomainProtocolListenerChannel(appKey:" + listenerChannelContext.AppKey + " protocolId:" + protocolId + ")"); adphManager.StartAppDomainProtocolListenerChannel(listenerChannelContext.AppKey, protocolId, listenerChannelCallback); } catch (Exception ex) { if (Fx.IsFatal(ex)) { throw; } DiagnosticUtility.TraceHandledException(ex, TraceEventType.Error); HandleStartListenerChannelError(listenerChannelCallback, ex); } } public override void StopProtocol(bool immediate) { Debug.Print("BaseProcessProtocolHandler.StopProtocol(protocolId:" + protocolId + ", immediate:" + immediate + ")"); } public override void StopListenerChannel(int listenerChannelId, bool immediate) { Debug.Print("BaseProcessProtocolHandler.StopListenerChannel(protocolId:" + protocolId + ", listenerChannelId:" + listenerChannelId + ", immediate:" + immediate + ")"); ListenerChannelContext listenerChannelContext = this.listenerChannelIdMapping[listenerChannelId]; adphManager.StopAppDomainProtocolListenerChannel(listenerChannelContext.AppKey, protocolId, listenerChannelId, immediate); lock (this.listenerChannelIdMapping) { // Remove the channel id. this.listenerChannelIdMapping.Remove(listenerChannelId); } } } }