private void Window_Loaded(object sender, RoutedEventArgs e) { protocolService = new ProtocolService(); firewallService = new FirewallService(); PopulateCombo(); MakeSomeDummyData(); }
/// <summary> /// Sets up a module after it has been added to the <see cref="P:DevExpress.ExpressApp.XafApplication.Modules"/> collection. /// </summary> /// <param name="application">An <see cref="T:DevExpress.ExpressApp.XafApplication"/> object that provides methods and properties to manage the current application. This parameter value is set for the <see cref="P:DevExpress.ExpressApp.ModuleBase.Application"/> property.</param> public override void Setup(XafApplication application) { base.Setup(application); // initialize services StorageService.Instance.Initialize(application, ReplicaStorageConnectionString, typeof(Package), typeof(Ticket)); ProtocolService.Initialize(application, StorageService.Instance, LoadService); MessagingService.Initialize(application); }
protected virtual void Dispose(bool disposing) { if (disposing && !_disposed) { DebugErrorHandler.ThrowOnFailure(ProtocolService.Dispose()); } _disposed = true; }
/// <summary> /// Creates internal services. /// </summary> private void createServices() { LoadService = new LoadService(this); ProtocolService = new ProtocolService(this, LoadService); MessagingService = new MessagingService(this); ProtocolReplicationService = new ProtocolReplicationService(this); SnapshotService = new SnapshotService(this); PackService = new PackService(this); }
public void Exit(int exitCode) { if (ProtocolService == null) { return; } DebugErrorHandler.ThrowOnFailure(ProtocolService.Exit(exitCode)); }
public void Resume() { if (ProtocolService == null) { return; } DebugErrorHandler.ThrowOnFailure(ProtocolService.Resume()); }
private void Window_Loaded(object sender, RoutedEventArgs e) { firewallService = new FirewallService(); protocolService = new ProtocolService(); rdbInboundRules.IsChecked = true; rdbOutboundRules.IsChecked = false; ClearControls(); ShowRules(); }
public void Suspend() { // the target will suspend automatically as part of the VMStart event if (ProtocolService == null) { return; } DebugErrorHandler.ThrowOnFailure(ProtocolService.Suspend()); }
public ReadOnlyCollection <IThreadReference> GetAllThreads() { if (ProtocolService == null) { throw new VirtualMachineDisconnectedException(); } ThreadId[] threads; DebugErrorHandler.ThrowOnFailure(ProtocolService.GetAllThreads(out threads)); return(new ReadOnlyCollection <IThreadReference>(Array.ConvertAll(threads, GetMirrorOf))); }
public ReadOnlyCollection <IReferenceType> GetAllClasses() { if (ProtocolService == null) { throw new VirtualMachineDisconnectedException(); } ReferenceTypeData[] classes; DebugErrorHandler.ThrowOnFailure(ProtocolService.GetAllClasses(out classes)); return(new ReadOnlyCollection <IReferenceType>(Array.ConvertAll(classes, GetMirrorOf))); }
public bool GetCanGetMonitorFrameInfo() { if (ProtocolService == null) { throw new VirtualMachineDisconnectedException(); } Capabilities capabilities; DebugErrorHandler.ThrowOnFailure(ProtocolService.GetCapabilities(out capabilities)); return((capabilities & Capabilities.CanGetOwnedMonitorStackDepthInfo) != 0); }
public StrongValueHandle <StringReference> GetMirrorOf(string value) { if (value == null) { return(null); } StringId stringObject; DebugErrorHandler.ThrowOnFailure(ProtocolService.CreateString(out stringObject, value)); return(new StrongValueHandle <StringReference>(GetMirrorOf(stringObject))); }
public bool GetCanInvokeWithoutThread() { if (ProtocolService == null) { throw new VirtualMachineDisconnectedException(); } Capabilities capabilities; DebugErrorHandler.ThrowOnFailure(ProtocolService.GetCapabilities(out capabilities)); return((capabilities & Capabilities.CanInvokeWithoutThread) != 0); }
public bool GetCanGetCurrentContendedMonitor() { if (ProtocolService == null) { throw new VirtualMachineDisconnectedException(); } Capabilities capabilities; DebugErrorHandler.ThrowOnFailure(ProtocolService.GetCapabilities(out capabilities)); return((capabilities & Capabilities.CanGetCurrentContendedMonitor) != 0); }
public bool GetCanWatchFieldModification() { if (ProtocolService == null) { throw new VirtualMachineDisconnectedException(); } Capabilities capabilities; DebugErrorHandler.ThrowOnFailure(ProtocolService.GetCapabilities(out capabilities)); return((capabilities & Capabilities.CanGenerateFieldModificationEvents) != 0); }
public bool GetCanUnrestrictedlyRedefineClasses() { if (ProtocolService == null) { throw new VirtualMachineDisconnectedException(); } Capabilities capabilities; DebugErrorHandler.ThrowOnFailure(ProtocolService.GetCapabilities(out capabilities)); return((capabilities & Capabilities.CanRedefineAnyClass) != 0); }
public bool GetCanGetSyntheticAttribute() { if (ProtocolService == null) { throw new VirtualMachineDisconnectedException(); } Capabilities capabilities; DebugErrorHandler.ThrowOnFailure(ProtocolService.GetCapabilities(out capabilities)); return((capabilities & Capabilities.CanGetSyntheticAttribute) != 0); }
public bool GetCanUseSourceNameFilters() { if (ProtocolService == null) { throw new VirtualMachineDisconnectedException(); } Capabilities capabilities; DebugErrorHandler.ThrowOnFailure(ProtocolService.GetCapabilities(out capabilities)); //return (capabilities & Capabilities.CanUseSourceNameFilters) != 0; throw new NotImplementedException(); }
public bool GetCanRequestVMDeathEvent() { if (ProtocolService == null) { throw new VirtualMachineDisconnectedException(); } Capabilities capabilities; DebugErrorHandler.ThrowOnFailure(ProtocolService.GetCapabilities(out capabilities)); //return (capabilities & Capabilities.CanRequestVMDeathEvent) != 0; throw new NotImplementedException(); }
public void RedefineClasses(IEnumerable <KeyValuePair <IReferenceType, byte[]> > classes) { List <ClassDefinitionData> definitions = new List <ClassDefinitionData>(); foreach (var pair in classes) { ReferenceType referenceType = pair.Key as ReferenceType; if (referenceType == null || !this.Equals(referenceType.VirtualMachine)) { throw new VirtualMachineMismatchException(); } definitions.Add(new ClassDefinitionData(referenceType.ReferenceTypeId, pair.Value)); } DebugErrorHandler.ThrowOnFailure(ProtocolService.RedefineClasses(definitions.ToArray())); }
public TransactionController(ProtocolService protocolService, ICryptoService cryptoService, ISp8deTransactionStorage transactionStorage) { this.protocolService = protocolService; this.cryptoService = cryptoService; this.transactionStorage = transactionStorage; }
internal IType FindType(string signature) { Contract.Requires <ArgumentNullException>(signature != null, "signature"); Contract.Requires <ArgumentException>(!string.IsNullOrEmpty(signature)); switch (signature[0]) { case 'Z': return(PrimitiveTypes.Boolean); case 'B': return(PrimitiveTypes.Byte); case 'C': return(PrimitiveTypes.Char); case 'D': return(PrimitiveTypes.Double); case 'F': return(PrimitiveTypes.Float); case 'I': return(PrimitiveTypes.Integer); case 'J': return(PrimitiveTypes.Long); case 'S': return(PrimitiveTypes.Short); case 'V': return(PrimitiveTypes.Void); //case '[': // return GetArrayType(FindType(signature.Substring(1))); //case 'L': // return GetClassesByName(signature).Single(); default: Types.ReferenceTypeData[] classes; DebugErrorHandler.ThrowOnFailure(ProtocolService.GetClassesBySignature(out classes, signature)); if (classes.Length == 1) { return(GetMirrorOf(classes[0])); } else if (classes.Length == 0) { if (signature[0] == '[') { return(new UnloadedArrayType(this, signature)); } else { return(new UnloadedReferenceType(this, signature)); } } else { throw new ArgumentException("Could not resolve the signature to a single type."); } } }
public void SetDefaultStratum(string stratum) { DebugErrorHandler.ThrowOnFailure(ProtocolService.SetDefaultStratum(stratum)); }
// GET api/values public ProtocolModel Get() { ProtocolService service = new ProtocolService(); return(service.GetProtocol()); }
static void GenerateProtocolToCsharp() { string log = "自动生成 c# 类:->\n"; s_SubStruct = new List <string>(); string path = Application.dataPath + "/Resources/Network/" + ProtocolService.c_ProtocolFileName + ".txt"; string content = ResourceIOTool.ReadStringByFile(path); Dictionary <string, List <Dictionary <string, object> > > protocolInfo = ProtocolService.ReadProtocolInfo(content); path = Application.dataPath + "/Resources/Network/" + ProtocolService.c_methodNameInfoFileName + ".txt"; content = ResourceIOTool.ReadStringByFile(path); Dictionary <int, string> methodNameInfo; Dictionary <string, int> methodIndexInfo; ProtocolService.ReadMethodNameInfo(out methodNameInfo, out methodIndexInfo, content); string output = "using System.Collections.Generic;\n"; output += "namespace Protocol\n{\n"; output += "\t//Protocol消息文件\n"; output += "\t//该文件自动生成,请勿修改,以避免不必要的损失\n"; string currentModuleName = null; bool isFold = false; //根据模块,生成模块类、并折叠代码 foreach (var item in methodNameInfo) { int tab = 1; if (isFold) { tab = 2; } //判断这个是不是一个模块声明 //是,生成模块类 if (!item.Value.Contains("_") && item.Key < 100 ) { if (isFold) { output += GetTab(1) + "}\n"; output += GetTab(1) + "#endregion \n\n"; isFold = false; } isFold = true; output += GetTab(1) + "#region Module " + item.Value + "\n"; output += GetTab(1) + "namespace " + item.Value + "Module\n"; output += GetTab(1) + "{\n"; //判断是否已经有这个模块类 if (!GetExitsModule(item.Value)) { output += GenerateProtocolModuleClass(tab, item.Value, item.Key); } else { log += "跳过了 " + item.Value + " 模块\n"; } currentModuleName = item.Value; } //否,生成消息类 else { string className = GetMessageNmae(item.Value); //Debug.Log(className + " -> " + item.Value); if (GetAimType(className) == null) { string name = "m_" + item.Value + "_c"; if (protocolInfo.ContainsKey(name)) { output += GenerateProtocolClass(tab, SendMode.ToClient, currentModuleName, item.Value + "_c", protocolInfo[name]); } name = "m_" + item.Value + "_s"; if (protocolInfo.ContainsKey(name)) { output += GenerateProtocolClass(tab, SendMode.ToServer, currentModuleName, item.Value + "_s", protocolInfo[name]); } } else { log += ("跳过了 " + className + " 类\n"); //检查类的子结构,放入Struct列表中 string name = "m_" + item.Value + "_c"; if (protocolInfo.ContainsKey(name)) { GenerateProtocolClass(tab, SendMode.ToClient, currentModuleName, item.Value + "_c", protocolInfo[name]); } name = "m_" + item.Value + "_s"; if (protocolInfo.ContainsKey(name)) { GenerateProtocolClass(tab, SendMode.ToServer, currentModuleName, item.Value + "_s", protocolInfo[name]); } } } } if (isFold) { output += GetTab(1) + "}\n"; output += GetTab(1) + "#endregion \n\n"; isFold = false; } //子结构 output += GetTab(1) + "#region Struct\n"; for (int i = 0; i < s_SubStruct.Count; i++) { if (GetAimStructType(s_SubStruct[i]) == null) { try { output += GenerateProtocolClass(2, SendMode.Both, null, s_SubStruct[i], protocolInfo[s_SubStruct[i]], true); } catch (Exception e) { throw new Exception("s_SubStruct[i] ->" + s_SubStruct[i] + "\n" + e.ToString()); } } else { log += ("跳过了 " + s_SubStruct[i] + " 结构\n"); //检查结构的子结构,放入Struct列表中 GenerateProtocolClass(2, SendMode.Both, null, s_SubStruct[i], protocolInfo[s_SubStruct[i]], true); } } output += GetTab(1) + "#endregion \n"; output += "}\n"; string SavePath = Application.dataPath + "/Script/" + PathName + "/" + ProtocolClassName + ".cs"; ResourceIOTool.WriteStringByFile(SavePath, output); AssetDatabase.Refresh(); Debug.Log(log); }
public ReadOnlyCollection <IThreadGroupReference> GetTopLevelThreadGroups() { ThreadGroupId[] groups; DebugErrorHandler.ThrowOnFailure(ProtocolService.GetTopLevelThreadGroups(out groups)); return(new ReadOnlyCollection <IThreadGroupReference>(Array.ConvertAll(groups, GetMirrorOf))); }