using System; using System.Collections.Generic; using System.Linq; using System.Reflection; using CPU = Indy.IL2CPU.Assembler; using CPUx86 = Indy.IL2CPU.Assembler.X86; using Indy.IL2CPU.Assembler; namespace Indy.IL2CPU.IL.X86 { public abstract class X86OpCodeMap: OpCodeMap { protected override Type GetMethodHeaderOp() { return typeof(X86MethodHeaderOp); } protected override Type GetMethodFooterOp() { return typeof(X86MethodFooterOp); } protected override Type GetInitVmtImplementationOp() { return typeof(X86InitVmtImplementationOp); } protected override Assembly ImplementationAssembly { get { return typeof(X86OpCodeMap).Assembly; } } protected override Type GetMainEntryPointOp() { return typeof(X86MainEntryPointOp); } protected override Type GetPInvokeMethodBodyOp() { return typeof(X86PInvokeMethodBodyOp); } protected override Type GetCustomMethodImplementationProxyOp() { return typeof(X86CustomMethodImplementationProxyOp); } public override IList GetPlugAssemblies() { IList xResult = base.GetPlugAssemblies(); xResult.Add(typeof(X86OpCodeMap).Assembly); return xResult; } public override bool HasCustomAssembleImplementation(MethodInformation aMethodInfo, bool aInMetalMode) { switch (aMethodInfo.LabelName) { case "System_Object___System_Threading_Interlocked_CompareExchange___System_Object___System_Object__System_Object___": { return true; } case "System_Int32___System_Threading_Interlocked_CompareExchange___System_Int32___System_Int32__System_Int32___": { return true; } case "System_String___System_String_FastAllocateString___System_Int32___": { return true; } case "System_Void___System_EventHandler_Invoke___System_Object__System_EventArgs___": { return true; } case "System_IntPtr___System_Delegate_GetInvokeMethod____": { return true; } //case "System_IntPtr___System_Delegate_GetMulticastInvoke____": { // return true; // } case "System_MulticastDelegate___System_Delegate_InternalAllocLike___System_Delegate___": { return true; } default: { // we need special treatment for delegate constructors, which have an Object,IntPtr param list if (ObjectUtilities.IsDelegate(aMethodInfo.Method.DeclaringType)) { if (aMethodInfo.LabelName.EndsWith("__ctor_System_Object__System_IntPtr_")) { return true; } if (aMethodInfo.Method.Name == "Invoke") { return true; } } return base.HasCustomAssembleImplementation(aMethodInfo, aInMetalMode); } } } public override void DoCustomAssembleImplementation(bool aInMetalMode, Indy.IL2CPU.Assembler.Assembler aAssembler, MethodInformation aMethodInfo) { switch (aMethodInfo.LabelName) { case "System_Object___System_Threading_Interlocked_CompareExchange___System_Object___System_Object__System_Object___": { Assemble_System_Threading_Interlocked_CompareExchange__Object(aAssembler, aMethodInfo); break; } case "System_Int32___System_Threading_Interlocked_CompareExchange___System_Int32___System_Int32__System_Int32___": { Assemble_System_Threading_Interlocked_CompareExchange__Object(aAssembler, aMethodInfo); break; } //case "System_IntPtr___System_Delegate_GetMulticastInvoke____": { // Engine.QueueMethod(CustomImplementations.System.EventHandlerImplRefs.MulticastInvokeRef); // new CPUx86.Push(CPU.Label.GenerateLabelName(CustomImplementations.System.EventHandlerImplRefs.MulticastInvokeRef)); // break; // } case "System_MulticastDelegate___System_Delegate_InternalAllocLike___System_Delegate___": { break; } default: if (ObjectUtilities.IsDelegate(aMethodInfo.Method.DeclaringType)) { if (aMethodInfo.LabelName.EndsWith("__ctor_System_Object__System_IntPtr_")) { //for (int i = 0; i < aMethodInfo.Arguments.Length; i++) { // Op.Ldarg(aAssembler, aMethodInfo.Arguments[i]); //} //new Call(CustomImplementations.System.EventHandlerImplRefs.CtorRef) { // Assembler = aAssembler //}.Assemble(); var xOp = new X86CustomMethodImplementationProxyOp(null, aMethodInfo); xOp.Assembler = aAssembler; xOp.ProxiedMethod = CustomImplementations.System.EventHandlerImplRefs.CtorRef; xOp.Assemble(); break; } if (aMethodInfo.Method.Name == "Invoke") { // param 0 is instance of eventhandler // param 1 is sender // param 2 is eventargs Ldarg.Ldarg(aAssembler, aMethodInfo.Arguments[0]); Ldarg.Ldfld(aAssembler, aMethodInfo.TypeInfo, "System.Object System.Delegate._target"); for (int i = 1; i < aMethodInfo.Arguments.Length; i++) { Ldarg.Ldarg(aAssembler, aMethodInfo.Arguments[i]); } Ldarg.Ldarg(aAssembler, aMethodInfo.Arguments[0]); Ldarg.Ldfld(aAssembler, aMethodInfo.TypeInfo, "System.IntPtr System.Delegate._methodPtr"); new CPUx86.Pop("eax"); new CPUx86.Call(CPUx86.Registers.EAX); // new CPUx86.Pop(CPUx86.Registers.EAX); new CPUx86.Move("esp", "ebp"); if (aMethodInfo.ReturnType != null && aMethodInfo.ReturnType != typeof(void)) { if (aMethodInfo.ReturnSize > 4) { new CPUx86.Push(CPUx86.Registers.EBX); } new CPUx86.Push(CPUx86.Registers.EAX); } break; } } base.DoCustomAssembleImplementation(aInMetalMode, aAssembler, aMethodInfo); break; } } private static void Assemble_System_Threading_Interlocked_CompareExchange__Object(Assembler.Assembler aAssembler, MethodInformation aMethodInfo) { //arguments: // 0: location // 1: value // 2: comparand Ldarg.Ldarg(aAssembler, aMethodInfo.Arguments[2]); new CPUx86.Pop(CPUx86.Registers.EAX); Ldarg.Ldarg(aAssembler, aMethodInfo.Arguments[1]); new CPUx86.Pop(CPUx86.Registers.EDX); Ldarg.Ldarg(aAssembler, aMethodInfo.Arguments[0]); new CPUx86.Pop(CPUx86.Registers.ECX); new CPUx86.Pushd(CPUx86.Registers.AtECX); new CPUx86.Pop(CPUx86.Registers.ECX); new CPUx86.CmpXchg(CPUx86.Registers.ECX, CPUx86.Registers.EDX); Ldarg.Ldarg(aAssembler, aMethodInfo.Arguments[0]); new CPUx86.Pop(CPUx86.Registers.EAX); new CPUx86.Move(CPUx86.Registers.EAX, CPUx86.Registers.ECX); new CPUx86.Pushd(CPUx86.Registers.EAX); } } }