public List<ILOpCode> ProcessMethod(MethodBase aMethod) { var xResult = new List<ILOpCode>(); var xBody = aMethod.GetMethodBody(); // Cache for use in field and method resolution Type[] xTypeGenArgs = null; Type[] xMethodGenArgs = null; if (aMethod.DeclaringType.IsGenericType) { xTypeGenArgs = aMethod.DeclaringType.GetGenericArguments(); } if (aMethod.IsGenericMethod) { xMethodGenArgs = aMethod.GetGenericArguments(); } // Some methods return no body. Not sure why.. have to investigate // They arent abstracts or icalls... if (xBody == null) { return null; } var xIL = xBody.GetILAsByteArray(); int xPos = 0; while (xPos < xIL.Length) { ExceptionHandlingClause xCurrentHandler = null; #region Determine current handler // todo: add support for nested handlers using a stack or so.. foreach (ExceptionHandlingClause xHandler in xBody.ExceptionHandlingClauses) { if (xHandler.TryOffset > 0) { if (xHandler.TryOffset <= xPos && (xHandler.TryLength + xHandler.TryOffset + 1) > xPos) // + 1 because index should be less than the try { if (xCurrentHandler == null) { xCurrentHandler = xHandler; continue; } else if (xHandler.TryOffset > xCurrentHandler.TryOffset && (xHandler.TryLength + xHandler.TryOffset) < (xCurrentHandler.TryLength + xCurrentHandler.TryOffset)) { // only replace if the current found handler is narrower xCurrentHandler = xHandler; continue; } } } if (xHandler.HandlerOffset > 0) { if (xHandler.HandlerOffset <= xPos && (xHandler.HandlerOffset + xHandler.HandlerLength + 1) > xPos) { if (xCurrentHandler == null) { xCurrentHandler = xHandler; continue; } else if (xHandler.HandlerOffset > xCurrentHandler.HandlerOffset && (xHandler.HandlerOffset + xHandler.HandlerLength) < (xCurrentHandler.HandlerOffset + xCurrentHandler.HandlerLength)) { // only replace if the current found handler is narrower xCurrentHandler = xHandler; continue; } } } if ((xHandler.Flags & ExceptionHandlingClauseOptions.Filter) > 0) { if (xHandler.FilterOffset > 0) { if (xHandler.FilterOffset <= xPos) { if (xCurrentHandler == null) { xCurrentHandler = xHandler; continue; } else if (xHandler.FilterOffset > xCurrentHandler.FilterOffset) { // only replace if the current found handler is narrower xCurrentHandler = xHandler; continue; } } } } } #endregion ILOpCode.Code xOpCodeVal; OpCode xOpCode; int xOpPos = xPos; if (xIL[xPos] == 0xFE) { xOpCodeVal = (ILOpCode.Code)(0xFE00 | xIL[xPos + 1]); xOpCode = mOpCodesHi[xIL[xPos + 1]]; xPos = xPos + 2; } else { xOpCodeVal = (ILOpCode.Code)xIL[xPos]; xOpCode = mOpCodesLo[xIL[xPos]]; xPos++; } ILOpCode xILOpCode = null; switch (xOpCode.OperandType) { // No operand. case OperandType.InlineNone: { #region Inline none options // These shortcut translation regions expand shortcut ops into full ops // This elminates the amount of code required in the assemblers // by allowing them to ignore the shortcuts switch (xOpCodeVal) { case ILOpCode.Code.Ldarg_0: xILOpCode = new ILOpCodes.OpVar(ILOpCode.Code.Ldarg, xOpPos, xPos, 0, xCurrentHandler); break; case ILOpCode.Code.Ldarg_1: xILOpCode = new ILOpCodes.OpVar(ILOpCode.Code.Ldarg, xOpPos, xPos, 1, xCurrentHandler); break; case ILOpCode.Code.Ldarg_2: xILOpCode = new ILOpCodes.OpVar(ILOpCode.Code.Ldarg, xOpPos, xPos, 2, xCurrentHandler); break; case ILOpCode.Code.Ldarg_3: xILOpCode = new ILOpCodes.OpVar(ILOpCode.Code.Ldarg, xOpPos, xPos, 3, xCurrentHandler); break; case ILOpCode.Code.Ldc_I4_0: xILOpCode = new ILOpCodes.OpInt(ILOpCode.Code.Ldc_I4, xOpPos, xPos, 0, xCurrentHandler); break; case ILOpCode.Code.Ldc_I4_1: xILOpCode = new ILOpCodes.OpInt(ILOpCode.Code.Ldc_I4, xOpPos, xPos, 1, xCurrentHandler); break; case ILOpCode.Code.Ldc_I4_2: xILOpCode = new ILOpCodes.OpInt(ILOpCode.Code.Ldc_I4, xOpPos, xPos, 2, xCurrentHandler); break; case ILOpCode.Code.Ldc_I4_3: xILOpCode = new ILOpCodes.OpInt(ILOpCode.Code.Ldc_I4, xOpPos, xPos, 3, xCurrentHandler); break; case ILOpCode.Code.Ldc_I4_4: xILOpCode = new ILOpCodes.OpInt(ILOpCode.Code.Ldc_I4, xOpPos, xPos, 4, xCurrentHandler); break; case ILOpCode.Code.Ldc_I4_5: xILOpCode = new ILOpCodes.OpInt(ILOpCode.Code.Ldc_I4, xOpPos, xPos, 5, xCurrentHandler); break; case ILOpCode.Code.Ldc_I4_6: xILOpCode = new ILOpCodes.OpInt(ILOpCode.Code.Ldc_I4, xOpPos, xPos, 6, xCurrentHandler); break; case ILOpCode.Code.Ldc_I4_7: xILOpCode = new ILOpCodes.OpInt(ILOpCode.Code.Ldc_I4, xOpPos, xPos, 7, xCurrentHandler); break; case ILOpCode.Code.Ldc_I4_8: xILOpCode = new ILOpCodes.OpInt(ILOpCode.Code.Ldc_I4, xOpPos, xPos, 8, xCurrentHandler); break; case ILOpCode.Code.Ldc_I4_M1: xILOpCode = new ILOpCodes.OpInt(ILOpCode.Code.Ldc_I4, xOpPos, xPos, -1, xCurrentHandler); break; case ILOpCode.Code.Ldloc_0: xILOpCode = new ILOpCodes.OpVar(ILOpCode.Code.Ldloc, xOpPos, xPos, 0, xCurrentHandler); break; case ILOpCode.Code.Ldloc_1: xILOpCode = new ILOpCodes.OpVar(ILOpCode.Code.Ldloc, xOpPos, xPos, 1, xCurrentHandler); break; case ILOpCode.Code.Ldloc_2: xILOpCode = new ILOpCodes.OpVar(ILOpCode.Code.Ldloc, xOpPos, xPos, 2, xCurrentHandler); break; case ILOpCode.Code.Ldloc_3: xILOpCode = new ILOpCodes.OpVar(ILOpCode.Code.Ldloc, xOpPos, xPos, 3, xCurrentHandler); break; case ILOpCode.Code.Stloc_0: xILOpCode = new ILOpCodes.OpVar(ILOpCode.Code.Stloc, xOpPos, xPos, 0, xCurrentHandler); break; case ILOpCode.Code.Stloc_1: xILOpCode = new ILOpCodes.OpVar(ILOpCode.Code.Stloc, xOpPos, xPos, 1, xCurrentHandler); break; case ILOpCode.Code.Stloc_2: xILOpCode = new ILOpCodes.OpVar(ILOpCode.Code.Stloc, xOpPos, xPos, 2, xCurrentHandler); break; case ILOpCode.Code.Stloc_3: xILOpCode = new ILOpCodes.OpVar(ILOpCode.Code.Stloc, xOpPos, xPos, 3, xCurrentHandler); break; default: xILOpCode = new ILOpCodes.OpNone(xOpCodeVal, xOpPos, xPos, xCurrentHandler); break; } #endregion break; } case OperandType.ShortInlineBrTarget: { #region Inline branch // By calculating target, we assume all branches are within a method // So far at least wtih csc, its true. We check it with CheckBranch // just in case. int xTarget = xPos + 1 + (sbyte)xIL[xPos]; CheckBranch(xTarget, xIL.Length); switch (xOpCodeVal) { case ILOpCode.Code.Beq_S: xILOpCode = new ILOpCodes.OpBranch(ILOpCode.Code.Beq, xOpPos, xPos + 1, xTarget, xCurrentHandler); break; case ILOpCode.Code.Bge_S: xILOpCode = new ILOpCodes.OpBranch(ILOpCode.Code.Bge, xOpPos, xPos + 1, xTarget, xCurrentHandler); break; case ILOpCode.Code.Bge_Un_S: xILOpCode = new ILOpCodes.OpBranch(ILOpCode.Code.Bge_Un, xOpPos, xPos + 1, xTarget, xCurrentHandler); break; case ILOpCode.Code.Bgt_S: xILOpCode = new ILOpCodes.OpBranch(ILOpCode.Code.Bgt, xOpPos, xPos + 1, xTarget, xCurrentHandler); break; case ILOpCode.Code.Bgt_Un_S: xILOpCode = new ILOpCodes.OpBranch(ILOpCode.Code.Bgt_Un, xOpPos, xPos + 1, xTarget, xCurrentHandler); break; case ILOpCode.Code.Ble_S: xILOpCode = new ILOpCodes.OpBranch(ILOpCode.Code.Ble, xOpPos, xPos + 1, xTarget, xCurrentHandler); break; case ILOpCode.Code.Ble_Un_S: xILOpCode = new ILOpCodes.OpBranch(ILOpCode.Code.Ble_Un, xOpPos, xPos + 1, xTarget, xCurrentHandler); break; case ILOpCode.Code.Blt_S: xILOpCode = new ILOpCodes.OpBranch(ILOpCode.Code.Blt, xOpPos, xPos + 1, xTarget, xCurrentHandler); break; case ILOpCode.Code.Blt_Un_S: xILOpCode = new ILOpCodes.OpBranch(ILOpCode.Code.Blt_Un, xOpPos, xPos + 1, xTarget, xCurrentHandler); break; case ILOpCode.Code.Bne_Un_S: xILOpCode = new ILOpCodes.OpBranch(ILOpCode.Code.Bne_Un, xOpPos, xPos + 1, xTarget, xCurrentHandler); break; case ILOpCode.Code.Br_S: xILOpCode = new ILOpCodes.OpBranch(ILOpCode.Code.Br, xOpPos, xPos + 1, xTarget, xCurrentHandler); break; case ILOpCode.Code.Brfalse_S: xILOpCode = new ILOpCodes.OpBranch(ILOpCode.Code.Brfalse, xOpPos, xPos + 1, xTarget, xCurrentHandler); break; case ILOpCode.Code.Brtrue_S: xILOpCode = new ILOpCodes.OpBranch(ILOpCode.Code.Brtrue, xOpPos, xPos + 1, xTarget, xCurrentHandler); break; case ILOpCode.Code.Leave_S: xILOpCode = new ILOpCodes.OpBranch(ILOpCode.Code.Leave, xOpPos, xPos + 1, xTarget, xCurrentHandler); break; default: xILOpCode = new ILOpCodes.OpBranch(xOpCodeVal, xOpPos, xPos + 1, xTarget, xCurrentHandler); break; } xPos = xPos + 1; break; #endregion } case OperandType.InlineBrTarget: { int xTarget = xPos + 4 + ReadInt32(xIL, xPos); CheckBranch(xTarget, xIL.Length); xILOpCode = new ILOpCodes.OpBranch(xOpCodeVal, xOpPos, xPos + 4, xTarget, xCurrentHandler); xPos = xPos + 4; break; } case OperandType.ShortInlineI: switch (xOpCodeVal) { case ILOpCode.Code.Ldc_I4_S: xILOpCode = new ILOpCodes.OpInt(ILOpCode.Code.Ldc_I4, xOpPos, xPos + 1, ((sbyte)xIL[xPos]), xCurrentHandler); break; default: xILOpCode = new ILOpCodes.OpInt(xOpCodeVal, xOpPos, xPos + 1, ((sbyte)xIL[xPos]), xCurrentHandler); break; } xPos = xPos + 1; break; case OperandType.InlineI: xILOpCode = new ILOpCodes.OpInt(xOpCodeVal, xOpPos, xPos + 4, ReadInt32(xIL, xPos), xCurrentHandler); xPos = xPos + 4; break; case OperandType.InlineI8: xILOpCode = new ILOpCodes.OpInt64(xOpCodeVal, xOpPos, xPos + 8, ReadUInt64(xIL, xPos), xCurrentHandler); xPos = xPos + 8; break; case OperandType.ShortInlineR: xILOpCode = new ILOpCodes.OpSingle(xOpCodeVal, xOpPos, xPos + 4, BitConverter.ToSingle(xIL, xPos), xCurrentHandler); xPos = xPos + 4; break; case OperandType.InlineR: xILOpCode = new ILOpCodes.OpDouble(xOpCodeVal, xOpPos, xPos + 8, BitConverter.ToDouble(xIL, xPos), xCurrentHandler); xPos = xPos + 8; break; // The operand is a 32-bit metadata token. case OperandType.InlineField: { var xValue = aMethod.Module.ResolveField(ReadInt32(xIL, xPos), xTypeGenArgs, xMethodGenArgs); xILOpCode = new ILOpCodes.OpField(xOpCodeVal, xOpPos, xPos + 4, xValue, xCurrentHandler); xPos = xPos + 4; break; } // The operand is a 32-bit metadata token. case OperandType.InlineMethod: { var xValue = aMethod.Module.ResolveMethod(ReadInt32(xIL, xPos), xTypeGenArgs, xMethodGenArgs); xILOpCode = new ILOpCodes.OpMethod(xOpCodeVal, xOpPos, xPos + 4, xValue, xCurrentHandler); xPos = xPos + 4; break; } // 32-bit metadata signature token. case OperandType.InlineSig: xILOpCode = new ILOpCodes.OpSig(xOpCodeVal, xOpPos, xPos + 4, ReadInt32(xIL, xPos), xCurrentHandler); xPos = xPos + 4; break; case OperandType.InlineString: xILOpCode = new ILOpCodes.OpString(xOpCodeVal, xOpPos, xPos + 4, aMethod.Module.ResolveString(ReadInt32(xIL, xPos)), xCurrentHandler); xPos = xPos + 4; break; case OperandType.InlineSwitch: { int xCount = ReadInt32(xIL, xPos); xPos = xPos + 4; int xNextOpPos = xPos + xCount * 4; var xBranchLocations = new int[xCount]; for (int i = 0; i < xCount; i++) { xBranchLocations[i] = xNextOpPos + ReadInt32(xIL, xPos + i * 4); CheckBranch(xBranchLocations[i], xIL.Length); } xILOpCode = new ILOpCodes.OpSwitch(xOpCodeVal, xOpPos, xNextOpPos, xBranchLocations, xCurrentHandler); xPos = xNextOpPos; break; } // The operand is a FieldRef, MethodRef, or TypeRef token. case OperandType.InlineTok: xILOpCode = new ILOpCodes.OpToken(xOpCodeVal, xOpPos, xPos + 4, ReadInt32(xIL, xPos), aMethod.Module, xTypeGenArgs, xMethodGenArgs, xCurrentHandler); xPos = xPos + 4; break; // 32-bit metadata token. case OperandType.InlineType: { var xValue = aMethod.Module.ResolveType(ReadInt32(xIL, xPos), xTypeGenArgs, xMethodGenArgs); xILOpCode = new ILOpCodes.OpType(xOpCodeVal, xOpPos, xPos + 4, xValue, xCurrentHandler); xPos = xPos + 4; break; } case OperandType.ShortInlineVar: switch (xOpCodeVal) { case ILOpCode.Code.Ldloc_S: xILOpCode = new ILOpCodes.OpVar(ILOpCode.Code.Ldloc, xOpPos, xPos + 1, xIL[xPos], xCurrentHandler); break; case ILOpCode.Code.Ldloca_S: xILOpCode = new ILOpCodes.OpVar(ILOpCode.Code.Ldloca, xOpPos, xPos + 1, xIL[xPos], xCurrentHandler); break; case ILOpCode.Code.Ldarg_S: xILOpCode = new ILOpCodes.OpVar(ILOpCode.Code.Ldarg, xOpPos, xPos + 1, xIL[xPos], xCurrentHandler); break; case ILOpCode.Code.Ldarga_S: xILOpCode = new ILOpCodes.OpVar(ILOpCode.Code.Ldarga, xOpPos, xPos + 1, xIL[xPos], xCurrentHandler); break; case ILOpCode.Code.Starg_S: xILOpCode = new ILOpCodes.OpVar(ILOpCode.Code.Starg, xOpPos, xPos + 1, xIL[xPos], xCurrentHandler); break; case ILOpCode.Code.Stloc_S: xILOpCode = new ILOpCodes.OpVar(ILOpCode.Code.Stloc, xOpPos, xPos + 1, xIL[xPos], xCurrentHandler); break; default: xILOpCode = new ILOpCodes.OpVar(xOpCodeVal, xOpPos, xPos + 1, xIL[xPos], xCurrentHandler); break; } xPos = xPos + 1; break; case OperandType.InlineVar: xILOpCode = new ILOpCodes.OpVar(xOpCodeVal, xOpPos, xPos + 2, ReadUInt16(xIL, xPos), xCurrentHandler); xPos = xPos + 2; break; default: throw new Exception("Unknown OperandType"); } xILOpCode.InitStackAnalysis(aMethod); xResult.Add(xILOpCode); } return xResult; }
public List <ILOpCode> ProcessMethod(MethodBase aMethod) { var xResult = new List <ILOpCode>(); var xBody = aMethod.GetMethodBody(); var xModule = aMethod.Module; if (aMethod.DeclaringType.FullName == "System.Runtime.CompilerServices.Unsafe") { var xUnsafeMethod = Type.GetType("System.Runtime.CompilerServices.Unsafe, System.Runtime.CompilerServices.Unsafe") .GetMethod(aMethod.Name, Array.ConvertAll(aMethod.GetParameters(), p => p.ParameterType)); xBody = xUnsafeMethod.GetMethodBody(); xModule = xUnsafeMethod.Module; } // Cache for use in field and method resolution Type[] xTypeGenArgs = Type.EmptyTypes; Type[] xMethodGenArgs = Type.EmptyTypes; if (aMethod.DeclaringType.IsGenericType) { xTypeGenArgs = aMethod.DeclaringType.GetGenericArguments(); } if (aMethod.IsGenericMethod) { xMethodGenArgs = aMethod.GetGenericArguments(); } // Some methods return no body. Not sure why.. have to investigate // They arent abstracts or icalls... if (xBody == null) { return(null); } var xIL = xBody.GetILAsByteArray(); int xPos = 0; while (xPos < xIL.Length) { _ExceptionRegionInfo xCurrentExceptionRegion = null; #region Determine current handler // todo: add support for nested handlers using a stack or so.. foreach (_ExceptionRegionInfo xHandler in aMethod.GetExceptionRegionInfos()) { if (xHandler.TryOffset >= 0) { if (xHandler.TryOffset <= xPos && (xHandler.TryLength + xHandler.TryOffset) > xPos) { if (xCurrentExceptionRegion == null) { xCurrentExceptionRegion = xHandler; continue; } else if (xHandler.TryOffset > xCurrentExceptionRegion.TryOffset && (xHandler.TryLength + xHandler.TryOffset) < (xCurrentExceptionRegion.TryLength + xCurrentExceptionRegion.TryOffset)) { // only replace if the current found handler is narrower xCurrentExceptionRegion = xHandler; continue; } } } // todo: handler offset can be 0 like try offset? if (xHandler.HandlerOffset > 0) { if (xHandler.HandlerOffset <= xPos && (xHandler.HandlerOffset + xHandler.HandlerLength) > xPos) { if (xCurrentExceptionRegion == null) { xCurrentExceptionRegion = xHandler; continue; } else if (xHandler.HandlerOffset > xCurrentExceptionRegion.HandlerOffset && (xHandler.HandlerOffset + xHandler.HandlerLength) < (xCurrentExceptionRegion.HandlerOffset + xCurrentExceptionRegion.HandlerLength)) { // only replace if the current found handler is narrower xCurrentExceptionRegion = xHandler; continue; } } } if (xHandler.Kind.HasFlag(ExceptionRegionKind.Filter)) { if (xHandler.FilterOffset > 0) { if (xHandler.FilterOffset <= xPos) { if (xCurrentExceptionRegion == null) { xCurrentExceptionRegion = xHandler; continue; } else if (xHandler.FilterOffset > xCurrentExceptionRegion.FilterOffset) { // only replace if the current found handler is narrower xCurrentExceptionRegion = xHandler; continue; } } } } } #endregion ILOpCode.Code xOpCodeVal; OpCode xOpCode; int xOpPos = xPos; if (xIL[xPos] == 0xFE) { xOpCodeVal = (ILOpCode.Code)(0xFE00 | xIL[xPos + 1]); xOpCode = mOpCodesHi[xIL[xPos + 1]]; xPos = xPos + 2; } else { xOpCodeVal = (ILOpCode.Code)xIL[xPos]; xOpCode = mOpCodesLo[xIL[xPos]]; xPos++; } ILOpCode xILOpCode = null; switch (xOpCode.OperandType) { // No operand. case OperandType.InlineNone: { #region Inline none options // These shortcut translation regions expand shortcut ops into full ops // This elminates the amount of code required in the assemblers // by allowing them to ignore the shortcuts switch (xOpCodeVal) { case ILOpCode.Code.Ldarg_0: xILOpCode = new ILOpCodes.OpVar(ILOpCode.Code.Ldarg, xOpPos, xPos, 0, xCurrentExceptionRegion); break; case ILOpCode.Code.Ldarg_1: xILOpCode = new ILOpCodes.OpVar(ILOpCode.Code.Ldarg, xOpPos, xPos, 1, xCurrentExceptionRegion); break; case ILOpCode.Code.Ldarg_2: xILOpCode = new ILOpCodes.OpVar(ILOpCode.Code.Ldarg, xOpPos, xPos, 2, xCurrentExceptionRegion); break; case ILOpCode.Code.Ldarg_3: xILOpCode = new ILOpCodes.OpVar(ILOpCode.Code.Ldarg, xOpPos, xPos, 3, xCurrentExceptionRegion); break; case ILOpCode.Code.Ldc_I4_0: xILOpCode = new ILOpCodes.OpInt(ILOpCode.Code.Ldc_I4, xOpPos, xPos, 0, xCurrentExceptionRegion); break; case ILOpCode.Code.Ldc_I4_1: xILOpCode = new ILOpCodes.OpInt(ILOpCode.Code.Ldc_I4, xOpPos, xPos, 1, xCurrentExceptionRegion); break; case ILOpCode.Code.Ldc_I4_2: xILOpCode = new ILOpCodes.OpInt(ILOpCode.Code.Ldc_I4, xOpPos, xPos, 2, xCurrentExceptionRegion); break; case ILOpCode.Code.Ldc_I4_3: xILOpCode = new ILOpCodes.OpInt(ILOpCode.Code.Ldc_I4, xOpPos, xPos, 3, xCurrentExceptionRegion); break; case ILOpCode.Code.Ldc_I4_4: xILOpCode = new ILOpCodes.OpInt(ILOpCode.Code.Ldc_I4, xOpPos, xPos, 4, xCurrentExceptionRegion); break; case ILOpCode.Code.Ldc_I4_5: xILOpCode = new ILOpCodes.OpInt(ILOpCode.Code.Ldc_I4, xOpPos, xPos, 5, xCurrentExceptionRegion); break; case ILOpCode.Code.Ldc_I4_6: xILOpCode = new ILOpCodes.OpInt(ILOpCode.Code.Ldc_I4, xOpPos, xPos, 6, xCurrentExceptionRegion); break; case ILOpCode.Code.Ldc_I4_7: xILOpCode = new ILOpCodes.OpInt(ILOpCode.Code.Ldc_I4, xOpPos, xPos, 7, xCurrentExceptionRegion); break; case ILOpCode.Code.Ldc_I4_8: xILOpCode = new ILOpCodes.OpInt(ILOpCode.Code.Ldc_I4, xOpPos, xPos, 8, xCurrentExceptionRegion); break; case ILOpCode.Code.Ldc_I4_M1: xILOpCode = new ILOpCodes.OpInt(ILOpCode.Code.Ldc_I4, xOpPos, xPos, -1, xCurrentExceptionRegion); break; case ILOpCode.Code.Ldloc_0: xILOpCode = new ILOpCodes.OpVar(ILOpCode.Code.Ldloc, xOpPos, xPos, 0, xCurrentExceptionRegion); break; case ILOpCode.Code.Ldloc_1: xILOpCode = new ILOpCodes.OpVar(ILOpCode.Code.Ldloc, xOpPos, xPos, 1, xCurrentExceptionRegion); break; case ILOpCode.Code.Ldloc_2: xILOpCode = new ILOpCodes.OpVar(ILOpCode.Code.Ldloc, xOpPos, xPos, 2, xCurrentExceptionRegion); break; case ILOpCode.Code.Ldloc_3: xILOpCode = new ILOpCodes.OpVar(ILOpCode.Code.Ldloc, xOpPos, xPos, 3, xCurrentExceptionRegion); break; case ILOpCode.Code.Stloc_0: xILOpCode = new ILOpCodes.OpVar(ILOpCode.Code.Stloc, xOpPos, xPos, 0, xCurrentExceptionRegion); break; case ILOpCode.Code.Stloc_1: xILOpCode = new ILOpCodes.OpVar(ILOpCode.Code.Stloc, xOpPos, xPos, 1, xCurrentExceptionRegion); break; case ILOpCode.Code.Stloc_2: xILOpCode = new ILOpCodes.OpVar(ILOpCode.Code.Stloc, xOpPos, xPos, 2, xCurrentExceptionRegion); break; case ILOpCode.Code.Stloc_3: xILOpCode = new ILOpCodes.OpVar(ILOpCode.Code.Stloc, xOpPos, xPos, 3, xCurrentExceptionRegion); break; default: xILOpCode = new ILOpCodes.OpNone(xOpCodeVal, xOpPos, xPos, xCurrentExceptionRegion); break; } #endregion break; } case OperandType.ShortInlineBrTarget: { #region Inline branch // By calculating target, we assume all branches are within a method // So far at least wtih csc, its true. We check it with CheckBranch // just in case. int xTarget = xPos + 1 + (sbyte)xIL[xPos]; CheckBranch(xTarget, xIL.Length); switch (xOpCodeVal) { case ILOpCode.Code.Beq_S: xILOpCode = new ILOpCodes.OpBranch(ILOpCode.Code.Beq, xOpPos, xPos + 1, xTarget, xCurrentExceptionRegion); break; case ILOpCode.Code.Bge_S: xILOpCode = new ILOpCodes.OpBranch(ILOpCode.Code.Bge, xOpPos, xPos + 1, xTarget, xCurrentExceptionRegion); break; case ILOpCode.Code.Bge_Un_S: xILOpCode = new ILOpCodes.OpBranch(ILOpCode.Code.Bge_Un, xOpPos, xPos + 1, xTarget, xCurrentExceptionRegion); break; case ILOpCode.Code.Bgt_S: xILOpCode = new ILOpCodes.OpBranch(ILOpCode.Code.Bgt, xOpPos, xPos + 1, xTarget, xCurrentExceptionRegion); break; case ILOpCode.Code.Bgt_Un_S: xILOpCode = new ILOpCodes.OpBranch(ILOpCode.Code.Bgt_Un, xOpPos, xPos + 1, xTarget, xCurrentExceptionRegion); break; case ILOpCode.Code.Ble_S: xILOpCode = new ILOpCodes.OpBranch(ILOpCode.Code.Ble, xOpPos, xPos + 1, xTarget, xCurrentExceptionRegion); break; case ILOpCode.Code.Ble_Un_S: xILOpCode = new ILOpCodes.OpBranch(ILOpCode.Code.Ble_Un, xOpPos, xPos + 1, xTarget, xCurrentExceptionRegion); break; case ILOpCode.Code.Blt_S: xILOpCode = new ILOpCodes.OpBranch(ILOpCode.Code.Blt, xOpPos, xPos + 1, xTarget, xCurrentExceptionRegion); break; case ILOpCode.Code.Blt_Un_S: xILOpCode = new ILOpCodes.OpBranch(ILOpCode.Code.Blt_Un, xOpPos, xPos + 1, xTarget, xCurrentExceptionRegion); break; case ILOpCode.Code.Bne_Un_S: xILOpCode = new ILOpCodes.OpBranch(ILOpCode.Code.Bne_Un, xOpPos, xPos + 1, xTarget, xCurrentExceptionRegion); break; case ILOpCode.Code.Br_S: xILOpCode = new ILOpCodes.OpBranch(ILOpCode.Code.Br, xOpPos, xPos + 1, xTarget, xCurrentExceptionRegion); break; case ILOpCode.Code.Brfalse_S: xILOpCode = new ILOpCodes.OpBranch(ILOpCode.Code.Brfalse, xOpPos, xPos + 1, xTarget, xCurrentExceptionRegion); break; case ILOpCode.Code.Brtrue_S: xILOpCode = new ILOpCodes.OpBranch(ILOpCode.Code.Brtrue, xOpPos, xPos + 1, xTarget, xCurrentExceptionRegion); break; case ILOpCode.Code.Leave_S: xILOpCode = new ILOpCodes.OpBranch(ILOpCode.Code.Leave, xOpPos, xPos + 1, xTarget, xCurrentExceptionRegion); break; default: xILOpCode = new ILOpCodes.OpBranch(xOpCodeVal, xOpPos, xPos + 1, xTarget, xCurrentExceptionRegion); break; } xPos = xPos + 1; break; #endregion } case OperandType.InlineBrTarget: { int xTarget = xPos + 4 + ReadInt32(xIL, xPos); CheckBranch(xTarget, xIL.Length); xILOpCode = new ILOpCodes.OpBranch(xOpCodeVal, xOpPos, xPos + 4, xTarget, xCurrentExceptionRegion); xPos = xPos + 4; break; } case OperandType.ShortInlineI: switch (xOpCodeVal) { case ILOpCode.Code.Ldc_I4_S: xILOpCode = new ILOpCodes.OpInt(ILOpCode.Code.Ldc_I4, xOpPos, xPos + 1, ((sbyte)xIL[xPos]), xCurrentExceptionRegion); break; default: xILOpCode = new ILOpCodes.OpInt(xOpCodeVal, xOpPos, xPos + 1, ((sbyte)xIL[xPos]), xCurrentExceptionRegion); break; } xPos = xPos + 1; break; case OperandType.InlineI: xILOpCode = new ILOpCodes.OpInt(xOpCodeVal, xOpPos, xPos + 4, ReadInt32(xIL, xPos), xCurrentExceptionRegion); xPos = xPos + 4; break; case OperandType.InlineI8: xILOpCode = new ILOpCodes.OpInt64(xOpCodeVal, xOpPos, xPos + 8, ReadUInt64(xIL, xPos), xCurrentExceptionRegion); xPos = xPos + 8; break; case OperandType.ShortInlineR: xILOpCode = new ILOpCodes.OpSingle(xOpCodeVal, xOpPos, xPos + 4, BitConverter.ToSingle(xIL, xPos), xCurrentExceptionRegion); xPos = xPos + 4; break; case OperandType.InlineR: xILOpCode = new ILOpCodes.OpDouble(xOpCodeVal, xOpPos, xPos + 8, BitConverter.ToDouble(xIL, xPos), xCurrentExceptionRegion); xPos = xPos + 8; break; // The operand is a 32-bit metadata token. case OperandType.InlineField: { var xValue = xModule.ResolveField(ReadInt32(xIL, xPos), xTypeGenArgs, xMethodGenArgs); xILOpCode = new ILOpCodes.OpField(xOpCodeVal, xOpPos, xPos + 4, xValue, xCurrentExceptionRegion); xPos = xPos + 4; break; } // The operand is a 32-bit metadata token. case OperandType.InlineMethod: { var xValue = xModule.ResolveMethod(ReadInt32(xIL, xPos), xTypeGenArgs, xMethodGenArgs); xILOpCode = new ILOpCodes.OpMethod(xOpCodeVal, xOpPos, xPos + 4, xValue, xCurrentExceptionRegion); xPos = xPos + 4; break; } // 32-bit metadata signature token. case OperandType.InlineSig: xILOpCode = new ILOpCodes.OpSig(xOpCodeVal, xOpPos, xPos + 4, ReadInt32(xIL, xPos), xCurrentExceptionRegion); xPos = xPos + 4; break; case OperandType.InlineString: xILOpCode = new ILOpCodes.OpString(xOpCodeVal, xOpPos, xPos + 4, xModule.ResolveString(ReadInt32(xIL, xPos)), xCurrentExceptionRegion); xPos = xPos + 4; break; case OperandType.InlineSwitch: { int xCount = ReadInt32(xIL, xPos); xPos = xPos + 4; int xNextOpPos = xPos + xCount * 4; var xBranchLocations = new int[xCount]; for (int i = 0; i < xCount; i++) { xBranchLocations[i] = xNextOpPos + ReadInt32(xIL, xPos + i * 4); CheckBranch(xBranchLocations[i], xIL.Length); } xILOpCode = new ILOpCodes.OpSwitch(xOpCodeVal, xOpPos, xNextOpPos, xBranchLocations, xCurrentExceptionRegion); xPos = xNextOpPos; break; } // The operand is a FieldRef, MethodRef, or TypeRef token. case OperandType.InlineTok: xILOpCode = new ILOpCodes.OpToken(xOpCodeVal, xOpPos, xPos + 4, ReadInt32(xIL, xPos), xModule, xTypeGenArgs, xMethodGenArgs, xCurrentExceptionRegion); xPos = xPos + 4; break; // 32-bit metadata token. case OperandType.InlineType: { var xValue = xModule.ResolveType(ReadInt32(xIL, xPos), xTypeGenArgs, xMethodGenArgs); xILOpCode = new ILOpCodes.OpType(xOpCodeVal, xOpPos, xPos + 4, xValue, xCurrentExceptionRegion); xPos = xPos + 4; break; } case OperandType.ShortInlineVar: switch (xOpCodeVal) { case ILOpCode.Code.Ldloc_S: xILOpCode = new ILOpCodes.OpVar(ILOpCode.Code.Ldloc, xOpPos, xPos + 1, xIL[xPos], xCurrentExceptionRegion); break; case ILOpCode.Code.Ldloca_S: xILOpCode = new ILOpCodes.OpVar(ILOpCode.Code.Ldloca, xOpPos, xPos + 1, xIL[xPos], xCurrentExceptionRegion); break; case ILOpCode.Code.Ldarg_S: xILOpCode = new ILOpCodes.OpVar(ILOpCode.Code.Ldarg, xOpPos, xPos + 1, xIL[xPos], xCurrentExceptionRegion); break; case ILOpCode.Code.Ldarga_S: xILOpCode = new ILOpCodes.OpVar(ILOpCode.Code.Ldarga, xOpPos, xPos + 1, xIL[xPos], xCurrentExceptionRegion); break; case ILOpCode.Code.Starg_S: xILOpCode = new ILOpCodes.OpVar(ILOpCode.Code.Starg, xOpPos, xPos + 1, xIL[xPos], xCurrentExceptionRegion); break; case ILOpCode.Code.Stloc_S: xILOpCode = new ILOpCodes.OpVar(ILOpCode.Code.Stloc, xOpPos, xPos + 1, xIL[xPos], xCurrentExceptionRegion); break; default: xILOpCode = new ILOpCodes.OpVar(xOpCodeVal, xOpPos, xPos + 1, xIL[xPos], xCurrentExceptionRegion); break; } xPos = xPos + 1; break; case OperandType.InlineVar: xILOpCode = new ILOpCodes.OpVar(xOpCodeVal, xOpPos, xPos + 2, ReadUInt16(xIL, xPos), xCurrentExceptionRegion); xPos = xPos + 2; break; default: throw new Exception("Unknown OperandType"); } xILOpCode.InitStackAnalysis(aMethod); xResult.Add(xILOpCode); } return(xResult); }
public List <ILOpCode> ProcessMethod(MethodBase aMethod) { var xResult = new List <ILOpCode>(); var xBody = aMethod.GetMethodBody(); var xModule = aMethod.Module; // Cache for use in field and method resolution Type[] xTypeGenArgs = Type.EmptyTypes; Type[] xMethodGenArgs = Type.EmptyTypes; if (aMethod.DeclaringType.IsGenericType) { xTypeGenArgs = aMethod.DeclaringType.GetGenericArguments(); } if (aMethod.IsGenericMethod) { xMethodGenArgs = aMethod.GetGenericArguments(); } #region Unsafe Intrinsic if (aMethod.DeclaringType.FullName == "Internal.Runtime.CompilerServices.Unsafe") { var xUnsafeType = Type.GetType("System.Runtime.CompilerServices.Unsafe, System.Runtime.CompilerServices.Unsafe"); var xUnsafeMethod = xUnsafeType.GetMethods() .Where( m => m.Name == aMethod.Name && m.GetGenericArguments().Length == aMethod.GetGenericArguments().Length && m.GetParameters().Length == aMethod.GetParameters().Length) .SingleOrDefault( m => { var xParamTypes = Array.ConvertAll(m.GetParameters(), p => p.ParameterType); var xOriginalParamTypes = Array.ConvertAll( ((MethodInfo)aMethod).GetParameters(), p => p.ParameterType); for (int i = 0; i < xParamTypes.Length; i++) { var xParamType = xParamTypes[i]; var xOriginalParamType = xOriginalParamTypes[i]; while (xParamType.HasElementType) { if (!xOriginalParamType.HasElementType) { return(false); } if ((xParamType.IsArray && !xOriginalParamType.IsArray) || (xParamType.IsByRef && !xOriginalParamType.IsByRef) || (xParamType.IsPointer && !xOriginalParamType.IsPointer)) { return(false); } xParamType = xParamType.GetElementType(); xOriginalParamType = xOriginalParamType.GetElementType(); } if (!xParamType.IsAssignableFrom(xOriginalParamType) && (!xParamType.IsGenericParameter || (xParamType.HasElementType && !xParamType.IsArray))) { return(false); } } return(true); }); if (xUnsafeMethod != null) { xBody = xUnsafeMethod.GetMethodBody(); xModule = xUnsafeMethod.Module; } } #endregion #region ByReference Intrinsic if (aMethod.DeclaringType.IsGenericType && aMethod.DeclaringType.GetGenericTypeDefinition().FullName == "System.ByReference`1") { var valueField = aMethod.DeclaringType.GetField("_value", BindingFlags.Instance | BindingFlags.NonPublic); switch (aMethod.Name) { case ".ctor": // push $this xResult.Add(new ILOpCodes.OpVar(ILOpCode.Code.Ldarg, 0, 1, 0, null)); // push value (arg 1) xResult.Add(new ILOpCodes.OpVar(ILOpCode.Code.Ldarg, 1, 2, 1, null)); // store value into $this._value xResult.Add(new ILOpCodes.OpField(ILOpCode.Code.Stfld, 2, 8, valueField, null)); // return xResult.Add(new ILOpCodes.OpNone(ILOpCode.Code.Ret, 8, 9, null)); break; case "get_Value": // push $this xResult.Add(new ILOpCodes.OpVar(ILOpCode.Code.Ldarg, 0, 1, 0, null)); // push $this._value xResult.Add(new ILOpCodes.OpField(ILOpCode.Code.Ldfld, 1, 6, valueField, null)); // return xResult.Add(new ILOpCodes.OpNone(ILOpCode.Code.Ret, 6, 7, null)); break; default: throw new NotImplementedException($"ByReference intrinsic method '{aMethod}' not implemented!"); } foreach (var op in xResult) { op.InitStackAnalysis(aMethod); } return(xResult); } #endregion #region RuntimeTypeHandle if (aMethod.DeclaringType.Name == "RuntimeType") { if (aMethod.Name == ".ctor") { var op = new ILOpCodes.OpNone(ILOpCode.Code.Ret, 0, 1, null); op.InitStackAnalysis(aMethod); xResult.Add(op); return(xResult); } } if (aMethod.DeclaringType.Name == "TypeImpl") { if (aMethod.Name == "CreateRuntimeTypeHandle") { // the idea of this method is to first create a RuntimeType object, set its handle and then create a RuntimeTypeHandle from it // we are manually coding in il here since we have to call a internal method on an internal class var runtimeType = Type.GetType("System.RuntimeType"); var ctor = runtimeType.GetConstructor(BindingFlags.Instance | BindingFlags.NonPublic, null, new Type[] { }, null); xResult.Add(new ILOpCodes.OpMethod(ILOpCode.Code.Newobj, 0, 1, ctor, null) { StackPopTypes = Array.Empty <Type>(), StackPushTypes = new[] { runtimeType }, }); xResult.Add(new ILOpCodes.OpNone(ILOpCode.Code.Dup, 1, 2, null) { StackPopTypes = new[] { runtimeType }, StackPushTypes = new[] { runtimeType, runtimeType } }); xResult.Add(new ILOpCodes.OpVar(ILOpCode.Code.Ldarg, 2, 3, 0, null) { StackPopTypes = Array.Empty <Type>(), StackPushTypes = new[] { typeof(int) }, }); var m_handle = runtimeType.GetField("m_handle", BindingFlags.Instance | BindingFlags.NonPublic); xResult.Add(new ILOpCodes.OpField(ILOpCode.Code.Stfld, 3, 4, m_handle, null) { StackPopTypes = new[] { typeof(int), runtimeType }, StackPushTypes = Array.Empty <Type>(), }); var runtimeTypeHandle = Type.GetType("System.RuntimeTypeHandle"); ctor = runtimeTypeHandle.GetConstructor(BindingFlags.Instance | BindingFlags.NonPublic, null, new[] { runtimeType }, null); xResult.Add(new ILOpCodes.OpMethod(ILOpCode.Code.Newobj, 4, 5, ctor, null) { StackPopTypes = new[] { runtimeType }, StackPushTypes = new[] { runtimeTypeHandle }, }); xResult.Add(new ILOpCodes.OpNone(ILOpCode.Code.Ret, 5, 6, null) { StackPopTypes = Array.Empty <Type>(), StackPushTypes = Array.Empty <Type>(), }); return(xResult); } } #endregion #region ArrayPool ("hacked" generic plug) if (aMethod.DeclaringType.IsGenericType && aMethod.DeclaringType.GetGenericTypeDefinition().FullName == "System.Buffers.ArrayPool`1") { if (aMethod.Name == ".cctor") { var op = new ILOpCodes.OpNone(ILOpCode.Code.Ret, 0, 1, null); op.InitStackAnalysis(aMethod); xResult.Add(op); return(xResult); } } #endregion #region RuntimeHelpers if (aMethod.DeclaringType.FullName == "System.Runtime.CompilerServices.RuntimeHelpers") { if (aMethod.Name == "IsBitwiseEquatable") { // This is a generic method so we emit true or false depending on the type ILOpCode op; if (ILOp.IsIntegralTypeOrPointer(xMethodGenArgs[0])) { op = new ILOpCodes.OpInt(ILOpCode.Code.Ldc_I4, 0, 1, 1, null); } else { op = new ILOpCodes.OpInt(ILOpCode.Code.Ldc_I4, 0, 1, 1, null); } op.InitStackAnalysis(aMethod); xResult.Add(op); op = new ILOpCodes.OpNone(ILOpCode.Code.Ret, 1, 2, null); op.InitStackAnalysis(aMethod); xResult.Add(op); return(xResult); } } #endregion // Some methods return no body. Not sure why.. have to investigate // They arent abstracts or icalls... if (xBody == null) { return(null); } var xIL = xBody.GetILAsByteArray(); int xPos = 0; while (xPos < xIL.Length) { _ExceptionRegionInfo xCurrentExceptionRegion = null; #region Determine current handler // todo: add support for nested handlers using a stack or so.. foreach (_ExceptionRegionInfo xHandler in aMethod.GetExceptionRegionInfos()) { if (xHandler.TryOffset >= 0) { if (xHandler.TryOffset <= xPos && (xHandler.TryLength + xHandler.TryOffset) > xPos) { if (xCurrentExceptionRegion == null) { xCurrentExceptionRegion = xHandler; continue; } else if (xHandler.TryOffset > xCurrentExceptionRegion.TryOffset && (xHandler.TryLength + xHandler.TryOffset) < (xCurrentExceptionRegion.TryLength + xCurrentExceptionRegion.TryOffset)) { // only replace if the current found handler is narrower xCurrentExceptionRegion = xHandler; continue; } } } // todo: handler offset can be 0 like try offset? if (xHandler.HandlerOffset > 0) { if (xHandler.HandlerOffset <= xPos && (xHandler.HandlerOffset + xHandler.HandlerLength) > xPos) { if (xCurrentExceptionRegion == null) { xCurrentExceptionRegion = xHandler; continue; } else if (xHandler.HandlerOffset > xCurrentExceptionRegion.HandlerOffset && (xHandler.HandlerOffset + xHandler.HandlerLength) < (xCurrentExceptionRegion.HandlerOffset + xCurrentExceptionRegion.HandlerLength)) { // only replace if the current found handler is narrower xCurrentExceptionRegion = xHandler; continue; } } } if (xHandler.Kind.HasFlag(ExceptionRegionKind.Filter)) { if (xHandler.FilterOffset > 0) { if (xHandler.FilterOffset <= xPos) { if (xCurrentExceptionRegion == null) { xCurrentExceptionRegion = xHandler; continue; } else if (xHandler.FilterOffset > xCurrentExceptionRegion.FilterOffset) { // only replace if the current found handler is narrower xCurrentExceptionRegion = xHandler; continue; } } } } } #endregion ILOpCode.Code xOpCodeVal; OpCode xOpCode; int xOpPos = xPos; if (xIL[xPos] == 0xFE) { xOpCodeVal = (ILOpCode.Code)(0xFE00 | xIL[xPos + 1]); xOpCode = mOpCodesHi[xIL[xPos + 1]]; xPos = xPos + 2; } else { xOpCodeVal = (ILOpCode.Code)xIL[xPos]; xOpCode = mOpCodesLo[xIL[xPos]]; xPos++; } ILOpCode xILOpCode = null; switch (xOpCode.OperandType) { // No operand. case OperandType.InlineNone: { #region Inline none options // These shortcut translation regions expand shortcut ops into full ops // This elminates the amount of code required in the assemblers // by allowing them to ignore the shortcuts switch (xOpCodeVal) { case ILOpCode.Code.Ldarg_0: xILOpCode = new ILOpCodes.OpVar(ILOpCode.Code.Ldarg, xOpPos, xPos, 0, xCurrentExceptionRegion); break; case ILOpCode.Code.Ldarg_1: xILOpCode = new ILOpCodes.OpVar(ILOpCode.Code.Ldarg, xOpPos, xPos, 1, xCurrentExceptionRegion); break; case ILOpCode.Code.Ldarg_2: xILOpCode = new ILOpCodes.OpVar(ILOpCode.Code.Ldarg, xOpPos, xPos, 2, xCurrentExceptionRegion); break; case ILOpCode.Code.Ldarg_3: xILOpCode = new ILOpCodes.OpVar(ILOpCode.Code.Ldarg, xOpPos, xPos, 3, xCurrentExceptionRegion); break; case ILOpCode.Code.Ldc_I4_0: xILOpCode = new ILOpCodes.OpInt(ILOpCode.Code.Ldc_I4, xOpPos, xPos, 0, xCurrentExceptionRegion); break; case ILOpCode.Code.Ldc_I4_1: xILOpCode = new ILOpCodes.OpInt(ILOpCode.Code.Ldc_I4, xOpPos, xPos, 1, xCurrentExceptionRegion); break; case ILOpCode.Code.Ldc_I4_2: xILOpCode = new ILOpCodes.OpInt(ILOpCode.Code.Ldc_I4, xOpPos, xPos, 2, xCurrentExceptionRegion); break; case ILOpCode.Code.Ldc_I4_3: xILOpCode = new ILOpCodes.OpInt(ILOpCode.Code.Ldc_I4, xOpPos, xPos, 3, xCurrentExceptionRegion); break; case ILOpCode.Code.Ldc_I4_4: xILOpCode = new ILOpCodes.OpInt(ILOpCode.Code.Ldc_I4, xOpPos, xPos, 4, xCurrentExceptionRegion); break; case ILOpCode.Code.Ldc_I4_5: xILOpCode = new ILOpCodes.OpInt(ILOpCode.Code.Ldc_I4, xOpPos, xPos, 5, xCurrentExceptionRegion); break; case ILOpCode.Code.Ldc_I4_6: xILOpCode = new ILOpCodes.OpInt(ILOpCode.Code.Ldc_I4, xOpPos, xPos, 6, xCurrentExceptionRegion); break; case ILOpCode.Code.Ldc_I4_7: xILOpCode = new ILOpCodes.OpInt(ILOpCode.Code.Ldc_I4, xOpPos, xPos, 7, xCurrentExceptionRegion); break; case ILOpCode.Code.Ldc_I4_8: xILOpCode = new ILOpCodes.OpInt(ILOpCode.Code.Ldc_I4, xOpPos, xPos, 8, xCurrentExceptionRegion); break; case ILOpCode.Code.Ldc_I4_M1: xILOpCode = new ILOpCodes.OpInt(ILOpCode.Code.Ldc_I4, xOpPos, xPos, -1, xCurrentExceptionRegion); break; case ILOpCode.Code.Ldloc_0: xILOpCode = new ILOpCodes.OpVar(ILOpCode.Code.Ldloc, xOpPos, xPos, 0, xCurrentExceptionRegion); break; case ILOpCode.Code.Ldloc_1: xILOpCode = new ILOpCodes.OpVar(ILOpCode.Code.Ldloc, xOpPos, xPos, 1, xCurrentExceptionRegion); break; case ILOpCode.Code.Ldloc_2: xILOpCode = new ILOpCodes.OpVar(ILOpCode.Code.Ldloc, xOpPos, xPos, 2, xCurrentExceptionRegion); break; case ILOpCode.Code.Ldloc_3: xILOpCode = new ILOpCodes.OpVar(ILOpCode.Code.Ldloc, xOpPos, xPos, 3, xCurrentExceptionRegion); break; case ILOpCode.Code.Stloc_0: xILOpCode = new ILOpCodes.OpVar(ILOpCode.Code.Stloc, xOpPos, xPos, 0, xCurrentExceptionRegion); break; case ILOpCode.Code.Stloc_1: xILOpCode = new ILOpCodes.OpVar(ILOpCode.Code.Stloc, xOpPos, xPos, 1, xCurrentExceptionRegion); break; case ILOpCode.Code.Stloc_2: xILOpCode = new ILOpCodes.OpVar(ILOpCode.Code.Stloc, xOpPos, xPos, 2, xCurrentExceptionRegion); break; case ILOpCode.Code.Stloc_3: xILOpCode = new ILOpCodes.OpVar(ILOpCode.Code.Stloc, xOpPos, xPos, 3, xCurrentExceptionRegion); break; default: xILOpCode = new ILOpCodes.OpNone(xOpCodeVal, xOpPos, xPos, xCurrentExceptionRegion); break; } #endregion break; } case OperandType.ShortInlineBrTarget: { #region Inline branch // By calculating target, we assume all branches are within a method // So far at least wtih csc, its true. We check it with CheckBranch // just in case. int xTarget = xPos + 1 + (sbyte)xIL[xPos]; CheckBranch(xTarget, xIL.Length); switch (xOpCodeVal) { case ILOpCode.Code.Beq_S: xILOpCode = new ILOpCodes.OpBranch(ILOpCode.Code.Beq, xOpPos, xPos + 1, xTarget, xCurrentExceptionRegion); break; case ILOpCode.Code.Bge_S: xILOpCode = new ILOpCodes.OpBranch(ILOpCode.Code.Bge, xOpPos, xPos + 1, xTarget, xCurrentExceptionRegion); break; case ILOpCode.Code.Bge_Un_S: xILOpCode = new ILOpCodes.OpBranch(ILOpCode.Code.Bge_Un, xOpPos, xPos + 1, xTarget, xCurrentExceptionRegion); break; case ILOpCode.Code.Bgt_S: xILOpCode = new ILOpCodes.OpBranch(ILOpCode.Code.Bgt, xOpPos, xPos + 1, xTarget, xCurrentExceptionRegion); break; case ILOpCode.Code.Bgt_Un_S: xILOpCode = new ILOpCodes.OpBranch(ILOpCode.Code.Bgt_Un, xOpPos, xPos + 1, xTarget, xCurrentExceptionRegion); break; case ILOpCode.Code.Ble_S: xILOpCode = new ILOpCodes.OpBranch(ILOpCode.Code.Ble, xOpPos, xPos + 1, xTarget, xCurrentExceptionRegion); break; case ILOpCode.Code.Ble_Un_S: xILOpCode = new ILOpCodes.OpBranch(ILOpCode.Code.Ble_Un, xOpPos, xPos + 1, xTarget, xCurrentExceptionRegion); break; case ILOpCode.Code.Blt_S: xILOpCode = new ILOpCodes.OpBranch(ILOpCode.Code.Blt, xOpPos, xPos + 1, xTarget, xCurrentExceptionRegion); break; case ILOpCode.Code.Blt_Un_S: xILOpCode = new ILOpCodes.OpBranch(ILOpCode.Code.Blt_Un, xOpPos, xPos + 1, xTarget, xCurrentExceptionRegion); break; case ILOpCode.Code.Bne_Un_S: xILOpCode = new ILOpCodes.OpBranch(ILOpCode.Code.Bne_Un, xOpPos, xPos + 1, xTarget, xCurrentExceptionRegion); break; case ILOpCode.Code.Br_S: xILOpCode = new ILOpCodes.OpBranch(ILOpCode.Code.Br, xOpPos, xPos + 1, xTarget, xCurrentExceptionRegion); break; case ILOpCode.Code.Brfalse_S: xILOpCode = new ILOpCodes.OpBranch(ILOpCode.Code.Brfalse, xOpPos, xPos + 1, xTarget, xCurrentExceptionRegion); break; case ILOpCode.Code.Brtrue_S: xILOpCode = new ILOpCodes.OpBranch(ILOpCode.Code.Brtrue, xOpPos, xPos + 1, xTarget, xCurrentExceptionRegion); break; case ILOpCode.Code.Leave_S: xILOpCode = new ILOpCodes.OpBranch(ILOpCode.Code.Leave, xOpPos, xPos + 1, xTarget, xCurrentExceptionRegion); break; default: xILOpCode = new ILOpCodes.OpBranch(xOpCodeVal, xOpPos, xPos + 1, xTarget, xCurrentExceptionRegion); break; } xPos = xPos + 1; break; #endregion } case OperandType.InlineBrTarget: { int xTarget = xPos + 4 + ReadInt32(xIL, xPos); CheckBranch(xTarget, xIL.Length); xILOpCode = new ILOpCodes.OpBranch(xOpCodeVal, xOpPos, xPos + 4, xTarget, xCurrentExceptionRegion); xPos = xPos + 4; break; } case OperandType.ShortInlineI: switch (xOpCodeVal) { case ILOpCode.Code.Ldc_I4_S: xILOpCode = new ILOpCodes.OpInt(ILOpCode.Code.Ldc_I4, xOpPos, xPos + 1, ((sbyte)xIL[xPos]), xCurrentExceptionRegion); break; default: xILOpCode = new ILOpCodes.OpInt(xOpCodeVal, xOpPos, xPos + 1, ((sbyte)xIL[xPos]), xCurrentExceptionRegion); break; } xPos = xPos + 1; break; case OperandType.InlineI: xILOpCode = new ILOpCodes.OpInt(xOpCodeVal, xOpPos, xPos + 4, ReadInt32(xIL, xPos), xCurrentExceptionRegion); xPos = xPos + 4; break; case OperandType.InlineI8: xILOpCode = new ILOpCodes.OpInt64(xOpCodeVal, xOpPos, xPos + 8, ReadUInt64(xIL, xPos), xCurrentExceptionRegion); xPos = xPos + 8; break; case OperandType.ShortInlineR: xILOpCode = new ILOpCodes.OpSingle(xOpCodeVal, xOpPos, xPos + 4, BitConverter.ToSingle(xIL, xPos), xCurrentExceptionRegion); xPos = xPos + 4; break; case OperandType.InlineR: xILOpCode = new ILOpCodes.OpDouble(xOpCodeVal, xOpPos, xPos + 8, BitConverter.ToDouble(xIL, xPos), xCurrentExceptionRegion); xPos = xPos + 8; break; // The operand is a 32-bit metadata token. case OperandType.InlineField: { var xValue = xModule.ResolveField(ReadInt32(xIL, xPos), xTypeGenArgs, xMethodGenArgs); xILOpCode = new ILOpCodes.OpField(xOpCodeVal, xOpPos, xPos + 4, xValue, xCurrentExceptionRegion); xPos = xPos + 4; break; } // The operand is a 32-bit metadata token. case OperandType.InlineMethod: { var xValue = xModule.ResolveMethod(ReadInt32(xIL, xPos), xTypeGenArgs, xMethodGenArgs); xILOpCode = new ILOpCodes.OpMethod(xOpCodeVal, xOpPos, xPos + 4, xValue, xCurrentExceptionRegion); xPos = xPos + 4; break; } // 32-bit metadata signature token. case OperandType.InlineSig: xILOpCode = new ILOpCodes.OpSig(xOpCodeVal, xOpPos, xPos + 4, ReadInt32(xIL, xPos), xCurrentExceptionRegion); xPos = xPos + 4; break; case OperandType.InlineString: xILOpCode = new ILOpCodes.OpString(xOpCodeVal, xOpPos, xPos + 4, xModule.ResolveString(ReadInt32(xIL, xPos)), xCurrentExceptionRegion); xPos = xPos + 4; break; case OperandType.InlineSwitch: { int xCount = ReadInt32(xIL, xPos); xPos = xPos + 4; int xNextOpPos = xPos + xCount * 4; var xBranchLocations = new int[xCount]; for (int i = 0; i < xCount; i++) { xBranchLocations[i] = xNextOpPos + ReadInt32(xIL, xPos + i * 4); CheckBranch(xBranchLocations[i], xIL.Length); } xILOpCode = new ILOpCodes.OpSwitch(xOpCodeVal, xOpPos, xNextOpPos, xBranchLocations, xCurrentExceptionRegion); xPos = xNextOpPos; break; } // The operand is a FieldRef, MethodRef, or TypeRef token. case OperandType.InlineTok: xILOpCode = new ILOpCodes.OpToken(xOpCodeVal, xOpPos, xPos + 4, ReadInt32(xIL, xPos), xModule, xTypeGenArgs, xMethodGenArgs, xCurrentExceptionRegion); xPos = xPos + 4; break; // 32-bit metadata token. case OperandType.InlineType: { var xValue = xModule.ResolveType(ReadInt32(xIL, xPos), xTypeGenArgs, xMethodGenArgs); xILOpCode = new ILOpCodes.OpType(xOpCodeVal, xOpPos, xPos + 4, xValue, xCurrentExceptionRegion); xPos = xPos + 4; break; } case OperandType.ShortInlineVar: switch (xOpCodeVal) { case ILOpCode.Code.Ldloc_S: xILOpCode = new ILOpCodes.OpVar(ILOpCode.Code.Ldloc, xOpPos, xPos + 1, xIL[xPos], xCurrentExceptionRegion); break; case ILOpCode.Code.Ldloca_S: xILOpCode = new ILOpCodes.OpVar(ILOpCode.Code.Ldloca, xOpPos, xPos + 1, xIL[xPos], xCurrentExceptionRegion); break; case ILOpCode.Code.Ldarg_S: xILOpCode = new ILOpCodes.OpVar(ILOpCode.Code.Ldarg, xOpPos, xPos + 1, xIL[xPos], xCurrentExceptionRegion); break; case ILOpCode.Code.Ldarga_S: xILOpCode = new ILOpCodes.OpVar(ILOpCode.Code.Ldarga, xOpPos, xPos + 1, xIL[xPos], xCurrentExceptionRegion); break; case ILOpCode.Code.Starg_S: xILOpCode = new ILOpCodes.OpVar(ILOpCode.Code.Starg, xOpPos, xPos + 1, xIL[xPos], xCurrentExceptionRegion); break; case ILOpCode.Code.Stloc_S: xILOpCode = new ILOpCodes.OpVar(ILOpCode.Code.Stloc, xOpPos, xPos + 1, xIL[xPos], xCurrentExceptionRegion); break; default: xILOpCode = new ILOpCodes.OpVar(xOpCodeVal, xOpPos, xPos + 1, xIL[xPos], xCurrentExceptionRegion); break; } xPos = xPos + 1; break; case OperandType.InlineVar: xILOpCode = new ILOpCodes.OpVar(xOpCodeVal, xOpPos, xPos + 2, ReadUInt16(xIL, xPos), xCurrentExceptionRegion); xPos = xPos + 2; break; default: throw new Exception("Unknown OperandType"); } xILOpCode.InitStackAnalysis(aMethod); xResult.Add(xILOpCode); } return(xResult); }