/// <summary> /// Creates a local variable /// </summary> /// <param name="Name">Name of the local</param> /// <param name="LocalType">Object type</param> /// <returns>The variable</returns> public virtual VariableBase CreateLocal(string Name, Type LocalType) { SetCurrentMethod(); DefineLocal TempCommand = new DefineLocal(Name, LocalType); TempCommand.Setup(); Commands.Add(TempCommand); return(TempCommand.Result); }
/// <summary> /// Creates a local variable /// </summary> /// <param name="name">name of the local</param> /// <param name="localType">Object type</param> /// <returns>The variable</returns> public virtual VariableBase CreateLocal(string name, Type localType) { SetCurrentMethod(); var tempCommand = new DefineLocal(name, localType); tempCommand.Setup(); Commands.Add(tempCommand); return(tempCommand.Result); }
public static InstructionCollection Parse(Stream input, long instructionsPosition) { var instructions = new SortedList <int, InstructionBase>(); using (var helper = new InstructionParseHelper(input, instructionsPosition)) { var reader = helper.GetReader(); while (helper.CanParse(instructions)) { //now reader the instructions var instructionPosition = helper.CurrentPosition; var type = reader.ReadByteAsEnum <InstructionType>(); var requireAlignment = InstructionAlignment.IsAligned(type); if (requireAlignment) { reader.Align(4); } InstructionBase instruction = null; var parameters = new List <Value>(); switch (type) { case InstructionType.ToNumber: instruction = new ToNumber(); break; case InstructionType.NextFrame: instruction = new NextFrame(); break; case InstructionType.Play: instruction = new Play(); break; case InstructionType.Stop: instruction = new Stop(); break; case InstructionType.Add: instruction = new Add(); break; case InstructionType.Subtract: instruction = new Subtract(); break; case InstructionType.Multiply: instruction = new Multiply(); break; case InstructionType.Divide: instruction = new Divide(); break; case InstructionType.Not: instruction = new Not(); break; case InstructionType.StringEquals: instruction = new StringEquals(); break; case InstructionType.Pop: instruction = new Pop(); break; case InstructionType.ToInteger: instruction = new ToInteger(); break; case InstructionType.GetVariable: instruction = new GetVariable(); break; case InstructionType.SetVariable: instruction = new SetVariable(); break; case InstructionType.StringConcat: instruction = new StringConcat(); break; case InstructionType.GetProperty: instruction = new GetProperty(); break; case InstructionType.SetProperty: instruction = new SetProperty(); break; case InstructionType.Trace: instruction = new Trace(); break; case InstructionType.Random: instruction = new RandomNumber(); break; case InstructionType.Delete: instruction = new Delete(); break; case InstructionType.Delete2: instruction = new Delete2(); break; case InstructionType.DefineLocal: instruction = new DefineLocal(); break; case InstructionType.CallFunction: instruction = new CallFunction(); break; case InstructionType.Return: instruction = new Return(); break; case InstructionType.Modulo: instruction = new Modulo(); break; case InstructionType.NewObject: instruction = new NewObject(); break; case InstructionType.InitArray: instruction = new InitArray(); break; case InstructionType.InitObject: instruction = new InitObject(); break; case InstructionType.TypeOf: instruction = new TypeOf(); break; case InstructionType.Add2: instruction = new Add2(); break; case InstructionType.LessThan2: instruction = new LessThan2(); break; case InstructionType.Equals2: instruction = new Equals2(); break; case InstructionType.ToString: instruction = new ToString(); break; case InstructionType.PushDuplicate: instruction = new PushDuplicate(); break; case InstructionType.GetMember: instruction = new GetMember(); break; case InstructionType.SetMember: instruction = new SetMember(); break; case InstructionType.Increment: instruction = new Increment(); break; case InstructionType.Decrement: instruction = new Decrement(); break; case InstructionType.CallMethod: instruction = new CallMethod(); break; case InstructionType.Enumerate2: instruction = new Enumerate2(); break; case InstructionType.EA_PushThis: instruction = new PushThis(); break; case InstructionType.EA_PushZero: instruction = new PushZero(); break; case InstructionType.EA_PushOne: instruction = new PushOne(); break; case InstructionType.EA_CallFunc: instruction = new CallFunc(); break; case InstructionType.EA_CallMethodPop: instruction = new CallMethodPop(); break; case InstructionType.BitwiseXOr: instruction = new BitwiseXOr(); break; case InstructionType.Greater: instruction = new Greater(); break; case InstructionType.EA_PushThisVar: instruction = new PushThisVar(); break; case InstructionType.EA_PushGlobalVar: instruction = new PushGlobalVar(); break; case InstructionType.EA_ZeroVar: instruction = new ZeroVar(); break; case InstructionType.EA_PushTrue: instruction = new PushTrue(); break; case InstructionType.EA_PushFalse: instruction = new PushFalse(); break; case InstructionType.EA_PushNull: instruction = new PushNull(); break; case InstructionType.EA_PushUndefined: instruction = new PushUndefined(); break; case InstructionType.GotoFrame: instruction = new GotoFrame(); parameters.Add(Value.FromInteger(reader.ReadInt32())); break; case InstructionType.GetURL: instruction = new GetUrl(); parameters.Add(Value.FromString(reader.ReadStringAtOffset())); parameters.Add(Value.FromString(reader.ReadStringAtOffset())); break; case InstructionType.SetRegister: instruction = new SetRegister(); parameters.Add(Value.FromInteger(reader.ReadInt32())); break; case InstructionType.ConstantPool: { instruction = new ConstantPool(); var count = reader.ReadUInt32(); var constants = reader.ReadFixedSizeArrayAtOffset <uint>(() => reader.ReadUInt32(), count); foreach (var constant in constants) { parameters.Add(Value.FromConstant(constant)); } } break; case InstructionType.GotoLabel: instruction = new GotoLabel(); parameters.Add(Value.FromString(reader.ReadStringAtOffset())); break; case InstructionType.DefineFunction2: { instruction = new DefineFunction2(); var name = reader.ReadStringAtOffset(); var nParams = reader.ReadUInt32(); var nRegisters = reader.ReadByte(); var flags = reader.ReadUInt24(); //list of parameter strings var paramList = reader.ReadFixedSizeListAtOffset <FunctionArgument>(() => new FunctionArgument() { Register = reader.ReadInt32(), Parameter = reader.ReadStringAtOffset(), }, nParams); parameters.Add(Value.FromString(name)); parameters.Add(Value.FromInteger((int)nParams)); parameters.Add(Value.FromInteger((int)nRegisters)); parameters.Add(Value.FromInteger((int)flags)); foreach (var param in paramList) { parameters.Add(Value.FromInteger(param.Register)); parameters.Add(Value.FromString(param.Parameter)); } //body size of the function parameters.Add(Value.FromInteger(reader.ReadInt32())); //skip 8 bytes reader.ReadUInt64(); } break; case InstructionType.PushData: { instruction = new PushData(); var count = reader.ReadUInt32(); var constants = reader.ReadFixedSizeArrayAtOffset <uint>(() => reader.ReadUInt32(), count); foreach (var constant in constants) { parameters.Add(Value.FromConstant(constant)); } } break; case InstructionType.BranchAlways: { instruction = new BranchAlways(); var offset = reader.ReadInt32(); parameters.Add(Value.FromInteger(offset)); helper.ReportBranchOffset(offset); } break; case InstructionType.GetURL2: instruction = new GetUrl2(); break; case InstructionType.DefineFunction: { instruction = new DefineFunction(); var name = reader.ReadStringAtOffset(); //list of parameter strings var paramList = reader.ReadListAtOffset <string>(() => reader.ReadStringAtOffset()); parameters.Add(Value.FromString(name)); parameters.Add(Value.FromInteger(paramList.Count)); foreach (var param in paramList) { parameters.Add(Value.FromString(param)); } //body size of the function parameters.Add(Value.FromInteger(reader.ReadInt32())); //skip 8 bytes reader.ReadUInt64(); } break; case InstructionType.BranchIfTrue: { instruction = new BranchIfTrue(); var offset = reader.ReadInt32(); parameters.Add(Value.FromInteger(offset)); helper.ReportBranchOffset(offset); } break; case InstructionType.GotoFrame2: instruction = new GotoFrame2(); parameters.Add(Value.FromInteger(reader.ReadInt32())); break; case InstructionType.EA_PushString: instruction = new PushString(); //the constant id that should be pushed parameters.Add(Value.FromString(reader.ReadStringAtOffset())); break; case InstructionType.EA_PushConstantByte: instruction = new PushConstantByte(); //the constant id that should be pushed parameters.Add(Value.FromConstant(reader.ReadByte())); break; case InstructionType.EA_GetStringVar: instruction = new GetStringVar(); parameters.Add(Value.FromString(reader.ReadStringAtOffset())); break; case InstructionType.EA_SetStringVar: instruction = new SetStringVar(); parameters.Add(Value.FromString(reader.ReadStringAtOffset())); break; case InstructionType.EA_GetStringMember: instruction = new GetStringMember(); parameters.Add(Value.FromString(reader.ReadStringAtOffset())); break; case InstructionType.EA_SetStringMember: instruction = new SetStringMember(); parameters.Add(Value.FromString(reader.ReadStringAtOffset())); break; case InstructionType.EA_PushValueOfVar: instruction = new PushValueOfVar(); //the constant id that should be pushed parameters.Add(Value.FromConstant(reader.ReadByte())); break; case InstructionType.EA_GetNamedMember: instruction = new GetNamedMember(); parameters.Add(Value.FromConstant(reader.ReadByte())); break; case InstructionType.EA_CallNamedFuncPop: instruction = new CallNamedFuncPop(); parameters.Add(Value.FromConstant(reader.ReadByte())); break; case InstructionType.EA_CallNamedFunc: instruction = new CallNamedFunc(); parameters.Add(Value.FromConstant(reader.ReadByte())); break; case InstructionType.EA_CallNamedMethodPop: instruction = new CallNamedMethodPop(); parameters.Add(Value.FromConstant(reader.ReadByte())); break; case InstructionType.EA_PushFloat: instruction = new PushFloat(); parameters.Add(Value.FromFloat(reader.ReadSingle())); break; case InstructionType.EA_PushByte: instruction = new PushByte(); parameters.Add(Value.FromInteger(reader.ReadByte())); break; case InstructionType.EA_PushShort: instruction = new PushShort(); parameters.Add(Value.FromInteger(reader.ReadUInt16())); break; case InstructionType.End: instruction = new End(); break; case InstructionType.EA_CallNamedMethod: instruction = new CallNamedMethod(); parameters.Add(Value.FromConstant(reader.ReadByte())); break; case InstructionType.Var: instruction = new Var(); break; case InstructionType.EA_PushRegister: instruction = new PushRegister(); parameters.Add(Value.FromInteger(reader.ReadByte())); break; case InstructionType.EA_PushConstantWord: instruction = new PushConstantWord(); parameters.Add(Value.FromConstant(reader.ReadUInt16())); break; case InstructionType.EA_CallFuncPop: instruction = new CallFunctionPop(); break; case InstructionType.StrictEqual: instruction = new StrictEquals(); break; default: throw new InvalidDataException("Unimplemented bytecode instruction:" + type.ToString()); } if (instruction != null) { instruction.Parameters = parameters; instructions.Add(instructionPosition, instruction); } } } return(new InstructionCollection(instructions)); }
public void Parse() { var current = _reader.BaseStream.Position; _reader.BaseStream.Seek(_offset, SeekOrigin.Begin); bool parsing = true; bool branched = false; int branchBytes = 0; while (parsing) { //now reader the instructions var type = _reader.ReadByteAsEnum <InstructionType>(); var aligned = InstructionAlignment.IsAligned(type); if (aligned) { var padding = _reader.Align(4); if (padding > 0) { Items.Add(new Padding(padding)); if (branched) { branchBytes -= (int)padding; if (branchBytes <= 0) { branched = false; branchBytes = 0; } } } } InstructionBase instruction = null; List <Value> parameters = new List <Value>(); switch (type) { case InstructionType.ToNumber: instruction = new ToNumber(); break; case InstructionType.NextFrame: instruction = new NextFrame(); break; case InstructionType.Play: instruction = new Play(); break; case InstructionType.Stop: instruction = new Stop(); break; case InstructionType.Add: instruction = new Add(); break; case InstructionType.Subtract: instruction = new Subtract(); break; case InstructionType.Multiply: instruction = new Multiply(); break; case InstructionType.Divide: instruction = new Divide(); break; case InstructionType.Not: instruction = new Not(); break; case InstructionType.StringEquals: instruction = new StringEquals(); break; case InstructionType.Pop: instruction = new Pop(); break; case InstructionType.ToInteger: instruction = new ToInteger(); break; case InstructionType.GetVariable: instruction = new GetVariable(); break; case InstructionType.SetVariable: instruction = new SetVariable(); break; case InstructionType.StringConcat: instruction = new StringConcat(); break; case InstructionType.GetProperty: instruction = new GetProperty(); break; case InstructionType.SetProperty: instruction = new SetProperty(); break; case InstructionType.Trace: instruction = new Trace(); break; case InstructionType.Delete: instruction = new Delete(); break; case InstructionType.Delete2: instruction = new Delete2(); break; case InstructionType.DefineLocal: instruction = new DefineLocal(); break; case InstructionType.CallFunction: instruction = new CallFunction(); break; case InstructionType.Return: instruction = new Return(); break; case InstructionType.NewObject: instruction = new NewObject(); break; case InstructionType.InitArray: instruction = new InitArray(); break; case InstructionType.InitObject: instruction = new InitObject(); break; case InstructionType.TypeOf: instruction = new InitObject(); break; case InstructionType.Add2: instruction = new Add2(); break; case InstructionType.LessThan2: instruction = new LessThan2(); break; case InstructionType.Equals2: instruction = new Equals2(); break; case InstructionType.ToString: instruction = new ToString(); break; case InstructionType.PushDuplicate: instruction = new PushDuplicate(); break; case InstructionType.GetMember: instruction = new GetMember(); break; case InstructionType.SetMember: instruction = new SetMember(); break; case InstructionType.Increment: instruction = new Increment(); break; case InstructionType.Decrement: instruction = new Decrement(); break; case InstructionType.CallMethod: instruction = new CallMethod(); break; case InstructionType.Enumerate2: instruction = new Enumerate2(); break; case InstructionType.EA_PushThis: instruction = new PushThis(); break; case InstructionType.EA_PushZero: instruction = new PushZero(); break; case InstructionType.EA_PushOne: instruction = new PushOne(); break; case InstructionType.EA_CallFunc: instruction = new CallFunc(); break; case InstructionType.EA_CallMethodPop: instruction = new CallMethodPop(); break; case InstructionType.BitwiseXOr: instruction = new BitwiseXOr(); break; case InstructionType.Greater: instruction = new Greater(); break; case InstructionType.EA_PushThisVar: instruction = new PushThisVar(); break; case InstructionType.EA_PushGlobalVar: instruction = new PushGlobalVar(); break; case InstructionType.EA_ZeroVar: instruction = new ZeroVar(); break; case InstructionType.EA_PushTrue: instruction = new PushTrue(); break; case InstructionType.EA_PushFalse: instruction = new PushFalse(); break; case InstructionType.EA_PushNull: instruction = new PushNull(); break; case InstructionType.EA_PushUndefined: instruction = new PushUndefined(); break; case InstructionType.GotoFrame: instruction = new GotoFrame(); parameters.Add(Value.FromInteger(_reader.ReadInt32())); break; case InstructionType.GetURL: instruction = new GetUrl(); parameters.Add(Value.FromString(_reader.ReadStringAtOffset())); parameters.Add(Value.FromString(_reader.ReadStringAtOffset())); break; case InstructionType.SetRegister: instruction = new SetRegister(); parameters.Add(Value.FromInteger(_reader.ReadInt32())); break; case InstructionType.ConstantPool: { instruction = new ConstantPool(); var count = _reader.ReadUInt32(); var constants = _reader.ReadFixedSizeArrayAtOffset <uint>(() => _reader.ReadUInt32(), count); foreach (var constant in constants) { parameters.Add(Value.FromConstant(constant)); } } break; case InstructionType.GotoLabel: instruction = new GotoLabel(); parameters.Add(Value.FromString(_reader.ReadStringAtOffset())); break; case InstructionType.DefineFunction2: { instruction = new DefineFunction2(); var name = _reader.ReadStringAtOffset(); var nParams = _reader.ReadUInt32(); var nRegisters = _reader.ReadByte(); var flags = _reader.ReadUInt24(); //list of parameter strings var paramList = _reader.ReadFixedSizeListAtOffset <FunctionArgument>(() => new FunctionArgument() { Register = _reader.ReadInt32(), Parameter = _reader.ReadStringAtOffset(), }, nParams); parameters.Add(Value.FromString(name)); parameters.Add(Value.FromInteger((int)nParams)); parameters.Add(Value.FromInteger((int)nRegisters)); parameters.Add(Value.FromInteger((int)flags)); foreach (var param in paramList) { parameters.Add(Value.FromInteger(param.Register)); parameters.Add(Value.FromString(param.Parameter)); } //body size of the function parameters.Add(Value.FromInteger(_reader.ReadInt32())); //skip 8 bytes _reader.ReadUInt64(); } break; case InstructionType.PushData: { instruction = new PushData(); var count = _reader.ReadUInt32(); var constants = _reader.ReadFixedSizeArrayAtOffset <uint>(() => _reader.ReadUInt32(), count); foreach (var constant in constants) { parameters.Add(Value.FromConstant(constant)); } } break; case InstructionType.BranchAlways: instruction = new BranchAlways(); if (!branched) { branchBytes = _reader.ReadInt32(); parameters.Add(Value.FromInteger(branchBytes)); if (branchBytes > 0) { branchBytes += (int)instruction.Size + 1; branched = true; } } else { parameters.Add(Value.FromInteger(_reader.ReadInt32())); } break; case InstructionType.GetURL2: instruction = new GetUrl2(); break; case InstructionType.DefineFunction: { instruction = new DefineFunction(); var name = _reader.ReadStringAtOffset(); //list of parameter strings var paramList = _reader.ReadListAtOffset <string>(() => _reader.ReadStringAtOffset()); parameters.Add(Value.FromString(name)); parameters.Add(Value.FromInteger(paramList.Count)); foreach (var param in paramList) { parameters.Add(Value.FromString(param)); } //body size of the function parameters.Add(Value.FromInteger(_reader.ReadInt32())); //skip 8 bytes _reader.ReadUInt64(); } break; case InstructionType.BranchIfTrue: instruction = new BranchIfTrue(); if (!branched) { branchBytes = _reader.ReadInt32(); parameters.Add(Value.FromInteger(branchBytes)); if (branchBytes > 0) { branchBytes += (int)instruction.Size + 1; branched = true; } } else { parameters.Add(Value.FromInteger(_reader.ReadInt32())); } break; case InstructionType.GotoFrame2: instruction = new GotoFrame2(); parameters.Add(Value.FromInteger(_reader.ReadByte())); break; case InstructionType.EA_PushString: instruction = new PushString(); //the constant id that should be pushed parameters.Add(Value.FromString(_reader.ReadStringAtOffset())); break; case InstructionType.EA_PushConstantByte: instruction = new PushConstantByte(); //the constant id that should be pushed parameters.Add(Value.FromConstant(_reader.ReadByte())); break; case InstructionType.EA_GetStringVar: instruction = new GetStringVar(); parameters.Add(Value.FromString(_reader.ReadStringAtOffset())); break; case InstructionType.EA_SetStringVar: instruction = new SetStringMember(); parameters.Add(Value.FromString(_reader.ReadStringAtOffset())); break; case InstructionType.EA_GetStringMember: instruction = new GetStringMember(); parameters.Add(Value.FromString(_reader.ReadStringAtOffset())); break; case InstructionType.EA_SetStringMember: instruction = new SetStringMember(); parameters.Add(Value.FromString(_reader.ReadStringAtOffset())); break; case InstructionType.EA_PushValueOfVar: instruction = new PushValueOfVar(); //the constant id that should be pushed parameters.Add(Value.FromConstant(_reader.ReadByte())); break; case InstructionType.EA_GetNamedMember: instruction = new GetNamedMember(); parameters.Add(Value.FromConstant(_reader.ReadByte())); break; case InstructionType.EA_CallNamedFuncPop: instruction = new CallNamedFuncPop(); parameters.Add(Value.FromConstant(_reader.ReadByte())); break; case InstructionType.EA_CallNamedFunc: instruction = new CallNamedFunc(); parameters.Add(Value.FromConstant(_reader.ReadByte())); break; case InstructionType.EA_CallNamedMethodPop: instruction = new CallNamedMethodPop(); parameters.Add(Value.FromConstant(_reader.ReadByte())); break; case InstructionType.EA_PushFloat: instruction = new PushFloat(); parameters.Add(Value.FromFloat(_reader.ReadSingle())); break; case InstructionType.EA_PushByte: instruction = new PushByte(); parameters.Add(Value.FromInteger(_reader.ReadByte())); break; case InstructionType.EA_PushShort: instruction = new PushShort(); parameters.Add(Value.FromInteger(_reader.ReadUInt16())); break; case InstructionType.End: instruction = new End(); if (!branched) { parsing = false; } break; case InstructionType.EA_CallNamedMethod: instruction = new CallNamedMethod(); parameters.Add(Value.FromConstant(_reader.ReadByte())); break; case InstructionType.Var: instruction = new Var(); break; default: throw new InvalidDataException("Unimplemented bytecode instruction:" + type.ToString()); } if (instruction != null) { instruction.Parameters = parameters; Items.Add(instruction); } if (branched) { branchBytes -= (int)instruction.Size + 1; if (branchBytes <= 0) { branched = false; } } } _reader.BaseStream.Seek(current, SeekOrigin.Begin); }