using Aitex.Core.Common; using Aitex.Core.RT.DataCenter; using Aitex.Core.RT.Device.Devices; using Aitex.Core.RT.Device.Unit; using Aitex.Core.RT.Event; using Aitex.Core.RT.Log; using Aitex.Core.RT.SCCore; using Aitex.Core.Util; using Aitex.Sorter.Common; using MECF.Framework.Common.Communications; using MECF.Framework.RT.EquipmentLibrary.HardwareUnits.LoadPorts.LoadPortBase; using MECF.Framework.RT.EquipmentLibrary.HardwareUnits.LoadPorts.TDK; using MECF.Framework.RT.EquipmentLibrary.HardwareUnits.Robots.RobotBase; using System; using System.Collections.Generic; using System.IO.Ports; using System.Linq; using System.Text; using System.Threading; using System.Threading.Tasks; namespace MECF.Framework.RT.EquipmentLibrary.HardwareUnits.LoadPorts.HirataII { public class HirataIILoadPort:LoadPortBaseDevice,IConnection { public HirataIILoadPort(string module,string name,string scRoot,IoTrigger[] dos,bool IsTCPconnection = false,RobotBaseDevice robot =null) :base(module,name,robot) { _scRoot = scRoot; _isTcpConnection = IsTCPconnection; LoadPortType = "TDKLoadPort"; if (dos != null && dos.Length >= 1) { _doLoadPortOK = dos[0]; } InitializeLP(); SubscribeLPData(); } private void SubscribeLPData() { DATA.Subscribe($"{Module}.{Name}.SystemStatus", () => SystemStatus.ToString()); DATA.Subscribe($"{Module}.{Name}.Mode", () => Mode.ToString()); DATA.Subscribe($"{Module}.{Name}.InitPosMovement", () => InitPosMovement.ToString()); DATA.Subscribe($"{Module}.{Name}.OperationStatus", () => OperationStatus.ToString()); DATA.Subscribe($"{Module}.{Name}.ErrorCode", () => ErrorCode.ToString()); DATA.Subscribe($"{Module}.{Name}.ContainerStatus", () => ContainerStatus.ToString()); DATA.Subscribe($"{Module}.{Name}.ClampPosition", () => ClampPosition.ToString()); DATA.Subscribe($"{Module}.{Name}.LPDoorLatchPosition", () => LPDoorLatchPosition.ToString()); DATA.Subscribe($"{Module}.{Name}.VacuumStatus", () => VacuumStatus.ToString()); DATA.Subscribe($"{Module}.{Name}.LPDoorState", () => LPDoorState.ToString()); DATA.Subscribe($"{Module}.{Name}.WaferProtrusion", () => WaferProtrusion.ToString()); DATA.Subscribe($"{Module}.{Name}.ElevatorAxisPosition", () => ElevatorAxisPosition.ToString()); DATA.Subscribe($"{Module}.{Name}.MapperPostion", () => MapperPostion.ToString()); DATA.Subscribe($"{Module}.{Name}.MappingStatus", () => MappingStatus.ToString()); DATA.Subscribe($"{Module}.{Name}.Model", () => Model.ToString()); DATA.Subscribe($"{Module}.{Name}.IsFosbModeActual", () => IsFosbModeActual.ToString()); DATA.Subscribe($"{Module}.{Name}.DockPosition", () => DockPosition.ToString()); } public override string SpecCarrierType { get { if (_isPlaced) return SC.GetStringValue($"CarrierInfo.CarrierName{InfoPadCarrierIndex}"); return ""; } set => base.SpecCarrierType = value; } public override bool ReadCarrierID(int offset = 0, int length = 16) { if (SC.ContainsItem($"{_scRoot}.{Name}.NeedMoveToReadCarrierID") && SC.GetValue($"{_scRoot}.{Name}.NeedMoveToReadCarrierID")) { lock (_locker) { _lstHandler.AddLast(new HirataIIMoveToReadCarrierIDHandler(this)); _lstHandler.AddLast(new HirataIIMoveHandler(this, "FCOTB", null)); } return true; } else return base.ReadCarrierID(offset, length); } public override bool IsEnableDualTransfer(out string reason) { reason = ""; if (SC.ContainsItem($"CarrierInfo.EnableDualTransfer{InfoPadCarrierIndex}") && SC.GetValue($"CarrierInfo.EnableDualTransfer{InfoPadCarrierIndex}")) { return true; } return base.IsEnableDualTransfer(out reason); } private void InitializeLP() { IsMapWaferByLoadPort = true; if (_doLoadPortOK != null) _doLoadPortOK.SetTrigger(true, out _); //_deviceAddress = SC.GetValue($"{Name}.DeviceAddress"); _enableLog = SC.GetValue($"LoadPort.{Name}.EnableLogMessage"); if (_isTcpConnection) { Address = SC.GetStringValue($"LoadPort.{Name}.Address"); _tcpConnection = new HirataIILoadPortTCPConnection(this, Address); _tcpConnection.EnableLog(_enableLog); if (_tcpConnection.Connect()) { //LOG.Write($"Connected with {Module}.{Name} ."); EV.PostInfoLog(Module, $"Connected with {Module}.{Name} ."); } else { EV.PostAlarmLog(Module, $"Can't connect to {Module}.{Name}."); } } else { string portName = SC.GetStringValue($"LoadPort.{Name}.PortName"); int bautRate = SC.GetValue($"LoadPort.{Name}.BaudRate"); int dataBits = SC.GetValue($"LoadPort.{Name}.DataBits"); Enum.TryParse(SC.GetStringValue($"LoadPort.{Name}.Parity"), out Parity parity); Enum.TryParse(SC.GetStringValue($"LoadPort.{Name}.StopBits"), out StopBits stopBits); _connection = new HirataIILoadPortConnection(this, portName, bautRate, dataBits, parity, stopBits); _connection.EnableLog(_enableLog); int count = SC.ContainsItem("System.ComPortRetryCount") ? SC.GetValue("System.ComPortRetryCount") : 5; int sleep = SC.ContainsItem("System.ComPortRetryDelayTime") ? SC.GetValue("System.ComPortRetryDelayTime") : 2; if (sleep <= 0 || sleep > 10) sleep = 2; int retry = 0; do { _connection.Disconnect(); Thread.Sleep(sleep * 1000); if (_connection.Connect()) { //LOG.Write($"Connected with {Module}.{Name} ."); EV.PostInfoLog(Module, $"Connected with {Module}.{Name} ."); break; } if (count > 0 && retry++ > count) { EV.PostAlarmLog(Module, $"Can't connect to {Module}.{Name}."); break; } } while (true); } ConnectionManager.Instance.Subscribe($"{Name}", this); _thread = new PeriodicJob(100, OnTimer, $"{Module}.{Name} MonitorHandler", true); } private bool OnTimer() { try { if (_isTcpConnection) { _tcpConnection.MonitorTimeout(); if(!_tcpConnection.IsConnected || _tcpConnection.IsCommunicationError) { lock (_locker) { _lstHandler.Clear(); } _trigRetryConnect.CLK = !_tcpConnection.IsConnected; if (_trigRetryConnect.Q) { Address = SC.GetStringValue($"LoadPort.{Name}.Address"); _tcpConnection = new HirataIILoadPortTCPConnection(this, Address); _tcpConnection.EnableLog(_enableLog); if (!_tcpConnection.Connect()) { EV.PostAlarmLog(Module, $"Can not connect with {_tcpConnection.Address}, {Module}.{Name}"); } } return true; } _trigActionDone.CLK = (_lstHandler.Count == 0 && !_tcpConnection.IsBusy); if (_trigActionDone.Q) OnActionDone(null); HandlerBase handler = null; if (!_tcpConnection.IsBusy) { lock (_locker) { if (_lstHandler.Count == 0) { } if (_lstHandler.Count > 0) { handler = _lstHandler.First.Value; if (handler != null) _tcpConnection.Execute(handler); _lstHandler.RemoveFirst(); } } } } else { _connection.MonitorTimeout(); if (!_connection.IsConnected || _connection.IsCommunicationError) { lock (_locker) { _lstHandler.Clear(); } _trigRetryConnect.CLK = !_connection.IsConnected; if (_trigRetryConnect.Q) { _connection.SetPortAddress(SC.GetStringValue($"{Name}.Address")); if (!_connection.Connect()) { EV.PostAlarmLog(Module, $"Can not connect with {_connection.Address}, {Module}.{Name}"); } } return true; } _trigActionDone.CLK = (_lstHandler.Count == 0 && !_connection.IsBusy); if (_trigActionDone.Q) OnActionDone(null); HandlerBase handler = null; if (!_connection.IsBusy) { lock (_locker) { if (_lstHandler.Count == 0) { } if (_lstHandler.Count > 0) { handler = _lstHandler.First.Value; if (handler != null) _connection.Execute(handler); _lstHandler.RemoveFirst(); } } } } if (InfoPadType == 2) // Fixed by SC { InfoPadCarrierIndex = SC.GetValue($"LoadPort.{Name}.CarrierIndex"); } } catch (Exception ex) { LOG.Write(ex); } return true; } public override void Monitor() { base.Monitor(); try { if (_isTcpConnection) { _tcpConnection.EnableLog(_enableLog); _trigCommunicationError.CLK = _tcpConnection.IsCommunicationError; if (_trigCommunicationError.Q) { EV.PostAlarmLog(Module, $"{Module}.{Name} communication error, {_tcpConnection.LastCommunicationError}"); OnError("Communicartion Error"); } } else { _connection.EnableLog(_enableLog); _trigCommunicationError.CLK = _connection.IsCommunicationError; if (_trigCommunicationError.Q) { EV.PostAlarmLog(Module, $"{Module}.{Name} communication error, {_connection.LastCommunicationError}"); OnError("Communicartion Error"); } } } catch (Exception ex) { LOG.Write(ex); } } private R_TRIG _trigActionDone = new R_TRIG(); private string _scRoot; private bool _isTcpConnection; private HirataIILoadPortConnection _connection; private HirataIILoadPortTCPConnection _tcpConnection; private IoTrigger _doLoadPortOK; private IoSensor _diInfoPadA = null; private IoSensor _diInfoPadB = null; private IoSensor _diInfoPadC = null; private IoSensor _diInfoPadD = null; //InfoPadType,0=OnLP,1=Ext,2=FixedbySC public int InfoPadType { get { return SC.ContainsItem($"LoadPort.{Name}.InfoPadType") ? SC.GetValue($"LoadPort.{Name}.InfoPadType") : 2; } } public HirataIILoadPortConnection Connection { get => _connection; } public HirataIILoadPortTCPConnection TCPConnection => _tcpConnection; private PeriodicJob _thread; private static Object _locker = new Object(); private LinkedList _lstHandler = new LinkedList(); private bool _enableLog = true; //private bool _commErr = false; private R_TRIG _trigError = new R_TRIG(); private R_TRIG _trigWarningMessage = new R_TRIG(); private R_TRIG _trigCommunicationError = new R_TRIG(); private R_TRIG _trigRetryConnect = new R_TRIG(); public TDKSystemStatus SystemStatus { get; set; } public TDKMode Mode { get; set; } public TDKInitPosMovement InitPosMovement { get; set; } public TDKOperationStatus OperationStatus { get; set; } public TDKContainerStatus ContainerStatus { get; set; } public TDKPosition ClampPosition { get; set; } public TDKPosition LPDoorLatchPosition { get; set; } public TDKVacummStatus VacuumStatus { get; set; } public TDKPosition LPDoorState { get; set; } public TDKWaferProtrusion WaferProtrusion { get; set; } public TDKElevatorAxisPosition ElevatorAxisPosition { get; set; } public TDKDockPosition DockPosition { get; set; } public TDKMapPosition MapperPostion { get; set; } public TDKMappingStatus MappingStatus { get; set; } public TDKModel Model { get; set; } public string Address { get; set; } public bool IsConnected => this.Connect();// _connection.IsConnected; public bool Disconnect() { if (_isTcpConnection) return _tcpConnection.Disconnect(); return _connection.Disconnect(); } public void OnCarrierNotPlaced() { _isPlaced = false; ConfirmRemoveCarrier(); } public void OnCarrierNotPresent() { _isPresent = false; //ConfirmRemoveCarrier(); } public void OnCarrierPlaced() { _isPlaced = true; ConfirmAddCarrier(); } public void OnCarrierPresent() { _isPresent = true; //ConfirmAddCarrier(); } public void OnSwitchKey1() { _isAccessSwPressed = true; } public void OnSwitchKey2() { } public void OffSwitchKey1() { _isAccessSwPressed = false; } public void OffSwitchKey2() { } public bool OnEvent(out string reason) { reason = string.Empty; lock (_locker) { _lstHandler.AddLast(new HirataIIGetHandler(this, "STATE", null)); //_lstHandler.AddLast(new HirataIIGetHandler(this, "FSBxx", null)); _lstHandler.AddLast(new HirataIIGetHandler(this, "LEDST", null)); } return true; } private LoadportCassetteState _cassetteState = LoadportCassetteState.None; public override LoadportCassetteState CassetteState { get { return _cassetteState; } set { _cassetteState = value; } } public void SetCassetteState(LoadportCassetteState state) { _cassetteState = state; if (state == LoadportCassetteState.Normal) { if (!_isPlaced) { OnCarrierPlaced(); } if (!_isPresent) { OnCarrierPresent(); } } } protected override bool fStartWrite(object[] param) { return false; } protected override bool fStartRead(object[] param) { return false; } protected override bool fStartExecute(object[] param) { try { switch(param[0].ToString()) { case "Move": lock (_locker) { _lstHandler.AddLast(new HirataIIMoveHandler(this, param[1].ToString(), null)); } break; case "Set": lock (_locker) { _lstHandler.AddLast(new HirataIISetHandler(this, param[1].ToString(), null)); } break; case "Get": lock (_locker) { _lstHandler.AddLast(new HirataIIGetHandler(this, param[1].ToString(), null)); } break; case "SetIndicator": Indicator light = (Indicator)param[1]; IndicatorState state = (IndicatorState)param[2]; string[] statestr = new string[] {"","LP","BL","LO" }; //{ "","LON", "LBL", "LOF" }; string strLight = ""; if (light == Indicator.LOAD) strLight = "LOD"; if (light == Indicator.UNLOAD) strLight = "ULD"; if (light == Indicator.ACCESSMANUL) strLight = "ST2"; if (light == Indicator.ACCESSAUTO) strLight = "ST3"; if (string.IsNullOrEmpty(strLight)) return false; lock (_locker) { _lstHandler.AddLast(new HirataIISetHandler(this, statestr[(int)state], strLight)); _lstHandler.AddLast(new HirataIIGetHandler(this, "LEDST", null)); } break; case "QueryIndicator": lock (_locker) { _lstHandler.AddLast(new HirataIIGetHandler(this, "LEDST", null)); } break; case "QueryState": lock (_locker) { _lstHandler.AddLast(new HirataIIGetHandler(this, "STATE", null)); } break; case "Undock": lock (_locker) { _lstHandler.AddLast(new HirataIIMoveHandler(this, "YWAIT", null)); } break; case "Dock": lock (_locker) { _lstHandler.AddLast(new HirataIIMoveHandler(this, "YDOOR", null)); } break; case "CloseDoor": lock (_locker) { _lstHandler.AddLast(new HirataIIMoveHandler(this, "DORFW", null)); } break; case "OpenDoor": lock (_locker) { _lstHandler.AddLast(new HirataIIMoveHandler(this, "DORBK", null)); } break; case "Unclamp": lock (_locker) { _lstHandler.AddLast(new HirataIIMoveHandler(this, "PODOP", null)); } break; case "Clamp": lock (_locker) { _lstHandler.AddLast(new HirataIIMoveHandler(this, "PODCL", null)); } break; case "DoorUp": lock (_locker) { _lstHandler.AddLast(new HirataIIMoveHandler(this, "ZDRUP", null)); } break; case "DoorDown": lock (_locker) { _lstHandler.AddLast(new HirataIIMoveHandler(this, "ZDRDW", null)); } break; case "OpenDoorNoMap": lock (_locker) { //_lstHandler.AddLast(new TDKMoveHandler(this, "YDOOR", null)); } break; case "OpenDoorAndMap": lock (_locker) { //_lstHandler.AddLast(new TDKMoveHandler(this, "YDOOR", null)); } break; case "MapWafer": lock(_locker) { if(DockPosition != TDKDockPosition.Dock) _lstHandler.AddLast(new HirataIIMoveHandler(this, "YDOOR", null)); if(DoorState != FoupDoorState.Open) _lstHandler.AddLast(new HirataIIMoveHandler(this, "DORBK", null)); _lstHandler.AddLast(new HirataIIMoveHandler(this, "MAPDO", null)); _lstHandler.AddLast(new HirataIIGetHandler(this, "MAPRD", null)); } break; case "ReadCarrierID": lock(_locker) { _lstHandler.AddLast(new HirataIIMoveToReadCarrierIDHandler(this)); } break; } return true; } catch(Exception ex) { LOG.Write(ex); EV.PostAlarmLog(Name, $"Parameter invalid"); return false; } } protected override bool fStartUnload(object[] param) { if (!_isPlaced) { EV.PostAlarmLog(Name, $"No carrier on {Name},can't unload."); return false; } if (!_isDocked) { EV.PostAlarmLog(Name, $"Carrier is not docked on {Name},can't unload."); return false; } if (IsRequestFOSBMode) { lock (_locker) { if (!IsFosbModeActual) _lstHandler.AddLast(new HirataIISetHandler(this, "FSB", "ON")); _lstHandler.AddLast(new HirataIIMoveHandler(this, "ZDRUP", null)); _lstHandler.AddLast(new HirataIIMoveHandler(this, "DORFW", null)); _lstHandler.AddLast(new HirataIIMoveHandler(this, "YWAIT", null)); } } else { if (IsFosbModeActual) _lstHandler.AddLast(new HirataIISetHandler(this, "FSB", "OF")); if (param.Length >= 1 && param[0].ToString() == "UnloadWithMap") { _lstHandler.AddLast(new HirataIIMoveHandler(this, "CUDMP", null)); _lstHandler.AddLast(new HirataIIGetHandler(this, "MAPRD", null)); } if (param.Length >= 1 && param[0].ToString() == "UnloadWithoutMap") _lstHandler.AddLast(new HirataIIMoveHandler(this, "CULOD", null)); if (param == null || param.Length == 0) { _lstHandler.AddLast(new HirataIIMoveHandler(this, "CUDMP", null)); _lstHandler.AddLast(new HirataIIGetHandler(this, "MAPRD", null)); } } return true; } protected override bool fStartLoad(object[] param) { if(!_isPlaced) { EV.PostAlarmLog(Name, $"No carrier on {Name},can't load."); return false; } if (_isDocked) { EV.PostAlarmLog(Name, $"Carrier is docked on {Name},can't load."); return false; } if (IsRequestFOSBMode) { lock (_locker) { if(!IsFosbModeActual) _lstHandler.AddLast(new HirataIISetHandler(this, "FSB", "ON")); if(ClampPosition == TDKPosition.Open) _lstHandler.AddLast(new HirataIIMoveHandler(this, "PODCL", null)); _lstHandler.AddLast(new HirataIIMoveHandler(this, "DORBK", null)); _lstHandler.AddLast(new HirataIIMoveHandler(this, "YDOOR", null)); _lstHandler.AddLast(new HirataIIMoveHandler(this, "ZDRDW", null)); } } else { lock (_locker) { if (IsFosbModeActual) _lstHandler.AddLast(new HirataIISetHandler(this, "FSB", "OF")); if (param.Length >= 1 && param[0].ToString() == "LoadWithMap") { _lstHandler.AddLast(new HirataIIMoveHandler(this, "CLDMP", null)); _lstHandler.AddLast(new HirataIIGetHandler(this, "MAPRD", null)); } if (param.Length >= 1 && param[0].ToString() == "LoadWithoutMap") _lstHandler.AddLast(new HirataIIMoveHandler(this, "CLOAD", null)); if (param == null || param.Length == 0) { _lstHandler.AddLast(new HirataIIMoveHandler(this, "CLDMP", null)); _lstHandler.AddLast(new HirataIIGetHandler(this, "MAPRD", null)); } } } return true; } protected override bool fStartInit(object[] param) { lock (_locker) { if(param.Length >=1 && param[0].ToString() == "ForceHome") _lstHandler.AddLast(new HirataIIMoveHandler(this, "ABORG", null)); else _lstHandler.AddLast(new HirataIIMoveHandler(this, "ORGSH", null)); _lstHandler.AddLast(new HirataIIGetHandler(this, "STATE", null)); //_lstHandler.AddLast(new HirataIIGetHandler(this, "FSBxx", null)); _lstHandler.AddLast(new HirataIIGetHandler(this, "LEDST", null)); } return true; } public override bool SetIndicator(Indicator light, IndicatorState state, out string reason) { reason = ""; return fStartExecute(new object[] { "SetIndicator", light, state }); } protected override bool fStartReset(object[] param) { _lstHandler.Clear(); if (_isTcpConnection) { if (!_tcpConnection.IsConnected) _tcpConnection.Connect(); _tcpConnection.ForceClear(); } else { if (!_connection.IsConnected) _connection.Connect(); _connection.ForceClear(); } lock (_locker) { _lstHandler.AddLast(new HirataIISetHandler(this, "RESET", null)); _lstHandler.AddLast(new HirataIIGetHandler(this, "STATE", null)); //_lstHandler.AddLast(new HirataIIGetHandler(this, "FSBxx", null)); _lstHandler.AddLast(new HirataIIGetHandler(this, "LEDST", null)); } return true; } public override void OnError(string error = "") { lock (_locker) { _lstHandler.Clear(); if(_isTcpConnection) _tcpConnection.ForceClear(); else _connection.ForceClear(); _lstHandler.AddLast(new HirataIIGetHandler(this, "STATE", null)); // _lstHandler.AddLast(new HirataIIGetHandler(this, "FSBxx", null)); _lstHandler.AddLast(new HirataIIGetHandler(this, "LEDST", null)); } base.OnError(error); } public override WaferSize GetCurrentWaferSize() { int intwz = SC.GetValue($"CarrierInfo.CarrierWaferSize{InfoPadCarrierIndex}"); switch (intwz) { case 0: return WaferSize.WS0; case 1: return WaferSize.WS0; case 2: return WaferSize.WS2; case 3: return WaferSize.WS3; case 4: return WaferSize.WS4; case 5: return WaferSize.WS5; case 6: return WaferSize.WS6; case 7: case 8: return WaferSize.WS8; case 12: return WaferSize.WS12; default: return WaferSize.WS0; } } } public enum TDKSystemStatus { Normal = 0x30, RecoverableError = 0x41, UnrecoverableError = 0x45, } public enum TDKMode { Online = 0x30, Teaching = 0x31, Maintenance = 0x32, } public enum TDKInitPosMovement { OperationStatus = 0x30, HomePosStatus = 0x31, LoadStatus = 0x32, } public enum TDKOperationStatus { DuringStop = 0x30, DuringOperation = 0x31, } public enum TDKContainerStatus { Absence = 0x30, NormalMount = 0x31, MountError = 0x32, } public enum TDKPosition { Open = 0x30, Close = 0x31, TBD = 0x3F } public enum TDKVacummStatus { OFF = 0x30, ON = 0x31, } public enum TDKWaferProtrusion { ShadingStatus = 0x30, LightIncidentStatus = 0x31, } public enum TDKElevatorAxisPosition { UP = 0x30, Down = 0x31, MappingStartPos = 0x32, MappingEndPos = 0x33, TBD = 0x3F, } public enum TDKDockPosition { Undock = 0x30, Dock = 0x31, TBD = 0x3F, } public enum TDKMapPosition { MeasurementPos = 0x30, WaitingPost = 0x31, TBD = 0x3F, } public enum TDKMappingStatus { NotPerformed = 0x30, NormalEnd = 0x31, ErrorStop = 0x32, } public enum TDKModel { Type1 = 0x30, Type2 = 0x31, Type3 = 0x32, Type4 = 0x33, Type5 = 0x34, } }