using System; using System.Collections.Generic; using System.IO.Ports; using System.Linq; using Aitex.Core.Common; using Aitex.Core.Common.DeviceData; using Aitex.Core.RT.Device; using Aitex.Core.RT.Device.Unit; using Aitex.Core.RT.Event; using Aitex.Core.RT.Log; using Aitex.Core.RT.OperationCenter; using Aitex.Core.RT.SCCore; using Aitex.Core.Util; using MECF.Framework.Common.Communications; using MECF.Framework.Common.Device.Bases; using MECF.Framework.RT.EquipmentLibrary.HardwareUnits.Common; using Newtonsoft.Json; namespace MECF.Framework.RT.EquipmentLibrary.HardwareUnits.Pumps.PfeifferPumpA100 { public class PfeifferPumpA100 : SerialPortDevice, IConnection { public string Address { get { return _address; }} public bool IsConnected { get; } public bool Connect() { return true; } public bool Disconnect() { return true; } public string PortStatus { get; set; } = "Closed"; private PfeifferPumpA100Connection _connection; public PfeifferPumpA100Connection Connection { get { return _connection; } } private R_TRIG _trigError = new R_TRIG(); private R_TRIG _trigCommunicationError = new R_TRIG(); private R_TRIG _trigRetryConnect = new R_TRIG(); private PeriodicJob _thread; private LinkedList _lstHandler = new LinkedList(); private LinkedList _lstMonitorHandler = new LinkedList(); public List IOResponseList { get; set; } = new List(); private object _locker = new object(); private bool _enableLog; private string _address; private string _scRoot; public PfeifferPumpA100(string module, string name, string scRoot, string portName) : base(module, name) { _scRoot = scRoot; PortName = portName; } private void ResetPropertiesAndResponses() { foreach (var ioResponse in IOResponseList) { ioResponse.ResonseContent = null; ioResponse.ResonseRecievedTime = DateTime.Now; } } public override bool Initialize(string portName) { base.Initialize(portName); ResetPropertiesAndResponses(); if (_connection != null && _connection.IsConnected && PortName == portName) return true; if (_connection != null && _connection.IsConnected) _connection.Disconnect(); PortName = portName; _address = SC.GetStringValue($"{_scRoot}.{Module}.{Name}.DeviceAddress"); _enableLog = SC.GetValue($"{_scRoot}.{Module}.{Name}.EnableLogMessage"); _connection = new PfeifferPumpA100Connection(PortName); _connection.EnableLog(_enableLog); if (_connection.Connect()) { PortStatus = "Open"; EV.PostInfoLog(Module, $"{Module}.{Name} connected"); } _thread = new PeriodicJob(100, OnTimer, $"{Module}.{Name} MonitorHandler", true); return true; } public bool InitConnection(string portName, int bautRate, int dataBits, Parity parity, StopBits stopBits) { _connection = new PfeifferPumpA100Connection(portName, bautRate, dataBits, parity, stopBits); if (_connection.Connect()) { EV.PostInfoLog(Module, $"{Module}.{Name} connected"); } _thread = new PeriodicJob(100, OnTimer, $"{Module}.{Name} MonitorHandler", true); return true; } internal void NoteSetParaCompleted() { SetParaCompleted = true; } private bool OnTimer() { try { //_connection.MonitorTimeout(); if (!_connection.IsConnected || _connection.IsCommunicationError) { lock (_locker) { _lstHandler.Clear(); } _trigRetryConnect.CLK = !_connection.IsConnected; if (_trigRetryConnect.Q) { _connection.SetPortAddress(SC.GetStringValue($"{ScBasePath}.{Name}.Address")); if (!_connection.Connect()) { EV.PostAlarmLog(Module, $"Can not connect with {_connection.Address}, {Module}.{Name}"); } else { //_lstHandler.AddLast(new PfeifferPumpA100QueryPinHandler(this, _deviceAddress)); //_lstHandler.AddLast(new PfeifferPumpA100SetCommModeHandler(this, _deviceAddress, EnumRfPowerCommunicationMode.Host)); } } return true; } HandlerBase handler = null; if (!_connection.IsBusy) { lock (_locker) { if (_lstHandler.Count == 0) { foreach (var monitorHandler in _lstMonitorHandler) { _lstHandler.AddLast(monitorHandler); } } if (_lstHandler.Count > 0) { handler = _lstHandler.First.Value; _lstHandler.RemoveFirst(); } } if (handler != null) { _connection.Execute(handler); } } } catch (Exception ex) { LOG.Write(ex); } return true; } public override void Monitor() { try { //_connection.EnableLog(_enableLog); _trigCommunicationError.CLK = _connection.IsCommunicationError; if (_trigCommunicationError.Q) { EV.PostAlarmLog(Module, $"{Module}.{Name} communication error, {_connection.LastCommunicationError}"); } } catch (Exception ex) { LOG.Write(ex); } } public override void Reset() { _trigError.RST = true; _connection.SetCommunicationError(false, ""); _trigCommunicationError.RST = true; //_enableLog = SC.GetValue($"{ScBasePath}.{Name}.EnableLogMessage"); _trigRetryConnect.RST = true; base.Reset(); } public override bool Home(out string reason) { return base.Home(out reason); } #region Command Functions public void PerformRawCommand(string command) { lock (_locker) { _lstHandler.AddLast(new PfeifferPumpA100RawCommandHandler(this, command, null)); } } public void PerformRawCommand(string command, string parameter) { lock (_locker) { _lstHandler.AddLast(new PfeifferPumpA100RawCommandHandler(this, command, parameter)); } } public void EchoOnOff(string parameter) { lock (_locker) { _lstHandler.AddLast(new PfeifferPumpA100SimpleSwitchHandler(this, "ECH", parameter)); } } public void PumpOnOff(string parameter) { lock (_locker) { _lstHandler.AddLast(new PfeifferPumpA100SimpleSwitchHandler(this, "SYS", parameter)); } } public void SetPumpParameter(string parameter) { lock (_locker) { _lstHandler.AddLast(new PfeifferPumpSetPumpParameterHandler(this, parameter)); } } public void SetFullOverhaullAlert(string alertValue) { lock (_locker) { _lstHandler.AddLast(new PfeifferPumpSetPumpParameterHandler(this, "070" + alertValue)); } } public void SetFullOverhaullAlarm(string alarmValue) { lock (_locker) { _lstHandler.AddLast(new PfeifferPumpSetPumpParameterHandler(this, "071" + alarmValue)); } } internal void NoteSwitchCompleted(string command, bool value) { if(command== "ECH") SetEchoOnOff = value; else if (command == "SYS") SetPumpOnOff = value; } public void MonitorRawCommand(bool isSelected, string command) { lock (_locker) { var existHandlers = _lstMonitorHandler.Where(handler => handler.GetType() == typeof(PfeifferPumpA100RawCommandHandler) && ((PfeifferPumpA100Handler)handler)._command == command); if (isSelected) { if (!existHandlers.Any()) _lstMonitorHandler.AddFirst(new PfeifferPumpA100RawCommandHandler(this, command, null)); } else { if (existHandlers.Any()) { _lstMonitorHandler.Remove(existHandlers.First()); } } } } public void ReadPumpStatus(bool isSelected) { lock (_locker) { var existHandlers = _lstMonitorHandler.Where(handler => handler.GetType() == typeof(PfeifferPumpA100ReadPumpStatusHandler)); if (isSelected) { if (!existHandlers.Any()) _lstMonitorHandler.AddFirst(new PfeifferPumpA100ReadPumpStatusHandler(this)); } else { if (existHandlers.Any()) { _lstMonitorHandler.Remove(existHandlers.First()); } } } } public void ReadSetState(bool isSelected) { lock (_locker) { var existHandlers = _lstMonitorHandler.Where(handler => handler.GetType() == typeof(PfeifferPumpA100ReadSetStateHandler)); if (isSelected) { if (!existHandlers.Any()) _lstMonitorHandler.AddFirst(new PfeifferPumpA100ReadSetStateHandler(this)); } else { if (existHandlers.Any()) { _lstMonitorHandler.Remove(existHandlers.First()); } } } } #endregion #region Properties public string Error { get; private set; } public bool SetEchoOnOff { get; private set; } public bool SetPumpOnOff { get; private set; } public bool SetParaCompleted { get; private set; } public PumpRunStatus PumpRunStatus { get; private set; } public ControlMode ManageMode { get; private set; } public DefectResult FrequencyControlDefect { get; private set; } public DefectResult MotorTempDefect { get; private set; } public DefectResult MaintenanceDefect { get; private set; } public string SFullOverhaull { get; private set; } internal void NotePumpStatus(string data) { try { var statusArray = data.ToArray(); PumpRunStatus = (PumpRunStatus)int.Parse(statusArray[0].ToString()); var management = int.Parse(statusArray[10].ToString()); int manageModeValue = management & 1; ManageMode = (ControlMode)manageModeValue; FrequencyControlDefect = (DefectResult)int.Parse(statusArray[48].ToString()); MotorTempDefect = (DefectResult)int.Parse(statusArray[51].ToString()); MaintenanceDefect = (DefectResult)int.Parse(statusArray[55].ToString()); } catch (Exception ex) { NoteError("Invalid Pump Status"); LOG.Error($"Invalid Pump Status: {data}, Exception info: {ex}"); } } internal void NoteReadSetState(string data) { try { SFullOverhaull = data.Substring(65, 5); } catch (Exception ex) { NoteError("Invalid Pump Status"); LOG.Error($"Invalid Pump Status: {data}, Exception info: {ex}"); } } private int Str2Int(string sValue) { if (string.IsNullOrEmpty(sValue)) throw new Exception("empty int value"); if(sValue.Length > 1) { sValue = sValue.TrimStart('0'); } return int.Parse(sValue); } #endregion #region Note Functions private R_TRIG _trigWarningMessage = new R_TRIG(); public void NoteError(string reason) { if (reason != null) { _trigWarningMessage.CLK = true; if (_trigWarningMessage.Q) { EV.PostWarningLog(Module, $"{Module}.{Name} error, {reason}"); } Error = reason; } else { Error = null; } } internal void NoteRawCommandInfo(string command, string data) { var curIOResponse = IOResponseList.Find(res => res.SourceCommand == command); if (curIOResponse != null) { IOResponseList.Remove(curIOResponse); } IOResponseList.Add(new IOResponse() { SourceCommand = command, ResonseContent = data, ResonseRecievedTime = DateTime.Now }); } #endregion } public enum PumpRunStatus { Stopped, Running } public enum ValveStatus { Closed, Opened } public enum PumpLLStatus { Off, On } public enum ControlMode { Local, Remote } public enum DefectResult { OK, Warning, Hazard } }