using System; using System.Collections.Generic; using System.IO.Ports; using Aitex.Core.Common.DeviceData; using Aitex.Core.RT.DataCenter; 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; namespace MECF.Framework.RT.EquipmentLibrary.HardwareUnits.RFs.AE { public class AeRfPower : RfPowerBase { public override bool IsError { get; set; } public override bool IsPowerOn { get { return _isOn; } } public override EnumRfPowerRegulationMode RegulationMode { get { return _regulationMode; } } public override float ForwardPower { get { return _forwardPower; } } public override float ReflectPower { get { return _reflectPower; } } public override float PowerSetPoint { get { return _powerSetPoint; } } public override float Frequency { get; set; } public override float PulsingFrequency { get; set; } public override float PulsingDutyCycle { get; set; } public override AITRfPowerData DeviceData { get { AITRfPowerData data = new AITRfPowerData() { DeviceName = Name, DeviceSchematicId = DeviceID, DisplayName = Display, ForwardPower = ForwardPower, ReflectPower = ReflectPower, PowerSetPoint = PowerSetPoint, RegulationMode = RegulationMode, IsRfOn = IsPowerOn, Frequency = Frequency, PulsingFrequency = PulsingFrequency, PulsingDutyCycle = PulsingDutyCycle, }; return data; } } public AeRfPowerConnection Connection { get { return _connection; } } private AeRfPowerConnection _connection; private byte _deviceAddress ; private float _powerSetPoint; private float _reflectPower; private bool _isOn; private float _forwardPower; private EnumRfPowerRegulationMode _regulationMode; private EnumRfPowerCommunicationMode _commMode; private RD_TRIG _trigRfOnOff = new RD_TRIG(); 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(); private PeriodicJob _thread; private LinkedList _lstHandler = new LinkedList(); private object _locker = new object(); private bool _enableLog = true; private bool _isHaloInstalled; public AeRfPower(string module, string name) : base(module, name) { } public override bool Initialize() { base.Initialize(); string portName = SC.GetStringValue($"{ScBasePath}.{Name}.Address"); int bautRate = SC.GetValue($"{ScBasePath}.{Name}.BaudRate"); int dataBits = SC.GetValue($"{ScBasePath}.{Name}.DataBits"); Enum.TryParse(SC.GetStringValue($"{ScBasePath}.{Name}.Parity"), out Parity parity); Enum.TryParse(SC.GetStringValue($"{ScBasePath}.{Name}.StopBits"), out StopBits stopBits); _deviceAddress = (byte)SC.GetValue($"{ScBasePath}.{Name}.DeviceAddress"); _enableLog = SC.GetValue($"{ScBasePath}.{Name}.EnableLogMessage"); _connection = new AeRfPowerConnection(portName, bautRate, dataBits, parity, stopBits); _connection.EnableLog(_enableLog); if (_connection.Connect()) { EV.PostInfoLog(Module, $"{Module}.{Name} connected"); } _thread = new PeriodicJob(100, OnTimer, $"{Module}.{Name} MonitorHandler", true); OP.Subscribe($"{Module}.{Name}.WaveModulation", (out string reason, int time, object[] args) => { reason = ""; //if (!Enum.TryParse((string)args[0], out EnumRpsControlMode mode)) //{ // EV.PostAlarmLog(Module, $"{Module}.{Name} Can not mode, {args[0]} is not a valid mode value"); // return false; //} if (!PerformWaveModulation(out reason, time, "")) { EV.PostAlarmLog(Module, $"{Module}.{Name} Can not set mode, {reason}"); return false; } EV.PostInfoLog(Module, $"{Module}.{Name} set mode to {args[0]}"); return true; }); OP.Subscribe($"{Module}.{Name}.PowerMode", (out string reason, int time, object[] args) => { reason = ""; string mode = (string)args[0]; if (!PerformPowerMode(out reason, time, mode)) { EV.PostAlarmLog(Module, $"{Module}.{Name} Can not set mode, {reason}"); return false; } EV.PostInfoLog(Module, $"{Module}.{Name} set mode to {mode}"); return true; }); OP.Subscribe($"{Module}.{Name}.SetHighPower", (out string reason, int time, object[] args) => { reason = ""; float value = Convert.ToSingle((string)args[0]); if (!PerformSetHighPower(out reason, time, value)) { EV.PostAlarmLog(Module, $"{Module}.{Name} Can not set mode, {reason}"); return false; } EV.PostInfoLog(Module, $"{Module}.{Name} set high power to {value}"); return true; }); OP.Subscribe($"{Module}.{Name}.SetLowPower", (out string reason, int time, object[] args) => { reason = ""; float value = Convert.ToSingle((string)args[0]); if (!PerformSetLowPower(out reason, time, value)) { EV.PostAlarmLog(Module, $"{Module}.{Name} Can not set mode, {reason}"); return false; } EV.PostInfoLog(Module, $"{Module}.{Name} set low power to {value}"); return true; }); OP.Subscribe($"{Module}.{Name}.PulseFreq", (out string reason, int time, object[] args) => { reason = ""; float value = Convert.ToSingle((string)args[0]); if (!PerformPulseFreq(out reason, time, value)) { EV.PostAlarmLog(Module, $"{Module}.{Name} Can not set mode, {reason}"); return false; } EV.PostInfoLog(Module, $"{Module}.{Name} set pulse frequency to {value}"); return true; }); OP.Subscribe($"{Module}.{Name}.PulseDutyCycle", (out string reason, int time, object[] args) => { reason = ""; float value = Convert.ToSingle((string)args[0]); if (!PerformPulseDutyCycle(out reason, time, value)) { EV.PostAlarmLog(Module, $"{Module}.{Name} Can not set mode, {reason}"); return false; } EV.PostInfoLog(Module, $"{Module}.{Name} set pulse duty cycle to {value}"); return true; }); OP.Subscribe($"{Module}.{Name}.RampMode", (out string reason, int time, object[] args) => { reason = ""; if (!PerformRampMode(out reason, time, "")) { EV.PostAlarmLog(Module, $"{Module}.{Name} Can not set mode, {reason}"); return false; } EV.PostInfoLog(Module, $"{Module}.{Name} set ramp mode to "); return true; }); OP.Subscribe($"{Module}.{Name}.RampUp", (out string reason, int time, object[] args) => { reason = ""; if (!PerformRampUp(out reason, time, "")) { EV.PostAlarmLog(Module, $"{Module}.{Name} Can not set mode, {reason}"); return false; } EV.PostInfoLog(Module, $"{Module}.{Name} set ramp up"); return true; }); OP.Subscribe($"{Module}.{Name}.RampDown", (out string reason, int time, object[] args) => { reason = ""; if (!PerformRampDown(out reason, time, "")) { EV.PostAlarmLog(Module, $"{Module}.{Name} Can not set mode, {reason}"); return false; } EV.PostInfoLog(Module, $"{Module}.{Name} set ramp down"); return true; }); OP.Subscribe($"{Module}.{Name}.WarningPower", (out string reason, int time, object[] args) => { reason = ""; float value = Convert.ToSingle((string)args[0]); if (!PerformWarningPower(out reason, time, value)) { EV.PostAlarmLog(Module, $"{Module}.{Name} Can not set mode, {reason}"); return false; } EV.PostInfoLog(Module, $"{Module}.{Name} set warning power to {value}"); return true; }); OP.Subscribe($"{Module}.{Name}.AlarmPower", (out string reason, int time, object[] args) => { reason = ""; float value = Convert.ToSingle((string)args[0]); if (!PerformAlarmPower(out reason, time, value)) { EV.PostAlarmLog(Module, $"{Module}.{Name} Can not set mode, {reason}"); return false; } EV.PostInfoLog(Module, $"{Module}.{Name} set alarm power to {value}"); return true; }); return true; } private bool PerformWaveModulation(out string reason, int time, string mode) { reason = string.Empty; return true; } private bool PerformAlarmPower(out string reason, int time, float value) { reason = string.Empty; return true; } private bool PerformWarningPower(out string reason, int time, float value) { reason = string.Empty; return true; } private bool PerformPowerMode(out string reason, int time, string mode) { reason = string.Empty; return true; } private bool PerformSetHighPower(out string reason, int time, float value) { reason = string.Empty; return true; } private bool PerformSetLowPower(out string reason, int time, float value) { reason = string.Empty; return true; } private bool PerformPulseFreq(out string reason, int time, float value) { reason = string.Empty; return true; } private bool PerformPulseDutyCycle(out string reason, int time, float value) { reason = string.Empty; return true; } private bool PerformRampMode(out string reason, int time, string v) { reason = string.Empty; return true; } private bool PerformRampUp(out string reason, int time, string mode) { reason = string.Empty; return true; } private bool PerformRampDown(out string reason, int time, string mode) { reason = string.Empty; return true; } private bool OnTimer() { try { _connection.MonitorTimeout(); if (!_connection.IsConnected || _connection.IsCommunicationError) { lock (_locker) { _lstHandler.Clear(); } _trigRetryConnect.CLK = !_connection.IsConnected; if (_trigRetryConnect.Q) { _connection.SetPortAddress(SC.GetStringValue($"{ScBasePath}.{Name}.Address")); if (!_connection.Connect()) { EV.PostAlarmLog(Module, $"Can not connect with {_connection.Address}, {Module}.{Name}"); } else { _lstHandler.AddLast(new AeRfPowerQueryPinHandler(this, _deviceAddress)); _lstHandler.AddLast(new AeRfPowerSetCommModeHandler(this, _deviceAddress, EnumRfPowerCommunicationMode.Host)); } } return true; } HandlerBase handler = null; if (!_connection.IsBusy) { lock (_locker) { if (_lstHandler.Count == 0) { _lstHandler.AddLast(new AeRfPowerQueryCommModeHandler(this, _deviceAddress)); _lstHandler.AddLast(new AeRfPowerQueryForwardPowerHandler(this, _deviceAddress)); _lstHandler.AddLast(new AeRfPowerQueryReflectPowerHandler(this, _deviceAddress)); _lstHandler.AddLast(new AeRfPowerQueryStatusHandler(this, _deviceAddress)); _lstHandler.AddLast(new AeRfPowerQuerySetPointHandler(this, _deviceAddress)); } 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); _trigRfOnOff.CLK = _isOn; if (_trigRfOnOff.R) { EV.PostInfoLog(Module, $"{Module}.{Name} is on"); } if (_trigRfOnOff.T) { EV.PostInfoLog(Module, $"{Module}.{Name} is off"); } //_trigError.CLK = IsError; //if (_trigError.Q) //{ // EV.PostAlarmLog(Module, $"{Module}.{Name} is error, error code {_errorCode:D3}"); //} _trigCommunicationError.CLK = _connection.IsCommunicationError; if (_trigCommunicationError.Q) { EV.PostAlarmLog(Module, $"{Module}.{Name} communication error, {_connection.LastCommunicationError}"); } } catch (Exception ex) { LOG.Write(ex); } } public override void Reset() { _trigError.RST = true; _trigWarningMessage.RST = true; _connection.SetCommunicationError(false, ""); _trigCommunicationError.RST = true; _enableLog = SC.GetValue($"{ScBasePath}.{Name}.EnableLogMessage"); _trigRetryConnect.RST = true; base.Reset(); } public override void SetPower(float power) { lock (_locker) { _lstHandler.AddLast(new AeRfPowerSetPowerHandler(this, _deviceAddress, _isHaloInstalled ? (int)(power*10) : (int)power)); } } public override bool SetPowerOnOff(bool isOn, out string reason) { reason = ""; lock (_locker) { _lstHandler.AddLast(new AeRfPowerSwitchOnOffHandler(this, _deviceAddress, isOn)); } return true; } public override void SetRegulationMode(EnumRfPowerRegulationMode mode) { lock (_locker) { _lstHandler.AddLast(new AeRfPowerSetRegulationModeHandler(this, _deviceAddress, mode)); } } internal void NoteError(string reason) { _trigWarningMessage.CLK = true; if (_trigWarningMessage.Q) { EV.PostWarningLog(Module, $"{Module}.{Name} error, {reason}"); } } internal void NoteReflectPower(float reflect) { _reflectPower = reflect; } internal void NoteCommMode(EnumRfPowerCommunicationMode mode) { _commMode = mode; } internal void NoteStatus(byte[] data) { _isOn = (data[0] & 0x40) == 0x40; } internal void NoteRegulationModeSetPoint(EnumRfPowerRegulationMode regMode) { _regulationMode = regMode; } internal void NotePowerSetPoint(int power) { _powerSetPoint = power; } internal void NoteForwardPower(int power) { _forwardPower = power; } internal void NoteHaloInstalled(bool isInstalled) { _isHaloInstalled = isInstalled; } } public enum EnumRfPowerCommunicationMode { Undefined, Host = 2, UserPort = 4, //Analog Diagnostic = 8, DeviceNet = 16, EtherCat32 = 32, } }