ESP32_ChinaDieselHeater_Con.../Arduino/SenderTrial2/Protocol.h
rljonesau 151543b84c Smart error checking now performed in Arduino code.
App Inventor app re-configured to not check these itself any more.
The heater frames sent over blue tooth have the new error codes.
2018-10-28 08:21:35 +11:00

171 lines
No EOL
9.4 KiB
C++

#ifndef _CPROTOCOL_H_
#define _CPROTOCOL_H_
class CProtocol {
public:
union {
unsigned char Data[24];
struct {
unsigned char Byte0; // [0] always 0x76
unsigned char Len; // [1] always 0x16 == 22
unsigned char Command; // [2] transient commands: 00: NOP, 0xa0 START, 0x05: STOP
unsigned char ActualTemperature; // [3] 1degC / digit
unsigned char DesiredTemperature; // [4] 1degC / digit
unsigned char MinPumpFreq; // [5] 0.1Hz/digit
unsigned char MaxPumpFreq; // [6] 0.1Hz/digit
unsigned char MinFanRPM_MSB; // [7] 16 bit - big endian MSB
unsigned char MinFanRPM_LSB; // [8] 16 bit - big endian LSB : 1 RPM / digit
unsigned char MaxFanRPM_MSB; // [9] 16 bit - big endian MSB
unsigned char MaxFanRPM_LSB; // [10] 16 bit - big endian LSB : 1 RPM / digit
unsigned char OperatingVoltage; // [11] 120, 240 : 0.1V/digit
unsigned char FanSensor; // [12] SN-1 or SN-2
unsigned char OperatingMode; // [13] 0x32:Thermostat, 0xCD:Fixed
unsigned char MinTemperature; // [14] Minimum settable temperature
unsigned char MaxTemperature; // [15] Maximum settable temperature
unsigned char MinTempRise; // [16] temp rise to sense running OK
unsigned char Prime; // [17] 00: normal, 0x5A: fuel prime
unsigned char Unknown1_MSB; // [18] always 0x01
unsigned char Unknown1_LSB; // [19] always 0x2c "300 secs = max run without burn detected"?
unsigned char Unknown2_MSB; // [20] always 0x0d
unsigned char Unknown2_LSB; // [21] always 0xac "3500 ?"
unsigned char CRC_MSB; // [22]
unsigned char CRC_LSB; // [23]
} Controller;
struct {
unsigned char Byte0; // always 0x76
unsigned char Len; // always 0x16 == 22 bytes
unsigned char RunState; // operating state
unsigned char ErrState; // 0: OFF, 1: ON, 2+ (E-0n + 1)
unsigned char SupplyV_MSB; // 16 bit - big endian MSB
unsigned char SupplyV_LSB; // 16 bit - big endian MSB : 0.1V / digit
unsigned char FanRPM_MSB; // 16 bit - big endian MSB
unsigned char FanRPM_LSB; // 16 bit - big endian LSB : 1 RPM / digit
unsigned char FanVoltage_MSB; // 16 bit - big endian MSB
unsigned char FanVoltage_LSB; // 16 bit - big endian LSB : 0.1V / digit
unsigned char HeatExchgTemp_MSB; // 16 bit - big endian MSB
unsigned char HeatExchgTemp_LSB; // 16 bit - big endian LSB : 1 degC / digit
unsigned char GlowPlugVoltage_MSB; // 16 bit - big endian MSB
unsigned char GlowPlugVoltage_LSB; // 16 bit - big endian LSB : 0.1V / digit
unsigned char GlowPlugCurrent_MSB; // 16 bit - big endian MSB
unsigned char GlowPlugCurrent_LSB; // 16 bit - big endian LSB : 10mA / digit
unsigned char ActualPumpFreq; // fuel pump freq.: 0.1Hz / digit
unsigned char StoredErrorCode; //
unsigned char Unknown1; // always 0x00
unsigned char FixedPumpFreq; // fixed mode frequency set point: 0.1Hz / digit
unsigned char Unknown2; // always 0x64 "100 ?"
unsigned char Unknown3; // always 0x00
unsigned char CRC_MSB;
unsigned char CRC_LSB;
} Heater;
};
static const int CtrlMode = 1;
static const int HeatMode = 2;
const unsigned short wCRCTable[256] = {
0X0000, 0XC0C1, 0XC181, 0X0140, 0XC301, 0X03C0, 0X0280, 0XC241,
0XC601, 0X06C0, 0X0780, 0XC741, 0X0500, 0XC5C1, 0XC481, 0X0440,
0XCC01, 0X0CC0, 0X0D80, 0XCD41, 0X0F00, 0XCFC1, 0XCE81, 0X0E40,
0X0A00, 0XCAC1, 0XCB81, 0X0B40, 0XC901, 0X09C0, 0X0880, 0XC841,
0XD801, 0X18C0, 0X1980, 0XD941, 0X1B00, 0XDBC1, 0XDA81, 0X1A40,
0X1E00, 0XDEC1, 0XDF81, 0X1F40, 0XDD01, 0X1DC0, 0X1C80, 0XDC41,
0X1400, 0XD4C1, 0XD581, 0X1540, 0XD701, 0X17C0, 0X1680, 0XD641,
0XD201, 0X12C0, 0X1380, 0XD341, 0X1100, 0XD1C1, 0XD081, 0X1040,
0XF001, 0X30C0, 0X3180, 0XF141, 0X3300, 0XF3C1, 0XF281, 0X3240,
0X3600, 0XF6C1, 0XF781, 0X3740, 0XF501, 0X35C0, 0X3480, 0XF441,
0X3C00, 0XFCC1, 0XFD81, 0X3D40, 0XFF01, 0X3FC0, 0X3E80, 0XFE41,
0XFA01, 0X3AC0, 0X3B80, 0XFB41, 0X3900, 0XF9C1, 0XF881, 0X3840,
0X2800, 0XE8C1, 0XE981, 0X2940, 0XEB01, 0X2BC0, 0X2A80, 0XEA41,
0XEE01, 0X2EC0, 0X2F80, 0XEF41, 0X2D00, 0XEDC1, 0XEC81, 0X2C40,
0XE401, 0X24C0, 0X2580, 0XE541, 0X2700, 0XE7C1, 0XE681, 0X2640,
0X2200, 0XE2C1, 0XE381, 0X2340, 0XE101, 0X21C0, 0X2080, 0XE041,
0XA001, 0X60C0, 0X6180, 0XA141, 0X6300, 0XA3C1, 0XA281, 0X6240,
0X6600, 0XA6C1, 0XA781, 0X6740, 0XA501, 0X65C0, 0X6480, 0XA441,
0X6C00, 0XACC1, 0XAD81, 0X6D40, 0XAF01, 0X6FC0, 0X6E80, 0XAE41,
0XAA01, 0X6AC0, 0X6B80, 0XAB41, 0X6900, 0XA9C1, 0XA881, 0X6840,
0X7800, 0XB8C1, 0XB981, 0X7940, 0XBB01, 0X7BC0, 0X7A80, 0XBA41,
0XBE01, 0X7EC0, 0X7F80, 0XBF41, 0X7D00, 0XBDC1, 0XBC81, 0X7C40,
0XB401, 0X74C0, 0X7580, 0XB541, 0X7700, 0XB7C1, 0XB681, 0X7640,
0X7200, 0XB2C1, 0XB381, 0X7340, 0XB101, 0X71C0, 0X7080, 0XB041,
0X5000, 0X90C1, 0X9181, 0X5140, 0X9301, 0X53C0, 0X5280, 0X9241,
0X9601, 0X56C0, 0X5780, 0X9741, 0X5500, 0X95C1, 0X9481, 0X5440,
0X9C01, 0X5CC0, 0X5D80, 0X9D41, 0X5F00, 0X9FC1, 0X9E81, 0X5E40,
0X5A00, 0X9AC1, 0X9B81, 0X5B40, 0X9901, 0X59C0, 0X5880, 0X9841,
0X8801, 0X48C0, 0X4980, 0X8941, 0X4B00, 0X8BC1, 0X8A81, 0X4A40,
0X4E00, 0X8EC1, 0X8F81, 0X4F40, 0X8D01, 0X4DC0, 0X4C80, 0X8C41,
0X4400, 0X84C1, 0X8581, 0X4540, 0X8701, 0X47C0, 0X4680, 0X8641,
0X8201, 0X42C0, 0X4380, 0X8341, 0X4100, 0X81C1, 0X8081, 0X4040
};
public:
CProtocol() { Init(0); };
CProtocol(int TxMode) { Init(TxMode); };
void Init(int Txmode);
// CRC handlers
unsigned short CalcCRC(int len) const; // calculate the CRC upon len bytes
void setCRC(); // calculate and set the CRC in the buffer
void setCRC(unsigned short CRC); // set the CRC in the buffer
unsigned short getCRC() const; // extract CRC value from buffer
bool verifyCRC() const; // return true for CRC match
void setActiveMode() { Controller.Byte0 = 0x76; }; // this allows heater to save tuning params to EEPROM
void setPassiveMode() { Controller.Byte0 = 0x78; }; // this prevents heater saving tuning params to EEPROM
// command helpers
void resetCommand() { setRawCommand(0x00); };
void onCommand() { setRawCommand(0xA0); };
void offCommand() { setRawCommand(0x05); };
// raw command
int getRawCommand() { return Controller.Command; };
void setRawCommand(int mode) { Controller.Command = mode; };
// Run state
unsigned char getRunState() { return Heater.RunState; };
void setRunState(unsigned char state) { Heater.RunState = state; };
unsigned char getErrState() { return Heater.ErrState; };
void setErrState(unsigned char state) { Heater.ErrState = state; };
unsigned char getStoredErrCode() { return Heater.StoredErrorCode; };
void setStoredErrCode(unsigned char state) { Heater.StoredErrorCode = state; };
//
short getVoltage_Supply();
void setVoltage_Supply(short voltsx10);
// fan set/get
short getFan_Actual(); // Heater side, actual
short getFan_Min(); // Controller side, define min fan speed
short getFan_Max(); // Controller side, define max fan speed
void setFan_Actual(short speed); // Heater side, actual
void setFan_Min(short speed); // Controller side, define min fan speed
void setFan_Max(short speed); // Controller side, define max fan speed
short getFan_Voltage(); // fan voltage
void setFan_Voltage(short voltsx10); // fan voltage
// pump set/get
void setPump_Min(unsigned short Freq) { Controller.MinPumpFreq = Freq; };
void setPump_Max(unsigned short Freq) { Controller.MaxPumpFreq = Freq; };
void setPump_Actual(unsigned char Freq) { Heater.ActualPumpFreq = Freq; };
void setPump_Fixed(unsigned char Freq) { Heater.FixedPumpFreq = Freq; };
unsigned char getPump_Min() { return Controller.MinPumpFreq; }; // Tx side, min pump freq
unsigned char getPump_Max() { return Controller.MaxPumpFreq; }; // Tx side, max pump freq
unsigned char getPump_Actual() { return Heater.ActualPumpFreq; }; // Rx style, actual
unsigned char getPump_Fixed() { return Heater.FixedPumpFreq; }; // Fixed mode pump frequency
// temperature set/get
void setTemperature_Desired(unsigned char degC) { Controller.DesiredTemperature = degC; };
void setTemperature_Min(unsigned char degC) { Controller.MinTemperature = degC; };
void setTemperature_Max(unsigned char degC) { Controller.MaxTemperature = degC; };
void setTemperature_Actual(unsigned char degC) { Controller.ActualTemperature = degC; };
unsigned char getTemperature_Desired() { return Controller.DesiredTemperature; };
unsigned char getTemperature_Min() { return Controller.MinTemperature; };
unsigned char getTemperature_Max() { return Controller.MaxTemperature; };
void setThermostatMode(unsigned on) { Controller.OperatingMode = on ? 0x32 : 0xCD; };
// glow plug
short getGlowPlug_Current(); // glow plug current
short getGlowPlug_Voltage(); // glow plug voltage
void setGlowPlug_Current(short ampsx100); // glow plug current
void setGlowPlug_Voltage(short voltsx10); // glow plug voltage
// heat exchanger
short getTemperature_HeatExchg(); // temperature of heat exchanger
void setTemperature_HeatExchg(short degC); // temperature of heat exchanger
CProtocol& operator=(const CProtocol& rhs);
};
#endif