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https://github.com/IoTManagerProject/IoTManager.git
synced 2026-03-26 14:12:16 +03:00
upd version, upd ectoControl
This commit is contained in:
Mit4el
@@ -4,7 +4,7 @@
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<meta charset="utf-8" />
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<meta name="viewport" content="width=device-width,initial-scale=1" />
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<title>IoT Manager 4.5.5</title>
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<title>IoT Manager 4.6.0</title>
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<link rel="icon" type="image/png" href="/favicon.ico" />
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<link rel="stylesheet" href="/build/bundle.css?4550" />
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@@ -4,7 +4,7 @@
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<meta charset="utf-8" />
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<meta name="viewport" content="width=device-width,initial-scale=1" />
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<title>IoT Manager 4.5.5</title>
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<title>IoT Manager 4.6.0</title>
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<link rel="icon" type="image/png" href="/favicon.ico" />
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<link rel="stylesheet" href="/build/bundle.css?4550" />
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@@ -2,7 +2,7 @@
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#include "BuildTime.h"
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// Версия прошивки
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#define FIRMWARE_VERSION 457
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#define FIRMWARE_VERSION 461
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#ifdef esp8266_1mb_ota
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#define FIRMWARE_NAME "esp8266_1mb_ota"
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@@ -8,7 +8,6 @@
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// #include "Stream.h"
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#include <vector>
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// class ModbusUart;
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Stream *_modbusUART = nullptr;
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@@ -21,7 +20,6 @@ uint8_t _DIR_PIN = 0;
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#define MODBUS_TX_PIN 19 // Tx pin
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#define MODBUS_SERIAL_BAUD 9600 // Baud rate for esp32 and max485 communication
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void modbusPreTransmission()
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{
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// delay(500);
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@@ -52,7 +50,7 @@ private:
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int protocol = SERIAL_8N1;
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uint8_t _addr = 0xF0; // Адрес слейва от 1 до 247
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uint8_t _type = 0x14; // Тип устройства: 0x14 – адаптер OpenTherm (вторая версия); 0x11 – адаптер OpenTherm (первая версия, снята с производства)
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bool _debugLevel; // Дебаг
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uint8_t _debugLevel; // Дебаг
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ModbusMaster node;
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uint8_t _debug;
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@@ -136,36 +134,39 @@ public:
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{
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SerialPrint("E", "EctoControlAdapter", "Не подходящее устройство, type: " + String(type, HEX));
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}
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getModelVersion();
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getBoilerInfo();
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getBoilerStatus();
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}
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else if (_addr == 0)
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{ // если адреса нет, то шлем широковещательный запрос адреса
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uint8_t addr = node.readAddresEctoControl();
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SerialPrint("I", "EctoControlAdapter", "readAddresEctoControl, addr: " + String(addr, HEX) + " - Enter to configuration");
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}
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getModelVersion();
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getBoilerInfo();
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getBoilerStatus();
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}
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void doByInterval()
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{
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// readBoilerInfo();
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getBoilerStatus();
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if (_addr > 0)
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{
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// readBoilerInfo();
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getBoilerStatus();
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getCodeError();
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getCodeErrorExt();
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if (info.adapterType == 0)
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getFlagErrorOT();
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// getFlowRate();
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// getMaxSetCH();
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// getMaxSetDHW();
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// getMinSetCH();
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// getMinSetDHW();
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getModLevel();
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getPressure();
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getTempCH();
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getTempDHW();
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getTempOutside();
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getCodeError();
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getCodeErrorExt();
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if (info.adapterType == 0)
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getFlagErrorOT();
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// getFlowRate();
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// getMaxSetCH();
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// getMaxSetDHW();
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// getMinSetCH();
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// getMinSetDHW();
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getModLevel();
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getPressure();
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getTempCH();
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getTempDHW();
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getTempOutside();
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}
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}
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void loop()
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@@ -176,10 +177,6 @@ public:
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IoTValue execute(String command, std::vector<IoTValue> ¶m)
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{
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if (command == "getModelVersion")
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{
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getModelVersion();
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}
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if (command == "getModelVersion")
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{
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getModelVersion();
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@@ -324,13 +321,12 @@ public:
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tlgrmItem->sendTelegramMsg(false, msg);
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}
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~EctoControlAdapter() {
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};
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~EctoControlAdapter(){};
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bool writeFunctionModBus(const uint16_t ®, uint16_t &data)
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{
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// set word 0 of TX buffer to least-significant word of counter (bits 15..0)
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//node.setTransmitBuffer(1, lowWord(data));
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// node.setTransmitBuffer(1, lowWord(data));
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// set word 1 of TX buffer to most-significant word of counter (bits 31..16)
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node.setTransmitBuffer(0, data);
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// slave: write TX buffer to (2) 16-bit registers starting at register 0
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@@ -348,6 +344,7 @@ public:
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bool readFunctionModBus(const uint16_t ®, uint16_t &reading)
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{
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if (_addr == 0) return false;
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// float retValue = 0;
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if (_modbusUART)
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{
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@@ -1,6 +1,9 @@
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#include "ModbusEC.h"
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#define COUNT_BIT_AVAIL 5
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#define COUNT_BIT_AVAIL_46F 4
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ModbusMaster::ModbusMaster(void)
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{
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_idle = 0;
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@@ -256,8 +259,8 @@ uint8_t ModbusMaster::readHoldingRegisters(uint16_t u16ReadAddress,
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/**
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Modbus function 0x06 Write Single Register.
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This function code is used to write a single holding register in a
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remote device. The request specifies the address of the register to be
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This function code is used to write a single holding register in a
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remote device. The request specifies the address of the register to be
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written. Registers are addressed starting at zero.
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@param u16WriteAddress address of the holding register (0x0000..0xFFFF)
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@@ -266,7 +269,7 @@ written. Registers are addressed starting at zero.
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@ingroup register
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*/
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uint8_t ModbusMaster::writeSingleRegister(uint16_t u16WriteAddress,
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uint16_t u16WriteValue)
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uint16_t u16WriteValue)
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{
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_u16WriteAddress = u16WriteAddress;
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_u16WriteQty = 0;
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@@ -274,7 +277,6 @@ uint8_t ModbusMaster::writeSingleRegister(uint16_t u16WriteAddress,
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return ModbusMasterTransaction(ku8MBWriteSingleRegister);
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}
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/**
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Modbus function 0x10 Write Multiple Registers.
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@@ -308,7 +310,8 @@ uint8_t ModbusMaster::readAddresEctoControl()
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{
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_u16ReadAddress = 0x00;
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_u16ReadQty = 1;
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return ModbusMasterTransaction(ku8MBProgRead46);
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ModbusMasterTransaction(ku8MBProgRead46);
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return getResponseBuffer(0x00);
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}
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uint8_t ModbusMaster::writeAddresEctoControl(uint8_t addr)
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{
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@@ -393,8 +396,17 @@ uint8_t ModbusMaster::ModbusMasterTransaction(uint8_t u8MBFunction)
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{
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u16CRC = crc16_update(u16CRC, u8ModbusADU[i]);
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}
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// if (u8MBFunction == ku8MBProgRead46 || u8MBFunction == ku8MBProgWrite47)
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// {
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// u8ModbusADU[u8ModbusADUSize++] = highByte(u16CRC);
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// u8ModbusADU[u8ModbusADUSize++] = lowByte(u16CRC);
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// }
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// else
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// {
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u8ModbusADU[u8ModbusADUSize++] = lowByte(u16CRC);
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u8ModbusADU[u8ModbusADUSize++] = highByte(u16CRC);
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// }
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u8ModbusADU[u8ModbusADUSize] = 0;
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// flush receive buffer before transmitting request
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@@ -427,7 +439,9 @@ uint8_t ModbusMaster::ModbusMasterTransaction(uint8_t u8MBFunction)
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#if __MODBUSMASTER_DEBUG__
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digitalWrite(__MODBUSMASTER_DEBUG_PIN_A__, true);
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#endif
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u8ModbusADU[u8ModbusADUSize++] = _serial->read();
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uint8_t req = _serial->read();
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u8ModbusADU[u8ModbusADUSize++] = req;
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Serial.print(req, HEX);
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u8BytesLeft--;
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#if __MODBUSMASTER_DEBUG__
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digitalWrite(__MODBUSMASTER_DEBUG_PIN_A__, false);
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@@ -448,26 +462,34 @@ uint8_t ModbusMaster::ModbusMasterTransaction(uint8_t u8MBFunction)
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}
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// evaluate slave ID, function code once enough bytes have been read
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if (u8ModbusADUSize == 5)
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uint8_t count;
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if (u8MBFunction == ku8MBProgRead46 || u8MBFunction == ku8MBProgWrite47)
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count = COUNT_BIT_AVAIL_46F;
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else
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count = COUNT_BIT_AVAIL;
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if (u8ModbusADUSize == count)
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{
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// verify response is for correct Modbus slave
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if (u8ModbusADU[0] != _u8MBSlave)
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if (u8MBFunction != ku8MBProgRead46 && u8MBFunction != ku8MBProgWrite47)
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{
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// Serial.print(u8ModbusADU[0], HEX);
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// Serial.print(" != ");
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// Serial.println(_u8MBSlave, HEX);
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u8MBStatus = ku8MBInvalidSlaveID;
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break;
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}
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// verify response is for correct Modbus slave
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if (u8ModbusADU[0] != _u8MBSlave)
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{
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// Serial.print(u8ModbusADU[0], HEX);
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// Serial.print(" != ");
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// Serial.println(_u8MBSlave, HEX);
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// verify response is for correct Modbus function code (mask exception bit 7)
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if ((u8ModbusADU[1] & 0x7F) != u8MBFunction)
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{
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u8MBStatus = ku8MBInvalidFunction;
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break;
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}
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u8MBStatus = ku8MBInvalidSlaveID;
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break;
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}
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// verify response is for correct Modbus function code (mask exception bit 7)
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if ((u8ModbusADU[1] & 0x7F) != u8MBFunction)
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{
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u8MBStatus = ku8MBInvalidFunction;
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break;
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}
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}
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// check whether Modbus exception occurred; return Modbus Exception Code
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if (bitRead(u8ModbusADU[1], 7))
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{
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@@ -485,6 +507,16 @@ uint8_t ModbusMaster::ModbusMasterTransaction(uint8_t u8MBFunction)
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case ku8MBWriteMultipleRegisters:
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u8BytesLeft = 3;
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break;
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case ku8MBProgRead46:
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u8BytesLeft = 1;
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break;
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case ku8MBProgWrite47:
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u8BytesLeft = 1;
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break;
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default:
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}
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}
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if ((millis() - u32StartTime) > ku16MBResponseTimeout)
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@@ -493,24 +525,26 @@ uint8_t ModbusMaster::ModbusMasterTransaction(uint8_t u8MBFunction)
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}
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}
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// verify response is large enough to inspect further
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if (!u8MBStatus && u8ModbusADUSize >= 5)
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if (u8MBFunction != ku8MBProgRead46 && u8MBFunction != ku8MBProgWrite47)
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{
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// calculate CRC
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u16CRC = 0xFFFF;
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for (i = 0; i < (u8ModbusADUSize - 2); i++)
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// verify response is large enough to inspect further
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if (!u8MBStatus && u8ModbusADUSize >= COUNT_BIT_AVAIL)
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{
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u16CRC = crc16_update(u16CRC, u8ModbusADU[i]);
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}
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// calculate CRC
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u16CRC = 0xFFFF;
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for (i = 0; i < (u8ModbusADUSize - 2); i++)
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{
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u16CRC = crc16_update(u16CRC, u8ModbusADU[i]);
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}
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// verify CRC
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if (!u8MBStatus && (lowByte(u16CRC) != u8ModbusADU[u8ModbusADUSize - 2] ||
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highByte(u16CRC) != u8ModbusADU[u8ModbusADUSize - 1]))
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{
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u8MBStatus = ku8MBInvalidCRC;
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// verify CRC
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if (!u8MBStatus && (lowByte(u16CRC) != u8ModbusADU[u8ModbusADUSize - 2] ||
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highByte(u16CRC) != u8ModbusADU[u8ModbusADUSize - 1]))
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{
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u8MBStatus = ku8MBInvalidCRC;
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}
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}
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}
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// disassemble ADU into words
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if (!u8MBStatus)
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{
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@@ -530,6 +564,12 @@ uint8_t ModbusMaster::ModbusMasterTransaction(uint8_t u8MBFunction)
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}
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break;
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case ku8MBProgRead46:
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Serial.print("ku8MBProgRead46");
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for (i = 0; i < (u8ModbusADUSize); i++)
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{
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Serial.println(u8ModbusADU[i], HEX);
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}
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_u16ResponseBuffer[0] = (uint16_t)u8ModbusADU[2];
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_u8ResponseBufferLength = 1;
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break;
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