mirror of
https://github.com/rvdbreemen/OTGW-firmware
synced 2024-11-16 04:33:49 +01:00
1786 lines
82 KiB
C++
1786 lines
82 KiB
C++
/*
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***************************************************************************
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** Program : OTGW-Core.ino
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** Version : v0.9.0
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**
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** Copyright (c) 2021 Robert van den Breemen
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** Borrowed from OpenTherm library from:
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** https://github.com/jpraus/arduino-opentherm
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**
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** TERMS OF USE: MIT License. See bottom of file.
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***************************************************************************
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*/
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#define OTGWDebugTln(...) ({ if (bDebugOTmsg) DebugTln(__VA_ARGS__); })
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#define OTGWDebugln(...) ({ if (bDebugOTmsg) Debugln(__VA_ARGS__); })
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#define OTGWDebugTf(...) ({ if (bDebugOTmsg) DebugTf(__VA_ARGS__); })
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#define OTGWDebugf(...) ({ if (bDebugOTmsg) Debugf(__VA_ARGS__); })
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#define OTGWDebugT(...) ({ if (bDebugOTmsg) DebugT(__VA_ARGS__); })
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#define OTGWDebug(...) ({ if (bDebugOTmsg) Debug(__VA_ARGS__); })
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//define Nodoshop OTGW hardware
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#define OTGW_BUTTON 0 //D3
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#define OTGW_RESET 14 //D5
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#define OTGW_LED1 2 //D4
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#define OTGW_LED2 16 //D0
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//external watchdog
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#define EXT_WD_I2C_ADDRESS 0x26
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#define PIN_I2C_SDA 4 //D2
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#define PIN_I2C_SCL 5 //D1
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//used by update firmware functions
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const char *hexheaders[] = {
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"Last-Modified",
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"X-Version"
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};
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//Macro to Feed the Watchdog
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#define FEEDWATCHDOGNOW Wire.beginTransmission(EXT_WD_I2C_ADDRESS); Wire.write(0xA5); Wire.endTransmission();
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/* --- PRINTF_BYTE_TO_BINARY macro's --- */
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#define PRINTF_BINARY_PATTERN_INT8 "%c%c%c%c%c%c%c%c"
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#define PRINTF_BYTE_TO_BINARY_INT8(i) \
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(((i) & 0x80ll) ? '1' : '0'), \
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(((i) & 0x40ll) ? '1' : '0'), \
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(((i) & 0x20ll) ? '1' : '0'), \
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(((i) & 0x10ll) ? '1' : '0'), \
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(((i) & 0x08ll) ? '1' : '0'), \
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(((i) & 0x04ll) ? '1' : '0'), \
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(((i) & 0x02ll) ? '1' : '0'), \
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(((i) & 0x01ll) ? '1' : '0')
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#define PRINTF_BINARY_PATTERN_INT16 PRINTF_BINARY_PATTERN_INT8 PRINTF_BINARY_PATTERN_INT8
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#define PRINTF_BYTE_TO_BINARY_INT16(i) PRINTF_BYTE_TO_BINARY_INT8((i) >> 8), PRINTF_BYTE_TO_BINARY_INT8(i)
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#define PRINTF_BINARY_PATTERN_INT32 PRINTF_BINARY_PATTERN_INT16 PRINTF_BINARY_PATTERN_INT16
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#define PRINTF_BYTE_TO_BINARY_INT32(i) PRINTF_BYTE_TO_BINARY_INT16((i) >> 16), PRINTF_BYTE_TO_BINARY_INT16(i)
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#define PRINTF_BINARY_PATTERN_INT64 PRINTF_BINARY_PATTERN_INT32 PRINTF_BINARY_PATTERN_INT32
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#define PRINTF_BYTE_TO_BINARY_INT64(i) PRINTF_BYTE_TO_BINARY_INT32((i) >> 32), PRINTF_BYTE_TO_BINARY_INT32(i)
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/* --- Endf of macro's --- */
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//some variable's
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OpenthermData OTdata;
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#define OTGW_BANNER "OpenTherm Gateway"
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//===================[ Reset OTGW ]===============================
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void resetOTGW() {
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sPICfwversion ="No version found"; //reset versionstring
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OTGWSerial.resetPic();
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//then read the first response of the firmware to make sure it reads it
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String resp = OTGWSerial.readStringUntil('\n');
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resp.trim();
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OTGWDebugTf("Received firmware version: [%s] [%s] (%d)\r\n", CSTR(resp), OTGWSerial.firmwareVersion(), strlen(OTGWSerial.firmwareVersion()));
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bOTGWonline = (resp.length()>0);
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if (bOTGWonline) sPICfwversion = String(OTGWSerial.firmwareVersion());
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OTGWDebugTf("Current firmware version: %s\r\n", CSTR(sPICfwversion));
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}
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//===================[ getpicfwversion ]===========================
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String getpicfwversion(){
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String _ret="";
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String line = executeCommand("PR=A");
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int p = line.indexOf(OTGW_BANNER);
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if (p >= 0) {
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p += sizeof(OTGW_BANNER);
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_ret = line.substring(p);
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} else _ret ="No version found";
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OTGWDebugTf("Current firmware version: %s\r\n", CSTR(_ret));
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_ret.trim();
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return _ret;
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}
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//===================[ checkOTWGpicforupdate ]=====================
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void checkOTWGpicforupdate(){
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OTGWDebugTf("OTGW PIC firmware version = [%s]\r\n", CSTR(sPICfwversion));
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String latest = checkforupdatepic("gateway.hex");
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if (!bOTGWonline) {
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sMessage = sPICfwversion;
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} else if (latest != sPICfwversion) {
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sMessage = "New PIC version " + latest + " available!";
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}
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if (!checklittlefshash()) sMessage = "Flash your littleFS with matching version!";
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}
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//===================[ checkOTWGpicforupdate ]=====================
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void sendOTGWbootcmd(){
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if (!settingOTGWcommandenable) return;
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OTGWDebugTf("OTGW boot message = [%s]\r\n", CSTR(settingOTGWcommands));
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OTGWSerial.write(CSTR(settingOTGWcommands));
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OTGWSerial.flush();
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}
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//===================[ OTGW Command & Response ]===================
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String executeCommand(const String sCmd){
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//send command to OTGW
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OTGWDebugTf("OTGW Send Cmd [%s]\r\n", CSTR(sCmd));
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OTGWSerial.setTimeout(1000);
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DECLARE_TIMER_MS(tmrWaitForIt, 1000);
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while((OTGWSerial.availableForWrite() < sCmd.length()+2) && !DUE(tmrWaitForIt)){
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feedWatchDog();
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}
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OTGWSerial.write(CSTR(sCmd));
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OTGWSerial.write("\r\n");
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OTGWSerial.flush();
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//wait for response
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RESTART_TIMER(tmrWaitForIt);
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while(!OTGWSerial.available() && !DUE(tmrWaitForIt)) {
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feedWatchDog();
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}
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String _cmd = sCmd.substring(0,2);
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OTGWDebugTf("Send command: [%s]\r\n", CSTR(_cmd));
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//fetch a line
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String line = OTGWSerial.readStringUntil('\n');
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line.trim();
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String _ret ="";
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if (line.startsWith(_cmd)){
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// Responses: When a serial command is accepted by the gateway, it responds with the two letters of the command code, a colon, and the interpreted data value.
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// Command: "TT=19.125"
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// Response: "TT: 19.13"
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// [XX:response string]
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_ret = line.substring(3);
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} else if (line.startsWith("NG")){
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_ret = "NG - No Good. The command code is unknown.";
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} else if (line.startsWith("SE")){
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_ret = "SE - Syntax Error. The command contained an unexpected character or was incomplete.";
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} else if (line.startsWith("BV")){
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_ret = "BV - Bad Value. The command contained a data value that is not allowed.";
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} else if (line.startsWith("OR")){
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_ret = "OR - Out of Range. A number was specified outside of the allowed range.";
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} else if (line.startsWith("NS")){
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_ret = "NS - No Space. The alternative Data-ID could not be added because the table is full.";
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} else if (line.startsWith("NF")){
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_ret = "NF - Not Found. The specified alternative Data-ID could not be removed because it does not exist in the table.";
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} else if (line.startsWith("OE")){
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_ret = "OE - Overrun Error. The processor was busy and failed to process all received characters.";
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} else if (line.length()==0) {
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//just an empty line... most likely it's a timeout situation
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_ret = "TO - Timeout. No response.";
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} else {
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_ret = line; //some commands return a string, just return that.
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}
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OTGWDebugTf("Command send [%s]-[%s] - Response line: [%s] - Returned value: [%s]\r\n", CSTR(sCmd), CSTR(_cmd), CSTR(line), CSTR(_ret));
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return _ret;
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}
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//===================[ Watchdog OTGW ]===============================
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String initWatchDog() {
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// Hardware WatchDog is based on:
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// https://github.com/rvdbreemen/ESPEasySlaves/tree/master/TinyI2CWatchdog
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// Code here is based on ESPEasy code, modified to work in the project.
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// configure hardware pins according to eeprom settings.
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OTGWDebugTln(F("Setup Watchdog"));
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OTGWDebugTln(F("INIT : I2C"));
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Wire.begin(PIN_I2C_SDA, PIN_I2C_SCL); //configure the I2C bus
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//=============================================
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// I2C Watchdog boot status check
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String ReasonReset = "";
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delay(500);
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Wire.beginTransmission(EXT_WD_I2C_ADDRESS); // OTGW WD address
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Wire.write(0x83); // command to set pointer
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Wire.write(17); // pointer value to status byte
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Wire.endTransmission();
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Wire.requestFrom((uint8_t)EXT_WD_I2C_ADDRESS, (uint8_t)1);
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if (Wire.available())
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{
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byte status = Wire.read();
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if (status & 0x1)
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{
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OTGWDebugTln(F("INIT : Reset by WD!"));
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ReasonReset = "Reset by External WD";
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//lastReset = BOOT_CAUSE_EXT_WD;
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}
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}
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return ReasonReset;
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//===========================================
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}
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void WatchDogEnabled(byte stateWatchdog){
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Wire.beginTransmission(EXT_WD_I2C_ADDRESS); //Nodoshop design uses the hardware WD on I2C, address 0x26
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Wire.write(7); //Write to register 7, the action register
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Wire.write(stateWatchdog); //1 = armed to reset, 0 = turned off
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Wire.endTransmission(); //That's all there is...
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}
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//===[ Feed the WatchDog before it bites! (1x per second) ]===
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void feedWatchDog() {
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//make sure to do this at least once a second
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//==== feed the WD over I2C ====
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// Address: 0x26
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// I2C Watchdog feed
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DECLARE_TIMER_MS(timerWD, 1000, CATCH_UP_MISSED_TICKS);
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if DUE(timerWD)
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{
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Wire.beginTransmission(EXT_WD_I2C_ADDRESS); //Nodoshop design uses the hardware WD on I2C, address 0x26
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Wire.write(0xA5); //Feed the dog, before it bites.
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Wire.endTransmission(); //That's all there is...
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if (settingLEDblink) blinkLEDnow(LED1);
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}
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yield();
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}
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//===================[ END Watchdog OTGW ]===============================
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//=======================================================================
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float OpenthermData::f88() {
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float value = (int8_t) valueHB;
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return value + (float)valueLB / 256.0;
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}
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void OpenthermData::f88(float value) {
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if (value >= 0) {
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valueHB = (byte) value;
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float fraction = (value - valueHB);
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valueLB = fraction * 256.0;
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}
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else {
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valueHB = (byte)(value - 1);
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float fraction = (value - valueHB - 1);
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valueLB = fraction * 256.0;
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}
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}
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uint16_t OpenthermData::u16() {
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uint16_t value = valueHB;
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return ((value << 8) + valueLB);
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}
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void OpenthermData::u16(uint16_t value) {
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valueLB = value & 0xFF;
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valueHB = (value >> 8) & 0xFF;
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}
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int16_t OpenthermData::s16() {
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int16_t value = valueHB;
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return ((value << 8) + valueLB);
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}
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void OpenthermData::s16(int16_t value) {
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valueLB = value & 0xFF;
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valueHB = (value >> 8) & 0xFF;
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}
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//parsing helpers
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const char *statusToString(OpenThermResponseStatus status)
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{
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switch (status) {
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case OT_NONE: return "NONE";
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case OT_SUCCESS: return "SUCCESS";
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case OT_INVALID: return "INVALID";
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case OT_TIMEOUT: return "TIMEOUT";
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default: return "UNKNOWN";
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}
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}
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const char *messageTypeToString(OpenThermMessageType message_type)
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{
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switch (message_type) {
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case OT_READ_DATA: return "READ_DATA";
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case OT_WRITE_DATA: return "WRITE_DATA";
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case OT_INVALID_DATA: return "INVALID_DATA";
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case OT_RESERVED: return "RESERVED";
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case OT_READ_ACK: return "READ_ACK";
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case OT_WRITE_ACK: return "WRITE_ACK";
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case OT_DATA_INVALID: return "DATA_INVALID";
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case OT_UNKNOWN_DATA_ID: return "UNKNOWN_DATA_ID";
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default: return "UNKNOWN";
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}
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}
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const char *messageIDToString(OpenThermMessageID message_id){
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if (message_id <= OT_MSGID_MAX) {
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PROGMEM_readAnything (&OTmap[message_id], OTlookupitem);
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return OTlookupitem.label;
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} else return "Undefined";}
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OpenThermMessageType getMessageType(unsigned long message)
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{
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OpenThermMessageType msg_type = static_cast<OpenThermMessageType>((message >> 28) & 7);
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return msg_type;
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}
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OpenThermMessageID getDataID(unsigned long frame)
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{
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return (OpenThermMessageID)((frame >> 16) & 0xFF);
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}
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//parsing responses - helper functions
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// bit: description [ clear/0, set/1]
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// 0: CH enable [ CH is disabled, CH is enabled]
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// 1: DHW enable [ DHW is disabled, DHW is enabled]
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// 2: Cooling enable [ Cooling is disabled, Cooling is enabled]
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// 3: OTC active [OTC not active, OTC is active]
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// 4: CH2 enable [CH2 is disabled, CH2 is enabled]
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// 5: reserved
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// 6: reserved
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// 7: reserved
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bool isCentralHeatingEnabled() {
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return OTdataObject.MasterStatus & 0x01;
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}
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bool isDomesticHotWaterEnabled() {
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return OTdataObject.MasterStatus & 0x02;
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}
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bool isCoolingEnabled() {
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return OTdataObject.MasterStatus & 0x04;
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}
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bool isOutsideTemperatureCompensationActive() {
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return OTdataObject.MasterStatus & 0x08;
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}
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bool isCentralHeating2enabled() {
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return OTdataObject.MasterStatus & 0x10;
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}
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//Slave
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// bit: description [ clear/0, set/1]
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// 0: fault indication [ no fault, fault ]
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// 1: CH mode [CH not active, CH active]
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// 2: DHW mode [ DHW not active, DHW active]
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// 3: Flame status [ flame off, flame on ]
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// 4: Cooling status [ cooling mode not active, cooling mode active ]
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// 5: CH2 mode [CH2 not active, CH2 active]
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// 6: diagnostic indication [no diagnostics, diagnostic event]
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// 7: reserved
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bool isFaultIndicator() {
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return OTdataObject.SlaveStatus & 0x01;
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}
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bool isCentralHeatingActive() {
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return OTdataObject.SlaveStatus & 0x02;
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}
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bool isDomesticHotWaterActive() {
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return OTdataObject.SlaveStatus & 0x04;
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}
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bool isFlameStatus() {
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return OTdataObject.SlaveStatus & 0x08;
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}
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bool isCoolingActive() {
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return OTdataObject.SlaveStatus & 0x10;
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}
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bool isCentralHeating2Active() {
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return OTdataObject.SlaveStatus & 0x20;
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}
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bool isDiagnosticIndicator() {
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return OTdataObject.SlaveStatus & 0x40;
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}
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//bit: [clear/0, set/1]
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//0: Service request [service not req’d, service required]
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//1: Lockout-reset [ remote reset disabled, rr enabled]
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//2: Low water press [ no WP fault, water pressure fault]
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//3: Gas/flame fault [ no G/F fault, gas/flame fault ]
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//4: Air press fault [ no AP fault, air pressure fault ]
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//5: Water over-temp[ no OvT fault, over-temperat. Fault]
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//6: reserved
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//7: reserved
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bool isServiceRequest() {
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return OTdataObject.ASFflags & 0x0100;
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}
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bool isLockoutReset() {
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return OTdataObject.ASFflags & 0x0200;
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}
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bool isLowWaterPressure() {
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return OTdataObject.ASFflags & 0x0400;
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}
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bool isGasFlameFault() {
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return OTdataObject.ASFflags & 0x0800;
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}
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bool isAirTemperature() {
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return OTdataObject.ASFflags & 0x1000;
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}
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bool isWaterOverTemperature() {
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return OTdataObject.ASFflags & 0x2000;
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}
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const char *byte_to_binary(int x)
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{
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static char b[9];
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b[0] = '\0';
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int z;
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for (z = 128; z > 0; z >>= 1) {
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strcat(b, ((x & z) == z) ? "1" : "0");
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}
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return b;
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} //byte_to_binary
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float print_f88()
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{
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//function to print data
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float _value = round(OTdata.f88()*100.0) / 100.0; // round float 2 digits, like this: x.xx
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// OTGWDebugf("%s = %3.2f %s\r\n", OTlookupitem.label, _value , OTlookupitem.unit);
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char _msg[15] {0};
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dtostrf(_value, 3, 2, _msg);
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PROGMEM_readAnything (&OTmap[OTdata.id], OTlookupitem);
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OTGWDebugf("%s = %s %s\r\n", OTlookupitem.label, _msg , OTlookupitem.unit);
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//SendMQTT
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sendMQTTData(messageIDToString(static_cast<OpenThermMessageID>(OTdata.id)), _msg);
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return _value;
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}
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int16_t print_s16()
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{
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int16_t _value = OTdata.s16();
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// OTGWDebugf("%s = %5d %s\r\n", OTlookupitem.label, _value, OTlookupitem.unit);
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//Build string for MQTT
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char _msg[15] {0};
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itoa(_value, _msg, 10);
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PROGMEM_readAnything (&OTmap[OTdata.id], OTlookupitem);
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OTGWDebugf("%s = %s %s\r\n", OTlookupitem.label, _msg, OTlookupitem.unit);
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//SendMQTT
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sendMQTTData(messageIDToString(static_cast<OpenThermMessageID>(OTdata.id)), _msg);
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return _value;
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}
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uint16_t print_s8s8()
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{
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PROGMEM_readAnything (&OTmap[OTdata.id], OTlookupitem);
|
||
OTGWDebugf("%s = %3d / %3d %s\r\n", OTlookupitem.label, (int8_t)OTdata.valueHB, (int8_t)OTdata.valueLB, OTlookupitem.unit);
|
||
//Build string for MQTT
|
||
char _msg[15] {0};
|
||
char _topic[50] {0};
|
||
itoa((int8_t)OTdata.valueHB, _msg, 10);
|
||
strlcpy(_topic, messageIDToString(static_cast<OpenThermMessageID>(OTdata.id)), sizeof(_topic));
|
||
strlcat(_topic, "_value_hb", sizeof(_topic));
|
||
OTGWDebugf("%s = %s %s\r\n", OTlookupitem.label, _msg, OTlookupitem.unit);
|
||
sendMQTTData(_topic, _msg);
|
||
//Build string for MQTT
|
||
itoa((int8_t)OTdata.valueLB, _msg, 10);
|
||
strlcpy(_topic, messageIDToString(static_cast<OpenThermMessageID>(OTdata.id)), sizeof(_topic));
|
||
strlcat(_topic, "_value_lb", sizeof(_topic));
|
||
OTGWDebugf("%s = %s %s\r\n", OTlookupitem.label, _msg, OTlookupitem.unit);
|
||
sendMQTTData(_topic, _msg);
|
||
return OTdata.u16();
|
||
}
|
||
|
||
uint16_t print_u16()
|
||
{
|
||
uint16_t _value = OTdata.u16();
|
||
//Build string for MQTT
|
||
char _msg[15] {0};
|
||
utoa(_value, _msg, 10);
|
||
PROGMEM_readAnything (&OTmap[OTdata.id], OTlookupitem);
|
||
OTGWDebugf("%s = %s %s\r\n", OTlookupitem.label, _msg, OTlookupitem.unit);
|
||
//SendMQTT
|
||
sendMQTTData(messageIDToString(static_cast<OpenThermMessageID>(OTdata.id)), _msg);
|
||
return _value;
|
||
}
|
||
|
||
uint16_t print_status()
|
||
{
|
||
char _flag8_master[8] {0};
|
||
char _flag8_slave[8] {0};
|
||
|
||
if (OTdata.masterslave == 0) {
|
||
// Parse master bits
|
||
//bit: [clear/0, set/1]
|
||
// 0: CH enable [ CH is disabled, CH is enabled]
|
||
// 1: DHW enable [ DHW is disabled, DHW is enabled]
|
||
// 2: Cooling enable [ Cooling is disabled, Cooling is enabled]]
|
||
// 3: OTC active [OTC not active, OTC is active]
|
||
// 4: CH2 enable [CH2 is disabled, CH2 is enabled]
|
||
// 5: Summer/winter mode [Summertime, Wintertime]
|
||
// 6: DHW blocking [ DHW not blocking, DHW blocking ]
|
||
// 7: reserved
|
||
_flag8_master[0] = (((OTdata.valueHB) & 0x01) ? 'C' : '-');
|
||
_flag8_master[1] = (((OTdata.valueHB) & 0x02) ? 'D' : '-');
|
||
_flag8_master[2] = (((OTdata.valueHB) & 0x04) ? 'C' : '-');
|
||
_flag8_master[3] = (((OTdata.valueHB) & 0x08) ? 'O' : '-');
|
||
_flag8_master[4] = (((OTdata.valueHB) & 0x10) ? '2' : '-');
|
||
_flag8_master[5] = (((OTdata.valueHB) & 0x20) ? 'W' : 'S');
|
||
_flag8_master[6] = (((OTdata.valueHB) & 0x40) ? 'B' : '-');
|
||
_flag8_master[7] = (((OTdata.valueHB) & 0x80) ? '.' : '-');
|
||
_flag8_master[8] = '\0';
|
||
|
||
PROGMEM_readAnything (&OTmap[OTdata.id], OTlookupitem);
|
||
OTGWDebugf("%s = Master [%s] \r\n", OTlookupitem.label, _flag8_master);
|
||
|
||
//Master Status
|
||
sendMQTTData(F("status_master"), _flag8_master);
|
||
sendMQTTData(F("ch_enable"), (((OTdata.valueHB) & 0x01) ? "ON" : "OFF")); delayms(50);
|
||
sendMQTTData(F("dhw_enable"), (((OTdata.valueHB) & 0x02) ? "ON" : "OFF")); delayms(50);
|
||
sendMQTTData(F("cooling_enable"), (((OTdata.valueHB) & 0x04) ? "ON" : "OFF")); delayms(50);
|
||
sendMQTTData(F("otc_active"), (((OTdata.valueHB) & 0x08) ? "ON" : "OFF")); delayms(50);
|
||
sendMQTTData(F("ch2_enable"), (((OTdata.valueHB) & 0x10) ? "ON" : "OFF")); delayms(50);
|
||
sendMQTTData(F("summerwintertime"), (((OTdata.valueHB) & 0x20) ? "ON" : "OFF")); delayms(50);
|
||
sendMQTTData(F("dhw_blocking"), (((OTdata.valueHB) & 0x40) ? "ON" : "OFF")); delayms(50);
|
||
|
||
OTdataObject.MasterStatus = OTdata.valueHB;
|
||
} else {
|
||
// Parse slave bits
|
||
// 0: fault indication [ no fault, fault ]
|
||
// 1: CH mode [CH not active, CH active]
|
||
// 2: DHW mode [ DHW not active, DHW active]
|
||
// 3: Flame status [ flame off, flame on ]
|
||
// 4: Cooling status [ cooling mode not active, cooling mode active ]
|
||
// 5: CH2 mode [CH2 not active, CH2 active]
|
||
// 6: diagnostic indication [no diagnostics, diagnostic event]
|
||
// 7: Electricity production [no eletric production, eletric production]
|
||
_flag8_slave[0] = (((OTdata.valueLB) & 0x01) ? 'E' : '-');
|
||
_flag8_slave[1] = (((OTdata.valueLB) & 0x02) ? 'C' : '-');
|
||
_flag8_slave[2] = (((OTdata.valueLB) & 0x04) ? 'W' : '-');
|
||
_flag8_slave[3] = (((OTdata.valueLB) & 0x08) ? 'F' : '-');
|
||
_flag8_slave[4] = (((OTdata.valueLB) & 0x10) ? 'C' : '-');
|
||
_flag8_slave[5] = (((OTdata.valueLB) & 0x20) ? '2' : '-');
|
||
_flag8_slave[6] = (((OTdata.valueLB) & 0x40) ? 'D' : '-');
|
||
_flag8_slave[7] = (((OTdata.valueLB) & 0x80) ? 'P' : '-');
|
||
_flag8_slave[8] = '\0';
|
||
|
||
PROGMEM_readAnything (&OTmap[OTdata.id], OTlookupitem);
|
||
OTGWDebugf("%s = Slave [%s] \r\n", OTlookupitem.label, _flag8_slave);
|
||
|
||
//Slave Status
|
||
sendMQTTData(F("status_slave"), _flag8_slave);
|
||
sendMQTTData(F("fault"), (((OTdata.valueLB) & 0x01) ? "ON" : "OFF")); delayms(50);
|
||
sendMQTTData(F("centralheating"), (((OTdata.valueLB) & 0x02) ? "ON" : "OFF")); delayms(50);
|
||
sendMQTTData(F("domestichotwater"), (((OTdata.valueLB) & 0x04) ? "ON" : "OFF")); delayms(50);
|
||
sendMQTTData(F("flame"), (((OTdata.valueLB) & 0x08) ? "ON" : "OFF")); delayms(50);
|
||
sendMQTTData(F("cooling"), (((OTdata.valueLB) & 0x10) ? "ON" : "OFF")); delayms(50);
|
||
sendMQTTData(F("centralheating2"), (((OTdata.valueLB) & 0x20) ? "ON" : "OFF")); delayms(50);
|
||
sendMQTTData(F("diagnostic_indicator"), (((OTdata.valueLB) & 0x40) ? "ON" : "OFF")); delayms(50);
|
||
sendMQTTData(F("eletric_production"), (((OTdata.valueLB) & 0x80) ? "ON" : "OFF")); delayms(50);
|
||
|
||
OTdataObject.SlaveStatus = OTdata.valueLB;
|
||
}
|
||
|
||
uint16_t _value = OTdata.u16();
|
||
OTGWDebugTf("Status u16 [%04x] _value [%04x] hb [%02x] lb [%02x]\r\n", OTdata.u16(), _value, OTdata.valueHB, OTdata.valueLB);
|
||
return _value;
|
||
}
|
||
|
||
uint16_t print_solar_storage_status()
|
||
{
|
||
char _msg[15] {0};
|
||
PROGMEM_readAnything (&OTmap[OTdata.id], OTlookupitem);
|
||
|
||
if (OTdata.masterslave == 0) {
|
||
// Master Solar Storage
|
||
// ID101:HB012: Master Solar Storage: Solar mode
|
||
uint8_t MasterSolarMode = (OTdata.valueHB) & 0x7;
|
||
OTGWDebugf("%s = Solar Storage Master Mode [%d] \r\n", OTlookupitem.label, MasterSolarMode);
|
||
sendMQTTData(F("solar_storage_master_mode"), itoa(MasterSolarMode, _msg, 10)); delayms(50);
|
||
OTdataObject.SolarMasterStatus = OTdata.valueHB;
|
||
} else {
|
||
//Slave
|
||
// ID101:LB0: Slave Solar Storage: Fault indication
|
||
uint8_t SlaveSolarFaultIndicator = (OTdata.valueLB) & 0x01;
|
||
// ID101:LB123: Slave Solar Storage: Solar mode status
|
||
uint8_t SlaveSolarModeStatus = (OTdata.valueLB>>1) & 0x07;
|
||
// ID101:LB45: Slave Solar Storage: Solar status
|
||
uint8_t SlaveSolarStatus = (OTdata.valueLB>>4)& 0x03;
|
||
OTGWDebugf("%s = Slave Solar Fault Indicator [%d] \r\n", OTlookupitem.label, SlaveSolarFaultIndicator);
|
||
OTGWDebugf("%s = Slave Solar Mode Status [%d] \r\n", OTlookupitem.label, SlaveSolarModeStatus);
|
||
OTGWDebugf("%s = Slave Solar Status [%d] \r\n", OTlookupitem.label, SlaveSolarStatus);
|
||
sendMQTTData(F("solar_storage_slave_fault_incidator"), ((SlaveSolarFaultIndicator) ? "ON" : "OFF")); delayms(50);
|
||
sendMQTTData(F("solar_storage_mode_status"), itoa(SlaveSolarModeStatus, _msg, 10)); delayms(50);
|
||
sendMQTTData(F("solar_storage_slave_status"), itoa(SlaveSolarStatus, _msg, 10)); delayms(50);
|
||
OTdataObject.SolarSlaveStatus = OTdata.valueLB;
|
||
}
|
||
uint16_t _value = OTdata.u16();
|
||
OTGWDebugTf("Solar Storage Master / Slave Mode u16 [%04x] _value [%04x] hb [%02x] lb [%02x]\r\n", OTdata.u16(), _value, OTdata.valueHB, OTdata.valueLB);
|
||
return _value;
|
||
}
|
||
|
||
uint16_t print_statusVH()
|
||
{
|
||
char _flag8_master[8] {0};
|
||
char _flag8_slave[8] {0};
|
||
|
||
if (OTdata.masterslave == 0){
|
||
|
||
// Parse master bits
|
||
//bit: [clear/0, set/1]
|
||
// ID70:HB0: Master status ventilation / heat-recovery: Ventilation enable
|
||
// ID70:HB1: Master status ventilation / heat-recovery: Bypass postion
|
||
// ID70:HB2: Master status ventilation / heat-recovery: Bypass mode
|
||
// ID70:HB3: Master status ventilation / heat-recovery: Free ventilation mode
|
||
// 4: reserved
|
||
// 5: reserved
|
||
// 6: reserved
|
||
// 7: reserved
|
||
_flag8_master[0] = (((OTdata.valueHB) & 0x01) ? 'V' : '-');
|
||
_flag8_master[1] = (((OTdata.valueHB) & 0x02) ? 'P' : '-');
|
||
_flag8_master[2] = (((OTdata.valueHB) & 0x04) ? 'M' : '-');
|
||
_flag8_master[3] = (((OTdata.valueHB) & 0x08) ? 'F' : '-');
|
||
_flag8_master[4] = (((OTdata.valueHB) & 0x10) ? '.' : '-');
|
||
_flag8_master[5] = (((OTdata.valueHB) & 0x20) ? '.' : '-');
|
||
_flag8_master[6] = (((OTdata.valueHB) & 0x40) ? '.' : '-');
|
||
_flag8_master[7] = (((OTdata.valueHB) & 0x80) ? '.' : '-');
|
||
_flag8_master[8] = '\0';
|
||
|
||
PROGMEM_readAnything (&OTmap[OTdata.id], OTlookupitem);
|
||
OTGWDebugf("%s = VH Master [%s] \r\n", OTlookupitem.label, _flag8_master);
|
||
//Master Status
|
||
sendMQTTData(F("status_vh_master"), _flag8_master);
|
||
sendMQTTData(F("vh_ventilation_enabled"), (((OTdata.valueHB) & 0x01) ? "ON" : "OFF")); delayms(50);
|
||
sendMQTTData(F("vh_bypass_position"), (((OTdata.valueHB) & 0x02) ? "ON" : "OFF")); delayms(50);
|
||
sendMQTTData(F("vh_bypass_mode"), (((OTdata.valueHB) & 0x04) ? "ON" : "OFF")); delayms(50);
|
||
sendMQTTData(F("vh_free_ventlation_mode"), (((OTdata.valueHB) & 0x08) ? "ON" : "OFF")); delayms(50);
|
||
|
||
OTdataObject.MasterStatusVH = OTdata.valueLB;
|
||
} else {
|
||
// Parse slave bits
|
||
// ID70:LB0: Slave status ventilation / heat-recovery: Fault indication
|
||
// ID70:LB1: Slave status ventilation / heat-recovery: Ventilation mode
|
||
// ID70:LB2: Slave status ventilation / heat-recovery: Bypass status
|
||
// ID70:LB3: Slave status ventilation / heat-recovery: Bypass automatic status
|
||
// ID70:LB4: Slave status ventilation / heat-recovery: Free ventilation status
|
||
// ID70:LB6: Slave status ventilation / heat-recovery: Diagnostic indication
|
||
_flag8_slave[0] = (((OTdata.valueLB) & 0x01) ? 'F' : '-');
|
||
_flag8_slave[1] = (((OTdata.valueLB) & 0x02) ? 'V' : '-');
|
||
_flag8_slave[2] = (((OTdata.valueLB) & 0x04) ? 'P' : '-');
|
||
_flag8_slave[3] = (((OTdata.valueLB) & 0x08) ? 'A' : '-');
|
||
_flag8_slave[4] = (((OTdata.valueLB) & 0x10) ? 'F' : '-');
|
||
_flag8_slave[5] = (((OTdata.valueLB) & 0x20) ? '.' : '-');
|
||
_flag8_slave[6] = (((OTdata.valueLB) & 0x40) ? 'D' : '-');
|
||
_flag8_slave[7] = (((OTdata.valueLB) & 0x80) ? '.' : '-');
|
||
_flag8_slave[8] = '\0';
|
||
|
||
PROGMEM_readAnything (&OTmap[OTdata.id], OTlookupitem);
|
||
OTGWDebugf("%s = VH Slave [%s] \r\n", OTlookupitem.label, _flag8_slave);
|
||
|
||
//Slave Status
|
||
sendMQTTData(F("status_vh_slave"), _flag8_slave);
|
||
sendMQTTData(F("vh_fault"), (((OTdata.valueLB) & 0x01) ? "ON" : "OFF")); delayms(50);
|
||
sendMQTTData(F("vh_ventlation_mode"), (((OTdata.valueLB) & 0x02) ? "ON" : "OFF")); delayms(50);
|
||
sendMQTTData(F("vh_bypass_status"), (((OTdata.valueLB) & 0x04) ? "ON" : "OFF")); delayms(50);
|
||
sendMQTTData(F("vh_bypass_automatic_status"), (((OTdata.valueLB) & 0x08) ? "ON" : "OFF")); delayms(50);
|
||
sendMQTTData(F("vh_free_ventliation_status"), (((OTdata.valueLB) & 0x10) ? "ON" : "OFF")); delayms(50);
|
||
sendMQTTData(F("vh_diagnostic_indicator"), (((OTdata.valueLB) & 0x40) ? "ON" : "OFF")); delayms(50);
|
||
|
||
OTdataObject.SlaveStatusVH = OTdata.valueLB;
|
||
}
|
||
|
||
uint16_t _value = OTdata.u16();
|
||
OTGWDebugTf("Status u16 [%04x] _value [%04x] hb [%02x] lb [%02x]\r\n", OTdata.u16(), _value, OTdata.valueHB, OTdata.valueLB);
|
||
return _value;
|
||
}
|
||
|
||
|
||
uint16_t print_ASFflags()
|
||
{
|
||
PROGMEM_readAnything (&OTmap[OTdata.id], OTlookupitem);
|
||
OTGWDebugf("%s = ASF flags[%s] OEM fault code [%3d]\r\n", OTlookupitem.label, byte_to_binary(OTdata.valueHB), OTdata.valueLB);
|
||
//Build string for MQTT
|
||
char _msg[15] {0};
|
||
//Application Specific Fault
|
||
sendMQTTData(F("ASF_flags"), byte_to_binary(OTdata.valueHB));
|
||
//OEM fault code
|
||
utoa(OTdata.valueLB, _msg, 10);
|
||
sendMQTTData(F("ASF_oemfaultcode"), _msg);
|
||
|
||
//bit: [clear/0, set/1]
|
||
//bit: [clear/0, set/1]
|
||
//0: Service request [service not req’d, service required]
|
||
//1: Lockout-reset [ remote reset disabled, rr enabled]
|
||
//2: Low water press [ no WP fault, water pressure fault]
|
||
//3: Gas/flame fault [ no G/F fault, gas/flame fault ]
|
||
//4: Air press fault [ no AP fault, air pressure fault ]
|
||
//5: Water over-temp[ no OvT fault, over-temperat. Fault]
|
||
//6: reserved
|
||
//7: reserved
|
||
sendMQTTData(F("service_request"), (((OTdata.valueHB) & 0x01) ? "ON" : "OFF")); delayms(50);
|
||
sendMQTTData(F("lockout_reset"), (((OTdata.valueHB) & 0x02) ? "ON" : "OFF")); delayms(50);
|
||
sendMQTTData(F("low_water_pressure"), (((OTdata.valueHB) & 0x04) ? "ON" : "OFF")); delayms(50);
|
||
sendMQTTData(F("gas_flame_fault"), (((OTdata.valueHB) & 0x08) ? "ON" : "OFF")); delayms(50);
|
||
sendMQTTData(F("air_pressure_fault"), (((OTdata.valueHB) & 0x10) ? "ON" : "OFF")); delayms(50);
|
||
sendMQTTData(F("water_over_temperature"),(((OTdata.valueHB) & 0x20) ? "ON" : "OFF")); delayms(50);
|
||
return OTdata.u16();
|
||
}
|
||
|
||
uint16_t print_RBPflags()
|
||
{
|
||
PROGMEM_readAnything (&OTmap[OTdata.id], OTlookupitem);
|
||
OTGWDebugf("%s = M[%s] OEM fault code [%3d]\r\n", OTlookupitem.label, byte_to_binary(OTdata.valueHB), OTdata.valueLB);
|
||
//Build string for MQTT
|
||
char _msg[15] {0};
|
||
//Remote Boiler Paramaters
|
||
sendMQTTData(F("RBP_flags_transfer_enable"), byte_to_binary(OTdata.valueHB)); delayms(50);
|
||
sendMQTTData(F("RBP_flags_read_write"), byte_to_binary(OTdata.valueLB)); delayms(50);
|
||
|
||
//bit: [clear/0, set/1]
|
||
//0: DHW setpoint
|
||
//1: max CH setpoint
|
||
//2: reserved
|
||
//3: reserved
|
||
//4: reserved
|
||
//5: reserved
|
||
//6: reserved
|
||
//7: reserved
|
||
sendMQTTData(F("rbp_dhw_setpoint"), (((OTdata.valueHB) & 0x01) ? "ON" : "OFF")); delayms(50);
|
||
sendMQTTData(F("rbp_max_ch_setpoint"), (((OTdata.valueHB) & 0x02) ? "ON" : "OFF")); delayms(50);
|
||
|
||
//bit: [clear/0, set/1]
|
||
//0: read write DHW setpoint
|
||
//1: read write max CH setpoint
|
||
//2: reserved
|
||
//3: reserved
|
||
//4: reserved
|
||
//5: reserved
|
||
//6: reserved
|
||
//7: reserved
|
||
sendMQTTData(F("rbp_rw_dhw_setpoint"), (((OTdata.valueLB) & 0x01) ? "ON" : "OFF")); delayms(50);
|
||
sendMQTTData(F("rbp_rw_max_ch_setpoint"), (((OTdata.valueLB) & 0x02) ? "ON" : "OFF")); delayms(50);
|
||
|
||
return OTdata.u16();
|
||
}
|
||
|
||
uint16_t print_slavememberid()
|
||
{
|
||
PROGMEM_readAnything (&OTmap[OTdata.id], OTlookupitem);
|
||
OTGWDebugf("%s = Slave Config[%s] MemberID code [%3d]\r\n", OTlookupitem.label, byte_to_binary(OTdata.valueHB), OTdata.valueLB);
|
||
//Build string for SendMQTT
|
||
sendMQTTData(F("slave_configuration"), byte_to_binary(OTdata.valueHB));
|
||
char _msg[15] {0};
|
||
utoa(OTdata.valueLB, _msg, 10);
|
||
sendMQTTData(F("slave_memberid_code"), _msg);
|
||
|
||
|
||
// bit: description [ clear/0, set/1]
|
||
// 0: DHW present [ dhw not present, dhw is present ]
|
||
// 1: Control type [ modulating, on/off ]
|
||
// 2: Cooling config [ cooling not supported,
|
||
// cooling supported]
|
||
// 3: DHW config [instantaneous or not-specified,
|
||
// storage tank]
|
||
// 4: Master low-off&pump control function [allowed,
|
||
// not allowed]
|
||
// 5: CH2 present [CH2 not present, CH2 present]
|
||
// 6: Remote water filling function
|
||
// 7: Heat/cool mode control
|
||
|
||
sendMQTTData(F("dhw_present"), (((OTdata.valueHB) & 0x01) ? "ON" : "OFF")); delayms(50);
|
||
sendMQTTData(F("control_type_modulation"), (((OTdata.valueHB) & 0x02) ? "ON" : "OFF")); delayms(50);
|
||
sendMQTTData(F("cooling_config"), (((OTdata.valueHB) & 0x04) ? "ON" : "OFF")); delayms(50);
|
||
sendMQTTData(F("dhw_config"), (((OTdata.valueHB) & 0x08) ? "ON" : "OFF")); delayms(50);
|
||
sendMQTTData(F("master_low_off_pump_control_function"), (((OTdata.valueHB) & 0x10) ? "ON" : "OFF")); delayms(50);
|
||
sendMQTTData(F("ch2_present"), (((OTdata.valueHB) & 0x20) ? "ON" : "OFF")); delayms(50);
|
||
sendMQTTData(F("remote_water_filling_function"), (((OTdata.valueHB) & 0x40) ? "ON" : "OFF")); delayms(50);
|
||
sendMQTTData(F("heat_cool_mode_control"), (((OTdata.valueHB) & 0x80) ? "ON" : "OFF")); delayms(50);
|
||
return OTdata.u16();
|
||
}
|
||
|
||
uint16_t print_mastermemberid()
|
||
{
|
||
PROGMEM_readAnything (&OTmap[OTdata.id], OTlookupitem);
|
||
OTGWDebugf("%s = Master Config[%s] MemberID code [%3d]\r\n", OTlookupitem.label, byte_to_binary(OTdata.valueHB), OTdata.valueLB);
|
||
//Build string for MQTT
|
||
char _msg[15] {0};
|
||
sendMQTTData(F("master_configuration"), byte_to_binary(OTdata.valueHB));
|
||
sendMQTTData(F("master_configuration_smart_power"), (((OTdata.valueHB) & 0x01) ? "ON" : "OFF"));
|
||
|
||
utoa(OTdata.valueLB, _msg, 10);
|
||
sendMQTTData(F("master_memberid_code"), _msg);
|
||
return OTdata.u16();
|
||
}
|
||
|
||
uint16_t print_vh_configmemberid()
|
||
{
|
||
PROGMEM_readAnything (&OTmap[OTdata.id], OTlookupitem);
|
||
OTGWDebugf("%s = VH Config[%s] MemberID code [%3d]\r\n", OTlookupitem.label, byte_to_binary(OTdata.valueHB), OTdata.valueLB);
|
||
//Build string for MQTT
|
||
char _msg[15] {0};
|
||
sendMQTTData(F("vh_configuration"), byte_to_binary(OTdata.valueHB)); delayms(50);
|
||
sendMQTTData(F("vh_configuration_system_type"), (((OTdata.valueHB) & 0x01) ? "ON" : "OFF")); delayms(50);
|
||
sendMQTTData(F("vh_configuration_bypass"), (((OTdata.valueHB) & 0x02) ? "ON" : "OFF")); delayms(50);
|
||
sendMQTTData(F("vh_configuration_speed_control"), (((OTdata.valueHB) & 0x04) ? "ON" : "OFF")); delayms(50);
|
||
|
||
utoa(OTdata.valueLB, _msg, 10);
|
||
sendMQTTData(F("vh_memberid_code"), _msg);
|
||
return OTdata.u16();
|
||
}
|
||
|
||
uint16_t print_solarstorage_slavememberid()
|
||
{
|
||
PROGMEM_readAnything (&OTmap[OTdata.id], OTlookupitem);
|
||
OTGWDebugf("%s = Solar Storage Slave Config[%s] MemberID code [%3d]\r\n", OTlookupitem.label, byte_to_binary(OTdata.valueHB), OTdata.valueLB);
|
||
//Build string for SendMQTT
|
||
sendMQTTData(F("solar_storage_slave_configuration"), byte_to_binary(OTdata.valueHB));
|
||
char _msg[15] {0};
|
||
utoa(OTdata.valueLB, _msg, 10);
|
||
sendMQTTData(F("solar_storage_slave_memberid_code"), _msg);
|
||
|
||
//ID103:HB0: Slave Configuration Solar Storage: System type1
|
||
sendMQTTData(F("solar_storage_system_type"), (((OTdata.valueHB) & 0x01) ? "ON" : "OFF"));
|
||
return OTdata.u16();
|
||
}
|
||
|
||
uint16_t print_flag8u8()
|
||
{
|
||
PROGMEM_readAnything (&OTmap[OTdata.id], OTlookupitem);
|
||
OTGWDebugf("%s = M[%s] - [%3d]\r\n", OTlookupitem.label, byte_to_binary(OTdata.valueHB), OTdata.valueLB);
|
||
//Build string for MQTT
|
||
char _topic[50] {0};
|
||
//flag8 value
|
||
strlcpy(_topic, messageIDToString(static_cast<OpenThermMessageID>(OTdata.id)), sizeof(_topic));
|
||
strlcat(_topic, "_flag8", sizeof(_topic));
|
||
sendMQTTData(_topic, byte_to_binary(OTdata.valueHB));
|
||
//u8 value
|
||
char _msg[15] {0};
|
||
utoa(OTdata.valueLB, _msg, 10);
|
||
strlcpy(_topic, messageIDToString(static_cast<OpenThermMessageID>(OTdata.id)), sizeof(_topic));
|
||
strlcat(_topic, "_code", sizeof(_topic));
|
||
sendMQTTData(_topic, _msg);
|
||
uint16_t _value = OTdata.u16();
|
||
return _value;
|
||
}
|
||
|
||
uint16_t print_flag8()
|
||
{
|
||
PROGMEM_readAnything (&OTmap[OTdata.id], OTlookupitem);
|
||
OTGWDebugf("%s = flag8 = [%s] - decimal = [%3d]\r\n", OTlookupitem.label, byte_to_binary(OTdata.valueLB), OTdata.valueLB);
|
||
|
||
//Build string for MQTT
|
||
char _topic[50] {0};
|
||
//flag8 value
|
||
strlcpy(_topic, messageIDToString(static_cast<OpenThermMessageID>(OTdata.id)), sizeof(_topic));
|
||
strlcat(_topic, "_flag8", sizeof(_topic));
|
||
sendMQTTData(_topic, byte_to_binary(OTdata.valueLB));
|
||
return OTdata.u16();
|
||
}
|
||
|
||
uint16_t print_flag8flag8()
|
||
{
|
||
//Build string for MQTT
|
||
char _topic[50] {0};
|
||
//flag8 valueHB
|
||
PROGMEM_readAnything (&OTmap[OTdata.id], OTlookupitem);
|
||
OTGWDebugf("%s = HB flag8[%s] -[%3d]\r\n", OTlookupitem.label, byte_to_binary(OTdata.valueHB), OTdata.valueHB);
|
||
strlcpy(_topic, messageIDToString(static_cast<OpenThermMessageID>(OTdata.id)), sizeof(_topic));
|
||
strlcat(_topic, "_hb_flag8", sizeof(_topic));
|
||
sendMQTTData(_topic, byte_to_binary(OTdata.valueHB));
|
||
//flag8 valueLB
|
||
OTGWDebugf("%s = LB flag8[%s] - [%3d]\r\n", OTlookupitem.label, byte_to_binary(OTdata.valueLB), OTdata.valueLB);
|
||
strlcpy(_topic, messageIDToString(static_cast<OpenThermMessageID>(OTdata.id)), sizeof(_topic));
|
||
strlcat(_topic, "_lb_flag8", sizeof(_topic));
|
||
sendMQTTData(_topic, byte_to_binary(OTdata.valueLB));
|
||
return OTdata.u16();
|
||
}
|
||
|
||
uint16_t print_vh_remoteparametersetting()
|
||
{
|
||
//Build string for MQTT
|
||
char _topic[50] {0};
|
||
//flag8 valueHB
|
||
PROGMEM_readAnything (&OTmap[OTdata.id], OTlookupitem);
|
||
OTGWDebugf("%s = HB flag8[%s] -[%3d]\r\n", OTlookupitem.label, byte_to_binary(OTdata.valueHB), OTdata.valueHB);
|
||
strlcpy(_topic, messageIDToString(static_cast<OpenThermMessageID>(OTdata.id)), sizeof(_topic));
|
||
strlcat(_topic, "_hb_flag8", sizeof(_topic));
|
||
sendMQTTData(_topic, byte_to_binary(OTdata.valueHB));
|
||
sendMQTTData(F("vh_tramfer_enble_nominal_ventlation_value"), (((OTdata.valueHB) & 0x01) ? "ON" : "OFF"));
|
||
//flag8 valueLB
|
||
OTGWDebugf("%s = LB flag8[%s] - [%3d]\r\n", OTlookupitem.label, byte_to_binary(OTdata.valueLB), OTdata.valueLB);
|
||
strlcpy(_topic, messageIDToString(static_cast<OpenThermMessageID>(OTdata.id)), sizeof(_topic));
|
||
strlcat(_topic, "_lb_flag8", sizeof(_topic));
|
||
sendMQTTData(_topic, byte_to_binary(OTdata.valueLB));
|
||
sendMQTTData(F("vh_rw_nominal_ventlation_value"), (((OTdata.valueLB) & 0x01) ? "ON" : "OFF"));
|
||
return OTdata.u16();
|
||
}
|
||
|
||
|
||
|
||
uint16_t print_command()
|
||
{
|
||
//Known Commands
|
||
// ID4 (HB=1): Remote Request Boiler Lockout-reset
|
||
// ID4 (HB=2): Remote Request Water filling
|
||
// ID4 (HB=10): Remote Request Service request reset
|
||
PROGMEM_readAnything (&OTmap[OTdata.id], OTlookupitem);
|
||
OTGWDebugf("%s = %3d / %3d %s\r\n", OTlookupitem.label, (uint8_t)OTdata.valueHB, (uint8_t)OTdata.valueLB, OTlookupitem.unit);
|
||
//Build string for MQTT
|
||
char _topic[50] {0};
|
||
char _msg[10] {0};
|
||
//flag8 valueHB
|
||
utoa((OTdata.valueHB), _msg, 10);
|
||
OTGWDebugf("%s = HB u8[%s] [%3d]\r\n", OTlookupitem.label, _msg, OTdata.valueHB);
|
||
strlcpy(_topic, messageIDToString(static_cast<OpenThermMessageID>(OTdata.id)), sizeof(_topic));
|
||
strlcat(_topic, "_hb_u8", sizeof(_topic));
|
||
sendMQTTData(_topic, _msg);
|
||
strlcpy(_topic, messageIDToString(static_cast<OpenThermMessageID>(OTdata.id)), sizeof(_topic));
|
||
strlcat(_topic, "_remote_command", sizeof(_topic));
|
||
switch (OTdata.valueHB) {
|
||
case 1: sendMQTTData(_topic, "Remote Request Boiler Lockout-reset"); OTGWDebugf("%s = remote command [%s]\r\n", OTlookupitem.label, "Remote Request Boiler Lockout-reset"); break;
|
||
case 2: sendMQTTData(_topic, "Remote Request Water filling"); OTGWDebugf("%s = remote command [%s]\r\n", OTlookupitem.label, "Remote Request Water filling"); break;
|
||
case 10: sendMQTTData(_topic, "Remote Request Service request reset"); OTGWDebugf("%s = remote command [%s]\r\n", OTlookupitem.label, "Remote Request Service request reset");break;
|
||
default: sendMQTTData(_topic, "Unknown command"); OTGWDebugf("%s = remote command [%s]\r\n", OTlookupitem.label, "Unknown command");break;
|
||
}
|
||
|
||
//flag8 valueLB
|
||
utoa((OTdata.valueLB), _msg, 10);
|
||
OTGWDebugf("%s = LB u8[%s] [%3d]\r\n", OTlookupitem.label, _msg, OTdata.valueLB);
|
||
strlcpy(_topic, messageIDToString(static_cast<OpenThermMessageID>(OTdata.id)), sizeof(_topic));
|
||
strlcat(_topic, "_lb_u8", sizeof(_topic));
|
||
sendMQTTData(_topic, _msg);
|
||
return OTdata.u16();
|
||
}
|
||
|
||
uint16_t print_u8u8()
|
||
{
|
||
PROGMEM_readAnything (&OTmap[OTdata.id], OTlookupitem);
|
||
OTGWDebugf("%s = %3d / %3d %s\r\n", OTlookupitem.label, (uint8_t)OTdata.valueHB, (uint8_t)OTdata.valueLB, OTlookupitem.unit);
|
||
//Build string for MQTT
|
||
char _topic[50] {0};
|
||
char _msg[10] {0};
|
||
//flag8 valueHB
|
||
utoa((OTdata.valueHB), _msg, 10);
|
||
OTGWDebugf("%s = HB u8[%s] [%3d]\r\n", OTlookupitem.label, _msg, OTdata.valueHB);
|
||
strlcpy(_topic, messageIDToString(static_cast<OpenThermMessageID>(OTdata.id)), sizeof(_topic));
|
||
strlcat(_topic, "_hb_u8", sizeof(_topic));
|
||
sendMQTTData(_topic, _msg);
|
||
//flag8 valueLB
|
||
utoa((OTdata.valueLB), _msg, 10);
|
||
OTGWDebugf("%s = LB u8[%s] [%3d]\r\n", OTlookupitem.label, _msg, OTdata.valueLB);
|
||
strlcpy(_topic, messageIDToString(static_cast<OpenThermMessageID>(OTdata.id)), sizeof(_topic));
|
||
strlcat(_topic, "_lb_u8", sizeof(_topic));
|
||
sendMQTTData(_topic, _msg);
|
||
return OTdata.u16();
|
||
}
|
||
|
||
uint16_t print_date()
|
||
{
|
||
PROGMEM_readAnything (&OTmap[OTdata.id], OTlookupitem);
|
||
OTGWDebugf("%s = %3d / %3d %s\r\n", OTlookupitem.label, (uint8_t)OTdata.valueHB, (uint8_t)OTdata.valueLB, OTlookupitem.unit);
|
||
//Build string for MQTT
|
||
char _topic[50] {0};
|
||
char _msg[10] {0};
|
||
//flag8 valueHB
|
||
utoa((OTdata.valueHB), _msg, 10);
|
||
OTGWDebugf("%s = HB u8[%s] [%3d]\r\n", OTlookupitem.label, _msg, OTdata.valueHB);
|
||
strlcpy(_topic, messageIDToString(static_cast<OpenThermMessageID>(OTdata.id)), sizeof(_topic));
|
||
strlcat(_topic, "_month", sizeof(_topic));
|
||
sendMQTTData(_topic, _msg);
|
||
//flag8 valueLB
|
||
utoa((OTdata.valueLB), _msg, 10);
|
||
OTGWDebugf("%s = LB u8[%s] [%3d]\r\n", OTlookupitem.label, _msg, OTdata.valueLB);
|
||
strlcpy(_topic, messageIDToString(static_cast<OpenThermMessageID>(OTdata.id)), sizeof(_topic));
|
||
strlcat(_topic, "_day_of_month", sizeof(_topic));
|
||
sendMQTTData(_topic, _msg);
|
||
return OTdata.u16();
|
||
}
|
||
|
||
uint16_t print_daytime()
|
||
{
|
||
//function to print data
|
||
const char *dayOfWeekName[] { "Unknown", "Monday", "Tuesday", "Wednesday", "Thursday", "Friday", "Saturday", "Sunday", "Unknown" };
|
||
PROGMEM_readAnything (&OTmap[OTdata.id], OTlookupitem);
|
||
OTGWDebugf("%s = %s - %2d:%2d\r\n", OTlookupitem.label, dayOfWeekName[(OTdata.valueHB >> 5) & 0x7], (OTdata.valueHB & 0x1F), OTdata.valueLB);
|
||
//Build string for MQTT
|
||
char _topic[50] {0};
|
||
char _msg[10] {0};
|
||
//dayofweek
|
||
strlcpy(_topic, messageIDToString(static_cast<OpenThermMessageID>(OTdata.id)), sizeof(_topic));
|
||
strlcat(_topic, "_dayofweek", sizeof(_topic));
|
||
sendMQTTData(_topic, dayOfWeekName[(OTdata.valueHB >> 5) & 0x7]);
|
||
//hour
|
||
strlcpy(_topic, messageIDToString(static_cast<OpenThermMessageID>(OTdata.id)), sizeof(_topic));
|
||
strlcat(_topic, "_hour", sizeof(_topic));
|
||
sendMQTTData(_topic, itoa((OTdata.valueHB & 0x0F), _msg, 10));
|
||
//min
|
||
strlcpy(_topic, messageIDToString(static_cast<OpenThermMessageID>(OTdata.id)), sizeof(_topic));
|
||
strlcat(_topic, "_minutes", sizeof(_topic));
|
||
sendMQTTData(_topic, itoa((OTdata.valueLB), _msg, 10));
|
||
return OTdata.u16();
|
||
}
|
||
|
||
|
||
//===================[ Command Queue implementatoin ]=============================
|
||
|
||
#define OTGW_CMD_RETRY 5
|
||
#define OTGW_CMD_INTERVAL_MS 5000
|
||
#define OTGW_DELAY_SEND_MS 1000
|
||
#define MAX_QUEUE_MSGSIZE 127
|
||
/*
|
||
addOTWGcmdtoqueue adds a command to the queue.
|
||
First it checks the queue, if the command is in the queue, it's updated.
|
||
Otherwise it's simply added to the queue, unless there are no free queue slots.
|
||
*/
|
||
void addOTWGcmdtoqueue(const char* buf, const int len, const bool force = false){
|
||
if ((len < 3) || (buf[2] != '=')){
|
||
//no valid command of less then 2 bytes
|
||
OTGWDebugT("CmdQueue: Error:Not a valid command=[");
|
||
for (int i = 0; i < len; i++) {
|
||
OTGWDebug((char)buf[i]);
|
||
}
|
||
OTGWDebugf("] (%d)\r\n", len);
|
||
}
|
||
|
||
//check to see if the cmd is in queue
|
||
bool foundcmd = false;
|
||
int8_t insertptr = cmdptr; //set insertprt to next empty slot
|
||
if (!force){
|
||
char cmd[2]; memset( cmd, 0, sizeof(cmd));
|
||
memcpy(cmd, buf, 2);
|
||
for (int i=0; i<cmdptr; i++){
|
||
if (strstr(cmdqueue[i].cmd, cmd)) {
|
||
//found cmd exists, set the inertptr to found slot
|
||
foundcmd = true;
|
||
insertptr = i;
|
||
break;
|
||
}
|
||
}
|
||
}
|
||
if (foundcmd) OTGWDebugTf("CmdQueue: Found cmd exists in slot [%d]\r\n", insertptr);
|
||
else OTGWDebugTf("CmdQueue: Adding cmd end of queue, slot [%d]\r\n", insertptr);
|
||
|
||
//insert to the queue
|
||
OTGWDebugTf("CmdQueue: Insert queue in slot[%d]:", insertptr);
|
||
OTGWDebug("cmd[");
|
||
for (int i = 0; i < len; i++) {
|
||
OTGWDebug((char)buf[i]);
|
||
}
|
||
OTGWDebugf("] (%d)\r\n", len);
|
||
|
||
//copy the command into the queue
|
||
int cmdlen = min((int)len , (int)(sizeof(cmdqueue[insertptr].cmd)-1));
|
||
memset(cmdqueue[insertptr].cmd, 0, cmdlen+1);
|
||
memcpy(cmdqueue[insertptr].cmd, buf, cmdlen);
|
||
cmdqueue[insertptr].cmdlen = cmdlen;
|
||
cmdqueue[insertptr].retrycnt = 0;
|
||
cmdqueue[insertptr].due = millis() + OTGW_DELAY_SEND_MS; //due right away
|
||
|
||
//if not found
|
||
if (!foundcmd) {
|
||
//if not reached max of queue
|
||
if (cmdptr < CMDQUEUE_MAX) {
|
||
cmdptr++; //next free slot
|
||
OTGWDebugTf("CmdQueue: Next free queue slot: [%d]\r\n", cmdptr);
|
||
} else OTGWDebugTln(F("CmdQueue: Error: Reached max queue"));
|
||
} else OTGWDebugTf("CmdQueue: Found command at: [%d] - [%d]\r\n", insertptr, cmdptr);
|
||
}
|
||
|
||
/*
|
||
handleOTGWqueue should be called every second from main loop.
|
||
This checks the queue for message are due to be resent.
|
||
If retry max is reached the cmd is delete from the queue
|
||
*/
|
||
void handleOTGWqueue(){
|
||
// OTGWDebugTf("CmdQueue: Commands in queue [%d]\r\n", (int)cmdptr);
|
||
for (int i = 0; i<cmdptr; i++) {
|
||
OTGWDebugTf("CmdQueue: Checking due in queue slot[%d]:[%lu]=>[%lu]\r\n", (int)i, (unsigned long)millis(), (unsigned long)cmdqueue[i].due);
|
||
if (millis() >= cmdqueue[i].due) {
|
||
OTGWDebugTf("CmdQueue: Queue slot [%d] due\r\n", i);
|
||
sendOTGW(cmdqueue[i].cmd, cmdqueue[i].cmdlen);
|
||
cmdqueue[i].retrycnt++;
|
||
cmdqueue[i].due = millis() + OTGW_CMD_INTERVAL_MS;
|
||
if (cmdqueue[i].retrycnt >= OTGW_CMD_RETRY){
|
||
//max retry reached, so delete command from queue
|
||
for (int j=i; j<cmdptr; j++){
|
||
OTGWDebugTf("CmdQueue: Moving [%d] => [%d]\r\n", j+1, j);
|
||
strlcpy(cmdqueue[j].cmd, cmdqueue[j+1].cmd, sizeof(cmdqueue[i].cmd));
|
||
cmdqueue[j].cmdlen = cmdqueue[j+1].cmdlen;
|
||
cmdqueue[j].retrycnt = cmdqueue[j+1].retrycnt;
|
||
cmdqueue[j].due = cmdqueue[j+1].due;
|
||
}
|
||
cmdptr--;
|
||
}
|
||
// //exit queue handling, after 1 command
|
||
// return;
|
||
}
|
||
}
|
||
}
|
||
|
||
/*
|
||
checkOTGWcmdqueue (buf, len)
|
||
This takes response from otgw and checks to see if the command was accepted.
|
||
Checks the response, and finds the command (if it's there).
|
||
Then checks if incoming response matches what was to be set.
|
||
Only then it's deleted from the queue.
|
||
*/
|
||
void checkOTGWcmdqueue(const char *buf, int len){
|
||
if ((len<3) || (buf[2]!=':')) {
|
||
OTGWDebugT("CmdQueue: Error: Not a command response [");
|
||
for (int i = 0; i < len; i++) {
|
||
OTGWDebug((char)buf[i]);
|
||
}
|
||
OTGWDebugf("] (%d)\r\n", len);
|
||
return; //not a valid command response
|
||
}
|
||
|
||
OTGWDebugT("CmdQueue: Checking if command is in in queue [");
|
||
for (int i = 0; i < len; i++) {
|
||
OTGWDebug((char)buf[i]);
|
||
}
|
||
OTGWDebugf("] (%d)\r\n", len);
|
||
|
||
char cmd[3]; memset( cmd, 0, sizeof(cmd));
|
||
char value[11]; memset( value, 0, sizeof(value));
|
||
memcpy(cmd, buf, 2);
|
||
memcpy(value, buf+3, (len-3<sizeof(value)-1)?(len-3):(sizeof(value)-1));
|
||
for (int i=0; i<cmdptr; i++){
|
||
OTGWDebugTf("CmdQueue: Checking [%2s]==>[%d]:[%s] from queue\r\n", cmd, i, cmdqueue[i].cmd);
|
||
if (strstr(cmdqueue[i].cmd, cmd)){
|
||
//command found, check value
|
||
OTGWDebugTf("CmdQueue: Found cmd [%2s]==>[%d]:[%s]\r\n", cmd, i, cmdqueue[i].cmd);
|
||
// if(strstr(cmdqueue[i].cmd, value)){
|
||
//value found, thus remove command from queue
|
||
OTGWDebugTf("CmdQueue: Found value [%s]==>[%d]:[%s]\r\n", value, i, cmdqueue[i].cmd);
|
||
OTGWDebugTf("CmdQueue: Remove from queue [%d]:[%s] from queue\r\n", i, cmdqueue[i].cmd);
|
||
for (int j=i; j<cmdptr; j++){
|
||
OTGWDebugTf("CmdQueue: Moving [%d] => [%d]\r\n", j+1, j);
|
||
strlcpy(cmdqueue[j].cmd, cmdqueue[j+1].cmd, sizeof(cmdqueue[i].cmd));
|
||
cmdqueue[j].cmdlen = cmdqueue[j+1].cmdlen;
|
||
cmdqueue[j].retrycnt = cmdqueue[j+1].retrycnt;
|
||
cmdqueue[j].due = cmdqueue[j+1].due;
|
||
}
|
||
cmdptr--;
|
||
// } else OTGWDebugTf("Error: Did not find value [%s]==>[%d]:[%s]\r\n", value, i, cmdqueue[i].cmd);
|
||
}
|
||
}
|
||
}
|
||
|
||
|
||
//===================[ Send buffer to OTGW ]=============================
|
||
/*
|
||
sendOTGW(const char* buf, int len) sends a string to the serial OTGW device.
|
||
The buffer is send out to OTGW on the serial device instantly, as long as there is space in the buffer.
|
||
*/
|
||
int sendOTGW(const char* buf, int len)
|
||
{
|
||
//Send the buffer to OTGW when the Serial interface is available
|
||
if (OTGWSerial.availableForWrite()>=len+2) {
|
||
//check the write buffer
|
||
//OTGWDebugf("Serial Write Buffer space = [%d] - needed [%d]\r\n",OTGWSerial.availableForWrite(), (len+2));
|
||
OTGWDebugT("Sending to Serial [");
|
||
for (int i = 0; i < len; i++) {
|
||
OTGWDebug((char)buf[i]);
|
||
}
|
||
OTGWDebug("] ("); OTGWDebug(len); OTGWDebug(")"); OTGWDebugln();
|
||
|
||
while (OTGWSerial.availableForWrite()==(len+2)) {
|
||
//cannot write, buffer full, wait for some space in serial out buffer
|
||
feedWatchDog(); //this yields for other processes
|
||
}
|
||
|
||
if (OTGWSerial.availableForWrite()>= (len+2)) {
|
||
//write buffer to serial
|
||
OTGWSerial.write(buf, len);
|
||
// OTGWSerial.write("PS=0\r\n");
|
||
OTGWSerial.write('\r');
|
||
OTGWSerial.write('\n');
|
||
OTGWSerial.flush();
|
||
} else OTGWDebugln("Error: Write buffer not big enough!");
|
||
} else OTGWDebugln("Error: Serial device not found!");
|
||
}
|
||
|
||
/*
|
||
This function checks if the string received is a valid "raw OT message".
|
||
Raw OTmessages are 9 chars long and start with TBARE when talking to OTGW PIC.
|
||
Message is not an OTmessage if length is not 9 long OR 3th char is ':' (= OTGW command response)
|
||
*/
|
||
bool isvalidotmsg(const char *buf, int len){
|
||
char *chk = "TBARE";
|
||
bool _ret = (len==9); //check 9 chars long
|
||
_ret &= (buf[2]!=':'); //not a otgw command response
|
||
_ret &= (strchr(chk, buf[0])!=NULL); //1 char matches any of 'B', 'T', 'A', 'R' or 'E'
|
||
return _ret;
|
||
}
|
||
|
||
/*
|
||
Process OTGW messages coming from the PIC.
|
||
It knows about:
|
||
- raw OTmsg format
|
||
- error format
|
||
- ...
|
||
*/
|
||
void processOTGW(const char *buf, int len){
|
||
static timer_t epochBoilerlastseen = 0;
|
||
static timer_t epochThermostatlastseen = 0;
|
||
static bool bOTGWboilerpreviousstate = false;
|
||
static bool bOTGWthermostatpreviousstate = false;
|
||
static bool bOTGWpreviousstate = false;
|
||
|
||
if (isvalidotmsg(buf, len)) {
|
||
//OT protocol messages are 9 chars long
|
||
if (settingMQTTOTmessage) sendMQTTData(F("otmessage"), buf);
|
||
|
||
//counter of number of OT messages processed
|
||
// static int32_t cntOTmessagesprocessed = 0;
|
||
// cntOTmessagesprocessed++;
|
||
// char _msg[15] {0};
|
||
// sendMQTTData(F("otmsg_count"), itoa(cntOTmessagesprocessed, _msg, 10));
|
||
|
||
// source of otmsg
|
||
if (buf[0]=='B')
|
||
{
|
||
OTGWDebugT("Boiler ");
|
||
epochBoilerlastseen = now();
|
||
} else if (buf[0]=='T')
|
||
{
|
||
OTGWDebugT("Thermostat ");
|
||
epochThermostatlastseen = now();
|
||
} else if (buf[0]=='R')
|
||
{
|
||
OTGWDebugT("Request Boiler ");
|
||
epochBoilerlastseen = now();
|
||
} else if (buf[0]=='A')
|
||
{
|
||
OTGWDebugT("Answer Themostat ");
|
||
epochThermostatlastseen = now();
|
||
} else if (buf[0]=='E')
|
||
{
|
||
OTGWDebugT("Parity error ");
|
||
}
|
||
|
||
//If the Boiler or Thermostat messages have not been seen for 30 seconds, then set the state to false.
|
||
bOTGWboilerstate = (now() < (epochBoilerlastseen+30));
|
||
if (bOTGWboilerstate != bOTGWboilerpreviousstate) {
|
||
sendMQTTData(F("otgw-pic/boiler_connected"), CBOOLEAN(bOTGWboilerstate));
|
||
bOTGWboilerpreviousstate = bOTGWboilerstate;
|
||
}
|
||
bOTGWthermostatstate = (now() < (epochThermostatlastseen+30));
|
||
if (bOTGWthermostatstate != bOTGWthermostatpreviousstate) {
|
||
sendMQTTData(F("otgw-pic/thermostat_connected"), CBOOLEAN(bOTGWthermostatstate));
|
||
bOTGWthermostatpreviousstate = bOTGWthermostatstate;
|
||
}
|
||
//If either Boiler or Thermostat is offline, then the OTGW is considered offline as a whole.
|
||
bOTGWonline = bOTGWboilerstate && bOTGWthermostatstate;
|
||
if (bOTGWonline != bOTGWpreviousstate) {
|
||
sendMQTTData(F("otgw-pic/pic_connected"), CBOOLEAN(bOTGWonline));
|
||
sendMQTT(CSTR(MQTTPubNamespace), CBOOLEAN(bOTGWonline));
|
||
// nodeMCU online/offline zelf naar 'otgw-firmware/' pushen
|
||
bOTGWpreviousstate = bOTGWonline; //remember state, so we can detect statechanges
|
||
}
|
||
|
||
const char *bufval = buf + 1;
|
||
//uint32_t value = strtoul(bufval, NULL, 16);
|
||
uint32_t value = 0;
|
||
sscanf(bufval, "%8x", &value);
|
||
|
||
//print OTmessage to debug
|
||
char otmsg[15]={0};
|
||
memcpy(otmsg, buf, len);
|
||
OTGWDebugf("%s (%d)", otmsg, len);
|
||
OTGWDebugf("[%08x]", value);
|
||
|
||
//split 32bit value into the relevant OT protocol parts
|
||
OTdata.type = (value >> 28) & 0x7; // byte 1 = take 3 bits that define msg msgType
|
||
OTdata.masterslave = (OTdata.type >> 2) & 0x1; // MSB from type --> 0 = master and 1 = slave
|
||
OTdata.id = (value >> 16) & 0xFF; // byte 2 = message id 8 bits
|
||
OTdata.valueHB = (value >> 8) & 0xFF; // byte 3 = high byte
|
||
OTdata.valueLB = value & 0xFF; // byte 4 = low byte
|
||
|
||
//print message frame
|
||
//OTGWDebugf("\ttype[%3d] id[%3d] hb[%3d] lb[%3d]\t", OTdata.type, OTdata.id, OTdata.valueHB, OTdata.valueLB);
|
||
//print message Type and ID
|
||
OTGWDebugf("[MsgID=%3d]", OTdata.id);
|
||
OTGWDebugf("[%-16s]", messageTypeToString(static_cast<OpenThermMessageType>(OTdata.type)));
|
||
OTGWDebugf("[%-30s]", messageIDToString(static_cast<OpenThermMessageID>(OTdata.id)));
|
||
// OTGWDebugf("[M=%d]",OTdata.master);
|
||
OTGWDebug("\t");
|
||
|
||
//keep track of update
|
||
msglastupdated[OTdata.id] = now();
|
||
|
||
//Read information from this OT message ready for use...
|
||
PROGMEM_readAnything (&OTmap[OTdata.id], OTlookupitem);
|
||
|
||
//next step interpret the OT protocol
|
||
//On OT_WRITE_ACK or READ_ACK, or, status msgid's, then parse.
|
||
|
||
if ((static_cast<OpenThermMessageType>(OTdata.type) == OT_READ_ACK) && ((OTlookupitem.msg == OT_READ) || (OTlookupitem.msg == OT_RW)) ||
|
||
(static_cast<OpenThermMessageType>(OTdata.type) == OT_WRITE_ACK) && ((OTlookupitem.msg == OT_WRITE) || (OTlookupitem.msg == OT_RW)) ||
|
||
(static_cast<OpenThermMessageID>(OTdata.id) == OT_Statusflags) ||
|
||
(static_cast<OpenThermMessageID>(OTdata.id) == OT_StatusVH) ||
|
||
(static_cast<OpenThermMessageID>(OTdata.id) == OT_SolarStorageMaster)) {
|
||
|
||
//#define OTprint(data, value, text, format) ({ data= value; OTGWDebugf("[%37s]", text); OTGWDebugf("= [format]", data)})
|
||
//interpret values f8.8
|
||
|
||
switch (static_cast<OpenThermMessageID>(OTdata.id)) {
|
||
case OT_Statusflags: OTdataObject.Statusflags = print_status(); break;
|
||
case OT_TSet: OTdataObject.TSet = print_f88(); break;
|
||
case OT_CoolingControl: OTdataObject.CoolingControl = print_f88(); break;
|
||
case OT_TsetCH2: OTdataObject.TsetCH2 = print_f88(); break;
|
||
case OT_TrOverride: OTdataObject.TrOverride = print_f88(); break;
|
||
case OT_MaxRelModLevelSetting: OTdataObject.MaxRelModLevelSetting = print_f88(); break;
|
||
case OT_TrSet: OTdataObject.TrSet = print_f88(); break;
|
||
case OT_TrSetCH2: OTdataObject.TrSetCH2 = print_f88(); break;
|
||
case OT_RelModLevel: OTdataObject.RelModLevel = print_f88(); break;
|
||
case OT_CHPressure: OTdataObject.CHPressure = print_f88(); break;
|
||
case OT_DHWFlowRate: OTdataObject.DHWFlowRate = print_f88(); break;
|
||
case OT_Tr: OTdataObject.Tr = print_f88(); break;
|
||
case OT_Tboiler: OTdataObject.Tboiler = print_f88(); break;
|
||
case OT_Tdhw: OTdataObject.Tdhw = print_f88(); break;
|
||
case OT_Toutside: OTdataObject.Toutside = print_f88(); break;
|
||
case OT_Tret: OTdataObject.Tret = print_f88(); break;
|
||
case OT_Tsolarstorage: OTdataObject.Tsolarstorage = print_f88(); break;
|
||
case OT_Tsolarcollector: OTdataObject.Tsolarcollector = print_s16(); break;
|
||
case OT_TflowCH2: OTdataObject.TflowCH2 = print_f88(); break;
|
||
case OT_Tdhw2: OTdataObject.Tdhw2 = print_f88(); break;
|
||
case OT_Texhaust: OTdataObject.Texhaust = print_s16(); break;
|
||
case OT_TdhwSet: OTdataObject.TdhwSet = print_f88(); break;
|
||
case OT_MaxTSet: OTdataObject.MaxTSet = print_f88(); break;
|
||
case OT_Hcratio: OTdataObject.Hcratio = print_f88(); break;
|
||
case OT_OpenThermVersionMaster: OTdataObject.OpenThermVersionMaster = print_f88(); break;
|
||
case OT_OpenThermVersionSlave: OTdataObject.OpenThermVersionSlave = print_f88(); break;
|
||
case OT_ASFflags: OTdataObject.ASFflags = print_ASFflags(); break;
|
||
case OT_MasterConfigMemberIDcode: OTdataObject.MasterConfigMemberIDcode = print_mastermemberid(); break;
|
||
case OT_SlaveConfigMemberIDcode: OTdataObject.SlaveConfigMemberIDcode = print_slavememberid(); break;
|
||
case OT_Command: OTdataObject.Command = print_command(); break;
|
||
case OT_RBPflags: OTdataObject.RBPflags = print_RBPflags(); break;
|
||
case OT_TSP: OTdataObject.TSP = print_u8u8(); break;
|
||
case OT_TSPindexTSPvalue: OTdataObject.TSPindexTSPvalue = print_u8u8(); break;
|
||
case OT_FHBsize: OTdataObject.FHBsize = print_u8u8(); break;
|
||
case OT_FHBindexFHBvalue: OTdataObject.FHBindexFHBvalue = print_u8u8(); break;
|
||
case OT_MaxCapacityMinModLevel: OTdataObject.MaxCapacityMinModLevel = print_u8u8(); break;
|
||
case OT_DayTime: OTdataObject.DayTime = print_daytime(); break;
|
||
case OT_Date: OTdataObject.Date = print_date(); break;
|
||
case OT_Year: OTdataObject.Year = print_u16(); break;
|
||
case OT_TdhwSetUBTdhwSetLB: OTdataObject.TdhwSetUBTdhwSetLB = print_s8s8(); break;
|
||
case OT_MaxTSetUBMaxTSetLB: OTdataObject.MaxTSetUBMaxTSetLB = print_s8s8(); break;
|
||
case OT_HcratioUBHcratioLB: OTdataObject.HcratioUBHcratioLB = print_s8s8(); break;
|
||
case OT_RemoteOverrideFunction: OTdataObject.RemoteOverrideFunction= print_flag8(); break;
|
||
case OT_OEMDiagnosticCode: OTdataObject.OEMDiagnosticCode = print_u16(); break;
|
||
case OT_BurnerStarts: OTdataObject.BurnerStarts = print_u16(); break;
|
||
case OT_CHPumpStarts: OTdataObject.CHPumpStarts = print_u16(); break;
|
||
case OT_DHWPumpValveStarts: OTdataObject.DHWPumpValveStarts = print_u16(); break;
|
||
case OT_DHWBurnerStarts: OTdataObject.DHWBurnerStarts = print_u16(); break;
|
||
case OT_BurnerOperationHours: OTdataObject.BurnerOperationHours = print_u16(); break;
|
||
case OT_CHPumpOperationHours: OTdataObject.CHPumpOperationHours = print_u16(); break;
|
||
case OT_DHWPumpValveOperationHours: OTdataObject.DHWPumpValveOperationHours = print_u16(); break;
|
||
case OT_DHWBurnerOperationHours: OTdataObject.DHWBurnerOperationHours = print_u16(); break;
|
||
case OT_MasterVersion: OTdataObject.MasterVersion = print_u8u8(); break;
|
||
case OT_SlaveVersion: OTdataObject.SlaveVersion = print_u8u8(); break;
|
||
case OT_StatusVH: OTdataObject.StatusVH = print_statusVH(); break;
|
||
case OT_ControlSetpointVH: OTdataObject.ControlSetpointVH = print_u8u8(); break;
|
||
case OT_ASFFaultCodeVH: OTdataObject.ASFFaultCodeVH = print_flag8u8(); break;
|
||
case OT_DiagnosticCodeVH: OTdataObject.DiagnosticCodeVH = print_u16(); break;
|
||
case OT_ConfigMemberIDVH: OTdataObject.ConfigMemberIDVH = print_vh_configmemberid(); break;
|
||
case OT_OpenthermVersionVH: OTdataObject.OpenthermVersionVH = print_f88(); break;
|
||
case OT_VersionTypeVH: OTdataObject.VersionTypeVH = print_u8u8(); break;
|
||
case OT_RelativeVentilation: OTdataObject.RelativeVentilation = print_u8u8(); break;
|
||
case OT_RelativeHumidityExhaustAir: OTdataObject.RelativeHumidityExhaustAir = print_u8u8(); break;
|
||
case OT_CO2LevelExhaustAir: OTdataObject.CO2LevelExhaustAir = print_u16(); break;
|
||
case OT_SupplyInletTemperature: OTdataObject.SupplyInletTemperature = print_f88(); break;
|
||
case OT_SupplyOutletTemperature: OTdataObject.SupplyOutletTemperature = print_f88(); break;
|
||
case OT_ExhaustInletTemperature: OTdataObject.ExhaustInletTemperature = print_f88(); break;
|
||
case OT_ExhaustOutletTemperature: OTdataObject.ExhaustOutletTemperature = print_f88(); break;
|
||
case OT_ActualExhaustFanSpeed: OTdataObject.ActualExhaustFanSpeed = print_u16(); break;
|
||
case OT_ActualSupplyFanSpeed: OTdataObject.ActualSupplyFanSpeed = print_u16(); break;
|
||
case OT_RemoteParameterSettingVH: OTdataObject.RemoteParameterSettingVH = print_vh_remoteparametersetting(); break;
|
||
case OT_NominalVentilationValue: OTdataObject.NominalVentilationValue = print_u8u8(); break;
|
||
case OT_TSPNumberVH: OTdataObject.TSPNumberVH = print_u8u8(); break;
|
||
case OT_TSPEntryVH: OTdataObject.TSPEntryVH = print_u8u8(); break;
|
||
case OT_FaultBufferSizeVH: OTdataObject.FaultBufferSizeVH = print_u8u8(); break;
|
||
case OT_FaultBufferEntryVH: OTdataObject.FaultBufferEntryVH = print_u8u8(); break;
|
||
case OT_FanSpeed: OTdataObject.FanSpeed = print_u16(); break;
|
||
case OT_ElectricalCurrentBurnerFlame: OTdataObject.ElectricalCurrentBurnerFlame = print_f88(); break;
|
||
case OT_TRoomCH2: OTdataObject.TRoomCH2 = print_f88(); break;
|
||
case OT_RelativeHumidity: OTdataObject.RelativeHumidity = print_u8u8(); break;
|
||
case OT_RFstrengthbatterylevel: OTdataObject.RFstrengthbatterylevel = print_u8u8(); break;
|
||
case OT_OperatingMode_HC1_HC2_DHW: OTdataObject.OperatingMode_HC1_HC2_DHW = print_u8u8(); break;
|
||
case OT_ElectricityProducerStarts: OTdataObject.ElectricityProducerStarts = print_u16(); break;
|
||
case OT_ElectricityProducerHours: OTdataObject.ElectricityProducerHours = print_u16(); break;
|
||
case OT_ElectricityProduction: OTdataObject.ElectricityProduction = print_u16(); break;
|
||
case OT_CumulativElectricityProduction:OTdataObject.CumulativElectricityProduction = print_u16(); break;
|
||
case OT_RemehadFdUcodes: OTdataObject.RemehadFdUcodes = print_u8u8(); break;
|
||
case OT_RemehaServicemessage: OTdataObject.RemehaServicemessage = print_u8u8(); break;
|
||
case OT_RemehaDetectionConnectedSCU: OTdataObject.RemehaDetectionConnectedSCU = print_u8u8(); break;
|
||
case OT_SolarStorageMaster: OTdataObject.SolarStorageStatus = print_solar_storage_status(); break;
|
||
case OT_SolarStorageASFflags: OTdataObject.SolarStorageASFflags = print_flag8u8(); break;
|
||
case OT_SolarStorageSlaveConfigMemberIDcode: OTdataObject.SolarStorageSlaveConfigMemberIDcode=print_solarstorage_slavememberid(); break;
|
||
case OT_SolarStorageVersionType: OTdataObject.SolarStorageVersionType = print_u8u8(); break;
|
||
case OT_SolarStorageTSP: OTdataObject.SolarStorageTSP = print_u8u8(); break;
|
||
case OT_SolarStorageTSPindexTSPvalue: OTdataObject.SolarStorageTSPindexTSPvalue = print_u8u8(); break;
|
||
case OT_SolarStorageFHBsize: OTdataObject.SolarStorageFHBsize = print_u8u8(); break;
|
||
case OT_SolarStorageFHBindexFHBvalue: OTdataObject.SolarStorageFHBindexFHBvalue = print_u8u8(); break;
|
||
case OT_BurnerUnsuccessfulStarts: OTdataObject.BurnerUnsuccessfulStarts = print_u16(); break;
|
||
case OT_FlameSignalTooLow: OTdataObject.FlameSignalTooLow = print_u16(); break;
|
||
default: DebugTf("Unknown message [%02d] value [%04X]\r\n"); break;
|
||
}
|
||
} else OTGWDebugf("hb[%3d] lb[%3d]\r\n", OTdata.valueHB, OTdata.valueLB);
|
||
} else if (buf[2]==':') { //seems to be a response to a command, so check to verify if it was
|
||
checkOTGWcmdqueue(buf, len);
|
||
} else if (strstr(buf, "Error 01")!= NULL) {
|
||
OTdataObject.error01++;
|
||
OTGWDebugTf("Error 01 = %d\r\n",OTdataObject.error01);
|
||
sendMQTTData(F("Error 01"), String(OTdataObject.error01));
|
||
} else if (strstr(buf, "Error 02")!= NULL) {
|
||
OTdataObject.error02++;
|
||
OTGWDebugTf("Error 02 = %d\r\n",OTdataObject.error02);
|
||
sendMQTTData(F("Error 02"), String(OTdataObject.error02));
|
||
} else if (strstr(buf, "Error 03")!= NULL) {
|
||
OTdataObject.error03++;
|
||
OTGWDebugTf("Error 03 = %d\r\n",OTdataObject.error03);
|
||
sendMQTTData(F("Error 03"), String(OTdataObject.error03));
|
||
} else if (strstr(buf, "Error 04")!= NULL){
|
||
OTdataObject.error04++;
|
||
OTGWDebugTf("Error 04 = %d\r\n",OTdataObject.error04);
|
||
sendMQTTData(F("Error 04"), String(OTdataObject.error04));
|
||
} else OTGWDebugTf("Not processed, received from OTGW => [%s] [%d]\r\n", buf, len);
|
||
|
||
}
|
||
|
||
|
||
//====================[ HandleOTGW ]====================
|
||
/*
|
||
** This is the core of the OTGW firmware.
|
||
** This code basically reads from serial, connected to the OTGW hardware, and
|
||
** processes each OT message coming. It can also be used to send data into the
|
||
** OpenTherm Gateway.
|
||
**
|
||
** The main purpose is to read each OT Msg (9 bytes), or anything that comes
|
||
** from the OTGW hardware firmware. Default it assumes raw OT messages, however
|
||
** it can handle the other messages to, like PS=1/PS=0 etc.
|
||
**
|
||
** Also, this code bit implements the serial 2 network (port 25238). The serial port
|
||
** is forwarded to port 25238, and visavera. So you can use it with OTmonitor (the
|
||
** original OpenTherm program that comes with the hardware). The serial port and
|
||
** ser2net port 25238 are both "line read" into the read buffer (coming from OTGW
|
||
** thru serial) and write buffer (coming from 25238 going to serial).
|
||
**
|
||
** The write buffer (incoming from port 25238) is also line printed to the Debug (port 23).
|
||
** The read line buffer is per line parsed by the proces OT parser code (processOTGW (buf, len)).
|
||
*/
|
||
void handleOTGW()
|
||
{
|
||
//handle serial communication and line processing
|
||
#define MAX_BUFFER_READ 256
|
||
#define MAX_BUFFER_WRITE 128
|
||
static char sRead[MAX_BUFFER_READ];
|
||
static char sWrite[MAX_BUFFER_WRITE];
|
||
static size_t bytes_read = 0;
|
||
static size_t bytes_write = 0;
|
||
static uint8_t inByte;
|
||
static uint8_t outByte;
|
||
|
||
//handle incoming data from network (port 25238) sent to serial port OTGW (WRITE BUFFER)
|
||
while (OTGWstream.available()){
|
||
//OTGWSerial.write(OTGWstream.read()); //just forward it directly to Serial
|
||
outByte = OTGWstream.read(); // read from port 25238
|
||
while (OTGWSerial.availableForWrite()==0) {
|
||
//cannot write, buffer full, wait for some space in serial out buffer
|
||
feedWatchDog(); //this yields for other processes
|
||
}
|
||
OTGWSerial.write(outByte); // write to serial port
|
||
OTGWSerial.flush(); // wait for write to serial
|
||
if (outByte == '\r')
|
||
{ //on CR, do something...
|
||
sWrite[bytes_write] = 0;
|
||
OTGWDebugTf("Net2Ser: Sending to OTGW: [%s] (%d)\r\n", sWrite, bytes_write);
|
||
//check for reset command
|
||
if (stricmp(sWrite, "GW=R")==0){
|
||
//detected [GW=R], then reset the gateway the gpio way
|
||
OTGWDebugTln(F("Detected: GW=R. Reset gateway command executed."));
|
||
resetOTGW();
|
||
} else if (stricmp(sWrite, "PS=1")==0) {
|
||
//detected [PS=1], then PrintSummary mode = true --> From this point on you need to ask for summary.
|
||
bPrintSummarymode = true;
|
||
//reset all msglastupdated in webui
|
||
for(int i = 0; i <= OT_MSGID_MAX; i++){
|
||
msglastupdated[i] = 0; //clear epoch values
|
||
}
|
||
sMessage = "PS=1 mode; No UI updates.";
|
||
} else if (stricmp(sWrite, "PS=0")==0) {
|
||
//detected [PS=0], then PrintSummary mode = OFF --> Raw mode is turned on again.
|
||
bPrintSummarymode = false;
|
||
sMessage = "";
|
||
}
|
||
bytes_write = 0; //start next line
|
||
} else if (outByte == '\n')
|
||
{
|
||
// on LF, skip
|
||
}
|
||
else
|
||
{
|
||
if (bytes_write < (MAX_BUFFER_WRITE-1))
|
||
sWrite[bytes_write++] = outByte;
|
||
}
|
||
}
|
||
|
||
//Handle incoming data from OTGW through serial port (READ BUFFER)
|
||
while(OTGWSerial.available())
|
||
{
|
||
inByte = OTGWSerial.read(); // read from serial port
|
||
OTGWstream.write(inByte); // write to port 25238
|
||
if (inByte== '\r')
|
||
{ //on CR, continue to process incoming message
|
||
sRead[bytes_read] = 0;
|
||
blinkLEDnow(LED2);
|
||
processOTGW(sRead, bytes_read);
|
||
bytes_read = 0;
|
||
break; // to continue processing incoming message
|
||
}
|
||
else if (inByte == '\n')
|
||
{ // on LF, just ignore...
|
||
}
|
||
else
|
||
{
|
||
if (bytes_read < (MAX_BUFFER_READ-1))
|
||
sRead[bytes_read++] = inByte;
|
||
}
|
||
}
|
||
}// END of handleOTGW
|
||
|
||
//====================[ functions for REST API ]====================
|
||
String getOTGWValue(int msgid)
|
||
{
|
||
switch (static_cast<OpenThermMessageID>(msgid)) {
|
||
case OT_TSet: return String(OTdataObject.TSet); break;
|
||
case OT_CoolingControl: return String(OTdataObject.CoolingControl); break;
|
||
case OT_TsetCH2: return String(OTdataObject.TsetCH2); break;
|
||
case OT_TrOverride: return String(OTdataObject.TrOverride); break;
|
||
case OT_MaxRelModLevelSetting: return String(OTdataObject.MaxRelModLevelSetting); break;
|
||
case OT_TrSet: return String(OTdataObject.TrSet); break;
|
||
case OT_TrSetCH2: return String(OTdataObject.TrSetCH2); break;
|
||
case OT_RelModLevel: return String(OTdataObject.RelModLevel); break;
|
||
case OT_CHPressure: return String(OTdataObject.CHPressure); break;
|
||
case OT_DHWFlowRate: return String(OTdataObject.DHWFlowRate); break;
|
||
case OT_Tr: return String(OTdataObject.Tr); break;
|
||
case OT_Tboiler: return String(OTdataObject.Tboiler); break;
|
||
case OT_Tdhw: return String(OTdataObject.Tdhw); break;
|
||
case OT_Toutside: return String(OTdataObject.Toutside); break;
|
||
case OT_Tret: return String(OTdataObject.Tret); break;
|
||
case OT_Tsolarstorage: return String(OTdataObject.Tsolarstorage); break;
|
||
case OT_Tsolarcollector: return String(OTdataObject.Tsolarcollector); break;
|
||
case OT_TflowCH2: return String(OTdataObject.TflowCH2); break;
|
||
case OT_Tdhw2: return String(OTdataObject.Tdhw2); break;
|
||
case OT_Texhaust: return String(OTdataObject.Texhaust); break;
|
||
case OT_TdhwSet: return String(OTdataObject.TdhwSet); break;
|
||
case OT_MaxTSet: return String(OTdataObject.MaxTSet); break;
|
||
case OT_Hcratio: return String(OTdataObject.Hcratio); break;
|
||
case OT_OpenThermVersionMaster: return String(OTdataObject.OpenThermVersionMaster); break;
|
||
case OT_OpenThermVersionSlave: return String(OTdataObject.OpenThermVersionSlave); break;
|
||
case OT_Statusflags: return String(OTdataObject.Statusflags); break;
|
||
case OT_ASFflags: return String(OTdataObject.ASFflags); break;
|
||
case OT_MasterConfigMemberIDcode: return String(OTdataObject.MasterConfigMemberIDcode); break;
|
||
case OT_SlaveConfigMemberIDcode: return String(OTdataObject.SlaveConfigMemberIDcode); break;
|
||
case OT_Command: return String(OTdataObject.Command); break;
|
||
case OT_RBPflags: return String(OTdataObject.RBPflags); break;
|
||
case OT_TSP: return String(OTdataObject.TSP); break;
|
||
case OT_TSPindexTSPvalue: return String(OTdataObject.TSPindexTSPvalue); break;
|
||
case OT_FHBsize: return String(OTdataObject.FHBsize); break;
|
||
case OT_FHBindexFHBvalue: return String(OTdataObject.FHBindexFHBvalue); break;
|
||
case OT_MaxCapacityMinModLevel: return String(OTdataObject.MaxCapacityMinModLevel); break;
|
||
case OT_DayTime: return String(OTdataObject.DayTime); break;
|
||
case OT_Date: return String(OTdataObject.Date); break;
|
||
case OT_Year: return String(OTdataObject.Year); break;
|
||
case OT_TdhwSetUBTdhwSetLB: return String(OTdataObject.TdhwSetUBTdhwSetLB); break;
|
||
case OT_MaxTSetUBMaxTSetLB: return String(OTdataObject.MaxTSetUBMaxTSetLB); break;
|
||
case OT_HcratioUBHcratioLB: return String(OTdataObject.HcratioUBHcratioLB); break;
|
||
case OT_RemoteOverrideFunction: return String(OTdataObject.RemoteOverrideFunction); break;
|
||
case OT_OEMDiagnosticCode: return String(OTdataObject.OEMDiagnosticCode); break;
|
||
case OT_BurnerStarts: return String(OTdataObject.BurnerStarts); break;
|
||
case OT_CHPumpStarts: return String(OTdataObject.CHPumpStarts); break;
|
||
case OT_DHWPumpValveStarts: return String(OTdataObject.DHWPumpValveStarts); break;
|
||
case OT_DHWBurnerStarts: return String(OTdataObject.DHWBurnerStarts); break;
|
||
case OT_BurnerOperationHours: return String(OTdataObject.BurnerOperationHours); break;
|
||
case OT_CHPumpOperationHours: return String(OTdataObject.CHPumpOperationHours); break;
|
||
case OT_DHWPumpValveOperationHours: return String(OTdataObject.DHWPumpValveOperationHours); break;
|
||
case OT_DHWBurnerOperationHours: return String(OTdataObject.DHWBurnerOperationHours); break;
|
||
case OT_MasterVersion: return String(OTdataObject.MasterVersion); break;
|
||
case OT_SlaveVersion: return String(OTdataObject.SlaveVersion); break;
|
||
case OT_StatusVH: return String(OTdataObject.StatusVH); break;
|
||
case OT_ControlSetpointVH: return String(OTdataObject.ControlSetpointVH); break;
|
||
case OT_ASFFaultCodeVH: return String(OTdataObject.ASFFaultCodeVH); break;
|
||
case OT_DiagnosticCodeVH: return String(OTdataObject.DiagnosticCodeVH); break;
|
||
case OT_ConfigMemberIDVH: return String(OTdataObject.ConfigMemberIDVH); break;
|
||
case OT_OpenthermVersionVH: return String(OTdataObject.OpenthermVersionVH); break;
|
||
case OT_VersionTypeVH: return String(OTdataObject.VersionTypeVH); break;
|
||
case OT_RelativeVentilation: return String(OTdataObject.RelativeVentilation); break;
|
||
case OT_RelativeHumidityExhaustAir: return String(OTdataObject.RelativeHumidityExhaustAir); break;
|
||
case OT_CO2LevelExhaustAir: return String(OTdataObject.CO2LevelExhaustAir); break;
|
||
case OT_SupplyInletTemperature: return String(OTdataObject.SupplyInletTemperature); break;
|
||
case OT_SupplyOutletTemperature: return String(OTdataObject.SupplyOutletTemperature); break;
|
||
case OT_ExhaustInletTemperature: return String(OTdataObject.ExhaustInletTemperature); break;
|
||
case OT_ExhaustOutletTemperature: return String(OTdataObject.ExhaustOutletTemperature); break;
|
||
case OT_ActualExhaustFanSpeed: return String(OTdataObject.ActualExhaustFanSpeed); break;
|
||
case OT_ActualSupplyFanSpeed: return String(OTdataObject.ActualSupplyFanSpeed); break;
|
||
case OT_RemoteParameterSettingVH: return String(OTdataObject.RemoteParameterSettingVH); break;
|
||
case OT_NominalVentilationValue: return String(OTdataObject.NominalVentilationValue); break;
|
||
case OT_TSPNumberVH: return String(OTdataObject.TSPNumberVH); break;
|
||
case OT_TSPEntryVH: return String(OTdataObject.TSPEntryVH); break;
|
||
case OT_FaultBufferSizeVH: return String(OTdataObject.FaultBufferSizeVH); break;
|
||
case OT_FaultBufferEntryVH: return String(OTdataObject.FaultBufferEntryVH); break;
|
||
case OT_FanSpeed: return String(OTdataObject.FanSpeed); break;
|
||
case OT_ElectricalCurrentBurnerFlame: return String(OTdataObject.ElectricalCurrentBurnerFlame); break;
|
||
case OT_TRoomCH2: return String(OTdataObject.TRoomCH2); break;
|
||
case OT_RelativeHumidity: return String(OTdataObject.RelativeHumidity); break;
|
||
case OT_RFstrengthbatterylevel: return String(OTdataObject.RFstrengthbatterylevel); break;
|
||
case OT_OperatingMode_HC1_HC2_DHW: return String(OTdataObject.OperatingMode_HC1_HC2_DHW); break;
|
||
case OT_ElectricityProducerStarts: return String(OTdataObject.ElectricityProducerStarts); break;
|
||
case OT_ElectricityProducerHours: return String(OTdataObject.ElectricityProducerHours); break;
|
||
case OT_ElectricityProduction: return String(OTdataObject.ElectricityProduction); break;
|
||
case OT_CumulativElectricityProduction: return String(OTdataObject.CumulativElectricityProduction); break;
|
||
case OT_RemehadFdUcodes: return String(OTdataObject.RemehadFdUcodes); break;
|
||
case OT_RemehaServicemessage: return String(OTdataObject.RemehaServicemessage); break;
|
||
case OT_RemehaDetectionConnectedSCU: return String(OTdataObject.RemehaDetectionConnectedSCU); break;
|
||
case OT_SolarStorageMaster: return String(OTdataObject.SolarStorageStatus); break;
|
||
case OT_SolarStorageASFflags: return String(OTdataObject.SolarStorageASFflags); break;
|
||
case OT_SolarStorageSlaveConfigMemberIDcode: return String(OTdataObject.SolarStorageSlaveConfigMemberIDcode); break;
|
||
case OT_SolarStorageVersionType: return String(OTdataObject.SolarStorageVersionType); break;
|
||
case OT_SolarStorageTSP: return String(OTdataObject.SolarStorageTSP); break;
|
||
case OT_SolarStorageTSPindexTSPvalue: return String(OTdataObject.SolarStorageTSPindexTSPvalue); break;
|
||
case OT_SolarStorageFHBsize: return String(OTdataObject.SolarStorageFHBsize); break;
|
||
case OT_SolarStorageFHBindexFHBvalue: return String(OTdataObject.SolarStorageFHBindexFHBvalue); break;
|
||
|
||
default: return "Error: not implemented yet!\r\n";
|
||
}
|
||
}
|
||
|
||
void startOTGWstream()
|
||
{
|
||
OTGWstream.begin();
|
||
}
|
||
|
||
void upgradepicnow(const char *filename) {
|
||
if (OTGWSerial.busy()) return; // if already in programming mode, never call it twice
|
||
OTGWDebugTln(F("Start PIC upgrade now."));
|
||
fwupgradestart(filename);
|
||
while (OTGWSerial.busy()){
|
||
feedWatchDog();
|
||
//blink the led during flash...
|
||
DECLARE_TIMER_MS(timerUpgrade, 500);
|
||
if (DUE(timerUpgrade)) {
|
||
blinkLEDnow(LED2);
|
||
}
|
||
}
|
||
// When you are done, then reset the PIC one more time, to capture the actual fwversion of the OTGW
|
||
resetOTGW();
|
||
}
|
||
|
||
void fwupgradedone(OTGWError result, short errors = 0, short retries = 0) {
|
||
|
||
switch (result) {
|
||
case OTGW_ERROR_NONE: errorupgrade = "PIC upgrade was succesful"; break;
|
||
case OTGW_ERROR_MEMORY: errorupgrade = "Not enough memory available"; break;
|
||
case OTGW_ERROR_INPROG: errorupgrade = "Firmware upgrade in progress"; break;
|
||
case OTGW_ERROR_HEX_ACCESS: errorupgrade = "Could not open hex file"; break;
|
||
case OTGW_ERROR_HEX_FORMAT: errorupgrade = "Invalid format of hex file"; break;
|
||
case OTGW_ERROR_HEX_DATASIZE: errorupgrade = "Wrong data size in hex file"; break;
|
||
case OTGW_ERROR_HEX_CHECKSUM: errorupgrade = "Bad checksum in hex file"; break;
|
||
case OTGW_ERROR_MAGIC: errorupgrade = "Hex file does not contain expected data"; break;
|
||
case OTGW_ERROR_RESET: errorupgrade = "PIC reset failed"; break;
|
||
case OTGW_ERROR_RETRIES: errorupgrade = "Too many retries"; break;
|
||
case OTGW_ERROR_MISMATCHES: errorupgrade = "Too many mismatches"; break;
|
||
default: errorupgrade = "Unknown state"; break;
|
||
}
|
||
OTGWDebugTf("Upgrade finished: Errorcode = %d - %s - %d retries, %d errors\n", result, CSTR(errorupgrade), retries, errors);
|
||
}
|
||
|
||
|
||
// Schelte's firmware integration
|
||
void fwupgradestart(const char *hexfile) {
|
||
OTGWError result;
|
||
|
||
digitalWrite(LED1, LOW);
|
||
result = OTGWSerial.startUpgrade(hexfile);
|
||
if (result!= OTGW_ERROR_NONE) {
|
||
fwupgradedone(result);
|
||
} else {
|
||
OTGWSerial.registerFinishedCallback(fwupgradedone);
|
||
}
|
||
}
|
||
|
||
String checkforupdatepic(String filename){
|
||
WiFiClient client;
|
||
HTTPClient http;
|
||
String latest = "";
|
||
int code;
|
||
|
||
http.begin(client, "http://otgw.tclcode.com/download/" + filename);
|
||
http.collectHeaders(hexheaders, 2);
|
||
code = http.sendRequest("HEAD");
|
||
if (code == HTTP_CODE_OK) {
|
||
for (int i = 0; i< http.headers(); i++) {
|
||
OTGWDebugTf("%s: %s\r\n", hexheaders[i], http.header(i).c_str());
|
||
}
|
||
latest = http.header(1);
|
||
OTGWDebugTf("Update %s -> %s\r\n", filename.c_str(), latest.c_str());
|
||
http.end();
|
||
}
|
||
return latest;
|
||
}
|
||
|
||
void refreshpic(String filename, String version) {
|
||
WiFiClient client;
|
||
HTTPClient http;
|
||
String latest;
|
||
int code;
|
||
|
||
if (latest=checkforupdatepic(filename) != "") {
|
||
if (latest != version) {
|
||
OTGWDebugTf("Update %s: %s -> %s\r\n", filename.c_str(), version.c_str(), latest.c_str());
|
||
http.begin(client, "http://otgw.tclcode.com/download/" + filename);
|
||
code = http.GET();
|
||
if (code == HTTP_CODE_OK) {
|
||
File f = LittleFS.open("/" + filename, "w");
|
||
if (f) {
|
||
http.writeToStream(&f);
|
||
f.close();
|
||
String verfile = "/" + filename;
|
||
verfile.replace(".hex", ".ver");
|
||
f = LittleFS.open(verfile, "w");
|
||
if (f) {
|
||
f.print(latest + "\n");
|
||
f.close();
|
||
OTGWDebugTf("Update successful\n");
|
||
}
|
||
}
|
||
}
|
||
}
|
||
}
|
||
http.end();
|
||
}
|
||
|
||
void upgradepic() {
|
||
String action = httpServer.arg("action");
|
||
String filename = httpServer.arg("name");
|
||
String version = httpServer.arg("version");
|
||
OTGWDebugTf("Action: %s %s %s\r\n", action.c_str(), filename.c_str(), version.c_str());
|
||
if (action == "upgrade") {
|
||
upgradepicnow(String("/" + filename).c_str());
|
||
} else if (action == "refresh") {
|
||
refreshpic(filename, version);
|
||
} else if (action == "delete") {
|
||
String path = "/" + filename;
|
||
LittleFS.remove(path);
|
||
path.replace(".hex", ".ver");
|
||
LittleFS.remove(path);
|
||
}
|
||
httpServer.sendHeader("Location", "index.html#tabPICflash", true);
|
||
httpServer.send(303, "text/html", "<a href='index.html#tabPICflash'>Return</a>");
|
||
}
|
||
|
||
/***************************************************************************
|
||
*
|
||
* Permission is hereby granted, free of charge, to any person obtaining a
|
||
* copy of this software and associated documentation files (the
|
||
* "Software"), to deal in the Software without restriction, including
|
||
* without limitation the rights to use, copy, modify, merge, publish,
|
||
* distribute, sublicense, and/or sell copies of the Software, and to permit
|
||
* persons to whom the Software is furnished to do so, subject to the
|
||
* following conditions:
|
||
*
|
||
* The above copyright notice and this permission notice shall be included
|
||
* in all copies or substantial portions of the Software.
|
||
*
|
||
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS
|
||
* OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
|
||
* MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT.
|
||
* IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY
|
||
* CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT
|
||
* OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR
|
||
* THE USE OR OTHER DEALINGS IN THE SOFTWARE.
|
||
*
|
||
***************************************************************************/
|