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Massive kernel logic refaktoring & critical memory issues fixes. HomeRemote compatibility, Modbus command retrying, MQTT Status async/submission optimization

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This commit is contained in:
Andrey Klimov
2018-04-01 22:13:13 +03:00
parent a936240d14
commit 66d6445967
7 changed files with 174 additions and 83 deletions
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1
lighthub/dmx.cpp
View File

@@ -192,6 +192,7 @@ void onDmxFrame(uint16_t universe, uint16_t length, uint8_t sequence, uint8_t* d
void DMXinSetup(int channels) void DMXinSetup(int channels)
{ {
if (DMXin) return;/// ToDo: re-init
// //Use digital pin 3 for DMX output. Must be a PWM channel. // //Use digital pin 3 for DMX output. Must be a PWM channel.
// DmxSimple.usePin(pin); // DmxSimple.usePin(pin);
//DmxSimple.maxChannel(channels); //DmxSimple.maxChannel(channels);

169
lighthub/item.cpp
View File

@@ -35,10 +35,10 @@ e-mail anklimov@gmail.com
#define fmPar SERIAL_8N1 #define fmPar SERIAL_8N1
short modbusBusy = 0; short modbusBusy = 0;
extern aJsonObject *modbusItem; extern aJsonObject *pollingItem;
int modbusSet(int addr, uint16_t _reg, int _mask, uint16_t value); //int modbusSet(int addr, uint16_t _reg, int _mask, uint16_t value);
extern PubSubClient mqttClient; extern PubSubClient mqttClient;
//extern char outprefix[]; //extern char outprefix[];
@@ -83,13 +83,14 @@ void Item::Parse() {
itemArg = aJson.getArrayItem(itemArr, I_ARG); itemArg = aJson.getArrayItem(itemArr, I_ARG);
itemVal = aJson.getArrayItem(itemArr, I_VAL); itemVal = aJson.getArrayItem(itemArr, I_VAL);
/*
Serial.print(F(" Item:")); Serial.print(F(" Item:"));
Serial.print(itemArr->name); Serial.print(itemArr->name);
Serial.print(F(" T:")); Serial.print(F(" T:"));
Serial.print(itemType); Serial.print(itemType);
Serial.print(F(" =")); Serial.print(F(" ="));
Serial.println(getArg()); Serial.println(getArg());
*/
} }
} }
@@ -163,9 +164,9 @@ void Item::setVal(short n, int par) // Only store if VAL is array defined in c
void Item::setVal(long int par) // Only store if VAL is int (autogenerated or config-defined) void Item::setVal(long int par) // Only store if VAL is int (autogenerated or config-defined)
{ {
if (!itemVal || itemVal->type != aJson_Int) return; if (!itemVal || itemVal->type != aJson_Int) return;
Serial.print(F(" Store ")); // Serial.print(F(" Store "));
Serial.print(F(" Val=")); // Serial.print(F(" Val="));
Serial.println(par); // Serial.println(par);
itemVal->valueint = par; itemVal->valueint = par;
} }
@@ -193,7 +194,7 @@ void analogWrite(int pin, int val)
boolean Item::getEnableCMD(int delta) { boolean Item::getEnableCMD(int delta) {
return ((millis() - lastctrl > (unsigned long) delta));//|| (itemArr!=lastobj)); return ((millis() - lastctrl > (unsigned long) delta));// || ((void *)itemArr != (void *) lastobj));
} }
int Item::Ctrl(short cmd, short n, int *Par, boolean send) { int Item::Ctrl(short cmd, short n, int *Par, boolean send) {
@@ -246,14 +247,14 @@ int Item::Ctrl(short cmd, short n, int *Par, boolean send) {
st.s = Par[1]; st.s = Par[1];
st.v = Par[2]; st.v = Par[2];
setVal(st.aslong); setVal(st.aslong);
if (send) SendCmd(0,3,Par); // Send back triplet ? if (send) SendStatus(0,3,Par,true); // Send back triplet ?
break; break;
case CH_PWM: case CH_PWM:
case CH_VC: case CH_VC:
case CH_DIMMER: case CH_DIMMER:
case CH_MODBUS: case CH_MODBUS:
if (send) SendCmd(0, 1, Par); // Send back parameter for channel above this line if (send) SendStatus(0, 1, Par,true); // Send back parameter for channel above this line
case CH_THERMO: case CH_THERMO:
case CH_VCTEMP: case CH_VCTEMP:
setVal(Par[0]); // Store value setVal(Par[0]); // Store value
@@ -280,8 +281,9 @@ int Item::Ctrl(short cmd, short n, int *Par, boolean send) {
Par[1] = st.s; Par[1] = st.s;
Par[2] = st.v; Par[2] = st.v;
if (!Par[2]) Par[2]=80; //If RGB value==0 set to 80% if (!Par[2]) Par[2]=80; //If RGB value==0 set to 80%
setVal(st.aslong);
params = 3; params = 3;
SendCmd(0, params, Par); // Send restored triplet. In any cases SendStatus(0, params, Par,true); // Send restored triplet. In any cases
break; break;
case CH_VCTEMP: case CH_VCTEMP:
@@ -293,15 +295,15 @@ int Item::Ctrl(short cmd, short n, int *Par, boolean send) {
Par[0] = st.aslong; Par[0] = st.aslong;
params = 1; params = 1;
SendCmd(0, params, Par); // Send restored parameter, even if send=false - no problem, loop will be supressed at next hop SendStatus(0, params, Par, true); // Send restored parameter, even if send=false - no problem, loop will be supressed at next hop
break; break;
case CH_THERMO: case CH_THERMO:
Par[0] = st.aslong; Par[0] = st.aslong;
params = 0; params = 0;
if (send) SendCmd(CMD_ON); // Just ON (switch) if (send) SendStatus(CMD_ON); // Just ON (switch)
break; break;
default: default:
if (send) SendCmd(cmd); // Just send ON if (send) SendStatus(cmd); // Just send ON
}//itemtype }//itemtype
else {// Default settings else {// Default settings
Serial.print(st.aslong); Serial.print(st.aslong);
@@ -329,7 +331,7 @@ int Item::Ctrl(short cmd, short n, int *Par, boolean send) {
if (send) setCmd(cmd); if (send) setCmd(cmd);
} else { //Double ON - apply special preset - clean white full power } else { //Double ON - apply special preset - clean white full power
switch (itemType) { if (getEnableCMD(500)) switch (itemType) {
case CH_RGBW: case CH_RGBW:
Serial.println(F("Force White")); Serial.println(F("Force White"));
itemType = CH_WHITE; itemType = CH_WHITE;
@@ -343,7 +345,7 @@ int Item::Ctrl(short cmd, short n, int *Par, boolean send) {
setVal(st.aslong); setVal(st.aslong);
//Send to OH //Send to OH
if (send) SendCmd(0, 3, Par); if (send) SendStatus(0, 3, Par);
break; break;
} //itemtype } //itemtype
} //else } //else
@@ -361,7 +363,7 @@ int Item::Ctrl(short cmd, short n, int *Par, boolean send) {
Par[1] = 0; Par[1] = 0;
Par[2] = 0; Par[2] = 0;
setCmd(cmd); setCmd(cmd);
if (send) SendCmd(cmd); ///? if (send) SendStatus(cmd);
} }
break; break;
@@ -372,7 +374,7 @@ int Item::Ctrl(short cmd, short n, int *Par, boolean send) {
Par[1] = 0; Par[1] = 0;
Par[2] = 0; Par[2] = 0;
setCmd(cmd); setCmd(cmd);
SendCmd(CMD_OFF); //HALT to OFF mapping - send in any cases SendStatus(CMD_OFF); //HALT to OFF mapping - send in any cases
Serial.println(F(" Halted")); Serial.println(F(" Halted"));
} }
@@ -433,7 +435,7 @@ int Item::Ctrl(short cmd, short n, int *Par, boolean send) {
int _reg = aJson.getArrayItem(itemArg, 1)->valueint; int _reg = aJson.getArrayItem(itemArg, 1)->valueint;
int _mask = aJson.getArrayItem(itemArg, 2)->valueint; int _mask = aJson.getArrayItem(itemArg, 2)->valueint;
modbusSet(_addr, _reg, _mask, map(Par[0], 0, 100, 0, 0x3f)); modbusDimmerSet(_addr, _reg, _mask, map(Par[0], 0, 100, 0, 0x3f));
} }
break; break;
} }
@@ -655,9 +657,12 @@ POLL 2101x10
*/ */
void mb_fail(short addr, short op, int val, int cmd) { void Item::mb_fail(short addr, short op, int val, int cmd) {
Serial.println(F("Modbus op failed")); Serial.println(F("Modbus op failed"));
// int cmd = getCmd();
// if (cmd<0) return;
setCmd(cmd | CMD_RETRY);
setVal(val);
} }
extern ModbusMaster node; extern ModbusMaster node;
@@ -731,16 +736,24 @@ int Item::VacomSetHeat(int addr, int8_t val, int8_t cmd) {
} }
int Item::SendCmd(short cmd, short n, int *Par) { int Item::SendStatus(short cmd, short n, int *Par, boolean deffered) {
/// ToDo: relative patches, configuration /// ToDo: relative patches, configuration
if (deffered) {
setCmd(cmd | CMD_REPORT);
Serial.println(F("Status deffered"));
// mqttClient.publish("/push", "1");
return 0;
// Todo: Parameters? Now expected that parameters already stored by setVal()
}
else { //publush to MQTT
char addrstr[32]; char addrstr[32];
//char addrbuf[17]; //char addrbuf[17];
char valstr[16] = ""; char valstr[16] = "";
strcpy_P(addrstr, outprefix); strcpy_P(addrstr, outprefix);
strncat(addrstr, itemArr->name, sizeof(addrstr)); //// strncat(addrstr, itemArr->name, sizeof(addrstr));
switch (cmd) { switch (cmd) {
@@ -766,21 +779,24 @@ int Item::SendCmd(short cmd, short n, int *Par) {
} }
break; break;
default: default:
Serial.println(F("Unknown cmd "));
return -1; return -1;
} }
Serial.print(F("Pub: "));
Serial.print(addrstr); Serial.print(addrstr);
Serial.print(F("->")); Serial.print(F("->"));
Serial.println(valstr); Serial.println(valstr);
mqttClient.publish(addrstr, valstr,true); mqttClient.publish(addrstr, valstr,true);
return 0; return 0;
}
} }
int modbusSet(int addr, uint16_t _reg, int _mask, uint16_t value) { int Item::modbusDimmerSet(int addr, uint16_t _reg, int _mask, uint16_t value) {
if (modbusBusy) { if (modbusBusy) {
mb_fail(3, addr, value, 0); mb_fail(3, addr, value, 0);
return -1; return -1;
}; };
modbusBusy = 1; modbusBusy = 1;
@@ -810,6 +826,7 @@ int modbusSet(int addr, uint16_t _reg, int _mask, uint16_t value) {
int Item::checkFM() { int Item::checkFM() {
if (modbusBusy) return -1; if (modbusBusy) return -1;
if (checkModbusRetry()) return -2;
modbusBusy = 1; modbusBusy = 1;
uint8_t j, result; uint8_t j, result;
@@ -888,13 +905,19 @@ int Item::checkFM() {
} }
int set = node.getResponseBuffer(0); int set = node.getResponseBuffer(0);
if (set) aJson.addNumberToObject(out, "set", set * a + b); float fset;
aJson.addNumberToObject(out, "t", (int) node.getResponseBuffer(1) * a + b); float ftemp;
if (set) aJson.addNumberToObject(out, "set", fset =set * a + b);
aJson.addNumberToObject(out, "t", ftemp =(int) node.getResponseBuffer(1) * a + b);
// aJson.addNumberToObject(out,"d", (int) node.getResponseBuffer(2)*a+b); // aJson.addNumberToObject(out,"d", (int) node.getResponseBuffer(2)*a+b);
int pwr = node.getResponseBuffer(3); int pwr = node.getResponseBuffer(3);
if (pwr > 0) aJson.addNumberToObject(out, "pwr", pwr / 10.); else aJson.addNumberToObject(out, "pwr", 0); if (pwr > 0) aJson.addNumberToObject(out, "pwr", pwr / 10.); else aJson.addNumberToObject(out, "pwr", 0);
if (ftemp>fset+FM_OVERHEAT_CELSIUS)
{
mqttClient.publish("/alarm/ovrht", itemArr->name);
Ctrl(CMD_OFF); //Shut down
}
Serial.println(); Serial.println();
} else { } else {
Serial.print(F("Modbus polling error=")); Serial.print(F("Modbus polling error="));
@@ -910,9 +933,21 @@ int Item::checkFM() {
modbusBusy = 0; modbusBusy = 0;
} }
boolean Item::checkModbusRetry() {
int cmd = getCmd();
if (cmd & CMD_RETRY) { // if last sending attempt of command was failed
int val = getVal();
Serial.println(F("Retrying CMD"));
cmd &= ~CMD_RETRY; // Clean retry flag
Ctrl(cmd,1,&val); // Execute command again
return true;
}
return false;
}
int Item::checkModbus() { int Item::checkModbusDimmer() {
if (modbusBusy) return -1; if (modbusBusy) return -1;
if (checkModbusRetry()) return -2;
modbusBusy = 1; modbusBusy = 1;
uint8_t result; uint8_t result;
@@ -933,9 +968,11 @@ int Item::checkModbus() {
if (result == node.ku8MBSuccess) { if (result == node.ku8MBSuccess) {
data = node.getResponseBuffer(0); data = node.getResponseBuffer(0);
Serial.print(F("Modbus Val: ")); Serial.print(F("MB: "));
Serial.print(itemArr->name);
Serial.print(F(" Val: "));
Serial.println(data, HEX); Serial.println(data, HEX);
checkModbus(data); checkModbusDimmer(data);
} else { } else {
Serial.print(F("Modbus polling error=")); Serial.print(F("Modbus polling error="));
Serial.println(result, HEX); Serial.println(result, HEX);
@@ -944,18 +981,18 @@ int Item::checkModbus() {
modbusBusy = 0; modbusBusy = 0;
// Looking 1 step ahead for modbus item, which uses same register // Looking 1 step ahead for modbus item, which uses same register
Item nextItem(modbusItem->next); Item nextItem(pollingItem->next);
if (modbusItem && nextItem.isValid() && nextItem.itemType == CH_MODBUS && nextItem.getArg(0) == addr && if (pollingItem && nextItem.isValid() && nextItem.itemType == CH_MODBUS && nextItem.getArg(0) == addr &&
nextItem.getArg(1) == reg) { nextItem.getArg(1) == reg) {
nextItem.checkModbus(data); nextItem.checkModbusDimmer(data);
modbusItem = modbusItem->next; pollingItem = pollingItem->next;
if (!modbusItem) modbusItem = items->child; if (!pollingItem) pollingItem = items->child;
} }
} }
int Item::checkModbus(int data) { int Item::checkModbusDimmer(int data) {
short mask = getArg(2); short mask = getArg(2);
int d = data; int d = data;
if (mask) d >>= 8; if (mask) d >>= 8;
@@ -966,14 +1003,14 @@ int Item::checkModbus(int data) {
if (getVal() != d || d && cmd == CMD_OFF || d && cmd == CMD_HALT) //volume changed or turned on manualy if (getVal() != d || d && cmd == CMD_OFF || d && cmd == CMD_HALT) //volume changed or turned on manualy
{ {
if (d) { // Actually turned on if (d) { // Actually turned on
if (cmd == CMD_OFF || cmd == CMD_HALT) SendCmd(CMD_ON); //update OH with ON if it was turned off before if (cmd == CMD_OFF || cmd == CMD_HALT) SendStatus(CMD_ON); //update OH with ON if it was turned off before
SendCmd(0, 1, &d); //update OH with value SendStatus(0, 1, &d); //update OH with value
setCmd(CMD_ON); //store command setCmd(CMD_ON); //store command
setVal(d); //store value setVal(d); //store value
} else { } else {
if (cmd != CMD_HALT && cmd != CMD_OFF) { if (cmd != CMD_HALT && cmd != CMD_OFF) {
setCmd(CMD_OFF); // store command (not value) setCmd(CMD_OFF); // store command (not value)
SendCmd(CMD_OFF);// update OH SendStatus(CMD_OFF);// update OH
} }
} }
} //if data changed } //if data changed
@@ -982,10 +1019,60 @@ int Item::checkModbus(int data) {
int Item::Poll() { int Item::Poll() {
switch (itemType) { switch (itemType) {
case CH_MODBUS: case CH_MODBUS:
checkModbus(); checkModbusDimmer();
sendDelayedStatus();
return INTERVAL_CHECK_MODBUS;
break; break;
case CH_VC: case CH_VC:
checkFM(); checkFM();
return INTERVAL_CHECK_MODBUS;
break;
case CH_RGB: //All channels with slider generate too many updates
case CH_RGBW:
case CH_DIMMER:
case CH_PWM:
sendDelayedStatus();
} }
return INTERVAL_POLLING;
}
void Item::sendDelayedStatus(){
HSVstore st;
int cmd=getCmd();
short params = 0;
int Par[3];
if (cmd & CMD_REPORT)
{
//retrive stored values
st.aslong = getVal();
switch (itemType) {
//case CH_GROUP:
case CH_RGBW:
case CH_RGB:
Par[0] = st.h;
Par[1] = st.s;
Par[2] = st.v;
params = 3;
SendStatus(0, params, Par); // Send restored triplet.
break;
case CH_VCTEMP:
case CH_PWM:
case CH_DIMMER: //Everywhere, in flat VAL
case CH_MODBUS:
case CH_VC:
case CH_THERMO:
Par[0] = st.aslong;
params = 1;
SendStatus(0, params, Par); // Send restored parameter
break;
default:
SendStatus(cmd); // Just send CMD
}//itemtype
cmd &= ~CMD_REPORT; // Clean report flag
setCmd(cmd);
}
} }

12
lighthub/item.h
View File

@@ -38,6 +38,8 @@ e-mail anklimov@gmail.com
#define CMD_TOGGLE 4 #define CMD_TOGGLE 4
#define CMD_CURTEMP 127 #define CMD_CURTEMP 127
#define CMD_SET 9 #define CMD_SET 9
#define CMD_RETRY 64
#define CMD_REPORT 32
#define I_TYPE 0 //Type of item #define I_TYPE 0 //Type of item
#define I_ARG 1 //Chanel-type depended argument or array of arguments (pin, address etc) #define I_ARG 1 //Chanel-type depended argument or array of arguments (pin, address etc)
@@ -99,15 +101,19 @@ class Item
inline int Off(){Ctrl(CMD_OFF);}; inline int Off(){Ctrl(CMD_OFF);};
inline int Toggle(){Ctrl(CMD_TOGGLE);}; inline int Toggle(){Ctrl(CMD_TOGGLE);};
int Poll(); int Poll();
int SendCmd(short cmd,short n=0, int * Par=NULL); int SendStatus(short cmd, short n=0, int * Par=NULL, boolean deferred = false);
protected: protected:
int VacomSetFan (int8_t val, int8_t cmd=0); int VacomSetFan (int8_t val, int8_t cmd=0);
int VacomSetHeat(int addr, int8_t val, int8_t cmd=0); int VacomSetHeat(int addr, int8_t val, int8_t cmd=0);
int modbusDimmerSet(int addr, uint16_t _reg, int _mask, uint16_t value);
void mb_fail(short addr, short op, int val, int cmd);
int isActive(); int isActive();
void Parse(); void Parse();
int checkModbus(); int checkModbusDimmer();
int checkModbus(int data); int checkModbusDimmer(int data);
boolean checkModbusRetry();
void sendDelayedStatus();
int checkFM(); int checkFM();

65
lighthub/main.cpp
View File

@@ -1,5 +1,4 @@
/* Copyright © 2017-2018 Andrey Klimov. All rights reserved. /*
Licensed under the Apache License, Version 2.0 (the "License"); Licensed under the Apache License, Version 2.0 (the "License");
you may not use this file except in compliance with the License. you may not use this file except in compliance with the License.
You may obtain a copy of the License at You may obtain a copy of the License at
@@ -83,12 +82,12 @@ aJsonObject *modbusArr = NULL;
aJsonObject *owArr = NULL; aJsonObject *owArr = NULL;
aJsonObject *dmxArr = NULL; aJsonObject *dmxArr = NULL;
unsigned long nextModbusCheck = 0; unsigned long nextPollingCheck = 0;
unsigned long nextInputCheck = 0; unsigned long nextInputCheck = 0;
unsigned long lanCheck = 0; unsigned long lanCheck = 0;
unsigned long nextThermostatCheck = 0; unsigned long nextThermostatCheck = 0;
aJsonObject *modbusItem = NULL; aJsonObject *pollingItem = NULL;
bool owReady = false; bool owReady = false;
int lanStatus = 0; int lanStatus = 0;
@@ -201,10 +200,10 @@ void mqttCallback(char *topic, byte *payload, unsigned int length) {
} }
case CMD_ON: case CMD_ON:
if (item.getEnableCMD(500) || lanStatus == 4) // if (item.getEnableCMD(500) || lanStatus == 4)
item.Ctrl(cmd, 0, NULL, item.Ctrl(cmd, 0, NULL,
!retaining); //Accept ON command not earlier then 500 ms after set settings (Homekit hack) !retaining); //Accept ON command not earlier then 500 ms after set settings (Homekit hack)
else Serial.println(F("on Skipped")); // else Serial.println(F("on Skipped"));
break; break;
default: //some known command default: //some known command
@@ -563,6 +562,7 @@ void applyConfig() {
if (owArr && !owReady) { if (owArr && !owReady) {
aJsonObject *item = owArr->child; aJsonObject *item = owArr->child;
owReady = owSetup(&Changed); owReady = owSetup(&Changed);
t_count=0;
while (item) { while (item) {
if ((item->type == aJson_Object)) { if ((item->type == aJson_Object)) {
DeviceAddress addr; DeviceAddress addr;
@@ -575,7 +575,7 @@ void applyConfig() {
} }
#endif #endif
items = aJson.getObjectItem(root, "items"); items = aJson.getObjectItem(root, "items");
modbusItem = items->child; pollingItem = items->child;
inputs = aJson.getObjectItem(root, "in"); inputs = aJson.getObjectItem(root, "in");
mqttArr = aJson.getObjectItem(root, "mqtt"); mqttArr = aJson.getObjectItem(root, "mqtt");
printConfigSummary(); printConfigSummary();
@@ -761,9 +761,9 @@ int getConfig(int arg_cnt, char **args)
lanCheck = millis() + 15000; lanCheck = millis() + 15000;
return -11; return -11;
} else { } else {
char *outstr = aJson.print(root); // char *outstr = aJson.print(root);
Serial.println(outstr); // Serial.println(outstr);
free(outstr); // free(outstr);
applyConfig(); applyConfig();
@@ -956,13 +956,13 @@ void loop_main() {
#endif #endif
// if (lastpacket && (lastpacket%10==0)) Serial.println(lastpacket); // if (lastpacket && (lastpacket%10==0)) Serial.println(lastpacket);
#ifdef _modbus if (items) {
if (modbusArr && items) modbusLoop(); if (lanStatus!=4) pollingLoop();
#endif
#ifdef _owire #ifdef _owire
if (items) thermoLoop(); thermoLoop();
#endif #endif
}
if (inputs) inputLoop(); if (inputs) inputLoop();
@@ -1023,27 +1023,18 @@ void inputLoop(void) {
} }
} }
void modbusLoop(void) { void pollingLoop(void) {
boolean done = false; boolean done = false;
if (millis() > nextModbusCheck) { if (millis() > nextPollingCheck) {
while (modbusItem && !done) { while (pollingItem && !done) {
if (modbusItem->type == aJson_Array) { if (pollingItem->type == aJson_Array) {
switch (aJson.getArrayItem(modbusItem, 0)->valueint) { Item it(pollingItem);
case CH_MODBUS: nextPollingCheck = millis() + it.Poll(); //INTERVAL_CHECK_MODBUS;
//case CH_VCTEMP: done= true;
case CH_VC: {
Item it(modbusItem);
it.Poll();
nextModbusCheck = millis() + INTERVAL_CHECK_MODBUS;
done = true;
break; //case;
}
} //switch
}//if }//if
modbusItem = modbusItem->next; pollingItem = pollingItem->next;
if (!modbusItem) { if (!pollingItem) {
modbusItem = items->child; pollingItem = items->child;
return; return;
} //start from 1-st element } //start from 1-st element
} //while } //while
@@ -1076,9 +1067,11 @@ void thermoLoop(void) {
} else { } else {
if (!(--aJson.getArrayItem(itemExtensionArray, IET_ATTEMPTS)->valueint)) if (!(--aJson.getArrayItem(itemExtensionArray, IET_ATTEMPTS)->valueint))
mqttClient.publish("/alarm", item->name); mqttClient.publish("/alarm/snsr", item->name);
} }
if (curtemp>itemTempSetting+THERMO_OVERHEAT_CELSIUS) mqttClient.publish("/alarm/ovrht", item->name);
thermostatCheckPrinted = true; thermostatCheckPrinted = true;
Serial.print(item->name); Serial.print(item->name);
Serial.print(F(" Set:")); Serial.print(F(" Set:"));
@@ -1139,7 +1132,7 @@ short thermoSetCurTemp(char *name, short t) {
else if (extArray = aJson.getArrayItem(item, I_EXT)) { else if (extArray = aJson.getArrayItem(item, I_EXT)) {
aJsonObject *att = aJson.getArrayItem(extArray, IET_ATTEMPTS); aJsonObject *att = aJson.getArrayItem(extArray, IET_ATTEMPTS);
aJson.getArrayItem(extArray, IET_TEMP)->valueint = t; aJson.getArrayItem(extArray, IET_TEMP)->valueint = t;
if (att->valueint == 0) mqttClient.publish("/alarmoff", item->name); if (att->valueint == 0) mqttClient.publish("/alarmoff/snsr", item->name);
att->valueint = (int) T_ATTEMPTS; att->valueint = (int) T_ATTEMPTS;
} //if } //if

2
lighthub/main.h
View File

@@ -162,7 +162,7 @@ void modbusIdle(void);
void inputLoop(void); void inputLoop(void);
void modbusLoop(void); void pollingLoop(void);
void thermoLoop(void); void thermoLoop(void);

5
lighthub/options.h
View File

@@ -1,6 +1,6 @@
// Configuration of drivers enabled // Configuration of drivers enabled
#ifndef PIO_SRC_REV #ifndef PIO_SRC_REV
#define PIO_SRC_REV v0.992 #define PIO_SRC_REV v0.993
#endif #endif
#define TXEnablePin 13 #define TXEnablePin 13
@@ -10,11 +10,14 @@
#define IET_ATTEMPTS 1 #define IET_ATTEMPTS 1
#define THERMO_GIST_CELSIUS 2 #define THERMO_GIST_CELSIUS 2
#define THERMO_OVERHEAT_CELSIUS 5
#define FM_OVERHEAT_CELSIUS 5.
#define EEPROM_offset 32+6 #define EEPROM_offset 32+6
#define INTERVAL_CHECK_INPUT 50 #define INTERVAL_CHECK_INPUT 50
#define INTERVAL_CHECK_MODBUS 2000 #define INTERVAL_CHECK_MODBUS 2000
#define INTERVAL_POLLING 100
#define THERMOSTAT_CHECK_PERIOD 5000 #define THERMOSTAT_CHECK_PERIOD 5000
#ifndef MODBUS_SERIAL_BAUD #ifndef MODBUS_SERIAL_BAUD

3
lighthub/owTerm.cpp
View File

@@ -86,7 +86,7 @@ int owUpdate() {
int owSetup(owChangedType owCh) { int owSetup(owChangedType owCh) {
//// todo - move memory allocation to here //// todo - move memory allocation to here
if (net) return true; // Already initialized
#ifdef DS2482_100_I2C_TO_1W_BRIDGE #ifdef DS2482_100_I2C_TO_1W_BRIDGE
Serial.println(F("DS2482_100_I2C_TO_1W_BRIDGE init")); Serial.println(F("DS2482_100_I2C_TO_1W_BRIDGE init"));
net = new OneWire; net = new OneWire;
@@ -182,6 +182,7 @@ int owFind(DeviceAddress addr) {
} }
void owAdd(DeviceAddress addr) { void owAdd(DeviceAddress addr) {
if (t_count>=t_max) return;
wstat[t_count] = SW_FIND; //Newly detected wstat[t_count] = SW_FIND; //Newly detected
memcpy(term[t_count], addr, 8); memcpy(term[t_count], addr, 8);
//term[t_count]=addr; //term[t_count]=addr;