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refactoring. help cmd improved. Removed newline from freeMem periodical print.

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This commit is contained in:
livello
2018-03-22 20:42:21 +03:00
parent 5e21cd03cc
commit 4d7f6ca875
6 changed files with 1271 additions and 1243 deletions
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6
lighthub/inputs.cpp
View File

@@ -23,7 +23,7 @@ e-mail anklimov@gmail.com
#include "item.h"
#include <PubSubClient.h>
extern PubSubClient client;
extern PubSubClient mqttClient;
Input::Input(char * name) //Constructor
{
@@ -121,11 +121,11 @@ void Input::Changed (int val)
if (val)
{ //send set command
if (!scmd) client.publish(emit->valuestring,"ON"); else if (strlen(scmd->valuestring)) client.publish(emit->valuestring,scmd->valuestring);
if (!scmd) mqttClient.publish(emit->valuestring,"ON"); else if (strlen(scmd->valuestring)) mqttClient.publish(emit->valuestring,scmd->valuestring);
}
else
{ //send reset command
if (!rcmd) client.publish(emit->valuestring,"OFF"); else if (strlen(rcmd->valuestring)) client.publish(emit->valuestring,rcmd->valuestring);
if (!rcmd) mqttClient.publish(emit->valuestring,"OFF"); else if (strlen(rcmd->valuestring)) mqttClient.publish(emit->valuestring,rcmd->valuestring);
}
}

348
lighthub/item.cpp
View File

@@ -22,8 +22,10 @@ e-mail anklimov@gmail.com
#include "aJSON.h"
#ifdef _dmxout
#include "dmx.h"
#include "FastLED.h"
#endif
#include <ModbusMaster.h>
@@ -37,15 +39,15 @@ extern aJsonObject * modbusitem;
int modbusSet(int addr, uint16_t _reg, int _mask, uint16_t value);
extern PubSubClient client;
extern PubSubClient mqttClient;
//extern const char* outprefix;
const char outprefix[] PROGMEM = "/myhome/s_out/";
static unsigned long lastctrl = 0;
static aJsonObject *lastobj = NULL;
int txt2cmd (char * payload)
{
int txt2cmd(char *payload) {
int cmd = -1;
// Check for command
@@ -68,12 +70,12 @@ Item::Item(aJsonObject * obj)//Constructor
Parse();
}
void Item::Parse()
{
if (isValid())
{
void Item::Parse() {
if (isValid()) {
// Todo - avoid static enlarge for every types
for (int i=aJson.getArraySize(itemArr);i<4;i++) aJson.addItemToArray(itemArr,aJson.createItem(int(defval[i]))); //Enlarge item to 4 elements. VAL=int if no other definition in conf
for (int i = aJson.getArraySize(itemArr); i < 4; i++)
aJson.addItemToArray(itemArr, aJson.createItem(
int(defval[i]))); //Enlarge item to 4 elements. VAL=int if no other definition in conf
itemType = aJson.getArrayItem(itemArr, I_TYPE)->valueint;
@@ -82,8 +84,11 @@ void Item::Parse()
Serial.print(F(" Item:"));
Serial.print(itemArr->name);Serial.print(F(" T:"));
Serial.print(itemType);Serial.print(F(" ="));Serial.println(getArg());
Serial.print(itemArr->name);
Serial.print(F(" T:"));
Serial.print(itemType);
Serial.print(F(" ="));
Serial.println(getArg());
}
}
@@ -96,8 +101,7 @@ Item::Item(char * name) //Constructor
Parse();
}
uint8_t Item::getCmd()
{
uint8_t Item::getCmd() {
aJsonObject *t = aJson.getArrayItem(itemArr, I_CMD);
if (t)
return t->valueint;
@@ -105,19 +109,20 @@ uint8_t Item::getCmd()
}
void Item::setCmd(uint8_t cmd)
{
void Item::setCmd(uint8_t cmd) {
aJsonObject *t = aJson.getArrayItem(itemArr, I_CMD);
if (t)
t->valueint = cmd;
}
int Item::getArg(short n) //Return arg int or first array element if Arg is array
{ if (!itemArg) return -1;
{
if (!itemArg) return -1;
if (itemArg->type == aJson_Int) return itemArg->valueint;
else if (itemArg->type == aJson_Array) return aJson.getArrayItem(itemArg, n)->valueint;
else return -2;
}
/*
int Item::getVal(short n) //Return Val from Value array
{ if (!itemVal) return -1;
@@ -132,16 +137,16 @@ int Item::getVal(short n) //Return Val from Value array
*/
long int Item::getVal() //Return Val if val is int or first elem of Value array
{ if (!itemVal) return -1;
if (itemVal->type==aJson_Int) return itemVal->valueint;
else if (itemVal->type==aJson_Array)
{
if (!itemVal) return -1;
if (itemVal->type == aJson_Int) return itemVal->valueint;
else if (itemVal->type == aJson_Array) {
aJsonObject *t = aJson.getArrayItem(itemVal, 0);
if (t) return t->valueint;
else return -3;
} else return -2;
}
else return -2;
}
/*
void Item::setVal(short n, int par) // Only store if VAL is array defined in config to avoid waste of RAM
{
@@ -157,13 +162,14 @@ 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)
{
if (!itemVal || itemVal->type != aJson_Int) return;
Serial.print(F(" Store "));Serial.print(F(" Val="));Serial.println(par);
Serial.print(F(" Store "));
Serial.print(F(" Val="));
Serial.println(par);
itemVal->valueint = par;
}
boolean Item::isValid ()
{
boolean Item::isValid() {
return (itemArr && (itemArr->type == aJson_Array));
}
@@ -185,15 +191,14 @@ void analogWrite(int pin, int val)
#endif
boolean Item::getEnableCMD(int delta)
{
boolean Item::getEnableCMD(int delta) {
return ((millis() - lastctrl > (unsigned long) delta));//|| (itemArr!=lastobj));
}
int Item::Ctrl(short cmd, short n, int * Par, boolean send)
{
int Item::Ctrl(short cmd, short n, int *Par, boolean send) {
Serial.print(F("Cmd="));Serial.println(cmd);
Serial.print(F("Cmd="));
Serial.println(cmd);
//va_list vl;
int _Par[3] = {0, 0, 0};
@@ -205,19 +210,19 @@ int Item::Ctrl(short cmd, short n, int * Par, boolean send)
switch (cmd)
{
switch (cmd) {
int t;
case CMD_TOGGLE:
if (isActive()) cmd=CMD_OFF; else cmd=CMD_ON;
if (isActive()) cmd = CMD_OFF;
else cmd = CMD_ON;
break;
case CMD_RESTORE:
if (itemType != CH_GROUP) //individual threating of channels. Ignore restore command for groups
switch (t=getCmd())
{
switch (t = getCmd()) {
case CMD_HALT: //previous command was HALT ?
Serial.print(F("Restored from:"));Serial.println(t);
Serial.print(F("Restored from:"));
Serial.println(t);
cmd = CMD_ON; //turning on
break;
default:
@@ -225,14 +230,12 @@ int Item::Ctrl(short cmd, short n, int * Par, boolean send)
}//switch old cmd
} //switch cmd
switch (cmd)
{
switch (cmd) {
case 0: //no command
setCmd(CMD_SET);
switch (itemType)
{
switch (itemType) {
case CH_RGBW: //only if configured VAL array
if (!Par[1]) itemType = CH_WHITE;
@@ -262,16 +265,13 @@ int Item::Ctrl(short cmd, short n, int * Par, boolean send)
break;
case CMD_ON:
if (getCmd()!=CMD_ON)
{
if (getCmd() != CMD_ON) {
short params = 0;
//retrive stored values
st.aslong = getVal();
if (st.aslong > 0) //Stored smthng
switch (itemType)
{
switch (itemType) {
//case CH_GROUP:
case CH_RGBW:
case CH_RGB:
@@ -301,13 +301,11 @@ int Item::Ctrl(short cmd, short n, int * Par, boolean send)
default:
SendCmd(cmd); // Just send ON
}//itemtype
else
{// Default settings
else {// Default settings
Serial.print(st.aslong);
Serial.println(F(": No stored values - default"));
switch (itemType)
{
switch (itemType) {
case CH_VCTEMP:
Par[0] = 20;
break;
@@ -319,18 +317,17 @@ int Item::Ctrl(short cmd, short n, int * Par, boolean send)
}
for (short i=0;i<params ;i++)
{
Serial.print(F("Restored: "));Serial.print(i);Serial.print(F("="));Serial.println(Par[i]);
for (short i = 0; i < params; i++) {
Serial.print(F("Restored: "));
Serial.print(i);
Serial.print(F("="));
Serial.println(Par[i]);
}
setCmd(cmd);
}
else
{ //Double ON - apply special preset - clean white full power
switch (itemType)
{
} else { //Double ON - apply special preset - clean white full power
switch (itemType) {
case CH_RGBW:
Serial.println(F("Force White"));
itemType = CH_WHITE;
@@ -358,7 +355,9 @@ int Item::Ctrl(short cmd, short n, int * Par, boolean send)
case CMD_OFF:
if (getCmd() != CMD_HALT) //if channels are halted - OFF to be ignored (restore issue)
{
Par[0]=0;Par[1]=0;Par[2]=0;
Par[0] = 0;
Par[1] = 0;
Par[2] = 0;
setCmd(cmd);
SendCmd(cmd);
}
@@ -366,9 +365,10 @@ int Item::Ctrl(short cmd, short n, int * Par, boolean send)
case CMD_HALT:
if (isActive()>0)
{
Par[0]=0;Par[1]=0;Par[2]=0;
if (isActive() > 0) {
Par[0] = 0;
Par[1] = 0;
Par[2] = 0;
setCmd(cmd);
SendCmd(CMD_OFF);
Serial.println(F(" Halted"));
@@ -380,8 +380,7 @@ int Item::Ctrl(short cmd, short n, int * Par, boolean send)
switch (itemType)
{
switch (itemType) {
#ifdef _dmxout
case CH_DIMMER: //Dimmed light
@@ -395,7 +394,8 @@ int Item::Ctrl(short cmd, short n, int * Par, boolean send)
{
int k;
DmxWrite(iaddr + 3, k = map((100 - Par[1]) * Par[2], 0, 10000, 0, 255));
Serial.print(F("W:"));Serial.println(k);
Serial.print(F("W:"));
Serial.println(k);
}
@@ -411,7 +411,8 @@ int Item::Ctrl(short cmd, short n, int * Par, boolean send)
DmxWrite(iaddr + 2, rgb.b);
break; }
break;
}
case CH_WHITE:
@@ -423,28 +424,25 @@ int Item::Ctrl(short cmd, short n, int * Par, boolean send)
#endif
#ifdef _modbus
case CH_MODBUS:
{
case CH_MODBUS: {
if ((itemArg->type == aJson_Array) && (aJson.getArraySize(itemArg)==3))
{
if ((itemArg->type == aJson_Array) && (aJson.getArraySize(itemArg) == 3)) {
int _addr = aJson.getArrayItem(itemArg, 0)->valueint;
int _reg = aJson.getArrayItem(itemArg, 1)->valueint;
int _mask = aJson.getArrayItem(itemArg, 2)->valueint;
modbusSet(_addr, _reg, _mask, map(Par[0], 0, 100, 0, 0x3f));
}
break;}
break;
}
#endif
case CH_GROUP://Group
{
//aJsonObject *groupArr= aJson.getArrayItem(itemArr, 1);
if (itemArg->type==aJson_Array)
{
if (itemArg->type == aJson_Array) {
aJsonObject *i = itemArg->child;
while (i)
{
while (i) {
Item it(i->valuestring);
// it.copyPar(itemVal);
it.Ctrl(cmd, n, Par, send); //// was true
@@ -453,20 +451,26 @@ int Item::Ctrl(short cmd, short n, int * Par, boolean send)
} //if
} //case
break;
case CH_RELAY:
{int k;
case CH_RELAY: {
int k;
pinMode(iaddr, OUTPUT);
digitalWrite(iaddr, k = ((cmd == CMD_ON) ? HIGH : LOW));
Serial.print(F("Pin:"));Serial.print(iaddr);Serial.print(F("="));Serial.println(k);
Serial.print(F("Pin:"));
Serial.print(iaddr);
Serial.print(F("="));
Serial.println(k);
break;
case CH_THERMO:
///thermoSet(name,cmd,Par1); all cativities done - update temp & cmd
break;
}
case CH_PWM:
{int k;
case CH_PWM: {
int k;
short inverse = 0;
if (iaddr<0) {iaddr=-iaddr;inverse=1;}
if (iaddr < 0) {
iaddr = -iaddr;
inverse = 1;
}
pinMode(iaddr, OUTPUT);
//timer 0 for pin 13 and 4
//timer 1 for pin 12 and 11
@@ -490,7 +494,10 @@ int Item::Ctrl(short cmd, short n, int * Par, boolean send)
if (inverse) k = map(Par[0], 100, 0, 0, 255);
else k = map(Par[0], 0, 100, 0, 255);
analogWrite(iaddr, k);
Serial.print(F("Pin:"));Serial.print(iaddr);Serial.print(F("="));Serial.println(k);
Serial.print(F("Pin:"));
Serial.print(iaddr);
Serial.print(F("="));
Serial.println(k);
break;
}
#ifdef _modbus
@@ -500,8 +507,7 @@ int Item::Ctrl(short cmd, short n, int * Par, boolean send)
break;
case CH_VCTEMP:
{
case CH_VCTEMP: {
Item it(itemArg->valuestring);
if (it.isValid() && it.itemType == CH_VC)
VacomSetHeat(it.getArg(), Par[0], cmd);
@@ -516,8 +522,7 @@ int Item::Ctrl(short cmd, short n, int * Par, boolean send)
}
int Item::isActive()
{
int Item::isActive() {
HSVstore st;
int val = 0;
@@ -529,8 +534,7 @@ int cmd=getCmd();
if (itemType != CH_GROUP)
// Simple check last command first
switch (cmd)
{
switch (cmd) {
case CMD_ON:
//Serial.println(" active");
return 1;
@@ -544,18 +548,18 @@ switch (cmd)
// Last time was not a command but parameters set. Looking inside
st.aslong = getVal();
switch (itemType)
{
switch (itemType) {
case CH_GROUP: //make recursive calculation - is it some active in group
if (itemArg->type==aJson_Array)
{
if (itemArg->type == aJson_Array) {
Serial.println(F("Grp check: "));
aJsonObject *i = itemArg->child;
while (i)
{
while (i) {
Item it(i->valuestring);
if (it.isValid() && it.isActive()) {Serial.println(F("Active")); return 1;}
if (it.isValid() && it.isActive()) {
Serial.println(F("Active"));
return 1;
}
i = i->next;
} //while
return 0;
@@ -577,7 +581,8 @@ switch (itemType)
case CH_VCTEMP:
val = st.aslong;
} //switch
Serial.print(F(":="));Serial.println(val);
Serial.print(F(":="));
Serial.println(val);
if (val) return 1; else return 0;
}
@@ -648,21 +653,25 @@ POOL 2101x10
*/
void mb_fail(short addr, short op, int val, int cmd)
{
void mb_fail(short addr, short op, int val, int cmd) {
Serial.println(F("Modbus op failed"));
}
extern ModbusMaster node;
int Item::VacomSetFan (int8_t val, int8_t cmd)
{
int Item::VacomSetFan(int8_t val, int8_t cmd) {
int addr = getArg();
Serial.print(F("VC#"));Serial.print(addr);Serial.print(F("="));Serial.println(val);
Serial.print(F("VC#"));
Serial.print(addr);
Serial.print(F("="));
Serial.println(val);
if (modbusBusy) {mb_fail(1,addr,val,cmd);return -1;}
if (modbusBusy) {
mb_fail(1, addr, val, cmd);
return -1;
}
modbusBusy = 1;
uint8_t j, result;
@@ -674,8 +683,7 @@ node.begin(addr,modbusSerial);
if (val) {
node.writeSingleRegister(2001 - 1, 4 + 1);//delay(500);
//node.writeSingleRegister(2001-1,1);
}
else node.writeSingleRegister(2001-1,0);
} else node.writeSingleRegister(2001 - 1, 0);
delay(50);
node.writeSingleRegister(2003 - 1, val * 100);
@@ -686,11 +694,18 @@ node.begin(addr,modbusSerial);
#define a 0.1842
#define b -36.68
int Item::VacomSetHeat(int addr,int8_t val, int8_t cmd)
{
int Item::VacomSetHeat(int addr, int8_t val, int8_t cmd) {
Serial.print(F("VC_heat#"));Serial.print(addr);Serial.print(F("="));Serial.print(val);Serial.print(F(" cmd="));Serial.println(cmd);
if (modbusBusy) {mb_fail(2,addr,val,cmd);return -1;}
Serial.print(F("VC_heat#"));
Serial.print(addr);
Serial.print(F("="));
Serial.print(val);
Serial.print(F(" cmd="));
Serial.println(cmd);
if (modbusBusy) {
mb_fail(2, addr, val, cmd);
return -1;
}
modbusBusy = 1;
modbusSerial.begin(9600, fmPar);
@@ -698,8 +713,7 @@ node.begin(addr,modbusSerial);
uint16_t regval;
switch (cmd)
{
switch (cmd) {
case CMD_OFF:
case CMD_HALT:
regval = 0;
@@ -715,8 +729,7 @@ node.begin(addr,modbusSerial);
}
int Item::SendCmd(short cmd,short n, int * Par)
{
int Item::SendCmd(short cmd, short n, int *Par) {
/// ToDo: relative patches, configuration
@@ -728,8 +741,7 @@ int Item::SendCmd(short cmd,short n, int * Par)
strncat(addrstr, itemArr->name, sizeof(addrstr)); ////
switch (cmd)
{
switch (cmd) {
case CMD_ON:
strcpy(valstr, "ON");
break;
@@ -741,13 +753,11 @@ int Item::SendCmd(short cmd,short n, int * Par)
case 0:
case CMD_SET:
if (Par)
for (short i=0;i<n;i++)
{
for (short i = 0; i < n; i++) {
char num[4];
snprintf(num, sizeof(num), "%d", Par[i]);
strncat(valstr, num, sizeof(valstr));
if (i!=n-1)
{
if (i != n - 1) {
strcpy(num, ",");
strncat(valstr, num, sizeof(valstr));
}
@@ -757,39 +767,46 @@ int Item::SendCmd(short cmd,short n, int * Par)
return -1;
}
Serial.print(addrstr);Serial.print(F("->"));Serial.println(valstr);
client.publish(addrstr, valstr);
Serial.print(addrstr);
Serial.print(F("->"));
Serial.println(valstr);
mqttClient.publish(addrstr, valstr);
return 0;
}
int modbusSet(int addr, uint16_t _reg, int _mask, uint16_t value) {
int modbusSet(int addr, uint16_t _reg, int _mask, uint16_t value)
{
if (modbusBusy) {mb_fail(3,addr,value,0);return -1;};
if (modbusBusy) {
mb_fail(3, addr, value, 0);
return -1;
};
modbusBusy = 1;
modbusSerial.begin(9600, dimPar);
node.begin(addr, modbusSerial);
if (_mask)
{value <<= 8; value |= (0xff);}
else {value &= 0xff; value |= (0xff00);}
if (_mask) {
value <<= 8;
value |= (0xff);
} else {
value &= 0xff;
value |= (0xff00);
}
Serial.print(addr);Serial.print(F("=>"));Serial.print(_reg,HEX);Serial.print(F(":"));Serial.println(value,HEX);
Serial.print(addr);
Serial.print(F("=>"));
Serial.print(_reg, HEX);
Serial.print(F(":"));
Serial.println(value, HEX);
node.writeSingleRegister(_reg, value);
modbusBusy = 0;
}
int Item::checkFM()
{
int Item::checkFM() {
if (modbusBusy) return -1;
modbusBusy = 1;
@@ -815,12 +832,12 @@ node.begin(getArg(),modbusSerial);
result = node.readHoldingRegisters(2101 - 1, 10);
// do something with data if read is successful
if (result == node.ku8MBSuccess)
{ Serial.print(F(" FM Val :"));
for (j = 0; j < 10; j++)
{
if (result == node.ku8MBSuccess) {
Serial.print(F(" FM Val :"));
for (j = 0; j < 10; j++) {
data = node.getResponseBuffer(j);
Serial.print(data,HEX);Serial.print(F("-"));
Serial.print(data, HEX);
Serial.print(F("-"));
}
@@ -836,7 +853,10 @@ node.begin(getArg(),modbusSerial);
aJson.addNumberToObject(out, "sw", (int) node.getResponseBuffer(0));
Serial.println();
} else {Serial.print(F("Modbus pooling error=")); Serial.println(result,HEX); }
} else {
Serial.print(F("Modbus pooling error="));
Serial.println(result, HEX);
}
if (node.getResponseBuffer(0) & 8) //Active fault
{
@@ -848,12 +868,12 @@ delay(50);
result = node.readHoldingRegisters(20 - 1, 4);
// do something with data if read is successful
if (result == node.ku8MBSuccess)
{ Serial.print(F(" PI Val :"));
for (j = 0; j < 4; j++)
{
if (result == node.ku8MBSuccess) {
Serial.print(F(" PI Val :"));
for (j = 0; j < 4; j++) {
data = node.getResponseBuffer(j);
Serial.print(data);Serial.print(F("-"));
Serial.print(data);
Serial.print(F("-"));
}
@@ -866,11 +886,14 @@ result = node.readHoldingRegisters(20-1, 4);
Serial.println();
} else {Serial.print(F("Modbus pooling error=")); Serial.println(result,HEX); }
} else {
Serial.print(F("Modbus pooling error="));
Serial.println(result, HEX);
}
outch = aJson.print(out);
client.publish(addrstr, outch);
mqttClient.publish(addrstr, outch);
free(outch);
aJson.deleteItem(out);
@@ -878,8 +901,7 @@ result = node.readHoldingRegisters(20-1, 4);
}
int Item::checkModbus()
{
int Item::checkModbus() {
if (modbusBusy) return -1;
modbusBusy = 1;
@@ -899,20 +921,22 @@ result = node.readHoldingRegisters(20-1, 4);
result = node.readHoldingRegisters(reg, 1);
if (result == node.ku8MBSuccess)
{
if (result == node.ku8MBSuccess) {
data = node.getResponseBuffer(0);
Serial.print(F("Modbus Val: ")); Serial.println(data,HEX);
Serial.print(F("Modbus Val: "));
Serial.println(data, HEX);
checkModbus(data);
} else {
Serial.print(F("Modbus pooling error="));
Serial.println(result, HEX);
}
else {Serial.print(F("Modbus pooling error=")); Serial.println(result,HEX); }
modbusBusy = 0;
// Looking 1 step ahead for modbus item, which uses same register
Item nextItem(modbusitem->next);
if (modbusitem && nextItem.isValid() && nextItem.itemType==CH_MODBUS && nextItem.getArg(0)==addr && nextItem.getArg(1)==reg)
{
if (modbusitem && nextItem.isValid() && nextItem.itemType == CH_MODBUS && nextItem.getArg(0) == addr &&
nextItem.getArg(1) == reg) {
nextItem.checkModbus(data);
modbusitem = modbusitem->next;
if (!modbusitem) modbusitem = items->child;
@@ -921,27 +945,23 @@ result = node.readHoldingRegisters(20-1, 4);
}
int Item::checkModbus(int data)
{
int Item::checkModbus(int data) {
short mask = getArg(2);
int d = data;
if (mask) d>>=8; d&=0xff;
if (mask) d >>= 8;
d &= 0xff;
d = map(d, 0, 0x3f, 0, 100);
int cmd = getCmd();
//Serial.println(d);
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
SendCmd(0, 1, &d); //update OH with value
setCmd(CMD_ON); //store command
setVal(d); //store value
}
else {
if (cmd!=CMD_HALT && cmd!=CMD_OFF)
{
} else {
if (cmd != CMD_HALT && cmd != CMD_OFF) {
setCmd(CMD_OFF); // store command (not value)
SendCmd(CMD_OFF);// update OH
}
@@ -949,10 +969,8 @@ int Item::checkModbus(int data)
} //if data changed
}
int Item::Pool()
{
switch (itemType)
{
int Item::Pool() {
switch (itemType) {
case CH_MODBUS:
checkModbus();
break;

505
lighthub/main.cpp
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12
lighthub/main.h
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@@ -25,14 +25,14 @@ void Changed (int i, DeviceAddress addr, int val);
void modbusIdle(void);
void _handleHelp(int arg_cnt, char **args);
void _kill(int arg_cnt, char **args);
void parseConfig();
void parseConfigFromParsedJSON();
void _loadConfig (int arg_cnt, char **args);
int loadConfig (int arg_cnt, char **args);
void _mqttConfigReq (int arg_cnt, char **args);
int mqttConfigReq (int arg_cnt, char **args);
int loadConfigFromEEPROM(int arg_cnt, char **args);
void _mqttConfigRequest(int arg_cnt, char **args);
int mqttConfigRequest(int arg_cnt, char **args);
int mqttConfigResp (char * as);
void _saveConfig(int arg_cnt, char **args);
void _setConfig(int arg_cnt, char **args);
void _saveConfigToEEPROM(int arg_cnt, char **args);
void _setMacAddress(int arg_cnt, char **args);
void _getConfig(int arg_cnt, char **args);
void printBool (bool arg);
void saveFlash(short n, char* str);

65
lighthub/owTerm.cpp
View File

@@ -22,6 +22,7 @@ e-mail anklimov@gmail.com
#include "owTerm.h"
#include <Arduino.h>
#include "utils.h"
#include "options.h"
OneWire *net = NULL;
@@ -39,8 +40,7 @@ unsigned long owTimer=0;
owChangedType owChanged;
int owUpdate()
{
int owUpdate() {
unsigned long finish = millis() + 5000;
short sr;
@@ -49,25 +49,32 @@ int owUpdate()
if (net) net->reset_search();
for (short i = 0; i < t_count; i++) wstat[i] &= ~SW_FIND; //absent
while (net && net->wireSearch(term[t_count])>0 && (t_count<t_max) && finish > millis ())
{ short ifind=-1;
if (net->crc8(term[t_count], 7) == term[t_count][7])
{
for (short i=0;i<t_count;i++) if (!memcmp(term[i],term[t_count],8)) {ifind=i;wstat[i]|=SW_FIND;
Serial.print(F(" Node:"));PrintBytes(term[t_count],8);Serial.println(F(" alive"));
break;}; //alive
if (ifind<0 && sensors)
{
while (net && net->wireSearch(term[t_count]) > 0 && (t_count < t_max) && finish > millis()) {
short ifind = -1;
if (net->crc8(term[t_count], 7) == term[t_count][7]) {
for (short i = 0; i < t_count; i++)
if (!memcmp(term[i], term[t_count], 8)) {
ifind = i;
wstat[i] |= SW_FIND;
Serial.print(F(" Node:"));
PrintBytes(term[t_count], 8);
Serial.println(F(" alive"));
break;
}; //alive
if (ifind < 0 && sensors) {
wstat[t_count] = SW_FIND; //Newly detected
Serial.print(F("dev#"));Serial.print(t_count);Serial.print(F(" Addr:"));PrintBytes(term[t_count],8);
Serial.print(F("dev#"));
Serial.print(t_count);
Serial.print(F(" Addr:"));
PrintBytes(term[t_count], 8);
Serial.println();
if (term[t_count][0]==0x28)
{
if (term[t_count][0] == 0x28) {
sensors->setResolution(term[t_count], TEMPERATURE_PRECISION);
net->setStrongPullup();
// sensors.requestTemperaturesByAddress(term[t_count]);
}
t_count++;}
t_count++;
}
}//if
} //while
@@ -99,11 +106,9 @@ term = new DeviceAddress[t_max];
wstat = new uint16_t[t_max];
#ifdef DS2482_100_I2C_TO_1W_BRIDGE
Wire.begin();
if (net->checkPresence())
{
if (net->checkPresence()) {
Serial.println(F("DS2482-100 present"));
net->deviceReset();
#ifdef APU_OFF
@@ -136,11 +141,9 @@ wstat = new uint16_t [t_max];
}
int sensors_loop(void)
{
int sensors_loop(void) {
if (!sensors) return -1;
if (si>=t_count)
{
if (si >= t_count) {
owUpdate(); //every check circle - scan for new devices
si = 0;
return 8000;
@@ -168,29 +171,27 @@ int sensors_loop(void)
}
void owLoop()
{
void owLoop() {
if (millis() >= owTimer) owTimer = millis() + sensors_loop();
}
int owFind(DeviceAddress addr)
{
int owFind(DeviceAddress addr) {
for (short i = 0; i < t_count; i++) if (!memcmp(term[i], addr, 8)) return i;//find
return -1;
}
void owAdd (DeviceAddress addr)
{
void owAdd(DeviceAddress addr) {
wstat[t_count] = SW_FIND; //Newly detected
memcpy(term[t_count], addr, 8);
//term[t_count]=addr;
Serial.print(F("dev#"));Serial.print(t_count);Serial.print(F(" Addr:"));PrintBytes(term[t_count],8);
Serial.print(F("dev#"));
Serial.print(t_count);
Serial.print(F(" Addr:"));
PrintBytes(term[t_count], 8);
Serial.println();
if (term[t_count][0]==0x28)
{
if (term[t_count][0] == 0x28) {
sensors->setResolution(term[t_count], TEMPERATURE_PRECISION);
net->setStrongPullup();
// sensors.requestTemperaturesByAddress(term[t_count]);

4
platformio.ini
View File

@@ -10,8 +10,8 @@
[platformio]
src_dir = lighthub
env_default =
; megaatmega2560
due
megaatmega2560
; due
[env:due]
platform = atmelsam