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base: andry:v4.3.1
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andry:v4.5.0 andry:v4.4.0 andry:v4.3.4 andry:v4.3.3 andry:4.3.2 andry:v4.3.1 andry:v4.3.0 andry:v4.2.0 andry:v4.1.1 andry:v4.1.0 andry:v4.0.0 andry:v3.0.1 andry:v3.0.0 andry:v2.1.1 andry:v2.1 andry:v2.0.1 andry:v2.0 andry:v1.0
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compare: andry:v4.3.3
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andry:master andry:develop
andry:v4.5.0 andry:v4.4.0 andry:v4.3.4 andry:v4.3.3 andry:4.3.2 andry:v4.3.1 andry:v4.3.0 andry:v4.2.0 andry:v4.1.1 andry:v4.1.0 andry:v4.0.0 andry:v3.0.1 andry:v3.0.0 andry:v2.1.1 andry:v2.1 andry:v2.0.1 andry:v2.0 andry:v1.0

11 Commits
v4.3.1 ... v4.3.3

Author SHA1 Message Date
Andrey
7ab78ab2ae binaries 2023-11-23 17:05:50 +03:00
Andrey
4d909dd449 DMX IN integration with items 2023-11-20 20:55:37 +03:00
Климов Андрей Николаевич
b3db766b1a post-refactoring fix (Mercury) 2023-11-20 14:58:56 +03:00
Andrey
080cdd4e22 LOG cleaning 2023-11-20 13:50:14 +03:00
Andrey
91d5acf619 pre-release bins 2023-11-20 01:23:58 +03:00
Andrey
454b88fbbf DMX IN fix (rollback to 2021) 2023-11-20 01:13:25 +03:00
Andrey
6e283e32db decrease Timer0 int priority 2023-11-19 13:47:48 +03:00
Andrey
18fbc783b5 templates, I2C/1Wire reset tune, bins 2023-11-18 00:57:12 +03:00
Климов Андрей Николаевич
5235bb67c1 timed command fx 2023-11-17 17:45:45 +03:00
Andrey
9683e51c18 subitem retrieve fix, new loglev 9 for mbus trace 2023-11-15 11:02:53 +03:00
Andrey
fd65c1a3a1 remove old stuff, templates for Emit strings 2023-11-12 23:21:11 +03:00
45 changed files with 54167 additions and 53701 deletions
Expand all files Collapse all files

3
build-flags/build_flags_lighthub21
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@@ -39,4 +39,5 @@
-D CORS=\"*\"
-D REDIRECTION_URL=\"http://lazyhome.ru/pwa\"
-D MERCURY_ENABLE
#-D IPMODBUS
#-D IPMODBUS
-D CONFIG_CLEAN_PIN=2

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compiled/Mega2560-optiboot/firmware.bin
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compiled/Mega2560-optiboot/firmware.hex
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compiled/controllino/firmware.hex
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compiled/due/firmware.bin
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compiled/esp32-wifi/firmware.bin
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compiled/esp8266-wifi/firmware.bin
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compiled/lighthub21/firmware.bin
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4
compiled/lighthub21/upload.sh
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@@ -1,3 +1,3 @@
export PORT=cu.usbmodem14101
export PORT=cu.usbmodem141101
echo . | stty -f /dev/$PORT speed 1200
../tools/mac/tool-bossac/bossac -U false -p $PORT -i -e -w -v -b firmware.bin -R
../tools/mac/tool-bossac/bossac -U false -p $PORT -i -w -v -b firmware.bin -R

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compiled/m5stack/firmware.bin
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compiled/mega2560-5100/firmware.hex
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compiled/mega2560-5500/firmware.hex
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compiled/mega2560slim/firmware.bin
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compiled/nrf52840/firmware.hex
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compiled/stm32-enc2860/firmware.bin
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compiled/stm32/firmware.bin
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compiled/stm32/firmware.elf
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3
lighthub/abstractch.h
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@@ -4,6 +4,7 @@
#define CST_UNKNOWN 0
#define CST_FAILED 1
#define CST_INITIALIZED 2
#define CST_USER 3
class abstractCh {
public:
@@ -11,7 +12,7 @@ public:
virtual ~abstractCh(){};
virtual int Poll(short cause) {return 0;}
virtual int Setup() =0; //Should initialize hardware and reserve resources
virtual int Anounce () {return 0;};
// virtual int Anounce () {return 0;};
virtual int Stop() {return 0;}; //Should free resources
virtual int Status() {return CST_UNKNOWN;}
virtual void setStatus(uint8_t status) {}

2
lighthub/abstractout.h
View File

@@ -13,7 +13,7 @@ public:
virtual bool isAllowed(itemCmd cmd){return true;};
virtual itemCmd getDefaultOnVal(){return itemCmd().Percents255(255);};
virtual int getChanType(){return 0;}
virtual int getDefaultStorageType(){return 0;} /// Remove?? Now getChanType used instead
// virtual int getDefaultStorageType(){return 0;} /// Remove?? Now getChanType used instead
virtual int Status() override;
virtual void setStatus(uint8_t status) override;
int Setup() override;

5
lighthub/colorchannel.cpp
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@@ -16,7 +16,7 @@ short colorChannel::getChannelAddr(short n)
return item->getArg(n);
}
/*
int colorChannel::getDefaultStorageType()
{
@@ -33,7 +33,7 @@ int colorChannel::getDefaultStorageType()
return ST_VOID;
}
/*
int colorChannel::isActive()
{
itemCmd st;
@@ -58,7 +58,6 @@ case S_NOTFOUND:
// turn on and set
toExecute = true;
case S_SET:
//case S_ESET:
case S_HSV:
PixelCtrl(cmd, subItem, toExecute, authorized);
return 1;

2
lighthub/colorchannel.h
View File

@@ -15,7 +15,7 @@ public:
numArgs = item->getArgCount(); // and how many addresses is configured
};
int Ctrl(itemCmd cmd, char* subItem=NULL, bool toExecute=true, bool authorized=false) override;
int getDefaultStorageType()override;
//int getDefaultStorageType()override;
virtual int PixelCtrl(itemCmd cmd, char* subItem=NULL, bool show=true, bool authorized = false ) =0;
short getChannelAddr(short n =0);
// int isActive() override;

171
lighthub/dmx.cpp
View File

@@ -47,6 +47,7 @@ volatile uint32_t checkTimestamp=0L;
#if defined(_dmxin)
volatile uint32_t D_State=0;
volatile unsigned long D_checkT=0;
uint8_t DMXINChannels=0;
#endif
#ifdef _artnet
@@ -61,6 +62,61 @@ extern aJsonObject *items;
extern aJsonObject *dmxArr;
itemCmd rgb2hsv(itemCmd in)
{
itemCmd out;
out.setArgType(ST_HSV255);
double min, max, delta;
double inr=in.param.r/255;
double ing=in.param.g/255;
double inb=in.param.b/255;
double inw=in.param.w/255;
min = inr < ing ? inr : ing;
min = min < inb ? min : inb;
max = inr > ing ? inr : ing;
max = max > inb ? max : inb;
max = max > inw ? max : inw;
out.param.v = max*255; // v
delta = max - min;
if (delta < 0.00001)
{
out.param.s = 0;
out.param.h = 0; // undefined, maybe nan?
return out;
}
if( max > 0.0 ) { // NOTE: if Max is == 0, this divide would cause a crash
out.param.s = (delta / max)*100; // s
} else {
// if max is 0, then r = g = b = 0
// s = 0, h is undefined
out.param.s = 0;
out.param.h = 0; // its now undefined
return out;
}
double outh;
if( inr >= max ) // > is bogus, just keeps compilor happy
outh = ( ing - inb ) / delta; // between yellow & magenta
else
if( ing >= max )
outh = 2.0 + ( inb - inr ) / delta; // between cyan & yellow
else
outh = 4.0 + ( inr - ing ) / delta; // between magenta & cyan
outh *= 60.0; // degrees
if( outh < 0.0 )
outh += 360.0;
out.param.h=outh;
return out;
}
int itemCtrl2(char* name,int r,int g, int b, int w)
{
if (!items) return 0;
@@ -68,7 +124,6 @@ int itemCtrl2(char* name,int r,int g, int b, int w)
if (itemArr && (itemArr->type==aJson_Array))
{
short itemtype = aJson.getArrayItem(itemArr,0)->valueint;
short itemaddr = aJson.getArrayItem(itemArr,1)->valueint;
switch (itemtype){
@@ -84,7 +139,6 @@ int itemCtrl2(char* name,int r,int g, int b, int w)
case CH_RGB: // RGB
{
DmxWrite(itemaddr, r);
DmxWrite(itemaddr+1, g);
DmxWrite(itemaddr+2, b);
@@ -96,7 +150,7 @@ int itemCtrl2(char* name,int r,int g, int b, int w)
if (groupArr && (groupArr->type==aJson_Array))
{ aJsonObject *i =groupArr->child;
while (i)
{ //Serial.println(i->valuestring);
{
if (i->type == aJson_String) itemCtrl2(i->valuestring,r,g,b,w);
i=i->next;}
}
@@ -119,9 +173,34 @@ void DMXImmediateUpdate(short tch,short r, short g, short b, short w) {
}
}
void DMXSemiImmediateUpdate(short tch,short trh, int val)
void DMXSemiImmediateUpdate(short tch,short r, short g, short b, short w)
{
//Here any code for passthrow between DMX IN and DMX OUT in idle state
if (dmxArr && (dmxArr->type==aJson_Array))
{
aJsonObject *DMXch = aJson.getArrayItem(dmxArr,tch);
char* itemname = NULL;
if (DMXch->type == aJson_String) itemname=DMXch->valuestring;
if (itemname)
{
Item it(itemname);
if (!r && !g && !b && !w) it.Ctrl(itemCmd().Cmd(CMD_OFF).setSuffix(S_CMD));
else
{
/*
CRGB rgb;
rgb.r = r;
rgb.g = g;
rgb.b = b;
CHSV hsv = rgb2hsv_approximate(rgb);
it.Ctrl(itemCmd().HSV255(hsv.h,hsv.s,hsv.v).setSuffix(S_SET)); */
it.Ctrl(itemCmd().RGBW(r,g,b,w).setSuffix(S_SET));
//it.Ctrl(rgb2hsv(itemCmd().RGBW(r,g,b,w)).setSuffix(S_SET));
it.Ctrl(itemCmd().Cmd(CMD_ON).setSuffix(S_CMD));
}
}
}
}
void DMXput(void)
@@ -132,6 +211,7 @@ for (short tch=0; tch<=3 ; tch++)
short base = tch*4;
DMXImmediateUpdate(tch,DMXin[base],DMXin[base+1],DMXin[base+2],DMXin[base+3]);
}
};
extern volatile uint8_t timerHandlerBusy;
@@ -140,81 +220,62 @@ extern volatile uint8_t timerHandlerBusy;
volatile int DMXinDoublecheck=0;
#endif
// INVOKED BY INTERRUPTS - MUST BE SAFE CODE
void DMXUpdate(void)
{
#if defined(_dmxin)
int t;
if(!DMXin) return;
#if defined(__SAM3X8E__)
if (dmxin.getRxLength()<16) return;
if (dmxin.getRxLength()<DMXINChannels) return;
#endif
for (short tch=0; tch<=3 ; tch++)
uint8_t RGBWChannels=DMXINChannels >> 2;
for (short tch=0; tch<RGBWChannels ; tch++)
{
short base = tch*4;
bool updated = 0;
bool confirmed = 0;
bool updated = false;
int t;
for (short trh=0; trh<4 ; trh++)
if (((t=dmxin.read(base+trh+1)) != DMXin[base+trh]))
if ((t=dmxin.read(base+trh+1)) != DMXin[base+trh])
{
D_State |= (1<<tch);
updated=1;
if (DMXinDoublecheck>2)
{
D_State |= (1<<tch);
DMXin[base+trh]=t;
confirmed = 1;
}
}
if (updated) DMXinDoublecheck++; else DMXinDoublecheck=0;
if (confirmed)
DMXin[base+trh]=t;
}
if (updated)
{
DMXImmediateUpdate(tch,DMXin[base],DMXin[base+1],DMXin[base+2],DMXin[base+3]);
//for (int i=1; i<17; i++) {debugSerial.print(dmxin.read(i));debugSerial.print("-");};debugSerial.print("|");
D_checkT=millisNZ();
}
}
//Serial.print(D_State,BIN);Serial.println();
#endif
}
void DMXCheck(void)
// INVOKED in safe loop
void DMXCheck(void)
{
// CHSV hsv;
// CRGB rgb;
DMXOUT_propagate();
#if defined(_dmxin)
short t,tch;
//Here code for semi-immediate update
for (t=1,tch=0; t<=8 ; t<<=1,tch++)
if (D_State & t)
{
// Serial.print(D_State,BIN);Serial.print(":");
D_State &= ~t;
for (short trh=0; trh<4 ; trh++)
DMXSemiImmediateUpdate(tch,trh,DMXin[tch*4+trh]);
}
//if ((millis()<D_checkT) || (D_checkT==0)) return;
if ( (!D_checkT) || (!isTimeOver(D_checkT,millis(),D_CHECKT))) return;
if ( (!D_checkT) || (!isTimeOver(D_checkT,millis(),D_CHECKT))) return;
D_checkT=0;
uint8_t RGBWChannels=DMXINChannels >> 2;
for (short rgbwChan=0; rgbwChan < RGBWChannels; rgbwChan++)
{
short base = rgbwChan*4;
short bitMask = 1 << rgbwChan;
if (D_State & bitMask)
{
D_State &= ~bitMask;
DMXSemiImmediateUpdate(rgbwChan,DMXin[base],DMXin[base+1],DMXin[base+2],DMXin[base+3]);
break;
}
}
// Here code for network update
//int ch = 0;
DMXput();
#ifdef _dmxout
for (int i=1; i<17; i++) {debugSerial.print(dmxin.read(i));debugSerial.print(";");}
debugSerial.println();
#endif
//#ifdef _dmxout
//for (int i=1; i<17; i++) {debugSerial.print(dmxin.read(i));debugSerial.print(";");}
//debugSerial.println();
//#endif
#endif
}
@@ -238,7 +299,9 @@ void DMXinSetup(int channels)
//DmxSimple.maxChannel(channels);
#if defined(_dmxin)
if (channels>(32*4)) channels = 32*4;
DMXin = new uint8_t [channels];
DMXINChannels=channels;
#if defined(ARDUINO_ARCH_AVR)
DMXSerial.init(DMXReceiver,0,channels);
if (DMXSerial.getBuffer()) {debugSerial.print(F("Init in ch:"));debugSerial.println(channels);} else debugSerial.println(F("DMXin Buffer alloc err"));

76
lighthub/item.cpp
View File

@@ -104,8 +104,15 @@ int subitem2cmd(char *payload) {
}
int txt2subItem(char *payload) {
int cmd = S_NOTFOUND;
if (!payload || !strlen(payload)) return S_NOTFOUND;
for(uint8_t i=1; i<suffixNum ;i++)
if (strcmp_P(payload, suffix_P[i]) == 0)
{
return i;
}
return S_NOTFOUND;
/*
int cmd = S_NOTFOUND;
// Check for command
if (strcmp_P(payload, SET_P) == 0) cmd = S_SET;
else if (strcmp_P(payload, CTRL_P) == 0) cmd = S_CTRL;
@@ -120,7 +127,8 @@ int txt2subItem(char *payload) {
else if (strcmp_P(payload, VAL_P) == 0) cmd = S_VAL;
else if (strcmp_P(payload, DEL_P) == 0) cmd = S_DELAYED;
else if (strcmp_P(payload, _RAW_P) == 0) cmd = S_RAW;
return cmd;
return cmd; */
}
//const short defval[4] = {0, 0, 0, 0}; //Type,Arg,Val,Cmd
@@ -487,7 +495,7 @@ void Item::setExt(long int par) // Only store if VAL is int (autogenerated or c
if(itemExt->type == aJson_NULL) itemExt->type=aJson_Int;
else if(itemExt->type != aJson_Int ) return;
itemExt->valueint = par;
debugSerial<<F("Stored EXT:")<<par<<endl;
//debugSerial<<F("Stored EXT:")<<par<<endl;
}
@@ -908,6 +916,7 @@ int Item::Ctrl(itemCmd cmd, char* subItem, bool allowRecursion, bool authorized
int res = -1;
uint16_t status2Send = 0;
uint8_t command2Set = 0;
itemCmd originalCmd = cmd;
/// Common (GRP & NO GRP) commands
switch (cmd.getCmd())
@@ -1063,7 +1072,7 @@ int Item::Ctrl(itemCmd cmd, char* subItem, bool allowRecursion, bool authorized
if ((suffixCode==S_CMD) && cmd.isValue())
{
scheduleOppositeCommand(cmd,chActive,authorized);
scheduleOppositeCommand(originalCmd,chActive,authorized);
scheduledOppositeCommand = true;
}
}
@@ -1372,7 +1381,7 @@ int Item::Ctrl(itemCmd cmd, char* subItem, bool allowRecursion, bool authorized
if (oppositeCommandToBeSchedulled) //invoked not as group part, delayed
{
scheduleOppositeCommand(cmd,chActive,authorized);
scheduleOppositeCommand(originalCmd,chActive,authorized);
status2Send &=~FLAG_PARAMETERS;
}
} // NO GROUP
@@ -1464,7 +1473,7 @@ if ((!driver || driver->isAllowed(cmd)) && (!getFlag(FLAG_FREEZED)))
if (!tStore.timestamp16) mqttClient.publish("/alarmoff/snsr", itemArr->name);
tStore.tempX100=cmd.getFloat()*100.; //Save measurement
tStore.timestamp16=millisNZ(8) & 0xFFFF; //And timestamp
debugSerial<<F(" T:")<<tStore.tempX100<<F(" TS:")<<tStore.timestamp16<<endl;
//debugSerial<<F(" T:")<<tStore.tempX100<<F(" TS:")<<tStore.timestamp16<<endl;
setExt(tStore.asint);
res=1;
}
@@ -1801,9 +1810,14 @@ int Item::SendStatus(int sendFlags) {
strncat(addrstr, "/", sizeof(addrstr)-1);
// if (sendFlags & FLAG_SEND_DELAYED)
// strncat_P(addrstr, DEL_P, sizeof(addrstr)-1);
// else strncat_P(addrstr, SET_P, sizeof(addrstr)-1);
if (sendFlags & FLAG_SEND_DELAYED)
strncat_P(addrstr, DEL_P, sizeof(addrstr)-1);
else strncat_P(addrstr, SET_P, sizeof(addrstr)-1);
strncat_P(addrstr, suffix_P[S_DELAYED], sizeof(addrstr)-1);
else strncat_P(addrstr, suffix_P[S_SET], sizeof(addrstr)-1);
// Preparing parameters payload //////////
switch (st.getArgType()) {
@@ -1872,7 +1886,8 @@ int Item::SendStatus(int sendFlags) {
strncat(addrstr, subItem, sizeof(addrstr)-1);
}
strncat(addrstr, "/", sizeof(addrstr)-1);
strncat_P(addrstr, CMD_P, sizeof(addrstr)-1);
// strncat_P(addrstr, CMD_P, sizeof(addrstr)-1);
strncat_P(addrstr, suffix_P[S_CMD], sizeof(addrstr)-1);
debugSerial<<F("Pub: ")<<addrstr<<F("->")<<cmdstr<<endl;
if (mqttClient.connected() && !ethernetIdleCount)
@@ -1909,7 +1924,8 @@ int Item::SendStatus(int sendFlags) {
strncat(addrstr, subItem, sizeof(addrstr)-1);
}
strncat(addrstr, "/", sizeof(addrstr)-1);
strncat_P(addrstr, CTRL_P, sizeof(addrstr)-1);
//strncat_P(addrstr, CTRL_P, sizeof(addrstr)-1);
strncat_P(addrstr, suffix_P[S_CTRL], sizeof(addrstr)-1);
debugSerial<<F("Pub: ")<<addrstr<<F("->")<<cmdstr<<endl;
if (mqttClient.connected() && !ethernetIdleCount)
@@ -2006,38 +2022,6 @@ int Item::checkRetry() {
return M_CLEAN;
}
/*
bool Item::resumeModbus()
{
if (modbusBusy) return false;
bool success = true;
//debugSerial<<F("Pushing MB: ");
configLocked++;
if (items) {
aJsonObject * item = items->child;
while (items && item)
if (item->type == aJson_Array && aJson.getArraySize(item)>1) {
Item it(item);
if (it.isValid()) {
short res = it.checkModbusRetry();
if (res<=0) success = false;
} //isValid
yield();
item = item->next;
} //if
debugSerial<<endl;
}
configLocked--;
if (success) isPendedModbusWrites=false;
return true;
}
*/
//////////////////// Begin of legacy MODBUS code - to be moved in separate module /////////////////////
@@ -2409,14 +2393,6 @@ int Item::checkModbusDimmer() {
uint16_t reg = getArg(MODBUS_CMD_ARG_REG);
int _regType = MODBUS_HOLDING_REG_TYPE;
if (numpar >= (MODBUS_CMD_ARG_REG_TYPE+1)) _regType = aJson.getArrayItem(itemArg, MODBUS_CMD_ARG_REG_TYPE)->valueint;
// short mask = getArg(2);
// debugSerial<<F("Modbus polling "));
// debugSerial<<addr);
// debugSerial<<F("=>"));
// debugSerial<<reg, HEX);
// debugSerial<<F("(T:"));
// debugSerial<<_regType);
// debugSerial<<F(")"));
int data;

23
lighthub/item.h
View File

@@ -37,6 +37,11 @@ e-mail anklimov@gmail.com
#define S_TEMP 12
#define S_RAW 13
typedef char suffixstr[5];
const suffixstr suffix_P[] PROGMEM =
{"","cmd","set","val","del","HSV","RGB","fan","mode","ctrl","hue","sat","temp","raw"};
#define suffixNum sizeof(suffix_P)/sizeof(suffixstr)
#define S_ADDITIONAL 13
#define CH_DIMMER 0 //DMX 1-4 ch
@@ -63,16 +68,6 @@ e-mail anklimov@gmail.com
#define CH_HUMIDIFIER 21
#define CH_MERCURY 22
//#define CHANNEL_TYPES 13
//static uint32_t pollInterval[CHANNEL_TYPES] = {0,0,0,0,MODB};
//static uint32_t nextPollTime[CHANNEL_TYPES] = {0,0,0,0,0,0,0,0,0,0,0,0,0};
#define CH_WHITE 127//
#define POLLING_SLOW 1
#define POLLING_FAST 2
#define POLLING_INT 3
@@ -157,24 +152,16 @@ class Item
int VacomSetFan (itemCmd st);
int VacomSetHeat(itemCmd st);
int modbusDimmerSet(itemCmd st);
int modbusDimmerSet(int addr, uint16_t _reg, int _regType, int _mask, uint16_t value);
void mb_fail(int result=0);
void Parse();
int checkModbusDimmer();
int checkModbusDimmer(int data);
int checkRetry();
//boolean checkVCRetry();
//boolean checkHeatRetry();
void sendDelayedStatus();
//bool resumeModbus();
int checkFM();
char defaultSubItem[16];
int defaultSuffixCode;
};
typedef union

12
lighthub/main.cpp
View File

@@ -230,7 +230,7 @@ debugSerial<<F("Deleting conf. RAM was:")<<freeRam();
topics = NULL;
mqttArr = NULL;
deviceName = NULL;
topics = NULL;
#ifdef _dmxout
dmxArr = NULL;
#endif
@@ -2003,6 +2003,10 @@ int16_t attachTimer(double microseconds, timerCallback callback, const char* Tim
dueTimerInterrupt.attachInterruptInterval(microseconds, callback);
timerNumber = dueTimerInterrupt.getTimerNumber();
debugSerial<<TimerName<<F(" attached to Timer(")<<timerNumber<<F(")")<<endl;
//DueTimer.Timers[timerNumber].irq
NVIC_SetPriority(TC0_IRQn,2);
debugSerial << "USART0 prio:" << NVIC_GetPriority (USART0_IRQn)<< " TC0 prio:" << NVIC_GetPriority (TC0_IRQn)<<endl;
return timerNumber;
}
#endif
@@ -2493,6 +2497,11 @@ infoSerial<<F("\nNOSERIAL");
infoSerial<<F("\n(+)ELEVATOR");
#endif
#ifdef MERCURY_ENABLE
infoSerial<<F("\n(+)MERCURY");
#else
infoSerial<<F("\n(-)MERCURY");
#endif
//#ifdef IPMODBUS
//infoSerial<<F("\n(+)IPMODBUS");
//#endif
@@ -2832,6 +2841,7 @@ configLocked--;
void inputSetup(void) {
infoSerial<<F("Initializing Inputs")<<endl;
if (!inputs) return;
configLocked++;
aJsonObject *input = inputs->child;

71
lighthub/modules/in_ccs811_hdc1080.cpp
View File

@@ -22,14 +22,14 @@ static bool CCS811ready = false;
int in_ccs811::Setup()
{
if (CCS811ready) {errorSerial<<F("ccs811 is already initialized")<<endl; return 0;}
if (CCS811ready) {errorSerial<<F("CCS811: Already initialized")<<endl; return 0;}
#ifdef WAK_PIN
pinMode(WAK_PIN,OUTPUT);
digitalWrite(WAK_PIN,LOW);
#endif
infoSerial.println("CCS811 Init");
infoSerial.println(F("CCS811: Init"));
#if defined (TWI_SCL) && defined (TWI_SDA)
Wire.begin(TWI_SDA,TWI_SCL); //Inialize I2C Harware
@@ -37,7 +37,9 @@ Wire.begin(TWI_SDA,TWI_SCL); //Inialize I2C Harware
Wire.begin(); //Inialize I2C Harware
#endif
Wire.setClock(4000);
#ifdef I2C_CLOCK
Wire.setClock(I2C_CLOCK);
#endif
//It is recommended to check return status on .begin(), but it is not
//required.
@@ -46,8 +48,7 @@ Wire.setClock(4000);
if (returnCode != CCS811Core::SENSOR_SUCCESS)
//if (returnCode != CCS811Core::CCS811_Stat_SUCCESS)
{
errorSerial.print("CCS811 Init error ");
//debugSerial.println(ccs811.statusString(returnCode));
errorSerial.print(F("CCS811: Init error "));
printDriverError(returnCode);
return 0;
}
@@ -68,16 +69,16 @@ return 1;
int in_hdc1080::Setup()
{
//i2cReset();
if (HDC1080ready) {debugSerial<<F("hdc1080 is already initialized")<<endl; return 0;}
debugSerial.println("HDC1080 Init ");
if (HDC1080ready) {debugSerial<<F("HDC1080: Already initialized")<<endl; return 0;}
debugSerial.print(F("HDC1080: Init. "));
Wire.begin(); //Inialize I2C Harware
// Default settings:
// - Heater off
// - 14 bit Temperature and Humidity Measurement Resolutions
hdc1080.begin(0x40);
debugSerial.print("Manufacturer ID=0x");
debugSerial.println(hdc1080.readManufacturerId(), HEX); // 0x5449 ID of Texas Instruments
debugSerial.print("Device ID=0x");
debugSerial.print(F("Manufacturer ID=0x"));
debugSerial.print(hdc1080.readManufacturerId(), HEX); // 0x5449 ID of Texas Instruments
debugSerial.print(F(" Device ID=0x"));
debugSerial.println(hdc1080.readDeviceId(), HEX); // 0x1050 ID of the device
printSerialNumber();
HDC1080ready = true;
@@ -91,14 +92,14 @@ int in_hdc1080::Poll(short cause)
float h,t;
int reg;
if (cause!=POLLING_SLOW) return 0;
if (!HDC1080ready) {debugSerial<<F("HDC1080 not initialized")<<endl; return 0;}
debugSerial.print("HDC Status=");
debugSerial.println(reg=hdc1080.readRegister().rawData,HEX);
if (!HDC1080ready) {errorSerial<<F("HDC1080: Not initialized")<<endl; return 0;}
debugSerial.print(F("HDC1080: Status="));
debugSerial.print(reg=hdc1080.readRegister().rawData,HEX);
if (reg!=0xff)
{
debugSerial.print(" T=");
debugSerial.print(t=hdc1080.readTemperature());
debugSerial.print("C, RH=");
debugSerial.print(F("C, RH="));
debugSerial.print(h=hdc1080.readHumidity());
debugSerial.println("%");
@@ -126,6 +127,7 @@ if (reg!=0xff)
}
else //ESP I2C glitch
{
debugSerial.println();
i2cReset();
}
return INTERVAL_SLOW_POLLING;
@@ -147,14 +149,14 @@ int in_ccs811::Poll(short cause)
CCS811Core::status returnCode = ccs811.readAlgorithmResults();
printDriverError(returnCode);
float co2,tvoc;
debugSerial.print(" CO2[");
debugSerial.print(F(" CO2["));
//Returns calculated CO2 reading
debugSerial.print(co2 = ccs811.getCO2());
debugSerial.print("] tVOC[");
debugSerial.print(F("] tVOC["));
//Returns calculated TVOC reading
debugSerial.print(tvoc = ccs811.getTVOC());
debugSerial.print("] baseline[");
debugSerial.print(F("] baseline["));
debugSerial.print(ccs811Baseline = ccs811.getBaseline());
#ifdef M5STACK
@@ -192,11 +194,11 @@ int in_ccs811::Poll(short cause)
}
void in_hdc1080::printSerialNumber() {
debugSerial.print("Device Serial Number=");
infoSerial.print(F("Device Serial Number="));
HDC1080_SerialNumber sernum = hdc1080.readSerialNumber();
char format[16];
sprintf(format, "%02X-%04X-%04X", sernum.serialFirst, sernum.serialMid, sernum.serialLast);
debugSerial.println(format);
infoSerial.println(format);
}
//printDriverError decodes the CCS811Core::status type and prints the
@@ -206,25 +208,26 @@ debugSerial.println(format);
//to this function to see what the output was.
void in_ccs811::printDriverError( CCS811Core::status errorCode )
{
debugSerial.print(F("CCS811: "));
switch ( errorCode )
{
case CCS811Core::SENSOR_SUCCESS:
debugSerial.print("SUCCESS");
debugSerial.print(F("SUCCESS"));
break;
case CCS811Core::SENSOR_ID_ERROR:
debugSerial.print("ID_ERROR");
debugSerial.print(F("ID_ERROR"));
break;
case CCS811Core::SENSOR_I2C_ERROR:
debugSerial.print("I2C_ERROR");
debugSerial.print(F("I2C_ERROR"));
break;
case CCS811Core::SENSOR_INTERNAL_ERROR:
debugSerial.print("INTERNAL_ERROR");
debugSerial.print(F("INTERNAL_ERROR"));
break;
case CCS811Core::SENSOR_GENERIC_ERROR:
debugSerial.print("GENERIC_ERROR");
debugSerial.print(F("GENERIC_ERROR"));
break;
default:
debugSerial.print("Unspecified error.");
debugSerial.print(F("Unspecified error."));
}
}
@@ -236,18 +239,18 @@ void in_ccs811::printSensorError()
if ( error == 0xFF ) //comm error
{
debugSerial.println("Failed to get ERROR_ID register.");
errorSerial.println(F("CCS811: Failed to get ERROR_ID register."));
}
else
{
//debugSerial.print("");
if (error & 1 << 5) debugSerial.print("Error: HeaterSupply");
if (error & 1 << 4) debugSerial.print("Error: HeaterFault");
if (error & 1 << 3) debugSerial.print("Error: MaxResistance");
if (error & 1 << 2) debugSerial.print("Error: MeasModeInvalid");
if (error & 1 << 1) debugSerial.print("Error: ReadRegInvalid");
if (error & 1 << 0) debugSerial.print("Error: MsgInvalid");
debugSerial.println();
if (error) errorSerial.print(F("CCS811: Error "));
if (error & 1 << 5) errorSerial.print(F("HeaterSupply"));
if (error & 1 << 4) errorSerial.print(F("HeaterFault"));
if (error & 1 << 3) errorSerial.print(F("MaxResistance"));
if (error & 1 << 2) errorSerial.print(F("MeasModeInvalid"));
if (error & 1 << 1) errorSerial.print(F("ReadRegInvalid"));
if (error & 1 << 0) errorSerial.print(F("MsgInvalid"));
if (error) errorSerial.println();
}
}
#endif

12
lighthub/modules/in_ccs811_hdc1080.h
View File

@@ -7,6 +7,10 @@
#include "ClosedCube_HDC1080.h"
#include "SparkFunCCS811.h" //Click here to get the library: http://librarymanager/All#SparkFun_CCS811
//#ifndef I2C_CLOCK
//#define I2C_CLOCK 4000
//#endif
//#define CCS811_ADDR 0x5B //Default I2C Address
#define CCS811_ADDR 0x5A //Alternate I2C Address
@@ -28,13 +32,7 @@
#endif
/*
#if defined (__SAM3X8E__)
#define SCL_LOW() digitalWrite(21,LOW)
#define SCL_HIGH() digitalWrite(21,HIGH)
#define SCL_RESET
#endif
*/
#if defined (ARDUINO_ARCH_ESP32)
#undef WAK_PIN

4
lighthub/modules/out_ac.cpp
View File

@@ -21,8 +21,8 @@ extern bool disableCMD;
#define AC_FAILED CST_FAILED
#define AC_UNKNOWN CST_UNKNOWN
#define AC_IDLE CST_INITIALIZED
#define AC_SENDING 3
#define AC_IDLE CST_INITIALIZED
#define AC_SENDING CST_USER
//byte inCheck = 0;
byte qstn[] = {255,255,10,0,0,0,0,0,1,1,77,1,90}; // Команда опроса

2
lighthub/modules/out_ac.h
View File

@@ -42,7 +42,7 @@ public:
int Stop() override;
int isActive() override;
int getChanType() override;
int getDefaultStorageType(){return ST_FLOAT_CELSIUS;};
// int getDefaultStorageType(){return ST_FLOAT_CELSIUS;};
int Ctrl(itemCmd cmd, char* subItem=NULL, bool toExecute=true, bool authorized = false) override;
void SubmitParameters(const char * name, itemCmd value);

1
lighthub/modules/out_mercury.cpp
View File

@@ -97,6 +97,7 @@ debugSerial.println("Mercury: De-Init");
disconnectMercury();
delete store;
item->setPersistent(NULL);
setStatus(CST_UNKNOWN);
store = NULL;
return 1;
}

22
lighthub/modules/out_mercury.h
View File

@@ -20,16 +20,16 @@ public:
#define MB_SEND_ERROR 4
#define MB_SEND_ATTEMPTS 3
#define M_CONNECTING 10
#define M_CONNECTED 11
#define M_POLLING1 12
#define M_POLLING2 13
#define M_POLLING3 14
#define M_POLLING4 15
#define M_POLLING5 16
#define M_POLLING6 17
#define M_POLLING7 18
#define M_POLLING8 19
#define M_CONNECTING CST_USER+0
#define M_CONNECTED CST_USER+1
#define M_POLLING1 CST_USER+2
#define M_POLLING2 CST_USER+3
#define M_POLLING3 CST_USER+4
#define M_POLLING4 CST_USER+5
#define M_POLLING5 CST_USER+6
#define M_POLLING6 CST_USER+7
#define M_POLLING7 CST_USER+8
#define M_POLLING8 CST_USER+9
#define RET_SUCCESS 0
#define RET_INVALID_PARAM 1
@@ -48,7 +48,7 @@ public:
int Stop() override;
int getChanType() override;
int Ctrl(itemCmd cmd, char* subItem=NULL, bool toExecute=true, bool authorized = false) override;
int getDefaultStorageType(){return ST_INT32;};
//int getDefaultStorageType(){return ST_INT32;};
protected:

14
lighthub/modules/out_modbus.cpp
View File

@@ -327,7 +327,7 @@ itemCmd out_Modbus::findRegister(uint16_t registerNum, uint16_t posInBuffer, uin
mappedParam.Int((uint32_t)param);
}
debugSerial << F("MBUSD: got ")<<mappedParam.toString(buf,sizeof(buf))<< F(" from type ")<<parType<<F(":")<<paramObj->name<<endl;
traceSerial << F("MBUSD: got ")<<mappedParam.toString(buf,sizeof(buf))<< F(" from type ")<<parType<<F(":")<<paramObj->name<<endl;
if (mapObj && (mapObj->type==aJson_Array || mapObj->type==aJson_Object))
{
@@ -401,7 +401,7 @@ itemCmd out_Modbus::findRegister(uint16_t registerNum, uint16_t posInBuffer, uin
aJsonObject * nestedMapObj = aJson.getObjectItem(templateParObj, "map");
if (nestedMapObj && (nestedMapObj->type==aJson_Array || nestedMapObj->type==aJson_Object)) mappedParam=mappedParam.doReverseMapping(nestedMapObj);
debugSerial << F("MBUSD: NestedMapped:")<<mappedParam.toString(buf,sizeof(buf))<<endl;
traceSerial << F("MBUSD: NestedMapped:")<<mappedParam.toString(buf,sizeof(buf))<<endl;
if (!(lastMeasured->subtype & MB_VALUE_OUTDATED))
{
@@ -449,7 +449,7 @@ itemCmd out_Modbus::findRegister(uint16_t registerNum, uint16_t posInBuffer, uin
*/
}
else
debugSerial << F("MBUSD: Mapped:")<<mappedParam.toString(buf,sizeof(buf))<<endl;
traceSerial << F("MBUSD: Mapped:")<<mappedParam.toString(buf,sizeof(buf))<<endl;
} //mapping
if (doExecution && idObj && idObj->type==aJson_Int)
@@ -505,7 +505,7 @@ itemCmd out_Modbus::findRegister(uint16_t registerNum, uint16_t posInBuffer, uin
aJsonObject *settedValue = aJson.getObjectItem(markObj,"@V");
if (settedValue && settedValue->type==aJson_Int && (settedValue->valueint == param))
{
debugSerial<<F("MBUSD: Ignored - equal with setted val")<<endl;
traceSerial<<F("MBUSD: Ignored - equal with setted val")<<endl;
*submitParam=false;
}
else
@@ -719,7 +719,7 @@ if (itemParametersObj && itemParametersObj->type ==aJson_Object)
// if some polling configured
if (store->pollingRegisters || store->pollingIrs || store->pollingCoils || store->poolingDiscreteIns)
{
debugSerial<<F("MBUSD: Poll ")<< item->itemArr->name << endl;
traceSerial<<F("MBUSD: Poll ")<< item->itemArr->name << endl;
modbusBusy=1;
if (!lineInitialized)
@@ -732,7 +732,7 @@ if (store->pollingRegisters || store->pollingIrs || store->pollingCoils || store
pollModbus(store->pollingIrs,MODBUS_INPUT_REG_TYPE);
pollModbus(store->pollingCoils,MODBUS_COIL_REG_TYPE);
pollModbus(store->poolingDiscreteIns ,MODBUS_DISCRETE_REG_TYPE);
debugSerial<<F("MBUSD: endPoll ")<< item->itemArr->name << endl;
traceSerial<<F("MBUSD: endPoll ")<< item->itemArr->name << endl;
//Non blocking waiting to release line
uint32_t time = millis();
@@ -794,7 +794,7 @@ aJsonObject * mapObj = aJson.getObjectItem(templateParamObj, "map");
Value=cmdValue.getTens_raw()*(100/TENS_BASE);
}
debugSerial<<F("MBUSD: suffix:")<<suffixStr<< F(" Val: ")<<Value<<endl;
traceSerial<<F("MBUSD: suffix:")<<suffixStr<< F(" Val: ")<<Value<<endl;
aJsonObject * itemParametersObj = aJson.getArrayItem(item->itemArg, 2);
if (itemParametersObj && itemParametersObj->type ==aJson_Object)
{

2
lighthub/modules/out_modbus.h
View File

@@ -38,7 +38,7 @@ public:
int Stop() override;
int getChanType() override;
int Ctrl(itemCmd cmd, char* subItem=NULL, bool toExecute=true, bool authorized = false) override;
int getDefaultStorageType(){return ST_INT32;};
//int getDefaultStorageType(){return ST_INT32;};
//int Ctrl(short cmd, short n=0, int * Parameters=NULL, int suffixCode=0, char* subItem=NULL) override;
protected:

2
lighthub/modules/out_motor.h
View File

@@ -26,7 +26,7 @@ public:
int Stop() override;
//int isActive() override;
int getChanType() override;
int getDefaultStorageType(){return ST_PERCENTS255;};
//int getDefaultStorageType(){return ST_PERCENTS255;};
//int Ctrl(short cmd, short n=0, int * Parameters=NULL, int suffixCode=0, char* subItem=NULL) override;
int Ctrl(itemCmd cmd, char* subItem=NULL, bool toExecute=true, bool authorized = false) override;

2
lighthub/modules/out_multivent.h
View File

@@ -17,7 +17,7 @@ public:
int Stop() override;
//int isActive() override;
int getChanType() override;
int getDefaultStorageType(){return ST_PERCENTS255;};
//int getDefaultStorageType(){return ST_PERCENTS255;};
int Ctrl(itemCmd cmd, char* subItem=NULL, bool toExecute=true, bool authorized = false) override;
protected:
void getConfig();

2
lighthub/modules/out_pid.h
View File

@@ -31,7 +31,7 @@ public:
int Stop() override;
int isActive() override;
int getChanType() override;
int getDefaultStorageType(){return ST_FLOAT;};
//int getDefaultStorageType(){return ST_FLOAT;};
int Ctrl(itemCmd cmd, char* subItem=NULL, bool toExecute=true, bool authorized = false) override;
void alarm(bool);

2
lighthub/modules/out_uartbridge.h
View File

@@ -64,7 +64,7 @@ public:
int Stop() override;
int getChanType() override;
int Ctrl(itemCmd cmd, char* subItem=NULL, bool toExecute=true, bool authorized = false) override;
int getDefaultStorageType(){return ST_INT32;};
//int getDefaultStorageType(){return ST_INT32;};
//int Ctrl(short cmd, short n=0, int * Parameters=NULL, int suffixCode=0, char* subItem=NULL) override;
protected:

37
lighthub/owTerm.cpp
View File

@@ -26,10 +26,9 @@ e-mail anklimov@gmail.com
#include "options.h"
#include "main.h"
#include "aJSON.h"
//#include "twi.h"
extern aJsonObject *owArr;
extern uint32_t timerCtr;
//extern uint32_t timerCtr;
aJsonObject *dev2Check = NULL;
OneWire *oneWire = NULL;
@@ -62,7 +61,7 @@ char * getReadableNote(aJsonObject * owObj)
void processTemp(aJsonObject * owObj, float currentTemp) {
if (!owObj || !owArr) return;
char* note = getReadableNote(owObj);
debugSerial<<endl<<F("1WT:")<<currentTemp<<F(" <")<<owObj->name<<F("> ");
debugSerial <<F("1WT:")<<currentTemp<<F(" <")<<owObj->name<<F("> ");
if ((currentTemp != -127.0) && (currentTemp != 85.0) && (currentTemp != 0.0))
{
if (note) debugSerial<<note;
@@ -127,8 +126,8 @@ int owSetup() {
if (oneWire) return true; // Already initialized
#ifdef DS2482_100_I2C_TO_1W_BRIDGE
debugSerial<<F("DS2482_100_I2C_TO_1W_BRIDGE init")<<endl;
debugSerial<<F("Free:")<<freeRam()<<endl;
debugSerial<<F("1WT: DS2482_100_I2C_TO_1W_BRIDGE init")<<endl;
//debugSerial<<F("Free:")<<freeRam()<<endl;
oneWire = new OneWire;
#else
debugSerial.print(F("One wire setup on PIN:"));
@@ -146,7 +145,7 @@ if (!oneWire)
#ifdef DS2482_100_I2C_TO_1W_BRIDGE
Wire.begin();
if (oneWire->checkPresence()) {
infoSerial.println(F("1WT: DS2482-100 present"));
infoSerial.println(F("1WT: DS2482-100 present, reset"));
oneWire->deviceReset();
#ifdef APU_OFF
debugSerial.println(F("APU off"));
@@ -154,11 +153,11 @@ if (!oneWire)
oneWire->setActivePullup();
#endif
debugSerial.println(F("\tChecking for 1-Wire devices..."));
// debugSerial.println(F("\tChecking for 1-Wire devices..."));
if (oneWire->wireReset())
debugSerial.println(F("\tReset done"));
debugSerial.println(F("1WT: Bus Reset done"));
else
debugSerial.println(F("\tDS2482 reset error"));
debugSerial.println(F("1WT: Bus reset error"));
//return true;
}
else
@@ -226,25 +225,25 @@ int sensors_loop(void) {
case DS2482_ERROR_CONFIG:
errorSerial<<F("1WT: DS2482_ERROR_CONFIG")<<endl;
oneWire->wireReset();
return INTERVAL_1W;
i2cReset();
break;
case DS2482_ERROR_TIMEOUT:
errorSerial<<F("1WT: 1-wire shorted")<<endl;
oneWire->wireReset();
return INTERVAL_1W;
case DS2482_ERROR_TIMEOUT: //Busy over time
errorSerial<<F("1WT: BUSY timeout")<<endl;
i2cReset();
break;
default:
errorSerial<<F("1WT: error")<<endl;
oneWire->wireReset();
return INTERVAL_1W;
break;
}
/*
if (!oneWire->checkPresence())
{
infoSerial.println(F("1WT: lost DS2482-100"));
i2cReset();
}
*/
#endif

2
lighthub/streamlog.h
View File

@@ -24,10 +24,12 @@ extern uint8_t udpDebugLevel;
#define SerialPortType HardwareSerial
#endif
#define LOG_TRACE 9
#define LOG_DEBUG 7
#define LOG_INFO 6
#define LOG_ERROR 3
#define traceSerial if (serialDebugLevel>=LOG_TRACE || udpDebugLevel>=LOG_TRACE) debugSerial
class Streamlog : public Print
{
public:

0
lighthub/templateStr.cpp Normal file
View File

110
lighthub/templateStr.h Normal file
View File

@@ -0,0 +1,110 @@
#ifndef _TEMPLATE_STREAM_H_
#define _TEMPLATE_STREAM_H_
#include <Stream.h>
#include <aJSON.h>
#include <streamlog.h>
//#define KEYLEN 8
extern aJsonObject * topics;
class templateStream : public Stream
{
public:
templateStream(char *s, short sfx=0) : str(s), pos(0), val(NULL), valpos(0), bucket(0),suffix(sfx) { }
// Stream methods
virtual int available() { return str[pos]; }
virtual int read() {
if (bucket)
{ int ch = bucket;
bucket=0;
return ch;
};
if (str[pos]=='$')
{
if (str[pos+1]=='{')
{
unsigned int i = 0;
while (str[pos+2+i] && str[pos+2+i]!='}') i++;
if (i && (str[pos+2+i]=='}'))
{
str[pos+2+i]='\0';
val=resolveKey(str+pos+2);
valpos=0;
str[pos+2+i]='}';
pos+=3+i;
}
}
}
if (val)
{
char ch = val[valpos];
if (ch)
{
valpos++;
return ch;
}
else val = NULL;
}
if (str)
{
char ch = str[pos];
if (ch)
{
pos++;
return ch;
}
else
{
str=NULL;
return 0;
}
}
else return -1;
}
virtual int peek()
{
int bucket = read();
return bucket;
}
virtual void flush() { };
// Print methods
virtual size_t write(uint8_t c) { return 0; };
virtual char * resolveKey(char *key)
{
if (topics && topics->type == aJson_Object)
{
aJsonObject *valObj = aJson.getObjectItem(topics, key);
if (valObj->type == aJson_String) return valObj->valuestring;
}
if (suffix && (suffix<suffixNum) && !strcmp(key,"sfx"))
{
//debugSerial<<F("Template: Suffix=")<<suffix<<endl;
buffer[0]='/';
strncpy_P(buffer+1,suffix_P[suffix],sizeof(buffer)-2);
return buffer;
}
return NULL;
}
private:
char *str;
unsigned int pos;
char *val;
unsigned int valpos;
int bucket;
short suffix;
char buffer[8];
};
#endif // _TEMPLATE_STREAM_H_

43
lighthub/textconst.h
View File

@@ -82,17 +82,29 @@ const char on_P[] PROGMEM = "on";
*/
#define ON_P commands_P[CMD_ON]
#define OFF_P commands_P[CMD_OFF]
#define REST_P commands_P[CMD_RESTORE]
#define TOGGLE_P commands_P[CMD_TOGGLE]
#define HALT_P commands_P[CMD_HALT]
#define XON_P commands_P[CMD_XON]
#define XOFF_P commands_P[CMD_XOFF]
#define HEAT_P commands_P[CMD_HEAT]
#define COOL_P commands_P[CMD_COOL]
#define AUTO_P commands_P[CMD_AUTO]
#define FAN_ONLY_P commands_P[CMD_FAN]
#define DRY_P commands_P[CMD_DRY]
#define HIGH_P commands_P[CMD_HIGH]
#define MED_P commands_P[CMD_MED]
#define LOW_P commands_P[CMD_LOW]
#define ENABLE_P commands_P[CMD_ENABLE]
#define DISABLE_P commands_P[CMD_DISABLE]
#define FREEZE_P commands_P[CMD_FREEZE]
#define UNFREEZE_P commands_P[CMD_UNFREEZE]
const char ERROR_P[] PROGMEM = "ERR";
//Commands
const char ON_P[] PROGMEM = "ON";
const char OFF_P[] PROGMEM = "OFF";
const char REST_P[] PROGMEM = "REST";
const char TOGGLE_P[] PROGMEM = "TOGGLE";
const char HALT_P[] PROGMEM = "HALT";
const char XON_P[] PROGMEM = "XON";
const char XOFF_P[] PROGMEM = "XOFF";
/*
const char INCREASE_P[] PROGMEM = "INCREASE";
const char DECREASE_P[] PROGMEM = "DECREASE";
@@ -102,6 +114,15 @@ const char FALSE_P[] PROGMEM = "FALSE";
const char ENABLED_P[] PROGMEM = "ENABLED";
const char DISABLED_P[] PROGMEM = "DISABLED";
*/
/*
const char ON_P[] PROGMEM = "ON";
const char OFF_P[] PROGMEM = "OFF";
const char REST_P[] PROGMEM = "REST";
const char TOGGLE_P[] PROGMEM = "TOGGLE";
const char HALT_P[] PROGMEM = "HALT";
const char XON_P[] PROGMEM = "XON";
const char XOFF_P[] PROGMEM = "XOFF";
const char HEAT_P[] PROGMEM = "HEAT";
const char COOL_P[] PROGMEM = "COOL";
const static char AUTO_P[] PROGMEM = "AUTO";
@@ -112,13 +133,15 @@ const char DRY_P[] PROGMEM = "DRY";
const char HIGH_P[] PROGMEM = "HIGH";
const char MED_P[] PROGMEM = "MEDIUM";
const char LOW_P[] PROGMEM = "LOW";
const char ERROR_P[] PROGMEM = "ERR";
const char ENABLE_P[] PROGMEM = "ENABLE";
const char DISABLE_P[] PROGMEM = "DISABLE";
const char FREEZE_P[] PROGMEM = "FREEZE";
const char UNFREEZE_P[] PROGMEM = "UNFREEZE";
*/
// SubTopics
/*
const char SET_P[] PROGMEM = "set";
const char CMD_P[] PROGMEM = "cmd";
const char MODE_P[] PROGMEM = "mode";
@@ -132,7 +155,7 @@ const char VAL_P[] PROGMEM = "val";
const char DEL_P[] PROGMEM = "del";
const char _RAW_P[] PROGMEM = "raw";
const char CTRL_P[] PROGMEM = "ctrl";
*/
/*
const char RPM_P[] PROGMEM = "rpm";
const char STATE_P[] PROGMEM = "state";

40
lighthub/utils.cpp
View File

@@ -27,6 +27,7 @@ e-mail anklimov@gmail.com
#include "item.h"
#include <PubSubClient.h>
#include <HardwareSerial.h>
#include "templateStr.h"
#ifdef CRYPT
#include "SHA256.h"
@@ -690,8 +691,22 @@ switch (cmdType)
//else itemCommand = _itemCmd.toString(Buffer,sizeof(Buffer));
char * emitCommand;
short suffix=0;
// aJsonObject * dict=NULL;
if(ecmd && ecmd->type == aJson_String) emitCommand = ecmd->valuestring;
else emitCommand = _itemCmd.toString(Buffer,sizeof(Buffer));
else
{
emitCommand = _itemCmd.toString(Buffer,sizeof(Buffer));
// dict = aJson.createObject();
// aJson.addStringToObject(dict, "sfx", )
suffix=_itemCmd.getSuffix();
if (!suffix)
{
if (_itemCmd.isCommand()) suffix=S_CMD;
else if (_itemCmd.isValue()) suffix = S_SET;
}
}
//debugSerial << F("IN:") << (pin) << F(" : ") <<endl;
if (item) {
@@ -705,7 +720,12 @@ switch (cmdType)
if (emit && emitCommand && emit->type == aJson_String) {
debugSerial << F("Emit: ")<<emit->valuestring<< F(" -> ")<<emitCommand<<endl;
templateStream ts(emit->valuestring,suffix);
char addrstr[MQTT_TOPIC_LENGTH];
//ts.setTimeout(0);
addrstr[ts.readBytesUntil('\0',addrstr,sizeof(addrstr))]='\0';
debugSerial << F("Emit: <")<<emit->valuestring<<"> "<<addrstr<< F(" -> ")<<emitCommand<<endl;
/*
TODO implement
#ifdef WITH_DOMOTICZ
@@ -720,8 +740,8 @@ switch (cmdType)
*/
char addrstr[MQTT_TOPIC_LENGTH];
strncpy(addrstr,emit->valuestring,sizeof(addrstr));
//strncpy(addrstr,emit->valuestring,sizeof(addrstr));
if (mqttClient.connected() && !ethernetIdleCount)
{
if (!strchr(addrstr,'/')) setTopic(addrstr,sizeof(addrstr),T_OUT,emit->valuestring);
@@ -880,7 +900,7 @@ bool checkToken(char * token, char * data)
bool i2cReset(){
debugSerial.println("I2C Reset");
debugSerial.println(F("I2C Reset"));
Wire.endTransmission(true);
#if !defined(ARDUINO_ARCH_ESP8266)
@@ -896,19 +916,22 @@ pinMode(SDA,INPUT);
pulse=!pulse;
delay(10);//10us мкс
}
delay(20);
Wire.begin();
#ifdef DS2482_100_I2C_TO_1W_BRIDGE
if (oneWire && oneWire->checkPresence())
{
oneWire->deviceReset();
debugSerial.println(F("1WT: DS2482 present, reset"));
#ifndef APU_OFF
oneWire->setActivePullup();
#endif
if (oneWire->wireReset())
debugSerial.println(F("\tReset done"));
debugSerial.println(F("1WT: Bus Reset done"));
else
debugSerial.println(F("\tDS2482 reset error"));
debugSerial.println(F("1WT: Bus reset error"));
}
#endif
@@ -916,5 +939,8 @@ if (oneWire && oneWire->checkPresence())
return true;
}
#pragma message(VAR_NAME_VALUE(debugSerial))
#pragma message(VAR_NAME_VALUE(SERIAL_BAUD))