@ -18,8 +18,8 @@ typedef struct {
uint8_t txCmd ;
uint8_t len [ MAX_PAYLOAD_ENTRIES ] ;
bool complete ;
bool stsa ;
bool stsb ;
bool dataAB [ 2 ] ;
uint8_t sts [ 5 ] ;
uint8_t txId ;
uint8_t invId ;
uint8_t retransmits ;
@ -65,6 +65,7 @@ class MiPayload {
void addAlarmListener ( alarmListenerType cb ) {
mCbMiAlarm = cb ;
}
void loop ( ) {
/*if(NULL != mHighPrioIv) {
iv - > ivSend ( mHighPrioIv , true ) ; // should request firmware version etc.?
@ -84,55 +85,83 @@ class MiPayload {
if ( mSerialDebug )
DPRINTLN ( DBG_INFO , F ( " (# " ) + String ( iv - > id ) + F ( " ) Requesting Inv SN " ) + String ( iv - > config - > serial . u64 , HEX ) ) ;
uint8_t cmd = iv - > type = = INV_TYPE_4CH ? 0x36 : 0x09 ; //iv->getQueuedCmd();
DPRINTLN ( DBG_INFO , F ( " (# " ) + String ( iv - > id ) + F ( " ) prepareDevInformCmd " ) ) ;
//first channel request
/*uint8_t cmd = iv->type == INV_TYPE_4CH ? 0x36 : 0x09;
DPRINT ( DBG_INFO , F ( " (# " ) ) ;
DBGPRINT ( String ( iv - > id ) ) ;
DBGPRINT ( F ( " ) prepareDevInformCmd 0x " ) ) ;
DBGPRINTLN ( String ( cmd , HEX ) ) ;
mSys - > Radio . prepareDevInformCmd ( iv - > radioId . u64 , cmd , mPayload [ iv - > id ] . ts , iv - > alarmMesIndex , false , cmd ) ;
mPayload [ iv - > id ] . txCmd = cmd ;
mPayload [ iv - > id ] . txCmd = cmd ; */
uint8_t cmd = iv - > getQueuedCmd ( ) ;
DPRINT ( DBG_INFO , F ( " (# " ) ) ;
DBGPRINT ( String ( iv - > id ) ) ;
DBGPRINT ( F ( " ) prepareDevInformCmd 0x " ) ) ;
DBGPRINTLN ( String ( cmd , HEX ) ) ;
mSys - > Radio . prepareDevInformCmd ( iv - > radioId . u64 , cmd , mPayload [ iv - > id ] . ts , iv - > alarmMesIndex , false , cmd ) ;
mPayload [ iv - > id ] . txCmd = cmd ;
//other channel requests
/*if (iv->type == INV_TYPE_4CH) {
for ( uint8_t i = 1 ; i < iv - > channels ; i + + ) {
iv - > enqueCommand < CommandAbstract > ( cmd + i , cmd + i ) ;
//mSys->Radio.prepareDevInformCmd(iv->radioId.u64, 0x11, mPayload[iv->id].ts, iv->alarmMesIndex, false, cmd + i);
}
} else */
if ( iv - > type = = INV_TYPE_2CH ) {
mPayload [ iv - > id ] . dataAB [ 0 ] = false ;
mPayload [ iv - > id ] . dataAB [ 1 ] = false ;
//iv->enqueCommand(0x11);
//mSys->Radio.prepareDevInformCmd(iv->radioId.u64, 0x11, mPayload[iv->id].ts, iv->alarmMesIndex, false, 0x11);
}
}
void add ( Inverter < > * iv , packet_t * p ) {
//DPRINTLN(DBG_INFO, F("MI got data [0]=") + String(p->packet[0], HEX));
if ( p - > packet [ 0 ] = = ( 0x08 + ALL_FRAMES ) ) { // 0x88; MI status response to 0x09
mPayload [ iv - > id ] . stsa = true ;
//mPayload[iv->id].sts[0] = true;
miStsDecode ( iv , p ) ;
} else if ( p - > packet [ 0 ] = = ( 0x11 + SINGLE_FRAME ) ) { // 0x92; MI status response to 0x11
mPayload [ iv - > id ] . stsb = true ;
//mPayload[iv->id].sts[1] = true;
miStsDecode ( iv , p , CH2 ) ;
} else if ( p - > packet [ 0 ] = = ( 0x09 + ALL_FRAMES ) ) { // MI data response to 0x09
/*} else if (p->packet[0] == (0x09 + ALL_FRAMES)) { // MI data response to 0x09
mPayload [ iv - > id ] . txId = p - > packet [ 0 ] ;
miDataDecode ( iv , p ) ;
iv - > setQueuedCmdFinished ( ) ;
//iv->setQueuedCmdFinished();
if ( INV_TYPE_2CH = = iv - > type ) {
//mSys->Radio.prepareDevInformCmd(iv->radioId.u64, iv->getQueuedCmd(), mPayload[iv->id].ts, iv->alarmMesIndex, false, 0x11);
mSys - > Radio . prepareDevInformCmd ( iv - > radioId . u64 , 0x11 , mPayload [ iv - > id ] . ts , iv - > alarmMesIndex , false , 0x11 ) ;
//mSys->Radio.prepareDevInformCmd(iv->radioId.u64, 0x11, mPayload[iv->id].ts, iv->alarmMesIndex, false, 0x11);
} else { // additional check for mPayload[iv->id].stsa == true might be a good idea (request retransmit?)
mPayload [ iv - > id ] . complete = true ;
//iv->setQueuedCmdFinished();
}
} else if ( p - > packet [ 0 ] = = ( 0x11 + ALL_FRAMES ) ) { // MI data response to 0x11
} else if ( p - > packet [ 0 ] = = ( ) ) { // MI data response to 0x11
mPayload [ iv - > id ] . txId = p - > packet [ 0 ] ;
mPayload [ iv - > id ] . complete = true ;
miDataDecode ( iv , p ) ;
iv - > setQueuedCmdFinished ( ) ;
mStat - > rxSuccess + + ;
//iv->setQueuedCmdFinished();*/
} else if ( p - > packet [ 0 ] > = ( 0x36 + ALL_FRAMES ) & & p - > packet [ 0 ] < ( 0x39 + SINGLE_FRAME ) ) { // MI 1500 data response to 0x36, 0x37, 0x38 and 0x39
} else if ( p - > packet [ 0 ] = = 0x09 + ALL_FRAMES | |
p - > packet [ 0 ] = = 0x11 + ALL_FRAMES | |
( p - > packet [ 0 ] > = ( 0x36 + ALL_FRAMES ) & & p - > packet [ 0 ] < ( 0x39 + SINGLE_FRAME ) ) ) { // small MI or MI 1500 data responses to 0x09, 0x11, 0x36, 0x37, 0x38 and 0x39
mPayload [ iv - > id ] . txId = p - > packet [ 0 ] ;
miDataDecode ( iv , p ) ;
iv - > setQueuedCmdFinished ( ) ;
if ( p - > packet [ 0 ] < ( 0x39 + ALL_FRAMES ) ) {
//mStat->rxSuccess++;
//iv->setQueuedCmdFinished();
/*if (p->packet[0] < (0x39 + ALL_FRAMES)) {
//mSys->Radio.prepareDevInformCmd(iv->radioId.u64, iv->getQueuedCmd(), mPayload[iv->id].ts, iv->alarmMesIndex, false, p->packet[0] + 1 - ALL_FRAMES);
mSys - > Radio . prepareDevInformCmd ( iv - > radioId . u64 , p - > packet [ 0 ] + 1 - ALL_FRAMES , mPayload [ iv - > id ] . ts , iv - > alarmMesIndex , false , p - > packet [ 0 ] + 1 - ALL_FRAMES ) ;
//mSys->Radio.prepareDevInformCmd(iv->radioId.u64, p->packet[0] + 1 - ALL_FRAMES, mPayload[iv->id].ts, iv->alarmMesIndex, false, p->packet[0] + 1 - ALL_FRAMES);
} else {
mPayload [ iv - > id ] . complete = true ;
//iv->setValue(iv->getPosByChFld(0, FLD_YD, rec), rec, CALC_YD_CH0);
//iv->setQueuedCmdFinished();
}
} */
/* }
// }
if ( p - > packet [ 0 ] = = ( TX_REQ_INFO + ALL_FRAMES ) ) {
/*if (p->packet[0] == (TX_REQ_INFO + ALL_FRAMES)) { // response from get information command
mPayload [ iv - > id ] . txId = p - > packet [ 0 ] ;
DPRINTLN ( DBG_DEBUG , F ( " Response from info request received " ) ) ;
uint8_t * pid = & p - > packet [ 9 ] ;
@ -170,7 +199,7 @@ class MiPayload {
msg = " NOT " ;
DPRINTLN ( DBG_INFO , F ( " Inverter " ) + String ( iv - > id ) + F ( " has " ) + msg + F ( " accepted power limit set point " ) + String ( iv - > powerLimit [ 0 ] ) + F ( " with PowerLimitControl " ) + String ( iv - > powerLimit [ 1 ] ) ) ;
iv - > clearCmdQueue ( ) ;
iv - > enqueCommand < InfoCommand > ( SystemConfigPara ) ; // read back power limit
iv - > enqueCommand < Mi InfoCommand> ( SystemConfigPara ) ; // read back power limit
}
iv - > devControlCmd = Init ;
} else { // some other response; copied from hmPayload:process; might not be correct to do that here!!!
@ -264,6 +293,7 @@ class MiPayload {
if ( mPayload [ iv - > id ] . retransmits < mMaxRetrans ) {
mPayload [ iv - > id ] . retransmits + + ;
//mSys->Radio.prepareDevInformCmd(iv->radioId.u64, iv->getQueuedCmd(), mPayload[iv->id].ts, iv->alarmMesIndex, false, 0x11);
DPRINTLN ( DBG_WARN , F ( " missing answer to 0x " ) + String ( iv - > getQueuedCmd ( ) , HEX ) + F ( " Request Retransmit " ) ) ;
mSys - > Radio . sendCmdPacket ( iv - > radioId . u64 , iv - > getQueuedCmd ( ) , 24 , true ) ;
/*if(false == mPayload[iv->id].gotFragment) {
DPRINTLN ( DBG_WARN , F ( " (# " ) + String ( iv - > id ) + F ( " ) nothing received " ) ) ;
@ -363,39 +393,28 @@ class MiPayload {
record_t < > * rec = iv - > getRecordStruct ( RealTimeRunData_Debug ) ; // choose the record structure
rec - > ts = mPayload [ iv - > id ] . ts ;
//iv->setValue(iv->getPosByChFld(chan, FLD_YD, rec), rec, (int)((p->packet[11+6] << 8) + p->packet[12+6])); // was 11/12, might be wrong!
//if (INV_TYPE_1CH == iv->type)
//iv->setValue(iv->getPosByChFld(0, FLD_YD, rec), rec, (int)((p->packet[11+6] << 8) + p->packet[12+6]));
uint8_t status = ( p - > packet [ 11 ] < < 8 ) + p - > packet [ 12 ] ;
uint8_t stschan = p - > packet [ 0 ] = = 0x88 ? CH1 : CH2 ;
mPayload [ iv - > id ] . dataAB [ stschan - 1 ] = true ;
mPayload [ iv - > id ] . sts [ stschan ] = status ;
if ( ! mPayload [ iv - > id ] . sts [ 0 ] | | status < mPayload [ iv - > id ] . sts [ 0 ] ) {
mPayload [ iv - > id ] . sts [ 0 ] = status ;
iv - > setValue ( iv - > getPosByChFld ( 0 , FLD_EVT , rec ) , rec , status ) ;
}
//iv->setValue(iv->getPosByChFld(chan, FLD_EVT, rec), rec, (int)((p->packet[13] << 8) + p->packet[14]));
if ( ! mPayload [ iv - > id ] . dataAB [ 0 ] | | ! mPayload [ iv - > id ] . dataAB [ 1 ] ) {
uint8_t cmd = mPayload [ iv - > id ] . dataAB [ 0 ] ? 0x11 : 0x09 ;
DPRINTLN ( DBG_INFO , F ( " request missing status 0x " ) + String ( cmd , HEX ) ) ;
mSys - > Radio . prepareDevInformCmd ( iv - > radioId . u64 , cmd , mPayload [ iv - > id ] . ts , iv - > alarmMesIndex , false , cmd ) ;
mPayload [ iv - > id ] . txCmd = cmd ;
}
iv - > setValue ( iv - > getPosByChFld ( 0 , FLD_EVT , rec ) , rec , ( int ) ( ( p - > packet [ 11 ] < < 8 ) + p - > packet [ 12 ] ) ) ;
//iv->setValue(iv->getPosByChFld(0, FLD_EVT, rec), rec, (int)((p->packet[14] << 8) + p->packet[16]));
if ( iv - > alarmMesIndex < rec - > record [ iv - > getPosByChFld ( 0 , FLD_EVT , rec ) ] ) {
iv - > alarmMesIndex = rec - > record [ iv - > getPosByChFld ( 0 , FLD_EVT , rec ) ] ; // seems there's no status per channel in 3rd gen. models?!?
DPRINTLN ( DBG_INFO , " alarm ID incremented to " + String ( iv - > alarmMesIndex ) ) ;
iv - > enqueCommand < InfoCommand > ( AlarmData ) ;
iv - > enqueCommand < Mi InfoCommand> ( AlarmData ) ;
}
/* Unclear how in HM inverters Info and alarm data is handled...
*/
/* int8_t offset = -2;
for decoding see
void MI600StsMsg ( NRF24_packet_t * p ) {
STAT = ( int ) ( ( p - > packet [ 11 ] < < 8 ) + p - > packet [ 12 ] ) ;
FCNT = ( int ) ( ( p - > packet [ 13 ] < < 8 ) + p - > packet [ 14 ] ) ;
FCODE = ( int ) ( ( p - > packet [ 15 ] < < 8 ) + p - > packet [ 16 ] ) ;
# ifdef ESP8266
VALUES [ PV ] [ 5 ] = STAT ;
VALUES [ PV ] [ 6 ] = FCNT ;
VALUES [ PV ] [ 7 ] = FCODE ;
# endif
}
*/
}
void miDataDecode ( Inverter < > * iv , packet_t * p ) {
@ -406,49 +425,93 @@ class MiPayload {
( p - > packet [ 0 ] = = 0x91 | | p - > packet [ 0 ] = = ( 0x37 + ALL_FRAMES ) ) ? CH2 :
p - > packet [ 0 ] = = ( 0x38 + ALL_FRAMES ) ? CH3 :
CH4 ;
int8_t offset = - 2 ;
// U_DC = (float) ((p->packet[11] << 8) + p->packet[12])/10;
iv - > setValue ( iv - > getPosByChFld ( datachan , FLD_UDC , rec ) , rec , ( float ) ( ( p - > packet [ 11 + offset ] < < 8 ) + p - > packet [ 12 + offset ] ) / 10 ) ;
DPRINTLN ( DBG_INFO , F ( " Inverter " ) + String ( iv - > id ) + F ( " : data msg 0x " ) + String ( p - > packet [ 0 ] , HEX ) + F ( " channel " ) + datachan ) ;
// count in RF_communication_protocol.xlsx is with offset = -1
iv - > setValue ( iv - > getPosByChFld ( datachan , FLD_UDC , rec ) , rec , ( float ) ( ( p - > packet [ 9 ] < < 8 ) + p - > packet [ 10 ] ) / 10 ) ;
yield ( ) ;
// I_DC = (float) ((p->packet[13] << 8) + p->packet[14])/10;
iv - > setValue ( iv - > getPosByChFld ( datachan , FLD_IDC , rec ) , rec , ( float ) ( ( p - > packet [ 13 + offset ] < < 8 ) + p - > packet [ 14 + offset ] ) / 10 ) ;
iv - > setValue ( iv - > getPosByChFld ( datachan , FLD_IDC , rec ) , rec , ( float ) ( ( p - > packet [ 11 ] < < 8 ) + p - > packet [ 12 ] ) / 10 ) ;
yield ( ) ;
// U_AC = (float) ((p->packet[15] << 8) + p->packet[16])/10;
iv - > setValue ( iv - > getPosByChFld ( 0 , FLD_UAC , rec ) , rec , ( float ) ( ( p - > packet [ 15 + offset ] < < 8 ) + p - > packet [ 16 + offset ] ) / 10 ) ;
iv - > setValue ( iv - > getPosByChFld ( 0 , FLD_UAC , rec ) , rec , ( float ) ( ( p - > packet [ 13 ] < < 8 ) + p - > packet [ 14 ] ) / 10 ) ;
yield ( ) ;
// F_AC = (float) ((p->packet[17] << 8) + p->packet[18])/100;
//iv->setValue(iv->getPosByChFld(0, FLD_IAC, rec), rec, (float)((p->packet[17+offset] << 8) + p->packet[18+offset])/100);
//yield();
// P_DC = (float)((p->packet[19] << 8) + p->packet[20])/10;
iv - > setValue ( iv - > getPosByChFld ( datachan , FLD_PDC , rec ) , rec , ( float ) ( ( p - > packet [ 19 + offset ] < < 8 ) + p - > packet [ 20 + offset ] ) / 10 ) ;
iv - > setValue ( iv - > getPosByChFld ( 0 , FLD_F , rec ) , rec , ( float ) ( ( p - > packet [ 15 ] < < 8 ) + p - > packet [ 16 ] ) / 100 ) ;
iv - > setValue ( iv - > getPosByChFld ( datachan , FLD_PDC , rec ) , rec , ( float ) ( ( p - > packet [ 17 ] < < 8 ) + p - > packet [ 18 ] ) / 10 ) ;
yield ( ) ;
// Q_DC = (float)((p->packet[21] << 8) + p->packet[22])/1;
iv - > setValue ( iv - > getPosByChFld ( datachan , FLD_YD , rec ) , rec , ( float ) ( ( p - > packet [ 21 + offset ] < < 8 ) + p - > packet [ 22 + offset ] ) / 1 ) ;
iv - > setValue ( iv - > getPosByChFld ( datachan , FLD_YD , rec ) , rec , ( float ) ( ( p - > packet [ 19 ] < < 8 ) + p - > packet [ 20 ] ) / 1 ) ;
yield ( ) ;
iv - > setValue ( iv - > getPosByChFld ( 0 , FLD_T , rec ) , rec , ( float ) ( ( int16_t ) ( p - > packet [ 23 + offset ] < < 8 ) + p - > packet [ 24 + offset ] ) / 10 ) ; //23 is freq or IAC?
iv - > setValue ( iv - > getPosByChFld ( 0 , FLD_F , rec ) , rec , ( float ) ( ( p - > packet [ 17 + offset ] < < 8 ) + p - > packet [ 18 + offset ] ) / 100 ) ;
iv - > setValue ( iv - > getPosByChFld ( 0 , FLD_T , rec ) , rec , ( float ) ( ( int16_t ) ( p - > packet [ 21 ] < < 8 ) + p - > packet [ 22 ] ) / 10 ) ;
iv - > setValue ( iv - > getPosByChFld ( 0 , FLD_IRR , rec ) , rec , ( float ) ( calcIrradiation ( iv , datachan ) ) ) ;
yield ( ) ;
//FLD_YD
//AC Power is missing; we may have to calculate, as no respective data is in payload
if ( p - > packet [ 0 ] > = ( 0x36 + ALL_FRAMES ) ) {
/*status message analysis most liklely needs to be changed, see MiStsMst*/
/*STAT = (uint8_t)(p->packet[25] );
FCNT = ( uint8_t ) ( p - > packet [ 26 ] ) ;
FCODE = ( uint8_t ) ( p - > packet [ 27 ] ) ; // MI300/Mi600 stsMsg:: (int)((p->packet[15] << 8) + p->packet[16]); */
iv - > setValue ( iv - > getPosByChFld ( 0 , FLD_EVT , rec ) , rec , ( uint8_t ) ( p - > packet [ 25 + offset ] ) ) ;
yield ( ) ;
/*For MI1500:
if ( MI1500 ) {
STAT = ( uint8_t ) ( p - > packet [ 25 ] ) ;
FCNT = ( uint8_t ) ( p - > packet [ 26 ] ) ;
FCODE = ( uint8_t ) ( p - > packet [ 27 ] ) ;
} */
uint8_t status = ( uint8_t ) ( p - > packet [ 23 ] ) ;
mPayload [ iv - > id ] . sts [ datachan ] = status ;
if ( ! mPayload [ iv - > id ] . sts [ 0 ] | | status < mPayload [ iv - > id ] . sts [ 0 ] ) {
mPayload [ iv - > id ] . sts [ 0 ] = status ;
iv - > setValue ( iv - > getPosByChFld ( 0 , FLD_EVT , rec ) , rec , status ) ;
}
if ( p - > packet [ 0 ] < ( 0x39 + ALL_FRAMES ) ) {
uint8_t cmd = p - > packet [ 0 ] - ALL_FRAMES + 1 ;
mSys - > Radio . prepareDevInformCmd ( iv - > radioId . u64 , cmd , mPayload [ iv - > id ] . ts , iv - > alarmMesIndex , false , cmd ) ;
mPayload [ iv - > id ] . txCmd = cmd ;
mPayload [ iv - > id ] . complete = false ;
}
//iv->setValue(iv->getPosByChFld(0, FLD_EVT, rec), rec, calcMiSts(iv));yield();
if ( iv - > alarmMesIndex < rec - > record [ iv - > getPosByChFld ( 0 , FLD_EVT , rec ) ] ) {
iv - > alarmMesIndex = rec - > record [ iv - > getPosByChFld ( 0 , FLD_EVT , rec ) ] ;
DPRINTLN ( DBG_INFO , " alarm ID incremented to " + String ( iv - > alarmMesIndex ) ) ;
iv - > enqueCommand < InfoCommand > ( AlarmData ) ;
//iv->enqueCommand<InfoCommand>(AlarmData);
}
}
//iv->setValue(iv->getPosByChFld(0, FLD_YD, rec), rec, CALC_YD_CH0); // (getValue(iv->getPosByChFld(1, FLD_YD, rec), rec) + getValue(iv->getPosByChFld(2, FLD_YD, rec), rec)));
iv - > setValue ( iv - > getPosByChFld ( 0 , FLD_YD , rec ) , rec , calcYieldDayCh0 ( iv , 0 ) ) ; //datachan));
iv - > doCalculations ( ) ;
notify ( mPayload [ iv - > id ] . txCmd ) ;
//preliminary AC calculation...
uint8_t ac_pow = 0 ;
//if (mPayload[iv->id].sts[0] == 3) {
ac_pow = calcPowerDcCh0 ( iv , 0 ) * 9.5 ;
//}
iv - > setValue ( iv - > getPosByChFld ( 0 , FLD_PAC , rec ) , rec , ( float ) ( ac_pow / 10 ) ) ;
//iv->setValue(iv->getPosByChFld(0, FLD_PAC, rec), rec, (float) (mPayload[iv->id].sts[0] == 3 ? calcPowerDcCh0(iv, 0)*0.95 : 0));
if ( mPayload [ iv - > id ] . sts [ 0 ] ) {
uint8_t cmd = mPayload [ iv - > id ] . dataAB [ 0 ] ? 0x11 : 0x09 ;
if ( mPayload [ iv - > id ] . dataAB [ 0 ] & & mPayload [ iv - > id ] . dataAB [ 1 ] ) {
mPayload [ iv - > id ] . complete = true ; // For 2 CH devices, this might be too short...
DPRINTLN ( DBG_INFO , F ( " complete tree detected " ) ) ;
iv - > setValue ( iv - > getPosByChFld ( 0 , FLD_YD , rec ) , rec , calcYieldDayCh0 ( iv , 0 ) ) ;
iv - > doCalculations ( ) ;
} else {
//retry to get missing status info for one or two channel devices
DPRINTLN ( DBG_INFO , F ( " request missing data or status 0x " ) + String ( cmd , HEX ) ) ;
mSys - > Radio . prepareDevInformCmd ( iv - > radioId . u64 , cmd , mPayload [ iv - > id ] . ts , iv - > alarmMesIndex , false , cmd ) ;
mPayload [ iv - > id ] . txCmd = cmd ;
//iv->enqueCommand(cmd); // mPayload[iv->id].dataAB[1] ? 0x09 : 0x11)
}
} // not yet moved to hmInverter::getQueuedCmd
else if ( mPayload [ iv - > id ] . txCmd = = 0x09 & & iv - > type = = INV_TYPE_2CH ) {
uint8_t cmd = 0x11 ;
DPRINTLN ( DBG_INFO , F ( " request second data channel 0x " ) + String ( cmd , HEX ) ) ;
mSys - > Radio . prepareDevInformCmd ( iv - > radioId . u64 , cmd , mPayload [ iv - > id ] . ts , iv - > alarmMesIndex , false , cmd ) ;
mPayload [ iv - > id ] . txCmd = cmd ;
mPayload [ iv - > id ] . complete = false ;
}
iv - > setQueuedCmdFinished ( ) ;
mStat - > rxSuccess + + ;
yield ( ) ;
notify ( mPayload [ iv - > id ] . txCmd ) ;
/*
if ( AlarmData = = mPayload [ iv - > id ] . txCmd ) {
uint8_t i = 0 ;
@ -463,66 +526,26 @@ class MiPayload {
yield ( ) ;
}
} */
/*decode here or memcopy payload for later decoding?
void MI600DataMsg ( NRF24_packet_t * p ) {
U_DC = ( float ) ( ( p - > packet [ 11 ] < < 8 ) + p - > packet [ 12 ] ) / 10 ;
I_DC = ( float ) ( ( p - > packet [ 13 ] < < 8 ) + p - > packet [ 14 ] ) / 10 ;
U_AC = ( float ) ( ( p - > packet [ 15 ] < < 8 ) + p - > packet [ 16 ] ) / 10 ;
F_AC = ( float ) ( ( p - > packet [ 17 ] < < 8 ) + p - > packet [ 18 ] ) / 100 ;
P_DC = ( float ) ( ( p - > packet [ 19 ] < < 8 ) + p - > packet [ 20 ] ) / 10 ;
Q_DC = ( float ) ( ( p - > packet [ 21 ] < < 8 ) + p - > packet [ 22 ] ) / 1 ;
TEMP = ( float ) ( ( p - > packet [ 23 ] < < 8 ) + p - > packet [ 24 ] ) / 10 ; //(int16_t)
if ( ( 30 < U_DC < 50 ) & & ( 0 < I_DC < 15 ) & & ( 200 < U_AC < 300 ) & & ( 45 < F_AC < 55 ) & & ( 0 < P_DC < 420 ) & & ( 0 < TEMP < 80 ) )
DataOK = 1 ; //we need to check this, if no crc
else { DEBUG_OUT . printf ( " Data Wrong!! \r \n " ) ; DataOK = 0 ; return ; }
if ( p - > packet [ 2 ] = = 0x89 ) { PV = 0 ; TotalP [ 1 ] = P_DC ; pvCnt [ 0 ] = 1 ; } //port 1
if ( p - > packet [ 2 ] = = 0x91 ) { PV = 1 ; TotalP [ 2 ] = P_DC ; pvCnt [ 1 ] = 1 ; } //port 2
TotalP [ 0 ] = TotalP [ 1 ] + TotalP [ 2 ] + TotalP [ 3 ] + TotalP [ 4 ] ; //in TotalP[0] is the totalPV power
if ( ( P_DC > 400 ) | | ( P_DC < 0 ) | | ( TotalP [ 0 ] > MAXPOWER ) ) { // cant be!!
TotalP [ 0 ] = 0 ;
return ;
}
# ifdef ESP8266
VALUES [ PV ] [ 0 ] = PV ;
VALUES [ PV ] [ 1 ] = P_DC ;
VALUES [ PV ] [ 2 ] = U_DC ;
VALUES [ PV ] [ 3 ] = I_DC ;
VALUES [ PV ] [ 4 ] = Q_DC ;
# endif
PMI = TotalP [ 0 ] ;
LIM = ( uint16_t ) Limit ;
PrintOutValues ( ) ;
} */
/*For MI1500:
if ( MI1500 ) {
STAT = ( uint8_t ) ( p - > packet [ 25 ] ) ;
FCNT = ( uint8_t ) ( p - > packet [ 26 ] ) ;
FCODE = ( uint8_t ) ( p - > packet [ 27 ] ) ;
}
*/
DPRINTLN ( DBG_INFO , F ( " Inverter " ) + String ( iv - > id ) + F ( " : data msg 0x " ) + String ( p - > packet [ 0 ] , HEX ) + F ( " channel " ) + datachan ) ;
}
bool build ( uint8_t id , bool * complete ) {
/*DPRINTLN(DBG_VERBOSE, F("build"));
uint16_t crc = 0xffff , crcRcv = 0x0000 ;
DPRINTLN ( DBG_VERBOSE , F ( " build " ) ) ;
/*uint16_t crc = 0xffff, crcRcv = 0x0000;
if ( mPayload [ id ] . maxPackId > MAX_PAYLOAD_ENTRIES )
mPayload [ id ] . maxPackId = MAX_PAYLOAD_ENTRIES ;
// check if all fragments are there
* complete = true ;
for ( uint8_t i = 0 ; i < mPayload [ id ] . maxPackId ; i + + ) {
if ( mPayload [ id ] . len [ i ] = = 0 )
* complete = false ;
*/
// check if all messages are there
* complete = mPayload [ id ] . complete ;
uint8_t txCmd = mPayload [ id ] . txCmd ;
//uint8_t cmd = getQueuedCmd();
if ( ! * complete ) {
//if (txCmd == 0x09 || txCmd == 0x11 || txCmd >= 0x36 && txCmd <= 0x39 )
// return false;
DPRINTLN ( DBG_VERBOSE , F ( " incomlete, txCmd is 0x " ) + String ( txCmd , HEX ) ) ; // + F("cmd is 0x") + String(cmd, HEX));
}
if ( ! * complete )
return false ;
for ( uint8_t i = 0 ; i < mPayload [ id ] . maxPackId ; i + + ) {
/*for (uint8_t i = 0; i < mPayload[id].maxPackId; i++) {
if ( mPayload [ id ] . len [ i ] > 0 ) {
if ( i = = ( mPayload [ id ] . maxPackId - 1 ) ) {
crc = ah : : crc16 ( mPayload [ id ] . data [ i ] , mPayload [ id ] . len [ i ] - 2 , crc ) ;
@ -546,13 +569,42 @@ class MiPayload {
mPayload [ id ] . lastFound = false ; */
mPayload [ id ] . retransmits = 0 ;
mPayload [ id ] . complete = false ;
mPayload [ id ] . dataAB [ 0 ] = true ; //only required for 2CH devices
mPayload [ id ] . dataAB [ 1 ] = true ;
mPayload [ id ] . txCmd = 0 ;
mPayload [ id ] . requested = false ;
mPayload [ id ] . ts = * mTimestamp ;
mPayload [ id ] . stsa = false ;
mPayload [ id ] . stsb = false ;
//mPayload[id].sts[0] = 0;
mPayload [ id ] . sts [ 1 ] = 0 ;
mPayload [ id ] . sts [ 2 ] = 0 ;
mPayload [ id ] . sts [ 3 ] = 0 ;
mPayload [ id ] . sts [ 4 ] = 0 ;
}
/* template<class T=uint8_t>
static T calcMiSts ( Inverter < > * iv ) {
if ( NULL ! = iv ) {
T result = 0 ;
bool stsComplete = true ;
uint8_t stsCh ;
for ( uint8_t i = 1 ; i < = iv - > channels ; i + + ) {
stsCh = mPayload [ iv - > id ] . sts [ i ] ;
if ( ! stsCh ) {
stsComplete = false ;
} else if ( ! result | | stsCh < result ) {
result = stsCh ;
if ( stsComplete & & stsCh > stsComplete ) {
stsComplete = stsCh ;
}
}
}
mPayload [ iv - > id ] . sts [ 0 ] = stsComplete ;
return result ;
}
return 0 ;
} */
IApp * mApp ;
HMSYSTEM * mSys ;
statistics_t * mStat ;
rejoe2
2 years ago
GitHub