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Merge branch 'rejoe2-development03' into development03

pull/769/head
lumapu 2 years ago
parent
9604687157 4342ef0f54
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8bdd0f5bfd
3 changed files with 146 additions and 135 deletions
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  1. 2
      User_Manual.md
  2. 12
      src/hm/hmInverter.h
  3. 257
      src/hm/miPayload.h

2
User_Manual.md
View File

@ -308,6 +308,8 @@ To get the information open the URL `/api/record/info` on your AhoyDTU. The info
| B5r1oJ0A9G | HM-800 | | 1.0.10 | 2021 | | 104 | | |
| B5r1oJ0A9G | HM-800 | | 1.0.10 | 2021 | | 104 | | |
| tomquist | TSOL-M1600 | | 1.0.12 | 2020 | 06-24 | 100 | | |
| rejoe2 | MI-600 | | 236 | 2018 | 11-27 | 17 | | |
| rejoe2 | MI-1500 | | 1.0.12 | 2020 | 06-24 | 100 | | |
| | | | | | | | | |
## Developer Information about Command Queue

12
src/hm/hmInverter.h
View File

@ -168,19 +168,13 @@ class Inverter {
enqueCommand<InfoCommand>(InverterDevInform_All); // firmware version
enqueCommand<InfoCommand>(RealTimeRunData_Debug); // live data
} else if (ivGen == IV_MI){
if (getFwVersion() == 0)
enqueCommand<InfoCommand>(InverterDevInform_All); // firmware version; might not work, esp. for 1/2 ch hardware
if (type == INV_TYPE_4CH) {
enqueCommand<InfoCommand>(0x36);
/*for(uint8_t i = 0x36; i <= 0x39; i++) {
enqueCommand<MiInfoCommand>(i); // live data
}*/
} else if (type == INV_TYPE_2CH) {
enqueCommand<InfoCommand>(0x09);
//enqueCommand<MiInfoCommand>(0x11);
} else if (type == INV_TYPE_1CH) {
} else {
enqueCommand<InfoCommand>(0x09);
}
//if (getFwVersion() == 0)
// enqueCommand<MiInfoCommand>(InverterDevInform_All); // firmware version, might not work, esp. for 1/2 ch hardware
}
if ((actPowerLimit == 0xffff) && isConnected)

257
src/hm/miPayload.h
View File

@ -24,13 +24,12 @@ typedef struct {
uint8_t txId;
uint8_t invId;
uint8_t retransmits;
uint8_t skipfirstrepeat;
bool gotFragment;
/*
uint8_t data[MAX_PAYLOAD_ENTRIES][MAX_RF_PAYLOAD_SIZE];
uint8_t maxPackId;
bool lastFound;
bool gotFragment;*/
bool lastFound;*/
} miPayload_t;
@ -93,12 +92,14 @@ class MiPayload {
DBGPRINT(F(") prepareDevInformCmd 0x"));
DBGPRINTLN(String(cmd, HEX));
uint8_t cmd2 = cmd;
if (cmd == 0x1 ) {
cmd = TX_REQ_INFO;
if (cmd == 0x1 ) { //0x1
cmd = 0x0f;
cmd2 = 0x00;
mSys->Radio.sendCmdPacket(iv->radioId.u64, cmd, cmd2, false);
} else {
mSys->Radio.prepareDevInformCmd(iv->radioId.u64, cmd2, mPayload[iv->id].ts, iv->alarmMesIndex, false, cmd);
};
mSys->Radio.prepareDevInformCmd(iv->radioId.u64, cmd2, mPayload[iv->id].ts, iv->alarmMesIndex, false, cmd);
mPayload[iv->id].txCmd = cmd;
if (iv->type == INV_TYPE_1CH || iv->type == INV_TYPE_2CH) {
mPayload[iv->id].dataAB[CH1] = false;
@ -118,53 +119,30 @@ class MiPayload {
if (p->packet[0] == (0x08 + ALL_FRAMES)) { // 0x88; MI status response to 0x09
miStsDecode(iv, p);
} else if (p->packet[0] == (0x11 + SINGLE_FRAME)) { // 0x92; MI status response to 0x11
miStsDecode(iv, p, CH2);
/*} 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();
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);
} 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] == ()) { // MI data response to 0x11
mPayload[iv->id].txId = p->packet[0];
miDataDecode(iv,p);
mStat->rxSuccess++;
//iv->setQueuedCmdFinished();*/
else if (p->packet[0] == (0x11 + SINGLE_FRAME)) { // 0x92; MI status response to 0x11
miStsDecode(iv, p, CH2);
}
} else if ( p->packet[0] == 0x09 + ALL_FRAMES ||
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);
//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);
} else {
mPayload[iv->id].complete = true;
//iv->setValue(iv->getPosByChFld(0, FLD_YD, rec), rec, CALC_YD_CH0);
//iv->setQueuedCmdFinished();
}*/
}
//}
else if (p->packet[0] == ( 0x0f + ALL_FRAMES)) {
// MI response from get hardware information request
record_t<> *rec = iv->getRecordStruct(InverterDevInform_All); // choose the record structure
rec->ts = mPayload[iv->id].ts;
mPayload[iv->id].gotFragment = true;
} else if (p->packet[0] == (TX_REQ_INFO + ALL_FRAMES)) { // response from get information command
// atm, we just do nothing else than print out what we got...
// for decoding see xls- Data collection instructions - #147ff
/*
Polling the device software and hardware version number command
start byte Command word routing address target address User data check end byte
byte[0] byte[1] byte[2] byte[3] byte[4] byte[5] byte[6] byte[7] byte[8] byte[9] byte[10] byte[11] byte[12]
0x7e 0x0f xx xx xx xx YY YY YY YY 0x00 CRC 0x7f
Command Receipt - First Frame
start byte Command word target address routing address Multi-frame marking User data User data User data User data User data User data User data User data User data User data User data User data User data User data User data User data check end byte
byte[0] byte[1] byte[2] byte[3] byte[4] byte[5] byte[6] byte[7] byte[8] byte[9] byte[10] byte[11] byte[12] byte[13] byte[14] byte[15] byte[16] byte[17] byte[18] byte[19] byte[20] byte[21] byte[22] byte[23] byte[24] byte[25] byte[26] byte[27] byte[28]
@ -177,8 +155,41 @@ class MiPayload {
start byte Command word target address routing address Multi-frame marking User data User data User data User data User data User data User data User data check end byte
byte[0] byte[1] byte[2] byte[3] byte[4] byte[5] byte[6] byte[7] byte[8] byte[9] byte[10] byte[11] byte[12] byte[13] byte[14] byte[15] byte[16] byte[15] byte[16] byte[17] byte[18]
0x7e 0x8f YY YY YY YY xx xx xx xx 0x12 APPFW_MINVER HWInfoAddr PNInfoCRC_gusv PNInfoCRC_gusv CRC 0x7f
*/
/*
case InverterDevInform_All:
rec->length = (uint8_t)(HMINFO_LIST_LEN);
rec->assign = (byteAssign_t *)InfoAssignment;
rec->pyldLen = HMINFO_PAYLOAD_LEN;
break;
const byteAssign_t InfoAssignment[] = {
{ FLD_FW_VERSION, UNIT_NONE, CH0, 0, 2, 1 },
{ FLD_FW_BUILD_YEAR, UNIT_NONE, CH0, 2, 2, 1 },
{ FLD_FW_BUILD_MONTH_DAY, UNIT_NONE, CH0, 4, 2, 1 },
{ FLD_FW_BUILD_HOUR_MINUTE, UNIT_NONE, CH0, 6, 2, 1 },
{ FLD_HW_ID, UNIT_NONE, CH0, 8, 2, 1 }
};
*/
if ( p->packet[9] == 0x00 ) {//first frame
//FLD_FW_VERSION
for (uint8_t i = 0; i < 5; i++) {
iv->setValue(i, rec, (float) ((p->packet[(12+2*i)] << 8) + p->packet[(13+2*i)])/1);
}
iv->setQueuedCmdFinished();
mStat->rxSuccess++;
mSys->Radio.sendCmdPacket(iv->radioId.u64, 0x0f, 0x01, false);
} else if ( p->packet[9] == 0x01 ) {//second frame
DPRINTLN(DBG_INFO, F("(#") + String(iv->id) + F(") got 2nd frame (hw info)"));
mSys->Radio.sendCmdPacket(iv->radioId.u64, 0x0f, 0x12, false);
} else if ( p->packet[9] == 0x12 ) {//3rd frame
DPRINTLN(DBG_INFO, F("(#") + String(iv->id) + F(") got 3rd frame (hw info)"));
}
} else if (p->packet[0] == (TX_REQ_INFO + ALL_FRAMES)) { // response from get information command
// atm, we just do nothing else than print out what we got...
// for decoding see xls- Data collection instructions - #147ff
mPayload[iv->id].txId = p->packet[0];
DPRINTLN(DBG_DEBUG, F("Response from info request received"));
uint8_t *pid = &p->packet[9];
@ -194,7 +205,6 @@ class MiPayload {
mPayload[iv->id].len[(*pid & 0x7F) - 1] = p->len - 11;
mPayload[iv->id].gotFragment = true;
}
if ((*pid & ALL_FRAMES) == ALL_FRAMES) {
// Last packet
if (((*pid & 0x7f) > mPayload[iv->id].maxPackId) || (MAX_PAYLOAD_ENTRIES == mPayload[iv->id].maxPackId)) {
@ -291,7 +301,8 @@ class MiPayload {
if (IV_HM == iv->ivGen) // only process MI inverters
continue; // skip to next inverter
if ((mPayload[iv->id].txId != (TX_REQ_INFO + ALL_FRAMES)) &&
if ( !mPayload[iv->id].complete &&
(mPayload[iv->id].txId != (TX_REQ_INFO + ALL_FRAMES)) &&
(mPayload[iv->id].txId < (0x36 + ALL_FRAMES)) &&
(mPayload[iv->id].txId > (0x39 + ALL_FRAMES)) &&
(mPayload[iv->id].txId != (0x09 + ALL_FRAMES)) &&
@ -304,6 +315,13 @@ class MiPayload {
continue; // skip to next inverter
}
//delayed next message?
//mPayload[iv->id].skipfirstrepeat++;
if (mPayload[iv->id].skipfirstrepeat) {
mPayload[iv->id].skipfirstrepeat = 0; //reset counter*/
continue; // skip to next inverter
}
if (!mPayload[iv->id].complete) {
//DPRINTLN(DBG_INFO, F("Pyld incompl code")); //info for testing only
bool crcPass, pyldComplete;
@ -315,9 +333,12 @@ class MiPayload {
DPRINTLN(DBG_INFO, F("Prevent retransmit on Restart / CleanState_LockAndAlarm..."));
mPayload[iv->id].retransmits = mMaxRetrans;
} else if(iv->devControlCmd == ActivePowerContr) {
DPRINTLN(DBG_INFO, F("retransmit power limit"));
DPRINT(DBG_INFO, F("(#"));
DBGPRINT(String(iv->id));
DBGPRINTLN(F(") retransmit power limit"));
mSys->Radio.sendControlPacket(iv->radioId.u64, iv->devControlCmd, iv->powerLimit, true);
} else {
uint8_t cmd = mPayload[iv->id].txCmd;
if (mPayload[iv->id].retransmits < mMaxRetrans) {
mPayload[iv->id].retransmits++;
if( !mPayload[iv->id].gotFragment ) {
@ -325,22 +346,40 @@ class MiPayload {
DBGPRINT(String(iv->id));
DBGPRINTLN(F(") nothing received"));
mPayload[iv->id].retransmits = mMaxRetrans;
} else if ( cmd == 0x0f ) {
//hard/firmware request
mSys->Radio.sendCmdPacket(iv->radioId.u64, 0x0f, 0x00, true);
//iv->setQueuedCmdFinished();
//cmd = iv->getQueuedCmd();
} else {
uint8_t cmd = mPayload[iv->id].txCmd;
bool change = false;
if ( cmd >= 0x36 && cmd < 0x39 ) { // MI-1500 Data command
cmd++; // just request the next channel
change = true;
} else if ( cmd == 0x09 ) {//MI single or dual channel device
if ( mPayload[iv->id].dataAB[CH1] && iv->type == INV_TYPE_2CH ) {
if (!mPayload[iv->id].stsAB[CH2] || !mPayload[iv->id].dataAB[CH2] )
if (!mPayload[iv->id].stsAB[CH2] || !mPayload[iv->id].dataAB[CH2] ) {
cmd = 0x11;
change = true;
}
}
} else if ( cmd == 0x11) {
if ( mPayload[iv->id].dataAB[CH2] ) { // data is there, but no status
if (!mPayload[iv->id].stsAB[CH1] || !mPayload[iv->id].dataAB[CH1] )
if (!mPayload[iv->id].stsAB[CH1] || !mPayload[iv->id].dataAB[CH1] ) {
cmd = 0x09;
change = true;
}
}
DPRINTLN(DBG_INFO, F("(#") + String(iv->id) + F(") next request is 0x") + String(cmd, HEX));
}
DPRINT(DBG_INFO, F("(#"));
DBGPRINT(String(iv->id));
DBGPRINT(F(") "));
if (change) {
DBGPRINT(F("next request is 0x"));
} else {
DBGPRINT(F("not complete: Request Retransmit 0x"));
}
DBGPRINTLN(String(cmd, HEX));
//mSys->Radio.sendCmdPacket(iv->radioId.u64, cmd, cmd, true);
mSys->Radio.prepareDevInformCmd(iv->radioId.u64, cmd, mPayload[iv->id].ts, iv->alarmMesIndex, true, cmd);
mPayload[iv->id].txCmd = cmd;
@ -357,12 +396,13 @@ class MiPayload {
DPRINTLN(DBG_INFO, F("(#") + String(iv->id) + F(") prepareDevInformCmd 0x") + String(mPayload[iv->id].txCmd, HEX));
mSys->Radio.prepareDevInformCmd(iv->radioId.u64, mPayload[iv->id].txCmd, mPayload[iv->id].ts, iv->alarmMesIndex, true);
}
} else { // payload complete
}
/*else { // payload complete
//This tree is not really tested, most likely it's not truly complete....
DPRINTLN(DBG_INFO, F("procPyld: cmd: 0x") + String(mPayload[iv->id].txCmd, HEX));
DPRINTLN(DBG_INFO, F("procPyld: txid: 0x") + String(mPayload[iv->id].txId, HEX));
//DPRINTLN(DBG_DEBUG, F("procPyld: max: ") + String(mPayload[iv->id].maxPackId));
//record_t<> *rec = iv->getRecordStruct(mPayload[iv->id].txCmd); // choose the parser
mPayload[iv->id].complete = true;
uint8_t ac_pow = 0;
//if (mPayload[iv->id].sts[0] == 3) {
@ -370,34 +410,27 @@ class MiPayload {
//}
record_t<> *rec = iv->getRecordStruct(RealTimeRunData_Debug); // choose the parser
iv->setValue(iv->getPosByChFld(0, FLD_PAC, rec), rec, (float) (ac_pow/10));
DPRINTLN(DBG_INFO, F("proces: compl. set of msgs detected"));
DPRINTLN(DBG_INFO, F("process: compl. set of msgs detected"));
iv->setValue(iv->getPosByChFld(0, FLD_YD, rec), rec, calcYieldDayCh0(iv,0));
iv->doCalculations();
/*uint8_t payload[128];
uint8_t payloadLen = 0;
memset(payload, 0, 128);
for (uint8_t i = 0; i < (mPayload[iv->id].maxPackId); i++) {
memcpy(&payload[payloadLen], mPayload[iv->id].data[i], (mPayload[iv->id].len[i]));
payloadLen += (mPayload[iv->id].len[i]);
yield();
}
payloadLen -= 2;
if (mSerialDebug) {
DPRINT(DBG_INFO, F("Payload (") + String(payloadLen) + "): ");
mSys->Radio.dumpBuf(payload, payloadLen);
}
if (NULL == rec) {
DPRINTLN(DBG_ERROR, F("record is NULL!"));
} else if ((rec->pyldLen == payloadLen) || (0 == rec->pyldLen)) {
if (mPayload[iv->id].txId == (TX_REQ_INFO + ALL_FRAMES))
mStat->rxSuccess++;
rec->ts = mPayload[iv->id].ts;
for (uint8_t i = 0; i < rec->length; i++) {
iv->addValue(i, payload, rec);
@ -405,7 +438,6 @@ class MiPayload {
}
iv->doCalculations();
notify(mPayload[iv->id].txCmd);
if(AlarmData == mPayload[iv->id].txCmd) {
uint8_t i = 0;
uint16_t code;
@ -423,9 +455,8 @@ class MiPayload {
DPRINTLN(DBG_ERROR, F("plausibility check failed, expected ") + String(rec->pyldLen) + F(" bytes"));
mStat->rxFail++;
}
iv->setQueuedCmdFinished(); */
}
//}*/
}
yield();
}
@ -455,29 +486,30 @@ class MiPayload {
iv->setValue(iv->getPosByChFld(0, FLD_EVT, rec), rec, status);
}
/*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;
rem: gotFragment should be a better solution
} */
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));
DPRINTLN(DBG_INFO, F("(#") + String(iv->id) + F(") alarm ID incremented to ") + String(iv->alarmMesIndex));
iv->enqueCommand<InfoCommand>(AlarmData);
}
//mPayload[iv->id].skipfirstrepeat = 1;
if (mPayload[iv->id].stsAB[CH0] && mPayload[iv->id].dataAB[CH0] && !mPayload[iv->id].complete) {
mPayload[iv->id].complete = true;
DPRINTLN(DBG_INFO, F("rec. complete set of msgs"));
miComplete(iv);
/*mPayload[iv->id].complete = true;
DPRINTLN(DBG_INFO, F("(#") + String(iv->id) + F(") got all msgs"));
iv->setValue(iv->getPosByChFld(0, FLD_YD, rec), rec, calcYieldDayCh0(iv,0));
//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->setQueuedCmdFinished();
iv->doCalculations();
mPayload[iv->id].skipfirstrepeat = 0;
notify(mPayload[iv->id].txCmd);
yield();*/
}
}
void miDataDecode(Inverter<> *iv, packet_t *p) {
@ -553,43 +585,30 @@ class MiPayload {
}
if ( mPayload[iv->id].complete || //4ch device
iv->type != INV_TYPE_4CH //other devices
&& mPayload[iv->id].dataAB[CH0]
&& mPayload[iv->id].stsAB[CH0] ) {
miComplete(iv);
/*mPayload[iv->id].complete = true; // For 2 CH devices, this might be too short...
DPRINTLN(DBG_INFO, F("(#") + String(iv->id) + F(") got all msgs"));
iv->setValue(iv->getPosByChFld(0, FLD_YD, rec), rec, calcYieldDayCh0(iv,0));
//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));
if ( mPayload[iv->id].complete || //4ch device
((iv->type != INV_TYPE_4CH) //other devices
&& mPayload[iv->id].dataAB[CH0]
&& mPayload[iv->id].stsAB[CH0])) {
mPayload[iv->id].complete = true; // For 2 CH devices, this might be too short...
DPRINTLN(DBG_INFO, F("rec. complete set of msgs"));
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)
}*/
}
/* should be included in process()
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);*/
}
notify(mPayload[iv->id].txCmd);
/*
if(AlarmData == mPayload[iv->id].txCmd) {
@ -607,6 +626,24 @@ class MiPayload {
}*/
}
void miComplete(Inverter<> *iv) {
mPayload[iv->id].complete = true; // For 2 CH devices, this might be too short...
DPRINTLN(DBG_INFO, F("(#") + String(iv->id) + F(") got all msgs"));
record_t<> *rec = iv->getRecordStruct(RealTimeRunData_Debug);
iv->setValue(iv->getPosByChFld(0, FLD_YD, rec), rec, calcYieldDayCh0(iv,0));
//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->doCalculations();
iv->setQueuedCmdFinished();
mStat->rxSuccess++;
yield();
notify(mPayload[iv->id].txCmd);
}
bool build(uint8_t id, bool *complete) {
DPRINTLN(DBG_VERBOSE, F("build"));
/*uint16_t crc = 0xffff, crcRcv = 0x0000;
@ -620,7 +657,7 @@ class MiPayload {
//uint8_t cmd = getQueuedCmd();
if(!*complete) {
DPRINTLN(DBG_VERBOSE, F("incomlete, txCmd is 0x") + String(txCmd, HEX)); // + F("cmd is 0x") + String(cmd, HEX));
if (txCmd == 0x09 || txCmd == 0x11 || (txCmd >= 0x36 && txCmd <= 0x39))
if (txCmd == 0x09 || txCmd == 0x11 || txCmd >= 0x36 && txCmd <= 0x39 )
return false;
}
@ -634,7 +671,6 @@ class MiPayload {
}
yield();
}
return (crc == crcRcv) ? true : false;*/
return true;
}
@ -654,6 +690,7 @@ class MiPayload {
mPayload[id].stsAB[CH1] = true; //required for 1CH and 2CH devices
mPayload[id].stsAB[CH2] = true; //only required for 2CH devices
mPayload[id].txCmd = 0;
mPayload[id].skipfirstrepeat = 0;
mPayload[id].requested = false;
mPayload[id].ts = *mTimestamp;
mPayload[id].sts[0] = 0; //disable this in case gotFragment is not working
@ -664,28 +701,6 @@ class MiPayload {
}
/* 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;

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