Merge pull request #1 from rejoe2/MI-HW-detection

MI model detection

src/hm/hmDefines.h

@@ -275,6 +275,21 @@ typedef struct {
 //              7 = biggest with x inputs
 
 const devInfo_t devInfo[] = {
+    // MI 2nd gen; only 0x001311 is tested,
+    //                  others (starting with MI-250) according to https://github.com/lumapu/ahoy/issues/1111#issuecomment-1698100571
+    { 0x000111,  250 },
+    { 0x000311,  300 },
+    { 0x000411,  350 },
+    { 0x001111,  500 },
+    { 0x001311,  600 },
+    { 0x001321,  600 },
+    { 0x001421,  700 },
+    { 0x001411,  700 },
+    { 0x002111, 1000 },
+    { 0x002311, 1200 },
+    { 0x002511, 1500 },
+    { 0x002411, 1500 },
+
     // MI 3rd gen
     { 0x001311,  600 },
     { 0x001411,  700 },

src/hm/hmInverter.h

@@ -210,8 +210,13 @@ class Inverter {
                         enqueCommand<InfoCommand>(InverterDevInform_Simple); // hardware 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 (getFwVersion() == 0) {
+                        enqueCommand<InfoCommand>(InverterDevInform_All); // hard- and firmware version
+                    } else {
+                        record_t<> *rec = getRecordStruct(InverterDevInform_Simple);
+                        if (getChannelFieldValue(CH0, FLD_PART_NUM, rec) == 0)
+                            enqueCommand<InfoCommand>(InverterDevInform_All); // hard- and firmware version for missing HW part nr, delivered by frame 1
+                    }
                     if (type == INV_TYPE_4CH) {
                         enqueCommand<InfoCommand>(0x36);
                     } else {
@@ -334,6 +339,9 @@ class Inverter {
                             DPRINT(DBG_INFO, "alarm ID incremented to ");
                             DBGPRINTLN(String(alarmMesIndex));
                             enqueCommand<InfoCommand>(AlarmData);
+//                            ivSendHighPrio(id);
+//                            if(mHighPrioIv == NULL)      // process the request immediately if possible
+//                                mHighPrioIv = iv;
                         }
                     }
                 }

src/hm/hmPayload.h

@@ -347,6 +347,9 @@ class HmPayload {
                                     yield();
                                 }
                             }
+                            if( (InverterDevInform_All == mPayload[iv->id].txCmd) && (mHighPrioIv == NULL) )      // process next request immediately if possible
+                                mHighPrioIv = iv;
+
                         } else {
                             DPRINT(DBG_ERROR, F("plausibility check failed, expected "));
                             DBGPRINT(String(rec->pyldLen));

src/hm/miPayload.h

@@ -193,6 +193,8 @@ class MiPayload {
                 record_t<> *rec = iv->getRecordStruct(InverterDevInform_All);  // choose the record structure
                 rec->ts = mPayload[iv->id].ts;
                 mPayload[iv->id].gotFragment = true;
+                if(mHighPrioIv == NULL)                          // process next request immediately if possible
+                    mHighPrioIv = iv;
 
 /*
  Polling the device software and hardware version number command
@@ -219,12 +221,13 @@ case InverterDevInform_All:
                     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 }
+    { FLD_BOOTLOADER_VER,       UNIT_NONE,   CH0,  8, 2, 1 }
 };
 */
 
@@ -240,14 +243,31 @@ const byteAssign_t InfoAssignment[] = {
                         DPRINT(DBG_INFO,F("HW_VER is "));
                         DBGPRINTLN(String((p->packet[24] << 8) + p->packet[25]));
                     }
+                    record_t<> *rec = iv->getRecordStruct(InverterDevInform_Simple);  // choose the record structure
+                    rec->ts = mPayload[iv->id].ts;
+                    iv->setValue(1, rec, (uint32_t) ((p->packet[24] << 8) + p->packet[25])/1);
+                    //notify(InverterDevInform_All, iv);
+                    //28737
                 } else if ( p->packet[9] == 0x01 || p->packet[9] == 0x10 ) {//second frame for MI, 3rd gen. answers in 0x10
                     DPRINT_IVID(DBG_INFO, iv->id);
                     if ( p->packet[9] == 0x01 ) {
                         DBGPRINTLN(F("got 2nd frame (hw info)"));
+                        /* according to xlsx (different start byte -1!)
+                        byte[11] to	 byte[14] HW_PN
+                        byte[15]	 byte[16] HW_FB_TLmValue
+                        byte[17]	 byte[18] HW_FB_ReSPRT
+                        byte[19]	 byte[20] HW_GridSamp_ResValule
+                        byte[21]	 byte[22] HW_ECapValue
+                        byte[23] to	 byte[26] Matching_APPFW_PN
+                    */
+
                         DPRINT(DBG_INFO,F("HW_PartNo "));
                         DBGPRINTLN(String((uint32_t) (((p->packet[10] << 8) | p->packet[11]) << 8 | p->packet[12]) << 8 | p->packet[13]));
                         mPayload[iv->id].gotFragment = true;
-                        iv->setValue(iv->getPosByChFld(0, FLD_YT, rec), rec, (float) ((p->packet[20] << 8) + p->packet[21])/1);
+                        record_t<> *rec = iv->getRecordStruct(InverterDevInform_Simple);  // choose the record structure
+                        rec->ts = mPayload[iv->id].ts;
+                        iv->setValue(0, rec, (uint32_t) ((((p->packet[10] << 8) | p->packet[11]) << 8 | p->packet[12]) << 8 | p->packet[13])/1);
+
                         if(mSerialDebug) {
                             DPRINT(DBG_INFO,F("HW_FB_TLmValue "));
                             DBGPRINTLN(String((p->packet[14] << 8) + p->packet[15]));
@@ -257,7 +277,11 @@ const byteAssign_t InfoAssignment[] = {
                             DBGPRINTLN(String((p->packet[18] << 8) + p->packet[19]));
                             DPRINT(DBG_INFO,F("HW_ECapValue "));
                             DBGPRINTLN(String((p->packet[20] << 8) + p->packet[21]));
+                            DPRINT(DBG_INFO,F("Matching_APPFW_PN "));
+                            DBGPRINTLN(String((uint32_t) (((p->packet[22] << 8) | p->packet[23]) << 8 | p->packet[24]) << 8 | p->packet[25]));
                         }
+                        //notify(InverterDevInform_Simple, iv);
+                        notify(InverterDevInform_All, iv);
                     } else {
                         DBGPRINTLN(F("3rd gen. inverter!"));           // see table in OpenDTU code, DevInfoParser.cpp devInfo[]
                     }
@@ -265,6 +289,22 @@ const byteAssign_t InfoAssignment[] = {
                 } else if ( p->packet[9] == 0x12 ) {//3rd frame
                     DPRINT_IVID(DBG_INFO, iv->id);
                     DBGPRINTLN(F("got 3rd frame (hw info)"));
+                    /* according to xlsx (different start byte -1!)
+                        byte[11]	 byte[12] APPFW_MINVER
+                        byte[13]	 byte[14] HWInfoAddr
+                        byte[15]	 byte[16] PNInfoCRC_gusv
+                        byte[15]	 byte[16] PNInfoCRC_gusv
+                    */
+                    if(mSerialDebug) {
+                        DPRINT(DBG_INFO,F("APPFW_MINVER "));
+                        DBGPRINTLN(String((p->packet[10] << 8) + p->packet[11]));
+                        DPRINT(DBG_INFO,F("HWInfoAddr "));
+                        DBGPRINTLN(String((p->packet[12] << 8) + p->packet[13]));
+                        DPRINT(DBG_INFO,F("PNInfoCRC_gusv "));
+                        DBGPRINTLN(String((p->packet[14] << 8) + p->packet[15]));
+                        DPRINT(DBG_INFO,F("PNInfoCRC_gusv (pt. 2?) "));
+                        DBGPRINTLN(String((p->packet[16] << 8) + p->packet[17]));
+                    }
                     iv->setQueuedCmdFinished();
                     mPayload[iv->id].complete = true;
                     mStat->rxSuccess++;