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SMANetArduino.ino
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/*
NANODE SMA PV MONITOR
SMANetArduino.ino
*/
unsigned int readLevel1PacketFromBluetoothStream(int index) {
unsigned int retcmdcode;
bool errorCodePCS;
bool errorCodeVSA;
bool errorCodePIFM;
//HowMuchMemory();
//Serial.print(F("#Read cmd="));
//Serial.print("READ="); Serial.println(index,HEX);
retcmdcode = 0;
errorCodePCS = false;
errorCodeVSA = false;
errorCodePIFM = false;
//level1packet={0};
//Wait for a start packet byte
while (getByte() != '\x7e') {
delay(1);
}
byte len1 = getByte();
byte len2 = getByte();
byte packetchecksum = getByte();
if ( (0x7e ^ len1 ^ len2) == packetchecksum ) errorCodePCS = false;
else {
debugMsgln("Inv hdr");
Serial.println("*** Invalid header chksum.");
errorCodePCS = true;
return 0xFFFF;
}
for (int i=0; i<6; i++) Level1SrcAdd[i]=getByte();
for (int i=0; i<6; i++) Level1DestAdd[i]=getByte();
retcmdcode = getByte()+( getByte() * 256 );
packetlength = len1 + (len2*256);
//Serial.println(" ");
//Serial.print("packetlength = ");
//Serial.println(packetlength);
//if (packetlength > 120) packetlength = 120;
if ( ValidateSenderAddress() ) {
//Serial.println("*** Message is from SMA.");
errorCodeVSA = false;
}
else {
debugMsgln("P wrng dest");
//Serial.println("*** Not from SMA.");
errorCodeVSA = true;
}
if ( IsPacketForMe() ) {
//Serial.println("*** Message is to ESP32.");
errorCodePIFM = false;
}
else {
debugMsgln("P wrng snder");
//Serial.println("*** Not to me.");
errorCodePIFM = true;
}
//If retcmdcode==8 then this is part of a multi packet response which we need to buffer up
//Read the whole packet into buffer
//=0; //Seperate index as we exclude bytes as we move through the buffer
//Serial.println(" ");
//Serial.print( "packetlength-level1headerlength = " );
//Serial.println( packetlength-level1headerlength );
for(int i=0; i<(packetlength-level1headerlength); i++) {
//Serial.print( " index = " );
//Serial.print( index );
//Serial.print( " " );
level1packet[index] = getByte();
//Keep 1st byte raw unescaped 0x7e
//if (i>0) {
if ( escapenextbyte == true ) {
level1packet[index] = level1packet[index] ^ 0x20;
escapenextbyte = false;
index++;
}
else {
if ( (level1packet[index] == 0x7d) ){
//Throw away the 0x7d byte
escapenextbyte = true;
}
else index++;
}
} // End of for loop that reads the ENTIRE packet into level1packet[]
//Reset packetlength based on true length of packet
packetlength = index + level1headerlength; // Length of the entire packet received. Which is 18 greater
// than the amount of data actually added to level1packet[]
packetposition = index; // Index into level1packet[] of the first byte after the Level 1 header stuff.
// The byte at level1packet[index] will be 0x7E for a level 2 packet. NOT 0x7E for a level 1 packet.
if( errorCodePCS || errorCodeVSA || errorCodePIFM ) {
//Serial.println(" ");
//Serial.println("readLevel1PacketFromBluetoothStream now returning with return code = 0xFFFF.");
return 0xFFFF;
}
else {
//Serial.println(" ");
//Serial.print("readLevel1PacketFromBluetoothStream now returning with return code = ");
//Serial.println(retcmdcode);
return retcmdcode;
}
}
//-----------------------------------------------------------
void prepareToReceive(){
FCSChecksum=0xFFFF;
packetposition=0;
escapenextbyte=false;
}
//------------------------------------------------------------
bool containsLevel2Packet() {
//Serial.println(" ");
//Serial.print("packetlength = ");
//Serial.println(packetlength);
//Serial.print("level1headerlength = ");
//Serial.println(level1headerlength);
if ((packetlength-level1headerlength) < 5) return false;
return (level1packet[0] == 0x7e &&
level1packet[1] == 0xff &&
level1packet[2] == 0x03 &&
level1packet[3] == 0x60 &&
level1packet[4] == 0x65);
}
//---------------------------------------------------------------
// This function will read BT packets from the inverter until it finds one that is addressed to me, and
// has the same command code as the one I am waiting for = cmdcodetowait.
// It is called when you know a Level1 message is coming.
// NOTE: NEVER call this function with cmdcodetowait = 0xFFFF. That value is returned
// if the packet has a checksum error, or it's not addressed to me, etc...
// This function just discards the packet if there is an error, and resumes waiting.
void waitForPacket(unsigned int cmdcodetowait) {
prepareToReceive();
do {
cmdcode = readLevel1PacketFromBluetoothStream(0);
} while ( cmdcode != cmdcodetowait);
return;
}
//------------------------------------------------------------------
// This code will also look for the proper command code.
// The difference to the function above is that it will search deeply through the level1packet[] array.
// Level 2 messages (PPP messages) follow the Level 1 packet header part. Each Level 2 packet starts with
// 7E FF 03 60 65.
void waitForMultiPacket(unsigned int cmdcodetowait) {
//debugMsg("waitForMultiPacket=0x"); Serial.print(cmdcodetowait,HEX);
//prepareToReceive();
//Serial.println(" ");
while ( cmdcode != cmdcodetowait ) {
prepareToReceive();
//Serial.println("*** In waitForMultiPacket. About to call readLevel1PacketFromBluetoothStream(0) ***");
//cmdcode = readLevel1PacketFromBluetoothStream(packetposition);
cmdcode = readLevel1PacketFromBluetoothStream(0);
//Serial.println(" ");
//Serial.print("*** Done reading packet. cmdcode = ");
//Serial.println(cmdcode);
}
//Serial.println("Now returning from 'waitForMultiPacket'.");
return;
}
void writeSMANET2Long(unsigned char *btbuffer,unsigned long v) {
writeSMANET2SingleByte(btbuffer,(unsigned char)((v >> 0) & 0XFF));
writeSMANET2SingleByte(btbuffer,(unsigned char)((v >> 8) & 0XFF));
writeSMANET2SingleByte(btbuffer,(unsigned char)((v >> 16) & 0xFF)) ;
writeSMANET2SingleByte(btbuffer,(unsigned char)((v >> 24) & 0xFF)) ;
}
void writeSMANET2uint(unsigned char *btbuffer,unsigned int v) {
writeSMANET2SingleByte(btbuffer,(unsigned char)((v >> 0) & 0XFF));
writeSMANET2SingleByte(btbuffer,(unsigned char)((v >> 8) & 0XFF));
//writeSMANET2SingleByte(btbuffer,(unsigned char)((v >> 16) & 0xFF)) ;
//writeSMANET2SingleByte(btbuffer,(unsigned char)((v >> 24) & 0xFF)) ;
}
/*
void displaySpotValues(int gap) {
unsigned long value = 0;
unsigned int valuetype=0;
for(int i=40+1;i<packetposition-3;i+=gap){
valuetype = level1packet[i+1]+level1packet[i+2]*256;
memcpy(&value,&level1packet[i+8],3);
//valuetype
//0x2601=Total Yield Wh
//0x2622=Day Yield Wh
//0x462f=Feed in time (hours) /60*60
//0x462e=Operating time (hours) /60*60
//0x451f=DC Voltage /100
//0x4521=DC Current /1000
Serial.print(valuetype,HEX);
Serial.print("=");
memcpy(&datetime,&level1packet[i+4],4);
digitalClockDisplay(datetime);
Serial.print("=");Serial.println(value);
}
}
*/
void writeSMANET2SingleByte(unsigned char *btbuffer, unsigned char v) {
//Keep a rolling checksum over the payload
FCSChecksum = (FCSChecksum >> 8) ^ pgm_read_word_near(&fcstab[(FCSChecksum ^ v) & 0xff]);
if (v == 0x7d || v == 0x7e || v == 0x11 || v == 0x12 || v == 0x13) {
btbuffer[packetposition ++]=0x7d;
btbuffer[packetposition ++]=v ^ 0x20;
}
else {
btbuffer[packetposition ++]=v;
}
}
void writeSMANET2Array(unsigned char *btbuffer, unsigned char bytes[],byte loopcount) {
//Escape the packet if needed....
for(int i=0;i<loopcount;i++) {
writeSMANET2SingleByte(btbuffer,bytes[i]);
}//end for
}
void writeSMANET2ArrayFromProgmem(unsigned char *btbuffer,prog_uchar ProgMemArray[],byte loopcount) {
//debugMsg("writeSMANET2ArrayFromProgmem=");
//Serial.println(loopcount);
//Escape the packet if needed....
for(int i=0;i<loopcount;i++) {
writeSMANET2SingleByte(btbuffer,pgm_read_byte_near(ProgMemArray + i));
}//end for
}
void writeSMANET2PlusPacket(unsigned char *btbuffer
,unsigned char ctrl1
,unsigned char ctrl2
,unsigned char packetcount
,unsigned char a
,unsigned char b
,unsigned char c){
//This is the header for a SMANET2+ (no idea if this is the correct name!!) packet - 28 bytes in length
lastpacketindex=packetcount;
//Start packet
btbuffer[packetposition++]=0x7e; //Not included in checksum
//Header bytes 0xFF036065
writeSMANET2ArrayFromProgmem(btbuffer,SMANET2header,4);
writeSMANET2SingleByte(btbuffer,ctrl1);
writeSMANET2SingleByte(btbuffer,ctrl2);
writeSMANET2Array(btbuffer,sixff,6);
writeSMANET2SingleByte(btbuffer,a); //ArchCd
writeSMANET2SingleByte(btbuffer,b); //Zero
writeSMANET2ArrayFromProgmem(btbuffer,InverterCodeArray,6);
writeSMANET2SingleByte(btbuffer,0x00);
writeSMANET2SingleByte(btbuffer,c);
writeSMANET2ArrayFromProgmem(btbuffer,fourzeros,4);
writeSMANET2SingleByte(btbuffer,packetcount);
}
void writeSMANET2PlusPacketTrailer(unsigned char *btbuffer){
FCSChecksum =FCSChecksum ^ 0xffff;
btbuffer[packetposition++]=FCSChecksum & 0x00ff;
btbuffer[packetposition++]=(FCSChecksum >> 8) & 0x00ff;
btbuffer[packetposition++]=0x7e; //Trailing byte
//Serial.print("Send Checksum=");Serial.println(FCSChecksum,HEX);
}
void writePacketHeader(unsigned char *btbuffer) {
writePacketHeader(btbuffer,0x01,0x00,smaBTInverterAddressArray);
}
void writePacketHeader(unsigned char *btbuffer,unsigned char *destaddress) {
writePacketHeader(btbuffer,0x01,0x00,destaddress);
}
void writePacketHeader(unsigned char *btbuffer,unsigned char cmd1,unsigned char cmd2, unsigned char *destaddress) {
if (packet_send_counter>75) packet_send_counter=1;
FCSChecksum=0xffff;
packetposition=0;
btbuffer[packetposition++]=0x7e;
btbuffer[packetposition++]=0; //len1
btbuffer[packetposition++]=0; //len2
btbuffer[packetposition++]=0; //checksum
for(int i=0;i<6;i++) {
btbuffer[packetposition++]=myBTAddress[i];
}
for(int i=0;i<6;i++) {
btbuffer[packetposition++]=destaddress[i];
}
btbuffer[packetposition++]=cmd1; //cmd byte 1
btbuffer[packetposition++]=cmd2; //cmd byte 2
//cmdcode=cmd1+(cmd2*256);
cmdcode=0xffff; //Just set to dummy value
//packetposition should now = 18
}
void writePacketLength(unsigned char *btbuffer) {
// unsigned char len1=; //TODO: Need to populate both bytes for large packets over 256 bytes...
// unsigned char len2=0; //Were only doing a single byte for now...
btbuffer[1]=packetposition;
btbuffer[2]=0;
btbuffer[3]=btbuffer[0] ^ btbuffer[1] ^ btbuffer[2]; //checksum
}
void wrongPacket() {
Serial.println(F("*WRONG PACKET*"));
error();
}
void dumpPacket(char letter) {
for(int i=0;i<packetposition;i++) {
if (i % 16==0) {
Serial.println("");
Serial.print(letter);
Serial.print(i,HEX);
Serial.print(":");
}
debugPrintHexByte(level1packet[i]);
}
Serial.println("");
}
void debugPrintHexByte(unsigned char b) {
if (b<16) Serial.print("0"); //leading zero if needed
Serial.print(b,HEX);
Serial.print(" ");
}
//-------------------------------------------------------------------------
bool validateChecksum(){
//Checks the validity of a LEVEL2 type SMA packet
if ( !containsLevel2Packet() ) {
//Wrong packet index received
//Serial.println("*** in validateChecksum(). containsLevel2Packet() returned FALSE.");
dumpPacket('R');
Serial.print(F("Wrng L2 hdr"));
return false;
}
//Serial.println("*** in validateChecksum(). containsLevel2Packet() returned TRUE.");
//We should probably do this loop in the receive packet code
if (level1packet[28-1] != lastpacketindex)
{
//Wrong packet index received
dumpPacket('R');
Serial.print(F("Wrng Pkg count="));
Serial.println(level1packet[28-1],HEX);
Serial.println(lastpacketindex,HEX);
return false;
}
FCSChecksum=0xffff;
//Skip over 0x7e and 0x7e at start and end of packet
for(int i=1;i<=packetposition-4;i++) {
FCSChecksum = (FCSChecksum >> 8) ^ pgm_read_word_near(&fcstab[(FCSChecksum ^ level1packet[i]) & 0xff]);
}
FCSChecksum =FCSChecksum ^ 0xffff;
//if (1==1)
if ((level1packet[packetposition-3]==(FCSChecksum & 0x00ff)) && (level1packet[packetposition-2]==((FCSChecksum >> 8) & 0x00ff)))
{
if ((level1packet[23+1]!=0) || (level1packet[24+1]!=0)) {
Serial.println(F("chksum err"));
error();
}
return true;
}
else{
Serial.print(F("Invalid chk="));
Serial.println(FCSChecksum,HEX);
dumpPacket('R');
delay(10000);
return false;
}
}
//------------------------------------------------------------------------------------
/*
void InquireBlueToothSignalStrength() {
writePacketHeader(level1packet,0x03,0x00,smaBTInverterAddressArray);
//unsigned char a[2]= {0x05,0x00};
writeSMANET2SingleByte(level1packet,0x05);
writeSMANET2SingleByte(level1packet,0x00);
// writePacketPayload(level1packet,a,sizeof(a));
writePacketLength(level1packet);
sendPacket(level1packet);
waitForPacket(0x0004);
float bluetoothSignalStrength = (level1packet[4] * 100.0) / 0xff;
Serial.print(F("BT Sig="));
Serial.print(bluetoothSignalStrength);
Serial.println("%");
}
*/
bool ValidateSenderAddress() {
// Compares the SMA inverter address to the "from" address contained in the message.
// Debug prints "P wrng dest" if there is no match.
return (Level1SrcAdd[5]==smaBTInverterAddressArray[5] &&
Level1SrcAdd[4]==smaBTInverterAddressArray[4] &&
Level1SrcAdd[3]==smaBTInverterAddressArray[3] &&
Level1SrcAdd[2]==smaBTInverterAddressArray[2] &&
Level1SrcAdd[1]==smaBTInverterAddressArray[1] &&
Level1SrcAdd[0]==smaBTInverterAddressArray[0]);
}
bool IsPacketForMe() {
// Compares the ESP32 address to the received "to" address in the message.
// Debug prints "P wrng snder" if it does not match.
return( ValidateDestAddress(sixzeros) || ValidateDestAddress(myBTAddress) || ValidateDestAddress(sixff) );
}
bool ValidateDestAddress(unsigned char *address) {
return( Level1DestAdd[0]==address[0] &&
Level1DestAdd[1]==address[1] &&
Level1DestAdd[2]==address[2] &&
Level1DestAdd[3]==address[3] &&
Level1DestAdd[4]==address[4] &&
Level1DestAdd[5]==address[5] );
}