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SERIAL.ino
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SERIAL.ino
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//void handle_Serial () {
// DebugPrintln(F("we are in handle serial"));
// int SerialInByteCounter = 0;
// char InputBuffer_Serial[100] = "";
// byte SerialInByte;
// delay(200); // wait untill maybe more data available
// DebugPrintln("normal serial: data available, number = " + String(Serial.available()) );
//
// while(Serial.available()) {
// SerialInByte=Serial.read();
// //Serial.print("+");
//
// if(isprint(SerialInByte)) {
// if(SerialInByteCounter<100) InputBuffer_Serial[SerialInByteCounter++]=SerialInByte;
// }
// if(SerialInByte=='\n') { // new line character
// InputBuffer_Serial[SerialInByteCounter]=0;
// DebugPrintln(F("found new line"));
// break; // serieel data is complete
// }
// }
// DebugPrintln("InputBuffer_Serial = " + String(InputBuffer_Serial) );
// // evaluate the incomming data
// if (strlen(InputBuffer_Serial) > 6) { // need to see minimal 8 characters on the serial port
// if (strncmp (InputBuffer_Serial,"10;",3) == 0) { // Command from Master to RFLink
//
// if (strncasecmp(InputBuffer_Serial+3,"LIST",4) == 0) {
// Serial.println(F("*** AVAILABLE COMMANDS ***"));
// Serial.println(F("10;POLL=x; (poll inverter nr x)"));
// Serial.println(F("10;INIT_N; (start coordinator for polling)"));
// Serial.println(F("10;INIT_P; (start coordinator for pairing)"));
// Serial.println(F("10;ERASE; (delete all inverter configfiles)"));
// Serial.println(F("10;DELETE=<file>; (delete a file)"));
// Serial.println(F("10;HEALTH; (perform healthcheck zigbee)"));
// Serial.println(F("10;INV_REBOOT; (reboot an unresponsive inverter)"));
// Serial.println(F("10;CC2530_RST; (reset the cc2530 via its resetpin)"));
// Serial.println(F("10;CC2530_CFG; (general config cc2530)"));
// return;
// } else
//
// if (strncasecmp(InputBuffer_Serial+3,"INV_REBOOT",10) == 0) {
// Serial.println("\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n");
// Serial.println(F("\nYou can reboot an inverter when it stopped working."));
// Serial.println(F("Characteristics: not responsive, (slow blinking red led)."));
// Serial.println(F("\ntype REBOOT_INVERTER=x (x=inverternumber 0, 1 etc.)"));
// Serial.println(F("\nDISCLAIMER: THIS HAS NOT BEEN TESTED, USE AT YOUR OWN RISK!"));
// return;
// } else
//
// if (strncasecmp(InputBuffer_Serial+3,"REBOOT_INVERTER=",16) == 0) {
//
// int kz = String(InputBuffer_Serial[19]).toInt();
// Serial.println("\n\nreboot inverter " + String(kz));
// if ( kz > inverterCount-1 )
// {
// Serial.println("error, non-excisting inverter");
// return;
// }
// inverterReset(kz);
// return;
// } else
//
// if (strncasecmp(InputBuffer_Serial+3,"POLL=",5) == 0) {
// //input can be 10;POLL=0;
// int kz = String(InputBuffer_Serial[8]).toInt();
// if ( kz > inverterCount-1 ) {
// Serial.println("error, non-excisting inverter");
// return;
// }
// Serial.println("poll inverter " + String(kz));
// polling(kz);
// return;
// } else
//
// if (strncasecmp(InputBuffer_Serial+3,"FAKE=",5) == 0) {
// //input can be 10;POLL=0;
// int kz = String(InputBuffer_Serial[8]).toInt();
// Serial.println("simulate inverter " + String(kz));
// fakeInverter(kz);
// return;
// } else
//
//
//// if (strncasecmp(InputBuffer_Serial+3,"PAIR",7) == 0) {
//// Serial.println("going to setup zigbee coordinator 0");
//// pairing(0);
//// return;
//// } else
//
//// if (strncasecmp(InputBuffer_Serial+3,"UNPAIR=",6) == 0) {
//// // input can be 10;UNPAIR=0;
//// Serial.println("going to unpair the specified inverter");
//// int kz = String(InputBuffer_Serial[10]).toInt();
//// Serial.println("going to unpair inverter " + String(kz));
//// strcpy(Inv_Prop[kz].invID, "0000"); //unpair
//// writeStruct("/Inv_Prop" + String(kz) + ".str", kz);
//// return;
////
//// } else
//
//// if (strncasecmp(InputBuffer_Serial+3,"TEST",4) == 0) {
//// Serial.println("going to read the zigbee radio");
//// readZigbeeTest();
//// return;
//// } else
//
//// if (strncasecmp(InputBuffer_Serial+3,"REORG",4) == 0) {
//// Serial.println("going to remove gaps in inverter configfiles ");
//// remove_gaps();
//// return;
//////
//// } else
//
// if (strncasecmp(InputBuffer_Serial+3,"DELETE=",7) == 0) {
// //input can be 10;DELETE=filename
// String bestand="";
// int z = sizeof(InputBuffer_Serial);
// for(int i=10; i<z; i++) {
// bestand += String(InputBuffer_Serial[i]);
// }
// //Serial.println("input filename = " + bestand);
// Serial.println("going to delete file " + bestand);
// if (LittleFS.exists(bestand)) {
// LittleFS.remove(bestand);
// Serial.println("file "+ bestand + " removed!");
// } else {Serial.println("no such file");}
// return;
////
// } else
//
// if (strncasecmp(InputBuffer_Serial+3,"ERASE",5) == 0) {
// Serial.println("going to delete all inverter files");
// String bestand;
// for(int i=0; i<50; i++)
// {
// String bestand = "/Inv_Prop" + String(i) + ".str";
// if (LittleFS.exists(bestand))
// {
// LittleFS.remove(bestand);
// Serial.println("removed file " + bestand);
// }
//
// }
// inverterCount = 0;
// basisConfigsave(); // save inverterCount
// Serial.println("done");
// return;
//
// } else
//
// if (strncasecmp(InputBuffer_Serial+3,"INIT_N",6) == 0) {
// Serial.println("init the zb system for normal operation");
// coordinator(true); // start coordinator for normal ops
// //sendNO(); // send an extra command to establish normal operation
// //checkZigbeeRadio(true);
// return;
// } else
//
// if (strncasecmp(InputBuffer_Serial+3,"INIT_P",6) == 0) {
// Serial.println("init the zb system for pairing");
// coordinator(false); // start coordinator for pairing
// //checkZigbeeRadio();
// return;
// } else
//
// if (strncasecmp(InputBuffer_Serial+3,"HEALTH",6) == 0) {
// Serial.println("checking the zb radio");
// healthCheck(true);
// return;
// } else
//
//
//// if (strncasecmp(InputBuffer_Serial+3,"CC2530_CFG",10) == 0) {
//// Serial.println("send general config cmds to zb radio ");
//// cc2530Config();
//// return;
//// } else
//
// if (strncasecmp(InputBuffer_Serial+3,"CC2530_RST",10) == 0) {
//
// Serial.println("hard reset the cc2530");
// ZBhardReset();
// return;
//// } else
//
//// if (strncasecmp(InputBuffer_Serial+3,"PAIRSIM",7) == 0) {
//// strncpy(Inv_Prop[1].invID, "ABCD",6);
//// Serial.print("Inv_Prop[1].invID = " + String(Inv_Prop[1].invID));
//// String bestand = "/Inv_Prop1.str"; // /Inv_Prop1.str
//// writeStruct("/Inv_Prop1.str", 1); // alles opslaan in SPIFFS
//// return;
//// } else
//
////
//// if (strncasecmp(InputBuffer_Serial+3,"TESTQS1",6) == 0) {
//// Serial.println("going to analyze a QS1 string");
//// qstest(1);
//// return;
//
// } else {
//
// Serial.println( String(InputBuffer_Serial) + " INVALID COMMAND" );
// }
// } // end if if (strncmp (InputBuffer_Serial,"10;",3) == 0)
// Serial.println( String(InputBuffer_Serial) + " UNKNOWN COMMAND" );
// } // end if strlen(InputBuffer_Serial) > 6
// // the buffercontent is not making sense so we empty the buffer
// empty_serial();
// } //