petrkr/ZPA_elektromer_UARTtest
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Moved ZPA functions to separate files

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This commit is contained in:
Petr Kracík 2019-06-13 15:19:31 +02:00
parent ef57fc6b0e
commit bd12030879
3 changed files with 157 additions and 57 deletions
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118
ZPAElectricity.cpp Normal file
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@ -0,0 +1,118 @@
#include "ZPAElectricity.h"
// BCC is calculated as follows (source https://github.com/lvzon/dsmr-p1-parser/blob/master/doc/IEC-62056-21-notes.md):
// The BCC is calculated over the bytes after STX up to and including the ETX byte
// To calculate this BCC, take the first byte XOR 0xff
// XOR this value with the second byte, and so forth up to and including the last byte (include 0x03 ETX !!),
// and XOR the final value with 0xff.
// State flags
bool stateZPAreading = false;
uint32_t lastZPAcharRead = 0;
uint8_t localBCC;
String ZPAreadData = "";
bool ZPAreading() {
return stateZPAreading;
}
void ZPArequestData() {
Serial2.updateBaudRate(300);
Serial.println(F("Requesting data"));
Serial2.print(F("/?!\r\n"));
// Start reading, set up actual time
stateZPAreading = true;
lastZPAcharRead = millis();
}
void ZPAchangeBaudrate(char baud) {
int baudrate = 300;
switch (baud) {
case '1':
baudrate = 300;
break;
case '2':
baudrate = 1200;
break;
case '3':
baudrate = 2400;
break;
case '4':
baudrate = 4800;
break;
}
Serial.print(F("Change baudrate to "));
Serial.print(baud);
Serial.print(F(" ("));
Serial.print(baudrate);
Serial.println(F(")"));
Serial2.write(0x06);
Serial2.print(F("0"));
Serial2.print(baud);
Serial2.print(F("0\r\n"));
Serial2.flush();
Serial2.updateBaudRate(baudrate);
}
void handleZPASerial() {
if (!stateZPAreading)
return;
if (Serial2.available()) {
char r = Serial2.read();
lastZPAcharRead = millis();
if (r == 0x02) {
Serial.println(F("<STX>"));
localBCC = 0xFF;
ZPAreadData = "";
return;
}
if (r == 0x03) {
Serial.println(F("<ETX>"));
Serial.print(F("Checksum <BCC>: "));
uint8_t remoteBCC = Serial2.read();
Serial.print(remoteBCC, HEX);
Serial.println();
Serial.print(F("Calculated <BCC>: "));
localBCC = localBCC ^ r;
localBCC = localBCC ^ 0xFF;
Serial.print(localBCC, HEX);
Serial.println();
Serial.println();
Serial.println(F("Changing back baudrate to 300"));
Serial2.updateBaudRate(300);
stateZPAreading = false;
return;
}
// Calculate BCC checksum
localBCC = localBCC ^ r;
ZPAreadData += r;
Serial.write(r);
}
}
void handleZPA() {
handleZPASerial();
if (stateZPAreading && (millis() > lastZPAcharRead + ZPA_READ_TIMEOUT)) {
Serial.println(F("ZPA Read TIMEOUT, stopping, setting baudrate to 300"));
stateZPAreading = false;
ZPAreadData = "";
Serial2.updateBaudRate(300);
}
}

15
ZPAElectricity.h Normal file
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@ -0,0 +1,15 @@
#ifndef ZPAELECTRICITY_H
#define ZPAELECTRICITY_H
#include <Arduino.h>
#define ZPA_READ_TIMEOUT 10000 // 10 seconds timeout to read from ZPA serial line
void ZPArequestData();
bool ZPAreading();
void ZPAchangeBaudrate(char baud);
void handleZPASerial();
void handleZPA();
#endif

81
ZPA_elektromer_UARTtest.ino
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@ -2,6 +2,8 @@
#include <WiFiClient.h>
#include <ArduinoOTA.h>
#include "ZPAElectricity.h"
const char* host = "zpaesp32";
const char* ssid = "...";
const char* password = "...";
@ -77,97 +79,62 @@ void setup() {
Serial.println("Ready");
Serial.print("IP address: ");
Serial.println(WiFi.localIP());
}
// BCC is calculated as follows (source https://github.com/lvzon/dsmr-p1-parser/blob/master/doc/IEC-62056-21-notes.md):
// The BCC is calculated over the bytes after STX up to and including the ETX byte
// To calculate this BCC, take the first byte XOR 0xff
// XOR this value with the second byte, and so forth up to and including the last byte (include 0x03 ETX !!),
// and XOR the final value with 0xff.
uint8_t localBCC;
void loop() {
ArduinoOTA.handle();
if (Serial2.available()) {
char r = Serial2.read();
if (r == 0x02) {
Serial.print("<STX>");
localBCC = 0xFF; // Set checksum to 0xFF (first byte is XORed with 0xFF)
return;
}
if (r == 0x03) {
Serial.println("<ETX>");
Serial.print("Checksum <BCC>: ");
Serial.print(Serial2.read());
Serial.println();
Serial.print("Calculated <BCC>: ");
localBCC = localBCC ^ r; // Include last byte (ETX) to checksum
localBCC = localBCC ^ 0xFF; // Final value XORed with 0xFF
Serial.print(localBCC);
Serial.println();
Serial.println();
Serial.println("Changing back baudrate to 300");
Serial2.updateBaudRate(300);
return;
}
// Calculate BCC checksum
localBCC = localBCC ^ r;
Serial.write(r);
}
void handlePCSerial() {
if (Serial.available()) {
char r = Serial.read();
if (r == 'R') {
Serial.println("Requesting data");
Serial2.print("/?!\r\n");
if (ZPAreading()) {
Serial.println(F("Another reading already running"));
return;
}
ZPArequestData();
return;
}
if (r == '1') {
Serial.println("Baudrate to 300");
Serial.println(F("Baudrate to 300"));
Serial2.updateBaudRate(300);
}
if (r == '2') {
Serial.println("Baudrate to 1200");
Serial.println(F("Baudrate to 1200"));
Serial2.updateBaudRate(1200);
}
if (r == '3') {
Serial.println("Baudrate to 2400");
Serial.println(F("Baudrate to 2400"));
Serial2.updateBaudRate(2400);
}
if (r == '4') {
Serial.println("Baudrate to 4800");
Serial.println(F("Baudrate to 4800"));
Serial2.updateBaudRate(4800);
}
if (r == '5') {
Serial.println("Baudrate to 9600");
Serial.println(F("Baudrate to 9600"));
Serial2.updateBaudRate(9600);
}
if (r == 'C') {
Serial.println("Change baudrate");
Serial2.write(0x06);
Serial2.print("040\r\n");
Serial2.flush();
Serial2.updateBaudRate(4800);
ZPAchangeBaudrate('4');
return;
}
Serial2.write(r);
}
}
void loop() {
ArduinoOTA.handle();
handleZPA();
handlePCSerial();
}