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Änderung vom 2023-05-09

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hans-jurgen 2023-05-09 18:50:54 +02:00
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.gitignore vendored Normal file
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.pio
.vscode/.browse.c_cpp.db*
.vscode/c_cpp_properties.json
.vscode/launch.json
.vscode/ipch

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{
// See http://go.microsoft.com/fwlink/?LinkId=827846
// for the documentation about the extensions.json format
"recommendations": [
"platformio.platformio-ide"
],
"unwantedRecommendations": [
"ms-vscode.cpptools-extension-pack"
]
}

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{
"gitea.instanceURL": "https://hjkgitunix.dedyn.io/",
"gitea.owner": "hans-jurgen",
"gitea.repo": "Wetterstation",
"gitea.token": " vscodegitea"
}

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1.02910

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5

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This directory is intended for project header files.
A header file is a file containing C declarations and macro definitions
to be shared between several project source files. You request the use of a
header file in your project source file (C, C++, etc) located in `src` folder
by including it, with the C preprocessing directive `#include'.
```src/main.c
#include "header.h"
int main (void)
{
...
}
```
Including a header file produces the same results as copying the header file
into each source file that needs it. Such copying would be time-consuming
and error-prone. With a header file, the related declarations appear
in only one place. If they need to be changed, they can be changed in one
place, and programs that include the header file will automatically use the
new version when next recompiled. The header file eliminates the labor of
finding and changing all the copies as well as the risk that a failure to
find one copy will result in inconsistencies within a program.
In C, the usual convention is to give header files names that end with `.h'.
It is most portable to use only letters, digits, dashes, and underscores in
header file names, and at most one dot.
Read more about using header files in official GCC documentation:
* Include Syntax
* Include Operation
* Once-Only Headers
* Computed Includes
https://gcc.gnu.org/onlinedocs/cpp/Header-Files.html

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#include <Arduino.h>
/* Daten:
* Temperaturbereich -40 bis 125°C
* Genauigkeit: ± 0,25°C
* Auflösung: 0,0625°C
*/
#include <Wire.h>
#include "Adafruit_MCP9808.h"
float valTemp;
// Create MCP9808 temperature sensor object
Adafruit_MCP9808 tempsensor = Adafruit_MCP9808();
char Temperature[15] = {0};
void init_MCP9808(){
// Make sure the sensor is found, you can also pass in a different i2c
// address with tempsensor.begin(0x19) for example, also can be left in blank for default address use
// Also there is a table with all addres possible for this sensor, you can connect multiple sensors
// to the same i2c bus, just configure each sensor with a different address and define multiple objects for that
// A2 A1 A0 address
// 0 0 0 0x18 this is the default address
// 0 0 1 0x19
// 0 1 0 0x1A
// 0 1 1 0x1B
// 1 0 0 0x1C
// 1 0 1 0x1D
// 1 1 0 0x1E
// 1 1 1 0x1F
if (!tempsensor.begin(0x18)) {
Serial.println("Couldn't find MCP9808! Check your connections and verify the address is correct.");
datenSave(-20);
while (1);
}
Serial.println("Found MCP9808!");
tempsensor.setResolution(3); // sets the resolution mode of reading, the modes are defined in the table bellow:
// Mode Resolution SampleTime
// 0 0.5°C 30 ms
// 1 0.25°C 65 ms
// 2 0.125°C 130 ms
// 3 0.0625°C 250 ms
}
float getTemperature_MCP9808(){
// Wake up MSP9808 - power consumption ~200 mikro Ampere
tempsensor.wake();
float temperature = tempsensor.readTempC();
tempsensor.shutdown();
dtostrf(temperature,7,1,Temperature);
Serial.print("Temperatur (MCP9808):\t");
Serial.print(Temperature);
Serial.println(" °C");
tempsensor.shutdown_wake(1); // shutdown MSP9808 - power consumption ~0.1 mikro Ampere, stops temperature sampling
return temperature;
}
void M2M_Temperatur_MCP9808(String deviceId = "4711") {
char topic[100];
dtostrf(valTemp,7,1,Temperature);
sprintf(topic, "%s%s%s", "hjk/devices/", deviceId.c_str(), "/telemetry/temperature_MCP9808");
client.publish(topic, Temperature, true);
}

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/***************************************************************************
* Example sketch for the ADS1115_WE library
*
* This sketch shows how to use the ADS1115 in single shot mode.
*
* Further information can be found on:
* https://wolles-elektronikkiste.de/ads1115 (German)
* https://wolles-elektronikkiste.de/en/ads1115-a-d-converter-with-amplifier (English)
*
***************************************************************************/
#include <Arduino.h>
#include<ADS1115_WE.h>
#include<Wire.h>
#define I2C_ADDRESS 0x48
/* There are several ways to create your ADS1115_WE object:
* ADS1115_WE adc = ADS1115_WE(); -> uses Wire / I2C Address = 0x48
* ADS1115_WE adc = ADS1115_WE(I2C_ADDRESS); -> uses Wire / I2C_ADDRESS
* ADS1115_WE adc = ADS1115_WE(&Wire); -> you can pass any TwoWire object / I2C Address = 0x48
* ADS1115_WE adc = ADS1115_WE(&Wire, I2C_ADDRESS); -> all together
*/
ADS1115_WE adc = ADS1115_WE(I2C_ADDRESS);
struct {
char Akku[15] = {0};
char Solar[15] = {0};
} ADSData;
void initADS() {
Wire.begin();
if(!adc.init()){
Serial.println("ADS1115 not connected!");
}
/* Set the voltage range of the ADC to adjust the gain
* Please note that you must not apply more than VDD + 0.3V to the input pins!
*
* ADS1115_RANGE_6144 -> +/- 6144 mV
* ADS1115_RANGE_4096 -> +/- 4096 mV
* ADS1115_RANGE_2048 -> +/- 2048 mV (default)
* ADS1115_RANGE_1024 -> +/- 1024 mV
* ADS1115_RANGE_0512 -> +/- 512 mV
* ADS1115_RANGE_0256 -> +/- 256 mV
*/
adc.setVoltageRange_mV(ADS1115_RANGE_4096); //comment line/change parameter to change range
/* Set the inputs to be compared
*
* ADS1115_COMP_0_1 -> compares 0 with 1 (default)
* ADS1115_COMP_0_3 -> compares 0 with 3
* ADS1115_COMP_1_3 -> compares 1 with 3
* ADS1115_COMP_2_3 -> compares 2 with 3
* ADS1115_COMP_0_GND -> compares 0 with GND
* ADS1115_COMP_1_GND -> compares 1 with GND
* ADS1115_COMP_2_GND -> compares 2 with GND
* ADS1115_COMP_3_GND -> compares 3 with GND
*/
//adc.setCompareChannels(ADS1115_COMP_0_GND); //uncomment if you want to change the default
/* Set number of conversions after which the alert pin will assert
* - or you can disable the alert
*
* ADS1115_ASSERT_AFTER_1 -> after 1 conversion
* ADS1115_ASSERT_AFTER_2 -> after 2 conversions
* ADS1115_ASSERT_AFTER_4 -> after 4 conversions
* ADS1115_DISABLE_ALERT -> disable comparator / alert pin (default)
*/
//adc.setAlertPinMode(ADS1115_ASSERT_AFTER_1); //uncomment if you want to change the default
/* Set the conversion rate in SPS (samples per second)
* Options should be self-explaining:
*
* ADS1115_8_SPS
* ADS1115_16_SPS
* ADS1115_32_SPS
* ADS1115_64_SPS
* ADS1115_128_SPS (default)
* ADS1115_250_SPS
* ADS1115_475_SPS
* ADS1115_860_SPS
*/
//adc.setConvRate(ADS1115_128_SPS); //uncomment if you want to change the default
/* Set continuous or single shot mode:
*
* ADS1115_CONTINUOUS -> continuous mode
* ADS1115_SINGLE -> single shot mode (default)
*/
//adc.setMeasureMode(ADS1115_CONTINUOUS); //uncomment if you want to change the default
/* Choose maximum limit or maximum and minimum alert limit (window) in volts - alert pin will
* assert when measured values are beyond the maximum limit or outside the window
* Upper limit first: setAlertLimit_V(MODE, maximum, minimum)
* In max limit mode the minimum value is the limit where the alert pin assertion will be
* be cleared (if not latched)
*
* ADS1115_MAX_LIMIT
* ADS1115_WINDOW
*
*/
//adc.setAlertModeAndLimit_V(ADS1115_MAX_LIMIT, 3.0, 1.5); //uncomment if you want to change the default
/* Enable or disable latch. If latch is enabled the alert pin will assert until the
* conversion register is read (getResult functions). If disabled the alert pin assertion
* will be cleared with next value within limits.
*
* ADS1115_LATCH_DISABLED (default)
* ADS1115_LATCH_ENABLED
*/
//adc.setAlertLatch(ADS1115_LATCH_ENABLED); //uncomment if you want to change the default
/* Sets the alert pin polarity if active:
*
* ADS1115_ACT_LOW -> active low (default)
* ADS1115_ACT_HIGH -> active high
*/
//adc.setAlertPol(ADS1115_ACT_LOW); //uncomment if you want to change the default
/* With this function the alert pin will assert, when a conversion is ready.
* In order to deactivate, use the setAlertLimit_V function
*/
//adc.setAlertPinToConversionReady(); //uncomment if you want to change the default
}
float readChannel(ADS1115_MUX channel) {
float voltage = 0.0;
adc.setCompareChannels(channel);
adc.startSingleMeasurement();
while(adc.isBusy()){}
voltage = adc.getResult_V(); // alternative: getResult_mV for Millivolt
return voltage;
}
void MessungADS() {
float voltage = 0.0;
voltage = readChannel(ADS1115_COMP_0_GND);
dtostrf(voltage,8,2,ADSData.Akku);
Serial.print("Akku:\t\t\t");
Serial.print(ADSData.Akku);
Serial.println(" V");
voltage = readChannel(ADS1115_COMP_1_GND);
dtostrf(voltage,8,2,ADSData.Solar);
Serial.print("Solar:\t\t\t");
Serial.print(ADSData.Solar);
Serial.println(" V");
}

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#include <SPI.h>
#include <Wire.h>
#include <Adafruit_Sensor.h>
#include <Adafruit_BMP280.h>
#define SEALEVELPRESSURE_HPA (1002.7) // 1013.25
// Richen 219 m über NN
// Eppingem 195 m über NN
Adafruit_BMP280 bmp; // I2C
bool F_BMP280;
struct {
char temperature[15] = {0};
char pressure[15] = {0};
char approx_altitud[15] = {0};
char humity[15] = {0};
} BMP280Data;
void Init_BMP280(){
bool status = bmp.begin(0x76);
F_BMP280 = true;
if (!status) {
Serial.println("Could not find a valid BME280 sensor, check wiring!");
F_BMP280 = false;
} else{
/* Serial.print("SensorID was: 0x"); Serial.println(bmp.sensorID(),16);
delay(5000); */
/* Default settings from datasheet. */
bmp.setSampling(Adafruit_BMP280::MODE_NORMAL, /* Operating Mode. */
Adafruit_BMP280::SAMPLING_X2, /* Temp. oversampling */
Adafruit_BMP280::SAMPLING_X16, /* Pressure oversampling */
Adafruit_BMP280::FILTER_X16, /* Filtering. */
Adafruit_BMP280::STANDBY_MS_500); /* Standby time. */
//bmp_temp->printSensorDetails();
Serial.println("BMP280 gefunden");
}
}
void read_BMP_280() {
Serial.print("Temperature (BMP280):\t");
float t = bmp.readTemperature();
dtostrf(t,7,1,BMP280Data.temperature);
Serial.print(BMP280Data.temperature);
Serial.println(" °C");
Serial.print("Pressure:\t\t");
float p = bmp.readPressure() / 100.0F;
//p = p + 22;
dtostrf(p,5,0,BMP280Data.pressure);
Serial.print(BMP280Data.pressure);
Serial.println(" hPa");
Serial.print("Approx. Altitude:\t");
float a = bmp.readAltitude(SEALEVELPRESSURE_HPA);
dtostrf(a,7,1,BMP280Data.approx_altitud);
Serial.print(BMP280Data.approx_altitud);
Serial.println(" m über NN");
Serial.println();
}
void M2M_BMP280(String deviceId = "4711") {
char topic[100];
sprintf(topic, "%s%s%s", "hjk/devices/", deviceId.c_str(), "/telemetry/temperature_BMP_280" );
client.publish(topic, BMP280Data.temperature, true);
sprintf(topic, "%s%s%s", "hjk/devices/", deviceId.c_str(), "/telemetry/pressure" );
client.publish(topic, BMP280Data.pressure, true);
sprintf(topic, "%s%s%s", "hjk/devices/", deviceId.c_str(), "/telemetry/approx_altitude" );
client.publish(topic, BMP280Data.approx_altitud);
}

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#include <Arduino.h>
const float MinimalSpannung = 2.85;
float korectur = 1.02910;
char floatString[15] = {0};
float AKKU;
float getBattery(float kor = 1.000)
{
#if (NOBATT == 1)
Serial.print("Batterie:\t\t 3.05 V\n");
return 3.05;
#endif
float valA0 = analogRead(A0);
valA0 = valA0 * 5.7; // (R1 + r1 + r2) / r2
// R1= Vorwiderstand 100k,
// r1 und r2 Spannungsteiler
// r1 = 220k, r2 = 100k
// Spannungsbereich = 5.2 Volt
valA0= valA0 / 1024;
valA0 = valA0 * kor;
dtostrf(valA0,7,2,floatString);
Serial.printf("Batterie:\t\t %s V\n", floatString);
return valA0;
}

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#include <Wire.h>
#include <Adafruit_Sensor.h>
#include <Adafruit_I2CDevice.h>
#include <Adafruit_HTU21DF.h>
Adafruit_HTU21DF htu = Adafruit_HTU21DF();
bool F_HTU_21D;
struct {
char temperature[15] = {0};
char humity[15] = {0};
} htuData;
void init_HTU21(){
F_HTU_21D = false;
if (!htu.begin()) {
Serial.println("Couldn't find sensor HUT21D!");
}
F_HTU_21D = true;
Serial.println("HUT21D gefunden");
}
void read_HTU21D() {
float t = htu.readTemperature();
dtostrf(t,7,1,htuData.temperature);
float h = htu.readHumidity();
dtostrf(h,7,1,htuData.humity);
Serial.print("Temperature (HTU21D):\t");
Serial.print(htuData.temperature);
Serial.println(" °C");
Serial.print("Luftfeuchtigkeit:\t");
Serial.print(htuData.humity);
Serial.println(" %");
}
void M2M_HTU21D(String deviceId = "4711") {
char topic[100];
sprintf(topic, "%s%s%s", "hjk/devices/", deviceId.c_str(), "/telemetry/temperature_Htu_21" );
client.publish(topic, htuData.temperature, true);
sprintf(topic, "%s%s%s", "hjk/devices/", deviceId.c_str(), "/telemetry/humity" );
client.publish(topic, htuData.humity, true);
/* Serial.printf("HTU21:\t\t %s °C\n", htuData.temperature);
Serial.printf("HTU21:\t\t %s %%\n", htuData.humity); */
}

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This directory is intended for project specific (private) libraries.
PlatformIO will compile them to static libraries and link into executable file.
The source code of each library should be placed in a an own separate directory
("lib/your_library_name/[here are source files]").
For example, see a structure of the following two libraries `Foo` and `Bar`:
|--lib
| |
| |--Bar
| | |--docs
| | |--examples
| | |--src
| | |- Bar.c
| | |- Bar.h
| | |- library.json (optional, custom build options, etc) https://docs.platformio.org/page/librarymanager/config.html
| |
| |--Foo
| | |- Foo.c
| | |- Foo.h
| |
| |- README --> THIS FILE
|
|- platformio.ini
|--src
|- main.c
and a contents of `src/main.c`:
```
#include <Foo.h>
#include <Bar.h>
int main (void)
{
...
}
```
PlatformIO Library Dependency Finder will find automatically dependent
libraries scanning project source files.
More information about PlatformIO Library Dependency Finder
- https://docs.platformio.org/page/librarymanager/ldf.html

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#include <Arduino.h>
#include <FS.h> //this needs to be first, or it all crashes and burns...
#include <LittleFS.h>
#include <string>
#include <ESP8266WiFi.h> //https://github.com/esp8266/Arduino
#include <PubSubClient.h>
#include <Ticker.h>
#define BUILTIN_LED D15
#define TRIGGER_PIN D7
#define START_STOP_PIN D6
void reconnect();
void setup_wifi();
void datenSave(int wert);
int readDaten();
int saveKorektur(float wert);
float readKorectur();
void verifyFingerprint();
void callback(char* topic1, byte* payload, unsigned int length);
void pulse_pin(uint8_t pin);
WiFiClientSecure espClient;
PubSubClient client(espClient);
#include<mess_htu21.h>
#include <mess_BMP280.h>
#include <mess_Ub.h>
#include <messADS1115.h>
#include <mcp9808.h>
const char* ssid = STASSID;
const char* password = STAPSK;
String hostname = NAME;
const char *MyIP = KMYIP;
IPAddress ip;
IPAddress gateway;
IPAddress subnet(255, 255, 255, 0);
IPAddress dns;
IPAddress secondaryDNS(8, 8, 8, 8);
const char* mqtt_fprint = "a3:44:1d:aa:6e:e5:c7:55:02:20:98:ea:9b:df:1a:42:a2:f3:e3:0d";
const char* mqtt_user = "mqtt";
const char* mqtt_pass = "fische";
const unsigned long interval = TINTERVAL * 60000000LU; // Minuten * Mikrosekunden für Sleep Mode
const unsigned long intervalLowBatt = TLOWBATT * 60000000LU; // Minuten * Mikrosekunden für Sleep Mode, Akku entladen
const unsigned long stoerung = TERROR * 60000000LU; // Minuten * Mikrosekunden für Sleep Mode
unsigned long previousMillis = 0;
long deviceId;
char sID[16];
char clientName[30];
unsigned long startTime;
unsigned long endTime;
char topic[100];
char topic_1[50];
char topicWert[20];
char msg[20];
int SystemStatus;
void setup() {
pinMode(TRIGGER_PIN, OUTPUT);
pinMode(START_STOP_PIN, OUTPUT);
digitalWrite(TRIGGER_PIN, HIGH);
digitalWrite(START_STOP_PIN, LOW);
pulse_pin(TRIGGER_PIN); // ==> 1
Serial.begin(74880);
while ( !Serial ) delay(100); // wait for native usb
Serial.println(F("BMP280 Sensor event test"));
Serial.println("HTU21D-F test");
startTime = millis();
WiFi.mode( WIFI_OFF );
WiFi.forceSleepBegin();
pulse_pin(TRIGGER_PIN); // ==> 1
Serial.println();
if (!LittleFS.begin()) {
Serial.println("LittleFS mount failed");
return;
}
Dir dir = LittleFS.openDir("/data");
while (dir.next()) {
Serial.print(dir.fileName());
if(dir.fileSize()) {
File f = dir.openFile("r");
Serial.println(f.size());
}
}
Serial.println();
Serial.println();
Serial.println();
//SystemStatus = readDaten();
//korectur = readKorectur();
//Serial.print("Korektur: "); Serial.println(korectur,6);
pinMode(BUILTIN_LED, OUTPUT); // Initialize the BUILTIN_LED pin as an output
digitalWrite(BUILTIN_LED, LOW);
//digitalWrite(BUILTIN_LED, HIGH);
//Serial.print("STATUS (Systemmeldung): "); Serial.println(SystemStatus);
#if (MQTT == 0)
init_HTU21();
Init_BMP280();
initADS();
init_MCP9808();
#endif
//AKKU = getBattery(korectur); // ca. 170 ms
// ca. 280 ms
if (F_HTU_21D == true){
read_HTU21D();
}
read_BMP_280();
//MessungADS();
setup_wifi(); // ca. 4,5 s
// ca. 12ms
// ---------------------------------
// Status ändern !!! 0
datenSave(0);
// ---------------------------------
//digitalWrite(BUILTIN_LED, HIGH);
deviceId = ESP.getChipId();
sprintf(sID, "%010ld", deviceId);
Serial.print("ID: \t\t"); Serial.println(deviceId);
// ca. 5 s
espClient.setFingerprint(mqtt_fprint);
client.setServer(mqtt_server, mqtt_port);
client.setCallback(callback);
//----------
}
void loop() {
unsigned long Pause = 0;
if (!client.connected()) {
reconnect();
}
//client.loop();
int currentMillis = millis();
if (currentMillis - previousMillis >= 10000) {
previousMillis = currentMillis;
read_HTU21D();
read_BMP_280();
valTemp = getTemperature_MCP9808();
#if(NOADS== 1)
MessungADS();
sprintf(topic, "%s%s%s", "hjk/devices/", hostname.c_str(), "/telemetry/battery" );
client.publish(topic, ADSData.Akku, true);
sprintf(topic, "%s%s%s", "hjk/devices/", hostname.c_str(), "/telemetry/solar" );
client.publish(topic, ADSData.Solar, true);
#endif
#if(MQTT == 0)
M2M_HTU21D(hostname.c_str());
M2M_BMP280(hostname.c_str());
M2M_Temperatur_MCP9808(hostname.c_str());
#endif
#if(NOBATT == 0)
AKKU = atof(ADSData.Akku);
#else
AKKU = 2.95;
#endif
long int Feldstaerke = WiFi.RSSI();
sprintf(msg,"%ld", Feldstaerke);
sprintf(topic, "%s%s%s", "hjk/devices/", hostname.c_str(), "/telemetry/RSSI" );
client.publish(topic, msg, true);
client.loop();
delay(500);
digitalWrite(BUILTIN_LED, HIGH);
/* ESP.deepSleep(5e6);
delay(100); */
endTime = millis();
if (AKKU < MinimalSpannung){
// ---------------------------------
// Status ändern !!! -5
datenSave(-5);
// ---------------------------------
Pause = intervalLowBatt -((endTime - startTime) * 1000); // Pause ca. 60 Minuten
Serial.println("AKKU entladen!");
}
else{
Pause = interval -((endTime - startTime) * 1000); // Pause ca. 15 Minuten
}
if(Pause <=0){
Pause = 1;
}
//ESP.restart();
Serial.print("Ich gehe für ca. "); Serial.print((Pause/1000/1000/60)+1); Serial.println( " Minuten schlafen.");
//ESP.deepSleep(Pause, WAKE_RF_DISABLED); // Pause
digitalWrite(START_STOP_PIN, !LOW);
#if (DEBUG == 1)
ESP.deepSleep(10e6);
#else
ESP.deepSleep(Pause);
#endif
delay(100);
}
}
void setup_wifi() {
long ErrCount = 0;
delay(10);
// We start by connecting to a WiFi network
Serial.println();
Serial.print("Connecting to ");
Serial.print(ssid);
Serial.print(" ");
WiFi.forceSleepWake();
delay( 1 );
WiFi.persistent( false );
WiFi.mode( WIFI_STA );
//WiFi.setHostname(hostname.c_str()); //define hostname
WiFi.hostname(hostname.c_str());
WiFi.mode( WIFI_STA );
if (!ip.fromString(MyIP)) { // try to parse into the IPAddress
Serial.println("UnParsable IP");
}
if (!dns.fromString(DNS)) { // try to parse into the IPAddress
Serial.println("UnParsable DNS");
}
if (!gateway.fromString(GATEWAY)) { // try to parse into the IPAddress
Serial.println("UnParsable GATEWAY");
}
//WiFi.config( ip, dns, gateway, subnet );
if (!WiFi.config(ip, gateway, subnet, dns, secondaryDNS))
{
Serial.println("STA Failed to configure");
}
WiFi.begin(ssid, password);
while (WiFi.status() != WL_CONNECTED) {
delay(500);
Serial.print(".");
ErrCount ++;
if (ErrCount >= MaxErrCount){
// ---------------------------------
// Status ändern !!! -1
datenSave(-1);
// ---------------------------------
endTime = millis();
unsigned long Pause = stoerung -((endTime - startTime) * 1000); // Pause
Serial.println();
Serial.println("STÖRUNG WiFi.");
Serial.print("Ich gehe für ca. "); Serial.print(Pause/1000/1000/60); Serial.println( " Minuten schlafen.");
ESP.deepSleep(Pause, WAKE_NO_RFCAL); // Pause
delay(100);
}
}
Serial.println(" WiFi connected");
Serial.print("IP address: \t");
Serial.print(WiFi.localIP()); Serial.print("\tRESSI: "); Serial.println(WiFi.RSSI());
/* delay(2000);
ESP.deepSleep(2e6, WAKE_RF_DEFAULT);
delay(100); */
}
void callback(char* topic1, byte* payload, unsigned int length)
{
Serial.print("Message arrived [");
Serial.print(topic1);
Serial.print("] ");
for (unsigned int i = 0; i < length; i++) {
msg[i] = (char)payload[i];
}
msg[length] = '\0';
Serial.println(msg);
if(strcmp(topic1, topic_1)== 0){
Serial.print(msg);
Serial.println();
korectur = atof(msg);
Serial.print("Korektur:\t");Serial.println(korectur, 8);
int er = saveKorektur(korectur);
if (er != 0){
Serial.println("Daten konnten nicht gespeichert werden.");
}
float test = readKorectur();
Serial.print("Korektur:\t");Serial.println(test, 8);
}
}
void reconnect() {
// Loop until we're reconnected
sprintf(clientName, "%s%s", "ESP8266Client", sID);
while (!client.connected()) {
Serial.print("Attempting MQTT connection...");
verifyFingerprint();
// Attempt to connect
if (client.connect(clientName)) {
Serial.println("connected");
// Once connected, publish an announcement...
client.publish("outTopic", "hello world");
// ... and resubscribe
client.subscribe("inTopic");
} else {
Serial.print("failed, rc=");
Serial.print(client.state());
Serial.println(" try again in 5 seconds");
// Wait 5 seconds before retrying
delay(5000);
ESP.restart();
}
}
}
void datenSave(int wert){
File k = LittleFS.open("/status.txt", "w");
if(!k){
Serial.println("file open failed");
}
k.println(wert);
k.close();
}
int readDaten()
{
int Error;
File k = LittleFS.open("/status.txt", "r");
if(!k){
Serial.println("file open failed");
Error = -10;
}else{
String data = k.readString();
Error = data.toInt();
k.close();
}
return Error;
}
int saveKorektur(float wert){
int Error = 0;
File k = LittleFS.open("/Korektur.txt", "w");
if(!k){
Serial.println("file open failed");
Error = -1;
}else{
k.println(String(wert,8));
k.close();
}
return Error;
}
float readKorectur(){
float Korektur;
File k = LittleFS.open("/Korektur.txt", "r");
if(!k){
Serial.println("file open failed");
Korektur = 1.00;
}else{
String data = k.readString();
Korektur = data.toFloat();
k.close();
}
return Korektur;
}
void verifyFingerprint() {
unsigned long Pause = 0;
if(client.connected() || espClient.connected()) return; //Already connected
Serial.print("\n\tChecking TLS @ ");
Serial.print(mqtt_server);
Serial.print("...");
if (!espClient.connect(mqtt_server, mqtt_port)) {
//Serial.println("\n\tConnection failed. Rebooting.");
Serial.println("\n\tConnection failed.");
Serial.flush();
//blink.detach();
//blink.attach(0.05, flip);
//delay(5000);
endTime = millis();
Pause = stoerung -((endTime - startTime) * 1000); // Pause ca. 15 Minuten
Serial.print("\tIch gehe für "); Serial.print((Pause/1000/1000/60)+1); Serial.println( " Minuten schlafen.");
ESP.deepSleep(Pause, WAKE_RF_DISABLED); // Pause
delay(500);
}
espClient.stop();
delay(100);
}
void pulse_pin(uint8_t pin)
{
digitalWrite(pin, LOW);
delay(1);
digitalWrite(pin, HIGH);
}

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test/README Normal file
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This directory is intended for PlatformIO Test Runner and project tests.
Unit Testing is a software testing method by which individual units of
source code, sets of one or more MCU program modules together with associated
control data, usage procedures, and operating procedures, are tested to
determine whether they are fit for use. Unit testing finds problems early
in the development cycle.
More information about PlatformIO Unit Testing:
- https://docs.platformio.org/en/latest/advanced/unit-testing/index.html

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{
"folders": [],
"settings": {}
}