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NTUhrVPx/ESPNTUhrPx.ino

1150 lines
32 KiB
C++
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#define VERSION (char *) "V2.17"
/*
V2.12 230205 neues SDK 8266; AP+Wifi Client; lokaleip eingebaut
V2.13 230206 Datum/Uhrzeit zeit auch KW an
V2.14 230208 AP+STA nur wenn Wifi verbunden ist sonst geht der AP nicht
V2.15 230212 Verbesserung AP_STA modus;Wlan auf 1 Connect beschränkt;
V2.16 230212 MaxConnect auf 2; Beacon auf 250ms
V2.17 230227 alle unbekannten Seiten Leiten auf die IP um
*/
// Pins for LED MATRIX
#include <Ticker.h>
Ticker display_ticker;
#define P_LAT 16
#define P_A 5
#define P_B 4
#define P_C 15
#define P_D 0
//#define P_E 0
#define P_OE 2
#define PxMATRIX_COLOR_DEPTH 2 // This is how many color levels the display shows - the more the slower the update
#define double_buffer // Creates a second buffer for backround drawing (doubles the required RAM)
#define MATRIX_WIDTH 64
#define MATRIX_HEIGHT 32
#include "PxMatrix.h"
PxMATRIX display(64,32,P_LAT, P_OE,P_A,P_B,P_C,P_D);
uint8_t display_draw_time=30; //30-60 is usually fine // This defines the 'on' time of the display is us. The larger this number,// the brighter the display. If too large the ESP will crash
//WebService
#define TEMPLATE_PLACEHOLDER '`' //-> Damit % in CSS funktioniert muss in der .h geändert werden!!! ...
#include <ESP8266WiFi.h>
#include <ESPAsyncTCP.h>
#include <ESPAsyncWebServer.h>
#include <AsyncElegantOTA.h>
#include <DNSServer.h>
AsyncWebServer webServer(80);
DNSServer dnsServer;
IPAddress ip_local(192, 168, 13, 1);
IPAddress ip_gateway(192, 168, 13, 1);
IPAddress ip_subnet(255, 255, 255, 0);
char localip[16];
boolean APEnabled = false;
char ssid[30] = "THW Freifunk";
char pass[30] = "";
char appass[30] = "gibteskeins";
String toStringIp(IPAddress ip) {
String res = "";
for (int i = 0; i < 3; i++) {
res += String((ip >> (8 * i)) & 0xFF) + ".";
}
res += String(((ip >> 8 * 3)) & 0xFF);
return res;
}
void html_handle_notsuccess(AsyncWebServerRequest *request);
void html_handle_notsuccess(AsyncWebServerRequest *request){
request->send(200, "text/html", String("<a href='http://") + toStringIp(ip_local) + String("'>zur Konfigurationsseite</a><script> location.href = 'http://") + toStringIp(ip_local) + String("'; </script>"));
}
//permanenter Speicher
#include <ESP_EEPROM.h>
char ChipID[10] = "ERROR";
//i2c
#include <Wire.h>
#include <RV-3029-C2.h>
RV3029 rtc;
const int PINRTC_CLOCK = 12;
boolean rtcEnabled = false;
uint8_t temperature=0;
#include <TimeLib.h>
#include <WeekNumber.h>
long ti_second = 0;
uint8_t timeColor[3] = {0xff,0xff,0xff};
uint8_t tacticalTimeColor[3] = {0x88,0xff,0x00};
uint8_t dateColor[3] {0x10,0xff,0x00};
uint8_t kwColor[3] {0x10,0xff,0x00};
float brightness = 0.80;
int8_t lastminutes = -1;
boolean iDL = false;
uint8_t lastTimeSyncTyp = 0;
long lastTimeSyncTime = 0;
uint8_t timeIndex = 0;
bool EEPROMDataNotSaved = false;
uint8_t options = 0;
bool withSeconds = true;
bool alwaysAccessPoint = true;
// ISR for display refresh
void display_updater(){
display.display(display_draw_time);
}
void display_update_enable(bool is_enable){
if (is_enable)
display_ticker.attach(0.001, display_updater);
else
display_ticker.detach();
}
//Led mit Helligkeit setzen
void setPixelColor(uint8_t x,uint8_t y, uint8_t red, uint8_t green ,uint8_t blue){
/*red = ceil(red * brightness);
green = ceil(green * brightness);
blue = ceil(blue * brightness);*/
display.drawPixelRGB888(x, y, red, green, blue);
//
}
//Zeichene eine Linie waagrecht x/y und z als länge
void LineH(uint8_t x, uint8_t y, uint8_t z, uint8_t red, uint8_t green ,uint8_t blue){
uint16_t color = display.color565(red, green, blue);
display.drawFastHLine(x,y,z,color);
//display.display(display_draw_time);
/*for(uint8_t c = 0; c<z; c++){
setPixelColor(x+c,y, red, green, blue);
}*/
//display.display(display_draw_time);
}
//Zeichene eine Linie senkrecht x/y und z als länge
void LineV(uint8_t x, uint8_t y, uint8_t z, uint8_t red, uint8_t green, uint8_t blue){
uint16_t color = display.color565(red, green, blue);
display.drawFastVLine(x,y,z,color);
//display.display(display_draw_time);
/*for(uint8_t c = 0; c<z; c++){
setPixelColor(x,y+c, red, green, blue);
}*/
//display.display(display_draw_time);
}
//eigene Schriften
#include <char3x5.h>
#include <char5x7.h>
#include <char6x8.h>
#include <char10x16.h>
void doClearLEDsSeconds(int8_t ycorrection=0){
for(uint8_t x=0;x<5;x++){
display.drawFastHLine(56,26 + x + ycorrection, 7, 0);
}
/*for(uint16_t x=56;x<MATRIX_WIDTH;x++){
for(uint16_t y=26;y<MATRIX_HEIGHT;y++){
display.drawPixelRGB888(x,y, 0, 0, 0);
//
}
//display.display(display_draw_time);
}*/
}
void doClearLEDsStatus(){
for(uint16_t x=0;x<MATRIX_WIDTH;x++){
display.drawPixelRGB888(x,0, 0, 0, 0);
}
}
void doClearLEDs(boolean incFirstLine = false){
display.fillScreen(0);
/*if(incFirstLine)
display.clearDisplay();
else{
for(uint16_t x=0;x<MATRIX_WIDTH;x++){
for(uint16_t y=1;y<MATRIX_HEIGHT;y++){
display.drawPixelRGB888(x,y, 0, 0, 0);
}
//display.display(display_draw_time);
}
}*/
}
void showOVALZ(void){
uint8_t zeile=20;
uint8_t spalte=8;
spalte += Out5x7Char('O',spalte,zeile,255,255,255)+1;
spalte += Out5x7Char('V',spalte,zeile,255,255,255)+1;
spalte += Out5x7Char('-',spalte,zeile,255,255,255)+1;
spalte += Out5x7Char('A',spalte,zeile,255,255,255)+1;
spalte += Out5x7Char('l',spalte,zeile,255,255,255)+1;
spalte += Out5x7Char('z',spalte,zeile,255,255,255)+1;
spalte += Out5x7Char('e',spalte,zeile,255,255,255)+1;
spalte += Out5x7Char('n',spalte,zeile,255,255,255)+1;
spalte += Out5x7Char('a',spalte,zeile,255,255,255)+1;
spalte += Out5x7Char('u',spalte,zeile,255,255,255)+1;
}
void showNTOOLS(void){
uint8_t zeile=5;
uint8_t spalte=10;
spalte += Out5x7Char('N',spalte,zeile,0,0,255)+1;
spalte += Out5x7Char('-',spalte,zeile,0,0,255)+1;
spalte += Out5x7Char('T',spalte,zeile,0,0,255)+1;
spalte += Out5x7Char('o',spalte,zeile,0,0,255)+1;
spalte += Out5x7Char('o',spalte,zeile-1,0,0,255)+1;
spalte += Out5x7Char('l',spalte,zeile,0,0,255)+1;
spalte += Out5x7Char('s',spalte,zeile,0,0,255)+1;
spalte += Out5x7Char('.',spalte,zeile,0,0,255)+1;
spalte += Out5x7Char('d',spalte,zeile,0,0,255)+1;
spalte += Out5x7Char('e',spalte,zeile,0,0,255)+1;
}
void show3x5(uint8_t x, uint8_t y, char text[] , uint8_t red, uint8_t green, uint8_t blue){
uint8_t textlen = strlen(text);
for(uint8_t b=0;b<textlen;b++){
x += Out3x5Char(text[b],x,y,red,green,blue)+1;
}
}
void show5x7(uint8_t x, uint8_t y, char text[] , uint8_t red, uint8_t green, uint8_t blue){
uint8_t textlen = strlen(text);
for(uint8_t b=0;b<textlen;b++){
x += Out5x7Char(text[b],x,y,red,green,blue)+1;
}
}
uint8_t drawTactical(time_t t,uint8_t x = 0, uint8_t y = 0 ){
uint8_t r = tacticalTimeColor[0];
uint8_t g = tacticalTimeColor[1];
uint8_t b = tacticalTimeColor[2];
uint16_t tmp = day(t);
x += Out5x7Char((tmp/10)+0x30,x,y,r,g,b)+1;
tmp -= (tmp/10)*10;
x += Out5x7Char((tmp)+0x30,x,y,r,g,b)+1;
tmp = hour(t);
x += Out5x7Char((tmp/10)+0x30,x,y,r,g,b)+1;
tmp -= (tmp/10)*10;
x += Out5x7Char((tmp)+0x30,x,y,r,g,b)+1;
tmp = minute(t);
x += Out5x7Char((tmp/10)+0x30,x,y,r,g,b)+1;
tmp -= (tmp/10)*10;
x += Out5x7Char((tmp)+0x30,x,y,r,g,b)+1;
tmp = month(t);
switch(tmp){
case 1:
x += Out5x7Char('j',x,y,r,g,b)+1;
x += Out5x7Char('a',x,y,r,g,b)+1;
x += Out5x7Char('n',x,y,r,g,b)+1;
break;
case 2:
x += Out5x7Char('f',x,y,r,g,b)+1;
x += Out5x7Char('e',x,y,r,g,b)+1;
x += Out5x7Char('b',x,y,r,g,b)+1;
break;
case 3:
x += Out5x7Char('m',x,y,r,g,b)+1;
x += Out5x7Char('a',x,y,r,g,b)+1;
x += Out5x7Char('r',x,y,r,g,b)+1;
break;
case 4:
x += Out5x7Char('a',x,y,r,g,b)+1;
x += Out5x7Char('p',x,y,r,g,b)+1;
x += Out5x7Char('r',x,y,r,g,b)+1;
break;
case 5:
x += Out5x7Char('m',x,y,r,g,b)+1;
x += Out5x7Char('a',x,y,r,g,b)+1;
x += Out5x7Char('y',x,y,r,g,b)+1;
break;
case 6:
x += Out5x7Char('j',x,y,r,g,b)+1;
x += Out5x7Char('u',x,y,r,g,b)+1;
x += Out5x7Char('n',x,y,r,g,b)+1;
break;
case 7:
x += Out5x7Char('j',x,y,r,g,b)+1;
x += Out5x7Char('u',x,y,r,g,b)+1;
x += Out5x7Char('l',x,y,r,g,b)+1;
break;
case 8:
x += Out5x7Char('a',x,y,r,g,b)+1;
x += Out5x7Char('u',x,y,r,g,b)+1;
x += Out5x7Char('g',x,y,r,g,b)+1;
break;
case 9:
x += Out5x7Char('s',x,y,r,g,b)+1;
x += Out5x7Char('e',x,y,r,g,b)+1;
x += Out5x7Char('p',x,y,r,g,b)+1;
break;
case 10:
x += Out5x7Char('o',x,y,r,g,b)+1;
x += Out5x7Char('c',x,y,r,g,b)+1;
x += Out5x7Char('t',x,y,r,g,b)+1;
break;
case 11:
x += Out5x7Char('n',x,y,r,g,b)+1;
x += Out5x7Char('o',x,y,r,g,b)+1;
x += Out5x7Char('v',x,y,r,g,b)+1;
break;
case 12:
x += Out5x7Char('d',x,y,r,g,b)+1;
x += Out5x7Char('e',x,y,r,g,b)+1;
x += Out5x7Char('c',x,y,r,g,b)+1;
break;
}
tmp = year(t)-2000;
x += Out5x7Char((tmp/10)+0x30,x,y,r,g,b)+1;
tmp -= (tmp/10)*10;
if(x > 59)
x--;
x += Out5x7Char((tmp)+0x30,x,y,r,g,b);
return x;
}
void drawTime(time_t t,int8_t ycorrection=0){
uint16_t tmp = 0;
uint8_t x = 9;
uint8_t y = 15 + ycorrection;
uint8_t r = timeColor[0];
uint8_t g = timeColor[1];
uint8_t b = timeColor[2];
tmp = hour(t);
if((tmp/10 > 0)){
Out10x16Char((tmp/10)+0x30,x,y,r,g,b);
tmp -= (tmp/10)*10;
}
x += 11;
Out10x16Char((tmp)+0x30,x,y,r,g,b);
Out10x16Char(':',x+11,y,r,g,b);
x += 14;
tmp = minute(t);
Out10x16Char((tmp/10)+0x30,x,y,r,g,b);
tmp -= (tmp/10)*10;
x += 11;
Out10x16Char((tmp)+0x30,x,y,r,g,b);
}
void drawSeconds(time_t t,int8_t ycorrection=0){
uint16_t tmp = 0;
uint8_t x = 56;
uint8_t y = 15 + ycorrection;
uint8_t r = timeColor[0];
uint8_t g = timeColor[1];
uint8_t b = timeColor[2];
doClearLEDsSeconds(ycorrection);
tmp = second(t);
Out3x5Char((tmp/10)+0x30,x,y+11,r,g,b);
tmp -= (tmp/10)*10;
x += 4;
Out3x5Char((tmp)+0x30,x,y+11,r,g,b);
}
void showTimeTactical(time_t t){
uint16_t tmp = 0;
tmp = minute(t);
if(lastminutes != tmp){
lastminutes = tmp;
doClearLEDs();
uint8_t x_tactical = drawTactical(t,0,3);
if(x_tactical < 63){
x_tactical = ceil((63 - x_tactical)/2);
doClearLEDs();
drawTactical(t,x_tactical+1,3);
}
//Uhrzeit
drawTime(t);
}
if(withSeconds)
drawSeconds(t);
}
void showTime(time_t t){
uint16_t tmp = 0;
uint8_t x = 0;
uint8_t y = 0;
uint8_t r = timeColor[0];
uint8_t g = timeColor[1];
uint8_t b = timeColor[2];
tmp = minute(t);
if(lastminutes != tmp){
lastminutes = tmp;
doClearLEDs();
//Uhrzeit
drawTime(t,-7);
}
if(withSeconds)
drawSeconds(t,-7);
}
void drawDate(time_t t){
uint8_t r = dateColor[0];
uint8_t g = dateColor[1];
uint8_t b = dateColor[2];
uint8_t x = 2;
uint8_t y = 0;
UnixTime stamp(0);
stamp.getDateTime(t);
switch(stamp.dayOfWeek){
case 1:
x += Out5x7Char('M',x,y,r,g,b)+1;
x += Out5x7Char('o',x,y,r,g,b)+1;
break;
case 2:
x += Out5x7Char('D',x,y,r,g,b)+1;
x += Out5x7Char('i',x,y,r,g,b)+1;
break;
case 3:
x += Out5x7Char('M',x,y,r,g,b)+1;
x += Out5x7Char('i',x,y,r,g,b)+1;
break;
case 4:
x += Out5x7Char('D',x,y,r,g,b)+1;
x += Out5x7Char('o',x,y,r,g,b)+1;
break;
case 5:
x += Out5x7Char('F',x,y,r,g,b)+1;
x += Out5x7Char('r',x,y,r,g,b)+1;
break;
case 6:
x += Out5x7Char('S',x,y,r,g,b)+1;
x += Out5x7Char('a',x,y,r,g,b)+1;
break;
case 7:
x += Out5x7Char('S',x,y,r,g,b)+1;
x += Out5x7Char('o',x,y,r,g,b)+1;
break;
}
x = 13;
uint16_t tmp = day(t);
x += Out5x7Char((tmp/10)+0x30,x,y,r,g,b)+1;
tmp -= (tmp/10)*10;
x += Out5x7Char((tmp)+0x30,x,y,r,g,b)+1;
x += Out5x7Char('.',x,y,r,g,b)+1;
tmp = month(t);
x += Out5x7Char((tmp/10)+0x30,x,y,r,g,b)+1;
tmp -= (tmp/10)*10;
x += Out5x7Char((tmp)+0x30,x,y,r,g,b)+1;
x += Out5x7Char('.',x,y,r,g,b)+1;
tmp = year(t);
x += Out5x7Char((tmp/1000)+0x30,x,y,r,g,b)+1;
tmp -= (tmp/1000)*1000;
x += Out5x7Char((tmp/100)+0x30,x,y,r,g,b)+1;
tmp -= (tmp/100)*100;
x += Out5x7Char((tmp/10)+0x30,x,y,r,g,b)+1;
tmp -= (tmp/10)*10;
x += Out5x7Char((tmp)+0x30,x,y,r,g,b)+1;
}
void showDateTime(time_t t){
doClearLEDs();
drawDate(t);
drawTime(t,-6);
if(withSeconds)
drawSeconds(t,-6);
uint8_t kw = GetWeekNumber(year(t),month(t),day(t));
char str[6];
char kws[3];
itoa(kw,kws,10);
strcpy(str, "KW ");
strcat(str, kws);
show3x5(0,26,str,kwColor[0],kwColor[1],kwColor[2]);
}
uint8_t clock_center_x = 16;
uint8_t clock_center_y = 15;
uint8_t clock_radius = 15;
uint16_t ACcolor = display.color565(255, 255, 255);
uint16_t ACcolorBlk = display.color565(0, 0, 0);
void drawAnalogSecond(int second){
//uint y = ((clock_radius-1)*cos(PI -(2*PI )/60*second))+clock_center_y;
//uint x = ((clock_radius-1)*sin(PI -(2*PI )/60*second))+clock_center_x;
//display.drawCircle(x, y, 1, 0x0ff000);
uint y = ((clock_radius)*cos(PI-(2*PI)/60*second))+clock_center_y;
uint x = ((clock_radius)*sin(PI-(2*PI)/60*second))+clock_center_x;
display.drawLine(clock_center_x,clock_center_y,x,y,display.color565(255, 0, 0));
}
void drawAnalogMinute(int minute){
uint y = ((clock_radius-1)*cos(PI-(2*PI)/60*minute))+clock_center_y;
uint x = ((clock_radius-1)*sin(PI-(2*PI)/60*minute))+clock_center_x;
display.drawLine(clock_center_x,clock_center_y,x,y,display.color565(0, 0, 255));
}
void drawAnalogHour(int hour, int minute){
uint y = ((clock_radius-4)*cos(PI-(2*PI)/12*hour-(2*PI)/720*minute))+clock_center_y;
uint x = ((clock_radius-4)*sin(PI-(2*PI)/12*hour-(2*PI)/720*minute))+clock_center_x;
//uint y1 = ((clock_radius-4)*cos(PI-(2*PI)/12*hour-(2*PI)/720*minute))+clock_center_y+1;
//uint x1 = ((clock_radius-4)*sin(PI-(2*PI)/12*hour-(2*PI)/720*minute))+clock_center_x+1;
uint y2 = ((clock_radius-4)*cos(PI-(2*PI)/12*hour-(2*PI)/720*minute))+clock_center_y-1;
uint x2 = ((clock_radius-4)*sin(PI-(2*PI)/12*hour-(2*PI)/720*minute))+clock_center_x-1;
display.drawLine(clock_center_x,clock_center_y,x,y,display.color565(88, 255, 0));
//display.drawLine(clock_center_x+1,clock_center_y+1,x1,y1,display.color565(88, 255, 0));
display.drawLine(clock_center_x-1,clock_center_y-1,x2,y2,display.color565(88, 255, 0));
}
void drawAnalogFace(void){
// draw the center of the clock
//display.drawCircle(clock_center_x, clock_center_y,3, ACcolor);
display.fillCircle(clock_center_x, clock_center_y,2, ACcolor);
// draw hour pointers around the face of a clock
for (int i=0;i<12;i++){
uint y = ((clock_radius)*cos(PI-(2*PI)/12*i))+clock_center_y;
uint x = ((clock_radius)*sin(PI-(2*PI)/12*i))+clock_center_x;
uint y1 = ((clock_radius-3)*cos(PI-(2*PI)/12*i))+clock_center_y;
uint x1 = ((clock_radius-3)*sin(PI-(2*PI)/12*i))+clock_center_x;
if(i==1)
x1 -= 1;
if(i==2)
y1 += 1;
if(i==4)
y1 -= 1;
if(i==5)
x1 -= 1;
if(i==8)
y += 1;
if(i==11)
x1 += 1;
display.drawLine(x1,y1,x,y,ACcolor);
}
display.drawLine(clock_center_x,clock_center_y-clock_radius,clock_center_x,clock_center_y-clock_radius-4,ACcolor);
}
void showAnalogDate(time_t t){
uint8_t r = dateColor[0];
uint8_t g = dateColor[1];
uint8_t b = dateColor[2];
uint8_t x = 41;
uint8_t y = 1;
UnixTime stamp(0);
stamp.getDateTime(t);
switch(stamp.dayOfWeek){
case 1:
show5x7(x,y,(char *)"Mo",r,g,b);
break;
case 2:
show5x7(x,y,(char *)"Di",r,g,b);
break;
case 3:
show5x7(x,y,(char *)"Mi",r,g,b);
break;
case 4:
show5x7(x,y,(char *)"Do",r,g,b);
break;
case 5:
show5x7(x,y,(char *)"Fr",r,g,b);
break;
case 6:
show5x7(x,y,(char *)"Sa",r,g,b);
break;
case 7:
show5x7(x,y,(char *)"So",r,g,b);
break;
}
x = 36;
y = 10;
uint16_t tmp = day(t);
x += Out5x7Char((tmp/10)+0x30,x,y,r,g,b)+1;
tmp -= (tmp/10)*10;
x += Out5x7Char((tmp)+0x30,x,y,r,g,b)+1;
x += Out5x7Char('.',x,y,r,g,b)+1;
tmp = month(t);
x += Out5x7Char((tmp/10)+0x30,x,y,r,g,b)+1;
tmp -= (tmp/10)*10;
x += Out5x7Char((tmp)+0x30,x,y,r,g,b)+1;
x += Out5x7Char('.',x,y,r,g,b)+1;
x = 36;
y = 24;
tmp = year(t);
x += Out5x7Char((tmp/1000)+0x30,x,y,r,g,b)+1;
tmp -= (tmp/1000)*1000;
x += Out5x7Char((tmp/100)+0x30,x,y,r,g,b)+1;
tmp -= (tmp/100)*100;
x += Out5x7Char((tmp/10)+0x30,x,y,r,g,b)+1;
tmp -= (tmp/10)*10;
x += Out5x7Char((tmp)+0x30,x,y,r,g,b)+1;
uint8_t kw = GetWeekNumber(year(t),month(t),day(t));
char str[6];
char kws[3];
itoa(kw,kws,10);
strcpy(str, "KW ");
strcat(str, kws);
show3x5(38,18,str,kwColor[0],kwColor[1],kwColor[2]);
}
void showAnalogTime(time_t t){
doClearLEDs();
uint16_t tmp = 0;
uint16_t tmp2 = 0;
//
drawAnalogFace();
tmp = minute(t);
tmp2 = hour(t);
drawAnalogHour(tmp2,tmp);
drawAnalogMinute(tmp);
if(withSeconds){
tmp = second(t);
drawAnalogSecond(tmp);
}
}
void doSetTime(unsigned long t){
rtc.reset();
rtc.setUNIX(t);
}
void IRAM_ATTR rtc_clock(){ //Interrupt vom RTC
if(digitalRead(PINRTC_CLOCK)){
ti_second = millis() - 1020;
//display.drawPixelRGB888(4,0,0,255,0);
}else{
//display.drawPixelRGB888(4,0,0,0,0);
}
}
uint8_t isDayLight(uint8_t hour, uint8_t day, uint8_t wday, uint8_t month){
if( month < 3 || month > 10 ) // month 1, 2, 11, 12
return 0; // -> Winter
if( day - wday >= 25 && (wday || hour >= 2) ){ // after last Sunday 2:00
if( month == 10 ) // October -> Winter
return 0;
}else{ // before last Sunday 2:00
if( month == 3 ) // March -> Winter
return 0;
}
return 1;
}
//NTP Update auf ganz lange
uint32_t sntp_update_delay_MS_rfc_not_less_than_15000 (){
return 365 * 24 * 60 * 60 * 1000UL; // 365 Tage
}
//reboot!!!
void display_doupdate(void){
display.showBuffer();
display.copyBuffer();
}
void setup() {
ultoa(ESP.getChipId(),ChipID,10);
EEPROM.begin(256);
EEPROM.get(0, timeIndex);
EEPROM.get(1, options);
withSeconds = bitRead(options,0);
alwaysAccessPoint = bitRead(options,1);
EEPROM.get(5, brightness);
if(brightness < 0.10)
brightness = 0.10;
if(brightness > 1.0)
brightness = 1.0;
timeColor[0] = EEPROM.read(11);
timeColor[1] = EEPROM.read(12);
timeColor[2] = EEPROM.read(13);
tacticalTimeColor[0] = EEPROM.read(21);
tacticalTimeColor[1] = EEPROM.read(22);
tacticalTimeColor[2] = EEPROM.read(23);
dateColor[0] = EEPROM.read(31);
dateColor[1] = EEPROM.read(32);
dateColor[2] = EEPROM.read(33);
kwColor[0] = EEPROM.read(41);
kwColor[1] = EEPROM.read(42);
kwColor[2] = EEPROM.read(43);
EEPROM.get(101,ssid);
EEPROM.get(201,pass);
EEPROM.get(151,appass);
display.begin(16);
//display.setBrightness(255);
display.setBrightness(ceil(255 * brightness));
display.setFastUpdate(true);
doClearLEDs(true);
showOVALZ();
showNTOOLS();
display_update_enable(true);
Wire.begin(1,3);
//Wire.setClock(400000);
//RTC
if (rtc.begin() == false) {
display.drawPixelRGB888(0,0,255,0,0);
display_doupdate();
}else{
display.drawPixelRGB888(0,0,0,255,0);
display_doupdate();
rtc.setBackupSwitchoverMode(3);
rtcEnabled = true;
pinMode(PINRTC_CLOCK, INPUT_PULLUP);
setTime(rtc.getUNIX());
long currentUNIXTime = now();
byte Month, Day, Hour, Minute, Second, WDay;
Month = month(currentUNIXTime);
Day = day(currentUNIXTime);
Hour = hour(currentUNIXTime);
Minute = minute(currentUNIXTime);
Second = second(currentUNIXTime);
WDay = weekday();
iDL = isDayLight(Hour,Day,WDay,Month);
}
char NetName[30];
strcpy(NetName, "NTUVPx");
strcat(NetName, ChipID);
char APName[30];
strcpy(APName, "NTUhr VPx ");
strcat(APName, ChipID);
WiFi.persistent(false);
WiFi.mode(WIFI_AP_STA);
WiFi.begin(ssid,pass);
WiFi.hostname(NetName);
int xc = 0;
while ((WiFi.status() != WL_CONNECTED) && (xc < 10)) {
delay(1500);
xc++;
display.drawPixelRGB888(xc+5,0,255,255,0);
display_doupdate();
}
if (WiFi.status() == WL_CONNECTED) {
char str[5];
IPAddress lip;
lip = WiFi.localIP();
itoa(lip[0],str,10);
strcpy(localip, str);
strcat(localip, ".");
itoa(lip[1],str,10);
strcat(localip, str);
strcat(localip, ".");
itoa(lip[2],str,10);
strcat(localip, str);
strcat(localip, ".");
itoa(lip[3],str,10);
strcat(localip, str);
show3x5( 10, 13, localip, 100, 255, 0);
display.drawPixelRGB888(1, 0, 0, 255, 0);
display_doupdate();
configTime("CET-1CEST,M3.5.0,M10.5.0/3", "ptbtime1.ptb.de", "ptbtime2.ptb.de", "ptbtime3.ptb.de");
time_t timenow = time(nullptr);
xc = 0;
while((timenow < SECS_YR_2000) && (xc < 10)) {
delay(1000);
timenow = time(nullptr);
xc++;
display.drawPixelRGB888(xc+16,0,255,255,0);
display_doupdate();
}
if(timenow > SECS_YR_2000){
timenow += 1;
int Year;
byte Month, Day, Hour;
setTime(timenow);
Year = year(timenow);
Day = day(timenow);
Hour = hour(timenow);
if(isDayLight(Hour,Day,weekday(),Month))
timenow += (SECS_PER_HOUR * 2);
else
timenow += (SECS_PER_HOUR);
if(rtcEnabled){
doSetTime(timenow);
}
lastTimeSyncTyp = 2;
lastTimeSyncTime = timenow;
display.drawPixelRGB888(2,0,0,255,0);
display_doupdate();
}else{
display.drawPixelRGB888(2,0,255,0,255);
display_doupdate();
}
delay(5000);
}else{
display.drawPixelRGB888(1,0,255,0,0);
display_doupdate();
alwaysAccessPoint = true;
}
if(alwaysAccessPoint){
if (WiFi.status() != WL_CONNECTED) {
WiFi.disconnect();
delay(100);
WiFi.mode(WIFI_OFF);
delay(100);
WiFi.mode(WIFI_AP);
}
delay(100);
WiFi.softAPConfig(ip_local, ip_gateway, ip_subnet);
//appass = ;
APEnabled = WiFi.softAP(APName, appass,2,0,2,250);
if(!APEnabled)
display.drawPixelRGB888(3,0,255,0,0);
else
display.drawPixelRGB888(3,0,0,255,0);
dnsServer.setErrorReplyCode(DNSReplyCode::NoError);
dnsServer.start(53, "*", ip_local);
}else{
display.drawPixelRGB888(3,0,0,0,0);
}
display_doupdate();
//für die automatische Umleitung
/*webServer.on("/generate_204", HTTP_GET, [](AsyncWebServerRequest *request){html_root(request);}); //Android captive portal.
webServer.on("/fwlink", HTTP_GET, [](AsyncWebServerRequest *request){html_root(request);}); //Microsoft captive portal.
webServer.on("/connecttest.txt", HTTP_GET, [](AsyncWebServerRequest *request){html_root(request);}); //www.msftconnecttest.com
webServer.on("/hotspot-detect.html", HTTP_GET, [](AsyncWebServerRequest *request){html_root(request);}); //captive.apple.com
webServer.on("/success.txt", HTTP_GET, [](AsyncWebServerRequest *request){html_handle_success(request);}); //detectportal.firefox.com/sucess.txt
webServer.on("/redirect", HTTP_GET, [](AsyncWebServerRequest *request){html_root(request);}); //Microsoft captive portal.*/
webServer.onNotFound([](AsyncWebServerRequest *request){html_handle_notsuccess(request);});
//eigene Seiten
webServer.on("/", HTTP_GET, [](AsyncWebServerRequest *request){html_root(request);});
webServer.on("/do", HTTP_GET, [] (AsyncWebServerRequest *request) {html_do(request);});
webServer.on("/poll", HTTP_GET, [] (AsyncWebServerRequest *request) {html_poll(request);});
//webServer.on("/resetAP", HTTP_GET, [] (AsyncWebServerRequest *request) {html_resetAP(request);});
AsyncElegantOTA.begin(&webServer); // Start AsyncElegantOTA
webServer.begin();
if(rtcEnabled)
attachInterrupt(digitalPinToInterrupt(PINRTC_CLOCK), rtc_clock, CHANGE);
delay(3000);
doClearLEDsStatus();
}
void loop(){
if (millis() - ti_second > 1000) {
ti_second = millis();
if((timeStatus() != timeNotSet)){
time_t currentUNIXTime = now();
if(rtcEnabled){
currentUNIXTime = rtc.getUNIX();
setTime(currentUNIXTime);
}
byte Month, Day, Hour, Minute, Second, WDay;
Month = month(currentUNIXTime);
Day = day(currentUNIXTime);
Hour = hour(currentUNIXTime);
Minute = minute(currentUNIXTime);
Second = second(currentUNIXTime);
WDay = weekday();
if((isDayLight(Hour,Day,WDay,Month) != iDL) && (((Month == 10) & (Hour >= 3)) | (Month == 3))){
if(iDL){
doSetTime(currentUNIXTime - SECS_PER_HOUR);
}else{
doSetTime(currentUNIXTime + SECS_PER_HOUR);
}
iDL = isDayLight(Hour,Day,WDay,Month);
}
//Sonntag und NTP = Reset ..
if((WDay == 1) && (Hour == 3) && (Minute == 1) && (Second == 0)){
ESP.restart();
}
switch(timeIndex){
case 0:
showTimeTactical(currentUNIXTime);
break;
case 1:
showTime(currentUNIXTime);
break;
case 2:
showDateTime(currentUNIXTime);
break;
case 3:
clock_center_x = 32;
showAnalogTime(currentUNIXTime);
break;
case 4:
clock_center_x = 16;
showAnalogTime(currentUNIXTime);
showAnalogDate(currentUNIXTime);
break;
}
display_doupdate();
}
rtc.getTEMPERATURE(&temperature);
}
dnsServer.processNextRequest();
//yield();
}
//alles was WEB ist ...
#include "index_html.h"
const char* PARAM_SET = "set";
const char* PARAM_SAVE = "save";
const char* PARAM_TO = "to";
const char* PARAM_SHOWWHAT = "showWhat";
const char* PARAM_BRIGHTNESS = "brightness";
const char* PARAM_OPTIONS = "options";
const char* PARAM_SSID = "ssid";
const char* PARAM_PWD = "pwd";
const char* PARAM_RESET = "reset";
void html_root(AsyncWebServerRequest *request) {
request->send_P(200, "text/html", html_page_index, html_processor);
}
void html_poll(AsyncWebServerRequest *request) {
long color = 0;
char ret[250];
char tempBuff[30];
strcpy(ret,(char *)"[");
ltoa(now(),tempBuff,DEC);
strcat(ret,tempBuff);
color = timeColor[0] << 16;
color += timeColor[1] << 8;
color += timeColor[2];
itoa(color,tempBuff,DEC);
strcat(ret,(char *)",");
strcat(ret,tempBuff);
color = tacticalTimeColor[0] << 16;
color += tacticalTimeColor[1] << 8;
color += tacticalTimeColor[2];
itoa(color,tempBuff,DEC);
strcat(ret,(char *)",");
strcat(ret,tempBuff);
color = dateColor[0] << 16;
color += dateColor[1] << 8;
color += dateColor[2];
itoa(color,tempBuff,DEC);
strcat(ret,(char *)",");
strcat(ret,tempBuff);
itoa(timeIndex,tempBuff,DEC);
strcat(ret,(char *)",");
strcat(ret,tempBuff);
itoa(lastTimeSyncTyp,tempBuff,DEC);
strcat(ret,(char *)",");
strcat(ret,tempBuff);
itoa(lastTimeSyncTime,tempBuff,DEC);
strcat(ret,(char *)",");
strcat(ret,tempBuff);
dtostrf(brightness, 10, 2, tempBuff);
strcat(ret,(char *)",\"");
strcat(ret,tempBuff);
strcat(ret,(char *)"\"");
itoa(rtcEnabled,tempBuff,DEC);
strcat(ret,(char *)",");
strcat(ret,tempBuff);
itoa(EEPROMDataNotSaved,tempBuff,DEC);
strcat(ret,(char *)",");
strcat(ret,tempBuff);
strcat(ret,(char *)",\"");
strcat(ret,ssid);
strcat(ret,(char *)"\"");
dtostrf(temperature, 10, 2, tempBuff);
strcat(ret,(char *)",\"");
strcat(ret,tempBuff);
strcat(ret,(char *)"\"");
itoa(options,tempBuff,DEC);
strcat(ret,(char *)",");
strcat(ret,tempBuff);
color = kwColor[0] << 16;
color += kwColor[1] << 8;
color += kwColor[2];
itoa(color,tempBuff,DEC);
strcat(ret,(char *)",");
strcat(ret,tempBuff);
uint8_t kw = GetWeekNumber(year(now()),month(now()),day(now()));
itoa(kw,tempBuff,DEC);
strcat(ret,(char *)",");
strcat(ret,tempBuff);
strcat(ret,(char *)"]");
request->send(200, "text/plain", ret);
}
void html_do(AsyncWebServerRequest *request) {
String s_set,s_value,s_idx,s_value2;
uint32_t l_value;
if (request->hasParam(PARAM_SET)) {
s_set = request->getParam(PARAM_SET)->value();
if((s_set == "time") & (request->hasParam(PARAM_TO))) {
s_value = request->getParam(PARAM_TO)->value();
l_value = strtol(s_value.c_str(), NULL, 10);
doSetTime(l_value);
lastTimeSyncTyp = 3;
lastTimeSyncTime = now();
}else if(request->hasParam(PARAM_SHOWWHAT)) {
s_value = request->getParam(PARAM_SHOWWHAT)->value();
timeIndex = s_value.toInt();
EEPROM.put(0, timeIndex);
EEPROMDataNotSaved = true;
}else if(((s_set == "color") | (s_set == "tcolor") | (s_set == "dcolor") | (s_set == "kwcolor")) & (request->hasParam(PARAM_TO))) {
s_value = request->getParam(PARAM_TO)->value();
uint8_t c[3];
l_value = strtol(s_value.c_str(), NULL, 16);
c[0] = l_value >> 16;
c[1] = l_value >> 8;
c[2] = l_value;
if(s_set == "color"){
timeColor[0] = c[0];
timeColor[1] = c[1];
timeColor[2] = c[2];
EEPROM.write(11,timeColor[0]);
EEPROM.write(12,timeColor[1]);
EEPROM.write(13,timeColor[2]);
EEPROMDataNotSaved = true;
}else if(s_set == "tcolor"){
tacticalTimeColor[0] = c[0];
tacticalTimeColor[1] = c[1];
tacticalTimeColor[2] = c[2];
EEPROM.write(21,tacticalTimeColor[0]);
EEPROM.write(22,tacticalTimeColor[1]);
EEPROM.write(23,tacticalTimeColor[2]);
EEPROMDataNotSaved = true;
}else if(s_set == "dcolor"){
dateColor[0] = c[0];
dateColor[1] = c[1];
dateColor[2] = c[2];
EEPROM.write(31,dateColor[0]);
EEPROM.write(32,dateColor[1]);
EEPROM.write(33,dateColor[2]);
EEPROMDataNotSaved = true;
}else if(s_set == "kwcolor"){
kwColor[0] = c[0];
kwColor[1] = c[1];
kwColor[2] = c[2];
EEPROM.write(41,kwColor[0]);
EEPROM.write(42,kwColor[1]);
EEPROM.write(43,kwColor[2]);
EEPROMDataNotSaved = true;
}
}else if((s_set == "option")) {
if(request->hasParam(PARAM_BRIGHTNESS)) {
s_value = request->getParam(PARAM_BRIGHTNESS)->value();
brightness = s_value.toFloat();
EEPROM.put(5,brightness);
EEPROMDataNotSaved = true;
display.setBrightness(ceil(255 * brightness));
}
if(request->hasParam(PARAM_OPTIONS)) {
s_value = request->getParam(PARAM_OPTIONS)->value();
options = s_value.toInt();
EEPROM.put(1,options);
EEPROMDataNotSaved = true;
withSeconds = bitRead(options,0);
alwaysAccessPoint = bitRead(options,1);
}
}else if((s_set == "wifi")) {
if((request->hasParam(PARAM_SSID)) && (request->hasParam(PARAM_PWD))){
s_value = request->getParam(PARAM_SSID)->value();
s_value2 = request->getParam(PARAM_PWD )->value();
if((s_value != ssid) || (s_value2 != pass)){
s_value.toCharArray(ssid, 30);
s_value2.toCharArray(pass, 30);
EEPROM.put(101,ssid);
EEPROM.put(201,pass);
EEPROMDataNotSaved = true;
}
}
}else if((s_set == "appass")) {
if(request->hasParam(PARAM_PWD)){
s_value2 = request->getParam(PARAM_PWD )->value();
if((s_value2 != appass)){
s_value2.toCharArray(appass, 30);
EEPROM.put(151,appass);
EEPROMDataNotSaved = true;
}
}
}
request->send(200, "text/plain", "OK");
lastminutes = -1;
}else if (request->hasParam(PARAM_SAVE)){
EEPROM.commit();
EEPROMDataNotSaved = false;
request->send(200, "text/plain", "OK");
}else if (request->hasParam(PARAM_RESET)){
request->send(200, "text/plain", "OK");
delay(1000);
ESP.restart();
}
request->send(200, "text/plain", "NOK");
}
void html_resetAP(AsyncWebServerRequest *request) {
String s_value = "";
s_value.toCharArray(appass, 30);
EEPROM.put(151,appass);
EEPROM.commit();
request->send(200, "text/plain", "OK");
}
// Replaces placeholder with button section in your web page
char * html_processor(const String& var){
if(var == "VERSION"){
return VERSION;
}else if(var == "ID"){
return ChipID;
}else if(var == "LOCALIP"){
return localip;
}
return (char *) "not defined";
}
String toggleState(int toggle){
switch(toggle){
case 0:
break;
}
return "";
}
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