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17 Commits
0.04 ... master

Author SHA1 Message Date
Christian Mittring
4644f9ba3e [Update]: Manual 2018-04-20 13:18:58 +02:00
Christian Mittring
d00e92a202 [Fixed]: Spelling 2018-04-19 22:32:35 +02:00
Christian Mittring
05830876eb [Added]: Some Links 2018-04-19 22:30:49 +02:00
Christian Mittring
8755571ef4 [Updated]: Manual 2018-04-19 22:20:20 +02:00
Christian Mittring
4d7656e936 Update Readme 
Update Readme
 2018-04-19 22:16:53 +02:00
Christian Mittring
130ee5f5d0 [Updated]: Manual 2018-04-19 22:13:42 +02:00
Christian Mittring
dabb003733 [Added] Manual 2018-04-19 17:01:48 +02:00
Christian Mittring
e43dbf1349 [Fixed]: Display Long Text wrong start. 2018-04-17 11:20:40 +02:00
Christian Mittring
fac228f186 [Changed]: Blink Time 2018-04-17 11:12:34 +02:00
Christian Mittring
3d1271abb7 [Added]: Message Function 2018-04-17 11:10:52 +02:00
Christian Mittring
e9ddf016c9 [Changed] : Web Gui 2018-04-17 10:35:31 +02:00
Christian Mittring
45c40e002c [Added]: Log-link 
[Added]: Support for HW:0.11
 2018-04-14 10:56:53 +02:00
Christian Mittring
caa6f3a833 [Fixed]: Flickering Light 2018-04-12 00:39:34 +02:00
Christian Mittring
a3959376e3 [Added]: New Menu Options in Web Interface 
[Fixed]: NTP Update Bug
 2018-04-12 00:38:17 +02:00
Christian Mittring
05cdb44ab5 [Changed]: New Webinterface Layout 2018-04-07 08:12:00 +02:00
Christian Mittring
60755333bf [Changed]: OTA update over http 2018-04-06 21:47:48 +02:00
Christian Mittring
f5eaa4cc26 [Added]: Simple Web Server 2018-04-06 07:48:11 +02:00
12 changed files with 404 additions and 134 deletions
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29
LichtWecker/Alarm.ino
View File

@@ -1,9 +1,10 @@
//Test if Alarm was triggerd and start Alarm, test if Alarm Time should be changed (Summer/Winter Time)
void run_alarm(long currentMillis){ void run_alarm(long currentMillis){
if (test_alarm()) if (test_alarm())
{ {
Serial.println("Start Alarm"); write_log("Start Alarm");
start_wake_light(currentMillis); start_wake_light(currentMillis);
setAlarmTimer(15); setAlarmTimer(wakeup_time + 5);
} }
else{ else{
if (run_wake_up(currentMillis)){ if (run_wake_up(currentMillis)){
@@ -12,7 +13,7 @@ void run_alarm(long currentMillis){
} }
//Test if Summer->Winter time change (this should also change the Alarm times!) //Test if Summer->Winter time change (this should also change the Alarm times!)
bool dst = summertime_EU(y,M,d,h,1); bool dst = summertime_EU(y,M,d,h,1);
//Serial.println(String(dst) + ":" + String(summer)); //write_log(String(dst) + ":" + String(summer));
if (dst != summer) if (dst != summer)
{ {
summer = dst; summer = dst;
@@ -22,14 +23,15 @@ void run_alarm(long currentMillis){
} }
} }
//Stop Alarm if timeout reached
void stop_alarm(){ void stop_alarm(){
Serial.println("Stop Alarm"); write_log("Stop Alarm");
stop_wake_light(); stop_wake_light();
stop_alarm_beep(); stop_alarm_beep();
setAlarmTimer(0); setAlarmTimer(0);
} }
//Set Alarm Timeout to stop alarm if nobody is at home
void setAlarmTimer(int Minutes){ void setAlarmTimer(int Minutes){
if (Minutes == 0) if (Minutes == 0)
{ {
@@ -42,6 +44,7 @@ void setAlarmTimer(int Minutes){
} }
} }
//Test if timeout reached
void handleSleep(long intervall, long currentMillis){ void handleSleep(long intervall, long currentMillis){
if(time_on < 0){ if(time_on < 0){
return; return;
@@ -53,7 +56,7 @@ void handleSleep(long intervall, long currentMillis){
} }
//#################################################################################################### //####################################################################################################
//Turn Alarm on/off
void switch_alarm_mode(){ void switch_alarm_mode(){
bool A1 = Clock.checkAlarmEnabled(1); bool A1 = Clock.checkAlarmEnabled(1);
bool A2 = Clock.checkAlarmEnabled(2); bool A2 = Clock.checkAlarmEnabled(2);
@@ -93,7 +96,7 @@ void switch_alarm_mode(){
} }
delay_gui(1000); delay_gui(1000);
} }
//Enter Alarm Menu
void set_alarm_item(){ void set_alarm_item(){
if (setItem == 0) if (setItem == 0)
{ {
@@ -110,7 +113,7 @@ void set_alarm_item(){
setItem = 0; setItem = 0;
} }
} }
//Get Alarm Info for Display
String get_alarm_string(){ String get_alarm_string(){
String alarm_string_1 = ""; String alarm_string_1 = "";
String alarm_string_2 = ""; String alarm_string_2 = "";
@@ -132,7 +135,7 @@ String get_alarm_string(){
} }
//#################################################################################################### //####################################################################################################
//Test if Alarm is triggerd
bool test_alarm(){ bool test_alarm(){
bool A1 = Clock.checkIfAlarm(1); bool A1 = Clock.checkIfAlarm(1);
bool A2 = Clock.checkIfAlarm(2); bool A2 = Clock.checkIfAlarm(2);
@@ -173,7 +176,7 @@ void add_al2_minute(int i){
} }
} }
//Save Alarm 1
void set_alarm1(){ void set_alarm1(){
int al1h_utc = al1h; int al1h_utc = al1h;
if (summertime_EU(y,M,d,h,1)) if (summertime_EU(y,M,d,h,1))
@@ -188,12 +191,12 @@ void set_alarm1(){
byte A1Day, A1Hour, A1Minute, A1Second, AlarmBits; byte A1Day, A1Hour, A1Minute, A1Second, AlarmBits;
bool A1Dy, A1h12, A1PM; bool A1Dy, A1h12, A1PM;
Clock.getA1Time(A1Day, A1Hour, A1Minute, A1Second, AlarmBits, A1Dy, A1h12, A1PM); Clock.getA1Time(A1Day, A1Hour, A1Minute, A1Second, AlarmBits, A1Dy, A1h12, A1PM);
Serial.println("Alarm1 Set:" + String(A1Day) + ", " + String(A1Hour) + ", " + String(A1Minute) + ", " + String(A1Second) + ", " + String(AlarmBits) + ", " + String(A1Dy) + ", " + String(A1h12) + ", "); write_log("Alarm1 Set:" + String(A1Day) + ", " + String(A1Hour) + ", " + String(A1Minute) + ", " + String(A1Second) + ", " + String(AlarmBits) + ", " + String(A1Dy) + ", " + String(A1h12) + ", ");
//display_text("Alarm 1", String(A1Hour) + ":" +String(A1Minute)); //display_text("Alarm 1", String(A1Hour) + ":" +String(A1Minute));
//delay_gui(1000); //delay_gui(1000);
} }
//Save Alarm 2
void set_alarm2(){ void set_alarm2(){
int al2h_utc = al2h; int al2h_utc = al2h;
if (summertime_EU(y,M,d,h,1)) if (summertime_EU(y,M,d,h,1))
@@ -208,7 +211,7 @@ void set_alarm2(){
byte A1Day, A1Hour, A1Minute, AlarmBits; byte A1Day, A1Hour, A1Minute, AlarmBits;
bool A1Dy, A1h12, A1PM; bool A1Dy, A1h12, A1PM;
Clock.getA2Time(A1Day, A1Hour, A1Minute, AlarmBits, A1Dy, A1h12, A1PM); Clock.getA2Time(A1Day, A1Hour, A1Minute, AlarmBits, A1Dy, A1h12, A1PM);
Serial.println("Alarm2 Set:" + String(A1Day) + ", " + String(A1Hour) + ", " + String(A1Minute) + ", " + String(AlarmBits) + ", " + String(A1Dy) + ", " + String(A1h12) + ", "); write_log("Alarm2 Set:" + String(A1Day) + ", " + String(A1Hour) + ", " + String(A1Minute) + ", " + String(AlarmBits) + ", " + String(A1Dy) + ", " + String(A1h12) + ", ");
//display_text("Alarm 2", String(A1Hour) + ":" +String(A1Minute)); //display_text("Alarm 2", String(A1Hour) + ":" +String(A1Minute));
//delay_gui(1000); //delay_gui(1000);
} }

139
LichtWecker/LichtWecker.ino
View File

@@ -1,4 +1,4 @@
// Including the ESP8266 WiFi library // Including the ESP8266 WiFi library and other dependencies
#include <ESP8266HTTPClient.h> #include <ESP8266HTTPClient.h>
#include <ESP8266WiFi.h> #include <ESP8266WiFi.h>
#include <WiFiClient.h> #include <WiFiClient.h>
@@ -9,12 +9,34 @@
#include <SPI.h> #include <SPI.h>
#include <DS3231.h> #include <DS3231.h>
#include <WiFiUdp.h> #include <WiFiUdp.h>
#include <ArduinoOTA.h> #include <ESP8266HTTPUpdateServer.h>;
#include <Wire.h> #include <Wire.h>
#include <LiquidCrystal_I2C.h> //https://github.com/agnunez/ESP8266-I2C-LCD1602 #include <LiquidCrystal_I2C.h> //https://github.com/agnunez/ESP8266-I2C-LCD1602
#include <NTPtimeESP.h> //https://github.com/SensorsIot/NTPtimeESP #include <NTPtimeESP.h> //https://github.com/SensorsIot/NTPtimeESP
#include <EEPROM.h> #include <EEPROM.h>
//Default Settings
String Hardware = "0.12";
String Software = "0.14";
String ntp_server = "ntp2.uni-augsburg.de";
bool ntp_update = true;
int wakeup_time = 10;
String message_text = "";
//ConfigData (WiFi Name and Pin-Numbers)
const String NodeName = "LichtWecker";
//Pin Taster
const int pinTime = 3; //Pin fuer Toggle_Power und Einstellen der Uhrzeit (Lang)
const int pinSet = 0; //Pin fuer Sleep und Zeit_Einstellung im Alarm/Time Set Mode
const int pinAlarm = 2; //Pin fuer Alarm An/Aus und setzen der Alarmzeiten (Lang)
//Pin Relay
const int outBeep = 9;
// Set web server port number to 80
ESP8266WebServer server(80);
ESP8266HTTPUpdateServer httpUpdater;
//LED Band Setup //LED Band Setup
#define FASTLED_ESP8266_RAW_PIN_ORDER #define FASTLED_ESP8266_RAW_PIN_ORDER
#include "FastLED.h" #include "FastLED.h"
@@ -25,32 +47,19 @@
#define CLOCK_PIN 13 #define CLOCK_PIN 13
// This is an array of leds. One item for each led in your strip. // This is an array of leds. One item for each led in your strip.
CRGB leds[NUM_LEDS]; CRGB leds[NUM_LEDS];
//RealTimeClock //RealTimeClock
RTClib RTC; RTClib RTC;
DS3231 Clock; DS3231 Clock;
//NTP Setup //NTP Setup
NTPtime NTPch("ntp2.uni-augsburg.de"); // Choose server pool as required NTPtime NTPch(ntp_server); // Choose server pool as required
//Display //Display
LiquidCrystal_I2C lcd(0x3f, 16, 2); LiquidCrystal_I2C lcd(0x3f, 16, 2);
//ConfigData (WiFi Name and Pin-Numbers) //Helpers
const String NodeName = "LichtWecker";
//Pin Taster
const int pinTime = 3; //Pin fuer Toggle_Power und Einstellen der Uhrzeit (Lang)
const int pinSet = 0; //Pin fuer Sleep und Zeit_Einstellung im Alarm/Time Set Mode
const int pinAlarm = 2; //Pin fuer Alarm An/Aus und setzen der Alarmzeiten (Lang)
//Pin Relay
const int outBeep = 9;
//To know if connected to wifi or not: //To know if connected to wifi or not:
bool wifi_connected = false; bool wifi_connected = false;
//For Summertime change notification (change alarmtime) this should be saved in the EEPROM! //For Summertime change notification (change alarmtime) this should be saved in the EEPROM!
bool summer = false; bool summer = false;
//Alarm Started? //Alarm Started?
bool alarm_started = false; bool alarm_started = false;
long startTime = 0; long startTime = 0;
@@ -64,7 +73,6 @@ int al2m = 0;
//Alarm run Counter //Alarm run Counter
long time_on = -1; long time_on = -1;
int minutes_sleep = -1; int minutes_sleep = -1;
//Current Date and Time from RTC //Current Date and Time from RTC
int h = 0; int h = 0;
int m = 0; int m = 0;
@@ -74,24 +82,24 @@ int M = 0;
int y = 0; int y = 0;
char daysOfTheWeek[7][12] = {"Sunday", "Monday", "Tuesday", "Wednesday", "Thursday", "Friday", "Saturday"}; char daysOfTheWeek[7][12] = {"Sunday", "Monday", "Tuesday", "Wednesday", "Thursday", "Friday", "Saturday"};
String dow = "-"; String dow = "-";
//Current Menu Item
int setItem = 0; int setItem = 0;
//Display is not updated (for block_gui Secondes)
long block_gui = -1; long block_gui = -1;
//Counting Mills
long previousMillis = 0; long previousMillis = 0;
//If not Connected to Wifi
void configModeCallback (WiFiManager *myWiFiManager) { void configModeCallback (WiFiManager *myWiFiManager) {
//if you used auto generated SSID, print it //if you used auto generated SSID, print it
//Serial.println(myWiFiManager->getConfigPortalSSID()); //write_log(myWiFiManager->getConfigPortalSSID());
display_text("Wifi: Licht","PW: Wecker"); display_text("Wifi: Licht","PW: Wecker");
} }
//Initial Code
void setup() { void setup() {
Serial.begin(115200); Serial.begin(115200);
delay(10); delay(10);
//Setup Display //Setup Display
// Initialise the LCD // Initialise the LCD
lcd.begin(4,5); // sda=0, scl=2 lcd.begin(4,5); // sda=0, scl=2
@@ -159,9 +167,9 @@ void setup() {
delay(5000); delay(5000);
} }
if (wifiManager.autoConnect("Licht", "Wecker")){ if (wifiManager.autoConnect("Licht", "Wecker")){
Serial.println("WiFi connected"); write_log("WiFi connected");
Serial.print("IP address: "); write_log("IP address: ");
Serial.println(WiFi.localIP()); write_log(WiFi.localIP().toString());
wifi_connected = true; wifi_connected = true;
display_text("IP address",WiFi.localIP().toString()); display_text("IP address",WiFi.localIP().toString());
delay(5000); delay(5000);
@@ -169,9 +177,9 @@ void setup() {
else{ else{
WiFi.mode(WIFI_OFF); WiFi.mode(WIFI_OFF);
} }
display_text("Licht Wecker","SW: 0.04"); display_text("Licht Wecker","SW: " + Software);
delay(1000); delay(1000);
display_text("Licht Wecker","HW: 0.10"); display_text("Licht Wecker","HW: " + Hardware);
delay(1000); delay(1000);
display_text("Licht Wecker",""); display_text("Licht Wecker","");
@@ -193,7 +201,7 @@ void setup() {
al1h = A1Hour; al1h = A1Hour;
} }
al1m = A1Minute; al1m = A1Minute;
Serial.println("Alarm1 Set:" + String(A1Day) + ", " + String(A1Hour) + ", " + String(A1Minute) + ", " + String(AlarmBits) + ", " + String(A1Dy) + ", " + String(A1h12) + ", "); write_log("Alarm1 Set:" + String(A1Day) + ", " + String(A1Hour) + ", " + String(A1Minute) + ", " + String(AlarmBits) + ", " + String(A1Dy) + ", " + String(A1h12) + ", ");
Clock.getA2Time(A1Day, A1Hour, A1Minute, AlarmBits, A1Dy, A1h12, A1PM); Clock.getA2Time(A1Day, A1Hour, A1Minute, AlarmBits, A1Dy, A1h12, A1PM);
if (summer) if (summer)
@@ -204,7 +212,7 @@ void setup() {
al2h = A1Hour; al2h = A1Hour;
} }
al2m = A1Minute; al2m = A1Minute;
Serial.println("Alarm2 Set:" + String(A1Day) + ", " + String(A1Hour) + ", " + String(A1Minute) + ", " + String(AlarmBits) + ", " + String(A1Dy) + ", " + String(A1h12) + ", "); write_log("Alarm2 Set:" + String(A1Day) + ", " + String(A1Hour) + ", " + String(A1Minute) + ", " + String(AlarmBits) + ", " + String(A1Dy) + ", " + String(A1h12) + ", ");
show_green(); show_green();
update_time_from_web(); update_time_from_web();
@@ -213,65 +221,54 @@ void setup() {
previousMillis = millis(); previousMillis = millis();
//-------------------------------------------------
//OTA
// No authentication by default
ArduinoOTA.setPassword(NodeName.c_str());
ArduinoOTA.setHostname(NodeName.c_str());
ArduinoOTA.onStart([]() {
Serial.println("Start");
});
ArduinoOTA.onEnd([]() {
Serial.println("\nEnd");
});
ArduinoOTA.onProgress([](unsigned int progress, unsigned int total) {
Serial.printf("Progress: %u%%\r", (progress / (total / 100)));
});
ArduinoOTA.onError([](ota_error_t error) {
Serial.printf("Error[%u]: ", error);
if (error == OTA_AUTH_ERROR) Serial.println("Auth Failed");
else if (error == OTA_BEGIN_ERROR) Serial.println("Begin Failed");
else if (error == OTA_CONNECT_ERROR) Serial.println("Connect Failed");
else if (error == OTA_RECEIVE_ERROR) Serial.println("Receive Failed");
else if (error == OTA_END_ERROR) Serial.println("End Failed");
});
ArduinoOTA.begin();
//-------------------------------------------------
update_time_from_web(); update_time_from_web();
setup_webserver();
} }
void loop() { void loop() {
//OTA //Handle web requests
ArduinoOTA.handle(); handle_webserver();
//OTA
unsigned long currentMillis = millis(); unsigned long currentMillis = millis();
unsigned long intervall = currentMillis - previousMillis; unsigned long intervall = currentMillis - previousMillis;
update_display(currentMillis,intervall);
//Test Input-Pin pressed
test_pin();
//Handle Sleep Timer timeout
handleSleep(intervall, currentMillis);
//Test time every hour
if(m == 1 && s == 30)
{
update_time_from_web();
}
//Delay for Wifi Tasks
delay(100);
}
void update_display(){
unsigned long currentMillis = millis();
unsigned long intervall = currentMillis - previousMillis;
update_display(currentMillis,intervall);
}
void update_display(unsigned long currentMillis, unsigned long intervall){
//Unblock Display (if block_gui was set)
release_gui(currentMillis); release_gui(currentMillis);
// put your main code here, to run repeatedly:
if(setItem == 0){ if(setItem == 0){
//Run normal
update_Time(); update_Time();
run_alarm(currentMillis); run_alarm(currentMillis);
if (block_gui < 0) if (block_gui < 0)
show_current_time(intervall,currentMillis); show_current_time(intervall,currentMillis);
} }
else{ else{
//Show Menu
show_time_infos(intervall,currentMillis); show_time_infos(intervall,currentMillis);
previousMillis = currentMillis; previousMillis = currentMillis;
} }
test_pin();
handleSleep(intervall, currentMillis);
if(m == 1 && s == 30)
{
update_time_from_web();
}
delay(100);
} }

17
LichtWecker/Uhr.ino
View File

@@ -1,3 +1,4 @@
//Show current Time and Date on display
void show_current_time(long intervall, long currentMillis){ void show_current_time(long intervall, long currentMillis){
if(intervall > 16000){ if(intervall > 16000){
previousMillis = currentMillis; previousMillis = currentMillis;
@@ -45,7 +46,7 @@ void show_time_infos(long intervall, long currentMillis){
//#################################################################################################### //####################################################################################################
//Setup //Enter Time Menu
void switch_set_item(){ void switch_set_item(){
setItem = setItem + 1; setItem = setItem + 1;
if(setItem > 6) if(setItem > 6)
@@ -111,7 +112,7 @@ void update_Time(){
} }
dow = daysOfTheWeek[Clock.getDoW()]; dow = daysOfTheWeek[Clock.getDoW()];
//Serial.println(String(h) + ":" + String(m) + ":" + String(s) + " - " + String(d) + "." + String(M) + "." + String(y) + " | DST: " + String(summertime_EU(y,M,d,h,1))); //write_log(String(h) + ":" + String(m) + ":" + String(s) + " - " + String(d) + "." + String(M) + "." + String(y) + " | DST: " + String(summertime_EU(y,M,d,h,1)));
} }
//################################################################################################################################### //###################################################################################################################################
@@ -119,7 +120,7 @@ void update_Time(){
void display_year(int Day, int Month, int Year){ void display_year(int Day, int Month, int Year){
display_text("Jahr", String(Year)); display_text("Jahr", String(Year));
} }
int current_Sec = 0;
void display_time(int Stunde, int Minute, int Sekunde){ void display_time(int Stunde, int Minute, int Sekunde){
String Min = String(Minute); String Min = String(Minute);
String Stu = String(Stunde); String Stu = String(Stunde);
@@ -167,9 +168,19 @@ void display_time(int Stunde, int Minute, int Sekunde){
/*else if (Sekunde % 2 == 0){ /*else if (Sekunde % 2 == 0){
display_text(Stu + ":" + Min, get_alarm_string()); display_text(Stu + ":" + Min, get_alarm_string());
}*/ }*/
else if(message_text != ""){
display_text(Stu + ":" + Min + ":" + Sek, message_text);
setBrightnes(true);
if (alarm_started == false){
if (Sekunde % 2 == 0 && Sekunde != current_Sec){
set_color(0, 0, 255);
}
}
}
else{ else{
display_text(Stu + ":" + Min + ":" + Sek, get_alarm_string()); display_text(Stu + ":" + Min + ":" + Sek, get_alarm_string());
} }
current_Sec = Sekunde;
} }
void display_date(int Day, int Month, int Year){ void display_date(int Day, int Month, int Year){

9
LichtWecker/beeper.ino
View File

@@ -1,3 +1,4 @@
//Start Wakeup sound
void run_wake_up_beep(long currentMillis){ void run_wake_up_beep(long currentMillis){
if (alarm_started == true) if (alarm_started == true)
{ {
@@ -10,10 +11,12 @@ void run_wake_up_beep(long currentMillis){
//} //}
} }
} }
//Stop Sound
void stop_alarm_beep(){ void stop_alarm_beep(){
beepOff(); beepOff();
} }
//############################################################################################
//Helpers
void toggle_alarm_beep(){ void toggle_alarm_beep(){
int currentState = digitalRead(outBeep); int currentState = digitalRead(outBeep);
@@ -28,7 +31,7 @@ void toggle_alarm_beep(){
void beepOff(){ void beepOff(){
int currentState = digitalRead(outBeep); int currentState = digitalRead(outBeep);
if (currentState != LOW){ if (currentState != LOW){
Serial.println("ALARM"); //write_log("ALARM");
digitalWrite(outBeep, LOW); digitalWrite(outBeep, LOW);
} }
} }
@@ -36,7 +39,7 @@ void beepOff(){
void beepOn(){ void beepOn(){
int currentState = digitalRead(outBeep); int currentState = digitalRead(outBeep);
if (currentState != HIGH){ if (currentState != HIGH){
Serial.println("ALARM"); //write_log("ALARM");
digitalWrite(outBeep, HIGH); digitalWrite(outBeep, HIGH);
} }
} }

13
LichtWecker/display.ino
View File

@@ -1,16 +1,17 @@
//Helpers
String current_string = ""; String current_string = "";
//Display Text
void display_text(String text1, String text2){ void display_text(String text1, String text2){
if (current_string != text1 + text2){ if (current_string != text1 + text2){
//Serial.println("Display:"); //write_log("Display:");
lcd.clear(); lcd.clear();
lcd.setCursor(freespace(text1), 0); lcd.setCursor(freespace(text1), 0);
lcd.print(text1); lcd.print(text1);
//Serial.println(text1); //write_log(text1);
lcd.setCursor(freespace(text2), 1); lcd.setCursor(freespace(text2), 1);
lcd.print(text2); lcd.print(text2);
//Serial.println(text2); //write_log(text2);
//ledMatrix.clear(); //ledMatrix.clear();
//ledMatrix.setText(text); //ledMatrix.setText(text);
//ledMatrix.drawText(); //ledMatrix.drawText();
@@ -18,11 +19,11 @@ void display_text(String text1, String text2){
current_string = text1 + text2; current_string = text1 + text2;
} }
} }
//Calculate space
int freespace(String text){ int freespace(String text){
if (text.length() > 14) if (text.length() > 14)
{ {
return 1; return 0;
} }
else{ else{
int freespace = 16 - text.length(); int freespace = 16 - text.length();

32
LichtWecker/eeprom.ino
View File

@@ -4,13 +4,22 @@ uint addr = 0;
struct { struct {
bool summertime = false; bool summertime = false;
bool ntp_update = true;
int wakeup_time = 10;
char ntp_server[22] = "ntp2.uni-augsburg.de";
} data; } data;
void write_eeprom(){ void write_eeprom(){
EEPROM.begin(512); EEPROM.begin(1024);
// load EEPROM data into RAM, see it // load EEPROM data into RAM, see it
data.summertime = summer; data.summertime = summer;
Serial.println("Writing to EEPROM: "+String(data.summertime)); data.ntp_update = ntp_update;
data.wakeup_time = wakeup_time;
ntp_server.toCharArray(data.ntp_server,22);
write_log("Writing to EEPROM: "+String(data.summertime));
write_log("Writing to EEPROM: "+String(data.ntp_update));
write_log("Writing to EEPROM: "+String(data.wakeup_time));
write_log("Writing to EEPROM: "+String(data.ntp_server));
// replace values in EEPROM // replace values in EEPROM
EEPROM.put(addr,data); EEPROM.put(addr,data);
EEPROM.commit(); EEPROM.commit();
@@ -18,10 +27,25 @@ void write_eeprom(){
} }
bool get_eeprom(){ bool get_eeprom(){
EEPROM.begin(512); EEPROM.begin(1024);
EEPROM.get(addr,data); EEPROM.get(addr,data);
Serial.println("Found: "+String(data.summertime)); write_log("Read: "+String(data.summertime));
write_log("Read: "+String(data.ntp_update));
write_log("Read: "+String(data.wakeup_time));
write_log("Read: "+String(data.ntp_update));
EEPROM.end(); EEPROM.end();
summer = data.summertime; summer = data.summertime;
ntp_update = data.ntp_update;
wakeup_time = data.wakeup_time;
ntp_server = data.ntp_server;
}
void reset_eeprom(){
summer = false;
ntp_update = true;
wakeup_time = 10;
ntp_server = "ntp2.uni-augsburg.de";
write_eeprom();
} }

42
LichtWecker/light.ino
View File

@@ -7,7 +7,7 @@ void show_white(){
leds[i] = CRGB::White; leds[i] = CRGB::White;
} }
FastLED.show(); FastLED.show();
Serial.println("Light: WHITE"); //write_log("Light: WHITE");
} }
//Show LED Colors //Show LED Colors
@@ -19,7 +19,7 @@ void show_black(){
leds[i] = CRGB::Black; leds[i] = CRGB::Black;
} }
FastLED.show(); FastLED.show();
//Serial.println("Light: BLACK"); //write_log("Light: BLACK");
} }
//Show LED Colors //Show LED Colors
@@ -31,9 +31,9 @@ void show_green(){
leds[i] = CRGB::Green; leds[i] = CRGB::Green;
} }
FastLED.show(); FastLED.show();
Serial.println("Light: GREEN"); write_log("Light: GREEN");
} }
//Set LED Color to RGB Value
void set_color(int r, int g, int b){ void set_color(int r, int g, int b){
FastLED.addLeds<WS2801, DATA_PIN, CLOCK_PIN, RBG>(leds, NUM_LEDS); FastLED.addLeds<WS2801, DATA_PIN, CLOCK_PIN, RBG>(leds, NUM_LEDS);
for(int i=0; i < NUM_LEDS; i = i+1 ) for(int i=0; i < NUM_LEDS; i = i+1 )
@@ -41,24 +41,30 @@ void set_color(int r, int g, int b){
leds[i].setRGB( r, g, b); leds[i].setRGB( r, g, b);
} }
FastLED.show(); FastLED.show();
Serial.println("Light: "); //write_log("Light: ");
Serial.println(r); //write_log(String(r));
Serial.println(b); //write_log(String(b));
Serial.println(g); //write_log(String(g));
} }
//Run Color movement for Alarm
bool run_wake_up(long currentMillis){ bool run_wake_up(long currentMillis){
if (alarm_started == true) if (alarm_started == true)
{ {
long delta = (currentMillis - startTime)/1000; long delta = (currentMillis - startTime)/1000;
if (delta < 220){ long max_wake_time = wakeup_time *60; //Calculate Wakeuptime in Seconds
set_color(30 + int(delta), int(delta)/4, 0); int maxvalue = int(220/(max_wake_time/3));
if (delta < (max_wake_time/3)){
int color_time = delta * maxvalue;
set_color(30 + int(color_time), int(color_time)/4, 0);
} }
else if(delta < 405){ else if((delta < ((max_wake_time/3)*2))){
set_color(255, int(delta - 220)+55, int((delta - 220)/4)); int color_time = (delta - (max_wake_time/3)) * maxvalue;
set_color(255, int(color_time)+30, int((color_time)/4));
} }
else if(delta < 605){ else if(delta < max_wake_time){
set_color(255, 255, int((delta - 405))+55); int color_time = (delta - ((max_wake_time/3)*2)) * maxvalue;
set_color(255, 255, int((color_time))+30);
} }
else{ else{
if (delta % 2 == 0){ if (delta % 2 == 0){
@@ -78,7 +84,7 @@ bool run_wake_up(long currentMillis){
} }
return false; return false;
} }
//Toggle Light Full/Off
void switch_lamp(){ void switch_lamp(){
if(lamp_on == false){ if(lamp_on == false){
lamp_on = true; lamp_on = true;
@@ -89,7 +95,7 @@ void switch_lamp(){
show_black(); show_black();
} }
} }
//Start Alarm Light
void start_wake_light(long currentMillis){ void start_wake_light(long currentMillis){
if (alarm_started == false) if (alarm_started == false)
{ {
@@ -98,7 +104,7 @@ void start_wake_light(long currentMillis){
set_color(30, 0, 0); set_color(30, 0, 0);
} }
} }
//Turn of Alarm Light
void stop_wake_light(){ void stop_wake_light(){
if (alarm_started == true) if (alarm_started == true)
{ {

9
LichtWecker/ntp.ino
View File

@@ -1,7 +1,7 @@
//Code to update time from the web //Code to update time from the web
void update_time_from_web(){ void update_time_from_web(){
//Serial.println(wifi_connected); //write_log(wifi_connected);
if (wifi_connected == true) if (wifi_connected == true && ntp_update == true)
{ {
strDateTime dateTime; strDateTime dateTime;
// first parameter: Time zone in floating point (for India); second parameter: 1 for European summer time; 2 for US daylight saving time; 0 for no DST adjustment; (contributed by viewwer, not tested by me) // first parameter: Time zone in floating point (for India); second parameter: 1 for European summer time; 2 for US daylight saving time; 0 for no DST adjustment; (contributed by viewwer, not tested by me)
@@ -17,7 +17,7 @@ void update_time_from_web(){
byte actualMonth = dateTime.month; byte actualMonth = dateTime.month;
byte actualday =dateTime.day; byte actualday =dateTime.day;
byte actualdayofWeek = dateTime.dayofWeek; byte actualdayofWeek = dateTime.dayofWeek;
if (actualMinute != m && actualday != 7 && actualMonth != 2 && actualyear != 2036){ if (actualMinute != m && actualday != 7 && actualMonth != 2 && actualyear != 2036 && actualHour != 0){
h = actualHour; h = actualHour;
m = actualMinute; m = actualMinute;
s = actualsecond; s = actualsecond;
@@ -25,7 +25,8 @@ void update_time_from_web(){
M = actualMonth; M = actualMonth;
d = actualday; d = actualday;
set_clock(); set_clock();
Serial.println("Time Updated!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!"); write_log("Time Updated!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!");
write_log(String(h) + ":" + String(m) + " - " + String(d) + "." + String(M) + "." + String(y));
display_text("Update Time",""); display_text("Update Time","");
delay_gui(1000); delay_gui(1000);
} }

26
LichtWecker/pinInput.ino
View File

@@ -1,10 +1,11 @@
//Test if button pressed
void test_pin(){ void test_pin(){
handle_Time_switch(); handle_Time_switch();
handle_Set_switch(); handle_Set_switch();
handle_Alarm_switch(); handle_Alarm_switch();
} }
//If Alarm switch pressed
void handle_Alarm_switch(){ void handle_Alarm_switch(){
int state = digitalRead(pinAlarm); int state = digitalRead(pinAlarm);
if(state == LOW && setItem == 0) { if(state == LOW && setItem == 0) {
@@ -19,9 +20,15 @@ void handle_Alarm_switch(){
{ {
stop_alarm(); stop_alarm();
} }
else{
//Delete Message
if(message_text != ""){
message_text = "";
}
else{ else{
switch_alarm_mode(); switch_alarm_mode();
} }
}
delay(200); delay(200);
} }
} }
@@ -31,7 +38,7 @@ void handle_Alarm_switch(){
} }
} }
//If Set switch pressed
void handle_Set_switch(){ void handle_Set_switch(){
int state = digitalRead(pinSet); int state = digitalRead(pinSet);
if (state == LOW && setItem > 0){ if (state == LOW && setItem > 0){
@@ -39,11 +46,21 @@ void handle_Set_switch(){
delay(200); delay(200);
} }
else if(state == LOW && setItem == 0) { else if(state == LOW && setItem == 0) {
int presstime = get_pin_delay(pinSet);
if (presstime > 10){
//Do some Stuff here
delay(200);
wait_to_release(pinSet);
}
else{
switch_lamp(); switch_lamp();
delay(200); delay(200);
} }
} }
}
//If Time switch pressed
void handle_Time_switch(){ void handle_Time_switch(){
int state = digitalRead(pinTime); int state = digitalRead(pinTime);
if(state == LOW && setItem == 0) { if(state == LOW && setItem == 0) {
@@ -64,24 +81,27 @@ void handle_Time_switch(){
} }
} }
//Helper for long-press
int get_pin_delay(int pin){ int get_pin_delay(int pin){
int state = digitalRead(pin); int state = digitalRead(pin);
int delay_count = 0; int delay_count = 0;
while(state == LOW && delay_count < 11) while(state == LOW && delay_count < 11)
{ {
state = digitalRead(pin); state = digitalRead(pin);
update_display();
delay(100); delay(100);
delay_count = delay_count +1; delay_count = delay_count +1;
} }
return delay_count; return delay_count;
} }
//Helper for long-press
void wait_to_release(int pin){ void wait_to_release(int pin){
int state = digitalRead(pin); int state = digitalRead(pin);
while(state == LOW) while(state == LOW)
{ {
state = digitalRead(pin); state = digitalRead(pin);
update_display();
delay(100); delay(100);
} }
} }

180
LichtWecker/webserver.ino Normal file
View File

@@ -0,0 +1,180 @@
//Helpers
String logfile = "";
//Webserver
//###################################################################################
void setup_webserver(){
httpUpdater.setup(&server, "Licht", "Wecker");
server.on("/log", []() { //Define the handling function for the path
server.send(200, "text/plain", logfile);
});
server.on("/", handleRootPath); //Associate the handler function to the path
server.begin(); //Start the server
}
void handle_webserver(){
server.handleClient(); //Handling of incoming requests
}
//Layout
//###################################################################################
String Meta = "<meta name=\"viewport\" content=\"width=device-width, initial-scale=1, maximum-scale=1\"><meta charset=\"UTF-8\">";
String CSS = "<style>.card {box-shadow: 0 4px 8px 0 rgba(0,0,0,0.2);background-color: white;transition: 0.3s;margin: 0.2rem;padding: 0.4rem;padding-top: 0.5rem;display: inline-block;display: -webkit-inline-block;text-align:center;flex: 1;-webkit-flex: 1 1 250px;}.cardcontainer {box-sizing: border-box;display:flex;flex-wrap: wrap;display: -webkit-flex;-webkit-flex-wrap: wrap;overflow:auto;}#footer {border-top: 3px solid darkblue;-webkit-justify-content: space-around;display: absolute;justify-content: space-around;}</style>";
String Header = "<!DOCTYPE html><html><head>" + Meta + CSS + "<title>Lichtwecker</title></head><body style=\"text-align:left;margin: 0px;padding: 0px;\"><div id=\"header\" style=\"background-color: blue;margin: 0px;padding: 0px;color: white;border: 0.2em solid blue;text-align: center;\"><h1 style=\"margin:0px;padding:0px\">Licht Wecker</h1></div><div id=\"content\" style=\"font-size:1.2em;margin:0.5em;\" class=\"cardcontainer\">";
String Footer = "</div><br><br><div id=\"footer\">Not for Sale, Prototyp by <a href=\"http://christian.mittring-mering.de/\">CHM</a>, Hardware: " + Hardware + ", Software: "+ Software +"</div></body></html> ";
String card_start = "<div class=\"card\">";
String card_end = "</div>";
void handleRootPath() { //Handler for the rooth path
handleArgs();
}
//############################################################
//WebPage Args
void handleArgs(){
for (int i = 0; i < server.args(); i++) {
//write_log(server.argName(i) +" : " +server.arg(i));
if(server.argName(i) == "ntp"){
if(server.arg(i) == "true"){
if (ntp_update != true){
ntp_update = true;
write_eeprom();
}
}
else if (server.arg(i) == "false"){
if (ntp_update != false){
ntp_update = false;
write_eeprom();
}
}
redirect();
break;
}
else if (server.argName(i) == "ntp_server"){
if (server.arg(i) != ""){
ntp_server = server.arg(i);
write_eeprom();
}
redirect();
break;
}
else if(server.argName(i) == "wakeup_time"){
if (server.arg(i) != ""){
wakeup_time = server.arg(i).toInt();
write_eeprom();
}
redirect();
break;
}
else if(server.argName(i) == "a1"){
if(server.arg(i) == "true"){
Clock.turnOnAlarm(1);
}
else if (server.arg(i) == "false"){
Clock.turnOffAlarm(1);
}
redirect();
break;
}
else if(server.argName(i) == "a2"){
if(server.arg(i) == "true"){
Clock.turnOnAlarm(2);
}
else if (server.arg(i) == "false"){
Clock.turnOffAlarm(2);
}
redirect();
break;
}
else if(server.argName(i) == "al1h" && server.argName(i +1) == "al1m"){
al1h = server.arg(i).toInt();
al1m = server.arg(i+1).toInt();
set_alarm1();
redirect();
break;
}
else if(server.argName(i) == "al2h" && server.argName(i +1) == "al2m"){
al2h = server.arg(i).toInt();
al2m = server.arg(i+1).toInt();
set_alarm2();
redirect();
break;
}
else if (server.argName(i) == "news"){
if (server.arg(i) != ""){
message_text = server.arg(i);
}
redirect();
break;
}
else if(server.argName(i) == "reset" && server.arg(i) == "true"){
print_reset();
ESP.restart();
break;
}
else if(server.argName(i) == "factory_reset" && server.arg(i) == "true"){
reset_eeprom();
print_reset();
delay(1000);
ESP.restart();
break;
}
}
print_website();
}
//Webpage
//###################################################################################
void print_website(){
bool A1 = Clock.checkAlarmEnabled(1);
bool A2 = Clock.checkAlarmEnabled(2);
String Alarm1 = "<b>Alarm 1:</b> <form action=\"/\" methode=\"get\"><input type=\"number\" name=\"al1h\" value=\"" + String(al1h) + "\">:<input type=\"number\" name=\"al1m\" value=\"" + String(al1m) + "\"><input type=\"submit\" value=\"Speichern\"></form> Sommerzeit: " + getBoolString(summer) + "<br>Aktiv: " + getBoolString(A1) + "<br><a href=\"?a1=true\">Aktivieren</a> " + "&nbsp;&nbsp;<a href=\"?a1=false\">Deaktivieren</a>";
String Alarm2 = "<b>Alarm 2:</b> <form action=\"/\" methode=\"get\"><input type=\"number\" name=\"al2h\" value=\"" + String(al2h) + "\">:<input type=\"number\" name=\"al2m\" value=\"" + String(al2m) + "\"><input type=\"submit\" value=\"Speichern\"></form> Sommerzeit: " + getBoolString(summer) + "<br>Aktiv: " + getBoolString(A2) + "<br><a href=\"?a2=true\">Aktivieren</a> " + "&nbsp;&nbsp;<a href=\"?a2=false\">Deaktivieren</a>";
String Weckzeit = "<b>Weckdauer (Minuten):</b> <form action=\"/\" methode=\"get\"><input type=\"number\" name=\"wakeup_time\" value=\"" + String(wakeup_time) + "\"><input type=\"submit\" value=\"Speichern\"></form>";
String Alarm = "<h3>Alarm</h3>" + Alarm1 + "<br><br>" + Alarm2 + "<br><br>" + Weckzeit;
String Zeit = "<br><h3>Zeit</h3>" + String(h) + ":" + String(m) + ":" + String(s) + " - " + String(d) + "." + String(M) + "." + String(y) + " | DST: " + String(summertime_EU(y,M,d,h,1));
String News = "<br><h3>Nachricht</h3>Diese Nachricht wird auf dem Display angezeigt!<br><form action=\"/\" methode=\"get\"><input type=\"text\" name=\"news\" value=\"" + String(message_text) + "\"><input type=\"submit\" value=\"Speichern\"></form><br>";
String NTP = "<br><h3>NTP</h3><b>Server:</b> <form action=\"/\" methode=\"get\"><input type=\"text\" name=\"ntp_server\" value=\"" + String(ntp_server) + "\"><input type=\"submit\" value=\"Speichern\"></form><br>st&uuml;ndliches Zeit Update: " + getBoolString(ntp_update) + "<br><a href=\"?ntp=true\">Aktivieren</a> " + "&nbsp;&nbsp;<a href=\"?ntp=false\">Deaktivieren</a>";
String Reboot = "<br><h3>System:</h3><a href=\"?reset=true\">Neustart</a><br><br><a href=\"update\">Software Update Modus</a><br><br><a href=\"?factory_reset=true\">Werkseinstellungen</a><br><br><a href=\"log\">Log</a><br><br><a href=\"https://homemanager.mittring-mering.de/git/chm/Licht_Wecker\">Weitere Informationen</a><br><br><a href=\"http://christian.mittring-mering.de/index.php?page=kontakt\">Support</a>";
String Body = card_start + Alarm + card_end + card_start + News + card_end + card_start + NTP + card_end + card_start + Reboot + card_end;
server.send(200, "text/html", Header + Body + Footer);
}
void print_reset(){
String Body = "<div class=\"card\">Neustart... <a href=\"/\">Neu laden</a></div>";
server.send(200, "text/html", Header + Body + Footer);
delay(500);
}
void redirect(){
String redirect = "<head><meta http-equiv=\"refresh\" content=\"0; URL=/\" /></head>";
server.send(200, "text/html", redirect);
delay(50);
}
//Helpers
//####################################################################################
String getBoolString(bool value){
if(value)
{
return "Ja";
}
return "Nein";
}
void write_log(String text){
Serial.println(text);
logfile = logfile + String(text) + "\r\n";
if (logfile.length() > 140000) {
logfile = logfile.substring((logfile.length()-100000));
}
}

BIN
LichtWeckerAnleitung.docx Normal file
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Binary file not shown.

24
README.md
View File

@@ -1,3 +1,27 @@
# Licht_Wecker # Licht_Wecker
Licht Wecker für die Bradls Licht Wecker für die Bradls
## Verwendete Bauteile:
NodeMcu ESP8266
I2C LCD Display 1602
DS3231 Real Time Clock Modul
30 WS2801 LEDs
MP3 Sound Modul 3W
## Pin-Verschaltung:
### Taster (geschaltet gegen GND):
TIME: GPIO 3
SET: GPIO 0
ALARM: GPIO 2
### Sound Modul (5V Spannungsversorung über Transistor)
GPIO 9
### LCD:
SDA: GPIO 4
SDC: GPIO 5
### DS3231:
SDA: GPIO 4
SDC: GPIO 5
### WS2801:
DATA_PIN: GPIO 14
CLOCK_PIN: GPIO 13