src/html.cpp

@@ -195,8 +195,9 @@ void handleToggle() {
 	}
 	debug(F("Status: "));
 	debugln(stat[i]);
+	reload_home();
 	server.sendHeader(F("Location"), F("/"), true);
-	server.send(302);
+	server.send(302, F("text/html"), home_html);
 	debugln(override[i]);
 	debugln(F("---------------------------"));
 }

src/main.cpp

@@ -27,7 +27,6 @@ DallasTemperature sensors(&oneWire);
 
 int temperature, temperatureSet, minTemperatureSet;
 static unsigned long lastTempCycle = -5000;
-static unsigned long lastTimeCycle = -5000;
 
 char time_all[8][8][3] = {
 	{}, {}, {}, {},
@@ -152,8 +151,6 @@ span:empty {content: 'nicht verbunden';}\
 void reload_home();
 void reload_settings();
 void handleToggle();
-void handleReset();
-void handleRestart();
 
 void load_EEPROM() {
 	unsigned int EEPROM_Addr = 0;
@@ -182,29 +179,7 @@ void handleSettings() {
 	debugln(ESP.getFreeHeap(), DEC);
 }
 
-void handleReset() {
-	for (int i = 0; i < 264; i++) {
-		EEPROM.put(i, 0);
-		EEPROM.commit();
-	}
-	server.send(200, "text/html",
-				"<html><head><meta http-equiv=\"refresh\" "
-				"content=\"2;url=/restart\"/></head><body><p>EEPROM has been "
-				"reset.</p></body></html>");
-}
-
-void handleRestart() {
-	server.send(200, "text/html",
-				"<html><head><meta http-equiv=\"refresh\" "
-				"content=\"10;url=/\"/></head><body><p>Restarting...</p></"
-				"body></html>");
-	server.close();
-	delay(1000);
-	ESP.restart();
-}
-
 void handleTime() {
-	bool changed = false;
 	if (server.arg("rule") != "") {
 		debugln("write main");
 		const char args[4][9] = {"time_o", "time_f", "time_o_1", "time_f_1"};
@@ -227,7 +202,6 @@ void handleTime() {
 					server.arg("rule").toInt() * 4 + arg * 64 + 32,
 					atoi(time_all[arg * 2 + 1][server.arg("rule").toInt()]));
 				EEPROM.commit();
-				changed = true;
 			}
 		}
 	}
@@ -236,28 +210,20 @@ void handleTime() {
 		temperatureSet = server.arg("temperature").toInt();
 		EEPROM.put(256, temperatureSet);
 		EEPROM.commit();
-		changed = true;
 	}
 	if (server.arg("min_temperature").toInt() != minTemperatureSet) {
 		debugln("write minTemperature");
 		minTemperatureSet = server.arg("min_temperature").toInt();
 		EEPROM.put(260, minTemperatureSet);
 		EEPROM.commit();
-		changed = true;
 	}
-	if (changed) {
-		lastTimeCycle = -5000; // trigger timer()
 	reload_settings();
-		server.sendHeader(F("Location"), F("/settings"), true);
+	server.setContentLength(strlen(settings_html_pre) + strlen(settings_html));
-		server.send(302);
+	server.send(301, "text/html", settings_html_pre);
-	} else {
+	server.sendContent(settings_html);
-		server.send(204); // nothing changed (except maybe current temperature),
-						  // so no page update needed
-	}
 }
 
 void timer() {
-	if (millis() - lastTimeCycle > 5000) {
 	int ri = 0;
 	bool isOn = false;
 	while (ri <= 7) {
@@ -288,7 +254,7 @@ void timer() {
 		sprintf(t_stat[r], "on");
 		if (!override[r]) {
 			digitalWrite(pins[r], HIGH);
-				analogWrite(LED_BUILTIN_AUX, 100); // LED
+			digitalWrite(2, HIGH); // LED
 			if (strcmp(stat[r], "AUS") == 0) {
 				debug(r);
 				debugln(F(" is on"));
@@ -302,7 +268,7 @@ void timer() {
 		sprintf(t_stat[r], "off");
 		if (!override[r]) {
 			digitalWrite(pins[r], LOW);
-				analogWrite(LED_BUILTIN_AUX, 0); // LED
+			digitalWrite(2, LOW); // LED
 			if (strcmp(stat[r], "AN") == 0) {
 				debug(r);
 				debugln(F(" is off"));
@@ -310,69 +276,24 @@ void timer() {
 			}
 		}
 	}
-		lastTimeCycle = millis();
-	}
 }
-
+void getCurrentTemperatur() {
-uint ledBrightness = 0;
-int ledBrightnessStep = 20;
-uint lastLedCycle;
-void pulseLed() {
-	if (millis() - lastLedCycle > 100) {
-		analogWrite(LED_BUILTIN_AUX, ledBrightness);
-		ledBrightness += ledBrightnessStep;
-		if (ledBrightness <= 0 || ledBrightness >= 255) {
-			ledBrightnessStep = -ledBrightnessStep;
-		}
-		lastLedCycle = millis();
-	}
-}
-
-void emergencyStop() {
-	for (uint pin = 0; pin < sizeof(pins) / sizeof(pins[0]); pin++) {
-		debug("Emergency stop, pulling down pin: ");
-		debugln(pin);
-		digitalWrite(pins[pin], LOW);
-	}
-	server.close();
-	char apSSID[32];
-	sprintf(apSSID, "ESP-%06X has an issue", ESP.getChipId());
-	WiFi.softAP(apSSID, "", 1, false, 0);
-	unsigned long lastTry = millis();
-	while (millis() - lastTry < (1000 * 60)) {
-		analogWrite(LED_BUILTIN, 255);
-		analogWrite(LED_BUILTIN_AUX, 0);
-		delay(125);
-		analogWrite(LED_BUILTIN, 0);
-		analogWrite(LED_BUILTIN_AUX, 255);
-		delay(125);
-		analogWrite(LED_BUILTIN, 255);
-		analogWrite(LED_BUILTIN_AUX, 255);
-		delay(250);
-	}
-	ESP.restart();
-}
-
-void getCurrentTemperature() {
 	if (millis() - lastTempCycle > 5000) {
 		sensors.requestTemperatures();
-		temperature = int(sensors.getTempCByIndex(0));
+		temperature = int(sensors.getTempCByIndex(0)) != -127
+						  ? int(sensors.getTempCByIndex(0))
+						  : 255; // TODO: mark as invalid
 		lastTempCycle = millis();
-		if (temperature == -127) {
+		debugln(temperature);
-			emergencyStop();
-		}
 	}
 }
-
 void setup() {
-	pinMode(LED_BUILTIN, OUTPUT);
+	int p = 0;
-	pinMode(LED_BUILTIN_AUX, OUTPUT);
+	while (p <= 7) {
-	analogWrite(LED_BUILTIN, 255);
-	analogWrite(LED_BUILTIN_AUX, 255);
-	uint p = 0;
-	while (p <= sizeof(pins) / sizeof(pins[0])) {
 		pinMode(pins[p], OUTPUT);
+		pinMode(2, OUTPUT);
 		digitalWrite(pins[p], LOW);
+		digitalWrite(2, LOW); // LED
 		p++;
 	}
 	Serial.begin(74880);
@@ -387,17 +308,15 @@ void setup() {
 
 	// WiFI-config
 	// WiFi.mode(WIFI_STA); // comment to force use of staticIP
-	// WiFi.config(staticIP, gateway, subnet, dns);
+	WiFi.hostname("ESP8266 IOT development");
-	WiFi.hostname("esp8266-iot-dev");
+	WiFi.config(staticIP, gateway, subnet, dns);
 	WiFi.begin(SSID, PASSWORD);
 
 	uint32_t notConnectedCounter = 0;
-	debug(F("Connecting to "));
+	debug(F("Connecting "));
-	debugln(WiFi.SSID());
 	while (WiFi.status() != WL_CONNECTED) {
 		delay(250);
 		debug(F("."));
-		analogWrite(LED_BUILTIN_AUX, 255 * (notConnectedCounter % 2)); // LED
 		notConnectedCounter++;
 		if (notConnectedCounter >
 			(1000 / 250) * 15) { // Reset board if not connected after 15s
@@ -405,7 +324,6 @@ void setup() {
 			ESP.restart();
 		}
 	}
-	analogWrite(LED_BUILTIN_AUX, 0);
 	debug(F("\nConnected to "));
 	debugln(WiFi.SSID());
 	debug(F("IP address: "));
@@ -415,41 +333,34 @@ void setup() {
 	// Time-config
 	myTime.setLocation("de");
 	// setServer("192.168.2.1"); // uncomment to set custom NTP server
-	if (!waitForSync(TIMEZONED_TIMEOUT / 1000)) {
+	if (!waitForSync(5000)) {
-		// Reset instead of using fallback timezone
 		debugln("\nResetting due to NTP not syncing");
 		ESP.restart();
 	}
 	debug(F("Local time: "));
 	debugln(myTime.dateTime("H:i:s"));
-	setInterval(60 * 60 * 11); // + NTP_STALE_AFTER=3602 = sync every ~ 12 h
+	setInterval();
 
 	// Server-config
 	server.on("/", HTTP_GET, handleHome);
 	server.on("/settings", HTTP_GET, handleSettings);
 	server.on("/settings", HTTP_POST, handleTime);
 	server.on("/toggle", HTTP_GET, handleToggle);
-	server.on("/reset", HTTP_GET, handleReset);
-	server.on("/restart", HTTP_GET, handleRestart);
 	server.on("/version", HTTP_GET, [] {
-		char softwareVersion[32];
+		server.send(200, "text/html",
-		sprintf(softwareVersion, "%s%s", BUILD_VERSION,
+					BUILD_VERSION + BUILD_DEBUG ? "-debug" : "");
-				BUILD_DEBUG ? "-debug" : "");
-		server.send(200, "text/html", softwareVersion);
 	});
 
-	getCurrentTemperature();
+	getCurrentTemperatur();
 	server.begin();
 	debugln(F("Webserver started"));
 }
 
 void loop() {
 	server.handleClient();
-	getCurrentTemperature();
+	getCurrentTemperatur();
 	timer();
 	yield();
 	delay(50);
-	events();
 	ArduinoOTA.handle();
-	pulseLed();
 }