/** * ---------------------------------------------------------------------------- * ESP32 Remote Control with WebSocket * ---------------------------------------------------------------------------- * © 2020 Stéphane Calderoni * ---------------------------------------------------------------------------- */ #include #include #include // ---------------------------------------------------------------------------- // Definition of macros // ---------------------------------------------------------------------------- #define LED_PIN 26 #define BTN_PIN 22 // ---------------------------------------------------------------------------- // Definition of global constants // ---------------------------------------------------------------------------- // Button debouncing const uint8_t DEBOUNCE_DELAY = 10; // in milliseconds // WiFi credentials const char *WIFI_SSID = "YOUR_WIFI_SSID"; const char *WIFI_PASS = "YOUR_WIFI_PASSWORD"; // ---------------------------------------------------------------------------- // Definition of the LED component // ---------------------------------------------------------------------------- struct Led { // state variables uint8_t pin; bool on; // methods void update() { digitalWrite(pin, on ? HIGH : LOW); } }; // ---------------------------------------------------------------------------- // Definition of the Button component // ---------------------------------------------------------------------------- struct Button { // state variables uint8_t pin; bool lastReading; uint32_t lastDebounceTime; uint16_t state; // methods determining the logical state of the button bool pressed() { return state == 1; } bool released() { return state == 0xffff; } bool held(uint16_t count = 0) { return state > 1 + count && state < 0xffff; } // method for reading the physical state of the button void read() { // reads the voltage on the pin connected to the button bool reading = digitalRead(pin); // if the logic level has changed since the last reading, // we reset the timer which counts down the necessary time // beyond which we can consider that the bouncing effect // has passed. if (reading != lastReading) { lastDebounceTime = millis(); } // from the moment we're out of the bouncing phase // the actual status of the button can be determined if (millis() - lastDebounceTime > DEBOUNCE_DELAY) { // don't forget that the read pin is pulled-up bool pressed = reading == LOW; if (pressed) { if (state < 0xfffe) state++; else if (state == 0xfffe) state = 2; } else if (state) { state = state == 0xffff ? 0 : 0xffff; } } // finally, each new reading is saved lastReading = reading; } }; // ---------------------------------------------------------------------------- // Definition of global variables // ---------------------------------------------------------------------------- Led onboard_led = { LED_BUILTIN, false }; Led led = { LED_PIN, false }; Button button = { BTN_PIN, HIGH, 0, 0 }; // ---------------------------------------------------------------------------- // SPIFFS initialization // ---------------------------------------------------------------------------- void initSPIFFS() { if (!SPIFFS.begin()) { Serial.println("Cannot mount SPIFFS volume..."); while (1) { onboard_led.on = millis() % 200 < 50; onboard_led.update(); } } } // ---------------------------------------------------------------------------- // Connecting to the WiFi network // ---------------------------------------------------------------------------- void initWiFi() { WiFi.mode(WIFI_STA); WiFi.begin(WIFI_SSID, WIFI_PASS); Serial.printf("Trying to connect [%s] ", WiFi.macAddress().c_str()); while (WiFi.status() != WL_CONNECTED) { Serial.print("."); delay(500); } Serial.printf(" %s\n", WiFi.localIP().toString().c_str()); } // ---------------------------------------------------------------------------- // Initialization // ---------------------------------------------------------------------------- void setup() { pinMode(onboard_led.pin, OUTPUT); pinMode(led.pin, OUTPUT); pinMode(button.pin, INPUT); Serial.begin(115200); delay(500); initSPIFFS(); initWiFi(); } // ---------------------------------------------------------------------------- // Main control loop // ---------------------------------------------------------------------------- void loop() { button.read(); if (button.pressed()) led.on = !led.on; onboard_led.on = millis() % 1000 < 50; led.update(); onboard_led.update(); }