Wokwi bluetooth. IoT and Embedded System Simulator: ESP32, STM32, Arduino, Raspberry Pi Pico, displays, sensors, motors and WiFi simulation. Implementation of either circuitpython's BLERadio or micropython's BLE modules. WiFiServer server(80); // Variable to store the HTTP request. const char* password = "REPLACE_WITH_YOUR_PASSWORD"; // Set web server port number to 80. 0, extends the capabilities of traditional Bluetooth by providing energy-efficient communication for devices with low-power requirements, making it ideal for applications like wearable technology, IoT devices, and wireless sensors. Many esp32 projects rely on BLE to communicate and configure the device. The smart bulbs include an RGB LED, so they can change colors, and they are, of course, controlled by Bluetooth! As you can expect from this kind of product, there wasn’t any documentation — just link to download Android app. Control a Bluetooth Low Energy device with your own code Learn how to sniff and reverse-engineer low-cost Bluetooth Low Energy light bulbs at BLE, introduced as part of Bluetooth 4. IoT and Embedded System Simulator: ESP32, STM32, Arduino, Raspberry Pi Pico, displays, sensors, motors and WiFi simulation. Describe the solution you'd like. The ESP32 is a popular WiFi and Bluetooth-enabled microcontroller, widely used for IoT Projects. String header; // Auxiliar variables to store the current output state. Since I wanted to show how I control them through Web Bluetooth, I decided to try and reverse engineer the protocol. Wokwi support for BLE would be really useful. . String output26State = "off"; String output27State = "off"; // Assign output variables to GPIO pins. Wokwi simulates the ESP32, ESP32-C3, ESP32-S2, ESP32-S3, ESP32-C6, ESP32-H2 (beta), and ESP32-P4 (alpha). kkoe pnwfk smzuhf vjqh snhdsw dpkzb gwoxs igri uthmv bdegva