#include #include static void event_cb(const void* value, void* ctx) { const InputEvent* event = value; uint32_t* delay_time = acquire_mutex(ctx, 0); if(delay_time == NULL) return; if(event->key == InputKeyUp && *delay_time < 1000) { *delay_time += 5; } if(event->key == InputKeyDown && *delay_time > 10) { *delay_time -= 5; } release_mutex(ctx, delay_time); } void application_strobe(void* p) { // WAT osDelay(100); // create pins GpioPin red = {.pin = LED_RED_Pin, .port = LED_RED_GPIO_Port}; GpioPin green = {.pin = LED_GREEN_Pin, .port = LED_GREEN_GPIO_Port}; GpioPin blue = {.pin = LED_BLUE_Pin, .port = LED_BLUE_GPIO_Port}; GpioPin* red_record = &red; GpioPin* green_record = &green; GpioPin* blue_record = &blue; // configure pins gpio_init(red_record, GpioModeOutputOpenDrain); gpio_init(green_record, GpioModeOutputOpenDrain); gpio_init(blue_record, GpioModeOutputOpenDrain); uint32_t delay_time_holder = 100; ValueMutex delay_mutex; init_mutex(&delay_mutex, &delay_time_holder, sizeof(delay_time_holder)); PubSub* event_record = furi_record_open("input_events"); subscribe_pubsub(event_record, event_cb, &delay_mutex); while(1) { uint32_t delay_time = 100; read_mutex_block(&delay_mutex, &delay_time, sizeof(delay_time)); gpio_write(red_record, false); gpio_write(green_record, false); gpio_write(blue_record, false); osDelay(delay_time / 10); gpio_write(red_record, true); gpio_write(green_record, true); gpio_write(blue_record, true); osDelay(delay_time); } }