#include #include #include #include "notification.h" #include "notification-messages.h" #include "notification-app.h" #define TAG "NotificationSrv" static const uint8_t minimal_delay = 100; static const uint8_t led_off_values[NOTIFICATION_LED_COUNT] = {0x00, 0x00, 0x00}; static const uint8_t reset_red_mask = 1 << 0; static const uint8_t reset_green_mask = 1 << 1; static const uint8_t reset_blue_mask = 1 << 2; static const uint8_t reset_vibro_mask = 1 << 3; static const uint8_t reset_sound_mask = 1 << 4; static const uint8_t reset_display_mask = 1 << 5; void notification_vibro_on(); void notification_vibro_off(); void notification_sound_on(float pwm, float freq); void notification_sound_off(); uint8_t notification_settings_get_display_brightness(NotificationApp* app, uint8_t value); uint8_t notification_settings_get_rgb_led_brightness(NotificationApp* app, uint8_t value); uint32_t notification_settings_display_off_delay_ticks(NotificationApp* app); void notification_message_save_settings(NotificationApp* app) { NotificationAppMessage m = {.type = SaveSettingsMessage, .back_event = osEventFlagsNew(NULL)}; furi_check(osMessageQueuePut(app->queue, &m, 0, osWaitForever) == osOK); osEventFlagsWait(m.back_event, NOTIFICATION_EVENT_COMPLETE, osFlagsWaitAny, osWaitForever); osEventFlagsDelete(m.back_event); }; // internal layer void notification_apply_internal_led_layer(NotificationLedLayer* layer, uint8_t layer_value) { furi_assert(layer); furi_assert(layer->index < LayerMAX); // set value layer->value[LayerInternal] = layer_value; // apply if current layer is internal if(layer->index == LayerInternal) { furi_hal_light_set(layer->light, layer->value[LayerInternal]); } } bool notification_is_any_led_layer_internal_and_not_empty(NotificationApp* app) { bool result = false; if((app->led[0].index == LayerInternal) || (app->led[1].index == LayerInternal) || (app->led[2].index == LayerInternal)) { if((app->led[0].value[LayerInternal] != 0x00) || (app->led[1].value[LayerInternal] != 0x00) || (app->led[2].value[LayerInternal] != 0x00)) { result = true; } } return result; } // notification layer void notification_apply_notification_led_layer( NotificationLedLayer* layer, const uint8_t layer_value) { furi_assert(layer); furi_assert(layer->index < LayerMAX); // set value layer->index = LayerNotification; // set layer layer->value[LayerNotification] = layer_value; // apply furi_hal_light_set(layer->light, layer->value[LayerNotification]); } void notification_reset_notification_led_layer(NotificationLedLayer* layer) { furi_assert(layer); furi_assert(layer->index < LayerMAX); // set value layer->value[LayerNotification] = 0; // set layer layer->index = LayerInternal; // apply furi_hal_light_set(layer->light, layer->value[LayerInternal]); } void notification_reset_notification_layer(NotificationApp* app, uint8_t reset_mask) { if(reset_mask & reset_red_mask) { notification_reset_notification_led_layer(&app->led[0]); } if(reset_mask & reset_green_mask) { notification_reset_notification_led_layer(&app->led[1]); } if(reset_mask & reset_blue_mask) { notification_reset_notification_led_layer(&app->led[2]); } if(reset_mask & reset_vibro_mask) { notification_vibro_off(); } if(reset_mask & reset_sound_mask) { notification_sound_off(); } if(reset_mask & reset_display_mask) { osTimerStart(app->display_timer, notification_settings_display_off_delay_ticks(app)); } } static void notification_apply_notification_leds(NotificationApp* app, const uint8_t* values) { for(uint8_t i = 0; i < NOTIFICATION_LED_COUNT; i++) { notification_apply_notification_led_layer( &app->led[i], notification_settings_get_rgb_led_brightness(app, values[i])); } } // settings uint8_t notification_settings_get_display_brightness(NotificationApp* app, uint8_t value) { return (value * app->settings.display_brightness); } uint8_t notification_settings_get_rgb_led_brightness(NotificationApp* app, uint8_t value) { return (value * app->settings.led_brightness); } uint32_t notification_settings_display_off_delay_ticks(NotificationApp* app) { return ((float)(app->settings.display_off_delay_ms) / (1000.0f / osKernelGetTickFreq())); } // generics void notification_vibro_on() { furi_hal_vibro_on(true); } void notification_vibro_off() { furi_hal_vibro_on(false); } void notification_sound_on(float pwm, float freq) { hal_pwm_set(pwm, freq, &SPEAKER_TIM, SPEAKER_CH); } void notification_sound_off() { hal_pwm_stop(&SPEAKER_TIM, SPEAKER_CH); } // display timer static void notification_display_timer(void* ctx) { furi_assert(ctx); NotificationApp* app = ctx; notification_message(app, &sequence_display_off); } // message processing void notification_process_notification_message( NotificationApp* app, NotificationAppMessage* message) { uint32_t notification_message_index = 0; const NotificationMessage* notification_message; notification_message = (*message->sequence)[notification_message_index]; bool led_active = false; uint8_t led_values[NOTIFICATION_LED_COUNT] = {0x00, 0x00, 0x00}; bool reset_notifications = true; uint8_t reset_mask = 0; while(notification_message != NULL) { switch(notification_message->type) { case NotificationMessageTypeLedDisplay: // if on - switch on and start timer // if off - switch off and stop timer // on timer - switch off if(notification_message->data.led.value > 0x00) { notification_apply_notification_led_layer( &app->display, notification_settings_get_display_brightness( app, notification_message->data.led.value)); } else { notification_reset_notification_led_layer(&app->display); if(osTimerIsRunning(app->display_timer)) { osTimerStop(app->display_timer); } } reset_mask |= reset_display_mask; break; case NotificationMessageTypeLedRed: // store and send on delay or after seq led_active = true; led_values[0] = notification_message->data.led.value; reset_mask |= reset_red_mask; break; case NotificationMessageTypeLedGreen: // store and send on delay or after seq led_active = true; led_values[1] = notification_message->data.led.value; reset_mask |= reset_green_mask; break; case NotificationMessageTypeLedBlue: // store and send on delay or after seq led_active = true; led_values[2] = notification_message->data.led.value; reset_mask |= reset_blue_mask; break; case NotificationMessageTypeVibro: if(notification_message->data.vibro.on) { if(app->settings.vibro_on) notification_vibro_on(); } else { notification_vibro_off(); } reset_mask |= reset_vibro_mask; break; case NotificationMessageTypeSoundOn: notification_sound_on( notification_message->data.sound.pwm * app->settings.speaker_volume, notification_message->data.sound.frequency); reset_mask |= reset_sound_mask; break; case NotificationMessageTypeSoundOff: notification_sound_off(); reset_mask |= reset_sound_mask; break; case NotificationMessageTypeDelay: if(led_active) { if(notification_is_any_led_layer_internal_and_not_empty(app)) { notification_apply_notification_leds(app, led_off_values); delay(minimal_delay); } led_active = false; notification_apply_notification_leds(app, led_values); reset_mask |= reset_red_mask; reset_mask |= reset_green_mask; reset_mask |= reset_blue_mask; } delay(notification_message->data.delay.length); break; case NotificationMessageTypeDoNotReset: reset_notifications = false; break; } notification_message_index++; notification_message = (*message->sequence)[notification_message_index]; }; // send and do minimal delay if(led_active) { bool need_minimal_delay = false; if(notification_is_any_led_layer_internal_and_not_empty(app)) { need_minimal_delay = true; } led_active = false; notification_apply_notification_leds(app, led_values); reset_mask |= reset_red_mask; reset_mask |= reset_green_mask; reset_mask |= reset_blue_mask; if(need_minimal_delay) { notification_apply_notification_leds(app, led_off_values); delay(minimal_delay); } } if(reset_notifications) { notification_reset_notification_layer(app, reset_mask); } } void notification_process_internal_message(NotificationApp* app, NotificationAppMessage* message) { uint32_t notification_message_index = 0; const NotificationMessage* notification_message; notification_message = (*message->sequence)[notification_message_index]; while(notification_message != NULL) { switch(notification_message->type) { case NotificationMessageTypeLedDisplay: notification_apply_internal_led_layer( &app->display, notification_settings_get_display_brightness( app, notification_message->data.led.value)); break; case NotificationMessageTypeLedRed: notification_apply_internal_led_layer( &app->led[0], notification_settings_get_rgb_led_brightness( app, notification_message->data.led.value)); break; case NotificationMessageTypeLedGreen: notification_apply_internal_led_layer( &app->led[1], notification_settings_get_rgb_led_brightness( app, notification_message->data.led.value)); break; case NotificationMessageTypeLedBlue: notification_apply_internal_led_layer( &app->led[2], notification_settings_get_rgb_led_brightness( app, notification_message->data.led.value)); break; default: break; } notification_message_index++; notification_message = (*message->sequence)[notification_message_index]; } } static bool notification_load_settings(NotificationApp* app) { NotificationSettings settings; File* file = storage_file_alloc(furi_record_open("storage")); const size_t settings_size = sizeof(NotificationSettings); FURI_LOG_I(TAG, "loading settings from \"%s\"", NOTIFICATION_SETTINGS_PATH); bool fs_result = storage_file_open(file, NOTIFICATION_SETTINGS_PATH, FSAM_READ, FSOM_OPEN_EXISTING); if(fs_result) { uint16_t bytes_count = storage_file_read(file, &settings, settings_size); if(bytes_count != settings_size) { fs_result = false; } } if(fs_result) { FURI_LOG_I(TAG, "load success"); if(settings.version != NOTIFICATION_SETTINGS_VERSION) { FURI_LOG_E( TAG, "version(%d != %d) mismatch", settings.version, NOTIFICATION_SETTINGS_VERSION); } else { osKernelLock(); memcpy(&app->settings, &settings, settings_size); osKernelUnlock(); } } else { FURI_LOG_E(TAG, "load failed, %s", storage_file_get_error_desc(file)); } storage_file_close(file); storage_file_free(file); furi_record_close("storage"); return fs_result; }; static bool notification_save_settings(NotificationApp* app) { NotificationSettings settings; File* file = storage_file_alloc(furi_record_open("storage")); const size_t settings_size = sizeof(NotificationSettings); FURI_LOG_I(TAG, "saving settings to \"%s\"", NOTIFICATION_SETTINGS_PATH); osKernelLock(); memcpy(&settings, &app->settings, settings_size); osKernelUnlock(); bool fs_result = storage_file_open(file, NOTIFICATION_SETTINGS_PATH, FSAM_WRITE, FSOM_CREATE_ALWAYS); if(fs_result) { uint16_t bytes_count = storage_file_write(file, &settings, settings_size); if(bytes_count != settings_size) { fs_result = false; } } if(fs_result) { FURI_LOG_I(TAG, "save success"); } else { FURI_LOG_E(TAG, "save failed, %s", storage_file_get_error_desc(file)); } storage_file_close(file); storage_file_free(file); furi_record_close("storage"); return fs_result; }; static void input_event_callback(const void* value, void* context) { NotificationApp* app = context; notification_message(app, &sequence_display_on); } // App alloc static NotificationApp* notification_app_alloc() { NotificationApp* app = furi_alloc(sizeof(NotificationApp)); app->queue = osMessageQueueNew(8, sizeof(NotificationAppMessage), NULL); app->display_timer = osTimerNew(notification_display_timer, osTimerOnce, app, NULL); app->settings.speaker_volume = 1.0f; app->settings.display_brightness = 1.0f; app->settings.led_brightness = 1.0f; app->settings.display_off_delay_ms = 30000; app->settings.vibro_on = true; app->display.value[LayerInternal] = 0x00; app->display.value[LayerNotification] = 0x00; app->display.index = LayerInternal; app->display.light = LightBacklight; app->led[0].value[LayerInternal] = 0x00; app->led[0].value[LayerNotification] = 0x00; app->led[0].index = LayerInternal; app->led[0].light = LightRed; app->led[1].value[LayerInternal] = 0x00; app->led[1].value[LayerNotification] = 0x00; app->led[1].index = LayerInternal; app->led[1].light = LightGreen; app->led[2].value[LayerInternal] = 0x00; app->led[2].value[LayerNotification] = 0x00; app->led[2].index = LayerInternal; app->led[2].light = LightBlue; app->settings.version = NOTIFICATION_SETTINGS_VERSION; // display backlight control app->event_record = furi_record_open("input_events"); furi_pubsub_subscribe(app->event_record, input_event_callback, app); notification_message(app, &sequence_display_on); return app; }; // App int32_t notification_srv(void* p) { NotificationApp* app = notification_app_alloc(); if(!notification_load_settings(app)) { notification_save_settings(app); } notification_vibro_off(); notification_sound_off(); notification_apply_internal_led_layer(&app->display, 0x00); notification_apply_internal_led_layer(&app->led[0], 0x00); notification_apply_internal_led_layer(&app->led[1], 0x00); notification_apply_internal_led_layer(&app->led[2], 0x00); furi_record_create("notification", app); NotificationAppMessage message; while(1) { furi_check(osMessageQueueGet(app->queue, &message, NULL, osWaitForever) == osOK); switch(message.type) { case NotificationLayerMessage: notification_process_notification_message(app, &message); break; case InternalLayerMessage: notification_process_internal_message(app, &message); break; case SaveSettingsMessage: notification_save_settings(app); break; } if(message.back_event != NULL) { osEventFlagsSet(message.back_event, NOTIFICATION_EVENT_COMPLETE); } } return 0; };