#include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "FlipperZeroWiFiModuleDefines.h" #define WIFI_APP_DEBUG 0 #if WIFI_APP_DEBUG #define APP_NAME_TAG "WiFi_Scanner" #define WIFI_APP_LOG_I(format, ...) FURI_LOG_I(APP_NAME_TAG, format, ##__VA_ARGS__) #define WIFI_APP_LOG_D(format, ...) FURI_LOG_D(APP_NAME_TAG, format, ##__VA_ARGS__) #define WIFI_APP_LOG_E(format, ...) FURI_LOG_E(APP_NAME_TAG, format, ##__VA_ARGS__) #else #define WIFI_APP_LOG_I(format, ...) #define WIFI_APP_LOG_D(format, ...) #define WIFI_APP_LOG_E(format, ...) #endif // WIFI_APP_DEBUG #define DISABLE_CONSOLE !WIFI_APP_DEBUG #define ENABLE_MODULE_POWER 1 #define ENABLE_MODULE_DETECTION 1 #define ANIMATION_TIME 350 typedef enum EChunkArrayData { EChunkArrayData_Context = 0, EChunkArrayData_SSID, EChunkArrayData_EncryptionType, EChunkArrayData_RSSI, EChunkArrayData_BSSID, EChunkArrayData_Channel, EChunkArrayData_IsHidden, EChunkArrayData_CurrentAPIndex, EChunkArrayData_TotalAps, EChunkArrayData_ENUM_MAX } EChunkArrayData; typedef enum EEventType // app internally defined event types { EventTypeKey // flipper input.h type } EEventType; typedef struct SPluginEvent { EEventType m_type; InputEvent m_input; } SPluginEvent; typedef struct EAccessPointDesc { string_t m_accessPointName; int16_t m_rssi; string_t m_secType; string_t m_bssid; unsigned short m_channel; bool m_isHidden; } EAccessPointDesc; typedef enum EAppContext { Undefined, WaitingForModule, Initializing, ScanMode, MonitorMode, ScanAnimation, MonitorAnimation } EAppContext; typedef enum EWorkerEventFlags { WorkerEventReserved = (1 << 0), // Reserved for StreamBuffer internal event WorkerEventStop = (1 << 1), WorkerEventRx = (1 << 2), } EWorkerEventFlags; typedef struct SWiFiScannerApp { Gui* m_gui; FuriThread* m_worker_thread; NotificationApp* m_notification; StreamBufferHandle_t m_rx_stream; bool m_wifiModuleInitialized; bool m_wifiModuleAttached; EAppContext m_context; EAccessPointDesc m_currentAccesspointDescription; unsigned short m_totalAccessPoints; unsigned short m_currentIndexAccessPoint; uint32_t m_prevAnimationTime; uint32_t m_animationTime; uint8_t m_animtaionCounter; } SWiFiScannerApp; /////// INIT STATE /////// static void wifi_scanner_app_init(SWiFiScannerApp* const app) { app->m_context = Undefined; app->m_totalAccessPoints = 0; app->m_currentIndexAccessPoint = 0; string_init(app->m_currentAccesspointDescription.m_accessPointName); string_set_str(app->m_currentAccesspointDescription.m_accessPointName, "N/A\n"); app->m_currentAccesspointDescription.m_channel = 0; string_init(app->m_currentAccesspointDescription.m_bssid); string_set_str(app->m_currentAccesspointDescription.m_bssid, "N/A\n"); string_init(app->m_currentAccesspointDescription.m_secType); string_set_str(app->m_currentAccesspointDescription.m_secType, "N/A\n"); app->m_currentAccesspointDescription.m_rssi = 0; app->m_currentAccesspointDescription.m_isHidden = false; app->m_prevAnimationTime = 0; app->m_animationTime = ANIMATION_TIME; app->m_animtaionCounter = 0; app->m_wifiModuleInitialized = false; #if ENABLE_MODULE_DETECTION app->m_wifiModuleAttached = false; #else app->m_wifiModuleAttached = true; #endif } int16_t dBmtoPercentage(int16_t dBm) { const int16_t RSSI_MAX = -50; // define maximum strength of signal in dBm const int16_t RSSI_MIN = -100; // define minimum strength of signal in dBm int16_t quality; if(dBm <= RSSI_MIN) { quality = 0; } else if(dBm >= RSSI_MAX) { quality = 100; } else { quality = 2 * (dBm + 100); } return quality; } void DrawSignalStrengthBar(Canvas* canvas, int rssi, int x, int y, int width, int height) { int16_t percents = dBmtoPercentage(rssi); u8g2_DrawHLine(&canvas->fb, x, y, width); u8g2_DrawHLine(&canvas->fb, x, y + height, width); if(rssi != NA && height > 0) { uint8_t barHeight = floor((height / 100.f) * percents); canvas_draw_box(canvas, x, y + height - barHeight, width, barHeight); } } static void wifi_module_render_callback(Canvas* const canvas, void* ctx) { SWiFiScannerApp* app = acquire_mutex((ValueMutex*)ctx, 25); if(app == NULL) { return; } canvas_clear(canvas); { switch(app->m_context) { case Undefined: { canvas_set_font(canvas, FontPrimary); const char* strError = "Something wrong"; canvas_draw_str( canvas, (u8g2_GetDisplayWidth(&canvas->fb) / 2) - (canvas_string_width(canvas, strError) / 2), (u8g2_GetDisplayHeight(&canvas->fb) / 2) /* - (u8g2_GetMaxCharHeight(&canvas->fb) / 2)*/, strError); } break; case WaitingForModule: #if ENABLE_MODULE_DETECTION furi_assert(!app->m_wifiModuleAttached); if(!app->m_wifiModuleAttached) { canvas_set_font(canvas, FontSecondary); const char* strConnectModule = "Attach WiFi scanner module"; canvas_draw_str( canvas, (u8g2_GetDisplayWidth(&canvas->fb) / 2) - (canvas_string_width(canvas, strConnectModule) / 2), (u8g2_GetDisplayHeight(&canvas->fb) / 2) /* - (u8g2_GetMaxCharHeight(&canvas->fb) / 2)*/, strConnectModule); } #endif break; case Initializing: { furi_assert(!app->m_wifiModuleInitialized); if(!app->m_wifiModuleInitialized) { canvas_set_font(canvas, FontPrimary); const char* strInitializing = "Initializing..."; canvas_draw_str( canvas, (u8g2_GetDisplayWidth(&canvas->fb) / 2) - (canvas_string_width(canvas, strInitializing) / 2), (u8g2_GetDisplayHeight(&canvas->fb) / 2) - (u8g2_GetMaxCharHeight(&canvas->fb) / 2), strInitializing); } } break; case ScanMode: { uint8_t offsetY = 0; uint8_t offsetX = 0; canvas_draw_frame( canvas, 0, 0, u8g2_GetDisplayWidth(&canvas->fb), u8g2_GetDisplayHeight(&canvas->fb)); //canvas_set_font(canvas, FontPrimary); u8g2_SetFont(&canvas->fb, u8g2_font_7x13B_tr); uint8_t fontHeight = u8g2_GetMaxCharHeight(&canvas->fb); offsetX += 5; offsetY += fontHeight; canvas_draw_str( canvas, offsetX, offsetY, app->m_currentAccesspointDescription.m_isHidden ? "(Hidden SSID)" : string_get_cstr(app->m_currentAccesspointDescription.m_accessPointName)); offsetY += fontHeight; canvas_draw_str( canvas, offsetX, offsetY, string_get_cstr(app->m_currentAccesspointDescription.m_bssid)); canvas_set_font(canvas, FontSecondary); //u8g2_SetFont(&canvas->fb, u8g2_font_tinytim_tf); fontHeight = u8g2_GetMaxCharHeight(&canvas->fb); offsetY += fontHeight + 1; char string[15]; sprintf(string, "RSSI: %d", app->m_currentAccesspointDescription.m_rssi); canvas_draw_str(canvas, offsetX, offsetY, string); offsetY += fontHeight + 1; sprintf(string, "CHNL: %d", app->m_currentAccesspointDescription.m_channel); canvas_draw_str(canvas, offsetX, offsetY, string); offsetY += fontHeight + 1; sprintf( string, "ENCR: %s", string_get_cstr(app->m_currentAccesspointDescription.m_secType)); canvas_draw_str(canvas, offsetX, offsetY, string); offsetY += fontHeight; offsetY -= fontHeight; u8g2_SetFont(&canvas->fb, u8g2_font_courB08_tn); sprintf(string, "%d/%d", app->m_currentIndexAccessPoint, app->m_totalAccessPoints); offsetX = u8g2_GetDisplayWidth(&canvas->fb) - canvas_string_width(canvas, string) - 5; canvas_draw_str(canvas, offsetX, offsetY, string); canvas_draw_frame( canvas, offsetX - 6, offsetY - u8g2_GetMaxCharHeight(&canvas->fb) - 3, u8g2_GetDisplayWidth(&canvas->fb), u8g2_GetDisplayHeight(&canvas->fb)); u8g2_SetFont(&canvas->fb, u8g2_font_open_iconic_arrow_2x_t); if(app->m_currentIndexAccessPoint != app->m_totalAccessPoints) { //canvas_draw_triangle(canvas, offsetX - 5 - 20, offsetY + 5, 4, 4, CanvasDirectionBottomToTop); canvas_draw_str(canvas, offsetX - 0 - 35, offsetY + 5, "\x4C"); } if(app->m_currentIndexAccessPoint != 1) { //canvas_draw_triangle(canvas, offsetX - 6 - 35, offsetY + 5, 4, 4, CanvasDirectionTopToBottom); canvas_draw_str(canvas, offsetX - 4 - 20, offsetY + 5, "\x4F"); } } break; case MonitorMode: { uint8_t offsetY = 0; uint8_t offsetX = 0; canvas_draw_frame( canvas, 0, 0, u8g2_GetDisplayWidth(&canvas->fb), u8g2_GetDisplayHeight(&canvas->fb)); //canvas_set_font(canvas, FontBigNumbers); u8g2_SetFont(&canvas->fb, u8g2_font_inb27_mr); uint8_t fontHeight = u8g2_GetMaxCharHeight(&canvas->fb); uint8_t fontWidth = u8g2_GetMaxCharWidth(&canvas->fb); if(app->m_currentAccesspointDescription.m_rssi == NA) { offsetX += floor(u8g2_GetDisplayWidth(&canvas->fb) / 2) - fontWidth - 10; offsetY += fontHeight - 5; canvas_draw_str(canvas, offsetX, offsetY, "N/A"); } else { offsetX += floor(u8g2_GetDisplayWidth(&canvas->fb) / 2) - 2 * fontWidth; offsetY += fontHeight - 5; char rssi[8]; sprintf(rssi, "%d", app->m_currentAccesspointDescription.m_rssi); canvas_draw_str(canvas, offsetX, offsetY, rssi); } //canvas_set_font(canvas, FontPrimary); u8g2_SetFont(&canvas->fb, u8g2_font_7x13B_tr); fontHeight = u8g2_GetMaxCharHeight(&canvas->fb); fontWidth = u8g2_GetMaxCharWidth(&canvas->fb); offsetX = 5; offsetY = u8g2_GetDisplayHeight(&canvas->fb) - 7 - fontHeight; canvas_draw_str( canvas, offsetX, offsetY, string_get_cstr(app->m_currentAccesspointDescription.m_accessPointName)); offsetY += fontHeight + 2; canvas_draw_str( canvas, offsetX, offsetY, string_get_cstr(app->m_currentAccesspointDescription.m_bssid)); DrawSignalStrengthBar( canvas, app->m_currentAccesspointDescription.m_rssi, 5, 5, 12, 25); DrawSignalStrengthBar( canvas, app->m_currentAccesspointDescription.m_rssi, u8g2_GetDisplayWidth(&canvas->fb) - 5 - 12, 5, 12, 25); } break; case ScanAnimation: { uint32_t currentTime = furi_get_tick(); if(currentTime - app->m_prevAnimationTime > app->m_animationTime) { app->m_prevAnimationTime = currentTime; app->m_animtaionCounter += 1; app->m_animtaionCounter = app->m_animtaionCounter % 3; } uint8_t offsetX = 10; uint8_t mutliplier = 2; for(uint8_t i = 0; i < 3; ++i) { canvas_draw_disc( canvas, offsetX + 30 + 25 * i, u8g2_GetDisplayHeight(&canvas->fb) / 2 - 7, 5 * (app->m_animtaionCounter == i ? mutliplier : 1)); } u8g2_SetFont(&canvas->fb, u8g2_font_7x13B_tr); //canvas_set_font(canvas, FontPrimary); const char* message = "Scanning"; canvas_draw_str( canvas, u8g2_GetDisplayWidth(&canvas->fb) / 2 - canvas_string_width(canvas, message) / 2, 55, message); } break; case MonitorAnimation: { uint32_t currentTime = furi_get_tick(); if(currentTime - app->m_prevAnimationTime > app->m_animationTime) { app->m_prevAnimationTime = currentTime; app->m_animtaionCounter += 1; app->m_animtaionCounter = app->m_animtaionCounter % 2; } uint8_t offsetX = 10; uint8_t mutliplier = 2; canvas_draw_disc( canvas, offsetX + 30, u8g2_GetDisplayHeight(&canvas->fb) / 2 - 7, 5 * (app->m_animtaionCounter == 0 ? mutliplier : 1)); canvas_draw_disc( canvas, offsetX + 55, u8g2_GetDisplayHeight(&canvas->fb) / 2 - 7, 5 * (app->m_animtaionCounter == 1 ? mutliplier : 1)); canvas_draw_disc( canvas, offsetX + 80, u8g2_GetDisplayHeight(&canvas->fb) / 2 - 7, 5 * (app->m_animtaionCounter == 0 ? mutliplier : 1)); u8g2_SetFont(&canvas->fb, u8g2_font_7x13B_tr); //canvas_set_font(canvas, FontPrimary); const char* message = "Monitor Mode"; canvas_draw_str( canvas, u8g2_GetDisplayWidth(&canvas->fb) / 2 - canvas_string_width(canvas, message) / 2, 55, message); } break; default: break; } } release_mutex((ValueMutex*)ctx, app); } static void wifi_module_input_callback(InputEvent* input_event, FuriMessageQueue* event_queue) { furi_assert(event_queue); SPluginEvent event = {.m_type = EventTypeKey, .m_input = *input_event}; furi_message_queue_put(event_queue, &event, FuriWaitForever); } static void uart_on_irq_cb(UartIrqEvent ev, uint8_t data, void* context) { furi_assert(context); BaseType_t xHigherPriorityTaskWoken = pdFALSE; SWiFiScannerApp* app = context; WIFI_APP_LOG_I("uart_echo_on_irq_cb"); if(ev == UartIrqEventRXNE) { WIFI_APP_LOG_I("ev == UartIrqEventRXNE"); xStreamBufferSendFromISR(app->m_rx_stream, &data, 1, &xHigherPriorityTaskWoken); furi_thread_flags_set(furi_thread_get_id(app->m_worker_thread), WorkerEventRx); portYIELD_FROM_ISR(xHigherPriorityTaskWoken); } } static int32_t uart_worker(void* context) { furi_assert(context); SWiFiScannerApp* app = acquire_mutex((ValueMutex*)context, 25); if(app == NULL) { return 1; } StreamBufferHandle_t rx_stream = app->m_rx_stream; release_mutex((ValueMutex*)context, app); while(true) { uint32_t events = furi_thread_flags_wait( WorkerEventStop | WorkerEventRx, FuriFlagWaitAny, FuriWaitForever); furi_check((events & FuriFlagError) == 0); if(events & WorkerEventStop) break; if(events & WorkerEventRx) { size_t length = 0; string_t receivedString; string_init(receivedString); do { uint8_t data[64]; length = xStreamBufferReceive(rx_stream, data, 64, 25); if(length > 0) { WIFI_APP_LOG_I("Received Data - length: %i", length); for(uint16_t i = 0; i < length; i++) { string_push_back(receivedString, data[i]); } //notification_message(app->notification, &sequence_set_only_red_255); } } while(length > 0); if(string_size(receivedString) > 0) { string_t chunk; string_init(chunk); size_t begin = 0; size_t end = 0; size_t stringSize = string_size(receivedString); WIFI_APP_LOG_I("Received string: %s", string_get_cstr(receivedString)); string_t chunksArray[EChunkArrayData_ENUM_MAX]; for(uint8_t i = 0; i < EChunkArrayData_ENUM_MAX; ++i) { string_init(chunksArray[i]); } uint8_t index = 0; do { end = string_search_char(receivedString, '+', begin); if(end == STRING_FAILURE) { end = stringSize; } WIFI_APP_LOG_I("size: %i, begin: %i, end: %i", stringSize, begin, end); string_set_strn(chunk, &string_get_cstr(receivedString)[begin], end - begin); WIFI_APP_LOG_I("String chunk: %s", string_get_cstr(chunk)); string_set(chunksArray[index++], chunk); begin = end + 1; } while(end < stringSize); string_clear(chunk); app = acquire_mutex((ValueMutex*)context, 25); if(app == NULL) { return 1; } if(!app->m_wifiModuleInitialized) { if(string_cmp_str( chunksArray[EChunkArrayData_Context], MODULE_CONTEXT_INITIALIZATION) == 0) { app->m_wifiModuleInitialized = true; app->m_context = ScanAnimation; } } else { if(string_cmp_str( chunksArray[EChunkArrayData_Context], MODULE_CONTEXT_MONITOR) == 0) { app->m_context = MonitorMode; } else if( string_cmp_str( chunksArray[EChunkArrayData_Context], MODULE_CONTEXT_SCAN) == 0) { app->m_context = ScanMode; } else if( string_cmp_str( chunksArray[EChunkArrayData_Context], MODULE_CONTEXT_SCAN_ANIMATION) == 0) { app->m_context = ScanAnimation; } else if( string_cmp_str( chunksArray[EChunkArrayData_Context], MODULE_CONTEXT_MONITOR_ANIMATION) == 0) { app->m_context = MonitorAnimation; } if(app->m_context == MonitorMode || app->m_context == ScanMode) { string_set( app->m_currentAccesspointDescription.m_accessPointName, chunksArray[EChunkArrayData_SSID]); string_set( app->m_currentAccesspointDescription.m_secType, chunksArray[EChunkArrayData_EncryptionType]); app->m_currentAccesspointDescription.m_rssi = atoi(string_get_cstr(chunksArray[EChunkArrayData_RSSI])); string_set( app->m_currentAccesspointDescription.m_bssid, chunksArray[EChunkArrayData_BSSID]); app->m_currentAccesspointDescription.m_channel = atoi(string_get_cstr(chunksArray[EChunkArrayData_Channel])); app->m_currentAccesspointDescription.m_isHidden = atoi(string_get_cstr(chunksArray[EChunkArrayData_IsHidden])); app->m_currentIndexAccessPoint = atoi(string_get_cstr(chunksArray[EChunkArrayData_CurrentAPIndex])); app->m_totalAccessPoints = atoi(string_get_cstr(chunksArray[EChunkArrayData_TotalAps])); } } release_mutex((ValueMutex*)context, app); // Clear string array for(index = 0; index < EChunkArrayData_ENUM_MAX; ++index) { string_clear(chunksArray[index]); } } string_clear(receivedString); } } return 0; } typedef enum ESerialCommand { ESerialCommand_Next, ESerialCommand_Previous, ESerialCommand_Scan, ESerialCommand_MonitorMode, ESerialCommand_Restart } ESerialCommand; void send_serial_command(ESerialCommand command) { #if !DISABLE_CONSOLE return; #endif uint8_t data[1] = {0}; switch(command) { case ESerialCommand_Next: data[0] = MODULE_CONTROL_COMMAND_NEXT; break; case ESerialCommand_Previous: data[0] = MODULE_CONTROL_COMMAND_PREVIOUS; break; case ESerialCommand_Scan: data[0] = MODULE_CONTROL_COMMAND_SCAN; break; case ESerialCommand_MonitorMode: data[0] = MODULE_CONTROL_COMMAND_MONITOR; break; case ESerialCommand_Restart: data[0] = MODULE_CONTROL_COMMAND_RESTART; break; default: return; }; furi_hal_uart_tx(FuriHalUartIdUSART1, data, 1); } int32_t wifi_scanner_app(void* p) { UNUSED(p); WIFI_APP_LOG_I("Init"); // FuriTimer* timer = furi_timer_alloc(blink_test_update, FuriTimerTypePeriodic, event_queue); // furi_timer_start(timer, furi_kernel_get_tick_frequency()); FuriMessageQueue* event_queue = furi_message_queue_alloc(8, sizeof(SPluginEvent)); SWiFiScannerApp* app = malloc(sizeof(SWiFiScannerApp)); wifi_scanner_app_init(app); #if ENABLE_MODULE_DETECTION furi_hal_gpio_init( &gpio_ext_pc0, GpioModeInput, GpioPullUp, GpioSpeedLow); // Connect to the Flipper's ground just to be sure //furi_hal_gpio_add_int_callback(pinD0, input_isr_d0, this); app->m_context = WaitingForModule; #else app->m_context = Initializing; #if ENABLE_MODULE_POWER furi_hal_power_enable_otg(); #endif // ENABLE_MODULE_POWER #endif // ENABLE_MODULE_DETECTION ValueMutex app_data_mutex; if(!init_mutex(&app_data_mutex, app, sizeof(SWiFiScannerApp))) { WIFI_APP_LOG_E("cannot create mutex\r\n"); free(app); return 255; } WIFI_APP_LOG_I("Mutex created"); app->m_rx_stream = xStreamBufferCreate(1 * 1024, 1); app->m_notification = furi_record_open("notification"); ViewPort* view_port = view_port_alloc(); view_port_draw_callback_set(view_port, wifi_module_render_callback, &app_data_mutex); view_port_input_callback_set(view_port, wifi_module_input_callback, event_queue); // Open GUI and register view_port Gui* gui = furi_record_open("gui"); gui_add_view_port(gui, view_port, GuiLayerFullscreen); //notification_message(app->notification, &sequence_set_only_blue_255); // Enable uart listener #if DISABLE_CONSOLE furi_hal_console_disable(); #endif furi_hal_uart_set_br(FuriHalUartIdUSART1, FLIPPERZERO_SERIAL_BAUD); furi_hal_uart_set_irq_cb(FuriHalUartIdUSART1, uart_on_irq_cb, app); WIFI_APP_LOG_I("UART Listener created"); app->m_worker_thread = furi_thread_alloc(); furi_thread_set_name(app->m_worker_thread, "WiFiModuleUARTWorker"); furi_thread_set_stack_size(app->m_worker_thread, 1024); furi_thread_set_context(app->m_worker_thread, &app_data_mutex); furi_thread_set_callback(app->m_worker_thread, uart_worker); furi_thread_start(app->m_worker_thread); WIFI_APP_LOG_I("UART thread allocated"); // Because we assume that module was on before we launched the app. We need to ensure that module will be in initial state on app start send_serial_command(ESerialCommand_Restart); SPluginEvent event; for(bool processing = true; processing;) { FuriStatus event_status = furi_message_queue_get(event_queue, &event, 100); SWiFiScannerApp* app = (SWiFiScannerApp*)acquire_mutex_block(&app_data_mutex); #if ENABLE_MODULE_DETECTION if(!app->m_wifiModuleAttached) { if(furi_hal_gpio_read(&gpio_ext_pc0) == false) { WIFI_APP_LOG_I("Module Attached"); app->m_wifiModuleAttached = true; app->m_context = Initializing; #if ENABLE_MODULE_POWER furi_hal_power_enable_otg(); #endif } } #endif // ENABLE_MODULE_DETECTION if(event_status == FuriStatusOk) { if(event.m_type == EventTypeKey) { if(app->m_wifiModuleInitialized) { if(app->m_context == ScanMode) { switch(event.m_input.key) { case InputKeyUp: case InputKeyLeft: if(event.m_input.type == InputTypeShort) { WIFI_APP_LOG_I("Previous"); send_serial_command(ESerialCommand_Previous); } else if(event.m_input.type == InputTypeRepeat) { WIFI_APP_LOG_I("Previous Repeat"); send_serial_command(ESerialCommand_Previous); } break; case InputKeyDown: case InputKeyRight: if(event.m_input.type == InputTypeShort) { WIFI_APP_LOG_I("Next"); send_serial_command(ESerialCommand_Next); } else if(event.m_input.type == InputTypeRepeat) { WIFI_APP_LOG_I("Next Repeat"); send_serial_command(ESerialCommand_Next); } break; default: break; } } switch(event.m_input.key) { case InputKeyOk: if(event.m_input.type == InputTypeShort) { if(app->m_context == ScanMode) { WIFI_APP_LOG_I("Monitor Mode"); send_serial_command(ESerialCommand_MonitorMode); } } else if(event.m_input.type == InputTypeLong) { WIFI_APP_LOG_I("Scan"); send_serial_command(ESerialCommand_Scan); } break; case InputKeyBack: if(event.m_input.type == InputTypeShort) { switch(app->m_context) { case MonitorMode: send_serial_command(ESerialCommand_Scan); break; case ScanMode: processing = false; break; default: break; } } else if(event.m_input.type == InputTypeLong) { processing = false; } break; default: break; } } else { if(event.m_input.key == InputKeyBack) { if(event.m_input.type == InputTypeShort || event.m_input.type == InputTypeLong) { processing = false; } } } } } else { WIFI_APP_LOG_D("osMessageQueue: event timeout"); } #if ENABLE_MODULE_DETECTION if(app->m_wifiModuleAttached && furi_hal_gpio_read(&gpio_ext_pc0) == true) { WIFI_APP_LOG_D("Module Disconnected - Exit"); processing = false; app->m_wifiModuleAttached = false; app->m_wifiModuleInitialized = false; } #endif view_port_update(view_port); release_mutex(&app_data_mutex, app); } WIFI_APP_LOG_I("Start exit app"); furi_thread_flags_set(furi_thread_get_id(app->m_worker_thread), WorkerEventStop); furi_thread_join(app->m_worker_thread); furi_thread_free(app->m_worker_thread); WIFI_APP_LOG_I("Thread Deleted"); #if DISABLE_CONSOLE furi_hal_console_enable(); #endif view_port_enabled_set(view_port, false); gui_remove_view_port(gui, view_port); // Close gui record furi_record_close("gui"); furi_record_close("notification"); app->m_gui = NULL; view_port_free(view_port); furi_message_queue_free(event_queue); vStreamBufferDelete(app->m_rx_stream); delete_mutex(&app_data_mutex); // Free rest free(app); WIFI_APP_LOG_I("App freed"); #if ENABLE_MODULE_POWER furi_hal_power_disable_otg(); #endif return 0; }