/* Copyright (C) 2022-2023 Salvatore Sanfilippo -- All Rights Reserved * See the LICENSE file for information about the license. */ #include "app.h" RawSamplesBuffer *RawSamples, *DetectedSamples; extern const SubGhzProtocolRegistry protoview_protocol_registry; /* Draw some text with a border. If the outside color is black and the inside * color is white, it just writes the border of the text, but the function can * also be used to write a bold variation of the font setting both the * colors to black, or alternatively to write a black text with a white * border so that it is visible if there are black stuff on the background. */ /* The callback actually just passes the control to the actual active * view callback, after setting up basic stuff like cleaning the screen * and setting color to black. */ static void render_callback(Canvas* const canvas, void* ctx) { ProtoViewApp* app = ctx; furi_mutex_acquire(app->view_updating_mutex, FuriWaitForever); /* Clear screen. */ canvas_set_color(canvas, ColorWhite); canvas_draw_box(canvas, 0, 0, 127, 63); canvas_set_color(canvas, ColorBlack); canvas_set_font(canvas, FontPrimary); /* Call who is in charge right now. */ switch(app->current_view) { case ViewRawPulses: render_view_raw_pulses(canvas, app); break; case ViewInfo: render_view_info(canvas, app); break; case ViewFrequencySettings: case ViewModulationSettings: render_view_settings(canvas, app); break; case ViewDirectSampling: render_view_direct_sampling(canvas, app); break; case ViewBuildMessage: render_view_build_message(canvas, app); break; default: furi_crash(TAG "Invalid view selected"); break; } /* Draw the alert box if set. */ ui_draw_alert_if_needed(canvas, app); furi_mutex_release(app->view_updating_mutex); } /* Here all we do is putting the events into the queue that will be handled * in the while() loop of the app entry point function. */ static void input_callback(InputEvent* input_event, void* ctx) { ProtoViewApp* app = ctx; furi_message_queue_put(app->event_queue, input_event, FuriWaitForever); } /* Called to switch view (when left/right is pressed). Handles * changing the current view ID and calling the enter/exit view * callbacks if needed. * * The 'switchto' parameter can be the identifier of a view, or the * special views ViewGoNext and ViewGoPrev in order to move to * the logical next/prev view. */ static void app_switch_view(ProtoViewApp* app, ProtoViewCurrentView switchto) { furi_mutex_acquire(app->view_updating_mutex, FuriWaitForever); /* Switch to the specified view. */ ProtoViewCurrentView old = app->current_view; if(switchto == ViewGoNext) { app->current_view++; if(app->current_view == ViewLast) app->current_view = 0; } else if(switchto == ViewGoPrev) { if(app->current_view == 0) app->current_view = ViewLast - 1; else app->current_view--; } else { app->current_view = switchto; } ProtoViewCurrentView new = app->current_view; /* Call the exit view callbacks. */ if(old == ViewDirectSampling) view_exit_direct_sampling(app); if(old == ViewBuildMessage) view_exit_build_message(app); if(old == ViewInfo) view_exit_info(app); /* The frequency/modulation settings are actually a single view: * as long as the user stays between the two modes of this view we * don't need to call the exit-view callback. */ if((old == ViewFrequencySettings && new != ViewModulationSettings) || (old == ViewModulationSettings && new != ViewFrequencySettings)) view_exit_settings(app); /* Reset the view private data each time, before calling the enter * callbacks that may want to setup some state. */ memset(app->view_privdata, 0, PROTOVIEW_VIEW_PRIVDATA_LEN); /* Call the enter view callbacks after all the exit callback * of the old view was already executed. */ if(new == ViewDirectSampling) view_enter_direct_sampling(app); if(new == ViewBuildMessage) view_enter_build_message(app); /* Set the current subview of the view we just left to zero. This is * the main subview of the old view. When we re-enter the view we are * lefting, we want to see the main thing again. */ app->current_subview[old] = 0; /* If there is an alert on screen, dismiss it: if the user is * switching view she already read it. */ ui_dismiss_alert(app); furi_mutex_release(app->view_updating_mutex); } /* Allocate the application state and initialize a number of stuff. * This is called in the entry point to create the application state. */ ProtoViewApp* protoview_app_alloc() { ProtoViewApp* app = malloc(sizeof(ProtoViewApp)); // Init shared data structures RawSamples = raw_samples_alloc(); DetectedSamples = raw_samples_alloc(); //init setting app->setting = subghz_setting_alloc(); subghz_setting_load(app->setting, EXT_PATH("subghz/assets/setting_user")); // GUI app->gui = furi_record_open(RECORD_GUI); app->notification = furi_record_open(RECORD_NOTIFICATION); app->view_port = view_port_alloc(); view_port_draw_callback_set(app->view_port, render_callback, app); view_port_input_callback_set(app->view_port, input_callback, app); gui_add_view_port(app->gui, app->view_port, GuiLayerFullscreen); app->event_queue = furi_message_queue_alloc(8, sizeof(InputEvent)); app->view_dispatcher = NULL; app->text_input = NULL; app->show_text_input = false; app->alert_dismiss_time = 0; app->current_view = ViewRawPulses; app->view_updating_mutex = furi_mutex_alloc(FuriMutexTypeNormal); for(int j = 0; j < ViewLast; j++) app->current_subview[j] = 0; app->direct_sampling_enabled = false; app->view_privdata = malloc(PROTOVIEW_VIEW_PRIVDATA_LEN); memset(app->view_privdata, 0, PROTOVIEW_VIEW_PRIVDATA_LEN); // Signal found and visualization defaults app->signal_bestlen = 0; app->signal_last_scan_idx = 0; app->signal_decoded = false; app->us_scale = PROTOVIEW_RAW_VIEW_DEFAULT_SCALE; app->signal_offset = 0; app->msg_info = NULL; // Init Worker & Protocol app->txrx = malloc(sizeof(ProtoViewTxRx)); /* Setup rx state. */ app->txrx->freq_mod_changed = false; app->txrx->debug_timer_sampling = false; app->txrx->last_g0_change_time = DWT->CYCCNT; app->txrx->last_g0_value = false; app->frequency = subghz_setting_get_default_frequency(app->setting); app->modulation = 0; /* Defaults to ProtoViewModulations[0]. */ // Enable power for External CC1101 if it is connected furi_hal_subghz_enable_ext_power(); // Auto switch to internal radio if external radio is not available furi_delay_ms(15); if(!furi_hal_subghz_check_radio()) { furi_hal_subghz_set_radio_type(SubGhzRadioInternal); } furi_hal_power_suppress_charge_enter(); app->running = 1; return app; } /* Free what the application allocated. It is not clear to me if the * Flipper OS, once the application exits, will be able to reclaim space * even if we forget to free something here. */ void protoview_app_free(ProtoViewApp* app) { furi_assert(app); // Put CC1101 on sleep, this also restores charging. radio_sleep(app); // Disable power for External CC1101 if it was enabled and module is connected furi_hal_subghz_disable_ext_power(); // View related. view_port_enabled_set(app->view_port, false); gui_remove_view_port(app->gui, app->view_port); view_port_free(app->view_port); furi_record_close(RECORD_GUI); furi_record_close(RECORD_NOTIFICATION); furi_message_queue_free(app->event_queue); furi_mutex_free(app->view_updating_mutex); app->gui = NULL; // Frequency setting. subghz_setting_free(app->setting); // Worker stuff. free(app->txrx); // Raw samples buffers. raw_samples_free(RawSamples); raw_samples_free(DetectedSamples); furi_hal_power_suppress_charge_exit(); free(app); } /* Called periodically. Do signal processing here. Data we process here * will be later displayed by the render callback. The side effect of this * function is to scan for signals and set DetectedSamples. */ static void timer_callback(void* ctx) { ProtoViewApp* app = ctx; uint32_t delta, lastidx = app->signal_last_scan_idx; /* scan_for_signal(), called by this function, deals with a * circular buffer. To never miss anything, even if a signal spawns * cross-boundaries, it is enough if we scan each time the buffer fills * for 50% more compared to the last scan. Thanks to this check we * can avoid scanning too many times to just find the same data. */ if(lastidx < RawSamples->idx) { delta = RawSamples->idx - lastidx; } else { delta = RawSamples->total - lastidx + RawSamples->idx; } if(delta < RawSamples->total / 2) return; app->signal_last_scan_idx = RawSamples->idx; scan_for_signal(app, RawSamples, ProtoViewModulations[app->modulation].duration_filter); } /* This is the navigation callback we use in the view dispatcher used * to display the "text input" widget, that is the keyboard to get text. * The text input view is implemented to ignore the "back" short press, * so the event is not consumed and is handled by the view dispatcher. * However the view dispatcher implementation has the strange behavior that * if no navigation callback is set, it will not stop when handling back. * * We just need a dummy callback returning false. We believe the * implementation should be changed and if no callback is set, it should be * the same as returning false. */ static bool keyboard_view_dispatcher_navigation_callback(void* ctx) { UNUSED(ctx); return false; } /* App entry point, as specified in application.fam. */ int32_t protoview_app_entry(void* p) { UNUSED(p); ProtoViewApp* app = protoview_app_alloc(); /* Create a timer. We do data analysis in the callback. */ FuriTimer* timer = furi_timer_alloc(timer_callback, FuriTimerTypePeriodic, app); furi_timer_start(timer, furi_kernel_get_tick_frequency() / 8); /* Start listening to signals immediately. */ radio_begin(app); radio_rx(app); /* This is the main event loop: here we get the events that are pushed * in the queue by input_callback(), and process them one after the * other. The timeout is 100 milliseconds, so if not input is received * before such time, we exit the queue_get() function and call * view_port_update() in order to refresh our screen content. */ InputEvent input; while(app->running) { FuriStatus qstat = furi_message_queue_get(app->event_queue, &input, 100); if(qstat == FuriStatusOk) { if(DEBUG_MSG) FURI_LOG_E(TAG, "Main Loop - Input: type %d key %u", input.type, input.key); /* Handle navigation here. Then handle view-specific inputs * in the view specific handling function. */ if(input.type == InputTypeShort && input.key == InputKeyBack) { if(app->current_view != ViewRawPulses) { /* If this is not the main app view, go there. */ app_switch_view(app, ViewRawPulses); } else { /* If we are in the main app view, warn the user * they needs to long press to really quit. */ ui_show_alert(app, "Long press to exit", 1000); } } else if(input.type == InputTypeLong && input.key == InputKeyBack) { app->running = 0; } else if( input.type == InputTypeShort && input.key == InputKeyRight && ui_get_current_subview(app) == 0) { /* Go to the next view. */ app_switch_view(app, ViewGoNext); } else if( input.type == InputTypeShort && input.key == InputKeyLeft && ui_get_current_subview(app) == 0) { /* Go to the previous view. */ app_switch_view(app, ViewGoPrev); } else { /* This is where we pass the control to the currently * active view input processing. */ switch(app->current_view) { case ViewRawPulses: process_input_raw_pulses(app, input); break; case ViewInfo: process_input_info(app, input); break; case ViewFrequencySettings: case ViewModulationSettings: process_input_settings(app, input); break; case ViewDirectSampling: process_input_direct_sampling(app, input); break; case ViewBuildMessage: process_input_build_message(app, input); break; default: furi_crash(TAG "Invalid view selected"); break; } } } else { /* Useful to understand if the app is still alive when it * does not respond because of bugs. */ if(DEBUG_MSG) { static int c = 0; c++; if(!(c % 20)) FURI_LOG_E(TAG, "Loop timeout"); } } if(app->show_text_input) { /* Remove our viewport: we need to use a view dispatcher * in order to show the standard Flipper keyboard. */ gui_remove_view_port(app->gui, app->view_port); /* Allocate a view dispatcher, add a text input view to it, * and activate it. */ app->view_dispatcher = view_dispatcher_alloc(); view_dispatcher_enable_queue(app->view_dispatcher); /* We need to set a navigation callback for the view dispatcher * otherwise when the user presses back on the keyboard to * abort, the dispatcher will not stop. */ view_dispatcher_set_navigation_event_callback( app->view_dispatcher, keyboard_view_dispatcher_navigation_callback); app->text_input = text_input_alloc(); view_dispatcher_set_event_callback_context(app->view_dispatcher, app); view_dispatcher_add_view( app->view_dispatcher, 0, text_input_get_view(app->text_input)); view_dispatcher_switch_to_view(app->view_dispatcher, 0); /* Setup the text input view. The different parameters are set * in the app structure by the view that wanted to show the * input text. The callback, buffer and buffer len must be set. */ text_input_set_header_text(app->text_input, "Save signal filename"); text_input_set_result_callback( app->text_input, app->text_input_done_callback, app, app->text_input_buffer, app->text_input_buffer_len, false); /* Run the dispatcher with the keyboard. */ view_dispatcher_attach_to_gui( app->view_dispatcher, app->gui, ViewDispatcherTypeFullscreen); view_dispatcher_run(app->view_dispatcher); /* Undo all it: remove the view from the dispatcher, free it * so that it removes itself from the current gui, finally * restore our viewport. */ view_dispatcher_remove_view(app->view_dispatcher, 0); text_input_free(app->text_input); view_dispatcher_free(app->view_dispatcher); app->view_dispatcher = NULL; gui_add_view_port(app->gui, app->view_port, GuiLayerFullscreen); app->show_text_input = false; } else { view_port_update(app->view_port); } } /* App no longer running. Shut down and free. */ if(app->txrx->txrx_state == TxRxStateRx) { FURI_LOG_E(TAG, "Putting CC1101 to sleep before exiting."); radio_rx_end(app); radio_sleep(app); } furi_timer_free(timer); protoview_app_free(app); return 0; }