/* Copyright (C) 2022-2023 Salvatore Sanfilippo -- All Rights Reserved * See the LICENSE file for information about the license. */ #include "app.h" #include #include /* This view has subviews accessible navigating up/down. This * enumaration is used to track the currently active subview. */ enum { SubViewInfoMain, SubViewInfoSave, SubViewInfoLast, /* Just a sentinel. */ }; /* Our view private data. */ #define SAVE_FILENAME_LEN 64 typedef struct { /* Our save view displays an oscilloscope-alike resampled signal, * so that the user can see what they are saving. With left/right * you can move to next rows. Here we store where we are. */ uint32_t signal_display_start_row; char* filename; } InfoViewPrivData; /* Render the view with the detected message information. */ static void render_subview_main(Canvas* const canvas, ProtoViewApp* app) { /* Protocol name as title. */ canvas_set_font(canvas, FontPrimary); uint8_t y = 8, lineheight = 10; canvas_draw_str(canvas, 0, y, app->msg_info->name); y += lineheight; /* Info fields. */ char buf[128]; canvas_set_font(canvas, FontSecondary); if(app->msg_info->raw[0]) { snprintf(buf, sizeof(buf), "Raw: %s", app->msg_info->raw); canvas_draw_str(canvas, 0, y, buf); y += lineheight; } canvas_draw_str(canvas, 0, y, app->msg_info->info1); y += lineheight; canvas_draw_str(canvas, 0, y, app->msg_info->info2); y += lineheight; canvas_draw_str(canvas, 0, y, app->msg_info->info3); y += lineheight; canvas_draw_str(canvas, 0, y, app->msg_info->info4); y += lineheight; y = 37; lineheight = 7; canvas_draw_str(canvas, 119, y, "s"); y += lineheight; canvas_draw_str(canvas, 119, y, "a"); y += lineheight; canvas_draw_str(canvas, 119, y, "v"); y += lineheight; canvas_draw_str(canvas, 119, y, "e"); y += lineheight; } /* Render view with save option. */ static void render_subview_save(Canvas* const canvas, ProtoViewApp* app) { InfoViewPrivData* privdata = app->view_privdata; /* Display our signal in digital form: here we don't show the * signal with the exact timing of the received samples, but as it * is in its logic form, in exact multiples of the short pulse length. */ uint8_t rows = 6; uint8_t rowheight = 11; uint8_t bitwidth = 4; uint8_t bitheight = 5; uint32_t idx = privdata->signal_display_start_row * (128 / 4); bool prevbit = false; for(uint8_t y = bitheight + 12; y <= rows * rowheight; y += rowheight) { for(uint8_t x = 0; x < 128; x += 4) { bool bit = bitmap_get(app->msg_info->bits, app->msg_info->bits_bytes, idx); uint8_t prevy = y + prevbit * (bitheight * -1) - 1; uint8_t thisy = y + bit * (bitheight * -1) - 1; canvas_draw_line(canvas, x, prevy, x, thisy); canvas_draw_line(canvas, x, thisy, x + bitwidth - 1, thisy); prevbit = bit; if(idx >= app->msg_info->pulses_count) { canvas_set_color(canvas, ColorWhite); canvas_draw_dot(canvas, x + 1, thisy); canvas_draw_dot(canvas, x + 3, thisy); canvas_set_color(canvas, ColorBlack); } idx++; // Draw next bit } } canvas_set_font(canvas, FontSecondary); canvas_draw_str(canvas, 0, 6, "ok: send, long ok: save"); } /* Render the selected subview of this view. */ void render_view_info(Canvas* const canvas, ProtoViewApp* app) { if(app->signal_decoded == false) { canvas_set_font(canvas, FontSecondary); canvas_draw_str(canvas, 30, 36, "No signal decoded"); return; } show_available_subviews(canvas, app, SubViewInfoLast); switch(app->current_subview[app->current_view]) { case SubViewInfoMain: render_subview_main(canvas, app); break; case SubViewInfoSave: render_subview_save(canvas, app); break; } } /* The user typed the file name. Let's save it and remove the keyboard * view. */ void text_input_done_callback(void* context) { ProtoViewApp* app = context; InfoViewPrivData* privdata = app->view_privdata; FuriString* save_path = furi_string_alloc_printf("%s/%s.sub", EXT_PATH("subghz"), privdata->filename); save_signal(app, furi_string_get_cstr(save_path)); furi_string_free(save_path); free(privdata->filename); dismiss_keyboard(app); } /* Replace all the occurrences of character c1 with c2 in the specified * string. */ void str_replace(char* buf, char c1, char c2) { char* p = buf; while(*p) { if(*p == c1) *p = c2; p++; } } /* Set a random filename the user can edit. */ void set_signal_random_filename(ProtoViewApp* app, char* buf, size_t buflen) { char suffix[6]; set_random_name(suffix, sizeof(suffix)); snprintf(buf, buflen, "%.10s-%s-%d", app->msg_info->name, suffix, rand() % 1000); str_replace(buf, ' ', '_'); str_replace(buf, '-', '_'); str_replace(buf, '/', '_'); } /* ========================== Signal transmission =========================== */ /* This is the context we pass to the data yield callback for * asynchronous tx. */ typedef enum { SendSignalSendStartGap, SendSignalSendBits, SendSignalSendEndGap, SendSignalEndTransmission } SendSignalState; #define PROTOVIEW_SENDSIGNAL_START_GAP 10000 /* microseconds. */ #define PROTOVIEW_SENDSIGNAL_END_GAP 10000 /* microseconds. */ typedef struct { SendSignalState state; // Current state. uint32_t curpos; // Current bit position of data to send. ProtoViewApp* app; // App reference. uint32_t start_gap_dur; // Gap to send at the start. uint32_t end_gap_dur; // Gap to send at the end. } SendSignalCtx; /* Setup the state context for the callback responsible to feed data * to the subghz async tx system. */ static void send_signal_init(SendSignalCtx* ss, ProtoViewApp* app) { ss->state = SendSignalSendStartGap; ss->curpos = 0; ss->app = app; ss->start_gap_dur = PROTOVIEW_SENDSIGNAL_START_GAP; ss->end_gap_dur = PROTOVIEW_SENDSIGNAL_END_GAP; } /* Send signal data feeder callback. When the asynchronous transmission is * active, this function is called to return new samples from the currently * decoded signal in app->msg_info. The subghz subsystem aspects this function, * that is the data feeder, to return LevelDuration types (that is a structure * with level, that is pulse or gap, and duration in microseconds). * * The position into the transmission is stored in the context 'ctx', that * references a SendSignalCtx structure. * * In the SendSignalCtx structure 'ss' we remember at which bit of the * message we are, in ss->curoff. We also send a start and end gap in order * to make sure the transmission is clear. */ LevelDuration radio_tx_feed_data(void* ctx) { SendSignalCtx* ss = ctx; /* Send start gap. */ if(ss->state == SendSignalSendStartGap) { ss->state = SendSignalSendBits; return level_duration_make(0, ss->start_gap_dur); } /* Send data. */ if(ss->state == SendSignalSendBits) { uint32_t dur = 0, j; uint32_t level = 0; /* Let's see how many consecutive bits we have with the same * level. */ for(j = 0; ss->curpos + j < ss->app->msg_info->pulses_count; j++) { uint32_t l = bitmap_get(ss->app->msg_info->bits, ss->app->msg_info->bits_bytes, ss->curpos + j); if(j == 0) { /* At the first bit of this sequence, we store the * level of the sequence. */ level = l; dur += ss->app->msg_info->short_pulse_dur; continue; } /* As long as the level is the same, we update the duration. * Otherwise stop the loop and return this sample. */ if(l != level) break; dur += ss->app->msg_info->short_pulse_dur; } ss->curpos += j; /* If this was the last set of bits, change the state to * send the final gap. */ if(ss->curpos >= ss->app->msg_info->pulses_count) ss->state = SendSignalSendEndGap; return level_duration_make(level, dur); } /* Send end gap. */ if(ss->state == SendSignalSendEndGap) { ss->state = SendSignalEndTransmission; return level_duration_make(0, ss->end_gap_dur); } /* End transmission. Here state is guaranteed * to be SendSignalEndTransmission */ return level_duration_reset(); } /* Vibrate and produce a click sound when a signal is sent. */ void notify_signal_sent(ProtoViewApp* app) { static const NotificationSequence sent_seq = { &message_blue_255, &message_vibro_on, &message_note_g1, &message_delay_10, &message_sound_off, &message_vibro_off, &message_blue_0, NULL}; notification_message(app->notification, &sent_seq); } /* Handle input for the info view. */ void process_input_info(ProtoViewApp* app, InputEvent input) { if(process_subview_updown(app, input, SubViewInfoLast)) return; InfoViewPrivData* privdata = app->view_privdata; int subview = get_current_subview(app); /* Main subview. */ if(subview == SubViewInfoMain) { if(input.type == InputTypeShort && input.key == InputKeyOk) { /* Reset the current sample to capture the next. */ reset_current_signal(app); } } else if(subview == SubViewInfoSave) { /* Save subview. */ if(input.type == InputTypePress && input.key == InputKeyRight) { privdata->signal_display_start_row++; } else if(input.type == InputTypePress && input.key == InputKeyLeft) { if(privdata->signal_display_start_row != 0) privdata->signal_display_start_row--; } else if(input.type == InputTypeLong && input.key == InputKeyOk) { privdata->filename = malloc(SAVE_FILENAME_LEN); set_signal_random_filename(app, privdata->filename, SAVE_FILENAME_LEN); show_keyboard(app, privdata->filename, SAVE_FILENAME_LEN, text_input_done_callback); } else if(input.type == InputTypeShort && input.key == InputKeyOk) { SendSignalCtx send_state; send_signal_init(&send_state, app); radio_tx_signal(app, radio_tx_feed_data, &send_state); notify_signal_sent(app); } } }