mirror of
https://github.com/DarkFlippers/unleashed-firmware
synced 2024-12-22 18:53:18 +00:00
362 lines
11 KiB
C
362 lines
11 KiB
C
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#include "subghz_frequency_analyzer.h"
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#include "../subghz_i.h"
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#include <math.h>
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#include <furi.h>
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#include <furi_hal.h>
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#include <input/input.h>
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#include <notification/notification_messages.h>
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#include <gui/elements.h>
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#include "../helpers/subghz_frequency_analyzer_worker.h"
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#include <assets_icons.h>
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#define TAG "frequency_analyzer"
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#define RSSI_MIN -97
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#define RSSI_MAX -60
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#define RSSI_SCALE 2
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#define TRIGGER_STEP 1
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static const NotificationSequence sequence_hw_blink = {
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&message_blink_start_10,
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&message_blink_set_color_cyan,
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&message_do_not_reset,
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NULL,
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};
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static const NotificationSequence sequence_hw_blink_stop = {
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&message_blink_stop,
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NULL,
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};
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typedef enum {
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SubGhzFrequencyAnalyzerStatusIDLE,
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} SubGhzFrequencyAnalyzerStatus;
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struct SubGhzFrequencyAnalyzer {
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View* view;
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SubGhzFrequencyAnalyzerWorker* worker;
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SubGhzFrequencyAnalyzerCallback callback;
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void* context;
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bool locked;
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uint8_t feedback_level; // 0 - no feedback, 1 - vibro only, 2 - vibro and sound
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float rssi_last;
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uint32_t frequency_last;
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uint32_t frequency_last_vis;
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NotificationApp* notifications;
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};
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typedef struct {
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uint32_t frequency;
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uint32_t frequency_last;
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float rssi;
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float rssi_last;
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float trigger;
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uint8_t feedback_level;
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} SubGhzFrequencyAnalyzerModel;
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void subghz_frequency_analyzer_set_callback(
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SubGhzFrequencyAnalyzer* subghz_frequency_analyzer,
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SubGhzFrequencyAnalyzerCallback callback,
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void* context) {
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furi_assert(subghz_frequency_analyzer);
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furi_assert(callback);
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subghz_frequency_analyzer->callback = callback;
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subghz_frequency_analyzer->context = context;
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}
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void subghz_frequency_analyzer_draw_rssi(
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Canvas* canvas,
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float rssi,
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float rssi_last,
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float trigger,
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uint8_t x,
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uint8_t y) {
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// Current RSSI
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if(rssi) {
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if(rssi > RSSI_MAX) rssi = RSSI_MAX;
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rssi = (rssi - RSSI_MIN) / RSSI_SCALE;
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uint8_t column_number = 0;
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for(size_t i = 0; i <= (uint8_t)rssi; i++) {
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if((i + 1) % 4) {
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column_number++;
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canvas_draw_box(canvas, x + 2 * i, y - column_number, 2, 4 + column_number);
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}
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}
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}
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// Last RSSI
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if(rssi_last) {
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if(rssi_last > RSSI_MAX) rssi_last = RSSI_MAX;
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int max_x = (int)((rssi_last - RSSI_MIN) / RSSI_SCALE) * 2;
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//if(!(max_x % 8)) max_x -= 2;
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int max_h = (int)((rssi_last - RSSI_MIN) / RSSI_SCALE) + 4;
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max_h -= (max_h / 4) + 3;
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canvas_draw_line(canvas, x + max_x + 1, y - max_h, x + max_x + 1, y + 3);
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}
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// Trigger cursor
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trigger = (trigger - RSSI_MIN) / RSSI_SCALE;
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uint8_t tr_x = x + 2 * trigger;
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canvas_draw_dot(canvas, tr_x, y + 4);
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canvas_draw_line(canvas, tr_x - 1, y + 5, tr_x + 1, y + 5);
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canvas_draw_line(canvas, x, y + 3, x + (RSSI_MAX - RSSI_MIN) * 2 / RSSI_SCALE, y + 3);
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}
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void subghz_frequency_analyzer_draw(Canvas* canvas, SubGhzFrequencyAnalyzerModel* model) {
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char buffer[64];
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// Title
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canvas_set_color(canvas, ColorBlack);
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canvas_set_font(canvas, FontSecondary);
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canvas_draw_str(canvas, 20, 8, "Frequency Analyzer");
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// RSSI
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canvas_draw_str(canvas, 33, 62, "RSSI");
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subghz_frequency_analyzer_draw_rssi(
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canvas, model->rssi, model->rssi_last, model->trigger, 57, 58);
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// Frequency
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canvas_set_font(canvas, FontBigNumbers);
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snprintf(
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buffer,
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sizeof(buffer),
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"%03ld.%03ld",
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model->frequency / 1000000 % 1000,
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model->frequency / 1000 % 1000);
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canvas_draw_str(canvas, 8, 30, buffer);
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canvas_draw_icon(canvas, 96, 19, &I_MHz_25x11);
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// Last detected frequency
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canvas_set_font(canvas, FontSecondary);
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if(model->frequency_last) {
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snprintf(
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buffer,
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sizeof(buffer),
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"Last: %03ld.%03ld MHz",
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model->frequency_last / 1000000 % 1000,
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model->frequency_last / 1000 % 1000);
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} else {
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strcpy(buffer, "Last: ---.--- MHz");
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}
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canvas_draw_str(canvas, 9, 42, buffer);
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switch(model->feedback_level) {
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case 2:
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canvas_draw_icon(canvas, 128 - 8 - 1, 1, &I_Volup_8x6);
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break;
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case 1:
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canvas_draw_icon(canvas, 128 - 8 - 1, 1, &I_Voldwn_6x6);
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break;
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case 0:
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canvas_draw_icon(canvas, 128 - 8 - 1, 1, &I_Voldwn_6x6);
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canvas_set_color(canvas, ColorWhite);
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canvas_draw_box(canvas, 128 - 2 - 1 - 2, 1, 2, 6);
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canvas_set_color(canvas, ColorBlack);
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break;
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}
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// Buttons hint
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elements_button_left(canvas, "T-");
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elements_button_right(canvas, "T+");
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}
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bool subghz_frequency_analyzer_input(InputEvent* event, void* context) {
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furi_assert(context);
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SubGhzFrequencyAnalyzer* instance = context;
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bool need_redraw = false;
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if(event->key == InputKeyBack) return false;
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if(((event->type == InputTypePress) || (event->type == InputTypeRepeat)) &&
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((event->key == InputKeyLeft) || (event->key == InputKeyRight))) {
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// Trigger setup
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float trigger_level = subghz_frequency_analyzer_worker_get_trigger_level(instance->worker);
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switch(event->key) {
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case InputKeyLeft:
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trigger_level -= TRIGGER_STEP;
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if(trigger_level < RSSI_MIN) trigger_level = RSSI_MIN;
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break;
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default:
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case InputKeyRight:
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trigger_level += TRIGGER_STEP;
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if(trigger_level > RSSI_MAX) trigger_level = RSSI_MAX;
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break;
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}
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subghz_frequency_analyzer_worker_set_trigger_level(instance->worker, trigger_level);
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FURI_LOG_I(TAG, "trigger = %.1f", (double)trigger_level);
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need_redraw = true;
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}
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if(event->type == InputTypePress && event->key == InputKeyDown) {
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if(instance->feedback_level == 0) {
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instance->feedback_level = 2;
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} else {
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instance->feedback_level--;
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}
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FURI_LOG_D(TAG, "feedback_level = %d", instance->feedback_level);
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need_redraw = true;
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}
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if(need_redraw) {
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SubGhzFrequencyAnalyzer* instance = context;
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with_view_model(
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instance->view, (SubGhzFrequencyAnalyzerModel * model) {
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model->rssi_last = instance->rssi_last;
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model->frequency_last = instance->frequency_last;
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model->trigger =
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subghz_frequency_analyzer_worker_get_trigger_level(instance->worker);
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model->feedback_level = instance->feedback_level;
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return true;
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});
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}
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return true;
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}
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uint32_t round_int(uint32_t value, uint8_t n) {
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// Round value
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uint8_t on = n;
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while(n--) {
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uint8_t i = value % 10;
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value /= 10;
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if(i >= 5) value++;
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}
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while(on--) value *= 10;
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return value;
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}
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void subghz_frequency_analyzer_pair_callback(void* context, uint32_t frequency, float rssi) {
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furi_assert(context);
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SubGhzFrequencyAnalyzer* instance = context;
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if((rssi == 0.f) && (instance->locked)) {
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notification_message(instance->notifications, &sequence_hw_blink);
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instance->frequency_last_vis = instance->frequency_last;
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}
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if((rssi != 0.f) && (frequency != 0)) {
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// Threre is some signal
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FURI_LOG_I(TAG, "rssi = %.2f, frequency = %d Hz", (double)rssi, frequency);
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frequency = round_int(frequency, 3); // Round 299999990Hz to 300000000Hz
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if(!instance->locked) {
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// Triggered!
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instance->rssi_last = rssi;
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notification_message(instance->notifications, &sequence_hw_blink_stop);
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switch(instance->feedback_level) {
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case 1: // 1 - only vibro
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notification_message(instance->notifications, &sequence_single_vibro);
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break;
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case 2: // 2 - vibro and beep
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notification_message(instance->notifications, &sequence_success);
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break;
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default: // 0 - no feedback
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break;
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}
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FURI_LOG_D(TAG, "triggered");
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}
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// Update values
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if(rssi >= instance->rssi_last) {
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instance->rssi_last = rssi;
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instance->frequency_last = frequency;
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}
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}
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instance->locked = (rssi != 0.f);
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with_view_model(
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instance->view, (SubGhzFrequencyAnalyzerModel * model) {
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model->rssi = rssi;
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model->rssi_last = instance->rssi_last;
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model->frequency = frequency;
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model->frequency_last = instance->frequency_last_vis;
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model->trigger = subghz_frequency_analyzer_worker_get_trigger_level(instance->worker);
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model->feedback_level = instance->feedback_level;
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return true;
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});
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}
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void subghz_frequency_analyzer_enter(void* context) {
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furi_assert(context);
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SubGhzFrequencyAnalyzer* instance = context;
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// Notifications
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instance->notifications = furi_record_open(RECORD_NOTIFICATION);
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notification_message(instance->notifications, &sequence_hw_blink);
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//Start worker
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instance->worker = subghz_frequency_analyzer_worker_alloc(instance->context);
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subghz_frequency_analyzer_worker_set_pair_callback(
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instance->worker,
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(SubGhzFrequencyAnalyzerWorkerPairCallback)subghz_frequency_analyzer_pair_callback,
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instance);
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subghz_frequency_analyzer_worker_start(instance->worker);
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instance->rssi_last = 0;
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instance->frequency_last = 0;
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instance->frequency_last_vis = 0;
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subghz_frequency_analyzer_worker_set_trigger_level(instance->worker, RSSI_MIN);
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with_view_model(
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instance->view, (SubGhzFrequencyAnalyzerModel * model) {
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model->rssi = 0;
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model->rssi_last = 0;
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model->frequency = 0;
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model->frequency_last = 0;
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model->trigger = RSSI_MIN;
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return true;
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});
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}
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void subghz_frequency_analyzer_exit(void* context) {
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furi_assert(context);
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SubGhzFrequencyAnalyzer* instance = context;
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// Stop blinking
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notification_message(instance->notifications, &sequence_hw_blink_stop);
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// Stop worker
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if(subghz_frequency_analyzer_worker_is_running(instance->worker)) {
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subghz_frequency_analyzer_worker_stop(instance->worker);
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}
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subghz_frequency_analyzer_worker_free(instance->worker);
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furi_record_close(RECORD_NOTIFICATION);
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}
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SubGhzFrequencyAnalyzer* subghz_frequency_analyzer_alloc() {
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SubGhzFrequencyAnalyzer* instance = malloc(sizeof(SubGhzFrequencyAnalyzer));
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furi_assert(instance);
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instance->feedback_level = 2;
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// View allocation and configuration
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instance->view = view_alloc();
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view_allocate_model(
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instance->view, ViewModelTypeLocking, sizeof(SubGhzFrequencyAnalyzerModel));
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view_set_context(instance->view, instance);
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view_set_draw_callback(instance->view, (ViewDrawCallback)subghz_frequency_analyzer_draw);
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view_set_input_callback(instance->view, subghz_frequency_analyzer_input);
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view_set_enter_callback(instance->view, subghz_frequency_analyzer_enter);
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view_set_exit_callback(instance->view, subghz_frequency_analyzer_exit);
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return instance;
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}
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void subghz_frequency_analyzer_free(SubGhzFrequencyAnalyzer* instance) {
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furi_assert(instance);
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view_free(instance->view);
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free(instance);
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}
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View* subghz_frequency_analyzer_get_view(SubGhzFrequencyAnalyzer* instance) {
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furi_assert(instance);
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return instance->view;
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}
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