/* * Copyright (C) 2015 Jared Boone, ShareBrained Technology, Inc. * Copyright (C) 2018 Furrtek * Copyright (C) 2023 gullradriel, Nilorea Studio Inc. * * This file is part of PortaPack. * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2, or (at your option) * any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; see the file COPYING. If not, write to * the Free Software Foundation, Inc., 51 Franklin Street, * Boston, MA 02110-1301, USA. */ #include "ui_recon.hpp" #include "ui_fileman.hpp" #include "file.hpp" using namespace portapack; using portapack::memory::map::backup_ram; namespace ui { void ReconView::clear_freqlist_for_ui_action() { audio::output::stop(); // flag to detect and reload frequency_list freqlist_cleared_for_ui_action = true; // if in manual mode, there is enough memory to load freqman files, else we have to unload/reload if (!manual_mode) { // clear and shrink_to_fit are not enough to really start with a new, clean, empty vector // swap is the only way to achieve a perfect memory liberation std::vector().swap(frequency_list); } else { frequency_list.shrink_to_fit(); } } void ReconView::reset_indexes() { last_entry.modulation = -1; last_entry.bandwidth = -1; last_entry.step = -1; description = "...no description..."; current_index = 0; } void ReconView::colorize_waits() { // colorize wait on match if (wait == 0) { field_wait.set_style(&style_blue); } else if (wait >= 500) { field_wait.set_style(&style_white); } else if (wait > -500 && wait < 500) { field_wait.set_style(&style_red); } else if (wait <= -500) { field_wait.set_style(&style_green); } // colorize lock time if in SPARSE mode as in continuous the lock_wait time is disarmed at first lock count if (recon_match_mode == RECON_MATCH_SPARSE) { if ((recon_lock_duration / STATS_UPDATE_INTERVAL) <= recon_lock_nb_match) { field_lock_wait.set_style(&style_yellow); } else { field_lock_wait.set_style(&style_white); } } else { field_lock_wait.set_style(&style_white); } } bool ReconView::recon_save_freq(const std::string& freq_file_path, size_t freq_index, bool warn_if_exists) { File recon_file; if (frequency_list.size() == 0 || (frequency_list.size() && current_index > (int32_t)frequency_list.size())) return false; freqman_entry entry = frequency_list[freq_index]; entry.frequency_a = freq; entry.frequency_b = 0; entry.modulation = last_entry.modulation; entry.bandwidth = last_entry.bandwidth; entry.type = SINGLE; std::string frequency_to_add; get_freq_string(entry, frequency_to_add); auto result = recon_file.open(freq_file_path); // First recon if freq is already in txt if (!result.is_valid()) { char one_char[1]; // Read it char by char std::string line; // and put read line in here bool found = false; for (size_t pointer = 0; pointer < recon_file.size(); pointer++) { recon_file.seek(pointer); recon_file.read(one_char, 1); if ((int)one_char[0] > 31) { // ascii space upwards line += one_char[0]; // add it to the textline } else if (one_char[0] == '\n') { // New Line if (line.compare(0, frequency_to_add.size(), frequency_to_add) == 0) { found = true; break; } line.clear(); // Ready for next textline } } if (!found) { result = recon_file.append(freq_file_path); // Second: append if it is not there if (!result.is_valid()) { recon_file.write_line(frequency_to_add); } } if (found && warn_if_exists) { nav_.display_modal("Error", "Frequency already exists"); } } else { result = recon_file.create(freq_file_path); // First freq if no output file if (!result.is_valid()) { recon_file.write_line(frequency_to_add); } } return true; } bool ReconView::recon_load_config_from_sd() { File settings_file; size_t length, file_position = 0; char* pos; char* line_start; char* line_end; char file_data[257]; uint32_t it = 0; uint32_t nb_params = RECON_SETTINGS_NB_PARAMS; std::string params[RECON_SETTINGS_NB_PARAMS]; make_new_directory(u"SETTINGS"); auto result = settings_file.open(RECON_CFG_FILE); if (!result.is_valid()) { while (it < nb_params) { // Read a 256 bytes block from file settings_file.seek(file_position); memset(file_data, 0, 257); auto read_size = settings_file.read(file_data, 256); if (read_size.is_error()) break; file_position += 256; // Reset line_start to beginning of buffer line_start = file_data; pos = line_start; while ((line_end = strstr(line_start, "\x0A"))) { length = line_end - line_start - 1; params[it] = string(pos, length); it++; line_start = line_end + 1; pos = line_start; if (line_start - file_data >= 256) break; if (it >= nb_params) break; } if (read_size.value() != 256) break; // End of file // Restart at beginning of last incomplete line file_position -= (file_data + 256 - line_start); } } if (it < nb_params) { /* bad number of params, signal defaults */ input_file = "RECON"; output_file = "RECON_RESULTS"; recon_lock_duration = RECON_MIN_LOCK_DURATION; recon_lock_nb_match = RECON_DEF_NB_MATCH; squelch = -14; recon_match_mode = RECON_MATCH_CONTINUOUS; wait = RECON_DEF_WAIT_DURATION; volume = 40; return false; } if (it > 0) input_file = params[0]; else input_file = "RECON"; if (it > 1) output_file = params[1]; else output_file = "RECON_RESULTS"; if (it > 2) recon_lock_duration = strtoll(params[2].c_str(), nullptr, 10); else recon_lock_duration = RECON_MIN_LOCK_DURATION; if (it > 3) recon_lock_nb_match = strtoll(params[3].c_str(), nullptr, 10); else recon_lock_nb_match = RECON_DEF_NB_MATCH; if (it > 4) squelch = strtoll(params[4].c_str(), nullptr, 10); else squelch = -14; if (it > 5) recon_match_mode = strtoll(params[5].c_str(), nullptr, 10); else recon_match_mode = RECON_MATCH_CONTINUOUS; if (it > 6) wait = strtoll(params[6].c_str(), nullptr, 10); else wait = RECON_DEF_WAIT_DURATION; if (it > 7) volume = strtoll(params[7].c_str(), nullptr, 10); else volume = 40; return true; } bool ReconView::recon_save_config_to_sd() { File settings_file; make_new_directory(u"SETTINGS"); auto result = settings_file.create(RECON_CFG_FILE); if (result.is_valid()) return false; settings_file.write_line(input_file); settings_file.write_line(output_file); settings_file.write_line(to_string_dec_uint(recon_lock_duration)); settings_file.write_line(to_string_dec_uint(recon_lock_nb_match)); settings_file.write_line(to_string_dec_int(squelch)); settings_file.write_line(to_string_dec_uint(recon_match_mode)); settings_file.write_line(to_string_dec_int(wait)); settings_file.write_line(to_string_dec_int(volume)); return true; } void ReconView::audio_output_start() { audio::output::start(); receiver_model.set_headphone_volume(receiver_model.headphone_volume()); } void ReconView::recon_redraw() { if (last_rssi_min != rssi.get_min() || last_rssi_med != rssi.get_avg() || last_rssi_max != rssi.get_max()) { last_rssi_min = rssi.get_min(); last_rssi_med = rssi.get_avg(); last_rssi_max = rssi.get_max(); freq_stats.set("RSSI: " + to_string_dec_int(rssi.get_min()) + "/" + to_string_dec_int(rssi.get_avg()) + "/" + to_string_dec_int(rssi.get_max()) + " db"); } if (last_entry.frequency_a != freq) { last_entry.frequency_a = freq; big_display.set("FREQ:" + to_string_short_freq(freq) + " MHz"); } if (last_nb_match != recon_lock_nb_match || last_freq_lock != freq_lock) { last_freq_lock = freq_lock; last_nb_match = recon_lock_nb_match; text_nb_locks.set(to_string_dec_uint(freq_lock) + "/" + to_string_dec_uint(recon_lock_nb_match)); if (freq_lock == 0) { // NO FREQ LOCK, ONGOING STANDARD SCANNING big_display.set_style(&style_white); if (recon) button_pause.set_text(""); else button_pause.set_text(""); } else if (freq_lock == 1 && recon_lock_nb_match != 1) { // STARTING LOCK FREQ big_display.set_style(&style_yellow); button_pause.set_text(""); } else if (freq_lock >= recon_lock_nb_match) { big_display.set_style(&style_green); button_pause.set_text(""); // FREQ IS STRONG: GREEN and recon will pause when on_statistics_update() if ((!scanner_mode) && autosave && frequency_list.size() > 0) { recon_save_freq(freq_file_path, current_index, false); } } } if (last_db != db || last_list_size != frequency_list.size()) { last_list_size = frequency_list.size(); last_db = db; text_max.set("/" + to_string_dec_uint(frequency_list.size()) + " " + to_string_dec_int(db) + " db"); } } void ReconView::handle_retune() { if (last_freq != freq) { last_freq = freq; receiver_model.set_tuning_frequency(freq); // Retune } if (frequency_list.size() > 0) { if (last_entry.modulation != frequency_list[current_index].modulation && frequency_list[current_index].modulation >= 0) { last_entry.modulation = frequency_list[current_index].modulation; field_mode.set_selected_index(frequency_list[current_index].modulation); } // Set bandwidth if any if (last_entry.bandwidth != frequency_list[current_index].bandwidth && frequency_list[current_index].bandwidth >= 0) { last_entry.bandwidth = frequency_list[current_index].bandwidth; switch (frequency_list[current_index].modulation) { case AM_MODULATION: receiver_model.set_am_configuration(freq); break; case NFM_MODULATION: receiver_model.set_nbfm_configuration(freq); break; case WFM_MODULATION: receiver_model.set_wfm_configuration(freq); default: break; } field_bw.set_selected_index(freq); } if (last_entry.step != frequency_list[current_index].step && frequency_list[current_index].step >= 0) { last_entry.step = frequency_list[current_index].step; step = freqman_entry_get_step_value(last_entry.step); step_mode.set_selected_index(step); } if (last_index != current_index) { last_index = current_index; if ((int32_t)frequency_list.size() && current_index < (int32_t)frequency_list.size() && frequency_list[current_index].type == RANGE) { if (update_ranges && !manual_mode) { button_manual_start.set_text(to_string_short_freq(frequency_list[current_index].frequency_a)); frequency_range.min = frequency_list[current_index].frequency_a; if (frequency_list[current_index].frequency_b != 0) { button_manual_end.set_text(to_string_short_freq(frequency_list[current_index].frequency_b)); frequency_range.max = frequency_list[current_index].frequency_b; } else { button_manual_end.set_text(to_string_short_freq(frequency_list[current_index].frequency_a)); frequency_range.max = frequency_list[current_index].frequency_a; } } } text_cycle.set_text(to_string_dec_uint(current_index + 1, 3)); if (frequency_list[current_index].description.size() > 0) { switch (frequency_list[current_index].type) { case RANGE: desc_cycle.set("R: " + frequency_list[current_index].description); // Show new description break; case HAMRADIO: desc_cycle.set("H: " + frequency_list[current_index].description); // Show new description break; default: case SINGLE: desc_cycle.set("S: " + frequency_list[current_index].description); // Show new description break; } } else { desc_cycle.set("...no description..."); // Show new description } } } } void ReconView::focus() { button_pause.focus(); } ReconView::~ReconView() { // save app config recon_save_config_to_sd(); // save app common settings settings.save("recon", &app_settings); audio::output::stop(); receiver_model.disable(); baseband::shutdown(); } ReconView::ReconView(NavigationView& nav) : nav_{nav} { add_children({&labels, &field_lna, &field_vga, &field_rf_amp, &field_volume, &field_bw, &field_squelch, &field_wait, &field_lock_wait, &button_config, &button_scanner_mode, &button_looking_glass, &file_name, &rssi, &text_cycle, &text_max, &text_nb_locks, &desc_cycle, &big_display, &freq_stats, &text_timer, &text_ctcss, &button_manual_start, &button_manual_end, &button_manual_recon, &field_mode, &step_mode, &button_pause, &button_audio_app, &button_add, &button_dir, &button_restart, &button_mic_app, &button_remove}); def_step = 0; // HELPER: Pre-setting a manual range, based on stored frequency rf::Frequency stored_freq = persistent_memory::tuned_frequency(); receiver_model.set_tuning_frequency(stored_freq); if (stored_freq - OneMHz > 0) frequency_range.min = stored_freq - OneMHz; else frequency_range.min = 0; button_manual_start.set_text(to_string_short_freq(frequency_range.min)); if (stored_freq + OneMHz < MAX_UFREQ) frequency_range.max = stored_freq + OneMHz; else frequency_range.max = MAX_UFREQ; button_manual_end.set_text(to_string_short_freq(frequency_range.max)); // Loading settings autostart = persistent_memory::recon_autostart_recon(); autosave = persistent_memory::recon_autosave_freqs(); continuous = persistent_memory::recon_continuous(); filedelete = persistent_memory::recon_clear_output(); load_freqs = persistent_memory::recon_load_freqs(); load_ranges = persistent_memory::recon_load_ranges(); load_hamradios = persistent_memory::recon_load_hamradios(); update_ranges = persistent_memory::recon_update_ranges_when_recon(); field_volume.set_value(volume); if (sd_card_mounted) { // load auto common app settings auto rc = settings.load("recon", &app_settings); if (rc == SETTINGS_OK) { field_lna.set_value(app_settings.lna); field_vga.set_value(app_settings.vga); field_rf_amp.set_value(app_settings.rx_amp); receiver_model.set_rf_amp(app_settings.rx_amp); } } button_manual_start.on_select = [this, &nav](ButtonWithEncoder& button) { clear_freqlist_for_ui_action(); auto new_view = nav_.push(frequency_range.min); new_view->on_changed = [this, &button](rf::Frequency f) { frequency_range.min = f; button_manual_start.set_text(to_string_short_freq(f)); }; }; button_manual_end.on_select = [this, &nav](ButtonWithEncoder& button) { clear_freqlist_for_ui_action(); auto new_view = nav.push(frequency_range.max); new_view->on_changed = [this, &button](rf::Frequency f) { frequency_range.max = f; button_manual_end.set_text(to_string_short_freq(f)); }; }; text_cycle.on_select = [this, &nav](ButtonWithEncoder& button) { if (frequency_list.size() > 0) { auto new_view = nav_.push(current_index); new_view->on_changed = [this, &button](rf::Frequency f) { f = f / OneMHz; if (f >= 1 && f <= frequency_list.size()) { index_stepper = f - 1 - current_index; freq_lock = 0; } }; } }; button_manual_start.on_change = [this]() { frequency_range.min = frequency_range.min + button_manual_start.get_encoder_delta() * freqman_entry_get_step_value(def_step); if (frequency_range.min < 0) { frequency_range.min = 0; } if (frequency_range.min > (MAX_UFREQ - freqman_entry_get_step_value(def_step))) { frequency_range.min = MAX_UFREQ - freqman_entry_get_step_value(def_step); } if (frequency_range.min > (frequency_range.max - freqman_entry_get_step_value(def_step))) { frequency_range.max = frequency_range.min + freqman_entry_get_step_value(def_step); if (frequency_range.max > MAX_UFREQ) { frequency_range.min = MAX_UFREQ - freqman_entry_get_step_value(def_step); frequency_range.max = MAX_UFREQ; } } button_manual_start.set_text(to_string_short_freq(frequency_range.min)); button_manual_end.set_text(to_string_short_freq(frequency_range.max)); button_manual_start.set_encoder_delta(0); }; button_manual_end.on_change = [this]() { frequency_range.max = frequency_range.max + button_manual_end.get_encoder_delta() * freqman_entry_get_step_value(def_step); if (frequency_range.max < (freqman_entry_get_step_value(def_step) + 1)) { frequency_range.max = (freqman_entry_get_step_value(def_step) + 1); } if (frequency_range.max > MAX_UFREQ) { frequency_range.max = MAX_UFREQ; } if (frequency_range.max < (frequency_range.min + freqman_entry_get_step_value(def_step))) { frequency_range.min = frequency_range.max - freqman_entry_get_step_value(def_step); if (frequency_range.max < (freqman_entry_get_step_value(def_step) + 1)) { frequency_range.min = 1; frequency_range.max = (freqman_entry_get_step_value(def_step) + 1); } } button_manual_start.set_text(to_string_short_freq(frequency_range.min)); button_manual_end.set_text(to_string_short_freq(frequency_range.max)); button_manual_end.set_encoder_delta(0); }; text_cycle.on_change = [this]() { on_index_delta(text_cycle.get_encoder_delta()); text_cycle.set_encoder_delta(0); }; button_pause.on_select = [this](ButtonWithEncoder&) { if (frequency_list.size() > 0) { if (freq_lock > 0) { if (fwd) { on_stepper_delta(1); } else { on_stepper_delta(-1); } button_pause.set_text(""); // Show button for non continuous stop } else { if (!recon) { recon_resume(); } else { recon_pause(); } } } }; button_pause.on_change = [this]() { on_stepper_delta(button_pause.get_encoder_delta()); button_pause.set_encoder_delta(0); }; button_audio_app.on_select = [this](Button&) { nav_.pop(); nav_.push(); }; button_looking_glass.on_select = [this](Button&) { nav_.pop(); nav_.push(); }; rssi.set_focusable(true); rssi.set_peak(true, 500); rssi.on_select = [this](RSSI&) { nav_.pop(); nav_.push(); }; button_mic_app.on_select = [this](Button&) { if (frequency_list.size() > 0 && current_index >= 0 && (unsigned)current_index < frequency_list.size()) { if (frequency_list[current_index].type == HAMRADIO) { // if it's a HAMRADIO entry, then frequency_a is the freq at which the repeater reveive, so we have to set it in transmit in mic app transmitter_model.set_tuning_frequency(frequency_list[current_index].frequency_a); // if it's a HAMRADIO entry, then frequency_b is the freq at which the repeater transmit, so we have to set it in receive in mic app receiver_model.set_tuning_frequency(frequency_list[current_index].frequency_b); } else { // it's single or range so we us actual tuned frequency transmitter_model.set_tuning_frequency(freq); receiver_model.set_tuning_frequency(freq); } } // there is no way yet to set modulation and bandwidth from Recon to MicApp nav_.pop(); nav_.push(); }; button_remove.on_select = [this](ButtonWithEncoder&) { if (frequency_list.size() > 0) { if (!manual_mode) { // scanner or recon (!scanner) mode // in both we delete index from live view, but only remove in output file in scanner_mode if (current_index >= (int32_t)frequency_list.size()) { current_index = frequency_list.size() - 1; } frequency_list.erase(frequency_list.begin() + current_index); if (current_index >= (int32_t)frequency_list.size()) { current_index = frequency_list.size() - 1; } if (frequency_list.size() > 0) { if (frequency_list[current_index].description.size() > 0) { switch (frequency_list[current_index].type) { case RANGE: desc_cycle.set("R: " + frequency_list[current_index].description); break; case HAMRADIO: desc_cycle.set("H: " + frequency_list[current_index].description); break; default: case SINGLE: desc_cycle.set("S: " + frequency_list[current_index].description); break; } } else { desc_cycle.set("...no description..."); } text_cycle.set_text(to_string_dec_uint(current_index + 1, 3)); } // also remove from output file if in scanner mode if (scanner_mode) { File freqman_file; delete_file(freq_file_path); auto result = freqman_file.create(freq_file_path); if (!result.is_valid()) { for (size_t n = 0; n < frequency_list.size(); n++) { std::string line; get_freq_string(frequency_list[n], line); freqman_file.write_line(line); } } } } else if (manual_mode) // only remove from output { File recon_file; File tmp_recon_file; std::string tmp_freq_file_path = freq_file_path + ".TMP"; std::string frequency_to_add; freqman_entry entry = frequency_list[current_index]; entry.frequency_a = freq; entry.frequency_b = 0; entry.modulation = last_entry.modulation; entry.bandwidth = last_entry.bandwidth; entry.type = SINGLE; get_freq_string(entry, frequency_to_add); delete_file(tmp_freq_file_path); auto result = tmp_recon_file.create(tmp_freq_file_path); // First recon if freq is already in txt if (!result.is_valid()) { bool found = false; result = recon_file.open(freq_file_path); // First recon if freq is already in txt if (!result.is_valid()) { char one_char[1]; // Read it char by char std::string line; // and put read line in here for (size_t pointer = 0; pointer < recon_file.size(); pointer++) { recon_file.seek(pointer); recon_file.read(one_char, 1); if ((int)one_char[0] > 31) { // ascii space upwards line += one_char[0]; // add it to the textline } else if (one_char[0] == '\n') { // new Line if (line.compare(0, frequency_to_add.size(), frequency_to_add) == 0) { found = true; } else { tmp_recon_file.write_line(frequency_to_add); } line.clear(); // ready for next textline } } if (found) { delete_file(freq_file_path); rename_file(tmp_freq_file_path, freq_file_path); } else { delete_file(tmp_freq_file_path); } } } } receiver_model.set_tuning_frequency(frequency_list[current_index].frequency_a); // retune } if (frequency_list.size() == 0) { text_cycle.set_text(" "); desc_cycle.set("no entries in list"); // Show new description delete_file(freq_file_path); } timer = 0; freq_lock = 0; }; button_remove.on_change = [this]() { on_stepper_delta(button_remove.get_encoder_delta()); button_remove.set_encoder_delta(0); }; button_manual_recon.on_select = [this](Button&) { button_remove.set_text("DELETE"); scanner_mode = false; manual_mode = true; recon_pause(); if (!frequency_range.min || !frequency_range.max) { nav_.display_modal("Error", "Both START and END freqs\nneed a value"); } else if (frequency_range.min > frequency_range.max) { nav_.display_modal("Error", "END freq\nis lower than START"); } else { audio::output::stop(); // clear and shrink_to_fit are not enough to really start with a new, clean, empty vector // swap is the only way to achieve a perfect memory liberation std::vector().swap(frequency_list); freqman_entry manual_freq_entry; def_step = step_mode.selected_index(); // max range val manual_freq_entry.type = RANGE; manual_freq_entry.description = to_string_short_freq(frequency_range.min).erase(0, 1) + ">" + to_string_short_freq(frequency_range.max).erase(0, 1) + " S:" // current Manual range + freqman_entry_get_step_string_short(def_step); // euquiq: lame kludge to reduce spacing in step freq manual_freq_entry.frequency_a = frequency_range.min; // min range val manual_freq_entry.frequency_b = frequency_range.max; // max range val manual_freq_entry.modulation = -1; manual_freq_entry.bandwidth = -1; manual_freq_entry.step = def_step; frequency_list.push_back(manual_freq_entry); big_display.set_style(&style_white); // Back to white color freq_stats.set_style(&style_white); freq_stats.set("0/0/0"); text_cycle.set_text("1"); text_max.set("/1"); button_scanner_mode.set_style(&style_white); button_scanner_mode.set_text("MSEARCH"); file_name.set_style(&style_white); file_name.set("MANUAL RANGE RECON"); desc_cycle.set_style(&style_white); last_entry.modulation = -1; last_entry.bandwidth = -1; last_entry.step = -1; last_index = -1; current_index = 0; freq = manual_freq_entry.frequency_a; handle_retune(); recon_redraw(); recon_resume(); } }; button_dir.on_select = [this](Button&) { if (fwd) { fwd = false; button_dir.set_text(""); } timer = 0; if (!recon) recon_resume(); }; button_restart.on_select = [this](Button&) { if (frequency_list.size() > 0) { def_step = step_mode.selected_index(); // Use def_step from manual selector frequency_file_load(true); if (fwd) { button_dir.set_text("FW>"); } else { button_dir.set_text("(input_file, output_file, recon_lock_duration, recon_lock_nb_match, recon_match_mode); open_view->on_changed = [this](std::vector result) { freqlist_cleared_for_ui_action = false; input_file = result[0]; output_file = result[1]; freq_file_path = "/FREQMAN/" + output_file + ".TXT"; recon_lock_duration = strtol(result[2].c_str(), nullptr, 10); recon_lock_nb_match = strtol(result[3].c_str(), nullptr, 10); recon_match_mode = strtol(result[4].c_str(), nullptr, 10); recon_save_config_to_sd(); autosave = persistent_memory::recon_autosave_freqs(); autostart = persistent_memory::recon_autostart_recon(); continuous = persistent_memory::recon_continuous(); filedelete = persistent_memory::recon_clear_output(); load_freqs = persistent_memory::recon_load_freqs(); load_ranges = persistent_memory::recon_load_ranges(); load_hamradios = persistent_memory::recon_load_hamradios(); update_ranges = persistent_memory::recon_update_ranges_when_recon(); field_wait.set_value(wait); field_lock_wait.set_value(recon_lock_duration); colorize_waits(); frequency_file_load(false); if (autostart) { recon_resume(); } else { recon_pause(); } }; }; field_wait.on_change = [this](int32_t v) { wait = v; colorize_waits(); }; field_lock_wait.on_change = [this](uint32_t v) { recon_lock_duration = v; colorize_waits(); }; field_squelch.on_change = [this](int32_t v) { squelch = v; }; // PRE-CONFIGURATION: button_scanner_mode.set_style(&style_blue); button_scanner_mode.set_text("RECON"); file_name.set("=>"); // Loading input and output file from settings recon_load_config_from_sd(); freq_file_path = "/FREQMAN/" + output_file + ".TXT"; field_squelch.set_value(squelch); field_wait.set_value(wait); field_lock_wait.set_value(recon_lock_duration); colorize_waits(); // fill modulation and step options freqman_set_modulation_option(field_mode); freqman_set_step_option(step_mode); // set radio change_mode(AM_MODULATION); // start on AM. field_mode.set_by_value(AM_MODULATION); // reflect the mode into the manual selector receiver_model.set_tuning_frequency(portapack::persistent_memory::tuned_frequency()); // first tune if (filedelete) { delete_file(freq_file_path); } frequency_file_load(false); /* do not stop all at start */ if (autostart) { recon_resume(); } else { recon_pause(); } recon_redraw(); } void ReconView::frequency_file_load(bool stop_all_before) { (void)(stop_all_before); audio::output::stop(); def_step = step_mode.selected_index(); // use def_step from manual selector // clear and shrink_to_fit are not enough to really start with a new, clean, empty vector // swap is the only way to achieve a perfect memory liberation std::vector().swap(frequency_list); // clear the existing frequency list (expected behavior) std::string file_input = input_file; // default recon mode if (scanner_mode) { file_input = output_file; file_name.set_style(&style_red); button_scanner_mode.set_style(&style_red); button_scanner_mode.set_text("SCANNER"); } else { file_name.set_style(&style_blue); button_scanner_mode.set_style(&style_blue); button_scanner_mode.set_text("RECON"); } desc_cycle.set_style(&style_white); if (!load_freqman_file_ex(file_input, frequency_list, load_freqs, load_ranges, load_hamradios, RECON_FREQMAN_MAX_PER_FILE)) { file_name.set_style(&style_red); desc_cycle.set_style(&style_red); desc_cycle.set(" NO " + file_input + ".TXT FILE ..."); file_name.set("=> NO DATA"); } else { file_name.set("=> " + file_input); if (frequency_list.size() == 0) { file_name.set_style(&style_red); desc_cycle.set_style(&style_red); desc_cycle.set("/0 no entries in list"); file_name.set("BadOrEmpty " + file_input); } else { if (frequency_list.size() > RECON_FREQMAN_MAX_PER_FILE) { file_name.set_style(&style_yellow); desc_cycle.set_style(&style_yellow); } } } if (frequency_list[0].step >= 0) step = freqman_entry_get_step_value(frequency_list[0].step); else step = freqman_entry_get_step_value(def_step); switch (frequency_list[0].type) { case SINGLE: freq = frequency_list[0].frequency_a; break; case RANGE: minfreq = frequency_list[0].frequency_a; maxfreq = frequency_list[0].frequency_b; if (fwd) { freq = minfreq; } else { freq = maxfreq; } if (frequency_list[0].step >= 0) step = freqman_entry_get_step_value(frequency_list[0].step); break; case HAMRADIO: minfreq = frequency_list[0].frequency_a; maxfreq = frequency_list[0].frequency_b; if (fwd) { freq = minfreq; } else { freq = maxfreq; } break; default: break; } reset_indexes(); step_mode.set_selected_index(def_step); // Impose the default step into the manual step selector receiver_model.enable(); receiver_model.set_squelch_level(0); if (frequency_list.size() != 0) { switch (frequency_list[current_index].type) { case RANGE: description = "R: " + frequency_list[current_index].description; break; case HAMRADIO: description = "H: " + frequency_list[current_index].description; break; default: case SINGLE: description = "S: " + frequency_list[current_index].description; break; } text_cycle.set_text(to_string_dec_uint(current_index + 1, 3)); if (update_ranges && !manual_mode) { button_manual_start.set_text(to_string_short_freq(frequency_list[current_index].frequency_a)); frequency_range.min = frequency_list[current_index].frequency_a; if (frequency_list[current_index].frequency_b != 0) { button_manual_end.set_text(to_string_short_freq(frequency_list[current_index].frequency_b)); frequency_range.max = frequency_list[current_index].frequency_b; } else { button_manual_end.set_text(to_string_short_freq(frequency_list[current_index].frequency_a)); frequency_range.max = frequency_list[current_index].frequency_a; } } } else { text_cycle.set_text(" "); } desc_cycle.set(description); handle_retune(); } void ReconView::on_statistics_update(const ChannelStatistics& statistics) { // hack to reload the list if it was cleared by going into CONFIG if (freqlist_cleared_for_ui_action) { if (!manual_mode) { frequency_file_load(false); } if (autostart) { recon_resume(); } else { recon_pause(); } freqlist_cleared_for_ui_action = false; } db = statistics.max_db; if (recon) { if (!timer) { status = 0; continuous_lock = false; freq_lock = 0; timer = recon_lock_duration; big_display.set_style(&style_white); } if (freq_lock < recon_lock_nb_match) // LOCKING { if (status != 1) { status = 1; if (wait != 0) { audio::output::stop(); } } if (db > squelch) // MATCHING LEVEL { continuous_lock = true; freq_lock++; } else { // continuous, direct cut it if not consecutive match after 1 first match if (recon_match_mode == RECON_MATCH_CONTINUOUS) { if (freq_lock > 0) { timer = 0; continuous_lock = false; } } } } if (freq_lock >= recon_lock_nb_match) // LOCKED { if (status != 2) { continuous_lock = false; status = 2; if (wait != 0) { audio_output_start(); } if (wait >= 0) { timer = wait; } } if (wait < 0) { if (db > squelch) // MATCHING LEVEL IN STAY X AFTER LAST ACTIVITY { timer = abs(wait); } } } } if (last_timer != timer) { last_timer = timer; text_timer.set("TIMER: " + to_string_dec_int(timer)); } if (timer) { if (!continuous_lock) timer -= STATS_UPDATE_INTERVAL; if (timer < 0) { timer = 0; } } if (recon || stepper != 0 || index_stepper != 0) { if (!timer || stepper != 0 || index_stepper != 0) { // IF THERE IS A FREQUENCY LIST ... if (frequency_list.size() > 0) { has_looped = false; entry_has_changed = false; if (recon || stepper != 0 || index_stepper != 0) { if (index_stepper == 0) { /* we are doing a range */ if (frequency_list[current_index].type == RANGE) { if ((fwd && stepper == 0) || stepper > 0) { // forward freq += step; // if bigger than range max if (freq > maxfreq) { // when going forward we already know that we can skip a whole range => two values in the list current_index++; entry_has_changed = true; // looping if ((uint32_t)current_index >= frequency_list.size()) { has_looped = true; current_index = 0; } } } else if ((!fwd && stepper == 0) || stepper < 0) { // reverse freq -= step; // if lower than range min if (freq < minfreq) { // when back we have to check one step at a time current_index--; entry_has_changed = true; // looping if (current_index < 0) { has_looped = true; current_index = frequency_list.size() - 1; } } } } else if (frequency_list[current_index].type == SINGLE) { if ((fwd && stepper == 0) || stepper > 0) { // forward current_index++; entry_has_changed = true; // looping if ((uint32_t)current_index >= frequency_list.size()) { has_looped = true; current_index = 0; } } else if ((!fwd && stepper == 0) || stepper < 0) { // reverse current_index--; entry_has_changed = true; // if previous if under the list => go back from end if (current_index < 0) { has_looped = true; current_index = frequency_list.size() - 1; } } } else if (frequency_list[current_index].type == HAMRADIO) { if ((fwd && stepper == 0) || stepper > 0) { // forward if ((minfreq != maxfreq) && freq == minfreq) { freq = maxfreq; } else { current_index++; entry_has_changed = true; // looping if ((uint32_t)current_index >= frequency_list.size()) { has_looped = true; current_index = 0; } } } else if ((!fwd && stepper == 0) || stepper < 0) { // reverse if ((minfreq != maxfreq) && freq == maxfreq) { freq = minfreq; } else { current_index--; entry_has_changed = true; // if previous if under the list => go back from end if (current_index < 0) { has_looped = true; current_index = frequency_list.size() - 1; } } } } // set index to boundary if !continuous if (has_looped && !continuous) { entry_has_changed = true; /* prepare values for the next run, when user will resume */ if ((fwd && stepper == 0) || stepper > 0) { current_index = 0; } else if ((!fwd && stepper == 0) || stepper < 0) { current_index = frequency_list.size() - 1; } } } else { current_index += index_stepper; if (current_index < 0) current_index += frequency_list.size(); if ((unsigned)current_index >= frequency_list.size()) current_index -= frequency_list.size(); entry_has_changed = true; if (!recon) // for some motive, audio output gets stopped. audio_output_start(); } // reload entry if changed if (entry_has_changed) { timer = 0; switch (frequency_list[current_index].type) { case SINGLE: freq = frequency_list[current_index].frequency_a; break; case RANGE: minfreq = frequency_list[current_index].frequency_a; maxfreq = frequency_list[current_index].frequency_b; if ((fwd && !stepper && !index_stepper) || stepper > 0 || index_stepper > 0) { freq = minfreq; } else if ((!fwd && !stepper && !index_stepper) || stepper < 0 || index_stepper < 0) { freq = maxfreq; } break; case HAMRADIO: minfreq = frequency_list[current_index].frequency_a; maxfreq = frequency_list[current_index].frequency_b; if ((fwd && !stepper && !index_stepper) || stepper > 0 || index_stepper > 0) { freq = minfreq; } else if ((!fwd && !stepper && !index_stepper) || stepper < 0 || index_stepper < 0) { freq = maxfreq; } break; default: break; } } if (has_looped && !continuous) { recon_pause(); } index_stepper = 0; if (stepper < 0) stepper++; if (stepper > 0) stepper--; } // if( recon || stepper != 0 || index_stepper != 0 ) } // if (frequency_list.size() > 0 ) } /* on_statistic_updates */ } handle_retune(); recon_redraw(); } void ReconView::recon_pause() { timer = 0; freq_lock = 0; continuous_lock = false; recon = false; audio_output_start(); big_display.set_style(&style_white); button_pause.set_text(""); // PAUSED, show resume } void ReconView::recon_resume() { timer = 0; freq_lock = 0; continuous_lock = false; recon = true; audio::output::stop(); big_display.set_style(&style_white); button_pause.set_text(""); } void ReconView::on_index_delta(int32_t v) { if (v > 0) { fwd = true; button_dir.set_text("FW>"); } if (v < 0) { fwd = false; button_dir.set_text(" 0) index_stepper = v; freq_lock = 0; timer = 0; } void ReconView::on_stepper_delta(int32_t v) { if (v > 0) { fwd = true; button_dir.set_text("FW>"); } if (v < 0) { fwd = false; button_dir.set_text(" 0) stepper = v; freq_lock = 0; timer = 0; } size_t ReconView::change_mode(freqman_index_t new_mod) { field_mode.on_change = [this](size_t, OptionsField::value_t) {}; field_bw.on_change = [this](size_t, OptionsField::value_t) {}; receiver_model.disable(); baseband::shutdown(); switch (new_mod) { case AM_MODULATION: freqman_set_bandwidth_option(new_mod, field_bw); // bw DSB (0) default field_bw.set_selected_index(0); baseband::run_image(portapack::spi_flash::image_tag_am_audio); receiver_model.set_modulation(ReceiverModel::Mode::AMAudio); receiver_model.set_am_configuration(field_bw.selected_index()); field_bw.on_change = [this](size_t n, OptionsField::value_t) { receiver_model.set_am_configuration(n); }; receiver_model.set_sampling_rate(3072000); receiver_model.set_baseband_bandwidth(1750000); text_ctcss.set(" "); break; case NFM_MODULATION: freqman_set_bandwidth_option(new_mod, field_bw); // bw 16k (2) default field_bw.set_selected_index(2); baseband::run_image(portapack::spi_flash::image_tag_nfm_audio); receiver_model.set_modulation(ReceiverModel::Mode::NarrowbandFMAudio); receiver_model.set_nbfm_configuration(field_bw.selected_index()); field_bw.on_change = [this](size_t n, OptionsField::value_t) { receiver_model.set_nbfm_configuration(n); }; receiver_model.set_sampling_rate(3072000); receiver_model.set_baseband_bandwidth(1750000); break; case WFM_MODULATION: freqman_set_bandwidth_option(new_mod, field_bw); // bw 200k (0) default field_bw.set_selected_index(0); baseband::run_image(portapack::spi_flash::image_tag_wfm_audio); receiver_model.set_modulation(ReceiverModel::Mode::WidebandFMAudio); receiver_model.set_wfm_configuration(field_bw.selected_index()); field_bw.on_change = [this](size_t n, OptionsField::value_t) { receiver_model.set_wfm_configuration(n); }; receiver_model.set_sampling_rate(3072000); receiver_model.set_baseband_bandwidth(1750000); text_ctcss.set(" "); break; default: break; } field_mode.set_selected_index(new_mod); field_mode.on_change = [this](size_t, OptionsField::value_t v) { if (v != -1) { change_mode(v); } }; if (!recon) // for some motive, audio output gets stopped. audio::output::start(); // so if recon was stopped we resume audio receiver_model.enable(); return freqman_entry_get_step_value(def_step); } void ReconView::handle_coded_squelch(const uint32_t value) { float diff, min_diff = value; size_t min_idx{0}; size_t c; if (field_mode.selected_index() != NFM_MODULATION) { text_ctcss.set(" "); return; } // Find nearest match for (c = 0; c < tone_keys.size(); c++) { diff = abs(((float)value / 100.0) - tone_keys[c].second); if (diff < min_diff) { min_idx = c; min_diff = diff; } } // Arbitrary confidence threshold if (last_squelch_index < 0 || (unsigned)last_squelch_index != min_idx) { last_squelch_index = min_idx; if (min_diff < 40) text_ctcss.set("T: " + tone_keys[min_idx].first); else text_ctcss.set(" "); } } } /* namespace ui */