/* * Copyright (C) 2015 Jared Boone, ShareBrained Technology, Inc. * Copyright (C) 2016 Furrtek * * 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_scanner.hpp" #include "baseband_api.hpp" #include "string_format.hpp" using namespace portapack; namespace ui { template<> void RecentEntriesTable::draw( const Entry& entry, const Rect& target_rect, Painter& painter, const Style& style ) { std::string str_duration = ""; if (entry.duration < 600) str_duration = to_string_dec_uint(entry.duration / 10) + "." + to_string_dec_uint(entry.duration % 10) + "s"; else str_duration = to_string_dec_uint(entry.duration / 600) + "m" + to_string_dec_uint((entry.duration / 10) % 60) + "s"; str_duration.resize(target_rect.width() / 8, ' '); painter.draw_string(target_rect.location(), style, to_string_short_freq(entry.frequency) + " " + entry.time + " " + str_duration); } void ScannerView::focus() { field_frequency_min.focus(); } ScannerView::~ScannerView() { receiver_model.disable(); baseband::shutdown(); } void ScannerView::do_detection() { uint8_t power_max = 0; int32_t bin_max = -1; uint32_t bin_max_pixel = 0; uint8_t power; rtc::RTC datetime; std::string str_approx, str_timestamp; mean_power = mean_acc / (SCAN_BIN_NB_NO_DC * slices_nb); mean_acc = 0; overall_power_max = 0; // Find max power over threshold for all slices for (size_t slice = 0; slice < slices_nb; slice++) { power = slices[slice].max_power; if (power > overall_power_max) overall_power_max = power; if ((power >= mean_power + power_threshold) && (power > power_max)) { power_max = power; bin_max_pixel = slices[slice].max_index; bin_max = bin_max_pixel + (slice * SCAN_BIN_NB); } } // Lock / release if ((bin_max >= last_bin - 2) && (bin_max <= last_bin + 2) && (bin_max > -1)) { // Staying around the same bin if (detect_timer >= DETECT_DELAY) { if ((bin_max != locked_bin) || (!locked)) { if (!locked) { resolved_frequency = slices[slice_counter].center_frequency + (SCAN_BIN_WIDTH * (bin_max - 120)); // Init // Check range if ((resolved_frequency >= f_min) && (resolved_frequency <= f_max)) { duration = 0; auto& entry = ::on_packet(recent, resolved_frequency); rtcGetTime(&RTCD1, &datetime); str_timestamp = to_string_dec_uint(datetime.hour(), 2, '0') + ":" + to_string_dec_uint(datetime.minute(), 2, '0') + ":" + to_string_dec_uint(datetime.second(), 2, '0'); entry.set_time(str_timestamp); recent_entries_view.set_dirty(); text_infos.set("Locked ! "); big_display.set_style(&style_locked); // Approximation/error display str_approx = "." + to_string_dec_uint(((resolved_frequency - 4883) / 1000) % 10000); str_approx += "~." + to_string_dec_uint(((resolved_frequency + 4883) / 1000) % 10000); text_approx.set(str_approx); locked = true; locked_bin = bin_max; // TODO /*nav_.pop(); receiver_model.disable(); baseband::shutdown(); nav_.pop();*/ /*if (options_goto.selected_index() == 1) nav_.push(false); else if (options_goto.selected_index() == 2) nav_.push(); */ } } big_display.set(resolved_frequency); } } release_timer = 0; } else { detect_timer = 0; if (locked) { if (release_timer >= RELEASE_DELAY) { locked = false; auto& entry = ::on_packet(recent, resolved_frequency); entry.set_duration(duration); recent_entries_view.set_dirty(); text_infos.set("Listening"); big_display.set_style(&style_grey); } } } last_bin = bin_max; scan_counter++; // Refresh red tick portapack::display.fill_rectangle({last_pos, 90, 1, 6}, Color::black()); if (bin_max > -1) { if (bin_max_pixel < 120) bin_max_pixel += 2; //else // bin_max_pixel -= 0; last_pos = (ui::Coord)bin_max_pixel; portapack::display.fill_rectangle({last_pos, 90, 1, 6}, Color::red()); } } void ScannerView::on_channel_spectrum(const ChannelSpectrum& spectrum) { uint8_t power_max = 0; int16_t bin_max = 0; uint8_t power; size_t bin; std::array pixel_row; baseband::spectrum_streaming_stop(); // Draw spectrum line for (bin = 0; bin < 120; bin++) { const auto pixel_color = spectrum_rgb3_lut[spectrum.db[134 + bin]]; // 134~253 in 0~119 pixel_row[bin] = pixel_color; } for (bin = 120; bin < 240; bin++) { const auto pixel_color = spectrum_rgb3_lut[spectrum.db[bin - 118]]; // 2~121 in 120~239 pixel_row[bin] = pixel_color; } display.draw_pixels( { { 0, 88 + slice_counter * 2 }, { pixel_row.size(), 1 } }, pixel_row ); // Find max power for this slice for (bin = 0 ; bin < 120; bin++) { power = spectrum.db[134 + bin]; mean_acc += power; if (power > power_max) { power_max = power; bin_max = bin - 2; } } for (bin = 120; bin < 240; bin++) { power = spectrum.db[bin - 118]; mean_acc += power; if (power > power_max) { power_max = power; bin_max = bin + 2; } } slices[slice_counter].max_power = power_max; slices[slice_counter].max_index = bin_max; // Slice update if (slices_nb > 1) { slice_counter++; if (slice_counter >= slices_nb) { do_detection(); slice_counter = 0; } receiver_model.set_tuning_frequency(slices[slice_counter].center_frequency); } else { do_detection(); } baseband::spectrum_streaming_start(); } void ScannerView::on_show() { baseband::spectrum_streaming_start(); } void ScannerView::on_hide() { baseband::spectrum_streaming_stop(); } void ScannerView::on_range_changed() { rf::Frequency slices_span, center_frequency; int64_t offset; size_t slice; f_min = field_frequency_min.value(); f_max = field_frequency_max.value(); scan_span = abs(f_max - f_min); if (scan_span > SCAN_SLICE_WIDTH) { // ex: 100M~115M (15M span): // slices_nb = (115M-100M)/2.5M = 6 slices_nb = (scan_span + SCAN_SLICE_WIDTH - 1) / SCAN_SLICE_WIDTH; if (slices_nb > 32) { text_slices.set("!!"); slices_nb = 32; } else { text_slices.set(to_string_dec_uint(slices_nb)); } // slices_span = 6 * 2.5M = 15M slices_span = slices_nb * SCAN_SLICE_WIDTH; // offset = 0 + 2.5/2 = 1.25M offset = ((scan_span - slices_span) / 2) + (SCAN_SLICE_WIDTH / 2); // slice_start = 100M + 1.25M = 101.25M center_frequency = std::min(f_min, f_max) + offset; for (slice = 0; slice < slices_nb; slice++) { slices[slice].center_frequency = center_frequency; center_frequency += SCAN_SLICE_WIDTH; } } else { slices[0].center_frequency = (f_max + f_min) / 2; receiver_model.set_tuning_frequency(slices[0].center_frequency); slices_nb = 1; text_slices.set("1"); } slice_counter = 0; } void ScannerView::on_lna_changed(int32_t v_db) { receiver_model.set_lna(v_db); } void ScannerView::on_vga_changed(int32_t v_db) { receiver_model.set_vga(v_db); } void ScannerView::do_timers() { if (timing_div >= 60) { // ~1Hz timing_div = 0; // Update scan rate text_rate.set(to_string_dec_uint(scan_counter, 3)); scan_counter = 0; } if (timing_div % 12 == 0) { // ~5Hz // Update power levels text_mean.set(to_string_dec_uint(mean_power, 3)); vu_max.set_value(overall_power_max); vu_max.set_mark(mean_power + power_threshold); } if (timing_div % 6 == 0) { // ~10Hz // Update timing indicator if (locked) { progress_timers.set_max(RELEASE_DELAY); progress_timers.set_value(RELEASE_DELAY - release_timer); } else { progress_timers.set_max(DETECT_DELAY); progress_timers.set_value(detect_timer); } // Increment timers if (detect_timer < DETECT_DELAY) detect_timer++; if (release_timer < RELEASE_DELAY) release_timer++; if (locked) duration++; } timing_div++; } ScannerView::ScannerView( NavigationView& nav ) : nav_ (nav) { baseband::run_image(portapack::spi_flash::image_tag_wideband_spectrum); add_children({ &labels, &field_frequency_min, &field_frequency_max, &field_lna, &field_vga, &field_threshold, &text_mean, &text_slices, &text_rate, &text_infos, &vu_max, &progress_timers, //&check_goto, //&options_goto, &big_display, &recent_entries_view, &text_approx }); recent_entries_view.set_parent_rect({ 0, 28 * 8, 240, 12 * 8 }); text_mean.set_style(&style_grey); text_slices.set_style(&style_grey); text_rate.set_style(&style_grey); progress_timers.set_style(&style_grey); big_display.set_style(&style_grey); baseband::set_spectrum(SCAN_SLICE_WIDTH, 32); //options_goto.set_selected_index(0); // Nothing field_threshold.set_value(80); field_threshold.on_change = [this](int32_t value) { power_threshold = value; }; field_frequency_min.set_value(receiver_model.tuning_frequency() - 1000000); field_frequency_min.set_step(100000); field_frequency_min.on_change = [this](rf::Frequency) { this->on_range_changed(); }; field_frequency_min.on_edit = [this, &nav]() { auto new_view = nav.push(receiver_model.tuning_frequency()); new_view->on_changed = [this](rf::Frequency f) { this->field_frequency_min.set_value(f); }; }; field_frequency_max.set_value(receiver_model.tuning_frequency() + 1000000); field_frequency_max.set_step(100000); field_frequency_max.on_change = [this](rf::Frequency) { this->on_range_changed(); }; field_frequency_max.on_edit = [this, &nav]() { auto new_view = nav.push(receiver_model.tuning_frequency()); new_view->on_changed = [this](rf::Frequency f) { this->field_frequency_max.set_value(f); }; }; field_lna.set_value(receiver_model.lna()); field_lna.on_change = [this](int32_t v) { this->on_lna_changed(v); }; field_vga.set_value(receiver_model.vga()); field_vga.on_change = [this](int32_t v_db) { this->on_vga_changed(v_db); }; progress_timers.set_max(DETECT_DELAY); on_range_changed(); receiver_model.set_modulation(ReceiverModel::Mode::SpectrumAnalysis); receiver_model.set_sampling_rate(SCAN_SLICE_WIDTH); receiver_model.set_baseband_bandwidth(2500000); receiver_model.enable(); } } /* namespace ui */