/* * Copyright (C) 2014 Jared Boone, ShareBrained Technology, 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 "ais_app.hpp" #include "string_format.hpp" #include "baseband_api.hpp" #include "portapack.hpp" using namespace portapack; #include namespace ais { namespace format { static std::string latlon_abs_normalized(const int32_t normalized, const char suffixes[2]) { const auto suffix = suffixes[(normalized < 0) ? 0 : 1]; const uint32_t normalized_abs = std::abs(normalized); const uint32_t t = (normalized_abs * 5) / 3; const uint32_t degrees = t / (100 * 10000); const uint32_t fraction = t % (100 * 10000); return to_string_dec_uint(degrees) + "." + to_string_dec_uint(fraction, 6, '0') + suffix; } static std::string latlon(const Latitude latitude, const Longitude longitude) { if( latitude.is_valid() && longitude.is_valid() ) { return latlon_abs_normalized(latitude.normalized(), "SN") + " " + latlon_abs_normalized(longitude.normalized(), "WE"); } else if( latitude.is_not_available() && longitude.is_not_available() ) { return "not available"; } else { return "invalid"; } } static float latlon_float(const int32_t normalized) { return ((((float) normalized) * 5) / 3) / (100 * 10000); } static std::string mmsi( const ais::MMSI& mmsi ) { return to_string_dec_uint(mmsi, 9, '0'); // MMSI is always is always 9 characters pre-padded with zeros } static std::string navigational_status(const unsigned int value) { switch(value) { case 0: return "under way w/engine"; case 1: return "at anchor"; case 2: return "not under command"; case 3: return "restricted maneuv"; case 4: return "constrained draught"; case 5: return "moored"; case 6: return "aground"; case 7: return "fishing"; case 8: return "sailing"; case 9: case 10: case 13: return "reserved"; case 11: return "towing astern"; case 12: return "towing ahead/along"; case 14: return "SART/MOB/EPIRB"; case 15: return "undefined"; default: return "unknown"; } } static std::string rate_of_turn(const RateOfTurn value) { switch(value) { case -128: return "not available"; case -127: return "left >5 deg/30sec"; case 0: return "0 deg/min"; case 127: return "right >5 deg/30sec"; default: { std::string result = (value < 0) ? "left " : "right "; const float value_deg_sqrt = value / 4.733f; const int32_t value_deg = value_deg_sqrt * value_deg_sqrt; result += to_string_dec_uint(value_deg); result += " deg/min"; return result; } } } static std::string speed_over_ground(const SpeedOverGround value) { if( value == 1023 ) { return "not available"; } else if( value == 1022 ) { return ">= 102.2 knots"; } else { return to_string_dec_uint(value / 10) + "." + to_string_dec_uint(value % 10, 1) + " knots"; } } static std::string course_over_ground(const CourseOverGround value) { if( value > 3600 ) { return "invalid"; } else if( value == 3600 ) { return "not available"; } else { return to_string_dec_uint(value / 10) + "." + to_string_dec_uint(value % 10, 1) + " deg"; } } static std::string true_heading(const TrueHeading value) { if( value == 511 ) { return "not available"; } else if( value > 359 ) { return "invalid"; } else { return to_string_dec_uint(value) + " deg"; } } } /* namespace format */ } /* namespace ais */ void AISLogger::on_packet(const ais::Packet& packet) { // TODO: Unstuff here, not in baseband! std::string entry; entry.reserve((packet.length() + 3) / 4); for(size_t i=0; i= 10) ? ('W' + nibble) : ('0' + nibble); } log_file.write_entry(packet.received_at(), entry); } void AISRecentEntry::update(const ais::Packet& packet) { received_count++; switch(packet.message_id()) { case 1: case 2: case 3: navigational_status = packet.read(38, 4); last_position.rate_of_turn = packet.read(42, 8); last_position.speed_over_ground = packet.read(50, 10); last_position.timestamp = packet.received_at(); last_position.latitude = packet.latitude(89); last_position.longitude = packet.longitude(61); last_position.course_over_ground = packet.read(116, 12); last_position.true_heading = packet.read(128, 9); break; case 4: last_position.timestamp = packet.received_at(); last_position.latitude = packet.latitude(107); last_position.longitude = packet.longitude(79); break; case 5: call_sign = packet.text(70, 7); name = packet.text(112, 20); destination = packet.text(302, 20); break; case 21: name = packet.text(43, 20); last_position.timestamp = packet.received_at(); last_position.latitude = packet.latitude(192); last_position.longitude = packet.longitude(164); break; default: break; } } namespace ui { template<> void RecentEntriesTable::draw( const Entry& entry, const Rect& target_rect, Painter& painter, const Style& style ) { std::string line = ais::format::mmsi(entry.mmsi) + " "; if( !entry.name.empty() ) { line += entry.name; } else { line += entry.call_sign; } line.resize(target_rect.width() / 8, ' '); painter.draw_string(target_rect.location(), style, line); } AISRecentEntryDetailView::AISRecentEntryDetailView(NavigationView& nav) { add_children({ &button_done, &button_see_map, }); button_done.on_select = [this](const ui::Button&) { if( this->on_close ) { this->on_close(); } }; button_see_map.on_select = [this, &nav](Button&) { geomap_view = nav.push( entry_.name, 0, GeoPos::alt_unit::METERS, ais::format::latlon_float(entry_.last_position.latitude.normalized()), ais::format::latlon_float(entry_.last_position.longitude.normalized()), entry_.last_position.true_heading, [this]() { send_updates = false; }); send_updates = true; }; } void AISRecentEntryDetailView::update_position() { if (send_updates) geomap_view->update_position(ais::format::latlon_float(entry_.last_position.latitude.normalized()), ais::format::latlon_float(entry_.last_position.longitude.normalized()), (float)entry_.last_position.true_heading, 0); } void AISRecentEntryDetailView::focus() { button_done.focus(); } Rect AISRecentEntryDetailView::draw_field( Painter& painter, const Rect& draw_rect, const Style& style, const std::string& label, const std::string& value ) { const int label_length_max = 4; painter.draw_string(Point { draw_rect.left(), draw_rect.top() }, style, label); painter.draw_string(Point { draw_rect.left() + (label_length_max + 1) * 8, draw_rect.top() }, style, value); return { draw_rect.left(), draw_rect.top() + draw_rect.height(), draw_rect.width(), draw_rect.height() }; } void AISRecentEntryDetailView::paint(Painter& painter) { View::paint(painter); const auto s = style(); const auto rect = screen_rect(); auto field_rect = Rect { rect.left(), rect.top() + 16, rect.width(), 16 }; field_rect = draw_field(painter, field_rect, s, "MMSI", ais::format::mmsi(entry_.mmsi)); field_rect = draw_field(painter, field_rect, s, "Name", entry_.name); field_rect = draw_field(painter, field_rect, s, "Call", entry_.call_sign); field_rect = draw_field(painter, field_rect, s, "Dest", entry_.destination); field_rect = draw_field(painter, field_rect, s, "Last", to_string_datetime(entry_.last_position.timestamp)); field_rect = draw_field(painter, field_rect, s, "Pos ", ais::format::latlon(entry_.last_position.latitude, entry_.last_position.longitude)); field_rect = draw_field(painter, field_rect, s, "Stat", ais::format::navigational_status(entry_.navigational_status)); field_rect = draw_field(painter, field_rect, s, "RoT ", ais::format::rate_of_turn(entry_.last_position.rate_of_turn)); field_rect = draw_field(painter, field_rect, s, "SoG ", ais::format::speed_over_ground(entry_.last_position.speed_over_ground)); field_rect = draw_field(painter, field_rect, s, "CoG ", ais::format::course_over_ground(entry_.last_position.course_over_ground)); field_rect = draw_field(painter, field_rect, s, "Head", ais::format::true_heading(entry_.last_position.true_heading)); field_rect = draw_field(painter, field_rect, s, "Rx #", to_string_dec_uint(entry_.received_count)); } void AISRecentEntryDetailView::set_entry(const AISRecentEntry& entry) { entry_ = entry; set_dirty(); } AISAppView::AISAppView(NavigationView& nav) : nav_ { nav } { baseband::run_image(portapack::spi_flash::image_tag_ais); add_children({ &label_channel, &options_channel, &field_rf_amp, &field_lna, &field_vga, &rssi, &channel, &recent_entries_view, &recent_entry_detail_view, }); recent_entry_detail_view.hidden(true); target_frequency_ = initial_target_frequency; receiver_model.set_tuning_frequency(tuning_frequency()); receiver_model.set_sampling_rate(sampling_rate); receiver_model.set_baseband_bandwidth(baseband_bandwidth); receiver_model.enable(); // Before using radio::enable(), but not updating Ant.DC-Bias. /* radio::enable({ // this can be removed, previous version,no DC-bias control. tuning_frequency(), sampling_rate, baseband_bandwidth, rf::Direction::Receive, receiver_model.rf_amp(), static_cast(receiver_model.lna()), static_cast(receiver_model.vga()), }); */ options_channel.on_change = [this](size_t, OptionsField::value_t v) { this->on_frequency_changed(v); }; options_channel.set_by_value(target_frequency()); recent_entries_view.on_select = [this](const AISRecentEntry& entry) { this->on_show_detail(entry); }; recent_entry_detail_view.on_close = [this]() { this->on_show_list(); }; logger = std::make_unique(); if( logger ) { logger->append(u"ais.txt"); } } AISAppView::~AISAppView() { /* radio::disable(); */ receiver_model.disable(); // to switch off all, including DC bias. baseband::shutdown(); } void AISAppView::focus() { options_channel.focus(); } void AISAppView::set_parent_rect(const Rect new_parent_rect) { View::set_parent_rect(new_parent_rect); const Rect content_rect { 0, header_height, new_parent_rect.width(), new_parent_rect.height() - header_height }; recent_entries_view.set_parent_rect(content_rect); recent_entry_detail_view.set_parent_rect(content_rect); } void AISAppView::on_packet(const ais::Packet& packet) { if( logger ) { logger->on_packet(packet); } auto& entry = ::on_packet(recent, packet.source_id()); entry.update(packet); recent_entries_view.set_dirty(); // TODO: Crude hack, should be a more formal listener arrangement... if( entry.key() == recent_entry_detail_view.entry().key() ) { recent_entry_detail_view.set_entry(entry); recent_entry_detail_view.update_position(); } } void AISAppView::on_show_list() { recent_entries_view.hidden(false); recent_entry_detail_view.hidden(true); recent_entries_view.focus(); } void AISAppView::on_show_detail(const AISRecentEntry& entry) { recent_entries_view.hidden(true); recent_entry_detail_view.hidden(false); recent_entry_detail_view.set_entry(entry); recent_entry_detail_view.focus(); } void AISAppView::on_frequency_changed(const uint32_t new_target_frequency) { set_target_frequency(new_target_frequency); } void AISAppView::set_target_frequency(const uint32_t new_value) { target_frequency_ = new_value; radio::set_tuning_frequency(tuning_frequency()); } uint32_t AISAppView::target_frequency() const { return target_frequency_; } uint32_t AISAppView::tuning_frequency() const { return target_frequency() - (sampling_rate / 4); } } /* namespace ui */