/* * 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_adsb_tx.hpp" #include "ui_alphanum.hpp" #include "manchester.hpp" #include "string_format.hpp" #include "portapack.hpp" #include "baseband_api.hpp" #include #include using namespace adsb; using namespace portapack; namespace ui { Compass::Compass( const Point parent_pos ) : Widget { { parent_pos, { 64, 64 } } } { } void Compass::set_value(uint32_t new_value) { Point center = screen_pos() + Point(32, 32); new_value = range.clip(new_value); display.draw_line( center, center + polar_to_point(value_, 28), Color::dark_grey() ); display.draw_line( center, center + polar_to_point(new_value, 28), Color::green() ); value_ = new_value; } void Compass::paint(Painter&) { display.fill_circle(screen_pos() + Point(32, 32), 32, Color::dark_grey(), Color::black()); display.fill_rectangle({ screen_pos() + Point(32 - 2, 0), { 4, 4 } }, Color::black()); // N display.fill_rectangle({ screen_pos() + Point(32 - 2, 64 - 4), { 4, 4 } }, Color::black()); // S display.fill_rectangle({ screen_pos() + Point(0, 32 - 2), { 4, 4 } }, Color::black()); // W display.fill_rectangle({ screen_pos() + Point(64 - 4, 32 - 2), { 4, 4 } }, Color::black()); // E set_value(value_); } ADSBView::ADSBView() { add_child(&check_enable); hidden(true); check_enable.on_select = [this](Checkbox&, bool value) { enabled = value; }; } void ADSBView::set_enabled(bool value) { check_enable.set_value(value); } void ADSBView::set_type(std::string type) { check_enable.set_text("Transmit " + type); } void ADSBView::focus() { check_enable.focus(); } ADSBPositionView::ADSBPositionView(NavigationView& nav) { set_type("position"); add_children({ &geopos, &button_set_map }); geopos.set_altitude(36000); button_set_map.on_select = [this, &nav](Button&) { nav.push( geopos.altitude(), geopos.lat(), geopos.lon(), [this](int32_t altitude, float lat, float lon) { geopos.set_altitude(altitude); geopos.set_lat(lat); geopos.set_lon(lon); }); }; } void ADSBPositionView::collect_frames(const uint32_t ICAO_address, std::vector& frame_list) { ADSBFrame temp_frame; encode_frame_pos(temp_frame, ICAO_address, geopos.altitude(), geopos.lat(), geopos.lon(), 0); frame_list.emplace_back(temp_frame); encode_frame_pos(temp_frame, ICAO_address, geopos.altitude(), geopos.lat(), geopos.lon(), 1); frame_list.emplace_back(temp_frame); } ADSBCallsignView::ADSBCallsignView(NavigationView& nav) { set_type("callsign"); add_children({ &labels_callsign, &button_callsign }); set_enabled(true); button_callsign.set_text(callsign); button_callsign.on_select = [this, &nav](Button&) { text_prompt(nav, &callsign, 8); }; } void ADSBCallsignView::collect_frames(const uint32_t ICAO_address, std::vector& frame_list) { ADSBFrame temp_frame; encode_frame_id(temp_frame, ICAO_address, callsign); frame_list.emplace_back(temp_frame); } ADSBSpeedView::ADSBSpeedView() { set_type("speed"); add_children({ &labels_speed, &compass, &field_angle, &field_speed }); field_angle.set_value(0); field_speed.set_value(400); field_angle.on_change = [this](int32_t v) { compass.set_value(v); }; } void ADSBSpeedView::collect_frames(const uint32_t ICAO_address, std::vector& frame_list) { ADSBFrame temp_frame; encode_frame_velo(temp_frame, ICAO_address, field_speed.value(), field_angle.value(), 0); // TODO: v_rate frame_list.emplace_back(temp_frame); } ADSBSquawkView::ADSBSquawkView() { set_type("squawk"); add_children({ &labels_squawk, &field_squawk }); } void ADSBSquawkView::collect_frames(const uint32_t ICAO_address, std::vector& frame_list) { ADSBFrame temp_frame; (void)ICAO_address; encode_frame_squawk(temp_frame, field_squawk.value_dec_u32()); frame_list.emplace_back(temp_frame); } void ADSBTxView::focus() { tab_view.focus(); } ADSBTxView::~ADSBTxView() { transmitter_model.disable(); baseband::shutdown(); } void ADSBTxView::generate_frames() { const uint32_t ICAO_address = sym_icao.value_hex_u64(); /* This scheme kinda sucks. Each "tab"'s collect_frames method * is called to generate its related frame(s). Getting values * from each widget of each tab would be better ? * */ view_position.collect_frames(ICAO_address, frames); view_callsign.collect_frames(ICAO_address, frames); view_speed.collect_frames(ICAO_address, frames); view_squawk.collect_frames(ICAO_address, frames); // DEBUG: Show how many frames were generated text_frame.set(to_string_dec_uint(frames.size()) + " frame(s)."); //memset(bin_ptr, 0, 240); //auto raw_ptr = frames[0].get_raw_data(); // The preamble isn't manchester encoded //memcpy(bin_ptr, adsb_preamble, 16); // Convert to binary with manchester encoding (1 byte per bit, faster for baseband code) /*for (c = 0; c < 112; c++) { if ((raw_ptr[c >> 3] << (c & 7)) & 0x80) { bin_ptr[(c * 2) + 16] = 1; bin_ptr[(c * 2) + 16 + 1] = 0; } else { bin_ptr[(c * 2) + 16] = 0; bin_ptr[(c * 2) + 16 + 1] = 1; } }*/ /*manchester_encode(bin_ptr + 16, raw_ptr, 112, 0); // Display in hex for debug text_frame.set(to_string_hex_array(frames[0].get_raw_data(), 14)); button_callsign.set_text(callsign);*/ } void ADSBTxView::start_tx() { generate_frames(); transmitter_model.set_sampling_rate(4000000U); transmitter_model.set_rf_amp(true); transmitter_model.set_baseband_bandwidth(10000000); transmitter_model.enable(); baseband::set_adsb(); } void ADSBTxView::on_txdone(const bool v) { (void)v; /*if (v) { transmitter_model.disable(); tx_view.set_transmitting(false); }*/ } void ADSBTxView::rotate_frames() { uint8_t * bin_ptr = shared_memory.bb_data.data; uint8_t * raw_ptr; uint32_t frame_index = 0; //, plane_index = 0; uint32_t c; //, regen = 0; //float offs = 0; for (;;) { /*if (!regen) { regen = 10; encode_frame_id(frames[0], plane_index, "DEMO" + to_string_dec_uint(plane_index)); encode_frame_pos(frames[1], plane_index, 5000, plane_lats[plane_index]/8 + offs + 38.5, plane_lons[plane_index]/8 + 125.8, 0); encode_frame_pos(frames[2], plane_index, 5000, plane_lats[plane_index]/8 + offs + 38.5, plane_lons[plane_index]/8 + 125.8, 1); encode_frame_identity(frames[3], plane_index, 1337); if (plane_index == 11) plane_index = 0; else plane_index++; offs += 0.001; }*/ memset(bin_ptr, 0, 240); raw_ptr = frames[frame_index].get_raw_data(); memcpy(bin_ptr, adsb_preamble, 16); // Convert to binary (1 byte per bit, faster for baseband code) for (c = 0; c < 112; c++) { if ((raw_ptr[c >> 3] << (c & 7)) & 0x80) { bin_ptr[(c * 2) + 16] = 1; bin_ptr[(c * 2) + 16 + 1] = 0; } else { bin_ptr[(c * 2) + 16] = 0; bin_ptr[(c * 2) + 16 + 1] = 1; } } baseband::set_adsb(); chThdSleepMilliseconds(50); if (frame_index == frames.size()) { frame_index = 0; //if (regen) // regen--; } else { frame_index++; } } } ADSBTxView::ADSBTxView( NavigationView& nav ) : nav_ { nav } { Rect view_rect = { 0, 7 * 8, 240, 192 }; baseband::run_image(portapack::spi_flash::image_tag_adsb_tx); add_children({ &tab_view, &labels, &sym_icao, &view_position, &view_callsign, &view_speed, &view_squawk, &text_frame, &tx_view }); view_position.set_parent_rect(view_rect); view_callsign.set_parent_rect(view_rect); view_speed.set_parent_rect(view_rect); view_squawk.set_parent_rect(view_rect); tx_view.on_start = [this]() { start_tx(); tx_view.set_transmitting(true); // Disable for DEBUG //rotate_frames(); }; tx_view.on_stop = [this]() { tx_view.set_transmitting(false); transmitter_model.disable(); }; } } /* namespace ui */