/* * Copyright (C) 2014 Jared Boone, ShareBrained Technology, Inc. * Copyright (C) 2017 Furrtek * Copyright (C) 2023 TJ Baginski * * 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 "ble_tx_app.hpp" #include "ble_rx_app.hpp" #include "ui_fileman.hpp" #include "ui_modemsetup.hpp" #include "audio.hpp" #include "baseband_api.hpp" #include "io_file.hpp" #include "modems.hpp" #include "portapack_persistent_memory.hpp" #include "rtc_time.hpp" #include "string_format.hpp" using namespace portapack; using namespace modems; namespace fs = std::filesystem; void BLELoggerTx::log_raw_data(const std::string& data) { log_file.write_entry(data); } bool hasValidHexPairs(const std::string& str, int totalPairs) { int validPairs = 0; for (int i = 0; i < totalPairs * 2; i += 2) { char c1 = str[i]; char c2 = str[i + 1]; if (!(std::isxdigit(c1) && std::isxdigit(c2))) { return false; // Return false if any pair is invalid. } validPairs++; } return (validPairs == totalPairs); } std::vector splitIntoStrings(const char* input) { std::vector result; int length = std::strlen(input); int start = 0; while (start < length) { int remaining = length - start; int chunkSize = (remaining > 30) ? 30 : remaining; result.push_back(std::string(input + start, chunkSize)); start += chunkSize; } return result; } uint32_t stringToUint32(const std::string& str) { size_t pos = 0; uint32_t result = 0; while (pos < str.size() && std::isdigit(str[pos])) { int digit = str[pos] - '0'; // Check for overflow before adding the next digit if (result > (UINT32_MAX - digit) / 10) { return 0; } result = result * 10 + digit; pos++; } return result; } void readUntil(File& file, char* result, std::size_t maxBufferSize, char delimiter) { std::size_t bytesRead = 0; while (true) { char ch; File::Result readResult = file.read(&ch, 1); if (readResult.is_ok() && readResult.value() > 0) { if (ch == delimiter) { // Found a space character, stop reading break; } else if (bytesRead < maxBufferSize) { // Append the character to the result if there's space result[bytesRead++] = ch; } else { // Buffer is full, break to prevent overflow break; } } else { break; // End of file or error } } // Null-terminate the result string result[bytesRead] = '\0'; } void generateRandomMacAddress(char* macAddress) { const char hexDigits[] = "0123456789ABCDEF"; // Generate 12 random hexadecimal characters for (int i = 0; i < 12; i++) { int randomIndex = rand() % 16; macAddress[i] = hexDigits[randomIndex]; } macAddress[12] = '\0'; // Null-terminate the string } static std::uint64_t get_freq_by_channel_number(uint8_t channel_number) { uint64_t freq_hz; switch (channel_number) { case 37: freq_hz = 2'402'000'000ull; break; case 38: freq_hz = 2'426'000'000ull; break; case 39: freq_hz = 2'480'000'000ull; break; case 0 ... 10: freq_hz = 2'404'000'000ull + channel_number * 2'000'000ull; break; case 11 ... 36: freq_hz = 2'428'000'000ull + (channel_number - 11) * 2'000'000ull; break; default: freq_hz = UINT64_MAX; } return freq_hz; } namespace ui { void BLETxView::focus() { button_open.focus(); } bool BLETxView::is_active() const { return (bool)is_running; } void BLETxView::file_error() { nav_.display_modal("Error", "File read error."); } void BLETxView::toggle() { if (is_active()) { stop(); } else { start(); } } void BLETxView::start() { // Generate new random Mac Address. generateRandomMacAddress(randomMac); if (!is_active()) { // Check if file is present before continuing. File data_file; auto error = data_file.open(file_path); if (error) { file_error(); check_loop.set_value(false); return; } else { // Send first or single packet. packet_counter = packets[current_packet].packet_count; progressbar.set_max(packets[current_packet].packet_count); button_play.set_bitmap(&bitmap_stop); baseband::set_btletx(channel_number, random_mac ? randomMac : packets[current_packet].macAddress, packets[current_packet].advertisementData, pduType); transmitter_model.enable(); is_running = true; } } else { // Send next packet. baseband::set_btletx(channel_number, random_mac ? randomMac : packets[current_packet].macAddress, packets[current_packet].advertisementData, pduType); } if ((packet_counter % 10) == 0) { text_packets_sent.set(to_string_dec_uint(packet_counter)); } packet_counter--; progressbar.set_value(packets[current_packet].packet_count - packet_counter); } void BLETxView::stop() { transmitter_model.disable(); progressbar.set_value(0); button_play.set_bitmap(&bitmap_play); check_loop.set_value(false); current_packet = 0; text_packets_sent.set(to_string_dec_uint(packets[0].packet_count)); packet_counter = packets[0].packet_count; update_packet_display(packets[0]); is_running = false; } void BLETxView::on_tx_progress(const bool done) { if (done) { if (is_active()) { // Reached end of current packet repeats. if (packet_counter == 0) { // Done sending all packets. if (current_packet == (num_packets - 1)) { // If looping, restart from beginning. if (check_loop.value()) { current_packet = 0; packet_counter = packets[current_packet].packet_count; update_packet_display(packets[current_packet]); } else { stop(); } } else { current_packet++; packet_counter = packets[current_packet].packet_count; update_packet_display(packets[current_packet]); } } else { if ((timer_count % timer_period) == 0) { start(); } } timer_count++; } } } BLETxView::BLETxView(NavigationView& nav) : nav_{nav} { baseband::run_image(portapack::spi_flash::image_tag_btle_tx); add_children({&button_open, &text_filename, &progressbar, &check_rand_mac, &field_frequency, &tx_view, // now it handles previous rfgain, rfamp. &check_loop, &button_play, &label_speed, &options_speed, &options_channel, &options_adv_type, &label_packet_index, &text_packet_index, &label_packets_sent, &text_packets_sent, &label_mac_address, &text_mac_address, &label_data_packet, &button_switch, &console}); field_frequency.set_step(0); button_play.on_select = [this](ImageButton&) { this->toggle(); }; options_channel.on_change = [this](size_t, int32_t i) { field_frequency.set_value(get_freq_by_channel_number(i)); channel_number = i; }; options_speed.on_change = [this](size_t, int32_t i) { timer_period = i; }; options_adv_type.on_change = [this](size_t, int32_t i) { pduType = (PKT_TYPE)i; }; options_speed.set_selected_index(0); check_rand_mac.set_value(false); check_rand_mac.on_select = [this](Checkbox&, bool v) { random_mac = v; }; button_open.on_select = [this, &nav](Button&) { auto open_view = nav.push(".TXT"); open_view->on_changed = [this](std::filesystem::path new_file_path) { on_file_changed(new_file_path); nav_.set_on_pop([this]() { button_play.focus(); }); }; }; button_switch.on_select = [this, &nav](Button&) { nav_.set_on_pop([this]() { nav_.push(); }); nav_.pop(); }; } void BLETxView::on_file_changed(const fs::path& new_file_path) { file_path = fs::path(u"/") + new_file_path; num_packets = 0; { // Get the size of the data file. File data_file; auto error = data_file.open(file_path); if (error) { file_error(); file_path = ""; return; } do { readUntil(data_file, packets[num_packets].macAddress, mac_address_size_str, ' '); readUntil(data_file, packets[num_packets].advertisementData, max_packet_size_str, ' '); readUntil(data_file, packets[num_packets].packetCount, max_packet_repeat_str, '\n'); uint64_t macAddressSize = strlen(packets[num_packets].macAddress); uint64_t advertisementDataSize = strlen(packets[num_packets].advertisementData); uint64_t packetCountSize = strlen(packets[num_packets].packetCount); packets[num_packets].packet_count = stringToUint32(packets[num_packets].packetCount); packet_counter = packets[num_packets].packet_count; // Verify Data. if ((macAddressSize == mac_address_size_str) && (advertisementDataSize < max_packet_size_str) && (packetCountSize < max_packet_repeat_str) && hasValidHexPairs(packets[num_packets].macAddress, macAddressSize / 2) && hasValidHexPairs(packets[num_packets].advertisementData, advertisementDataSize / 2) && (packets[num_packets].packet_count > 0) && (packets[num_packets].packet_count < max_packet_repeat_count)) { text_filename.set(truncate(file_path.filename().string(), 12)); } else { // Did not find any packets. if (num_packets == 0) { file_path = ""; return; } break; } num_packets++; } while (num_packets < max_num_packets); update_packet_display(packets[0]); } } void BLETxView::on_data(uint32_t value, bool is_data) { std::string str_console = ""; if (is_data) { str_console += (char)(value); } console.write(str_console); } void BLETxView::update_packet_display(BLETxPacket packet) { std::string formattedMacAddress = to_string_formatted_mac_address(packet.macAddress); std::vector strings = splitIntoStrings(packet.advertisementData); text_packet_index.set(to_string_dec_uint(current_packet)); text_packets_sent.set(to_string_dec_uint(packet.packet_count)); text_mac_address.set(formattedMacAddress); console.clear(true); for (const std::string& str : strings) { console.writeln(str); } } void BLETxView::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 - switch_button_height}; console.set_parent_rect(content_rect); } BLETxView::~BLETxView() { transmitter_model.disable(); baseband::shutdown(); } } /* namespace ui */