/* * Copyright (C) 2015 Jared Boone, ShareBrained Technology, Inc. * Copyright (C) 2016 Furrtek * Copyright (C) 2024 Mark Thompson * * 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 "portapack_persistent_memory.hpp" #include "audio.hpp" #include "crc.hpp" #include "file.hpp" #include "hal.h" #include "irq_controls.hpp" #include "memory_map.hpp" #include "portapack.hpp" #include "string_format.hpp" #include "ui_styles.hpp" #include "ui_painter.hpp" #include "ui_flash_utility.hpp" #include "utility.hpp" #include "rtc_time.hpp" #include #include #include #include #include #include using namespace std; namespace portapack { namespace persistent_memory { constexpr rf::Frequency target_frequency_reset_value{100000000}; using ppb_range_t = range_t; constexpr ppb_range_t ppb_range{-99000, 99000}; constexpr ppb_t ppb_reset_value{0}; using tone_mix_range_t = range_t; constexpr tone_mix_range_t tone_mix_range{10, 99}; constexpr int32_t tone_mix_reset_value{20}; using afsk_freq_range_t = range_t; constexpr afsk_freq_range_t afsk_freq_range{1, 4000}; constexpr int32_t afsk_mark_reset_value{1200}; constexpr int32_t afsk_space_reset_value{2200}; using modem_baudrate_range_t = range_t; constexpr modem_baudrate_range_t modem_baudrate_range{50, 9600}; constexpr int32_t modem_baudrate_reset_value{1200}; /* using modem_bw_range_t = range_t; constexpr modem_bw_range_t modem_bw_range { 1000, 50000 }; constexpr int32_t modem_bw_reset_value { 15000 }; */ using modem_repeat_range_t = range_t; constexpr modem_repeat_range_t modem_repeat_range{1, 99}; constexpr int32_t modem_repeat_reset_value{5}; using clkout_freq_range_t = range_t; constexpr clkout_freq_range_t clkout_freq_range{4, 60000}; // Min. CLK out of Si5351A/B/C-B is 2.5khz , but in our application -intermediate freq 800Mhz-,Min working CLK=4khz. constexpr uint16_t clkout_freq_reset_value{10000}; enum data_structure_version_enum : uint32_t { VERSION_CURRENT = 0x10000005, }; static const uint32_t TOUCH_CALIBRATION_MAGIC = 0x074af82f; /* UI config. * NB: Will be default init - override in defaults(). */ struct ui_config_t { uint16_t clkout_freq; // NB: bitsfields have to be the same type or the compiler will // split into a new byte hence uint8_t for these booleans. uint8_t backlight_timeout : 3; uint8_t enable_backlight_timeout : 1; uint8_t show_gui_return_icon : 1; uint8_t load_app_settings : 1; uint8_t save_app_settings : 1; uint8_t show_large_qr_code : 1; bool disable_touchscreen : 1; bool hide_clock : 1; bool clock_show_date : 1; bool clkout_enabled : 1; bool apply_fake_brightness : 1; bool stealth_mode : 1; bool config_login : 1; bool config_splash : 1; }; static_assert(sizeof(ui_config_t) == sizeof(uint32_t)); /* Additional UI config. * NB: Will be default init - override in defaults(). */ struct ui_config2_t { /* Top icon bar */ bool hide_speaker : 1; bool hide_converter : 1; bool hide_stealth : 1; bool hide_camera : 1; bool hide_sleep : 1; bool hide_bias_tee : 1; bool hide_clock : 1; bool hide_sd_card : 1; bool hide_mute : 1; bool hide_fake_brightness : 1; bool UNUSED_1 : 1; bool UNUSED_2 : 1; bool UNUSED_3 : 1; bool UNUSED_4 : 1; bool UNUSED_5 : 1; bool UNUSED_6 : 1; uint8_t PLACEHOLDER_2; uint8_t PLACEHOLDER_3; }; static_assert(sizeof(ui_config2_t) == sizeof(uint32_t)); /* Additional config. * NB: Will be default init - override in defaults(). */ struct misc_config_t { bool mute_audio : 1; bool disable_speaker : 1; bool config_disable_external_tcxo : 1; bool config_sdcard_high_speed_io : 1; bool config_disable_config_mode : 1; bool UNUSED_5 : 1; bool UNUSED_6 : 1; bool UNUSED_7 : 1; uint8_t PLACEHOLDER_1; uint8_t PLACEHOLDER_2; uint8_t PLACEHOLDER_3; }; static_assert(sizeof(misc_config_t) == sizeof(uint32_t)); #define MC_CONFIG_DISABLE_CONFIG_MODE 0x00000010 // config_disable_config_mode bit in struct above /* IMPORTANT: Update dump_persistent_memory (below) when changing data_t. */ /* Struct must pack the same way on M4 and M0 cores. * NB: When adding new members, keep 32bit-aligned.*/ struct data_t { data_structure_version_enum structure_version; int64_t target_frequency; int32_t correction_ppb; uint32_t touch_calibration_magic; touch::Calibration touch_calibration; // 7 * 32 bits. // Modem uint32_t modem_def_index; serial_format_t serial_format; int32_t modem_bw; int32_t afsk_mark_freq; int32_t afsk_space_freq; int32_t modem_baudrate; int32_t modem_repeat; // Play dead unlock (Used?) uint32_t playdead_magic; uint32_t playing_dead; uint32_t playdead_sequence; // UI Config ui_config_t ui_config; uint32_t pocsag_last_address; uint32_t pocsag_ignore_address; int32_t tone_mix; // Hardware uint32_t hardware_config; // Recon App uint64_t recon_config; int8_t recon_repeat_nb; int8_t recon_repeat_gain; uint8_t recon_repeat_delay; // enable or disable converter bool converter; // set up converter (false) or down converter (true) converter bool updown_converter; bool updown_frequency_rx_correction; bool updown_frequency_tx_correction; bool UNUSED_4 : 1; bool UNUSED_5 : 1; bool UNUSED_6 : 1; bool UNUSED_7 : 1; // up/down converter offset int64_t converter_frequency_offset; // frequency correction uint32_t frequency_rx_correction; uint32_t frequency_tx_correction; // Rotary encoder dial sensitivity (encoder.cpp/hpp) uint16_t encoder_dial_sensitivity : 4; // fake brightness level (not switch, switch is in another place) uint16_t fake_brightness_level : 4; // Encoder rotation rate multiplier for larger increments when rotated rapidly uint16_t encoder_rate_multiplier : 4; uint16_t UNUSED : 4; // Headphone volume in centibels. int16_t headphone_volume_cb; // Misc flags misc_config_t misc_config; // Additional UI settings. ui_config2_t ui_config2; // recovery mode magic value storage uint32_t config_mode_storage; // Daylight savings time dst_config_t dst_config; constexpr data_t() : structure_version(data_structure_version_enum::VERSION_CURRENT), target_frequency(target_frequency_reset_value), correction_ppb(ppb_reset_value), touch_calibration_magic(TOUCH_CALIBRATION_MAGIC), touch_calibration(touch::Calibration()), modem_def_index(0), // TODO: Unused? serial_format(), modem_bw(15000), // TODO: Unused? afsk_mark_freq(afsk_mark_reset_value), afsk_space_freq(afsk_space_reset_value), modem_baudrate(modem_baudrate_reset_value), modem_repeat(modem_repeat_reset_value), playdead_magic(), // TODO: Unused? playing_dead(), // TODO: Unused? playdead_sequence(), // TODO: Unused? ui_config(), pocsag_last_address(0), // TODO: A better default? pocsag_ignore_address(0), // TODO: A better default? tone_mix(tone_mix_reset_value), hardware_config(0), recon_config(0), recon_repeat_nb(0), recon_repeat_gain(0), recon_repeat_delay(0), converter(false), updown_converter(false), updown_frequency_rx_correction(false), updown_frequency_tx_correction(false), UNUSED_4(false), UNUSED_5(false), UNUSED_6(false), UNUSED_7(false), converter_frequency_offset(0), frequency_rx_correction(0), frequency_tx_correction(0), encoder_dial_sensitivity(DIAL_SENSITIVITY_NORMAL), fake_brightness_level(BRIGHTNESS_50), encoder_rate_multiplier(1), UNUSED(0), headphone_volume_cb(-600), misc_config(), ui_config2(), config_mode_storage(CONFIG_MODE_NORMAL_VALUE), dst_config() { } }; struct backup_ram_t { private: volatile uint32_t regfile[PMEM_SIZE_WORDS - 1]; volatile uint32_t check_value; static void copy(const backup_ram_t& src, backup_ram_t& dst) { for (size_t i = 0; i < PMEM_SIZE_WORDS - 1; i++) { dst.regfile[i] = src.regfile[i]; } dst.check_value = src.check_value; } static void copy_from_data_t(const data_t& src, backup_ram_t& dst) { const uint32_t* const src_words = (uint32_t*)&src; const size_t word_count = (sizeof(data_t) + 3) / 4; for (size_t i = 0; i < PMEM_SIZE_WORDS - 1; i++) { if (i < word_count) { dst.regfile[i] = src_words[i]; } else { dst.regfile[i] = 0; } } } uint32_t compute_check_value() { CRC<32> crc{0x04c11db7, 0xffffffff, 0xffffffff}; for (size_t i = 0; i < PMEM_SIZE_WORDS - 1; i++) { const auto word = regfile[i]; crc.process_byte((word >> 0) & 0xff); crc.process_byte((word >> 8) & 0xff); crc.process_byte((word >> 16) & 0xff); crc.process_byte((word >> 24) & 0xff); } return crc.checksum(); } public: /* default constructor */ backup_ram_t() : check_value(0) { const data_t defaults = data_t(); copy_from_data_t(defaults, *this); } /* copy-assignment operator */ backup_ram_t& operator=(const backup_ram_t& src) { copy(src, *this); return *this; } /* Calculate a check value from `this`, and check against * the stored value. */ bool is_valid() { return compute_check_value() == check_value; } /* Assuming `this` contains valid data, update the checksum * and copy to the destination. */ void persist_to(backup_ram_t& dst) { check_value = compute_check_value(); copy(*this, dst); } /* Access functions for DebugPmemView */ uint32_t pmem_data_word(uint32_t index) { return (index > sizeof(regfile) / sizeof(uint32_t)) ? 0xFFFFFFFF : regfile[index]; } uint32_t pmem_stored_checksum(void) { return check_value; } uint32_t pmem_calculated_checksum(void) { return compute_check_value(); } }; static_assert(sizeof(backup_ram_t) == memory::map::backup_ram.size()); static_assert(sizeof(data_t) <= sizeof(backup_ram_t) - sizeof(uint32_t)); /* Uncomment to get a compiler error with the data_t size. */ // template // struct ShowSize; // ShowSize __data_t_size; static backup_ram_t* const backup_ram = reinterpret_cast(memory::map::backup_ram.base()); static backup_ram_t cached_backup_ram; static data_t* data = reinterpret_cast(&cached_backup_ram); namespace cache { void defaults() { cached_backup_ram = backup_ram_t(); // If the desired default is 0/false, then no need to set it here (buffer is initialized to 0) // NB: This function is only called when pmem is reset; also see firmware upgrade handling below. set_config_backlight_timer(backlight_config_t{}); set_config_splash(true); set_config_disable_external_tcxo(false); set_encoder_dial_sensitivity(DIAL_SENSITIVITY_NORMAL); set_config_speaker_disable(true); // Disable AK4951 speaker by default (in case of OpenSourceSDRLab H2) // Default values for recon app. set_recon_autosave_freqs(false); set_recon_autostart_recon(true); set_recon_continuous(true); set_recon_clear_output(false); set_recon_load_freqs(true); set_recon_load_repeaters(true); set_recon_load_ranges(true); set_recon_update_ranges_when_recon(true); set_recon_load_hamradios(true); set_recon_match_mode(0); set_recon_repeat_recorded(false); set_recon_repeat_amp(false); set_recon_repeat_gain(35); set_recon_repeat_nb(3); set_recon_repeat_delay(1); set_config_sdcard_high_speed_io(false, true); } void init() { const auto switches_state = swizzled_switches(); // ignore for valid check auto config_mode_backup = config_mode_storage_direct(); set_config_mode_storage_direct(CONFIG_MODE_NORMAL_VALUE); if (!(((switches_state >> (size_t)ui::KeyEvent::Left & 1) == 1) && ((switches_state >> (size_t)ui::KeyEvent::Right & 1) == 1)) && backup_ram->is_valid()) { // Copy valid persistent data into cache. cached_backup_ram = *backup_ram; // Check that structure data we copied into cache is the expected // version. If not, initialize cache to defaults. if (data->structure_version != data_structure_version_enum::VERSION_CURRENT) { // TODO: Can provide version-to-version upgrade functions here, // if we want to be fancy. defaults(); } } else { // Copy defaults into cache. defaults(); } set_config_mode_storage_direct(config_mode_backup); // Firmware upgrade handling - adjust newly defined fields where 0 is an invalid default if (fake_brightness_level() == 0) set_fake_brightness_level(BRIGHTNESS_50); } void persist() { cached_backup_ram.persist_to(*backup_ram); } } /* namespace cache */ uint32_t pmem_data_word(uint32_t index) { return backup_ram->pmem_data_word(index); } uint32_t pmem_stored_checksum(void) { return backup_ram->pmem_stored_checksum(); } uint32_t pmem_calculated_checksum(void) { return backup_ram->pmem_calculated_checksum(); } rf::Frequency target_frequency() { rf::tuning_range.reset_if_outside(data->target_frequency, target_frequency_reset_value); return data->target_frequency; } void set_target_frequency(const rf::Frequency new_value) { data->target_frequency = rf::tuning_range.clip(new_value); } volume_t headphone_volume() { auto volume = volume_t::centibel(data->headphone_volume_cb); volume = audio::headphone::volume_range().limit(volume); return volume; } void set_headphone_volume(volume_t new_value) { new_value = audio::headphone::volume_range().limit(new_value); data->headphone_volume_cb = new_value.centibel(); } ppb_t correction_ppb() { ppb_range.reset_if_outside(data->correction_ppb, ppb_reset_value); return data->correction_ppb; } void set_correction_ppb(const ppb_t new_value) { const auto clipped_value = ppb_range.clip(new_value); data->correction_ppb = clipped_value; portapack::clock_manager.set_reference_ppb(clipped_value); } void set_touch_calibration(const touch::Calibration& new_value) { data->touch_calibration = new_value; data->touch_calibration_magic = TOUCH_CALIBRATION_MAGIC; } const touch::Calibration& touch_calibration() { if (data->touch_calibration_magic != TOUCH_CALIBRATION_MAGIC) { set_touch_calibration(touch::Calibration()); } return data->touch_calibration; } int32_t tone_mix() { tone_mix_range.reset_if_outside(data->tone_mix, tone_mix_reset_value); return data->tone_mix; } void set_tone_mix(const int32_t new_value) { data->tone_mix = tone_mix_range.clip(new_value); } int32_t afsk_mark_freq() { afsk_freq_range.reset_if_outside(data->afsk_mark_freq, afsk_mark_reset_value); return data->afsk_mark_freq; } void set_afsk_mark(const int32_t new_value) { data->afsk_mark_freq = afsk_freq_range.clip(new_value); } int32_t afsk_space_freq() { afsk_freq_range.reset_if_outside(data->afsk_space_freq, afsk_space_reset_value); return data->afsk_space_freq; } void set_afsk_space(const int32_t new_value) { data->afsk_space_freq = afsk_freq_range.clip(new_value); } int32_t modem_baudrate() { modem_baudrate_range.reset_if_outside(data->modem_baudrate, modem_baudrate_reset_value); return data->modem_baudrate; } void set_modem_baudrate(const int32_t new_value) { data->modem_baudrate = modem_baudrate_range.clip(new_value); } /* int32_t modem_bw() { modem_bw_range.reset_if_outside(data->modem_bw, modem_bw_reset_value); return data->modem_bw; } void set_modem_bw(const int32_t new_value) { data->modem_bw = modem_bw_range.clip(new_value); } */ uint8_t modem_repeat() { modem_repeat_range.reset_if_outside(data->modem_repeat, modem_repeat_reset_value); return data->modem_repeat; } void set_modem_repeat(const uint32_t new_value) { data->modem_repeat = modem_repeat_range.clip(new_value); } serial_format_t serial_format() { return data->serial_format; } void set_serial_format(const serial_format_t new_value) { data->serial_format = new_value; } bool show_gui_return_icon() { // add return icon in touchscreen menu return data->ui_config.show_gui_return_icon != 0; } bool show_bigger_qr_code() { // show bigger QR code return data->ui_config.show_large_qr_code != 0; } bool disable_touchscreen() { // Option to disable touch screen return data->ui_config.disable_touchscreen; } bool hide_clock() { // Hide clock from main menu return data->ui_config.hide_clock; } bool clock_with_date() { // Show clock with date, if not hidden return data->ui_config.clock_show_date; } bool clkout_enabled() { return data->ui_config.clkout_enabled; } bool config_audio_mute() { return data->misc_config.mute_audio; } bool config_speaker_disable() { return data->misc_config.disable_speaker; } bool config_disable_external_tcxo() { return data->misc_config.config_disable_external_tcxo; } bool config_disable_config_mode() { return data->misc_config.config_disable_config_mode; } bool config_sdcard_high_speed_io() { return data->misc_config.config_sdcard_high_speed_io; } bool stealth_mode() { return data->ui_config.stealth_mode; } bool apply_fake_brightness() { return data->ui_config.apply_fake_brightness; } bool config_login() { return data->ui_config.config_login; } bool config_splash() { return data->ui_config.config_splash; } uint8_t config_cpld() { return data->hardware_config; } backlight_config_t config_backlight_timer() { return {static_cast(data->ui_config.backlight_timeout), data->ui_config.enable_backlight_timeout == 1}; } void set_gui_return_icon(bool v) { data->ui_config.show_gui_return_icon = v ? 1 : 0; } void set_load_app_settings(bool v) { data->ui_config.load_app_settings = v ? 1 : 0; } void set_save_app_settings(bool v) { data->ui_config.save_app_settings = v ? 1 : 0; } void set_show_bigger_qr_code(bool v) { data->ui_config.show_large_qr_code = v ? 1 : 0; } void set_disable_touchscreen(bool v) { data->ui_config.disable_touchscreen = v; } void set_clock_hidden(bool v) { data->ui_config.hide_clock = v; } void set_clock_with_date(bool v) { data->ui_config.clock_show_date = v; } void set_clkout_enabled(bool v) { data->ui_config.clkout_enabled = v; } void set_config_audio_mute(bool v) { data->misc_config.mute_audio = v; } void set_config_speaker_disable(bool v) { data->misc_config.disable_speaker = v; } void set_config_disable_external_tcxo(bool v) { data->misc_config.config_disable_external_tcxo = v; } void set_config_disable_config_mode(bool v) { data->misc_config.config_disable_config_mode = v; } void set_config_sdcard_high_speed_io(bool v, bool save) { if (v) { /* 200MHz / (2 * 2) = 50MHz */ /* TODO: Adjust SCU pin configurations: pull-up/down, slew, glitch filter? */ sdio_cclk_set(2); } else { /* 200MHz / (2 * 4) = 25MHz */ sdio_cclk_set(4); } if (save) data->misc_config.config_sdcard_high_speed_io = v; } void set_stealth_mode(bool v) { data->ui_config.stealth_mode = v; } void set_config_login(bool v) { data->ui_config.config_login = v; } void set_config_splash(bool v) { data->ui_config.config_splash = v; } void set_config_cpld(uint8_t i) { data->hardware_config = i; } void set_config_backlight_timer(const backlight_config_t& new_value) { data->ui_config.backlight_timeout = static_cast(new_value.timeout_enum()); data->ui_config.enable_backlight_timeout = static_cast(new_value.timeout_enabled()); } void set_apply_fake_brightness(const bool v) { data->ui_config.apply_fake_brightness = v; } uint32_t pocsag_last_address() { return data->pocsag_last_address; } void set_pocsag_last_address(uint32_t address) { data->pocsag_last_address = address; } uint32_t pocsag_ignore_address() { return data->pocsag_ignore_address; } void set_pocsag_ignore_address(uint32_t address) { data->pocsag_ignore_address = address; } uint16_t clkout_freq() { auto freq = data->ui_config.clkout_freq; if (freq < clkout_freq_range.minimum || freq > clkout_freq_range.maximum) set_clkout_freq(clkout_freq_reset_value); return data->ui_config.clkout_freq; } void set_clkout_freq(uint16_t freq) { data->ui_config.clkout_freq = freq; } /* Recon app */ bool recon_autosave_freqs() { return (data->recon_config & 0x80000000UL) ? true : false; } bool recon_autostart_recon() { return (data->recon_config & 0x40000000UL) ? true : false; } bool recon_continuous() { return (data->recon_config & 0x20000000UL) ? true : false; } bool recon_clear_output() { return (data->recon_config & 0x10000000UL) ? true : false; } bool recon_load_freqs() { return (data->recon_config & 0x08000000UL) ? true : false; } bool recon_load_ranges() { return (data->recon_config & 0x04000000UL) ? true : false; } bool recon_update_ranges_when_recon() { return (data->recon_config & 0x02000000UL) ? true : false; } bool recon_load_hamradios() { return (data->recon_config & 0x01000000UL) ? true : false; } bool recon_match_mode() { return (data->recon_config & 0x00800000UL) ? true : false; } bool recon_auto_record_locked() { return (data->recon_config & 0x00400000UL) ? true : false; } bool recon_repeat_recorded() { return (data->recon_config & 0x00200000UL) ? true : false; } int8_t recon_repeat_nb() { return data->recon_repeat_nb; } int8_t recon_repeat_gain() { return data->recon_repeat_gain; } uint8_t recon_repeat_delay() { return data->recon_repeat_delay; } bool recon_repeat_amp() { return (data->recon_config & 0x00100000UL) ? true : false; } bool recon_load_repeaters() { return (data->recon_config & 0x00080000UL) ? true : false; } void set_recon_autosave_freqs(const bool v) { data->recon_config = (data->recon_config & ~0x80000000UL) | (v << 31); } void set_recon_autostart_recon(const bool v) { data->recon_config = (data->recon_config & ~0x40000000UL) | (v << 30); } void set_recon_continuous(const bool v) { data->recon_config = (data->recon_config & ~0x20000000UL) | (v << 29); } void set_recon_clear_output(const bool v) { data->recon_config = (data->recon_config & ~0x10000000UL) | (v << 28); } void set_recon_load_freqs(const bool v) { data->recon_config = (data->recon_config & ~0x08000000UL) | (v << 27); } void set_recon_load_ranges(const bool v) { data->recon_config = (data->recon_config & ~0x04000000UL) | (v << 26); } void set_recon_update_ranges_when_recon(const bool v) { data->recon_config = (data->recon_config & ~0x02000000UL) | (v << 25); } void set_recon_load_hamradios(const bool v) { data->recon_config = (data->recon_config & ~0x01000000UL) | (v << 24); } void set_recon_match_mode(const bool v) { data->recon_config = (data->recon_config & ~0x00800000UL) | (v << 23); } void set_recon_auto_record_locked(const bool v) { data->recon_config = (data->recon_config & ~0x00400000UL) | (v << 22); } void set_recon_repeat_recorded(const bool v) { data->recon_config = (data->recon_config & ~0x00200000UL) | (v << 21); } void set_recon_repeat_nb(const int8_t v) { data->recon_repeat_nb = v; } void set_recon_repeat_gain(const int8_t v) { data->recon_repeat_gain = v; } void set_recon_repeat_delay(const uint8_t v) { data->recon_repeat_delay = v; } void set_recon_repeat_amp(const bool v) { data->recon_config = (data->recon_config & ~0x00100000UL) | (v << 20); } void set_recon_load_repeaters(const bool v) { data->recon_config = (data->recon_config & ~0x00080000UL) | (v << 19); } /* UI Config 2 */ bool ui_hide_speaker() { return data->ui_config2.hide_speaker; } bool ui_hide_mute() { return data->ui_config2.hide_mute; } bool ui_hide_converter() { return data->ui_config2.hide_converter; } bool ui_hide_stealth() { return data->ui_config2.hide_stealth; } bool ui_hide_camera() { return data->ui_config2.hide_camera; } bool ui_hide_sleep() { return data->ui_config2.hide_sleep; } bool ui_hide_bias_tee() { return data->ui_config2.hide_bias_tee; } bool ui_hide_clock() { return data->ui_config2.hide_clock; } bool ui_hide_sd_card() { return data->ui_config2.hide_sd_card; } bool ui_hide_fake_brightness() { return data->ui_config2.hide_fake_brightness; } void set_ui_hide_speaker(bool v) { data->ui_config2.hide_speaker = v; } void set_ui_hide_mute(bool v) { data->ui_config2.hide_mute = v; } void set_ui_hide_converter(bool v) { data->ui_config2.hide_converter = v; if (v) data->converter = false; } void set_ui_hide_stealth(bool v) { data->ui_config2.hide_stealth = v; } void set_ui_hide_camera(bool v) { data->ui_config2.hide_camera = v; } void set_ui_hide_sleep(bool v) { data->ui_config2.hide_sleep = v; } void set_ui_hide_bias_tee(bool v) { data->ui_config2.hide_bias_tee = v; } void set_ui_hide_clock(bool v) { data->ui_config2.hide_clock = v; } void set_ui_hide_sd_card(bool v) { data->ui_config2.hide_sd_card = v; } void set_ui_hide_fake_brightness(bool v) { data->ui_config2.hide_fake_brightness = v; } /* Converter */ bool config_converter() { return data->converter; } bool config_updown_converter() { return data->updown_converter; } int64_t config_converter_freq() { return data->converter_frequency_offset; } void set_config_converter(bool v) { data->converter = v; } void set_config_updown_converter(bool v) { data->updown_converter = v; } void set_config_converter_freq(int64_t v) { data->converter_frequency_offset = v; } // Frequency correction settings bool config_freq_tx_correction_updown() { return data->updown_frequency_tx_correction; } bool config_freq_rx_correction_updown() { return data->updown_frequency_rx_correction; } uint32_t config_freq_tx_correction() { return data->frequency_tx_correction; } uint32_t config_freq_rx_correction() { return data->frequency_rx_correction; } void set_freq_tx_correction_updown(bool v) { data->updown_frequency_tx_correction = v; } void set_freq_rx_correction_updown(bool v) { data->updown_frequency_rx_correction = v; } void set_config_freq_tx_correction(uint32_t v) { data->frequency_tx_correction = v; } void set_config_freq_rx_correction(uint32_t v) { data->frequency_rx_correction = v; } // Rotary encoder dial settings uint8_t encoder_dial_sensitivity() { return data->encoder_dial_sensitivity; } void set_encoder_dial_sensitivity(uint8_t v) { data->encoder_dial_sensitivity = v; } uint8_t encoder_rate_multiplier() { uint8_t v = data->encoder_rate_multiplier; if (v == 0) v = 1; // minimum value is 1; treat 0 the same as 1 return v; } void set_encoder_rate_multiplier(uint8_t v) { data->encoder_rate_multiplier = v; } // Recovery mode magic value storage static data_t* data_direct_access = reinterpret_cast(memory::map::backup_ram.base()); uint32_t config_mode_storage_direct() { return data_direct_access->config_mode_storage; } void set_config_mode_storage_direct(uint32_t v) { data_direct_access->config_mode_storage = v; } bool config_disable_config_mode_direct() { // "return data_direct_access->misc_config.config_disable_config_mode" // Casting as U32 as workaround for misaligned memory access uint32_t misc_config_u32 = *(uint32_t*)&data_direct_access->misc_config; return ((misc_config_u32 & MC_CONFIG_DISABLE_CONFIG_MODE) != 0); } // Daylight savings time bool dst_enabled() { return data->dst_config.b.dst_enabled; } void set_dst_enabled(bool v) { data->dst_config.b.dst_enabled = v; rtc_time::dst_init(); } dst_config_t config_dst() { return data->dst_config; } void set_config_dst(dst_config_t v) { data->dst_config = v; rtc_time::dst_init(); } // Fake brightness level (switch is in another place) uint8_t fake_brightness_level() { return data->fake_brightness_level; } void set_fake_brightness_level(uint8_t v) { data->fake_brightness_level = v; } // Cycle through 4 brightness options: disabled -> enabled/50% -> enabled/25% -> enabled/12.5% -> disabled void toggle_fake_brightness_level() { bool fbe = apply_fake_brightness(); if ((!fbe) || (data->fake_brightness_level >= BRIGHTNESS_12p5)) { set_apply_fake_brightness(!fbe); data->fake_brightness_level = BRIGHTNESS_50; } else { data->fake_brightness_level++; } } // PMem to sdcard settings bool should_use_sdcard_for_pmem() { return std::filesystem::file_exists(PMEM_FILEFLAG); } int save_persistent_settings_to_file() { File outfile; ensure_directory(SETTINGS_DIR); auto error = outfile.create(PMEM_SETTING_FILE); if (error) return false; outfile.write(reinterpret_cast(&cached_backup_ram), sizeof(backup_ram_t)); return true; } int load_persistent_settings_from_file() { File infile; auto error = infile.open(PMEM_SETTING_FILE); if (error) return false; infile.read(reinterpret_cast(&cached_backup_ram), sizeof(backup_ram_t)); return true; } // Pmem size helper size_t data_size() { return sizeof(data_t); } // Dump pmem, receiver and transmitter models internals in human readable format bool debug_dump() { ui::Painter painter{}; std::string debug_dir = "DEBUG"; std::filesystem::path filename{}; File pmem_dump_file{}; // create new dump file name and DEBUG directory ensure_directory(debug_dir); filename = next_filename_matching_pattern(debug_dir + "/DEBUG_DUMP_????.TXT"); if (filename.empty()) { painter.draw_string({0, 320 - 16}, ui::Styles::red, "COULD NOT GET DUMP NAME !"); return false; } // dump data fo filename auto error = pmem_dump_file.create(filename); if (error) { painter.draw_string({0, 320 - 16}, ui::Styles::red, "ERROR DUMPING " + filename.filename().string() + " !"); return false; } pmem_dump_file.write_line("FW version: " VERSION_STRING); pmem_dump_file.write_line("Ext APPS version req'd: 0x" + to_string_hex(VERSION_MD5)); pmem_dump_file.write_line("GCC version: " + to_string_dec_int(__GNUC__) + "." + to_string_dec_int(__GNUC_MINOR__) + "." + to_string_dec_int(__GNUC_PATCHLEVEL__)); // firmware checksum pmem_dump_file.write_line("Firmware calculated checksum: 0x" + to_string_hex(simple_checksum(FLASH_STARTING_ADDRESS, FLASH_ROM_SIZE), 8)); // write persistent memory pmem_dump_file.write_line("\n[Persistent Memory]"); // full variables pmem_dump_file.write_line("structure_version: 0x" + to_string_hex(data->structure_version, 8)); pmem_dump_file.write_line("target_frequency: " + to_string_dec_int(data->target_frequency)); pmem_dump_file.write_line("correction_ppb: " + to_string_dec_int(data->correction_ppb)); pmem_dump_file.write_line("modem_def_index: " + to_string_dec_uint(data->modem_def_index)); pmem_dump_file.write_line("serial_format.data_bit: " + to_string_dec_uint(data->serial_format.data_bits)); pmem_dump_file.write_line("serial_format.parity: " + to_string_dec_uint(data->serial_format.parity)); pmem_dump_file.write_line("serial_format.stop_bits: " + to_string_dec_uint(data->serial_format.stop_bits)); pmem_dump_file.write_line("serial_format.bit_order: " + to_string_dec_uint(data->serial_format.bit_order)); pmem_dump_file.write_line("modem_bw: " + to_string_dec_int(data->modem_bw)); pmem_dump_file.write_line("afsk_mark_freq: " + to_string_dec_int(data->afsk_mark_freq)); pmem_dump_file.write_line("afsk_space_freq: " + to_string_dec_int(data->afsk_space_freq)); pmem_dump_file.write_line("modem_baudrate: " + to_string_dec_int(data->modem_baudrate)); pmem_dump_file.write_line("modem_repeat: " + to_string_dec_int(data->modem_repeat)); pmem_dump_file.write_line("playdead_magic: " + to_string_dec_uint(data->playdead_magic)); pmem_dump_file.write_line("playing_dead: " + to_string_dec_uint(data->playing_dead)); pmem_dump_file.write_line("playdead_sequence: " + to_string_dec_uint(data->playdead_sequence)); pmem_dump_file.write_line("pocsag_last_address: " + to_string_dec_uint(data->pocsag_last_address)); pmem_dump_file.write_line("pocsag_ignore_address: " + to_string_dec_uint(data->pocsag_ignore_address)); pmem_dump_file.write_line("tone_mix: " + to_string_dec_uint(data->tone_mix)); pmem_dump_file.write_line("hardware_config: " + to_string_dec_uint(data->hardware_config)); pmem_dump_file.write_line("recon_config: 0x" + to_string_hex(data->recon_config, 16)); pmem_dump_file.write_line("recon_repeat_nb: " + to_string_dec_int(data->recon_repeat_nb)); pmem_dump_file.write_line("recon_repeat_gain: " + to_string_dec_int(data->recon_repeat_gain)); pmem_dump_file.write_line("recon_repeat_delay: " + to_string_dec_int(data->recon_repeat_delay)); pmem_dump_file.write_line("converter: " + to_string_dec_int(data->converter)); pmem_dump_file.write_line("updown_converter: " + to_string_dec_int(data->updown_converter)); pmem_dump_file.write_line("updown_frequency_rx_correction: " + to_string_dec_int(data->updown_frequency_rx_correction)); pmem_dump_file.write_line("updown_frequency_tx_correction: " + to_string_dec_int(data->updown_frequency_tx_correction)); // pmem_dump_file.write_line("UNUSED_4: " + to_string_dec_int(data->UNUSED_4)); // pmem_dump_file.write_line("UNUSED_5: " + to_string_dec_int(data->UNUSED_5)); // pmem_dump_file.write_line("UNUSED_6: " + to_string_dec_int(data->UNUSED_6)); // pmem_dump_file.write_line("UNUSED_7: " + to_string_dec_int(data->UNUSED_7)); pmem_dump_file.write_line("converter_frequency_offset: " + to_string_dec_int(data->converter_frequency_offset)); pmem_dump_file.write_line("frequency_rx_correction: " + to_string_dec_uint(data->frequency_rx_correction)); pmem_dump_file.write_line("frequency_tx_correction: " + to_string_dec_uint(data->frequency_tx_correction)); pmem_dump_file.write_line("encoder_dial_sensitivity: " + to_string_dec_uint(data->encoder_dial_sensitivity)); pmem_dump_file.write_line("encoder_rate_multiplier: " + to_string_dec_uint(data->encoder_rate_multiplier)); pmem_dump_file.write_line("headphone_volume_cb: " + to_string_dec_int(data->headphone_volume_cb)); pmem_dump_file.write_line("config_mode_storage: 0x" + to_string_hex(data->config_mode_storage, 8)); pmem_dump_file.write_line("dst_config: 0x" + to_string_hex((uint32_t)data->dst_config.v, 8)); pmem_dump_file.write_line("fake_brightness_level: " + to_string_dec_uint(data->fake_brightness_level)); // ui_config bits const auto backlight_timer = portapack::persistent_memory::config_backlight_timer(); pmem_dump_file.write_line("ui_config clkout_freq: " + to_string_dec_uint(clkout_freq())); pmem_dump_file.write_line("ui_config backlight_timer.timeout_enabled: " + to_string_dec_uint(backlight_timer.timeout_enabled())); pmem_dump_file.write_line("ui_config backlight_timer.timeout_seconds: " + to_string_dec_uint(backlight_timer.timeout_seconds())); pmem_dump_file.write_line("ui_config show_gui_return_icon: " + to_string_dec_uint(data->ui_config.show_gui_return_icon)); pmem_dump_file.write_line("ui_config load_app_settings: " + to_string_dec_uint(data->ui_config.load_app_settings)); pmem_dump_file.write_line("ui_config save_app_settings: " + to_string_dec_uint(data->ui_config.save_app_settings)); pmem_dump_file.write_line("ui_config show_bigger_qr_code: " + to_string_dec_uint(data->ui_config.show_large_qr_code)); pmem_dump_file.write_line("ui_config disable_touchscreen: " + to_string_dec_uint(data->ui_config.disable_touchscreen)); pmem_dump_file.write_line("ui_config hide_clock: " + to_string_dec_uint(data->ui_config.hide_clock)); pmem_dump_file.write_line("ui_config clock_with_date: " + to_string_dec_uint(data->ui_config.clock_show_date)); pmem_dump_file.write_line("ui_config clkout_enabled: " + to_string_dec_uint(data->ui_config.clkout_enabled)); pmem_dump_file.write_line("ui_config apply_fake_brightness: " + to_string_dec_uint(data->ui_config.apply_fake_brightness)); pmem_dump_file.write_line("ui_config stealth_mode: " + to_string_dec_uint(data->ui_config.stealth_mode)); pmem_dump_file.write_line("ui_config config_login: " + to_string_dec_uint(data->ui_config.config_login)); pmem_dump_file.write_line("ui_config config_splash: " + to_string_dec_uint(data->ui_config.config_splash)); // ui_config2 bits pmem_dump_file.write_line("ui_config2 hide_speaker: " + to_string_dec_uint(data->ui_config2.hide_speaker)); pmem_dump_file.write_line("ui_config2 hide_converter: " + to_string_dec_uint(data->ui_config2.hide_converter)); pmem_dump_file.write_line("ui_config2 hide_stealth: " + to_string_dec_uint(data->ui_config2.hide_stealth)); pmem_dump_file.write_line("ui_config2 hide_camera: " + to_string_dec_uint(data->ui_config2.hide_camera)); pmem_dump_file.write_line("ui_config2 hide_sleep: " + to_string_dec_uint(data->ui_config2.hide_sleep)); pmem_dump_file.write_line("ui_config2 hide_bias_tee: " + to_string_dec_uint(data->ui_config2.hide_bias_tee)); pmem_dump_file.write_line("ui_config2 hide_clock: " + to_string_dec_uint(data->ui_config2.hide_clock)); pmem_dump_file.write_line("ui_config2 hide_sd_card: " + to_string_dec_uint(data->ui_config2.hide_sd_card)); pmem_dump_file.write_line("ui_config2 hide_mute: " + to_string_dec_uint(data->ui_config2.hide_mute)); pmem_dump_file.write_line("ui_config2 hide_fake_brightness: " + to_string_dec_uint(data->ui_config2.hide_fake_brightness)); // misc_config bits pmem_dump_file.write_line("misc_config config_audio_mute: " + to_string_dec_int(config_audio_mute())); pmem_dump_file.write_line("misc_config config_speaker_disable: " + to_string_dec_int(config_speaker_disable())); pmem_dump_file.write_line("misc_config config_disable_external_tcxo: " + to_string_dec_uint(config_disable_external_tcxo())); pmem_dump_file.write_line("misc_config config_sdcard_high_speed_io: " + to_string_dec_uint(config_sdcard_high_speed_io())); pmem_dump_file.write_line("misc_config config_disable_config_mode: " + to_string_dec_uint(config_disable_config_mode())); // receiver_model pmem_dump_file.write_line("\n[Receiver Model]"); pmem_dump_file.write_line("target_frequency: " + to_string_dec_uint(receiver_model.target_frequency())); pmem_dump_file.write_line("frequency_step: " + to_string_dec_uint(receiver_model.frequency_step())); pmem_dump_file.write_line("lna: " + to_string_dec_int(receiver_model.lna())); pmem_dump_file.write_line("vga: " + to_string_dec_int(receiver_model.vga())); pmem_dump_file.write_line("rf_amp: " + to_string_dec_int(receiver_model.rf_amp())); pmem_dump_file.write_line("baseband_bandwidth: " + to_string_dec_uint(receiver_model.baseband_bandwidth())); pmem_dump_file.write_line("sampling_rate: " + to_string_dec_uint(receiver_model.sampling_rate())); switch (receiver_model.modulation()) { case ReceiverModel::Mode::AMAudio: pmem_dump_file.write_line("modulation: Mode::AMAudio"); break; case ReceiverModel::Mode::NarrowbandFMAudio: pmem_dump_file.write_line("modulation: Mode::NarrowbandFMAudio"); break; case ReceiverModel::Mode::WidebandFMAudio: pmem_dump_file.write_line("modulation: Mode::WidebandFMAudio"); break; case ReceiverModel::Mode::SpectrumAnalysis: pmem_dump_file.write_line("modulation: Mode::SpectrumAnalysis"); break; case ReceiverModel::Mode::Capture: pmem_dump_file.write_line("modulation: Mode::Capture"); break; default: pmem_dump_file.write_line("modulation: !!unknown mode!!"); break; } pmem_dump_file.write_line("headphone_volume.centibel: " + to_string_dec_int(receiver_model.headphone_volume().centibel())); pmem_dump_file.write_line("normalized_headphone_volume: " + to_string_dec_uint(receiver_model.normalized_headphone_volume())); pmem_dump_file.write_line("am_configuration: " + to_string_dec_uint(receiver_model.am_configuration())); pmem_dump_file.write_line("nbfm_configuration: " + to_string_dec_uint(receiver_model.nbfm_configuration())); pmem_dump_file.write_line("wfm_configuration: " + to_string_dec_uint(receiver_model.wfm_configuration())); // transmitter_model pmem_dump_file.write_line("\n[Transmitter Model]"); pmem_dump_file.write_line("target_frequency: " + to_string_dec_uint(transmitter_model.target_frequency())); pmem_dump_file.write_line("rf_amp: " + to_string_dec_int(transmitter_model.rf_amp())); pmem_dump_file.write_line("baseband_bandwidth: " + to_string_dec_uint(transmitter_model.baseband_bandwidth())); pmem_dump_file.write_line("sampling_rate: " + to_string_dec_uint(transmitter_model.sampling_rate())); pmem_dump_file.write_line("tx_gain: " + to_string_dec_int(transmitter_model.tx_gain())); pmem_dump_file.write_line("channel_bandwidth: " + to_string_dec_uint(transmitter_model.channel_bandwidth())); // on screen information painter.draw_string({0, 320 - 16}, ui::Styles::green, filename.filename().string() + " DUMPED !"); return true; } } /* namespace persistent_memory */ } /* namespace portapack */