mirror of
https://github.com/eried/portapack-mayhem.git
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340 lines
9.6 KiB
C++
340 lines
9.6 KiB
C++
/*
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* Copyright (C) 2014 Jared Boone, ShareBrained Technology, Inc.
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* Copyright (C) 2023 Kyle Reed
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*
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* This file is part of PortaPack.
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*
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* This program is free software; you can redistribute it and/or modify
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* it under the terms of the GNU General Public License as published by
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* the Free Software Foundation; either version 2, or (at your option)
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* any later version.
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*
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* This program is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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* GNU General Public License for more details.
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*
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* You should have received a copy of the GNU General Public License
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* along with this program; see the file COPYING. If not, write to
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* the Free Software Foundation, Inc., 51 Franklin Street,
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* Boston, MA 02110-1301, USA.
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*/
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#include "receiver_model.hpp"
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#include "baseband_api.hpp"
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#include "portapack_persistent_memory.hpp"
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#include "hackrf_gpio.hpp"
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#include "portapack.hpp"
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#include "radio.hpp"
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#include "audio.hpp"
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#include "dsp_fir_taps.hpp"
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#include "dsp_iir.hpp"
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#include "dsp_iir_config.hpp"
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#include "utility.hpp"
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using namespace hackrf::one;
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using namespace portapack;
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namespace {
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static constexpr std::array<baseband::AMConfig, 5> am_configs{{
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// we config here all the non COMMON parameters to each AM modulation type in RX.
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{taps_9k0_decim_2, taps_9k0_dsb_channel, AMConfigureMessage::Modulation::DSB}, // AM DSB-C BW 9khz (+-4k5) commercial EU bandwidth .
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{taps_6k0_decim_2, taps_6k0_dsb_channel, AMConfigureMessage::Modulation::DSB}, // AM DSB-C BW 6khz (+-3k0) narrow AM , ham equipments.
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{taps_6k0_decim_2, taps_2k8_usb_channel, AMConfigureMessage::Modulation::SSB}, // SSB USB BW 2K8 (+ 2K8)
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{taps_6k0_decim_2, taps_2k8_lsb_channel, AMConfigureMessage::Modulation::SSB}, // SSB LSB BW 2K8 (- 2K8)
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{taps_6k0_decim_2, taps_0k7_usb_channel, AMConfigureMessage::Modulation::SSB}, // SSB USB BW 0K7 (+ 0K7) used to get audio tone from CW Morse, assuming tx shifted +700hz aprox
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}};
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static constexpr std::array<baseband::NBFMConfig, 3> nbfm_configs{{
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{taps_4k25_decim_0, taps_4k25_decim_1, taps_4k25_channel, 2500},
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{taps_11k0_decim_0, taps_11k0_decim_1, taps_11k0_channel, 2500},
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{taps_16k0_decim_0, taps_16k0_decim_1, taps_16k0_channel, 5000},
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}};
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static constexpr std::array<baseband::WFMConfig, 3> wfm_configs{{
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{taps_200k_wfm_decim_0, taps_200k_wfm_decim_1},
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{taps_180k_wfm_decim_0, taps_180k_wfm_decim_1},
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{taps_40k_wfm_decim_0, taps_40k_wfm_decim_1},
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}};
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} /* namespace */
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rf::Frequency ReceiverModel::target_frequency() const {
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return persistent_memory::target_frequency();
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}
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void ReceiverModel::set_target_frequency(rf::Frequency f) {
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persistent_memory::set_target_frequency(f);
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settings_.frequency_app_override = f;
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update_tuning_frequency();
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}
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uint32_t ReceiverModel::baseband_bandwidth() const {
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return settings_.baseband_bandwidth;
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}
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void ReceiverModel::set_baseband_bandwidth(uint32_t v) {
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settings_.baseband_bandwidth = v;
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update_baseband_bandwidth();
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}
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uint32_t ReceiverModel::sampling_rate() const {
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return settings_.sampling_rate;
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}
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void ReceiverModel::set_sampling_rate(uint32_t v) {
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settings_.sampling_rate = v;
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update_sampling_rate();
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}
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rf::Frequency ReceiverModel::frequency_step() const {
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return settings_.frequency_step;
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}
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void ReceiverModel::set_frequency_step(rf::Frequency f) {
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settings_.frequency_step = f;
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}
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uint8_t ReceiverModel::lna() const {
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return settings_.lna_gain_db;
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}
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void ReceiverModel::set_lna(uint8_t v_db) {
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settings_.lna_gain_db = v_db;
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update_lna();
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}
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uint8_t ReceiverModel::vga() const {
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return settings_.vga_gain_db;
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}
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void ReceiverModel::set_vga(uint8_t v_db) {
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settings_.vga_gain_db = v_db;
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update_vga();
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}
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bool ReceiverModel::rf_amp() const {
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return settings_.rf_amp;
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}
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void ReceiverModel::set_rf_amp(bool enabled) {
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settings_.rf_amp = enabled;
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update_rf_amp();
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}
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ReceiverModel::Mode ReceiverModel::modulation() const {
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return settings_.mode;
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}
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void ReceiverModel::set_modulation(Mode v) {
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settings_.mode = v;
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update_modulation();
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}
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uint8_t ReceiverModel::am_configuration() const {
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return settings_.am_config_index;
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}
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void ReceiverModel::set_am_configuration(uint8_t n) {
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if (n < am_configs.size()) {
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settings_.am_config_index = n;
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update_modulation();
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}
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}
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uint8_t ReceiverModel::nbfm_configuration() const {
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return settings_.nbfm_config_index;
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}
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void ReceiverModel::set_nbfm_configuration(uint8_t n) {
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if (n < nbfm_configs.size()) {
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settings_.nbfm_config_index = n;
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update_modulation();
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}
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}
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uint8_t ReceiverModel::wfm_configuration() const {
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return settings_.wfm_config_index;
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}
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void ReceiverModel::set_wfm_configuration(uint8_t n) {
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if (n < wfm_configs.size()) {
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settings_.wfm_config_index = n;
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update_modulation();
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}
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}
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uint8_t ReceiverModel::squelch_level() const {
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return settings_.squelch_level;
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}
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void ReceiverModel::set_squelch_level(uint8_t v) {
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settings_.squelch_level = v;
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update_modulation();
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}
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void ReceiverModel::set_antenna_bias() {
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update_antenna_bias();
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}
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volume_t ReceiverModel::headphone_volume() const {
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return persistent_memory::headphone_volume();
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}
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void ReceiverModel::set_headphone_volume(volume_t v) {
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persistent_memory::set_headphone_volume(v);
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update_headphone_volume();
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}
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uint8_t ReceiverModel::normalized_headphone_volume() const {
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auto db = (headphone_volume() - audio::headphone::volume_range().max).decibel();
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return clip<uint8_t>(db + 99, 0, 99);
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}
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void ReceiverModel::set_normalized_headphone_volume(uint8_t v) {
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// TODO: Linear map instead to ensure 0 is minimal value or fix volume_range_t::normalize.
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v = clip<uint8_t>(v, 0, 99);
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auto new_volume = volume_t::decibel(v - 99) + audio::headphone::volume_range().max;
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set_headphone_volume(new_volume);
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}
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void ReceiverModel::enable() {
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enabled_ = true;
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radio::set_direction(rf::Direction::Receive);
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update_tuning_frequency();
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update_antenna_bias();
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update_rf_amp();
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update_lna();
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update_vga();
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update_baseband_bandwidth();
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update_sampling_rate();
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update_modulation();
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// TODO: maybe not the perfect place for this, but it's reasonable.
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update_headphone_volume();
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led_rx.on();
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}
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void ReceiverModel::disable() {
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enabled_ = false;
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// TODO: Responsibility for enabling/disabling the radio is muddy.
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// Some happens in ReceiverModel, some inside radio namespace.
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radio::disable();
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led_rx.off();
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}
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void ReceiverModel::initialize() {
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settings_ = settings_t{};
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}
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void ReceiverModel::set_configuration_without_update(
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Mode new_mode,
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rf::Frequency new_frequency_step,
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size_t new_am_config_index,
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size_t new_nbfm_config_index,
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size_t new_wfm_config_index,
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uint8_t new_squelch_level) {
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settings_.mode = new_mode;
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settings_.frequency_step = new_frequency_step;
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settings_.am_config_index = new_am_config_index;
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settings_.nbfm_config_index = new_nbfm_config_index;
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settings_.wfm_config_index = new_wfm_config_index;
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settings_.squelch_level = new_squelch_level;
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}
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void ReceiverModel::configure_from_app_settings(
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const app_settings::AppSettings& settings) {
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settings_.baseband_bandwidth = settings.baseband_bandwidth;
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settings_.sampling_rate = settings.sampling_rate;
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settings_.lna_gain_db = settings.lna;
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settings_.vga_gain_db = settings.vga;
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settings_.rf_amp = settings.rx_amp;
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settings_.squelch_level = settings.squelch;
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}
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int32_t ReceiverModel::tuning_offset() {
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if ((modulation() == Mode::SpectrumAnalysis)) {
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return 0;
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} else {
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return -(sampling_rate() / 4);
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}
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}
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void ReceiverModel::update_tuning_frequency() {
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// TODO: use positive offset if freq < offset.
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radio::set_tuning_frequency(target_frequency() + tuning_offset());
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}
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void ReceiverModel::update_baseband_bandwidth() {
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radio::set_baseband_filter_bandwidth_rx(baseband_bandwidth());
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}
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void ReceiverModel::update_sampling_rate() {
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// TODO: Move more low-level radio control stuff to M4. It'll enable tighter
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// synchronization for things like wideband (sweeping) spectrum analysis, and
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// protocols that need quick RX/TX turn-around.
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// Disabling baseband while changing sampling rates seems like a good idea...
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radio::set_baseband_rate(sampling_rate());
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update_tuning_frequency();
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}
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void ReceiverModel::update_lna() {
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radio::set_lna_gain(lna());
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}
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void ReceiverModel::update_vga() {
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radio::set_vga_gain(vga());
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}
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void ReceiverModel::update_rf_amp() {
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radio::set_rf_amp(rf_amp());
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}
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void ReceiverModel::update_modulation() {
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switch (modulation()) {
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default:
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case Mode::AMAudio:
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update_am_configuration();
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break;
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case Mode::NarrowbandFMAudio:
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update_nbfm_configuration();
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break;
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case Mode::WidebandFMAudio:
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update_wfm_configuration();
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break;
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case Mode::SpectrumAnalysis:
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case Mode::Capture:
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break;
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}
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}
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void ReceiverModel::update_am_configuration() {
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am_configs[am_configuration()].apply();
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}
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void ReceiverModel::update_nbfm_configuration() {
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nbfm_configs[nbfm_configuration()].apply(squelch_level());
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}
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void ReceiverModel::update_wfm_configuration() {
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wfm_configs[wfm_configuration()].apply();
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}
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void ReceiverModel::update_antenna_bias() {
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if (enabled_)
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radio::set_antenna_bias(portapack::get_antenna_bias());
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}
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void ReceiverModel::update_headphone_volume() {
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audio::headphone::set_volume(headphone_volume());
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}
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