mayhem-firmware/firmware/application/receiver_model.cpp
teixeluis fe806b7bdc Fixed the mixing of aircraft coordinates in the details view, by
checking if the ICAO address of the frame and the current item
in the details view match. Slight refactor by placing the decimal
to string conversion function into the string_format module.

Added fix in the scope of issue #365

FrequencyStepView field in TransmitterView class

FrequencyStepView field in TransmitterView class

Update ui_transmitter.hpp

Update credits

Fixed left padding of the decimal part of the numbers.
2021-06-24 15:16:19 +01:00

315 lines
7.2 KiB
C++

/*
* 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 "receiver_model.hpp"
#include "baseband_api.hpp"
#include "portapack_persistent_memory.hpp"
#include "hackrf_gpio.hpp"
#include "portapack.hpp"
using namespace hackrf::one;
using namespace portapack;
#include "radio.hpp"
#include "audio.hpp"
#include "dsp_fir_taps.hpp"
#include "dsp_iir.hpp"
#include "dsp_iir_config.hpp"
namespace {
static constexpr std::array<baseband::AMConfig, 4> am_configs { {
{ taps_6k0_dsb_channel, AMConfigureMessage::Modulation::DSB },
{ taps_2k8_usb_channel, AMConfigureMessage::Modulation::SSB },
{ taps_2k8_lsb_channel, AMConfigureMessage::Modulation::SSB },
{ taps_0k7_usb_channel, AMConfigureMessage::Modulation::SSB },
} };
static constexpr std::array<baseband::NBFMConfig, 3> nbfm_configs { {
{ taps_4k25_decim_0, taps_4k25_decim_1, taps_4k25_channel, 2500 },
{ taps_11k0_decim_0, taps_11k0_decim_1, taps_11k0_channel, 2500 },
{ taps_16k0_decim_0, taps_16k0_decim_1, taps_16k0_channel, 5000 },
} };
static constexpr std::array<baseband::WFMConfig, 1> wfm_configs { {
{ },
} };
} /* namespace */
rf::Frequency ReceiverModel::tuning_frequency() const {
return persistent_memory::tuned_frequency();
}
void ReceiverModel::set_tuning_frequency(rf::Frequency f) {
persistent_memory::set_tuned_frequency(f);
update_tuning_frequency();
}
rf::Frequency ReceiverModel::frequency_step() const {
return frequency_step_;
}
void ReceiverModel::set_frequency_step(rf::Frequency f) {
frequency_step_ = f;
}
void ReceiverModel::set_antenna_bias() {
update_antenna_bias();
}
bool ReceiverModel::rf_amp() const {
return rf_amp_;
}
void ReceiverModel::set_rf_amp(bool enabled) {
rf_amp_ = enabled;
update_rf_amp();
}
int32_t ReceiverModel::lna() const {
return lna_gain_db_;
}
void ReceiverModel::set_lna(int32_t v_db) {
lna_gain_db_ = v_db;
update_lna();
}
uint32_t ReceiverModel::baseband_bandwidth() const {
return baseband_bandwidth_;
}
void ReceiverModel::set_baseband_bandwidth(uint32_t v) {
baseband_bandwidth_ = v;
update_baseband_bandwidth();
}
int32_t ReceiverModel::vga() const {
return vga_gain_db_;
}
void ReceiverModel::set_vga(int32_t v_db) {
vga_gain_db_ = v_db;
update_vga();
}
int32_t ReceiverModel::tx_gain() const {
return tx_gain_db_;
}
void ReceiverModel::set_tx_gain(int32_t v_db) {
tx_gain_db_ = v_db;
update_tx_gain();
}
uint32_t ReceiverModel::sampling_rate() const {
return sampling_rate_;
}
void ReceiverModel::set_sampling_rate(uint32_t v) {
sampling_rate_ = v;
update_sampling_rate();
}
ReceiverModel::Mode ReceiverModel::modulation() const {
return mode_;
}
void ReceiverModel::set_modulation(const Mode v) {
mode_ = v;
update_modulation();
}
volume_t ReceiverModel::headphone_volume() const {
return headphone_volume_;
}
void ReceiverModel::set_headphone_volume(volume_t v) {
headphone_volume_ = v;
update_headphone_volume();
}
uint8_t ReceiverModel::squelch_level() const {
return squelch_level_;
}
void ReceiverModel::set_squelch_level(uint8_t v) {
squelch_level_ = v;
update_modulation();
}
void ReceiverModel::enable() {
enabled_ = true;
radio::set_direction(rf::Direction::Receive);
update_tuning_frequency();
update_antenna_bias();
update_rf_amp();
update_lna();
update_vga();
update_tx_gain();
update_baseband_bandwidth();
update_sampling_rate();
update_modulation();
// TODO: would challenge if this should belong to the
// receiver_model namespace:
update_headphone_volume();
led_rx.on();
}
void ReceiverModel::disable() {
enabled_ = false;
radio::set_antenna_bias(false);
// TODO: Responsibility for enabling/disabling the radio is muddy.
// Some happens in ReceiverModel, some inside radio namespace.
radio::disable();
// TODO: we are doing this repeatedly in different levels of the
// call stack. Keeping it for now, but there seem to be too many
// redundant calls:
led_rx.off();
}
int32_t ReceiverModel::tuning_offset() {
if( (modulation() == Mode::SpectrumAnalysis) ) {
return 0;
} else {
return -(sampling_rate() / 4);
}
}
void ReceiverModel::update_tuning_frequency() {
radio::set_tuning_frequency(persistent_memory::tuned_frequency() + tuning_offset());
}
void ReceiverModel::update_antenna_bias() {
if (enabled_)
radio::set_antenna_bias(portapack::get_antenna_bias());
}
void ReceiverModel::update_rf_amp() {
radio::set_rf_amp(rf_amp_);
}
void ReceiverModel::update_lna() {
radio::set_lna_gain(lna_gain_db_);
}
void ReceiverModel::update_baseband_bandwidth() {
radio::set_baseband_filter_bandwidth(baseband_bandwidth_);
}
void ReceiverModel::update_vga() {
radio::set_vga_gain(vga_gain_db_);
}
void ReceiverModel::update_tx_gain() {
radio::set_tx_gain(tx_gain_db_);
}
void ReceiverModel::set_am_configuration(const size_t n) {
if( n < am_configs.size() ) {
am_config_index = n;
update_modulation();
}
}
void ReceiverModel::set_nbfm_configuration(const size_t n) {
if( n < nbfm_configs.size() ) {
nbfm_config_index = n;
update_modulation();
}
}
void ReceiverModel::set_wfm_configuration(const size_t n) {
if( n < wfm_configs.size() ) {
wfm_config_index = n;
update_modulation();
}
}
void ReceiverModel::update_sampling_rate() {
// TODO: Move more low-level radio control stuff to M4. It'll enable tighter
// synchronization for things like wideband (sweeping) spectrum analysis, and
// protocols that need quick RX/TX turn-around.
// Disabling baseband while changing sampling rates seems like a good idea...
radio::set_baseband_rate(sampling_rate());
update_tuning_frequency();
}
void ReceiverModel::update_headphone_volume() {
// TODO: Manipulating audio codec here, and in ui_receiver.cpp. Good to do
// both?
audio::headphone::set_volume(headphone_volume_);
}
void ReceiverModel::update_modulation() {
switch(modulation()) {
default:
case Mode::AMAudio:
update_am_configuration();
break;
case Mode::NarrowbandFMAudio:
update_nbfm_configuration();
break;
case Mode::WidebandFMAudio:
update_wfm_configuration();
break;
case Mode::SpectrumAnalysis:
case Mode::Capture:
break;
}
}
size_t ReceiverModel::am_configuration() const {
return am_config_index;
}
void ReceiverModel::update_am_configuration() {
am_configs[am_config_index].apply();
}
size_t ReceiverModel::nbfm_configuration() const {
return nbfm_config_index;
}
void ReceiverModel::update_nbfm_configuration() {
nbfm_configs[nbfm_config_index].apply(squelch_level_);
}
size_t ReceiverModel::wfm_configuration() const {
return wfm_config_index;
}
void ReceiverModel::update_wfm_configuration() {
wfm_configs[wfm_config_index].apply();
}