mirror of
https://github.com/portapack-mayhem/mayhem-firmware.git
synced 2024-12-04 23:45:26 +00:00
454 lines
13 KiB
C++
454 lines
13 KiB
C++
/*
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* Copyright (C) 2016 Jared Boone, ShareBrained Technology, Inc.
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* Copyright (C) 2016 Furrtek
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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 "baseband_api.hpp"
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#include "audio.hpp"
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#include "tonesets.hpp"
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#include "dsp_iir_config.hpp"
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#include "portapack_shared_memory.hpp"
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#include "portapack_persistent_memory.hpp"
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#include "core_control.hpp"
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/* Set true to enable additional checks to ensure
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* M4 and M0 are synchronized before passing messages. */
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static constexpr bool enforce_core_sync = true;
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/* Set true to enable check for baseband messages getting stuck.
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* This implies the baseband thread is not dequeuing and has probably stalled.
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* NB: This check adds a small amout of overhead to the message sending code
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* and may impact application perf if it is sending a lot of messages. */
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static constexpr bool check_for_message_hang = true;
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using namespace portapack;
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namespace baseband {
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static void send_message(const Message* const message) {
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// If message is only sent by this function via one thread, no need to check if
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// another message is present before setting new message.
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shared_memory.baseband_message = message;
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creg::m0apptxevent::assert_event();
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if constexpr (check_for_message_hang) {
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auto count = UINT32_MAX;
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while (shared_memory.baseband_message && --count)
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/* spin */;
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if (count == 0)
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chDbgPanic("Baseband Send Fail");
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} else {
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while (shared_memory.baseband_message)
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/* spin */;
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}
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}
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void AMConfig::apply() const {
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const AMConfigureMessage message{
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taps_6k0_decim_0, // common FIR filter taps pre-decim_0 to all 5 x AM mod types.(AM-9K, AM-6K, USB, LSB, CW)
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taps_6k0_decim_1, // common FIR filter taps pre-decim_1 to all 5 x AM mod. types.
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decim_2, // var decim_2 FIR taps filter , variable values, depending selected AM mod(AM 9k / 6k all rest AM modes)
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channel, // var channel FIR taps filter , variable values, depending selected AM mode, each one different (DSB-9K, DSB-6K, USB-3K, LSB-3K,CW)
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modulation, // var parameter .
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audio_12k_hpf_300hz_config};
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send_message(&message);
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audio::set_rate(audio::Rate::Hz_12000);
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}
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void NBFMConfig::apply(const uint8_t squelch_level) const {
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const NBFMConfigureMessage message{
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decim_0,
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decim_1,
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channel,
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2,
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deviation,
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audio_24k_hpf_300hz_config,
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audio_24k_deemph_300_6_config,
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squelch_level};
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send_message(&message);
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audio::set_rate(audio::Rate::Hz_24000);
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}
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void WFMConfig::apply() const {
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const WFMConfigureMessage message{
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decim_0, // taps_200k_decim_0 , taps_180k_wfm_decim_0, taps_40k_wfm_decim_0
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decim_1, // taps_200k_decim_1 or taps_180k_wfm_decim_1, taps_40k_wfm_decim_1
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taps_64_lp_156_198,
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75000,
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audio_48k_hpf_30hz_config,
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audio_48k_deemph_2122_6_config};
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send_message(&message);
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audio::set_rate(audio::Rate::Hz_48000);
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}
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void set_tone(const uint32_t index, const uint32_t delta, const uint32_t duration) {
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shared_memory.bb_data.tones_data.tone_defs[index].delta = delta;
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shared_memory.bb_data.tones_data.tone_defs[index].duration = duration;
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}
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void set_tones_config(const uint32_t bw, const uint32_t pre_silence, const uint16_t tone_count, const bool dual_tone, const bool audio_out) {
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const TonesConfigureMessage message{
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bw,
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pre_silence,
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tone_count,
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dual_tone,
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audio_out};
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send_message(&message);
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}
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void kill_tone() {
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const TonesConfigureMessage message{
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0,
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0,
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0,
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false,
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false};
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send_message(&message);
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}
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void set_sstv_data(const uint8_t vis_code, const uint32_t pixel_duration) {
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const SSTVConfigureMessage message{
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vis_code,
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pixel_duration};
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send_message(&message);
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}
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void set_afsk(const uint32_t baudrate, const uint32_t word_length, const uint32_t trigger_value, const bool trigger_word) {
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const AFSKRxConfigureMessage message{
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baudrate,
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word_length,
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trigger_value,
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trigger_word};
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send_message(&message);
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}
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void set_aprs(const uint32_t baudrate) {
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const APRSRxConfigureMessage message{
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baudrate};
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send_message(&message);
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}
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void set_btlerx(uint8_t channel_number) {
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const BTLERxConfigureMessage message{
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channel_number};
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send_message(&message);
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}
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void set_btletx(uint8_t channel_number, char* macAddress, char* advertisementData, uint8_t pduType) {
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const BTLETxConfigureMessage message{
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channel_number,
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macAddress,
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advertisementData,
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pduType};
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send_message(&message);
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}
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void set_nrf(const uint32_t baudrate, const uint32_t word_length, const uint32_t trigger_value, const bool trigger_word) {
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const NRFRxConfigureMessage message{
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baudrate,
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word_length,
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trigger_value,
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trigger_word};
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send_message(&message);
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}
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void set_fsk(const size_t deviation) {
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const FSKRxConfigureMessage message{
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taps_200k_decim_0,
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taps_16k0_decim_1,
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taps_11k0_channel,
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2,
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deviation};
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send_message(&message);
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}
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void set_afsk_data(const uint32_t afsk_samples_per_bit, const uint32_t afsk_phase_inc_mark, const uint32_t afsk_phase_inc_space, const uint8_t afsk_repeat, const uint32_t afsk_bw, const uint8_t symbol_count) {
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const AFSKTxConfigureMessage message{
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afsk_samples_per_bit,
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afsk_phase_inc_mark,
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afsk_phase_inc_space,
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afsk_repeat,
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afsk_bw,
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symbol_count};
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send_message(&message);
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}
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void kill_afsk() {
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const AFSKTxConfigureMessage message{
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0,
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0,
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0,
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0,
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0,
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false};
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send_message(&message);
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}
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void set_audiotx_config(
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const uint32_t divider,
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const float deviation_hz,
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const float audio_gain,
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uint8_t audio_shift_bits_s16,
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uint8_t bits_per_sample,
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const uint32_t tone_key_delta,
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const bool am_enabled,
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const bool dsb_enabled,
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const bool usb_enabled,
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const bool lsb_enabled) {
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const AudioTXConfigMessage message{
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divider,
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deviation_hz,
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audio_gain,
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audio_shift_bits_s16,
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bits_per_sample,
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tone_key_delta,
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(float)persistent_memory::tone_mix() / 100.0f,
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am_enabled,
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dsb_enabled,
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usb_enabled,
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lsb_enabled};
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send_message(&message);
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}
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void set_fifo_data(const int8_t* data) {
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const FIFODataMessage message{
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data};
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send_message(&message);
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}
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void set_pitch_rssi(int32_t avg, bool enabled) {
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const PitchRSSIConfigureMessage message{
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enabled,
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avg};
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send_message(&message);
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}
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void set_ook_data(const uint32_t stream_length, const uint32_t samples_per_bit, const uint8_t repeat, const uint32_t pause_symbols, const uint8_t de_bruijn_length) {
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const OOKConfigureMessage message{
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stream_length,
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samples_per_bit,
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repeat,
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pause_symbols,
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de_bruijn_length};
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send_message(&message);
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}
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void kill_ook() {
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const OOKConfigureMessage message{
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0,
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0,
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0,
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0,
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0};
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send_message(&message);
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}
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void set_fsk_data(const uint32_t stream_length, const uint32_t samples_per_bit, const uint32_t shift, const uint32_t progress_notice) {
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const FSKConfigureMessage message{
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stream_length,
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samples_per_bit,
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shift,
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progress_notice};
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send_message(&message);
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}
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void set_pocsag() {
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const POCSAGConfigureMessage message{};
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send_message(&message);
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}
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void set_adsb() {
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const ADSBConfigureMessage message{};
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send_message(&message);
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}
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void set_jammer(const bool run, const jammer::JammerType type, const uint32_t speed) {
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const JammerConfigureMessage message{
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run,
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type,
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speed};
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send_message(&message);
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}
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void set_rds_data(const uint16_t message_length) {
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const RDSConfigureMessage message{
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message_length};
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send_message(&message);
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}
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void set_spectrum(const size_t sampling_rate, const size_t trigger) {
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const WidebandSpectrumConfigMessage message{
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sampling_rate, trigger};
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send_message(&message);
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}
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void set_siggen_tone(const uint32_t tone) {
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const SigGenToneMessage message{
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TONES_F2D(tone, TONES_SAMPLERATE)};
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send_message(&message);
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}
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void set_siggen_config(const uint32_t bw, const uint32_t shape, const uint32_t duration) {
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const SigGenConfigMessage message{
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bw, shape, duration * TONES_SAMPLERATE};
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send_message(&message);
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}
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void set_spectrum_painter_config(const uint16_t width, const uint16_t height, bool update, int32_t bw) {
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SpectrumPainterBufferConfigureRequestMessage message{width, height, update, bw};
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send_message(&message);
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}
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void set_subghzd_config(uint8_t modulation = 0, uint32_t sampling_rate = 0) {
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const SubGhzFPRxConfigureMessage message{modulation, sampling_rate};
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send_message(&message);
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}
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static bool baseband_image_running = false;
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void run_image(const spi_flash::image_tag_t image_tag) {
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if (baseband_image_running) {
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chDbgPanic("BBRunning");
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}
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creg::m4txevent::clear();
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shared_memory.clear_baseband_ready();
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m4_init(image_tag, memory::map::m4_code, false);
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baseband_image_running = true;
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creg::m4txevent::enable();
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if constexpr (enforce_core_sync) {
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// Wait up to 3 seconds for baseband to start handling events.
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auto count = 3'000u;
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while (!shared_memory.baseband_ready && --count)
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chThdSleepMilliseconds(1);
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if (count == 0)
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chDbgPanic("Baseband Sync Fail");
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}
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}
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void run_prepared_image(const uint32_t m4_code) {
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if (baseband_image_running) {
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chDbgPanic("BBRunning");
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}
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creg::m4txevent::clear();
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shared_memory.clear_baseband_ready();
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m4_init_prepared(m4_code, false);
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baseband_image_running = true;
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creg::m4txevent::enable();
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if constexpr (enforce_core_sync) {
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// Wait up to 3 seconds for baseband to start handling events.
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auto count = 3'000u;
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while (!shared_memory.baseband_ready && --count)
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chThdSleepMilliseconds(1);
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if (count == 0)
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chDbgPanic("Baseband Sync Fail");
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}
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}
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void shutdown() {
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if (!baseband_image_running) {
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return;
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}
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creg::m4txevent::disable();
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ShutdownMessage message;
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send_message(&message);
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shared_memory.application_queue.reset();
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baseband_image_running = false;
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}
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void spectrum_streaming_start() {
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SpectrumStreamingConfigMessage message{
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SpectrumStreamingConfigMessage::Mode::Running};
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send_message(&message);
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}
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void spectrum_streaming_stop() {
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SpectrumStreamingConfigMessage message{
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SpectrumStreamingConfigMessage::Mode::Stopped};
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send_message(&message);
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}
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void set_sample_rate(uint32_t sample_rate, OversampleRate oversample_rate) {
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SampleRateConfigMessage message{sample_rate, oversample_rate};
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send_message(&message);
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}
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void capture_start(CaptureConfig* const config) {
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CaptureConfigMessage message{config};
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send_message(&message);
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}
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void capture_stop() {
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CaptureConfigMessage message{nullptr};
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send_message(&message);
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}
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void replay_start(ReplayConfig* const config) {
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ReplayConfigMessage message{config};
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send_message(&message);
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}
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void replay_stop() {
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ReplayConfigMessage message{nullptr};
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send_message(&message);
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}
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void request_beep(RequestSignalMessage::Signal beep_type) {
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RequestSignalMessage message{beep_type};
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send_message(&message);
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}
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void request_roger_beep() {
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request_beep(RequestSignalMessage::Signal::RogerBeepRequest);
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}
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void request_rssi_beep() {
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request_beep(RequestSignalMessage::Signal::RSSIBeepRequest);
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}
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void request_beep_stop() {
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request_beep(RequestSignalMessage::Signal::BeepStopRequest);
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}
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void request_audio_beep(uint32_t freq, uint32_t sample_rate, uint32_t duration_ms) {
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AudioBeepMessage message{freq, sample_rate, duration_ms};
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send_message(&message);
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}
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} /* namespace baseband */
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