portapack-mayhem/firmware/common/message.hpp
furrtek 58f113d153 "CW generator" and "Whistle" merged in "Signal generator"
Added wave shape selection and tone frequency auto-update
Converted color icons to B&W
2017-07-18 19:31:05 +01:00

919 lines
18 KiB
C++

/*
* Copyright (C) 2015 Jared Boone, ShareBrained Technology, Inc.
* Copyright (C) 2016 Furrtek
*
* 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.
*/
#ifndef __MESSAGE_H__
#define __MESSAGE_H__
#include <cstdint>
#include <cstddef>
#include <cstring>
#include <array>
#include <functional>
#include <algorithm>
#include "pocsag_packet.hpp"
#include "baseband_packet.hpp"
#include "ert_packet.hpp"
#include "tpms_packet.hpp"
#include "pocsag_packet.hpp"
#include "jammer.hpp"
#include "dsp_fir_taps.hpp"
#include "dsp_iir.hpp"
#include "fifo.hpp"
#include "utility.hpp"
#include "ch.h"
class Message {
public:
static constexpr size_t MAX_SIZE = 512;
enum class ID : uint32_t {
/* Assign consecutive IDs. IDs are used to index array. */
RSSIStatistics = 0,
BasebandStatistics = 1,
ChannelStatistics = 2,
DisplayFrameSync = 3,
AudioStatistics = 4,
TPMSPacket = 6,
Shutdown = 8,
AISPacket = 7,
ERTPacket = 9,
UpdateSpectrum = 10,
NBFMConfigure = 11,
WFMConfigure = 12,
AMConfigure = 13,
ChannelSpectrumConfig = 14,
SpectrumStreamingConfig = 15,
DisplaySleep = 16,
CaptureConfig = 17,
CaptureThreadDone = 18,
ReplayConfig = 19,
ReplayThreadDone = 20,
TXDone = 30,
Retune = 31,
TonesConfigure = 32,
AFSKConfigure = 33,
PWMRSSIConfigure = 34,
OOKConfigure = 35,
RDSConfigure = 36,
AudioTXConfig = 37,
POCSAGConfigure = 38,
DTMFTXConfig = 39,
ADSBConfigure = 40,
JammerConfigure = 41,
WidebandSpectrumConfig = 42,
FSKConfigure = 43,
SSTVConfigure = 44,
SigGenConfig = 43,
SigGenTone = 44,
POCSAGPacket = 50,
RequestSignal = 52,
FIFOData = 53,
AudioLevel = 54,
MAX
};
constexpr Message(
ID id
) : id { id }
{
}
const ID id;
};
struct RSSIStatistics {
uint32_t accumulator { 0 };
uint32_t min { 0 };
uint32_t max { 0 };
uint32_t count { 0 };
};
class RSSIStatisticsMessage : public Message {
public:
constexpr RSSIStatisticsMessage(
const RSSIStatistics& statistics
) : Message { ID::RSSIStatistics },
statistics { statistics }
{
}
RSSIStatistics statistics;
};
struct BasebandStatistics {
uint32_t idle_ticks { 0 };
uint32_t main_ticks { 0 };
uint32_t rssi_ticks { 0 };
uint32_t baseband_ticks { 0 };
bool saturation { false };
};
class BasebandStatisticsMessage : public Message {
public:
constexpr BasebandStatisticsMessage(
const BasebandStatistics& statistics
) : Message { ID::BasebandStatistics },
statistics { statistics }
{
}
BasebandStatistics statistics;
};
struct ChannelStatistics {
int32_t max_db;
size_t count;
constexpr ChannelStatistics(
int32_t max_db = -120,
size_t count = 0
) : max_db { max_db },
count { count }
{
}
};
class ChannelStatisticsMessage : public Message {
public:
constexpr ChannelStatisticsMessage(
const ChannelStatistics& statistics
) : Message { ID::ChannelStatistics },
statistics { statistics }
{
}
ChannelStatistics statistics;
};
class DisplayFrameSyncMessage : public Message {
public:
constexpr DisplayFrameSyncMessage(
) : Message { ID::DisplayFrameSync }
{
}
};
struct AudioStatistics {
int32_t rms_db;
int32_t max_db;
size_t count;
constexpr AudioStatistics(
) : rms_db { -120 },
max_db { -120 },
count { 0 }
{
}
constexpr AudioStatistics(
int32_t rms_db,
int32_t max_db,
size_t count
) : rms_db { rms_db },
max_db { max_db },
count { count }
{
}
};
class DisplaySleepMessage : public Message {
public:
constexpr DisplaySleepMessage(
) : Message { ID::DisplaySleep }
{
}
};
class AudioStatisticsMessage : public Message {
public:
constexpr AudioStatisticsMessage(
const AudioStatistics& statistics
) : Message { ID::AudioStatistics },
statistics { statistics }
{
}
AudioStatistics statistics;
};
class SpectrumStreamingConfigMessage : public Message {
public:
enum class Mode : uint32_t {
Stopped = 0,
Running = 1,
};
constexpr SpectrumStreamingConfigMessage(
Mode mode
) : Message { ID::SpectrumStreamingConfig },
mode { mode }
{
}
Mode mode { Mode::Stopped };
};
class WidebandSpectrumConfigMessage : public Message {
public:
constexpr WidebandSpectrumConfigMessage (
size_t sampling_rate,
size_t trigger
) : Message { ID::WidebandSpectrumConfig },
sampling_rate { sampling_rate },
trigger { trigger }
{
}
size_t sampling_rate { 0 };
size_t trigger { 0 };
};
struct ChannelSpectrum {
std::array<uint8_t, 256> db { { 0 } };
uint32_t sampling_rate { 0 };
uint32_t channel_filter_pass_frequency { 0 };
uint32_t channel_filter_stop_frequency { 0 };
};
using ChannelSpectrumFIFO = FIFO<ChannelSpectrum>;
class ChannelSpectrumConfigMessage : public Message {
public:
static constexpr size_t fifo_k = 2;
constexpr ChannelSpectrumConfigMessage(
ChannelSpectrumFIFO* fifo
) : Message { ID::ChannelSpectrumConfig },
fifo { fifo }
{
}
ChannelSpectrumFIFO* fifo { nullptr };
};
class AISPacketMessage : public Message {
public:
constexpr AISPacketMessage(
const baseband::Packet& packet
) : Message { ID::AISPacket },
packet { packet }
{
}
baseband::Packet packet;
};
class TPMSPacketMessage : public Message {
public:
constexpr TPMSPacketMessage(
const tpms::SignalType signal_type,
const baseband::Packet& packet
) : Message { ID::TPMSPacket },
signal_type { signal_type },
packet { packet }
{
}
tpms::SignalType signal_type;
baseband::Packet packet;
};
class POCSAGPacketMessage : public Message {
public:
constexpr POCSAGPacketMessage(
const pocsag::POCSAGPacket& packet
) : Message { ID::POCSAGPacket },
packet { packet }
{
}
pocsag::POCSAGPacket packet;
};
class ShutdownMessage : public Message {
public:
constexpr ShutdownMessage(
) : Message { ID::Shutdown }
{
}
};
class ERTPacketMessage : public Message {
public:
constexpr ERTPacketMessage(
const ert::Packet::Type type,
const baseband::Packet& packet
) : Message { ID::ERTPacket },
type { type },
packet { packet }
{
}
ert::Packet::Type type;
baseband::Packet packet;
};
class UpdateSpectrumMessage : public Message {
public:
constexpr UpdateSpectrumMessage(
) : Message { ID::UpdateSpectrum }
{
}
};
class NBFMConfigureMessage : public Message {
public:
constexpr NBFMConfigureMessage(
const fir_taps_real<24> decim_0_filter,
const fir_taps_real<32> decim_1_filter,
const fir_taps_real<32> channel_filter,
const size_t channel_decimation,
const size_t deviation,
const iir_biquad_config_t audio_hpf_config,
const iir_biquad_config_t audio_deemph_config,
const uint8_t squelch_level
) : Message { ID::NBFMConfigure },
decim_0_filter(decim_0_filter),
decim_1_filter(decim_1_filter),
channel_filter(channel_filter),
channel_decimation { channel_decimation },
deviation { deviation },
audio_hpf_config(audio_hpf_config),
audio_deemph_config(audio_deemph_config),
squelch_level(squelch_level)
{
}
const fir_taps_real<24> decim_0_filter;
const fir_taps_real<32> decim_1_filter;
const fir_taps_real<32> channel_filter;
const size_t channel_decimation;
const size_t deviation;
const iir_biquad_config_t audio_hpf_config;
const iir_biquad_config_t audio_deemph_config;
const uint8_t squelch_level;
};
class WFMConfigureMessage : public Message {
public:
constexpr WFMConfigureMessage(
const fir_taps_real<24> decim_0_filter,
const fir_taps_real<16> decim_1_filter,
const fir_taps_real<64> audio_filter,
const size_t deviation,
const iir_biquad_config_t audio_hpf_config,
const iir_biquad_config_t audio_deemph_config
) : Message { ID::WFMConfigure },
decim_0_filter(decim_0_filter),
decim_1_filter(decim_1_filter),
audio_filter(audio_filter),
deviation { deviation },
audio_hpf_config(audio_hpf_config),
audio_deemph_config(audio_deemph_config)
{
}
const fir_taps_real<24> decim_0_filter;
const fir_taps_real<16> decim_1_filter;
const fir_taps_real<64> audio_filter;
const size_t deviation;
const iir_biquad_config_t audio_hpf_config;
const iir_biquad_config_t audio_deemph_config;
};
class AMConfigureMessage : public Message {
public:
enum class Modulation : int32_t {
DSB = 0,
SSB = 1,
};
constexpr AMConfigureMessage(
const fir_taps_real<24> decim_0_filter,
const fir_taps_real<32> decim_1_filter,
const fir_taps_real<32> decim_2_filter,
const fir_taps_complex<64> channel_filter,
const Modulation modulation,
const iir_biquad_config_t audio_hpf_config
) : Message { ID::AMConfigure },
decim_0_filter(decim_0_filter),
decim_1_filter(decim_1_filter),
decim_2_filter(decim_2_filter),
channel_filter(channel_filter),
modulation { modulation },
audio_hpf_config(audio_hpf_config)
{
}
const fir_taps_real<24> decim_0_filter;
const fir_taps_real<32> decim_1_filter;
const fir_taps_real<32> decim_2_filter;
const fir_taps_complex<64> channel_filter;
const Modulation modulation;
const iir_biquad_config_t audio_hpf_config;
};
// TODO: Put this somewhere else, or at least the implementation part.
class StreamBuffer {
uint8_t* data_;
size_t used_;
size_t capacity_;
public:
constexpr StreamBuffer(
void* const data = nullptr,
const size_t capacity = 0
) : data_ { static_cast<uint8_t*>(data) },
used_ { 0 },
capacity_ { capacity }
{
}
size_t write(const void* p, const size_t count) {
const auto copy_size = std::min(capacity_ - used_, count);
memcpy(&data_[used_], p, copy_size);
used_ += copy_size;
return copy_size;
}
size_t read(void* p, const size_t count) {
const auto copy_size = std::min(used_, count);
memcpy(p, &data_[used_ - copy_size], copy_size);
used_ -= copy_size;
return copy_size;
}
bool is_full() const {
return used_ >= capacity_;
}
bool is_empty() const {
return used_ == 0;
}
void* data() const {
return data_;
}
size_t size() const {
return used_;
}
size_t capacity() const {
return capacity_;
}
void set_size(const size_t value) {
used_ = value;
}
void empty() {
used_ = 0;
}
};
struct CaptureConfig {
const size_t write_size;
const size_t buffer_count;
uint64_t baseband_bytes_received;
uint64_t baseband_bytes_dropped;
FIFO<StreamBuffer*>* fifo_buffers_empty;
FIFO<StreamBuffer*>* fifo_buffers_full;
constexpr CaptureConfig(
const size_t write_size,
const size_t buffer_count
) : write_size { write_size },
buffer_count { buffer_count },
baseband_bytes_received { 0 },
baseband_bytes_dropped { 0 },
fifo_buffers_empty { nullptr },
fifo_buffers_full { nullptr }
{
}
size_t dropped_percent() const {
if( baseband_bytes_dropped == 0 ) {
return 0;
} else {
const size_t percent = baseband_bytes_dropped * 100U / baseband_bytes_received;
return std::max(1U, percent);
}
}
};
class CaptureConfigMessage : public Message {
public:
constexpr CaptureConfigMessage(
CaptureConfig* const config
) : Message { ID::CaptureConfig },
config { config }
{
}
CaptureConfig* const config;
};
struct ReplayConfig {
const size_t read_size;
const size_t buffer_count;
uint64_t baseband_bytes_received;
FIFO<StreamBuffer*>* fifo_buffers_empty;
FIFO<StreamBuffer*>* fifo_buffers_full;
constexpr ReplayConfig(
const size_t read_size,
const size_t buffer_count
) : read_size { read_size },
buffer_count { buffer_count },
baseband_bytes_received { 0 },
fifo_buffers_empty { nullptr },
fifo_buffers_full { nullptr }
{
}
};
class ReplayConfigMessage : public Message {
public:
constexpr ReplayConfigMessage(
ReplayConfig* const config
) : Message { ID::ReplayConfig },
config { config }
{
}
ReplayConfig* const config;
};
class TXDoneMessage : public Message {
public:
constexpr TXDoneMessage(
) : Message { ID::TXDone }
{
}
uint32_t progress = 0;
bool done = false;
};
class PWMRSSIConfigureMessage : public Message {
public:
constexpr PWMRSSIConfigureMessage(
const bool enabled,
const uint32_t synth_div,
const int32_t avg
) : Message { ID::PWMRSSIConfigure },
enabled(enabled),
synth_div(synth_div),
avg(avg)
{
}
const bool enabled;
const uint32_t synth_div;
const int32_t avg;
};
class TonesConfigureMessage : public Message {
public:
constexpr TonesConfigureMessage(
const uint32_t fm_delta,
const uint32_t pre_silence,
const uint16_t tone_count,
const bool dual_tone,
const bool audio_out
) : Message { ID::TonesConfigure },
fm_delta(fm_delta),
pre_silence(pre_silence),
tone_count(tone_count),
dual_tone(dual_tone),
audio_out(audio_out)
{
}
const uint32_t fm_delta;
const uint32_t pre_silence;
const uint16_t tone_count;
const bool dual_tone;
const bool audio_out;
};
class RDSConfigureMessage : public Message {
public:
constexpr RDSConfigureMessage(
const uint16_t length
) : Message { ID::RDSConfigure },
length(length)
{
}
const uint16_t length = 0;
};
class RetuneMessage : public Message {
public:
constexpr RetuneMessage(
) : Message { ID::Retune }
{
}
int64_t freq = 0;
uint32_t range = 0;
};
class AudioLevelMessage : public Message {
public:
constexpr AudioLevelMessage(
) : Message { ID::AudioLevel }
{
}
uint32_t value = 0;
};
class AudioTXConfigMessage : public Message {
public:
constexpr AudioTXConfigMessage(
const uint32_t divider,
const uint32_t fm_delta,
const uint32_t gain_x10,
const uint32_t ctcss_phase_inc,
const bool ctcss_enabled
) : Message { ID::AudioTXConfig },
divider(divider),
fm_delta(fm_delta),
gain_x10(gain_x10),
ctcss_phase_inc(ctcss_phase_inc),
ctcss_enabled(ctcss_enabled)
{
}
const uint32_t divider;
const uint32_t fm_delta;
const uint32_t gain_x10;
const uint32_t ctcss_phase_inc;
const bool ctcss_enabled;
};
class SigGenConfigMessage : public Message {
public:
constexpr SigGenConfigMessage(
const uint32_t bw,
const uint32_t shape,
const uint32_t duration
) : Message { ID::SigGenConfig },
bw(bw),
shape(shape),
duration(duration)
{
}
const uint32_t bw;
const uint32_t shape;
const uint32_t duration;
};
class SigGenToneMessage : public Message {
public:
constexpr SigGenToneMessage(
const uint32_t tone_delta
) : Message { ID::SigGenTone },
tone_delta(tone_delta)
{
}
const uint32_t tone_delta;
};
class AFSKConfigureMessage : public Message {
public:
constexpr AFSKConfigureMessage(
const uint32_t samples_per_bit,
const uint32_t phase_inc_mark,
const uint32_t phase_inc_space,
const uint8_t repeat,
const uint32_t fm_delta,
const uint8_t symbol_count
) : Message { ID::AFSKConfigure },
samples_per_bit(samples_per_bit),
phase_inc_mark(phase_inc_mark),
phase_inc_space(phase_inc_space),
repeat(repeat),
fm_delta(fm_delta),
symbol_count(symbol_count)
{
}
const uint32_t samples_per_bit;
const uint32_t phase_inc_mark;
const uint32_t phase_inc_space;
const uint8_t repeat;
const uint32_t fm_delta;
const uint8_t symbol_count;
};
class OOKConfigureMessage : public Message {
public:
constexpr OOKConfigureMessage(
const uint32_t stream_length,
const uint32_t samples_per_bit,
const uint8_t repeat,
const uint32_t pause_symbols
) : Message { ID::OOKConfigure },
stream_length(stream_length),
samples_per_bit(samples_per_bit),
repeat(repeat),
pause_symbols(pause_symbols)
{
}
const uint32_t stream_length;
const uint32_t samples_per_bit;
const uint8_t repeat;
const uint32_t pause_symbols;
};
class SSTVConfigureMessage : public Message {
public:
constexpr SSTVConfigureMessage(
const uint8_t vis_code,
const uint32_t pixel_duration
) : Message { ID::SSTVConfigure },
vis_code(vis_code),
pixel_duration(pixel_duration)
{
}
const uint8_t vis_code;
const uint32_t pixel_duration;
};
class FSKConfigureMessage : public Message {
public:
constexpr FSKConfigureMessage(
const uint32_t stream_length,
const uint32_t samples_per_bit,
const uint32_t shift,
const uint32_t progress_notice
) : Message { ID::FSKConfigure },
stream_length(stream_length),
samples_per_bit(samples_per_bit),
shift(shift),
progress_notice(progress_notice)
{
}
const uint32_t stream_length;
const uint32_t samples_per_bit;
const uint32_t shift;
const uint32_t progress_notice;
};
class POCSAGConfigureMessage : public Message {
public:
constexpr POCSAGConfigureMessage(
const pocsag::BitRate bitrate
) : Message { ID::POCSAGConfigure },
bitrate(bitrate)
{
}
const pocsag::BitRate bitrate;
};
class ADSBConfigureMessage : public Message {
public:
constexpr ADSBConfigureMessage(
const uint32_t test
) : Message { ID::ADSBConfigure },
test(test)
{
}
const uint32_t test;
};
class JammerConfigureMessage : public Message {
public:
constexpr JammerConfigureMessage(
const bool run,
const jammer::JammerType type,
const uint32_t speed
) : Message { ID::JammerConfigure },
run(run),
type(type),
speed(speed)
{
}
const bool run;
const jammer::JammerType type;
const uint32_t speed;
};
class DTMFTXConfigMessage : public Message {
public:
constexpr DTMFTXConfigMessage(
const uint32_t bw,
const uint32_t tone_length,
const uint32_t pause_length
) : Message { ID::DTMFTXConfig },
bw(bw),
tone_length(tone_length),
pause_length(pause_length)
{
}
const uint32_t bw;
const uint32_t tone_length;
const uint32_t pause_length;
};
// TODO: use streaming buffer instead
// TODO: rename (not only used for requests)
class RequestSignalMessage : public Message {
public:
enum class Signal : char {
FillRequest = 1,
BeepRequest = 2,
Squelched = 3
};
constexpr RequestSignalMessage(
Signal signal
) : Message { ID::RequestSignal },
signal ( signal )
{
}
Signal signal;
};
class FIFODataMessage : public Message {
public:
constexpr FIFODataMessage(
const int8_t * data
) : Message { ID::FIFOData },
data ( data )
{
}
const int8_t * data;
};
class CaptureThreadDoneMessage : public Message {
public:
constexpr CaptureThreadDoneMessage(
uint32_t error = 0
) : Message { ID::CaptureThreadDone },
error { error }
{
}
uint32_t error;
};
class ReplayThreadDoneMessage : public Message {
public:
constexpr ReplayThreadDoneMessage(
uint32_t error = 0
) : Message { ID::ReplayThreadDone },
error { error }
{
}
uint32_t error;
};
#endif/*__MESSAGE_H__*/