/* * Copyright (C) 2015 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. */ #ifndef __MESSAGE_H__ #define __MESSAGE_H__ #include #include #include #include #include #include #include "baseband_packet.hpp" #include "ert_packet.hpp" #include "tpms_packet.hpp" #include "pocsag_packet.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, TXDone = 20, Retune = 21, CCIRConfigure = 22, AFSKConfigure = 23, PWMRSSIConfigure = 24, OOKConfigure = 25, RDSConfigure = 26, AudioTXConfig = 27, POCSAGConfigure = 28, DTMFTXConfig = 29, ADSBConfigure = 30, POCSAGPacket = 31, FIFOSignal = 32, FIFOData = 33, 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 }; }; struct ChannelSpectrum { std::array db { { 0 } }; uint32_t sampling_rate { 0 }; uint32_t channel_filter_pass_frequency { 0 }; uint32_t channel_filter_stop_frequency { 0 }; }; using ChannelSpectrumFIFO = FIFO; 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 ) : 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) { } 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; }; 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(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; } bool is_full() const { return used_ >= capacity_; } const void* data() const { return data_; } size_t size() const { return used_; } 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* fifo_buffers_empty; FIFO* 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; }; class TXDoneMessage : public Message { public: constexpr TXDoneMessage( ) : Message { ID::TXDone } { } int n = 0; }; class PWMRSSIConfigureMessage : public Message { public: constexpr PWMRSSIConfigureMessage( const bool enabled, const uint32_t freq, const int32_t avg ) : Message { ID::PWMRSSIConfigure }, enabled(enabled), freq(freq), avg(avg) { } const bool enabled; const uint32_t freq; const int32_t avg; }; class CCIRConfigureMessage : public Message { public: constexpr CCIRConfigureMessage( const uint32_t samples_per_tone, const uint16_t tone_count ) : Message { ID::CCIRConfigure }, samples_per_tone(samples_per_tone), tone_count(tone_count) { } const uint32_t samples_per_tone; const uint16_t tone_count; }; 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; }; class AudioTXConfigMessage : public Message { public: constexpr AudioTXConfigMessage( const uint32_t divider, const uint32_t bw, const uint32_t ctcss_phase_inc, const bool ctcss_enabled ) : Message { ID::AudioTXConfig }, divider(divider), bw(bw), ctcss_phase_inc(ctcss_phase_inc), ctcss_enabled(ctcss_enabled) { } const uint32_t divider; const uint32_t bw; const uint32_t ctcss_phase_inc; const bool ctcss_enabled; }; 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 bw, const uint8_t format ) : Message { ID::AFSKConfigure }, samples_per_bit(samples_per_bit), phase_inc_mark(phase_inc_mark), phase_inc_space(phase_inc_space), repeat(repeat), bw(bw), format(format) { } 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 bw; const uint8_t format; }; 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 POCSAGConfigureMessage : public Message { public: constexpr POCSAGConfigureMessage( const uint32_t rate ) : Message { ID::POCSAGConfigure }, rate(rate) { } const uint32_t rate; }; class ADSBConfigureMessage : public Message { public: constexpr ADSBConfigureMessage( const uint32_t test ) : Message { ID::ADSBConfigure }, test(test) { } const uint32_t test; }; 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 class FIFOSignalMessage : public Message { public: constexpr FIFOSignalMessage( ) : Message { ID::FIFOSignal } { } char signaltype = 0; }; 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; }; #endif/*__MESSAGE_H__*/