#ifndef DSD_H #define DSD_H /* * Copyright (C) 2010 DSD Author * GPG Key ID: 0x3F1D7FD0 (74EF 430D F7F2 0A48 FCE6 F630 FAA2 635D 3F1D 7FD0) * * Permission to use, copy, modify, and/or distribute this software for any * purpose with or without fee is hereby granted, provided that the above * copyright notice and this permission notice appear in all copies. * * THE SOFTWARE IS PROVIDED "AS IS" AND ISC DISCLAIMS ALL WARRANTIES WITH * REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY * AND FITNESS. IN NO EVENT SHALL ISC BE LIABLE FOR ANY SPECIAL, DIRECT, * INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM * LOSS OF USE, DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE * OR OTHER TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR * PERFORMANCE OF THIS SOFTWARE. */ //defined by CMakeLists.txt -- Disable by using cmake -DCOLORS=OFF .. #ifdef PRETTY_COLORS #define KNRM "\x1B[0m" #define KRED "\x1B[31m" #define KGRN "\x1B[32m" #define KYEL "\x1B[33m" #define KBLU "\x1B[34m" #define KMAG "\x1B[35m" #define KCYN "\x1B[36m" #define KWHT "\x1B[37m" #else #define KNRM "" #define KRED "" #define KGRN "" #define KYEL "" #define KBLU "" #define KMAG "" #define KCYN "" #define KWHT "" #endif #include "config.h" #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "p25p1_heuristics.h" //OSS support #include #include //PULSE AUDIO #include //PULSE AUDIO #define SAMPLE_RATE_IN 48000 //48000 #define SAMPLE_RATE_OUT 48000 //8000, #ifdef USE_RTLSDR #include #endif #include #include static volatile int exitflag; //group csv import struct typedef struct { unsigned long int groupNumber; char groupMode[8]; //char *? char groupName[50]; } groupinfo; typedef struct { uint8_t F1; uint8_t F2; uint8_t MessageType; /****************************/ /***** VCALL parameters *****/ /****************************/ uint8_t CCOption; uint8_t CallType; uint8_t VoiceCallOption; uint16_t SourceUnitID; uint16_t DestinationID; /* May be a Group ID or a Unit ID */ uint8_t CipherType; uint8_t KeyID; uint8_t VCallCrcIsGood; /*******************************/ /***** VCALL_IV parameters *****/ /*******************************/ uint8_t IV[8]; uint8_t VCallIvCrcIsGood; /*****************************/ /***** Custom parameters *****/ /*****************************/ /* Specifies if the "CipherType" and the "KeyID" parameter are valid * 1 = Valid ; 0 = CRC error */ uint8_t CipherParameterValidity; /* Used on DES and AES encrypted frames */ uint8_t PartOfCurrentEncryptedFrame; /* Could be 1 or 2 */ uint8_t PartOfNextEncryptedFrame; /* Could be 1 or 2 */ uint8_t CurrentIVComputed[8]; uint8_t NextIVComputed[8]; } NxdnElementsContent_t; //Reed Solomon (12,9) constant #define RS_12_9_DATASIZE 9 #define RS_12_9_CHECKSUMSIZE 3 //Reed Solomon (12,9) struct typedef struct { uint8_t data[RS_12_9_DATASIZE+RS_12_9_CHECKSUMSIZE]; } rs_12_9_codeword_t; // Maximum degree of various polynomials. #define RS_12_9_POLY_MAXDEG (RS_12_9_CHECKSUMSIZE*2) typedef struct { uint8_t data[RS_12_9_POLY_MAXDEG]; } rs_12_9_poly_t; #define RS_12_9_CORRECT_ERRORS_RESULT_NO_ERRORS_FOUND 0 #define RS_12_9_CORRECT_ERRORS_RESULT_ERRORS_CORRECTED 1 #define RS_12_9_CORRECT_ERRORS_RESULT_ERRORS_CANT_BE_CORRECTED 2 typedef uint8_t rs_12_9_correct_errors_result_t; typedef struct { uint8_t bytes[3]; } rs_12_9_checksum_t; //dPMR /* Could only be 2 or 4 */ #define NB_OF_DPMR_VOICE_FRAME_TO_DECODE 2 typedef struct { unsigned char RawVoiceBit[NB_OF_DPMR_VOICE_FRAME_TO_DECODE * 4][72]; unsigned int errs1[NB_OF_DPMR_VOICE_FRAME_TO_DECODE * 4]; /* 8 x errors #1 computed when demodulate the AMBE voice bit of the frame */ unsigned int errs2[NB_OF_DPMR_VOICE_FRAME_TO_DECODE * 4]; /* 8 x errors #2 computed when demodulate the AMBE voice bit of the frame */ unsigned char AmbeBit[NB_OF_DPMR_VOICE_FRAME_TO_DECODE * 4][49]; /* 8 x 49 bit of AMBE voice of the frame */ unsigned char CCHData[NB_OF_DPMR_VOICE_FRAME_TO_DECODE][48]; unsigned int CCHDataHammingOk[NB_OF_DPMR_VOICE_FRAME_TO_DECODE]; unsigned char CCHDataCRC[NB_OF_DPMR_VOICE_FRAME_TO_DECODE]; unsigned int CCHDataCrcOk[NB_OF_DPMR_VOICE_FRAME_TO_DECODE]; unsigned char CalledID[8]; unsigned int CalledIDOk; unsigned char CallingID[8]; unsigned int CallingIDOk; unsigned int FrameNumbering[NB_OF_DPMR_VOICE_FRAME_TO_DECODE]; unsigned int CommunicationMode[NB_OF_DPMR_VOICE_FRAME_TO_DECODE]; unsigned int Version[NB_OF_DPMR_VOICE_FRAME_TO_DECODE]; unsigned int CommsFormat[NB_OF_DPMR_VOICE_FRAME_TO_DECODE]; unsigned int EmergencyPriority[NB_OF_DPMR_VOICE_FRAME_TO_DECODE]; unsigned int Reserved[NB_OF_DPMR_VOICE_FRAME_TO_DECODE]; unsigned char SlowData[NB_OF_DPMR_VOICE_FRAME_TO_DECODE]; unsigned int ColorCode[NB_OF_DPMR_VOICE_FRAME_TO_DECODE / 2]; } dPMRVoiceFS2Frame_t; // typedef struct { int onesymbol; char mbe_in_file[1024]; FILE *mbe_in_f; int errorbars; int datascope; int symboltiming; int verbose; int p25enc; int p25lc; int p25status; int p25tg; int scoperate; char audio_in_dev[2048]; //increase size for super long directory/file names int audio_in_fd; SNDFILE *audio_in_file; SF_INFO *audio_in_file_info; uint32_t rtlsdr_center_freq; int rtlsdr_ppm_error; int audio_in_type; char audio_out_dev[1024]; int audio_out_fd; int audio_out_fdR; //right channel audio for OSS hack SNDFILE *audio_out_file; SF_INFO *audio_out_file_info; int audio_out_type; // 0 for device, 1 for file, int split; int playoffset; int playoffsetR; char mbe_out_dir[1024]; char mbe_out_file[1024]; char mbe_out_fileR[1024]; //second slot on a TDMA system char mbe_out_path[2048]; //1024 FILE *mbe_out_f; FILE *mbe_out_fR; //second slot on a TDMA system FILE *symbol_out_f; float audio_gain; float audio_gainR; int audio_out; int dmr_stereo_wav; char wav_out_file[1024]; char wav_out_fileR[1024]; char wav_out_file_raw[1024]; char symbol_out_file[1024]; char lrrp_out_file[1024]; char szNumbers[1024]; //**tera 10/32/64 char str short int symbol_out; short int mbe_out; //flag for mbe out, don't attempt fclose more than once short int mbe_outR; //flag for mbe out, don't attempt fclose more than once SNDFILE *wav_out_f; SNDFILE *wav_out_fR; SNDFILE *wav_out_raw; //int wav_out_fd; int serial_baud; char serial_dev[1024]; int serial_fd; int resume; int frame_dstar; int frame_x2tdma; int frame_p25p1; int frame_p25p2; int inverted_p2; int p2counter; int frame_nxdn48; int frame_nxdn96; int frame_dmr; int frame_provoice; int mod_c4fm; int mod_qpsk; int mod_gfsk; int uvquality; int inverted_x2tdma; int inverted_dmr; int mod_threshold; int ssize; int msize; int playfiles; int delay; int use_cosine_filter; int unmute_encrypted_p25; int rtl_dev_index; int rtl_gain_value; int rtl_squelch_level; int rtl_volume_multiplier; int rtl_udp_port; int rtl_bandwidth; int rtl_started; int monitor_input_audio; int pulse_raw_rate_in; int pulse_raw_rate_out; int pulse_digi_rate_in; int pulse_digi_rate_out; int pulse_raw_in_channels; int pulse_raw_out_channels; int pulse_digi_in_channels; int pulse_digi_out_channels; int pulse_flush; pa_simple *pulse_raw_dev_in; pa_simple *pulse_raw_dev_out; pa_simple *pulse_digi_dev_in; pa_simple *pulse_digi_dev_out; pa_simple *pulse_digi_dev_outR; int use_ncurses_terminal; int ncurses_compact; int ncurses_history; int reset_state; int payload; char output_name[1024]; unsigned int dPMR_curr_frame_is_encrypted; int dPMR_next_part_of_superframe; int inverted_dpmr; int frame_dpmr; short int dmr_mono; short int dmr_stereo; short int lrrp_file_output; short int dmr_mute_encL; short int dmr_mute_encR; int frame_ysf; int inverted_ysf; short int aggressive_framesync; FILE *symbolfile; int call_alert; //rigctl opt int rigctl_sockfd; int use_rigctl; int rigctlportno; char rigctlhostname[1024]; //udp socket for GQRX, SDR++, etc int udp_sockfd; int udp_portno; char * udp_hostname; SNDFILE *udp_file_in; //tcp socket for SDR++, etc int tcp_sockfd; int tcp_portno; char tcp_hostname[1024]; SNDFILE *tcp_file_in; //wav file sample rate, interpolator and decimator int wav_sample_rate; int wav_interpolator; int wav_decimator; int p25_trunk; //experimental P25 trunking with RIGCTL (or RTLFM) int p25_is_tuned; //set to 1 if currently on VC, set back to 0 if on CC float trunk_hangtime; //hangtime in seconds before tuning back to CC int scanner_mode; //experimental -- use the channel map as a conventional scanner, quicker tuning, but no CC //csv import filenames char group_in_file[1024]; char lcn_in_file[1024]; char chan_in_file[1024]; char key_in_file[1024]; //end import filenames //reverse mute uint8_t reverse_mute; //setmod bandwidth int setmod_bw; //DMR Location Area - DMRLA B***S*** uint8_t dmr_dmrla_is_set; //flag to tell us dmrla is set by the user uint8_t dmr_dmrla_n; //n value for dmrla //Trunking - Use Group List as Allow List uint8_t trunk_use_allow_list; //Trunking - Tune Group Calls uint8_t trunk_tune_group_calls; //Trunking - Tune Private Calls uint8_t trunk_tune_private_calls; //Trunking - Tune Data Calls uint8_t trunk_tune_data_calls; //OSS audio - slot preference uint8_t slot_preference; //'DSP' Format Output uint8_t use_dsp_output; char dsp_out_file[2048]; } dsd_opts; typedef struct { int *dibit_buf; int *dibit_buf_p; int *dmr_payload_buf; int *dmr_payload_p; int repeat; short *audio_out_buf; short *audio_out_buf_p; short *audio_out_bufR; short *audio_out_buf_pR; float *audio_out_float_buf; float *audio_out_float_buf_p; float *audio_out_float_bufR; float *audio_out_float_buf_pR; float audio_out_temp_buf[160]; float *audio_out_temp_buf_p; float audio_out_temp_bufR[160]; float *audio_out_temp_buf_pR; int audio_out_idx; int audio_out_idx2; int audio_out_idxR; int audio_out_idx2R; int center; int jitter; int synctype; int min; int max; int lmid; int umid; int minref; int maxref; int lastsample; int sbuf[128]; int sidx; int maxbuf[1024]; int minbuf[1024]; int midx; char err_str[64]; char err_buf[64]; char err_strR[64]; char err_bufR[64]; char fsubtype[16]; char ftype[16]; int symbolcnt; int symbolc; int rf_mod; int numflips; int lastsynctype; int lastp25type; int offset; int carrier; char tg[25][16]; int tgcount; int lasttg; int lasttgR; int lastsrc; int lastsrcR; int nac; int errs; int errs2; int errsR; int errs2R; int mbe_file_type; int optind; int numtdulc; int firstframe; char slot0light[8]; float aout_gain; float aout_gainR; float aout_max_buf[200]; float aout_max_bufR[200]; float *aout_max_buf_p; float *aout_max_buf_pR; int aout_max_buf_idx; int aout_max_buf_idxR; int samplesPerSymbol; int symbolCenter; char algid[9]; char keyid[17]; int currentslot; int hardslot; mbe_parms *cur_mp; mbe_parms *prev_mp; mbe_parms *prev_mp_enhanced; mbe_parms *cur_mp2; mbe_parms *prev_mp2; mbe_parms *prev_mp_enhanced2; int p25kid; int payload_algid; int payload_algidR; int payload_keyid; int payload_keyidR; int payload_mfid; int payload_mfidR; int payload_mi; int payload_miR; unsigned long long int payload_miN; unsigned long long int payload_miP; int p25vc; unsigned long long int K; unsigned long long int K1; unsigned long long int K2; unsigned long long int K3; unsigned long long int K4; int M; int menuopen; unsigned int debug_audio_errors; unsigned int debug_audio_errorsR; unsigned int debug_header_errors; unsigned int debug_header_critical_errors; // Last dibit read int last_dibit; // Heuristics state data for +P25 signals P25Heuristics p25_heuristics; // Heuristics state data for -P25 signals P25Heuristics inv_p25_heuristics; //input sample buffer for monitoring Input short input_sample_buffer; //HERE HERE short pulse_raw_out_buffer; //HERE HERE unsigned int dmr_color_code; unsigned int nxdn_last_ran; unsigned int nxdn_last_rid; unsigned int nxdn_last_tg; unsigned int nxdn_cipher_type; unsigned int nxdn_key; char nxdn_call_type[1024]; unsigned long long int dmr_lrrp_source[2]; NxdnElementsContent_t NxdnElementsContent; char ambe_ciphered[49]; char ambe_deciphered[49]; unsigned int color_code; unsigned int color_code_ok; unsigned int PI; unsigned int PI_ok; unsigned int LCSS; unsigned int LCSS_ok; unsigned int dmr_fid; unsigned int dmr_so; unsigned int dmr_flco; unsigned int dmr_fidR; unsigned int dmr_soR; unsigned int dmr_flcoR; char slot1light[8]; char slot2light[8]; int directmode; int dmr_stereo_payload[144]; //load up 144 dibit buffer for every single DMR TDMA frame int data_header_blocks[2]; //collect number of blocks to follow from data header per slot int data_block_counter[2]; //counter for number of data blocks collected uint8_t data_header_valid[2]; //flag for verifying the data header if still valid (in case of tact/burst fec errs) uint8_t data_header_padding[2]; //collect number of padding octets in last block per slot uint8_t data_header_format[2]; //collect format of data header (conf or unconf) per slot uint8_t data_header_sap[2]; //collect sap info per slot uint8_t data_p_head[2]; //flag for dmr proprietary header to follow //new stuff below here uint8_t data_conf_data[2]; //flag for confirmed data blocks per slot uint8_t dmr_pdu_sf[2][288]; //unified pdu 'superframe' //[slot][byte] uint8_t cap_plus_csbk_bits[12*8*8]; //CSBK Cap+ FL initial and appended block bit storage uint8_t cap_plus_block_num; //received block number storage uint8_t data_block_crc_valid[2][25]; //flag each individual block as good crc on confirmed data char dmr_embedded_signalling[2][7][48]; //embedded signalling 2 slots by 6 vc by 48 bits (replacing TS1SuperFrame.TimeSlotRawVoiceFrame.Sync structure) char dmr_cach_fragment[4][17]; //unsure of size, will need to check/verify int dmr_cach_counter; //counter for dmr_cach_fragments 0-3; not sure if needed yet. //dmr talker alias new/fixed stuff uint8_t dmr_alias_format[2]; //per slot uint8_t dmr_alias_len[2]; //per slot char dmr_alias_block_segment[2][4][7][16]; //2 slots, by 4 blocks, by up to 7 alias bytes that are up to 16-bit chars char dmr_embedded_gps[2][200]; //2 slots by 99 char string for string embedded gps char dmr_lrrp_gps[2][200]; //2 slots by 99 char string for string lrrp gps char dmr_site_parms[200]; //string for site/net info depending on type of DMR system (TIII or Con+) char call_string[2][200]; //string for call information dPMRVoiceFS2Frame_t dPMRVoiceFS2Frame; char dpmr_caller_id[20]; char dpmr_target_id[20]; int dpmr_color_code; short int dmr_stereo; //need state variable for upsample function short int dmr_ms_rc; short int dmr_ms_mode; unsigned int dmrburstL; unsigned int dmrburstR; int dropL; int dropR; unsigned long long int R; unsigned long long int RR; unsigned long long int H; unsigned long long int HYTL; unsigned long long int HYTR; int DMRvcL; int DMRvcR; short int dmr_encL; short int dmr_encR; //P2 variables unsigned long long int p2_wacn; unsigned long long int p2_sysid; unsigned long long int p2_cc; //p1 NAC unsigned long long int p2_siteid; unsigned long long int p2_rfssid; int p2_hardset; //flag for checking whether or not P2 wacn and sysid are hard set by user int p2_scramble_offset; //offset counter for scrambling application int p2_vch_chan_num; //vch channel number (0 or 1, not the 0-11 TS) int ess_b[2][96]; //external storage for ESS_B fragments int fourv_counter[2]; //external reference counter for ESS_B fragment collection int p2_is_lcch; //flag to tell us when a frame is lcch and not sacch //iden freq storage for frequency calculations int p25_chan_tdma[16]; //set from iden_up vs iden_up_tdma int p25_chan_iden; int p25_chan_type[16]; int p25_trans_off[16]; int p25_chan_spac[16]; long int p25_base_freq[16]; //p25 frequency storage for trunking and display in ncurses long int p25_cc_freq; //cc freq from net_stat long int p25_vc_freq[2]; //vc freq from voice grant updates, etc int p25_cc_is_tdma; //flag to tell us that the P25 control channel is TDMA so we can change symbol rate when required //experimental symbol file capture read throttle int symbol_throttle; //throttle speed int use_throttle; //only use throttle if set to 1 //dstar header for ncurses unsigned char dstarradioheader[41]; //dmr trunking stuff int dmr_rest_channel; int dmr_mfid; //just when 'fid' is used as a manufacturer ID and not a feature set id int dmr_vc_lcn; int dmr_vc_lsn; int dmr_tuned_lcn; //edacs int ea_mode; int esk_mode; unsigned short esk_mask; unsigned long long int edacs_site_id; int edacs_lcn_count; //running tally of lcn's observed on edacs system int edacs_cc_lcn; //current lcn for the edacs control channel int edacs_vc_lcn; //current lcn for any active vc (not the one we are tuned/tuning to) int edacs_tuned_lcn; //the vc we are currently tuned to...above variable is for updating all in the matrix //trunking group and lcn freq list long int trunk_lcn_freq[26]; //max number on an EDACS system, should be enough on DMR too hopefully long int trunk_chan_map[0xFFFF]; //NXDN - 10 bit; P25 - 16 bit; DMR up to 12 bit (standard TIII) groupinfo group_array[0x3FF]; //max supported by Cygwin is 3FFF, I hope nobody actually tries to import this many groups unsigned int group_tally; //tally number of groups imported from CSV file for referencing later int lcn_freq_count; int lcn_freq_roll; //number we have 'rolled' to in search of the CC time_t last_cc_sync_time; //use this to start hunting for CC after signal lost time_t last_vc_sync_time; //flag for voice activity bursts, tune back on con+ after more than x seconds no voice int is_con_plus; //con_plus flag for knowing its safe to skip payload channel after x seconds of no voice sync //new nxdn stuff int nxdn_part_of_frame; int nxdn_ran; int nxdn_sf; bool nxdn_sacch_non_superframe; //flag to indicate whether or not a sacch is a part of a superframe, or an individual piece uint8_t nxdn_sacch_frame_segment[4][18]; //part of frame by 18 bits uint8_t nxdn_sacch_frame_segcrc[4]; uint8_t nxdn_alias_block_number; char nxdn_alias_block_segment[4][4][8]; //site/srv/cch info char nxdn_location_category[14]; uint32_t nxdn_location_sys_code; uint16_t nxdn_location_site_code; //channel access information uint8_t nxdn_rcn; uint8_t nxdn_base_freq; uint8_t nxdn_step; uint8_t nxdn_bw; //multi-key array unsigned long long int rkey_array[0xFFFF]; //dmr late entry mi uint64_t late_entry_mi_fragment[2][7][3]; //dmr manufacturer branding and sub_branding (i.e., Motorola and Con+) char dmr_branding[20]; char dmr_branding_sub[80]; //Remus DMR End Call Alert Beep int dmr_end_alert[2]; //dmr TLC end call alert beep has already played once flag //Upsampled Audio Smoothing uint8_t audio_smoothing; } dsd_state; /* * Frame sync patterns */ #define FUSION_SYNC "31111311313113131131" //HA! #define INV_FUSION_SYNC "13333133131331313313" //HA! #define INV_P25P1_SYNC "333331331133111131311111" #define P25P1_SYNC "111113113311333313133333" #define P25P2_SYNC "11131131111333133333" #define INV_P25P2_SYNC "33313313333111311111" #define X2TDMA_BS_VOICE_SYNC "113131333331313331113311" #define X2TDMA_BS_DATA_SYNC "331313111113131113331133" #define X2TDMA_MS_DATA_SYNC "313113333111111133333313" #define X2TDMA_MS_VOICE_SYNC "131331111333333311111131" #define DSTAR_HD "131313131333133113131111" #define INV_DSTAR_HD "313131313111311331313333" #define DSTAR_SYNC "313131313133131113313111" #define INV_DSTAR_SYNC "131313131311313331131333" #define NXDN_MS_DATA_SYNC "313133113131111333" #define INV_NXDN_MS_DATA_SYNC "131311331313333111" #define INV_NXDN_BS_DATA_SYNC "131311331313333131" #define NXDN_BS_DATA_SYNC "313133113131111313" #define NXDN_MS_VOICE_SYNC "313133113131113133" #define INV_NXDN_MS_VOICE_SYNC "131311331313331311" #define INV_NXDN_BS_VOICE_SYNC "131311331313331331" #define NXDN_BS_VOICE_SYNC "313133113131113113" #define DMR_BS_DATA_SYNC "313333111331131131331131" #define DMR_BS_VOICE_SYNC "131111333113313313113313" #define DMR_MS_DATA_SYNC "311131133313133331131113" #define DMR_MS_VOICE_SYNC "133313311131311113313331" //Part 1-A CAI 4.4.4 (FSW only - Late Entry - Marginal Signal) #define NXDN_FSW "3131331131" #define INV_NXDN_FSW "1313113313" //Part 1-A CAI 4.4.3 Preamble Last 9 plus FSW (start of RDCH) #define NXDN_PANDFSW "3131133313131331131" //19 symbols #define INV_NXDN_PANDFSW "1313311131313113313" //19 symbols #define DMR_RC_DATA_SYNC "131331111133133133311313" #define DMR_DIRECT_MODE_TS1_DATA_SYNC "331333313111313133311111" #define DMR_DIRECT_MODE_TS1_VOICE_SYNC "113111131333131311133333" #define DMR_DIRECT_MODE_TS2_DATA_SYNC "311311111333113333133311" #define DMR_DIRECT_MODE_TS2_VOICE_SYNC "133133333111331111311133" #define INV_PROVOICE_SYNC "31313111333133133311331133113311" #define PROVOICE_SYNC "13131333111311311133113311331133" #define INV_PROVOICE_EA_SYNC "13313133113113333311313133133311" #define PROVOICE_EA_SYNC "31131311331331111133131311311133" #define EDACS_SYNC "313131313131313131313111333133133131313131313131" #define INV_EDACS_SYNC "131313131313131313131333111311311313131313131313" #define DPMR_FRAME_SYNC_1 "111333331133131131111313" #define DPMR_FRAME_SYNC_2 "113333131331" #define DPMR_FRAME_SYNC_3 "133131333311" #define DPMR_FRAME_SYNC_4 "333111113311313313333131" /* dPMR Frame Sync 1 to 4 - Inverted */ #define INV_DPMR_FRAME_SYNC_1 "333111113311313313333131" #define INV_DPMR_FRAME_SYNC_2 "331111313113" #define INV_DPMR_FRAME_SYNC_3 "311313111133" #define INV_DPMR_FRAME_SYNC_4 "111333331133131131111313" /* * function prototypes */ void processdPMRvoice (dsd_opts * opts, dsd_state * state); void processAudio (dsd_opts * opts, dsd_state * state); void processAudioR (dsd_opts * opts, dsd_state * state); void openPulseInput (dsd_opts * opts); //not sure if we need to just pass opts, or opts and state yet void openPulseOutput (dsd_opts * opts); //not sure if we need to just pass opts, or opts and state yet void closePulseInput (dsd_opts * opts); void closePulseOutput (dsd_opts * opts); void writeSynthesizedVoice (dsd_opts * opts, dsd_state * state); void writeSynthesizedVoiceR (dsd_opts * opts, dsd_state * state); void playSynthesizedVoice (dsd_opts * opts, dsd_state * state); void playSynthesizedVoiceR (dsd_opts * opts, dsd_state * state); void openAudioOutDevice (dsd_opts * opts, int speed); void openAudioInDevice (dsd_opts * opts); int getDibit (dsd_opts * opts, dsd_state * state); int get_dibit_and_analog_signal (dsd_opts * opts, dsd_state * state, int * out_analog_signal); void skipDibit (dsd_opts * opts, dsd_state * state, int count); void saveImbe4400Data (dsd_opts * opts, dsd_state * state, char *imbe_d); void saveAmbe2450Data (dsd_opts * opts, dsd_state * state, char *ambe_d); void saveAmbe2450DataR (dsd_opts * opts, dsd_state * state, char *ambe_d); //tdma slot 2 void PrintAMBEData (dsd_opts * opts, dsd_state * state, char *ambe_d); void PrintIMBEData (dsd_opts * opts, dsd_state * state, char *imbe_d); int readImbe4400Data (dsd_opts * opts, dsd_state * state, char *imbe_d); int readAmbe2450Data (dsd_opts * opts, dsd_state * state, char *ambe_d); void openMbeInFile (dsd_opts * opts, dsd_state * state); void closeMbeOutFile (dsd_opts * opts, dsd_state * state); void closeMbeOutFileR (dsd_opts * opts, dsd_state * state); //tdma slot 2 void openMbeOutFile (dsd_opts * opts, dsd_state * state); void openMbeOutFileR (dsd_opts * opts, dsd_state * state); //tdma slot 2 void openWavOutFile (dsd_opts * opts, dsd_state * state); void openWavOutFileL (dsd_opts * opts, dsd_state * state); void openWavOutFileR (dsd_opts * opts, dsd_state * state); void openWavOutFileRaw (dsd_opts * opts, dsd_state * state); void openSymbolOutFile (dsd_opts * opts, dsd_state * state); void closeSymbolOutFile (dsd_opts * opts, dsd_state * state); void writeSymbolOutFile (dsd_opts * opts, dsd_state * state); void writeRawSample (dsd_opts * opts, dsd_state * state, short sample); void closeWavOutFile (dsd_opts * opts, dsd_state * state); void closeWavOutFileL (dsd_opts * opts, dsd_state * state); void closeWavOutFileR (dsd_opts * opts, dsd_state * state); void closeWavOutFileRaw (dsd_opts * opts, dsd_state * state); void printFrameInfo (dsd_opts * opts, dsd_state * state); void processFrame (dsd_opts * opts, dsd_state * state); void printFrameSync (dsd_opts * opts, dsd_state * state, char *frametype, int offset, char *modulation); int getFrameSync (dsd_opts * opts, dsd_state * state); int comp (const void *a, const void *b); void noCarrier (dsd_opts * opts, dsd_state * state); void initOpts (dsd_opts * opts); void initState (dsd_state * state); void usage (); void liveScanner (dsd_opts * opts, dsd_state * state); void cleanupAndExit (dsd_opts * opts, dsd_state * state); // void sigfun (int sig); //not necesary int main (int argc, char **argv); void playMbeFiles (dsd_opts * opts, dsd_state * state, int argc, char **argv); void processMbeFrame (dsd_opts * opts, dsd_state * state, char imbe_fr[8][23], char ambe_fr[4][24], char imbe7100_fr[7][24]); void openSerial (dsd_opts * opts, dsd_state * state); void resumeScan (dsd_opts * opts, dsd_state * state); int getSymbol (dsd_opts * opts, dsd_state * state, int have_sync); void upsample (dsd_state * state, float invalue); void processDSTAR (dsd_opts * opts, dsd_state * state); //new p25lcw void p25_lcw (dsd_opts * opts, dsd_state * state, uint8_t LCW_bits[], uint8_t irrecoverable_errors); void processP25lcw (dsd_opts * opts, dsd_state * state, char *lcformat, char *mfid, char *lcinfo); void processHDU (dsd_opts * opts, dsd_state * state); void processLDU1 (dsd_opts * opts, dsd_state * state); void processLDU2 (dsd_opts * opts, dsd_state * state); void processTDU (dsd_opts * opts, dsd_state * state); void processTDULC (dsd_opts * opts, dsd_state * state); void processProVoice (dsd_opts * opts, dsd_state * state); void processX2TDMAdata (dsd_opts * opts, dsd_state * state); void processX2TDMAvoice (dsd_opts * opts, dsd_state * state); void processDSTAR_HD (dsd_opts * opts, dsd_state * state); void processYSF(dsd_opts * opts, dsd_state * state); //YSF void processP2(dsd_opts * opts, dsd_state * state); //P2 void processTSBK(dsd_opts * opts, dsd_state * state); //P25 Trunking Single Block void processMPDU(dsd_opts * opts, dsd_state * state); //P25 Multi Block PDU (SAP 0x61 FMT 0x15 or 0x17 for Trunking Blocks) short dmr_filter(short sample); short nxdn_filter(short sample); short dpmr_filter(short sample); int strncmperr(const char *s1, const char *s2, size_t size, int MaxErr); /* Global functions */ uint32_t ConvertBitIntoBytes(uint8_t * BufferIn, uint32_t BitLength); void ncursesOpen (dsd_opts * opts, dsd_state * state); void ncursesPrinter (dsd_opts * opts, dsd_state * state); void ncursesClose (); //new NXDN Functions start here! void nxdn_frame (dsd_opts * opts, dsd_state * state); void nxdn_descramble (uint8_t dibits[], int len); void nxdn_deperm_facch (dsd_opts * opts, dsd_state * state, uint8_t bits[144]); void nxdn_deperm_sacch (dsd_opts * opts, dsd_state * state, uint8_t bits[60]); void nxdn_deperm_cac (dsd_opts * opts, dsd_state * state, uint8_t bits[300]); void nxdn_deperm_facch2_udch (dsd_opts * opts, dsd_state * state, uint8_t bits[348]); void nxdn_message_type (dsd_opts * opts, dsd_state * state, uint8_t MessageType); void nxdn_voice (dsd_opts * opts, dsd_state * state, int voice, uint8_t dbuf[182]); //OP25 NXDN CRC functions static inline int load_i(const uint8_t val[], int len); static uint8_t crc6(const uint8_t buf[], int len); static uint16_t crc12f(const uint8_t buf[], int len); static uint16_t crc15(const uint8_t buf[], int len); static uint16_t crc16cac(const uint8_t buf[], int len); /* NXDN Convolution functions */ void CNXDNConvolution_start(void); void CNXDNConvolution_decode(uint8_t s0, uint8_t s1); void CNXDNConvolution_chainback(unsigned char* out, unsigned int nBits); void CNXDNConvolution_encode(const unsigned char* in, unsigned char* out, unsigned int nBits); //keeping these void NXDN_SACCH_Full_decode(dsd_opts * opts, dsd_state * state); void NXDN_Elements_Content_decode(dsd_opts * opts, dsd_state * state, uint8_t CrcCorrect, uint8_t * ElementsContent); void NXDN_decode_VCALL(dsd_opts * opts, dsd_state * state, uint8_t * Message); void NXDN_decode_VCALL_IV(dsd_opts * opts, dsd_state * state, uint8_t * Message); char * NXDN_Call_Type_To_Str(uint8_t CallType); void NXDN_Voice_Call_Option_To_Str(uint8_t VoiceCallOption, uint8_t * Duplex, uint8_t * TransmissionMode); char * NXDN_Cipher_Type_To_Str(uint8_t CipherType); //added these void NXDN_decode_Alias(dsd_opts * opts, dsd_state * state, uint8_t * Message); void NXDN_decode_VCALL_ASSGN(dsd_opts * opts, dsd_state * state, uint8_t * Message); void NXDN_decode_cch_info(dsd_opts * opts, dsd_state * state, uint8_t * Message); void NXDN_decode_srv_info(dsd_opts * opts, dsd_state * state, uint8_t * Message); void NXDN_decode_site_info(dsd_opts * opts, dsd_state * state, uint8_t * Message); void NXDN_decode_adj_site(dsd_opts * opts, dsd_state * state, uint8_t * Message); void dPMRVoiceFrameProcess(dsd_opts * opts, dsd_state * state); //dPMR functions void ScrambledPMRBit(uint32_t * LfsrValue, uint8_t * BufferIn, uint8_t * BufferOut, uint32_t NbOfBitToScramble); void DeInterleave6x12DPmrBit(uint8_t * BufferIn, uint8_t * BufferOut); uint8_t CRC7BitdPMR(uint8_t * BufferIn, uint32_t BitLength); uint8_t CRC8BitdPMR(uint8_t * BufferIn, uint32_t BitLength); void ConvertAirInterfaceID(uint32_t AI_ID, uint8_t ID[8]); int32_t GetdPmrColorCode(uint8_t ChannelCodeBit[24]); //BPTC (Block Product Turbo Code) functions void BPTCDeInterleaveDMRData(uint8_t * Input, uint8_t * Output); uint32_t BPTC_196x96_Extract_Data(uint8_t InputDeInteleavedData[196], uint8_t DMRDataExtracted[96], uint8_t R[3]); uint32_t BPTC_128x77_Extract_Data(uint8_t InputDataMatrix[8][16], uint8_t DMRDataExtracted[77]); uint32_t BPTC_16x2_Extract_Data(uint8_t InputInterleavedData[32], uint8_t DMRDataExtracted[32], uint32_t ParityCheckTypeOdd); //Reed Solomon (12,9) functions void rs_12_9_calc_syndrome(rs_12_9_codeword_t *codeword, rs_12_9_poly_t *syndrome); uint8_t rs_12_9_check_syndrome(rs_12_9_poly_t *syndrome); rs_12_9_correct_errors_result_t rs_12_9_correct_errors(rs_12_9_codeword_t *codeword, rs_12_9_poly_t *syndrome, uint8_t *errors_found); rs_12_9_checksum_t *rs_12_9_calc_checksum(rs_12_9_codeword_t *codeword); //DMR CRC Functions uint16_t ComputeCrcCCITT(uint8_t * DMRData); uint16_t ComputeCrcCCITT16d(const uint8_t buf[], uint8_t len); uint32_t ComputeAndCorrectFullLinkControlCrc(uint8_t * FullLinkControlDataBytes, uint32_t * CRCComputed, uint32_t CRCMask); uint8_t ComputeCrc5Bit(uint8_t * DMRData); uint16_t ComputeCrc9Bit(uint8_t * DMRData, uint32_t NbData); uint32_t ComputeCrc32Bit(uint8_t * DMRData, uint32_t NbData); //new simplified dmr functions void dmr_data_burst_handler(dsd_opts * opts, dsd_state * state, uint8_t info[196], uint8_t databurst); void dmr_data_sync (dsd_opts * opts, dsd_state * state); void dmr_pi (dsd_opts * opts, dsd_state * state, uint8_t PI_BYTE[], uint32_t CRCCorrect, uint32_t IrrecoverableErrors); void dmr_flco (dsd_opts * opts, dsd_state * state, uint8_t lc_bits[], uint32_t CRCCorrect, uint32_t IrrecoverableErrors, uint8_t type); void dmr_cspdu (dsd_opts * opts, dsd_state * state, uint8_t cs_pdu_bits[], uint8_t cs_pdu[], uint32_t CRCCorrect, uint32_t IrrecoverableErrors); void dmr_slco (dsd_opts * opts, dsd_state * state, uint8_t slco_bits[]); uint8_t dmr_cach (dsd_opts * opts, dsd_state * state, uint8_t cach_bits[25]); //Embedded Alias and GPS void dmr_embedded_alias_header (dsd_opts * opts, dsd_state * state, uint8_t lc_bits[]); void dmr_embedded_alias_blocks (dsd_opts * opts, dsd_state * state, uint8_t lc_bits[]); void dmr_embedded_gps (dsd_opts * opts, dsd_state * state, uint8_t lc_bits[]); //"DMR STEREO" void dmrBSBootstrap (dsd_opts * opts, dsd_state * state); void dmrBS (dsd_opts * opts, dsd_state * state); void dmrMS (dsd_opts * opts, dsd_state * state); void dmrMSData (dsd_opts * opts, dsd_state * state); void dmrMSBootstrap (dsd_opts * opts, dsd_state * state); //dmr data header and multi block types (header, 1/2, 3/4, 1, Unified) void dmr_dheader (dsd_opts * opts, dsd_state * state, uint8_t dheader[], uint8_t dheader_bits[], uint32_t CRCCorrect, uint32_t IrrecoverableErrors); void dmr_block_assembler (dsd_opts * opts, dsd_state * state, uint8_t block_bytes[], uint8_t block_len, uint8_t databurst, uint8_t type); void dmr_pdu (dsd_opts * opts, dsd_state * state, uint8_t block_len, uint8_t DMR_PDU[]); void dmr_reset_blocks (dsd_opts * opts, dsd_state * state); void dmr_lrrp (dsd_opts * opts, dsd_state * state, uint8_t block_len, uint8_t DMR_PDU[]); void dmr_locn (dsd_opts * opts, dsd_state * state, uint8_t block_len, uint8_t DMR_PDU[]); //dmr alg stuff void dmr_alg_reset (dsd_opts * opts, dsd_state * state); void dmr_alg_refresh (dsd_opts * opts, dsd_state * state); void dmr_late_entry_mi_fragment (dsd_opts * opts, dsd_state * state, uint8_t vc, char ambe_fr[4][24], char ambe_fr2[4][24], char ambe_fr3[4][24]); void dmr_late_entry_mi (dsd_opts * opts, dsd_state * state); //handle Single Burst (Voice Burst F) or Reverse Channel Signalling void dmr_sbrc (dsd_opts * opts, dsd_state * state, uint8_t power); //DMR FEC/CRC from Boatbod - OP25 bool Hamming17123(uint8_t* d); uint8_t crc8(uint8_t bits[], unsigned int len); bool crc8_ok(uint8_t bits[], unsigned int len); uint8_t crc7(uint8_t bits[], unsigned int len); //LFSR code courtesy of https://github.com/mattames/LFSR/ void LFSR(dsd_state * state); void LFSRN (char * BufferIn, char * BufferOut, dsd_state * state); void LFSR64(dsd_state * state); void Hamming_7_4_init(); void Hamming_7_4_encode(unsigned char *origBits, unsigned char *encodedBits); bool Hamming_7_4_decode(unsigned char *rxBits); void Hamming_12_8_init(); void Hamming_12_8_encode(unsigned char *origBits, unsigned char *encodedBits); bool Hamming_12_8_decode(unsigned char *rxBits, unsigned char *decodedBits, int nbCodewords); void Hamming_13_9_init(); void Hamming_13_9_encode(unsigned char *origBits, unsigned char *encodedBits); bool Hamming_13_9_decode(unsigned char *rxBits, unsigned char *decodedBits, int nbCodewords); void Hamming_15_11_init(); void Hamming_15_11_encode(unsigned char *origBits, unsigned char *encodedBits); bool Hamming_15_11_decode(unsigned char *rxBits, unsigned char *decodedBits, int nbCodewords); void Hamming_16_11_4_init(); void Hamming_16_11_4_encode(unsigned char *origBits, unsigned char *encodedBits); bool Hamming_16_11_4_decode(unsigned char *rxBits, unsigned char *decodedBits, int nbCodewords); void Golay_20_8_init(); void Golay_20_8_encode(unsigned char *origBits, unsigned char *encodedBits); bool Golay_20_8_decode(unsigned char *rxBits); void Golay_23_12_init(); void Golay_23_12_encode(unsigned char *origBits, unsigned char *encodedBits); bool Golay_23_12_decode(unsigned char *rxBits); void Golay_24_12_init(); void Golay_24_12_encode(unsigned char *origBits, unsigned char *encodedBits); bool Golay_24_12_decode(unsigned char *rxBits); void QR_16_7_6_init(); void QR_16_7_6_encode(unsigned char *origBits, unsigned char *encodedBits); bool QR_16_7_6_decode(unsigned char *rxBits); void InitAllFecFunction(void); void resetState (dsd_state * state); void dstar_header_decode(dsd_state * state, int radioheaderbuffer[660]); //P25 PDU Handler void process_MAC_VPDU(dsd_opts * opts, dsd_state * state, int type, unsigned long long int MAC[24]); //P25 xCCH Handlers (SACCH, FACCH, LCCH) void process_SACCH_MAC_PDU (dsd_opts * opts, dsd_state * state, int payload[180]); void process_FACCH_MAC_PDU (dsd_opts * opts, dsd_state * state, int payload[156]); //P25 Channel to Frequency long int process_channel_to_freq (dsd_opts * opts, dsd_state * state, int channel); //NXDN Channel to Frequency, Courtesy of IcomIcR20 on RR Forums long int nxdn_channel_to_frequency (dsd_opts * opts, dsd_state * state, uint16_t channel); //rigctl functions and TCP/UDP functions void error(char *msg); int Connect (char *hostname, int portno); bool Send(int sockfd, char *buf); bool Recv(int sockfd, char *buf); //rtl_fm udp tuning function void rtl_udp_tune(dsd_opts * opts, dsd_state * state, long int frequency); long int GetCurrentFreq(int sockfd); bool SetFreq(int sockfd, long int freq); bool SetModulation(int sockfd, int bandwidth); //commands below unique to GQRX only, not usable on SDR++ bool GetSignalLevel(int sockfd, double *dBFS); bool GetSquelchLevel(int sockfd, double *dBFS); bool SetSquelchLevel(int sockfd, double dBFS); bool GetSignalLevelEx(int sockfd, double *dBFS, int n_samp); //end gqrx-scanner //UDP socket connection int UDPBind (char *hostname, int portno); //EDACS void edacs(dsd_opts * opts, dsd_state * state); unsigned long long int edacs_bch (unsigned long long int message); //csv imports int csvGroupImport(dsd_opts * opts, dsd_state * state); int csvLCNImport(dsd_opts * opts, dsd_state * state); int csvChanImport(dsd_opts * opts, dsd_state * state); int csvKeyImport(dsd_opts * opts, dsd_state * state); #ifdef __cplusplus extern "C" { #endif #ifdef USE_RTLSDR void open_rtlsdr_stream(dsd_opts *opts); void cleanup_rtlsdr_stream(); void get_rtlsdr_sample(int16_t *sample, dsd_opts * opts, dsd_state * state); void rtlsdr_sighandler(); #endif //DMR TRELLIS void CDMRTrellisTribitsToBits(const unsigned char* tribits, unsigned char* payload); unsigned int CDMRTrellisCheckCode(const unsigned char* points, unsigned char* tribits); bool CDMRTrellisFixCode(unsigned char* points, unsigned int failPos, unsigned char* payload); void CDMRTrellisDeinterleave(const unsigned char* data, signed char* dibits); void CDMRTrellisDibitsToPoints(const signed char* dibits, unsigned char* points); void CDMRTrellisPointsToDibits(const unsigned char* points, signed char* dibits); void CDMRTrellisBitsToTribits(const unsigned char* payload, unsigned char* tribits); bool CDMRTrellisDecode(const unsigned char* data, unsigned char* payload); //Phase 2 Helper Functions int ez_rs28_ess (int payload[96], int parity[168]); //ezpwd bridge for FME int ez_rs28_facch (int payload[156], int parity[114]); //ezpwd bridge for FME int ez_rs28_sacch (int payload[180], int parity[132]); //ezpwd bridge for FME int isch_lookup (unsigned long long int isch); //isch map lookup int bd_bridge (int payload[196], uint8_t decoded[12]); //bridge to Michael Ossmann Block De-interleaver and 1/2 rate trellis decoder int crc16_lb_bridge (int payload[190], int len); int crc12_xb_bridge (int payload[190], int len); #ifdef __cplusplus } #endif #endif // DSD_H