/* Copyright (C) 2014 CSP Innovazione nelle ICT s.c.a r.l. (http://www.csp.it/) Copyright (C) 2016 Matthias P. Braendli (http://www.opendigitalradio.org) Copyright (C) 2015 Data Path 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 3 of the License, 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. If not, see . etisnoop.cpp Parse ETI NI G.703 file Authors: Sergio Sagliocco Matthias P. Braendli / | |- ')|) |-|_ _ (|,_ .| _ ,_ \ Data Path \(|(||_(|/_| (||_||(a)_||||(|||.(_()|||/ */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "lib_crc.h" #include "utils.hpp" #include "dabplussnoop.h" #include "etiinput.h" #include "figs.hpp" #include "watermarkdecoder.hpp" struct FIG { int type; int ext; int len; }; class FIGalyser { public: FIGalyser() { clear(); } void set_fib(int fib) { m_fib = fib; } void push_back(int type, int ext, int len) { struct FIG fig = { .type = type, .ext = ext, .len = len }; m_figs[m_fib].push_back(fig); } void analyse() { printf("FIC "); for (size_t fib = 0; fib < m_figs.size(); fib++) { int consumed = 7; int fic_size = 0; printf("[%1zu ", fib); for (size_t i = 0; i < m_figs[fib].size(); i++) { FIG &f = m_figs[fib][i]; printf("%01d/%02d (%2d) ", f.type, f.ext, f.len); consumed += 10; fic_size += f.len; } printf(" "); int align = 60 - consumed; if (align > 0) { while (align--) { printf(" "); } } printf("|"); for (int i = 0; i < 15; i++) { if (2*i < fic_size) { printf("#"); } else { printf("-"); } } printf("| ] "); } printf("\n"); } void clear() { m_figs.clear(); m_figs.resize(3); } private: int m_fib; std::vector > m_figs; }; struct FIG0_13_shortAppInfo { uint16_t SId; uint8_t No:4; uint8_t SCIdS:4; } PACKED; #define ETINIPACKETSIZE 6144 using namespace std; struct eti_analyse_config_t { FILE* etifd; bool ignore_error; std::map streams_to_decode; bool analyse_fic_carousel; bool decode_watermark; }; // Function prototypes void decodeFIG(FIGalyser &figs, WatermarkDecoder &wm_decoder, uint8_t* figdata, uint8_t figlen, uint16_t figtype, int indent); int eti_analyse(eti_analyse_config_t& config); const char *get_programme_type_str(size_t int_table_Id, size_t pty); int sprintfMJD(char *dst, int mjd); #define no_argument 0 #define required_argument 1 #define optional_argument 2 const struct option longopts[] = { {"help", no_argument, 0, 'h'}, {"verbose", no_argument, 0, 'v'}, {"ignore-error", no_argument, 0, 'e'}, {"decode-stream", required_argument, 0, 'd'}, {"input", required_argument, 0, 'i'} }; void usage(void) { fprintf(stderr, "ETISnoop analyser\n\n" "The ETSnoop analyser decodes and prints out a RAW ETI file in a\n" "form that makes analysis easier.\n" "Usage: etisnoop [-v] [-f] [-w] [-i filename] [-d stream_index]\n" "\n" " -v increase verbosity (can be given more than once)\n" " -d N decode subchannel N into .dabp and .wav files\n" " -f analyse FIC carousel\n" " -w decode CRC-DABMUX and ODR-DabMux watermark.\n"); } int main(int argc, char *argv[]) { int index; int ch = 0; string file_name("-"); map streams_to_decode; bool ignore_error = false; bool analyse_fic_carousel = false; bool decode_watermark = false; while(ch != -1) { ch = getopt_long(argc, argv, "d:efhvwi:", longopts, &index); switch (ch) { case 'd': { int subchix = atoi(optarg); DabPlusSnoop dps; streams_to_decode[subchix] = dps; } break; case 'e': ignore_error = true; break; case 'i': file_name = optarg; break; case 'f': analyse_fic_carousel = true; break; case 'v': set_verbosity(get_verbosity() + 1); break; case 'w': decode_watermark = true; break; case 'h': usage(); return 1; break; } } FILE* etifd; if (file_name == "-") { printf("Analysing stdin\n"); etifd = stdin; } else { etifd = fopen(file_name.c_str(), "r"); if (etifd == NULL) { perror("File open failed"); return 1; } } eti_analyse_config_t config = { .etifd = etifd, .ignore_error = ignore_error, .streams_to_decode = streams_to_decode, .analyse_fic_carousel = analyse_fic_carousel, .decode_watermark = decode_watermark }; eti_analyse(config); fclose(etifd); } int eti_analyse(eti_analyse_config_t& config) { uint8_t p[ETINIPACKETSIZE]; string desc; char prevsync[3]={0x00,0x00,0x00}; uint8_t ficf,nst,fp,mid,ficl; uint16_t fl,crch; uint16_t crc; uint8_t scid,tpl,l1; uint16_t sad[64],stl[64]; char sdesc[256]; uint32_t frame_nb = 0, frame_sec = 0, frame_ms = 0, frame_h, frame_m, frame_s; bool running = true; int stream_type = ETI_STREAM_TYPE_NONE; if (identify_eti_format(config.etifd, &stream_type) == -1) { printf("Could not identify stream type\n"); running = false; } else { printf("Identified ETI type "); if (stream_type == ETI_STREAM_TYPE_RAW) printf("RAW\n"); else if (stream_type == ETI_STREAM_TYPE_STREAMED) printf("STREAMED\n"); else if (stream_type == ETI_STREAM_TYPE_FRAMED) printf("FRAMED\n"); else printf("?\n"); } WatermarkDecoder wm_decoder; while (running) { int ret = get_eti_frame(config.etifd, stream_type, p); if (ret == -1) { fprintf(stderr, "ETI file read error\n"); break; } else if (ret == 0) { fprintf(stderr, "End of ETI\n"); break; } // Timestamp and Frame Number frame_h = (frame_sec / 3600); frame_m = (frame_sec - (frame_h * 3600)) / 60; frame_s = (frame_sec - (frame_h * 3600) - (frame_m * 60)); sprintf(sdesc, "%02d:%02d:%02d.%03d frame %d", frame_h, frame_m, frame_s, frame_ms, frame_nb); printbuf(sdesc, 0, NULL, 0); frame_ms += 24; // + 24 ms if (frame_ms >= 1000) { frame_ms -= 1000; frame_sec++; } frame_nb++; // SYNC printbuf("SYNC", 0, p, 4); // SYNC - ERR if (p[0] == 0xFF) { desc = "No error"; printbuf("ERR", 1, p, 1, desc); } else { desc = "Error"; printbuf("ERR", 1, p, 1, desc); if (!config.ignore_error) { printf("Aborting because of SYNC error\n"); break; } } // SYNC - FSYNC if (memcmp(prevsync, "\x00\x00\x00", 3) == 0) { if ( (memcmp(p + 1, "\x07\x3a\xb6", 3) == 0) || (memcmp(p + 1, "\xf8\xc5\x49", 3) == 0) ) { desc = "OK"; memcpy(prevsync, p+1, 3); } else { desc ="Wrong FSYNC"; memcpy(prevsync, "\x00\x00\x00", 3); } } else if (memcmp(prevsync, "\x07\x3a\xb6", 3) == 0) { if (memcmp(p + 1, "\xf8\xc5\x49", 3) != 0) { desc = "Wrong FSYNC"; memcpy(prevsync, "\x00\x00\x00", 3); } else { desc = "OK"; memcpy(prevsync, p + 1, 3); } } else if (memcmp(prevsync, "\xf8\xc5\x49", 3) == 0) { if (memcmp(p + 1, "\x07\x3a\xb6", 3) != 0) { desc = "Wrong FSYNC"; memcpy(prevsync, "\x00\x00\x00", 3); } else { desc = "OK"; memcpy(prevsync, p + 1, 3); } } printbuf("Sync FSYNC", 1, p + 1, 3, desc); // LIDATA printbuf("LDATA", 0, NULL, 0); // LIDATA - FC printbuf("FC - Frame Characterization field", 1, p+4, 4); // LIDATA - FC - FCT char fct[25]; sprintf(fct, "%d", p[4]); printbuf("FCT - Frame Count", 2, p+4, 1, fct); // LIDATA - FC - FICF ficf = (p[5] & 0x80) >> 7; { stringstream ss; ss << (int)ficf; if (ficf == 1) { ss << "- FIC Information are present"; } else { ss << "- FIC Information are not present"; } printbuf("FICF - Fast Information Channel Flag", 2, NULL, 0, ss.str()); } // LIDATA - FC - NST nst = p[5] & 0x7F; { stringstream ss; ss << (int)nst; printbuf("NST - Number of streams", 2, NULL, 0, ss.str()); } // LIDATA - FC - FP fp = (p[6] & 0xE0) >> 5; { stringstream ss; ss << (int)fp; printbuf("FP - Frame Phase", 2, &fp, 1, ss.str()); } // LIDATA - FC - MID mid = (p[6] & 0x18) >> 3; { stringstream ss; ss << "Mode "; if (mid != 0) { ss << (int)mid; } else { ss << "4"; } printbuf("MID - Mode Identity", 2, &mid, 1, ss.str()); set_mode_identity(mid); } // LIDATA - FC - FL fl = (p[6] & 0x07) * 256 + p[7]; { stringstream ss; ss << fl << " words"; printbuf("FL - Frame Length", 2, NULL, 0, ss.str()); } if (ficf == 0) { ficl = 0; } else if (mid == 3) { ficl = 32; } else { ficl = 24; } // STC printbuf("STC - Stream Characterisation", 1, NULL, 0); for (int i=0; i < nst; i++) { sprintf(sdesc, "Stream number %d", i); printbuf("STC - Stream Characterisation", 2, p + 8 + 4*i, 4, sdesc); scid = (p[8 + 4*i] & 0xFC) >> 2; sprintf(sdesc, "%d", scid); printbuf("SCID - Sub-channel Identifier", 3, NULL, 0, sdesc); sad[i] = (p[8+4*i] & 0x03) * 256 + p[9+4*i]; sprintf(sdesc, "%d", sad[i]); printbuf("SAD - Sub-channel Start Address", 3, NULL, 0, sdesc); tpl = (p[10+4*i] & 0xFC) >> 2; if ((tpl & 0x20) >> 5 == 1) { uint8_t opt, plevel; string plevelstr; opt = (tpl & 0x1c) >> 2; plevel = (tpl & 0x03); if (opt == 0x00) { if (plevel == 0) plevelstr = "1-A, 1/4, 16 CUs"; else if (plevel == 1) plevelstr = "2-A, 3/8, 8 CUs"; else if (plevel == 2) plevelstr = "3-A, 1/2, 6 CUs"; else if (plevel == 3) plevelstr = "4-A, 3/4, 4 CUs"; } else if (opt == 0x01) { if (plevel == 0) plevelstr = "1-B, 4/9, 27 CUs"; else if (plevel == 1) plevelstr = "2-B, 4/7, 21 CUs"; else if (plevel == 2) plevelstr = "3-B, 4/6, 18 CUs"; else if (plevel == 3) plevelstr = "4-B, 4/5, 15 CUs"; } else { stringstream ss; ss << "Unknown option " << opt; plevelstr = ss.str(); } sprintf(sdesc, "0x%02x - Equal Error Protection. %s", tpl, plevelstr.c_str()); } else { uint8_t tsw, uepidx; tsw = (tpl & 0x08); uepidx = tpl & 0x07; sprintf(sdesc, "0x%02x - Unequal Error Protection. Table switch %d, UEP index %d", tpl, tsw, uepidx); } printbuf("TPL - Sub-channel Type and Protection Level", 3, NULL, 0, sdesc); stl[i] = (p[10+4*i] & 0x03) * 256 + \ p[11+4*i]; sprintf(sdesc, "%d => %d kbit/s", stl[i], stl[i]*8/3); printbuf("STL - Sub-channel Stream Length", 3, NULL, 0, sdesc); if (config.streams_to_decode.count(i) > 0) { config.streams_to_decode[i].set_subchannel_index(stl[i]/3); config.streams_to_decode[i].set_index(i); } } // EOH printbuf("EOH - End Of Header", 1, p + 8 + 4*nst, 4); uint16_t mnsc = p[8 + 4*nst] * 256 + \ p[8 + 4*nst + 1]; { stringstream ss; ss << mnsc; printbuf("MNSC - Multiplex Network Signalling Channel", 2, p+8+4*nst, 2, ss.str()); } crch = p[8 + 4*nst + 2]*256 + \ p[8 + 4*nst + 3]; crc = 0xffff; for (int i=4; i < 8 + 4*nst + 2; i++) crc = update_crc_ccitt(crc, p[i]); crc =~ crc; if (crc == crch) { sprintf(sdesc,"CRC OK"); } else { sprintf(sdesc,"CRC Mismatch: %02x",crc); } printbuf("Header CRC", 2, p + 8 + 4*nst + 2, 2, sdesc); // MST - FIC if (ficf == 1) { int endmarker = 0; int figcount = 0; uint8_t *fib, *fig; uint16_t figcrc; FIGalyser figs; uint8_t ficdata[32*4]; memcpy(ficdata, p + 12 + 4*nst, ficl*4); sprintf(sdesc, "FIC Data (%d bytes)", ficl*4); //printbuf(sdesc, 1, ficdata, ficl*4); printbuf(sdesc, 1, NULL, 0); fib = p + 12 + 4*nst; for(int i = 0; i < ficl*4/32; i++) { sprintf(sdesc, "FIB %d", i); printbuf(sdesc, 1, NULL, 0); fig=fib; figs.set_fib(i); endmarker=0; figcount=0; while (!endmarker) { uint8_t figtype, figlen; figtype = (fig[0] & 0xE0) >> 5; if (figtype != 7) { figlen = fig[0] & 0x1F; sprintf(sdesc, "FIG %d [%d bytes]", figtype, figlen); printbuf(sdesc, 3, fig+1, figlen); decodeFIG(figs, wm_decoder, fig+1, figlen, figtype, 4); fig += figlen + 1; figcount += figlen + 1; if (figcount >= 29) endmarker = 1; } else { endmarker = 1; } } figcrc = fib[30]*256 + fib[31]; crc = 0xffff; for (int j = 0; j < 30; j++) { crc = update_crc_ccitt(crc, fib[j]); } crc =~ crc; if (crc == figcrc) sprintf(sdesc, "FIB %d CRC OK", i); else sprintf(sdesc, "FIB %d CRC Mismatch: %02x", i, crc); printbuf(sdesc,3,fib+30,2); fib += 32; } if (config.analyse_fic_carousel) { figs.analyse(); } } int offset = 0; for (int i=0; i < nst; i++) { uint8_t streamdata[684*8]; memcpy(streamdata, p + 12 + 4*nst + ficf*ficl*4 + offset, stl[i]*8); offset += stl[i] * 8; if (config.streams_to_decode.count(i) > 0) { sprintf(sdesc, "id %d, len %d, selected for decoding", i, stl[i]*8); } else { sprintf(sdesc, "id %d, len %d, not selected for decoding", i, stl[i]*8); } if (get_verbosity() > 1) { printbuf("Stream Data", 1, streamdata, stl[i]*8, sdesc); } else { printbuf("Stream Data", 1, streamdata, 0, sdesc); } if (config.streams_to_decode.count(i) > 0) { config.streams_to_decode[i].push(streamdata, stl[i]*8); } } // EOF crch = p[12 + 4*nst + ficf*ficl*4 + offset] * 256 + \ p[12 + 4*nst + ficf*ficl*4 + offset + 1]; crc = 0xffff; for (int i = 12 + 4*nst; i < 12 + 4*nst + ficf*ficl*4 + offset; i++) crc = update_crc_ccitt(crc, p[i]); crc =~ crc; if (crc == crch) sprintf(sdesc, "CRC OK"); else sprintf(sdesc, "CRC Mismatch: %02x", crc); printbuf("EOF", 1, p + 12 + 4*nst + ficf*ficl*4 + offset, 4); printbuf("CRC", 2, p + 12 + 4*nst + ficf*ficl*4 + offset, 2, sdesc); //RFU printbuf("RFU", 2, p + 12 + 4*nst + ficf*ficl*4 + offset + 2, 2); //TIST l1 = (p[12 + 4*nst + ficf*ficl*4 + offset + 5] & 0xfe) >> 1; sprintf(sdesc, "%d ms", l1*8); printbuf("TIST - Time Stamp", 1, p+12+4*nst+ficf*ficl*4+offset+4, 4, sdesc); if (get_verbosity()) { printf("-------------------------------------------------------------------------------------------------------------\n"); } } std::map::iterator it; for (it = config.streams_to_decode.begin(); it != config.streams_to_decode.end(); ++it) { it->second.close(); } if (config.decode_watermark) { std::string watermark(wm_decoder.calculate_watermark()); printf("Watermark:\n %s\n", watermark.c_str()); } figs_cleardb(); return 0; } void decodeFIG(FIGalyser &figs, WatermarkDecoder &wm_decoder, uint8_t* f, uint8_t figlen, uint16_t figtype, int indent) { char desc[512]; switch (figtype) { case 0: { fig0_common_t fig0(f, figlen, wm_decoder); sprintf(desc, "FIG %d/%d: C/N=%d OE=%d P/D=%d", figtype, fig0.ext(), fig0.cn(), fig0.oe(), fig0.pd()); printbuf(desc, indent, f+1, figlen-1); figs.push_back(figtype, fig0.ext(), figlen); fig0_select(fig0, indent); } break; case 1: {// SHORT LABELS fig1_common_t fig1(f, figlen); figs.push_back(figtype, fig1.ext(), figlen); fig1_select(fig1, indent); } break; case 2: {// LONG LABELS uint16_t ext,oe; uint8_t toggle_flag = (f[0] & 0x80) >> 7; uint8_t segment_index = (f[0] & 0x70) >> 4; oe = (f[0] & 0x08) >> 3; ext = f[0] & 0x07; sprintf(desc, "FIG %d/%d: Toggle flag=%d, Segment_index=%d, OE=%d", figtype, ext, toggle_flag, segment_index, oe); printbuf(desc, indent, f+1, figlen-1); figs.push_back(figtype, ext, figlen); } break; case 5: {// FIDC uint16_t ext; uint8_t d1 = (f[0] & 0x80) >> 7; uint8_t d2 = (f[0] & 0x40) >> 6; uint8_t tcid = (f[0] & 0x38) >> 5; ext = f[0] & 0x07; sprintf(desc, "FIG %d/%d: D1=%d, D2=%d, TCId=%d", figtype, ext, d1, d2, tcid); printbuf(desc, indent, f+1, figlen-1); figs.push_back(figtype, ext, figlen); } break; case 6: {// Conditional access fprintf(stderr, "ERROR: ETI contains unsupported FIG 6\n"); } break; } }