/* 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 . Authors: Sergio Sagliocco Matthias P. Braendli / | |- ')|) |-|_ _ (|,_ .| _ ,_ \ Data Path \(|(||_(|/_| (||_||(a)_||||(|||.(_()|||/ */ #include "figs.hpp" #include #include #include #include static std::unordered_set regions_seen; bool fig0_21_is_complete(int region_id) { bool complete = regions_seen.count(region_id); if (complete) { regions_seen.clear(); } else { regions_seen.insert(region_id); } return complete; } // FIG 0/21 Frequency Information // ETSI EN 300 401 8.1.8 bool fig0_21(fig0_common_t& fig0, int indent) { float freq; uint32_t ifreq; uint64_t key; uint16_t RegionId, Id_field; uint8_t i = 1, j, k, Length_FI_list, RandM, Length_Freq_list, Control_field; uint8_t Control_field_trans_mode, Id_field2; char tmpbuf[256]; char desc[256]; bool Continuity_flag; uint8_t* f = fig0.f; bool complete = false; while (i < (fig0.figlen - 1)) { // iterate over frequency information // decode RegionId, Length of FI list RegionId = (f[i] << 3) | (f[i+1] >> 5); complete |= fig0_21_is_complete(RegionId); Length_FI_list = (f[i+1] & 0x1F); sprintf(desc, "RegionId=0x%03x", RegionId); printbuf(desc, indent+1, NULL, 0); i += 2; if ((i + Length_FI_list) <= fig0.figlen) { j = i; while ((j + 2) < (i + Length_FI_list)) { // iterate over FI list x // decode Id field, R&M, Continuity flag, Length of Freq list Id_field = (f[j] << 8) | f[j+1]; RandM = f[j+2] >> 4; Continuity_flag = (f[j+2] >> 3) & 0x01; Length_Freq_list = f[j+2] & 0x07; sprintf(desc, "Id_field="); switch (RandM) { case 0x0: case 0x1: strcat(desc, "EId"); break; case 0x6: strcat(desc, "DRM Service Id"); break; case 0x8: strcat(desc, "RDS PI"); break; case 0x9: case 0xa: case 0xc: strcat(desc, "Dummy"); break; case 0xe: strcat(desc, "AMSS Service Id"); break; default: strcat(desc, "invalid"); break; } sprintf(tmpbuf, "=0x%X, R&M=0x%1x", Id_field, RandM); strcat(desc, tmpbuf); switch (RandM) { case 0x0: strcat(desc, "=DAB ensemble, no local windows"); break; case 0x6: strcat(desc, "=DRM"); break; case 0x8: strcat(desc, "=FM with RDS"); break; case 0x9: strcat(desc, "=FM without RDS"); break; case 0xa: strcat(desc, "=AM (MW in 9 kHz steps & LW)"); break; case 0xc: strcat(desc, "=AM (MW in 5 kHz steps & SW)"); break; case 0xe: strcat(desc, "=AMSS"); break; default: strcat(desc, "=Rfu"); break; } sprintf(tmpbuf, ", Continuity flag=%d", Continuity_flag); strcat(desc, tmpbuf); if ((fig0.oe() == 0) || ((fig0.oe() == 1) && (RandM != 0x6) && \ ((RandM < 0x8) || (RandM > 0xa)) && (RandM != 0xc) && (RandM != 0xe))) { if (Continuity_flag == 0) { switch (RandM) { case 0x0: case 0x1: strcat(desc, "=continuous output not expected"); break; case 0x6: strcat(desc, "=no compensating time delay on DRM audio signal"); break; case 0x8: case 0x9: strcat(desc, "=no compensating time delay on FM audio signal"); break; case 0xa: case 0xc: case 0xe: strcat(desc, "=no compensating time delay on AM audio signal"); break; default: strcat(desc, "=Rfu"); break; } } else { // Continuity_flag == 1 switch (RandM) { case 0x0: case 0x1: strcat(desc, "=continuous output possible"); break; case 0x6: strcat(desc, "=compensating time delay on DRM audio signal"); break; case 0x8: case 0x9: strcat(desc, "=compensating time delay on FM audio signal"); break; case 0xa: case 0xc: case 0xe: strcat(desc, "=compensating time delay on AM audio signal"); break; default: strcat(desc, "=Rfu"); break; } } } else { // fig0.oe() == 1 strcat(desc, "=reserved for future addition"); } key = ((uint64_t)fig0.oe() << 32) | ((uint64_t)fig0.pd() << 31) | \ ((uint64_t)RegionId << 20) | ((uint64_t)Id_field << 4) | \ (uint64_t)RandM; sprintf(tmpbuf, ", database key=0x%09" PRId64, key); // CEI Change Event Indication if (Length_Freq_list == 0) { strcat(tmpbuf, ", CEI"); } strcat(desc, tmpbuf); printbuf(desc, indent+2, NULL, 0); j += 3; // add header k = j; switch (RandM) { case 0x0: case 0x1: while((k + 2) < (j + Length_Freq_list)) { // iteration over Freq list ifreq = (((uint32_t)(f[k] & 0x07) << 16) | ((uint32_t)f[k+1] << 8) | (uint32_t)f[k+2]) * 16; if (ifreq != 0) { Control_field = (f[k] >> 3); Control_field_trans_mode = (Control_field >> 1) & 0x07; if ((Control_field & 0x10) == 0) { sprintf(desc, "%d KHz, ", ifreq); if ((Control_field & 0x01) == 0) { strcat(desc, "geographically adjacent area, "); } else { // (Control_field & 0x01) == 1 strcat(desc, "no geographically adjacent area, "); } if (Control_field_trans_mode == 0) { strcat(desc, "no transmission mode signalled"); } else if (Control_field_trans_mode <= 4) { sprintf(tmpbuf, "transmission mode %d", Control_field_trans_mode); strcat(desc, tmpbuf); } else { // Control_field_trans_mode > 4 sprintf(tmpbuf, "invalid transmission mode 0x%x", Control_field_trans_mode); strcat(desc, tmpbuf); } } else { // (Control_field & 0x10) == 0x10 sprintf(desc, "%d KHz, invalid Control field b23 0x%x", ifreq, Control_field); } } else { sprintf(desc, "Frequency not to be used (0)"); } printbuf(desc, indent+3, NULL, 0); k += 3; } break; case 0x8: case 0x9: case 0xa: while(k < (j + Length_Freq_list)) { // iteration over Freq list if (f[k] != 0) { // freq != 0 if (RandM == 0xa) { if (f[k] < 16) { ifreq = (144 + ((uint32_t)f[k] * 9)); } else { // f[k] >= 16 ifreq = (387 + ((uint32_t)f[k] * 9)); } sprintf(desc, "%d KHz", ifreq); } else { // RandM == 8 or 9 freq = (87.5 + ((float)f[k] * 0.1)); sprintf(desc, "%.1f MHz", freq); } } else { sprintf(desc, "Frequency not to be used (0)"); } printbuf(desc, indent+3, NULL, 0); k++; } break; case 0xc: while((k + 1) < (j + Length_Freq_list)) { // iteration over Freq list ifreq = (((uint32_t)f[k] << 8) | (uint32_t)f[k+1]) * 5; if (ifreq != 0) { sprintf(desc, "%d KHz", ifreq); } else { sprintf(desc, "Frequency not to be used (0)"); } printbuf(desc, indent+3, NULL, 0); k += 2; } break; case 0x6: case 0xe: while((k + 2) < (j + Length_Freq_list)) { // iteration over Freq list Id_field2 = f[k]; ifreq = ((((uint32_t)f[k+1] & 0x7f) << 8) | (uint32_t)f[k+2]); if (ifreq != 0) { sprintf(desc, "%d KHz", ifreq); } else { sprintf(desc, "Frequency not to be used (0)"); } if (RandM == 0x6) { sprintf(tmpbuf, ", DRM Service Id 0x%X", Id_field2); strcat(desc, tmpbuf); } else if (RandM == 0xe) { sprintf(tmpbuf, ", AMSS Service Id 0x%X", Id_field2); strcat(desc, tmpbuf); } if ((f[k+1] & 0x80) == 0x80) { sprintf(tmpbuf, ", invalid Rfu b15 set to 1 instead of 0"); strcat(desc, tmpbuf); } printbuf(desc, indent+3, NULL, 0); k += 3; } break; default: break; } j += Length_Freq_list; } i += Length_FI_list; } } return complete; }