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|
/*
Copyright (C) 2014 CSP Innovazione nelle ICT s.c.a r.l. (http://www.csp.it/)
Copyright (C) 2014 Matthias P. Braendli (http://www.opendigitalradio.org)
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 <http://www.gnu.org/licenses/>.
etisnoop.cpp
Parse ETI NI G.703 file
Authors:
Sergio Sagliocco <sergio.sagliocco@csp.it>
Matthias P. Braendli <matthias@mpb.li>
*/
#include <stdio.h>
#include <unistd.h>
#include <getopt.h>
#include <stdlib.h>
#include <sys/types.h>
#include <sys/stat.h>
#include <fcntl.h>
#include <string.h>
#include <string>
#include <vector>
#include <map>
#include <sstream>
#include "lib_crc.h"
#include "dabplussnoop.h"
#include "etiinput.h"
struct FIG
{
int type;
int ext;
int len;
};
class WatermarkDecoder
{
public:
void push_confind_bit(bool confind)
{
// The ConfInd of FIG 0/10 contains the CRC-DABMUX and ODR-DabMux watermark
m_confind_bits.push_back(confind);
}
std::string calculate_watermark()
{
// First try to find the 0x55 0x55 sync in the waternark data
size_t bit_ix;
int alternance_count = 0;
bool last_bit = 1;
for (bit_ix = 0; bit_ix < m_confind_bits.size(); bit_ix++) {
if (alternance_count == 16) {
break;
}
else {
if (last_bit != m_confind_bits[bit_ix]) {
last_bit = m_confind_bits[bit_ix];
alternance_count++;
}
else {
alternance_count = 0;
last_bit = 1;
}
}
}
printf("Found SYNC at offset %zu out of %zu\n", bit_ix - alternance_count, m_confind_bits.size());
std::stringstream watermark_ss;
uint8_t b = 0;
size_t i = 0;
while (bit_ix < m_confind_bits.size()) {
b |= m_confind_bits[bit_ix] << (7 - i);
if (i == 7) {
watermark_ss << (char)b;
b = 0;
i = 0;
}
else {
i++;
}
bit_ix += 2;
}
return watermark_ss.str();
}
private:
std::vector<bool> m_confind_bits;
};
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<std::vector<FIG> > 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<int, DabPlusSnoop> streams_to_decode;
bool analyse_fic_carousel;
bool decode_watermark;
};
// map between fig 0/6 database key and LA to detect activation and deactivation of links
std::map<unsigned short, bool> fig06_key_la;
// Globals
static int verbosity;
// Function prototypes
void printinfo(string header,
int indent_level,
int min_verb=0);
void printbuf(string header,
int indent_level,
unsigned char* buffer,
size_t size,
string desc="");
void decodeFIG(FIGalyser &figs,
WatermarkDecoder &wm_decoder,
unsigned char* figdata,
unsigned char figlen,
unsigned short int figtype,
unsigned short int indent);
int eti_analyse(eti_analyse_config_t& config);
std::string get_fig_0_13_userapp(int user_app_type)
{
switch (user_app_type) {
case 0x000: return "Reserved for future definition";
case 0x001: return "Not used";
case 0x002: return "MOT Slideshow";
case 0x003: return "MOT Broadacst Web Site";
case 0x004: return "TPEG";
case 0x005: return "DGPS";
case 0x006: return "TMC";
case 0x007: return "EPG";
case 0x008: return "DAB Java";
case 0x44a: return "Journaline";
default: return "Reserved for future applications";
}
}
#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] [-i filename] [-d stream_index]\n"
"\n"
" -v increase verbosity (can be given more than once)\n"
" -d N decode subchannel N into .dabp, .aac 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<int, DabPlusSnoop> streams_to_decode;
verbosity = 0;
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':
verbosity++;
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)
{
unsigned char p[ETINIPACKETSIZE];
string desc;
char prevsync[3]={0x00,0x00,0x00};
unsigned char ficf,nst,fp,mid,ficl;
unsigned short int fl,crch;
unsigned short int crc;
unsigned char scid,tpl,l1;
unsigned short int sad[64],stl[64];
char sdesc[256];
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;
}
// 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());
}
// 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) {
unsigned char 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 {
unsigned char 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);
unsigned short int 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;
unsigned char *fib, *fig;
unsigned short int figcrc;
FIGalyser figs;
unsigned char 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++) {
fig=fib;
figs.set_fib(i);
endmarker=0;
figcount=0;
while (!endmarker) {
unsigned char 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 CRC OK");
else
sprintf(sdesc,"FIB CRC Mismatch: %02x",crc);
printbuf("FIB CRC",3,fib+30,2,sdesc);
fib += 32;
}
if (config.analyse_fic_carousel) {
figs.analyse();
}
}
int offset = 0;
for (int i=0; i < nst; i++) {
unsigned char 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 (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 (verbosity) {
printf("-------------------------------------------------------------------------------------------------------------\n");
}
}
std::map<int, DabPlusSnoop>::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());
}
// remove elements from fig06_key_la map container
fig06_key_la.clear();
return 0;
}
void decodeFIG(FIGalyser &figs,
WatermarkDecoder &wm_decoder,
unsigned char* f,
unsigned char figlen,
unsigned short int figtype,
unsigned short int indent)
{
char desc[256];
switch (figtype) {
case 0:
{
unsigned short int ext,cn,oe,pd;
cn = (f[0] & 0x80) >> 7;
oe = (f[0] & 0x40) >> 6;
pd = (f[0] & 0x20) >> 5;
ext = f[0] & 0x1F;
sprintf(desc, "FIG %d/%d: C/N=%d OE=%d P/D=%d",
figtype, ext, cn, oe, pd);
printbuf(desc, indent, f+1, figlen-1);
figs.push_back(figtype, ext, figlen);
switch (ext) {
case 0: // FIG 0/0
{
unsigned char cid, al, ch, hic, lowc, occ;
unsigned short int eid, eref;
eid = f[1]*256+f[2];
cid = (f[1] & 0xF0) >> 4;
eref = (f[1] & 0x0F)*256 + \
f[2];
ch = (f[3] & 0xC0) >> 6;
al = (f[3] & 0x20) >> 5;
hic = f[3] & 0x1F;
lowc = f[4];
if (ch != 0) {
occ = f[5];
sprintf(desc,
"Ensemble ID=0x%02x (Country id=%d, Ensemble reference=%d), Change flag=%d, Alarm flag=%d, CIF Count=%d/%d, Occurance change=%d",
eid, cid, eref, ch, al, hic, lowc, occ);
}
else {
sprintf(desc,
"Ensemble ID=0x%02x (Country id=%d, Ensemble reference=%d), Change flag=%d, Alarm flag=%d, CIF Count=%d/%d",
eid, cid, eref, ch, al, hic, lowc);
}
printbuf(desc, indent+1, NULL, 0);
}
break;
case 1: // FIG 0/1 basic subchannel organisation
{
int i = 1;
while (i < figlen-3) {
// iterate over subchannels
int subch_id = f[i] >> 2;
int start_addr = ((f[i] & 0x03) << 8) |
(f[i+1]);
int long_flag = (f[i+2] >> 7);
if (long_flag) {
int option = (f[i+2] >> 4) & 0x07;
int protection_level = (f[i+2] >> 2) & 0x03;
int subchannel_size = ((f[i+2] & 0x03) << 8 ) |
f[i+3];
i += 4;
if (option == 0x00) {
sprintf(desc,
"Subch 0x%x, start_addr %d, long, EEP %d-A, subch size %d",
subch_id, start_addr, protection_level, subchannel_size);
}
else if (option == 0x01) {
sprintf(desc,
"Subch 0x%x, start_addr %d, long, EEP %d-B, subch size %d",
subch_id, start_addr, protection_level, subchannel_size);
}
else {
sprintf(desc,
"Subch 0x%x, start_addr %d, long, invalid option %d, protection %d, subch size %d",
subch_id, start_addr, option, protection_level, subchannel_size);
}
}
else {
int table_switch = (f[i+2] >> 6) & 0x01;
unsigned int table_index = (f[i+2] & 0x3F);
if (table_switch == 0) {
sprintf(desc,
"Subch 0x%x, start_addr %d, short, table index %d",
subch_id, start_addr, table_index);
}
else {
sprintf(desc,
"Subch 0x%x, start_addr %d, short, invalid table_switch(=1), table index %d",
subch_id, start_addr, table_index);
}
i += 3;
}
printbuf(desc, indent+1, NULL, 0);
}
}
break;
case 2: // FIG 0/2
{
unsigned short int sref, sid;
unsigned char cid, ecc, local, caid, ncomp, timd, ps, ca, subchid, scty;
int k=1;
string psdesc;
char sctydesc[32];
while (k<figlen) {
if (pd == 0) {
sid = f[k] * 256 + f[k+1];
cid = (f[k] & 0xF0) >> 4;
sref = (f[k] & 0x0F) * 256 + f[k+1];
k += 2;
}
else {
sid = f[k] * 256 * 256 * 256 + \
f[k+1] * 256 * 256 + \
f[k+2] * 256 + \
f[k+3];
ecc = f[k];
cid = (f[k+1] & 0xF0) >> 4;
sref = (f[k+1] & 0x0F) * 256 * 256 + \
f[k+2] * 256 + \
f[k+3];
k += 4;
}
local = (f[k] & 0x80) >> 7;
caid = (f[k] & 0x70) >> 4;
ncomp = f[k] & 0x0F;
if (pd == 0)
sprintf(desc,
"Service ID=0x%02X (Country id=%d, Service reference=%d), Number of components=%d, Local flag=%d, CAID=%d",
sid, cid, sref, ncomp, local, caid);
else
sprintf(desc,
"Service ID=0x%02X (ECC=%d, Country id=%d, Service reference=%d), Number of components=%d, Local flag=%d, CAID=%d",
sid, ecc, cid, sref, ncomp, local, caid);
printbuf(desc, indent+1, NULL, 0);
k++;
for (int i=0; i<ncomp; i++) {
unsigned char scomp[2];
memcpy(scomp, f+k, 2);
sprintf(desc, "Component[%d]", i);
printbuf(desc, indent+2, scomp, 2, "");
timd = (scomp[0] & 0xC0) >> 6;
ps = (scomp[1] & 0x02) >> 1;
ca = scomp[1] & 0x01;
scty = scomp[0] & 0x3F;
subchid = (scomp[1] & 0xFC) >> 2;
/* useless, kept as reference
if (timd == 3) {
unsigned short int scid;
scid = scty*64 + subchid;
}
*/
if (ps == 0) {
psdesc = "Secondary service";
}
else {
psdesc = "Primary service";
}
if (timd == 0) {
//MSC stream audio
if (scty == 0)
sprintf(sctydesc, "MPEG Foreground sound (%d)", scty);
else if (scty == 1)
sprintf(sctydesc, "MPEG Background sound (%d)", scty);
else if (scty == 2)
sprintf(sctydesc, "Multi Channel sound (%d)", scty);
else if (scty == 63)
sprintf(sctydesc, "AAC sound (%d)", scty);
else
sprintf(sctydesc, "Unknown ASCTy (%d)", scty);
sprintf(desc, "Stream audio mode, %s, %s, SubChannel ID=%02X, CA=%d", psdesc.c_str(), sctydesc, subchid, ca);
printbuf(desc, indent+3, NULL, 0);
}
else if (timd == 1) {
// MSC stream data
sprintf(sctydesc, "DSCTy=%d", scty);
sprintf(desc, "Stream data mode, %s, %s, SubChannel ID=%02X, CA=%d", psdesc.c_str(), sctydesc, subchid, ca);
printbuf(desc, indent+3, NULL, 0);
}
else if (timd == 2) {
// FIDC
sprintf(sctydesc, "DSCTy=%d", scty);
sprintf(desc, "FIDC mode, %s, %s, Fast Information Data Channel ID=%02X, CA=%d", psdesc.c_str(), sctydesc, subchid, ca);
printbuf(desc, indent+3, NULL, 0);
}
else if (timd == 3) {
// MSC Packet mode
sprintf(desc, "MSC Packet Mode, %s, Service Component ID=%02X, CA=%d", psdesc.c_str(), subchid, ca);
printbuf(desc, indent+3, NULL, 0);
}
k += 2;
}
}
}
break;
case 6: // FIG 0/6
{
unsigned int j;
unsigned short LSN, key;
unsigned char i = 1, Number_of_Ids, IdLQ;
char signal_link[256];
bool Id_list_flag, LA, SH, ILS, Shd;
while (i < (figlen - 1)) {
// iterate over service linking
Id_list_flag = (f[i] >> 7) & 0x01;
LA = (f[i] >> 6) & 0x01;
SH = (f[i] >> 5) & 0x01;
ILS = (f[i] >> 4) & 0x01;
LSN = ((f[i] & 0x0F) << 8) | f[i+1];
key = (oe << 15) | (pd << 14) | (SH << 13) | (ILS << 12) | LSN;
strcpy(signal_link, "");
// check activation / deactivation
if ((fig06_key_la.count(key) > 0) && (fig06_key_la[key] != LA)) {
if (LA == 0) {
strcat(signal_link, " deactivated");
}
else {
strcat(signal_link, " activated");
}
}
fig06_key_la[key] = LA;
i += 2;
if (Id_list_flag == 0) {
if (cn == 0) { // Id_list_flag=0 && cn=0: CEI Change Event Indication
strcat(signal_link, " CEI");
}
sprintf(desc, "Id list flag=%d LA=%d S/H=%d ILS=%d LSN=%d database key=0x%04x%s",
Id_list_flag, LA, SH, ILS, LSN, key, signal_link);
printbuf(desc, indent+1, NULL, 0);
}
else { // Id_list_flag == 1
if (i < figlen) {
Number_of_Ids = (f[i] & 0x0F);
if (pd == 0) {
IdLQ = (f[i] >> 5) & 0x03;
Shd = (f[i] >> 4) & 0x01;
sprintf(desc, "Id list flag=%d LA=%d S/H=%d ILS=%d LSN=%d database key=0x%04x IdLQ=%d Shd=%d Number of Ids=%d%s",
Id_list_flag, LA, SH, ILS, LSN, key, IdLQ, Shd, Number_of_Ids, signal_link);
printbuf(desc, indent+1, NULL, 0);
if (ILS == 0) {
// read Id list
for(j = 0; ((j < Number_of_Ids) && ((i+2+(j*2)) < figlen)); j++) {
// ETSI EN 300 401 8.1.15:
// The IdLQ shall not apply to the first entry in the Id list when OE = "0" and
// when the version number of the type 0 field is set to "0" (using the C/N flag, see clause 5.2.2.1)
// ... , the first entry in the Id list of each Service linking field shall be
// the SId that applies to the service in the ensemble.
if (((j == 0) && (oe == 0) && (cn == 0)) ||
(IdLQ == 0)) {
sprintf(desc, "DAB SId 0x%04x", ((f[i+1+(j*2)] << 8) | f[i+2+(j*2)]));
}
else if (IdLQ == 1) {
sprintf(desc, "RDS PI 0x%04x", ((f[i+1+(j*2)] << 8) | f[i+2+(j*2)]));
}
else if (IdLQ == 2) {
sprintf(desc, "AM-FM service 0x%04x", ((f[i+1+(j*2)] << 8) | f[i+2+(j*2)]));
}
else { // IdLQ == 3
sprintf(desc, "invalid ILS IdLQ configuration");
}
printbuf(desc, indent+2, NULL, 0);
}
// check deadlink
if ((Number_of_Ids == 0) && (IdLQ == 1)) {
sprintf(desc, "deadlink");
printbuf(desc, indent+2, NULL, 0);
}
i += (Number_of_Ids * 2) + 1;
}
else { // pd == 0 && ILS == 1
// read Id list
for(j = 0; ((j < Number_of_Ids) && ((i+3+(j*3)) < figlen)); j++) {
// ETSI EN 300 401 8.1.15:
// The IdLQ shall not apply to the first entry in the Id list when OE = "0" and
// when the version number of the type 0 field is set to "0" (using the C/N flag, see clause 5.2.2.1)
// ... , the first entry in the Id list of each Service linking field shall be
// the SId that applies to the service in the ensemble.
if (((j == 0) && (oe == 0) && (cn == 0)) ||
(IdLQ == 0)) {
sprintf(desc, "DAB SId ecc 0x%02x Id 0x%04x", f[i+1+(j*3)], ((f[i+2+(j*3)] << 8) | f[i+3+(j*3)]));
}
else if (IdLQ == 1) {
sprintf(desc, "RDS PI ecc 0x%02x Id 0x%04x", f[i+1+(j*3)], ((f[i+2+(j*3)] << 8) | f[i+3+(j*3)]));
}
else if (IdLQ == 2) {
sprintf(desc, "AM-FM service ecc 0x%02x Id 0x%04x", f[i+1+(j*3)], ((f[i+2+(j*3)] << 8) | f[i+3+(j*3)]));
}
else { // IdLQ == 3
sprintf(desc, "DRM/AMSS service ecc 0x%02x Id 0x%04x", f[i+1+(j*3)], ((f[i+2+(j*3)] << 8) | f[i+3+(j*3)]));
}
printbuf(desc, indent+2, NULL, 0);
}
// check deadlink
if ((Number_of_Ids == 0) && (IdLQ == 1)) {
sprintf(desc, "deadlink");
printbuf(desc, indent+2, NULL, 0);
}
i += (Number_of_Ids * 3) + 1;
}
}
else { // pd == 1
sprintf(desc, "Id list flag=%d LA=%d S/H=%d ILS=%d LSN=%d database key=0x%04x Number of Ids=%d%s",
Id_list_flag, LA, SH, ILS, LSN, key, Number_of_Ids, signal_link);
printbuf(desc, indent+1, NULL, 0);
if (Number_of_Ids > 0) {
// read Id list
for(j = 0; ((j < Number_of_Ids) && ((i+4+(j*4)) < figlen)); j++) {
sprintf(desc, "SId 0x%08x",
((f[i+1+(j*4)] << 24) | (f[i+2+(j*4)] << 16) | (f[i+3+(j*4)] << 8) | f[i+4+(j*4)]));
printbuf(desc, indent+2, NULL, 0);
}
}
i += (Number_of_Ids * 4) + 1;
}
}
}
}
}
break;
case 10: // FIG 0/10
{
/* TODO verify and convert from MJD representation
uint32_t MJD = ((f[1] & 0x7) << 10) |
((uint32_t)(f[2]) << 2) |
(f[3] >> 6);
*/
//bool RFU = f[1] >> 7;
bool LSI = f[3] & 0x20;
bool ConfInd = f[3] & 0x10;
wm_decoder.push_confind_bit(ConfInd);
bool UTC = f[3] & 0x8;
uint8_t hours = ((f[3] & 0x7) << 2) |
( f[4] >> 6);
uint8_t minutes = f[4] & 0x3f;
if (UTC) {
uint8_t seconds = f[5] >> 2;
uint16_t milliseconds = ((uint16_t)(f[5] & 0x2) << 8) | f[6];
sprintf(desc, "FIG %d/%d(long): LSI %u, ConfInd %u, UTC Time: %02d:%02d:%02d.%d",
figtype, ext, LSI, ConfInd, hours, minutes, seconds, milliseconds);
printbuf(desc, indent+1, NULL, 0);
}
else {
sprintf(desc, "FIG %d/%d(short): LSI %u, ConfInd %u, UTC Time: %02d:%02d",
figtype, ext, LSI, ConfInd, hours, minutes);
printbuf(desc, indent+1, NULL, 0);
}
}
break;
case 13: // FIG 0/13
{
uint32_t SId;
uint8_t SCIdS;
uint8_t No;
int k = 1;
if (pd == 0) { // Programme services, 16 bit SId
SId = (f[k] << 8) |
f[k+1];
k+=2;
SCIdS = f[k] >> 4;
No = f[k] & 0x0F;
k++;
}
else { // Data services, 32 bit SId
SId = (f[k] << 24) |
(f[k+1] << 16) |
(f[k+2] << 8) |
f[k+3];
k+=4;
SCIdS = f[k] >> 4;
No = f[k] & 0x0F;
k++;
}
sprintf(desc, "FIG %d/%d: SId=%u SCIdS=%u No=%u",
figtype, ext, SId, SCIdS, No);
printbuf(desc, indent+1, NULL, 0);
for (int numapp = 0; numapp < No; numapp++) {
uint16_t user_app_type = ((f[k] << 8) |
(f[k+1] & 0xE0)) >> 5;
uint8_t user_app_len = f[k+1] & 0x1F;
k+=2;
sprintf(desc, "User Application %d '%s'; length %u",
user_app_type,
get_fig_0_13_userapp(user_app_type).c_str(),
user_app_len);
printbuf(desc, indent+2, NULL, 0);
}
}
break;
case 21: // FIG 0/21
{
float freq;
unsigned int ifreq;
unsigned long long key;
unsigned short RegionId, Id_field;
unsigned char i = 1, j, k, Length_FI_list, RandM, Length_Freq_list, Control_field;
unsigned char Control_field_trans_mode, Id_field2;
char tmpbuf[256];
bool Continuity_flag;
while (i < (figlen - 1)) {
// iterate over frequency information
// decode RegionId, Length of FI list
RegionId = (f[i] << 3) | (f[i+1] >> 5);
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) <= 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%04x, 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 ((oe == 0) || ((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 { // oe == 1
strcat(desc, "=reserved for future addition");
}
key = ((unsigned long long)oe << 32) | ((unsigned long long)pd << 31) | \
((unsigned long long)RegionId << 20) | ((unsigned long long)Id_field << 4) | \
(unsigned long long)RandM;
sprintf(tmpbuf, ", database key=0x%09llx", 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 = (((unsigned int)(f[k] & 0x07) << 16) | ((unsigned int)f[k+1] << 8) | (unsigned int)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 + ((unsigned int)f[k] * 9));
}
else { // f[k] >= 16
ifreq = (387 + ((unsigned int)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 = (((unsigned int)f[k] << 8) | (unsigned int)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 = ((((unsigned int)f[k+1] & 0x7f) << 8) | (unsigned int)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%02x", Id_field2);
strcat(desc, tmpbuf);
}
else if (RandM == 0xe) {
sprintf(tmpbuf, ", AMSS Service Id 0x%02x", 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;
}
}
}
break;
}
}
break;
case 1:
{// SHORT LABELS
unsigned short int ext,oe,charset;
unsigned short int flag;
char label[17];
charset = (f[0] & 0xF0) >> 4;
oe = (f[0] & 0x08) >> 3;
ext = f[0] & 0x07;
sprintf(desc,
"FIG %d/%d: OE=%d, Charset=%d",
figtype, ext, oe, charset);
printbuf(desc, indent, f+1, figlen-1);
memcpy(label, f+figlen-18, 16);
label[16] = 0x00;
flag = f[figlen-2] * 256 + \
f[figlen-1];
figs.push_back(figtype, ext, figlen);
switch (ext) {
case 0:
{ // ENSEMBLE LABEL
unsigned short int eid;
eid = f[1] * 256 + f[2];
sprintf(desc, "Ensemble ID 0x%04X label: \"%s\", Short label mask: 0x%04X", eid, label, flag);
printinfo(desc, indent+1);
}
break;
case 1:
{ // Programme LABEL
unsigned short int sid;
sid = f[1] * 256 + f[2];
sprintf(desc, "Service ID 0x%04X label: \"%s\", Short label mask: 0x%04X", sid, label, flag);
printinfo(desc, indent+1);
}
break;
case 4:
{ // Service Component LABEL
unsigned int sid;
unsigned char pd, SCIdS;
pd = (f[1] & 0x80) >> 7;
SCIdS = f[1] & 0x0F;
if (pd == 0) {
sid = f[2] * 256 + \
f[3];
}
else {
sid = f[2] * 256 * 256 * 256 + \
f[3] * 256 * 256 + \
f[4] * 256 + \
f[5];
}
sprintf(desc,
"Service ID 0x%08X , Service Component ID 0x%04X Short, label: \"%s\", label mask: 0x%04X",
sid, SCIdS, label, flag);
printinfo(desc, indent+1);
}
break;
case 5:
{ // Data Service LABEL
unsigned int sid;
sid = f[1] * 256 * 256 * 256 + \
f[2] * 256 * 256 + \
f[3] * 256 + \
f[4];
sprintf(desc,
"Service ID 0x%08X label: \"%s\", Short label mask: 0x%04X",
sid, label, flag);
printinfo(desc, indent+1);
}
break;
case 6:
{ // X-PAD User Application label
unsigned int sid;
unsigned char pd, SCIdS, xpadapp;
string xpadappdesc;
pd = (f[1] & 0x80) >> 7;
SCIdS = f[1] & 0x0F;
if (pd == 0) {
sid = f[2] * 256 + \
f[3];
xpadapp = f[4] & 0x1F;
}
else {
sid = f[2] * 256 * 256 * 256 + \
f[3] * 256 * 256 + \
f[4] * 256 + \
f[5];
xpadapp = f[6] & 0x1F;
}
if (xpadapp == 2) {
xpadappdesc = "DLS";
}
else if (xpadapp == 12) {
xpadappdesc = "MOT";
}
else {
xpadappdesc = "?";
}
sprintf(desc,"Service ID 0x%08X , Service Component ID 0x%04X Short, X-PAD App %02X (%s), label: \"%s\", label mask: 0x%04X",
sid, SCIdS, xpadapp, xpadappdesc.c_str(), label, flag);
printbuf(desc,indent+1,NULL,0,"");
}
break;
}
}
break;
case 2:
{// LONG LABELS
unsigned short int 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: OE=%d, Segment_index=%d",
figtype, ext, oe, segment_index);
printbuf(desc, indent, f+1, figlen-1);
figs.push_back(figtype, ext, figlen);
}
break;
case 5:
{// FIDC
unsigned short int 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");
}
break;
}
}
void printinfo(string header,
int indent_level,
int min_verb)
{
if (verbosity >= min_verb) {
for (int i = 0; i < indent_level; i++) {
printf("\t");
}
printf("%s\n", header.c_str());
}
}
void printbuf(string header,
int indent_level,
unsigned char* buffer,
size_t size,
string desc)
{
if (verbosity > 0) {
for (int i = 0; i < indent_level; i++) {
printf("\t");
}
printf("%s", header.c_str());
if (verbosity > 1) {
if (size != 0) {
printf(": ");
}
for (size_t i = 0; i < size; i++) {
printf("%02x ", buffer[i]);
}
}
if (desc != "") {
printf(" [%s] ", desc.c_str());
}
printf("\n");
}
}
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