// MyMonModulePocsag.cpp: Implementierung der Klasse MonitorModulePocsag.
//
//////////////////////////////////////////////////////////////////////
#include <iostream>
using namespace std;
#ifdef WIN32
#include <vector>
#include <algorithm>
#include <functional>
#endif
#include "time.h"
#include "MonitorModulePocsag.h"
#include "convert.h"
#include "MonitorLogging.h"
#ifdef _DEBUG
#undef THIS_FILE
//static char THIS_FILE[]=__FILE__;
#endif
#define LONG unsigned long
/*
* the code used by POCSAG is a (n=31,k=21) BCH Code with dmin=5,
* thus it could correct two bit errors in a 31-Bit codeword.
* It is a systematic code.
* The generator polynomial is:
* g(x) = x^10+x^9+x^8+x^6+x^5+x^3+1
* The parity check polynomial is:
* h(x) = x^21+x^20+x^18+x^16+x^14+x^13+x^12+x^11+x^8+x^5+x^3+1
* g(x) * h(x) = x^n+1
*/
#define BCH_POLY 03551 /* octal */
#define BCH_N 31
#define BCH_K 21
/*
* some codewords with special POCSAG meaning
*/
#define POCSAG_SYNC 0x7CD215D8
#define POCSAG_SYNCINFO 0x7CF21436
#define POCSAG_IDLE 0x7a89c197
#define POCSAG_SYNC_WORDS ((2000000 >> 3) << 13)
//////////////////////////////////////////////////////////////////////
// Konstruktion/Destruktion
//////////////////////////////////////////////////////////////////////
MonitorModulePocsag::MonitorModulePocsag()
{
maxVal=0.0 ;
dcd_shreg=0 ;
sphase=0 ;
subsamp=0 ;
lastbit=0 ;
m_fTrigger=0.2 ;
global_rx_data=0;
// ctrl=0;
m_bPreambel_detected=false ;
m_bErrorCorrection=true ;
m_iPreambelLen=0 ;
m_bRXmode=false ;
m_iRXErrorCount=0 ;
MAX_RX_ERRORS=1500 ;
PREAMBEL_MINLEN=300 ;
m_iAlgorithmus=0 ;
SetFilter("^1(.*)",1) ;
for (int i=0; i<2;i++)
{
rx_buff[i].rx_sync=0 ;
rx_buff[i].rx_word=0 ;
rx_buff[i].rx_bit=0 ;
rx_buff[i].numnibbles=0;
rx_buff[i].func=0;
rx_buff[i].adr=0;
memset(rx_buff[i].buffer,0,sizeof(rx_buff[i].buffer));
rx_buff[i].receiving=0;
}
}
MonitorModulePocsag::~MonitorModulePocsag()
{
}
void MonitorModulePocsag::demod(float *buffer, int length)
{
switch (m_iAlgorithmus)
{
case 1:
demod_se(buffer, length) ; // war demod_se ...
break ;
case 0:
default:
demod_mg(buffer, length) ;
} ;
}
void MonitorModulePocsag::demod_se(float *buffer, int length)
{
}
void MonitorModulePocsag::demod_mg(float *buffer, int length)
{
}
void MonitorModulePocsag::rxbit(int bit)
{
global_rx_data <<= 1;
global_rx_data |= ( bit==0 ? 0 : 1) ;
//
// Wozu dient das nachfolgende ? Alle Bits invertieren ?
// Skyper Modus ???????
do_one_bit(rx_buff, ~(global_rx_data));
// Mit dieser Zeile alleine geht's zumindest bei mir ;-)
//
do_one_bit(rx_buff + 1, global_rx_data);
}
void MonitorModulePocsag::do_one_bit(struct rx *rx, unsigned long rx_data)
{
unsigned char rxword;
unsigned char dumpString[5] ;
unsigned long data;
unsigned char *bp;
dumpString[0]=0x00 ;
dumpString[1]=0x00 ;
dumpString[2]=0x00 ;
dumpString[3]=0x00 ;
dumpString[4]=0x00 ;
/* TODO: Hack fuer 64Bit Systeme. Da ist ein unsigned long 8 Byte gross. Die
* SYNC-Worte etc. sind aber nur 4 Byte gross. Da uns immer nur die letzten 4 Bytes
* interessieren werden vorderen 4 Bytes per Und-Verknüpfung auf Null gesetzt.
* Dann passen auch wieder die Vergleiche bei den Sync-Worten
*
* Ggf. muesste man das hier noch netter gestalten. Aber so geht's auf jeden Fall :)
* SE, 15.08.09
*/
rx_data &= 0xffffffff ;
if ( ( (!rx->rx_sync)) ) // || (m_iRXErrorCount>MAX_RX_ERRORS) )
{
rx->rx_sync=0 ;
} ;
if (!rx->rx_sync) {
if (isSync(rx_data)) {
rx->rx_sync = 2 ; // war: 10 -- vielleicht auch 4/5/6 ?
rx->rx_bit = rx->rx_word = 0;
rx->func = -1;
FILE_LOG(logDEBUG)<< "Sync gefunden\n" ;
//TRACE0("Sync gefunden\n") ;
m_iPreambelLen =0 ;
m_bRXmode=true ;
m_iRXErrorCount=0 ;
return;
}
return;
}
if ((++(rx->rx_bit)) < 32) return;
/* one complete word received */
rx->rx_bit = 0;
unsigned long compareData =rx_data ;
/* check codeword */
if (error_correction(rx_data)==false) {
//TRACE2("CODEWORD ung?ltig (DATA=0x%4x = \"%s\")\n",rx_data,dumpString) ;
/* codeword not valid */
rx->rx_sync--;
rx->rx_word++; /* Zeile als Programmkorrektur eingef?gt */
m_iRXErrorCount++ ;
/*Bad codeword */
if (!(rx->func & (~3))) {
/* message garbled */
printmessage(rx) ;
rx->buffer[0]= 0x00 ;
rx->buffer[1]= 0x00 ;
}
rx->func = -1; /* invalidate message */
return;
}
// Hier kommen wir nur hin, wenn das Codewort g?ltig ist
//
if (rx_data!=compareData)
{
//TRACE0("Error correction applied\n") ;
};
/* do something with the data */
// printf("%s%s: Codeword: %08lx\n", s->dem_par->name, add_name, rx_data);
rxword = rx->rx_word++;
if (rxword >= 16) {
/* received word shoud be a frame synch */
rx->rx_word = 0;
if ((rx_data == POCSAG_SYNC) || (rx_data == POCSAG_SYNCINFO))
{
rx->rx_sync = 10;
//TRACE0("erneutes Sync gefunden\n") ;
// m_iPreambelLen =0 ;
m_bRXmode=true ;
m_iRXErrorCount=0 ;
}
else
rx->rx_sync -= 2;
return;
}
if (rx_data == POCSAG_IDLE) {
// RotateString(dumpString, rx_data) ;
//TRACE1("CODEWORD g?ltig (IDLE-WORD = %s) \n",dumpString) ;
/* it seems that we can output the message right here */
if (!(rx->func & (~3)))
{
printmessage(rx);
rx->buffer[0]= 0x00 ;
rx->buffer[1]= 0x00 ;
}
rx->func = -1; /* invalidate message */
return;
}
if ((rx_data & 0x80000000) ==0)
{
LONG testadr= ((rx_data >> 10) & 0x1ffff8) | ((rxword >> 1) & 7);
if ((unsigned char)(testadr & 0x7) != (rx->rx_word>>1))
{
//TRACE0("Adresswort im falschen Frame -> Als Daten auswerten \n") ;
// rx_data |= 0x80000000 ;
} ;
} ;
if (rx_data & 0x80000000 || rx_data == 0x7cd215d8) {
//RotateString(dumpString, rx_data) ;
// TRACE2("CODEWORD g?ltig (DATA=0x%4x = \"%s\") \n",rx_data,dumpString) ;
/* this is a data word */
if (rx_data & 0x80000000) rx->receiving = 1;
else rx->receiving = 0;
if (rx->func & (~3)) {
/* no message being received
* Lonesome data codeword */
return;
}
if (rx->numnibbles > sizeof(rx->buffer) * 2 - 5) {
/* Warning: Message too long */
printmessage(rx);
rx->func = -1;
rx->buffer[0]= 0x00 ;
rx->buffer[1]= 0x00 ;
return;
}
bp = rx->buffer + (rx->numnibbles >> 1);
data = rx_data >> 11;
if (rx->numnibbles & 1) {
bp[0] = (bp[0] & 0xf0) | ((data >> 16) & 0xf);
bp[1] = data >> 8;
bp[2] = data;
}
else {
bp[0] = data >> 12;
bp[1] = data >> 4;
bp[2] = data << 4;
}
rx->numnibbles += 5;
return;
}
/* process address codeword */
/* if (rx_data >= POCSAG_SYNC_WORDS) {
unsigned char func = (rx_data >> 11) & 3;
unsigned long adr = ((rx_data >> 10) & 0x1ffff8) |
((rxword >> 1) & 7);
verbprintf(0, "%s%s: Nonstandard address codeword: %08lx "
"func %1u adr %08lx\n", s->dem_par->name, add_name, rx_data,
func, adr);
return;
}
*/
if (!(rx->func & (~3)))
{
printmessage(rx);
rx->buffer[0]= 0x00 ;
rx->buffer[1]= 0x00 ;
}
/*rx->buffer[0]=0x00 ;
rx->buffer[1]=0x00 ;
*/
//long tempAdr ; - Kann man da noch etwas retten ??? (Test,SE)
rx->func = (rx_data >> 11) & 3;
rx->adr = ((rx_data >> 10) & 0x1ffff8) | ((rxword >> 1) & 7);
//tempAdr = ((rx_data >> 10) & 0x1ffff8) | ((rxword >> 1) & 7);
rx->numnibbles = 0;
/*
if (tempAdr>8)
{
rx->adr=tempAdr ;
bp=(unsigned char*) dumpString ;
data=rx_data>> 11 ;
if (rx->numnibbles & 1) {
bp[0] = (bp[0] & 0xf0) | ((data >> 16) & 0xf);
bp[1] = data >> 8;
bp[2] = data;
}
else {
bp[0] = data >> 12;
bp[1] = data >> 4;
bp[2] = data << 4;
}
//TRACE3("CODEWORD g?ltig (ADDRESS=%d ,Frame=%d, rxCount=%d) \n",rx->adr,rx->adr & 0x7,rx->rx_word>>1) ;
if ((rx->adr & 0x7) != (rx->rx_word>>1))
int doof=0 ;
//TRACE0("Vermutlich ein Fehlerhaftes Adresswort !-------------------------------\n") ;
} ;
*/
}
void MonitorModulePocsag::printmessage(struct MonitorModulePocsag::rx *rx)
{
char Funktionsbit [5]= " " ;
if (rx->adr==0) return ; // Adresse == 0 macht keine Sinn ...
Funktionsbit[0] = rx->func < 10 ? '0' + rx->func : 'A' + rx->func-10 ;
//itoa( rx->func , Funktionsbit,16) ;
char Adresse[10] ;
sprintf(Adresse, "%07d", (int) rx->adr ) ;
std::string outString ;
std::string message="" ;
// Fuer Crusader und FMS32Pro Modus
char dateStr[9];
char timeStr[9];
//char subString[2];
std::string subString ;
std::string counterCString ;
if (!isnumeric(rx, message))
{
RotateString (message,rx) ;
} ;
std::string jetzt ;
currentTime(jetzt) ; // aktuelle Uhrzeit holen
struct tm* tm_time= localtime(&m_time) ;
strftime(dateStr,9,"%d.%m.%y" ,tm_time) ;
strftime(timeStr,9,"%H:%M:%S" ,tm_time) ;
ModuleResultBase *pRes =new ModuleResultBase() ;
pRes->set("timestamp",jetzt);
pRes->set("uhrzeit",timeStr) ;
pRes->set("datum",dateStr) ;
pRes->set("servernamehex",m_serverNameHex);
pRes->set("channelnamehex",m_channelNameHex);
pRes->set("channelnum",convertIntToString(m_iChannelNum));
pRes->set("typ","pocsag");
pRes->set("subhex",subString) ;
pRes->set("sub",std::string(Funktionsbit)) ;
pRes->set("ric",Adresse) ;
pRes->set("text",message) ;
FILE_LOG(logDEBUG) << "Debug(POCSAG):" << endl << (*pRes) ;
GlobalDispatcher->addResult(pRes) ;
// StoreResult(rx) ;
}
unsigned int MonitorModulePocsag::syndrome(unsigned long data)
{
unsigned long shreg = data >> 1; /* throw away parity bit */
unsigned long mask = 1L << (BCH_N-1), coeff = BCH_POLY << (BCH_K-1);
int n = BCH_K;
for(; n > 0; mask >>= 1, coeff >>= 1, n--)
if (shreg & mask)
shreg ^= coeff;
if (even_parity(data))
shreg |= (1 << (BCH_N - BCH_K));
// printf("BCH syndrome: data: %08lx syn: %08lx\n", data, shreg);
return shreg;
}
unsigned char MonitorModulePocsag::even_parity(unsigned long data)
{
unsigned int temp = data ^ (data >> 16);
temp = temp ^ (temp >> 8);
temp = temp ^ (temp >> 4);
temp = temp ^ (temp >> 2);
temp = temp ^ (temp >> 1);
return temp & 1;
}
bool MonitorModulePocsag::error_correction(unsigned long & rx_data)
{
if (!syndrome(rx_data)) return true ;
if (!m_bErrorCorrection) return false ;
if (rx_data==0) return false ;
int bit1=0,bit2=0 ;
unsigned long mask1=1 , mask2 ;
bit2=0 ;
mask2=1 ;
// Im ersten Lauf alle Bit's einmal invertieren
//
do
{
rx_data ^= mask2 ;
if (!syndrome(rx_data)) return true ;
bit2++ ;
rx_data ^= mask2 ;
mask2 <<=1 ;
} while (bit2<31) ;
// Offensichtlich bringt das invertieren eines Bits nichts, also versuchen 2 Bits
// zu invertieren
//
do
{ // Das Bit laut Z?hler bit1 invertieren
//
rx_data ^= mask1 ;
if (!syndrome(rx_data)) return true ;
bit2=bit1 ;
mask2= 1 ;
mask2 <<= bit2 ;
do
{ // Als zweites das Bit bit2 invertieren
//
rx_data ^= mask2 ;
if (!syndrome(rx_data)) return true ;
bit2++ ;
rx_data ^= mask2 ;
mask2 <<=1 ;
} while (bit2<32) ;
bit1 ++ ;
rx_data ^= mask1 ;
mask1 <<=1 ;
} while (bit1 < 32) ;
return false ;
}
void MonitorModulePocsag::RotateString(std::string & buffer, struct rx *rx)
{
unsigned long data = 0;
int datalen = 0;
unsigned char *bp = rx->buffer;
int len = rx->numnibbles;
unsigned char curchr;
const char *tstr;
bool ctrl=true ;
while (len > 0) {
while (datalen < 7 && len > 0) {
if (len == 1) {
data = (data << 4) | ((*bp >> 4) & 0xf);
datalen += 4;
len = 0;
} else {
data = (data << 8) | *bp++;
datalen += 8;
len -= 2;
}
}
if (datalen < 7)
continue;
datalen -= 7;
/* 7-bit-Code, ein Shift left und revers: */
curchr = ((data >> datalen) & 0x7f) << 1;
curchr = ((curchr & 0xf0) >> 4) | ((curchr & 0x0f) << 4);
curchr = ((curchr & 0xcc) >> 2) | ((curchr & 0x33) << 2);
curchr = ((curchr & 0xaa) >> 1) | ((curchr & 0x55) << 1);
tstr = translate_alpha(curchr);
if (tstr) {
/* Steuerzeichen ausgeben? */
if (ctrl
|| ((curchr & 0x58) == 0x58 && (curchr & 0x7) >= 3 && (curchr & 0x7) <= 5)
|| curchr == 0x7e) {
buffer.append(tstr) ;
}
}
else {
buffer.append (1,curchr) ;
}
}
}
void MonitorModulePocsag::StoreResult(struct rx *rx)
{
}
bool MonitorModulePocsag::isnumeric(rx *rx, std::string & message)
{
// Keine Numeric-Kontrolle mehr ;-)
return false ;
}
void MonitorModulePocsag::SetTrigger(float trigger)
{
m_fTrigger=trigger ;
}
bool MonitorModulePocsag::isSync(unsigned long rxdata)
{
int counter_SYNC=0, counter_SYNCINFO=0 ;
/* ToDo: unsigned long / signed long sind auf 64Bit System (8 !) Byte gross statt 4 !
* Deswegen vermutlich Fehler in der Sync-Detection !
*/
unsigned long VergleichSYNC=POCSAG_SYNC ;
unsigned long VergleichSYNCINFO=POCSAG_SYNCINFO ;
if (!m_bErrorCorrection)
return (rxdata == POCSAG_SYNC || rxdata == POCSAG_SYNCINFO ) ;
// Aha - Fehlerkorrektur gew?nscht
//
for (int i=0; i < 32 ; i++)
{
if ( (rxdata & 0x1) == (VergleichSYNC & 0x1) )
{
counter_SYNC++ ;
} ;
if ( (rxdata & 0x1) == (VergleichSYNCINFO & 0x1) )
{
counter_SYNCINFO++ ;
} ;
VergleichSYNC >>= 1 ;
VergleichSYNCINFO >>= 1 ;
rxdata >>=1 ;
}
return ((counter_SYNC >30) || (counter_SYNCINFO>30)) ;
}
root