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/*
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* Copyright ( C ) 2016 , 2017 by Jonathan Naylor G4KLX
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*
* 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 2 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 , write to the Free Software
* Foundation , Inc . , 675 Mass Ave , Cambridge , MA 0213 9 , USA .
*/
# include "P25Control.h"
# include "P25Defines.h"
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# include "P25Utils.h"
# include "Utils.h"
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# include "Sync.h"
# include "Log.h"
# include <cassert>
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# include <cstdio>
# include <cstring>
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# include <ctime>
// #define DUMP_P25
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const unsigned char BIT_MASK_TABLE [ ] = { 0x80U , 0x40U , 0x20U , 0x10U , 0x08U , 0x04U , 0x02U , 0x01U } ;
# define WRITE_BIT(p,i,b) p[(i)>>3] = (b) ? (p[(i)>>3] | BIT_MASK_TABLE[(i)&7]) : (p[(i)>>3] & ~BIT_MASK_TABLE[(i)&7])
# define READ_BIT(p,i) (p[(i)>>3] & BIT_MASK_TABLE[(i)&7])
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CP25Control : : CP25Control ( unsigned int nac , unsigned int id , bool selfOnly , bool uidOverride , CP25Network * network , CDisplay * display , unsigned int timeout , bool duplex , CDMRLookup * lookup , CRSSIInterpolator * rssiMapper ) :
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m_nac ( nac ) ,
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m_id ( id ) ,
m_selfOnly ( selfOnly ) ,
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m_uidOverride ( uidOverride ) ,
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m_network ( network ) ,
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m_display ( display ) ,
m_duplex ( duplex ) ,
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m_lookup ( lookup ) ,
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m_queue ( 1000U , " P25 Control " ) ,
m_rfState ( RS_RF_LISTENING ) ,
m_netState ( RS_NET_IDLE ) ,
m_rfTimeout ( 1000U , timeout ) ,
m_netTimeout ( 1000U , timeout ) ,
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m_networkWatchdog ( 1000U , 0U , 1500U ) ,
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m_rfFrames ( 0U ) ,
m_rfBits ( 0U ) ,
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m_rfErrs ( 0U ) ,
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m_netFrames ( 0U ) ,
m_netLost ( 0U ) ,
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m_nid ( nac ) ,
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m_lastDUID ( P25_DUID_TERM ) ,
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m_audio ( ) ,
m_rfData ( ) ,
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m_netData ( ) ,
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m_rfLSD ( ) ,
m_netLSD ( ) ,
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m_netLDU1 ( NULL ) ,
m_netLDU2 ( NULL ) ,
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m_lastIMBE ( NULL ) ,
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m_rfLDU ( NULL ) ,
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m_rssiMapper ( rssiMapper ) ,
m_rssi ( 0U ) ,
m_maxRSSI ( 0U ) ,
m_minRSSI ( 0U ) ,
m_aveRSSI ( 0U ) ,
m_rssiCount ( 0U ) ,
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m_fp ( NULL )
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{
assert ( display ! = NULL ) ;
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assert ( lookup ! = NULL ) ;
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assert ( rssiMapper ! = NULL ) ;
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m_netLDU1 = new unsigned char [ 9U * 25U ] ;
m_netLDU2 = new unsigned char [ 9U * 25U ] ;
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: : memset ( m_netLDU1 , 0x00U , 9U * 25U ) ;
: : memset ( m_netLDU2 , 0x00U , 9U * 25U ) ;
m_lastIMBE = new unsigned char [ 11U ] ;
: : memcpy ( m_lastIMBE , P25_NULL_IMBE , 11U ) ;
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m_rfLDU = new unsigned char [ P25_LDU_FRAME_LENGTH_BYTES ] ;
: : memset ( m_rfLDU , 0x00U , P25_LDU_FRAME_LENGTH_BYTES ) ;
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}
CP25Control : : ~ CP25Control ( )
{
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delete [ ] m_netLDU1 ;
delete [ ] m_netLDU2 ;
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delete [ ] m_lastIMBE ;
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delete [ ] m_rfLDU ;
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}
bool CP25Control : : writeModem ( unsigned char * data , unsigned int len )
{
assert ( data ! = NULL ) ;
bool sync = data [ 1U ] = = 0x01U ;
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if ( data [ 0U ] = = TAG_LOST & & m_rfState = = RS_RF_AUDIO ) {
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if ( m_rssi ! = 0U )
LogMessage ( " P25, transmission lost, %.1f seconds, BER: %.1f%%, RSSI: -%u/-%u/-%u dBm " , float ( m_rfFrames ) / 5.56F , float ( m_rfErrs * 100U ) / float ( m_rfBits ) , m_minRSSI , m_maxRSSI , m_aveRSSI / m_rssiCount ) ;
else
LogMessage ( " P25, transmission lost, %.1f seconds, BER: %.1f%% " , float ( m_rfFrames ) / 5.56F , float ( m_rfErrs * 100U ) / float ( m_rfBits ) ) ;
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if ( m_netState = = RS_NET_IDLE )
m_display - > clearP25 ( ) ;
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writeNetwork ( m_rfLDU , m_lastDUID , true ) ;
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writeNetwork ( data + 2U , P25_DUID_TERM , true ) ;
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m_rfState = RS_RF_LISTENING ;
m_rfTimeout . stop ( ) ;
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m_rfData . reset ( ) ;
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# if defined(DUMP_P25)
closeFile ( ) ;
# endif
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return false ;
}
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if ( data [ 0U ] = = TAG_LOST ) {
m_rfState = RS_RF_LISTENING ;
return false ;
}
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if ( ! sync & & m_rfState = = RS_RF_LISTENING )
return false ;
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// Decode the NID
bool valid = m_nid . decode ( data + 2U ) ;
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if ( m_rfState = = RS_RF_LISTENING & & ! valid )
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return false ;
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unsigned char duid = m_nid . getDUID ( ) ;
if ( ! valid ) {
switch ( m_lastDUID ) {
case P25_DUID_HEADER :
case P25_DUID_LDU2 :
duid = P25_DUID_LDU1 ;
break ;
case P25_DUID_LDU1 :
duid = P25_DUID_LDU2 ;
break ;
default :
break ;
}
}
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// Have we got RSSI bytes on the end of a P25 LDU?
if ( len = = ( P25_LDU_FRAME_LENGTH_BYTES + 4U ) ) {
uint16_t raw = 0U ;
raw | = ( data [ 218U ] < < 8 ) & 0xFF00U ;
raw | = ( data [ 219U ] < < 0 ) & 0x00FFU ;
// Convert the raw RSSI to dBm
int rssi = m_rssiMapper - > interpolate ( raw ) ;
LogDebug ( " P25, raw RSSI: %u, reported RSSI: %d dBm " , raw , rssi ) ;
// RSSI is always reported as positive
m_rssi = ( rssi > = 0 ) ? rssi : - rssi ;
if ( m_rssi > m_minRSSI )
m_minRSSI = m_rssi ;
if ( m_rssi < m_maxRSSI )
m_maxRSSI = m_rssi ;
m_aveRSSI + = m_rssi ;
m_rssiCount + + ;
}
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if ( duid = = P25_DUID_LDU1 ) {
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if ( m_rfState = = RS_RF_LISTENING ) {
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m_rfData . reset ( ) ;
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bool ret = m_rfData . decodeLDU1 ( data + 2U , m_network ! = NULL , m_uidOverride ) ;
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if ( ! ret ) {
m_lastDUID = duid ;
return false ;
}
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unsigned int srcId = m_rfData . getSrcId ( ) ;
if ( m_selfOnly ) {
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if ( m_id > 99999999U ) { // Check that the Config DMR-ID is bigger than 8 digits
if ( srcId ! = m_id / 100U ) {
LogMessage ( " P25, invalid access attempt from %u " , srcId ) ;
m_rfState = RS_RF_REJECTED ;
return false ;
}
}
else if ( m_id > 9999999U ) { // Check that the Config DMR-ID is bigger than 7 digits
if ( srcId ! = m_id / 10U ) {
LogMessage ( " P25, invalid access attempt from %u " , srcId ) ;
m_rfState = RS_RF_REJECTED ;
return false ;
}
}
else if ( srcId ! = m_id ) { // All other cases
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LogMessage ( " P25, invalid access attempt from %u " , srcId ) ;
m_rfState = RS_RF_REJECTED ;
return false ;
}
}
bool grp = m_rfData . getLCF ( ) = = P25_LCF_GROUP ;
unsigned int dstId = m_rfData . getDstId ( ) ;
std : : string source = m_lookup - > find ( srcId ) ;
LogMessage ( " P25, received RF transmission from %s to %s%u " , source . c_str ( ) , grp ? " TG " : " " , dstId ) ;
m_display - > writeP25 ( source . c_str ( ) , grp , dstId , " R " ) ;
m_rfState = RS_RF_AUDIO ;
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m_minRSSI = m_rssi ;
m_maxRSSI = m_rssi ;
m_aveRSSI = m_rssi ;
m_rssiCount = 1U ;
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createRFHeader ( ) ;
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writeNetwork ( data + 2U , P25_DUID_HEADER , false ) ;
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} else if ( m_rfState = = RS_RF_AUDIO ) {
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writeNetwork ( m_rfLDU , m_lastDUID , false ) ;
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}
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if ( m_rfState = = RS_RF_AUDIO ) {
// Regenerate Sync
CSync : : addP25Sync ( data + 2U ) ;
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// Regenerate NID
m_nid . encode ( data + 2U , P25_DUID_LDU1 ) ;
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// Regenerate LDU1 Data
m_rfData . encodeLDU1 ( data + 2U ) ;
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// Regenerate the Low Speed Data
m_rfLSD . process ( data + 2U ) ;
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// Regenerate Audio
unsigned int errors = m_audio . process ( data + 2U ) ;
LogDebug ( " P25, LDU1 audio, errs: %u/1233 (%.1f%%) " , errors , float ( errors ) / 12.33F ) ;
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m_display - > writeP25BER ( float ( errors ) / 12.33F ) ;
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m_rfBits + = 1233U ;
m_rfErrs + = errors ;
m_rfFrames + + ;
m_lastDUID = duid ;
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// Add busy bits
addBusyBits ( data + 2U , P25_LDU_FRAME_LENGTH_BITS , false , true ) ;
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# if defined(DUMP_P25)
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writeFile ( data + 2U , len - 2U ) ;
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# endif
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: : memcpy ( m_rfLDU , data + 2U , P25_LDU_FRAME_LENGTH_BYTES ) ;
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if ( m_duplex ) {
data [ 0U ] = TAG_DATA ;
data [ 1U ] = 0x00U ;
writeQueueRF ( data , P25_LDU_FRAME_LENGTH_BYTES + 2U ) ;
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}
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m_display - > writeP25RSSI ( m_rssi ) ;
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return true ;
}
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} else if ( duid = = P25_DUID_LDU2 ) {
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if ( m_rfState = = RS_RF_AUDIO ) {
writeNetwork ( m_rfLDU , m_lastDUID , false ) ;
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// Regenerate Sync
CSync : : addP25Sync ( data + 2U ) ;
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// Regenerate NID
m_nid . encode ( data + 2U , P25_DUID_LDU2 ) ;
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// Add the dummy LDU2 data
m_rfData . encodeLDU2 ( data + 2U ) ;
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// Regenerate the Low Speed Data
m_rfLSD . process ( data + 2U ) ;
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// Regenerate Audio
unsigned int errors = m_audio . process ( data + 2U ) ;
LogDebug ( " P25, LDU2 audio, errs: %u/1233 (%.1f%%) " , errors , float ( errors ) / 12.33F ) ;
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m_display - > writeP25BER ( float ( errors ) / 12.33F ) ;
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m_rfBits + = 1233U ;
m_rfErrs + = errors ;
m_rfFrames + + ;
m_lastDUID = duid ;
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// Add busy bits
addBusyBits ( data + 2U , P25_LDU_FRAME_LENGTH_BITS , false , true ) ;
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# if defined(DUMP_P25)
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writeFile ( data + 2U , len - 2U ) ;
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# endif
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: : memcpy ( m_rfLDU , data + 2U , P25_LDU_FRAME_LENGTH_BYTES ) ;
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if ( m_duplex ) {
data [ 0U ] = TAG_DATA ;
data [ 1U ] = 0x00U ;
writeQueueRF ( data , P25_LDU_FRAME_LENGTH_BYTES + 2U ) ;
}
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m_display - > writeP25RSSI ( m_rssi ) ;
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return true ;
}
} else if ( duid = = P25_DUID_TERM | | duid = = P25_DUID_TERM_LC ) {
if ( m_rfState = = RS_RF_REJECTED ) {
m_rfState = RS_RF_LISTENING ;
} else if ( m_rfState = = RS_RF_AUDIO ) {
writeNetwork ( m_rfLDU , m_lastDUID , true ) ;
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: : memset ( data + 2U , 0x00U , P25_TERM_FRAME_LENGTH_BYTES ) ;
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// Regenerate Sync
CSync : : addP25Sync ( data + 2U ) ;
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// Regenerate NID
m_nid . encode ( data + 2U , P25_DUID_TERM ) ;
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// Add busy bits
addBusyBits ( data + 2U , P25_TERM_FRAME_LENGTH_BITS , false , true ) ;
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m_rfState = RS_RF_LISTENING ;
m_rfTimeout . stop ( ) ;
m_rfData . reset ( ) ;
m_lastDUID = duid ;
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if ( m_rssi ! = 0U )
LogMessage ( " P25, received RF end of transmission, %.1f seconds, BER: %.1f%%, RSSI: -%u/-%u/-%u dBm " , float ( m_rfFrames ) / 5.56F , float ( m_rfErrs * 100U ) / float ( m_rfBits ) , m_minRSSI , m_maxRSSI , m_aveRSSI / m_rssiCount ) ;
else
LogMessage ( " P25, received RF end of transmission, %.1f seconds, BER: %.1f%% " , float ( m_rfFrames ) / 5.56F , float ( m_rfErrs * 100U ) / float ( m_rfBits ) ) ;
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m_display - > clearP25 ( ) ;
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# if defined(DUMP_P25)
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closeFile ( ) ;
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# endif
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writeNetwork ( data + 2U , P25_DUID_TERM , true ) ;
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if ( m_duplex ) {
data [ 0U ] = TAG_EOT ;
data [ 1U ] = 0x00U ;
writeQueueRF ( data , P25_TERM_FRAME_LENGTH_BYTES + 2U ) ;
}
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}
}
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return false ;
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}
unsigned int CP25Control : : readModem ( unsigned char * data )
{
assert ( data ! = NULL ) ;
if ( m_queue . isEmpty ( ) )
return 0U ;
unsigned char len = 0U ;
m_queue . getData ( & len , 1U ) ;
m_queue . getData ( data , len ) ;
return len ;
}
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void CP25Control : : writeNetwork ( )
{
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unsigned char data [ 100U ] ;
unsigned int length = m_network - > read ( data , 100U ) ;
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if ( length = = 0U )
return ;
if ( m_rfState ! = RS_RF_LISTENING & & m_netState = = RS_NET_IDLE )
return ;
m_networkWatchdog . start ( ) ;
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switch ( data [ 0U ] ) {
case 0x62U :
: : memcpy ( m_netLDU1 + 0U , data , 22U ) ;
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checkNetLDU2 ( ) ;
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break ;
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case 0x63U :
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: : memcpy ( m_netLDU1 + 25U , data , 14U ) ;
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checkNetLDU2 ( ) ;
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break ;
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case 0x64U :
: : memcpy ( m_netLDU1 + 50U , data , 17U ) ;
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checkNetLDU2 ( ) ;
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break ;
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case 0x65U :
: : memcpy ( m_netLDU1 + 75U , data , 17U ) ;
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checkNetLDU2 ( ) ;
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break ;
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case 0x66U :
: : memcpy ( m_netLDU1 + 100U , data , 17U ) ;
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checkNetLDU2 ( ) ;
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break ;
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case 0x67U :
: : memcpy ( m_netLDU1 + 125U , data , 17U ) ;
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checkNetLDU2 ( ) ;
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break ;
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case 0x68U :
: : memcpy ( m_netLDU1 + 150U , data , 17U ) ;
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checkNetLDU2 ( ) ;
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break ;
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case 0x69U :
: : memcpy ( m_netLDU1 + 175U , data , 17U ) ;
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checkNetLDU2 ( ) ;
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break ;
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case 0x6AU :
: : memcpy ( m_netLDU1 + 200U , data , 16U ) ;
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checkNetLDU2 ( ) ;
if ( m_netState ! = RS_NET_IDLE )
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createNetLDU1 ( ) ;
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break ;
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case 0x6BU :
: : memcpy ( m_netLDU2 + 0U , data , 22U ) ;
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checkNetLDU1 ( ) ;
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break ;
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case 0x6CU :
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: : memcpy ( m_netLDU2 + 25U , data , 14U ) ;
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checkNetLDU1 ( ) ;
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break ;
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case 0x6DU :
: : memcpy ( m_netLDU2 + 50U , data , 17U ) ;
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checkNetLDU1 ( ) ;
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break ;
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case 0x6EU :
: : memcpy ( m_netLDU2 + 75U , data , 17U ) ;
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checkNetLDU1 ( ) ;
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break ;
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case 0x6FU :
: : memcpy ( m_netLDU2 + 100U , data , 17U ) ;
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checkNetLDU1 ( ) ;
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break ;
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case 0x70U :
: : memcpy ( m_netLDU2 + 125U , data , 17U ) ;
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checkNetLDU1 ( ) ;
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break ;
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case 0x71U :
: : memcpy ( m_netLDU2 + 150U , data , 17U ) ;
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checkNetLDU1 ( ) ;
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break ;
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case 0x72U :
: : memcpy ( m_netLDU2 + 175U , data , 17U ) ;
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checkNetLDU1 ( ) ;
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break ;
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case 0x73U :
: : memcpy ( m_netLDU2 + 200U , data , 16U ) ;
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if ( m_netState = = RS_NET_IDLE ) {
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createNetHeader ( ) ;
createNetLDU1 ( ) ;
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} else {
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checkNetLDU1 ( ) ;
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}
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createNetLDU2 ( ) ;
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break ;
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case 0x80U :
createNetTerminator ( ) ;
break ;
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default :
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break ;
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}
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}
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void CP25Control : : clock ( unsigned int ms )
{
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if ( m_network ! = NULL )
writeNetwork ( ) ;
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m_rfTimeout . clock ( ms ) ;
m_netTimeout . clock ( ms ) ;
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if ( m_netState = = RS_NET_AUDIO ) {
m_networkWatchdog . clock ( ms ) ;
if ( m_networkWatchdog . hasExpired ( ) ) {
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LogMessage ( " P25, network watchdog has expired, %.1f seconds, %u%% packet loss " , float ( m_netFrames ) / 50.0F , ( m_netLost * 100U ) / m_netFrames ) ;
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m_display - > clearP25 ( ) ;
m_networkWatchdog . stop ( ) ;
m_netState = RS_NET_IDLE ;
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m_netData . reset ( ) ;
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m_netTimeout . stop ( ) ;
}
}
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}
void CP25Control : : writeQueueRF ( const unsigned char * data , unsigned int length )
{
assert ( data ! = NULL ) ;
if ( m_rfTimeout . isRunning ( ) & & m_rfTimeout . hasExpired ( ) )
return ;
unsigned int space = m_queue . freeSpace ( ) ;
if ( space < ( length + 1U ) ) {
LogError ( " P25, overflow in the P25 RF queue " ) ;
return ;
}
unsigned char len = length ;
m_queue . addData ( & len , 1U ) ;
m_queue . addData ( data , len ) ;
}
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void CP25Control : : writeQueueNet ( const unsigned char * data , unsigned int length )
{
assert ( data ! = NULL ) ;
if ( m_netTimeout . isRunning ( ) & & m_netTimeout . hasExpired ( ) )
return ;
unsigned int space = m_queue . freeSpace ( ) ;
if ( space < ( length + 1U ) ) {
LogError ( " P25, overflow in the P25 RF queue " ) ;
return ;
}
unsigned char len = length ;
m_queue . addData ( & len , 1U ) ;
m_queue . addData ( data , len ) ;
}
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void CP25Control : : writeNetwork ( const unsigned char * data , unsigned char type , bool end )
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{
assert ( data ! = NULL ) ;
if ( m_network = = NULL )
return ;
if ( m_rfTimeout . isRunning ( ) & & m_rfTimeout . hasExpired ( ) )
return ;
switch ( type )
{
case P25_DUID_LDU1 :
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m_network - > writeLDU1 ( data , m_rfData , m_rfLSD , end ) ;
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break ;
case P25_DUID_LDU2 :
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m_network - > writeLDU2 ( data , m_rfData , m_rfLSD , end ) ;
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break ;
default :
break ;
}
}
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void CP25Control : : addBusyBits ( unsigned char * data , unsigned int length , bool b1 , bool b2 )
{
assert ( data ! = NULL ) ;
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for ( unsigned int ss0Pos = P25_SS0_START ; ss0Pos < length ; ss0Pos + = P25_SS_INCREMENT ) {
unsigned int ss1Pos = ss0Pos + 1U ;
WRITE_BIT ( data , ss0Pos , b1 ) ;
WRITE_BIT ( data , ss1Pos , b2 ) ;
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}
}
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void CP25Control : : checkNetLDU1 ( )
{
if ( m_netState = = RS_NET_IDLE )
return ;
// Check for an unflushed LDU1
if ( m_netLDU1 [ 0U ] ! = 0x00U | | m_netLDU1 [ 25U ] ! = 0x00U | | m_netLDU1 [ 50U ] ! = 0x00U | |
m_netLDU1 [ 75U ] ! = 0x00U | | m_netLDU1 [ 100U ] ! = 0x00U | | m_netLDU1 [ 125U ] ! = 0x00U | |
m_netLDU1 [ 150U ] ! = 0x00U | | m_netLDU1 [ 175U ] ! = 0x00U | | m_netLDU1 [ 200U ] ! = 0x00U )
createNetLDU1 ( ) ;
}
void CP25Control : : checkNetLDU2 ( )
{
if ( m_netState = = RS_NET_IDLE )
return ;
// Check for an unflushed LDU1
if ( m_netLDU2 [ 0U ] ! = 0x00U | | m_netLDU2 [ 25U ] ! = 0x00U | | m_netLDU2 [ 50U ] ! = 0x00U | |
m_netLDU2 [ 75U ] ! = 0x00U | | m_netLDU2 [ 100U ] ! = 0x00U | | m_netLDU2 [ 125U ] ! = 0x00U | |
m_netLDU2 [ 150U ] ! = 0x00U | | m_netLDU2 [ 175U ] ! = 0x00U | | m_netLDU2 [ 200U ] ! = 0x00U )
createNetLDU2 ( ) ;
}
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void CP25Control : : insertMissingAudio ( unsigned char * data )
{
if ( data [ 0U ] = = 0x00U ) {
: : memcpy ( data + 10U , m_lastIMBE , 11U ) ;
m_netLost + + ;
} else {
: : memcpy ( m_lastIMBE , data + 10U , 11U ) ;
}
if ( data [ 25U ] = = 0x00U ) {
: : memcpy ( data + 26U , m_lastIMBE , 11U ) ;
m_netLost + + ;
} else {
: : memcpy ( m_lastIMBE , data + 26U , 11U ) ;
}
if ( data [ 50U ] = = 0x00U ) {
: : memcpy ( data + 55U , m_lastIMBE , 11U ) ;
m_netLost + + ;
} else {
: : memcpy ( m_lastIMBE , data + 55U , 11U ) ;
}
if ( data [ 75U ] = = 0x00U ) {
: : memcpy ( data + 80U , m_lastIMBE , 11U ) ;
m_netLost + + ;
} else {
: : memcpy ( m_lastIMBE , data + 80U , 11U ) ;
}
if ( data [ 100U ] = = 0x00U ) {
: : memcpy ( data + 105U , m_lastIMBE , 11U ) ;
m_netLost + + ;
} else {
: : memcpy ( m_lastIMBE , data + 105U , 11U ) ;
}
if ( data [ 125U ] = = 0x00U ) {
: : memcpy ( data + 130U , m_lastIMBE , 11U ) ;
m_netLost + + ;
} else {
: : memcpy ( m_lastIMBE , data + 130U , 11U ) ;
}
if ( data [ 150U ] = = 0x00U ) {
: : memcpy ( data + 155U , m_lastIMBE , 11U ) ;
m_netLost + + ;
} else {
: : memcpy ( m_lastIMBE , data + 155U , 11U ) ;
}
if ( data [ 175U ] = = 0x00U ) {
: : memcpy ( data + 180U , m_lastIMBE , 11U ) ;
m_netLost + + ;
} else {
: : memcpy ( m_lastIMBE , data + 180U , 11U ) ;
}
if ( data [ 200U ] = = 0x00U ) {
: : memcpy ( data + 204U , m_lastIMBE , 11U ) ;
m_netLost + + ;
} else {
: : memcpy ( m_lastIMBE , data + 204U , 11U ) ;
}
}
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void CP25Control : : createRFHeader ( )
{
unsigned char buffer [ P25_HDR_FRAME_LENGTH_BYTES + 2U ] ;
: : memset ( buffer , 0x00U , P25_HDR_FRAME_LENGTH_BYTES + 2U ) ;
buffer [ 0U ] = TAG_HEADER ;
buffer [ 1U ] = 0x00U ;
// Add the sync
CSync : : addP25Sync ( buffer + 2U ) ;
// Add the NID
m_nid . encode ( buffer + 2U , P25_DUID_HEADER ) ;
// Add the dummy header
m_rfData . encodeHeader ( buffer + 2U ) ;
// Add busy bits
addBusyBits ( buffer + 2U , P25_HDR_FRAME_LENGTH_BITS , false , true ) ;
m_rfFrames = 0U ;
m_rfErrs = 0U ;
m_rfBits = 1U ;
m_rfTimeout . start ( ) ;
m_lastDUID = P25_DUID_HEADER ;
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: : memset ( m_rfLDU , 0x00U , P25_LDU_FRAME_LENGTH_BYTES ) ;
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# if defined(DUMP_P25)
openFile ( ) ;
writeFile ( buffer + 2U , buffer - 2U ) ;
# endif
if ( m_duplex ) {
buffer [ 0U ] = TAG_HEADER ;
buffer [ 1U ] = 0x00U ;
writeQueueRF ( buffer , P25_HDR_FRAME_LENGTH_BYTES + 2U ) ;
}
}
void CP25Control : : createNetHeader ( )
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{
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unsigned char lcf = m_netLDU1 [ 51U ] ;
unsigned char mfId = m_netLDU1 [ 52U ] ;
unsigned int dstId = ( m_netLDU1 [ 76U ] < < 16 ) + ( m_netLDU1 [ 77U ] < < 8 ) + m_netLDU1 [ 78U ] ;
unsigned int srcId = ( m_netLDU1 [ 101U ] < < 16 ) + ( m_netLDU1 [ 102U ] < < 8 ) + m_netLDU1 [ 103U ] ;
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unsigned char algId = m_netLDU2 [ 126U ] ;
unsigned int kId = ( m_netLDU2 [ 127U ] < < 8 ) + m_netLDU2 [ 128U ] ;
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2016-09-22 18:39:19 +00:00
unsigned char mi [ P25_MI_LENGTH_BYTES ] ;
: : memcpy ( mi + 0U , m_netLDU2 + 51U , 3U ) ;
: : memcpy ( mi + 3U , m_netLDU2 + 76U , 3U ) ;
: : memcpy ( mi + 6U , m_netLDU2 + 101U , 3U ) ;
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m_netData . reset ( ) ;
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m_netData . setMI ( mi ) ;
m_netData . setAlgId ( algId ) ;
m_netData . setKId ( kId ) ;
m_netData . setLCF ( lcf ) ;
m_netData . setMFId ( mfId ) ;
m_netData . setSrcId ( srcId ) ;
m_netData . setDstId ( dstId ) ;
std : : string source = m_lookup - > find ( srcId ) ;
LogMessage ( " P25, received network transmission from %s to %s%u " , source . c_str ( ) , lcf = = P25_LCF_GROUP ? " TG " : " " , dstId ) ;
m_display - > writeP25 ( source . c_str ( ) , lcf = = P25_LCF_GROUP , dstId , " N " ) ;
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m_netState = RS_NET_AUDIO ;
m_netTimeout . start ( ) ;
m_netFrames = 0U ;
m_netLost = 0U ;
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unsigned char buffer [ P25_HDR_FRAME_LENGTH_BYTES + 2U ] ;
: : memset ( buffer , 0x00U , P25_HDR_FRAME_LENGTH_BYTES + 2U ) ;
buffer [ 0U ] = TAG_HEADER ;
buffer [ 1U ] = 0x00U ;
// Add the sync
CSync : : addP25Sync ( buffer + 2U ) ;
// Add the NID
m_nid . encode ( buffer + 2U , P25_DUID_HEADER ) ;
// Add the dummy header
m_netData . encodeHeader ( buffer + 2U ) ;
// Add busy bits
addBusyBits ( buffer + 2U , P25_HDR_FRAME_LENGTH_BITS , false , true ) ;
writeQueueNet ( buffer , P25_HDR_FRAME_LENGTH_BYTES + 2U ) ;
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}
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void CP25Control : : createNetLDU1 ( )
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{
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insertMissingAudio ( m_netLDU1 ) ;
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unsigned char buffer [ P25_LDU_FRAME_LENGTH_BYTES + 2U ] ;
: : memset ( buffer , 0x00U , P25_LDU_FRAME_LENGTH_BYTES + 2U ) ;
buffer [ 0U ] = TAG_DATA ;
buffer [ 1U ] = 0x00U ;
// Add the sync
CSync : : addP25Sync ( buffer + 2U ) ;
// Add the NID
m_nid . encode ( buffer + 2U , P25_DUID_LDU1 ) ;
// Add the LDU1 data
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m_netData . encodeLDU1 ( buffer + 2U ) ;
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// Add the Audio
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m_audio . encode ( buffer + 2U , m_netLDU1 + 10U , 0U ) ;
m_audio . encode ( buffer + 2U , m_netLDU1 + 26U , 1U ) ;
m_audio . encode ( buffer + 2U , m_netLDU1 + 55U , 2U ) ;
m_audio . encode ( buffer + 2U , m_netLDU1 + 80U , 3U ) ;
m_audio . encode ( buffer + 2U , m_netLDU1 + 105U , 4U ) ;
m_audio . encode ( buffer + 2U , m_netLDU1 + 130U , 5U ) ;
m_audio . encode ( buffer + 2U , m_netLDU1 + 155U , 6U ) ;
m_audio . encode ( buffer + 2U , m_netLDU1 + 180U , 7U ) ;
m_audio . encode ( buffer + 2U , m_netLDU1 + 204U , 8U ) ;
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// Add the Low Speed Data
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m_netLSD . setLSD1 ( m_netLDU1 [ 201U ] ) ;
m_netLSD . setLSD2 ( m_netLDU1 [ 202U ] ) ;
m_netLSD . encode ( buffer + 2U ) ;
2016-09-20 19:13:13 +00:00
// Add busy bits
addBusyBits ( buffer + 2U , P25_LDU_FRAME_LENGTH_BITS , false , true ) ;
writeQueueNet ( buffer , P25_LDU_FRAME_LENGTH_BYTES + 2U ) ;
2016-10-13 21:54:45 +00:00
: : memset ( m_netLDU1 , 0x00U , 9U * 25U ) ;
m_netFrames + = 9U ;
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}
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void CP25Control : : createNetLDU2 ( )
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{
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insertMissingAudio ( m_netLDU2 ) ;
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unsigned char buffer [ P25_LDU_FRAME_LENGTH_BYTES + 2U ] ;
: : memset ( buffer , 0x00U , P25_LDU_FRAME_LENGTH_BYTES + 2U ) ;
buffer [ 0U ] = TAG_DATA ;
buffer [ 1U ] = 0x00U ;
// Add the sync
CSync : : addP25Sync ( buffer + 2U ) ;
// Add the NID
m_nid . encode ( buffer + 2U , P25_DUID_LDU2 ) ;
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// Add the dummy LDU2 data
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m_netData . encodeLDU2 ( buffer + 2U ) ;
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// Add the Audio
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m_audio . encode ( buffer + 2U , m_netLDU2 + 10U , 0U ) ;
m_audio . encode ( buffer + 2U , m_netLDU2 + 26U , 1U ) ;
m_audio . encode ( buffer + 2U , m_netLDU2 + 55U , 2U ) ;
m_audio . encode ( buffer + 2U , m_netLDU2 + 80U , 3U ) ;
m_audio . encode ( buffer + 2U , m_netLDU2 + 105U , 4U ) ;
m_audio . encode ( buffer + 2U , m_netLDU2 + 130U , 5U ) ;
m_audio . encode ( buffer + 2U , m_netLDU2 + 155U , 6U ) ;
m_audio . encode ( buffer + 2U , m_netLDU2 + 180U , 7U ) ;
m_audio . encode ( buffer + 2U , m_netLDU2 + 204U , 8U ) ;
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// Add the Low Speed Data
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m_netLSD . setLSD1 ( m_netLDU2 [ 201U ] ) ;
m_netLSD . setLSD2 ( m_netLDU2 [ 202U ] ) ;
m_netLSD . encode ( buffer + 2U ) ;
2016-09-20 19:13:13 +00:00
// Add busy bits
addBusyBits ( buffer + 2U , P25_LDU_FRAME_LENGTH_BITS , false , true ) ;
writeQueueNet ( buffer , P25_LDU_FRAME_LENGTH_BYTES + 2U ) ;
2016-10-13 21:54:45 +00:00
: : memset ( m_netLDU2 , 0x00U , 9U * 25U ) ;
m_netFrames + = 9U ;
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}
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void CP25Control : : createNetTerminator ( )
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{
unsigned char buffer [ P25_TERM_FRAME_LENGTH_BYTES + 2U ] ;
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: : memset ( buffer , 0x00U , P25_TERM_FRAME_LENGTH_BYTES + 2U ) ;
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buffer [ 0U ] = TAG_EOT ;
buffer [ 1U ] = 0x00U ;
// Add the sync
CSync : : addP25Sync ( buffer + 2U ) ;
// Add the NID
m_nid . encode ( buffer + 2U , P25_DUID_TERM ) ;
// Add busy bits
addBusyBits ( buffer + 2U , P25_TERM_FRAME_LENGTH_BITS , false , true ) ;
writeQueueNet ( buffer , P25_TERM_FRAME_LENGTH_BYTES + 2U ) ;
2016-09-27 18:26:24 +00:00
LogMessage ( " P25, network end of transmission, %.1f seconds, %u%% packet loss " , float ( m_netFrames ) / 50.0F , ( m_netLost * 100U ) / m_netFrames ) ;
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m_display - > clearP25 ( ) ;
m_netTimeout . stop ( ) ;
m_networkWatchdog . stop ( ) ;
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m_netData . reset ( ) ;
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m_netState = RS_NET_IDLE ;
}
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bool CP25Control : : openFile ( )
{
if ( m_fp ! = NULL )
return true ;
time_t t ;
: : time ( & t ) ;
struct tm * tm = : : localtime ( & t ) ;
char name [ 100U ] ;
: : sprintf ( name , " P25_%04d%02d%02d_%02d%02d%02d.ambe " , tm - > tm_year + 1900 , tm - > tm_mon + 1 , tm - > tm_mday , tm - > tm_hour , tm - > tm_min , tm - > tm_sec ) ;
m_fp = : : fopen ( name , " wb " ) ;
if ( m_fp = = NULL )
return false ;
: : fwrite ( " P25 " , 1U , 3U , m_fp ) ;
return true ;
}
bool CP25Control : : writeFile ( const unsigned char * data , unsigned char length )
{
if ( m_fp = = NULL )
return false ;
: : fwrite ( & length , 1U , 1U , m_fp ) ;
: : fwrite ( data , 1U , length , m_fp ) ;
return true ;
}
void CP25Control : : closeFile ( )
{
if ( m_fp ! = NULL ) {
: : fclose ( m_fp ) ;
m_fp = NULL ;
}
}