#include "example.h"
#define MAX_RX_RECORDS_TO_RECEIVE 1000
#define RX_BUFFER_SIZE MAX_RX_RECORDS_TO_RECEIVE*sizeof(MXF_A629_DATAREC)
#define MAX_TX_RECORDS_TO_TRANSMIT 1
#define TX_BUFFER_SIZE MAX_TX_RECORDS_TO_TRANSMIT*sizeof(MXF_A629_DATAREC)
int main(void)
{
HMXF_SERVER server=0;
HMXF_DEVICE device=0;
HMXF_MODULE module=0;
uint64 count=0;
HMXF_CHANNEL rxChannel=0;
HMXF_CHANNEL txChannel=0;
HMXF_BUFFER rxBuffer=0;
HMXF_BUFFER txBuffer[2]={0,0};
uint32 rc;
uint64 index;
uint64 status, msgsCount, bytesCount;
uint32 TI;
uint32 length;
int i;
#ifdef LOCAL
#else
#endif
if (!rc)
{
printf("Starting ...\n");
}
if (!rc)
if (!rc)
if (!rc && count)
if (!rc && count)
if(!rc && !count)
rc = MAXT_ERROR_NOT_FOUND;
if (!rc)
#ifdef TTL
if (!rc)
#else
if (!rc)
#endif
if (!rc)
for(index=0; index<2 && !rc; index++)
if (!rc)
{
if (!hostBuffer)
rc = MAXT_ERROR_MEM;
}
if (!rc)
if (!rc)
if (!rc)
{
if (!rc)
printf("\nAcquisition started\n\r");
}
if(!rc)
if(!rc)
{
memset(aMinorFrame, 0, sizeof(aMinorFrame));
aMinorFrame[0].
buffer = txBuffer[0];
aMinorFrame[0].
label = 0x1;
aMinorFrame[0].
cid = 0xF;
aMinorFrame[0].
options = MXF_A629_TXPERIODIC_MJRFRAME_MSG_OPT_DEFAULT;
if (!rc)
}
if(!rc)
{
aMinorFrame[0].
buffer = txBuffer[1];
aMinorFrame[0].
label = 0x2;
aMinorFrame[0].
cid = 0xE;
aMinorFrame[0].
options = MXF_A629_TXPERIODIC_MJRFRAME_MSG_OPT_DEFAULT;
if (!rc)
}
if(!rc)
{
memset(&aRec629, 0, sizeof(aRec629));
length = 4;
aRec629[0].
data[1] = 0x1104;
}
if (!rc)
{
length = 120;
aRec629[0].
data[0] = 0x0;
aRec629[0].
data[1] = 0x0178;
for (i = 2; i < (int)length/2; i++)
{
aRec629[0].
data[i] = (uint16)i;
}
}
TI = 500000;
if (!rc)
if(!rc)
{
majorProperties.
mode = MXF_A629_TXPERIODIC_MJRFRAME_PROPERTIES_MODE_BLOCK;
}
if(!rc)
if (!rc)
if (!rc)
{
rc =
mxfA629RxAcqRead(rxBuffer, 0, RX_BUFFER_SIZE, &status, &msgsCount, &bytesCount, hostBuffer);
DisplayDataArray(msgsCount, hostBuffer);
}
if (!rc)
if(rc)
{
char errorString[200];
sprintf (errorString,"ERROR # 0x%X", rc);
printf("%s\n\r", errorString);
}
printf("Terminating ...\n");
if (rxBuffer)
for (index=0; index<2 && !rc; index++)
{
if(txBuffer[index])
}
if (hostBuffer)
free(hostBuffer);
printf("\nPress a key to terminate\n");
getchar();
return rc;
}
{
uint64 iRec,
iData;
printf("\n");
for(iRec=0; iRec < recNum; iRec++)
{
if(p->
control & MXF_A629_RX_REC_CTRL_STRING_CRC_ERROR)
printf(" CRC error");
if(p->
control & MXF_A629_RX_REC_CTRL_STRING_DATA_SYNC_ERROR)
printf(" Data sync error");
if(p->
control & (MXF_A629_RX_REC_CTRL_STRING_LABEL_MANCHESTER_ERROR|MXF_A629_RX_REC_CTRL_STRING_DATA_MANCHESTER_ERROR))
printf(" Manchester error");
if(p->
control & (MXF_A629_RX_REC_CTRL_STRING_LABEL_PARITY_ERROR|MXF_A629_RX_REC_CTRL_STRING_DATA_PARITY_ERROR))
printf(" Parity error");
if(p->
control & MXF_A629_RX_REC_CTRL_STRING_EOS_ERROR)
printf(" End of String error");
for(iData=0; iData < p->
dataSize/2; iData++)
{
printf(
"%04x ", p->
data[iData]);
if(!((iData+1)%8) && (iData+1 < p->
dataSize/2))
printf("\n ");
}
printf("\n");
}
}