//~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
/// Writes declaration into the logger.
///
/// @param d device descriptor to be installed
/// @param lkDecl LK task declaration data
/// @param errBufSize error message buffer size
/// @param errBuf[] [out] error message
///
/// @retval true declaration has been written successfully
/// @retval false error during declaration (description in @p errBuf)
///
//static
BOOL DevLXNano::DeclareTask(PDeviceDescriptor_t d,
Declaration_t* lkDecl, unsigned errBufSize, TCHAR errBuf[])
{
Decl decl;
Class lxClass;
if (!FillFlight(*lkDecl, decl, errBufSize, errBuf))
return(false);
if (!FillTask(*lkDecl, decl, errBufSize, errBuf))
return(false);
// we will use text-defined class
decl.flight.cmp_cls = Decl::cls_textdef;
lxClass.SetName(lkDecl->CompetitionClass);
// stop RX thread
if (!StopRxThread(d, errBufSize, errBuf))
return(false);
// set new Rx timeout
int orgRxTimeout;
bool status = SetRxTimeout(d, 2000, orgRxTimeout, errBufSize, errBuf);
if (status)
{
ShowProgress(decl_enable);
status = StartCMDMode(d, errBufSize, errBuf);
if (status)
{
ShowProgress(decl_send);
status = status && WriteDecl(d, decl, errBufSize, errBuf);
status = status && WriteClass(d, lxClass, errBufSize, errBuf);
}
ShowProgress(decl_disable);
// always do the following step otherwise NMEA will not be sent
// (don't overwrite error descr)
status = StartNMEAMode(d, status ? errBufSize : 0, errBuf) && status;
// restore Rx timeout (we must try that always; don't overwrite error descr)
status = SetRxTimeout(d, orgRxTimeout,
orgRxTimeout, status ? errBufSize : 0, errBuf) && status;
}
// restart RX thread (we must try that always; don't overwrite error descr)
status = StartRxThread(d, status ? errBufSize : 0, errBuf) && status;
return(status);
} // DeclareTask()
//////////////////////////////// TASK /////////////////////////////////////
BOOL DevLXMiniMap::DeclareTaskMinimap(PDeviceDescriptor_t d,
Declaration_t* lkDecl, unsigned errBufSize, TCHAR errBuf[])
{
Decl decl;
Class lxClass;
if (!FillFlight(*lkDecl, decl, errBufSize, errBuf))
return(false);
if (!FillTask(*lkDecl, decl, errBufSize, errBuf))
return(false);
// we will use text-defined class
decl.flight.cmp_cls = Decl::cls_textdef;
lxClass.SetName(lkDecl->CompetitionClass);
// stop RX thread
if (!StopRxThread(d, errBufSize, errBuf))
return(false);
// set new Rx timeout
int orgRxTimeout;
bool status = SetRxTimeout(d, 2000, orgRxTimeout, errBufSize, errBuf);
if (status)
{
devWriteNMEAString(d,TEXT("PFLX0,COLIBRI") );
Sleep(100);
d->Com->SetBaudrate(4800);
d->Com->SetRxTimeout(2000);
ShowProgress(decl_enable);
status = StartCMDMode(d, errBufSize, errBuf);
if(status == false)
{
d->Com->SetBaudrate(9600);
d->Com->SetRxTimeout(2000);
status = StartCMDMode(d, errBufSize, errBuf);
}
if(status == false)
{
d->Com->SetBaudrate(19200);
d->Com->SetRxTimeout(2000);
status = StartCMDMode(d, errBufSize, errBuf);
}
if(status == false)
{
d->Com->SetBaudrate(38400);
d->Com->SetRxTimeout(2000);
status = StartCMDMode(d, errBufSize, errBuf);
}
if (status)
{
ShowProgress(decl_send);
status = status && WriteDecl(d, decl, errBufSize, errBuf);
status = status && WriteClass(d, lxClass, errBufSize, errBuf);
}
ShowProgress(decl_disable);
// always do the following step otherwise NMEA will not be sent
// (don't overwrite error descr)
status = StartNMEAMode(d, status ? errBufSize : 0, errBuf) && status;
d->Com->SetBaudrate(4800);
devWriteNMEAString(d,TEXT("PFLX0,LX160") );
d->Com->SetBaudrate(38400);
// restore Rx timeout (we must try that always; don't overwrite error descr)
status = SetRxTimeout(d, orgRxTimeout,
orgRxTimeout, status ? errBufSize : 0, errBuf) && status;
}
// restart RX thread (we must try that always; don't overwrite error descr)
status = StartRxThread(d, status ? errBufSize : 0, errBuf) && status;
return(status);
}