WSJT-X/OmniRigTransceiver.cpp
Bill Somerville b39fd02c44 Several rig control enhancements and fixes
Use the  new DX Lab Suite  Commander command option to  stop Commander
trying to change the rig Tx VFO mode when we don't want to. Requires a
recent DX Lab Suite Commander version.

All rig controllers  can now detect 20Hz resolution  rigs, still needs
2Hz resolution code which will be needed for the FT-891 AFAIK.

Enhance  the HRD  interface  to be  able to  use  the alternative  PTT
command as found on most Kenwood  rigs for audio source selection. Fix
Icom data mode selection issues.

git-svn-id: svn+ssh://svn.code.sf.net/p/wsjt/wsjt/branches/wsjtx@7357 ab8295b8-cf94-4d9e-aec4-7959e3be5d79
2016-12-04 00:55:07 +00:00

723 lines
22 KiB
C++

#include "OmniRigTransceiver.hpp"
#include <QTimer>
#include <QDebug>
#include <objbase.h>
#include <QThread>
#include "qt_helpers.hpP"
#include "moc_OmniRigTransceiver.cpp"
namespace
{
auto constexpr OmniRig_transceiver_one_name = "OmniRig Rig 1";
auto constexpr OmniRig_transceiver_two_name = "OmniRig Rig 2";
}
auto OmniRigTransceiver::map_mode (OmniRig::RigParamX param) -> MODE
{
if (param & OmniRig::PM_CW_U)
{
return CW_R;
}
else if (param & OmniRig::PM_CW_L)
{
return CW;
}
else if (param & OmniRig::PM_SSB_U)
{
return USB;
}
else if (param & OmniRig::PM_SSB_L)
{
return LSB;
}
else if (param & OmniRig::PM_DIG_U)
{
return DIG_U;
}
else if (param & OmniRig::PM_DIG_L)
{
return DIG_L;
}
else if (param & OmniRig::PM_AM)
{
return AM;
}
else if (param & OmniRig::PM_FM)
{
return FM;
}
TRACE_CAT ("OmniRigTransceiver", "unrecognized mode");
throw_qstring (tr ("OmniRig: unrecognized mode"));
return UNK;
}
OmniRig::RigParamX OmniRigTransceiver::map_mode (MODE mode)
{
switch (mode)
{
case AM: return OmniRig::PM_AM;
case CW: return OmniRig::PM_CW_L;
case CW_R: return OmniRig::PM_CW_U;
case USB: return OmniRig::PM_SSB_U;
case LSB: return OmniRig::PM_SSB_L;
case FSK: return OmniRig::PM_DIG_L;
case FSK_R: return OmniRig::PM_DIG_U;
case DIG_L: return OmniRig::PM_DIG_L;
case DIG_U: return OmniRig::PM_DIG_U;
case FM: return OmniRig::PM_FM;
case DIG_FM: return OmniRig::PM_FM;
default: break;
}
return OmniRig::PM_SSB_U; // quieten compiler grumble
}
void OmniRigTransceiver::register_transceivers (TransceiverFactory::Transceivers * registry, int id1, int id2)
{
(*registry)[OmniRig_transceiver_one_name] = TransceiverFactory::Capabilities {
id1
, TransceiverFactory::Capabilities::none // COM isn't serial or network
, true // does PTT
, false // doesn't select mic/data (use OmniRig config file)
, true // can remote control RTS nd DTR
, true // asynchronous interface
};
(*registry)[OmniRig_transceiver_two_name] = TransceiverFactory::Capabilities {
id2
, TransceiverFactory::Capabilities::none // COM isn't serial or network
, true // does PTT
, false // doesn't select mic/data (use OmniRig config file)
, true // can remote control RTS nd DTR
, true // asynchronous interface
};
}
OmniRigTransceiver::OmniRigTransceiver (std::unique_ptr<TransceiverBase> wrapped,
RigNumber n, TransceiverFactory::PTTMethod ptt_type,
QString const& ptt_port, QObject * parent)
: TransceiverBase {parent}
, wrapped_ {std::move (wrapped)}
, use_for_ptt_ {TransceiverFactory::PTT_method_CAT == ptt_type || ("CAT" == ptt_port && (TransceiverFactory::PTT_method_RTS == ptt_type || TransceiverFactory::PTT_method_DTR == ptt_type))}
, ptt_type_ {ptt_type}
, rig_number_ {n}
, readable_params_ {0}
, writable_params_ {0}
, rig_offline_ {true}
, send_update_signal_ {false}
, reversed_ {false}
{
}
int OmniRigTransceiver::do_start ()
{
TRACE_CAT ("OmniRigTransceiver", "starting");
if (wrapped_) wrapped_->start (0);
CoInitializeEx (nullptr, 0 /*COINIT_APARTMENTTHREADED*/); // required because Qt only does this for GUI thread
omni_rig_.reset (new OmniRig::OmniRigX {this});
if (omni_rig_->isNull ())
{
TRACE_CAT ("OmniRigTransceiver", "failed to start COM server");
throw_qstring (tr ("Failed to start OmniRig COM server"));
}
// COM/OLE exceptions get signaled
connect (&*omni_rig_, SIGNAL (exception (int, QString, QString, QString)), this, SLOT (handle_COM_exception (int, QString, QString, QString)));
// IOmniRigXEvent interface signals
connect (&*omni_rig_, SIGNAL (VisibleChange ()), this, SLOT (handle_visible_change ()));
connect (&*omni_rig_, SIGNAL (RigTypeChange (int)), this, SLOT (handle_rig_type_change (int)));
connect (&*omni_rig_, SIGNAL (StatusChange (int)), this, SLOT (handle_status_change (int)));
connect (&*omni_rig_, SIGNAL (ParamsChange (int, int)), this, SLOT (handle_params_change (int, int)));
connect (&*omni_rig_
, SIGNAL (CustomReply (int, QVariant const&, QVariant const&))
, this, SLOT (handle_custom_reply (int, QVariant const&, QVariant const&)));
TRACE_CAT ("OmniRigTransceiver", "OmniRig s/w version:" << QString::number (omni_rig_->SoftwareVersion ()).toLocal8Bit ()
<< "i/f version:" << QString::number (omni_rig_->InterfaceVersion ()).toLocal8Bit ());
// fetch the interface of the RigX CoClass and instantiate a proxy object
switch (rig_number_)
{
case One: rig_.reset (new OmniRig::RigX (omni_rig_->Rig1 ())); break;
case Two: rig_.reset (new OmniRig::RigX (omni_rig_->Rig2 ())); break;
}
Q_ASSERT (rig_);
Q_ASSERT (!rig_->isNull ());
if (use_for_ptt_ && (TransceiverFactory::PTT_method_DTR == ptt_type_ || TransceiverFactory::PTT_method_RTS == ptt_type_))
{
// fetch the interface for the serial port if we need it for PTT
port_.reset (new OmniRig::PortBits (rig_->PortBits ()));
Q_ASSERT (port_);
Q_ASSERT (!port_->isNull ());
TRACE_CAT ("OmniRigTransceiver", "OmniRig RTS state:" << port_->Rts ());
if (!port_->Lock ()) // try to take exclusive use of the OmniRig serial port for PTT
{
TRACE_CAT ("OmniRigTransceiver", "Failed to get exclusive use of serial port for PTT from OmniRig");
}
// start off so we don't accidentally key the radio
if (TransceiverFactory::PTT_method_DTR == ptt_type_)
{
port_->SetDtr (false);
}
else // RTS
{
port_->SetRts (false);
}
}
rig_type_ = rig_->RigType ();
readable_params_ = rig_->ReadableParams ();
writable_params_ = rig_->WriteableParams ();
TRACE_CAT ("OmniRigTransceiver", QString {"OmniRig initial rig type: %1 readable params = 0x%2 writable params = 0x%3 for rig %4"}
.arg (rig_type_)
.arg (readable_params_, 8, 16, QChar ('0'))
.arg (writable_params_, 8, 16, QChar ('0'))
.arg (rig_number_).toLocal8Bit ());
for (unsigned tries {0}; tries < 10; ++tries)
{
QThread::msleep (100); // wait until OmniRig polls the rig
auto f = rig_->GetRxFrequency ();
int resolution {0};
if (f)
{
if (OmniRig::PM_UNKNOWN == rig_->Vfo ()
&& (writable_params_ & (OmniRig::PM_VFOA | OmniRig::PM_VFOB))
== (OmniRig::PM_VFOA | OmniRig::PM_VFOB))
{
// start with VFO A (probably MAIN) on rigs that we
// can't query VFO but can set explicitly
rig_->SetVfo (OmniRig::PM_VFOA);
}
if (f % 10) return resolution; // 1Hz resolution
auto test_frequency = f - f % 100 + 55;
if (OmniRig::PM_FREQ & writable_params_)
{
rig_->SetFreq (test_frequency);
}
else if (reversed_ && (OmniRig::PM_FREQB & writable_params_))
{
rig_->SetFreqB (test_frequency);
}
else if (!reversed_ && (OmniRig::PM_FREQA & writable_params_))
{
rig_->SetFreqA (test_frequency);
}
else
{
throw_qstring (tr ("OmniRig: don't know how to set rig frequency"));
}
switch (rig_->GetRxFrequency () - test_frequency)
{
case -5: resolution = -1; break; // 10Hz truncated
case 5: resolution = 1; break; // 10Hz rounded
case -15: resolution = -2; break; // 20Hz truncated
case -55: resolution = -2; break; // 100Hz truncated
case 45: resolution = 2; break; // 100Hz rounded
}
if (1 == resolution) // may be 20Hz rounded
{
test_frequency = f - f % 100 + 51;
if (OmniRig::PM_FREQ & writable_params_)
{
rig_->SetFreq (test_frequency);
}
else if (reversed_ && (OmniRig::PM_FREQB & writable_params_))
{
rig_->SetFreqB (test_frequency);
}
else if (!reversed_ && (OmniRig::PM_FREQA & writable_params_))
{
rig_->SetFreqA (test_frequency);
}
if (9 == rig_->GetRxFrequency () - test_frequency)
{
resolution = 2; // 20Hz rounded
}
}
if (OmniRig::PM_FREQ & writable_params_)
{
rig_->SetFreq (f);
}
else if (reversed_ && (OmniRig::PM_FREQB & writable_params_))
{
rig_->SetFreqB (f);
}
else if (!reversed_ && (OmniRig::PM_FREQA & writable_params_))
{
rig_->SetFreqA (f);
}
update_rx_frequency (f);
rig_offline_ = false;
return resolution;
}
}
throw_qstring (tr ("OmniRig: Initialization timed out"));
return 0; // keep compiler happy
}
void OmniRigTransceiver::do_stop ()
{
QThread::msleep (200); // leave some time for pending
// commands at the server end
if (port_)
{
port_->Unlock (); // release serial port
port_->clear ();
port_.reset ();
}
if (omni_rig_)
{
if (rig_)
{
rig_->clear ();
rig_.reset ();
}
omni_rig_->clear ();
omni_rig_.reset ();
CoUninitialize ();
}
if (wrapped_) wrapped_->stop ();
TRACE_CAT ("OmniRigTransceiver", "stopped");
}
void OmniRigTransceiver::do_sync (bool force_signal, bool /*no_poll*/)
{
// nothing much we can do here, we just have to let OmniRig do its
// stuff and its first poll should send us and update that will
// trigger a update signal from us. Any attempt to query OmniRig
// leads to a whole mess of trouble since its internal state is
// garbage until it has done its first rig poll.
send_update_signal_ = force_signal;
update_complete ();
}
void OmniRigTransceiver::handle_COM_exception (int code, QString source, QString desc, QString help)
{
TRACE_CAT ("OmniRigTransceiver", QString::number (code) + " at " + source + ": " + desc + " (" + help + ')');
throw_qstring (tr ("OmniRig COM/OLE error: %1 at %2: %3 (%4)").arg (QString::number (code)).arg (source). arg (desc). arg (help));
}
void OmniRigTransceiver::handle_visible_change ()
{
TRACE_CAT ("OmniRigTransceiver", "visibility change: visibility =" << omni_rig_->DialogVisible ());
}
void OmniRigTransceiver::handle_rig_type_change (int rig_number)
{
if (rig_number_ == rig_number)
{
readable_params_ = rig_->ReadableParams ();
writable_params_ = rig_->WriteableParams ();
TRACE_CAT ("OmniRigTransceiver", QString {"OmniRig rig type change to: %1 readable params = 0x%2 writable params = 0x%3 for rig %4"}
.arg (rig_->RigType ())
.arg (readable_params_, 8, 16, QChar ('0'))
.arg (writable_params_, 8, 16, QChar ('0'))
.arg (rig_number).toLocal8Bit ());
}
}
void OmniRigTransceiver::handle_status_change (int rig_number)
{
if (rig_number_ == rig_number)
{
auto const& status = rig_->StatusStr ().toLocal8Bit ();
TRACE_CAT ("OmniRigTransceiver", QString {"OmniRig status change: new status for rig %1 = "}.arg (rig_number).toLocal8Bit () << status);
if (OmniRig::ST_ONLINE != rig_->Status ())
{
if (!rig_offline_)
{
rig_offline_ = true;
// give OmniRig 5 seconds to recover
QTimer::singleShot (5 * 1000, this, SLOT (timeout_check ()));
}
}
else
{
rig_offline_ = false;
update_rx_frequency (rig_->GetRxFrequency ());
update_complete ();
TRACE_CAT ("OmniRigTransceiver", "OmniRig frequency:" << state ().frequency ());
}
}
}
void OmniRigTransceiver::timeout_check ()
{
if (rig_offline_)
{
offline ("Rig went offline");
}
}
void OmniRigTransceiver::handle_params_change (int rig_number, int params)
{
if (rig_number_ == rig_number)
{
TRACE_CAT ("OmniRigTransceiver", QString {"OmniRig params change: params = 0x%1 for rig %2"}
.arg (params, 8, 16, QChar ('0'))
.arg (rig_number).toLocal8Bit ()
<< "state before:" << state ());
// starting_ = false;
TransceiverState old_state {state ()};
auto need_frequency = false;
// state_.online = true; // sometimes we don't get an initial
// // OmniRig::ST_ONLINE status change
// // event
if (params & OmniRig::PM_VFOAA)
{
update_split (false);
reversed_ = false;
update_rx_frequency (rig_->FreqA ());
update_other_frequency (rig_->FreqB ());
}
if (params & OmniRig::PM_VFOAB)
{
update_split (true);
reversed_ = false;
update_rx_frequency (rig_->FreqA ());
update_other_frequency (rig_->FreqB ());
}
if (params & OmniRig::PM_VFOBA)
{
update_split (true);
reversed_ = true;
update_other_frequency (rig_->FreqA ());
update_rx_frequency (rig_->FreqB ());
}
if (params & OmniRig::PM_VFOBB)
{
update_split (false);
reversed_ = true;
update_other_frequency (rig_->FreqA ());
update_rx_frequency (rig_->FreqB ());
}
if (params & OmniRig::PM_VFOA)
{
reversed_ = false;
need_frequency = true;
}
if (params & OmniRig::PM_VFOB)
{
reversed_ = true;
need_frequency = true;
}
if (params & OmniRig::PM_FREQ)
{
need_frequency = true;
}
if (params & OmniRig::PM_FREQA)
{
if (reversed_)
{
update_other_frequency (rig_->FreqA ());
}
else
{
update_rx_frequency (rig_->FreqA ());
}
}
if (params & OmniRig::PM_FREQB)
{
if (reversed_)
{
update_rx_frequency (rig_->FreqB ());
}
else
{
update_other_frequency (rig_->FreqB ());
}
}
if (need_frequency)
{
if (readable_params_ & OmniRig::PM_FREQA)
{
if (reversed_)
{
update_other_frequency (rig_->FreqA ());
}
else
{
update_rx_frequency (rig_->FreqA ());
}
need_frequency = false;
}
if (readable_params_ & OmniRig::PM_FREQB)
{
if (reversed_)
{
update_rx_frequency (rig_->FreqB ());
}
else
{
update_other_frequency (rig_->FreqB ());
}
need_frequency = false;
}
}
if (need_frequency && (readable_params_ & OmniRig::PM_FREQ)
&& !state ().ptt ())
{
update_rx_frequency (rig_->Freq ());
}
if (params & OmniRig::PM_PITCH)
{
}
if (params & OmniRig::PM_RITOFFSET)
{
}
if (params & OmniRig::PM_RIT0)
{
}
if (params & OmniRig::PM_VFOEQUAL)
{
auto f = readable_params_ & OmniRig::PM_FREQA ? rig_->FreqA () : rig_->Freq ();
update_rx_frequency (f);
update_other_frequency (f);
update_mode (map_mode (rig_->Mode ()));
}
if (params & OmniRig::PM_VFOSWAP)
{
auto temp = state ().tx_frequency ();
update_other_frequency (state ().frequency ());
update_rx_frequency (temp);
update_mode (map_mode (rig_->Mode ()));
}
if (params & OmniRig::PM_SPLITON)
{
update_split (true);
}
if (params & OmniRig::PM_SPLITOFF)
{
update_split (false);
}
if (params & OmniRig::PM_RITON)
{
}
if (params & OmniRig::PM_RITOFF)
{
}
if (params & OmniRig::PM_XITON)
{
}
if (params & OmniRig::PM_XITOFF)
{
}
if (params & OmniRig::PM_RX)
{
update_PTT (false);
}
if (params & OmniRig::PM_TX)
{
update_PTT ();
}
if (params & OmniRig::PM_CW_U)
{
update_mode (CW_R);
}
if (params & OmniRig::PM_CW_L)
{
update_mode (CW);
}
if (params & OmniRig::PM_SSB_U)
{
update_mode (USB);
}
if (params & OmniRig::PM_SSB_L)
{
update_mode (LSB);
}
if (params & OmniRig::PM_DIG_U)
{
update_mode (DIG_U);
}
if (params & OmniRig::PM_DIG_L)
{
update_mode (DIG_L);
}
if (params & OmniRig::PM_AM)
{
update_mode (AM);
}
if (params & OmniRig::PM_FM)
{
update_mode (FM);
}
if (old_state != state () || send_update_signal_)
{
update_complete ();
send_update_signal_ = false;
}
TRACE_CAT ("OmniRigTransceiver", "OmniRig params change: state after:" << state ());
}
}
void OmniRigTransceiver::handle_custom_reply (int rig_number, QVariant const& command, QVariant const& reply)
{
(void)command;
(void)reply;
if (rig_number_ == rig_number)
{
TRACE_CAT ("OmniRigTransceiver", "custom command" << command.toString ().toLocal8Bit ()
<< "with reply" << reply.toString ().toLocal8Bit ()
<< QString ("for rig %1").arg (rig_number).toLocal8Bit ());
TRACE_CAT ("OmniRigTransceiver", "rig number:" << rig_number_ << ':' << state ());
}
}
void OmniRigTransceiver::do_ptt (bool on)
{
TRACE_CAT ("OmniRigTransceiver", on << state ());
if (use_for_ptt_ && TransceiverFactory::PTT_method_CAT == ptt_type_)
{
TRACE_CAT ("OmniRigTransceiver", "set PTT");
rig_->SetTx (on ? OmniRig::PM_TX : OmniRig::PM_RX);
}
else
{
if (port_)
{
if (TransceiverFactory::PTT_method_RTS == ptt_type_)
{
TRACE_CAT ("OmniRigTransceiver", "set RTS");
port_->SetRts (on);
}
else // "DTR"
{
TRACE_CAT ("OmniRigTransceiver", "set DTR");
port_->SetDtr (on);
}
}
else
{
TRACE_CAT ("OmniRigTransceiver", "set PTT using basic transceiver");
Q_ASSERT (wrapped_);
TransceiverState new_state {wrapped_->state ()};
new_state.ptt (on);
wrapped_->set (new_state, 0);
}
}
update_PTT (on);
}
void OmniRigTransceiver::do_frequency (Frequency f, MODE m, bool /*no_ignore*/)
{
TRACE_CAT ("OmniRigTransceiver", f << state ());
if (UNK != m)
{
do_mode (m);
}
if (OmniRig::PM_FREQ & writable_params_)
{
rig_->SetFreq (f);
update_rx_frequency (f);
}
else if (reversed_ && (OmniRig::PM_FREQB & writable_params_))
{
rig_->SetFreqB (f);
update_rx_frequency (f);
}
else if (!reversed_ && (OmniRig::PM_FREQA & writable_params_))
{
rig_->SetFreqA (f);
update_rx_frequency (f);
}
else
{
throw_qstring (tr ("OmniRig: don't know how to set rig frequency"));
}
}
void OmniRigTransceiver::do_tx_frequency (Frequency tx, MODE m, bool /*no_ignore*/)
{
TRACE_CAT ("OmniRigTransceiver", tx << state ());
bool split {tx != 0};
if (split)
{
if (UNK != m)
{
do_mode (m);
if (OmniRig::PM_UNKNOWN == rig_->Vfo ())
{
if (writable_params_ & OmniRig::PM_VFOEQUAL)
{
// nothing to do here because OmniRig will use VFO
// equalize to set the mode of the Tx VFO for us
}
else if ((writable_params_ & (OmniRig::PM_VFOA | OmniRig::PM_VFOB))
== (OmniRig::PM_VFOA | OmniRig::PM_VFOB))
{
rig_->SetVfo (OmniRig::PM_VFOB);
do_mode (m);
rig_->SetVfo (OmniRig::PM_VFOA);
}
else if (writable_params_ & OmniRig::PM_VFOSWAP)
{
rig_->SetVfo (OmniRig::PM_VFOSWAP);
do_mode (m);
rig_->SetVfo (OmniRig::PM_VFOSWAP);
}
}
}
TRACE_CAT ("OmniRigTransceiver", "set SPLIT mode on");
rig_->SetSplitMode (state ().frequency (), tx);
update_other_frequency (tx);
update_split (true);
}
else
{
TRACE_CAT ("OmniRigTransceiver", "set SPLIT mode off");
rig_->SetSimplexMode (state ().frequency ());
update_split (false);
}
bool notify {false};
if (readable_params_ & OmniRig::PM_FREQ || !(readable_params_ & (OmniRig::PM_FREQA | OmniRig::PM_FREQB)))
{
update_other_frequency (tx); // async updates won't return this
// so just store it and hope
// operator doesn't change the
// "back" VFO on rig
notify = true;
}
if (!((OmniRig::PM_VFOAB | OmniRig::PM_VFOBA | OmniRig::PM_SPLITON) & readable_params_))
{
TRACE_CAT ("OmniRigTransceiver", "setting SPLIT manually");
update_split (split); // we can't read it so just set and
// hope op doesn't change it
notify = true;
}
if (notify)
{
update_complete ();
}
}
void OmniRigTransceiver::do_mode (MODE mode)
{
TRACE_CAT ("OmniRigTransceiver", mode << state ());
// TODO: G4WJS OmniRig doesn't seem to have any capability of tracking/setting VFO B mode
auto mapped = map_mode (mode);
if (mapped & writable_params_)
{
rig_->SetMode (mapped);
update_mode (mode);
}
else
{
offline ("OmniRig invalid mode");
}
}