File: OmniRigTransceiver.cpp

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#include "OmniRigTransceiver.h"

#include <QDebug>
#include <QThread>
#include <QTimer>
#include <objbase.h>

#include "JS8_Main/qt_helpers.h"

#include "moc_OmniRigTransceiver.cpp"

namespace {
auto constexpr OmniRig_transceiver_one_name = "OmniRig Rig 1";
auto constexpr OmniRig_transceiver_two_name = "OmniRig Rig 2";
} // namespace

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}, 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());

    offline_timer_.reset(new QTimer);
    offline_timer_->setSingleShot(true);
    offline_timer_->setInterval(5 * 1000);
    connect(&*offline_timer_, &QTimer::timeout, this,
            &OmniRigTransceiver::timeout_check);

    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);
            return resolution;
        }
    }
    throw_qstring(tr("OmniRig: Initialization timed out"));
    return 0; // keep compiler happy
}

void OmniRigTransceiver::do_stop() {
    if (offline_timer_) {
        offline_timer_->stop();
        offline_timer_.reset();
    }

    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 (!offline_timer_->isActive()) {
                offline_timer_->start(); // give OmniRig time to recover
            }
        } else {
            offline_timer_->stop();
            update_rx_frequency(rig_->GetRxFrequency());
            update_complete();
            TRACE_CAT("OmniRigTransceiver",
                      "OmniRig frequency:" << state().frequency());
        }
    }
}

void OmniRigTransceiver::timeout_check() { 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");
    }
}