WSJT-X/HRDTransceiver.cpp
Bill Somerville 4300b45e6a Set split mode before and after setting Tx frequency
Also cleaned up duplicate trace output.

Using the  DX Lab  Suite Commander  CAT interface  with rigs  like the
TS-2000  requires  that  split  mode  be set  after  changing  the  Tx
frequency. This  is because  setting teh  Tx frequency  disables split
mode.

With some Icom rigs  the rig must be in split  mode before setting the
Tx frequency otherwise the Tx frequency change will not be honoured.

To fix  this the sequence set-split,  set-tx-frequency, set-split must
always be used to change the Tx frequency.

Support for new DX Lab Suite Commander TCP/IP commands

Dave AA6YQ has added two new commands to the Commander server to allow
more reliable control.

Requires DX Lab Suite Commander 11.1.4 or later.

Ensure split Tx frequency agrees with UI before transmitting

Ensure split works on Yaesu via Hamlib without breaking others

Also improved class HamlibTransceiver debug trace messages.

Merged r4776-r4779 from wsjtx-1.4 branch.



git-svn-id: svn+ssh://svn.code.sf.net/p/wsjt/wsjt/branches/wsjtx@4780 ab8295b8-cf94-4d9e-aec4-7959e3be5d79
2014-12-06 20:23:29 +00:00

1074 lines
34 KiB
C++

#include "HRDTransceiver.hpp"
#include <QHostAddress>
#include <QByteArray>
#include <QRegExp>
#include <QTcpSocket>
#include <QThread>
#include <QStandardPaths>
#include <QDir>
#include "NetworkServerLookup.hpp"
namespace
{
char const * const HRD_transceiver_name = "Ham Radio Deluxe";
}
void HRDTransceiver::register_transceivers (TransceiverFactory::Transceivers * registry, int id)
{
(*registry)[HRD_transceiver_name] = TransceiverFactory::Capabilities (id, TransceiverFactory::Capabilities::network, "localhost:7809", true);
}
struct HRDMessage
{
// Placement style new overload for outgoing messages that does the
// construction too.
static void * operator new (size_t size, QString const& payload)
{
size += sizeof (QChar) * (payload.size () + 1); // space for terminator too
HRDMessage * storage (reinterpret_cast<HRDMessage *> (new char[size]));
storage->size_ = size ;
ushort const * pl (payload.utf16 ());
qCopy (pl, pl + payload.size () + 1, storage->payload_); // copy terminator too
storage->magic_1_ = magic_1_value_;
storage->magic_2_ = magic_2_value_;
storage->checksum_ = 0;
return storage;
}
// Placement style new overload for incoming messages that does the
// construction too.
//
// No memory allocation here.
static void * operator new (size_t /* size */, QByteArray const& message)
{
// Nasty const_cast here to avoid copying the message buffer.
return const_cast<HRDMessage *> (reinterpret_cast<HRDMessage const *> (message.data ()));
}
void operator delete (void * p, size_t)
{
delete [] reinterpret_cast<char *> (p); // Mirror allocation in operator new above.
}
qint32 size_;
qint32 magic_1_;
qint32 magic_2_;
qint32 checksum_; // Apparently not used.
QChar payload_[0]; // UTF-16 (which is wchar_t on Windows)
static qint32 const magic_1_value_;
static qint32 const magic_2_value_;
};
qint32 const HRDMessage::magic_1_value_ (0x1234ABCD);
qint32 const HRDMessage::magic_2_value_ (0xABCD1234);
HRDTransceiver::HRDTransceiver (std::unique_ptr<TransceiverBase> wrapped
, QString const& server
, bool use_for_ptt
, int poll_interval)
: PollingTransceiver {poll_interval}
, wrapped_ {std::move (wrapped)}
, use_for_ptt_ {use_for_ptt}
, server_ {server}
, hrd_ {0}
, protocol_ {none}
, current_radio_ {0}
, vfo_count_ {0}
, vfo_A_button_ {-1}
, vfo_B_button_ {-1}
, vfo_toggle_button_ {-1}
, mode_A_dropdown_ {-1}
, mode_B_dropdown_ {-1}
, split_mode_button_ {-1}
, split_mode_dropdown_ {-1}
, split_mode_dropdown_write_only_ {false}
, split_mode_dropdown_selection_on_ {-1}
, split_mode_dropdown_selection_off_ {-1}
, split_off_button_ {-1}
, tx_A_button_ {-1}
, tx_B_button_ {-1}
, rx_A_button_ {-1}
, rx_B_button_ {-1}
, receiver_dropdown_ {-1}
, ptt_button_ {-1}
, reversed_ {false}
{
}
HRDTransceiver::~HRDTransceiver ()
{
}
void HRDTransceiver::do_start ()
{
#if WSJT_TRACE_CAT
qDebug () << "HRDTransceiver::start";
#endif
wrapped_->start ();
auto server_details = network_server_lookup (server_, 7809u);
if (!hrd_)
{
hrd_ = new QTcpSocket {this}; // QObject takes ownership
}
hrd_->connectToHost (std::get<0> (server_details), std::get<1> (server_details));
if (!hrd_->waitForConnected ())
{
#if WSJT_TRACE_CAT
qDebug () << "HRDTransceiver::start failed to connect:" << hrd_->errorString ();
#endif
throw error {tr ("Failed to connect to Ham Radio Deluxe\n") + hrd_->errorString ()};
}
if (none == protocol_)
{
try
{
protocol_ = v5; // try this first (works for v6 too)
send_command ("get context", false, false);
}
catch (error const&)
{
protocol_ = none;
}
}
if (none == protocol_)
{
hrd_->close ();
protocol_ = v4; // try again with older protocol
hrd_->connectToHost (std::get<0> (server_details), std::get<1> (server_details));
if (!hrd_->waitForConnected ())
{
#if WSJT_TRACE_CAT
qDebug () << "HRDTransceiver::do_start failed to connect:" << hrd_->errorString ();
#endif
throw error {tr ("Failed to connect to Ham Radio Deluxe\n") + hrd_->errorString ()};
}
send_command ("get context", false, false);
}
QFile HRD_info_file {QDir {QStandardPaths::writableLocation (QStandardPaths::DataLocation)}.absoluteFilePath ("HRD Interface Information.txt")};
if (!HRD_info_file.open (QFile::WriteOnly | QFile::Text | QFile::Truncate))
{
throw error {tr ("Failed to open file \"%1\".").arg (HRD_info_file.fileName ())};
}
QTextStream HRD_info {&HRD_info_file};
auto id = send_command ("get id", false, false);
auto version = send_command ("get version", false, false);
#if WSJT_TRACE_CAT
qDebug () << "Id:" << id;
qDebug () << "Version:" << version;
#endif
HRD_info << "Id: " << id << "\n";
HRD_info << "Version: " << version << "\n";
auto radios = send_command ("get radios", false, false).trimmed ().split (',', QString::SkipEmptyParts);
if (radios.isEmpty ())
{
#if WSJT_TRACE_CAT
qDebug () << "HRDTransceiver::do_start no rig found";
#endif
throw error {tr ("Ham Radio Deluxe: no rig found")};
}
HRD_info << "Radios:\n";
Q_FOREACH (auto const& radio, radios)
{
HRD_info << "\t" << radio << "\n";
auto entries = radio.trimmed ().split (':', QString::SkipEmptyParts);
radios_.push_back (std::forward_as_tuple (entries[0].toUInt (), entries[1]));
}
#if WSJT_TRACE_CAT
qDebug () << "radios:";
Q_FOREACH (auto const& radio, radios_)
{
qDebug () << "\t[" << std::get<0> (radio) << "] " << std::get<1> (radio);
}
#endif
auto current_radio_name = send_command ("get radio", false, false, true);
HRD_info << "Current radio: " << current_radio_name << "\n";
if (current_radio_name.isEmpty ())
{
#if WSJT_TRACE_CAT
qDebug () << "HRDTransceiver::do_start no rig found";
#endif
throw error {tr ("Ham Radio Deluxe: no rig found")};
}
vfo_count_ = send_command ("get vfo-count").toUInt ();
HRD_info << "VFO count: " << vfo_count_ << "\n";
#if WSJT_TRACE_CAT
qDebug () << "vfo count:" << vfo_count_;
#endif
buttons_ = send_command ("get buttons").trimmed ().split (',', QString::SkipEmptyParts).replaceInStrings (" ", "~");
#if WSJT_TRACE_CAT
qDebug () << "HRD Buttons: " << buttons_;
#endif
HRD_info << "Buttons: {" << buttons_.join (", ") << "}\n";
dropdown_names_ = send_command ("get dropdowns").trimmed ().split (',', QString::SkipEmptyParts);
#if WSJT_TRACE_CAT
qDebug () << "Dropdowns:\n";
#endif
HRD_info << "Dropdowns:\n";
Q_FOREACH (auto const& dd, dropdown_names_)
{
auto selections = send_command ("get dropdown-list {" + dd + "}").trimmed ().split (',', QString::SkipEmptyParts);
#if WSJT_TRACE_CAT
qDebug () << "\t" << dd << ": {" << selections.join (", ") << "}\n";
#endif
HRD_info << "\t" << dd << ": {" << selections.join (", ") << "}\n";
dropdowns_[dd] = selections;
}
slider_names_ = send_command ("get sliders").trimmed ().split (',', QString::SkipEmptyParts).replaceInStrings (" ", "~");
#if WSJT_TRACE_CAT
qDebug () << "Sliders:\n";
#endif
HRD_info << "Sliders:\n";
Q_FOREACH (auto const& s, slider_names_)
{
auto range = send_command ("get slider-range " + current_radio_name + " " + s).trimmed ().split (',', QString::SkipEmptyParts);
#if WSJT_TRACE_CAT
qDebug () << "\t" << s << ": {" << range.join (", ") << "}\n";
#endif
HRD_info << "\t" << s << ": {" << range.join (", ") << "}\n";
sliders_[s] = range;
}
// set RX VFO
rx_A_button_ = find_button (QRegExp ("^(RX~A)$"));
rx_B_button_ = find_button (QRegExp ("^(RX~B)$"));
// select VFO (sometime set as well)
vfo_A_button_ = find_button (QRegExp ("^(VFO~A|Main)$"));
vfo_B_button_ = find_button (QRegExp ("^(VFO~B|Sub)$"));
vfo_toggle_button_ = find_button (QRegExp ("^(A~/~B)$"));
split_mode_button_ = find_button (QRegExp ("^(Spl~On|Spl_On|Split)$"));
split_off_button_ = find_button (QRegExp ("^(Spl~Off|Spl_Off)$"));
if ((split_mode_dropdown_ = find_dropdown (QRegExp ("^(Split)$"))) >= 0)
{
split_mode_dropdown_selection_on_ = find_dropdown_selection (split_mode_dropdown_, QRegExp ("^(On)$"));
split_mode_dropdown_selection_off_ = find_dropdown_selection (split_mode_dropdown_, QRegExp ("^(Off)$"));
}
else if ((receiver_dropdown_ = find_dropdown (QRegExp ("^Receiver$"))) >= 0)
{
rx_A_selection_ = find_dropdown_selection (receiver_dropdown_, QRegExp ("^(RX / Off)$"));
rx_B_selection_ = find_dropdown_selection (receiver_dropdown_, QRegExp ("^(Mute / RX)$"));
}
tx_A_button_ = find_button (QRegExp ("^(TX~main|TX~-~A|TX~A)$"));
tx_B_button_ = find_button (QRegExp ("^(TX~sub|TX~-~B|TX~B)$"));
if ((mode_A_dropdown_ = find_dropdown (QRegExp ("^(Main Mode|Mode|Mode A)$"))) >= 0)
{
map_modes (mode_A_dropdown_, &mode_A_map_);
}
else
{
Q_ASSERT (mode_A_dropdown_ <= 0);
}
if ((mode_B_dropdown_ = find_dropdown (QRegExp ("^(Sub Mode|Mode B)$"))) >= 0)
{
map_modes (mode_B_dropdown_, &mode_B_map_);
}
ptt_button_ = find_button (QRegExp ("^(TX)$"));
if (vfo_count_ == 1 && ((vfo_B_button_ >= 0 && vfo_A_button_ >= 0) || vfo_toggle_button_ >= 0))
{
// put the rig into a known state for tricky cases like Icoms
auto f = send_command ("get frequency").toUInt ();
auto m = lookup_mode (get_dropdown (mode_A_dropdown_), mode_A_map_);
set_button (vfo_B_button_ >= 0 ? vfo_B_button_ : vfo_toggle_button_);
auto fo = send_command ("get frequency").toUInt ();
update_other_frequency (fo);
auto mo = lookup_mode (get_dropdown (mode_A_dropdown_), mode_A_map_);
set_button (vfo_A_button_ >= 0 ? vfo_A_button_ : vfo_toggle_button_);
if (f != fo || m != mo)
{
// we must have started with A/MAIN
update_rx_frequency (f);
update_mode (m);
}
else
{
update_rx_frequency (send_command ("get frequency").toUInt ());
update_mode (lookup_mode (get_dropdown (mode_A_dropdown_), mode_A_map_));
}
}
}
void HRDTransceiver::do_stop ()
{
if (hrd_)
{
hrd_->close ();
}
if (wrapped_)
{
wrapped_->stop ();
}
#if WSJT_TRACE_CAT
qDebug () << "HRDTransceiver::stop: state:" << state () << "reversed =" << reversed_;
#endif
}
int HRDTransceiver::find_button (QRegExp const& re) const
{
return buttons_.indexOf (re);
}
int HRDTransceiver::find_dropdown (QRegExp const& re) const
{
return dropdown_names_.indexOf (re);
}
std::vector<int> HRDTransceiver::find_dropdown_selection (int dropdown, QRegExp const& re) const
{
std::vector<int> indices;
auto list = dropdowns_.value (dropdown_names_.value (dropdown));
int index {0};
while (-1 != (index = list.lastIndexOf (re, index - 1)))
{
// search backwards because more specialized modes tend to be later in
// list
indices.push_back (index);
if (!index)
{
break;
}
}
return indices;
}
void HRDTransceiver::map_modes (int dropdown, ModeMap *map)
{
// order matters here (both in the map and in the regexps)
map->push_back (std::forward_as_tuple (CW, find_dropdown_selection (dropdown, QRegExp ("^(CW|CW\\(N\\))|CWL$"))));
map->push_back (std::forward_as_tuple (CW_R, find_dropdown_selection (dropdown, QRegExp ("^(CW-R|CW|CWU)$"))));
map->push_back (std::forward_as_tuple (LSB, find_dropdown_selection (dropdown, QRegExp ("^(LSB)$"))));
map->push_back (std::forward_as_tuple (USB, find_dropdown_selection (dropdown, QRegExp ("^(USB)$"))));
map->push_back (std::forward_as_tuple (DIG_U, find_dropdown_selection (dropdown, QRegExp ("^(DIG|DIGU|DATA-U|PKT-U|USER-U|USB)$"))));
map->push_back (std::forward_as_tuple (DIG_L, find_dropdown_selection (dropdown, QRegExp ("^(DIG|DIGL|DATA-L|PKT-L|USER-L|LSB)$"))));
map->push_back (std::forward_as_tuple (FSK, find_dropdown_selection (dropdown, QRegExp ("^(DIG|FSK|RTTY|RTTY-LSB)$"))));
map->push_back (std::forward_as_tuple (FSK_R, find_dropdown_selection (dropdown, QRegExp ("^(DIG|FSK-R|RTTY-R|RTTY|RTTY-USB)$"))));
map->push_back (std::forward_as_tuple (AM, find_dropdown_selection (dropdown, QRegExp ("^(AM|DSB|SAM|DRM)$"))));
map->push_back (std::forward_as_tuple (FM, find_dropdown_selection (dropdown, QRegExp ("^(FM|FM\\(N\\)|FM-N|WFM)$"))));
map->push_back (std::forward_as_tuple (DIG_FM, find_dropdown_selection (dropdown, QRegExp ("^(PKT-FM|PKT|FM)$"))));
#if WSJT_TRACE_CAT
qDebug () << "HRDTransceiver::map_modes: for dropdown" << dropdown_names_[dropdown];
std::for_each (map->begin (), map->end (), [this, dropdown] (ModeMap::value_type const& item)
{
auto const& rhs = std::get<1> (item);
qDebug () << '\t' << std::get<0> (item) << "<->" << (rhs.size () ? dropdowns_[dropdown_names_[dropdown]][rhs.front ()] : "None");
});
#endif
}
int HRDTransceiver::lookup_mode (MODE mode, ModeMap const& map) const
{
auto it = std::find_if (map.begin (), map.end (), [mode] (ModeMap::value_type const& item) {return std::get<0> (item) == mode;});
if (map.end () == it)
{
throw error {tr ("Ham Radio Deluxe: rig doesn't support mode")};
}
return std::get<1> (*it).front ();
}
auto HRDTransceiver::lookup_mode (int mode, ModeMap const& map) const -> MODE
{
if (mode < 0)
{
return UNK; // no mode dropdown
}
auto it = std::find_if (map.begin (), map.end (), [mode] (ModeMap::value_type const& item)
{
auto const& indices = std::get<1> (item);
return indices.cend () != std::find (indices.cbegin (), indices.cend (), mode);
});
if (map.end () == it)
{
throw error {tr ("Ham Radio Deluxe: sent an unrecognised mode")};
}
return std::get<0> (*it);
}
int HRDTransceiver::get_dropdown (int dd, bool no_debug)
{
if (dd < 0)
{
return -1; // no dropdown to interrogate
}
auto dd_name = dropdown_names_.value (dd);
auto reply = send_command ("get dropdown-text {" + dd_name + "}", no_debug);
auto colon_index = reply.indexOf (':');
if (colon_index < 0)
{
return -1;
}
Q_ASSERT (reply.left (colon_index).trimmed () == dd_name);
return dropdowns_.value (dropdown_names_.value (dd)).indexOf (reply.mid (colon_index + 1).trimmed ());
}
void HRDTransceiver::set_dropdown (int dd, int value)
{
auto dd_name = dropdown_names_.value (dd);
if (value >= 0)
{
send_simple_command ("set dropdown " + dd_name.replace (' ', '~') + ' ' + dropdowns_.value (dd_name).value (value).replace (' ', '~') + ' ' + QString::number (value));
}
else
{
#if WSJT_TRACE_CAT
qDebug () << "HRDTransceiver::set_dropdown item" << value << "not found in" << dd_name;
#endif
throw error {tr ("Ham Radio Deluxe: item not found in %1 dropdown list").arg (dd_name)};
}
}
void HRDTransceiver::do_ptt (bool on)
{
#if WSJT_TRACE_CAT
qDebug () << "HRDTransceiver::do_ptt:" << on;
#endif
if (use_for_ptt_)
{
if (ptt_button_ >= 0)
{
set_button (ptt_button_, on);
}
// else
// allow for pathological HRD rig interfaces that don't do
// PTT by simply not even trying
}
else
{
wrapped_->ptt (on);
}
update_PTT (on);
}
void HRDTransceiver::set_button (int button_index, bool checked)
{
if (button_index >= 0)
{
send_simple_command ("set button-select " + buttons_.value (button_index) + (checked ? " 1" : " 0"));
}
else
{
#if WSJT_TRACE_CAT
qDebug () << "HRDTransceiver::set_button invalid button";
#endif
throw error {tr ("Ham Radio Deluxe: button not available")};
}
}
void HRDTransceiver::do_frequency (Frequency f, MODE m)
{
#if WSJT_TRACE_CAT
qDebug () << "HRDTransceiver::do_frequency:" << f << "reversed:" << reversed_;
#endif
if (UNK != m)
{
do_mode (m, false);
}
auto fo_string = QString::number (f);
if (vfo_count_ > 1 && reversed_)
{
auto frequencies = send_command ("get frequencies").trimmed ().split ('-', QString::SkipEmptyParts);
send_simple_command ("set frequencies-hz " + QString::number (frequencies[0].toUInt ()) + ' ' + fo_string);
}
else
{
send_simple_command ("set frequency-hz " + QString::number (f));
}
update_rx_frequency (f);
}
void HRDTransceiver::do_tx_frequency (Frequency tx, bool rationalise_mode)
{
#if WSJT_TRACE_CAT
qDebug () << "HRDTransceiver::do_tx_frequency:" << tx << "rationalize mode:" << rationalise_mode << "reversed:" << reversed_;
#endif
// re-check if reversed VFOs
bool rx_A {true};
bool rx_B {false};
if (receiver_dropdown_ >= 0)
{
auto selection = get_dropdown (receiver_dropdown_);
rx_A = selection == rx_A_selection_.front ();
if (!rx_A)
{
rx_B = selection == rx_B_selection_.front ();
}
}
else if (vfo_B_button_ >= 0 || rx_B_button_ >= 0)
{
rx_A = is_button_checked (rx_A_button_ >= 0 ? rx_A_button_ : vfo_A_button_);
if (!rx_A)
{
rx_B = is_button_checked (rx_B_button_ >= 0 ? rx_B_button_ : vfo_B_button_);
}
}
reversed_ = rx_B;
bool split {tx != 0};
if (split)
{
if (rationalise_mode)
{
if (!reversed_ && mode_B_dropdown_ >= 0)
{
set_dropdown (mode_B_dropdown_, lookup_mode (state ().mode (), mode_B_map_));
}
else if (reversed_ && mode_B_dropdown_ >= 0)
{
set_dropdown (mode_A_dropdown_, lookup_mode (state ().mode (), mode_A_map_));
}
else
{
Q_ASSERT (mode_A_dropdown_ >= 0 && ((vfo_A_button_ >=0 && vfo_B_button_ >=0) || vfo_toggle_button_ >= 0));
if (rx_B_button_ >= 0)
{
set_button (reversed_ ? rx_A_button_ : rx_B_button_);
set_dropdown (mode_A_dropdown_, lookup_mode (state ().mode (), mode_A_map_));
set_button (reversed_ ? rx_B_button_ : rx_A_button_);
}
else if (receiver_dropdown_ >= 0)
{
set_dropdown (receiver_dropdown_, (reversed_ ? rx_A_selection_ : rx_B_selection_).front ());
set_dropdown (mode_A_dropdown_, lookup_mode (state ().mode (), mode_A_map_));
set_dropdown (receiver_dropdown_, (reversed_ ? rx_B_selection_ : rx_A_selection_).front ());
}
else
{
set_button (vfo_A_button_ >= 0 ? (reversed_ ? vfo_A_button_ : vfo_B_button_) : vfo_toggle_button_);
set_dropdown (mode_A_dropdown_, lookup_mode (state ().mode (), mode_A_map_));
set_button (vfo_A_button_ >= 0 ? (reversed_ ? vfo_B_button_ : vfo_A_button_) : vfo_toggle_button_);
}
}
}
auto fo_string = QString::number (tx);
if (reversed_)
{
Q_ASSERT (vfo_count_ > 1);
auto frequencies = send_command ("get frequencies").trimmed ().split ('-', QString::SkipEmptyParts);
send_simple_command ("set frequencies-hz " + fo_string + ' ' + QString::number (frequencies[1].toUInt ()));
}
else
{
if (vfo_count_ > 1)
{
auto frequencies = send_command ("get frequencies").trimmed ().split ('-', QString::SkipEmptyParts);
send_simple_command ("set frequencies-hz " + QString::number (frequencies[0].toUInt ()) + ' ' + fo_string);
}
else if ((vfo_B_button_ >= 0 && vfo_A_button_ >= 0) || vfo_toggle_button_ >= 0)
{
// we rationalise the modes here as well as the frequencies
set_button (vfo_B_button_ >= 0 ? vfo_B_button_ : vfo_toggle_button_);
send_simple_command ("set frequency-hz " + fo_string);
if (rationalise_mode && mode_B_dropdown_ < 0)
{
// do this here rather than later so we only
// toggle/switch VFOs once
set_dropdown (mode_A_dropdown_, lookup_mode (state ().mode (), mode_A_map_));
rationalise_mode = false;
}
set_button (vfo_A_button_ >= 0 ? vfo_A_button_ : vfo_toggle_button_);
}
}
}
update_other_frequency (tx);
if (split_mode_button_ >= 0)
{
if (split_off_button_ >= 0 && !split)
{
set_button (split_off_button_);
}
else
{
set_button (split_mode_button_, split);
}
}
else if (split_mode_dropdown_ >= 0)
{
set_dropdown (split_mode_dropdown_, split ? split_mode_dropdown_selection_on_.front () : split_mode_dropdown_selection_off_.front ());
}
else if (vfo_A_button_ >= 0 && vfo_B_button_ >= 0 && tx_A_button_ >= 0 && tx_B_button_ >= 0)
{
if (split)
{
if (reversed_ != is_button_checked (tx_A_button_))
{
if (rx_A_button_ >= 0 && rx_B_button_ >= 0)
{
set_button (reversed_ ? rx_B_button_ : rx_A_button_);
}
else if (receiver_dropdown_ >= 0)
{
set_dropdown (receiver_dropdown_, (reversed_ ? rx_B_selection_ : rx_A_selection_).front ());
}
else
{
set_button (reversed_ ? vfo_B_button_ : vfo_A_button_);
}
set_button (reversed_ ? tx_A_button_ : tx_B_button_);
}
}
else
{
if (reversed_ != is_button_checked (tx_B_button_))
{
if (rx_A_button_ >= 0 && rx_B_button_ >= 0)
{
set_button (reversed_ ? rx_B_button_ : rx_A_button_);
}
else if (receiver_dropdown_ >= 0)
{
set_dropdown (receiver_dropdown_, (reversed_ ? rx_B_selection_ : rx_A_selection_).front ());
}
else
{
set_button (reversed_ ? vfo_B_button_ : vfo_A_button_);
}
set_button (reversed_ ? tx_B_button_ : tx_A_button_);
}
}
}
update_split (split);
}
void HRDTransceiver::do_mode (MODE mode, bool rationalise)
{
#if WSJT_TRACE_CAT
qDebug () << "HRDTransceiver::do_mode:" << mode;
#endif
if (reversed_ && mode_B_dropdown_ >= 0)
{
set_dropdown (mode_B_dropdown_, lookup_mode (mode, mode_B_map_));
}
else
{
set_dropdown (mode_A_dropdown_, lookup_mode (mode, mode_A_map_));
}
if (rationalise && state ().split ()) // rationalise mode if split
{
if (reversed_)
{
if (mode_B_dropdown_ >= 0)
{
set_dropdown (mode_A_dropdown_, lookup_mode (mode, mode_A_map_));
}
else
{
Q_ASSERT ((vfo_B_button_ >= 0 && vfo_A_button_ >= 0) || vfo_toggle_button_ >= 0);
if (rx_B_button_ >= 0)
{
set_button (rx_A_button_);
set_dropdown (mode_A_dropdown_, lookup_mode (mode, mode_A_map_));
set_button (rx_B_button_);
}
else if (receiver_dropdown_ >= 0)
{
set_dropdown (receiver_dropdown_, rx_A_selection_.front ());
set_dropdown (mode_A_dropdown_, lookup_mode (mode, mode_A_map_));
set_dropdown (receiver_dropdown_, rx_B_selection_.front ());
}
else
{
set_button (vfo_A_button_ >= 0 ? vfo_A_button_ : vfo_toggle_button_);
set_dropdown (mode_A_dropdown_, lookup_mode (mode, mode_A_map_));
set_button (vfo_B_button_ >= 0 ? vfo_B_button_ : vfo_toggle_button_);
}
if ( tx_A_button_ >= 0)
{
set_button (tx_A_button_);
}
}
}
else
{
if (mode_B_dropdown_ >= 0)
{
set_dropdown (mode_B_dropdown_, lookup_mode (mode, mode_B_map_));
}
else
{
Q_ASSERT ((vfo_B_button_ >= 0 && vfo_A_button_ >= 0) || vfo_toggle_button_ >= 0);
if (rx_B_button_ >= 0)
{
set_button (rx_B_button_);
set_dropdown (mode_A_dropdown_, lookup_mode (mode, mode_A_map_));
set_button (rx_A_button_);
}
else if (receiver_dropdown_ >= 0)
{
set_dropdown (receiver_dropdown_, rx_B_selection_.front ());
set_dropdown (mode_A_dropdown_, lookup_mode (mode, mode_A_map_));
set_dropdown (receiver_dropdown_, rx_A_selection_.front ());
}
else
{
set_button (vfo_B_button_ >= 0 ? vfo_B_button_ : vfo_toggle_button_);
set_dropdown (mode_A_dropdown_, lookup_mode (mode, mode_A_map_));
set_button (vfo_A_button_ >= 0 ? vfo_A_button_ : vfo_toggle_button_);
}
if ( tx_B_button_ >= 0)
{
set_button (tx_B_button_);
}
}
}
}
update_mode (mode);
}
bool HRDTransceiver::is_button_checked (int button_index, bool no_debug)
{
if (button_index < 0)
{
return false;
}
auto reply = send_command ("get button-select " + buttons_.value (button_index), no_debug);
if ("1" != reply && "0" != reply)
{
#if WSJT_TRACE_CAT
qDebug () << "HRDTransceiver::is_button_checked bad response";
#endif
throw error {tr ("Ham Radio Deluxe didn't respond as expected")};
}
return "1" == reply;
}
void HRDTransceiver::poll ()
{
#if WSJT_TRACE_CAT && WSJT_TRACE_CAT_POLLS
bool quiet {false};
qDebug () << "+++++++ poll dump +++++++";
qDebug () << "reversed:" << reversed_;
is_button_checked (vfo_A_button_);
is_button_checked (vfo_B_button_);
is_button_checked (vfo_toggle_button_);
is_button_checked (split_mode_button_);
is_button_checked (split_off_button_);
is_button_checked (rx_A_button_);
is_button_checked (rx_B_button_);
get_dropdown (receiver_dropdown_);
is_button_checked (tx_A_button_);
is_button_checked (tx_B_button_);
is_button_checked (ptt_button_);
get_dropdown (mode_A_dropdown_);
get_dropdown (mode_B_dropdown_);
if (!split_mode_dropdown_write_only_)
{
get_dropdown (split_mode_dropdown_);
}
qDebug () << "------- poll dump -------";
#else
bool quiet {true};
#endif
if (split_off_button_ >= 0)
{
// we are probably dealing with an Icom and have to guess SPLIT mode :(
}
else if (split_mode_button_ >= 0)
{
update_split (is_button_checked (split_mode_button_, quiet));
}
else if (split_mode_dropdown_ >= 0)
{
if (!split_mode_dropdown_write_only_)
{
auto selection = get_dropdown (split_mode_dropdown_, quiet);
if (selection >= 0)
{
update_split (selection == split_mode_dropdown_selection_on_.front ());
}
else
{
// leave split alone as we can't query it - it should be
// correct so long as rig or HRD haven't been changed
split_mode_dropdown_write_only_ = true;
}
}
}
else if (vfo_A_button_ >= 0 && vfo_B_button_ >= 0 && tx_A_button_ >= 0 && tx_B_button_ >= 0)
{
bool rx_A {true}; // no Rx taken as not reversed
bool rx_B {false};
auto tx_A = is_button_checked (tx_A_button_, quiet);
// some rigs have dual Rx, we take VFO A/MAIN receiving as
// normal and only say reversed when only VFO B/SUB is active
// i.e. VFO A/MAIN muted VFO B/SUB active
if (receiver_dropdown_ >= 0)
{
auto selection = get_dropdown (receiver_dropdown_);
rx_A = selection == rx_A_selection_.front ();
if (!rx_A)
{
rx_B = selection == rx_B_selection_.front ();
}
}
else if (vfo_B_button_ >= 0 || rx_B_button_ >= 0)
{
rx_A = is_button_checked (rx_A_button_ >= 0 ? rx_A_button_ : vfo_A_button_, quiet);
if (!rx_A)
{
rx_B = is_button_checked (rx_B_button_ >= 0 ? rx_B_button_ : vfo_B_button_, quiet);
}
}
update_split (rx_B == tx_A);
reversed_ = rx_B;
}
if (vfo_count_ > 1)
{
auto frequencies = send_command ("get frequencies", quiet).trimmed ().split ('-', QString::SkipEmptyParts);
update_rx_frequency (frequencies[reversed_ ? 1 : 0].toUInt ());
update_other_frequency (frequencies[reversed_ ? 0 : 1].toUInt ());
}
else
{
update_rx_frequency (send_command ("get frequency", quiet).toUInt ());
}
update_mode (lookup_mode (get_dropdown (mode_A_dropdown_, quiet), mode_A_map_));
}
QString HRDTransceiver::send_command (QString const& cmd, bool no_debug, bool prepend_context, bool recurse)
{
Q_ASSERT (hrd_);
QString result;
if (current_radio_ && prepend_context && vfo_count_ < 2)
{
// required on some radios because commands don't get executed
// correctly otherwise (ICOM for example)
QThread::msleep (50);
}
if (!recurse && prepend_context)
{
auto radio_name = send_command ("get radio", true, current_radio_, true);
auto radio_iter = std::find_if (radios_.begin (), radios_.end (), [this, &radio_name] (RadioMap::value_type const& radio)
{
return std::get<1> (radio) == radio_name;
});
if (radio_iter == radios_.end ())
{
#if WSJT_TRACE_CAT
qDebug () << "HRDTransceiver::send_command rig disappeared or changed";
#endif
throw error {tr ("Ham Radio Deluxe: rig has disappeared or changed")};
}
if (0u == current_radio_ || std::get<0> (*radio_iter) != current_radio_)
{
current_radio_ = std::get<0> (*radio_iter);
}
}
auto context = '[' + QString::number (current_radio_) + "] ";
if (QTcpSocket::ConnectedState != hrd_->state ())
{
#if WSJT_TRACE_CAT
qDebug () << "HRDTransceiver::send_command \"" << cmd << "\" failed" << hrd_->errorString ();
#endif
throw error {
tr ("Ham Radio Deluxe send command \"%1\" failed %2\n")
.arg (cmd)
.arg (hrd_->errorString ())
};
}
if (v4 == protocol_)
{
auto message = ((prepend_context ? context + cmd : cmd) + "\r").toLocal8Bit ();
if (!write_to_port (message.constData (), message.size ()))
{
#if WSJT_TRACE_CAT
qDebug () << "HRDTransceiver::send_command failed to write command \"" << cmd << "\" to HRD";
#endif
throw error {
tr ("Ham Radio Deluxe: failed to write command \"%1\"")
.arg (cmd)
};
}
}
else
{
auto string = prepend_context ? context + cmd : cmd;
QScopedPointer<HRDMessage> message (new (string) HRDMessage);
if (!write_to_port (reinterpret_cast<char const *> (message.data ()), message->size_))
{
#if WSJT_TRACE_CAT
qDebug () << "HRDTransceiver::send_command failed to write command \"" << cmd << "\" to HRD";
#endif
throw error {
tr ("Ham Radio Deluxe: failed to write command \"%1\"")
.arg (cmd)
};
}
}
// waitForReadReady appears to be occasionally unreliable on Windows
// timing out when data is waiting so retry a few times
unsigned retries {3};
bool replied {false};
while (!replied && retries--)
{
replied = hrd_->waitForReadyRead ();
if (!replied && hrd_->error () != hrd_->SocketTimeoutError)
{
#if WSJT_TRACE_CAT
qDebug () << "HRDTransceiver::send_command \"" << cmd << "\" failed to reply" << hrd_->errorString ();
#endif
throw error {
tr ("Ham Radio Deluxe failed to reply to command \"%1\" %2\n")
.arg (cmd)
.arg (hrd_->errorString ())
};
}
}
if (!replied)
{
#if WSJT_TRACE_CAT
qDebug () << "HRDTransceiver::send_command \"" << cmd << "\" retries exhausted";
#endif
throw error {
tr ("Ham Radio Deluxe retries exhausted sending command \"%1\"")
.arg (cmd)
};
}
QByteArray buffer (hrd_->readAll ());
if (v4 == protocol_)
{
result = QString {buffer}.trimmed ();
}
else
{
HRDMessage const * reply (new (buffer) HRDMessage);
if (reply->magic_1_value_ != reply->magic_1_ && reply->magic_2_value_ != reply->magic_2_)
{
#if WSJT_TRACE_CAT
qDebug () << "HRDTransceiver::send_command \"" << cmd << "\" invalid reply";
#endif
throw error {
tr ("Ham Radio Deluxe sent an invalid reply to our command \"%1\"")
.arg (cmd)
};
}
result = QString {reply->payload_}; // this is not a memory leak (honest!)
}
if (!no_debug)
{
#if WSJT_TRACE_CAT
qDebug () << "HRDTransceiver::send_command(" << cmd << "): ->" << result;
#endif
}
return result;
}
bool HRDTransceiver::write_to_port (char const * data, qint64 length)
{
qint64 total_bytes_sent {0};
while (total_bytes_sent < length)
{
auto bytes_sent = hrd_->write (data + total_bytes_sent, length - total_bytes_sent);
if (bytes_sent < 0 || !hrd_->waitForBytesWritten ())
{
return false;
}
total_bytes_sent += bytes_sent;
}
return true;
}
void HRDTransceiver::send_simple_command (QString const& command, bool no_debug)
{
if ("OK" != send_command (command, no_debug))
{
#if WSJT_TRACE_CAT
qDebug () << "HRDTransceiver::send_simple_command \"" << command << "\" unexpected response";
#endif
throw error {
tr ("Ham Radio Deluxe didn't respond to command \"%1\" as expected")
.arg (command)
};
}
}