mirror of
https://github.com/saitohirga/WSJT-X.git
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524 lines
17 KiB
C++
524 lines
17 KiB
C++
#include "PSKReporter.hpp"
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// Interface for posting spots to PSK Reporter web site
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// Implemented by Edson Pereira PY2SDR
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// Updated by Bill Somerville, G4WJS
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//
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// Reports will be sent in batch mode every 5 minutes.
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#include <cmath>
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#include <QObject>
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#include <QString>
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#include <QDateTime>
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#include <QSharedPointer>
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#include <QUdpSocket>
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#include <QTcpSocket>
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#include <QHostInfo>
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#include <QQueue>
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#include <QByteArray>
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#include <QDataStream>
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#include <QTimer>
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#if QT_VERSION >= QT_VERSION_CHECK(5, 15, 0)
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#include <QRandomGenerator>
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#endif
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#include "Configuration.hpp"
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#include "pimpl_impl.hpp"
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#include "moc_PSKReporter.cpp"
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namespace
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{
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QLatin1String HOST {"report.pskreporter.info"};
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// QLatin1String HOST {"127.0.0.1"};
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quint16 SERVICE_PORT {4739};
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// quint16 SERVICE_PORT {14739};
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int MIN_SEND_INTERVAL {15}; // in seconds
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int FLUSH_INTERVAL {4 * 5}; // in send intervals
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bool ALIGNMENT_PADDING {true};
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int MIN_PAYLOAD_LENGTH {508};
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int MAX_PAYLOAD_LENGTH {1400};
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}
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class PSKReporter::impl final
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: public QObject
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{
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Q_OBJECT
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public:
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impl (PSKReporter * self, Configuration const * config, QString const& program_info)
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: self_ {self}
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, config_ {config}
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, sequence_number_ {0u}
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, send_descriptors_ {0}
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, send_receiver_data_ {0}
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, flush_counter_ {0u}
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, prog_id_ {program_info}
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{
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#if QT_VERSION < QT_VERSION_CHECK(5, 15, 0)
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observation_id_ = qrand();
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#else
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observation_id_ = QRandomGenerator::global ()->generate ();
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#endif
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// This timer sets the interval to check for spots to send.
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connect (&report_timer_, &QTimer::timeout, [this] () {send_report ();});
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// This timer repeats the sending of IPFIX templates and receiver
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// information if we are using UDP, in case server has been
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// restarted ans lost cached information.
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connect (&descriptor_timer_, &QTimer::timeout, [this] () {
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if (socket_
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&& QAbstractSocket::UdpSocket == socket_->socketType ())
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{
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// send templates again
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send_descriptors_ = 3; // three times
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// send receiver data set again
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send_receiver_data_ = 3; // three times
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}
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});
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}
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void check_connection ()
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{
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if (!socket_
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|| QAbstractSocket::UnconnectedState == socket_->state ()
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|| (socket_->socketType () != config_->psk_reporter_tcpip () ? QAbstractSocket::TcpSocket : QAbstractSocket::UdpSocket))
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{
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// we need to create the appropriate socket
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if (socket_
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&& QAbstractSocket::UnconnectedState != socket_->state ()
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&& QAbstractSocket::ClosingState != socket_->state ())
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{
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// handle re-opening asynchronously
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auto connection = QSharedPointer<QMetaObject::Connection>::create ();
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*connection = connect (socket_.data (), &QAbstractSocket::disconnected, [this, connection] () {
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disconnect (*connection);
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check_connection ();
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});
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// close gracefully
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send_report (true);
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socket_->close ();
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}
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else
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{
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reconnect ();
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}
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}
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}
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void handle_socket_error (QAbstractSocket::SocketError e)
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{
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switch (e)
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{
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case QAbstractSocket::RemoteHostClosedError:
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socket_->disconnectFromHost ();
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break;
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case QAbstractSocket::TemporaryError:
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break;
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default:
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spots_.clear ();
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Q_EMIT self_->errorOccurred (socket_->errorString ());
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break;
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}
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}
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void reconnect ()
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{
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// Using deleteLater for the deleter as we may eventually
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// be called from the disconnected handler above.
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if (config_->psk_reporter_tcpip ())
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{
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socket_.reset (new QTcpSocket, &QObject::deleteLater);
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send_descriptors_ = 1;
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send_receiver_data_ = 1;
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}
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else
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{
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socket_.reset (new QUdpSocket, &QObject::deleteLater);
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send_descriptors_ = 3;
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send_receiver_data_ = 3;
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}
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#if QT_VERSION >= QT_VERSION_CHECK(5, 15, 0)
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connect (socket_.get (), &QAbstractSocket::errorOccurred, this, &PSKReporter::impl::handle_socket_error);
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#elif QT_VERSION >= QT_VERSION_CHECK(5, 7, 0)
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connect (socket_.data (), QOverload<QAbstractSocket::SocketError>::of (&QAbstractSocket::error), this, &PSKReporter::impl::handle_socket_error);
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#else
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connect (socket_.data (), static_cast<void (QAbstractSocket::*) (QAbstractSocket::SocketError)> (&QAbstractSocket::error), this, &PSKReporter::impl::handle_socket_error);
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#endif
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// use this for pseudo connection with UDP, allows us to use
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// QIODevice::write() instead of QUDPSocket::writeDatagram()
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socket_->connectToHost (HOST, SERVICE_PORT, QAbstractSocket::WriteOnly);
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if (!report_timer_.isActive ())
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{
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report_timer_.start (MIN_SEND_INTERVAL * 1000);
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}
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if (!descriptor_timer_.isActive ())
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{
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descriptor_timer_.start (1 * 60 * 60 * 1000); // hourly
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}
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}
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void stop ()
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{
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if (socket_)
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{
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socket_->disconnectFromHost ();
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}
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descriptor_timer_.stop ();
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report_timer_.stop ();
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}
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void send_report (bool send_residue = false);
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void build_preamble (QDataStream&);
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bool flushing ()
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{
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return FLUSH_INTERVAL && !(++flush_counter_ % FLUSH_INTERVAL);
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}
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PSKReporter * self_;
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Configuration const * config_;
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QSharedPointer<QAbstractSocket> socket_;
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int dns_lookup_id_;
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QByteArray payload_;
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quint32 sequence_number_;
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int send_descriptors_;
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// Currently PSK Reporter requires that a receiver data set is sent
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// in every data flow. This memeber variable can be used to only
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// send that information at session start (3 times for UDP), when it
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// changes (3 times for UDP), or once per hour (3 times) if using
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// UDP. Uncomment the relevant code to enable that fuctionality.
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int send_receiver_data_;
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unsigned flush_counter_;
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quint32 observation_id_;
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QString rx_call_;
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QString rx_grid_;
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QString rx_ant_;
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QString prog_id_;
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QByteArray tx_data_;
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QByteArray tx_residue_;
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struct Spot
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{
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bool operator == (Spot const& rhs)
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{
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return
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call_ == rhs.call_
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&& grid_ == rhs.grid_
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&& mode_ == rhs.mode_
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&& std::abs (Radio::FrequencyDelta (freq_ - rhs.freq_)) < 50;
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}
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QString call_;
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QString grid_;
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int snr_;
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Radio::Frequency freq_;
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QString mode_;
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QDateTime time_;
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};
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QQueue<Spot> spots_;
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QTimer report_timer_;
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QTimer descriptor_timer_;
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};
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#include "PSKReporter.moc"
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namespace
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{
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void writeUtfString (QDataStream& out, QString const& s)
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{
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auto const& utf = s.toUtf8 ().left (254);
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out << quint8 (utf.size ());
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out.writeRawData (utf, utf.size ());
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}
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int num_pad_bytes (int len)
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{
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return ALIGNMENT_PADDING ? (4 - len % 4) % 4 : 0;
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}
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void set_length (QDataStream& out, QByteArray& b)
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{
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// pad with nulls modulo 4
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auto pad_len = num_pad_bytes (b.size ());
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out.writeRawData (QByteArray {pad_len, '\0'}.constData (), pad_len);
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auto pos = out.device ()->pos ();
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out.device ()->seek (sizeof (quint16));
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// insert length
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out << static_cast<quint16> (b.size ());
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out.device ()->seek (pos);
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}
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}
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void PSKReporter::impl::build_preamble (QDataStream& message)
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{
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// Message Header
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message
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<< quint16 (10u) // Version Number
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<< quint16 (0u) // Length (place-holder filled in later)
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<< quint32 (0u) // Export Time (place-holder filled in later)
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<< ++sequence_number_ // Sequence Number
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<< observation_id_; // Observation Domain ID
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if (send_descriptors_)
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{
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--send_descriptors_;
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{
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// Sender Information descriptor
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QByteArray descriptor;
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QDataStream out {&descriptor, QIODevice::WriteOnly};
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out
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<< quint16 (2u) // Template Set ID
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<< quint16 (0u) // Length (place-holder)
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<< quint16 (0x50e3) // Link ID
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<< quint16 (7u) // Field Count
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<< quint16 (0x8000 + 1u) // Option 1 Information Element ID (senderCallsign)
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<< quint16 (0xffff) // Option 1 Field Length (variable)
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<< quint32 (30351u) // Option 1 Enterprise Number
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<< quint16 (0x8000 + 5u) // Option 2 Information Element ID (frequency)
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<< quint16 (4u) // Option 2 Field Length
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<< quint32 (30351u) // Option 2 Enterprise Number
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<< quint16 (0x8000 + 6u) // Option 3 Information Element ID (sNR)
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<< quint16 (1u) // Option 3 Field Length
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<< quint32 (30351u) // Option 3 Enterprise Number
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<< quint16 (0x8000 + 10u) // Option 4 Information Element ID (mode)
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<< quint16 (0xffff) // Option 4 Field Length (variable)
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<< quint32 (30351u) // Option 4 Enterprise Number
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<< quint16 (0x8000 + 3u) // Option 5 Information Element ID (senderLocator)
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<< quint16 (0xffff) // Option 5 Field Length (variable)
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<< quint32 (30351u) // Option 5 Enterprise Number
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<< quint16 (0x8000 + 11u) // Option 6 Information Element ID (informationSource)
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<< quint16 (1u) // Option 6 Field Length
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<< quint32 (30351u) // Option 6 Enterprise Number
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<< quint16 (150u) // Option 7 Information Element ID (dateTimeSeconds)
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<< quint16 (4u); // Option 7 Field Length
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// insert Length and move to payload
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set_length (out, descriptor);
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message.writeRawData (descriptor.constData (), descriptor.size ());
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}
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{
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// Receiver Information descriptor
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QByteArray descriptor;
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QDataStream out {&descriptor, QIODevice::WriteOnly};
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out
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<< quint16 (3u) // Options Template Set ID
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<< quint16 (0u) // Length (place-holder)
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<< quint16 (0x50e2) // Link ID
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<< quint16 (4u) // Field Count
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<< quint16 (0u) // Scope Field Count
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<< quint16 (0x8000 + 2u) // Option 1 Information Element ID (receiverCallsign)
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<< quint16 (0xffff) // Option 1 Field Length (variable)
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<< quint32 (30351u) // Option 1 Enterprise Number
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<< quint16 (0x8000 + 4u) // Option 2 Information Element ID (receiverLocator)
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<< quint16 (0xffff) // Option 2 Field Length (variable)
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<< quint32 (30351u) // Option 2 Enterprise Number
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<< quint16 (0x8000 + 8u) // Option 3 Information Element ID (decodingSoftware)
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<< quint16 (0xffff) // Option 3 Field Length (variable)
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<< quint32 (30351u) // Option 3 Enterprise Number
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<< quint16 (0x8000 + 9u) // Option 4 Information Element ID (antennaInformation)
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<< quint16 (0xffff) // Option 4 Field Length (variable)
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<< quint32 (30351u); // Option 4 Enterprise Number
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// insert Length
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set_length (out, descriptor);
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message.writeRawData (descriptor.constData (), descriptor.size ());
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}
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}
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// if (send_receiver_data_)
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{
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// --send_receiver_data_;
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// Receiver information
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QByteArray data;
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QDataStream out {&data, QIODevice::WriteOnly};
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// Set Header
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out
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<< quint16 (0x50e2) // Template ID
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<< quint16 (0u); // Length (place-holder)
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// Set data
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writeUtfString (out, rx_call_);
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writeUtfString (out, rx_grid_);
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writeUtfString (out, prog_id_);
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writeUtfString (out, rx_ant_);
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// insert Length and move to payload
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set_length (out, data);
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message.writeRawData (data.constData (), data.size ());
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}
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}
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void PSKReporter::impl::send_report (bool send_residue)
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{
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if (QAbstractSocket::ConnectedState != socket_->state ()) return;
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QDataStream message {&payload_, QIODevice::WriteOnly | QIODevice::Append};
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QDataStream tx_out {&tx_data_, QIODevice::WriteOnly | QIODevice::Append};
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if (!payload_.size ())
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{
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// Build header, optional descriptors, and receiver information
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build_preamble (message);
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}
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auto flush = flushing () || send_residue;
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while (spots_.size () || flush)
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{
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if (!payload_.size ())
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{
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// Build header, optional descriptors, and receiver information
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build_preamble (message);
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}
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if (!tx_data_.size () && (spots_.size () || tx_residue_.size ()))
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{
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// Set Header
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tx_out
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<< quint16 (0x50e3) // Template ID
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<< quint16 (0u); // Length (place-holder)
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}
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// insert any residue
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if (tx_residue_.size ())
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{
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tx_out.writeRawData (tx_residue_.constData (), tx_residue_.size ());
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tx_residue_.clear ();
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}
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while (spots_.size () || flush)
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{
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auto tx_data_size = tx_data_.size ();
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if (spots_.size ())
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{
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auto const& spot = spots_.dequeue ();
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// Sender information
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writeUtfString (tx_out, spot.call_);
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tx_out
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<< static_cast<quint32> (spot.freq_)
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<< static_cast<qint8> (spot.snr_);
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writeUtfString (tx_out, spot.mode_);
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writeUtfString (tx_out, spot.grid_);
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tx_out
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<< quint8 (1u) // REPORTER_SOURCE_AUTOMATIC
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<< static_cast<quint32> (
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#if QT_VERSION >= QT_VERSION_CHECK(5, 8, 0)
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spot.time_.toSecsSinceEpoch ()
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#else
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spot.time_.toMSecsSinceEpoch () / 1000
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#endif
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);
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}
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auto len = payload_.size () + tx_data_.size ();
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len += num_pad_bytes (tx_data_.size ());
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len += num_pad_bytes (len);
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if (len > MAX_PAYLOAD_LENGTH // our upper datagram size limit
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|| (!spots_.size () && len > MIN_PAYLOAD_LENGTH) // spots drained and above lower datagram size limit
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|| (flush && !spots_.size ())) // send what we have, possibly no spots
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{
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if (tx_data_.size ())
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{
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if (len <= MAX_PAYLOAD_LENGTH)
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{
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tx_data_size = tx_data_.size ();
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}
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QByteArray tx {tx_data_.left (tx_data_size)};
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QDataStream out {&tx, QIODevice::WriteOnly | QIODevice::Append};
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// insert Length
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set_length (out, tx);
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message.writeRawData (tx.constData (), tx.size ());
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}
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// insert Length and Export Time
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set_length (message, payload_);
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message.device ()->seek (2 * sizeof (quint16));
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message << static_cast<quint32> (
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#if QT_VERSION >= QT_VERSION_CHECK(5, 8, 0)
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QDateTime::currentDateTime ().toSecsSinceEpoch ()
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#else
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QDateTime::currentDateTime ().toMSecsSinceEpoch () / 1000
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#endif
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);
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// Send data to PSK Reporter site
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socket_->write (payload_); // TODO: handle errors
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flush = false; // break loop
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message.device ()->seek (0u);
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payload_.clear (); // Fresh message
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// Save unsent spots
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tx_residue_ = tx_data_.right (tx_data_.size () - tx_data_size);
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tx_out.device ()->seek (0u);
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tx_data_.clear ();
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break;
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}
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}
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}
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}
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PSKReporter::PSKReporter (Configuration const * config, QString const& program_info)
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: m_ {this, config, program_info}
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{
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}
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PSKReporter::~PSKReporter ()
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{
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// m_->send_report (true); // send any pending spots
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}
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void PSKReporter::reconnect ()
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{
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m_->reconnect ();
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}
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void PSKReporter::setLocalStation (QString const& call, QString const& gridSquare, QString const& antenna)
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{
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m_->check_connection ();
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if (call != m_->rx_call_ || gridSquare != m_->rx_grid_ || antenna != m_->rx_ant_)
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{
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m_->send_receiver_data_ = m_->socket_
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&& QAbstractSocket::UdpSocket == m_->socket_->socketType () ? 3 : 1;
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m_->rx_call_ = call;
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m_->rx_grid_ = gridSquare;
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m_->rx_ant_ = antenna;
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}
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}
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bool PSKReporter::addRemoteStation (QString const& call, QString const& grid, Radio::Frequency freq
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, QString const& mode, int snr)
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{
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m_->check_connection ();
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if (m_->socket_ && m_->socket_->isValid ())
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{
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if (QAbstractSocket::UnconnectedState == m_->socket_->state ())
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{
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reconnect ();
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}
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m_->spots_.enqueue ({call, grid, snr, freq, mode, QDateTime::currentDateTimeUtc ()});
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return true;
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}
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return false;
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}
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void PSKReporter::sendReport (bool last)
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{
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m_->check_connection ();
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if (m_->socket_ && QAbstractSocket::ConnectedState == m_->socket_->state ())
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{
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m_->send_report (true);
|
|
}
|
|
if (last)
|
|
{
|
|
m_->stop ();
|
|
}
|
|
}
|