WSJT-X/MessageServer.cpp
Bill Somerville c42e0407b0 Make UDP message handling version mismatch tolerant
By  providing safe  defaults for  expected input  fields that  are not
present in messages from older version  senders, it is now possible to
mix  versions of  clients and  servers.  This  relies on  fields never
changing meaning or content, new fields may be safely added to the end
of existing messages.

Merged from the wsjtx-1.5 branch.



git-svn-id: svn+ssh://svn.code.sf.net/p/wsjt/wsjt/branches/wsjtx@5338 ab8295b8-cf94-4d9e-aec4-7959e3be5d79
2015-05-07 11:31:24 +00:00

377 lines
11 KiB
C++

#include "MessageServer.hpp"
#include <stdexcept>
#include <QUdpSocket>
#include <QTimer>
#include <QHash>
#include "NetworkMessage.hpp"
#include "qt_helpers.hpp"
#include "pimpl_impl.hpp"
#include "moc_MessageServer.cpp"
class MessageServer::impl
: public QUdpSocket
{
Q_OBJECT;
public:
impl (MessageServer * self)
: self_ {self}
, port_ {0u}
, clock_ {new QTimer {this}}
{
connect (this, &QIODevice::readyRead, this, &MessageServer::impl::pending_datagrams);
connect (this, static_cast<void (impl::*) (SocketError)> (&impl::error)
, [this] (SocketError /* e */)
{
Q_EMIT self_->error (errorString ());
});
connect (clock_, &QTimer::timeout, this, &impl::tick);
clock_->start (NetworkMessage::pulse * 1000);
}
enum StreamStatus {Fail, Short, OK};
void leave_multicast_group ();
void join_multicast_group ();
void parse_message (QHostAddress const& sender, port_type sender_port, QByteArray const& msg);
void tick ();
void pending_datagrams ();
StreamStatus check_status (QDataStream const&) const;
MessageServer * self_;
port_type port_;
QHostAddress multicast_group_address_;
static BindMode const bind_mode_;
struct Client
{
QHostAddress sender_address_;
port_type sender_port_;
QDateTime last_activity_;
};
QHash<QString, Client> clients_; // maps id to Client
QTimer * clock_;
};
#include "MessageServer.moc"
MessageServer::impl::BindMode const MessageServer::impl::bind_mode_ = ShareAddress | ReuseAddressHint;
void MessageServer::impl::leave_multicast_group ()
{
if (!multicast_group_address_.isNull () && BoundState == state ())
{
leaveMulticastGroup (multicast_group_address_);
}
}
void MessageServer::impl::join_multicast_group ()
{
if (BoundState == state ()
&& !multicast_group_address_.isNull ())
{
if (IPv4Protocol == multicast_group_address_.protocol ()
&& IPv4Protocol != localAddress ().protocol ())
{
close ();
bind (QHostAddress::AnyIPv4, port_, bind_mode_);
}
if (!joinMulticastGroup (multicast_group_address_))
{
multicast_group_address_.clear ();
}
}
}
void MessageServer::impl::pending_datagrams ()
{
while (hasPendingDatagrams ())
{
QByteArray datagram;
datagram.resize (pendingDatagramSize ());
QHostAddress sender_address;
port_type sender_port;
if (0 <= readDatagram (datagram.data (), datagram.size (), &sender_address, &sender_port))
{
parse_message (sender_address, sender_port, datagram);
}
}
}
void MessageServer::impl::parse_message (QHostAddress const& sender, port_type sender_port, QByteArray const& msg)
{
try
{
//
// message format is described in NetworkMessage.hpp
//
NetworkMessage::Reader in {msg};
auto id = in.id ();
if (OK == check_status (in))
{
bool new_client {false};
if (!clients_.contains (id))
{
new_client = true;
}
clients_[id] = {sender, sender_port, QDateTime::currentDateTime ()};
if (new_client)
{
Q_EMIT self_->client_opened (id);
}
//
// message format is described in NetworkMessage.hpp
//
switch (in.type ())
{
case NetworkMessage::Heartbeat:
//nothing to do here as time out handling deals with lifetime
break;
case NetworkMessage::Clear:
Q_EMIT self_->clear_decodes (id);
break;
case NetworkMessage::Status:
{
// unpack message
Frequency f;
QByteArray mode;
QByteArray dx_call;
QByteArray report;
QByteArray tx_mode;
bool tx_enabled {false};
bool transmitting {false};
in >> f >> mode >> dx_call >> report >> tx_mode >> tx_enabled >> transmitting;
if (check_status (in) != Fail)
{
Q_EMIT self_->status_update (id, f, QString::fromUtf8 (mode), QString::fromUtf8 (dx_call)
, QString::fromUtf8 (report), QString::fromUtf8 (tx_mode)
, tx_enabled, transmitting);
}
}
break;
case NetworkMessage::Decode:
{
// unpack message
bool is_new {true};
QTime time;
qint32 snr;
float delta_time;
quint32 delta_frequency;
QByteArray mode;
QByteArray message;
in >> is_new >> time >> snr >> delta_time >> delta_frequency >> mode >> message;
if (check_status (in) != Fail)
{
Q_EMIT self_->decode (is_new, id, time, snr, delta_time, delta_frequency
, QString::fromUtf8 (mode), QString::fromUtf8 (message));
}
}
break;
case NetworkMessage::QSOLogged:
{
QDateTime time;
QByteArray dx_call;
QByteArray dx_grid;
Frequency dial_frequency;
QByteArray mode;
QByteArray report_sent;
QByteArray report_received;
QByteArray tx_power;
QByteArray comments;
QByteArray name;
in >> time >> dx_call >> dx_grid >> dial_frequency >> mode >> report_sent >> report_received
>> tx_power >> comments >> name;
if (check_status (in) != Fail)
{
Q_EMIT self_->qso_logged (id, time, QString::fromUtf8 (dx_call), QString::fromUtf8 (dx_grid)
, dial_frequency, QString::fromUtf8 (mode), QString::fromUtf8 (report_sent)
, QString::fromUtf8 (report_received), QString::fromUtf8 (tx_power)
, QString::fromUtf8 (comments), QString::fromUtf8 (name));
}
}
break;
case NetworkMessage::Close:
if (check_status (in) != Fail)
{
Q_EMIT self_->client_closed (id);
clients_.remove (id);
}
break;
default:
// Ignore
break;
}
}
else
{
Q_EMIT self_->error ("MessageServer warning: invalid UDP message received");
}
}
catch (std::exception const& e)
{
Q_EMIT self_->error (QString {"MessageServer exception: %1"}.arg (e.what ()));
}
catch (...)
{
Q_EMIT self_->error ("Unexpected exception in MessageServer");
}
}
void MessageServer::impl::tick ()
{
auto now = QDateTime::currentDateTime ();
for (auto iter = std::begin (clients_); iter != std::end (clients_); ++iter)
{
if (now > (*iter).last_activity_.addSecs (NetworkMessage::pulse))
{
Q_EMIT self_->clear_decodes (iter.key ());
Q_EMIT self_->client_closed (iter.key ());
clients_.erase (iter); // safe while iterating as doesn't rehash
}
}
}
auto MessageServer::impl::check_status (QDataStream const& stream) const -> StreamStatus
{
auto stat = stream.status ();
StreamStatus result {Fail};
switch (stat)
{
case QDataStream::ReadPastEnd:
qDebug () << __PRETTY_FUNCTION__ << " warning: short UDP message received.";
result = Short;
break;
case QDataStream::ReadCorruptData:
Q_EMIT self_->error ("Message serialization error: read corrupt data");
break;
case QDataStream::WriteFailed:
Q_EMIT self_->error ("Message serialization error: write error");
break;
default:
result = OK;
break;
}
return result;
}
MessageServer::MessageServer (QObject * parent)
: QObject {parent}
, m_ {this}
{
}
void MessageServer::start (port_type port, QHostAddress const& multicast_group_address)
{
if (port != m_->port_
|| multicast_group_address != m_->multicast_group_address_)
{
m_->leave_multicast_group ();
if (impl::BoundState == m_->state ())
{
m_->close ();
}
m_->multicast_group_address_ = multicast_group_address;
auto address = m_->multicast_group_address_.isNull ()
|| impl::IPv4Protocol != m_->multicast_group_address_.protocol () ? QHostAddress::Any : QHostAddress::AnyIPv4;
if (port && m_->bind (address, port, m_->bind_mode_))
{
m_->port_ = port;
m_->join_multicast_group ();
}
else
{
m_->port_ = 0;
}
}
}
void MessageServer::reply (QString const& id, QTime time, qint32 snr, float delta_time, quint32 delta_frequency, QString const& mode, QString const& message_text)
{
auto iter = m_->clients_.find (id);
if (iter != std::end (m_->clients_))
{
QByteArray message;
NetworkMessage::Builder out {&message, NetworkMessage::Reply, id};
out << time << snr << delta_time << delta_frequency << mode.toUtf8 () << message_text.toUtf8 ();
if (impl::OK == m_->check_status (out))
{
m_->writeDatagram (message, iter.value ().sender_address_, (*iter).sender_port_);
}
else
{
Q_EMIT error ("Error creating UDP message");
}
}
}
void MessageServer::replay (QString const& id)
{
auto iter = m_->clients_.find (id);
if (iter != std::end (m_->clients_))
{
QByteArray message;
NetworkMessage::Builder out {&message, NetworkMessage::Replay, id};
if (impl::OK == m_->check_status (out))
{
m_->writeDatagram (message, iter.value ().sender_address_, (*iter).sender_port_);
}
else
{
Q_EMIT error ("Error creating UDP message");
}
}
}
void MessageServer::halt_tx (QString const& id, bool auto_only)
{
auto iter = m_->clients_.find (id);
if (iter != std::end (m_->clients_))
{
QByteArray message;
NetworkMessage::Builder out {&message, NetworkMessage::HaltTx, id};
out << auto_only;
if (impl::OK == m_->check_status (out))
{
m_->writeDatagram (message, iter.value ().sender_address_, (*iter).sender_port_);
}
else
{
Q_EMIT error ("Error creating UDP message");
}
}
}
void MessageServer::free_text (QString const& id, QString const& text)
{
auto iter = m_->clients_.find (id);
if (iter != std::end (m_->clients_))
{
QByteArray message;
NetworkMessage::Builder out {&message, NetworkMessage::FreeText, id};
out << text.toUtf8 ();
if (impl::OK == m_->check_status (out))
{
m_->writeDatagram (message, iter.value ().sender_address_, (*iter).sender_port_);
}
else
{
Q_EMIT error ("Error creating UDP message");
}
}
}