我在这里寻求有关奇怪行为的帮助我正在接受我的项目。所以这里去了!
我有一个名为DataReceiver的接收类,使用QTcpServer和QTcpSocket,我有通过QTcpSocket提供它的DataSender类。我定期发送数据,并用QTimer触发“发送”插槽。
但是,经过几次迭代后,进料停止,并且不再是周期性的。我真的不明白发生了什么。
我已经确认了这个问题,在接收方有终端打印。
// Con/Destructors
DataSender::DataSender(QObject *parent) :
QObject(parent),
mTcpSocket(new QTcpSocket(this)),
mDestinationAddress("127.0.0.1"),
mDestinationPort(51470),
mTimer(new QTimer(this))
{
connectToHost();
connect(mTimer, SIGNAL(timeout(void)), this, SLOT(sendPeriodicData()));
mTimer->start(1000);
}
DataSender::~DataSender(){
mTcpSocket->disconnectFromHost();
mTcpSocket->waitForDisconnected();
delete mTcpSocket;
}
// Network Management
bool DataSender::connectToHost(void){
connect(mTcpSocket, SIGNAL(connected()), this, SLOT(onConnect()));
connect(mTcpSocket, SIGNAL(disconnected()), this, SLOT(onDisconnect()));
connect(mTcpSocket, SIGNAL(bytesWritten(qint64)), this, SLOT(onBytesWritten(qint64)));
qDebug() << "connecting...";
mTcpSocket->setSocketOption(QAbstractSocket::KeepAliveOption, true);
mTcpSocket->setSocketOption(QAbstractSocket::WriteOnly);
mTcpSocket->connectToHost(getDestinationAddress(), getDestinationPort());
if(!mTcpSocket->waitForConnected(1000))
{
qDebug() << "Error: " << mTcpSocket->errorString();
return false;
}
// Setting meteo data to send
mMeteoData.messageID = METEO_MESSAGE;
mMeteoData.temperature = 5.5;
mMeteoData.pressure = 10.2;
mMeteoData.humidity = 45.5;
// Setting positiondata to send
mPositionData.messageID = POSITION_MESSAGE;
mPositionData.north = 120.3;
mPositionData.pitch = 1.5;
mPositionData.roll = 2.5;
mPositionData.yaw = 3.5;
mPositionData.a_x = 30.5;
mPositionData.a_y = 40.5;
mPositionData.a_z = 50.5;
return true;
}
void DataSender::sendData(void) const{
QByteArray lData("Hello, this is DataSender ! Do you copy ? I repeat, do you copy ?");
if(mTcpSocket->state() == QAbstractSocket::ConnectedState)
{
mTcpSocket->write(lData);
mTcpSocket->waitForBytesWritten();
}
}
void DataSender::sendData(const QByteArray &pData) const{
//QByteArray lData("Hello, this is DataSender ! Do you copy ? I repeat, do you copy ?");
if(mTcpSocket->state() == QAbstractSocket::ConnectedState)
{
mTcpSocket->write(pData);
mTcpSocket->waitForBytesWritten();
mTcpSocket->flush();
//usleep(1000);
}
}
// Getters
QString DataSender::getDestinationAddress(void) const{
return mDestinationAddress;
}
unsigned int DataSender::getDestinationPort(void) const{
return mDestinationPort;
}
// Setters
void DataSender::setDestinationAddress(const QString &pDestinationAddress){
mDestinationAddress = pDestinationAddress;
}
void DataSender::setDestinationPort(const unsigned int &pDestinationPort){
mDestinationPort = pDestinationPort;
}
// Public Slots
void DataSender::onConnect(){
qDebug() << "connected...";
}
void DataSender::onDisconnect(){
qDebug() << "disconnected...";
}
void DataSender::onBytesWritten(qint64 bytes){
qDebug() << bytes << " bytes written...";
}
void DataSender::sendPeriodicData(void){
mTcpSocket->
// Changing data for testing
mPositionData.north += 10;
mPositionData.north = std::fmod(mPositionData.north, 360);
mMeteoData.temperature += 10;
mMeteoData.temperature = std::fmod(mMeteoData.temperature, 500);
// Declaring QByteArrays
QByteArray lMeteoByteArray;
QByteArray lPositionByteArray;
// Serializing
lMeteoByteArray = serializeMeteoData(mMeteoData);
lPositionByteArray = serializePositionData(mPositionData);
// Sending
sendData(lMeteoByteArray);
sendData(lPositionByteArray);
}
// Con/Destructors
DataReceiver::DataReceiver(QObject *parent) :
QObject(parent),
mTcpServer(new QTcpServer(this)),
mSourceAddress("127.0.0.1"),
mSourcePort(51470)
{
initData();
connect(mTcpServer, SIGNAL(newConnection()), this, SLOT(onNewConnection()));
if(!mTcpServer->listen(QHostAddress(getSourceAddress()), getSourcePort()))
qDebug() << "<DataReceiver> Server could not start. ";
else
qDebug() << "<DataReceiver> Server started !";
}
DataReceiver::DataReceiver(const QString &pSourceAddress,
const unsigned int &pSourcePort,
QObject *parent) :
QObject(parent),
mTcpServer(new QTcpServer(this)),
mSourceAddress(pSourceAddress),
mSourcePort(pSourcePort)
{
initData();
connect(mTcpServer, SIGNAL(newConnection()), this, SLOT(onNewConnection()));
if(!mTcpServer->listen(QHostAddress(getSourceAddress()), getSourcePort()))
qDebug() << "<DataReceiver> Server could not start. ";
else
qDebug() << "<DataReceiver> Server started !";
}
DataReceiver::~DataReceiver(){
if(mTcpSocket != nullptr) delete mTcpSocket;
delete mTcpServer;
if(mTcpSocket != nullptr)
delete mTcpSocket;
}
// Getters
QTcpServer *DataReceiver::getTcpServer(void) const{
return mTcpServer;
}
QString DataReceiver::getSourceAddress(void) const{
return mSourceAddress;
}
unsigned int DataReceiver::getSourcePort(void) const{
return mSourcePort;
}
positionData_t DataReceiver::getPositionData(void) const{
return mPositionData;
}
meteoData_t DataReceiver::getMeteoData(void) const{
return mMeteoData;
}
// Setters
void DataReceiver::setSourceAddress(const QString &pSourceAddress){
mSourceAddress = pSourceAddress;
}
void DataReceiver::setSourcePort(const unsigned int &pSourcePort){
mSourcePort = pSourcePort;
}
void DataReceiver::setPositionData(const positionData_t &pPositionData){
mPositionData = pPositionData;
}
void DataReceiver::setMeteoData(const meteoData_t &pMeteoData){
mMeteoData = pMeteoData;
}
// Data Management
void DataReceiver::initPositionData(void){
mPositionData.messageID = METEO_MESSAGE;
mPositionData.pitch = .0;
mPositionData.roll = .0;
mPositionData.yaw = .0;
mPositionData.a_x = .0;
mPositionData.a_y = .0;
mPositionData.a_z = .0;
}
void DataReceiver::initMeteoData(void){
mMeteoData.messageID = POSITION_MESSAGE;
mMeteoData.temperature = .0;
mMeteoData.humidity = .0;
mMeteoData.pressure = .0;
}
void DataReceiver::initData(void){
initPositionData();
initMeteoData();
}
void DataReceiver::reinitData(void){
initData();
}
// Public Slots
void DataReceiver::onConnect(){
qDebug() << "QTcpSocket connected...";
}
void DataReceiver::onDisconnect(){
qDebug() << "QTcpSocket disconnected...";
disconnect(mTcpSocket, SIGNAL(readyRead()), this, SLOT(onDataReceived()));
disconnect(mTcpSocket, SIGNAL(disconnected()), this, SLOT(onDisconnect()));
}
void DataReceiver::onBytesWritten(qint64 bytes){
qDebug() << bytes << " bytes written to QTcpSocket...";
}
void DataReceiver::onDataReceived(){
// Not yet implemented, code is for testing
qDebug() << "onDataReceived called !";
QByteArray lReceivedData;
while(mTcpSocket->bytesAvailable()){
lReceivedData = mTcpSocket->read(mTcpSocket->bytesAvailable());
decodeData(lReceivedData);
qDebug() << lReceivedData << "\n";
}
}
void DataReceiver::onNewConnection(){
qDebug() << "onNewConnection called !";
mTcpSocket = mTcpServer->nextPendingConnection();
mTcpSocket->setSocketOption(QAbstractSocket::ReadOnly, true);
connect(mTcpSocket, SIGNAL(readyRead()), this, SLOT(onDataReceived()));
connect(mTcpSocket, SIGNAL(disconnected()), this, SLOT(onDisconnect()));
}
void DataReceiver::onDataChanged(void){
qDebug() << "onDataChanged called !";
qDebug() << "\nPrinting mMeteoData : ";
qDebug() << "mMeteoData.messageID" << mMeteoData.messageID;
qDebug() << "mMeteoData.temperature" << mMeteoData.temperature;
qDebug() << "mMeteoData.humidity" << mMeteoData.humidity;
qDebug() << "mMeteoData.pressure" << mMeteoData.pressure;
qDebug() << "\nPrinting mPositionData";
qDebug() << "mPositionData.messageID" << mPositionData.messageID;
qDebug() << "mPositionData.north" << mPositionData.north;
qDebug() << "mPositionData.pitch" << mPositionData.pitch;
qDebug() << "mPositionData.roll" << mPositionData.roll;
qDebug() << "mPositionData.yaw" << mPositionData.yaw;
qDebug() << "mPositionData.a_x" << mPositionData.a_x;
qDebug() << "mPositionData.a_y" << mPositionData.a_y;
qDebug() << "mPositionData.a_z" << mPositionData.a_z;
}
// Private Methods
void DataReceiver::decodeData(const QByteArray &pMessage){
// Not yet implemented
quint8 tempMessageID = fetchMessageID(pMessage);
switch(tempMessageID){
case UNKNOWN_MESSAGE:
break;
case METEO_MESSAGE:
mMeteoData = deserializeMeteoData(pMessage);
emit dataChanged();
break;
case POSITION_MESSAGE:
mPositionData = deserializePositionData(pMessage);
emit dataChanged();
break;
}
return;
}
我真的想为此找到一个解决方案......我尝试了一些无用的方法,比如改变我读取套接字的方式或使用QTcpSocket::flush()方法(不确定它是否按照我的想法)所做的那样)
非常感谢, Clovel
我还希望能够打开de Receiver端并让发送方自动检测它并开始将数据发送到Receiver。我需要再挖一点,但如果你有一个小费,那将是受欢迎的!
答案 0 :(得分:0)
虽然@Kuba Ober评论似乎解决了发件人的锁定问题,但我也会提出有关TCP的建议,因为一个发送操作可能会产生多个readyRead信号,而且多个发送操作也会导致单个{ {1}} SIGNAL,所以我的建议是编写一个小协议来避免数据损坏的问题!
我写了一个协议here,它很受欢迎,现在我正在改进它!
以下示例是通用的,因此您必须调整它以满足您的需求,但我认为您可以毫不费力地完成它:),它已经在Windows 10中使用Qt 5.5.1 MinGW进行了测试。
为了获得奖金,我使用UDP套接字发送广播消息并尝试查找范围内的同伴。
您可以看到完整的项目here!
readyRead#ifndef COMMON_H
#define COMMON_H
#include <QtCore>
#include <QtNetwork>
//Helper macro to set a QObject pointer to nullptr when it's get destroyed
#define SETTONULLPTR(obj) QObject::connect(obj, &QObject::destroyed, [=]{obj = nullptr;})
//Define a max size for each send data operation
#define MAX_NETWORK_CHUNK_SIZE 10*1024*1024
//Create differents types for incomming data, valid for both client and server
namespace Type
{
enum
{
DataType1,
DataType2
};
}
//Convert some data of type T to QByteArray, by default in big endian order
template <typename T>
static inline QByteArray getBytes(T input)
{
QByteArray tmp;
QDataStream data(&tmp, QIODevice::WriteOnly);
data << input;
return tmp;
}
//Convert some QByteArray to data of type T
template <typename T>
static inline T getValue(QByteArray bytes)
{
T tmp;
QDataStream data(&bytes, QIODevice::ReadOnly);
data >> tmp;
return tmp;
}
//Struct that holds data and information about the peer
typedef struct PeerData {
QByteArray data;
QHostAddress host;
qintptr descriptor;
} PeerData;
#endif // COMMON_H
#ifndef CLIENT_H
#define CLIENT_H
#include <QtCore>
#include <QtNetwork>
#include "common.h"
class Client : public QObject
{
Q_OBJECT
public:
explicit Client(QObject *parent = nullptr);
~Client();
signals:
void peerFound(QHostAddress);
void searchPeersFinished();
void connected(PeerData);
void disconnected(PeerData);
void readyRead(PeerData);
void error(QString);
public slots:
void abort();
void connectToHost(const QString &host, quint16 port);
void searchPeers(quint16 port);
void stop();
int write(const QByteArray &data);
private slots:
void UDPReadyRead();
void UDPWrite();
void searchPeersEnd();
void timeout();
void connectedPrivate();
void disconnectedPrivate();
void errorPrivate(QAbstractSocket::SocketError e);
void readyReadPrivate();
private:
QTcpSocket *m_socket;
QUdpSocket *m_udp_socket;
quint16 m_udp_port;
QByteArray m_buffer;
qint32 m_size;
QTimer *m_timer;
};
#endif // CLIENT_H
#include "client.h"
Client::Client(QObject *parent) : QObject(parent)
{
qRegisterMetaType<PeerData>("PeerData");
qRegisterMetaType<QHostAddress>("QHostAddress");
m_socket = nullptr;
m_size = 0;
m_udp_socket = nullptr;
m_timer = new QTimer(this);
connect(m_timer, &QTimer::timeout, this, &Client::timeout);
m_timer->setSingleShot(true);
}
Client::~Client()
{
disconnectedPrivate();
}
//Disconnects the socket
void Client::abort()
{
if (m_socket)
m_socket->abort();
}
//Start connection to server
void Client::connectToHost(const QString &host, quint16 port)
{
if (m_socket)
return;
m_socket = new QTcpSocket(this);
SETTONULLPTR(m_socket);
connect(m_socket, &QTcpSocket::readyRead, this, &Client::readyReadPrivate);
connect(m_socket, &QTcpSocket::connected, this, &Client::connectedPrivate);
connect(m_socket, &QTcpSocket::disconnected, this, &Client::disconnectedPrivate);
connect(m_socket, static_cast<void(QTcpSocket::*)(QTcpSocket::SocketError)>(&QTcpSocket::error), this, &Client::errorPrivate);
m_timer->start(10 * 1000);
m_socket->connectToHost(host, port);
}
//Perform udp broadcast to search peers
void Client::searchPeers(quint16 port)
{
if (m_udp_socket)
return;
m_udp_socket = new QUdpSocket(this);
SETTONULLPTR(m_udp_socket);
connect(m_udp_socket, &QUdpSocket::readyRead, this, &Client::UDPReadyRead);
m_udp_port = port;
QTimer::singleShot(50, this, &Client::UDPWrite);
}
//Ready read specific for udp socket
void Client::UDPReadyRead()
{
while (m_udp_socket->hasPendingDatagrams())
{
QByteArray data;
data.resize(m_udp_socket->pendingDatagramSize());
QHostAddress peer_address;
quint16 peer_port;
m_udp_socket->readDatagram(data.data(), data.size(), &peer_address, &peer_port);
//Test the header used in this udp broadcast, you can freely change this value,
//but do for both client and server
if (QLatin1String(data) == QLatin1Literal("TEST"))
emit peerFound(peer_address);
}
}
//Send the udp broadcast message to all the network interfaces
void Client::UDPWrite()
{
QList<QHostAddress> broadcast;
foreach (QHostAddress address, QNetworkInterface::allAddresses())
{
if (address.protocol() == QAbstractSocket::IPv4Protocol)
{
address.setAddress(address.toIPv4Address());
QStringList list = address.toString().split(".");
list.replace(3, "255");
QString currentbroadcast = list.join(".");
QHostAddress address = QHostAddress(QHostAddress(currentbroadcast).toIPv4Address());
broadcast.append(address);
}
}
QByteArray datagram = QString("TEST").toLatin1();
foreach (const QHostAddress &address, broadcast)
m_udp_socket->writeDatagram(datagram, address, m_udp_port);
//Wait 0.5 seconds for an answer
QTimer::singleShot(500, this, &Client::searchPeersEnd);
}
//Stop the udp socket
void Client::searchPeersEnd()
{
m_udp_socket->deleteLater();
emit searchPeersFinished();
}
void Client::timeout()
{
emit error("Operation timed out");
stop();
}
//Handle connected state
void Client::connectedPrivate()
{
QHostAddress host = m_socket->peerAddress();
qintptr descriptor = m_socket->socketDescriptor();
PeerData pd;
pd.host = host;
pd.descriptor = descriptor;
emit connected(pd);
m_timer->stop();
}
//Handle disconnected state
void Client::disconnectedPrivate()
{
if (!m_socket)
return;
QHostAddress host = m_socket->peerAddress();
qintptr descriptor = m_socket->socketDescriptor();
stop();
PeerData pd;
pd.host = host;
pd.descriptor = descriptor;
emit disconnected(pd);
}
//Handle error
void Client::errorPrivate(QAbstractSocket::SocketError e)
{
if (e != QAbstractSocket::RemoteHostClosedError)
{
QString err = m_socket->errorString();
emit error(err);
}
stop();
}
//Stop the tcp socket
void Client::stop()
{
m_timer->stop();
m_size = 0;
m_buffer.clear();
if (m_socket)
{
m_socket->abort();
m_socket->deleteLater();
}
}
//Write data to the server
int Client::write(const QByteArray &data)
{
if (!m_socket)
return 0;
m_socket->write(getBytes<qint32>(data.size()));
m_socket->write(data);
return 1;
}
//Receive message from server
void Client::readyReadPrivate()
{
if (!m_socket)
return;
while (m_socket->bytesAvailable() > 0)
{
m_buffer.append(m_socket->readAll());
while ((m_size == 0 && m_buffer.size() >= 4) || (m_size > 0 && m_buffer.size() >= m_size))
{
if (m_size == 0 && m_buffer.size() >= 4)
{
m_size = getValue<qint32>(m_buffer.mid(0, 4));
m_buffer.remove(0, 4);
if (m_size < 0 || m_size > MAX_NETWORK_CHUNK_SIZE)
{
m_socket->abort();
return;
}
}
if (m_size > 0 && m_buffer.size() >= m_size)
{
QByteArray data = m_buffer.mid(0, m_size);
m_buffer.remove(0, m_size);
m_size = 0;
QHostAddress host = m_socket->peerAddress();
qintptr descriptor = m_socket->socketDescriptor();
PeerData pd;
pd.data = data;
pd.host = host;
pd.descriptor = descriptor;
emit readyRead(pd);
}
}
}
}
#ifndef SERVER_H
#define SERVER_H
#include <QtCore>
#include <QtNetwork>
#include "common.h"
class Server : public QObject
{
Q_OBJECT
public:
explicit Server(QObject *parent = nullptr);
~Server();
signals:
void connected(PeerData);
void disconnected(PeerData);
void listening(quint16);
void readyRead(PeerData);
void error(QString);
public slots:
void abort(qintptr descriptor);
void listen(quint16 port);
void stop();
void writeToHost(const QByteArray &data, qintptr descriptor);
int writeToAll(const QByteArray &data);
private slots:
void newConnectionPrivate();
void UDPListen(quint16 port);
void UDPReadyRead();
void readyReadPrivate();
void disconnectedPrivate();
void removeSocket(QTcpSocket *socket);
private:
QTcpServer *m_server;
QUdpSocket *m_udp_server;
QList<QTcpSocket*> m_socket_list;
QHash<qintptr, QTcpSocket*> m_socket_hash;
QHash<QTcpSocket*, qintptr> m_descriptor_hash;
QHash<QTcpSocket*, QByteArray> m_buffer_hash;
QHash<QTcpSocket*, qint32> m_size_hash;
};
#endif // SERVER_H
#include "server.h"
Server::Server(QObject *parent) : QObject(parent)
{
qRegisterMetaType<PeerData>("PeerData");
qRegisterMetaType<QHostAddress>("QHostAddress");
m_server = nullptr;
m_udp_server = nullptr;
}
Server::~Server()
{
stop();
}
//Disconnect the socket specified by descriptor
void Server::abort(qintptr descriptor)
{
QTcpSocket *socket = m_socket_hash.value(descriptor);
socket->abort();
}
//Try to start in listening state
void Server::listen(quint16 port)
{
if (m_server)
return;
m_server = new QTcpServer(this);
SETTONULLPTR(m_server);
connect(m_server, &QTcpServer::newConnection, this, &Server::newConnectionPrivate);
if (port < 1)
{
emit error("Invalid port value");
stop();
return;
}
bool is_listening = m_server->listen(QHostAddress::AnyIPv4, port);
if (!is_listening)
{
emit error(m_server->errorString());
stop();
return;
}
UDPListen(port);
emit listening(m_server->serverPort());
}
//Start the udp server, used to perform netowork search
void Server::UDPListen(quint16 port)
{
if (m_udp_server)
return;
m_udp_server = new QUdpSocket(this);
SETTONULLPTR(m_udp_server);
connect(m_udp_server, &QUdpSocket::readyRead, this, &Server::UDPReadyRead);
m_udp_server->bind(port);
}
//ReadyRead specific for udp
void Server::UDPReadyRead()
{
while (m_udp_server->hasPendingDatagrams())
{
QByteArray data;
QHostAddress address;
quint16 port;
data.resize(m_udp_server->pendingDatagramSize());
m_udp_server->readDatagram(data.data(), data.size(), &address, &port);
//Test the header used in this udp broadcast, you can freely change this value,
//but do for both client and server
if (QLatin1String(data) == QLatin1Literal("TEST"))
{
m_udp_server->writeDatagram(data, address, port);
}
}
}
//Stop both tcp and udp servers and also
//removes peers that may be connected
void Server::stop()
{
while (!m_socket_list.isEmpty())
removeSocket(m_socket_list.first());
if (m_server)
{
m_server->close();
m_server->deleteLater();
}
if (m_udp_server)
{
m_udp_server->deleteLater();
}
}
//Handle new connection
void Server::newConnectionPrivate()
{
while (m_server->hasPendingConnections())
{
QTcpSocket *socket = m_server->nextPendingConnection();
QHostAddress host = socket->peerAddress();
qintptr descriptor = socket->socketDescriptor();
QByteArray m_buffer;
qint32 size = 0;
m_descriptor_hash.insert(socket, descriptor);
m_socket_hash.insert(descriptor, socket);
m_buffer_hash.insert(socket, m_buffer);
m_size_hash.insert(socket, size);
m_socket_list.append(socket);
connect(socket, &QTcpSocket::disconnected, this, &Server::disconnectedPrivate);
connect(socket, &QTcpSocket::readyRead, this, &Server::readyReadPrivate);
PeerData pd;
pd.host = host;
pd.descriptor = descriptor;
emit connected(pd);
}
}
//Write to specific socket if more than one is connected
void Server::writeToHost(const QByteArray &data, qintptr descriptor)
{
if (!m_socket_hash.contains(descriptor))
return;
QTcpSocket *socket = m_socket_hash.value(descriptor);
socket->write(getBytes<qint32>(data.size()));
socket->write(data);
}
//Write to all sockets
int Server::writeToAll(const QByteArray &data)
{
foreach (QTcpSocket *socket, m_socket_list)
{
socket->write(getBytes<qint32>(data.size()));
socket->write(data);
}
return m_socket_list.size();
}
//ReadyRead function shared by all sockets connected
void Server::readyReadPrivate()
{
QTcpSocket *socket = static_cast<QTcpSocket*>(sender());
QByteArray *m_buffer = &m_buffer_hash[socket];
qint32 *size = &m_size_hash[socket];
Q_UNUSED(size)
#define m_size *size
while (socket->bytesAvailable() > 0)
{
m_buffer->append(socket->readAll());
while ((m_size == 0 && m_buffer->size() >= 4) || (m_size > 0 && m_buffer->size() >= m_size))
{
if (m_size == 0 && m_buffer->size() >= 4)
{
m_size = getValue<qint32>(m_buffer->mid(0, 4));
m_buffer->remove(0, 4);
if (m_size < 0 || m_size > MAX_NETWORK_CHUNK_SIZE)
{
socket->abort();
return;
}
}
if (m_size > 0 && m_buffer->size() >= m_size)
{
QByteArray data = m_buffer->mid(0, m_size);
m_buffer->remove(0, m_size);
m_size = 0;
QHostAddress host = socket->peerAddress();
qintptr descriptor = socket->socketDescriptor();
PeerData pd;
pd.data = data;
pd.host = host;
pd.descriptor = descriptor;
emit readyRead(pd);
}
}
}
}
//Handle socket disconnection
void Server::disconnectedPrivate()
{
QTcpSocket *socket = static_cast<QTcpSocket*>(sender());
QHostAddress host = socket->peerAddress();
qintptr descriptor = m_descriptor_hash.value(socket);
removeSocket(socket);
PeerData pd;
pd.host = host;
pd.descriptor = descriptor;
emit disconnected(pd);
}
//Handle socket removal
void Server::removeSocket(QTcpSocket *socket)
{
qintptr descriptor = m_descriptor_hash.value(socket);
m_socket_hash.remove(descriptor);
m_descriptor_hash.remove(socket);
m_buffer_hash.remove(socket);
m_size_hash.remove(socket);
m_socket_list.removeAll(socket);
socket->abort();
socket->deleteLater();
}
#ifndef WORKER_H
#define WORKER_H
#include <QtCore>
#include "client.h"
class Worker : public QObject
{
Q_OBJECT
public:
explicit Worker(QObject *parent = nullptr);
public slots:
void start(quint16 port);
private:
Client m_client;
quint16 m_port;
QTimer m_timer;
double m_double_1;
double m_double_2;
QMetaObject::Connection m_connection;
};
#endif // WORKER_H
#include "worker.h"
Worker::Worker(QObject *parent) : QObject(parent)
{
m_port = 0;
m_double_1 = 0;
m_double_2 = 0;
m_timer.setInterval(1000);
}
void Worker::start(quint16 port)
{
m_port = port;
connect(&m_client, &Client::searchPeersFinished, []{
qDebug() << "Search peers finished!";
});
m_connection = connect(&m_client, &Client::peerFound, [&](const QHostAddress &peer_address){
disconnect(m_connection); //Disconnect signal, only first peer found will be handled!
m_client.connectToHost(QHostAddress(peer_address.toIPv4Address()).toString(), m_port);
});
connect(&m_client, &Client::error, [](const QString &error){
qDebug() << "Error:" << qPrintable(error);
});
connect(&m_client, &Client::connected, [&](const PeerData &pd){
qDebug() << "Connected to:" << qPrintable(pd.host.toString());
m_timer.start();
});
connect(&m_client, &Client::disconnected, [](const PeerData &pd){
qDebug() << "Disconnected from:" << qPrintable(pd.host.toString());
});
connect(&m_client, &Client::readyRead, [](const PeerData &pd){
qDebug() << "Data from" << qPrintable(pd.host.toString())
<< qPrintable(QString::asprintf("%.2f", getValue<double>(pd.data)));
});
connect(&m_timer, &QTimer::timeout, [&]{
m_double_1 += 0.5; //Just an example of data
QByteArray data1;
data1.append(getBytes<quint8>(Type::DataType1)); //Data 1 has Type 1, added as header
data1.append(getBytes<double>(m_double_1)); //The data itself
m_client.write(data1); //Write the data1 to the server
m_double_2 += 1.0; //Just an example of data
QByteArray data2;
data2.append(getBytes<quint8>(Type::DataType2)); //Data 2 has Type 2, added as header
data2.append(getBytes<double>(m_double_2)); //The data itself
m_client.write(data2); //Write the data2 to the server
});
qDebug() << "Searching...";
m_client.searchPeers(m_port); //Search for peers in range, if found, handle the first and connect to it!
}
#include <QtCore>
#include "worker.h"
int main(int argc, char *argv[])
{
QCoreApplication a(argc, argv);
Worker worker;
worker.start(1024);
return a.exec();
}
#ifndef WORKER_H
#define WORKER_H
#include <QtCore>
#include "server.h"
class Worker : public QObject
{
Q_OBJECT
public:
explicit Worker(QObject *parent = nullptr);
public slots:
void start(quint16 port);
private:
Server m_server;
quint16 m_port;
};
#endif // WORKER_H
#include "worker.h"
Worker::Worker(QObject *parent) : QObject(parent)
{
m_port = 0;
}
void Worker::start(quint16 port)
{
m_port = port;
connect(&m_server, &Server::error, [](const QString &error){
if (!error.isEmpty())
qDebug() << "Error:" << qPrintable(error);
});
connect(&m_server, &Server::listening, [](quint16 port){
qDebug() << "Listening on port:" << port;
});
connect(&m_server, &Server::connected, [](const PeerData &pd){
qDebug() << "Connected to:" << qPrintable(pd.host.toString());
});
connect(&m_server, &Server::disconnected, [](const PeerData &pd){
qDebug() << "Disconnected from:" << qPrintable(pd.host.toString());
});
connect(&m_server, &Server::readyRead, [&](const PeerData &pd){
QByteArray data = pd.data;
if (data.isEmpty())
return;
quint8 header = getValue<quint8>(data.mid(0, 1)); //Read the 1 byte header
data.remove(0, 1); //Remove the header from data
switch (header)
{
case Type::DataType1:
{
qDebug() << "Data from" << qPrintable(pd.host.toString())
<< "DataType1" << qPrintable(QString::asprintf("%.2f", getValue<double>(data)));
break;
}
case Type::DataType2:
{
qDebug() << "Data from" << qPrintable(pd.host.toString())
<< "DataType2" << qPrintable(QString::asprintf("%.2f", getValue<double>(data)));
break;
}
default:
break;
}
m_server.writeToHost(data, pd.descriptor);
});
m_server.listen(m_port);
}