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/*
transport.cpp - Peer to peer transport
Copyright (c) 2005 by Gregg Edghill <gregg.edghill@gmail.com>
Kopete (c) 2002-2005 by the Kopete developers <kopete-devel@kde.org>
*************************************************************************
* *
* This program is free software; you can redistribute it and/or modify *
* it under the terms of the GNU General Public License as published by *
* the Free Software Foundation; version 2 of the License. *
* *
*************************************************************************
*/
#include "transport.h"
#include "messageformatter.h"
//BEGIN QT Includes
//END
//BEGIN KDE Includes
#include <kclientsocketbase.h>
#include <kdebug.h>
#include <kstreamsocket.h>
//END
//BEGIN Using Directives
using namespace KNetwork;
//END
#include "msnswitchboardsocket.h"
namespace PeerToPeer {
Transport::Transport(TQObject* tqparent, const char* name)
: TQObject(tqparent, name)
{
mFormatter = new PeerToPeer::MessageFormatter(this);
}
Transport::~Transport()
{
}
//BEGIN Public Methods
TransportBridge* Transport::getBridge (const TQString& to, TQ_UINT16 port, TransportBridgeType type, const TQString& identifier)
{
TransportBridge *bridge = 0l;
KInetSocketAddress address;
if (mAddresses.contains(to))
{
address = mAddresses[to];
}
else
{
address = KInetSocketAddress(KIpAddress(to), port);
mAddresses[to] = address;
}
if (PeerToPeer::Tcp == type){
bridge = new TcpTransportBridge(address, mFormatter, this, identifier.ascii());
}
if (PeerToPeer::Udp == type){
// TODO Add class UdpTransportBridge
// bridge = new UdpTransportBridge(address, this, mFormatter, identifier.ascii());
}
if (bridge != 0l)
{
TQObject::connect(bridge, TQT_SIGNAL(readyRead(const TQByteArray&)), TQT_SLOT(slotOnReceive(const TQByteArray&)));
}
return 0l;
}
void Transport::setDefaultBridge(MSNSwitchBoardSocket* mss)
{
mDefaultBridge = mss;
TQObject::connect((MSNSwitchBoardSocket*)mDefaultBridge, TQT_SIGNAL(messageReceived(const TQString&, const TQByteArray&)), TQT_SLOT(slotOnReceive(const TQString&, const TQByteArray&)));
}
//END
//BEGIN Private Slot Methods
// void Transport::slotOnReceive(Message& message)
// {
// }
void Transport::slotOnReceive(const TQString& contact, const TQByteArray& bytes)
{
kdDebug (14140) << k_funcinfo << " >> RECEIVED " << bytes.size() << " bytes." << endl;
// Message message = mFormatter->readMessage(bytes);
}
//END
TransportBridge::TransportBridge(const KNetwork::KInetSocketAddress& to, MessageFormatter* formatter, TQObject* tqparent, const char* name)
: TQObject(tqparent, name)
{
mAddress = to;
mFormatter = formatter;
}
TransportBridge::TransportBridge(KNetwork::KClientSocketBase* socket, MessageFormatter* formatter, TQObject* tqparent, const char* name)
: TQObject(tqparent, name)
{
mSocket = socket;
mAddress = mSocket->peerAddress();
}
TransportBridge::~TransportBridge()
{
}
//BEGIN Public Methods
void TransportBridge::connect()
{
slotOnConnect();
}
void TransportBridge::disconnect()
{
slotOnDisconnect();
}
//END
//BEGIN Protected Slot Methods
void TransportBridge::slotOnConnect()
{
}
void TransportBridge::slotOnDisconnect()
{
}
void TransportBridge::slotOnError(int)
{
}
void TransportBridge::slotOnSocketClose()
{
}
void TransportBridge::slotOnSocketConnect()
{
}
void TransportBridge::slotOnSocketReceive()
{
}
//END
TcpTransportBridge::TcpTransportBridge(const KNetwork::KInetSocketAddress& to, MessageFormatter* formatter, TQObject* tqparent, const char* name)
: TransportBridge(to, formatter, tqparent, name)
{
mSocket = new KStreamSocket(mAddress.ipAddress().toString(), TQString::number(mAddress.port()), this);
mSocket->setBlocking(false);
TQObject::connect(mSocket, TQT_SIGNAL(connected(const KResolverEntry&)), TQT_SLOT(slotOnSocketConnect()));
TQObject::connect(mSocket, TQT_SIGNAL(gotError(int)), TQT_SLOT(slotOnError(int)));
mConnected = false;
}
TcpTransportBridge::TcpTransportBridge(KNetwork::KClientSocketBase* socket, MessageFormatter* formatter, TQObject* tqparent, const char* name)
: TransportBridge(socket, formatter, tqparent, name)
{
mConnected = (mSocket->state() == KStreamSocket::Open) ? true : false;
mSocket->setBlocking(false);
}
TcpTransportBridge::~TcpTransportBridge()
{
}
//BEGIN Protected Slot Methods
void TcpTransportBridge::slotOnConnect()
{
if (mConnected)
{
kdDebug(14140) << k_funcinfo << "Bridge (" << name() << ") ALREADY CONNECTED " << mSocket->peerAddress().toString() << " <-> " << mSocket->localAddress().toString() << endl;
return;
}
KStreamSocket *socket = static_cast<KStreamSocket*>(mSocket);
socket->setTimeout(5000);
TQObject::connect(socket, TQT_SIGNAL(timeOut()), TQT_SLOT(slotOnSocketConnectTimeout()));
mSocket->connect();
}
void TcpTransportBridge::slotOnDisconnect()
{
if (mConnected){
mSocket->close();
}
}
void TcpTransportBridge::slotOnError(int errorCode)
{
kdDebug(14140) << k_funcinfo << "Bridge (" << name() << ") ERROR occurred on {" << mSocket->localAddress().toString() << " <-> " << mSocket->peerAddress().toString() << "} - " << mSocket->errorString() << endl;
emit bridgeError(TQString("Bridge ERROR %1: %2").tqarg(errorCode).tqarg(mSocket->errorString()));
if (mConnected){
mSocket->disconnect();
mConnected = false;
}
mSocket->deleteLater();
mSocket = 0l;
}
void TcpTransportBridge::slotOnSocketClose()
{
mSocket->disconnect();
kdDebug(14140) << k_funcinfo << "Bridge (" << name() << ") DISCONNECTED {" << mSocket->peerAddress().toString() << " <-> " << mSocket->localAddress().toString() << "}" << endl;
mConnected = false;
mSocket->deleteLater();
mSocket = 0l;
emit bridgeDisconnect();
}
void TcpTransportBridge::slotOnSocketConnect()
{
kdDebug(14140) << k_funcinfo << "Bridge (" << name() << ") CONNECTED to " << mSocket->peerAddress().toString() << " from "
<< mSocket->localAddress().toString() << endl;
mConnected = true;
TQObject::connect(mSocket, TQT_SIGNAL(readyRead()), TQT_SLOT(slotOnSocketReceive()));
TQObject::connect(mSocket, TQT_SIGNAL(closed()), TQT_SLOT(slotOnSocketClose()));
mVerified = true;
TQString foo = "foo\0";
mSocket->writeBlock(foo.ascii(), foo.length());
foo = TQString();
emit bridgeConnect();
}
void TcpTransportBridge::slotOnSocketReceive()
{
kdDebug (14140) << k_funcinfo << "Bridge (" << name() << ") RECEIVED " << mSocket->bytesAvailable() << " bytes." << endl;
TQByteArray bytes(mSocket->bytesAvailable());
mSocket->readBlock(bytes.data(), bytes.size());
// Write the data to the buffer.
mBuffer.write(bytes);
if (mVerified == false && mBuffer.size() >= 4)
{
TQByteArray foo = mBuffer.read(4);
if (TQString(foo) == "foo"){
kdDebug (14140) << k_funcinfo << "Bridge (" << name() << ") CONNECTION verified." << endl;
mVerified = true;
}
}
while(mBuffer.size() > 0)
{
if (mBuffer.size() >= 4 && mLength == 0)
{
TQByteArray array = mBuffer.read(4);
for (int i=0; i < 4; i++){
((char*)mLength)[i] = array[i];
}
}
if (mLength > 0 && mBuffer.size() >= mLength)
{
kdDebug (14140) << k_funcinfo << "Bridge (" << name() << ") read " << mLength << " bytes." << endl;
bytes = mBuffer.read(mLength);
mLength = 0;
// Message message = mFormatter->readMessage(bytes, true);
// emit messageReceived(message);
}
else
{
kdDebug (14140) << k_funcinfo << "Bridge (" << name() << ") waiting for " << mLength << " bytes." << endl;
break;
}
}
}
//END
//BEGIN Private Slot Methods
void TcpTransportBridge::slotOnSocketConnectTimeout()
{
kdDebug (14140) << k_funcinfo << "Bridge (" << name() << ") CONNECT timeout." << endl;
emit bridgeConnectTimeout();
mSocket->deleteLater();
mSocket = 0l;
}
//END
TcpTransportBridge::Buffer::Buffer(TQ_UINT32 length)
: TQByteArray(length)
{
}
TcpTransportBridge::Buffer::~Buffer()
{
}
//BEGIN Public Methods
void TcpTransportBridge::Buffer::write(const TQByteArray& bytes)
{
resize(size() + bytes.size());
for (uint i=0; i < bytes.size(); i++){
(*this)[size() + i] = bytes[i];
}
}
TQByteArray TcpTransportBridge::Buffer::read(TQ_UINT32 length)
{
if (length >= size()) return TQByteArray();
TQByteArray buffer;
buffer.duplicate(data(), length);
char *bytes = new char[size() - length];
for(uint i=0; i < size() - length; i++){
bytes[i] = data()[length + i];
}
duplicate(bytes, size() - length);
delete[] bytes;
return buffer;
}
//END
}
#include "transport.moc"
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