path: root/src/modules/dcc/marshal.cpp

//
//   File : marshal.cpp
//   Creation date : Sun Sep 17 2000 15:59:11 by Szymon Stefanek
//
//   This file is part of the KVirc irc client distribution
//   Copyright (C) 1999-2000 Szymon Stefanek (pragma at kvirc dot net)
//
//   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; either version 2
//   of the License, or (at your opinion) any later version.
//
//   This program is distributed in the HOPE that it will be USEFUL,
//   but WITHOUT ANY WARRANTY; without even the implied warranty of
//   MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.
//   See the GNU General Public License for more details.
//
//   You should have received a copy of the GNU General Public License
//   along with this program. If not, write to the Free Software Foundation,
//   Inc. ,51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
//

#include "marshal.h"

#include "kvi_settings.h"
#include "kvi_netutils.h"
#include "kvi_error.h"
#include "kvi_options.h"
#include "kvi_locale.h"
#include "kvi_memmove.h"
#include "kvi_socket.h"
#include "kvi_fileutils.h"


#include <stdlib.h> //for exit()




KviDccMarshal::KviDccMarshal(KviDccMarshalOutputContext * ctx)
: TQObject(0,"dcc_marshal")
{
	m_pSn                   = 0;
	m_fd                    = KVI_INVALID_SOCKET;
	m_pTimeoutTimer         = 0;
	m_bIpV6                 = false;
	m_pOutputContext        = ctx;
#ifdef COMPILE_SSL_SUPPORT
	m_pSSL                  = 0;
#endif
	m_szIp = "";
	m_szPort = "";
	m_szSecondaryIp = "";
	m_szSecondaryPort = "";
}

KviDccMarshal::~KviDccMarshal()
{
	reset();
}

kvi_socket_t KviDccMarshal::releaseSocket()
{
	kvi_socket_t aux_fd = m_fd;
	m_fd = KVI_INVALID_SOCKET;
	return aux_fd;
}

#ifdef COMPILE_SSL_SUPPORT
KviSSL * KviDccMarshal::releaseSSL()
{
	KviSSL * theSSL = m_pSSL;
	m_pSSL = 0;
	return theSSL;
}
#endif

void KviDccMarshal::reset()
{
	if(m_pSn)
	{
		delete m_pSn;
		m_pSn = 0;
	}
	if(m_fd != KVI_INVALID_SOCKET)
	{
		kvi_socket_close(m_fd);
		m_fd = KVI_INVALID_SOCKET;
	}
#ifdef COMPILE_SSL_SUPPORT
//	debug("MARSHAL RESETTING (SSL=%d)",m_pSSL);
	if(m_pSSL)
	{
//		debug("MARSHAL CLEARING THE SSL");
		KviSSLMaster::freeSSL(m_pSSL);
		m_pSSL = 0;
	}
#endif
	if(m_pTimeoutTimer)
	{
		delete m_pTimeoutTimer;
		m_pTimeoutTimer = 0;
	}
	m_bIpV6 = false;
}

int KviDccMarshal::dccListen(const TQString &ip,const TQString &port,bool bUseTimeout,bool bUseSSL)
{
	if(m_fd != KVI_INVALID_SOCKET)return KviError_anotherConnectionInProgress;

	m_szIp = ip;
	m_szPort = port;

	m_bOutgoing = false;

	m_bUseTimeout = bUseTimeout;

#ifdef COMPILE_SSL_SUPPORT
	m_bUseSSL = bUseSSL;
#else
	if(bUseSSL)return KviError_noSSLSupport;
#endif

	if(m_pTimeoutTimer)delete m_pTimeoutTimer;
	m_pTimeoutTimer = new TQTimer();
	connect(m_pTimeoutTimer,TQT_SIGNAL(timeout()),this,TQT_SLOT(doListen()));
	m_pTimeoutTimer->start(100,true);

	return KviError_success;
}

void KviDccMarshal::doListen()
{
	if(m_pTimeoutTimer)
	{
		delete m_pTimeoutTimer;
		m_pTimeoutTimer = 0;
	}

	// Check the address type
	if(!kvi_isValidStringIp(m_szIp))
	{
#ifdef COMPILE_IPV6_SUPPORT
		if(!kvi_isValidStringIp_V6(m_szIp))
		{
			emit error(KviError_invalidIpAddress);
			return;
		} else m_bIpV6 = true;
#else
		emit error(KviError_invalidIpAddress);
		return;
#endif
	}

	bool bOk;
	m_uPort = m_szPort.toUInt(&bOk);
	if(!bOk)
	{
		emit error(KviError_invalidPortNumber);
		return;
	}


#ifndef COMPILE_IPV6_SUPPORT
	if(m_bIpV6)
	{
		emit error(KviError_noIpV6Support);
		return;
	}
#endif


#ifdef COMPILE_IPV6_SUPPORT
	m_fd = kvi_socket_create(m_bIpV6 ? KVI_SOCKET_PF_INET6 : KVI_SOCKET_PF_INET,
								KVI_SOCKET_TYPE_STREAM,KVI_SOCKET_PROTO_TCP);
#else
	m_fd = kvi_socket_create(KVI_SOCKET_PF_INET,KVI_SOCKET_TYPE_STREAM,KVI_SOCKET_PROTO_TCP);
#endif

	if(m_fd == KVI_INVALID_SOCKET)
	{
		emit error(KviError_socketCreationFailed);
		return;
	}

	if((!KVI_OPTION_BOOL(KviOption_boolUserDefinedPortRange)) || (m_uPort != 0))
	{
#ifdef COMPILE_IPV6_SUPPORT
		KviSockaddr sa(m_szIp,m_uPort,m_bIpV6);
#else
		KviSockaddr sa(m_szIp,m_uPort,false);
#endif

		if(!sa.socketAddress())
		{
			reset();
			emit error(KviError_bindFailed);
			return;
		}

		if(!kvi_socket_bind(m_fd,sa.socketAddress(),sa.addressLength()))
		{
			reset();
			emit error(KviError_bindFailed);
			return;
		}

	} else {
		m_uPort = KVI_OPTION_UINT(KviOption_uintDccMinPort);
		if(KVI_OPTION_UINT(KviOption_uintDccMaxPort) > 65535)KVI_OPTION_UINT(KviOption_uintDccMaxPort) = 65535;
		bool bBindSuccess;
		do {
#ifdef COMPILE_IPV6_SUPPORT
			KviSockaddr sa(m_szIp,m_uPort,m_bIpV6);
#else
			KviSockaddr sa(m_szIp,m_uPort,false);
#endif
			if(!sa.socketAddress())
			{
				reset();
				emit error(KviError_bindFailed);
				return;
			}

			bBindSuccess = kvi_socket_bind(m_fd,sa.socketAddress(),sa.addressLength());

			if(!bBindSuccess)
			{
				if(m_uPort == 65535)
				{
					reset();
					emit error(KviError_bindFailed);
					return;
				}
				m_uPort++;
			}

		} while((!bBindSuccess) && (m_uPort <= KVI_OPTION_UINT(KviOption_uintDccMaxPort)));

		if(!bBindSuccess)
		{
			reset();
			emit error(KviError_bindFailed);
			return;
		}

	}

	if(!kvi_socket_listen(m_fd,1))
	{
		reset();
		emit error(KviError_listenFailed);
		return;
	}


	// Reread the port in case we're binding to a random one (0)

#ifdef COMPILE_IPV6_SUPPORT
	KviSockaddr sareal(0,m_bIpV6);
#else
	KviSockaddr sareal(0,false);
#endif


	int size = sareal.addressLength();

	if(kvi_socket_getsockname(m_fd,sareal.socketAddress(),&size))
	{
//		debug("GETSOCKNAMEOK");
		m_szPort.setNum(sareal.port());
		m_uPort = sareal.port();
//		debug("REALPORT %u",m_uPort);
	} else {
//		debug("GETSOCKNAMEFAILED");
	}

	// and setup the READ notifier...
	m_pSn = new TQSocketNotifier(m_fd,TQSocketNotifier::Read);
	TQObject::connect(m_pSn,TQT_SIGNAL(activated(int)),this,TQT_SLOT(snActivated(int)));
	m_pSn->setEnabled(true);

	// set the timer
	if(KVI_OPTION_UINT(KviOption_uintDccSocketTimeout) < 5)
		KVI_OPTION_UINT(KviOption_uintDccSocketTimeout) = 5;

	if(m_bUseTimeout)
	{
		m_pTimeoutTimer = new TQTimer();
		connect(m_pTimeoutTimer,TQT_SIGNAL(timeout()),this,TQT_SLOT(connectionTimedOut()));
		m_pTimeoutTimer->start(KVI_OPTION_UINT(KviOption_uintDccSocketTimeout) * 1000,true);
	}
	// and wait for connect

	emit inProgress();
}

int KviDccMarshal::dccConnect(const char * ip,const char * port,bool bUseTimeout,bool bUseSSL)
{
	if(m_fd != KVI_INVALID_SOCKET)return KviError_anotherConnectionInProgress;

	m_bUseTimeout = bUseTimeout;
	m_szIp = ip;
	m_szPort = port;
	m_bOutgoing = true;

#ifdef COMPILE_SSL_SUPPORT
	m_bUseSSL = bUseSSL;
#else
	if(bUseSSL)return KviError_noSSLSupport;
#endif

	if(m_pTimeoutTimer)delete m_pTimeoutTimer;
	m_pTimeoutTimer = new TQTimer();
	connect(m_pTimeoutTimer,TQT_SIGNAL(timeout()),this,TQT_SLOT(doConnect()));
	m_pTimeoutTimer->start(100,true);

	return KviError_success;
}

void KviDccMarshal::doConnect()
{
	if(m_pTimeoutTimer)
	{
		delete m_pTimeoutTimer;
		m_pTimeoutTimer = 0;
	}

	// Check the address type
	if(!kvi_isValidStringIp(m_szIp))
	{
#ifdef COMPILE_IPV6_SUPPORT
		if(!kvi_isValidStringIp_V6(m_szIp))
		{
			emit error(KviError_invalidIpAddress);
			return;
		} else m_bIpV6 = true;
#else
		emit error(KviError_invalidIpAddress);
		return;
#endif
	}

	bool bOk;
	m_uPort = m_szPort.toUInt(&bOk);
	if(!bOk)
	{
		emit error(KviError_invalidPortNumber);
		return;
	}


	// create the socket
#ifdef COMPILE_IPV6_SUPPORT
	m_fd = kvi_socket_create(m_bIpV6 ? KVI_SOCKET_PF_INET6 : KVI_SOCKET_PF_INET,
					KVI_SOCKET_TYPE_STREAM,KVI_SOCKET_PROTO_TCP);
#else
	m_fd = kvi_socket_create(KVI_SOCKET_PF_INET,
					KVI_SOCKET_TYPE_STREAM,KVI_SOCKET_PROTO_TCP);
#endif
	if(m_fd == KVI_INVALID_SOCKET)
	{
		emit error(KviError_socketCreationFailed);
		return;
	}

	// make it non blocking
	if(!kvi_socket_setNonBlocking(m_fd))
	{
		reset();
		emit error(KviError_asyncSocketFailed);
		return;
	}


	// fill the sockaddr structure

#ifdef COMPILE_IPV6_SUPPORT
	KviSockaddr sa(m_szIp,m_uPort,m_bIpV6);
#else
	KviSockaddr sa(m_szIp,m_uPort,false);
#endif

	if(!sa.socketAddress())
	{
		reset();
		emit error(KviError_socketCreationFailed);
		return;
	}

	if(!kvi_socket_connect(m_fd,sa.socketAddress(),sa.addressLength()))
	{
		int err = kvi_socket_error();

		if(!kvi_socket_recoverableConnectError(err))
		{
			// Ops...
			int sockError=err;
			if(sockError==0)
			{
				// Zero error ?...let's look closer
				int iSize=sizeof(int);
				if(!kvi_socket_getsockopt(m_fd,SOL_SOCKET,SO_ERROR,
						(void *)&sockError,&iSize))sockError=0;
			}
			// Die
			reset();
			// And declare problems :)
			if(sockError)emit error(KviError::translateSystemError(sockError));
			else emit error(KviError_unknownError); //Error 0 ?
			return;
		}
	}


	// and setup the WRITE notifier...
	m_pSn = new TQSocketNotifier(m_fd,TQSocketNotifier::Write);
	TQObject::connect(m_pSn,TQT_SIGNAL(activated(int)),this,TQT_SLOT(snActivated(int)));
	m_pSn->setEnabled(true);

	// set the timer
	if(KVI_OPTION_UINT(KviOption_uintDccSocketTimeout) < 5)
		KVI_OPTION_UINT(KviOption_uintDccSocketTimeout) = 5;

	if(m_bUseTimeout)
	{
		m_pTimeoutTimer = new TQTimer();
		connect(m_pTimeoutTimer,TQT_SIGNAL(timeout()),this,TQT_SLOT(connectionTimedOut()));
		m_pTimeoutTimer->start(KVI_OPTION_UINT(KviOption_uintDccSocketTimeout) * 1000,true);
	}

	// and wait for connect
	emit inProgress();
}


void KviDccMarshal::snActivated(int)
{
	if(m_pTimeoutTimer)
	{
		delete m_pTimeoutTimer;
		m_pTimeoutTimer = 0;
	}

#ifdef COMPILE_IPV6_SUPPORT
	struct sockaddr_in6 hostSockAddr6;
#endif
	struct sockaddr_in  hostSockAddr;

	int size = sizeof(hostSockAddr);
	struct sockaddr * addr = (struct sockaddr *)&hostSockAddr;

#ifdef COMPILE_IPV6_SUPPORT
	if(m_bIpV6)
	{
		addr = (struct sockaddr *)&hostSockAddr6;
		size = sizeof(hostSockAddr6);
	}
#endif

	if(m_bOutgoing)
	{
		// outgoing connection (we have called connect())
		// Check for errors...
		int sockError;
		int iSize=sizeof(int);
		if(!kvi_socket_getsockopt(m_fd,SOL_SOCKET,SO_ERROR,(void *)&sockError,&iSize))sockError = -1;
		if(sockError != 0)
		{
			//failed
			if(sockError > 0)sockError = KviError::translateSystemError(sockError);
			else sockError = KviError_unknownError; //Error 0 ?
			reset();
			emit error(sockError);
			return;
		}
		//Succesfully connected...
		delete m_pSn;
		m_pSn = 0;
		// get the local address
		if(!kvi_socket_getsockname(m_fd,addr,&size))
		{
			m_szSecondaryIp = "localhost";
			m_szSecondaryPort = __tr2qs_ctx("unknown","dcc");
		} else {
#ifdef COMPILE_IPV6_SUPPORT
			if(m_bIpV6)
			{
				m_szSecondaryPort.setNum(ntohs(((struct sockaddr_in6 *)addr)->sin6_port));
				if(!kvi_binaryIpToStringIp_V6(((struct sockaddr_in6 *)addr)->sin6_addr,m_szSecondaryIp))
					m_szSecondaryIp = "localhost";
			} else {
#endif
				m_szSecondaryPort.setNum(ntohs(((struct sockaddr_in *)addr)->sin_port));
				if(!kvi_binaryIpToStringIp(((struct sockaddr_in *)addr)->sin_addr,m_szSecondaryIp))
					m_szSecondaryIp = "localhost";
#ifdef COMPILE_IPV6_SUPPORT
			}
#endif
		}
	} else {
		// Incoming connection
		int newsock = kvi_socket_accept(m_fd,addr,&size);
		if(newsock != KVI_INVALID_SOCKET)
		{
			// Connected
			delete m_pSn;
			m_pSn = 0;
#ifdef COMPILE_IPV6_SUPPORT
			if(m_bIpV6)
			{
				m_szSecondaryPort.setNum(ntohs(((struct sockaddr_in6 *)addr)->sin6_port));
				if(!kvi_binaryIpToStringIp_V6(((struct sockaddr_in6 *)addr)->sin6_addr,m_szSecondaryIp))
					m_szSecondaryIp = __tr2qs_ctx("unknown","dcc");
			} else {
#endif
				m_szSecondaryPort.setNum(ntohs(((struct sockaddr_in *)addr)->sin_port));
				if(!kvi_binaryIpToStringIp(((struct sockaddr_in *)addr)->sin_addr,m_szSecondaryIp))
					m_szSecondaryIp = __tr2qs_ctx("unknown","dcc");
#ifdef COMPILE_IPV6_SUPPORT
			}
#endif
			kvi_socket_close(m_fd);
			m_fd = newsock;
			if(!kvi_socket_setNonBlocking(m_fd))
			{
				reset();
				emit error(KviError_asyncSocketFailed);
				return;
			}

		} else {
			// Huh ?.. wait for the next notifier call
			return;
		}
	}

#ifdef COMPILE_SSL_SUPPORT
	// SSL Handshake needed ?
	if(m_bUseSSL)
	{
		m_pSSL = KviSSLMaster::allocSSL(m_pOutputContext->dccMarshalOutputWindow(),m_fd,m_bOutgoing ? KviSSL::Client : KviSSL::Server,m_pOutputContext->dccMarshalOutputContextString());

		if(m_pSSL)
		{
			emit startingSSLHandshake();
			doSSLHandshake(0);
		} else {
			reset();
			emit error(KviError_SSLError);
		}
		return;
	}
#endif

	emit connected();
}


void KviDccMarshal::doSSLHandshake(int)
{
#ifdef COMPILE_SSL_SUPPORT
//	debug("DO SSL HANDSHAKE");
	if(m_pSn)
	{
		delete m_pSn;
		m_pSn = 0;
	}

	if(!m_pSSL)
	{
		debug("Ops... I've lost the SSL class ?");
		reset();
		emit error(KviError_internalError);
		return; // ops ?
	}

	KviSSL::Result r = m_bOutgoing ? m_pSSL->connect() : m_pSSL->accept();

	switch(r)
	{
		case KviSSL::Success:
			// done!
//			debug("EMITTING CONNECTED");
			emit connected();
//			debug("CONNECTED EMITTED");
		break;
		case KviSSL::WantRead:
			m_pSn = new TQSocketNotifier((int)m_fd,TQSocketNotifier::Read);
			TQObject::connect(m_pSn,TQT_SIGNAL(activated(int)),this,TQT_SLOT(doSSLHandshake(int)));
			m_pSn->setEnabled(true);
		break;
		case KviSSL::WantWrite:
			m_pSn = new TQSocketNotifier((int)m_fd,TQSocketNotifier::Write);
			TQObject::connect(m_pSn,TQT_SIGNAL(activated(int)),this,TQT_SLOT(doSSLHandshake(int)));
			m_pSn->setEnabled(true);
		break;
		case KviSSL::RemoteEndClosedConnection:
			reset();
			emit error(KviError_remoteEndClosedConnection);
		break;
		case KviSSL::SyscallError:
		{
			// syscall problem
			int err = kvi_socket_error();
			if(kvi_socket_recoverableError(err))
			{
				// can recover ? (EAGAIN , EINTR ?)
				m_pSn = new TQSocketNotifier((int)m_fd,TQSocketNotifier::Write);
				TQObject::connect(m_pSn,TQT_SIGNAL(activated(int)),this,TQT_SLOT(doSSLHandshake(int)));
				m_pSn->setEnabled(true);
				return;
			} else {
				// Declare problems :)
				reset();
				emit error(err ? KviError::translateSystemError(err) : KviError_unknownError);
			}
		}
		break;
		default:
		{
			KviStr buffer;
			while(m_pSSL->getLastErrorString(buffer))emit sslError(buffer.ptr());
			reset();
			emit error(KviError_SSLError);
		}
		break;
	}
#else  //!COMPILE_SSL_SUPPORT
	debug("Ops.. ssl handshake without ssl support!...aborting!");
	exit(-1);
#endif //!COMPILE_SSL_SUPPORT
}

void KviDccMarshal::abort()
{
	reset();
}

void KviDccMarshal::connectionTimedOut()
{
	reset();
	emit error(KviError_connectionTimedOut);
}


#include "m_marshal.moc"