//======================================================================================= // // File : chat.cpp // Creation date : Tue Sep 20 09 2000 15:13:13 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 "chat.h" #include "marshal.h" #include "broker.h" #ifdef COMPILE_ON_WINDOWS // Ugly Windoze compiler... #include "dialogs.h" #endif #define _KVI_DEBUG_CHECK_RANGE_ #include "kvi_debug.h" #include "kvi_options.h" #include "kvi_input.h" #include "kvi_ircview.h" #include "kvi_iconmanager.h" #include "kvi_locale.h" #include "kvi_error.h" #include "kvi_out.h" #include "kvi_netutils.h" #include "kvi_console.h" #include "kvi_frame.h" #include "kvi_malloc.h" #include "kvi_memmove.h" #include "kvi_thread.h" #include "kvi_ircsocket.h" #include "kvi_settings.h" #include "kvi_themedlabel.h" #include "kvi_socket.h" #include "kvi_app.h" #include "kvi_parameterlist.h" #include "kvi_ircconnection.h" #include "kvi_ircconnectionuserinfo.h" #include "kvi_kvs_eventtriggers.h" #include "kvi_qcstring.h" #ifdef COMPILE_CRYPT_SUPPORT #include "kvi_crypt.h" #include "kvi_cryptcontroller.h" #include "kvi_mirccntrl.h" #endif #include #include #include "kvi_tal_vbox.h" #ifdef COMPILE_SSL_SUPPORT #include "kvi_sslmaster.h" #endif extern KviDccBroker * g_pDccBroker; //////////////////////////////////////////////////////////////////////////////////////////////////////////////////// //////////////////////////////////////////////////////////////////////////////////////////////////////////////////// //////////////////////////////////////////////////////////////////////////////////////////////////////////////////// ////// ////// WINDOW ////// //////////////////////////////////////////////////////////////////////////////////////////////////////////////////// //////////////////////////////////////////////////////////////////////////////////////////////////////////////////// //////////////////////////////////////////////////////////////////////////////////////////////////////////////////// KviDccChat::KviDccChat(KviFrame *pFrm,KviDccDescriptor * dcc,const char * name) : KviDccWindow(KVI_WINDOW_TYPE_DCCCHAT,pFrm,name,dcc) { m_pTopSplitter = new TQSplitter(TQt::Horizontal,this,"top_splitter"); KviThemedLabel * dummy; dummy = new KviThemedLabel(m_pTopSplitter,"dummy_label"); KviTalVBox * box = new KviTalVBox(m_pTopSplitter); #ifdef COMPILE_CRYPT_SUPPORT createCryptControllerButton(box); #endif m_pSplitter = new TQSplitter(TQt::Horizontal,this,"splitter"); m_pIrcView = new KviIrcView(m_pSplitter,pFrm,this); connect(m_pIrcView,TQT_SIGNAL(rightClicked()),this,TQT_SLOT(textViewRightClicked())); m_pInput = new KviInput(this); //setFocusHandler(m_pInput,this); m_pSlaveThread = 0; if(KVI_OPTION_BOOL(KviOption_boolAutoLogDccChat))m_pIrcView->startLogging(); m_pMarshal = new KviDccMarshal(this); connect(m_pMarshal,TQT_SIGNAL(error(int)),this,TQT_SLOT(handleMarshalError(int))); connect(m_pMarshal,TQT_SIGNAL(connected()),this,TQT_SLOT(connected())); connect(m_pMarshal,TQT_SIGNAL(inProgress()),this,TQT_SLOT(connectionInProgress())); #ifdef COMPILE_SSL_SUPPORT connect(m_pMarshal,TQT_SIGNAL(startingSSLHandshake()),this,TQT_SLOT(startingSSLHandshake())); connect(m_pMarshal,TQT_SIGNAL(sslError(const char *)),this,TQT_SLOT(sslError(const char *))); #endif m_pSlaveThread = 0; startConnection(); } KviDccChat::~KviDccChat() { g_pDccBroker->unregisterDccWindow(this); if(m_pSlaveThread) { m_pSlaveThread->terminate(); delete m_pSlaveThread; m_pSlaveThread = 0; } KviThreadManager::killPendingEvents(this); } void KviDccChat::textViewRightClicked() { KVS_TRIGGER_EVENT_1(KviEvent_OnDCCChatPopupRequest,this,m_pDescriptor->idString()); } void KviDccChat::triggerCreationEvents() { KVS_TRIGGER_EVENT_1(KviEvent_OnDCCChatWindowCreated,this,m_pDescriptor->idString()); } void KviDccChat::triggerDestructionEvents() { KVS_TRIGGER_EVENT_1(KviEvent_OnDCCChatWindowClosing,this,m_pDescriptor->idString()); } void KviDccChat::startConnection() { if(!(m_pDescriptor->bActive)) { // PASSIVE CONNECTION output(KVI_OUT_DCCMSG,__tr2qs_ctx("Attempting a passive DCC %s connection","dcc"),m_pDescriptor->szType.utf8().data()); #ifdef COMPILE_SSL_SUPPORT int ret = m_pMarshal->dccListen(m_pDescriptor->szListenIp,m_pDescriptor->szListenPort,m_pDescriptor->bDoTimeout,m_pDescriptor->bIsSSL); #else int ret = m_pMarshal->dccListen(m_pDescriptor->szListenIp,m_pDescriptor->szListenPort,m_pDescriptor->bDoTimeout); #endif if(ret != KviError_success)handleMarshalError(ret); } else { // ACTIVE CONNECTION output(KVI_OUT_DCCMSG,__tr2qs_ctx("Attempting an active DCC %s connection","dcc"),m_pDescriptor->szType.utf8().data()); #ifdef COMPILE_SSL_SUPPORT int ret = m_pMarshal->dccConnect(m_pDescriptor->szIp.utf8().data(),m_pDescriptor->szPort.utf8().data(),m_pDescriptor->bDoTimeout,m_pDescriptor->bIsSSL); #else int ret = m_pMarshal->dccConnect(m_pDescriptor->szIp.utf8().data(),m_pDescriptor->szPort.utf8().data(),m_pDescriptor->bDoTimeout); #endif if(ret != KviError_success)handleMarshalError(ret); } } void KviDccChat::connectionInProgress() { if(m_pDescriptor->bActive) { output(KVI_OUT_DCCMSG,__tr2qs_ctx("Contacting host %Q on port %Q","dcc"),&(m_pDescriptor->szIp),&(m_pDescriptor->szPort)); } else { output(KVI_OUT_DCCMSG,__tr2qs_ctx("Listening on interface %Q port %Q","dcc"),&(m_pMarshal->localIp()),&(m_pMarshal->localPort())); if(m_pDescriptor->bSendRequest) { KviStr ip; if(!m_pDescriptor->szFakeIp.isEmpty()) { ip = m_pDescriptor->szFakeIp; } else { ip = m_pDescriptor->szListenIp; if(KVI_OPTION_BOOL(KviOption_boolDccGuessIpFromServerWhenLocalIsUnroutable)) { if(!kvi_isRoutableIpString(ip.ptr())) { // try to get the IP that the IRC server can see if(m_pDescriptor->console()) { KviStr tmp = m_pDescriptor->console()->connection() ? m_pDescriptor->console()->connection()->userInfo()->hostIp().utf8().data() : ""; if(tmp.hasData()) { ip = tmp; output(KVI_OUT_DCCMSG,__tr2qs_ctx("The local IP address is private, determining from IRC server: %s","dcc"),ip.ptr()); } else { output(KVI_OUT_DCCMSG,__tr2qs_ctx("The local IP address is private, but unable to determine it from the IRC server","dcc")); } } else { output(KVI_OUT_DCCMSG,__tr2qs_ctx("The local IP address is private, but have no IRC server to determine it from","dcc")); } } } } TQString port = !m_pDescriptor->szFakePort.isEmpty() ? m_pDescriptor->szFakePort : TQString(m_pMarshal->localPort()); //FIXME: #warning "OPTION FOR SENDING 127.0.0.1 and so on (not an unsigned number)" struct in_addr a; if(kvi_stringIpToBinaryIp(ip.ptr(),&a))ip.setNum(htonl(a.s_addr)); TQString szReq = TQString("PRIVMSG %1 :%2DCC %3 chat %4 %5").arg(m_pDescriptor->szNick).arg((char)0x01).arg(m_pDescriptor->szType).arg(ip.ptr()).arg(port); if(m_pDescriptor->isZeroPortRequest()) { szReq.append(" "); szReq+=m_pDescriptor->zeroPortRequestTag(); } szReq.append((char)(0x01)); m_pDescriptor->console()->connection()->sendData(m_pDescriptor->console()->connection()->encodeText(szReq).data()); output(KVI_OUT_DCCMSG,__tr2qs_ctx("Sent DCC %Q request to %Q, waiting for the remote client to connect...","dcc"), &(m_pDescriptor->szType),&(m_pDescriptor->szNick)); //tqDebug(m_pDescriptor->szNick); } else output(KVI_OUT_DCCMSG,__tr2qs_ctx("DCC %Q request not sent, awaiting manual connection","dcc"),&(m_pDescriptor->szType)); } KVS_TRIGGER_EVENT_1(KviEvent_OnDCCChatConnectionInProgress,this,m_pDescriptor->idString()); } void KviDccChat::startingSSLHandshake() { #ifdef COMPILE_SSL_SUPPORT outputNoFmt(KVI_OUT_SSL,__tr2qs_ctx("Low-level transport connection established","dcc")); outputNoFmt(KVI_OUT_SSL,__tr2qs_ctx("Starting Secure Socket Layer handshake","dcc")); #endif } void KviDccChat::sslError(const char * msg) { #ifdef COMPILE_SSL_SUPPORT if(!KVS_TRIGGER_EVENT_2_HALTED(KviEvent_OnDCCChatError,this,TQString(msg),m_pDescriptor->idString())) output(KVI_OUT_DCCERROR,__tr2qs_ctx("[SSL ERROR]: %s","dcc"),msg); #endif } const TQString & KviDccChat::target() { // This may change on the fly... m_szTarget = m_pDescriptor->szNick; m_szTarget += "@"; m_szTarget += m_pDescriptor->szIp; m_szTarget += ":"; m_szTarget += m_pDescriptor->szPort; return m_szTarget; } void KviDccChat::fillCaptionBuffers() { TQString tmp = TQString("DCC %1 %2@%3:%4").arg( #ifdef COMPILE_SSL_SUPPORT m_pDescriptor->bIsSSL ? "SChat" : "Chat").arg( #else "Chat").arg( #endif m_pDescriptor->szNick).arg(m_pDescriptor->szIp).arg(m_pDescriptor->szPort); m_szPlainTextCaption = tmp; m_szHtmlActiveCaption.sprintf("%s", TQString(KVI_OPTION_COLOR(KviOption_colorCaptionTextActive).name()).ascii(),tmp.utf8().data()); m_szHtmlInactiveCaption.sprintf("%s", TQString(KVI_OPTION_COLOR(KviOption_colorCaptionTextInactive).name()).ascii(),tmp.utf8().data()); } TQPixmap * KviDccChat::myIconPtr() { return g_pIconManager->getSmallIcon(KVI_SMALLICON_DCCMSG); } void KviDccChat::getBaseLogFileName(KviStr &buffer) { buffer.sprintf("%s_%s_%s",m_pDescriptor->szNick.utf8().data(),m_pDescriptor->szIp.utf8().data(),m_pDescriptor->szPort.utf8().data()); } void KviDccChat::ownMessage(const TQString &text) { if(!m_pSlaveThread) { output(KVI_OUT_SYSTEMWARNING,__tr2qs_ctx("Cannot send data: No active connection","dcc")); return; } KviTQCString szData = encodeText(text); const char * d = szData.data(); if(!d)return; #ifdef COMPILE_CRYPT_SUPPORT if(cryptSessionInfo()) { if(cryptSessionInfo()->bDoEncrypt) { if(*d != KVI_TEXT_CRYPTESCAPE) { KviStr encrypted; cryptSessionInfo()->pEngine->setMaxEncryptLen(-1); switch(cryptSessionInfo()->pEngine->encrypt(d,encrypted)) { case KviCryptEngine::Encrypted: { KviStr buf(KviStr::Format,"%s\r\n",encrypted.ptr()); m_pSlaveThread->sendRawData(buf.ptr(),buf.len()); m_pFrm->firstConsole()->outputPrivmsg(this,KVI_OUT_OWNPRIVMSGCRYPTED, m_pDescriptor->szLocalNick.utf8().data(),m_pDescriptor->szLocalUser.utf8().data(), m_pDescriptor->szLocalHost.utf8().data(),text,KviConsole::NoNotifications); } break; case KviCryptEngine::Encoded: { KviStr buf(KviStr::Format,"%s\r\n",encrypted.ptr()); m_pSlaveThread->sendRawData(buf.ptr(),buf.len()); TQString encr = decodeText(encrypted.ptr()); m_pFrm->firstConsole()->outputPrivmsg(this,KVI_OUT_OWNPRIVMSG, m_pDescriptor->szLocalNick.utf8().data(),m_pDescriptor->szLocalUser.utf8().data(), m_pDescriptor->szLocalHost.utf8().data(),encr,KviConsole::NoNotifications); } break; default: // also case KviCryptEngine::EncryptError { TQString szErr = cryptSessionInfo()->pEngine->lastError(); output(KVI_OUT_SYSTEMERROR, __tr2qs_ctx("The crypto engine was not able to encrypt the current message (%Q): %Q, no data was sent to the remote end","dcc"), &text,&szErr); } break; } return; } else { d++; //eat the escape code KviStr buf(KviStr::Format,"%s\r\n",d); TQString tmp = text.right(text.length() - 1); m_pSlaveThread->sendRawData(buf.ptr(),buf.len()); m_pFrm->firstConsole()->outputPrivmsg(this,KVI_OUT_OWNPRIVMSG, m_pDescriptor->szLocalNick.utf8().data(),m_pDescriptor->szLocalUser.utf8().data(), m_pDescriptor->szLocalHost.utf8().data(),tmp,KviConsole::NoNotifications); return; } } } #endif KviStr buf(KviStr::Format,"%s\r\n",d); m_pSlaveThread->sendRawData(buf.ptr(),buf.len()); m_pFrm->firstConsole()->outputPrivmsg(this,KVI_OUT_OWNPRIVMSG, m_pDescriptor->szLocalNick.utf8().data(),m_pDescriptor->szLocalUser.utf8().data(), m_pDescriptor->szLocalHost.utf8().data(),text,KviConsole::NoNotifications); } const TQString & KviDccChat::localNick() { // FIXME: This is just a complete HACK m_szLocalNick = m_pDescriptor->szLocalNick; return m_szLocalNick; } void KviDccChat::ownAction(const TQString &text) { if(m_pSlaveThread) { KviTQCString szData = encodeText(text); const char * d = szData.data(); if(!d)return; KviStr buf(KviStr::Format,"%cACTION %s%c\r\n",0x01,d,0x01); m_pSlaveThread->sendRawData(buf.ptr(),buf.len()); output(KVI_OUT_ACTION,"%Q %Q",&(m_pDescriptor->szLocalNick),&text); } else { output(KVI_OUT_SYSTEMWARNING,__tr2qs_ctx("Cannot send data: No active connection","dcc")); } } bool KviDccChat::event(TQEvent *e) { if(e->type() == KVI_THREAD_EVENT) { switch(((KviThreadEvent *)e)->id()) { case KVI_DCC_THREAD_EVENT_ERROR: { int * err = ((KviThreadDataEvent *)e)->getData(); TQString szErr = KviError::getDescription(*err); if(!KVS_TRIGGER_EVENT_2_HALTED(KviEvent_OnDCCChatError,this,szErr,m_pDescriptor->idString())) output(KVI_OUT_DCCERROR,__tr2qs_ctx("ERROR: %Q","dcc"),&szErr); KVS_TRIGGER_EVENT_1(KviEvent_OnDCCChatDisconnected,this,m_pDescriptor->idString()); delete err; return true; } break; case KVI_DCC_THREAD_EVENT_DATA: { KviStr * encoded = ((KviThreadDataEvent *)e)->getData(); KviStr d=KviStr(decodeText(encoded->ptr())); if(d.firstCharIs(0x01)) { d.cutLeft(1); if(d.lastCharIs(0x01))d.cutRight(1); if(kvi_strEqualCIN("ACTION",d.ptr(),6))d.cutLeft(6); d.stripLeftWhiteSpace(); output(KVI_OUT_ACTION,"%Q %s",&(m_pDescriptor->szNick),d.ptr()); } else { #ifdef COMPILE_CRYPT_SUPPORT if(KviCryptSessionInfo * cinf = cryptSessionInfo()) { if(cinf->bDoDecrypt) { KviStr decryptedStuff; switch(cinf->pEngine->decrypt(d.ptr(),decryptedStuff)) { case KviCryptEngine::DecryptOkWasEncrypted: case KviCryptEngine::DecryptOkWasEncoded: case KviCryptEngine::DecryptOkWasPlainText: if(!KVS_TRIGGER_EVENT_2_HALTED(KviEvent_OnDCCChatMessage,this,TQString(decryptedStuff.ptr()),m_pDescriptor->idString())) { m_pFrm->firstConsole()->outputPrivmsg(this,KVI_OUT_DCCCHATMSG, m_pDescriptor->szNick.utf8().data(),m_pDescriptor->szUser.utf8().data(), m_pDescriptor->szHost.utf8().data(),decryptedStuff.ptr()); } delete encoded; return true; break; default: // also case KviCryptEngine::DecryptError { TQString szErr = cinf->pEngine->lastError(); output(KVI_OUT_SYSTEMERROR, __tr2qs_ctx("The following message appears to be encrypted, but the crypto engine failed to decode it: %Q","dcc"), &szErr); } break; } } } else { #endif // FIXME! if(!KVS_TRIGGER_EVENT_2_HALTED(KviEvent_OnDCCChatMessage,this,TQString(d.ptr()),m_pDescriptor->idString())) m_pFrm->firstConsole()->outputPrivmsg(this,KVI_OUT_DCCCHATMSG, m_pDescriptor->szNick.utf8().data(),m_pDescriptor->szUser.utf8().data(), m_pDescriptor->szHost.utf8().data(),d.ptr()); #ifdef COMPILE_CRYPT_SUPPORT } #endif } delete encoded; return true; } break; } } return KviWindow::event(e); } void KviDccChat::resizeEvent(TQResizeEvent *e) { int hght = m_pInput->heightHint(); int hght2 = m_pTopSplitter->sizeHint().height(); m_pTopSplitter->setGeometry(0,0,width(),hght2); m_pSplitter->setGeometry(0,hght2,width(),height() - (hght + hght2)); m_pInput->setGeometry(0,height() - hght,width(),hght); } TQSize KviDccChat::sizeHint() const { TQSize ret(m_pIrcView->sizeHint().width(), m_pIrcView->sizeHint().height() + m_pInput->heightHint()); return ret; } void KviDccChat::handleMarshalError(int err) { TQString szErr = KviError::getDescription(err); if(!KVS_TRIGGER_EVENT_2_HALTED(KviEvent_OnDCCChatError,this,szErr,m_pDescriptor->idString())) output(KVI_OUT_DCCERROR,__tr2qs_ctx("DCC %Q failed: %Q","dcc"),&(m_pDescriptor->szType),&szErr); } void KviDccChat::connected() { if(!(m_pDescriptor->bActive)) { // PASSIVE CONNECTION...Find out the remote end m_pDescriptor->szIp = m_pMarshal->remoteIp(); m_pDescriptor->szPort = m_pMarshal->remotePort(); m_pDescriptor->szHost = m_pMarshal->remoteIp(); } updateCaption(); m_pSlaveThread = new KviDccChatThread(this,m_pMarshal->releaseSocket()); #ifdef COMPILE_SSL_SUPPORT KviSSL * s = m_pMarshal->releaseSSL(); if(s) { KviSSLMaster::printSSLConnectionInfo(this,s); m_pSlaveThread->setSSL(s); } #endif m_pSlaveThread->start(); if(!KVS_TRIGGER_EVENT_1_HALTED(KviEvent_OnDCCChatConnected,this,m_pDescriptor->idString())) { output(KVI_OUT_DCCMSG,__tr2qs_ctx("Connected to %Q:%Q","dcc"), &(m_pMarshal->remoteIp()),&(m_pMarshal->remotePort())); output(KVI_OUT_DCCMSG,__tr2qs_ctx("Local end is %Q:%Q","dcc"), &(m_pMarshal->localIp()),&(m_pMarshal->localPort())); } } //////////////////////////////////////////////////////////////////////////////////////////////////////////////////// //////////////////////////////////////////////////////////////////////////////////////////////////////////////////// //////////////////////////////////////////////////////////////////////////////////////////////////////////////////// ////// ////// THREAD ////// //////////////////////////////////////////////////////////////////////////////////////////////////////////////////// //////////////////////////////////////////////////////////////////////////////////////////////////////////////////// //////////////////////////////////////////////////////////////////////////////////////////////////////////////////// KviDccChatThread::KviDccChatThread(KviWindow *wnd,kvi_socket_t fd) : KviDccThread(wnd,fd) { m_pOutBuffers = new KviPointerList; m_pOutBuffers->setAutoDelete(true); } KviDccChatThread::~KviDccChatThread() { if(m_pOutBuffers)delete m_pOutBuffers; } void KviDccChatThread::run() { KviDccThreadIncomingData data; data.iLen = 0; data.buffer = 0; for(;;) { // Dequeue events while(KviThreadEvent * e = dequeueEvent()) { if(e->id() == KVI_THREAD_EVENT_TERMINATE) { delete e; goto out_of_the_loop; } else { // Other events are senseless to us delete e; } } bool bCanRead; bool bCanWrite; if(kvi_select(m_fd,&bCanRead,&bCanWrite)) { if(bCanWrite) { if(!tryFlushOutBuffers())goto out_of_the_loop; } if(bCanRead) { data.buffer = (char *) kvi_realloc(data.buffer,(data.iLen + 512) * sizeof(char)); int readLen; #ifdef COMPILE_SSL_SUPPORT if(m_pSSL) { readLen = m_pSSL->read(data.buffer + data.iLen,512); } else { #endif readLen = kvi_socket_recv(m_fd,data.buffer + data.iLen,512); #ifdef COMPILE_SSL_SUPPORT } #endif if(readLen > 0) { data.iLen += readLen; data.buffer = (char *)kvi_realloc(data.buffer,data.iLen * sizeof(char)); if(!handleIncomingData(&data,false))break; // non critical... } else { #ifdef COMPILE_SSL_SUPPORT if(m_pSSL) { // ssl error....? switch(m_pSSL->getProtocolError(readLen)) { case KviSSL::ZeroReturn: readLen = 0; break; case KviSSL::WantRead: case KviSSL::WantWrite: // hmmm... break; case KviSSL::SyscallError: { int iE = m_pSSL->getLastError(true); if(iE != 0) { raiseSSLError(); postErrorEvent(KviError_SSLError); goto out_of_the_loop; } } break; case KviSSL::SSLError: { raiseSSLError(); postErrorEvent(KviError_SSLError); goto out_of_the_loop; } break; default: // Raise unknown SSL ERROR postErrorEvent(KviError_SSLError); goto out_of_the_loop; break; } } #endif if(data.iLen > 0) { data.buffer = (char *)kvi_realloc(data.buffer,data.iLen * sizeof(char)); } else { kvi_free(data.buffer); data.buffer = 0; } if(!handleInvalidSocketRead(readLen)) { if(data.iLen)handleIncomingData(&data,true); // critical __range_invalid(data.iLen); break; // error } } } msleep(100); } } out_of_the_loop: if(data.iLen)kvi_free(data.buffer); #ifdef COMPILE_SSL_SUPPORT if(m_pSSL) { KviSSLMaster::freeSSL(m_pSSL); m_pSSL = 0; } #endif if(m_fd != KVI_INVALID_SOCKET)::kvi_socket_close(m_fd); m_fd = KVI_INVALID_SOCKET; } bool KviDccChatThread::handleIncomingData(KviDccThreadIncomingData * data,bool bCritical) { __range_valid(data->iLen); __range_valid(data->buffer); char * aux = data->buffer; char * end = data->buffer + data->iLen; while(aux != end) { if((*aux == '\n') || (*aux == '\0')) { KviThreadDataEvent * e = new KviThreadDataEvent(KVI_DCC_THREAD_EVENT_DATA); // The left part is len chars long int len = aux - data->buffer; // tqDebug("LEN = %d, iLen = %d",len,data->iLen); //#warning "DO IT BETTER (the \r cutting)" KviStr * s = new KviStr(data->buffer,len); if(s->lastCharIs('\r'))s->cutRight(1); e->setData(s); // but we cut also \n (or \0) ++aux; // so len += 1; --> new data->iLen -= len; data->iLen -= (len + 1); // tqDebug("iLen now = %d",data->iLen); __range_valid(data->iLen >= 0); if(data->iLen > 0) { // memmove the remaining part to the beginning // aux points after \n or \0 kvi_memmove(data->buffer,aux,data->iLen); data->buffer = (char *)kvi_realloc(data->buffer,data->iLen); end = data->buffer + data->iLen; aux = data->buffer; } else { // no more data in the buffer __range_valid(data->iLen == 0); kvi_free(data->buffer); data->buffer = end = aux = 0; } postEvent(parent(),e); } else aux++; // tqDebug("PASSING CHAR %c",*aux); } // now aux == end if(bCritical) { // need to flush everything... if(data->iLen > 0) { // in the last part there are no NULL and \n chars KviThreadDataEvent * e = new KviThreadDataEvent(KVI_DCC_THREAD_EVENT_DATA); KviStr * s = new KviStr(data->buffer,data->iLen); if(s->lastCharIs('\r'))s->cutRight(1); e->setData(s); data->iLen = 0; kvi_free(data->buffer); data->buffer = 0; postEvent(parent(),e); } } return true; } void KviDccChatThread::sendRawData(const void * buffer,int len) { m_pMutex->lock(); m_pOutBuffers->append(new KviDataBuffer((unsigned int)len,(const unsigned char *)buffer)); m_pMutex->unlock(); } bool KviDccChatThread::tryFlushOutBuffers() { bool bRet = true; m_pMutex->lock(); while(KviDataBuffer * b = m_pOutBuffers->first()) { int sentLen; #ifdef COMPILE_SSL_SUPPORT if(m_pSSL) { sentLen = m_pSSL->write((const char *)b->data(),b->size()); } else { #endif sentLen = kvi_socket_send(m_fd,b->data(),b->size()); #ifdef COMPILE_SSL_SUPPORT } #endif if(sentLen > 0) { if(sentLen == b->size())m_pOutBuffers->removeFirst(); else { // just a part b->remove((unsigned int)sentLen); break; } } else { #ifdef COMPILE_SSL_SUPPORT if(m_pSSL) { // ops...might be an SSL error switch(m_pSSL->getProtocolError(sentLen)) { case KviSSL::WantWrite: case KviSSL::WantRead: // Async continue... goto handle_system_error; break; case KviSSL::SyscallError: if(sentLen == 0) { raiseSSLError(); postErrorEvent(KviError_remoteEndClosedConnection); bRet = false; goto out_of_the_loop; } else { int iSSLErr = m_pSSL->getLastError(true); if(iSSLErr != 0) { raiseSSLError(); postErrorEvent(KviError_SSLError); bRet = false; goto out_of_the_loop; } else { goto handle_system_error; } } break; case KviSSL::SSLError: raiseSSLError(); postErrorEvent(KviError_SSLError); bRet = false; goto out_of_the_loop; break; default: postErrorEvent(KviError_SSLError); bRet = false; goto out_of_the_loop; break; } } #endif handle_system_error: if(sentLen < 0) { int err = kvi_socket_error(); #ifdef COMPILE_ON_WINDOWS if((err != EAGAIN) || (err != EINTR) || (err != WSAEWOULDBLOCK)) #else if((err != EAGAIN)||(err != EINTR)) #endif { postErrorEvent(KviError::translateSystemError(err)); bRet = false; goto out_of_the_loop; } } break; // send error } } out_of_the_loop: m_pMutex->unlock(); return bRet; } #include "m_chat.moc"