/* * astyle --force-indent=tab=4 --brackets=linux --indent-switches * --pad=oper --one-line=keep-blocks --unpad=paren * * Miranda NG: the free IM client for Microsoft* Windows* * * Copyright 2000-2009 Miranda ICQ/IM project, * all portions of this codebase are copyrighted to the people * listed in contributors.txt. * * 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 option) 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., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. * * part of tabSRMM messaging plugin for Miranda. * * (C) 2005-2010 by silvercircle _at_ gmail _dot_ com and contributors * * Implements a queued, asynchronous sending system for tabSRMM. * */ #include "commonheaders.h" SendQueue *sendQueue = 0; static char *pss_msg = "/SendMsg"; static char *pss_msgw = "/SendMsgW"; /** * get the service name to send a message * * @param hContact (HANDLE) contact's handle * @param dat _MessageWindowData * @param dwFlags * * @return (char *) name of the service to send a message to this contact */ char *SendQueue::MsgServiceName(const HANDLE hContact = 0, const TWindowData *dat = 0, int dwFlags = 0) { char szServiceName[100]; char *szProto = GetContactProto(hContact); if (szProto == NULL) return pss_msg; if (dat) { if (dat->sendMode & SMODE_FORCEANSI || !(dwFlags & PREF_UNICODE)) return pss_msg; } _snprintf(szServiceName, sizeof(szServiceName), "%s%sW", szProto, PSS_MESSAGE); if (ServiceExists(szServiceName)) return pss_msgw; return pss_msg; } /* * searches the queue for a message belonging to the given contact which has been marked * as "failed" by either the ACKRESULT_FAILED or a timeout handler * returns: zero-based queue index or -1 if none was found */ int SendQueue::findNextFailed(const TWindowData *dat) const { if (dat) { int i; for (i=0; i < NR_SENDJOBS; i++) { if (m_jobs[i].hOwner == dat->hContact && m_jobs[i].iStatus == SQ_ERROR) return i; } return -1; } return -1; } void SendQueue::handleError(TWindowData *dat, const int iEntry) const { if (dat) { TCHAR szErrorMsg[500]; dat->iCurrentQueueError = iEntry; mir_sntprintf(szErrorMsg, 500, _T("%s"), m_jobs[iEntry].szErrorMsg); logError(dat, iEntry, szErrorMsg); recallFailed(dat, iEntry); showErrorControls(dat, TRUE); ::HandleIconFeedback(dat, PluginConfig.g_iconErr); } } /* * add a message to the sending queue. * iLen = required size of the memory block to hold the message */ int SendQueue::addTo(TWindowData *dat, const int iLen, int dwFlags) { int iLength = 0, i; int iFound = NR_SENDJOBS; if (m_currentIndex >= NR_SENDJOBS) { _DebugPopup(dat->hContact, _T("Send queue full")); return 0; } /* * find a free entry in the send queue... */ for (i=0; i < NR_SENDJOBS; i++) { if (m_jobs[i].hOwner != 0 || m_jobs[i].iStatus != 0) { // this entry is used, check if it's orphaned and can be removed... if (m_jobs[i].hwndOwner && IsWindow(m_jobs[i].hwndOwner)) // window exists, do not reuse it continue; if (time(NULL) - m_jobs[i].dwTime < 120) // non-acked entry, but not old enough, don't re-use it continue; clearJob(i); iFound = i; goto entry_found; } iFound = i; break; } entry_found: if (iFound == NR_SENDJOBS) { _DebugPopup(dat->hContact, _T("Send queue full")); return 0; } iLength = iLen; if (iLength > 0) { if (m_jobs[iFound].sendBuffer == NULL) { if (iLength < HISTORY_INITIAL_ALLOCSIZE) iLength = HISTORY_INITIAL_ALLOCSIZE; m_jobs[iFound].sendBuffer = (char *)malloc(iLength); m_jobs[iFound].dwLen = iLength; } else { if (iLength > m_jobs[iFound].dwLen) { m_jobs[iFound].sendBuffer = (char *)realloc(m_jobs[iFound].sendBuffer, iLength); m_jobs[iFound].dwLen = iLength; } } CopyMemory(m_jobs[iFound].sendBuffer, dat->sendBuffer, iLen); } m_jobs[iFound].dwFlags = dwFlags; m_jobs[iFound].dwTime = time(NULL); HWND hwndDlg = dat->hwnd; dat->cache->saveHistory(0, 0); ::SetDlgItemText(hwndDlg, IDC_MESSAGE, _T("")); ::SetFocus(GetDlgItem(hwndDlg, IDC_MESSAGE)); UpdateSaveAndSendButton(dat); sendQueued(dat, iFound); return 0; } /* * threshold for word-wrapping when sending messages in chunks */ #define SPLIT_WORD_CUTOFF 20 static int SendChunkW(WCHAR *chunk, HANDLE hContact, char *szSvc, DWORD dwFlags) { BYTE *pBuf = NULL; int wLen = lstrlenW(chunk), id; DWORD memRequired = (wLen + 1) * sizeof(WCHAR); DWORD codePage = DBGetContactSettingDword(hContact, SRMSGMOD_T, "ANSIcodepage", CP_ACP); int mbcsSize = WideCharToMultiByte(codePage, 0, chunk, -1, (char *)pBuf, 0, 0, 0); memRequired += mbcsSize; pBuf = (BYTE *)mir_alloc(memRequired); WideCharToMultiByte(codePage, 0, chunk, -1, (char *)pBuf, mbcsSize, 0, 0); CopyMemory(&pBuf[mbcsSize], chunk, (wLen + 1) * sizeof(WCHAR)); id = CallContactService(hContact, szSvc, dwFlags, (LPARAM)pBuf); mir_free(pBuf); return id; } static int SendChunkA(char *chunk, HANDLE hContact, char *szSvc, DWORD dwFlags) { return(CallContactService(hContact, szSvc, dwFlags, (LPARAM)chunk)); } static void DoSplitSendW(LPVOID param) { struct SendJob *job = sendQueue->getJobByIndex((int)param); int id; BOOL fFirstSend = FALSE; WCHAR *wszBegin, *wszTemp, *wszSaved, savedChar; int iLen, iCur = 0, iSavedCur = 0, i; BOOL fSplitting = TRUE; char szServiceName[100], *svcName; HANDLE hContact = job->hOwner; DWORD dwFlags = job->dwFlags; int chunkSize = job->chunkSize / 2; char *szProto = GetContactProto(hContact); if (szProto == NULL) svcName = pss_msg; else { _snprintf(szServiceName, sizeof(szServiceName), "%s%sW", szProto, PSS_MESSAGE); if (ServiceExists(szServiceName)) svcName = pss_msgw; else svcName = pss_msg; } iLen = lstrlenA(job->sendBuffer); wszBegin = (WCHAR *) & job->sendBuffer[iLen + 1]; wszTemp = (WCHAR *)mir_alloc(sizeof(WCHAR) * (lstrlenW(wszBegin) + 1)); CopyMemory(wszTemp, wszBegin, sizeof(WCHAR) * (lstrlenW(wszBegin) + 1)); wszBegin = wszTemp; do { iCur += chunkSize; if (iCur > iLen) fSplitting = FALSE; /* * try to "word wrap" the chunks - split on word boundaries (space characters), if possible. * SPLIT_WORD_CUTOFF = max length of unbreakable words, longer words may be split. */ if (fSplitting) { i = 0; wszSaved = &wszBegin[iCur]; iSavedCur = iCur; while (iCur) { if (wszBegin[iCur] == (TCHAR)' ') { wszSaved = &wszBegin[iCur]; break; } if (i == SPLIT_WORD_CUTOFF) { // no space found backwards, restore old split position iCur = iSavedCur; wszSaved = &wszBegin[iCur]; break; } i++; iCur--; } savedChar = *wszSaved; *wszSaved = 0; id = SendChunkW(wszTemp, hContact, svcName, dwFlags); if (!fFirstSend) { job->hSendId = (HANDLE)id; fFirstSend = TRUE; PostMessage(PluginConfig.g_hwndHotkeyHandler, DM_SPLITSENDACK, (WPARAM)param, 0); } *wszSaved = savedChar; wszTemp = wszSaved; if (savedChar == (TCHAR)' ') { wszTemp++; iCur++; } } else { id = SendChunkW(wszTemp, hContact, svcName, dwFlags); if (!fFirstSend) { job->hSendId = (HANDLE)id; fFirstSend = TRUE; PostMessage(PluginConfig.g_hwndHotkeyHandler, DM_SPLITSENDACK, (WPARAM)param, 0); } } Sleep(500L); } while (fSplitting); mir_free(wszBegin); } static void DoSplitSendA(LPVOID param) { struct SendJob *job = sendQueue->getJobByIndex((int)param); int id; BOOL fFirstSend = FALSE; char *szBegin, *szTemp, *szSaved, savedChar; int iLen, iCur = 0, iSavedCur = 0, i; BOOL fSplitting = TRUE; char *svcName; HANDLE hContact = job->hOwner; DWORD dwFlags = job->dwFlags; int chunkSize = job->chunkSize; svcName = pss_msg; iLen = lstrlenA(job->sendBuffer); szTemp = (char *)mir_alloc(iLen + 1); CopyMemory(szTemp, job->sendBuffer, iLen + 1); szBegin = szTemp; do { iCur += chunkSize; if (iCur > iLen) fSplitting = FALSE; if (fSplitting) { i = 0; szSaved = &szBegin[iCur]; iSavedCur = iCur; while (iCur) { if (szBegin[iCur] == ' ') { szSaved = &szBegin[iCur]; break; } if (i == SPLIT_WORD_CUTOFF) { iCur = iSavedCur; szSaved = &szBegin[iCur]; break; } i++; iCur--; } savedChar = *szSaved; *szSaved = 0; id = SendChunkA(szTemp, hContact, PSS_MESSAGE, dwFlags); if (!fFirstSend) { job->hSendId = (HANDLE)id; fFirstSend = TRUE; PostMessage(PluginConfig.g_hwndHotkeyHandler, DM_SPLITSENDACK, (WPARAM)param, 0); } *szSaved = savedChar; szTemp = szSaved; if (savedChar == ' ') { szTemp++; iCur++; } } else { id = SendChunkA(szTemp, hContact, PSS_MESSAGE, dwFlags); if (!fFirstSend) { job->hSendId = (HANDLE)id; fFirstSend = TRUE; PostMessage(PluginConfig.g_hwndHotkeyHandler, DM_SPLITSENDACK, (WPARAM)param, 0); } } Sleep(500L); } while (fSplitting); mir_free(szBegin); } /** * return effective length of the message in bytes (utf-8 encoded) */ int SendQueue::getSendLength(const int iEntry, int sendMode) { if (m_jobs[iEntry].dwFlags & PREF_UNICODE && !(sendMode & SMODE_FORCEANSI)) { int iLen; WCHAR *wszBuf; char *utf8; iLen = lstrlenA(m_jobs[iEntry].sendBuffer); wszBuf = (WCHAR *) & m_jobs[iEntry].sendBuffer[iLen + 1]; utf8 = mir_utf8encodeT(wszBuf); m_jobs[iEntry].iSendLength = lstrlenA(utf8); mir_free(utf8); return(m_jobs[iEntry].iSendLength); } else { m_jobs[iEntry].iSendLength = lstrlenA(m_jobs[iEntry].sendBuffer); return(m_jobs[iEntry].iSendLength); } } int SendQueue::sendQueued(TWindowData *dat, const int iEntry) { HWND hwndDlg = dat->hwnd; if (dat->sendMode & SMODE_MULTIPLE) { HANDLE hContact, hItem; int iJobs = 0; int iMinLength = 0; CContactCache* c = 0; hContact = db_find_first(); m_jobs[iEntry].hOwner = dat->hContact; m_jobs[iEntry].iStatus = SQ_INPROGRESS; m_jobs[iEntry].hwndOwner = hwndDlg; int iSendLength = getSendLength(iEntry, dat->sendMode); do { hItem = (HANDLE) SendDlgItemMessage(hwndDlg, IDC_CLIST, CLM_FINDCONTACT, (WPARAM) hContact, 0); if (hItem && SendDlgItemMessage(hwndDlg, IDC_CLIST, CLM_GETCHECKMARK, (WPARAM) hItem, 0)) { c = CContactCache::getContactCache(hContact); if (c) iMinLength = (iMinLength == 0 ? c->getMaxMessageLength() : min(c->getMaxMessageLength(), iMinLength)); } } while (hContact = db_find_next(hContact)); if (iSendLength >= iMinLength) { TCHAR tszError[256]; mir_sntprintf(tszError, 256, TranslateT("The message cannot be sent delayed or to multiple contacts, because it exceeds the maximum allowed message length of %d bytes"), iMinLength); ::SendMessage(dat->hwnd, DM_ACTIVATETOOLTIP, IDC_MESSAGE, reinterpret_cast(tszError)); sendQueue->clearJob(iEntry); return 0; } hContact = db_find_first(); do { hItem = (HANDLE) SendDlgItemMessage(hwndDlg, IDC_CLIST, CLM_FINDCONTACT, (WPARAM) hContact, 0); if (hItem && SendDlgItemMessage(hwndDlg, IDC_CLIST, CLM_GETCHECKMARK, (WPARAM) hItem, 0)) { doSendLater(iEntry, 0, hContact, false); iJobs++; } } while (hContact = db_find_next(hContact)); sendQueue->clearJob(iEntry); if (iJobs) sendLater->flushQueue(); // force queue processing return 0; } else { if (dat->hContact == NULL) return 0; //never happens dat->nMax = dat->cache->getMaxMessageLength(); // refresh length info if (dat->sendMode & SMODE_FORCEANSI && M->GetByte(dat->cache->getActiveContact(), dat->cache->getActiveProto(), "UnicodeSend", 1)) M->WriteByte(dat->cache->getActiveContact(), dat->cache->getActiveProto(), "UnicodeSend", 0); else if (!(dat->sendMode & SMODE_FORCEANSI) && !M->GetByte(dat->cache->getActiveContact(), dat->cache->getActiveProto(), "UnicodeSend", 0)) M->WriteByte(dat->cache->getActiveContact(), dat->cache->getActiveProto(), "UnicodeSend", 1); if (M->GetByte("autosplit", 0) && !(dat->sendMode & SMODE_SENDLATER)) { BOOL fSplit = FALSE; DWORD dwOldFlags; /* * determine send buffer length */ if (getSendLength(iEntry, dat->sendMode) >= dat->nMax) fSplit = true; if (!fSplit) goto send_unsplitted; m_jobs[iEntry].hOwner = dat->hContact; m_jobs[iEntry].hwndOwner = hwndDlg; m_jobs[iEntry].iStatus = SQ_INPROGRESS; m_jobs[iEntry].iAcksNeeded = 1; m_jobs[iEntry].chunkSize = dat->nMax; dwOldFlags = m_jobs[iEntry].dwFlags; if (dat->sendMode & SMODE_FORCEANSI) m_jobs[iEntry].dwFlags &= ~PREF_UNICODE; if (!(m_jobs[iEntry].dwFlags & PREF_UNICODE) || dat->sendMode & SMODE_FORCEANSI) mir_forkthread(DoSplitSendA, (LPVOID)iEntry); else mir_forkthread(DoSplitSendW, (LPVOID)iEntry); m_jobs[iEntry].dwFlags = dwOldFlags; } else { send_unsplitted: m_jobs[iEntry].hOwner = dat->hContact; m_jobs[iEntry].hwndOwner = hwndDlg; m_jobs[iEntry].iStatus = SQ_INPROGRESS; m_jobs[iEntry].iAcksNeeded = 1; if (dat->sendMode & SMODE_SENDLATER) { TCHAR tszError[256]; int iSendLength = getSendLength(iEntry, dat->sendMode); if (iSendLength >= dat->nMax) { mir_sntprintf(tszError, 256, TranslateT("The message cannot be sent delayed or to multiple contacts, because it exceeds the maximum allowed message length of %d bytes"), dat->nMax); SendMessage(dat->hwnd, DM_ACTIVATETOOLTIP, IDC_MESSAGE, reinterpret_cast(tszError)); clearJob(iEntry); return 0; } doSendLater(iEntry, dat); clearJob(iEntry); return 0; } m_jobs[iEntry].hSendId = (HANDLE) CallContactService(dat->hContact, MsgServiceName(dat->hContact, dat, m_jobs[iEntry].dwFlags), (dat->sendMode & SMODE_FORCEANSI) ? (m_jobs[iEntry].dwFlags & ~PREF_UNICODE) : m_jobs[iEntry].dwFlags, (LPARAM) m_jobs[iEntry].sendBuffer); if (dat->sendMode & SMODE_NOACK) { // fake the ack if we are not interested in receiving real acks ACKDATA ack = {0}; ack.hContact = dat->hContact; ack.hProcess = m_jobs[iEntry].hSendId; ack.type = ACKTYPE_MESSAGE; ack.result = ACKRESULT_SUCCESS; SendMessage(hwndDlg, HM_EVENTSENT, (WPARAM)MAKELONG(iEntry, 0), (LPARAM)&ack); } else SetTimer(hwndDlg, TIMERID_MSGSEND + iEntry, PluginConfig.m_MsgTimeout, NULL); } } dat->iOpenJobs++; m_currentIndex++; // give icon feedback... if (dat->pContainer->hwndActive == hwndDlg) ::UpdateReadChars(dat); if (!(dat->sendMode & SMODE_NOACK)) ::HandleIconFeedback(dat, PluginConfig.g_IconSend); if (M->GetByte(SRMSGSET_AUTOMIN, SRMSGDEFSET_AUTOMIN)) ::SendMessage(dat->pContainer->hwnd, WM_SYSCOMMAND, SC_MINIMIZE, 0); return 0; } void SendQueue::clearJob(const int iIndex) { m_jobs[iIndex].hOwner = 0; m_jobs[iIndex].hwndOwner = 0; m_jobs[iIndex].iStatus = 0; m_jobs[iIndex].iAcksNeeded = 0; m_jobs[iIndex].dwFlags = 0; m_jobs[iIndex].chunkSize = 0; m_jobs[iIndex].dwTime = 0; m_jobs[iIndex].hSendId = 0; m_jobs[iIndex].iSendLength = 0; } /* * this is called when: * * ) a delivery has completed successfully * ) user decided to cancel a failed send * it removes the completed / canceled send job from the queue and schedules the next job to send (if any) */ void SendQueue::checkQueue(const TWindowData *dat) const { if (dat) { HWND hwndDlg = dat->hwnd; if (dat->iOpenJobs == 0) { ::HandleIconFeedback(const_cast(dat), (HICON) - 1); } else if (!(dat->sendMode & SMODE_NOACK)) ::HandleIconFeedback(const_cast(dat), PluginConfig.g_IconSend); if (dat->pContainer->hwndActive == hwndDlg) ::UpdateReadChars(const_cast(dat)); } } /* * logs an error message to the message window. Optionally, appends the original message * from the given sendJob (queue index) */ void SendQueue::logError(const TWindowData *dat, int iSendJobIndex, const TCHAR *szErrMsg) const { DBEVENTINFO dbei = {0}; int iMsgLen; if (dat == 0) return; dbei.eventType = EVENTTYPE_ERRMSG; dbei.cbSize = sizeof(dbei); if (iSendJobIndex >= 0) { dbei.pBlob = (BYTE *)m_jobs[iSendJobIndex].sendBuffer; iMsgLen = lstrlenA(m_jobs[iSendJobIndex].sendBuffer) + 1; } else { iMsgLen = 0; dbei.pBlob = NULL; } if (m_jobs[iSendJobIndex].dwFlags & PREF_UTF) dbei.flags = DBEF_UTF; if (iSendJobIndex >= 0) { if (m_jobs[iSendJobIndex].dwFlags & PREF_UNICODE) { iMsgLen *= 3; } } dbei.cbBlob = iMsgLen; dbei.timestamp = time(NULL); dbei.szModule = (char *)szErrMsg; StreamInEvents(dat->hwnd, NULL, 1, 1, &dbei); } /* * enable or disable the sending controls in the given window * ) input area * ) multisend contact list instance * ) send button */ void SendQueue::EnableSending(const TWindowData *dat, const int iMode) { if (dat) { HWND hwndDlg = dat->hwnd; ::SendDlgItemMessage(hwndDlg, IDC_MESSAGE, EM_SETREADONLY, (WPARAM) iMode ? FALSE : TRUE, 0); Utils::enableDlgControl(hwndDlg, IDC_CLIST, iMode ? TRUE : FALSE); ::EnableSendButton(dat, iMode); } } /* * show or hide the error control button bar on top of the window */ void SendQueue::showErrorControls(TWindowData *dat, const int showCmd) const { UINT myerrorControls[] = { IDC_STATICERRORICON, IDC_STATICTEXT, IDC_RETRY, IDC_CANCELSEND, IDC_MSGSENDLATER}; int i; HWND hwndDlg = dat->hwnd; if (showCmd) { TCITEM item = {0}; dat->hTabIcon = PluginConfig.g_iconErr; item.mask = TCIF_IMAGE; item.iImage = 0; TabCtrl_SetItem(GetDlgItem(dat->pContainer->hwnd, IDC_MSGTABS), dat->iTabID, &item); dat->dwFlags |= MWF_ERRORSTATE; } else { dat->dwFlags &= ~MWF_ERRORSTATE; dat->hTabIcon = dat->hTabStatusIcon; } for (i=0; i < 5; i++) { if (IsWindow(GetDlgItem(hwndDlg, myerrorControls[i]))) Utils::showDlgControl(hwndDlg, myerrorControls[i], showCmd ? SW_SHOW : SW_HIDE); } SendMessage(hwndDlg, WM_SIZE, 0, 0); DM_ScrollToBottom(dat, 0, 1); if (m_jobs[0].hOwner != 0) EnableSending(dat, TRUE); } void SendQueue::recallFailed(const TWindowData *dat, int iEntry) const { int iLen = GetWindowTextLengthA(GetDlgItem(dat->hwnd, IDC_MESSAGE)); if (dat) { NotifyDeliveryFailure(dat); if (iLen == 0) { // message area is empty, so we can recall the failed message... SETTEXTEX stx = {ST_DEFAULT, 1200}; if (m_jobs[iEntry].dwFlags & PREF_UNICODE) SendDlgItemMessage(dat->hwnd, IDC_MESSAGE, EM_SETTEXTEX, (WPARAM)&stx, (LPARAM)&m_jobs[iEntry].sendBuffer[lstrlenA(m_jobs[iEntry].sendBuffer) + 1]); else { stx.codepage = (m_jobs[iEntry].dwFlags & PREF_UTF) ? CP_UTF8 : CP_ACP; SendDlgItemMessage(dat->hwnd, IDC_MESSAGE, EM_SETTEXTEX, (WPARAM)&stx, (LPARAM)m_jobs[iEntry].sendBuffer); } UpdateSaveAndSendButton(const_cast(dat)); SendDlgItemMessage(dat->hwnd, IDC_MESSAGE, EM_SETSEL, (WPARAM) - 1, (LPARAM) - 1); } } } void SendQueue::UpdateSaveAndSendButton(TWindowData *dat) { if (dat) { int len; HWND hwndDlg = dat->hwnd; GETTEXTLENGTHEX gtxl = {0}; gtxl.codepage = CP_UTF8; gtxl.flags = GTL_DEFAULT | GTL_PRECISE | GTL_NUMBYTES; len = SendDlgItemMessage(hwndDlg, IDC_MESSAGE, EM_GETTEXTLENGTHEX, (WPARAM) & gtxl, 0); if (len && GetSendButtonState(hwndDlg) == PBS_DISABLED) EnableSendButton(dat, TRUE); else if (len == 0 && GetSendButtonState(hwndDlg) != PBS_DISABLED) EnableSendButton(dat, FALSE); if (len) { // looks complex but avoids flickering on the button while typing. if (!(dat->dwFlags & MWF_SAVEBTN_SAV)) { SendDlgItemMessage(hwndDlg, IDC_SAVE, BM_SETIMAGE, IMAGE_ICON, (LPARAM) PluginConfig.g_buttonBarIcons[ICON_BUTTON_SAVE]); SendDlgItemMessage(hwndDlg, IDC_SAVE, BUTTONADDTOOLTIP, (WPARAM) pszIDCSAVE_save, 0); dat->dwFlags |= MWF_SAVEBTN_SAV; } } else { SendDlgItemMessage(hwndDlg, IDC_SAVE, BM_SETIMAGE, IMAGE_ICON, (LPARAM) PluginConfig.g_buttonBarIcons[ICON_BUTTON_CANCEL]); SendDlgItemMessage(hwndDlg, IDC_SAVE, BUTTONADDTOOLTIP, (WPARAM) pszIDCSAVE_close, 0); dat->dwFlags &= ~MWF_SAVEBTN_SAV; } dat->textLen = len; } } void SendQueue::NotifyDeliveryFailure(const TWindowData *dat) { if (M->GetByte("adv_noErrorPopups", 0)) return; if ( CallService(MS_POPUP_QUERY, PUQS_GETSTATUS, 0) != 1) return; POPUPDATAT ppd = { 0 }; ppd.lchContact = dat->hContact; lstrcpyn(ppd.lptzContactName, dat->cache->getNick(), MAX_CONTACTNAME); lstrcpyn(ppd.lptzText, TranslateT("A message delivery has failed.\nClick to open the message window."), MAX_SECONDLINE); if (!(BOOL)M->GetByte(MODULE, OPT_COLDEFAULT_ERR, TRUE)) { ppd.colorText = (COLORREF)M->GetDword(MODULE, OPT_COLTEXT_ERR, DEFAULT_COLTEXT); ppd.colorBack = (COLORREF)M->GetDword(MODULE, OPT_COLBACK_ERR, DEFAULT_COLBACK); } else ppd.colorText = ppd.colorBack = 0; ppd.PluginWindowProc = reinterpret_cast(Utils::PopupDlgProcError); ppd.lchIcon = PluginConfig.g_iconErr; ppd.PluginData = (void*)dat->hContact; ppd.iSeconds = (int)M->GetDword(MODULE, OPT_DELAY_ERR, (DWORD)DEFAULT_DELAY); PUAddPopUpT(&ppd); } /* * searches string for characters typical for RTL text (hebrew and other RTL languages */ int SendQueue::RTL_Detect(const WCHAR *pszwText) { WORD *infoTypeC2; int i, n = 0; int iLen = lstrlenW(pszwText); infoTypeC2 = (WORD *)mir_alloc(sizeof(WORD) * (iLen + 2)); if (infoTypeC2) { ZeroMemory(infoTypeC2, sizeof(WORD) * (iLen + 2)); GetStringTypeW(CT_CTYPE2, pszwText, iLen, infoTypeC2); for (i=0; i < iLen; i++) { if (infoTypeC2[i] == C2_RIGHTTOLEFT) n++; } mir_free(infoTypeC2); return(n >= 2 ? 1 : 0); } return 0; } int SendQueue::ackMessage(TWindowData *dat, WPARAM wParam, LPARAM lParam) { ACKDATA *ack = (ACKDATA *) lParam; DBEVENTINFO dbei = { 0}; HANDLE hNewEvent; int iFound = SendQueue::NR_SENDJOBS, iNextFailed; TContainerData *m_pContainer = 0; if (dat) m_pContainer = dat->pContainer; iFound = (int)(LOWORD(wParam)); //i = (int)(HIWORD(wParam)); if (m_jobs[iFound].iStatus == SQ_ERROR) { // received ack for a job which is already in error state... if (dat) { // window still open if (dat->iCurrentQueueError == iFound) { dat->iCurrentQueueError = -1; showErrorControls(dat, FALSE); } } /* * we must discard this job, because there is no message window open to handle the * error properly. But we display a tray notification to inform the user about the problem. */ else goto inform_and_discard; } // failed acks are only handled when the window is still open. with no window open, they will be *silently* discarded if (ack->result == ACKRESULT_FAILED) { if (dat) { /* * "hard" errors are handled differently in multisend. There is no option to retry - once failed, they * are discarded and the user is notified with a small log message. */ if (!nen_options.iNoSounds && !(m_pContainer->dwFlags & CNT_NOSOUND)) SkinPlaySound("SendError"); TCHAR *szAckMsg = mir_a2t((char *)ack->lParam); mir_sntprintf(m_jobs[iFound].szErrorMsg, SIZEOF(m_jobs[iFound].szErrorMsg), TranslateT("Delivery failure: %s"), szAckMsg); m_jobs[iFound].iStatus = SQ_ERROR; mir_free(szAckMsg); KillTimer(dat->hwnd, TIMERID_MSGSEND + iFound); if (!(dat->dwFlags & MWF_ERRORSTATE)) handleError(dat, iFound); return 0; } else { inform_and_discard: _DebugPopup(m_jobs[iFound].hOwner, TranslateT("A message delivery has failed after the contacts chat window was closed. You may want to resend the last message")); clearJob(iFound); return 0; } } dbei.cbSize = sizeof(dbei); dbei.eventType = EVENTTYPE_MESSAGE; dbei.flags = DBEF_SENT; dbei.szModule = GetContactProto(m_jobs[iFound].hOwner); dbei.timestamp = time(NULL); dbei.cbBlob = lstrlenA(m_jobs[iFound].sendBuffer) + 1; if (dat) dat->cache->updateStats(TSessionStats::BYTES_SENT, dbei.cbBlob - 1); else { CContactCache *c = CContactCache::getContactCache(m_jobs[iFound].hOwner); if (c) c->updateStats(TSessionStats::BYTES_SENT, dbei.cbBlob - 1); } if (m_jobs[iFound].dwFlags & PREF_UNICODE) dbei.cbBlob *= sizeof(TCHAR) + 1; if (m_jobs[iFound].dwFlags & PREF_RTL) dbei.flags |= DBEF_RTL; if (m_jobs[iFound].dwFlags & PREF_UTF) dbei.flags |= DBEF_UTF; dbei.pBlob = (PBYTE) m_jobs[iFound].sendBuffer; hNewEvent = db_event_add(m_jobs[iFound].hOwner, &dbei); if (m_pContainer) { if (!nen_options.iNoSounds && !(m_pContainer->dwFlags & CNT_NOSOUND)) SkinPlaySound("SendMsg"); } if (dat && (m_jobs[iFound].hOwner == dat->hContact)) { if (dat->hDbEventFirst == NULL) { dat->hDbEventFirst = hNewEvent; SendMessage(dat->hwnd, DM_REMAKELOG, 0, 0); } } m_jobs[iFound].hSendId = NULL; m_jobs[iFound].iAcksNeeded--; if (m_jobs[iFound].iAcksNeeded == 0) { // everything sent //if (m_jobs[iFound].hOwner != 0 && dat) // EnableSending(dat, TRUE); clearJob(iFound); if (dat) { KillTimer(dat->hwnd, TIMERID_MSGSEND + iFound); dat->iOpenJobs--; } m_currentIndex--; } if (dat) { checkQueue(dat); if ((iNextFailed = findNextFailed(dat)) >= 0 && !(dat->dwFlags & MWF_ERRORSTATE)) handleError(dat, iNextFailed); //MAD: close on send mode else { if (M->GetByte("AutoClose", 0)) { if (M->GetByte("adv_AutoClose_2", 0)) SendMessage(dat->hwnd, WM_CLOSE, 0, 1); else SendMessage(dat->pContainer->hwnd, WM_CLOSE, 0, 0); } } //MAD_ } return 0; } LRESULT SendQueue::WarnPendingJobs(unsigned int uNrMessages) { return(MessageBox(0, TranslateT("There are unsent messages waiting for confirmation.\nWhen you close the window now, Miranda will try to send them but may be unable to inform you about possible delivery errors.\nDo you really want to close the Window(s)?"), TranslateT("Message window warning"), MB_YESNO | MB_ICONHAND)); } /** * This just adds the message to the database for later delivery and * adds the contact to the list of contacts that have queued messages * * @param iJobIndex int: index of the send job * dat: Message window data * fAddHeader: add the "message was sent delayed" header (default = true) * hContact : contact to which the job should be added (default = hOwner of the send job) * * @return the index on success, -1 on failure */ int SendQueue::doSendLater(int iJobIndex, TWindowData *dat, HANDLE hContact, bool fIsSendLater) { bool fAvail = sendLater->isAvail(); const TCHAR *szNote = 0; if (fIsSendLater && dat) { if (fAvail) szNote = TranslateT("Message successfully queued for later delivery.\nIt will be sent as soon as possible and a popup will inform you about the result."); else szNote = TranslateT("The send later feature is not available on this protocol."); char *utfText = mir_utf8encodeT(szNote); DBEVENTINFO dbei; dbei.cbSize = sizeof(dbei); dbei.eventType = EVENTTYPE_MESSAGE; dbei.flags = DBEF_SENT | DBEF_UTF; dbei.szModule = GetContactProto(dat->hContact); dbei.timestamp = time(NULL); dbei.cbBlob = lstrlenA(utfText) + 1; dbei.pBlob = (PBYTE) utfText; StreamInEvents(dat->hwnd, 0, 1, 1, &dbei); if (dat->hDbEventFirst == NULL) SendMessage(dat->hwnd, DM_REMAKELOG, 0, 0); dat->cache->saveHistory(0, 0); EnableSendButton(dat, FALSE); if (dat->pContainer->hwndActive == dat->hwnd) UpdateReadChars(dat); SendDlgItemMessage(dat->hwnd, IDC_SAVE, BM_SETIMAGE, IMAGE_ICON, (LPARAM) PluginConfig.g_buttonBarIcons[ICON_BUTTON_CANCEL]); SendDlgItemMessage(dat->hwnd, IDC_SAVE, BUTTONADDTOOLTIP, (WPARAM)pszIDCSAVE_close, 0); dat->dwFlags &= ~MWF_SAVEBTN_SAV; mir_free(utfText); if (!fAvail) return 0; } if (iJobIndex >= 0 && iJobIndex < NR_SENDJOBS) { SendJob* job = &m_jobs[iJobIndex]; char szKeyName[20]; TCHAR tszTimestamp[30], tszHeader[150]; time_t now = time(0); if (fIsSendLater) { TCHAR *formatTime = _T("%Y.%m.%d - %H:%M"); _tcsftime(tszTimestamp, 30, formatTime, _localtime32((__time32_t *)&now)); tszTimestamp[29] = 0; mir_snprintf(szKeyName, 20, "S%d", now); mir_sntprintf(tszHeader, SIZEOF(tszHeader), TranslateT("\n(Sent delayed. Original timestamp %s)"), tszTimestamp); } else mir_sntprintf(tszHeader, SIZEOF(tszHeader), _T("M%d|"), time(0)); if (job->dwFlags & PREF_UTF || !(job->dwFlags & PREF_UNICODE)) { char *utf_header = mir_utf8encodeT(tszHeader); UINT required = lstrlenA(utf_header) + lstrlenA(job->sendBuffer) + 10; char *tszMsg = reinterpret_cast(mir_alloc(required)); if (fIsSendLater) { mir_snprintf(tszMsg, required, "%s%s", job->sendBuffer, utf_header); DBWriteContactSettingString(hContact ? hContact : job->hOwner, "SendLater", szKeyName, tszMsg); } else { mir_snprintf(tszMsg, required, "%s%s", utf_header, job->sendBuffer); sendLater->addJob(tszMsg, (LPARAM)hContact); } mir_free(utf_header); mir_free(tszMsg); } else if (job->dwFlags & PREF_UNICODE) { int iLen = lstrlenA(job->sendBuffer); wchar_t *wszMsg = (wchar_t *)&job->sendBuffer[iLen + 1]; UINT required = sizeof(TCHAR) * (lstrlen(tszHeader) + lstrlenW(wszMsg) + 10); TCHAR *tszMsg = reinterpret_cast(mir_alloc(required)); if (fIsSendLater) mir_sntprintf(tszMsg, required, _T("%s%s"), wszMsg, tszHeader); else mir_sntprintf(tszMsg, required, _T("%s%s"), tszHeader, wszMsg); char *utf = mir_utf8encodeT(tszMsg); if (fIsSendLater) DBWriteContactSettingString(hContact ? hContact : job->hOwner, "SendLater", szKeyName, utf); else sendLater->addJob(utf, (LPARAM)hContact); mir_free(utf); mir_free(tszMsg); } if (fIsSendLater) { int iCount = M->GetDword(hContact ? hContact : job->hOwner, "SendLater", "count", 0); iCount++; M->WriteDword(hContact ? hContact : job->hOwner, "SendLater", "count", iCount); sendLater->addContact(hContact ? hContact : job->hOwner); } return(iJobIndex); } return(-1); }