/* Miranda NG: the free IM client for Microsoft* Windows* Copyright (ñ) 2012-15 Miranda NG project (http://miranda-ng.org) 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. */ #include "stdafx.h" STDMETHODIMP_(LONG) CDb3Mmap::GetEventCount(MCONTACT contactID) { mir_cslock lck(m_csDbAccess); DBContact *dbc = (DBContact*)DBRead(GetContactOffset(contactID), NULL); return (dbc->signature != DBCONTACT_SIGNATURE) ? -1 : dbc->eventCount; } STDMETHODIMP_(MEVENT) CDb3Mmap::AddEvent(MCONTACT contactID, DBEVENTINFO *dbei) { if (dbei == NULL || dbei->cbSize != sizeof(DBEVENTINFO)) return 0; if (dbei->timestamp == 0) return 0; MCONTACT contactNotifyID = contactID; DBCachedContact *ccSub = NULL; if (contactID != 0) { DBCachedContact *cc = m_cache->GetCachedContact(contactID); if (cc == NULL) return NULL; if (cc->IsSub()) { ccSub = cc; // set default sub to the event's source if (!(dbei->flags & DBEF_SENT)) db_mc_setDefault(cc->parentID, contactID, false); contactID = cc->parentID; // and add an event to a metahistory if (db_mc_isEnabled()) contactNotifyID = contactID; } } if (NotifyEventHooks(hEventFilterAddedEvent, contactNotifyID, (LPARAM)dbei)) return NULL; DBEvent dbe; dbe.signature = DBEVENT_SIGNATURE; dbe.contactID = contactID; // store native or subcontact's id dbe.timestamp = dbei->timestamp; dbe.flags = dbei->flags; dbe.wEventType = dbei->eventType; dbe.cbBlob = dbei->cbBlob; BYTE *pBlob = dbei->pBlob; mir_ptr pCryptBlob; if (m_bEncrypted) { size_t len; BYTE *pResult = m_crypto->encodeBuffer(pBlob, dbe.cbBlob, &len); if (pResult != NULL) { pCryptBlob = pBlob = pResult; dbe.cbBlob = (DWORD)len; dbe.flags |= DBEF_ENCRYPTED; } } mir_cslockfull lck(m_csDbAccess); DWORD ofsContact = GetContactOffset(contactID); DBContact dbc = *(DBContact*)DBRead(ofsContact, NULL); if (dbc.signature != DBCONTACT_SIGNATURE) return NULL; DWORD ofsNew = CreateNewSpace(offsetof(DBEvent, blob) + dbe.cbBlob); dbe.ofsModuleName = GetModuleNameOfs(dbei->szModule); // find where to put it - sort by timestamp if (dbc.eventCount == 0) { dbe.ofsPrev = dbe.ofsNext = 0; dbc.ofsFirstEvent = dbc.ofsLastEvent = ofsNew; } else { DBEvent *dbeTest = (DBEvent*)DBRead(dbc.ofsFirstEvent, NULL); // Should new event be placed before first event in chain? if (dbe.timestamp < dbeTest->timestamp) { dbe.ofsPrev = 0; dbe.ofsNext = dbc.ofsFirstEvent; dbc.ofsFirstEvent = ofsNew; dbeTest = (DBEvent*)DBRead(dbe.ofsNext, NULL); dbeTest->ofsPrev = ofsNew; DBWrite(dbe.ofsNext, dbeTest, sizeof(DBEvent)); } else { // Loop through the chain, starting at the end DWORD ofsThis = dbc.ofsLastEvent; dbeTest = (DBEvent*)DBRead(ofsThis, NULL); for (;;) { // If the new event's timesstamp is equal to or greater than the // current dbevent, it will be inserted after. If not, continue // with the previous dbevent in chain. if (dbe.timestamp >= dbeTest->timestamp) { dbe.ofsPrev = ofsThis; dbe.ofsNext = dbeTest->ofsNext; dbeTest->ofsNext = ofsNew; DBWrite(ofsThis, dbeTest, sizeof(DBEvent)); if (dbe.ofsNext == 0) dbc.ofsLastEvent = ofsNew; else { dbeTest = (DBEvent*)DBRead(dbe.ofsNext, NULL); dbeTest->ofsPrev = ofsNew; DBWrite(dbe.ofsNext, dbeTest, sizeof(DBEvent)); } break; } ofsThis = dbeTest->ofsPrev; dbeTest = (DBEvent*)DBRead(ofsThis, NULL); } } } dbc.eventCount++; bool neednotify; if (!(dbe.flags & (DBEF_READ | DBEF_SENT))) { if (dbe.timestamp < dbc.tsFirstUnread || dbc.tsFirstUnread == 0) { dbc.tsFirstUnread = dbe.timestamp; dbc.ofsFirstUnread = ofsNew; } neednotify = true; } else neednotify = m_safetyMode; if (ccSub != NULL) { DBContact *pSub = (DBContact*)DBRead(ccSub->dwOfsContact, NULL); pSub->eventCount++; } DBWrite(ofsContact, &dbc, sizeof(DBContact)); DBWrite(ofsNew, &dbe, offsetof(DBEvent, blob)); DBWrite(ofsNew + offsetof(DBEvent, blob), pBlob, dbe.cbBlob); DBFlush(0); lck.unlock(); log1("add event @ %08x", ofsNew); // Notify only in safe mode or on really new events if (neednotify) NotifyEventHooks(hEventAddedEvent, contactNotifyID, (LPARAM)ofsNew); return (MEVENT)ofsNew; } STDMETHODIMP_(BOOL) CDb3Mmap::DeleteEvent(MCONTACT contactID, MEVENT hDbEvent) { DBCachedContact *cc; if (contactID) { if ((cc = m_cache->GetCachedContact(contactID)) == NULL) return 2; if (cc->IsSub()) if ((cc = m_cache->GetCachedContact(cc->parentID)) == NULL) return 3; } else cc = NULL; mir_cslockfull lck(m_csDbAccess); DWORD ofsContact = (cc) ? cc->dwOfsContact : m_dbHeader.ofsUser; DBContact dbc = *(DBContact*)DBRead(ofsContact, NULL); DBEvent dbe = *(DBEvent*)DBRead((DWORD)hDbEvent, NULL); if (dbc.signature != DBCONTACT_SIGNATURE || dbe.signature != DBEVENT_SIGNATURE) return 1; lck.unlock(); log1("delete event @ %08x", hContact); // call notifier while outside mutex NotifyEventHooks(hEventDeletedEvent, contactID, (LPARAM)hDbEvent); // get back in lck.lock(); dbc = *(DBContact*)DBRead(ofsContact, NULL); dbe = *(DBEvent*)DBRead((DWORD)hDbEvent, NULL); // check if this was the first unread, if so, recalc the first unread if (dbc.ofsFirstUnread == (DWORD)hDbEvent) { for (DBEvent *dbeNext = &dbe;;) { if (dbeNext->ofsNext == 0) { dbc.ofsFirstUnread = 0; dbc.tsFirstUnread = 0; break; } DWORD ofsThis = dbeNext->ofsNext; dbeNext = (DBEvent*)DBRead(ofsThis, NULL); if (!dbeNext->markedRead()) { dbc.ofsFirstUnread = ofsThis; dbc.tsFirstUnread = dbeNext->timestamp; break; } } } // get previous and next events in chain and change offsets if (dbe.ofsPrev == 0) { if (dbe.ofsNext == 0) dbc.ofsFirstEvent = dbc.ofsLastEvent = 0; else { DBEvent *dbeNext = (DBEvent*)DBRead(dbe.ofsNext, NULL); dbeNext->ofsPrev = 0; DBWrite(dbe.ofsNext, dbeNext, sizeof(DBEvent)); dbc.ofsFirstEvent = dbe.ofsNext; } } else { if (dbe.ofsNext == 0) { DBEvent *dbePrev = (DBEvent*)DBRead(dbe.ofsPrev, NULL); dbePrev->ofsNext = 0; DBWrite(dbe.ofsPrev, dbePrev, sizeof(DBEvent)); dbc.ofsLastEvent = dbe.ofsPrev; } else { DBEvent *dbePrev = (DBEvent*)DBRead(dbe.ofsPrev, NULL); dbePrev->ofsNext = dbe.ofsNext; DBWrite(dbe.ofsPrev, dbePrev, sizeof(DBEvent)); DBEvent *dbeNext = (DBEvent*)DBRead(dbe.ofsNext, NULL); dbeNext->ofsPrev = dbe.ofsPrev; DBWrite(dbe.ofsNext, dbeNext, sizeof(DBEvent)); } } // decrement event count dbc.eventCount--; DBWrite(ofsContact, &dbc, sizeof(DBContact)); // delete event DeleteSpace((DWORD)hDbEvent, offsetof(DBEvent, blob) + dbe.cbBlob); // also update a sub if (cc && dbe.contactID != cc->contactID) { DBContact *pSub = (DBContact*)DBRead(GetContactOffset(dbe.contactID), NULL); if (pSub->eventCount > 0) pSub->eventCount--; } DBFlush(0); return 0; } STDMETHODIMP_(LONG) CDb3Mmap::GetBlobSize(MEVENT hDbEvent) { mir_cslock lck(m_csDbAccess); DBEvent *dbe = AdaptEvent((DWORD)hDbEvent, 0); return (dbe->signature != DBEVENT_SIGNATURE) ? -1 : dbe->cbBlob; } STDMETHODIMP_(BOOL) CDb3Mmap::GetEvent(MEVENT hDbEvent, DBEVENTINFO *dbei) { if (dbei == NULL || dbei->cbSize != sizeof(DBEVENTINFO)) return 1; if (dbei->cbBlob > 0 && dbei->pBlob == NULL) { dbei->cbBlob = 0; return 1; } mir_cslock lck(m_csDbAccess); DBEvent *dbe = AdaptEvent((DWORD)hDbEvent, 0); if (dbe->signature != DBEVENT_SIGNATURE) return 1; dbei->szModule = GetModuleNameByOfs(dbe->ofsModuleName); dbei->timestamp = dbe->timestamp; dbei->flags = dbe->flags; dbei->eventType = dbe->wEventType; int bytesToCopy = (dbei->cbBlob < dbe->cbBlob) ? dbei->cbBlob : dbe->cbBlob; dbei->cbBlob = dbe->cbBlob; if (bytesToCopy && dbei->pBlob) { BYTE *pSrc; if (m_dbHeader.version >= DB_095_1_VERSION) pSrc = DBRead(DWORD(hDbEvent) + offsetof(DBEvent, blob), NULL); else pSrc = DBRead(DWORD(hDbEvent) + offsetof(DBEvent_094, blob), NULL); if (dbe->flags & DBEF_ENCRYPTED) { dbei->flags &= ~DBEF_ENCRYPTED; size_t len; BYTE* pBlob = (BYTE*)m_crypto->decodeBuffer(pSrc, dbe->cbBlob, &len); if (pBlob == NULL) return 1; memcpy(dbei->pBlob, pBlob, bytesToCopy); if (bytesToCopy > (int)len) memset(dbei->pBlob + len, 0, bytesToCopy - len); mir_free(pBlob); } else memcpy(dbei->pBlob, pSrc, bytesToCopy); } return 0; } STDMETHODIMP_(BOOL) CDb3Mmap::MarkEventRead(MCONTACT contactID, MEVENT hDbEvent) { DBCachedContact *cc; if (contactID) { if ((cc = m_cache->GetCachedContact(contactID)) == NULL) return -1; if (cc->IsSub()) if ((cc = m_cache->GetCachedContact(cc->parentID)) == NULL) return -1; } else cc = NULL; mir_cslockfull lck(m_csDbAccess); DWORD ofsContact = (cc) ? cc->dwOfsContact : m_dbHeader.ofsUser; DBContact dbc = *(DBContact*)DBRead(ofsContact, NULL); DBEvent *dbe = (DBEvent*)DBRead((DWORD)hDbEvent, NULL); if (dbe->signature != DBEVENT_SIGNATURE || dbc.signature != DBCONTACT_SIGNATURE) return -1; if (dbe->markedRead()) return dbe->flags; // log1("mark read @ %08x", hContact); dbe->flags |= DBEF_READ; DBWrite((DWORD)hDbEvent, dbe, sizeof(DBEvent)); BOOL ret = dbe->flags; if (dbc.ofsFirstUnread == (DWORD)hDbEvent) { for (;;) { if (dbe->ofsNext == 0) { dbc.ofsFirstUnread = 0; dbc.tsFirstUnread = 0; break; } DWORD ofsThis = dbe->ofsNext; dbe = (DBEvent*)DBRead(ofsThis, NULL); if (!dbe->markedRead()) { dbc.ofsFirstUnread = ofsThis; dbc.tsFirstUnread = dbe->timestamp; break; } } } DBWrite(ofsContact, &dbc, sizeof(DBContact)); DBFlush(0); lck.unlock(); NotifyEventHooks(hEventMarkedRead, contactID, (LPARAM)hDbEvent); return ret; } STDMETHODIMP_(MCONTACT) CDb3Mmap::GetEventContact(MEVENT hDbEvent) { mir_cslock lck(m_csDbAccess); DBEvent *dbe = AdaptEvent((DWORD)hDbEvent, INVALID_CONTACT_ID); return (dbe->signature != DBEVENT_SIGNATURE) ? INVALID_CONTACT_ID : dbe->contactID; } STDMETHODIMP_(MEVENT) CDb3Mmap::FindFirstEvent(MCONTACT contactID) { DBCachedContact *cc; DWORD ofsContact = GetContactOffset(contactID, &cc); mir_cslock lck(m_csDbAccess); DBContact *dbc = (DBContact*)DBRead(ofsContact, NULL); if (dbc->signature != DBCONTACT_SIGNATURE) return NULL; if (!cc || !cc->IsSub()) return MEVENT(dbc->ofsFirstEvent); if ((cc = m_cache->GetCachedContact(cc->parentID)) == NULL) return NULL; dbc = (DBContact*)DBRead(cc->dwOfsContact, NULL); if (dbc->signature != DBCONTACT_SIGNATURE) return NULL; for (DWORD dwOffset = dbc->ofsFirstEvent; dwOffset != 0;) { DBEvent *dbe = AdaptEvent(dwOffset, contactID); if (dbe->signature != DBEVENT_SIGNATURE) return NULL; if (dbe->contactID == contactID) return MEVENT(dwOffset); dwOffset = dbe->ofsNext; } return NULL; } STDMETHODIMP_(MEVENT) CDb3Mmap::FindFirstUnreadEvent(MCONTACT contactID) { DBCachedContact *cc; DWORD ofsContact = GetContactOffset(contactID, &cc); mir_cslock lck(m_csDbAccess); DBContact *dbc = (DBContact*)DBRead(ofsContact, NULL); if (dbc->signature != DBCONTACT_SIGNATURE) return NULL; if (!cc || !cc->IsSub()) return MEVENT(dbc->ofsFirstUnread); if ((cc = m_cache->GetCachedContact(cc->parentID)) == NULL) return NULL; dbc = (DBContact*)DBRead(cc->dwOfsContact, NULL); if (dbc->signature != DBCONTACT_SIGNATURE) return NULL; for (DWORD dwOffset = dbc->ofsFirstUnread; dwOffset != 0;) { DBEvent *dbe = AdaptEvent(dwOffset, contactID); if (dbe->signature != DBEVENT_SIGNATURE) return NULL; if (dbe->contactID == contactID && !dbe->markedRead()) return MEVENT(dwOffset); dwOffset = dbe->ofsNext; } return NULL; } STDMETHODIMP_(MEVENT) CDb3Mmap::FindLastEvent(MCONTACT contactID) { DBCachedContact *cc; DWORD ofsContact = GetContactOffset(contactID, &cc); mir_cslock lck(m_csDbAccess); DBContact *dbc = (DBContact*)DBRead(ofsContact, NULL); if (dbc->signature != DBCONTACT_SIGNATURE) return NULL; if (!cc || !cc->IsSub()) return MEVENT(dbc->ofsLastEvent); if ((cc = m_cache->GetCachedContact(cc->parentID)) == NULL) return NULL; dbc = (DBContact*)DBRead(cc->dwOfsContact, NULL); if (dbc->signature != DBCONTACT_SIGNATURE) return NULL; for (DWORD dwOffset = dbc->ofsLastEvent; dwOffset != 0;) { DBEvent *dbe = AdaptEvent(dwOffset, contactID); if (dbe->signature != DBEVENT_SIGNATURE) return NULL; if (dbe->contactID == contactID) return MEVENT(dwOffset); dwOffset = dbe->ofsPrev; } return NULL; } STDMETHODIMP_(MEVENT) CDb3Mmap::FindNextEvent(MCONTACT contactID, MEVENT hDbEvent) { DBCachedContact *cc = (contactID) ? m_cache->GetCachedContact(contactID) : NULL; mir_cslock lck(m_csDbAccess); DBEvent *dbe = AdaptEvent((DWORD)hDbEvent, contactID); if (dbe->signature != DBEVENT_SIGNATURE) return NULL; if (!cc || !cc->IsSub()) return MEVENT(dbe->ofsNext); for (DWORD dwOffset = dbe->ofsNext; dwOffset != 0;) { dbe = AdaptEvent(dwOffset, contactID); if (dbe->signature != DBEVENT_SIGNATURE) return NULL; if (dbe->contactID == contactID) return MEVENT(dwOffset); dwOffset = dbe->ofsNext; } return NULL; } STDMETHODIMP_(MEVENT) CDb3Mmap::FindPrevEvent(MCONTACT contactID, MEVENT hDbEvent) { DBCachedContact *cc = (contactID) ? m_cache->GetCachedContact(contactID) : NULL; mir_cslock lck(m_csDbAccess); DBEvent *dbe = AdaptEvent((DWORD)hDbEvent, contactID); if (dbe->signature != DBEVENT_SIGNATURE) return NULL; if (!cc || !cc->IsSub()) return MEVENT(dbe->ofsPrev); for (DWORD dwOffset = dbe->ofsPrev; dwOffset != 0;) { dbe = AdaptEvent(dwOffset, contactID); if (dbe->signature != DBEVENT_SIGNATURE) return NULL; if (dbe->contactID == contactID) return MEVENT(dwOffset); dwOffset = dbe->ofsPrev; } return NULL; } DBEvent* CDb3Mmap::AdaptEvent(DWORD ofs, DWORD dwContactID) { if (m_dbHeader.version >= DB_095_1_VERSION) return (DBEvent*)DBRead(ofs, NULL); DBEvent_094 *pOldEvent = (DBEvent_094*)DBRead(ofs, NULL); m_tmpEvent.signature = pOldEvent->signature; m_tmpEvent.contactID = dwContactID; memcpy(&m_tmpEvent.ofsPrev, &pOldEvent->ofsPrev, sizeof(DBEvent_094) - sizeof(DWORD)); return &m_tmpEvent; } ///////////////////////////////////////////////////////////////////////////////////////// // low-level history cleaner int CDb3Mmap::WipeContactHistory(DBContact *dbc) { // drop subContact's history if any for (DWORD dwOffset = dbc->ofsFirstEvent; dwOffset != 0;) { DBEvent *pev = (DBEvent*)DBRead(dwOffset, NULL); if (pev->signature != DBEVENT_SIGNATURE) // broken chain, don't touch it return 2; DWORD dwNext = pev->ofsNext; DeleteSpace(dwOffset, offsetof(DBEvent, blob) + pev->cbBlob); dwOffset = dwNext; } dbc->eventCount = 0; dbc->ofsFirstEvent = dbc->ofsLastEvent = dbc->ofsFirstUnread = dbc->tsFirstUnread = 0; return 0; }