/* Miranda Database Tool Miranda IM: the free IM client for Microsoft* Windows* Copyright 2000-2011 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. */ #include "dbtool.h" static BOOL backLookup; static DWORD ofsThisEvent,ofsPrevEvent; static DWORD ofsDestPrevEvent; static DWORD eventCount; static DWORD lastTimestamp; static DWORD ofsFirstUnread,timestampFirstUnread; static DWORD memsize = 0; static DBEvent* memblock = NULL; static DBEvent* dbePrevEvent = NULL; static void ConvertOldEvent( DBEvent*& dbei ) { int msglen = (int)strlen(( char* )dbei->blob) + 1, msglenW = 0; if ( msglen != (int) dbei->cbBlob ) { int i, count = (( dbei->cbBlob - msglen ) / sizeof( WCHAR )); WCHAR* p = ( WCHAR* )&dbei->blob[ msglen ]; for ( i=0; i < count; i++ ) { if ( p[i] == 0 ) { msglenW = i; break; } } } else { if( !is_utf8_string(( char* )dbei->blob)) dbei->flags &= ~DBEF_UTF; } if ( msglenW > 0 && msglenW <= msglen ) { char* utf8str = Utf8EncodeW(( WCHAR* )&dbei->blob[ msglen ] ); dbei->cbBlob = (DWORD)strlen( utf8str )+1; dbei->flags |= DBEF_UTF; if (offsetof(DBEvent,blob)+dbei->cbBlob > memsize) { memsize = offsetof(DBEvent,blob)+dbei->cbBlob; memblock = (DBEvent*)realloc(memblock, memsize); dbei = memblock; } memcpy( &dbei->blob, utf8str, dbei->cbBlob ); free(utf8str); } } static void WriteOfsNextToPrevious(DWORD ofsPrev,DBContact *dbc,DWORD ofsNext) { if(ofsPrev) WriteSegment(ofsPrev+offsetof(DBEvent,ofsNext),&ofsNext,sizeof(DWORD)); else dbc->ofsFirstEvent=ofsNext; } static void FinishUp(DWORD ofsLast,DBContact *dbc) { WriteOfsNextToPrevious(ofsLast,dbc,0); if(eventCount!=dbc->eventCount) AddToStatus(STATUS_WARNING,TranslateT("Event count marked wrongly: correcting")); dbc->eventCount=eventCount; dbc->ofsLastEvent=ofsLast; if(opts.bMarkRead) { dbc->ofsFirstUnreadEvent=0; dbc->timestampFirstUnread=0; } else { dbc->ofsFirstUnreadEvent=ofsFirstUnread; dbc->timestampFirstUnread=timestampFirstUnread; } if (memsize && memblock) { free(memblock); memsize = 0; memblock = NULL; } } static DWORD WriteEvent(DBEvent *dbe) { DWORD ofs = WriteSegment( WSOFS_END, dbe, offsetof(DBEvent,blob)+dbe->cbBlob ); if ( ofs == WS_ERROR ) { free( memblock ); memblock = NULL; memsize = 0; return 0; } return ofs; } int WorkEventChain(DWORD ofsContact,DBContact *dbc,int firstTime) { DBEvent *dbeNew,dbeOld; DBEvent *dbePrev = NULL; DWORD ofsDestThis; int isUnread=0; if(firstTime) { dbePrevEvent = NULL; ofsPrevEvent=0; ofsDestPrevEvent=0; ofsThisEvent=dbc->ofsFirstEvent; eventCount=0; backLookup=0; lastTimestamp=0; ofsFirstUnread=timestampFirstUnread=0; if(opts.bEraseHistory) { dbc->eventCount=0; dbc->ofsFirstEvent=0; dbc->ofsLastEvent=0; dbc->ofsFirstUnreadEvent=0; dbc->timestampFirstUnread=0; return ERROR_NO_MORE_ITEMS; } } if(ofsThisEvent==0) { FinishUp(ofsDestPrevEvent,dbc); return ERROR_NO_MORE_ITEMS; } if(!SignatureValid(ofsThisEvent,DBEVENT_SIGNATURE)) { DWORD ofsNew = 0; DWORD ofsTmp = dbc->ofsLastEvent; if (!backLookup && ofsTmp) { backLookup = 1; while(SignatureValid(ofsTmp,DBEVENT_SIGNATURE)) { if(PeekSegment(ofsTmp,&dbeOld,sizeof(dbeOld))!=ERROR_SUCCESS) break; ofsNew = ofsTmp; ofsTmp = dbeOld.ofsPrev; } } if (ofsNew) { AddToStatus(STATUS_WARNING,TranslateT("Event chain corrupted, trying to recover...")); ofsThisEvent = ofsNew; } else { AddToStatus(STATUS_ERROR,TranslateT("Event chain corrupted, further entries ignored")); FinishUp(ofsDestPrevEvent,dbc); return ERROR_NO_MORE_ITEMS; } } if(PeekSegment(ofsThisEvent,&dbeOld,sizeof(dbeOld))!=ERROR_SUCCESS) { FinishUp(ofsDestPrevEvent,dbc); return ERROR_NO_MORE_ITEMS; } if(firstTime) { if(!(dbeOld.flags&DBEF_FIRST)) { AddToStatus(STATUS_WARNING,TranslateT("First event not marked as such: correcting")); dbeOld.flags|=DBEF_FIRST; } dbeOld.ofsPrev=ofsContact; lastTimestamp=dbeOld.timestamp; } else if(dbeOld.flags&DBEF_FIRST) { AddToStatus(STATUS_WARNING,TranslateT("Event marked as first which is not: correcting")); dbeOld.flags&=~DBEF_FIRST; } if(dbeOld.flags&~(DBEF_FIRST|DBEF_READ|DBEF_SENT|DBEF_RTL|DBEF_UTF)) { AddToStatus(STATUS_WARNING,TranslateT("Extra flags found in event: removing")); dbeOld.flags&=(DBEF_FIRST|DBEF_READ|DBEF_SENT|DBEF_RTL|DBEF_UTF); } if(!(dbeOld.flags&(DBEF_READ|DBEF_SENT))) { if(opts.bMarkRead) dbeOld.flags|=DBEF_READ; else if(ofsFirstUnread==0) { if(dbc->ofsFirstUnreadEvent!=ofsThisEvent || dbc->timestampFirstUnread!=dbeOld.timestamp) AddToStatus(STATUS_WARNING,TranslateT("First unread event marked wrong: fixing")); isUnread=1; } } if(dbeOld.cbBlob>1024*1024 || dbeOld.cbBlob==0) { AddToStatus(STATUS_ERROR,TranslateT("Infeasibly large event blob: skipping")); ofsThisEvent=dbeOld.ofsNext; return ERROR_SUCCESS; } if ( dbePrevEvent && dbeOld.timestamp == lastTimestamp ) { int len = offsetof(DBEvent,blob)+dbePrevEvent->cbBlob; dbePrev = (DBEvent*)malloc(len); memcpy(dbePrev, dbePrevEvent, len); } if (offsetof(DBEvent,blob)+dbeOld.cbBlob > memsize) { memsize = offsetof(DBEvent,blob)+dbeOld.cbBlob; memblock = (DBEvent*)realloc(memblock, memsize); } dbeNew=memblock; if(ReadSegment(ofsThisEvent,dbeNew,offsetof(DBEvent,blob)+dbeOld.cbBlob)!=ERROR_SUCCESS) { FinishUp(ofsDestPrevEvent,dbc); return ERROR_NO_MORE_ITEMS; } if((dbeNew->ofsModuleName=ConvertModuleNameOfs(dbeOld.ofsModuleName))==0) { ofsThisEvent=dbeOld.ofsNext; return ERROR_SUCCESS; } if(!firstTime && dbeOld.ofsPrev!=ofsPrevEvent) AddToStatus(STATUS_WARNING,TranslateT("Event not backlinked correctly: fixing")); dbeNew->flags=dbeOld.flags; dbeNew->ofsPrev=ofsDestPrevEvent; dbeNew->ofsNext=0; if ( dbeOld.eventType == EVENTTYPE_MESSAGE && opts.bConvertUtf ) ConvertOldEvent(dbeNew); if ( dbePrev ) { if ( dbePrev->cbBlob == dbeNew->cbBlob && dbePrev->ofsModuleName == dbeNew->ofsModuleName && dbePrev->eventType == dbeNew->eventType && (dbePrev->flags & DBEF_SENT) == (dbeNew->flags & DBEF_SENT) && !memcmp( dbePrev->blob, dbeNew->blob, dbeNew->cbBlob ) ) { AddToStatus(STATUS_WARNING,TranslateT("Duplicate event was found: skipping")); if (dbc->eventCount) dbc->eventCount--; free(dbePrev); // ofsDestPrevEvent is still the same! ofsPrevEvent=ofsThisEvent; ofsThisEvent=dbeOld.ofsNext; return ERROR_SUCCESS; } free(dbePrev); } else if ( !firstTime && dbeNew->timestamp < lastTimestamp ) { DWORD found = 0; DBEvent dbeTmp; DWORD ofsTmp; if (opts.bCheckOnly) { if (!opts.bAggressive) { ofsTmp = dbeOld.ofsPrev; while(PeekSegment(ofsTmp,&dbeTmp,sizeof(dbeTmp))==ERROR_SUCCESS) { if (dbeTmp.ofsPrev == ofsContact) { found = 1; break; } if (dbeTmp.timestamp < dbeNew->timestamp) { found = 2; break; } ofsTmp = dbeTmp.ofsPrev; } } AddToStatus(STATUS_WARNING,TranslateT("Event position in chain is not correct")); } else { ofsTmp = ofsDestPrevEvent; while(ReadWrittenSegment(ofsTmp,&dbeTmp,sizeof(dbeTmp))==ERROR_SUCCESS) { if (dbeTmp.ofsPrev == ofsContact) { found = 1; break; } if (dbeTmp.timestamp < dbeNew->timestamp) { found = 2; break; } ofsTmp = dbeTmp.ofsPrev; } if (found) AddToStatus(STATUS_WARNING,TranslateT("Event position in chain is not correct: fixing")); else AddToStatus(STATUS_WARNING,TranslateT("Event position in chain is not correct: unable to fix")); } // insert before FIRST if (found == 1 && !opts.bCheckOnly) { dbeNew->flags|=DBEF_FIRST; dbeNew->ofsPrev=ofsContact; dbeNew->ofsNext=dbc->ofsFirstEvent; ofsDestThis = WriteEvent(dbeNew); if ( !ofsDestThis ) return ERROR_HANDLE_DISK_FULL; if ( isUnread && timestampFirstUnread >= dbeNew->timestamp ) { ofsFirstUnread=ofsDestThis; timestampFirstUnread=dbeNew->timestamp; } // fix first event WriteOfsNextToPrevious(0,dbc,ofsDestThis); // fix next event WriteSegment(dbeNew->ofsNext+offsetof(DBEvent,ofsPrev),&ofsDestThis,sizeof(DWORD)); dbeTmp.flags &=~DBEF_FIRST; WriteSegment(dbeNew->ofsNext+offsetof(DBEvent,flags),&dbeTmp.flags,sizeof(DWORD)); } else if (found == 2 && !opts.bCheckOnly) { dbeNew->ofsPrev=ofsTmp; dbeNew->ofsNext=dbeTmp.ofsNext; ofsDestThis = WriteEvent(dbeNew); if ( !ofsDestThis ) return ERROR_HANDLE_DISK_FULL; if ( isUnread && timestampFirstUnread >= dbeNew->timestamp ) { ofsFirstUnread=ofsDestThis; timestampFirstUnread=dbeNew->timestamp; } // fix previous event WriteOfsNextToPrevious(dbeNew->ofsPrev,dbc,ofsDestThis); // fix next event WriteSegment(dbeNew->ofsNext+offsetof(DBEvent,ofsPrev),&ofsDestThis,sizeof(DWORD)); } if (found) { eventCount++; // ofsDestPrevEvent is still the same! ofsPrevEvent=ofsThisEvent; ofsThisEvent=dbeOld.ofsNext; return ERROR_SUCCESS; } } lastTimestamp=dbeNew->timestamp; dbePrevEvent = dbeNew; ofsDestThis = WriteEvent(dbeNew); if ( !ofsDestThis ) return ERROR_HANDLE_DISK_FULL; if ( isUnread ) { ofsFirstUnread=ofsDestThis; timestampFirstUnread=dbeOld.timestamp; } eventCount++; WriteOfsNextToPrevious(ofsDestPrevEvent,dbc,ofsDestThis); ofsDestPrevEvent=ofsDestThis; ofsPrevEvent=ofsThisEvent; ofsThisEvent=dbeOld.ofsNext; return ERROR_SUCCESS; }