/* Miranda IM: the free IM client for Microsoft* Windows* Copyright 2000-2003 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 "commonheaders.h" DWORD GetModuleNameOfs(const char *szName); char *GetModuleNameByOfs(DWORD ofs); static INT_PTR GetEventCount(WPARAM wParam,LPARAM lParam); static INT_PTR AddEvent(WPARAM wParam,LPARAM lParam); static INT_PTR DeleteEvent(WPARAM wParam,LPARAM lParam); static INT_PTR GetBlobSize(WPARAM wParam,LPARAM lParam); static INT_PTR GetEvent(WPARAM wParam,LPARAM lParam); static INT_PTR MarkEventRead(WPARAM wParam,LPARAM lParam); static INT_PTR GetEventContact(WPARAM wParam,LPARAM lParam); static INT_PTR FindFirstEvent(WPARAM wParam,LPARAM lParam); static INT_PTR FindFirstUnreadEvent(WPARAM wParam,LPARAM lParam); static INT_PTR FindLastEvent(WPARAM wParam,LPARAM lParam); static INT_PTR FindNextEvent(WPARAM wParam,LPARAM lParam); static INT_PTR FindPrevEvent(WPARAM wParam,LPARAM lParam); static HANDLE hEventDeletedEvent,hEventAddedEvent,hEventFilterAddedEvent; int InitEvents(void) { CreateServiceFunction(MS_DB_EVENT_GETCOUNT,GetEventCount); CreateServiceFunction(MS_DB_EVENT_ADD,AddEvent); CreateServiceFunction(MS_DB_EVENT_DELETE,DeleteEvent); CreateServiceFunction(MS_DB_EVENT_GETBLOBSIZE,GetBlobSize); CreateServiceFunction(MS_DB_EVENT_GET,GetEvent); CreateServiceFunction(MS_DB_EVENT_MARKREAD,MarkEventRead); CreateServiceFunction(MS_DB_EVENT_GETCONTACT,GetEventContact); CreateServiceFunction(MS_DB_EVENT_FINDFIRST,FindFirstEvent); CreateServiceFunction(MS_DB_EVENT_FINDFIRSTUNREAD,FindFirstUnreadEvent); CreateServiceFunction(MS_DB_EVENT_FINDLAST,FindLastEvent); CreateServiceFunction(MS_DB_EVENT_FINDNEXT,FindNextEvent); CreateServiceFunction(MS_DB_EVENT_FINDPREV,FindPrevEvent); hEventDeletedEvent=CreateHookableEvent(ME_DB_EVENT_DELETED); hEventAddedEvent=CreateHookableEvent(ME_DB_EVENT_ADDED); hEventFilterAddedEvent=CreateHookableEvent(ME_DB_EVENT_FILTER_ADD); return 0; } void UninitEvents(void) { } static INT_PTR GetEventCount(WPARAM wParam,LPARAM lParam) { INT_PTR ret; struct DBContact *dbc; EnterCriticalSection(&csDbAccess); if(wParam==0) wParam=dbHeader.ofsUser; dbc=(struct DBContact*)DBRead(wParam,sizeof(struct DBContact),NULL); if(dbc->signature!=DBCONTACT_SIGNATURE) ret=-1; else ret=dbc->eventCount; LeaveCriticalSection(&csDbAccess); return ret; } static INT_PTR AddEvent(WPARAM wParam,LPARAM lParam) { DBEVENTINFO *dbei=(DBEVENTINFO*)lParam; struct DBContact dbc; struct DBEvent dbe,*dbeTest; DWORD ofsNew,ofsModuleName,ofsContact,ofsThis; if(dbei==NULL||dbei->cbSize!=sizeof(DBEVENTINFO)) return 0; if(dbei->timestamp==0) return 0; if (NotifyEventHooks(hEventFilterAddedEvent,wParam,lParam)) { return 0; } EnterCriticalSection(&csDbAccess); if(wParam==0) ofsContact=dbHeader.ofsUser; else ofsContact=wParam; dbc=*(struct DBContact*)DBRead(ofsContact,sizeof(struct DBContact),NULL); if(dbc.signature!=DBCONTACT_SIGNATURE) { LeaveCriticalSection(&csDbAccess); return 0; } ofsNew=CreateNewSpace(offsetof(struct DBEvent,blob)+dbei->cbBlob); ofsModuleName=GetModuleNameOfs(dbei->szModule); dbe.signature=DBEVENT_SIGNATURE; dbe.ofsModuleName=ofsModuleName; dbe.timestamp=dbei->timestamp; dbe.flags=dbei->flags; dbe.eventType=dbei->eventType; dbe.cbBlob=dbei->cbBlob; //find where to put it - sort by timestamp if(dbc.eventCount==0) { dbe.ofsPrev=wParam; dbe.ofsNext=0; dbe.flags|=DBEF_FIRST; dbc.ofsFirstEvent=dbc.ofsLastEvent=ofsNew; } else { dbeTest=(struct DBEvent*)DBRead(dbc.ofsFirstEvent,sizeof(struct DBEvent),NULL); // Should new event be placed before first event in chain? if (dbei->timestamp < dbeTest->timestamp) { dbe.ofsPrev=wParam; dbe.ofsNext=dbc.ofsFirstEvent; dbe.flags|=DBEF_FIRST; dbc.ofsFirstEvent=ofsNew; dbeTest=(struct DBEvent*)DBRead(dbe.ofsNext,sizeof(struct DBEvent),NULL); dbeTest->flags&=~DBEF_FIRST; dbeTest->ofsPrev=ofsNew; DBWrite(dbe.ofsNext,dbeTest,sizeof(struct DBEvent)); } else { // Loop through the chain, starting at the end ofsThis = dbc.ofsLastEvent; dbeTest = (struct DBEvent*)DBRead(ofsThis, sizeof(struct DBEvent), 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(struct DBEvent)); if (dbe.ofsNext == 0) dbc.ofsLastEvent = ofsNew; else { dbeTest = (struct DBEvent*)DBRead(dbe.ofsNext, sizeof(struct DBEvent), NULL); dbeTest->ofsPrev = ofsNew; DBWrite(dbe.ofsNext, dbeTest, sizeof(struct DBEvent)); } break; } ofsThis = dbeTest->ofsPrev; dbeTest = (struct DBEvent*)DBRead(ofsThis, sizeof(struct DBEvent), NULL); } } } dbc.eventCount++; if (!(dbe.flags&(DBEF_READ|DBEF_SENT))) { if(dbe.timestamppBlob,dbei->cbBlob); DBFlush(0); LeaveCriticalSection(&csDbAccess); log1("add event @ %08x",ofsNew); NotifyEventHooks(hEventAddedEvent,wParam,(LPARAM)ofsNew); return (INT_PTR)ofsNew; } static INT_PTR DeleteEvent(WPARAM wParam,LPARAM lParam) { struct DBContact dbc; DWORD ofsContact,ofsThis; struct DBEvent dbe,*dbeNext,*dbePrev; EnterCriticalSection(&csDbAccess); if(wParam==0) ofsContact=dbHeader.ofsUser; else ofsContact=wParam; dbc=*(struct DBContact*)DBRead(ofsContact,sizeof(struct DBContact),NULL); dbe=*(struct DBEvent*)DBRead(lParam,sizeof(struct DBEvent),NULL); if(dbc.signature!=DBCONTACT_SIGNATURE || dbe.signature!=DBEVENT_SIGNATURE) { LeaveCriticalSection(&csDbAccess); return 1; } log1("delete event @ %08x",wParam); LeaveCriticalSection(&csDbAccess); //call notifier while outside mutex NotifyEventHooks(hEventDeletedEvent,wParam,lParam); //get back in EnterCriticalSection(&csDbAccess); dbc=*(struct DBContact*)DBRead(ofsContact,sizeof(struct DBContact),NULL); dbe=*(struct DBEvent*)DBRead(lParam,sizeof(struct DBEvent),NULL); //check if this was the first unread, if so, recalc the first unread if(dbc.ofsFirstUnreadEvent==(DWORD)lParam) { dbeNext=&dbe; for (;;) { if(dbeNext->ofsNext==0) { dbc.ofsFirstUnreadEvent=0; dbc.timestampFirstUnread=0; break; } ofsThis=dbeNext->ofsNext; dbeNext=(struct DBEvent*)DBRead(ofsThis,sizeof(struct DBEvent),NULL); if (!(dbeNext->flags&(DBEF_READ|DBEF_SENT))) { dbc.ofsFirstUnreadEvent=ofsThis; dbc.timestampFirstUnread=dbeNext->timestamp; break; } } } //get previous and next events in chain and change offsets if(dbe.flags&DBEF_FIRST) { if(dbe.ofsNext==0) { dbc.ofsFirstEvent=dbc.ofsLastEvent=0; } else { dbeNext=(struct DBEvent*)DBRead(dbe.ofsNext,sizeof(struct DBEvent),NULL); dbeNext->flags|=DBEF_FIRST; dbeNext->ofsPrev=dbe.ofsPrev; DBWrite(dbe.ofsNext,dbeNext,sizeof(struct DBEvent)); dbc.ofsFirstEvent=dbe.ofsNext; } } else { if(dbe.ofsNext==0) { dbePrev=(struct DBEvent*)DBRead(dbe.ofsPrev,sizeof(struct DBEvent),NULL); dbePrev->ofsNext=0; DBWrite(dbe.ofsPrev,dbePrev,sizeof(struct DBEvent)); dbc.ofsLastEvent=dbe.ofsPrev; } else { dbePrev=(struct DBEvent*)DBRead(dbe.ofsPrev,sizeof(struct DBEvent),NULL); dbePrev->ofsNext=dbe.ofsNext; DBWrite(dbe.ofsPrev,dbePrev,sizeof(struct DBEvent)); dbeNext=(struct DBEvent*)DBRead(dbe.ofsNext,sizeof(struct DBEvent),NULL); dbeNext->ofsPrev=dbe.ofsPrev; DBWrite(dbe.ofsNext,dbeNext,sizeof(struct DBEvent)); } } //delete event DeleteSpace(lParam,offsetof(struct DBEvent,blob)+dbe.cbBlob); //decrement event count dbc.eventCount--; DBWrite(ofsContact,&dbc,sizeof(struct DBContact)); DBFlush(0); //quit LeaveCriticalSection(&csDbAccess); return 0; } static INT_PTR GetBlobSize(WPARAM wParam,LPARAM lParam) { INT_PTR ret; struct DBEvent *dbe; EnterCriticalSection(&csDbAccess); dbe=(struct DBEvent*)DBRead(wParam,sizeof(struct DBEvent),NULL); if(dbe->signature!=DBEVENT_SIGNATURE) ret=-1; else ret=dbe->cbBlob; LeaveCriticalSection(&csDbAccess); return ret; } static INT_PTR GetEvent(WPARAM wParam,LPARAM lParam) { struct DBEvent *dbe; DBEVENTINFO *dbei=(DBEVENTINFO*)lParam; int bytesToCopy,i; if(dbei==NULL||dbei->cbSize!=sizeof(DBEVENTINFO)) return 1; if(dbei->cbBlob > 0 && dbei->pBlob == NULL) { dbei->cbBlob = 0; return 1; } EnterCriticalSection(&csDbAccess); dbe=(struct DBEvent*)DBRead(wParam,sizeof(struct DBEvent),NULL); if(dbe->signature!=DBEVENT_SIGNATURE) { LeaveCriticalSection(&csDbAccess); return 1; } dbei->szModule=GetModuleNameByOfs(dbe->ofsModuleName); dbei->timestamp=dbe->timestamp; dbei->flags=dbe->flags; dbei->eventType=dbe->eventType; if(dbei->cbBlobcbBlob) bytesToCopy=dbei->cbBlob; else bytesToCopy=dbe->cbBlob; dbei->cbBlob=dbe->cbBlob; for(i=0;;i+=MAXCACHEDREADSIZE) { if(bytesToCopy-i<=MAXCACHEDREADSIZE) { CopyMemory(dbei->pBlob+i,DBRead(wParam+offsetof(struct DBEvent,blob)+i,bytesToCopy-i,NULL),bytesToCopy-i); break; } CopyMemory(dbei->pBlob+i,DBRead(wParam+offsetof(struct DBEvent,blob)+i,MAXCACHEDREADSIZE,NULL),MAXCACHEDREADSIZE); } LeaveCriticalSection(&csDbAccess); return 0; } static INT_PTR MarkEventRead(WPARAM wParam,LPARAM lParam) { INT_PTR ret; struct DBEvent *dbe; struct DBContact dbc; DWORD ofsThis; EnterCriticalSection(&csDbAccess); if(wParam==0) wParam=dbHeader.ofsUser; dbc=*(struct DBContact*)DBRead(wParam,sizeof(struct DBContact),NULL); dbe=(struct DBEvent*)DBRead(lParam,sizeof(struct DBEvent),NULL); if(dbe->signature!=DBEVENT_SIGNATURE || dbc.signature!=DBCONTACT_SIGNATURE) { LeaveCriticalSection(&csDbAccess); return -1; } if(dbe->flags&DBEF_READ || dbe->flags&DBEF_SENT) { ret=(INT_PTR)dbe->flags; LeaveCriticalSection(&csDbAccess); return ret; } log1("mark read @ %08x",wParam); dbe->flags|=DBEF_READ; DBWrite(lParam,dbe,sizeof(struct DBEvent)); ret=(INT_PTR)dbe->flags; if(dbc.ofsFirstUnreadEvent==(DWORD)lParam) { for (;;) { if(dbe->ofsNext==0) { dbc.ofsFirstUnreadEvent=0; dbc.timestampFirstUnread=0; break; } ofsThis=dbe->ofsNext; dbe=(struct DBEvent*)DBRead(ofsThis,sizeof(struct DBEvent),NULL); if (!(dbe->flags&(DBEF_READ|DBEF_SENT))) { dbc.ofsFirstUnreadEvent=ofsThis; dbc.timestampFirstUnread=dbe->timestamp; break; } } } DBWrite(wParam,&dbc,sizeof(struct DBContact)); DBFlush(0); LeaveCriticalSection(&csDbAccess); return ret; } static INT_PTR GetEventContact(WPARAM wParam,LPARAM lParam) { INT_PTR ret; struct DBEvent *dbe; EnterCriticalSection(&csDbAccess); dbe=(struct DBEvent*)DBRead(wParam,sizeof(struct DBEvent),NULL); if(dbe->signature!=DBEVENT_SIGNATURE) { LeaveCriticalSection(&csDbAccess); return -1; } while(!(dbe->flags&DBEF_FIRST)) dbe=(struct DBEvent*)DBRead(dbe->ofsPrev,sizeof(struct DBEvent),NULL); ret=(INT_PTR)dbe->ofsPrev; LeaveCriticalSection(&csDbAccess); return ret; } static INT_PTR FindFirstEvent(WPARAM wParam,LPARAM lParam) { INT_PTR ret; struct DBContact *dbc; EnterCriticalSection(&csDbAccess); if(wParam==0) wParam=dbHeader.ofsUser; dbc=(struct DBContact*)DBRead(wParam,sizeof(struct DBContact),NULL); if(dbc->signature!=DBCONTACT_SIGNATURE) ret=0; else ret=(INT_PTR)dbc->ofsFirstEvent; LeaveCriticalSection(&csDbAccess); return ret; } static INT_PTR FindFirstUnreadEvent(WPARAM wParam,LPARAM lParam) { INT_PTR ret; struct DBContact *dbc; EnterCriticalSection(&csDbAccess); if(wParam==0) wParam=dbHeader.ofsUser; dbc=(struct DBContact*)DBRead(wParam,sizeof(struct DBContact),NULL); if(dbc->signature!=DBCONTACT_SIGNATURE) ret=0; else ret=(INT_PTR)dbc->ofsFirstUnreadEvent; LeaveCriticalSection(&csDbAccess); return ret; } static INT_PTR FindLastEvent(WPARAM wParam,LPARAM lParam) { INT_PTR ret; struct DBContact *dbc; EnterCriticalSection(&csDbAccess); if(wParam==0) wParam=dbHeader.ofsUser; dbc=(struct DBContact*)DBRead(wParam,sizeof(struct DBContact),NULL); if(dbc->signature!=DBCONTACT_SIGNATURE) ret=0; else ret=(INT_PTR)dbc->ofsLastEvent; LeaveCriticalSection(&csDbAccess); return ret; } static INT_PTR FindNextEvent(WPARAM wParam,LPARAM lParam) { INT_PTR ret; struct DBEvent *dbe; EnterCriticalSection(&csDbAccess); dbe=(struct DBEvent*)DBRead(wParam,sizeof(struct DBEvent),NULL); if(dbe->signature!=DBEVENT_SIGNATURE) ret=0; else ret=(INT_PTR)dbe->ofsNext; LeaveCriticalSection(&csDbAccess); return ret; } static INT_PTR FindPrevEvent(WPARAM wParam,LPARAM lParam) { INT_PTR ret; struct DBEvent *dbe; EnterCriticalSection(&csDbAccess); dbe=(struct DBEvent*)DBRead(wParam,sizeof(struct DBEvent),NULL); if(dbe->signature!=DBEVENT_SIGNATURE) ret=0; else if(dbe->flags&DBEF_FIRST) ret=0; else ret=(INT_PTR)dbe->ofsPrev; LeaveCriticalSection(&csDbAccess); return ret; }