STDMETHODIMP_(BOOL) CDb3Mmap::EnumContactSettings(MCONTACT contactID, DBCONTACTENUMSETTINGS* dbces) { if (!dbces->szModule) return -1; mir_cslock lck(m_csDbAccess); DWORD ofsContact = GetContactOffset(contactID); if (ofsContact == 0) return -1; DBContact *dbc = (DBContact*)DBRead(ofsContact, NULL); if (dbc->signature != DBCONTACT_SIGNATURE) return -1; DWORD ofsModuleName = GetModuleNameOfs(dbces->szModule); dbces->ofsSettings = GetSettingsGroupOfsByModuleNameOfs(dbc, ofsModuleName); if (!dbces->ofsSettings) return -1; DWORD ofsBlobPtr = dbces->ofsSettings + offsetof(DBContactSettings, blob); int bytesRemaining; PBYTE pBlob = (PBYTE)DBRead(ofsBlobPtr, &bytesRemaining); if (pBlob[0] == 0) return -1; int result = 0; while (pBlob[0]) { NeedBytes(1); NeedBytes(1 + pBlob[0]); char szSetting[256]; memcpy(szSetting, pBlob + 1, pBlob[0]); szSetting[pBlob[0]] = 0; result = (dbces->pfnEnumProc)(szSetting, dbces->lParam); MoveAlong(1 + pBlob[0]); NeedBytes(3); MoveAlong(1 + GetSettingValueLength(pBlob)); NeedBytes(1); } return result; }
static INT_PTR WriteContactSetting(WPARAM wParam, LPARAM lParam) { DBCONTACTWRITESETTING *dbcws=(DBCONTACTWRITESETTING*)lParam; DBCONTACTWRITESETTING tmp; struct DBContact dbc; DWORD ofsModuleName; struct DBContactSettings dbcs; PBYTE pBlob; int settingNameLen=0; int moduleNameLen=0; int settingDataLen=0; int bytesRequired,bytesRemaining; DWORD ofsContact,ofsSettingsGroup,ofsBlobPtr; if (dbcws == NULL || dbcws->szSetting==NULL || dbcws->szModule==NULL ) return 1; // the db format can't tolerate more than 255 bytes of space (incl. null) for settings+module name settingNameLen=(int)strlen(dbcws->szSetting); moduleNameLen=(int)strlen(dbcws->szModule); if ( settingNameLen > 0xFE ) { #ifdef _DEBUG OutputDebugStringA("WriteContactSetting() got a > 255 setting name length. \n"); #endif return 1; } if ( moduleNameLen > 0xFE ) { #ifdef _DEBUG OutputDebugStringA("WriteContactSetting() got a > 255 module name length. \n"); #endif return 1; } tmp = *dbcws; if (tmp.value.type == DBVT_WCHAR) { if (tmp.value.pszVal != NULL) { char* val = mir_utf8encodeW(tmp.value.pwszVal); if ( val == NULL ) return 1; tmp.value.pszVal = ( char* )_malloca( strlen( val )+1 ); strcpy( tmp.value.pszVal, val ); mir_free(val); tmp.value.type = DBVT_UTF8; } else return 1; } if(tmp.value.type!=DBVT_BYTE && tmp.value.type!=DBVT_WORD && tmp.value.type!=DBVT_DWORD && tmp.value.type!=DBVT_ASCIIZ && tmp.value.type!=DBVT_UTF8 && tmp.value.type!=DBVT_BLOB) return 1; if ((!tmp.szModule) || (!tmp.szSetting) || ((tmp.value.type == DBVT_ASCIIZ || tmp.value.type == DBVT_UTF8 )&& tmp.value.pszVal == NULL) || (tmp.value.type == DBVT_BLOB && tmp.value.pbVal == NULL) ) return 1; // the db can not tolerate strings/blobs longer than 0xFFFF since the format writes 2 lengths switch( tmp.value.type ) { case DBVT_ASCIIZ: case DBVT_BLOB: case DBVT_UTF8: { size_t len = ( tmp.value.type != DBVT_BLOB ) ? (int)strlen(tmp.value.pszVal) : tmp.value.cpbVal; if ( len >= 0xFFFF ) { #ifdef _DEBUG OutputDebugStringA("WriteContactSetting() writing huge string/blob, rejecting ( >= 0xFFFF ) \n"); #endif return 1; } } } EnterCriticalSection(&csDbAccess); { char* szCachedSettingName = GetCachedSetting(tmp.szModule, tmp.szSetting, moduleNameLen, settingNameLen); if ( tmp.value.type != DBVT_BLOB ) { DBVARIANT* pCachedValue = GetCachedValuePtr((HANDLE)wParam, szCachedSettingName, 1); if ( pCachedValue != NULL ) { BOOL bIsIdentical = FALSE; if ( pCachedValue->type == tmp.value.type ) { switch(tmp.value.type) { case DBVT_BYTE: bIsIdentical = pCachedValue->bVal == tmp.value.bVal; break; case DBVT_WORD: bIsIdentical = pCachedValue->wVal == tmp.value.wVal; break; case DBVT_DWORD: bIsIdentical = pCachedValue->dVal == tmp.value.dVal; break; case DBVT_UTF8: case DBVT_ASCIIZ: bIsIdentical = strcmp( pCachedValue->pszVal, tmp.value.pszVal ) == 0; break; } if ( bIsIdentical ) { LeaveCriticalSection(&csDbAccess); return 0; } } SetCachedVariant(&tmp.value, pCachedValue); } if ( szCachedSettingName[-1] != 0 ) { LeaveCriticalSection(&csDbAccess); NotifyEventHooks(hSettingChangeEvent,wParam,(LPARAM)&tmp); return 0; } } else GetCachedValuePtr((HANDLE)wParam, szCachedSettingName, -1); } ofsModuleName=GetModuleNameOfs(tmp.szModule); 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 1; } log0("write setting"); //make sure the module group exists ofsSettingsGroup=GetSettingsGroupOfsByModuleNameOfs(&dbc,ofsModuleName); if(ofsSettingsGroup==0) { //module group didn't exist - make it if(tmp.value.type&DBVTF_VARIABLELENGTH) { if(tmp.value.type==DBVT_ASCIIZ || tmp.value.type==DBVT_UTF8) bytesRequired = (int)strlen(tmp.value.pszVal)+2; else if(tmp.value.type==DBVT_BLOB) bytesRequired=tmp.value.cpbVal+2; } else bytesRequired=tmp.value.type; bytesRequired+=2+settingNameLen; bytesRequired+=(DB_SETTINGS_RESIZE_GRANULARITY-(bytesRequired%DB_SETTINGS_RESIZE_GRANULARITY))%DB_SETTINGS_RESIZE_GRANULARITY; ofsSettingsGroup=CreateNewSpace(bytesRequired+offsetof(struct DBContactSettings,blob)); dbcs.signature=DBCONTACTSETTINGS_SIGNATURE; dbcs.ofsNext=dbc.ofsFirstSettings; dbcs.ofsModuleName=ofsModuleName; dbcs.cbBlob=bytesRequired; dbcs.blob[0]=0; dbc.ofsFirstSettings=ofsSettingsGroup; DBWrite(ofsContact,&dbc,sizeof(struct DBContact)); DBWrite(ofsSettingsGroup,&dbcs,sizeof(struct DBContactSettings)); ofsBlobPtr=ofsSettingsGroup+offsetof(struct DBContactSettings,blob); pBlob=(PBYTE)DBRead(ofsBlobPtr,1,&bytesRemaining); } else {
static __inline int GetContactSettingWorker(HANDLE hContact,DBCONTACTGETSETTING *dbcgs,int isStatic) { struct DBContact *dbc; DWORD ofsModuleName,ofsContact,ofsSettingsGroup,ofsBlobPtr; int settingNameLen,moduleNameLen; int bytesRemaining; PBYTE pBlob; char* szCachedSettingName; if ((!dbcgs->szSetting) || (!dbcgs->szModule)) return 1; // the db format can't tolerate more than 255 bytes of space (incl. null) for settings+module name settingNameLen = (int)strlen(dbcgs->szSetting); moduleNameLen = (int)strlen(dbcgs->szModule); if ( settingNameLen > 0xFE ) { #ifdef _DEBUG OutputDebugStringA("GetContactSettingWorker() got a > 255 setting name length. \n"); #endif return 1; } if ( moduleNameLen > 0xFE ) { #ifdef _DEBUG OutputDebugStringA("GetContactSettingWorker() got a > 255 module name length. \n"); #endif return 1; } EnterCriticalSection(&csDbAccess); log3("get [%08p] %s/%s",hContact,dbcgs->szModule,dbcgs->szSetting); szCachedSettingName = GetCachedSetting(dbcgs->szModule,dbcgs->szSetting,moduleNameLen,settingNameLen); { DBVARIANT* pCachedValue = GetCachedValuePtr( hContact, szCachedSettingName, 0 ); if ( pCachedValue != NULL ) { if ( pCachedValue->type == DBVT_ASCIIZ || pCachedValue->type == DBVT_UTF8 ) { int cbOrigLen = dbcgs->pValue->cchVal; char* cbOrigPtr = dbcgs->pValue->pszVal; memcpy( dbcgs->pValue, pCachedValue, sizeof( DBVARIANT )); if ( isStatic ) { int cbLen = 0; if ( pCachedValue->pszVal != NULL ) cbLen = (int)strlen( pCachedValue->pszVal ); cbOrigLen--; dbcgs->pValue->pszVal = cbOrigPtr; if(cbLen<cbOrigLen) cbOrigLen=cbLen; CopyMemory(dbcgs->pValue->pszVal,pCachedValue->pszVal,cbOrigLen); dbcgs->pValue->pszVal[cbOrigLen]=0; dbcgs->pValue->cchVal=cbLen; } else { dbcgs->pValue->pszVal = (char*)mir_alloc(strlen(pCachedValue->pszVal)+1); strcpy(dbcgs->pValue->pszVal,pCachedValue->pszVal); } } else memcpy( dbcgs->pValue, pCachedValue, sizeof( DBVARIANT )); switch( dbcgs->pValue->type ) { case DBVT_BYTE: log1( "get cached byte: %d", dbcgs->pValue->bVal ); break; case DBVT_WORD: log1( "get cached word: %d", dbcgs->pValue->wVal ); break; case DBVT_DWORD: log1( "get cached dword: %d", dbcgs->pValue->dVal ); break; case DBVT_UTF8: case DBVT_ASCIIZ: log1( "get cached string: '%s'", dbcgs->pValue->pszVal); break; default: log1( "get cached crap: %d", dbcgs->pValue->type ); break; } LeaveCriticalSection(&csDbAccess); return ( pCachedValue->type == DBVT_DELETED ) ? 1 : 0; } } ofsModuleName=GetModuleNameOfs(dbcgs->szModule); if(hContact==NULL) ofsContact=dbHeader.ofsUser; else ofsContact=(DWORD)hContact; dbc=(struct DBContact*)DBRead(ofsContact,sizeof(struct DBContact),NULL); if(dbc->signature!=DBCONTACT_SIGNATURE) { LeaveCriticalSection(&csDbAccess); return 1; } ofsSettingsGroup=GetSettingsGroupOfsByModuleNameOfs(dbc,ofsModuleName); if(ofsSettingsGroup) { ofsBlobPtr=ofsSettingsGroup+offsetof(struct DBContactSettings,blob); pBlob = DBRead(ofsBlobPtr,sizeof(struct DBContactSettings),&bytesRemaining); while(pBlob[0]) { NeedBytes(1+settingNameLen); if(pBlob[0]==settingNameLen && !memcmp(pBlob+1,dbcgs->szSetting,settingNameLen)) { MoveAlong(1+settingNameLen); NeedBytes(5); if(isStatic && pBlob[0]&DBVTF_VARIABLELENGTH && VLT(dbcgs->pValue->type) != VLT(pBlob[0])) { LeaveCriticalSection(&csDbAccess); return 1; } dbcgs->pValue->type=pBlob[0]; switch(pBlob[0]) { case DBVT_DELETED: { /* this setting is deleted */ dbcgs->pValue->type=DBVT_DELETED; LeaveCriticalSection(&csDbAccess); return 2; } case DBVT_BYTE: dbcgs->pValue->bVal=pBlob[1]; break; case DBVT_WORD: DecodeCopyMemory(&(dbcgs->pValue->wVal), (PWORD)(pBlob+1), 2); break; case DBVT_DWORD: DecodeCopyMemory(&(dbcgs->pValue->dVal), (PDWORD)(pBlob+1), 4); break; case DBVT_UTF8: case DBVT_ASCIIZ: NeedBytes(3+*(PWORD)(pBlob+1)); if(isStatic) { dbcgs->pValue->cchVal--; if(*(PWORD)(pBlob+1)<dbcgs->pValue->cchVal) dbcgs->pValue->cchVal=*(PWORD)(pBlob+1); DecodeCopyMemory(dbcgs->pValue->pszVal,pBlob+3,dbcgs->pValue->cchVal); dbcgs->pValue->pszVal[dbcgs->pValue->cchVal]=0; dbcgs->pValue->cchVal=*(PWORD)(pBlob+1); } else { dbcgs->pValue->pszVal=(char*)mir_alloc(1+*(PWORD)(pBlob+1)); DecodeCopyMemory(dbcgs->pValue->pszVal,pBlob+3,*(PWORD)(pBlob+1)); dbcgs->pValue->pszVal[*(PWORD)(pBlob+1)]=0; } break; case DBVT_BLOB: NeedBytes(3+*(PWORD)(pBlob+1)); if(isStatic) { if(*(PWORD)(pBlob+1)<dbcgs->pValue->cpbVal) dbcgs->pValue->cpbVal=*(PWORD)(pBlob+1); DecodeCopyMemory(dbcgs->pValue->pbVal,pBlob+3,dbcgs->pValue->cpbVal); } else { dbcgs->pValue->pbVal=(char*)mir_alloc(*(PWORD)(pBlob+1)); DecodeCopyMemory(dbcgs->pValue->pbVal,pBlob+3,*(PWORD)(pBlob+1)); } dbcgs->pValue->cpbVal=*(PWORD)(pBlob+1); break; } /**** add to cache **********************/ if ( dbcgs->pValue->type != DBVT_BLOB ) { DBVARIANT* pCachedValue = GetCachedValuePtr( hContact, szCachedSettingName, 1 ); if ( pCachedValue != NULL ) SetCachedVariant(dbcgs->pValue,pCachedValue); } LeaveCriticalSection(&csDbAccess); logg(); return 0; } NeedBytes(1); MoveAlong(pBlob[0]+1); NeedBytes(3); MoveAlong(1+GetSettingValueLength(pBlob)); NeedBytes(1); } } /**** nullbie: query info from preset **********************/ if (!hContact && DBPreset_QuerySetting(dbcgs->szModule, dbcgs->szSetting, dbcgs->pValue, isStatic)) { /**** add to cache **********************/ if ( dbcgs->pValue->type != DBVT_BLOB ) { DBVARIANT* pCachedValue = GetCachedValuePtr( hContact, szCachedSettingName, 1 ); if ( pCachedValue != NULL ) SetCachedVariant(dbcgs->pValue,pCachedValue); } return 0; } /**** add missing setting to cache **********************/ if ( dbcgs->pValue->type != DBVT_BLOB ) { DBVARIANT* pCachedValue = GetCachedValuePtr( hContact, szCachedSettingName, 1 ); if ( pCachedValue != NULL ) pCachedValue->type = DBVT_DELETED; } LeaveCriticalSection(&csDbAccess); logg(); return 1; }
static __inline int GetContactSettingWorker(HANDLE hContact,DBCONTACTGETSETTING *dbcgs,int isStatic) { struct DBContact dbc; struct DBContactSettings dbcs; DWORD ofsModuleName,ofsContact,ofsSettingsGroup,ofsBlobPtr; int settingNameLen; int bytesRemaining; PBYTE pBlob; char* szCachedSettingName; if ((!dbcgs->szSetting) || (!dbcgs->szModule)) return 1; settingNameLen=(int)strlen(dbcgs->szSetting); EnterCriticalSection(&csDbAccess); log3("get [%08p] %s/%s",hContact,dbcgs->szModule,dbcgs->szSetting); szCachedSettingName = GetCachedSetting(dbcgs->szModule,dbcgs->szSetting,settingNameLen); { DBVARIANT* pCachedValue = GetCachedValuePtr( hContact, szCachedSettingName, 0 ); if ( pCachedValue != NULL ) { if ( pCachedValue->type == DBVT_ASCIIZ || pCachedValue->type == DBVT_UTF8 ) { int cbOrigLen = dbcgs->pValue->cchVal; char* cbOrigPtr = dbcgs->pValue->pszVal; memcpy( dbcgs->pValue, pCachedValue, sizeof( DBVARIANT )); if ( isStatic ) { int cbLen = 0; if ( pCachedValue->pszVal != NULL ) cbLen = (int)strlen( pCachedValue->pszVal ); cbOrigLen--; dbcgs->pValue->pszVal = cbOrigPtr; if(cbLen<cbOrigLen) cbOrigLen=cbLen; CopyMemory(dbcgs->pValue->pszVal,pCachedValue->pszVal,cbOrigLen); dbcgs->pValue->pszVal[cbOrigLen]=0; dbcgs->pValue->cchVal=cbLen; } else { dbcgs->pValue->pszVal = (char*)mir_alloc(strlen(pCachedValue->pszVal)+1); strcpy(dbcgs->pValue->pszVal,pCachedValue->pszVal); } } else memcpy( dbcgs->pValue, pCachedValue, sizeof( DBVARIANT )); switch( dbcgs->pValue->type ) { case DBVT_BYTE: log1( "get cached byte: %d", dbcgs->pValue->bVal ); break; case DBVT_WORD: log1( "get cached word: %d", dbcgs->pValue->wVal ); break; case DBVT_DWORD: log1( "get cached dword: %d", dbcgs->pValue->dVal ); break; case DBVT_UTF8: case DBVT_ASCIIZ: log1( "get cached string: '%s'", dbcgs->pValue->pszVal); break; default: log1( "get cached crap: %d", dbcgs->pValue->type ); break; } LeaveCriticalSection(&csDbAccess); return ( pCachedValue->type == DBVT_DELETED ) ? 1 : 0; } } ofsModuleName=GetModuleNameOfs(dbcgs->szModule); if(hContact==NULL) ofsContact=dbHeader.ofsUser; else ofsContact=(DWORD)hContact; dbc=*(struct DBContact*)DBRead(ofsContact,sizeof(struct DBContact),NULL); if(dbc.signature!=DBCONTACT_SIGNATURE) { LeaveCriticalSection(&csDbAccess); return 1; } ofsSettingsGroup=GetSettingsGroupOfsByModuleNameOfs(&dbc,ofsContact,ofsModuleName); if(ofsSettingsGroup) { dbcs=*(struct DBContactSettings*)DBRead(ofsSettingsGroup,sizeof(struct DBContactSettings),&bytesRemaining); ofsBlobPtr=ofsSettingsGroup+offsetof(struct DBContactSettings,blob); pBlob=(PBYTE)DBRead(ofsBlobPtr,1,&bytesRemaining); while(pBlob[0]) { NeedBytes(1+settingNameLen); if(pBlob[0]==settingNameLen && !memcmp(pBlob+1,dbcgs->szSetting,settingNameLen)) { MoveAlong(1+settingNameLen); NeedBytes(5); if(isStatic && pBlob[0]&DBVTF_VARIABLELENGTH && VLT(dbcgs->pValue->type) != VLT(pBlob[0])) { LeaveCriticalSection(&csDbAccess); return 1; } dbcgs->pValue->type=pBlob[0]; switch(pBlob[0]) { case DBVT_DELETED: { /* this setting is deleted */ dbcgs->pValue->type=DBVT_DELETED; LeaveCriticalSection(&csDbAccess); return 2; } case DBVT_BYTE: dbcgs->pValue->bVal=pBlob[1]; break; case DBVT_WORD: dbcgs->pValue->wVal=*(PWORD)(pBlob+1); break; case DBVT_DWORD: dbcgs->pValue->dVal=*(PDWORD)(pBlob+1); break; case DBVT_UTF8: case DBVT_ASCIIZ: NeedBytes(3+*(PWORD)(pBlob+1)); if(isStatic) { dbcgs->pValue->cchVal--; if(*(PWORD)(pBlob+1)<dbcgs->pValue->cchVal) dbcgs->pValue->cchVal=*(PWORD)(pBlob+1); CopyMemory(dbcgs->pValue->pszVal,pBlob+3,dbcgs->pValue->cchVal); dbcgs->pValue->pszVal[dbcgs->pValue->cchVal]=0; dbcgs->pValue->cchVal=*(PWORD)(pBlob+1); } else { dbcgs->pValue->pszVal=(char*)mir_alloc(1+*(PWORD)(pBlob+1)); CopyMemory(dbcgs->pValue->pszVal,pBlob+3,*(PWORD)(pBlob+1)); dbcgs->pValue->pszVal[*(PWORD)(pBlob+1)]=0; } break; case DBVT_BLOB: NeedBytes(3+*(PWORD)(pBlob+1)); if(isStatic) { if(*(PWORD)(pBlob+1)<dbcgs->pValue->cpbVal) dbcgs->pValue->cpbVal=*(PWORD)(pBlob+1); CopyMemory(dbcgs->pValue->pbVal,pBlob+3,dbcgs->pValue->cpbVal); } else { dbcgs->pValue->pbVal=(char*)mir_alloc(*(PWORD)(pBlob+1)); CopyMemory(dbcgs->pValue->pbVal,pBlob+3,*(PWORD)(pBlob+1)); } dbcgs->pValue->cpbVal=*(PWORD)(pBlob+1); break; } /**** add to cache **********************/ if ( dbcgs->pValue->type != DBVT_BLOB ) { DBVARIANT* pCachedValue = GetCachedValuePtr( hContact, szCachedSettingName, 1 ); if ( pCachedValue != NULL ) SetCachedVariant(dbcgs->pValue,pCachedValue); } LeaveCriticalSection(&csDbAccess); logg(); return 0; } NeedBytes(1); MoveAlong(pBlob[0]+1); NeedBytes(3); MoveAlong(1+GetSettingValueLength(pBlob)); NeedBytes(1); } } /**** add missing setting to cache **********************/ if ( dbcgs->pValue->type != DBVT_BLOB ) { DBVARIANT* pCachedValue = GetCachedValuePtr( hContact, szCachedSettingName, 1 ); if ( pCachedValue != NULL ) pCachedValue->type = DBVT_DELETED; } LeaveCriticalSection(&csDbAccess); logg(); return 1; }
STDMETHODIMP_(BOOL) CDb3Mmap::DeleteContactSetting(MCONTACT contactID, LPCSTR szModule, LPCSTR szSetting) { if (!szModule || !szSetting) return 1; // the db format can't tolerate more than 255 bytes of space (incl. null) for settings+module name int settingNameLen = (int)mir_strlen(szSetting); int moduleNameLen = (int)mir_strlen(szModule); if (settingNameLen > 0xFE) { #ifdef _DEBUG OutputDebugStringA("DeleteContactSetting() got a > 255 setting name length. \n"); #endif return 1; } if (moduleNameLen > 0xFE) { #ifdef _DEBUG OutputDebugStringA("DeleteContactSetting() got a > 255 module name length. \n"); #endif return 1; } MCONTACT saveContact = contactID; { mir_cslock lck(m_csDbAccess); char *szCachedSettingName = m_cache->GetCachedSetting(szModule, szSetting, moduleNameLen, settingNameLen); if (szCachedSettingName[-1] == 0) { // it's not a resident variable DWORD ofsModuleName = GetModuleNameOfs(szModule); DWORD ofsContact = GetContactOffset(contactID); DBContact *dbc = (DBContact*)DBRead(ofsContact, NULL); if (dbc->signature != DBCONTACT_SIGNATURE) return 1; // make sure the module group exists DWORD ofsSettingsGroup = GetSettingsGroupOfsByModuleNameOfs(dbc, ofsModuleName); if (ofsSettingsGroup == 0) return 1; // find if the setting exists DWORD ofsBlobPtr = ofsSettingsGroup + offsetof(DBContactSettings, blob); int bytesRemaining; PBYTE pBlob = (PBYTE)DBRead(ofsBlobPtr, &bytesRemaining); while (pBlob[0]) { NeedBytes(settingNameLen + 1); if (pBlob[0] == settingNameLen && !memcmp(pBlob + 1, szSetting, settingNameLen)) break; NeedBytes(1); MoveAlong(pBlob[0] + 1); NeedBytes(3); MoveAlong(1 + GetSettingValueLength(pBlob)); NeedBytes(1); } if (!pBlob[0]) //setting didn't exist return 1; // bin it MoveAlong(1 + settingNameLen); NeedBytes(3); int nameLen = 1 + settingNameLen; int valLen = 1 + GetSettingValueLength(pBlob); DWORD ofsSettingToCut = ofsBlobPtr - nameLen; MoveAlong(valLen); NeedBytes(1); while (pBlob[0]) { MoveAlong(pBlob[0] + 1); NeedBytes(3); MoveAlong(1 + GetSettingValueLength(pBlob)); NeedBytes(1); } DBMoveChunk(ofsSettingToCut, ofsSettingToCut + nameLen + valLen, ofsBlobPtr + 1 - ofsSettingToCut); DBFlush(1); } m_cache->GetCachedValuePtr(saveContact, szCachedSettingName, -1); } // notify DBCONTACTWRITESETTING dbcws = { 0 }; dbcws.szModule = szModule; dbcws.szSetting = szSetting; dbcws.value.type = DBVT_DELETED; NotifyEventHooks(hSettingChangeEvent, saveContact, (LPARAM)&dbcws); return 0; }
int CDb3Mmap::GetContactSettingWorker(MCONTACT contactID, LPCSTR szModule, LPCSTR szSetting, DBVARIANT *dbv, int isStatic) { if (szSetting == NULL || szModule == NULL) return 1; // the db format can't tolerate more than 255 bytes of space (incl. null) for settings+module name int settingNameLen = (int)mir_strlen(szSetting); int moduleNameLen = (int)mir_strlen(szModule); if (settingNameLen > 0xFE) { #ifdef _DEBUG OutputDebugStringA("GetContactSettingWorker() got a > 255 setting name length. \n"); #endif return 1; } if (moduleNameLen > 0xFE) { #ifdef _DEBUG OutputDebugStringA("GetContactSettingWorker() got a > 255 module name length. \n"); #endif return 1; } mir_cslock lck(m_csDbAccess); LBL_Seek: char *szCachedSettingName = m_cache->GetCachedSetting(szModule, szSetting, moduleNameLen, settingNameLen); log3("get [%08p] %s (%p)", hContact, szCachedSettingName, szCachedSettingName); DBVARIANT *pCachedValue = m_cache->GetCachedValuePtr(contactID, szCachedSettingName, 0); if (pCachedValue != NULL) { if (pCachedValue->type == DBVT_ASCIIZ || pCachedValue->type == DBVT_UTF8) { int cbOrigLen = dbv->cchVal; char *cbOrigPtr = dbv->pszVal; memcpy(dbv, pCachedValue, sizeof(DBVARIANT)); if (isStatic) { int cbLen = 0; if (pCachedValue->pszVal != NULL) cbLen = (int)mir_strlen(pCachedValue->pszVal); cbOrigLen--; dbv->pszVal = cbOrigPtr; if (cbLen < cbOrigLen) cbOrigLen = cbLen; memcpy(dbv->pszVal, pCachedValue->pszVal, cbOrigLen); dbv->pszVal[cbOrigLen] = 0; dbv->cchVal = cbLen; } else { dbv->pszVal = (char*)mir_alloc(mir_strlen(pCachedValue->pszVal) + 1); mir_strcpy(dbv->pszVal, pCachedValue->pszVal); } } else memcpy(dbv, pCachedValue, sizeof(DBVARIANT)); log2("get cached %s (%p)", printVariant(dbv), pCachedValue); return (pCachedValue->type == DBVT_DELETED) ? 1 : 0; } // never look db for the resident variable if (szCachedSettingName[-1] != 0) return 1; DBCachedContact *cc; DWORD ofsContact = GetContactOffset(contactID, &cc); DWORD ofsModuleName = GetModuleNameOfs(szModule); DBContact dbc = *(DBContact*)DBRead(ofsContact, NULL); if (dbc.signature != DBCONTACT_SIGNATURE) return 1; DWORD ofsSettingsGroup = GetSettingsGroupOfsByModuleNameOfs(&dbc, ofsModuleName); if (ofsSettingsGroup) { int bytesRemaining; unsigned varLen; DWORD ofsBlobPtr = ofsSettingsGroup + offsetof(DBContactSettings, blob); PBYTE pBlob = DBRead(ofsBlobPtr, &bytesRemaining); while (pBlob[0]) { NeedBytes(1 + settingNameLen); if (pBlob[0] == settingNameLen && !memcmp(pBlob + 1, szSetting, settingNameLen)) { MoveAlong(1 + settingNameLen); NeedBytes(5); if (isStatic && (pBlob[0] & DBVTF_VARIABLELENGTH) && VLT(dbv->type) != VLT(pBlob[0])) return 1; BYTE iType = dbv->type = pBlob[0]; switch (iType) { case DBVT_DELETED: /* this setting is deleted */ dbv->type = DBVT_DELETED; return 2; case DBVT_BYTE: dbv->bVal = pBlob[1]; break; case DBVT_WORD: memmove(&(dbv->wVal), (PWORD)(pBlob + 1), 2); break; case DBVT_DWORD: memmove(&(dbv->dVal), (PDWORD)(pBlob + 1), 4); break; case DBVT_UTF8: case DBVT_ASCIIZ: varLen = *(PWORD)(pBlob + 1); NeedBytes(int(3 + varLen)); if (isStatic) { dbv->cchVal--; if (varLen < dbv->cchVal) dbv->cchVal = varLen; memmove(dbv->pszVal, pBlob + 3, dbv->cchVal); // decode dbv->pszVal[dbv->cchVal] = 0; dbv->cchVal = varLen; } else { dbv->pszVal = (char*)mir_alloc(1 + varLen); memmove(dbv->pszVal, pBlob + 3, varLen); dbv->pszVal[varLen] = 0; } break; case DBVT_BLOB: varLen = *(PWORD)(pBlob + 1); NeedBytes(int(3 + varLen)); if (isStatic) { if (varLen < dbv->cpbVal) dbv->cpbVal = varLen; memmove(dbv->pbVal, pBlob + 3, dbv->cpbVal); } else { dbv->pbVal = (BYTE *)mir_alloc(varLen); memmove(dbv->pbVal, pBlob + 3, varLen); } dbv->cpbVal = varLen; break; case DBVT_ENCRYPTED: if (m_crypto == NULL) return 1; else { varLen = *(PWORD)(pBlob + 1); NeedBytes(int(3 + varLen)); size_t realLen; ptrA decoded(m_crypto->decodeString(pBlob + 3, varLen, &realLen)); if (decoded == NULL) return 1; varLen = (WORD)realLen; dbv->type = DBVT_UTF8; if (isStatic) { dbv->cchVal--; if (varLen < dbv->cchVal) dbv->cchVal = varLen; memmove(dbv->pszVal, decoded, dbv->cchVal); dbv->pszVal[dbv->cchVal] = 0; dbv->cchVal = varLen; } else { dbv->pszVal = (char*)mir_alloc(1 + varLen); memmove(dbv->pszVal, decoded, varLen); dbv->pszVal[varLen] = 0; } } break; } /**** add to cache **********************/ if (iType != DBVT_BLOB && iType != DBVT_ENCRYPTED) { DBVARIANT *pCachedValue = m_cache->GetCachedValuePtr(contactID, szCachedSettingName, 1); if (pCachedValue != NULL) { m_cache->SetCachedVariant(dbv, pCachedValue); log3("set cached [%08p] %s (%p)", hContact, szCachedSettingName, pCachedValue); } } return 0; } NeedBytes(1); MoveAlong(pBlob[0] + 1); NeedBytes(3); MoveAlong(1 + GetSettingValueLength(pBlob)); NeedBytes(1); } } // try to get the missing mc setting from the active sub if (cc && cc->IsMeta() && ValidLookupName(szModule, szSetting)) { if (contactID = db_mc_getDefault(contactID)) { if (szModule = GetContactProto(contactID)) { moduleNameLen = (int)mir_strlen(szModule); goto LBL_Seek; } } } logg(); return 1; }
STDMETHODIMP_(BOOL) CDb3Mmap::WriteContactSetting(MCONTACT contactID, DBCONTACTWRITESETTING *dbcws) { if (dbcws == NULL || dbcws->szSetting == NULL || dbcws->szModule == NULL || m_bReadOnly) return 1; // the db format can't tolerate more than 255 bytes of space (incl. null) for settings+module name int settingNameLen = (int)mir_strlen(dbcws->szSetting); int moduleNameLen = (int)mir_strlen(dbcws->szModule); if (settingNameLen > 0xFE) { #ifdef _DEBUG OutputDebugStringA("WriteContactSetting() got a > 255 setting name length. \n"); #endif return 1; } if (moduleNameLen > 0xFE) { #ifdef _DEBUG OutputDebugStringA("WriteContactSetting() got a > 255 module name length. \n"); #endif return 1; } // used for notifications DBCONTACTWRITESETTING dbcwNotif = *dbcws; if (dbcwNotif.value.type == DBVT_WCHAR) { if (dbcwNotif.value.pszVal != NULL) { char* val = mir_utf8encodeW(dbcwNotif.value.pwszVal); if (val == NULL) return 1; dbcwNotif.value.pszVal = (char*)alloca(mir_strlen(val) + 1); mir_strcpy(dbcwNotif.value.pszVal, val); mir_free(val); dbcwNotif.value.type = DBVT_UTF8; } else return 1; } if (dbcwNotif.szModule == NULL || dbcwNotif.szSetting == NULL) return 1; DBCONTACTWRITESETTING dbcwWork = dbcwNotif; mir_ptr<BYTE> pEncoded(NULL); bool bIsEncrypted = false; switch (dbcwWork.value.type) { case DBVT_BYTE: case DBVT_WORD: case DBVT_DWORD: break; case DBVT_ASCIIZ: case DBVT_UTF8: bIsEncrypted = m_bEncrypted || IsSettingEncrypted(dbcws->szModule, dbcws->szSetting); LBL_WriteString: if (dbcwWork.value.pszVal == NULL) return 1; dbcwWork.value.cchVal = (WORD)mir_strlen(dbcwWork.value.pszVal); if (bIsEncrypted) { size_t len; BYTE *pResult = m_crypto->encodeString(dbcwWork.value.pszVal, &len); if (pResult != NULL) { pEncoded = dbcwWork.value.pbVal = pResult; dbcwWork.value.cpbVal = (WORD)len; dbcwWork.value.type = DBVT_ENCRYPTED; } } break; case DBVT_UNENCRYPTED: dbcwNotif.value.type = dbcwWork.value.type = DBVT_UTF8; goto LBL_WriteString; case DBVT_BLOB: case DBVT_ENCRYPTED: if (dbcwWork.value.pbVal == NULL) return 1; break; default: return 1; } mir_cslockfull lck(m_csDbAccess); DWORD ofsBlobPtr, ofsContact = GetContactOffset(contactID); if (ofsContact == 0) { _ASSERT(false); // contact doesn't exist? return 2; } char *szCachedSettingName = m_cache->GetCachedSetting(dbcwWork.szModule, dbcwWork.szSetting, moduleNameLen, settingNameLen); log3("set [%08p] %s (%p)", hContact, szCachedSettingName, szCachedSettingName); // we don't cache blobs and passwords if (dbcwWork.value.type != DBVT_BLOB && dbcwWork.value.type != DBVT_ENCRYPTED && !bIsEncrypted) { DBVARIANT *pCachedValue = m_cache->GetCachedValuePtr(contactID, szCachedSettingName, 1); if (pCachedValue != NULL) { bool bIsIdentical = false; if (pCachedValue->type == dbcwWork.value.type) { switch (dbcwWork.value.type) { case DBVT_BYTE: bIsIdentical = pCachedValue->bVal == dbcwWork.value.bVal; break; case DBVT_WORD: bIsIdentical = pCachedValue->wVal == dbcwWork.value.wVal; break; case DBVT_DWORD: bIsIdentical = pCachedValue->dVal == dbcwWork.value.dVal; break; case DBVT_UTF8: case DBVT_ASCIIZ: bIsIdentical = mir_strcmp(pCachedValue->pszVal, dbcwWork.value.pszVal) == 0; break; } if (bIsIdentical) return 0; } m_cache->SetCachedVariant(&dbcwWork.value, pCachedValue); } if (szCachedSettingName[-1] != 0) { lck.unlock(); log2(" set resident as %s (%p)", printVariant(&dbcwWork.value), pCachedValue); NotifyEventHooks(hSettingChangeEvent, contactID, (LPARAM)&dbcwWork); return 0; } } else m_cache->GetCachedValuePtr(contactID, szCachedSettingName, -1); log1(" write database as %s", printVariant(&dbcwWork.value)); DWORD ofsModuleName = GetModuleNameOfs(dbcwWork.szModule); DBContact dbc = *(DBContact*)DBRead(ofsContact, NULL); if (dbc.signature != DBCONTACT_SIGNATURE) return 1; // make sure the module group exists PBYTE pBlob; int bytesRequired, bytesRemaining; DBContactSettings dbcs; DWORD ofsSettingsGroup = GetSettingsGroupOfsByModuleNameOfs(&dbc, ofsModuleName); if (ofsSettingsGroup == 0) { //module group didn't exist - make it switch (dbcwWork.value.type) { case DBVT_ASCIIZ: case DBVT_UTF8: bytesRequired = dbcwWork.value.cchVal + 2; break; case DBVT_BLOB: case DBVT_ENCRYPTED: bytesRequired = dbcwWork.value.cpbVal + 2; break; default: bytesRequired = dbcwWork.value.type; } bytesRequired += 2 + settingNameLen; bytesRequired += (DB_SETTINGS_RESIZE_GRANULARITY - (bytesRequired % DB_SETTINGS_RESIZE_GRANULARITY)) % DB_SETTINGS_RESIZE_GRANULARITY; ofsSettingsGroup = CreateNewSpace(bytesRequired + offsetof(DBContactSettings, blob)); dbcs.signature = DBCONTACTSETTINGS_SIGNATURE; dbcs.ofsNext = dbc.ofsFirstSettings; dbcs.ofsModuleName = ofsModuleName; dbcs.cbBlob = bytesRequired; dbcs.blob[0] = 0; dbc.ofsFirstSettings = ofsSettingsGroup; DBWrite(ofsContact, &dbc, sizeof(DBContact)); DBWrite(ofsSettingsGroup, &dbcs, sizeof(DBContactSettings)); ofsBlobPtr = ofsSettingsGroup + offsetof(DBContactSettings, blob); pBlob = (PBYTE)DBRead(ofsBlobPtr, &bytesRemaining); } else { dbcs = *(DBContactSettings*)DBRead(ofsSettingsGroup, &bytesRemaining); // find if the setting exists ofsBlobPtr = ofsSettingsGroup + offsetof(DBContactSettings, blob); pBlob = (PBYTE)DBRead(ofsBlobPtr, &bytesRemaining); while (pBlob[0]) { NeedBytes(settingNameLen + 1); if (pBlob[0] == settingNameLen && !memcmp(pBlob + 1, dbcwWork.szSetting, settingNameLen)) break; NeedBytes(1); MoveAlong(pBlob[0] + 1); NeedBytes(3); MoveAlong(1 + GetSettingValueLength(pBlob)); NeedBytes(1); } // setting already existed, and up to end of name is in cache if (pBlob[0]) { MoveAlong(1 + settingNameLen); // if different type or variable length and length is different NeedBytes(3); if (pBlob[0] != dbcwWork.value.type || ((pBlob[0] == DBVT_ASCIIZ || pBlob[0] == DBVT_UTF8) && *(PWORD)(pBlob + 1) != dbcwWork.value.cchVal) || ((pBlob[0] == DBVT_BLOB || pBlob[0] == DBVT_ENCRYPTED) && *(PWORD)(pBlob + 1) != dbcwWork.value.cpbVal)) { // bin it NeedBytes(3); int nameLen = 1 + settingNameLen; int valLen = 1 + GetSettingValueLength(pBlob); DWORD ofsSettingToCut = ofsBlobPtr - nameLen; MoveAlong(valLen); NeedBytes(1); while (pBlob[0]) { MoveAlong(pBlob[0] + 1); NeedBytes(3); MoveAlong(1 + GetSettingValueLength(pBlob)); NeedBytes(1); } DBMoveChunk(ofsSettingToCut, ofsSettingToCut + nameLen + valLen, ofsBlobPtr + 1 - ofsSettingToCut); ofsBlobPtr -= nameLen + valLen; pBlob = (PBYTE)DBRead(ofsBlobPtr, &bytesRemaining); } else { // replace existing setting at pBlob MoveAlong(1); // skip data type switch (dbcwWork.value.type) { case DBVT_BYTE: DBWrite(ofsBlobPtr, &dbcwWork.value.bVal, 1); break; case DBVT_WORD: DBWrite(ofsBlobPtr, &dbcwWork.value.wVal, 2); break; case DBVT_DWORD: DBWrite(ofsBlobPtr, &dbcwWork.value.dVal, 4); break; case DBVT_BLOB: DBWrite(ofsBlobPtr + 2, dbcwWork.value.pbVal, dbcwWork.value.cpbVal); break; case DBVT_ENCRYPTED: DBWrite(ofsBlobPtr + 2, dbcwWork.value.pbVal, dbcwWork.value.cpbVal); break; case DBVT_UTF8: case DBVT_ASCIIZ: DBWrite(ofsBlobPtr + 2, dbcwWork.value.pszVal, dbcwWork.value.cchVal); break; } // quit DBFlush(1); lck.unlock(); // notify NotifyEventHooks(hSettingChangeEvent, contactID, (LPARAM)&dbcwNotif); return 0; } } } // cannot do a simple replace, add setting to end of list // pBlob already points to end of list // see if it fits switch (dbcwWork.value.type) { case DBVT_ASCIIZ: case DBVT_UTF8: bytesRequired = dbcwWork.value.cchVal + 2; break; case DBVT_BLOB: case DBVT_ENCRYPTED: bytesRequired = dbcwWork.value.cpbVal + 2; break; default: bytesRequired = dbcwWork.value.type; } bytesRequired += 2 + settingNameLen; bytesRequired += ofsBlobPtr + 1 - (ofsSettingsGroup + offsetof(DBContactSettings, blob)); if ((DWORD)bytesRequired > dbcs.cbBlob) { // doesn't fit: move entire group DBContactSettings *dbcsPrev; DWORD ofsDbcsPrev, ofsNew; InvalidateSettingsGroupOfsCacheEntry(ofsSettingsGroup); bytesRequired += (DB_SETTINGS_RESIZE_GRANULARITY - (bytesRequired % DB_SETTINGS_RESIZE_GRANULARITY)) % DB_SETTINGS_RESIZE_GRANULARITY; // find previous group to change its offset ofsDbcsPrev = dbc.ofsFirstSettings; if (ofsDbcsPrev == ofsSettingsGroup) ofsDbcsPrev = 0; else { dbcsPrev = (DBContactSettings*)DBRead(ofsDbcsPrev, NULL); while (dbcsPrev->ofsNext != ofsSettingsGroup) { if (dbcsPrev->ofsNext == 0) DatabaseCorruption(NULL); ofsDbcsPrev = dbcsPrev->ofsNext; dbcsPrev = (DBContactSettings*)DBRead(ofsDbcsPrev, NULL); } } // create the new one ofsNew = ReallocSpace(ofsSettingsGroup, dbcs.cbBlob + offsetof(DBContactSettings, blob), bytesRequired + offsetof(DBContactSettings, blob)); dbcs.cbBlob = bytesRequired; DBWrite(ofsNew, &dbcs, offsetof(DBContactSettings, blob)); if (ofsDbcsPrev == 0) { dbc.ofsFirstSettings = ofsNew; DBWrite(ofsContact, &dbc, sizeof(DBContact)); } else { dbcsPrev = (DBContactSettings*)DBRead(ofsDbcsPrev, NULL); dbcsPrev->ofsNext = ofsNew; DBWrite(ofsDbcsPrev, dbcsPrev, offsetof(DBContactSettings, blob)); } ofsBlobPtr += ofsNew - ofsSettingsGroup; ofsSettingsGroup = ofsNew; pBlob = (PBYTE)DBRead(ofsBlobPtr, &bytesRemaining); } // we now have a place to put it and enough space: make it DBWrite(ofsBlobPtr, &settingNameLen, 1); DBWrite(ofsBlobPtr + 1, (PVOID)dbcwWork.szSetting, settingNameLen); MoveAlong(1 + settingNameLen); DBWrite(ofsBlobPtr, &dbcwWork.value.type, 1); MoveAlong(1); switch (dbcwWork.value.type) { case DBVT_BYTE: DBWrite(ofsBlobPtr, &dbcwWork.value.bVal, 1); MoveAlong(1); break; case DBVT_WORD: DBWrite(ofsBlobPtr, &dbcwWork.value.wVal, 2); MoveAlong(2); break; case DBVT_DWORD: DBWrite(ofsBlobPtr, &dbcwWork.value.dVal, 4); MoveAlong(4); break; case DBVT_BLOB: DBWrite(ofsBlobPtr, &dbcwWork.value.cpbVal, 2); DBWrite(ofsBlobPtr + 2, dbcwWork.value.pbVal, dbcwWork.value.cpbVal); MoveAlong(2 + dbcwWork.value.cpbVal); break; case DBVT_ENCRYPTED: DBWrite(ofsBlobPtr, &dbcwWork.value.cpbVal, 2); DBWrite(ofsBlobPtr + 2, dbcwWork.value.pbVal, dbcwWork.value.cpbVal); MoveAlong(2 + dbcwWork.value.cpbVal); break; case DBVT_UTF8: case DBVT_ASCIIZ: DBWrite(ofsBlobPtr, &dbcwWork.value.cchVal, 2); DBWrite(ofsBlobPtr + 2, dbcwWork.value.pszVal, dbcwWork.value.cchVal); MoveAlong(2 + dbcwWork.value.cchVal); break; } BYTE zero = 0; DBWrite(ofsBlobPtr, &zero, 1); // quit DBFlush(1); lck.unlock(); // notify NotifyEventHooks(hSettingChangeEvent, contactID, (LPARAM)&dbcwNotif); return 0; }