/////////////////////////////////////////////////////////////////////////////////// // // Microsoft WMIOLE DB Provider // (C) Copyright 1999 Microsoft Corporation. All Rights Reserved. // // CInstanceRowFetchObj object implementation // // /////////////////////////////////////////////////////////////////////////////////// #include "headers.h" #include "WmiOleDBMap.h" /////////////////////////////////////////////////////////////////////////////////////// // Function which fetches required number of rows /////////////////////////////////////////////////////////////////////////////////////// HRESULT CInstanceRowFetchObj::FetchRows(CRowset * pRowset, HCHAPTER hChapter, // IN The Chapter handle. DBROWOFFSET lRowOffset, // IN Rows to skip before reading DBROWCOUNT cRows, // IN Number of rows to fetch DBCOUNTITEM* pcRowsObtained, // OUT Number of rows obtained HROW ** prghRows) // OUT Array of Hrows obtained) { DBCOUNTITEM cRowsTmp = 0; HROW irow(0), ih(0); PROWBUFF prowbuff = NULL; HRESULT hr = S_OK; HROW *prghRowsTemp = NULL; HROW hRowCurrent = 0; HSLOT hSlot = -1; BOOL bAlreadyDataRetrieved = FALSE; BOOL bAlreadyFetched = FALSE; CVARIANT varKey; BOOL bFetchBack = FALSE; HROW hRowTemp = 0; CBSTR strKey; LONG_PTR lFetchPos = 0; DBROWCOUNT ulMax = 0; BOOL bMaxRowsExceed = FALSE; DBSTATUS dwStat = DBSTATUS_S_OK; BOOL bHRowsAllocated = FALSE; CWbemClassWrapper *pInst = NULL; if(cRows != 0) { { VARIANT varTemp; VariantInit(&varTemp); pRowset->GetRowsetProperty(DBPROP_MAXOPENROWS,varTemp); ulMax = varTemp.lVal; VariantClear(&varTemp); } //======================================================= // If already maximum rows are opened then return //======================================================= if( pRowset->m_ulRowRefCount >= (DBROWCOUNT)ulMax) { hr = DB_S_ROWLIMITEXCEEDED; } else { //======================== // Fetch Data //======================== if (lRowOffset) { //=================================== // Calculate the new position //=================================== hr = pRowset->ResetRowsetToNewPosition(lRowOffset,pInst); if( FAILED(hr)) { pRowset->SetStatus(hChapter , STAT_ENDOFCURSOR); hr = DB_S_ENDOFROWSET ; } } // 07/11/00 //141938 if(hr == S_OK) { if(0 >( lFetchPos = GetFirstFetchPos(pRowset,cRows,lRowOffset))) { hr = DB_E_BADSTARTPOSITION; } else { cRowsTmp = cRows >= 0 ? cRows : cRows * (-1); ulMax = ulMax - pRowset->m_ulRowRefCount; if(ulMax < (DBROWCOUNT)cRowsTmp) { bMaxRowsExceed = TRUE; } else { ulMax = cRowsTmp; } cRowsTmp = 0; //======================================================================= // If any rows is to be retrieved then allocate memory for the HROWS //======================================================================= if (ulMax ) { try { prghRowsTemp = (HROW *) g_pIMalloc->Alloc( ulMax * sizeof( HROW )); } catch(...) { if(prghRowsTemp != NULL) { g_pIMalloc->Free(prghRowsTemp); } throw; } } if(prghRowsTemp == NULL) { hr = E_OUTOFMEMORY; } else { memset(prghRowsTemp,0,ulMax * sizeof(HROW)); pRowset->m_FetchDir = (LONG_PTR)cRows < 0 ? FETCHDIRBACKWARD : FETCHDIRFORWARD; bFetchBack = (LONG_PTR)cRows < 0 ? TRUE : FALSE; hRowTemp = pRowset->m_hRowLastFetched; for (irow =1; irow <= (ULONG)ulMax; irow++) { bAlreadyFetched = FALSE; bAlreadyDataRetrieved = FALSE; dwStat = DBSTATUS_S_OK; //============================================================ // Get the pointer to the next instance //============================================================ if (S_OK != ( hr = pRowset->GetNextInstance(pInst,strKey,bFetchBack))) { pRowset->SetStatus(hChapter , STAT_ENDOFCURSOR); hr = DB_S_ENDOFROWSET; break; } //========================================================================== // If the instance is a deleted instance and deleted instance is to be // removed then continue to the next instance // If the rowset is opened in dyanamic cursor mode then skipping of // deleted row doesn't depend on REMOVEDELETED //========================================================================== if(pRowset->IsInstanceDeleted(pInst) && (pRowset->m_ulProps & OTHERINSERT) || ( pRowset->m_ulProps & REMOVEDELETED) ) { irow--; continue; } //================================================================= // Check if instance already exist //================================================================= bAlreadyFetched = pRowset->m_InstMgr->IsInstanceExist(strKey); //========================================================================== // If not able to find the instance by key ( key might change sometime // in some cases if all the properties are keys) So check if the instance // is already fetched by the instance pointers //========================================================================== if(bAlreadyFetched == FALSE) { bAlreadyFetched = pRowset->m_InstMgr->IsInstanceExist(pInst ); //========================================================================== // if found the instance has to be refreshed //========================================================================== if(bAlreadyFetched == TRUE) { pRowset->RefreshInstance(pInst); } } //================================================================== // if already exists get the HROW and slot number for the instance //================================================================== if(bAlreadyFetched == TRUE) { hRowCurrent = pRowset->m_InstMgr->GetHRow(strKey); if((pRowset->GetRowStatus(hRowCurrent) & DBROWSTATUS_E_DELETED) && ( pRowset->m_ulProps & REMOVEDELETED)) { continue; } //================================================================= // if the slot number for the instance exist this means thet // data is already retrieved for the row //================================================================= if((hSlot = pRowset->m_InstMgr->GetSlot(hRowCurrent)) != -1) { bAlreadyDataRetrieved = TRUE; } } else { hRowCurrent = pRowset->GetNextHRow(); } //===================================================== // Get the data if data is already not fetched //===================================================== if(bAlreadyDataRetrieved == FALSE) { hSlot = -1; //============================================ // Get the next slot for retrieving data and // bind it to the column mem manager //============================================ if (FAILED( hr = GetNextSlots( pRowset->m_pIBuffer, 1, &hSlot ))) { break; } if (FAILED( pRowset->Rebind((BYTE *) pRowset->GetRowBuffFromSlot( hSlot, TRUE )))) { hr = E_FAIL; break; } hRowCurrent = hSlot; //========================================================= // fill the bookmark with keyvalue of the instance //========================================================= varKey.SetStr(strKey); //================================================================================================= // if the other updates visible property is set to false ,then get the data to the local buffer //================================================================================================= if(!( pRowset->m_ulProps & OTHERUPDATEDELETE)) { if(FAILED(hr = pRowset->GetInstanceDataToLocalBuffer(pInst,hSlot))) { break; } //=========================================================================== // if there is atleast one row retrieved and there are neseted columns // then allocate rows for the child recordsets //=========================================================================== if(pRowset->m_cNestedCols > 0 ) { if(pRowset->m_ppChildRowsets == NULL) { pRowset->AllocateAndInitializeChildRowsets(); } //===================================================================== // Fill the HCHAPTERS for the column //===================================================================== if(FAILED(hr = pRowset->FillHChaptersForRow(pInst,strKey))) { break; } } } //================================================= // add instance pointer to instance manager //================================================= if(FAILED(hr = pRowset->m_InstMgr->AddInstanceToList(hRowCurrent,pInst,strKey,hSlot))) { break; } //===================================================== // if the row is deleted then set the row status //===================================================== if(pRowset->IsInstanceDeleted(pInst) && SUCCEEDED(hr)) { pRowset->SetRowStatus(hRowCurrent,DBROWSTATUS_E_DELETED); } varKey.Clear(); } prghRowsTemp[irow-1] = hSlot; strKey.Clear(); strKey.Unbind(); } if(SUCCEEDED(hr)) { cRowsTmp = irow - 1; //Irow will be +1 because of For Loop //===================================================================== // Through fetching many rows of data // // Allocate row handles for client. Note that we need to use IMalloc // for this. Should only malloc cRowsTmp, instead of cRows. // Should malloc cRows, since client will assume it's that big. //===================================================================== if ( *prghRows == NULL && cRowsTmp ) { try { *prghRows = (HROW *) g_pIMalloc->Alloc( cRowsTmp * sizeof( HROW )); } catch(...) { if(*prghRows) { g_pIMalloc->Free(*prghRows); } throw; } bHRowsAllocated = TRUE; } if ( *prghRows == NULL && cRowsTmp ) { hr = E_OUTOFMEMORY ; } else { memset(*prghRows,0,cRowsTmp * sizeof( HROW )); //===================================================================== // Fill in the status information: Length, IsNull. May be able to wait // until first call to GetData, but have to do it sometime. // // Suggest keeping an array of structs of accessor info. One element is // whether accessor requires any status info or length info. // // Then we could skip this whole section. // // Added check for cRowsTmp to MarkRows call. Don't want to call if // cRowsTmp==0. // (Range passed to MarkRows is inclusive, so can't specify marking 0 rows.) // // Note that SetSlots is a CBitArray member function -- not an IBuffer function. // // Bits are [0...n-1], row handles are [1...n]. // // Cleanup. Row handles, bits, indices are the same [m....(m+n)], where // m is some # >0, // // Added row-wise reference counts and cursor-wise reference counts. // // Set row handles, fix data length field and compute data status field. //======================================================================= pRowset->m_cRows = cRowsTmp; for (ih =0; ih < (ULONG) pRowset->m_cRows; ih++) { //============================================================================= // Increment the rows-read count, // then store it as the bookmark in the very first DWORD of the row. //============================================================================= prowbuff = pRowset->GetRowBuff( prghRowsTemp[ih], TRUE ); //======================================================================================= // Insert the bookmark and its row number (from 1...n) into a hash table. // This allows us to quickly determine the presence of a row in mem, given the bookmark. // The bookmark is contained in the row buffer, at the very beginning. // Bookmark is the row number within the entire result set [1...num_rows_read]. // This was a new Bookmark, not in memory, // so return to user (in *prghRows) the hRow we stored. //======================================================================================= prowbuff->ulRefCount++; pRowset->m_ulRowRefCount++; (*prghRows)[ih] = prghRowsTemp[ih]; // (HROW) ( irow ); pRowset->m_hRowLastFetched = prghRowsTemp[ih]; if(pRowset->m_ulProps & BOOKMARKPROP) { if(ih != 0) { lFetchPos = (pRowset->m_FetchDir == FETCHDIRFORWARD ) ? lFetchPos + 1 : lFetchPos -1; } prowbuff->dwBmk = lFetchPos; prowbuff->cbBmk = BOOKMARKSIZE; pRowset->m_lLastFetchPos = lFetchPos; // Add bookmark to the hashtable pRowset->m_pHashTblBkmark->InsertFindBmk(FALSE,prghRowsTemp[ih],prowbuff->cbBmk,(BYTE *)&(prowbuff->dwBmk),(ULONG_PTR*)&hSlot); } } } // If proper allocation of *prghRows if required } // If succeeded(hr) after the loop if(SUCCEEDED(hr)) { *pcRowsObtained = cRowsTmp; } //===================================================== // if the number of rows asked is more than // the max number of open rows and if there // is no error then set the error number //===================================================== if( hr == S_OK && bMaxRowsExceed == TRUE) { hr = DB_S_ROWLIMITEXCEEDED; } } // Else for check for proper allocation prghRowsTemp } // Else for check for DB_E_BADSTARTPOSITION } } } // if cRow > 0 // IF failed clean up if( FAILED(hr)) { for (ih =0; ih < (ULONG) cRowsTmp; ih++) { if(prghRowsTemp[ih] != 0) { pRowset->m_InstMgr->DeleteInstanceFromList(prghRowsTemp[ih]); } } if(pcRowsObtained) { *pcRowsObtained = 0; } if(prghRows && bHRowsAllocated == TRUE) { g_pIMalloc->Free(prghRows); prghRows = NULL; } else if(prghRows) { *prghRows = NULL; } if(pcRowsObtained) { *pcRowsObtained = 0; } } //============================================== // free the temporary memory allocated //============================================== if(prghRowsTemp) { g_pIMalloc->Free(prghRowsTemp); prghRowsTemp = NULL; } // reset the starting position to the original position if(lRowOffset && (FAILED(hr) || (hr != S_OK && cRowsTmp == 0))) { pRowset->ResetRowsetToNewPosition(lRowOffset * (-1),pInst); } return hr; }