Leaked source code of windows server 2003
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///////////////////////////////////////////////////////////////////////////////
//
// Copyright (c) Microsoft Corp. All rights reserved.
//
// FILE
//
// SimTable.cpp
//
// SYNOPSIS
//
// This file implements the class CSimpleTable
//
// MODIFICATION HISTORY
//
// 10/31/1997 Original version.
// 02/09/1998 Reorganized some things to make is easier to extend.
// 02/27/1998 Changes to support moving it into the iasutil.lib
// 10/16/1998 Support DBTYPE_WSTR.
//
///////////////////////////////////////////////////////////////////////////////
#include <windows.h>
#include <comdef.h>
#include <iasdefs.h>
#include <iasutil.h>
#include <oledberr.h>
#include <SimTable.h>
//////////
// Stack version of the new operator.
//////////
#define stack_new(obj, num) new (_alloca(sizeof(obj)*num)) obj[num]
///////////////////////////////////////////////////////////////////////////////
//
// STRUCT
//
// DBBinding
//
// DESCRIPTION
//
// This struct extends the DBBINDING struct to provide functionality
// to initialize the struct from a DBCOLUMNINFO struct.
//
///////////////////////////////////////////////////////////////////////////////
struct DBBinding : DBBINDING
{
//////////
// 'offset' is the offset in bytes of this column's data within the
// row buffer.
//////////
void Initialize(DBCOLUMNINFO& columnInfo, DBBYTEOFFSET& offset)
{
iOrdinal = columnInfo.iOrdinal;
obValue = offset;
obLength = offset + columnInfo.ulColumnSize;
obStatus = obLength + sizeof(DBLENGTH);
pTypeInfo = NULL;
pObject = NULL;
pBindExt = NULL;
dwPart = DBPART_VALUE | DBPART_LENGTH | DBPART_STATUS;
eParamIO = DBPARAMIO_NOTPARAM;
dwMemOwner = (columnInfo.wType & DBTYPE_BYREF) ? DBMEMOWNER_PROVIDEROWNED
: DBMEMOWNER_CLIENTOWNED;
cbMaxLen = columnInfo.ulColumnSize;
dwFlags = 0;
wType = columnInfo.wType;
bPrecision = columnInfo.bPrecision;
bScale = columnInfo.bScale;
offset = obStatus + sizeof(DBSTATUS);
}
};
///////////////////////////////////////////////////////////////////////////////
//
// METHOD
//
// CSimpleTable::CSimpleTable
//
// DESCRIPTION
//
// Constructor.
//
///////////////////////////////////////////////////////////////////////////////
CSimpleTable::CSimpleTable()
: numColumns(0),
columnInfo(NULL),
stringsBuffer(NULL),
columnBinding(NULL),
readAccess(NULL),
buffer(NULL),
numRows(0),
currentRow(0),
endOfRowset(false)
{
}
///////////////////////////////////////////////////////////////////////////////
//
// METHOD
//
// CSimpleTable::~CSimpleTable
//
// DESCRIPTION
//
// Destructor.
//
///////////////////////////////////////////////////////////////////////////////
CSimpleTable::~CSimpleTable()
{
Detach();
}
///////////////////////////////////////////////////////////////////////////////
//
// METHOD
//
// CSimpleTable::Attach
//
// DESCRIPTION
//
// This method binds the table object to a new rowset. The previous rowset
// (if any) will be detached.
//
///////////////////////////////////////////////////////////////////////////////
HRESULT CSimpleTable::Attach(IRowset* pRowset)
{
// Make sure we didn't get a null pointer.
if (!pRowset) { return E_POINTER; }
// Detach the current rowset.
Detach();
// We don't care if this returns an error. It will just prevent
// the user from updating.
pRowset->QueryInterface(IID_IRowsetChange, (void**)&rowsetChange);
//////////
// Get the column information for the table.
//////////
CComPtr<IColumnsInfo> ColumnsInfo;
RETURN_ERROR(pRowset->QueryInterface(IID_IColumnsInfo,
(void**)&ColumnsInfo));
RETURN_ERROR(ColumnsInfo->GetColumnInfo(&numColumns,
&columnInfo,
&stringsBuffer));
//////////
// Allocate the per-column data.
//////////
try
{
columnBinding = new DBBinding[numColumns];
dirty.resize(numColumns);
}
catch (std::bad_alloc)
{
return E_OUTOFMEMORY;
}
//////////
// Create a binding for each column.
//////////
bufferLength = 0;
for (DBORDINAL i = 0; i < numColumns; ++i)
{
// Compute the width of the column.
DBLENGTH width = columnInfo[i].ulColumnSize;
// Add room for the null terminator.
if (columnInfo[i].wType == DBTYPE_STR)
{
width += 1;
}
else if (columnInfo[i].wType == DBTYPE_WSTR)
{
width = (width + 1) * sizeof(WCHAR);
}
// ulColumnSize is 1 giga byte for columns of type "Memo"
// such as ias.mdb -> Properties.StrVal
// Set the buffer to the maximum size the datastore allows
if (width > PROPERTY_VALUE_LENGTH)
{
width = PROPERTY_VALUE_LENGTH;
}
// Round to an 8-byte boundary (could peek ahead and be more efficient).
width = (width + 7) >> 3 << 3;
columnInfo[i].ulColumnSize = width;
// We're using the pTypeInfo element to store the offset to our data.
// We have to store the offset now, since it will be overwritten by
// DBBinding::Initialize.
columnInfo[i].pTypeInfo = (ITypeInfo*)bufferLength;
columnBinding[i].Initialize(columnInfo[i], bufferLength);
}
//////////
// Allocate a buffer for the row data.
//////////
buffer = new (std::nothrow) BYTE[bufferLength];
if (!buffer) { return E_OUTOFMEMORY; }
//////////
// Create an accessor.
//////////
RETURN_ERROR(pRowset->QueryInterface(IID_IAccessor,
(void**)&accessor));
RETURN_ERROR(accessor->CreateAccessor(DBACCESSOR_ROWDATA,
numColumns,
columnBinding,
bufferLength,
&readAccess,
NULL));
// I used this hokey method of assigning the pointer to avoid a
// dependency on atlimpl.cpp
//
// We do this assignment last, so that the presence of a rowset means the
// entire initialization succeeded.
(rowset.p = pRowset)->AddRef();
endOfRowset = false;
return S_OK;
}
///////////////////////////////////////////////////////////////////////////////
//
// METHOD
//
// CSimpleTable::Detach
//
// DESCRIPTION
//
// Frees all the resources associated with the current rowset.
//
///////////////////////////////////////////////////////////////////////////////
IRowset* CSimpleTable::Detach()
{
ReleaseRows();
delete[] buffer;
buffer = NULL;
delete[] columnBinding;
columnBinding = NULL;
CoTaskMemFree(columnInfo);
columnInfo = NULL;
CoTaskMemFree(stringsBuffer);
stringsBuffer = NULL;
accessor.Release();
rowsetChange.Release();
IRowset* temp = rowset;
rowset.Release();
return temp;
}
///////////////////////////////////////////////////////////////////////////////
//
// METHOD
//
// CSimpleTable::MoveFirst
//
// DESCRIPTION
//
// Positions the cursor over the first row in the rowset.
//
///////////////////////////////////////////////////////////////////////////////
HRESULT CSimpleTable::MoveFirst()
{
if (rowset == NULL) return E_FAIL;
ReleaseRows();
RETURN_ERROR(rowset->RestartPosition(NULL));
endOfRowset = false;
return MoveNext();
}
///////////////////////////////////////////////////////////////////////////////
//
// METHOD
//
// CSimpleTable::MoveNext
//
// DESCRIPTION
//
// Positions the cursor over the next row in the rowset.
//
///////////////////////////////////////////////////////////////////////////////
HRESULT CSimpleTable::MoveNext()
{
// If the data wasn't opened successfully then fail
if (rowset == NULL) return E_FAIL;
// Too late to save any changes.
DiscardChanges();
// If we've used all the rows from the last fetch, then get some more.
if (++currentRow >= numRows)
{
ReleaseRows();
// We have to do this check here, since some providers automatically
// reset to the beginning of the rowset.
if (endOfRowset) { return DB_S_ENDOFROWSET; }
HROW* pRow = row;
HRESULT hr = rowset->GetNextRows(NULL,
0,
FETCH_QUANTUM,
&numRows,
&pRow);
if (hr == DB_S_ENDOFROWSET)
{
// Mark that we've reached the end of the rowset.
endOfRowset = true;
// If we didn't get any rows, then we're really at the end.
if (numRows == 0) { return DB_S_ENDOFROWSET; }
}
else if (FAILED(hr))
{
return hr;
}
}
// Load the data into the buffer.
RETURN_ERROR(rowset->GetData(row[currentRow], readAccess, buffer));
return S_OK;
}
///////////////////////////////////////////////////////////////////////////////
//
// METHOD
//
// CSimpleTable::Insert
//
// DESCRIPTION
//
// Inserts the contents of the accessor buffer into the rowset.
//
///////////////////////////////////////////////////////////////////////////////
HRESULT CSimpleTable::Insert()
{
// Is a rowset attached?
if (!rowset) { return E_FAIL; }
// Does this rowset support changes?
if (!rowsetChange) { return E_NOINTERFACE; }
// Get an accessor for the dirty columns.
HACCESSOR writeAccess;
RETURN_ERROR(CreateAccessorForWrite(&writeAccess));
// Release the existing rows to make room for the new one.
ReleaseRows();
HRESULT hr = rowsetChange->InsertRow(NULL, writeAccess, buffer, row);
if (SUCCEEDED(hr))
{
// The changes were save successfully, so reset the dirty vector.
DiscardChanges();
// We now have exactly one row in our buffer.
numRows = 1;
}
// Release the accessor.
accessor->ReleaseAccessor(writeAccess, NULL);
return hr;
}
///////////////////////////////////////////////////////////////////////////////
//
// METHOD
//
// CSimpleTable::Delete
//
// DESCRIPTION
//
// Deletes the current row from the rowset.
//
///////////////////////////////////////////////////////////////////////////////
HRESULT CSimpleTable::Delete()
{
// Are we positioned over a valid row?
if (!rowset || currentRow >= numRows) { return E_FAIL; }
// Does this rowset support changes?
if (!rowsetChange) { return E_NOINTERFACE; }
DBROWSTATUS rowStatus[1];
return rowsetChange->DeleteRows(NULL, 1, row + currentRow, rowStatus);
}
///////////////////////////////////////////////////////////////////////////////
//
// METHOD
//
// CSimpleTable::SetData
//
// DESCRIPTION
//
// Updates the current row with the data in the accessor buffer.
//
///////////////////////////////////////////////////////////////////////////////
HRESULT CSimpleTable::SetData()
{
// Are we positioned over a valid row?
if (!rowset || currentRow >= numRows) { return E_FAIL; }
// Does this rowset support changes?
if (!rowsetChange) { return E_NOINTERFACE; }
// Get an accessor for the dirty columns.
HACCESSOR writeAccess;
RETURN_ERROR(CreateAccessorForWrite(&writeAccess));
HRESULT hr = rowsetChange->SetData(row[currentRow], writeAccess, buffer);
if (SUCCEEDED(hr))
{
// The changes were save successfully, so reset the dirty vector.
DiscardChanges();
}
// Release the accessor.
accessor->ReleaseAccessor(writeAccess, NULL);
return hr;
}
///////////////////////////////////////////////////////////////////////////////
//
// METHOD
//
// CSimpleTable::GetLength
//
// DESCRIPTION
//
// Returns the length of the current value for a given column.
//
///////////////////////////////////////////////////////////////////////////////
DBLENGTH CSimpleTable::GetLength(DBORDINAL nOrdinal) const
{
return *(DBLENGTH*)((BYTE*)_GetDataPtr(nOrdinal) +
columnInfo[OrdinalToColumn(nOrdinal)].ulColumnSize);
}
///////////////////////////////////////////////////////////////////////////////
//
// METHOD
//
// CSimpleTable::GetOrdinal
//
// DESCRIPTION
//
// Returns the ordinal for a given column name.
//
///////////////////////////////////////////////////////////////////////////////
bool CSimpleTable::GetOrdinal(LPCWSTR szColumnName, DBORDINAL* pOrdinal) const
{
for (DBORDINAL i = 0; i < numColumns; ++i)
{
if (lstrcmpW(columnInfo[i].pwszName, szColumnName) == 0)
{
*pOrdinal = columnInfo[i].iOrdinal;
return true;
}
}
return false;
}
///////////////////////////////////////////////////////////////////////////////
//
// METHOD
//
// CSimpleTable::GetStatus
//
// DESCRIPTION
//
// Returns the status code associated with the current value of a column.
//
///////////////////////////////////////////////////////////////////////////////
DBSTATUS CSimpleTable::GetStatus(DBORDINAL nOrdinal) const
{
return *(DBSTATUS*)((BYTE*)_GetDataPtr(nOrdinal) +
columnInfo[OrdinalToColumn(nOrdinal)].ulColumnSize +
sizeof(DBLENGTH));
}
///////////////////////////////////////////////////////////////////////////////
//
// METHOD
//
// CSimpleTable::CreateAccessorForWrite
//
// DESCRIPTION
//
// Creates an accessor that is only to bound to columns that have been
// modified.
//
///////////////////////////////////////////////////////////////////////////////
HRESULT CSimpleTable::CreateAccessorForWrite(HACCESSOR* phAccessor)
{
//////////
// Allocate temporary space for the bindings.
//////////
DBBINDING* writeBind = stack_new(DBBINDING, dirty.count());
//////////
// Load in all the dirty columns.
//////////
size_t total = 0;
for (size_t i = 0; total < dirty.count(); ++i)
{
if (dirty.test(i))
{
// We only want to bind the value.
(writeBind[total++] = columnBinding[i]).dwPart = DBPART_VALUE;
}
}
//////////
// Create the accessor.
//////////
return accessor->CreateAccessor(DBACCESSOR_ROWDATA,
dirty.count(),
writeBind,
bufferLength,
phAccessor,
NULL);
}
///////////////////////////////////////////////////////////////////////////////
//
// METHOD
//
// CSimpleTable::_GetDataPtr
//
// DESCRIPTION
//
// Non-const version of _GetDataPtr. Marks the target column as dirty.
//
///////////////////////////////////////////////////////////////////////////////
void* CSimpleTable::_GetDataPtr(DBORDINAL nOrdinal)
{
DBORDINAL nColumn = OrdinalToColumn(nOrdinal);
dirty.set(nColumn);
return buffer + (ULONG_PTR)columnInfo[nColumn].pTypeInfo;
}
///////////////////////////////////////////////////////////////////////////////
//
// METHOD
//
// CSimpleTable::ReleaseRows
//
// DESCRIPTION
//
// Releases all the rows returned by the last fetch.
//
///////////////////////////////////////////////////////////////////////////////
HRESULT CSimpleTable::ReleaseRows()
{
if (rowset != NULL)
{
HRESULT hr = rowset->ReleaseRows(numRows, row, NULL, NULL, NULL);
currentRow = numRows = 0;
return hr;
}
return S_OK;
}