Leaked source code of windows server 2003
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//+-------------------------------------------------------------------------
//
// Microsoft Windows
// Copyright (C) Microsoft Corporation, 1998 - 2000.
//
// File: odbvarnt.cxx
//
// Contents: Helper class for PROPVARIANTs, OLE-DB variant types and
// Automation variant types in tables
//
// Classes: COLEDBVariant - derives from CTableVariant
//
// Functions:
//
// History: 09 Jan 1998 VikasMan Created
//
//--------------------------------------------------------------------------
#include "pch.cxx"
#pragma hdrstop
#include <bigtable.hxx>
#include <odbvarnt.hxx>
#include <initguid.h>
#define DBINITCONSTANTS
#include <msdadc.h> // oledb data conversion (IDataConvert) interface
#include <msdaguid.h>
#include "tabledbg.hxx"
//+-------------------------------------------------------------------------
//
// Method: COLEDBVariant::OLEDBConvert, public.
//
// Synopsis: Data conversion routine, which uses the OLEDB data
// conversion library (MSDADC.DLL) to do the conversion.
//
// Arguments: [pbDstBuf] -- the Destination data buffer
// [cbDstBuf] -- the size of Dst. buffer
// [vtDst] -- the Destination type.
// [rPool] -- pool to use for destination buffers
// [rcbDstLength] -- size of destination data
// [xDataConvert] -- the OLEDB IDataConvert interface
// [bPrecision] -- The precision of the output data in bytes,
// if applicable. This argument is used when
// converting to DBTYPE_NUMERIC data only.
// [bScale] -- The scale of the output data in bytes,
// if applicable. This argument is used when
// converting to DBTYPE_NUMERIC data only.
//
// Returns: DBSTATUS_S_OK if conversion is successful,
// else other DBSTATUS values.
//
// Notes: pbDstBuf should have (enough) memory allocated, else
// truncation can happen.
//
// This routine is subdivided into 3 parts:
// - It checks first if we are dealing with Automation Vars.
// - Then it calls CTableVaraint::CopyOrCoerce to the job
// - If unsuccessful, it uses the OLE-DB library
//
// History: 09 Jan 1998 VikasMan Created
//
//--------------------------------------------------------------------------
DBSTATUS COLEDBVariant::OLEDBConvert(
BYTE * pbDstBuf,
DBLENGTH cbDstBuf,
VARTYPE vtDst,
PVarAllocator & rPool,
DBLENGTH & rcbDstLength,
XInterface<IDataConvert>& xDataConvert,
BOOL fExtTypes, /* = TRUE */
BYTE bPrecision, /* = 0 */
BYTE bScale /* = 0 */ ) const
{
void* pbSrcBuf;
ULONG cbSrcSize;
DBTYPE dbtypeSrc, dbtypeDst;
DBLENGTH cbDstBufNeeded;
DBSTATUS DstStatus = DBSTATUS_E_CANTCONVERTVALUE;
// Check if fExtTypes is false and we are dealing with automation variants
if ( VT_VARIANT == vtDst || DBTYPE_PROPVARIANT == vtDst )
{
Win4Assert(cbDstBuf == sizeof PROPVARIANT);
rcbDstLength = sizeof (PROPVARIANT);
if ( ! IsArray( vt) &&
( fExtTypes || DBTYPE_PROPVARIANT == vtDst ||
VT_BSTR == vt || (IsSimpleOAType( vt ) && ! IsVector( vt )) ) )
{
Copy( (CTableVariant*) pbDstBuf, rPool, (USHORT) VarDataSize() );
DstStatus = DBSTATUS_S_OK;
}
else
{
DstStatus = _CopyToOAVariant( (VARIANT *) pbDstBuf, rPool );
}
if ( VT_EMPTY == vt )
DstStatus = DBSTATUS_S_ISNULL;
}
else
{
// try converting using CTableVariant's CopyOrCoerce
DstStatus = CopyOrCoerce( pbDstBuf,
cbDstBuf,
vtDst,
rcbDstLength,
rPool );
}
if ( DBStatusOK( DstStatus ))
{
// we are done here
return DstStatus;
}
if (DBTYPE_HCHAPTER == vtDst)
{
if (VT_I4 == vt || VT_UI4 == vt)
{
* (ULONG *) pbDstBuf = lVal;
DstStatus = DBSTATUS_S_OK;
}
return DstStatus;
}
// WORKAROUND: The following switch stmt is needed only until
// OLEDB library supports VT_FILETIME. Once it does that,
// we can get rid of this.
switch ( vtDst )
{
case VT_DATE:
// allow coercions from I8, UI8, R8, and FILETIME
if (VT_I8 == vt || VT_UI8 == vt)
{
* (LONGLONG *) pbDstBuf = hVal.QuadPart;
}
else if (VT_R8 == vt)
{
* (DATE *) pbDstBuf = dblVal;
}
else
{
DstStatus = _StoreDate(pbDstBuf, cbDstBuf, vtDst);
}
rcbDstLength = sizeof (DATE);
break;
case VT_FILETIME:
// allow coercions from I8, UI8, and DATE
if (VT_I8 == vt || VT_UI8 == vt)
{
* (LONGLONG *) pbDstBuf = hVal.QuadPart;
}
else
{
DstStatus = _StoreDate(pbDstBuf, cbDstBuf, vtDst);
}
rcbDstLength = sizeof (FILETIME);
break;
case DBTYPE_DBDATE:
DstStatus = _StoreDate(pbDstBuf, cbDstBuf, vtDst);
rcbDstLength = sizeof (DBDATE);
break;
case DBTYPE_DBTIME:
DstStatus = _StoreDate(pbDstBuf, cbDstBuf, vtDst);
rcbDstLength = sizeof (DBTIME);
break;
case DBTYPE_DBTIMESTAMP:
DstStatus = _StoreDate(pbDstBuf, cbDstBuf, vtDst);
rcbDstLength = sizeof (DBTIMESTAMP);
break;
}
if ( DBStatusOK( DstStatus ))
{
// we are done here
return DstStatus;
}
tbDebugOut(( DEB_ITRACE, "COLEDBVaraint::OLEDBConvert - Using OLEDB library for conversion\n" ));
// this looks like a job for ole-db
// check if we have the IDataConvert interface
if ( xDataConvert.IsNull( ) )
{
// let's get it then
if ( !_GetIDataConvert( xDataConvert ) )
{
// for some reason we could not get the IDataConvert interface
return DBSTATUS_E_CANTCONVERTVALUE;
}
}
// get the source data pointer
pbSrcBuf = _GetDataPointer();
if ( 0 == pbSrcBuf )
{
tbDebugOut(( DEB_ERROR, "OLEDBConvert - _GetDataPointer returned NULL\n" ));
return DBSTATUS_E_CANTCONVERTVALUE;
}
// get the source data size
cbSrcSize = VarDataSize();
// get the OLEDB source type
SCODE sc = _GetOLEDBType( vt, dbtypeSrc );
if ( S_OK != sc )
{
// can't use the OLEDB Conversion library
tbDebugOut(( DEB_ERROR,
"OLEDBConvert - _GetOLEDBType returned error 0x%x for type %x\n",
sc, vt ));
return DBSTATUS_E_CANTCONVERTVALUE;
}
// the destination type has to be an OLE-DB type
dbtypeDst = vtDst;
// get the needed Destination size
sc = xDataConvert->GetConversionSize( dbtypeSrc,
dbtypeDst,
0,
&cbDstBufNeeded,
pbSrcBuf );
if ( sc != S_OK )
{
tbDebugOut(( DEB_ITRACE,
"OLEDBConvert - GetConversionSize returned error 0x%x\n",
sc ));
return DBSTATUS_E_CANTCONVERTVALUE;
}
BYTE* pbDest = 0;
// we need to allocate memory if ...
if ( ( IsLPWSTR( dbtypeDst ) ) ||
( IsLPSTR( dbtypeDst ) ) ||
( (DBTYPE_BYREF | DBTYPE_WSTR) == dbtypeDst ) ||
( (DBTYPE_BYREF | DBTYPE_STR) == dbtypeDst )
)
{
// If we hit this assert, then we got a few things to think about
Win4Assert( !(IsLPWSTR( dbtypeDst ) || IsLPSTR( dbtypeDst )) );
pbDest = (BYTE*) rPool.Allocate( (ULONG) cbDstBufNeeded );
}
else if ( DBTYPE_BSTR == dbtypeDst )
{
pbDest = (BYTE*) rPool.AllocBSTR( (ULONG) cbDstBufNeeded );
}
else
{
// bogus assert
// Win4Assert ( (dbtypeDst & DBTYPE_BYREF) == 0 );
// memory is already allocated
// use the size which is less
// if cbDstBuf is less than cbDstBufNeeded, truncation might happen
cbDstBufNeeded = ( cbDstBufNeeded < cbDstBuf ? cbDstBufNeeded : cbDstBuf );
}
// do the conversion
sc = xDataConvert->DataConvert( dbtypeSrc,
dbtypeDst,
cbSrcSize,
&rcbDstLength,
pbSrcBuf,
pbDest ? (void*)&pbDest : pbDstBuf,
cbDstBufNeeded,
DstStatus,
&DstStatus,
bPrecision,
bScale,
DBDATACONVERT_DEFAULT);
if ( sc != S_OK )
{
tbDebugOut(( DEB_ITRACE,
"OLEDBConvert - DataConvert returned error 0x%x\n",
sc ));
return DBSTATUS_E_CANTCONVERTVALUE;
}
// if memory was allocated, put that ptr in pbDstBuf
if ( pbDest )
{
*((BYTE**)(pbDstBuf)) = pbDest;
}
return DstStatus;
}
//+-------------------------------------------------------------------------
//
// Method: COLEDBVariant::GetDstLength, public.
//
// Synopsis: Returns the length required after the conversion without
// actually doing the conversion.
//
// History: 10-12-98 DanLeg Created
//
//--------------------------------------------------------------------------
DBSTATUS COLEDBVariant::GetDstLength(
XInterface<IDataConvert>& xDataConvert,
DBTYPE dbtypeDst,
DBLENGTH & rcbDstLen )
{
SCODE sc = S_OK;
DBTYPE dbtypeSrc;
DBSTATUS DstStatus = DBSTATUS_S_OK;
sc = _GetOLEDBType( vt, dbtypeSrc );
if ( S_OK == sc )
{
if ( xDataConvert.IsNull( ) )
{
if ( !_GetIDataConvert( xDataConvert ) )
sc = S_FALSE;
}
if ( S_OK == sc )
{
void * pbSrcBuf = _GetDataPointer();
sc = xDataConvert->GetConversionSize( dbtypeSrc,
dbtypeDst,
0,
&rcbDstLen,
pbSrcBuf );
}
}
if ( S_OK != sc )
{
tbDebugOut(( DEB_ITRACE,
"OLEDBConvert - GetConversionSize returned error 0x%x\n",
sc ));
DstStatus = DBSTATUS_E_CANTCONVERTVALUE;
}
return DstStatus;
}
//+-------------------------------------------------------------------------
//
// Method: COLEDBVariant::_GetOLEDBType, private.
//
// Synopsis: Returns the OLEDB type equivalent of Variant type.
//
// Arguments: [vt] -- the source varaint type.
// [dbtype] -- the equivalent oledb type.
//
// Returns: S_OK if equivalent OLE DB type exists,
// else S_FALSE.
//
// Notes: Does not handle vectors
//
// History: 09 Jan 1998 VikasMan Created
//
//--------------------------------------------------------------------------
inline SCODE COLEDBVariant::_GetOLEDBType( VARTYPE vt, DBTYPE& dbtype ) const
{
SCODE sc = S_OK;
switch ( vt & ~VT_BYREF )
{
case VT_I1:
case VT_UI1:
case VT_I2:
case VT_UI2:
case VT_I4:
case VT_UI4:
case VT_I8:
case VT_UI8:
case VT_R4:
case VT_R8:
case VT_CY:
case VT_DATE:
case VT_BSTR:
case VT_FILETIME: // WORKAROUND: Waiting on OLE DB Conv lib to handle this case - 01.12.98
case VT_BOOL:
case VT_ERROR:
case VT_CLSID:
case VT_VARIANT:
case VT_DECIMAL:
case VT_VECTOR | VT_I1:
case VT_VECTOR | VT_UI1:
case VT_VECTOR | VT_I2:
case VT_VECTOR | VT_UI2:
case VT_VECTOR | VT_I4:
case VT_VECTOR | VT_UI4:
case VT_VECTOR | VT_I8:
case VT_VECTOR | VT_UI8:
case VT_VECTOR | VT_R4:
case VT_VECTOR | VT_R8:
case VT_VECTOR | VT_CY:
case VT_VECTOR | VT_DATE:
case VT_VECTOR | VT_BSTR:
case VT_VECTOR | VT_FILETIME: // WORKAROUND: Waiting on OLE DB Conv lib to handle this case - 01.12.98
case VT_VECTOR | VT_BOOL:
case VT_VECTOR | VT_ERROR:
case VT_VECTOR | VT_CLSID:
case VT_VECTOR | VT_VARIANT:
case VT_ARRAY | VT_I1:
case VT_ARRAY | VT_UI1:
case VT_ARRAY | VT_I2:
case VT_ARRAY | VT_UI2:
case VT_ARRAY | VT_I4:
case VT_ARRAY | VT_UI4:
case VT_ARRAY | VT_I8:
case VT_ARRAY | VT_UI8:
case VT_ARRAY | VT_R4:
case VT_ARRAY | VT_R8:
case VT_ARRAY | VT_CY:
case VT_ARRAY | VT_DATE:
case VT_ARRAY | VT_BSTR:
case VT_ARRAY | VT_BOOL:
case VT_ARRAY | VT_VARIANT:
case VT_ARRAY | VT_DECIMAL:
// In all the above cases, the DBTYPE has same value as
// VARIANT type
case DBTYPE_NUMERIC:
case DBTYPE_DBDATE:
case DBTYPE_DBTIME:
case DBTYPE_DBTIMESTAMP:
case DBTYPE_HCHAPTER:
case DBTYPE_BYTES:
case DBTYPE_VARNUMERIC:
// The above are OLEDB types only. So no conversion needed.
dbtype = vt;
break;
case VT_LPSTR:
case DBTYPE_STR:
dbtype = DBTYPE_STR;
break;
case VT_LPWSTR:
case DBTYPE_WSTR:
dbtype = DBTYPE_WSTR;
break;
case VT_BLOB:
dbtype = VT_VECTOR | VT_UI1;
break;
case VT_INT:
dbtype = VT_I4;
break;
case VT_UINT:
dbtype = VT_UI4;
break;
case VT_ARRAY | VT_INT:
dbtype = VT_ARRAY | VT_I4;
break;
case VT_ARRAY | VT_UINT:
dbtype = VT_ARRAY | VT_UI4;
break;
// SPECDEVIATION: What about VT_CF ??? (handled partially in base class)
default:
// default case: all types for which there is no equivalent
// OLE DB type - VT_CF, VT_BLOBOBJECT,
// VT_STREAM, VT_STREAMED_OBJECT, VT_STORAGE, VT_STORED_OBJECT,
// VT_DISPATCH, VT_UNKNOWN,
sc = S_FALSE;
break;
}
return sc;
}
//+-------------------------------------------------------------------------
//
// Member: COLEDBVariant::_GetDataPointer, private
//
// Synopsis: Depending on the type of vt, returns the data pointer
//
// Arguments: -none-
//
// Returns: Returns the pointer to data in the PropVariant
//
// History: 09 Jan 1998 VikasMan Created
//
//--------------------------------------------------------------------------
inline void* COLEDBVariant::_GetDataPointer() const
{
if (vt & VT_VECTOR)
return (void*)&cal;
if (vt & VT_ARRAY)
return (void*) parray;
void* pDataPtr = 0;
switch ( vt )
{
case VT_LPSTR:
case VT_LPWSTR:
case VT_CLSID:
case VT_CF:
// all pointer values
pDataPtr = (void*) pszVal;
break;
case VT_BSTR:
// need address of bstr ptr
pDataPtr = (void*) &bstrVal;
break;
case VT_BLOB:
case VT_BLOB_OBJECT:
pDataPtr = (void*) &blob;
break;
case VT_DECIMAL:
pDataPtr = (void*) this;
break;
// cases which we do not handle
case VT_EMPTY:
case VT_NULL:
case VT_ILLEGAL:
case VT_STREAM:
case VT_STREAMED_OBJECT:
case VT_STORAGE:
case VT_STORED_OBJECT:
case VT_DISPATCH:
case VT_VARIANT:
case VT_UNKNOWN:
case VT_VOID:
pDataPtr = 0;
break;
// Rest of the stuff
default:
pDataPtr = (void*) &bVal;
break;
}
return pDataPtr;
}
//+-------------------------------------------------------------------------
//
// Member: COLEDBVariant::_CopyToOAVariant, private
//
// Synopsis: Copy table data between a table variant structure and
// an Ole automation variant. Automation variants have a
// restricted set of usable types and vectors must be converted
// to safearrays.
//
// Arguments: [pDest] -- pointer to destination variant
// [rPool] -- pool to use for destination buffers
//
// Returns: status for copy
//
// History: 09 Jan 1998 VikasMan Created
//
//--------------------------------------------------------------------------
DBSTATUS COLEDBVariant::_CopyToOAVariant( VARIANT * pDest,
PVarAllocator & rPool) const
{
DBSTATUS DstStatus = DBSTATUS_S_OK;
switch (vt)
{
case VT_LPSTR:
case VT_LPWSTR:
{
DBLENGTH ulTemp;
pDest->vt = VT_BSTR;
DstStatus = _StoreString( (BYTE *)&(pDest->bstrVal),
sizeof (BSTR),
VT_BSTR,
ulTemp,
rPool);
break;
}
case VT_I8:
case VT_UI8:
DstStatus = _StoreDecimal( &(pDest->decVal) );
pDest->vt = VT_DECIMAL;
break;
case VT_I1:
DstStatus = _StoreIntegerSignedToUnSigned( VT_UI1, &(pDest->bVal) );
pDest->vt = VT_UI1;
break;
case VT_UI2:
if (uiVal <= SHRT_MAX)
{
DstStatus = _StoreIntegerUnSignedToSigned( VT_I2, (BYTE*)&(pDest->iVal) );
pDest->vt = VT_I2;
}
else
{
DstStatus = _StoreIntegerUnSignedToSigned( VT_I4, (BYTE*)&(pDest->lVal) );
pDest->vt = VT_I4;
}
break;
case VT_UI4:
if (ulVal <= LONG_MAX)
{
DstStatus = _StoreIntegerUnSignedToSigned( VT_I4, (BYTE*)&(pDest->lVal) );
pDest->vt = VT_I4;
}
else
{
DstStatus = _StoreDecimal( &(pDest->decVal) );
pDest->vt = VT_DECIMAL;
}
break;
case VT_FILETIME:
DstStatus = _StoreDate( (BYTE*)&(pDest->date),
sizeof pDest->date,
VT_DATE );
pDest->vt = VT_DATE;
break;
case (VT_VECTOR | VT_I2):
case (VT_VECTOR | VT_I4):
case (VT_VECTOR | VT_R4):
case (VT_VECTOR | VT_R8):
case (VT_VECTOR | VT_CY):
case (VT_VECTOR | VT_DATE):
case (VT_VECTOR | VT_ERROR):
case (VT_VECTOR | VT_BOOL):
case (VT_VECTOR | VT_UI1):
case (VT_VECTOR | VT_DECIMAL):
Win4Assert( IsSimpleOAType(vt & VT_TYPEMASK));
Win4Assert( CanBeVectorType(vt & VT_TYPEMASK));
DstStatus = _StoreSimpleTypeArray( &(pDest->parray));
pDest->vt = (vt & VT_TYPEMASK) | VT_ARRAY;
break;
case (VT_VECTOR | VT_UI4): // could step thru to see if I4 is big enough
case (VT_VECTOR | VT_I8):
case (VT_VECTOR | VT_UI8):
Win4Assert( !IsOAType(vt & VT_TYPEMASK));
Win4Assert( CanBeVectorType(vt & VT_TYPEMASK));
DstStatus = _StoreDecimalArray( &(pDest->parray));
pDest->vt = VT_DECIMAL | VT_ARRAY;
break;
case (VT_VECTOR | VT_UI2): // could step thru to detect if I2 is big enough
Win4Assert( !IsOAType(vt & VT_TYPEMASK));
Win4Assert( CanBeVectorType(vt & VT_TYPEMASK));
DstStatus = _StoreIntegerArray( VT_I4, &(pDest->parray));
pDest->vt = VT_I4 | VT_ARRAY;
break;
case (VT_VECTOR | VT_I1): // should step thru to detect if UI1 is big enough
Win4Assert( !IsOAType(vt & VT_TYPEMASK));
Win4Assert( CanBeVectorType(vt & VT_TYPEMASK));
DstStatus = _StoreIntegerArray( VT_UI1, &(pDest->parray));
pDest->vt = VT_UI1 | VT_ARRAY;
break;
case (VT_VECTOR | VT_LPSTR): // byref/vector mutually exclusive
Win4Assert( !IsOAType(vt & VT_TYPEMASK));
Win4Assert( CanBeVectorType(vt & VT_TYPEMASK));
DstStatus = _StoreLPSTRArray( &(pDest->parray), rPool );
pDest->vt = VT_BSTR | VT_ARRAY;
break;
case (VT_VECTOR | VT_LPWSTR):
Win4Assert( !IsOAType(vt & VT_TYPEMASK));
Win4Assert( CanBeVectorType(vt & VT_TYPEMASK));
DstStatus = _StoreLPWSTRArray( &(pDest->parray), rPool );
pDest->vt = VT_BSTR | VT_ARRAY;
break;
case (VT_VECTOR | VT_BSTR):
Win4Assert( IsOAType(vt & VT_TYPEMASK));
Win4Assert( CanBeVectorType(vt & VT_TYPEMASK));
DstStatus = _StoreBSTRArray( &(pDest->parray), rPool );
pDest->vt = VT_BSTR | VT_ARRAY;
break;
case (VT_VECTOR | VT_VARIANT):
Win4Assert( IsOAType(vt & VT_TYPEMASK));
Win4Assert( CanBeVectorType(vt & VT_TYPEMASK));
DstStatus = _StoreVariantArray( &(pDest->parray), rPool );
pDest->vt = VT_VARIANT | VT_ARRAY;
break;
case (VT_VECTOR | VT_FILETIME):
Win4Assert( !IsOAType(vt & VT_TYPEMASK));
Win4Assert( CanBeVectorType(vt & VT_TYPEMASK));
DstStatus = _StoreDateArray( &(pDest->parray) );
pDest->vt = VT_DATE | VT_ARRAY;
break;
case VT_ARRAY | VT_I1:
case VT_ARRAY | VT_UI1:
case VT_ARRAY | VT_I2:
case VT_ARRAY | VT_UI2:
case VT_ARRAY | VT_I4:
case VT_ARRAY | VT_INT:
case VT_ARRAY | VT_UI4:
case VT_ARRAY | VT_UINT:
case VT_ARRAY | VT_ERROR:
case VT_ARRAY | VT_I8:
case VT_ARRAY | VT_UI8:
case VT_ARRAY | VT_R4:
case VT_ARRAY | VT_R8:
case VT_ARRAY | VT_CY:
case VT_ARRAY | VT_DATE:
case VT_ARRAY | VT_BSTR:
case VT_ARRAY | VT_BOOL:
case VT_ARRAY | VT_VARIANT:
case VT_ARRAY | VT_DECIMAL:
{
SAFEARRAY * psa = 0;
SCODE sc = SafeArrayCopy( parray, &psa );
Win4Assert( E_INVALIDARG != sc );
Win4Assert( E_OUTOFMEMORY == sc || psa != 0 );
if (S_OK != sc)
{
THROW(CException(E_OUTOFMEMORY));
}
else
{
pDest->vt = vt;
pDest->parray = psa;
}
}
break;
case VT_CLSID: // no equivalent in OA variant
case VT_CF: // no equivalent in OA variant
default:
Win4Assert( !(VT_ARRAY & vt) ); // should be handled elsewhere
Win4Assert( !IsOAType(vt) ); // should be handled elsewhere
Win4Assert(CanBeVectorType(vt & VT_TYPEMASK) || !(VT_VECTOR & vt));
tbDebugOut(( DEB_WARN, "COLEDBVariant::CopyToOAVariant - bad variant type %d \n", vt ));
DstStatus = DBSTATUS_E_CANTCONVERTVALUE;
}
if ( !StatusSuccess(DstStatus) ||
(DBSTATUS_S_ISNULL == DstStatus && pDest->vt != VT_NULL) )
pDest->vt = VT_EMPTY;
return DstStatus;
}
//+-------------------------------------------------------------------------
//
// Member: COLEDBVariant::_StoreSimpleTypeArray, private
//
// Synopsis: Copy vector of simple OA types to safearray of same type
//
// Arguments: [pbDstBuf] -- destination buffer
//
// Returns: status for copy
//
// Notes: None of the simple types require memory allocation.
// Throws if safearray itself cannot be alloc'd
//
// History: 09 Apr 1997 EmilyB Created
// 09 Jan 1998 VikasMan Moved from CTableVariant class
// to here
//
//--------------------------------------------------------------------------
DBSTATUS COLEDBVariant::_StoreSimpleTypeArray(SAFEARRAY ** pbDstBuf) const
{
if ( 0 == caul.cElems )
return DBSTATUS_S_ISNULL;
// CLEANCODE - add to PVarAllocator?
SAFEARRAY *sa = SafeArrayCreateVector(vt & VT_TYPEMASK, 0, caul.cElems);
if (0 == sa)
THROW(CException(E_OUTOFMEMORY));
XSafeArray xsa(sa);
USHORT cbSize, cbAlign, rgFlags;
VartypeInfo(vt & VT_TYPEMASK, cbSize, cbAlign, rgFlags);
BYTE * pBase = (BYTE *)&(caul.pElems[0]);
for (LONG lElem = 0; lElem < (LONG)(caul.cElems); lElem++)
{
SCODE sc = SafeArrayPutElement(xsa.Get(), &lElem, pBase + (cbSize * lElem));
Win4Assert ( SUCCEEDED(sc) );
}
*pbDstBuf = xsa.Acquire();
return DBSTATUS_S_OK;
}
//+-------------------------------------------------------------------------
//
// Member: COLEDBVariant::_StoreDecimalArray, private
//
// Synopsis: Copy vector to decimal safearray
//
// Arguments: [pbDstBuf] -- destination buffer
//
// Returns: status for copy
//
// Notes: Expects the 'this' data type to be VT_UI4|VT_VECTOR,
// VT_I8|VT_VECTOR, or VT_UI8|VT_VECTOR.
//
// History: 09 Apr 1997 EmilyB Created
// 09 Jan 1998 VikasMan Moved from CTableVariant class
// to here
//
//--------------------------------------------------------------------------
DBSTATUS COLEDBVariant::_StoreDecimalArray( SAFEARRAY ** pbDstBuf ) const
{
if ( 0 == caul.cElems )
return DBSTATUS_S_ISNULL;
DBSTATUS dbStatus = DBSTATUS_S_OK; // status of last conversion
DBSTATUS dbStatusRet = DBSTATUS_S_OK; // error code of last conversion,
// or if no errors, DBSTATUS_S code
// of last item with any trouble converting.
// CLEANCODE - add to PVarAllocator?
SAFEARRAY * sa = SafeArrayCreateVector(VT_DECIMAL, 0, caul.cElems);
if (0 == sa)
THROW(CException(E_OUTOFMEMORY));
XSafeArray xsa(sa);
for (LONG lElem = 0; lElem < (LONG)caul.cElems && StatusSuccess(dbStatus); lElem++)
{
DECIMAL dec;
dbStatus = _StoreDecimal( &dec, lElem);
if (DBSTATUS_S_OK != dbStatus)
dbStatusRet = dbStatus; // save last non-zero status
SCODE sc = SafeArrayPutElement(xsa.Get(), &lElem, &dec);
Win4Assert ( SUCCEEDED(sc) );
}
if (StatusSuccess(dbStatus))
{
*pbDstBuf = xsa.Acquire();
}
return dbStatusRet;
}
//+-------------------------------------------------------------------------
//
// Member: COLEDBVariant::_StoreIntegerArray, private
//
// Synopsis: Copy vector of integers to safearray of integers
//
// Arguments: [vtDst] -- destination safearray type
// [pbDstBuf] -- destination buffer
//
// Returns: status for copy
//
// Notes: Expects the 'this' data type to be an int type | VT_VECTOR.
//
// History: 09 Apr 1997 EmilyB Created
// 09 Jan 1998 VikasMan Moved from CTableVariant class
// to here
//
//--------------------------------------------------------------------------
DBSTATUS COLEDBVariant::_StoreIntegerArray(VARTYPE vtDst,
SAFEARRAY ** pbDstBuf) const
{
if ( 0 == caul.cElems )
return DBSTATUS_S_ISNULL;
DBSTATUS dbStatus = DBSTATUS_S_OK;
DBSTATUS dbStatusRet = DBSTATUS_S_OK; // error code of last conversion,
// or if no errors, DBSTATUS_S code
// of last item with any trouble converting.
// CLEANCODE - add to PVarAllocator?
SAFEARRAY * sa = SafeArrayCreateVector(vtDst, 0, caul.cElems);
if (0 == sa)
THROW(CException(E_OUTOFMEMORY));
XSafeArray xsa(sa);
for (LONG lElem = 0; lElem < (LONG)caul.cElems && StatusSuccess(dbStatus); lElem++)
{
LONGLONG iInt; // size of longest int - to use as buffer
dbStatus = _StoreInteger( vtDst, (BYTE *)&iInt, lElem);
if (DBSTATUS_S_OK != dbStatus)
dbStatusRet = dbStatus; // save last non-zero status
SCODE sc = SafeArrayPutElement(xsa.Get(), &lElem, &iInt);
Win4Assert ( SUCCEEDED(sc) );
}
if (StatusSuccess(dbStatus))
{
*pbDstBuf = xsa.Acquire();
}
return dbStatusRet;
}
//+-------------------------------------------------------------------------
//
// Member: COLEDBVariant::_StoreLPSTRArray, private
//
// Synopsis: Copy LPSTR vector to safearray
//
// Arguments: [pbDstBuf] -- destination buffer
// [rPool] -- pool to use for destination buffers
//
// Returns: status for copy
//
// History: 09 Apr 1997 EmilyB Created
// 09 Jan 1998 VikasMan Moved from CTableVariant class
// to here
//
//--------------------------------------------------------------------------
DBSTATUS COLEDBVariant::_StoreLPSTRArray(
SAFEARRAY ** pbDstBuf,
PVarAllocator & rPool) const
{
if ( 0 == calpstr.cElems )
return DBSTATUS_S_ISNULL;
DBSTATUS dbStatus = DBSTATUS_S_OK;
// CLEANCODE - add to PVarAllocator?
SAFEARRAY * sa = SafeArrayCreateVector(VT_BSTR, 0, calpstr.cElems);
if (0 == sa)
THROW(CException(E_OUTOFMEMORY));
XSafeArray xsa(sa);
for (LONG lElem = 0; lElem < (LONG)(calpstr).cElems && StatusSuccess(dbStatus); lElem++)
{
int cwc = MultiByteToWideChar(ulCoercionCodePage,0,
calpstr.pElems[lElem],-1,0,0);
if (0 == cwc)
{
dbStatus = DBSTATUS_E_CANTCONVERTVALUE; // something odd...
}
else
{
XArray<WCHAR> wcsDest( cwc );
MultiByteToWideChar(ulCoercionCodePage, 0,
calpstr.pElems[lElem], -1, wcsDest.Get(), cwc);
BSTR bstrDest = (BSTR) rPool.CopyBSTR((cwc-1)*sizeof (OLECHAR),
wcsDest.Get());
SCODE sc = SafeArrayPutElement(xsa.Get(), &lElem, (void *)rPool.PointerToOffset(bstrDest));
rPool.FreeBSTR(bstrDest);
if (E_OUTOFMEMORY == sc)
THROW(CException(E_OUTOFMEMORY));
Win4Assert ( SUCCEEDED(sc) );
}
}
if (StatusSuccess(dbStatus))
{
*pbDstBuf = xsa.Acquire();
}
return dbStatus;
}
//+-------------------------------------------------------------------------
//
// Member: COLEDBVariant::_StoreLPWSTRArray, private
//
// Synopsis: Copy LPWSTR vector to safearray
//
// Arguments: [pbDstBuf] -- destination buffer
// [rPool] -- pool to use for destination buffers
//
// Returns: status for copy
//
// History: 09 Apr 1997 EmilyB Created
// 09 Jan 1998 VikasMan Moved from CTableVariant class
// to here
//
//--------------------------------------------------------------------------
DBSTATUS COLEDBVariant::_StoreLPWSTRArray(
SAFEARRAY ** pbDstBuf,
PVarAllocator & rPool) const
{
if ( 0 == calpwstr.cElems )
return DBSTATUS_S_ISNULL;
// CLEANCODE - add to PVarAllocator?
SAFEARRAY * sa = SafeArrayCreateVector(VT_BSTR, 0, calpwstr.cElems);
if (0 == sa)
THROW(CException(E_OUTOFMEMORY));
XSafeArray xsa(sa);
for (LONG lElem = 0; lElem < (LONG)(calpwstr.cElems); lElem++)
{
BSTR bstrDest = (BSTR) rPool.CopyBSTR( wcslen(calpwstr.pElems[lElem]) * sizeof(WCHAR),
calpwstr.pElems[lElem] );
SCODE sc = SafeArrayPutElement(xsa.Get(), &lElem, (void *)rPool.PointerToOffset(bstrDest));
rPool.FreeBSTR(bstrDest);
if (E_OUTOFMEMORY == sc)
THROW(CException(E_OUTOFMEMORY));
Win4Assert ( SUCCEEDED(sc) );
}
*pbDstBuf = xsa.Acquire();
return DBSTATUS_S_OK;
}
//+-------------------------------------------------------------------------
//
// Member: COLEDBVariant::_StoreBSTRArray, private
//
// Synopsis: Copy BSTR vector to safearray
//
// Arguments: [pbDstBuf] -- destination buffer
// [rPool] -- pool to use for destination buffers
//
// Returns: status for copy
//
// Notes: Expects the 'this' data type to be VT_BSTR | VT_VECTOR.
//
// History: 09 Apr 1997 EmilyB Created
// 09 Jan 1998 VikasMan Moved from CTableVariant class
// to here
//
//--------------------------------------------------------------------------
DBSTATUS COLEDBVariant::_StoreBSTRArray(
SAFEARRAY ** pbDstBuf,
PVarAllocator & rPool) const
{
if ( 0 == cabstr.cElems )
return DBSTATUS_S_ISNULL;
// CLEANCODE - add to PVarAllocator?
SAFEARRAY * sa = SafeArrayCreateVector(VT_BSTR, 0, cabstr.cElems);
if (0 == sa)
THROW(CException(E_OUTOFMEMORY));
XSafeArray xsa(sa);
for (LONG lElem = 0; lElem < (LONG)cabstr.cElems; lElem++)
{
SCODE sc = SafeArrayPutElement(xsa.Get(), &lElem, cabstr.pElems[lElem]);
if (E_OUTOFMEMORY == sc)
THROW(CException(E_OUTOFMEMORY));
Win4Assert ( SUCCEEDED(sc) );
}
*pbDstBuf = xsa.Acquire();
return DBSTATUS_S_OK;
}
//+-------------------------------------------------------------------------
//
// Member: COLEDBVariant::_StoreVariantArray, private
//
// Synopsis: Copy variant vector to safearray
//
// Arguments: [pbDstBuf] -- destination buffer
// [rPool] -- pool to use for destination buffers
//
// Returns: status for copy
//
// Notes: Expects the 'this' data type to be VT_VARIANT | VT_VECTOR.
//
// History: 09 Apr 1997 EmilyB Created
// 09 Jan 1998 VikasMan Moved from CTableVariant class
// to here
//
//--------------------------------------------------------------------------
DBSTATUS COLEDBVariant::_StoreVariantArray(
SAFEARRAY ** pbDstBuf,
PVarAllocator & rPool) const
{
if ( 0 == capropvar.cElems )
return DBSTATUS_S_ISNULL;
DBSTATUS dbStatus = DBSTATUS_S_OK;
DBSTATUS dbStatusRet = DBSTATUS_S_OK; // error code of last conversion,
// or if no errors, DBSTATUS_S code
// of last item with any trouble converting.
Win4Assert(vt == (VT_VECTOR | VT_VARIANT));
// CLEANCODE - add to PVarAllocator?
SAFEARRAY * sa = SafeArrayCreateVector(VT_VARIANT, 0, capropvar.cElems);
if (0 == sa)
THROW(CException(E_OUTOFMEMORY));
XSafeArray xsa(sa);
for (LONG lElem = 0; lElem < (LONG)(capropvar.cElems) && StatusSuccess(dbStatus); lElem++)
{
COLEDBVariant tblVariant;
if (IsOAType(capropvar.pElems[lElem].vt))
{
((CTableVariant &)capropvar.pElems[lElem]).Copy(&tblVariant,
rPool,
(USHORT)((CTableVariant &)capropvar.pElems[lElem]).VarDataSize(),
0);
}
else // convert variant to an OA type
{
dbStatus = ((COLEDBVariant &)capropvar.pElems[lElem])._CopyToOAVariant( (VARIANT *)&tblVariant, rPool);
if (DBSTATUS_S_OK != dbStatus)
dbStatusRet = dbStatus; // save last non-zero status
}
SCODE sc = SafeArrayPutElement(xsa.Get(), &lElem, (PROPVARIANT *)&tblVariant);
if (E_OUTOFMEMORY == sc)
THROW(CException(E_OUTOFMEMORY));
Win4Assert ( SUCCEEDED(sc) );
}
*pbDstBuf = xsa.Acquire();
return dbStatusRet;
}
//+-------------------------------------------------------------------------
//
// Member: COLEDBVariant::_StoreDateArray, private
//
// Synopsis: Copy date vector to safearray of dates
//
// Arguments: [pbDstBuf] -- destination buffer
//
// Returns: status for copy
//
// Notes: Expects the 'this' data type to be VT_DATE | VT_VECTOR.
//
// History: 09 Apr 1997 EmilyB Created
// 09 Jan 1998 VikasMan Moved from CTableVariant class
// to here
//
//--------------------------------------------------------------------------
DBSTATUS COLEDBVariant::_StoreDateArray(SAFEARRAY ** pbDstBuf) const
{
if ( 0 == caul.cElems )
return DBSTATUS_S_ISNULL;
DBSTATUS dbStatus = DBSTATUS_S_OK;
DBSTATUS dbStatusRet = DBSTATUS_S_OK; // error code of last conversion,
// or if no errors, DBSTATUS_S code
// of last item with any trouble converting.
// CLEANCODE - add to PVarAllocator?
SAFEARRAY * sa = SafeArrayCreateVector(VT_DATE, 0, caul.cElems);
if (0 == sa)
THROW(CException(E_OUTOFMEMORY));
XSafeArray xsa(sa);
for (LONG lElem = 0; lElem < (LONG)(caul.cElems) && StatusSuccess(dbStatus); lElem++)
{
DATE date;
dbStatus = _StoreDate( (BYTE *)&date, sizeof(date), VT_DATE, lElem);
if (DBSTATUS_S_OK != dbStatus)
dbStatusRet = dbStatus; // save last non-zero status
SCODE sc = SafeArrayPutElement(xsa.Get(), &lElem, &date);
Win4Assert ( SUCCEEDED(sc) );
}
if (StatusSuccess(dbStatus))
{
*pbDstBuf = xsa.Acquire();
}
return dbStatusRet;
}
//+-------------------------------------------------------------------------
//
// Member: COLEDBVariant::_StoreDate, private
//
// Synopsis: Copy variant date/time data, coerce if possible
//
// Arguments: [pbDstBuf] -- destination buffer
// [cbDstBuf] -- size of destination buffer
// [vtDst] -- data type of the dest
// [lElem] -- element of vector to convert
//
// Returns: status for copy
//
// Notes: Expects the 'this' data type to be either VT_FILETIME or
// VT_DATE. Expects the vtDst to be VT_FILETIME, VT_DATE,
// DBTYPE_DBDATE, DBTYPE_DBTIME or DBTYPE_DBTIMESTAMP.
//
// History: 31 Jan 1997 AlanW Created
// 13 Jan 1998 VikasMan Moved from CTableVariant class
// to here
//
//--------------------------------------------------------------------------
DBSTATUS COLEDBVariant::_StoreDate(
BYTE * pbDstBuf,
DBLENGTH cbDstBuf,
VARTYPE vtDst,
LONG lElem) const
{
DBSTATUS DstStatus = DBSTATUS_S_OK;
SYSTEMTIME stUTC;
//
// Convert the input date into a common form: GMT SYSTEMTIME.
//
if (VT_DATE == vt)
{
if (! VariantTimeToSystemTime(date, &stUTC) )
return DBSTATUS_E_DATAOVERFLOW;
}
else if ((VT_DATE|VT_VECTOR)== vt)
{
if (! VariantTimeToSystemTime(cadate.pElems[lElem], &stUTC) )
return DBSTATUS_E_DATAOVERFLOW;
}
else if (VT_FILETIME == vt)
{
// do not do local time conversion
if (! FileTimeToSystemTime((LPFILETIME) &hVal.QuadPart, &stUTC) )
return DBSTATUS_E_DATAOVERFLOW;
}
else if ((VT_FILETIME|VT_VECTOR) == vt)
{
// do not do local time conversion
if (! FileTimeToSystemTime(&cafiletime.pElems[lElem], &stUTC) )
return DBSTATUS_E_DATAOVERFLOW;
}
else
return DBSTATUS_E_CANTCONVERTVALUE;
switch (vtDst)
{
case VT_DATE:
DATE dosDate;
if (! SystemTimeToVariantTime(&stUTC, &dosDate) )
return DBSTATUS_E_DATAOVERFLOW;
Win4Assert( cbDstBuf >= sizeof DATE );
RtlCopyMemory(pbDstBuf, &dosDate, sizeof DATE);
break;
case VT_FILETIME:
FILETIME ftUTC;
if (! SystemTimeToFileTime(&stUTC, &ftUTC) )
return DBSTATUS_E_DATAOVERFLOW;
Win4Assert( cbDstBuf >= sizeof FILETIME );
RtlCopyMemory(pbDstBuf, &ftUTC, sizeof FILETIME);
break;
case DBTYPE_DBTIMESTAMP:
{
// does not use local time
DBTIMESTAMP dbUTC;
dbUTC.year = stUTC.wYear;
dbUTC.month = stUTC.wMonth;
dbUTC.day = stUTC.wDay;
dbUTC.hour = stUTC.wHour;
dbUTC.minute = stUTC.wMinute;
dbUTC.second = stUTC.wSecond;
dbUTC.fraction = stUTC.wMilliseconds * 1000000;
Win4Assert( cbDstBuf >= sizeof dbUTC );
RtlCopyMemory(pbDstBuf, &dbUTC, sizeof dbUTC);
}
break;
case DBTYPE_DBDATE:
{
DBDATE dbUTC;
dbUTC.year = stUTC.wYear;
dbUTC.month = stUTC.wMonth;
dbUTC.day = stUTC.wDay;
Win4Assert( cbDstBuf >= sizeof dbUTC );
RtlCopyMemory(pbDstBuf, &dbUTC, sizeof dbUTC);
}
break;
case DBTYPE_DBTIME:
{
DBTIME dbUTC;
dbUTC.hour = stUTC.wHour;
dbUTC.minute = stUTC.wMinute;
dbUTC.second = stUTC.wSecond;
Win4Assert( cbDstBuf >= sizeof dbUTC );
RtlCopyMemory(pbDstBuf, &dbUTC, sizeof dbUTC);
}
break;
default:
DstStatus = DBSTATUS_E_CANTCONVERTVALUE;
tbDebugOut(( DEB_WARN,
"_StoreDate - Unexpected dest storage type %4x\n",
vtDst));
break;
}
return DstStatus;
} //_StoreDate
//+---------------------------------------------------------------------------
//
// Member: COLEDBVariant::CanConvertType, static public
//
// Synopsis: Indicate whether a type conversion is valid. Uses the OLEDB
// Data Conversion Library.
//
// Arguments: [wFromType] -- source type
// [wToType] -- destination type
// [xDataConvert] -- OLEDB IDataConvert interface pointer
//
// Returns: TRUE if the conversion is available, FALSE otherwise.
//
// History: 13 Jan 98 VikasMan Created
//
//----------------------------------------------------------------------------
BOOL COLEDBVariant::CanConvertType(
DBTYPE wFromType,
DBTYPE wToType,
XInterface<IDataConvert>& xDataConvert)
{
if ( xDataConvert.IsNull( ) )
{
// use COLEDBVariant's helper function to get the IDataConvert ptr
if ( !_GetIDataConvert( xDataConvert ) )
{
// bail out
return FALSE;
}
}
SCODE sc = xDataConvert->CanConvert( wFromType, wToType );
if ( sc != S_OK && sc != S_FALSE )
{
QUIETTHROW(CException(sc)); // bad type
}
return ( sc == S_OK );
}
//+---------------------------------------------------------------------------
//
// Member: COLEDBVariant::_GetIDataConvert, static private
//
// Synopsis: Gets the IDataConvert interface
//
// Arguments: [xDataConvert] -- OLEDB IDataConvert interface pointer
//
// Returns: TRUE if the successful, else FALSE
//
// Notes: Make sure thet xDataConvert is null before calling this func.
//
// History: 13 Jan 98 VikasMan Created
//
//----------------------------------------------------------------------------
inline
BOOL COLEDBVariant::_GetIDataConvert( XInterface<IDataConvert>& xDataConvert )
{
Win4Assert( xDataConvert.IsNull( ) );
SCODE sc = CoCreateInstance( CLSID_OLEDB_CONVERSIONLIBRARY,
NULL,
CLSCTX_SERVER,
IID_IDataConvert,
xDataConvert.GetQIPointer( ) );
if ( FAILED(sc) )
{
// for some reason we could not get the IDataConvert interface
tbDebugOut(( DEB_ERROR,
"_GetIDataConvert - Couldn't get IDataConvert interface %x\n", sc ));
return FALSE;
}
// Set the OLEDB ver to 2.00
XInterface<IDCInfo> xIDCInfo;
DCINFO rgInfo[] = {{DCINFOTYPE_VERSION, {VT_UI4, 0, 0, 0, 0x0200}}};
sc = xDataConvert->QueryInterface( IID_IDCInfo, xIDCInfo.GetQIPointer( ) );
if ( SUCCEEDED(sc) )
{
sc = xIDCInfo->SetInfo( NUMELEM(rgInfo), rgInfo );
}
if ( FAILED(sc) )
{
tbDebugOut(( DEB_ERROR,
"_GetIDataConvert - Can't set OLEDB ver to 2.0. Error: 0x%x\n",
sc));
Win4Assert( ! "Failed to set OLEDB conversion library version!" );
xDataConvert.Free();
return FALSE;
}
return TRUE;
}