Leaked source code of windows server 2003
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/*+++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
Copyright (c) 1989-2000 Microsoft Corporation
Module Name:
frmtreg.cxx
Abstract:
Registry for format string reuse.
Notes:
This file defines reuse registry for format string fragments which may
be reused later.
History:
Mar-14-1993 GregJen Created.
----------------------------------------------------------------------------*/
/****************************************************************************
* include files
***************************************************************************/
#include "becls.hxx"
#pragma hdrstop
/***********************************************************************
* global data
**********************************************************************/
FRMTREG_DICT::FRMTREG_DICT( FORMAT_STRING * pOurs)
: Dictionary()
{
pOurFormatString = pOurs;
}
SSIZE_T
FRMTREG_DICT::Compare( pUserType pL, pUserType pR )
{
FRMTREG_ENTRY * pLeft = (FRMTREG_ENTRY *) pL;
FRMTREG_ENTRY * pRight = (FRMTREG_ENTRY *) pR;
// first, sort by string length
int Result = ( pLeft->EndOffset - pLeft->StartOffset ) -
( pRight->EndOffset - pRight->StartOffset );
if ( Result )
return Result;
long LeftOffset = pLeft->StartOffset;
long RightOffset = pRight->StartOffset;
unsigned char * pBuffer = pOurFormatString->pBuffer;
unsigned char * pBufferType = pOurFormatString->pBufferType;
// the same format string is, of course identical
if ( LeftOffset == RightOffset )
return 0;
// There is a tricky situation when the strings are apart by more than 32k.
// In the proc format string there is no problem with that, we can optize.
// With type format string, we optimize as this is our best bet for the
// final accessability of fragments.
// Sort by values of format characters
while ( ( Result == 0 ) && ( LeftOffset < pLeft->EndOffset) )
{
if ( pBufferType[ LeftOffset ] != pBufferType[ RightOffset ] )
{
// Types don't match, force the result to be unequal.
Result = pBufferType[ LeftOffset ] - pBufferType[ RightOffset ];
continue;
}
switch ( pBufferType[ LeftOffset ] )
{
case FS_SHORT_TYPE_OFFSET:
// This is a comparison for the absolute type offset.
{
TypeOffsetDictElem *pLeftTO, *pRightTO;
pLeftTO = pOurFormatString->TypeOffsetDict.
LookupOffset( LeftOffset );
pRightTO = pOurFormatString->TypeOffsetDict.
LookupOffset( RightOffset );
Result = pLeftTO->TypeOffset - pRightTO->TypeOffset;
LeftOffset++; RightOffset++;
}
break;
case FS_SHORT_OFFSET:
// This is a comparison for the relative type offset.
//
{
TypeOffsetDictElem *pLeftTO, *pRightTO;
pLeftTO = pOurFormatString->TypeOffsetDict.
LookupOffset( LeftOffset );
pRightTO = pOurFormatString->TypeOffsetDict.
LookupOffset( RightOffset );
if ( ( pLeftTO->TypeOffset == 0 ) &&
( pRightTO->TypeOffset == 0 ) )
Result = 0;
else
// compare absolute offsets
Result = ( LeftOffset + pLeftTO->TypeOffset ) -
( RightOffset + pRightTO->TypeOffset );
LeftOffset++; RightOffset++;
}
break;
case FS_SHORT_STACK_OFFSET:
// Compare stack offset - multiplatform issue.
{
Result = *((short UNALIGNED *)(pBuffer + LeftOffset)) -
*((short UNALIGNED *)(pBuffer + RightOffset));
if ( Result == 0 )
{
BOOL f32bitServer = pCommand->Is32BitEnv();
if ( f32bitServer )
{
OffsetDictElem *pLeftStackOffsets, *pRightStackOffsets;
pLeftStackOffsets = pOurFormatString->OffsetDict.
LookupOffset( LeftOffset );
pRightStackOffsets = pOurFormatString->OffsetDict.
LookupOffset( RightOffset );
long Ilo = pLeftStackOffsets->X86Offset;
long Iro = pRightStackOffsets->X86Offset;
Result = Ilo - Iro;
}
}
LeftOffset++; RightOffset++;
}
break;
case FS_PAD_MACRO:
case FS_SIZE_MACRO:
case FS_UNKNOWN_STACK_SIZE:
// Can't compare those, so force the result to be unequal.
//
Result = LeftOffset - RightOffset;
break;
case FS_LONG:
// Compare longs
//
Result = *((long UNALIGNED *)(pBuffer + LeftOffset)) -
*((long UNALIGNED *)(pBuffer + RightOffset));
LeftOffset += 3; RightOffset += 3;
break;
case FS_SHORT:
case FS_PARAM_FLAG_SHORT:
case FS_MAGIC_UNION_SHORT:
case FS_CORR_FLAG_SHORT:
// Compare plain shorts.
//
Result = *((short UNALIGNED *)(pBuffer + LeftOffset)) -
*((short UNALIGNED *)(pBuffer + RightOffset));
LeftOffset++; RightOffset++;
break;
case FS_FORMAT_CHARACTER:
case FS_POINTER_FORMAT_CHARACTER:
case FS_SMALL:
case FS_SMALL_STACK_SIZE:
case FS_OLD_PROC_FLAG_BYTE:
case FS_Oi2_PROC_FLAG_BYTE:
case FS_EXT_PROC_FLAG_BYTE:
case FS_CORR_TYPE_BYTE:
case FS_CONTEXT_HANDLE_FLAG_BYTE:
default:
// Compare bytes, format chars, bytes decorated for comments,
//
Result = pBuffer[ LeftOffset ] - pBuffer[ RightOffset ];
break;
}
LeftOffset++; RightOffset++;
}
return Result;
}
FRMTREG_ENTRY *
FRMTREG_DICT::IsRegistered(
FRMTREG_ENTRY * pInfo )
/*++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
Routine Description:
Search for a type with the reuse registry.
Arguments:
pInfo - A pointer to the type being registered.
Return Value:
The node that gets registered.
Notes:
----------------------------------------------------------------------------*/
{
Dict_Status Status = Dict_Find( pInfo );
switch( Status )
{
case EMPTY_DICTIONARY:
case ITEM_NOT_FOUND:
return (FRMTREG_ENTRY *)0;
default:
return (FRMTREG_ENTRY *)Dict_Curr_Item();
}
}
FRMTREG_ENTRY *
FRMTREG_DICT::Register(
FRMTREG_ENTRY * pInfo )
/*++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
Routine Description:
Register a type with the dictionary.
Arguments:
pType - A pointer to the type node.
Return Value:
The final inserted type.
Notes:
----------------------------------------------------------------------------*/
{
Dict_Insert( (pUserType) pInfo );
return pInfo;
}
BOOL
FRMTREG_DICT::GetReUseEntry(
FRMTREG_ENTRY * & pOut,
FRMTREG_ENTRY * pIn )
/*++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
Routine Description:
Register a type with the dictionary.
Arguments:
pRI - A pointer to the returned FRMTREG_ENTRY block
pNode - A pointer to the type node.
Return Value:
True if the entry was already in the table,
False if the entry is new.
Notes:
----------------------------------------------------------------------------*/
{
FRMTREG_ENTRY * pRealEntry;
if ( ( pRealEntry = IsRegistered( pIn ) ) == 0 )
{
pRealEntry = new FRMTREG_ENTRY( pIn->StartOffset, pIn->EndOffset );
Register( pRealEntry );
pOut = pRealEntry;
return FALSE;
}
pOut = pRealEntry;
pOut->UseCount++;
return TRUE;
}