//+------------------------------------------------------------------------- // // Microsoft Windows // Copyright (C) Microsoft Corporation, 1992 - 1992. // // File: MemSer.cxx // // History: 29-Jul-94 KyleP Created // // // The CMemSerStream and CDeMemSerStream have different requirements for // handling buffer overflow conditions. In the case of the driver this // is indicative of a corrupted stream and we would like to raise an // exception. On the other hand in Query implementation we deal with // streams whose sizes are precomputed in the user mode. Therefore we // do not wish to incur any additional penalty in handling such situations. // In debug builds this condition is asserted while in retail builds it is // ignored. The CMemSerStream and CMemDeSerStream implementation are // implemented using a macro HANDLE_OVERFLOW(fOverflow) which take the // appropriate action. // //-------------------------------------------------------------------------- #include #pragma hdrstop #include "serover.hxx" #if DBGPROP BOOLEAN IsUnicodeString(WCHAR const *pwszname, ULONG cb); BOOLEAN IsAnsiString(CHAR const *pszname, ULONG cb); #endif CMemSerStream::CMemSerStream( unsigned cb ) : _cb( cb ) { _pb = new BYTE[cb]; if (_pb != NULL) { _pbCurrent = _pb; _pbEnd = _pb + _cb; } } CMemSerStream::CMemSerStream( BYTE * pb, ULONG cb ) : _cb( 0 ), _pb( pb ), _pbCurrent( _pb ), _pbEnd(_pb + cb) { } CMemSerStream::~CMemSerStream() { if ( _cb > 0 ) delete [] _pb; } void CMemSerStream::PutByte( BYTE b ) { HANDLE_OVERFLOW((_pbCurrent + 1) > _pbEnd); *_pbCurrent++ = b; } void CMemSerStream::PutChar( char const * pc, ULONG cc ) { BYTE *pb = _pbCurrent; _pbCurrent += cc; HANDLE_OVERFLOW(!_pbCurrent || _pbCurrent > _pbEnd); memcpy( pb, pc, cc ); } void CMemSerStream::PutWChar( WCHAR const * pwc, ULONG cc ) { WCHAR * pwcTemp = AlignWCHAR(_pbCurrent); _pbCurrent = (BYTE *)(pwcTemp + cc); HANDLE_OVERFLOW(!_pbCurrent || _pbCurrent > _pbEnd); memcpy( pwcTemp, pwc, cc * sizeof(WCHAR) ); } void CMemSerStream::PutUShort( USHORT us ) { USHORT * pus = AlignUSHORT(_pbCurrent); _pbCurrent = (BYTE *)(pus + 1); HANDLE_OVERFLOW(!_pbCurrent || _pbCurrent > _pbEnd); *pus = us; } void CMemSerStream::PutULong( ULONG ul ) { ULONG * pul = AlignULONG(_pbCurrent); _pbCurrent = (BYTE *)(pul + 1); HANDLE_OVERFLOW(_pbCurrent > _pbEnd); *pul = ul; } void CMemSerStream::PutLong( long l ) { long * pl = AlignLong(_pbCurrent); _pbCurrent = (BYTE *)(pl + 1); HANDLE_OVERFLOW(!_pbCurrent || _pbCurrent > _pbEnd); *pl = l; } void CMemSerStream::PutFloat( float f ) { float * pf = AlignFloat(_pbCurrent); _pbCurrent = (BYTE *)(pf + 1); HANDLE_OVERFLOW(!_pbCurrent || _pbCurrent > _pbEnd); *pf = f; } void CMemSerStream::PutDouble( double d ) { double * pd = AlignDouble(_pbCurrent); _pbCurrent = (BYTE *)(pd + 1); HANDLE_OVERFLOW(!_pbCurrent || _pbCurrent > _pbEnd); *pd = d; } void CMemSerStream::PutString( char const * psz ) { ASSERT(IsAnsiString(psz, MAXULONG)); ULONG len = strlen(psz); ULONG * pul = AlignULONG(_pbCurrent); BYTE *pb = (BYTE *)(pul + 1); _pbCurrent = pb + len; HANDLE_OVERFLOW(!_pbCurrent || _pbCurrent > _pbEnd); *pul = len; memcpy(pb, psz, len); } void CMemSerStream::PutWString( WCHAR const * pwsz ) { ASSERT(IsUnicodeString(pwsz, MAXULONG)); ULONG len = wcslen(pwsz); ULONG * pul = AlignULONG(_pbCurrent); BYTE *pb = (BYTE *)(pul + 1); _pbCurrent = pb + len * sizeof(WCHAR); HANDLE_OVERFLOW(!_pbCurrent || _pbCurrent > _pbEnd); *pul = len; memcpy(pb, pwsz, (len * sizeof(WCHAR))); } void CMemSerStream::PutBlob( BYTE const * pbBlob, ULONG cb ) { BYTE *pb = _pbCurrent; _pbCurrent += cb; HANDLE_OVERFLOW(!_pbCurrent || _pbCurrent > _pbEnd); memcpy( pb, pbBlob, cb ); } void CMemSerStream::PutGUID( GUID const & guid ) { GUID * pguid = (GUID *)AlignGUID(_pbCurrent); _pbCurrent = (BYTE *)(pguid + 1); HANDLE_OVERFLOW(!_pbCurrent || _pbCurrent > _pbEnd); memcpy( pguid, &guid, sizeof(guid) ); }