Modified source engine (2017) developed by valve and leaked in 2020. Not for commercial purporses
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//========= Copyright Valve Corporation, All rights reserved. ============//
//
// Purpose: Insert this file into all projects using the memory system
// It will cause that project to use the shader memory allocator
//
// $NoKeywords: $
//=============================================================================//
#if !defined(STEAM) && !defined(NO_MALLOC_OVERRIDE)
#undef PROTECTED_THINGS_ENABLE // allow use of _vsnprintf
#if defined( _WIN32 ) && !defined( _X360 )
#define WIN_32_LEAN_AND_MEAN
#include <windows.h>
#endif
#ifdef _WIN32
// ARG: crtdbg is necessary for certain definitions below,
// but it also redefines malloc as a macro in release.
// To disable this, we gotta define _DEBUG before including it.. BLEAH!
#define _DEBUG 1
#include "crtdbg.h"
#ifdef NDEBUG
#undef _DEBUG
#endif
// Turn this back off in release mode.
#ifdef NDEBUG
#undef _DEBUG
#endif
#endif
#include "tier0/dbg.h"
#include "tier0/memalloc.h"
#include <string.h>
#include <stdio.h>
#include "memdbgoff.h"
#if POSIX
#define __cdecl
#endif
#if defined( _WIN32 ) && !defined( _X360 )
const char *MakeModuleFileName()
{
if ( g_pMemAlloc && g_pMemAlloc->IsDebugHeap() )
{
char *pszModuleName = (char *)HeapAlloc( GetProcessHeap(), 0, MAX_PATH ); // small leak, debug only
MEMORY_BASIC_INFORMATION mbi;
static int dummy;
VirtualQuery( &dummy, &mbi, sizeof(mbi) );
GetModuleFileName( reinterpret_cast<HMODULE>(mbi.AllocationBase), pszModuleName, MAX_PATH );
char *pDot = strrchr( pszModuleName, '.' );
if ( pDot )
{
char *pSlash = strrchr( pszModuleName, '\\' );
if ( pSlash )
{
pszModuleName = pSlash + 1;
*pDot = 0;
}
}
return pszModuleName;
}
return NULL;
}
//-----------------------------------------------------------------------------
// Purpose: helper class to detect when static construction has been done by the CRT
//-----------------------------------------------------------------------------
class CStaticConstructionCheck
{
public:
volatile bool m_bConstructed = true;
};
static CStaticConstructionCheck s_CheckStaticsConstructed;
const char *GetModuleFileName()
{
#if !defined(_MSC_VER) || ( _MSC_VER >= 1900 ) // VC 2015 and above, with the UCRT, will crash if you use a static before it is constructed
if ( !s_CheckStaticsConstructed.m_bConstructed )
return nullptr;
#endif
static const char *pszOwner = MakeModuleFileName();
return pszOwner;
}
static void *AllocUnattributed( size_t nSize )
{
const char *pszOwner = GetModuleFileName();
if ( !pszOwner )
return g_pMemAlloc->Alloc(nSize);
else
return g_pMemAlloc->Alloc(nSize, pszOwner, 0);
}
static void *ReallocUnattributed( void *pMem, size_t nSize )
{
const char *pszOwner = GetModuleFileName();
if ( !pszOwner )
return g_pMemAlloc->Realloc(pMem, nSize);
else
return g_pMemAlloc->Realloc(pMem, nSize, pszOwner, 0);
}
#else
#define MakeModuleFileName() NULL
inline void *AllocUnattributed( size_t nSize )
{
return g_pMemAlloc->Alloc(nSize);
}
inline void *ReallocUnattributed( void *pMem, size_t nSize )
{
return g_pMemAlloc->Realloc(pMem, nSize);
}
#endif
//-----------------------------------------------------------------------------
// Standard functions in the CRT that we're going to override to call our allocator
//-----------------------------------------------------------------------------
#if defined(_WIN32) && !defined(_STATIC_LINKED)
// this magic only works under win32
// under linux this malloc() overrides the libc malloc() and so we
// end up in a recursion (as g_pMemAlloc->Alloc() calls malloc)
#if _MSC_VER >= 1900
#define SUPPRESS_INVALID_PARAMETER_NO_INFO
#define ALLOC_CALL __declspec(restrict)
#define FREE_CALL
#elif _MSC_VER >= 1400
#define ALLOC_CALL _CRTNOALIAS _CRTRESTRICT
#define FREE_CALL _CRTNOALIAS
#else
#define ALLOC_CALL
#define FREE_CALL
#endif
extern "C"
{
ALLOC_CALL void *malloc( size_t nSize )
{
return AllocUnattributed( nSize );
}
FREE_CALL void free( void *pMem )
{
g_pMemAlloc->Free(pMem);
}
ALLOC_CALL void *realloc( void *pMem, size_t nSize )
{
return ReallocUnattributed( pMem, nSize );
}
ALLOC_CALL void *calloc( size_t nCount, size_t nElementSize )
{
void *pMem = AllocUnattributed( nElementSize * nCount );
memset(pMem, 0, nElementSize * nCount);
return pMem;
}
} // end extern "C"
//-----------------------------------------------------------------------------
// Non-standard MSVC functions that we're going to override to call our allocator
//-----------------------------------------------------------------------------
extern "C"
{
// 64-bit
#ifdef _WIN64
void* __cdecl _malloc_base( size_t nSize )
{
return AllocUnattributed( nSize );
}
#else
ALLOC_CALL void *_malloc_base( size_t nSize )
{
return AllocUnattributed( nSize );
}
#endif
ALLOC_CALL void *_calloc_base( size_t nCount, size_t nSize )
{
void *pMem = AllocUnattributed( nSize*nCount );
memset(pMem, 0, nSize*nCount );
return pMem;
}
ALLOC_CALL void *_realloc_base( void *pMem, size_t nSize )
{
return ReallocUnattributed( pMem, nSize );
}
ALLOC_CALL void *_recalloc_base( void *pMem, size_t nSize )
{
void *pMemOut = ReallocUnattributed( pMem, nSize );
if ( !pMem )
{
memset( pMemOut, 0, nSize );
}
return pMemOut;
}
void _free_base( void *pMem )
{
g_pMemAlloc->Free(pMem);
}
void *__cdecl _expand_base( void *pMem, size_t nNewSize, int nBlockUse )
{
Assert( 0 );
return NULL;
}
// crt
void * __cdecl _malloc_crt(size_t size)
{
return AllocUnattributed( size );
}
void * __cdecl _calloc_crt(size_t count, size_t size)
{
return _calloc_base( count, size );
}
void * __cdecl _realloc_crt(void *ptr, size_t size)
{
return _realloc_base( ptr, size );
}
void * __cdecl _recalloc_crt(void *ptr, size_t count, size_t size)
{
return _recalloc_base( ptr, size * count );
}
ALLOC_CALL void * __cdecl _recalloc ( void * memblock, size_t count, size_t size )
{
void *pMem = ReallocUnattributed( memblock, size * count );
if ( !memblock )
{
memset( pMem, 0, size * count );
}
return pMem;
}
size_t _msize_base( void *pMem )
{
return g_pMemAlloc->GetSize(pMem);
}
size_t _msize( void *pMem )
{
return _msize_base(pMem);
}
size_t msize( void *pMem )
{
return g_pMemAlloc->GetSize(pMem);
}
void *__cdecl _heap_alloc( size_t nSize )
{
return AllocUnattributed( nSize );
}
void *__cdecl _nh_malloc( size_t nSize, int )
{
return AllocUnattributed( nSize );
}
void *__cdecl _expand( void *pMem, size_t nSize )
{
Assert( 0 );
return NULL;
}
unsigned int _amblksiz = 16; //BYTES_PER_PARA;
#if _MSC_VER >= 1400
HANDLE _crtheap = (HANDLE)1; // PatM Can't be 0 or CRT pukes
int __active_heap = 1;
#endif // _MSC_VER >= 1400
size_t __cdecl _get_sbh_threshold( void )
{
return 0;
}
int __cdecl _set_sbh_threshold( size_t )
{
return 0;
}
int _heapchk()
{
return g_pMemAlloc->heapchk();
}
int _heapmin()
{
return 1;
}
int __cdecl _heapadd( void *, size_t )
{
return 0;
}
int __cdecl _heapset( unsigned int )
{
return 0;
}
size_t __cdecl _heapused( size_t *, size_t * )
{
return 0;
}
#ifdef _WIN32
int __cdecl _heapwalk( _HEAPINFO * )
{
return 0;
}
#endif
} // end extern "C"
//-----------------------------------------------------------------------------
// Debugging functions that we're going to override to call our allocator
// NOTE: These have to be here for release + debug builds in case we
// link to a debug static lib!!!
//-----------------------------------------------------------------------------
extern "C"
{
void *malloc_db( size_t nSize, const char *pFileName, int nLine )
{
return g_pMemAlloc->Alloc(nSize, pFileName, nLine);
}
void free_db( void *pMem, const char *pFileName, int nLine )
{
g_pMemAlloc->Free(pMem, pFileName, nLine);
}
void *realloc_db( void *pMem, size_t nSize, const char *pFileName, int nLine )
{
return g_pMemAlloc->Realloc(pMem, nSize, pFileName, nLine);
}
} // end extern "C"
//-----------------------------------------------------------------------------
// These methods are standard MSVC heap initialization + shutdown methods
//-----------------------------------------------------------------------------
extern "C"
{
#if !defined( _X360 )
int __cdecl _heap_init()
{
return g_pMemAlloc != NULL;
}
void __cdecl _heap_term()
{
}
#endif
}
#endif
//-----------------------------------------------------------------------------
// Prevents us from using an inappropriate new or delete method,
// ensures they are here even when linking against debug or release static libs
//-----------------------------------------------------------------------------
#ifndef NO_MEMOVERRIDE_NEW_DELETE
#ifdef OSX
void *__cdecl operator new( size_t nSize ) throw (std::bad_alloc)
#else
void *__cdecl operator new( size_t nSize )
#endif
{
return AllocUnattributed( nSize );
}
void *__cdecl operator new( size_t nSize, int nBlockUse, const char *pFileName, int nLine )
{
return g_pMemAlloc->Alloc(nSize, pFileName, nLine);
}
#ifdef OSX
void __cdecl operator delete( void *pMem ) throw()
#else
void __cdecl operator delete( void *pMem )
#endif
{
g_pMemAlloc->Free( pMem );
}
#ifdef OSX
void operator delete(void*pMem, std::size_t)
#else
void operator delete(void*pMem, std::size_t) throw()
#endif
{
g_pMemAlloc->Free( pMem );
}
#ifdef OSX
void *__cdecl operator new[]( size_t nSize ) throw (std::bad_alloc)
#else
void *__cdecl operator new[]( size_t nSize )
#endif
{
return AllocUnattributed( nSize );
}
void *__cdecl operator new[] ( size_t nSize, int nBlockUse, const char *pFileName, int nLine )
{
return g_pMemAlloc->Alloc(nSize, pFileName, nLine);
}
#ifdef OSX
void __cdecl operator delete[]( void *pMem ) throw()
#else
void __cdecl operator delete[]( void *pMem )
#endif
{
g_pMemAlloc->Free( pMem );
}
#endif
//-----------------------------------------------------------------------------
// Override some debugging allocation methods in MSVC
// NOTE: These have to be here for release + debug builds in case we
// link to a debug static lib!!!
//-----------------------------------------------------------------------------
#ifndef _STATIC_LINKED
#ifdef _WIN32
// This here just hides the internal file names, etc of allocations
// made in the c runtime library
#define CRT_INTERNAL_FILE_NAME "C-runtime internal"
class CAttibCRT
{
public:
CAttibCRT(int nBlockUse) : m_nBlockUse(nBlockUse)
{
if (m_nBlockUse == _CRT_BLOCK)
{
g_pMemAlloc->PushAllocDbgInfo(CRT_INTERNAL_FILE_NAME, 0);
}
}
~CAttibCRT()
{
if (m_nBlockUse == _CRT_BLOCK)
{
g_pMemAlloc->PopAllocDbgInfo();
}
}
private:
int m_nBlockUse;
};
#define AttribIfCrt() CAttibCRT _attrib(nBlockUse)
#elif defined(POSIX)
#define AttribIfCrt()
#endif // _WIN32
extern "C"
{
void *__cdecl _nh_malloc_dbg( size_t nSize, int nFlag, int nBlockUse,
const char *pFileName, int nLine )
{
AttribIfCrt();
return g_pMemAlloc->Alloc(nSize, pFileName, nLine);
}
void *__cdecl _malloc_dbg( size_t nSize, int nBlockUse,
const char *pFileName, int nLine )
{
AttribIfCrt();
return g_pMemAlloc->Alloc(nSize, pFileName, nLine);
}
#if defined( _X360 )
void *__cdecl _calloc_dbg_impl( size_t nNum, size_t nSize, int nBlockUse,
const char * szFileName, int nLine, int * errno_tmp )
{
return _calloc_dbg( nNum, nSize, nBlockUse, szFileName, nLine );
}
#endif
void *__cdecl _calloc_dbg( size_t nNum, size_t nSize, int nBlockUse,
const char *pFileName, int nLine )
{
AttribIfCrt();
void *pMem = g_pMemAlloc->Alloc(nSize * nNum, pFileName, nLine);
memset(pMem, 0, nSize * nNum);
return pMem;
}
void *__cdecl _calloc_dbg_impl( size_t nNum, size_t nSize, int nBlockUse,
const char * szFileName, int nLine, int * errno_tmp )
{
return _calloc_dbg( nNum, nSize, nBlockUse, szFileName, nLine );
}
void *__cdecl _realloc_dbg( void *pMem, size_t nNewSize, int nBlockUse,
const char *pFileName, int nLine )
{
AttribIfCrt();
return g_pMemAlloc->Realloc(pMem, nNewSize, pFileName, nLine);
}
void *__cdecl _expand_dbg( void *pMem, size_t nNewSize, int nBlockUse,
const char *pFileName, int nLine )
{
Assert( 0 );
return NULL;
}
void __cdecl _free_dbg( void *pMem, int nBlockUse )
{
AttribIfCrt();
g_pMemAlloc->Free(pMem);
}
size_t __cdecl _msize_dbg( void *pMem, int nBlockUse )
{
#ifdef _WIN32
return _msize(pMem);
#elif POSIX
Assert( "_msize_dbg unsupported" );
return 0;
#endif
}
#ifdef _WIN32
#if defined(_DEBUG) && _MSC_VER >= 1300
// aligned base
ALLOC_CALL void *__cdecl _aligned_malloc_base( size_t size, size_t align )
{
return MemAlloc_AllocAligned( size, align );
}
inline void *MemAlloc_Unalign( void *pMemBlock )
{
unsigned *pAlloc = (unsigned *)pMemBlock;
// pAlloc points to the pointer to starting of the memory block
pAlloc = (unsigned *)(((size_t)pAlloc & ~(sizeof( void * ) - 1)) - sizeof( void * ));
// pAlloc is the pointer to the start of memory block
return *((unsigned **)pAlloc);
}
ALLOC_CALL void *__cdecl _aligned_realloc_base( void *ptr, size_t size, size_t align )
{
if ( ptr && !size )
{
MemAlloc_FreeAligned( ptr );
return NULL;
}
void *pNew = MemAlloc_AllocAligned( size, align );
if ( ptr )
{
void *ptrUnaligned = MemAlloc_Unalign( ptr );
size_t oldSize = g_pMemAlloc->GetSize( ptrUnaligned );
size_t oldOffset = (uintp)ptr - (uintp)ptrUnaligned;
size_t copySize = oldSize - oldOffset;
if ( copySize > size )
copySize = size;
memcpy( pNew, ptr, copySize );
MemAlloc_FreeAligned( ptr );
}
return pNew;
}
ALLOC_CALL void *__cdecl _aligned_recalloc_base( void *ptr, size_t size, size_t align )
{
Error( "Unsupported function\n" );
return NULL;
}
FREE_CALL void __cdecl _aligned_free_base( void *ptr )
{
MemAlloc_FreeAligned( ptr );
}
// aligned
ALLOC_CALL void * __cdecl _aligned_malloc( size_t size, size_t align )
{
return _aligned_malloc_base(size, align);
}
ALLOC_CALL void *__cdecl _aligned_realloc(void *memblock, size_t size, size_t align)
{
return _aligned_realloc_base(memblock, size, align);
}
ALLOC_CALL void * __cdecl _aligned_recalloc( void * memblock, size_t count, size_t size, size_t align )
{
return _aligned_recalloc_base(memblock, count * size, align);
}
FREE_CALL void __cdecl _aligned_free( void *memblock )
{
_aligned_free_base(memblock);
}
// aligned offset base
ALLOC_CALL void * __cdecl _aligned_offset_malloc_base( size_t size, size_t align, size_t offset )
{
Assert( IsPC() || 0 );
return NULL;
}
ALLOC_CALL void * __cdecl _aligned_offset_realloc_base( void * memblock, size_t size, size_t align, size_t offset)
{
Assert( IsPC() || 0 );
return NULL;
}
ALLOC_CALL void * __cdecl _aligned_offset_recalloc_base( void * memblock, size_t size, size_t align, size_t offset)
{
Assert( IsPC() || 0 );
return NULL;
}
// aligned offset
ALLOC_CALL void *__cdecl _aligned_offset_malloc(size_t size, size_t align, size_t offset)
{
return _aligned_offset_malloc_base( size, align, offset );
}
ALLOC_CALL void *__cdecl _aligned_offset_realloc(void *memblock, size_t size, size_t align, size_t offset)
{
return _aligned_offset_realloc_base( memblock, size, align, offset );
}
ALLOC_CALL void * __cdecl _aligned_offset_recalloc( void * memblock, size_t count, size_t size, size_t align, size_t offset )
{
return _aligned_offset_recalloc_base( memblock, count * size, align, offset );
}
#endif // _MSC_VER >= 1400
#endif
} // end extern "C"
//-----------------------------------------------------------------------------
// Override some the _CRT debugging allocation methods in MSVC
//-----------------------------------------------------------------------------
#ifdef _WIN32
extern "C"
{
int _CrtDumpMemoryLeaks(void)
{
return 0;
}
_CRT_DUMP_CLIENT _CrtSetDumpClient( _CRT_DUMP_CLIENT dumpClient )
{
return NULL;
}
int _CrtSetDbgFlag( int nNewFlag )
{
return g_pMemAlloc->CrtSetDbgFlag( nNewFlag );
}
// 64-bit port.
#define AFNAME(var) __p_##var
#define AFRET(var) &var
#if defined(_crtDbgFlag)
#undef _crtDbgFlag
#endif
#if defined(_crtBreakAlloc)
#undef _crtBreakAlloc
#endif
int _crtDbgFlag = _CRTDBG_ALLOC_MEM_DF;
int* AFNAME(_crtDbgFlag)(void)
{
return AFRET(_crtDbgFlag);
}
long _crtBreakAlloc; /* Break on this allocation */
long* AFNAME(_crtBreakAlloc) (void)
{
return AFRET(_crtBreakAlloc);
}
void __cdecl _CrtSetDbgBlockType( void *pMem, int nBlockUse )
{
DebuggerBreak();
}
_CRT_ALLOC_HOOK __cdecl _CrtSetAllocHook( _CRT_ALLOC_HOOK pfnNewHook )
{
DebuggerBreak();
return NULL;
}
long __cdecl _CrtSetBreakAlloc( long lNewBreakAlloc )
{
return g_pMemAlloc->CrtSetBreakAlloc( lNewBreakAlloc );
}
int __cdecl _CrtIsValidHeapPointer( const void *pMem )
{
return g_pMemAlloc->CrtIsValidHeapPointer( pMem );
}
int __cdecl _CrtIsValidPointer( const void *pMem, unsigned int size, int access )
{
return g_pMemAlloc->CrtIsValidPointer( pMem, size, access );
}
int __cdecl _CrtCheckMemory( void )
{
// FIXME: Remove this when we re-implement the heap
return g_pMemAlloc->CrtCheckMemory( );
}
int __cdecl _CrtIsMemoryBlock( const void *pMem, unsigned int nSize,
long *plRequestNumber, char **ppFileName, int *pnLine )
{
DebuggerBreak();
return 1;
}
int __cdecl _CrtMemDifference( _CrtMemState *pState, const _CrtMemState * oldState, const _CrtMemState * newState )
{
DebuggerBreak();
return FALSE;
}
void __cdecl _CrtMemDumpStatistics( const _CrtMemState *pState )
{
DebuggerBreak();
}
void __cdecl _CrtMemCheckpoint( _CrtMemState *pState )
{
// FIXME: Remove this when we re-implement the heap
g_pMemAlloc->CrtMemCheckpoint( pState );
}
void __cdecl _CrtMemDumpAllObjectsSince( const _CrtMemState *pState )
{
DebuggerBreak();
}
void __cdecl _CrtDoForAllClientObjects( void (*pfn)(void *, void *), void * pContext )
{
DebuggerBreak();
}
//-----------------------------------------------------------------------------
// Methods in dbgrpt.cpp
//-----------------------------------------------------------------------------
long _crtAssertBusy = -1;
int __cdecl _CrtSetReportMode( int nReportType, int nReportMode )
{
return g_pMemAlloc->CrtSetReportMode( nReportType, nReportMode );
}
_HFILE __cdecl _CrtSetReportFile( int nRptType, _HFILE hFile )
{
return (_HFILE)g_pMemAlloc->CrtSetReportFile( nRptType, hFile );
}
_CRT_REPORT_HOOK __cdecl _CrtSetReportHook( _CRT_REPORT_HOOK pfnNewHook )
{
return (_CRT_REPORT_HOOK)g_pMemAlloc->CrtSetReportHook( pfnNewHook );
}
int __cdecl _CrtDbgReport( int nRptType, const char * szFile,
int nLine, const char * szModule, const char * szFormat, ... )
{
static char output[1024];
va_list args;
if ( szFormat )
{
va_start( args, szFormat );
_vsnprintf( output, sizeof( output )-1, szFormat, args );
va_end( args );
}
else
{
output[0] = 0;
}
return g_pMemAlloc->CrtDbgReport( nRptType, szFile, nLine, szModule, output );
}
#if _MSC_VER >= 1400
// Configure VS so that it will record crash dumps on pure-call violations
// and invalid parameter handlers.
// If you manage to call a pure-virtual function (easily done if you indirectly
// call a pure-virtual function from the base-class constructor or destructor)
// or if you invoke the invalid parameter handler (printf(NULL); is one way)
// then no crash dump will be created.
// This crash redirects the handlers for these two events so that crash dumps
// are created.
//
// The ErrorHandlerRegistrar object must be in memoverride.cpp so that it will
// be placed in every DLL and EXE. This is required because each DLL and EXE
// gets its own copy of the C run-time and these overrides are set on a per-CRT
// basis.
/*
// This sample code will cause pure-call and invalid_parameter violations and
// was used for testing:
class Base
{
public:
virtual void PureFunction() = 0;
Base()
{
NonPureFunction();
}
void NonPureFunction()
{
PureFunction();
}
};
class Derived : public Base
{
public:
void PureFunction() OVERRIDE
{
}
};
void PureCallViolation()
{
Derived derived;
}
void InvalidParameterViolation()
{
printf( NULL );
}
*/
#include <stdlib.h>
#include "minidump.h"
// Disable compiler optimizations. If we don't do this then VC++ generates code
// that confuses the Visual Studio debugger and causes it to display completely
// random call stacks. That makes the minidumps excruciatingly hard to understand.
#pragma optimize("", off)
// Write a minidump file, unless running under the debugger in which case break
// into the debugger.
// The "int dummy" parameter is so that the callers can be unique so that the
// linker won't use its /opt:icf optimization to collapse them together. This
// makes reading the call stack easier.
void __cdecl WriteMiniDumpOrBreak( int dummy, const char *pchName )
{
if ( Plat_IsInDebugSession() )
{
__debugbreak();
// Continue at your peril...
}
else
{
WriteMiniDump( pchName );
// Call Plat_ExitProcess so we don't continue in a bad state.
TerminateProcess(GetCurrentProcess(), 0);
}
}
void __cdecl VPureCall()
{
WriteMiniDumpOrBreak( 0, "PureClass" );
}
void VInvalidParameterHandler(const wchar_t* expression,
const wchar_t* function,
const wchar_t* file,
unsigned int line,
uintptr_t pReserved)
{
WriteMiniDumpOrBreak( 1, "InvalidParameterHandler" );
}
// Restore compiler optimizations.
#pragma optimize("", on)
// Helper class for registering error callbacks. See above for details.
class ErrorHandlerRegistrar
{
public:
ErrorHandlerRegistrar();
} s_ErrorHandlerRegistration;
ErrorHandlerRegistrar::ErrorHandlerRegistrar()
{
_set_purecall_handler( VPureCall );
_set_invalid_parameter_handler( VInvalidParameterHandler );
}
#if defined( _DEBUG )
// wrapper which passes no debug info; not available in debug
#ifndef SUPPRESS_INVALID_PARAMETER_NO_INFO
void __cdecl _invalid_parameter_noinfo(void)
{
Assert(0);
}
#endif
#endif /* defined( _DEBUG ) */
#if defined( _DEBUG ) || defined( USE_MEM_DEBUG )
int __cdecl __crtMessageWindowW( int nRptType, const wchar_t * szFile, const wchar_t * szLine,
const wchar_t * szModule, const wchar_t * szUserMessage )
{
Assert(0);
return 0;
}
int __cdecl _CrtDbgReportV( int nRptType, const wchar_t *szFile, int nLine,
const wchar_t *szModule, const wchar_t *szFormat, va_list arglist )
{
Assert(0);
return 0;
}
int __cdecl _CrtDbgReportW( int nRptType, const wchar_t *szFile, int nLine,
const wchar_t *szModule, const wchar_t *szFormat, ...)
{
Assert(0);
return 0;
}
#if _MSC_VER >= 1900
int __cdecl _VCrtDbgReportA( int nRptType, void* ReturnAddress, const char * szFile, int nLine,
const char * szModule, const char * szFormat, va_list arglist )
{
Assert(0);
return 0;
}
#else
int __cdecl _VCrtDbgReportA( int nRptType, const wchar_t * szFile, int nLine,
const wchar_t * szModule, const wchar_t * szFormat, va_list arglist )
{
Assert( 0 );
return 0;
}
#endif
int __cdecl _CrtSetReportHook2( int mode, _CRT_REPORT_HOOK pfnNewHook )
{
_CrtSetReportHook( pfnNewHook );
return 0;
}
#endif /* defined( _DEBUG ) || defined( USE_MEM_DEBUG ) */
extern "C" int __crtDebugCheckCount = FALSE;
extern "C" int __cdecl _CrtSetCheckCount( int fCheckCount )
{
int oldCheckCount = __crtDebugCheckCount;
return oldCheckCount;
}
extern "C" int __cdecl _CrtGetCheckCount( void )
{
return __crtDebugCheckCount;
}
// aligned offset debug
extern "C" void * __cdecl _aligned_offset_recalloc_dbg( void * memblock, size_t count, size_t size, size_t align, size_t offset, const char * f_name, int line_n )
{
Assert( IsPC() || 0 );
void *pMem = ReallocUnattributed( memblock, size * count );
if ( !memblock )
{
memset( pMem, 0, size * count );
}
return pMem;
}
extern "C" void * __cdecl _aligned_recalloc_dbg( void *memblock, size_t count, size_t size, size_t align, const char * f_name, int line_n )
{
return _aligned_offset_recalloc_dbg(memblock, count, size, align, 0, f_name, line_n);
}
extern "C" void * __cdecl _recalloc_dbg ( void * memblock, size_t count, size_t size, int nBlockUse, const char * szFileName, int nLine )
{
return _aligned_offset_recalloc_dbg(memblock, count, size, 0, 0, szFileName, nLine);
}
_CRT_REPORT_HOOK __cdecl _CrtGetReportHook( void )
{
return NULL;
}
#endif
int __cdecl _CrtReportBlockType(const void * pUserData)
{
return 0;
}
} // end extern "C"
#endif // _WIN32
// Most files include this file, so when it's used it adds an extra .ValveDbg section,
// to help identify debug binaries.
#ifdef _WIN32
#ifndef NDEBUG // _DEBUG
#pragma data_seg("ValveDBG")
volatile const char* DBG = "*** DEBUG STUB ***";
#endif
#endif
#endif
// Extras added prevent dbgheap.obj from being included - DAL
#ifdef _WIN32
extern "C"
{
size_t __crtDebugFillThreshold = 0;
extern "C" void * __cdecl _heap_alloc_base (size_t size) {
assert(0);
return NULL;
}
void * __cdecl _heap_alloc_dbg( size_t nSize, int nBlockUse, const char * szFileName, int nLine)
{
return _heap_alloc(nSize);
}
// 64-bit
#ifdef _WIN64
static void * __cdecl realloc_help( void * pUserData, size_t * pnNewSize, int nBlockUse,const char * szFileName,
int nLine, int fRealloc )
{
assert(0); // Shouldn't be needed
return NULL;
}
#else
static void * __cdecl realloc_help( void * pUserData, size_t nNewSize, int nBlockUse, const char * szFileName,
int nLine, int fRealloc)
{
assert(0); // Shouldn't be needed
return NULL;
}
#endif
void __cdecl _free_nolock( void * pUserData)
{
// I don't think the second param is used in memoverride
_free_dbg(pUserData, 0);
}
void __cdecl _free_dbg_nolock( void * pUserData, int nBlockUse)
{
_free_dbg(pUserData, 0);
}
_CRT_ALLOC_HOOK __cdecl _CrtGetAllocHook ( void)
{
assert(0);
return NULL;
}
static int __cdecl CheckBytes( unsigned char * pb, unsigned char bCheck, size_t nSize)
{
int bOkay = TRUE;
return bOkay;
}
_CRT_DUMP_CLIENT __cdecl _CrtGetDumpClient ( void)
{
assert(0);
return NULL;
}
#if _MSC_VER >= 1400
static void __cdecl _printMemBlockData( _locale_t plocinfo, _CrtMemBlockHeader * pHead)
{
}
static void __cdecl _CrtMemDumpAllObjectsSince_stat( const _CrtMemState * state, _locale_t plocinfo)
{
}
#endif
void * __cdecl _aligned_malloc_dbg( size_t size, size_t align, const char * f_name, int line_n)
{
return _aligned_malloc(size, align);
}
void * __cdecl _aligned_realloc_dbg( void *memblock, size_t size, size_t align,
const char * f_name, int line_n)
{
return _aligned_realloc(memblock, size, align);
}
void * __cdecl _aligned_offset_malloc_dbg( size_t size, size_t align, size_t offset,
const char * f_name, int line_n)
{
return _aligned_offset_malloc(size, align, offset);
}
void * __cdecl _aligned_offset_realloc_dbg( void * memblock, size_t size, size_t align,
size_t offset, const char * f_name, int line_n)
{
return _aligned_offset_realloc(memblock, size, align, offset);
}
void __cdecl _aligned_free_dbg( void * memblock)
{
_aligned_free(memblock);
}
#if _MSC_VER < 1900
size_t __cdecl _CrtSetDebugFillThreshold( size_t _NewDebugFillThreshold)
{
assert(0);
return 0;
}
//===========================================
// NEW!!! 64-bit
char * __cdecl _strdup ( const char * string )
{
int nSize = (int)strlen(string) + 1;
// Check for integer underflow.
if ( nSize <= 0 )
return NULL;
char *pCopy = (char*)AllocUnattributed( nSize );
if ( pCopy )
memcpy( pCopy, string, nSize );
return pCopy;
}
#endif
#if 0
_TSCHAR * __cdecl _tfullpath_dbg ( _TSCHAR *UserBuf, const _TSCHAR *path, size_t maxlen, int nBlockUse, const char * szFileName, int nLine )
{
Assert(0);
return NULL;
}
_TSCHAR * __cdecl _tfullpath ( _TSCHAR *UserBuf, const _TSCHAR *path, size_t maxlen )
{
Assert(0);
return NULL;
}
_TSCHAR * __cdecl _tgetdcwd_lk_dbg ( int drive, _TSCHAR *pnbuf, int maxlen, int nBlockUse, const char * szFileName, int nLine )
{
Assert(0);
return NULL;
}
_TSCHAR * __cdecl _tgetdcwd_nolock ( int drive, _TSCHAR *pnbuf, int maxlen )
{
Assert(0);
return NULL;
}
errno_t __cdecl _tdupenv_s_helper ( _TSCHAR **pBuffer, size_t *pBufferSizeInTChars, const _TSCHAR *varname, int nBlockUse, const char * szFileName, int nLine )
{
Assert(0);
return 0;
}
errno_t __cdecl _tdupenv_s_helper ( _TSCHAR **pBuffer, size_t *pBufferSizeInTChars, const _TSCHAR *varname )
{
Assert(0);
return 0;
}
_TSCHAR * __cdecl _ttempnam_dbg ( const _TSCHAR *dir, const _TSCHAR *pfx, int nBlockUse, const char * szFileName, int nLine )
{
Assert(0);
return 0;
}
_TSCHAR * __cdecl _ttempnam ( const _TSCHAR *dir, const _TSCHAR *pfx )
{
Assert(0);
return 0;
}
wchar_t * __cdecl _wcsdup_dbg ( const wchar_t * string, int nBlockUse, const char * szFileName, int nLine )
{
Assert(0);
return 0;
}
wchar_t * __cdecl _wcsdup ( const wchar_t * string )
{
Assert(0);
return 0;
}
#endif
} // end extern "C"
#if _MSC_VER >= 1400
//-----------------------------------------------------------------------------
// XBox Memory Allocator Override
//-----------------------------------------------------------------------------
#if defined( _X360 )
#if defined( _DEBUG ) || defined( USE_MEM_DEBUG )
#include "utlmap.h"
MEMALLOC_DEFINE_EXTERNAL_TRACKING( XMem );
CThreadFastMutex g_XMemAllocMutex;
void XMemAlloc_RegisterAllocation( void *p, DWORD dwAllocAttributes )
{
if ( !g_pMemAlloc )
{
// core xallocs cannot be journaled until system is ready
return;
}
AUTO_LOCK_FM( g_XMemAllocMutex );
int size = XMemSize( p, dwAllocAttributes );
MemAlloc_RegisterExternalAllocation( XMem, p, size );
}
void XMemAlloc_RegisterDeallocation( void *p, DWORD dwAllocAttributes )
{
if ( !g_pMemAlloc )
{
// core xallocs cannot be journaled until system is ready
return;
}
AUTO_LOCK_FM( g_XMemAllocMutex );
int size = XMemSize( p, dwAllocAttributes );
MemAlloc_RegisterExternalDeallocation( XMem, p, size );
}
#else
#define XMemAlloc_RegisterAllocation( p, a ) ((void)0)
#define XMemAlloc_RegisterDeallocation( p, a ) ((void)0)
#endif
//-----------------------------------------------------------------------------
// XMemAlloc
//
// XBox Memory Allocator Override
//-----------------------------------------------------------------------------
LPVOID WINAPI XMemAlloc( SIZE_T dwSize, DWORD dwAllocAttributes )
{
LPVOID ptr;
XALLOC_ATTRIBUTES *pAttribs = (XALLOC_ATTRIBUTES *)&dwAllocAttributes;
bool bPhysical = ( pAttribs->dwMemoryType == XALLOC_MEMTYPE_PHYSICAL );
if ( !bPhysical && !pAttribs->dwHeapTracksAttributes && pAttribs->dwAllocatorId != eXALLOCAllocatorId_XUI )
{
MEM_ALLOC_CREDIT();
switch ( pAttribs->dwAlignment )
{
case XALLOC_ALIGNMENT_4:
ptr = g_pMemAlloc->Alloc( dwSize );
break;
case XALLOC_ALIGNMENT_8:
ptr = MemAlloc_AllocAligned( dwSize, 8 );
break;
case XALLOC_ALIGNMENT_DEFAULT:
case XALLOC_ALIGNMENT_16:
default:
ptr = MemAlloc_AllocAligned( dwSize, 16 );
break;
}
if ( pAttribs->dwZeroInitialize != 0 )
{
memset( ptr, 0, XMemSize( ptr, dwAllocAttributes ) );
}
return ptr;
}
ptr = XMemAllocDefault( dwSize, dwAllocAttributes );
if ( ptr )
{
XMemAlloc_RegisterAllocation( ptr, dwAllocAttributes );
}
return ptr;
}
//-----------------------------------------------------------------------------
// XMemFree
//
// XBox Memory Allocator Override
//-----------------------------------------------------------------------------
VOID WINAPI XMemFree( PVOID pAddress, DWORD dwAllocAttributes )
{
if ( !pAddress )
{
return;
}
XALLOC_ATTRIBUTES *pAttribs = (XALLOC_ATTRIBUTES *)&dwAllocAttributes;
bool bPhysical = ( pAttribs->dwMemoryType == XALLOC_MEMTYPE_PHYSICAL );
if ( !bPhysical && !pAttribs->dwHeapTracksAttributes && pAttribs->dwAllocatorId != eXALLOCAllocatorId_XUI )
{
switch ( pAttribs->dwAlignment )
{
case XALLOC_ALIGNMENT_4:
return g_pMemAlloc->Free( pAddress );
default:
return MemAlloc_FreeAligned( pAddress );
}
return;
}
XMemAlloc_RegisterDeallocation( pAddress, dwAllocAttributes );
XMemFreeDefault( pAddress, dwAllocAttributes );
}
//-----------------------------------------------------------------------------
// XMemSize
//
// XBox Memory Allocator Override
//-----------------------------------------------------------------------------
SIZE_T WINAPI XMemSize( PVOID pAddress, DWORD dwAllocAttributes )
{
XALLOC_ATTRIBUTES *pAttribs = (XALLOC_ATTRIBUTES *)&dwAllocAttributes;
bool bPhysical = ( pAttribs->dwMemoryType == XALLOC_MEMTYPE_PHYSICAL );
if ( !bPhysical && !pAttribs->dwHeapTracksAttributes && pAttribs->dwAllocatorId != eXALLOCAllocatorId_XUI )
{
switch ( pAttribs->dwAlignment )
{
case XALLOC_ALIGNMENT_4:
return g_pMemAlloc->GetSize( pAddress );
default:
return MemAlloc_GetSizeAligned( pAddress );
}
}
return XMemSizeDefault( pAddress, dwAllocAttributes );
}
#endif
#pragma warning(push)
#pragma warning(disable: 4483)
#if _MSC_FULL_VER >= 140050415
#define _NATIVE_STARTUP_NAMESPACE __identifier("<CrtImplementationDetails>")
#else /* _MSC_FULL_VER >= 140050415 */
#define _NATIVE_STARTUP_NAMESPACE __CrtImplementationDetails
#endif /* _MSC_FULL_VER >= 140050415 */
namespace _NATIVE_STARTUP_NAMESPACE
{
class NativeDll
{
private:
static const unsigned int ProcessDetach = 0;
static const unsigned int ProcessAttach = 1;
static const unsigned int ThreadAttach = 2;
static const unsigned int ThreadDetach = 3;
static const unsigned int ProcessVerifier = 4;
public:
inline static bool IsInDllMain()
{
return false;
}
inline static bool IsInProcessAttach()
{
return false;
}
inline static bool IsInProcessDetach()
{
return false;
}
inline static bool IsInVcclrit()
{
return false;
}
inline static bool IsSafeForManagedCode()
{
if (!IsInDllMain())
{
return true;
}
if (IsInVcclrit())
{
return true;
}
return !IsInProcessAttach() && !IsInProcessDetach();
}
};
}
#pragma warning(pop)
#endif // _MSC_VER >= 1400
#endif // !STEAM && !NO_MALLOC_OVERRIDE
#endif // _WIN32