CWE-ou-minkata/MOULOpenSourceClientPlugin/Plasma20/Sources/Plasma/CoreLibExe/hsExeMalloc.cpp

/*==LICENSE==*

CyanWorlds.com Engine - MMOG client, server and tools
Copyright (C) 2011  Cyan Worlds, Inc.

This program is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
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(at your option) any later version.

This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
GNU General Public License for more details.

You should have received a copy of the GNU General Public License
along with this program.  If not, see <http://www.gnu.org/licenses/>.

You can contact Cyan Worlds, Inc. by email legal@cyan.com
 or by snail mail at:
      Cyan Worlds, Inc.
      14617 N Newport Hwy
      Mead, WA   99021

*==LICENSE==*/
/*****************************************************************************
*
*   $/Plasma20/Sources/Plasma/CoreLibExe/hsExeMalloc.cpp
*   
***/

#include "Pch.h"
#pragma hdrstop


/****************************************************************************
*
*   Local constants
*
***/

#if defined(NO_MEM_TRACKER) || !defined(HS_FIND_MEM_LEAKS) || !defined(HS_BUILD_FOR_WIN32) || !defined(_MSC_VER)
 // no mem debugging
#else
# undef MEM_DEBUG
# define MEM_DEBUG
#endif

const unsigned kMemReallocInPlaceOnly   = 1<<0;
const unsigned kMemZero                 = 1<<1;
const unsigned kMemIgnoreBlock          = 1<<2; // don't track this allocation

#ifndef MEM_DEBUG

# define _malloc_dbg(s, t, f, l)        malloc(s)
# define _calloc_dbg(c, s, t, f, l)     calloc(c, s)
# define _realloc_dbg(p, s, t, f, l)    realloc(p, s)
# define _expand_dbg(p, s, t, f, l)     _expand(p, s)
# define _free_dbg(p, t)                free(p)
# define _msize_dbg(p, t)               _msize(p)

# ifndef _CLIENT_BLOCK
#  define _CLIENT_BLOCK  0
# endif

# ifndef _IGNORE_BLOCK
#  define _IGNORE_BLOCK  0
# endif

# ifndef _CRTDBG_ALLOC_MEM_DF
#  define _CRTDBG_ALLOC_MEM_DF  0
# endif

# define  SET_CRT_DEBUG_FIELD(a)
# define  CLEAR_CRT_DEBUG_FIELD(a)

#endif  // !MEM_DEBUG


/*****************************************************************************
*
*   Private data
*
***/

#ifdef MEM_DEBUG
    #define  SET_CRT_DEBUG_FIELD(a) \
                _CrtSetDbgFlag((a) | _CrtSetDbgFlag(_CRTDBG_REPORT_FLAG))
    #define  CLEAR_CRT_DEBUG_FIELD(a) \
                _CrtSetDbgFlag(~(a) & _CrtSetDbgFlag(_CRTDBG_REPORT_FLAG))

    // From dbgint.h
    #define nNoMansLandSize 4
    typedef struct _CrtMemBlockHeader
    {
            struct _CrtMemBlockHeader * pBlockHeaderNext;
            struct _CrtMemBlockHeader * pBlockHeaderPrev;
            char *                      szFileName;
            int                         nLine;
    #ifdef _WIN64
            /* These items are reversed on Win64 to eliminate gaps in the struct
            * and ensure that sizeof(struct)%16 == 0, so 16-byte alignment is
            * maintained in the debug heap.
            */
            int                         nBlockUse;
            size_t                      nDataSize;
    #else  /* _WIN64 */
            size_t                      nDataSize;
            int                         nBlockUse;
    #endif  /* _WIN64 */
            long                        lRequest;
            unsigned char               gap[nNoMansLandSize];
            /* followed by:
            *  unsigned char           data[nDataSize];
            *  unsigned char           anotherGap[nNoMansLandSize];
            */
    } _CrtMemBlockHeader;
    #define pbData(pblock) ((unsigned char *)((_CrtMemBlockHeader *)pblock + 1))
    #define pHdr(pbData) (((_CrtMemBlockHeader *)pbData)-1)


    enum EMemFile {
        kMemErr,
        kMemLeaks,
        kMemUsage,
        kMemAllocs,
        kNumMemFiles
    };

    static char *   s_memFilename[kNumMemFiles] = {
        "MemErr.log",
        "MemLeaks.log",
        "MemUsage.log",
        "MemAllocs.log",
    };

    static char *   s_memDlgTitle[kNumMemFiles] = {
        "Memory error",
        "Memory leak",
        nil,
        nil,
    };

    static HANDLE   s_memFile[kNumMemFiles] = {
        INVALID_HANDLE_VALUE,
        INVALID_HANDLE_VALUE,
        INVALID_HANDLE_VALUE,
        INVALID_HANDLE_VALUE,
    };

    struct MemDumpParam {
        EMemFile    file;
        bool        showDialog;
    };
    
    static unsigned	s_memColor;
	static unsigned s_memCheckOff;

	static CCritSect * s_critsect;

#endif // MEM_DEBUG



namespace ExeMalloc {
/*****************************************************************************
*
*   Internal functions
*
***/

//===========================================================================
#ifdef MEM_DEBUG
static void ConvertFilename (
    const char  src[],
    unsigned    chars,
    char *      dst
) {

    // Because the filename field may point into a DLL that has been
    // unloaded, this code validates and converts the string into a
    // reasonable value
    __try {
        unsigned pos = 0;
        for (;;) {
            // If the file name is too long then assume it is bogus
            if (pos >= chars) {
                pos = 0;
                break;
            }

            // Get the next character
            unsigned chr = src[pos];
            if (!chr)
                break;

            // If the character isn't valid low-ASCII
            // then assume that the name is bogus
            if ((chr < 32) || (chr > 127)) {
                pos = 0;
                break;
            }

            // Store character
            dst[pos++] = (char) chr;
        }

        // Ensure that name is terminated
        dst[pos] = 0;
    }
    __except(EXCEPTION_EXECUTE_HANDLER) {
        dst[0] = 0;
    }

    // Print the address of the filename; it may be of some
    // use given the load address and the map file of the DLL
    if (!dst[0])
        snprintf(dst, chars, "@%p", src);
}
#endif  // MEM_DEBUG

//===========================================================================
#ifdef MEM_DEBUG
static void OpenErrorFile (EMemFile file) {
    ASSERT(INVALID_HANDLE_VALUE == s_memFile[file]);
    s_memFile[file] = CreateFile(
        s_memFilename[file],
        GENERIC_WRITE,
        FILE_SHARE_READ,
        (LPSECURITY_ATTRIBUTES) NULL,
        CREATE_ALWAYS,
        FILE_ATTRIBUTE_NORMAL,
        NULL
    );
}
#endif  // MEM_DEBUG

//===========================================================================
#ifdef MEM_DEBUG
static void __cdecl ReportMem (EMemFile file, bool showDialog, const char fmt[], ...) {

    if (s_memFile[file] == INVALID_HANDLE_VALUE) {
        DebugBreakIfDebuggerPresent();
        OpenErrorFile(file);
        ErrorMinimizeAppWindow();
    }

    char buffer[512];
    va_list args;
    va_start(args, fmt);
    DWORD length = hsVsnprintf(buffer, arrsize(buffer), fmt, args);
    va_end(args);

    #ifdef HS_BUILD_FOR_WIN32

        OutputDebugStringA(buffer);

        if (s_memFile[file] != INVALID_HANDLE_VALUE)
            WriteFile(s_memFile[file], buffer, length, &length, NULL);

        static bool s_skip;
        if (showDialog && !s_skip && !ErrorGetOption(kErrOptNonGuiAsserts)) {
            s_skip = IDOK != MessageBox(
                NULL,
                buffer,
                s_memDlgTitle[file],
                MB_ICONSTOP | MB_SETFOREGROUND | MB_TASKMODAL | MB_OKCANCEL
            );
        }

    #else

        fputs(buffer, stderr);

    #endif
}
#endif

//============================================================================
#ifdef MEM_DEBUG
static void __cdecl MemDumpCallback (void * mem, void * param) {
    ref(MemDumpCallback);

    const _CrtMemBlockHeader * pHead = pHdr(mem);
    MemDumpParam * dumpParam = (MemDumpParam *) param;
    
    char filename[MAX_PATH];
    ConvertFilename(
        pHead->szFileName,
        arrsize(filename),
        filename
    );

	// HACK: Don't report array memory leaks since these underly the hash
	// table type and may not be cleaned up until after the mem leak
	// checker runs.  =(    
    if (strstr(filename, "pnUtArray"))
		return;
		
    ReportMem(
        dumpParam->file,
        dumpParam->showDialog,
        "Offset %p size %u at %s:%d\r\n",
        mem,
        pHead->nDataSize,
        filename,
        pHead->nLine
    );
}
#endif // MEM_DEBUG

//============================================================================
#ifdef MEM_DEBUG
static void __cdecl OnExitMemDumpCallback (void * mem, size_t) {
    static MemDumpParam param = { kMemLeaks, true };
    if (!ErrorGetOption(kErrOptDisableMemLeakChecking))
		MemDumpCallback(mem, &param);
}
#endif // MEM_DEBUG

//===========================================================================
#ifdef MEM_DEBUG
static void __cdecl CheckLeaksOnExit () {
	ref(CheckLeaksOnExit);
    if (!ErrorGetOption(kErrOptDisableMemLeakChecking)) {
        MemDumpParam param;
        param.file          = kMemLeaks;
        param.showDialog    = true;
        _CrtDoForAllClientObjects(MemDumpCallback, &param);
    }
}
#endif // MEM_DEBUG

//============================================================================
static int __cdecl CrtAllocHook (
	int						method,
	void *					pUserData,
	size_t					nSize,
	int						nBlockUse,
	long					lRequest,
	const unsigned char *	szFileName,
	int						nLine
) {
	ref(method);
	ref(pUserData);
	ref(nSize);
	ref(nBlockUse);
	ref(lRequest);
	ref(szFileName);
	ref(nLine);

	if (nBlockUse == _NORMAL_BLOCK) {
		int xx = 0;
		ref(xx);
	}
	
	return 1;
}

//===========================================================================
#ifdef MEM_DEBUG
AUTO_INIT_FUNC(hsExeMallocInit) {
	// The critical section has to be initialized
	// before program startup and never freed
	static byte rawMemory[sizeof CCritSect];
	s_critsect = new(rawMemory) CCritSect;
	SET_CRT_DEBUG_FIELD(_CRTDBG_LEAK_CHECK_DF);
	_CrtSetAllocHook(CrtAllocHook);
	_CrtSetDumpClient(OnExitMemDumpCallback);
//    atexit(CheckLeaksOnExit);
}
#endif // MEM_DEBUG


/*****************************************************************************
*
*   Module functions
*
***/

//============================================================================
void MemSetLeakChecking (bool on) {
	if (on)
		SET_CRT_DEBUG_FIELD(_CRTDBG_LEAK_CHECK_DF);
	else
		CLEAR_CRT_DEBUG_FIELD(_CRTDBG_LEAK_CHECK_DF);
}


} using namespace ExeMalloc;
/****************************************************************************
*
*   Exports
*
***/

//============================================================================
void MemDumpAllocReport () {
#ifdef MEM_DEBUG
    MemDumpParam param;
    param.file          = kMemAllocs;
    param.showDialog    = true;
    _CrtDoForAllClientObjects(MemDumpCallback, &param);
#endif // MEM_DEBUG
}

//============================================================================
void MemDumpUsageReport () {
#ifdef MEM_DEBUG
#endif // MEM_DEBUG
}

//============================================================================
void MemValidateNow () {
#ifdef MEM_DEBUG
#endif // MEM_DEBUG
}

//============================================================================
void MemSetValidation (unsigned on) {
    ref(on);

#ifdef MEM_DEBUG
#endif // MEM_DEBUG
}

//============================================================================
void MemPushDisableTracking () {

#ifdef MEM_DEBUG
	++s_memCheckOff;
#endif // MEM_DEBUG
}

//============================================================================
void MemPopDisableTracking () {

#ifdef MEM_DEBUG
	ASSERT(s_memCheckOff);
	--s_memCheckOff;
#endif // MEM_DEBUG
}

//============================================================================
void MemSetColor (unsigned short color) {
	ref(color);
	
#ifdef MEM_DEBUG
	s_memColor = color & 0xFFFF;
#endif // MEM_DEBUG
}

//===========================================================================
void * MemAlloc (unsigned bytes, unsigned flags, const char file[], int line) {

    ref(file);
    ref(line);

#ifdef MEM_DEBUG
	unsigned block;
	if (flags & kMemIgnoreBlock || s_memCheckOff)
		block = _IGNORE_BLOCK;
	else
		block = _CLIENT_BLOCK | (s_memColor << 16);
#endif // MEM_DEBUG

#ifdef MEM_DEBUG
	if (s_critsect)
		s_critsect->Enter();
	if (block == _IGNORE_BLOCK)
		CLEAR_CRT_DEBUG_FIELD(_CRTDBG_ALLOC_MEM_DF);
#endif

	void * ptr = (flags & kMemZero)
		? _calloc_dbg(bytes, 1, block, file, line)
		: _malloc_dbg(bytes, block, file, line);

#ifdef MEM_DEBUG
	if (block == _IGNORE_BLOCK)
		SET_CRT_DEBUG_FIELD(_CRTDBG_ALLOC_MEM_DF);
	if (s_critsect)
		s_critsect->Leave();
#endif

    if (!ptr)
        ErrorFatal(__LINE__, __FILE__, "Out of memory");

    // In debug mode ensure that memory is initialized to some freaky value
    #ifdef HS_DEBUGGING
        if (! (flags & kMemZero))
            MemSet(ptr, (byte) ((unsigned_ptr)ptr >> 4), bytes);
    #endif

#ifdef _MSC_VER
    // Compiler specific:
    // Adding this line causes MSVC to stop assuming that memory allocation
    // can fail thus producing more efficient assembler code.
    __assume(ptr);
#endif

    // return the allocated buffer
    return ptr;
}

//============================================================================
void MemFree (void * ptr, unsigned flags) {
	ref(flags);

	if (!ptr)
        return;

#ifdef MEM_DEBUG
	const _CrtMemBlockHeader * pHead = pHdr(ptr);
	unsigned block = pHead->nBlockUse;
#endif // MEM_DEBUG
    
    _free_dbg(ptr, block);
}

//===========================================================================
void * MemRealloc (void * ptr, unsigned bytes, unsigned flags, const char file[], int line) {
    ref(file);
    ref(line);

    #ifdef HS_DEBUGGING
    unsigned oldBytes = ptr ? MemSize(ptr) : 0;
    #endif

#ifdef MEM_DEBUG
	unsigned block;        
	if (flags & kMemIgnoreBlock || s_memCheckOff)
		block = _IGNORE_BLOCK;
	else
		block = _CLIENT_BLOCK | (s_memColor << 16);
#endif

    void * newPtr = nil;

#ifdef MEM_DEBUG
	if (s_critsect)
		s_critsect->Enter();
	if (block == _IGNORE_BLOCK)
		CLEAR_CRT_DEBUG_FIELD(_CRTDBG_ALLOC_MEM_DF);
#endif

	for (;;) {
		if (flags & kMemReallocInPlaceOnly) {
#ifndef MEM_DEBUG
			break;
#else
			newPtr = _expand_dbg(ptr, bytes, block, file, line);

			// expand can succeed without making the block big enough -- check for this case!
			if (!newPtr || _msize_dbg(newPtr, block) < bytes)
				break;
#endif  // MEM_DEBUG
		}
		else if (!bytes) {
			newPtr = _malloc_dbg(0, block, file, line);
			_free_dbg(ptr, block);
		}
		else {
			newPtr = _realloc_dbg(ptr, bytes, block, file, line);
		}

		if (!newPtr)
			ErrorFatal(__LINE__, __FILE__, "Out of memory");

		break;
	}

#ifdef MEM_DEBUG
	if (block == _IGNORE_BLOCK)
		SET_CRT_DEBUG_FIELD(_CRTDBG_ALLOC_MEM_DF);
	if (s_critsect)
		s_critsect->Leave();
#endif

    /* This code doesn't work because the memory manager may have "rounded" the size
     * of a previous allocation upward to keep it aligned. Therefore, the tail of 
     * the memory block may be initialized with garbage instead of zeroes, and the
     * realloc call actually copied that memory.
    if ((bytes > oldBytes) && (flags & kMemZero))
        MemZero((byte *)newPtr + oldBytes, bytes - oldBytes);
    */
    ASSERT(!(flags & kMemZero));

    // In debug mode ensure that memory is initialized to some freaky value
    #ifdef HS_DEBUGGING
    if ((bytes > oldBytes) && !(flags & kMemZero))
        MemSet((byte *)newPtr + oldBytes, (byte) ((unsigned_ptr) newPtr >> 4), bytes - oldBytes);
    #endif

    return newPtr;
}

//===========================================================================
unsigned MemSize (void * ptr) {
    ASSERT(ptr);
    unsigned result;

#ifdef MEM_DEBUG
	const _CrtMemBlockHeader * pHead = pHdr(ptr);
	unsigned block = pHead->nBlockUse;
#endif

	result = (unsigned)_msize_dbg(ptr, block);
    return result;
}


//===========================================================================
int MemCmp (const void * buf1, const void * buf2, unsigned bytes) {
    return memcmp(buf1, buf2, bytes);
}

//===========================================================================
void MemCopy (void * dest, const void * source, unsigned bytes) {
    memcpy(dest, source, bytes);
}

//===========================================================================
void MemMove (void * dest, const void * source, unsigned bytes) {
    memmove(dest, source, bytes);
}

//===========================================================================
void MemSet (void * dest, unsigned value, unsigned bytes) {
    memset(dest, value, bytes);
}

//===========================================================================
void MemZero (void * dest, unsigned bytes) {
    memset(dest, 0, bytes);
}

//===========================================================================
void * MemDup (const void * ptr, unsigned bytes, unsigned flags, const char file[], int line) {
    void * dst = MemAlloc(bytes, flags, file, line);
    MemCopy(dst, ptr, bytes);
    return dst;
}