/*****************************************************************************\ * MODULE: mem.cxx * * Memory management routines. These routines provide head/tail checking * to verify memory corruption problems. * * * Copyright (C) 1996-1998 Microsoft Corporation. * Copyright (C) 1996-1998 Hewlett Packard Company. * * History: * 07-Oct-1996 HWP-Guys Initiated port from win95 to winNT * \*****************************************************************************/ #include #include "libpriv.h" /*********************************************************** local routine ***\ * mem_StrSize * * Returns size of string. * \*****************************************************************************/ _inline DWORD mem_StrSize( PCTSTR pszStr) { return (pszStr ? ((lstrlen(pszStr) + 1) * sizeof(TCHAR)) : 0); } /*********************************************************** local routine ***\ * mem_HeadPtr * * Returns the pointer to the head-block. This needs to decrement enough * to account for the extra information stored at the head. * \*****************************************************************************/ _inline PMEMHEAD mem_HeadPtr( PVOID pvMem) { return (PMEMHEAD)(pvMem ? (((PBYTE)pvMem) - MEM_HEADSIZE) : NULL); } /*********************************************************** local routine ***\ * mem_TailPtr * * Returns the pointer to the tail-block. This requires the aligned-size * to retrieve the offset. * \*****************************************************************************/ _inline PMEMTAIL mem_TailPtr( PMEMHEAD pmh, DWORD cbAlign) { return (PMEMTAIL)((PBYTE)pmh + cbAlign - MEM_TAILSIZE); } #ifdef DEBUG PMEMHEAD g_pmHead = NULL; /*********************************************************** local routine ***\ * mem_InsPtr * * Inserts the pointer into our list for tracking allocations. * \*****************************************************************************/ _inline VOID mem_InsPtr( PMEMHEAD pmHead) { if (g_pmHead) { g_pmHead->pmPrev = pmHead; pmHead->pmNext = g_pmHead; } else { pmHead->pmNext = NULL; } g_pmHead = pmHead; } /*********************************************************** local routine ***\ * mem_DelPtr * * Removes the pointer from our list of tracked allocations. | \*****************************************************************************/ _inline VOID mem_DelPtr( PMEMHEAD pmHead) { PMEMHEAD pmPtr; if (pmHead->pmNext) { pmPtr = pmHead->pmNext; pmPtr->pmPrev = pmHead->pmPrev; } if (pmHead->pmPrev) { pmPtr = pmHead->pmPrev; pmPtr->pmNext = pmHead->pmNext; } else { g_pmHead = pmHead->pmNext; } } /*****************************************************************************\ * _mem_validate (Local Routine) * * Checks memory blocks allocated by memAlloc. These blocks contain * debugging information that helps to check for pointer overruns and * underruns. * * Returns a pointer to the memory header. Otherwise, we return NULL. * \*****************************************************************************/ PMEMHEAD _mem_validate( PVOID pvMem, UINT cbSize) { DWORD cbAlign; PMEMHEAD pmHead; PMEMTAIL pmTail; PMEMHEAD pmRet = NULL; // Retrieve the head-pointer. // if (pmHead = mem_HeadPtr(pvMem)) { // Calculate the "real" size of our allocated block and round it // up to an even number of DWORD blocks. // cbAlign = memAlignSize(cbSize + MEM_SIZE); // Get the tail location. // pmTail = mem_TailPtr(pmHead, cbAlign); // Compare the values that memAlloc stored at the beginning // and end of the block // if ((pmHead->cbSize == cbSize) && (pmTail->dwSignature == DEADBEEF)) pmRet = pmHead; // Assert if errors. // DBG_ASSERT((pmHead->cbSize == cbSize), (TEXT("Err : _mem_validate: Bad Size at %08lX"), pvMem)); DBG_ASSERT((pmTail->dwSignature == DEADBEEF), (TEXT("Err : _mem_validate: Block Corruption at %08lX"), pvMem)); } else { DBG_MSG(DBG_LEV_ERROR, (TEXT("Err : _mem_validate: Bad Pointer"))); } return pmRet; } #else /*********************************************************** local routine ***\ * Non-Debug Mappings. * * On non-debug builds, we will just return the most efficient values. * \*****************************************************************************/ #define mem_InsPtr(pmHead) {} #define mem_DelPtr(pmHead) {} #define _mem_validate(pvMem, cbSize) mem_HeadPtr(pvMem) #endif /*****************************************************************************\ * memAlloc * * \*****************************************************************************/ PVOID memAlloc( UINT cbSize) { PMEMHEAD pmHead; PMEMTAIL pmTail; DWORD cbAlign; // The size of this memory-block will include header-information. So, // we will add the header-size and align our memory on DWORD boundries. // cbAlign = memAlignSize(cbSize + MEM_SIZE); // Attempt to allocate the memory. Proceed to setup // the memory block. // if (pmHead = (PMEMHEAD)GlobalAlloc(GPTR, cbAlign)) { pmTail = mem_TailPtr(pmHead, cbAlign); // Zero the memory-block so that we're dealing with // a clean contiguous array. // ZeroMemory((PVOID)pmHead, cbAlign); // Set up header/tail-information. This contains the requested // size of the memory-block. Increment the block so we return // the next available memory for the caller to use. // pmTail->dwSignature = DEADBEEF; pmHead->dwTag = 0; pmHead->cbSize = cbSize; pmHead->pmPrev = NULL; pmHead->pmNext = NULL; mem_InsPtr(pmHead); } else { SetLastError(ERROR_NOT_ENOUGH_MEMORY); } return (pmHead ? pmHead->pvMem : NULL); } /*****************************************************************************\ * memFree * * \*****************************************************************************/ BOOL memFree( PVOID pvMem, UINT cbSize) { PMEMHEAD pmHead; BOOL bRet = FALSE; // Try to at least make sure it's our memory and that no pointers have // gone astray in it. // if (pmHead = _mem_validate(pvMem, cbSize)) { mem_DelPtr(pmHead); bRet = (GlobalFree((PVOID)pmHead) == NULL); } return bRet; } /*****************************************************************************\ * memCopy * * Copies a block of memory into a Win32 format buffer -- a structure at the * front of the buffer and strings packed into the end. * * On entry, *buf should point to the last available byte in the buffer. * \*****************************************************************************/ VOID memCopy( PSTR *ppDst, PSTR pSrc, UINT cbSize, PSTR *ppBuf) { if (pSrc != NULL) { // Place bytes at end of buffer. // (*ppBuf) -= cbSize + 1; memcpy(*ppBuf, pSrc, cbSize); // Place buffer address in structure and save pointer to new // last available byte. // *ppDst = *ppBuf; (*ppBuf)--; } else { *ppDst = NULL; } } /*****************************************************************************\ * memGetSize * * Returns the size of a block of memory that was allocated with memAlloc(). * \*****************************************************************************/ UINT memGetSize( PVOID pvMem) { PMEMHEAD pmHead; return ((pmHead = mem_HeadPtr(pvMem)) ? pmHead->cbSize : 0); } /*****************************************************************************\ * memAllocStr * * Allocates local memory to store the specified string. This takes in a * (lpszStr) which is copied to the new memory. * \*****************************************************************************/ PTSTR memAllocStr( LPCTSTR lpszStr) { PTSTR pMem; if (lpszStr == NULL) return NULL; if (pMem = (PTSTR)memAlloc(mem_StrSize(lpszStr))) { if (!lstrcpy((LPTSTR)pMem, lpszStr)) { memFreeStr (pMem); pMem = NULL; } } return pMem; } /*****************************************************************************\ * memFreeStr * * Frees the memory allocated by memAllocStr. * \*****************************************************************************/ BOOL memFreeStr( PTSTR pszStr) { return memFree(pszStr, memGetSize(pszStr)); }