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WindowsXP-SP1/ds/adsi/ldapc/memory.c
Microsoft f7ca35dddd First commit
2020-09-30 16:53:49 +02:00

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/*++
Copyright (c) 1990 Microsoft Corporation
Module Name:
memory.c
Abstract:
This module provides all the memory management functions for all spooler
components
Author:
Krishna Ganugapati (KrishnaG) 03-Feb-1994
Revision History:
--*/
#include "dswarn.h"
#include <nt.h>
#include <ntrtl.h>
#include <nturtl.h>
#include <windows.h>
#include <imagehlp.h>
#include <stdio.h>
#include <stdlib.h>
#include "symhelp.h"
#include "oledsdbg.h"
#define WORD_ALIGN_DOWN(addr) ((LPBYTE)((DWORD)addr &= ~1))
#define DWORD_ALIGN_UP(size) ((size+3)&~3)
#if DBG
DWORD dwMemoryLog = 0;
#define MAXDEPTH 10
typedef struct _ADSMEMTAG {
DWORD Tag ;
DWORD Size ;
PVOID pvBackTrace[MAXDEPTH+1];
LPSTR pszSymbol[MAXDEPTH+1];
DWORD uDepth;
LIST_ENTRY List ;
} ADSMEMTAG, *PADSMEMTAG ;
LIST_ENTRY ADsMemList ;
DWORD ADsMemCount ;
CRITICAL_SECTION ADsMemCritSect ;
/*++
Routine Description:
This function initializes the ADs mem tracking code. Must be call
during DLL load an ONLY during DLL load.
Arguments:
None
Return Value:
None.
--*/
VOID InitADsMem(
VOID
)
{
InitializeCriticalSection(&ADsMemCritSect) ;
InitializeListHead(&ADsMemList) ;
ADsMemCount = 0 ;
}
/*++
Routine Description:
This function asserts that the mem list is empty on exit.
Arguments:
None
Return Value:
None.
--*/
VOID AssertADsMemLeaks(
VOID
)
{
ADsAssert(IsListEmpty(&ADsMemList)) ;
}
#endif
LPVOID
AllocADsMem(
DWORD cb
)
/*++
Routine Description:
This function will allocate local memory. It will possibly allocate extra
memory and fill this with debugging information for the debugging version.
Arguments:
cb - The amount of memory to allocate
Return Value:
NON-NULL - A pointer to the allocated memory
FALSE/NULL - The operation failed. Extended error status is available
using GetLastError.
--*/
{
#if DBG
DWORD cbNew ;
PADSMEMTAG pMem ;
ULONG ulHash;
//
// adjust size for our tag and one spare dword at end
// and allocate the memory
//
cb = DWORD_ALIGN_UP(cb);
cbNew = cb + ( sizeof(ADSMEMTAG) + sizeof(DWORD) );
pMem=(PADSMEMTAG)LocalAlloc(LPTR, cbNew);
if (!pMem) {
SetLastError(ERROR_NOT_ENOUGH_MEMORY);
return 0;
}
//
// fill in deadbeef at end and tag info.
// and insert it into the ADsMemList
//
*(LPDWORD)((LPBYTE)pMem+cbNew-sizeof(DWORD)) = 0xdeadbeef;
pMem->Tag = 0xB00FB00F ;
pMem->Size = cb ;
//
// Capture a backtrace at this spot for debugging.
//
#if (defined(i386) && !defined(WIN95))
pMem->uDepth = RtlCaptureStackBackTrace(
0,
MAXDEPTH,
pMem->pvBackTrace,
&ulHash
);
#else
pMem->uDepth = 0;
#endif
EnterCriticalSection(&ADsMemCritSect) ;
InsertHeadList(&ADsMemList, &pMem->List) ;
ADsMemCount++ ;
LeaveCriticalSection(&ADsMemCritSect) ;
//
// skip past the mem tag
//
pMem++ ;
return (LPVOID)(pMem);
#else
return(LocalAlloc(LPTR, cb));
#endif
}
BOOL
FreeADsMem(
LPVOID pMem
)
{
#if DBG
DWORD cb;
DWORD cbNew = 0;
PADSMEMTAG pNewMem ;
LPDWORD pRetAddr;
DWORD i = 0;
//
// This apparently is a C++ requiremen - that you can call
// delete on a null pointer and it should be handled
//
if (pMem == NULL) {
return 0;
}
pNewMem = (PADSMEMTAG)pMem;
pNewMem -- ;
cb = pNewMem->Size;
cbNew = cb + sizeof(DWORD) + sizeof(ADSMEMTAG);
//
// check the trailing deadbeef and remove from list
//
if (*(LPDWORD)(((LPBYTE)pNewMem) + cbNew - sizeof(DWORD)) != 0xdeadbeef) {
ADsAssert(!"Freeing memory not allocated by AllocADsMem") ;
return FALSE;
}
EnterCriticalSection(&ADsMemCritSect) ;
RemoveEntryList(&pNewMem->List) ;
ADsMemCount-- ;
LeaveCriticalSection(&ADsMemCritSect) ;
for (i = 0; i < pNewMem->uDepth; i++) {
if (pNewMem->pszSymbol[i]) {
LocalFree(pNewMem->pszSymbol[i]);
}
}
//
// Whack freed memory with known pattern
//
memset(pMem, 0x65, cb);
return(LocalFree((LPVOID)pNewMem) == NULL);
#else
return(LocalFree(pMem) == NULL);
#endif
}
LPVOID
ReallocADsMem(
LPVOID pOldMem,
DWORD cbOld,
DWORD cbNew
)
{
LPVOID pNewMem;
pNewMem=AllocADsMem(cbNew);
if (pOldMem && pNewMem) {
memcpy(pNewMem, pOldMem, min(cbNew, cbOld));
FreeADsMem(pOldMem);
}
return pNewMem;
}
LPWSTR
AllocADsStr(
LPCWSTR pStr
)
/*++
Routine Description:
This function will allocate enough local memory to store the specified
string, and copy that string to the allocated memory
Arguments:
pStr - Pointer to the string that needs to be allocated and stored
Return Value:
NON-NULL - A pointer to the allocated memory containing the string
FALSE/NULL - The operation failed. Extended error status is available
using GetLastError.
--*/
{
LPWSTR pMem;
if (!pStr)
return 0;
if (pMem = (LPWSTR)AllocADsMem( wcslen(pStr)*sizeof(WCHAR) + sizeof(WCHAR) ))
wcscpy(pMem, pStr);
return pMem;
}
BOOL
FreeADsStr(
LPWSTR pStr
)
{
return pStr ? FreeADsMem(pStr)
: FALSE;
}
BOOL
ReallocADsStr(
LPWSTR *ppStr,
LPWSTR pStr
)
{
FreeADsStr(*ppStr);
*ppStr=AllocADsStr(pStr);
return TRUE;
}
#if DBG
VOID
DumpMemoryTracker(
VOID
)
{
#if !defined(WIN95) && defined(_X86_)
LIST_ENTRY* pEntry;
ADSMEMTAG* pMem;
BYTE* pTemp;
DWORD i = 0;
CHAR szSymbolPath[MAX_PATH+1];
DWORD dwCount = 0;
pEntry = ADsMemList.Flink;
if (!dwMemoryLog) {
return;
}
if ( pEntry == &ADsMemList ) {
OutputDebugStringA( "No Memory leaks found\n" );
}
while( pEntry != &ADsMemList )
{
CHAR szLeak[1024];
pTemp = (BYTE*)pEntry;
pTemp = pTemp - sizeof(DWORD) - sizeof(DWORD)
- sizeof(DWORD) -
(sizeof(CHAR*) + sizeof(LPVOID))*( MAXDEPTH +1);
pMem = (ADSMEMTAG*)pTemp;
sprintf(
szLeak,
"[oleds] Memory leak!!! Addresss = %.8x Size = %ld \n",
pMem + 1,
pMem->Size
);
OutputDebugStringA( szLeak );
for (i = 0; i < pMem->uDepth; i++) {
dwCount = TranslateAddress(
(ULONG)pMem->pvBackTrace[ i ],
szSymbolPath,
MAX_PATH
);
szSymbolPath[dwCount] = '\0';
sprintf(szLeak, "%s\n",szSymbolPath);
OutputDebugStringA( szLeak);
}
pEntry = pEntry->Flink;
}
#endif
}
#endif
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