windows-nt/Source/XPSP1/NT/base/ntsetup/win95upg/common/migutil/debug.c

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2020-09-26 03:20:57 -05:00
/*++
Copyright (c) 1996 Microsoft Corporation
Module Name:
debug.c
Abstract:
Debug helpers and memory allocation wrappers
Author:
Jim Schmidt (jimschm) 13-Aug-1996
Revision History:
Marc R. Whitten (marcw) 27-May-1997
Added DEBUGLOGTIME() functions and support for the /#U:DOLOG cmd line option.
Ovidiu Temereanca (ovidiut) 06-Nov-1998
Took out log related functions and put them in log.c file
--*/
#include "pch.h"
#include "migutilp.h"
//
// NOTE: No code should appear outside the #ifdef DEBUG
//
#ifdef DEBUG
#pragma message("DEBUG macros enabled")
#define PCVOID LPCVOID
typedef DWORD ALLOCATION_ITEM_OFFSET;
typedef struct _tagTRACKBUCKETITEM {
struct _tagTRACKBUCKETITEM *Next;
struct _tagTRACKBUCKETITEM *Prev;
ALLOCTYPE Type;
PVOID Ptr;
ALLOCATION_ITEM_OFFSET ItemOffset;
} TRACKBUCKETITEM, *PTRACKBUCKETITEM;
#define TRACK_BUCKETS 1501
PTRACKBUCKETITEM g_TrackBuckets[TRACK_BUCKETS];
#define BUCKET_ITEMS_PER_POOL 8192
typedef struct _tagBUCKETPOOL {
UINT Count;
TRACKBUCKETITEM Items[BUCKET_ITEMS_PER_POOL];
} TRACKBUCKETPOOL, *PTRACKBUCKETPOOL;
PTRACKBUCKETITEM g_TrackPoolDelHead;
PTRACKBUCKETPOOL g_TrackPool;
typedef struct _tagTRACKSTRUCT {
DWORD Signature;
PCSTR File;
DWORD Line;
DWORD Size;
PSTR Comment;
struct _tagTRACKSTRUCT *PrevAlloc;
struct _tagTRACKSTRUCT *NextAlloc;
} TRACKSTRUCT, *PTRACKSTRUCT;
PTRACKSTRUCT TrackHead = NULL;
#define TRACK_SIGNATURE 0x30405060
DWORD
pDebugHeapValidatePtrUnlocked (
HANDLE hHeap,
PCVOID CallerPtr,
PCSTR File,
DWORD Line
);
//
// The following pointer can be used to help identify memory leak sources.
// It is copied to the memory tracking log.
//
PCSTR g_TrackComment;
PCSTR g_TrackFile;
UINT g_TrackLine;
INT g_UseCount;
UINT g_DisableTrackComment = 0;
VOID
DisableTrackComment (
VOID
)
{
g_DisableTrackComment ++;
}
VOID
EnableTrackComment (
VOID
)
{
if (g_DisableTrackComment > 0) {
g_DisableTrackComment --;
}
}
DWORD
SetTrackComment (
PCSTR Msg,
PCSTR File,
UINT Line
)
{
static CHAR Buffer[1024];
static CHAR FileCopy[1024];
if (g_DisableTrackComment > 0) {
return 0;
}
if (g_UseCount > 0) {
g_UseCount++;
return 0;
}
if (Msg) {
wsprintfA (Buffer, "%s (%s line %u)", Msg, File, Line);
} else {
wsprintfA (Buffer, "%s line %u", File, Line);
}
StringCopyA (FileCopy, File);
g_TrackFile = FileCopy;
g_TrackLine = Line;
g_TrackComment = Buffer;
g_UseCount = 1;
return 0;
}
DWORD
ClrTrackComment (
VOID
)
{
if (g_DisableTrackComment > 0) {
return 0;
}
g_UseCount--;
if (!g_UseCount) {
g_TrackComment=NULL;
}
return 0;
}
VOID
pTrackInsert (
PCSTR File,
DWORD Line,
DWORD Size,
PTRACKSTRUCT p
)
{
p->Signature = TRACK_SIGNATURE;
p->File = File;
p->Line = Line;
p->Size = Size;
p->Comment = g_TrackComment ? SafeHeapAlloc (g_hHeap, 0, SizeOfStringA (g_TrackComment)) : NULL;
p->PrevAlloc = NULL;
p->NextAlloc = TrackHead;
if (p->Comment) {
StringCopyA (p->Comment, g_TrackComment);
}
if (TrackHead) {
TrackHead->PrevAlloc = p;
}
TrackHead = p;
}
VOID
pTrackDelete (
PTRACKSTRUCT p
)
{
if (p->Signature != TRACK_SIGNATURE) {
DEBUGMSG ((DBG_WARNING, "A tracking signature is invalid. "
"This suggests memory corruption."));
return;
}
if (p->PrevAlloc) {
p->PrevAlloc->NextAlloc = p->NextAlloc;
} else {
TrackHead = p->NextAlloc;
}
if (p->NextAlloc) {
p->NextAlloc->PrevAlloc = p->PrevAlloc;
}
}
VOID
pWriteTrackLog (
VOID
)
{
HANDLE File;
CHAR LineBuf[2048];
PTRACKSTRUCT p;
DWORD DontCare;
DWORD Count;
BOOL BadMem = FALSE;
CHAR TempPath[MAX_TCHAR_PATH];
CHAR memtrackLogPath[] = "c:\\memtrack.log";
if (!TrackHead) {
return;
}
if (ISPC98()) {
GetSystemDirectory(TempPath, MAX_TCHAR_PATH);
memtrackLogPath[0] = TempPath[0];
}
File = CreateFileA (memtrackLogPath, GENERIC_WRITE, 0, NULL,
CREATE_ALWAYS, FILE_ATTRIBUTE_NORMAL, NULL
);
if (File != INVALID_HANDLE_VALUE) {
Count = 0;
__try {
for (p = TrackHead ; p ; p = p->NextAlloc) {
Count++;
__try {
if (p->Comment) {
wsprintfA (LineBuf, "%s line %u\r\n %s\r\n\r\n", p->File, p->Line, p->Comment);
} else {
wsprintfA (LineBuf, "%s line %u\r\n\r\n", p->File, p->Line);
}
}
__except (TRUE) {
wsprintfA (LineBuf, "Address %Xh was freed, but not by MemFree!!\r\n", p);
BadMem = TRUE;
}
WriteFile (File, LineBuf, ByteCountA (LineBuf), &DontCare, NULL);
if (BadMem) {
break;
}
}
}
__except (TRUE) {
}
wsprintfA (LineBuf, "\r\n%i item%s allocated but not freed.\r\n", Count, Count == 1 ? "":"s");
WriteFile (File, LineBuf, ByteCountA (LineBuf), &DontCare, NULL);
CloseHandle (File);
}
}
typedef struct {
ALLOCTYPE Type;
PVOID Ptr;
PCSTR FileName;
UINT Line;
} ALLOCATION_ITEM, *PALLOCATION_ITEM;
GROWBUFFER g_AllocationList;
PVOID g_FirstDeletedAlloc;
VOID
InitAllocationTracking (
VOID
)
{
ZeroMemory (&g_AllocationList, sizeof (g_AllocationList));
g_AllocationList.GrowSize = 65536;
g_FirstDeletedAlloc = NULL;
}
VOID
FreeAllocationTracking (
VOID
)
{
UINT Size;
UINT u;
PALLOCATION_ITEM Item;
GROWBUFFER Msg = GROWBUF_INIT;
CHAR Text[1024];
PSTR p;
UINT Bytes;
Size = g_AllocationList.End / sizeof (ALLOCATION_ITEM);;
for (u = 0 ; u < Size ; u++) {
Item = (PALLOCATION_ITEM) g_AllocationList.Buf + u;
if (!Item->FileName) {
continue;
}
Bytes = wsprintfA (Text, "%s line %u\r\n", Item->FileName, Item->Line);
p = (PSTR) RealGrowBuffer (&Msg, Bytes);
if (p) {
CopyMemory (p, Text, Bytes);
}
}
if (Msg.End) {
p = (PSTR) RealGrowBuffer (&Msg, 1);
if (p) {
*p = 0;
DEBUGMSGA (("Leaks", "%s", Msg.Buf));
}
FreeGrowBuffer (&Msg);
}
FreeGrowBuffer (&g_AllocationList);
g_FirstDeletedAlloc = NULL;
// Intentional leak -- who cares about track memory
g_TrackPoolDelHead = NULL;
g_TrackPool = NULL;
}
PTRACKBUCKETITEM
pAllocTrackBucketItem (
VOID
)
{
PTRACKBUCKETITEM BucketItem;
if (g_TrackPoolDelHead) {
BucketItem = g_TrackPoolDelHead;
g_TrackPoolDelHead = BucketItem->Next;
} else {
if (!g_TrackPool || g_TrackPool->Count == BUCKET_ITEMS_PER_POOL) {
g_TrackPool = (PTRACKBUCKETPOOL) SafeHeapAlloc (g_hHeap, 0, sizeof (TRACKBUCKETPOOL));
if (!g_TrackPool) {
return NULL;
}
g_TrackPool->Count = 0;
}
BucketItem = g_TrackPool->Items + g_TrackPool->Count;
g_TrackPool->Count++;
}
return BucketItem;
}
VOID
pFreeTrackBucketItem (
PTRACKBUCKETITEM BucketItem
)
{
BucketItem->Next = g_TrackPoolDelHead;
g_TrackPoolDelHead = BucketItem;
}
DWORD
pComputeTrackHashVal (
IN ALLOCTYPE Type,
IN PVOID Ptr
)
{
DWORD Hash;
Hash = (DWORD) (Type << 16) ^ (DWORD) Ptr;
return Hash % TRACK_BUCKETS;
}
VOID
pTrackHashTableInsert (
IN PBYTE Base,
IN ALLOCATION_ITEM_OFFSET ItemOffset
)
{
DWORD Hash;
PTRACKBUCKETITEM BucketItem;
PALLOCATION_ITEM Item;
Item = (PALLOCATION_ITEM) (Base + ItemOffset);
Hash = pComputeTrackHashVal (Item->Type, Item->Ptr);
BucketItem = pAllocTrackBucketItem();
if (!BucketItem) {
DEBUGMSG ((DBG_WHOOPS, "pTrackHashTableInsert failed to alloc memory"));
return;
}
BucketItem->Prev = NULL;
BucketItem->Next = g_TrackBuckets[Hash];
BucketItem->Type = Item->Type;
BucketItem->Ptr = Item->Ptr;
BucketItem->ItemOffset = ItemOffset;
if (BucketItem->Next) {
BucketItem->Next->Prev = BucketItem;
}
g_TrackBuckets[Hash] = BucketItem;
}
VOID
pTrackHashTableDelete (
IN PTRACKBUCKETITEM BucketItem
)
{
DWORD Hash;
Hash = pComputeTrackHashVal (BucketItem->Type, BucketItem->Ptr);
if (BucketItem->Prev) {
BucketItem->Prev->Next = BucketItem->Next;
} else {
g_TrackBuckets[Hash] = BucketItem->Next;
}
if (BucketItem->Next) {
BucketItem->Next->Prev = BucketItem->Prev;
}
pFreeTrackBucketItem (BucketItem);
}
PTRACKBUCKETITEM
pTrackHashTableFind (
IN ALLOCTYPE Type,
IN PVOID Ptr
)
{
PTRACKBUCKETITEM BucketItem;
DWORD Hash;
Hash = pComputeTrackHashVal (Type, Ptr);
BucketItem = g_TrackBuckets[Hash];
while (BucketItem) {
if (BucketItem->Type == Type && BucketItem->Ptr == Ptr) {
return BucketItem;
}
BucketItem = BucketItem->Next;
}
return NULL;
}
VOID
DebugRegisterAllocation (
IN ALLOCTYPE Type,
IN PVOID Ptr,
IN PCSTR File,
IN UINT Line
)
{
PALLOCATION_ITEM Item;
MYASSERT (File);
if (!g_FirstDeletedAlloc) {
Item = (PALLOCATION_ITEM) RealGrowBuffer (&g_AllocationList,sizeof(ALLOCATION_ITEM));
} else {
Item = (PALLOCATION_ITEM) g_FirstDeletedAlloc;
g_FirstDeletedAlloc = Item->Ptr;
}
if (Item) {
Item->Type = Type;
Item->Ptr = Ptr;
Item->FileName = File;
Item->Line = Line;
pTrackHashTableInsert (g_AllocationList.Buf, (PBYTE) Item - g_AllocationList.Buf);
}
}
VOID
DebugUnregisterAllocation (
IN ALLOCTYPE Type,
IN PVOID Ptr
)
{
PALLOCATION_ITEM Item;
PTRACKBUCKETITEM BucketItem;
BucketItem = pTrackHashTableFind (Type, Ptr);
if (!g_AllocationList.Buf) {
DEBUGMSG ((DBG_WARNING, "Unregister allocation: Allocation buffer already freed"));
return;
}
if (BucketItem) {
Item = (PALLOCATION_ITEM) (g_AllocationList.Buf + BucketItem->ItemOffset);
Item->FileName = NULL;
Item->Type = -1;
Item->Ptr = g_FirstDeletedAlloc;
g_FirstDeletedAlloc = Item;
pTrackHashTableDelete (BucketItem);
} else {
DEBUGMSG ((DBG_WARNING, "Unregister allocation: Pointer not registered"));
}
}
//
// File and Line settings
//
static PCSTR g_File;
static DWORD g_Line;
void
HeapCallFailed (
PCSTR Msg,
PCSTR File,
DWORD Line
)
{
CHAR Msg2[2048];
wsprintfA (Msg2, "Error in %s line %u\n\n", File, Line);
strcat (Msg2, Msg);
strcat (Msg2, "\n\nBreak execution now?");
if (IDYES == MessageBoxA (GetFocus(), Msg2, "Heap Call Failed", MB_YESNO|MB_APPLMODAL)) {
DebugBreak ();
}
}
#define INVALID_PTR 0xffffffff
DWORD
DebugHeapValidatePtr (
HANDLE hHeap,
PCVOID CallerPtr,
PCSTR File,
DWORD Line
)
{
DWORD rc;
EnterCriticalSection (&g_MemAllocCs);
rc = pDebugHeapValidatePtrUnlocked (hHeap, CallerPtr, File, Line);
LeaveCriticalSection (&g_MemAllocCs);
return rc;
}
DWORD
pDebugHeapValidatePtrUnlocked (
HANDLE hHeap,
PCVOID CallerPtr,
PCSTR File,
DWORD Line
)
{
DWORD dwSize;
PCVOID RealPtr;
DWORD SizeAdjust;
SizeAdjust = sizeof (TRACKSTRUCT);
RealPtr = (PCVOID) ((PBYTE) CallerPtr - SizeAdjust);
if (IsBadWritePtr ((PBYTE) RealPtr - 8, 8)) {
CHAR BadPtrMsg[256];
wsprintfA (
BadPtrMsg,
"Attempt to free memory at 0x%08x. This address is not valid.",
CallerPtr
);
HeapCallFailed (BadPtrMsg, File, Line);
return INVALID_PTR;
}
dwSize = HeapSize (hHeap, 0, RealPtr);
if (dwSize == 0xffffffff) {
CHAR BadPtrMsg[256];
wsprintfA (
BadPtrMsg,
"Attempt to free memory at 0x%08x. "
"This address is not the start of a memory block.",
CallerPtr
);
HeapCallFailed (BadPtrMsg, File, Line);
return INVALID_PTR;
}
return dwSize;
}
//
// Heap debug statistics
//
static DWORD g_dwTotalBytesAllocated = 0;
static DWORD g_dwMaxBytesInUse = 0;
static DWORD g_dwHeapAllocs = 0;
static DWORD g_dwHeapReAllocs = 0;
static DWORD g_dwHeapFrees = 0;
static DWORD g_dwHeapAllocFails = 0;
static DWORD g_dwHeapReAllocFails = 0;
static DWORD g_dwHeapFreeFails = 0;
#define TRAIL_SIG 0x708aa210
PVOID
DebugHeapAlloc (
PCSTR File,
DWORD Line,
HANDLE hHeap,
DWORD Flags,
DWORD BytesToAlloc
)
{
PVOID RealPtr;
PVOID ReturnPtr = NULL;
DWORD SizeAdjust;
DWORD TrackStructSize;
DWORD OrgError;
EnterCriticalSection (&g_MemAllocCs);
__try {
OrgError = GetLastError();
SizeAdjust = sizeof (TRACKSTRUCT) + sizeof (DWORD);
TrackStructSize = sizeof (TRACKSTRUCT);
if (!HeapValidate (hHeap, 0, NULL)) {
HeapCallFailed ("Heap is corrupt!", File, Line);
g_dwHeapAllocFails++;
__leave;
}
RealPtr = SafeHeapAlloc(hHeap, Flags, BytesToAlloc + SizeAdjust);
if (RealPtr) {
g_dwHeapAllocs++;
g_dwTotalBytesAllocated += HeapSize (hHeap, 0, RealPtr);
g_dwMaxBytesInUse = max (g_dwMaxBytesInUse, g_dwTotalBytesAllocated);
pTrackInsert (File, Line, BytesToAlloc, (PTRACKSTRUCT) RealPtr);
*((PDWORD) ((PBYTE) RealPtr + TrackStructSize + BytesToAlloc)) = TRAIL_SIG;
}
else {
g_dwHeapAllocFails++;
}
if (RealPtr) {
ReturnPtr = (PVOID) ((PBYTE) RealPtr + TrackStructSize);
}
if (ReturnPtr && !(Flags & HEAP_ZERO_MEMORY)) {
FillMemory (ReturnPtr, BytesToAlloc, 0xAA);
}
if (RealPtr) {
SetLastError(OrgError);
}
}
__finally {
LeaveCriticalSection (&g_MemAllocCs);
}
return ReturnPtr;
}
PVOID
DebugHeapReAlloc (
PCSTR File,
DWORD Line,
HANDLE hHeap,
DWORD Flags,
PCVOID CallerPtr,
DWORD BytesToAlloc
)
{
DWORD dwLastSize;
PVOID NewRealPtr;
PCVOID RealPtr;
PVOID ReturnPtr = NULL;
DWORD SizeAdjust;
DWORD OrgError;
DWORD TrackStructSize;
DWORD OrgSize;
PTRACKSTRUCT pts = NULL;
EnterCriticalSection (&g_MemAllocCs);
__try {
OrgError = GetLastError();
SizeAdjust = sizeof (TRACKSTRUCT) + sizeof (DWORD);
TrackStructSize = sizeof (TRACKSTRUCT);
RealPtr = (PCVOID) ((PBYTE) CallerPtr - TrackStructSize);
pts = (PTRACKSTRUCT) RealPtr;
OrgSize = pts->Size;
if (!HeapValidate (hHeap, 0, NULL)) {
HeapCallFailed ("Heap is corrupt!", File, Line);
g_dwHeapReAllocFails++;
__leave;
}
dwLastSize = pDebugHeapValidatePtrUnlocked (hHeap, CallerPtr, File, Line);
if (dwLastSize == INVALID_PTR) {
g_dwHeapReAllocFails++;
__leave;
}
pTrackDelete (pts);
NewRealPtr = SafeHeapReAlloc (hHeap, Flags, (PVOID) RealPtr, BytesToAlloc + SizeAdjust);
if (NewRealPtr) {
g_dwHeapReAllocs++;
g_dwTotalBytesAllocated -= dwLastSize;
g_dwTotalBytesAllocated += HeapSize (hHeap, 0, NewRealPtr);
g_dwMaxBytesInUse = max (g_dwMaxBytesInUse, g_dwTotalBytesAllocated);
pTrackInsert (File, Line, BytesToAlloc, (PTRACKSTRUCT) NewRealPtr);
*((PDWORD) ((PBYTE) NewRealPtr + TrackStructSize + BytesToAlloc)) = TRAIL_SIG;
}
else {
g_dwHeapReAllocFails++;
// Put original address back in
pTrackInsert (
pts->File,
pts->Line,
pts->Size,
pts
);
}
if (NewRealPtr) {
ReturnPtr = (PVOID) ((PBYTE) NewRealPtr + TrackStructSize);
}
if (ReturnPtr && BytesToAlloc > OrgSize && !(Flags & HEAP_ZERO_MEMORY)) {
FillMemory ((PBYTE) ReturnPtr + OrgSize, BytesToAlloc - OrgSize, 0xAA);
}
if (ReturnPtr) {
SetLastError (OrgError);
}
}
__finally {
LeaveCriticalSection (&g_MemAllocCs);
}
return ReturnPtr;
}
BOOL
DebugHeapFree (
PCSTR File,
DWORD Line,
HANDLE hHeap,
DWORD Flags,
PCVOID CallerPtr
)
{
DWORD dwSize;
PCVOID RealPtr;
DWORD SizeAdjust;
DWORD OrgError;
BOOL Result = FALSE;
PTRACKSTRUCT pts = NULL;
EnterCriticalSection (&g_MemAllocCs);
__try {
OrgError = GetLastError();
SizeAdjust = sizeof (TRACKSTRUCT);
RealPtr = (PCVOID) ((PBYTE) CallerPtr - SizeAdjust);
pts = (PTRACKSTRUCT) RealPtr;
if (*((PDWORD) ((PBYTE) CallerPtr + pts->Size)) != TRAIL_SIG) {
HeapCallFailed ("Heap tag was overwritten!", File, Line);
__leave;
}
if (!HeapValidate (hHeap, 0, NULL)) {
HeapCallFailed ("Heap is corrupt!", File, Line);
g_dwHeapFreeFails++;
__leave;
}
dwSize = pDebugHeapValidatePtrUnlocked (hHeap, CallerPtr, File, Line);
if (dwSize == INVALID_PTR) {
g_dwHeapFreeFails++;
__leave;
}
pTrackDelete ((PTRACKSTRUCT) RealPtr);
if (!HeapFree (hHeap, Flags, (PVOID) RealPtr)) {
CHAR BadPtrMsg[256];
wsprintf (BadPtrMsg,
"Attempt to free memory at 0x%08x with flags 0x%08x. "
"HeapFree() failed.",
CallerPtr, Flags);
HeapCallFailed (BadPtrMsg, File, Line);
g_dwHeapFreeFails++;
__leave;
}
g_dwHeapFrees++;
if (g_dwTotalBytesAllocated < dwSize) {
DEBUGMSG ((DBG_WARNING, "Total bytes allocated is less than amount being freed. "
"This suggests memory corruption."));
g_dwTotalBytesAllocated = 0;
} else {
g_dwTotalBytesAllocated -= dwSize;
}
SetLastError (OrgError);
Result = TRUE;
}
__finally {
LeaveCriticalSection (&g_MemAllocCs);
}
return Result;
}
VOID
DumpHeapStats (
VOID
)
{
CHAR OutputMsg[4096];
pWriteTrackLog();
wsprintfA (OutputMsg,
"Bytes currently allocated: %u\n"
"Peak bytes allocated: %u\n"
"Allocation count: %u\n"
"Reallocation count: %u\n"
"Free count: %u\n",
g_dwTotalBytesAllocated,
g_dwMaxBytesInUse,
g_dwHeapAllocs,
g_dwHeapReAllocs,
g_dwHeapFrees
);
if (g_dwHeapAllocFails) {
wsprintfA (strchr (OutputMsg, 0),
"***Allocation failures: %u\n",
g_dwHeapAllocFails);
}
if (g_dwHeapReAllocFails) {
wsprintfA (strchr (OutputMsg, 0),
"***Reallocation failures: %u\n",
g_dwHeapReAllocFails);
}
if (g_dwHeapFreeFails) {
wsprintfA (strchr (OutputMsg, 0),
"***Free failures: %u\n",
g_dwHeapFreeFails);
}
DEBUGMSG ((DBG_STATS, "%s", OutputMsg));
#ifdef CONSOLE
printf ("%s", OutputMsg);
#else // i.e. ifndef CONSOLE
#if 0
if (0) {
PROCESS_HEAP_ENTRY he;
CHAR FlagMsg[256];
ZeroMemory (&he, sizeof (he));
while (HeapWalk (g_hHeap, &he)) {
FlagMsg[0] = 0;
if (he.wFlags & PROCESS_HEAP_REGION) {
strcpy (FlagMsg, "PROCESS_HEAP_REGION");
}
if (he.wFlags & PROCESS_HEAP_UNCOMMITTED_RANGE) {
if (FlagMsg[0])
strcat (FlagMsg, ", ");
strcat (FlagMsg, "PROCESS_HEAP_UNCOMMITTED_RANGE");
}
if (he.wFlags & PROCESS_HEAP_ENTRY_BUSY) {
if (FlagMsg[0])
strcat (FlagMsg, ", ");
strcat (FlagMsg, "PROCESS_HEAP_ENTRY_BUSY");
}
if (he.wFlags & PROCESS_HEAP_ENTRY_MOVEABLE) {
if (FlagMsg[0])
strcat (FlagMsg, ", ");
strcat (FlagMsg, "PROCESS_HEAP_ENTRY_MOVEABLE");
}
if (he.wFlags & PROCESS_HEAP_ENTRY_DDESHARE) {
if (FlagMsg[0])
strcat (FlagMsg, ", ");
strcat (FlagMsg, "PROCESS_HEAP_ENTRY_DDESHARE");
}
wsprintfA (OutputMsg,
"Address of Data: %Xh\n"
"Size of Data: %u byte%s\n"
"OS Overhead: %u byte%s\n"
"Region index: %u\n"
"Flags: %s\n\n"
"Examine Data?",
he.lpData,
he.cbData, he.cbData == 1 ? "" : "s",
he.cbOverhead, he.cbOverhead == 1 ? "" : "s",
he.iRegionIndex,
FlagMsg
);
rc = MessageBoxA (GetFocus(), OutputMsg, "Memory Allocation Statistics", MB_YESNOCANCEL|MB_APPLMODAL|MB_SETFOREGROUND);
if (rc == IDCANCEL) {
break;
}
if (rc == IDYES) {
int i, j, k, l;
PBYTE p;
PSTR p2;
OutputMsg[0] = 0;
p = he.lpData;
p2 = OutputMsg;
j = min (256, he.cbData);
for (i = 0 ; i < j ; i += 16) {
l = i + 16;
for (k = i ; k < l ; k++) {
if (k < j) {
wsprintfA (p2, "%02X ", (DWORD) (p[k]));
} else {
wsprintfA (p2, " ");
}
p2 = strchr (p2, 0);
}
l = min (l, j);
for (k = i ; k < l ; k++) {
if (isprint (p[k])) {
*p2 = (CHAR) p[k];
} else {
*p2 = '.';
}
p2++;
}
*p2 = '\n';
p2++;
*p2 = 0;
}
MessageBoxA (GetFocus(), OutputMsg, "Memory Allocation Statistics", MB_OK|MB_APPLMODAL|MB_SETFOREGROUND);
}
}
}
#endif // #if 0
#endif // #ifndef CONSOLE
}
void
DebugHeapCheck (
PCSTR File,
DWORD Line,
HANDLE hHeap
)
{
EnterCriticalSection (&g_MemAllocCs);
if (!HeapValidate (hHeap, 0, NULL)) {
HeapCallFailed ("HeapCheck failed: Heap is corrupt!", File, Line);
}
LeaveCriticalSection (&g_MemAllocCs);
}
#endif