Leaked source code of windows server 2003
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//#---------------------------------------------------------------
// File: CPool.cpp
//
// Synopsis: This file implements the CPool class
//
// Copyright (C) 1995 Microsoft Corporation
// All rights reserved.
//
// Authors: HowardCu
//----------------------------------------------------------------
#ifdef THIS_FILE
#undef THIS_FILE
#endif
static char __szTraceSourceFile[] = __FILE__;
#define THIS_FILE __szTraceSourceFile
#include <windows.h>
#include "cpool.h"
#include "dbgtrace.h"
#include <randfail.h>
#define PREAMBLE (BYTE)'H'
#define POSTAMBLE (BYTE)'C'
#define FILLER (BYTE)0xCC
//
// Define internal Debug structs designed to help find over/underwrites
//
#ifdef DEBUG
#ifndef DISABLE_CPOOL_DEBUG
#define CPOOL_DEBUG
#endif
#endif
#ifdef CPOOL_DEBUG
#define HEAD_SIGNATURE (DWORD)'daeH'
#define TAIL_SIGNATURE (DWORD)'liaT'
#define FREE_STATE (DWORD)'eerF'
#define USED_STATE (DWORD)'desU'
//
// forward declaration
//
class CPoolDebugTail;
//
// Prefix for CPool instances when in debug mode
//
class CPoolDebugHead {
public:
//
// declared so normal CPool free list can clobber this member
//
void* m_pLink;
CPoolDebugHead();
~CPoolDebugHead( void );
void *operator new( size_t cSize, void *pInstance )
{ return pInstance; };
void operator delete (void *pInstance) {};
//
// Function to mark the instance in use
//
void MarkInUse( DWORD m_dwSignature, DWORD m_cInstanceSize );
//
// Function to mark the instance free
//
void MarkFree( DWORD m_dwSignature, DWORD m_cInstanceSize );
//
// class signature
//
DWORD m_dwSignature;
//
// state; either FREE_STATE or USED_STATE
//
DWORD m_dwState;
//
// time of allocation
//
SYSTEMTIME m_time;
//
// ThreadID which alloc'd/free'd memory
//
DWORD m_dwThreadID;
//
// tail pointer used to find the end
//
CPoolDebugTail UNALIGNED *m_pTailDebug;
//
// parent CPool signature
//
DWORD m_dwPoolSignature;
//
// parent CPool Fragment
//
LPVOID m_PoolFragment;
};
//
// Suffix for CPool instances when in debug mode
//
class CPoolDebugTail {
public:
CPoolDebugTail();
~CPoolDebugTail( void );
void *operator new( size_t cSize, void *pInstance )
{ return pInstance; };
void operator delete (void *pInstance) {};
//
// routine to validate the integrity of the instance
//
void IsValid( DWORD dwPoolSignature, DWORD cInstanceSize );
//
// class signature
//
DWORD m_dwSignature;
//
// tail pointer used to find the end
//
CPoolDebugHead UNALIGNED *m_pHeadDebug;
};
//+---------------------------------------------------------------
//
// Function: CPoolDebugHead
//
// Synopsis: constructor; extra init done in def'n
//
// Arguments: void
//
// Returns: void
//
//----------------------------------------------------------------
CPoolDebugHead::CPoolDebugHead( void ) :
m_dwState( FREE_STATE ),
m_dwSignature( HEAD_SIGNATURE ),
m_pTailDebug( NULL )
{
//
// debug helpers
//
GetLocalTime( &m_time ) ;
m_dwThreadID = GetCurrentThreadId();
}
//+---------------------------------------------------------------
//
// Function: ~CPoolDebugHead
//
// Synopsis: destructor; only used to assert error conditions
//
// Arguments: void
//
// Returns: void
//
//----------------------------------------------------------------
CPoolDebugHead::~CPoolDebugHead( void )
{
_ASSERT( m_dwSignature == HEAD_SIGNATURE );
}
//+---------------------------------------------------------------
//
// Function: CPoolDebugHead::MarkInUse
//
// Synopsis: Called when instance is allocated
//
// Arguments: DWORD dwPoolSignature: signature of parent pool
// DWORD cInstanceSize: instance size of parent pool
//
// Returns: void
//
//----------------------------------------------------------------
void CPoolDebugHead::MarkInUse( DWORD dwPoolSignature, DWORD cInstanceSize )
{
_ASSERT( m_dwSignature == HEAD_SIGNATURE );
_ASSERT( m_dwState == FREE_STATE );
m_dwState = USED_STATE;
//
// validate that the application portion is not tampered with
//
for ( LPBYTE pb = (LPBYTE)(this+1);
pb < (LPBYTE)m_pTailDebug;
pb++ )
{
_ASSERT( *pb == FILLER );
}
//
// check the validity of the entire instance
//
m_pTailDebug->IsValid( dwPoolSignature, cInstanceSize );
//
// debug helpers
//
GetLocalTime( &m_time ) ;
m_dwThreadID = GetCurrentThreadId();
}
//+---------------------------------------------------------------
//
// Function: CPoolDebugHead::MarkFree
//
// Synopsis: Called when instance is freed
//
// Arguments: DWORD dwPoolSignature: signature of parent pool
// DWORD cInstanceSize: instance size of parent pool
//
// Returns: void
//
//----------------------------------------------------------------
void CPoolDebugHead::MarkFree( DWORD dwPoolSignature, DWORD cInstanceSize )
{
_ASSERT( m_dwSignature == HEAD_SIGNATURE );
//
// Check and set the state
//
_ASSERT( m_dwState == USED_STATE );
m_dwState = FREE_STATE;
//
// check enough to call IsValid
//
_ASSERT( m_pTailDebug != 0 );
_ASSERT( (DWORD_PTR)m_pTailDebug > (DWORD_PTR)this );
_ASSERT( m_dwThreadID != 0 ) ;
//
// check the validity of the entire instance
//
m_pTailDebug->IsValid( dwPoolSignature, cInstanceSize );
//
// set the application data to filler
//
FillMemory( (LPBYTE)(this+1),
(DWORD)((LPBYTE)m_pTailDebug - (LPBYTE)(this+1)),
FILLER );
//
// debug helpers
//
GetLocalTime( &m_time ) ;
m_dwThreadID = GetCurrentThreadId();
}
//+---------------------------------------------------------------
//
// Function: CPoolDebugTail
//
// Synopsis: constructor; extra init done in def'n
//
// Arguments: void
//
// Returns: void
//
//----------------------------------------------------------------
CPoolDebugTail::CPoolDebugTail( void ) :
m_dwSignature( TAIL_SIGNATURE ),
m_pHeadDebug( NULL )
{
}
//+---------------------------------------------------------------
//
// Function: ~CPoolDebugTail
//
// Synopsis: destructor; only used to assert error conditions
//
// Arguments: void
//
// Returns: void
//
//----------------------------------------------------------------
CPoolDebugTail::~CPoolDebugTail( void )
{
_ASSERT( m_dwSignature == TAIL_SIGNATURE );
}
//+---------------------------------------------------------------
//
// Function: IsValid
//
// Synopsis: check validity of instance
//
// Arguments: DWORD dwPoolSignature: signature of parent pool
// DWORD cInstanceSize: instance size of parent pool
//
// Returns: void
//
//----------------------------------------------------------------
void CPoolDebugTail::IsValid( DWORD dwPoolSignature, DWORD cInstanceSize )
{
_ASSERT( m_dwSignature == TAIL_SIGNATURE );
//
// validate that the head is offset at the correct location
//
_ASSERT( m_pHeadDebug != NULL );
_ASSERT( (DWORD_PTR)m_pHeadDebug == (DWORD_PTR)(this+1) - cInstanceSize );
//
// validate the head structure
//
_ASSERT( m_pHeadDebug->m_dwSignature == HEAD_SIGNATURE );
_ASSERT( m_pHeadDebug->m_dwPoolSignature == dwPoolSignature );
_ASSERT( m_pHeadDebug->m_pTailDebug == this );
_ASSERT( m_pHeadDebug->m_dwState == FREE_STATE ||
m_pHeadDebug->m_dwState == USED_STATE );
}
#endif
//+---------------------------------------------------------------
//
// Function: CPool
//
// Synopsis: constructor
//
// Arguments: void
//
// Returns: void
//
// History: gordm Created 5 Jul 1995
//
//----------------------------------------------------------------
CPool::CPool( DWORD dwSignature ) : m_dwSignature( dwSignature )
{
TraceFunctEnter( "CPool::CPool" );
m_pFreeList = NULL;
m_pExtraFreeLink = NULL;
//
// Debug variables to help catch heap bugs
//
m_pLastAlloc = NULL;
m_pLastExtraAlloc = NULL;
m_cTotalFrees = 0;
m_cTotalAllocs = 0;
m_cTotalExtraAllocs = 0;
m_cInstanceSize = 0;
//
// Avail + InUse should equal Committed if we're not
// in grow/alloc or free. Diagnostic and admin only
// This will keep code in critsec as small as possible
//
m_cNumberAvail = 0;
m_cNumberInUse = 0;
m_cNumberCommitted = 0;
InitializeCriticalSection( &m_PoolCriticalSection );
//
// initialize the fragment member variables
//
m_cFragmentInstances = 0;
m_cFragments = 0;
ZeroMemory( m_pFragments, sizeof(m_pFragments) );
TraceFunctLeave();
}
//+---------------------------------------------------------------
//
// Function: ~CPool
//
// Synopsis: destructor
//
// Arguments: void
//
// Returns: void
//
// History: HowardCu Created 8 May 1995
//
//----------------------------------------------------------------
CPool::~CPool( void )
{
TraceFunctEnter( "CPool::~CPool" );
_ASSERT( m_cNumberInUse == 0 );
for ( int i=0; i<MAX_CPOOL_FRAGMENTS; i++ )
{
_ASSERT( m_pFragments[i] == NULL );
}
DebugTrace( (LPARAM)this,
"CPool: %x EntryCount: %d ContentionCount: %d, Allocs: %d, Frees: %d",
m_dwSignature,
GetEntryCount(),
GetContentionCount(),
GetTotalAllocCount(),
GetTotalFreeCount() );
DeleteCriticalSection( &m_PoolCriticalSection );
TraceFunctLeave();
}
//+---------------------------------------------------------------
//
// Function: Alloc
//
// Synopsis: Allocates a new instance from the pool
//
// Arguments: void
//
// Returns: pointer to the new instance
//
// History: gordm Created 5 Jul 1995
//
//----------------------------------------------------------------
void* CPool::Alloc( void )
{
#ifdef ALLOC_TRACING
TraceFunctEnter( "CPool::Alloc" );
#endif
Link* pAlloc;
IsValid();
//
// Randfail for debug versions
//
#if defined( DEBUG )
if ( fTimeToFail() ) {
return NULL;
}
#endif
//
// moved outside of the critsec because it should not be necessary
// to protect this variable. inc before the alloc so this var wraps
// the actual allocation
//
InterlockedIncrement( (LPLONG)&m_cNumberInUse );
//
// check the extra pointer to avoid the critsec path if
// possible. big wins because we can potentially avoid
// the extra code and the wait on semaphore
//
pAlloc = (Link*)InterlockedExchangePointer( (void**)&m_pExtraFreeLink, NULL );
if ( pAlloc == NULL )
{
EnterCriticalSection( &m_PoolCriticalSection );
//
// commit more memory if the list is empty
//
if ( (m_pFreeList == NULL) && (m_cNumberCommitted < m_cMaxInstances) )
{
GrowPool();
}
//
// try to allocate a Descriptor from the free list
//
if ( (pAlloc = m_pFreeList) != NULL )
{
m_pFreeList = pAlloc->pNext;
}
m_pLastAlloc = pAlloc;
LeaveCriticalSection( &m_PoolCriticalSection );
}
else
{
m_pLastExtraAlloc = pAlloc;
m_cTotalExtraAllocs++;
}
//
// alloc failed
//
if ( pAlloc == NULL )
{
InterlockedDecrement( (LPLONG)&m_cNumberInUse );
}
else
{
//
// debug/admin use only - ok to do outside of critsec
//
m_cTotalAllocs++;
#ifdef CPOOL_DEBUG
CPoolDebugHead* pHead = (CPoolDebugHead*)pAlloc;
//
// validate that the address in the range
//
_ASSERT( (char*)pAlloc >= pHead->m_PoolFragment );
_ASSERT( (char*)pAlloc < (char*)pHead->m_PoolFragment +
m_cNumberCommitted*m_cInstanceSize );
pHead->MarkInUse( m_dwSignature, m_cInstanceSize );
pAlloc = (Link*)(pHead+1);
#endif
}
#ifdef ALLOC_TRACING
DebugTrace( (LPARAM)this, "Alloc: 0x%08X", pAlloc );
TraceFunctLeave();
#endif
return (void*)pAlloc;
}
//+---------------------------------------------------------------
//
// Function: Free
//
// Synopsis: frees the instances
//
// Arguments: pInstance - a pointer to the CDescriptor
//
// Returns: void
//
// History: gordm Created 5 Jul 1995
//
//----------------------------------------------------------------
void CPool::Free( void* pInstance )
{
#ifdef ALLOC_TRACING
TraceFunctEnter( "CPool::Free" );
#endif
#ifdef CPOOL_DEBUG
CPoolDebugHead* pHead = ((CPoolDebugHead*)pInstance) - 1;
//
// validate that the address in the range
//
_ASSERT( (char*)pInstance >=pHead->m_PoolFragment);
_ASSERT( (char*)pInstance < (char*)pHead->m_PoolFragment +
m_cNumberCommitted*m_cInstanceSize );
pHead->MarkFree( m_dwSignature, m_cInstanceSize );
pInstance = (void*)pHead;
#endif
IsValid();
_ASSERT(m_cNumberInUse > 0);
pInstance = (void*)InterlockedExchangePointer( (PVOID *)&m_pExtraFreeLink, pInstance );
//
// free the previous extra pointer if one existed
//
if ( pInstance != NULL )
{
EnterCriticalSection( &m_PoolCriticalSection );
((Link*)pInstance)->pNext = m_pFreeList;
m_pFreeList = (Link*)pInstance;
LeaveCriticalSection( &m_PoolCriticalSection );
}
//
// moved outside of the critsec because it should not be necessary
// to protect this variable. We'll think this list is empty only
// when we get to this point. This var is inc'd before entering
// the critsec and is dec'd if the operation fails.
//
InterlockedDecrement( (LPLONG)&m_cNumberInUse );
//
// debug/admin use only - ok to do outside of critsec - deletes don't fail
//
m_cTotalFrees++;
#ifdef ALLOC_TRACING
DebugTrace( (LPARAM)this, "Freed: 0x%08X", pInstance );
TraceFunctLeave();
#endif
}
//
// setup a const DWORD for size manipulation
//
const DWORD KB = 1024;
//+---------------------------------------------------------------
//
// Function: ReserveMemory
//
// Synopsis: Initializes the pool
//
// Arguments: NumDescriptors - the number of total descriptors in the pool
// DescriptorSize - the size of any one descriptor
// Signature - object signature
//
// Returns: TRUE is success, else FALSE
//
// History: HowardCu Created 8 May 1995
//
//----------------------------------------------------------------
BOOL CPool::ReserveMemory( DWORD MaxInstances,
DWORD InstanceSize,
DWORD IncrementSize )
{
TraceFunctEnter( "CPool::ReserveMemory" );
DWORD cFragments;
DWORD cFragmentInstances;
DWORD cIncrementInstances;
_ASSERT( MaxInstances != 0 );
_ASSERT( InstanceSize >= sizeof(struct Link) );
#ifdef CPOOL_DEBUG
InstanceSize += sizeof( CPoolDebugHead ) + sizeof( CPoolDebugTail );
#endif
if ( IncrementSize == DEFAULT_ALLOC_INCREMENT )
{
//
// ensure we go to the OS for at least 8 instances at a time
//
if ( InstanceSize <= 4*KB / 8 )
{
cIncrementInstances = 4*KB / InstanceSize;
}
else if ( InstanceSize <= 64*KB / 8 )
{
cIncrementInstances = 64*KB / InstanceSize;
}
else
{
cIncrementInstances = min( MaxInstances, 8 );
}
}
else
{
cIncrementInstances = IncrementSize;
}
//
// now calculate the number larger fragments
//
if ( cIncrementInstances > MaxInstances )
{
//
// no need for CPool; but we shouldn't alloc more than necessary
//
cFragmentInstances = cIncrementInstances = MaxInstances;
cFragments = 1;
}
else
{
//
// Round up MaxInstances to a integral number of IncrementSize
//
MaxInstances += cIncrementInstances - 1;
MaxInstances /= cIncrementInstances;
MaxInstances *= cIncrementInstances;
//
// as an initial attempt divide the number of instances by max frags
//
cFragmentInstances = (MaxInstances + MAX_CPOOL_FRAGMENTS - 1) /
MAX_CPOOL_FRAGMENTS;
if ( cFragmentInstances == 0 )
{
cFragmentInstances = MaxInstances;
cFragments = 1;
}
else
{
//
// round up the number of instances in a fragment to an
// integral number of IncrementSizes
//
cFragmentInstances += cIncrementInstances - 1;
cFragmentInstances /= cIncrementInstances;
cFragmentInstances *= cIncrementInstances;
//
// recalculate the number of fragments required based on the integral
// number of IncrementSizes ( last one may no longer be required )
//
cFragments = (MaxInstances + cFragmentInstances - 1) /
cFragmentInstances;
}
}
_ASSERT( cFragments > 0 );
_ASSERT( cFragments*cFragmentInstances >= MaxInstances );
m_cInstanceSize = InstanceSize;
m_cMaxInstances = MaxInstances;
m_cFragments = cFragments;
m_cFragmentInstances = cFragmentInstances;
m_cIncrementInstances = cIncrementInstances;
TraceFunctLeave();
return TRUE;
}
//+---------------------------------------------------------------
//
// Function: ReleaseMemory
//
// Synopsis: Releases the pool
//
// Arguments: none
//
// Returns: TRUE is success, else FALSE
//
// History: HowardCu Created 8 May 1995
//
//----------------------------------------------------------------
BOOL CPool::ReleaseMemory( void )
{
TraceFunctEnter( "CPool::ReleaseMemory" );
BOOL bFree = TRUE;
DWORD i, cStart;
EnterCriticalSection( &m_PoolCriticalSection );
for ( i=cStart=0; i<m_cFragments; i++, cStart += m_cFragmentInstances )
{
LPVOID pHeap = m_pFragments[i];
if ( pHeap != NULL )
{
_ASSERT( cStart < m_cNumberCommitted );
DWORD cSize = min( m_cFragmentInstances, m_cNumberCommitted-cStart );
_VERIFY( bFree = VirtualFree( pHeap, cSize*m_cInstanceSize, MEM_DECOMMIT ) );
_VERIFY( bFree &=VirtualFree( pHeap, 0, MEM_RELEASE ) );
if ( bFree == FALSE )
{
ErrorTrace( (LPARAM)this, "VirtualFree failed: err %d", GetLastError() );
break;
}
m_pFragments[i] = NULL;
}
else
{
break;
}
}
LeaveCriticalSection( &m_PoolCriticalSection );
//
// zero out important data fields
//
m_pFreeList = NULL;
m_pExtraFreeLink = NULL;
m_cNumberCommitted = 0;
return bFree;
}
#ifdef CPOOL_DEBUG
//+---------------------------------------------------------------
//
// Function: InitDebugInstance
//
// Synopsis: sets up the appropriate debug class variables
//
// Arguments: void* pInstance: the new instance
// DWORD dwPoolSignature: parent Pool signature
// DWORD cInstanceSize: size of the enlarged instance
//
// Returns: void
//
// History: gordm Created 11 Jan 1996
//
//----------------------------------------------------------------
void InitDebugInstance(
char* pInstance,
DWORD dwPoolSignature,
DWORD cInstanceSize,
LPVOID pPoolFragment
)
{
CPoolDebugHead* pHead = new( pInstance ) CPoolDebugHead();
CPoolDebugTail* pTail = new( pInstance +
cInstanceSize -
sizeof(CPoolDebugTail) ) CPoolDebugTail();
pHead->m_pTailDebug = pTail;
pTail->m_pHeadDebug = pHead;
//
// helps with debugging to see the parent CPool signature
//
pHead->m_dwPoolSignature = dwPoolSignature;
//
// helps with asserts for valid ranges
//
pHead->m_PoolFragment = pPoolFragment;
//
// fake out the state before calling mark Free
//
pHead->m_dwState = USED_STATE;
pHead->MarkFree( dwPoolSignature, cInstanceSize );
}
#endif
//+---------------------------------------------------------------
//
// Function: GrowPool
//
// Synopsis: grows the number of committed instances in the pool
//
// Arguments: void
//
// Returns: void
//
// History: gordm Created 5 Jul 1995
//
//----------------------------------------------------------------
void CPool::GrowPool( void )
{
#ifdef ALLOC_TRACING
TraceFunctEnter( "CPool::GrowPool" );
#endif
DWORD cFragment = m_cNumberCommitted / m_cFragmentInstances;
DWORD cStart = m_cNumberCommitted % m_cFragmentInstances;
DWORD cbSize = (cStart+m_cIncrementInstances) * m_cInstanceSize;
#ifdef ALLOC_TRACING
DebugTrace( (LPARAM)this, "Expanding the pool to %d descriptors",
cNewCommit );
#endif
//
// if we're starting a new fragment
//
if ( cStart == 0 )
{
//
// if we are at a boundary of a fragment Reserve the next fragment
m_pFragments[cFragment] = VirtualAlloc(
NULL,
m_cFragmentInstances*m_cInstanceSize,
MEM_RESERVE | MEM_TOP_DOWN,
PAGE_NOACCESS
);
if ( m_pFragments[cFragment] == NULL )
{
#ifdef ALLOC_TRACING
ErrorTrace( (LPARAM)this,
"Could not reserve more memory: error = %d",
GetLastError() );
#endif
return;
}
}
LPVOID pHeap = m_pFragments[cFragment];
if ( VirtualAlloc( pHeap,
cbSize,
MEM_COMMIT,
PAGE_READWRITE ) != NULL )
{
char* pStart = (char*)pHeap + cStart*m_cInstanceSize;
char* pLast = (char*)pHeap + cbSize - m_cInstanceSize;
//
// run the list joining the next pointers
// possible because we own the critsec
//
for ( char* p=pStart; p<pLast; p+=m_cInstanceSize)
{
#ifdef CPOOL_DEBUG
InitDebugInstance( p, m_dwSignature, m_cInstanceSize, pHeap );
#endif
//
// statement works for CPOOL_DEBUG as well because
// we reserve the first 4 bytes of CPoolDebugHead
//
((Link*)p)->pNext = (Link*)(p+m_cInstanceSize);
}
//
// terminate and then set the head to beginning of new list
//
#ifdef CPOOL_DEBUG
InitDebugInstance( pLast, m_dwSignature, m_cInstanceSize, pHeap );
#endif
((Link*)pLast)->pNext = NULL;
m_pFreeList = (Link*)pStart;
m_cNumberCommitted += m_cIncrementInstances;
}
#ifdef ALLOC_TRACING
else
{
ErrorTrace( (LPARAM)this,
"Could not commit another descriptor: error = %d",
GetLastError() );
}
TraceFunctLeave();
#endif
}
//+---------------------------------------------------------------
//
// Function: GetContentionCount
//
// Synopsis: Returns the contention count on the alloc/free
// critsec
//
// Arguments: void
//
// Returns: the actual count
//
//----------------------------------------------------------------
DWORD CPool::GetContentionCount( void )
{
return m_PoolCriticalSection.DebugInfo != NULL ?
m_PoolCriticalSection.DebugInfo->ContentionCount :
0 ;
}
//+---------------------------------------------------------------
//
// Function: GetEntryCount
//
// Synopsis: Returns the entry count on the alloc/free
// critsec
//
// Arguments: void
//
// Returns: the actual count
//
//----------------------------------------------------------------
DWORD CPool::GetEntryCount( void )
{
return m_PoolCriticalSection.DebugInfo != NULL ?
m_PoolCriticalSection.DebugInfo->EntryCount :
0 ;
}
//+---------------------------------------------------------------
//
// Function: GetInstanceSize
//
// Synopsis: Returns the application's instance size
//
// Arguments: void
//
// Returns: the instance size of the app
//
//----------------------------------------------------------------
DWORD CPool::GetInstanceSize( void )
{
#ifdef CPOOL_DEBUG
return m_cInstanceSize - sizeof(CPoolDebugHead) - sizeof(CPoolDebugTail);
#else
return m_cInstanceSize;
#endif
}
#ifdef DEBUG
//+---------------------------------------------------------------
//
// Function: IsValid
//
// Synopsis: Validates the pool signature
//
// Arguments: void
//
// Returns: TRUE is success, else FALSE
//
// History: HowardCu Created 8 May 1995
//
//----------------------------------------------------------------
inline void CPool::IsValid( void )
{
_ASSERT( m_cMaxInstances != 0 );
_ASSERT( m_cInstanceSize >= sizeof(struct Link) );
_ASSERT( m_cIncrementInstances != 0 );
_ASSERT( m_dwSignature != 0 );
}
#endif