portable/src/pmemory_ext.c - platform/external/srec - Git at Google

 /*---------------------------------------------------------------------------*
  *  pmemory_ext.c  *
  *                                                                           *
  *  Copyright 2007, 2008 Nuance Communciations, Inc.                               *
  *                                                                           *
  *  Licensed under the Apache License, Version 2.0 (the 'License');          *
  *  you may not use this file except in compliance with the License.         *
  *                                                                           *
  *  You may obtain a copy of the License at                                  *
  *      http://www.apache.org/licenses/LICENSE-2.0                           *
  *                                                                           *
  *  Unless required by applicable law or agreed to in writing, software      *
  *  distributed under the License is distributed on an 'AS IS' BASIS,        *
  *  WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. *
  *  See the License for the specific language governing permissions and      *
  *  limitations under the License.                                           *
  *                                                                           *
  *---------------------------------------------------------------------------*/


 #include "pmemory.h"
 #include "ptrd.h"
 #include "pmutex.h"
 #include "passert.h"
 #include "pmemory_ext.h"
 #include "pmalloc.h"

 #ifdef __cplusplus
 extern "C"
 {
 #endif

 #if defined(USE_THREAD) && defined(USE_DINKUM_LIB_DIRECT)
   static MUTEX memextMutex;
 #endif

 #ifdef RTXC
   void* operator new(size_t size)
   {
     return (PortNew(size));
   }
   void  operator delete(void* ptr)
   {
     PortDelete(ptr);
   }
 #endif

 #if defined(PORTABLE_DINKUM_MEM_MGR) || defined(PORTABLE_FIXED_SIZE_MEM_BLOCK_SCHEME)

   /* to assist with leak checking */
 static int portNewCount = 0;
 static int portDeleteCount = 0;

   /* enable writing and checking of guard words if debugging is enabled */
 #ifdef _DEBUG
   /* crash on Xanavi's board with this option on, do not know why */
   /* #define DBG_GUARD_WORDS */
 #endif /* _DEBUG */

   /* ************************************************************************************
    * PORTABLE_PSOS_BLOCK_SCHEME_MEM_MGR || PORTABLE_DINKUM_MEM_MGR || PORTABLE_FIXED_SIZE_MEM_BLOCK_SCHEME
    * ************************************************************************************/

   /* data ******************************************************************************/

   static BOOL  gMemoryInitted = FALSE; /* TODO: Temporary fix to PortTerm failure */

 #define MEM_MGR_GetPoolSize()     PortMallocGetPoolSize()
 #define MEM_MGR_SetPoolSize(sizeInBytes)  PortMallocSetPoolSize(sizeInBytes)
 #define MEM_MGR_Init()       PortMallocInit()
 #define MEM_MGR_Term()              PortMallocTerm()
 #define MEM_MGR_Allocate(sizeInBytes)   PortMalloc(sizeInBytes)
 #define MEM_MGR_Free(objectPtr)     PortFree(objectPtr)
 #define MEM_MGR_Dump()
 #define MEM_MGR_GetMaxMemUsed()     PortMallocGetMaxMemUsed()

   /* guard word data ********************************************************/

 #ifdef DBG_GUARD_WORDS
 #define GUARD_BEGIN  0xbbbbbbbb
 #define GUARD_END    0xeeeeeeee

 #define GUARD_OFF_REQ_SIZE   0
 #define GUARD_OFF_START    sizeof(unsigned int)
 #define GUARD_OFF_PTR    (sizeof(unsigned int) + sizeof(unsigned int))
 #define GUARD_EXTRA     (sizeof(unsigned int) + sizeof(unsigned int) + sizeof(unsigned int))
 #define GUARD_OFF_END(allocSize)    ((allocSize) - sizeof(unsigned int))
 #define GUARD_ALLOC_SIZE(reqSize)   ((reqSize)+GUARD_EXTRA)

 #define GUARD_PTR_FIELD(ptr,off) (unsigned int *)((char *)(ptr) + (off))
 #define GUARD_ALLOC_PTR(ptr)  (void*) ((char *)(ptr) - GUARD_OFF_PTR)
 #endif

   /* scan guard words data **************************************************/

   /* maintain a static list of allocated blocks (didn't want to perform any dynamic allocation).
    * This list can be scanned by PortMemScan() to determine if any allocated blocks
    * have overwritten their guard words.
    * Calling PortDelete() will check guard words upon de-allocation, but many
    * allocated blocks are only freed at program termination, which sometimes doesn't happen.
    *
    * This software is enabled separately with DBG_SCAN_GUARD_WORDS, because the performance
    * overhead is severe.
    */
 #ifdef DBG_SCAN_GUARD_WORDS
 #define MAX_ALLOCATED_BLOCKS  80000
   static void *allocArray[MAX_ALLOCATED_BLOCKS+1];
   static int allocArrayCount = 0;

   void AddToAllocList(void *memPtr);
   void RemoveFromAllocList(void *memPtr);

 #define ADD_TO_ALLOC_LIST(ptr)   AddToAllocList(ptr)
 #define REMOVE_FROM_ALLOC_LIST(ptr)  RemoveFromAllocList(ptr)

 #else
 #define ADD_TO_ALLOC_LIST(ptr)
 #define REMOVE_FROM_ALLOC_LIST(ptr)
 #endif

   /* Guard Functions ********************************************************/

 #ifdef DBG_SCAN_GUARD_WORDS
   /* AddToAllocList() : maintain an array of allocated blocks that can be
    * used by PortMemScan() to check for overwritten guard words.
    */
   void AddToAllocList(void *memPtr)
   {
     allocArray[allocArrayCount] = memPtr;
     allocArrayCount++;
     if (allocArrayCount >= MAX_ALLOCATED_BLOCKS)
     {
       char buf[256];
       sprintf(buf, "AddToAllocList ERROR : MAX_ALLOCATED_BLOCKS is too small (%d)", allocArrayCount);
       PORT_INTERNAL_ERROR(buf);
     }
   }

   /* RemoveFromAllocList() : maintain an array of allocated blocks that can be
    * used by PortMemScan() to check for overwritten guard words.
    */
   void RemoveFromAllocList(void *memPtr)
   {
     int i;               /* loop index */
     int j;               /* loop index */
     int inList = FALSE;  /* TRUE when found in list */

     for (i = 0; i < allocArrayCount; i++)
     {
       if (allocArray[i] == memPtr)
       {
         inList = TRUE;
         break;
       }
     }
     PORT_ASSERT(inList == TRUE);  /* MUST be in list */
     /* remove by sliding down all following entries */
     for (j = i + 1; j < allocArrayCount; j++)
       allocArray[j-1] = allocArray[j];
     allocArrayCount--;
     allocArray[allocArrayCount] = NULL; /* clear out end of list */
   }

   /* PortMemScan() : scan the array of allocated blocks, confirming that no
    * allocated block has overwritten its guard words.
    */
   void PortMemScan(void)
   {
     int          i;

     PortCriticalSectionEnter(&PortMemoryCriticalSection);

     /* scan the allocated memory list */
     for (i = 0; i < allocArrayCount; i++)
     {
       /* verify that guard words have not been corrupted */
       void   *memPtr   = allocArray[i];
       void         *allocPtr      = GUARD_ALLOC_PTR(memPtr);
       unsigned int *requestedSizePtr  = GUARD_PTR_FIELD(allocPtr, GUARD_OFF_REQ_SIZE);
       unsigned int *guardStartPtr     = GUARD_PTR_FIELD(allocPtr, GUARD_OFF_START);
       unsigned int *guardEndPtr       = GUARD_PTR_FIELD(allocPtr, GUARD_OFF_END(GUARD_ALLOC_SIZE(*requestedSizePtr)));

       if ((*guardStartPtr) != GUARD_BEGIN)
       {
         PLogError("PortMemScan : corrupted start guard from block 0x%08x \n", (int)memPtr);
       }
       if ((*guardEndPtr)   != GUARD_END)
       {
         PLogError("PortMemScan : corrupted end guard from block 0x%08x \n", (int)memPtr);
       }
     }

     PortCriticalSectionLeave(&PortMemoryCriticalSection);
   }
 #endif /* DBG_SCAN_GUARD_WORDS */

   /* Port Memory Functions ******************************************************/

   /* PortMemGetPoolSize() : return size of portable memory pool, or 0 if
    * unknown.
    */
   int  PortMemGetPoolSize(void)
   {
     return MEM_MGR_GetPoolSize();
   }

   /* PortMemSetPoolSize() : set size of portable memory pool on PSOS.
    * This must be called before PortMemoryInit(), which is called by PortInit().
    */
   void PortMemSetPoolSize(size_t sizeInBytes)
   {
     MEM_MGR_SetPoolSize(sizeInBytes);
   }

   /* PortMemoryInit() :
    */

   int  PortMemoryInit(void)
   {
 #if defined(USE_THREAD) && defined(USE_DINKUM_LIB_DIRECT)
     if (createMutex(&memextMutex) == ESR_SUCCESS)
 #endif
     {
       if (!gMemoryInitted)
       {
         MEM_MGR_Init();
         gMemoryInitted = TRUE;
       }
     }

     return gMemoryInitted;
   }

   /* PortMemoryTerm() :
    */

   void  PortMemoryTerm(void)
   {
     /* TODO: MEM_PSOS_BLOCK_SCHEME
      * Figure out why free memory causes rn#0 is get messed up! */
     MEM_MGR_Term();
 #if defined(USE_THREAD) && defined(USE_DINKUM_LIB_DIRECT)
     deleteMutex(&memextMutex);
 #endif
     gMemoryInitted = FALSE;
   }

   /* PortNew() :
    */

   void* PortNew(size_t sizeInBytes)
   {
     if (gMemoryInitted)
     {
       void *pMemory = NULL;

 #if defined(USE_THREAD) && defined(USE_DINKUM_LIB_DIRECT)
       lockMutex(&memextMutex);
 #endif
       portNewCount++;

 #ifdef DBG_GUARD_WORDS
       sizeInBytes += GUARD_EXTRA; /* space for: requestedSize,guardStart,guardEnd */
 #endif

       pMemory = MEM_MGR_Allocate(sizeInBytes);

 #ifdef DBG_GUARD_WORDS
       if (NULL != pMemory)
       {
         /* at the beginning of the buffer, store the requested size and a guard word.
          * Store another guard word at the end of the buffer.
          */
         /* set guard words at either end of allocated buffer; will be checked at delete time */
         unsigned int * requestedSizePtr  = GUARD_PTR_FIELD(pMemory, GUARD_OFF_REQ_SIZE);
         unsigned int * guardStartPtr     = GUARD_PTR_FIELD(pMemory, GUARD_OFF_START);
         unsigned int * guardEndPtr       = GUARD_PTR_FIELD(pMemory, GUARD_OFF_END(sizeInBytes));

         *requestedSizePtr = sizeInBytes - GUARD_EXTRA;
         *guardStartPtr    = GUARD_BEGIN;
         *guardEndPtr      = GUARD_END;
         pMemory     = (void *) GUARD_PTR_FIELD(pMemory, GUARD_OFF_PTR);
         ADD_TO_ALLOC_LIST(pMemory);
       }
 #endif /* DBG_GUARD_WORDS */
 #if defined(USE_THREAD) && defined(USE_DINKUM_LIB_DIRECT)
       unlockMutex(&memextMutex);
 #endif
       return pMemory;
     }
 #ifdef PSOSIM
     /* PSOSIM's license manager calls new() before PSOS is running */
     else
     {
       return(malloc(sizeInBytes));
     }
 #else  /* PSOSIM */
     /* Memory allocator not initialized when request for memory was made */
     passert(FALSE && "Call PortInit() before calling any portable functions\r\n");
     return NULL;
 #endif /* PSOSIM */
   }

   void PortDelete(void* objectPtr)
   {
 #if defined(USE_THREAD) && defined(USE_DINKUM_LIB_DIRECT)
     lockMutex(&memextMutex);
 #endif
     portDeleteCount++;

 #ifdef DBG_GUARD_WORDS
     {
       /* verify that guard words have not been corrupted */
       void *allocPtr     = GUARD_ALLOC_PTR(objectPtr);
       unsigned int *requestedSizePtr  = GUARD_PTR_FIELD(allocPtr, GUARD_OFF_REQ_SIZE);
       unsigned int *guardStartPtr     = GUARD_PTR_FIELD(allocPtr, GUARD_OFF_START);
       unsigned int *guardEndPtr       = GUARD_PTR_FIELD(allocPtr, GUARD_OFF_END(GUARD_ALLOC_SIZE(*requestedSizePtr)));

       passert((*guardStartPtr) == GUARD_BEGIN);
       passert((*guardEndPtr)   == GUARD_END);
       REMOVE_FROM_ALLOC_LIST(allocPtr);
       objectPtr = allocPtr;
     }
 #endif

     MEM_MGR_Free(objectPtr);
 #if defined(USE_THREAD) && defined(USE_DINKUM_LIB_DIRECT)
     unlockMutex(&memextMutex);
 #endif
   }

   void PortMemTrackDump(void)
   {
     MEM_MGR_Dump();
   }

   /* PortGetMaxMemUsed() : return the maximum real memory allocated.
    * There is another function of the same name in pmalloc.c, for tracking
    * non-psos block memory. It uses #ifndef MEM_PSOS_BLOCK_SCHEME to enable.
    */
   int PortGetMaxMemUsed(void)
   {
     return MEM_MGR_GetMaxMemUsed();
   }

   /* PortMemCntReset() : reset the New/Delete count.
    * This is useful for checking that each new has a corresponding delete once
    * the system gets into a steady state.
    */
   void PortMemCntReset()
   {
     portNewCount = 0;
     portDeleteCount = 0;
   }


   /* PortMemGetCount() : return the accumulated new & delete counts */
   void PortMemGetCount(int *newCount, int *deleteCount)
   {
     *newCount    = portNewCount;
     *deleteCount = portDeleteCount;
   }

 #endif /* (==PORTABLE_PSOS_BLOCK_SCHEME_MEM_MGR) || (==PORTABLE_DINKUM_MEM_MGR) || (==PORTABLE_FIXED_SIZE_MEM_BLOCK_SCHEME) */

 #ifdef __cplusplus
 }
 #endif
	/---------------------------------------------------------------------------
	* pmemory_ext.c *
	* *
	* Copyright 2007, 2008 Nuance Communciations, Inc. *
	* *
	* Licensed under the Apache License, Version 2.0 (the 'License'); *
	* you may not use this file except in compliance with the License. *
	* *
	* You may obtain a copy of the License at *
	* http://www.apache.org/licenses/LICENSE-2.0 *
	* *
	* Unless required by applicable law or agreed to in writing, software *
	* distributed under the License is distributed on an 'AS IS' BASIS, *
	* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. *
	* See the License for the specific language governing permissions and *
	* limitations under the License. *
	* *
	---------------------------------------------------------------------------/



	#include "pmemory.h"
	#include "ptrd.h"
	#include "pmutex.h"
	#include "passert.h"
	#include "pmemory_ext.h"
	#include "pmalloc.h"

	#ifdef __cplusplus
	extern "C"
	{
	#endif

	#if defined(USE_THREAD) && defined(USE_DINKUM_LIB_DIRECT)
	static MUTEX memextMutex;
	#endif

	#ifdef RTXC
	void* operator new(size_t size)
	{
	return (PortNew(size));
	}
	void operator delete(void* ptr)
	{
	PortDelete(ptr);
	}
	#endif

	#if defined(PORTABLE_DINKUM_MEM_MGR) \|\| defined(PORTABLE_FIXED_SIZE_MEM_BLOCK_SCHEME)

	/* to assist with leak checking */
	static int portNewCount = 0;
	static int portDeleteCount = 0;

	/* enable writing and checking of guard words if debugging is enabled */
	#ifdef _DEBUG
	/* crash on Xanavi's board with this option on, do not know why */
	/* #define DBG_GUARD_WORDS */
	#endif /* _DEBUG */

	/* ************************************************************************************
	* PORTABLE_PSOS_BLOCK_SCHEME_MEM_MGR \|\| PORTABLE_DINKUM_MEM_MGR \|\| PORTABLE_FIXED_SIZE_MEM_BLOCK_SCHEME
	* ************************************************************************************/

	/* data ******************************************************************************/

	static BOOL gMemoryInitted = FALSE; /* TODO: Temporary fix to PortTerm failure */

	#define MEM_MGR_GetPoolSize() PortMallocGetPoolSize()
	#define MEM_MGR_SetPoolSize(sizeInBytes) PortMallocSetPoolSize(sizeInBytes)
	#define MEM_MGR_Init() PortMallocInit()
	#define MEM_MGR_Term() PortMallocTerm()
	#define MEM_MGR_Allocate(sizeInBytes) PortMalloc(sizeInBytes)
	#define MEM_MGR_Free(objectPtr) PortFree(objectPtr)
	#define MEM_MGR_Dump()
	#define MEM_MGR_GetMaxMemUsed() PortMallocGetMaxMemUsed()

	/* guard word data ********************************************************/

	#ifdef DBG_GUARD_WORDS
	#define GUARD_BEGIN 0xbbbbbbbb
	#define GUARD_END 0xeeeeeeee

	#define GUARD_OFF_REQ_SIZE 0
	#define GUARD_OFF_START sizeof(unsigned int)
	#define GUARD_OFF_PTR (sizeof(unsigned int) + sizeof(unsigned int))
	#define GUARD_EXTRA (sizeof(unsigned int) + sizeof(unsigned int) + sizeof(unsigned int))
	#define GUARD_OFF_END(allocSize) ((allocSize) - sizeof(unsigned int))
	#define GUARD_ALLOC_SIZE(reqSize) ((reqSize)+GUARD_EXTRA)

	#define GUARD_PTR_FIELD(ptr,off) (unsigned int )((char )(ptr) + (off))
	#define GUARD_ALLOC_PTR(ptr) (void) ((char )(ptr) - GUARD_OFF_PTR)
	#endif

	/* scan guard words data **************************************************/

	/* maintain a static list of allocated blocks (didn't want to perform any dynamic allocation).
	* This list can be scanned by PortMemScan() to determine if any allocated blocks
	* have overwritten their guard words.
	* Calling PortDelete() will check guard words upon de-allocation, but many
	* allocated blocks are only freed at program termination, which sometimes doesn't happen.
	*
	* This software is enabled separately with DBG_SCAN_GUARD_WORDS, because the performance
	* overhead is severe.
	*/
	#ifdef DBG_SCAN_GUARD_WORDS
	#define MAX_ALLOCATED_BLOCKS 80000
	static void *allocArray[MAX_ALLOCATED_BLOCKS+1];
	static int allocArrayCount = 0;

	void AddToAllocList(void *memPtr);
	void RemoveFromAllocList(void *memPtr);

	#define ADD_TO_ALLOC_LIST(ptr) AddToAllocList(ptr)
	#define REMOVE_FROM_ALLOC_LIST(ptr) RemoveFromAllocList(ptr)

	#else
	#define ADD_TO_ALLOC_LIST(ptr)
	#define REMOVE_FROM_ALLOC_LIST(ptr)
	#endif

	/* Guard Functions ********************************************************/

	#ifdef DBG_SCAN_GUARD_WORDS
	/* AddToAllocList() : maintain an array of allocated blocks that can be
	* used by PortMemScan() to check for overwritten guard words.
	*/
	void AddToAllocList(void *memPtr)
	{
	allocArray[allocArrayCount] = memPtr;
	allocArrayCount++;
	if (allocArrayCount >= MAX_ALLOCATED_BLOCKS)
	{
	char buf[256];
	sprintf(buf, "AddToAllocList ERROR : MAX_ALLOCATED_BLOCKS is too small (%d)", allocArrayCount);
	PORT_INTERNAL_ERROR(buf);
	}
	}

	/* RemoveFromAllocList() : maintain an array of allocated blocks that can be
	* used by PortMemScan() to check for overwritten guard words.
	*/
	void RemoveFromAllocList(void *memPtr)
	{
	int i; /* loop index */
	int j; /* loop index */
	int inList = FALSE; /* TRUE when found in list */

	for (i = 0; i < allocArrayCount; i++)
	{
	if (allocArray[i] == memPtr)
	{
	inList = TRUE;
	break;
	}
	}
	PORT_ASSERT(inList == TRUE); /* MUST be in list */
	/* remove by sliding down all following entries */
	for (j = i + 1; j < allocArrayCount; j++)
	allocArray[j-1] = allocArray[j];
	allocArrayCount--;
	allocArray[allocArrayCount] = NULL; /* clear out end of list */
	}

	/* PortMemScan() : scan the array of allocated blocks, confirming that no
	* allocated block has overwritten its guard words.
	*/
	void PortMemScan(void)
	{
	int i;

	PortCriticalSectionEnter(&PortMemoryCriticalSection);

	/* scan the allocated memory list */
	for (i = 0; i < allocArrayCount; i++)
	{
	/* verify that guard words have not been corrupted */
	void *memPtr = allocArray[i];
	void *allocPtr = GUARD_ALLOC_PTR(memPtr);
	unsigned int *requestedSizePtr = GUARD_PTR_FIELD(allocPtr, GUARD_OFF_REQ_SIZE);
	unsigned int *guardStartPtr = GUARD_PTR_FIELD(allocPtr, GUARD_OFF_START);
	unsigned int guardEndPtr = GUARD_PTR_FIELD(allocPtr, GUARD_OFF_END(GUARD_ALLOC_SIZE(requestedSizePtr)));

	if ((*guardStartPtr) != GUARD_BEGIN)
	{
	PLogError("PortMemScan : corrupted start guard from block 0x%08x \n", (int)memPtr);
	}
	if ((*guardEndPtr) != GUARD_END)
	{
	PLogError("PortMemScan : corrupted end guard from block 0x%08x \n", (int)memPtr);
	}
	}

	PortCriticalSectionLeave(&PortMemoryCriticalSection);
	}
	#endif /* DBG_SCAN_GUARD_WORDS */

	/* Port Memory Functions ******************************************************/

	/* PortMemGetPoolSize() : return size of portable memory pool, or 0 if
	* unknown.
	*/
	int PortMemGetPoolSize(void)
	{
	return MEM_MGR_GetPoolSize();
	}

	/* PortMemSetPoolSize() : set size of portable memory pool on PSOS.
	* This must be called before PortMemoryInit(), which is called by PortInit().
	*/
	void PortMemSetPoolSize(size_t sizeInBytes)
	{
	MEM_MGR_SetPoolSize(sizeInBytes);
	}

	/* PortMemoryInit() :
	*/

	int PortMemoryInit(void)
	{
	#if defined(USE_THREAD) && defined(USE_DINKUM_LIB_DIRECT)
	if (createMutex(&memextMutex) == ESR_SUCCESS)
	#endif
	{
	if (!gMemoryInitted)
	{
	MEM_MGR_Init();
	gMemoryInitted = TRUE;
	}
	}

	return gMemoryInitted;
	}

	/* PortMemoryTerm() :
	*/

	void PortMemoryTerm(void)
	{
	/* TODO: MEM_PSOS_BLOCK_SCHEME
	* Figure out why free memory causes rn#0 is get messed up! */
	MEM_MGR_Term();
	#if defined(USE_THREAD) && defined(USE_DINKUM_LIB_DIRECT)
	deleteMutex(&memextMutex);
	#endif
	gMemoryInitted = FALSE;
	}

	/* PortNew() :
	*/

	void* PortNew(size_t sizeInBytes)
	{
	if (gMemoryInitted)
	{
	void *pMemory = NULL;

	#if defined(USE_THREAD) && defined(USE_DINKUM_LIB_DIRECT)
	lockMutex(&memextMutex);
	#endif
	portNewCount++;

	#ifdef DBG_GUARD_WORDS
	sizeInBytes += GUARD_EXTRA; /* space for: requestedSize,guardStart,guardEnd */
	#endif

	pMemory = MEM_MGR_Allocate(sizeInBytes);

	#ifdef DBG_GUARD_WORDS
	if (NULL != pMemory)
	{
	/* at the beginning of the buffer, store the requested size and a guard word.
	* Store another guard word at the end of the buffer.
	*/
	/* set guard words at either end of allocated buffer; will be checked at delete time */
	unsigned int * requestedSizePtr = GUARD_PTR_FIELD(pMemory, GUARD_OFF_REQ_SIZE);
	unsigned int * guardStartPtr = GUARD_PTR_FIELD(pMemory, GUARD_OFF_START);
	unsigned int * guardEndPtr = GUARD_PTR_FIELD(pMemory, GUARD_OFF_END(sizeInBytes));

	*requestedSizePtr = sizeInBytes - GUARD_EXTRA;
	*guardStartPtr = GUARD_BEGIN;
	*guardEndPtr = GUARD_END;
	pMemory = (void *) GUARD_PTR_FIELD(pMemory, GUARD_OFF_PTR);
	ADD_TO_ALLOC_LIST(pMemory);
	}
	#endif /* DBG_GUARD_WORDS */
	#if defined(USE_THREAD) && defined(USE_DINKUM_LIB_DIRECT)
	unlockMutex(&memextMutex);
	#endif
	return pMemory;
	}
	#ifdef PSOSIM
	/* PSOSIM's license manager calls new() before PSOS is running */
	else
	{
	return(malloc(sizeInBytes));
	}
	#else /* PSOSIM */
	/* Memory allocator not initialized when request for memory was made */
	passert(FALSE && "Call PortInit() before calling any portable functions\r\n");
	return NULL;
	#endif /* PSOSIM */
	}

	void PortDelete(void* objectPtr)
	{
	#if defined(USE_THREAD) && defined(USE_DINKUM_LIB_DIRECT)
	lockMutex(&memextMutex);
	#endif
	portDeleteCount++;

	#ifdef DBG_GUARD_WORDS
	{
	/* verify that guard words have not been corrupted */
	void *allocPtr = GUARD_ALLOC_PTR(objectPtr);
	unsigned int *requestedSizePtr = GUARD_PTR_FIELD(allocPtr, GUARD_OFF_REQ_SIZE);
	unsigned int *guardStartPtr = GUARD_PTR_FIELD(allocPtr, GUARD_OFF_START);
	unsigned int guardEndPtr = GUARD_PTR_FIELD(allocPtr, GUARD_OFF_END(GUARD_ALLOC_SIZE(requestedSizePtr)));

	passert((*guardStartPtr) == GUARD_BEGIN);
	passert((*guardEndPtr) == GUARD_END);
	REMOVE_FROM_ALLOC_LIST(allocPtr);
	objectPtr = allocPtr;
	}
	#endif

	MEM_MGR_Free(objectPtr);
	#if defined(USE_THREAD) && defined(USE_DINKUM_LIB_DIRECT)
	unlockMutex(&memextMutex);
	#endif
	}

	void PortMemTrackDump(void)
	{
	MEM_MGR_Dump();
	}

	/* PortGetMaxMemUsed() : return the maximum real memory allocated.
	* There is another function of the same name in pmalloc.c, for tracking
	* non-psos block memory. It uses #ifndef MEM_PSOS_BLOCK_SCHEME to enable.
	*/
	int PortGetMaxMemUsed(void)
	{
	return MEM_MGR_GetMaxMemUsed();
	}

	/* PortMemCntReset() : reset the New/Delete count.
	* This is useful for checking that each new has a corresponding delete once
	* the system gets into a steady state.
	*/
	void PortMemCntReset()
	{
	portNewCount = 0;
	portDeleteCount = 0;
	}


	/* PortMemGetCount() : return the accumulated new & delete counts */
	void PortMemGetCount(int newCount, int deleteCount)
	{
	*newCount = portNewCount;
	*deleteCount = portDeleteCount;
	}

	#endif /* (==PORTABLE_PSOS_BLOCK_SCHEME_MEM_MGR) \|\| (==PORTABLE_DINKUM_MEM_MGR) \|\| (==PORTABLE_FIXED_SIZE_MEM_BLOCK_SCHEME) */

	#ifdef __cplusplus
	}
	#endif