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/* $Id: mempool-generic.cpp $ */
/** @file
* IPRT - Memory Allocation Pool.
*/
/*
* Copyright (C) 2009-2019 Oracle Corporation
*
* This file is part of VirtualBox Open Source Edition (OSE), as
* available from http://www.virtualbox.org. This file is free software;
* you can redistribute it and/or modify it under the terms of the GNU
* General Public License (GPL) as published by the Free Software
* Foundation, in version 2 as it comes in the "COPYING" file of the
* VirtualBox OSE distribution. VirtualBox OSE is distributed in the
* hope that it will be useful, but WITHOUT ANY WARRANTY of any kind.
*
* The contents of this file may alternatively be used under the terms
* of the Common Development and Distribution License Version 1.0
* (CDDL) only, as it comes in the "COPYING.CDDL" file of the
* VirtualBox OSE distribution, in which case the provisions of the
* CDDL are applicable instead of those of the GPL.
*
* You may elect to license modified versions of this file under the
* terms and conditions of either the GPL or the CDDL or both.
*/
/*********************************************************************************************************************************
* Header Files *
*********************************************************************************************************************************/
#include <iprt/mempool.h>
#include "internal/iprt.h"
#include <iprt/asm.h>
#include <iprt/assert.h>
#include <iprt/errcore.h>
#include <iprt/mem.h>
#include <iprt/spinlock.h>
#include <iprt/string.h>
#include "internal/magics.h"
/*********************************************************************************************************************************
* Structures and Typedefs *
*********************************************************************************************************************************/
/** Pointer to a memory pool instance. */
typedef struct RTMEMPOOLINT *PRTMEMPOOLINT;
/** Pointer to a memory pool entry. */
typedef struct RTMEMPOOLENTRY *PRTMEMPOOLENTRY;
/**
* Memory pool entry.
*/
typedef struct RTMEMPOOLENTRY
{
/** Pointer to the pool */
PRTMEMPOOLINT pMemPool;
/** Pointer to the next entry. */
PRTMEMPOOLENTRY volatile pNext;
/** Pointer to the previous entry. */
PRTMEMPOOLENTRY volatile pPrev;
/** The number of references to the pool entry. */
uint32_t volatile cRefs;
} RTMEMPOOLENTRY;
/**
* Memory pool instance data.
*/
typedef struct RTMEMPOOLINT
{
/** Magic number (RTMEMPOOL_MAGIC). */
uint32_t u32Magic;
/** Spinlock protecting the pool entry list updates. */
RTSPINLOCK hSpinLock;
/** Head entry pointer. */
PRTMEMPOOLENTRY volatile pHead;
/** The number of entries in the pool (for statistical purposes). */
uint32_t volatile cEntries;
/** User data associated with the pool. */
void *pvUser;
/** The pool name. (variable length) */
char szName[8];
} RTMEMPOOLINT;
/*********************************************************************************************************************************
* Defined Constants And Macros *
*********************************************************************************************************************************/
/** Validates a memory pool handle, translating RTMEMPOOL_DEFAULT when found,
* and returns rc if not valid. */
#define RTMEMPOOL_VALID_RETURN_RC(pMemPool, rc) \
do { \
if (pMemPool == RTMEMPOOL_DEFAULT) \
pMemPool = &g_rtMemPoolDefault; \
else \
{ \
AssertPtrReturn((pMemPool), (rc)); \
AssertReturn((pMemPool)->u32Magic == RTMEMPOOL_MAGIC, (rc)); \
} \
} while (0)
/** Validates a memory pool entry and returns rc if not valid. */
#define RTMEMPOOL_VALID_ENTRY_RETURN_RC(pEntry, rc) \
do { \
AssertPtrReturn(pEntry, (rc)); \
AssertPtrNullReturn((pEntry)->pMemPool, (rc)); \
Assert((pEntry)->cRefs < UINT32_MAX / 2); \
AssertReturn((pEntry)->pMemPool->u32Magic == RTMEMPOOL_MAGIC, (rc)); \
} while (0)
/*********************************************************************************************************************************
* Global Variables *
*********************************************************************************************************************************/
/** The */
static RTMEMPOOLINT g_rtMemPoolDefault =
{
/* .u32Magic = */ RTMEMPOOL_MAGIC,
/* .hSpinLock = */ NIL_RTSPINLOCK,
/* .pHead = */ NULL,
/* .cEntries = */ 0,
/* .pvUser = */ NULL,
/* .szName = */ "default"
};
RTDECL(int) RTMemPoolCreate(PRTMEMPOOL phMemPool, const char *pszName)
{
AssertPtr(phMemPool);
AssertPtr(pszName);
Assert(*pszName);
size_t cchName = strlen(pszName);
PRTMEMPOOLINT pMemPool = (PRTMEMPOOLINT)RTMemAlloc(RT_UOFFSETOF_DYN(RTMEMPOOLINT, szName[cchName + 1]));
if (!pMemPool)
return VERR_NO_MEMORY;
int rc = RTSpinlockCreate(&pMemPool->hSpinLock, RTSPINLOCK_FLAGS_INTERRUPT_UNSAFE, "RTMemPoolCreate");
if (RT_SUCCESS(rc))
{
pMemPool->u32Magic = RTMEMPOOL_MAGIC;
pMemPool->pHead = NULL;
pMemPool->cEntries = 0;
pMemPool->pvUser = NULL;
memcpy(pMemPool->szName, pszName, cchName);
*phMemPool = pMemPool;
return VINF_SUCCESS;
}
RTMemFree(pMemPool);
return rc;
}
RT_EXPORT_SYMBOL(RTMemPoolCreate);
RTDECL(int) RTMemPoolDestroy(RTMEMPOOL hMemPool)
{
if (hMemPool == NIL_RTMEMPOOL)
return VINF_SUCCESS;
PRTMEMPOOLINT pMemPool = hMemPool;
RTMEMPOOL_VALID_RETURN_RC(pMemPool, VERR_INVALID_HANDLE);
if (pMemPool == &g_rtMemPoolDefault)
return VINF_SUCCESS;
/*
* Invalidate the handle and free all associated resources.
*/
ASMAtomicWriteU32(&pMemPool->u32Magic, RTMEMPOOL_MAGIC_DEAD);
int rc = RTSpinlockDestroy(pMemPool->hSpinLock); AssertRC(rc);
pMemPool->hSpinLock = NIL_RTSPINLOCK;
PRTMEMPOOLENTRY pEntry = pMemPool->pHead;
pMemPool->pHead = NULL;
while (pEntry)
{
PRTMEMPOOLENTRY pFree = pEntry;
Assert(pFree->cRefs > 0 && pFree->cRefs < UINT32_MAX / 2);
pEntry = pEntry->pNext;
pFree->pMemPool = NULL;
pFree->pNext = NULL;
pFree->pPrev = NULL;
pFree->cRefs = UINT32_MAX - 3;
RTMemFree(pFree);
}
RTMemFree(pMemPool);
return VINF_SUCCESS;
}
RT_EXPORT_SYMBOL(RTMemPoolDestroy);
DECLINLINE(void) rtMemPoolInitAndLink(PRTMEMPOOLINT pMemPool, PRTMEMPOOLENTRY pEntry)
{
pEntry->pMemPool = pMemPool;
pEntry->pNext = NULL;
pEntry->pPrev = NULL;
pEntry->cRefs = 1;
if (pMemPool->hSpinLock != NIL_RTSPINLOCK)
{
RTSpinlockAcquire(pMemPool->hSpinLock);
PRTMEMPOOLENTRY pHead = pMemPool->pHead;
pEntry->pNext = pHead;
if (pHead)
pHead->pPrev = pEntry;
pMemPool->pHead = pEntry;
RTSpinlockRelease(pMemPool->hSpinLock);
}
ASMAtomicIncU32(&pMemPool->cEntries);
}
DECLINLINE(void) rtMemPoolUnlink(PRTMEMPOOLENTRY pEntry)
{
PRTMEMPOOLINT pMemPool = pEntry->pMemPool;
if (pMemPool->hSpinLock != NIL_RTSPINLOCK)
{
RTSpinlockAcquire(pMemPool->hSpinLock);
PRTMEMPOOLENTRY pNext = pEntry->pNext;
PRTMEMPOOLENTRY pPrev = pEntry->pPrev;
if (pNext)
pNext->pPrev = pPrev;
if (pPrev)
pPrev->pNext = pNext;
else
pMemPool->pHead = pNext;
pEntry->pMemPool = NULL;
RTSpinlockRelease(pMemPool->hSpinLock);
}
else
pEntry->pMemPool = NULL;
ASMAtomicDecU32(&pMemPool->cEntries);
}
RTDECL(void *) RTMemPoolAlloc(RTMEMPOOL hMemPool, size_t cb) RT_NO_THROW_DEF
{
PRTMEMPOOLINT pMemPool = hMemPool;
RTMEMPOOL_VALID_RETURN_RC(pMemPool, NULL);
PRTMEMPOOLENTRY pEntry = (PRTMEMPOOLENTRY)RTMemAlloc(cb + sizeof(*pEntry));
if (!pEntry)
return NULL;
rtMemPoolInitAndLink(pMemPool, pEntry);
return pEntry + 1;
}
RT_EXPORT_SYMBOL(RTMemPoolAlloc);
RTDECL(void *) RTMemPoolAllocZ(RTMEMPOOL hMemPool, size_t cb) RT_NO_THROW_DEF
{
PRTMEMPOOLINT pMemPool = hMemPool;
RTMEMPOOL_VALID_RETURN_RC(pMemPool, NULL);
PRTMEMPOOLENTRY pEntry = (PRTMEMPOOLENTRY)RTMemAllocZ(cb + sizeof(*pEntry));
if (!pEntry)
return NULL;
rtMemPoolInitAndLink(pMemPool, pEntry);
return pEntry + 1;
}
RT_EXPORT_SYMBOL(RTMemPoolAllocZ);
RTDECL(void *) RTMemPoolDup(RTMEMPOOL hMemPool, const void *pvSrc, size_t cb) RT_NO_THROW_DEF
{
PRTMEMPOOLINT pMemPool = hMemPool;
RTMEMPOOL_VALID_RETURN_RC(pMemPool, NULL);
PRTMEMPOOLENTRY pEntry = (PRTMEMPOOLENTRY)RTMemAlloc(cb + sizeof(*pEntry));
if (!pEntry)
return NULL;
memcpy(pEntry + 1, pvSrc, cb);
rtMemPoolInitAndLink(pMemPool, pEntry);
return pEntry + 1;
}
RT_EXPORT_SYMBOL(RTMemPoolDup);
RTDECL(void *) RTMemPoolDupEx(RTMEMPOOL hMemPool, const void *pvSrc, size_t cbSrc, size_t cbExtra) RT_NO_THROW_DEF
{
PRTMEMPOOLINT pMemPool = hMemPool;
RTMEMPOOL_VALID_RETURN_RC(pMemPool, NULL);
PRTMEMPOOLENTRY pEntry = (PRTMEMPOOLENTRY)RTMemAlloc(cbSrc + cbExtra + sizeof(*pEntry));
if (!pEntry)
return NULL;
memcpy(pEntry + 1, pvSrc, cbSrc);
memset((uint8_t *)(pEntry + 1) + cbSrc, '\0', cbExtra);
rtMemPoolInitAndLink(pMemPool, pEntry);
return pEntry + 1;
}
RT_EXPORT_SYMBOL(RTMemPoolDupEx);
RTDECL(void *) RTMemPoolRealloc(RTMEMPOOL hMemPool, void *pvOld, size_t cbNew) RT_NO_THROW_DEF
{
/*
* Fend off the odd cases.
*/
if (!cbNew)
{
RTMemPoolRelease(hMemPool, pvOld);
return NULL;
}
if (!pvOld)
return RTMemPoolAlloc(hMemPool, cbNew);
/*
* Real realloc.
*/
PRTMEMPOOLINT pNewMemPool = hMemPool;
RTMEMPOOL_VALID_RETURN_RC(pNewMemPool, NULL);
PRTMEMPOOLENTRY pOldEntry = (PRTMEMPOOLENTRY)pvOld - 1;
RTMEMPOOL_VALID_ENTRY_RETURN_RC(pOldEntry, NULL);
PRTMEMPOOLINT pOldMemPool = pOldEntry->pMemPool;
AssertReturn(pOldEntry->cRefs == 1, NULL);
/*
* Unlink it from the current pool and try reallocate it.
*/
rtMemPoolUnlink(pOldEntry);
PRTMEMPOOLENTRY pEntry = (PRTMEMPOOLENTRY)RTMemRealloc(pOldEntry, cbNew + sizeof(*pEntry));
if (!pEntry)
{
rtMemPoolInitAndLink(pOldMemPool, pOldEntry);
return NULL;
}
rtMemPoolInitAndLink(pNewMemPool, pEntry);
return pEntry + 1;
}
RT_EXPORT_SYMBOL(RTMemPoolRealloc);
RTDECL(void) RTMemPoolFree(RTMEMPOOL hMemPool, void *pv) RT_NO_THROW_DEF
{
RTMemPoolRelease(hMemPool, pv);
}
RT_EXPORT_SYMBOL(RTMemPoolFree);
RTDECL(uint32_t) RTMemPoolRetain(void *pv) RT_NO_THROW_DEF
{
PRTMEMPOOLENTRY pEntry = (PRTMEMPOOLENTRY)pv - 1;
RTMEMPOOL_VALID_ENTRY_RETURN_RC(pEntry, UINT32_MAX);
uint32_t cRefs = ASMAtomicIncU32(&pEntry->cRefs);
Assert(cRefs < UINT32_MAX / 2);
return cRefs;
}
RT_EXPORT_SYMBOL(RTMemPoolRetain);
RTDECL(uint32_t) RTMemPoolRelease(RTMEMPOOL hMemPool, void *pv) RT_NO_THROW_DEF
{
if (!pv)
return 0;
PRTMEMPOOLENTRY pEntry = (PRTMEMPOOLENTRY)pv - 1;
RTMEMPOOL_VALID_ENTRY_RETURN_RC(pEntry, UINT32_MAX);
Assert( hMemPool == NIL_RTMEMPOOL
|| hMemPool == pEntry->pMemPool
|| (hMemPool == RTMEMPOOL_DEFAULT && pEntry->pMemPool == &g_rtMemPoolDefault)); RT_NOREF_PV(hMemPool);
AssertReturn(pEntry->cRefs > 0, UINT32_MAX);
uint32_t cRefs = ASMAtomicDecU32(&pEntry->cRefs);
Assert(cRefs < UINT32_MAX / 2);
if (!cRefs)
{
rtMemPoolUnlink(pEntry);
pEntry->cRefs = UINT32_MAX - 2;
RTMemFree(pEntry);
}
return cRefs;
}
RT_EXPORT_SYMBOL(RTMemPoolRelease);
RTDECL(uint32_t) RTMemPoolRefCount(void *pv) RT_NO_THROW_DEF
{
PRTMEMPOOLENTRY pEntry = (PRTMEMPOOLENTRY)pv - 1;
RTMEMPOOL_VALID_ENTRY_RETURN_RC(pEntry, UINT32_MAX);
uint32_t cRefs = ASMAtomicReadU32(&pEntry->cRefs);
Assert(cRefs < UINT32_MAX / 2);
return cRefs;
}
RT_EXPORT_SYMBOL(RTMemPoolRefCount);
|