diff options
author | Gurusamy Sarathy <gsar@cpan.org> | 2002-01-11 01:05:15 +0000 |
---|---|---|
committer | Gurusamy Sarathy <gsar@cpan.org> | 2002-01-11 01:05:15 +0000 |
commit | f57e8d3bb1a36000e1951a4d2d5b0104b39bde4b (patch) | |
tree | 1832f932eb5b100aa18e2ded01ab7eb7c2a160ff /win32 | |
parent | 32a0ca981d227febefbe7afb901dbcb1c90ce29c (diff) | |
download | perl-f57e8d3bb1a36000e1951a4d2d5b0104b39bde4b.tar.gz |
support using the CRT's malloc() family of functions instead of
the internal one when ithreads is enabled; allocate large blocks
using VirtualAlloc() since the Heap*() functions may only be tuned
for small allocations (from Doug Lankshear <dougl@ActiveState.com>)
pass -D_USE_MSVCRT_MEM_ALLOC via cflags to enable the CRT's malloc();
also see comments at the top of win32/vmem.h for other options that
can be set
p4raw-id: //depot/perl@14175
Diffstat (limited to 'win32')
-rw-r--r-- | win32/vmem.h | 769 |
1 files changed, 636 insertions, 133 deletions
diff --git a/win32/vmem.h b/win32/vmem.h index a0e5eba070..cda6f819bc 100644 --- a/win32/vmem.h +++ b/win32/vmem.h @@ -6,7 +6,242 @@ * You may distribute under the terms of either the GNU General Public * License or the Artistic License, as specified in the README file. * + * Options: * + * Defining _USE_MSVCRT_MEM_ALLOC will cause all memory allocations + * to be forwarded to MSVCRT.DLL. Defining _USE_LINKED_LIST as well will + * track all allocations in a doubly linked list, so that the host can + * free all memory allocated when it goes away. + * If _USE_MSVCRT_MEM_ALLOC is not defined then Knuth's boundary tag algorithm + * is used; defining _USE_BUDDY_BLOCKS will use Knuth's algorithm R + * (Buddy system reservation) + * + */ + +#ifndef ___VMEM_H_INC___ +#define ___VMEM_H_INC___ + +// #define _USE_MSVCRT_MEM_ALLOC + +// #define _USE_BUDDY_BLOCKS + +// #define _DEBUG_MEM +#ifdef _DEBUG_MEM +#define ASSERT(f) if(!(f)) DebugBreak(); + +inline void MEMODS(char *str) +{ + OutputDebugString(str); + OutputDebugString("\n"); +} + +inline void MEMODSlx(char *str, long x) +{ + char szBuffer[512]; + sprintf(szBuffer, "%s %lx\n", str, x); + OutputDebugString(szBuffer); +} + +#define WALKHEAP() WalkHeap(0) +#define WALKHEAPTRACE() WalkHeap(1) + +#else + +#define ASSERT(f) +#define MEMODS(x) +#define MEMODSlx(x, y) +#define WALKHEAP() +#define WALKHEAPTRACE() + +#endif + +#ifdef _USE_MSVCRT_MEM_ALLOC + +#ifndef _USE_LINKED_LIST +// #define _USE_LINKED_LIST +#endif + +/* + * Pass all memory requests throught to msvcrt.dll + * optionaly track by using a doubly linked header + */ + +typedef void (*LPFREE)(void *block); +typedef void* (*LPMALLOC)(size_t size); +typedef void* (*LPREALLOC)(void *block, size_t size); +#ifdef _USE_LINKED_LIST +typedef struct _MemoryBlockHeader* PMEMORY_BLOCK_HEADER; +typedef struct _MemoryBlockHeader { + PMEMORY_BLOCK_HEADER pNext; + PMEMORY_BLOCK_HEADER pPrev; +} MEMORY_BLOCK_HEADER, *PMEMORY_BLOCK_HEADER; +#endif + +class VMem +{ +public: + VMem(); + ~VMem(); + virtual void* Malloc(size_t size); + virtual void* Realloc(void* pMem, size_t size); + virtual void Free(void* pMem); + virtual void GetLock(void); + virtual void FreeLock(void); + virtual int IsLocked(void); + virtual long Release(void); + virtual long AddRef(void); + + inline BOOL CreateOk(void) + { + return TRUE; + }; + +protected: +#ifdef _USE_LINKED_LIST + void LinkBlock(PMEMORY_BLOCK_HEADER ptr) + { + PMEMORY_BLOCK_HEADER next = m_Dummy.pNext; + m_Dummy.pNext = ptr; + ptr->pPrev = &m_Dummy; + ptr->pNext = next; + next->pPrev = ptr; + } + void UnlinkBlock(PMEMORY_BLOCK_HEADER ptr) + { + PMEMORY_BLOCK_HEADER next = ptr->pNext; + PMEMORY_BLOCK_HEADER prev = ptr->pPrev; + prev->pNext = next; + next->pPrev = prev; + } + + MEMORY_BLOCK_HEADER m_Dummy; +#endif + + long m_lRefCount; // number of current users + CRITICAL_SECTION m_cs; // access lock + HINSTANCE m_hLib; + LPFREE m_pfree; + LPMALLOC m_pmalloc; + LPREALLOC m_prealloc; +}; + +VMem::VMem() +{ + m_lRefCount = 1; + InitializeCriticalSection(&m_cs); +#ifdef _USE_LINKED_LIST + m_Dummy.pNext = m_Dummy.pPrev = &m_Dummy; +#endif + m_hLib = LoadLibrary("msvcrt.dll"); + if (m_hLib) { + m_pfree = (LPFREE)GetProcAddress(m_hLib, "free"); + m_pmalloc = (LPMALLOC)GetProcAddress(m_hLib, "malloc"); + m_prealloc = (LPREALLOC)GetProcAddress(m_hLib, "realloc"); + } +} + +VMem::~VMem(void) +{ +#ifdef _USE_LINKED_LIST + while (m_Dummy.pNext != &m_Dummy) { + Free(m_Dummy.pNext+1); + } +#endif + if (m_hLib) + FreeLibrary(m_hLib); + DeleteCriticalSection(&m_cs); +} + +void* VMem::Malloc(size_t size) +{ +#ifdef _USE_LINKED_LIST + PMEMORY_BLOCK_HEADER ptr = (PMEMORY_BLOCK_HEADER)m_pmalloc(size+sizeof(MEMORY_BLOCK_HEADER)); + LinkBlock(ptr); + return (ptr+1); +#else + return m_pmalloc(size); +#endif +} + +void* VMem::Realloc(void* pMem, size_t size) +{ +#ifdef _USE_LINKED_LIST + if (!pMem) + return Malloc(size); + + if (!size) { + Free(pMem); + return NULL; + } + + PMEMORY_BLOCK_HEADER ptr = (PMEMORY_BLOCK_HEADER)(((char*)pMem)-sizeof(MEMORY_BLOCK_HEADER)); + UnlinkBlock(ptr); + ptr = (PMEMORY_BLOCK_HEADER)m_prealloc(ptr, size+sizeof(MEMORY_BLOCK_HEADER)); + LinkBlock(ptr); + + return (ptr+1); +#else + return m_prealloc(pMem, size); +#endif +} + +void VMem::Free(void* pMem) +{ +#ifdef _USE_LINKED_LIST + if (pMem) { + PMEMORY_BLOCK_HEADER ptr = (PMEMORY_BLOCK_HEADER)(((char*)pMem)-sizeof(MEMORY_BLOCK_HEADER)); + UnlinkBlock(ptr); + m_pfree(ptr); + } +#else + m_pfree(pMem); +#endif +} + +void VMem::GetLock(void) +{ + EnterCriticalSection(&m_cs); +} + +void VMem::FreeLock(void) +{ + LeaveCriticalSection(&m_cs); +} + +int VMem::IsLocked(void) +{ +#if 0 + /* XXX TryEnterCriticalSection() is not available in some versions + * of Windows 95. Since this code is not used anywhere yet, we + * skirt the issue for now. */ + BOOL bAccessed = TryEnterCriticalSection(&m_cs); + if(bAccessed) { + LeaveCriticalSection(&m_cs); + } + return !bAccessed; +#else + ASSERT(0); /* alarm bells for when somebody calls this */ + return 0; +#endif +} + +long VMem::Release(void) +{ + long lCount = InterlockedDecrement(&m_lRefCount); + if(!lCount) + delete this; + return lCount; +} + +long VMem::AddRef(void) +{ + long lCount = InterlockedIncrement(&m_lRefCount); + return lCount; +} + +#else /* _USE_MSVCRT_MEM_ALLOC */ + +/* * Knuth's boundary tag algorithm Vol #1, Page 440. * * Each block in the heap has tag words before and after it, @@ -25,19 +260,26 @@ * is freed, therefore space needs to be reserved for them. Thus, the minimum * block size (not counting the tags) is 8 bytes. * - * Since memory allocation may occur on a single threaded, explict locks are + * Since memory allocation may occur on a single threaded, explict locks are not * provided. * */ -#ifndef ___VMEM_H_INC___ -#define ___VMEM_H_INC___ - -const long lAllocStart = 0x00010000; /* start at 64K */ +const long lAllocStart = 0x00020000; /* start at 128K */ const long minBlockSize = sizeof(void*)*2; const long sizeofTag = sizeof(long); const long blockOverhead = sizeofTag*2; const long minAllocSize = minBlockSize+blockOverhead; +#ifdef _USE_BUDDY_BLOCKS +const long lSmallBlockSize = 1024; +const size_t nListEntries = ((lSmallBlockSize-minAllocSize)/sizeof(long)); + +inline size_t CalcEntry(size_t size) +{ + ASSERT((size&(sizeof(long)-1)) == 0); + return ((size - minAllocSize) / sizeof(long)); +} +#endif typedef BYTE* PBLOCK; /* pointer to a memory block */ @@ -49,7 +291,7 @@ typedef BYTE* PBLOCK; /* pointer to a memory block */ */ #define SIZE(block) (*(ULONG*)(((PBLOCK)(block))-sizeofTag)) -#define PSIZE(block) (*(ULONG*)(((PBLOCK)(block))-(sizeofTag*2))) +#define PSIZE(block) (*(ULONG*)(((PBLOCK)(block))-(blockOverhead))) inline void SetTags(PBLOCK block, long size) { SIZE(block) = size; @@ -76,6 +318,7 @@ inline void Unlink(PBLOCK p) NEXT(prev) = next; PREV(next) = prev; } +#ifndef _USE_BUDDY_BLOCKS inline void AddToFreeList(PBLOCK block, PBLOCK pInList) { PBLOCK next = NEXT(pInList); @@ -83,7 +326,7 @@ inline void AddToFreeList(PBLOCK block, PBLOCK pInList) SetLink(block, pInList, next); PREV(next) = block; } - +#endif /* Macro for rounding up to the next sizeof(long) */ #define ROUND_UP(n) (((ULONG)(n)+sizeof(long)-1)&~(sizeof(long)-1)) @@ -96,16 +339,39 @@ inline void AddToFreeList(PBLOCK block, PBLOCK pInList) * Each record in this array contains information about a non-contiguous heap area. */ -const int maxHeaps = 64; +const int maxHeaps = 32; /* 64 was overkill */ const long lAllocMax = 0x80000000; /* max size of allocation */ +#ifdef _USE_BUDDY_BLOCKS +typedef struct _FreeListEntry +{ + BYTE Dummy[minAllocSize]; // dummy free block +} FREE_LIST_ENTRY, *PFREE_LIST_ENTRY; +#endif + +#ifndef _USE_BUDDY_BLOCKS +#define USE_BIGBLOCK_ALLOC +#endif +/* + * performance tuning + * Use VirtualAlloc() for blocks bigger than nMaxHeapAllocSize since + * Windows 95/98/Me have heap managers that are designed for memory + * blocks smaller than four megabytes. + */ + +#ifdef USE_BIGBLOCK_ALLOC +const int nMaxHeapAllocSize = (1024*512); /* don't allocate anything larger than this from the heap */ +#endif + typedef struct _HeapRec { PBLOCK base; /* base of heap area */ ULONG len; /* size of heap area */ +#ifdef USE_BIGBLOCK_ALLOC + BOOL bBigBlock; /* was allocate using VirtualAlloc */ +#endif } HeapRec; - class VMem { public: @@ -122,7 +388,11 @@ public: inline BOOL CreateOk(void) { +#ifdef _USE_BUDDY_BLOCKS + return TRUE; +#else return m_hHeap != NULL; +#endif }; void ReInit(void); @@ -130,62 +400,79 @@ public: protected: void Init(void); int Getmem(size_t size); - int HeapAdd(void* ptr, size_t size); + + int HeapAdd(void* ptr, size_t size +#ifdef USE_BIGBLOCK_ALLOC + , BOOL bBigBlock +#endif + ); + void* Expand(void* block, size_t size); - void WalkHeap(void); +#ifdef _USE_BUDDY_BLOCKS + inline PBLOCK GetFreeListLink(int index) + { + if (index >= nListEntries) + index = nListEntries-1; + return &m_FreeList[index].Dummy[sizeofTag]; + } + inline PBLOCK GetOverSizeFreeList(void) + { + return &m_FreeList[nListEntries-1].Dummy[sizeofTag]; + } + inline PBLOCK GetEOLFreeList(void) + { + return &m_FreeList[nListEntries].Dummy[sizeofTag]; + } + + void AddToFreeList(PBLOCK block, size_t size) + { + PBLOCK pFreeList = GetFreeListLink(CalcEntry(size)); + PBLOCK next = NEXT(pFreeList); + NEXT(pFreeList) = block; + SetLink(block, pFreeList, next); + PREV(next) = block; + } +#endif + inline size_t CalcAllocSize(size_t size) + { + /* + * Adjust the real size of the block to be a multiple of sizeof(long), and add + * the overhead for the boundary tags. Disallow negative or zero sizes. + */ + return (size < minBlockSize) ? minAllocSize : (size_t)ROUND_UP(size) + blockOverhead; + } + +#ifdef _USE_BUDDY_BLOCKS + FREE_LIST_ENTRY m_FreeList[nListEntries+1]; // free list with dummy end of list entry as well +#else HANDLE m_hHeap; // memory heap for this script char m_FreeDummy[minAllocSize]; // dummy free block PBLOCK m_pFreeList; // pointer to first block on free list +#endif PBLOCK m_pRover; // roving pointer into the free list HeapRec m_heaps[maxHeaps]; // list of all non-contiguous heap areas int m_nHeaps; // no. of heaps in m_heaps long m_lAllocSize; // current alloc size long m_lRefCount; // number of current users CRITICAL_SECTION m_cs; // access lock + #ifdef _DEBUG_MEM + void WalkHeap(int complete); + void MemoryUsageMessage(char *str, long x, long y, int c); FILE* m_pLog; #endif }; -// #define _DEBUG_MEM -#ifdef _DEBUG_MEM -#define ASSERT(f) if(!(f)) DebugBreak(); - -inline void MEMODS(char *str) -{ - OutputDebugString(str); - OutputDebugString("\n"); -} - -inline void MEMODSlx(char *str, long x) -{ - char szBuffer[512]; - sprintf(szBuffer, "%s %lx\n", str, x); - OutputDebugString(szBuffer); -} - -#define WALKHEAP() WalkHeap() -#define WALKHEAPTRACE() m_pRover = NULL; WalkHeap() - -#else - -#define ASSERT(f) -#define MEMODS(x) -#define MEMODSlx(x, y) -#define WALKHEAP() -#define WALKHEAPTRACE() - -#endif - - VMem::VMem() { m_lRefCount = 1; +#ifndef _USE_BUDDY_BLOCKS BOOL bRet = (NULL != (m_hHeap = HeapCreate(HEAP_NO_SERIALIZE, lAllocStart, /* initial size of heap */ 0))); /* no upper limit on size of heap */ ASSERT(bRet); +#endif InitializeCriticalSection(&m_cs); #ifdef _DEBUG_MEM @@ -197,32 +484,76 @@ VMem::VMem() VMem::~VMem(void) { +#ifndef _USE_BUDDY_BLOCKS ASSERT(HeapValidate(m_hHeap, HEAP_NO_SERIALIZE, NULL)); - WALKHEAPTRACE(); -#ifdef _DEBUG_MEM - MemoryUsageMessage(NULL, 0, 0, 0); #endif + WALKHEAPTRACE(); + DeleteCriticalSection(&m_cs); +#ifdef _USE_BUDDY_BLOCKS + for(int index = 0; index < m_nHeaps; ++index) { + VirtualFree(m_heaps[index].base, 0, MEM_RELEASE); + } +#else /* !_USE_BUDDY_BLOCKS */ +#ifdef USE_BIGBLOCK_ALLOC + for(int index = 0; index < m_nHeaps; ++index) { + if (m_heaps[index].bBigBlock) { + VirtualFree(m_heaps[index].base, 0, MEM_RELEASE); + } + } +#endif BOOL bRet = HeapDestroy(m_hHeap); ASSERT(bRet); +#endif /* _USE_BUDDY_BLOCKS */ } void VMem::ReInit(void) { - for(int index = 0; index < m_nHeaps; ++index) - HeapFree(m_hHeap, HEAP_NO_SERIALIZE, m_heaps[index].base); + for(int index = 0; index < m_nHeaps; ++index) { +#ifdef _USE_BUDDY_BLOCKS + VirtualFree(m_heaps[index].base, 0, MEM_RELEASE); +#else +#ifdef USE_BIGBLOCK_ALLOC + if (m_heaps[index].bBigBlock) { + VirtualFree(m_heaps[index].base, 0, MEM_RELEASE); + } + else +#endif + HeapFree(m_hHeap, HEAP_NO_SERIALIZE, m_heaps[index].base); +#endif /* _USE_BUDDY_BLOCKS */ + } Init(); } void VMem::Init(void) -{ /* +{ +#ifdef _USE_BUDDY_BLOCKS + PBLOCK pFreeList; + /* + * Initialize the free list by placing a dummy zero-length block on it. + * Set the end of list marker. + * Set the number of non-contiguous heaps to zero. + * Set the next allocation size. + */ + for (int index = 0; index < nListEntries; ++index) { + pFreeList = GetFreeListLink(index); + SIZE(pFreeList) = PSIZE(pFreeList+minAllocSize) = 0; + PREV(pFreeList) = NEXT(pFreeList) = pFreeList; + } + pFreeList = GetEOLFreeList(); + SIZE(pFreeList) = PSIZE(pFreeList+minAllocSize) = 0; + PREV(pFreeList) = NEXT(pFreeList) = NULL; + m_pRover = GetOverSizeFreeList(); +#else + /* * Initialize the free list by placing a dummy zero-length block on it. * Set the number of non-contiguous heaps to zero. */ - m_pFreeList = m_pRover = (PBLOCK)(&m_FreeDummy[minBlockSize]); - PSIZE(m_pFreeList) = SIZE(m_pFreeList) = 0; + m_pFreeList = m_pRover = (PBLOCK)(&m_FreeDummy[sizeofTag]); + PSIZE(m_pFreeList+minAllocSize) = SIZE(m_pFreeList) = 0; PREV(m_pFreeList) = NEXT(m_pFreeList) = m_pFreeList; +#endif m_nHeaps = 0; m_lAllocSize = lAllocStart; @@ -232,27 +563,111 @@ void* VMem::Malloc(size_t size) { WALKHEAP(); + PBLOCK ptr; + size_t lsize, rem; /* - * Adjust the real size of the block to be a multiple of sizeof(long), and add - * the overhead for the boundary tags. Disallow negative or zero sizes. + * Disallow negative or zero sizes. */ - size_t realsize = (size < blockOverhead) ? minAllocSize : (size_t)ROUND_UP(size) + minBlockSize; + size_t realsize = CalcAllocSize(size); if((int)realsize < minAllocSize || size == 0) return NULL; +#ifdef _USE_BUDDY_BLOCKS + /* + * Check the free list of small blocks if this is free use it + * Otherwise check the rover if it has no blocks then + * Scan the free list entries use the first free block + * split the block if needed, stop at end of list marker + */ + { + int index = CalcEntry(realsize); + if (index < nListEntries-1) { + ptr = GetFreeListLink(index); + lsize = SIZE(ptr); + if (lsize >= realsize) { + rem = lsize - realsize; + if(rem < minAllocSize) { + /* Unlink the block from the free list. */ + Unlink(ptr); + } + else { + /* + * split the block + * The remainder is big enough to split off into a new block. + * Use the end of the block, resize the beginning of the block + * no need to change the free list. + */ + SetTags(ptr, rem); + ptr += SIZE(ptr); + lsize = realsize; + } + SetTags(ptr, lsize | 1); + return ptr; + } + ptr = m_pRover; + lsize = SIZE(ptr); + if (lsize >= realsize) { + rem = lsize - realsize; + if(rem < minAllocSize) { + /* Unlink the block from the free list. */ + Unlink(ptr); + } + else { + /* + * split the block + * The remainder is big enough to split off into a new block. + * Use the end of the block, resize the beginning of the block + * no need to change the free list. + */ + SetTags(ptr, rem); + ptr += SIZE(ptr); + lsize = realsize; + } + SetTags(ptr, lsize | 1); + return ptr; + } + ptr = GetFreeListLink(index+1); + while (NEXT(ptr)) { + lsize = SIZE(ptr); + if (lsize >= realsize) { + size_t rem = lsize - realsize; + if(rem < minAllocSize) { + /* Unlink the block from the free list. */ + Unlink(ptr); + } + else { + /* + * split the block + * The remainder is big enough to split off into a new block. + * Use the end of the block, resize the beginning of the block + * no need to change the free list. + */ + SetTags(ptr, rem); + ptr += SIZE(ptr); + lsize = realsize; + } + SetTags(ptr, lsize | 1); + return ptr; + } + ptr += sizeof(FREE_LIST_ENTRY); + } + } + } +#endif + /* * Start searching the free list at the rover. If we arrive back at rover without * finding anything, allocate some memory from the heap and try again. */ - PBLOCK ptr = m_pRover; /* start searching at rover */ - int loops = 2; /* allow two times through the loop */ + ptr = m_pRover; /* start searching at rover */ + int loops = 2; /* allow two times through the loop */ for(;;) { - size_t lsize = SIZE(ptr); + lsize = SIZE(ptr); ASSERT((lsize&1)==0); /* is block big enough? */ if(lsize >= realsize) { /* if the remainder is too small, don't bother splitting the block. */ - size_t rem = lsize - realsize; + rem = lsize - realsize; if(rem < minAllocSize) { if(m_pRover == ptr) m_pRover = NEXT(ptr); @@ -311,11 +726,7 @@ void* VMem::Realloc(void* block, size_t size) if(Expand(block, size) != NULL) return block; - /* - * adjust the real size of the block to be a multiple of sizeof(long), and add the - * overhead for the boundary tags. Disallow negative or zero sizes. - */ - size_t realsize = (size < blockOverhead) ? minAllocSize : (size_t)ROUND_UP(size) + minBlockSize; + size_t realsize = CalcAllocSize(size); if((int)realsize < minAllocSize) return NULL; @@ -351,7 +762,11 @@ void* VMem::Realloc(void* block, size_t size) * next block cannot be free */ SetTags(prev, rem); +#ifdef _USE_BUDDY_BLOCKS + AddToFreeList(prev, rem); +#else AddToFreeList(prev, m_pFreeList); +#endif cursize = realsize; } /* Set the boundary tags to mark it as allocated. */ @@ -361,7 +776,7 @@ void* VMem::Realloc(void* block, size_t size) /* Allocate a new block, copy the old to the new, and free the old. */ if((ptr = (PBLOCK)Malloc(size)) != NULL) { - memmove(ptr, block, cursize-minBlockSize); + memmove(ptr, block, cursize-blockOverhead); Free(block); } return ((void *)ptr); @@ -386,12 +801,18 @@ void VMem::Free(void* p) size &= ~1; /* remove allocated tag */ /* if previous block is free, add this block to it. */ +#ifndef _USE_BUDDY_BLOCKS int linked = FALSE; +#endif size_t psize = PSIZE(ptr); if((psize&1) == 0) { ptr -= psize; /* point to previous block */ size += psize; /* merge the sizes of the two blocks */ +#ifdef _USE_BUDDY_BLOCKS + Unlink(ptr); +#else linked = TRUE; /* it's already on the free list */ +#endif } /* if the next physical block is free, merge it with this block. */ @@ -413,9 +834,13 @@ void VMem::Free(void* p) SetTags(ptr, size); /* Link the block to the head of the free list. */ +#ifdef _USE_BUDDY_BLOCKS + AddToFreeList(ptr, size); +#else if(!linked) { AddToFreeList(ptr, m_pFreeList); } +#endif } void VMem::GetLock(void) @@ -463,11 +888,14 @@ long VMem::AddRef(void) int VMem::Getmem(size_t requestSize) { /* returns -1 is successful 0 if not */ +#ifdef USE_BIGBLOCK_ALLOC + BOOL bBigBlock; +#endif void *ptr; /* Round up size to next multiple of 64K. */ size_t size = (size_t)ROUND_UP64K(requestSize); - + /* * if the size requested is smaller than our current allocation size * adjust up @@ -477,18 +905,28 @@ int VMem::Getmem(size_t requestSize) /* Update the size to allocate on the next request */ if(m_lAllocSize != lAllocMax) - m_lAllocSize <<= 1; + m_lAllocSize <<= 2; - if(m_nHeaps != 0) { +#ifndef _USE_BUDDY_BLOCKS + if(m_nHeaps != 0 +#ifdef USE_BIGBLOCK_ALLOC + && !m_heaps[m_nHeaps-1].bBigBlock +#endif + ) { /* Expand the last allocated heap */ - ptr = HeapReAlloc(m_hHeap, HEAP_REALLOC_IN_PLACE_ONLY|HEAP_ZERO_MEMORY|HEAP_NO_SERIALIZE, + ptr = HeapReAlloc(m_hHeap, HEAP_REALLOC_IN_PLACE_ONLY|HEAP_NO_SERIALIZE, m_heaps[m_nHeaps-1].base, m_heaps[m_nHeaps-1].len + size); if(ptr != 0) { - HeapAdd(((char*)ptr) + m_heaps[m_nHeaps-1].len, size); + HeapAdd(((char*)ptr) + m_heaps[m_nHeaps-1].len, size +#ifdef USE_BIGBLOCK_ALLOC + , FALSE +#endif + ); return -1; } } +#endif /* _USE_BUDDY_BLOCKS */ /* * if we didn't expand a block to cover the requested size @@ -497,19 +935,59 @@ int VMem::Getmem(size_t requestSize) * the above ROUND_UP64K may not have added any memory to include this. */ if(size == requestSize) - size = (size_t)ROUND_UP64K(requestSize+(sizeofTag*2)); + size = (size_t)ROUND_UP64K(requestSize+(blockOverhead)); + +Restart: +#ifdef _USE_BUDDY_BLOCKS + ptr = VirtualAlloc(NULL, size, MEM_COMMIT, PAGE_READWRITE); +#else +#ifdef USE_BIGBLOCK_ALLOC + bBigBlock = FALSE; + if (size >= nMaxHeapAllocSize) { + bBigBlock = TRUE; + ptr = VirtualAlloc(NULL, size, MEM_COMMIT, PAGE_READWRITE); + } + else +#endif + ptr = HeapAlloc(m_hHeap, HEAP_NO_SERIALIZE, size); +#endif /* _USE_BUDDY_BLOCKS */ + + if (!ptr) { + /* try to allocate a smaller chunk */ + size >>= 1; + if(size > requestSize) + goto Restart; + } - ptr = HeapAlloc(m_hHeap, HEAP_ZERO_MEMORY|HEAP_NO_SERIALIZE, size); if(ptr == 0) { MEMODSlx("HeapAlloc failed on size!!!", size); return 0; } +#ifdef _USE_BUDDY_BLOCKS + if (HeapAdd(ptr, size)) { + VirtualFree(ptr, 0, MEM_RELEASE); + return 0; + } +#else +#ifdef USE_BIGBLOCK_ALLOC + if (HeapAdd(ptr, size, bBigBlock)) { + if (bBigBlock) { + VirtualFree(ptr, 0, MEM_RELEASE); + } + } +#else HeapAdd(ptr, size); +#endif +#endif /* _USE_BUDDY_BLOCKS */ return -1; } -int VMem::HeapAdd(void *p, size_t size) +int VMem::HeapAdd(void* p, size_t size +#ifdef USE_BIGBLOCK_ALLOC + , BOOL bBigBlock +#endif + ) { /* if the block can be succesfully added to the heap, returns 0; otherwise -1. */ int index; @@ -520,37 +998,49 @@ int VMem::HeapAdd(void *p, size_t size) size = (size_t)ROUND_DOWN(size); PBLOCK ptr = (PBLOCK)p; - /* - * Search for another heap area that's contiguous with the bottom of this new area. - * (It should be extremely unusual to find one that's contiguous with the top). - */ - for(index = 0; index < m_nHeaps; ++index) { - if(ptr == m_heaps[index].base + (int)m_heaps[index].len) { - /* - * The new block is contiguous with a previously allocated heap area. Add its - * length to that of the previous heap. Merge it with the the dummy end-of-heap - * area marker of the previous heap. - */ - m_heaps[index].len += size; - break; +#ifdef USE_BIGBLOCK_ALLOC + if (!bBigBlock) { +#endif + /* + * Search for another heap area that's contiguous with the bottom of this new area. + * (It should be extremely unusual to find one that's contiguous with the top). + */ + for(index = 0; index < m_nHeaps; ++index) { + if(ptr == m_heaps[index].base + (int)m_heaps[index].len) { + /* + * The new block is contiguous with a previously allocated heap area. Add its + * length to that of the previous heap. Merge it with the the dummy end-of-heap + * area marker of the previous heap. + */ + m_heaps[index].len += size; + break; + } } +#ifdef USE_BIGBLOCK_ALLOC + } + else { + index = m_nHeaps; } +#endif if(index == m_nHeaps) { - /* The new block is not contiguous. Add it to the heap list. */ + /* The new block is not contiguous, or is BigBlock. Add it to the heap list. */ if(m_nHeaps == maxHeaps) { return -1; /* too many non-contiguous heaps */ } m_heaps[m_nHeaps].base = ptr; m_heaps[m_nHeaps].len = size; +#ifdef USE_BIGBLOCK_ALLOC + m_heaps[m_nHeaps].bBigBlock = bBigBlock; +#endif m_nHeaps++; /* * Reserve the first LONG in the block for the ending boundary tag of a dummy * block at the start of the heap area. */ - size -= minBlockSize; - ptr += minBlockSize; + size -= blockOverhead; + ptr += blockOverhead; PSIZE(ptr) = 1; /* mark the dummy previous block as allocated */ } @@ -575,10 +1065,9 @@ int VMem::HeapAdd(void *p, size_t size) void* VMem::Expand(void* block, size_t size) { /* - * Adjust the size of the block to be a multiple of sizeof(long), and add the - * overhead for the boundary tags. Disallow negative or zero sizes. + * Disallow negative or zero sizes. */ - size_t realsize = (size < blockOverhead) ? minAllocSize : (size_t)ROUND_UP(size) + minBlockSize; + size_t realsize = CalcAllocSize(size); if((int)realsize < minAllocSize || size == 0) return NULL; @@ -640,7 +1129,11 @@ void* VMem::Expand(void* block, size_t size) * next block cannot be free */ SetTags(next, rem); +#ifdef _USE_BUDDY_BLOCKS + AddToFreeList(next, rem); +#else AddToFreeList(next, m_pFreeList); +#endif cursize = realsize; } /* Set the boundary tags to mark it as allocated. */ @@ -653,7 +1146,7 @@ void* VMem::Expand(void* block, size_t size) #ifdef _DEBUG_MEM #define LOG_FILENAME ".\\MemLog.txt" -void MemoryUsageMessage(char *str, long x, long y, int c) +void VMem::MemoryUsageMessage(char *str, long x, long y, int c) { char szBuffer[512]; if(str) { @@ -663,58 +1156,68 @@ void MemoryUsageMessage(char *str, long x, long y, int c) fputs(szBuffer, m_pLog); } else { - fflush(m_pLog); - fclose(m_pLog); - m_pLog = 0; + if(m_pLog) { + fflush(m_pLog); + fclose(m_pLog); + m_pLog = 0; + } } } -void VMem::WalkHeap(void) +void VMem::WalkHeap(int complete) { - if(!m_pRover) { - MemoryUsageMessage("VMem heaps used %d\n", m_nHeaps, 0, 0); - } + if(complete) { + MemoryUsageMessage(NULL, 0, 0, 0); + size_t total = 0; + for(int i = 0; i < m_nHeaps; ++i) { + total += m_heaps[i].len; + } + MemoryUsageMessage("VMem heaps used %d. Total memory %08x\n", m_nHeaps, total, 0); + + /* Walk all the heaps - verify structures */ + for(int index = 0; index < m_nHeaps; ++index) { + PBLOCK ptr = m_heaps[index].base; + size_t size = m_heaps[index].len; +#ifndef _USE_BUDDY_BLOCKS +#ifdef USE_BIGBLOCK_ALLOC + if (!m_heaps[m_nHeaps].bBigBlock) +#endif + ASSERT(HeapValidate(m_hHeap, HEAP_NO_SERIALIZE, ptr)); +#endif - /* Walk all the heaps - verify structures */ - for(int index = 0; index < m_nHeaps; ++index) { - PBLOCK ptr = m_heaps[index].base; - size_t size = m_heaps[index].len; - ASSERT(HeapValidate(m_hHeap, HEAP_NO_SERIALIZE, p)); - - /* set over reserved header block */ - size -= minBlockSize; - ptr += minBlockSize; - PBLOCK pLast = ptr + size; - ASSERT(PSIZE(ptr) == 1); /* dummy previous block is allocated */ - ASSERT(SIZE(pLast) == 1); /* dummy next block is allocated */ - while(ptr < pLast) { - ASSERT(ptr > m_heaps[index].base); - size_t cursize = SIZE(ptr) & ~1; - ASSERT((PSIZE(ptr+cursize) & ~1) == cursize); - if(!m_pRover) { - MemoryUsageMessage("Memory Block %08x: Size %08x %c\n", (long)ptr, cursize, (SIZE(p)&1) ? 'x' : ' '); - } - if(!(SIZE(ptr)&1)) { - /* this block is on the free list */ - PBLOCK tmp = NEXT(ptr); - while(tmp != ptr) { - ASSERT((SIZE(tmp)&1)==0); - if(tmp == m_pFreeList) - break; - ASSERT(NEXT(tmp)); - tmp = NEXT(tmp); - } - if(tmp == ptr) { - MemoryUsageMessage("Memory Block %08x: Size %08x free but not in free list\n", (long)ptr, cursize, 0); + /* set over reserved header block */ + size -= blockOverhead; + ptr += blockOverhead; + PBLOCK pLast = ptr + size; + ASSERT(PSIZE(ptr) == 1); /* dummy previous block is allocated */ + ASSERT(SIZE(pLast) == 1); /* dummy next block is allocated */ + while(ptr < pLast) { + ASSERT(ptr > m_heaps[index].base); + size_t cursize = SIZE(ptr) & ~1; + ASSERT((PSIZE(ptr+cursize) & ~1) == cursize); + MemoryUsageMessage("Memory Block %08x: Size %08x %c\n", (long)ptr, cursize, (SIZE(ptr)&1) ? 'x' : ' '); + if(!(SIZE(ptr)&1)) { + /* this block is on the free list */ + PBLOCK tmp = NEXT(ptr); + while(tmp != ptr) { + ASSERT((SIZE(tmp)&1)==0); + if(tmp == m_pFreeList) + break; + ASSERT(NEXT(tmp)); + tmp = NEXT(tmp); + } + if(tmp == ptr) { + MemoryUsageMessage("Memory Block %08x: Size %08x free but not in free list\n", (long)ptr, cursize, 0); + } } + ptr += cursize; } - ptr += cursize; } - } - if(!m_pRover) { MemoryUsageMessage(NULL, 0, 0, 0); } } -#endif +#endif /* _DEBUG_MEM */ + +#endif /* _USE_MSVCRT_MEM_ALLOC */ #endif /* ___VMEM_H_INC___ */ |