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|
/*-------------------------------------------------------------------------
*
* aset.c
* Allocation set definitions.
*
* AllocSet is our standard implementation of the abstract MemoryContext
* type.
*
*
* Portions Copyright (c) 1996-2001, PostgreSQL Global Development Group
* Portions Copyright (c) 1994, Regents of the University of California
*
* IDENTIFICATION
* $Header: /cvsroot/pgsql/src/backend/utils/mmgr/aset.c,v 1.42 2001/10/25 05:49:51 momjian Exp $
*
* NOTE:
* This is a new (Feb. 05, 1999) implementation of the allocation set
* routines. AllocSet...() does not use OrderedSet...() any more.
* Instead it manages allocations in a block pool by itself, combining
* many small allocations in a few bigger blocks. AllocSetFree() normally
* doesn't free() memory really. It just add's the free'd area to some
* list for later reuse by AllocSetAlloc(). All memory blocks are free()'d
* at once on AllocSetReset(), which happens when the memory context gets
* destroyed.
* Jan Wieck
*
* Performance improvement from Tom Lane, 8/99: for extremely large request
* sizes, we do want to be able to give the memory back to free() as soon
* as it is pfree()'d. Otherwise we risk tying up a lot of memory in
* freelist entries that might never be usable. This is specially needed
* when the caller is repeatedly repalloc()'ing a block bigger and bigger;
* the previous instances of the block were guaranteed to be wasted until
* AllocSetReset() under the old way.
*
* Further improvement 12/00: as the code stood, request sizes in the
* midrange between "small" and "large" were handled very inefficiently,
* because any sufficiently large free chunk would be used to satisfy a
* request, even if it was much larger than necessary. This led to more
* and more wasted space in allocated chunks over time. To fix, get rid
* of the midrange behavior: we now handle only "small" power-of-2-size
* chunks as chunks. Anything "large" is passed off to malloc(). Change
* the number of freelists to change the small/large boundary.
*
*
* About CLOBBER_FREED_MEMORY:
*
* If this symbol is defined, all freed memory is overwritten with 0x7F's.
* This is useful for catching places that reference already-freed memory.
*
* About MEMORY_CONTEXT_CHECKING:
*
* Since we usually round request sizes up to the next power of 2, there
* is often some unused space immediately after a requested data area.
* Thus, if someone makes the common error of writing past what they've
* requested, the problem is likely to go unnoticed ... until the day when
* there *isn't* any wasted space, perhaps because of different memory
* alignment on a new platform, or some other effect. To catch this sort
* of problem, the MEMORY_CONTEXT_CHECKING option stores 0x7E just beyond
* the requested space whenever the request is less than the actual chunk
* size, and verifies that the byte is undamaged when the chunk is freed.
*
*-------------------------------------------------------------------------
*/
#include "postgres.h"
#include "utils/memutils.h"
/* Define this to detail debug alloc information */
/* #define HAVE_ALLOCINFO */
/*--------------------
* Chunk freelist k holds chunks of size 1 << (k + ALLOC_MINBITS),
* for k = 0 .. ALLOCSET_NUM_FREELISTS-1.
*
* Note that all chunks in the freelists have power-of-2 sizes. This
* improves recyclability: we may waste some space, but the wasted space
* should stay pretty constant as requests are made and released.
*
* A request too large for the last freelist is handled by allocating a
* dedicated block from malloc(). The block still has a block header and
* chunk header, but when the chunk is freed we'll return the whole block
* to malloc(), not put it on our freelists.
*
* CAUTION: ALLOC_MINBITS must be large enough so that
* 1<<ALLOC_MINBITS is at least MAXALIGN,
* or we may fail to align the smallest chunks adequately.
* 16-byte alignment is enough on all currently known machines.
*
* With the current parameters, request sizes up to 8K are treated as chunks,
* larger requests go into dedicated blocks. Change ALLOCSET_NUM_FREELISTS
* to adjust the boundary point.
*--------------------
*/
#define ALLOC_MINBITS 4 /* smallest chunk size is 16 bytes */
#define ALLOCSET_NUM_FREELISTS 10
#define ALLOC_CHUNK_LIMIT (1 << (ALLOCSET_NUM_FREELISTS-1+ALLOC_MINBITS))
/* Size of largest chunk that we use a fixed size for */
/*--------------------
* The first block allocated for an allocset has size initBlockSize.
* Each time we have to allocate another block, we double the block size
* (if possible, and without exceeding maxBlockSize), so as to reduce
* the bookkeeping load on malloc().
*
* Blocks allocated to hold oversize chunks do not follow this rule, however;
* they are just however big they need to be to hold that single chunk.
*--------------------
*/
#define ALLOC_BLOCKHDRSZ MAXALIGN(sizeof(AllocBlockData))
#define ALLOC_CHUNKHDRSZ MAXALIGN(sizeof(AllocChunkData))
typedef struct AllocBlockData *AllocBlock; /* forward reference */
typedef struct AllocChunkData *AllocChunk;
/*
* AllocPointer
* Aligned pointer which may be a member of an allocation set.
*/
typedef void *AllocPointer;
/*
* AllocSetContext is our standard implementation of MemoryContext.
*/
typedef struct AllocSetContext
{
MemoryContextData header; /* Standard memory-context fields */
/* Info about storage allocated in this context: */
AllocBlock blocks; /* head of list of blocks in this set */
AllocChunk freelist[ALLOCSET_NUM_FREELISTS]; /* free chunk lists */
/* Allocation parameters for this context: */
Size initBlockSize; /* initial block size */
Size maxBlockSize; /* maximum block size */
AllocBlock keeper; /* if not NULL, keep this block over
* resets */
} AllocSetContext;
typedef AllocSetContext *AllocSet;
/*
* AllocBlock
* An AllocBlock is the unit of memory that is obtained by aset.c
* from malloc(). It contains one or more AllocChunks, which are
* the units requested by palloc() and freed by pfree(). AllocChunks
* cannot be returned to malloc() individually, instead they are put
* on freelists by pfree() and re-used by the next palloc() that has
* a matching request size.
*
* AllocBlockData is the header data for a block --- the usable space
* within the block begins at the next alignment boundary.
*/
typedef struct AllocBlockData
{
AllocSet aset; /* aset that owns this block */
AllocBlock next; /* next block in aset's blocks list */
char *freeptr; /* start of free space in this block */
char *endptr; /* end of space in this block */
} AllocBlockData;
/*
* AllocChunk
* The prefix of each piece of memory in an AllocBlock
*
* NB: this MUST match StandardChunkHeader as defined by utils/memutils.h.
*/
typedef struct AllocChunkData
{
/* aset is the owning aset if allocated, or the freelist link if free */
void *aset;
/* size is always the size of the usable space in the chunk */
Size size;
#ifdef MEMORY_CONTEXT_CHECKING
/* when debugging memory usage, also store actual requested size */
/* this is zero in a free chunk */
Size requested_size;
#endif
} AllocChunkData;
/*
* AllocPointerIsValid
* True iff pointer is valid allocation pointer.
*/
#define AllocPointerIsValid(pointer) PointerIsValid(pointer)
/*
* AllocSetIsValid
* True iff set is valid allocation set.
*/
#define AllocSetIsValid(set) PointerIsValid(set)
#define AllocPointerGetChunk(ptr) \
((AllocChunk)(((char *)(ptr)) - ALLOC_CHUNKHDRSZ))
#define AllocChunkGetPointer(chk) \
((AllocPointer)(((char *)(chk)) + ALLOC_CHUNKHDRSZ))
/*
* These functions implement the MemoryContext API for AllocSet contexts.
*/
static void *AllocSetAlloc(MemoryContext context, Size size);
static void AllocSetFree(MemoryContext context, void *pointer);
static void *AllocSetRealloc(MemoryContext context, void *pointer, Size size);
static void AllocSetInit(MemoryContext context);
static void AllocSetReset(MemoryContext context);
static void AllocSetDelete(MemoryContext context);
#ifdef MEMORY_CONTEXT_CHECKING
static void AllocSetCheck(MemoryContext context);
#endif
static void AllocSetStats(MemoryContext context);
/*
* This is the virtual function table for AllocSet contexts.
*/
static MemoryContextMethods AllocSetMethods = {
AllocSetAlloc,
AllocSetFree,
AllocSetRealloc,
AllocSetInit,
AllocSetReset,
AllocSetDelete,
#ifdef MEMORY_CONTEXT_CHECKING
AllocSetCheck,
#endif
AllocSetStats
};
/* ----------
* Debug macros
* ----------
*/
#ifdef HAVE_ALLOCINFO
#define AllocFreeInfo(_cxt, _chunk) \
fprintf(stderr, "AllocFree: %s: %p, %d\n", \
(_cxt)->header.name, (_chunk), (_chunk)->size)
#define AllocAllocInfo(_cxt, _chunk) \
fprintf(stderr, "AllocAlloc: %s: %p, %d\n", \
(_cxt)->header.name, (_chunk), (_chunk)->size)
#else
#define AllocFreeInfo(_cxt, _chunk)
#define AllocAllocInfo(_cxt, _chunk)
#endif
/* ----------
* AllocSetFreeIndex -
*
* Depending on the size of an allocation compute which freechunk
* list of the alloc set it belongs to. Caller must have verified
* that size <= ALLOC_CHUNK_LIMIT.
* ----------
*/
static inline int
AllocSetFreeIndex(Size size)
{
int idx = 0;
if (size > 0)
{
size = (size - 1) >> ALLOC_MINBITS;
while (size != 0)
{
idx++;
size >>= 1;
}
Assert(idx < ALLOCSET_NUM_FREELISTS);
}
return idx;
}
/*
* Public routines
*/
/*
* AllocSetContextCreate
* Create a new AllocSet context.
*
* parent: parent context, or NULL if top-level context
* name: name of context (for debugging --- string will be copied)
* minContextSize: minimum context size
* initBlockSize: initial allocation block size
* maxBlockSize: maximum allocation block size
*/
MemoryContext
AllocSetContextCreate(MemoryContext parent,
const char *name,
Size minContextSize,
Size initBlockSize,
Size maxBlockSize)
{
AllocSet context;
/* Do the type-independent part of context creation */
context = (AllocSet) MemoryContextCreate(T_AllocSetContext,
sizeof(AllocSetContext),
&AllocSetMethods,
parent,
name);
/*
* Make sure alloc parameters are reasonable, and save them.
*
* We somewhat arbitrarily enforce a minimum 1K block size.
*/
initBlockSize = MAXALIGN(initBlockSize);
if (initBlockSize < 1024)
initBlockSize = 1024;
maxBlockSize = MAXALIGN(maxBlockSize);
if (maxBlockSize < initBlockSize)
maxBlockSize = initBlockSize;
context->initBlockSize = initBlockSize;
context->maxBlockSize = maxBlockSize;
/*
* Grab always-allocated space, if requested
*/
if (minContextSize > ALLOC_BLOCKHDRSZ + ALLOC_CHUNKHDRSZ)
{
Size blksize = MAXALIGN(minContextSize);
AllocBlock block;
block = (AllocBlock) malloc(blksize);
if (block == NULL)
{
MemoryContextStats(TopMemoryContext);
elog(ERROR, "Memory exhausted in AllocSetContextCreate(%lu)",
(unsigned long) minContextSize);
}
block->aset = context;
block->freeptr = ((char *) block) + ALLOC_BLOCKHDRSZ;
block->endptr = ((char *) block) + blksize;
block->next = context->blocks;
context->blocks = block;
/* Mark block as not to be released at reset time */
context->keeper = block;
}
return (MemoryContext) context;
}
/*
* AllocSetInit
* Context-type-specific initialization routine.
*
* This is called by MemoryContextCreate() after setting up the
* generic MemoryContext fields and before linking the new context
* into the context tree. We must do whatever is needed to make the
* new context minimally valid for deletion. We must *not* risk
* failure --- thus, for example, allocating more memory is not cool.
* (AllocSetContextCreate can allocate memory when it gets control
* back, however.)
*/
static void
AllocSetInit(MemoryContext context)
{
/*
* Since MemoryContextCreate already zeroed the context node, we don't
* have to do anything here: it's already OK.
*/
}
/*
* AllocSetReset
* Frees all memory which is allocated in the given set.
*
* Actually, this routine has some discretion about what to do.
* It should mark all allocated chunks freed, but it need not
* necessarily give back all the resources the set owns. Our
* actual implementation is that we hang on to any "keeper"
* block specified for the set.
*/
static void
AllocSetReset(MemoryContext context)
{
AllocSet set = (AllocSet) context;
AllocBlock block = set->blocks;
AssertArg(AllocSetIsValid(set));
#ifdef MEMORY_CONTEXT_CHECKING
/* Check for corruption and leaks before freeing */
AllocSetCheck(context);
#endif
/* Clear chunk freelists */
MemSet(set->freelist, 0, sizeof(set->freelist));
/* New blocks list is either empty or just the keeper block */
set->blocks = set->keeper;
while (block != NULL)
{
AllocBlock next = block->next;
if (block == set->keeper)
{
/* Reset the block, but don't return it to malloc */
char *datastart = ((char *) block) + ALLOC_BLOCKHDRSZ;
#ifdef CLOBBER_FREED_MEMORY
/* Wipe freed memory for debugging purposes */
memset(datastart, 0x7F, block->freeptr - datastart);
#endif
block->freeptr = datastart;
block->next = NULL;
}
else
{
/* Normal case, release the block */
#ifdef CLOBBER_FREED_MEMORY
/* Wipe freed memory for debugging purposes */
memset(block, 0x7F, block->freeptr - ((char *) block));
#endif
free(block);
}
block = next;
}
}
/*
* AllocSetDelete
* Frees all memory which is allocated in the given set,
* in preparation for deletion of the set.
*
* Unlike AllocSetReset, this *must* free all resources of the set.
* But note we are not responsible for deleting the context node itself.
*/
static void
AllocSetDelete(MemoryContext context)
{
AllocSet set = (AllocSet) context;
AllocBlock block = set->blocks;
AssertArg(AllocSetIsValid(set));
#ifdef MEMORY_CONTEXT_CHECKING
/* Check for corruption and leaks before freeing */
AllocSetCheck(context);
#endif
/* Make it look empty, just in case... */
MemSet(set->freelist, 0, sizeof(set->freelist));
set->blocks = NULL;
set->keeper = NULL;
while (block != NULL)
{
AllocBlock next = block->next;
#ifdef CLOBBER_FREED_MEMORY
/* Wipe freed memory for debugging purposes */
memset(block, 0x7F, block->freeptr - ((char *) block));
#endif
free(block);
block = next;
}
}
/*
* AllocSetAlloc
* Returns pointer to allocated memory of given size; memory is added
* to the set.
*/
static void *
AllocSetAlloc(MemoryContext context, Size size)
{
AllocSet set = (AllocSet) context;
AllocBlock block;
AllocChunk chunk;
AllocChunk priorfree;
int fidx;
Size chunk_size;
Size blksize;
AssertArg(AllocSetIsValid(set));
/*
* If requested size exceeds maximum for chunks, allocate an entire
* block for this request.
*/
if (size > ALLOC_CHUNK_LIMIT)
{
chunk_size = MAXALIGN(size);
blksize = chunk_size + ALLOC_BLOCKHDRSZ + ALLOC_CHUNKHDRSZ;
block = (AllocBlock) malloc(blksize);
if (block == NULL)
{
MemoryContextStats(TopMemoryContext);
elog(ERROR, "Memory exhausted in AllocSetAlloc(%lu)",
(unsigned long) size);
}
block->aset = set;
block->freeptr = block->endptr = ((char *) block) + blksize;
chunk = (AllocChunk) (((char *) block) + ALLOC_BLOCKHDRSZ);
chunk->aset = set;
chunk->size = chunk_size;
#ifdef MEMORY_CONTEXT_CHECKING
chunk->requested_size = size;
/* set mark to catch clobber of "unused" space */
if (size < chunk_size)
((char *) AllocChunkGetPointer(chunk))[size] = 0x7E;
#endif
/*
* Stick the new block underneath the active allocation block, so
* that we don't lose the use of the space remaining therein.
*/
if (set->blocks != NULL)
{
block->next = set->blocks->next;
set->blocks->next = block;
}
else
{
block->next = NULL;
set->blocks = block;
}
AllocAllocInfo(set, chunk);
return AllocChunkGetPointer(chunk);
}
/*
* Request is small enough to be treated as a chunk. Look in the
* corresponding free list to see if there is a free chunk we could
* reuse.
*/
fidx = AllocSetFreeIndex(size);
priorfree = NULL;
for (chunk = set->freelist[fidx]; chunk; chunk = (AllocChunk) chunk->aset)
{
if (chunk->size >= size)
break;
priorfree = chunk;
}
/*
* If one is found, remove it from the free list, make it again a
* member of the alloc set and return its data address.
*/
if (chunk != NULL)
{
if (priorfree == NULL)
set->freelist[fidx] = (AllocChunk) chunk->aset;
else
priorfree->aset = chunk->aset;
chunk->aset = (void *) set;
#ifdef MEMORY_CONTEXT_CHECKING
chunk->requested_size = size;
/* set mark to catch clobber of "unused" space */
if (size < chunk->size)
((char *) AllocChunkGetPointer(chunk))[size] = 0x7E;
#endif
AllocAllocInfo(set, chunk);
return AllocChunkGetPointer(chunk);
}
/*
* Choose the actual chunk size to allocate.
*/
chunk_size = 1 << (fidx + ALLOC_MINBITS);
Assert(chunk_size >= size);
/*
* If there is enough room in the active allocation block, we will put
* the chunk into that block. Else must start a new one.
*/
if ((block = set->blocks) != NULL)
{
Size availspace = block->endptr - block->freeptr;
if (availspace < (chunk_size + ALLOC_CHUNKHDRSZ))
{
/*
* The existing active (top) block does not have enough room
* for the requested allocation, but it might still have a
* useful amount of space in it. Once we push it down in the
* block list, we'll never try to allocate more space from it.
* So, before we do that, carve up its free space into chunks
* that we can put on the set's freelists.
*
* Because we can only get here when there's less than
* ALLOC_CHUNK_LIMIT left in the block, this loop cannot
* iterate more than ALLOCSET_NUM_FREELISTS-1 times.
*/
while (availspace >= ((1 << ALLOC_MINBITS) + ALLOC_CHUNKHDRSZ))
{
Size availchunk = availspace - ALLOC_CHUNKHDRSZ;
int a_fidx = AllocSetFreeIndex(availchunk);
/*
* In most cases, we'll get back the index of the next
* larger freelist than the one we need to put this chunk
* on. The exception is when availchunk is exactly a
* power of 2.
*/
if (availchunk != (1 << (a_fidx + ALLOC_MINBITS)))
{
a_fidx--;
Assert(a_fidx >= 0);
availchunk = (1 << (a_fidx + ALLOC_MINBITS));
}
chunk = (AllocChunk) (block->freeptr);
block->freeptr += (availchunk + ALLOC_CHUNKHDRSZ);
availspace -= (availchunk + ALLOC_CHUNKHDRSZ);
chunk->size = availchunk;
#ifdef MEMORY_CONTEXT_CHECKING
chunk->requested_size = 0; /* mark it free */
#endif
chunk->aset = (void *) set->freelist[a_fidx];
set->freelist[a_fidx] = chunk;
}
/* Mark that we need to create a new block */
block = NULL;
}
}
/*
* Time to create a new regular (multi-chunk) block?
*/
if (block == NULL)
{
Size required_size;
if (set->blocks == NULL)
{
/* First block of the alloc set, use initBlockSize */
blksize = set->initBlockSize;
}
else
{
/* Get size of prior block */
blksize = set->blocks->endptr - ((char *) set->blocks);
/*
* Special case: if very first allocation was for a large
* chunk (or we have a small "keeper" block), could have an
* undersized top block. Do something reasonable.
*/
if (blksize < set->initBlockSize)
blksize = set->initBlockSize;
else
{
/* Crank it up, but not past max */
blksize <<= 1;
if (blksize > set->maxBlockSize)
blksize = set->maxBlockSize;
}
}
/*
* If initBlockSize is less than ALLOC_CHUNK_LIMIT, we could need
* more space...
*/
required_size = chunk_size + ALLOC_BLOCKHDRSZ + ALLOC_CHUNKHDRSZ;
if (blksize < required_size)
blksize = required_size;
/* Try to allocate it */
block = (AllocBlock) malloc(blksize);
/*
* We could be asking for pretty big blocks here, so cope if
* malloc fails. But give up if there's less than a meg or so
* available...
*/
while (block == NULL && blksize > 1024 * 1024)
{
blksize >>= 1;
if (blksize < required_size)
break;
block = (AllocBlock) malloc(blksize);
}
if (block == NULL)
{
MemoryContextStats(TopMemoryContext);
elog(ERROR, "Memory exhausted in AllocSetAlloc(%lu)",
(unsigned long) size);
}
block->aset = set;
block->freeptr = ((char *) block) + ALLOC_BLOCKHDRSZ;
block->endptr = ((char *) block) + blksize;
block->next = set->blocks;
set->blocks = block;
}
/*
* OK, do the allocation
*/
chunk = (AllocChunk) (block->freeptr);
block->freeptr += (chunk_size + ALLOC_CHUNKHDRSZ);
Assert(block->freeptr <= block->endptr);
chunk->aset = (void *) set;
chunk->size = chunk_size;
#ifdef MEMORY_CONTEXT_CHECKING
chunk->requested_size = size;
/* set mark to catch clobber of "unused" space */
if (size < chunk->size)
((char *) AllocChunkGetPointer(chunk))[size] = 0x7E;
#endif
AllocAllocInfo(set, chunk);
return AllocChunkGetPointer(chunk);
}
/*
* AllocSetFree
* Frees allocated memory; memory is removed from the set.
*/
static void
AllocSetFree(MemoryContext context, void *pointer)
{
AllocSet set = (AllocSet) context;
AllocChunk chunk = AllocPointerGetChunk(pointer);
AllocFreeInfo(set, chunk);
#ifdef MEMORY_CONTEXT_CHECKING
/* Test for someone scribbling on unused space in chunk */
if (chunk->requested_size < chunk->size)
if (((char *) pointer)[chunk->requested_size] != 0x7E)
elog(NOTICE, "AllocSetFree: detected write past chunk end in %s %p",
set->header.name, chunk);
#endif
if (chunk->size > ALLOC_CHUNK_LIMIT)
{
/*
* Big chunks are certain to have been allocated as single-chunk
* blocks. Find the containing block and return it to malloc().
*/
AllocBlock block = set->blocks;
AllocBlock prevblock = NULL;
while (block != NULL)
{
if (chunk == (AllocChunk) (((char *) block) + ALLOC_BLOCKHDRSZ))
break;
prevblock = block;
block = block->next;
}
if (block == NULL)
elog(ERROR, "AllocSetFree: cannot find block containing chunk %p",
chunk);
/* let's just make sure chunk is the only one in the block */
Assert(block->freeptr == ((char *) block) +
(chunk->size + ALLOC_BLOCKHDRSZ + ALLOC_CHUNKHDRSZ));
/* OK, remove block from aset's list and free it */
if (prevblock == NULL)
set->blocks = block->next;
else
prevblock->next = block->next;
#ifdef CLOBBER_FREED_MEMORY
/* Wipe freed memory for debugging purposes */
memset(block, 0x7F, block->freeptr - ((char *) block));
#endif
free(block);
}
else
{
/* Normal case, put the chunk into appropriate freelist */
int fidx = AllocSetFreeIndex(chunk->size);
chunk->aset = (void *) set->freelist[fidx];
#ifdef CLOBBER_FREED_MEMORY
/* Wipe freed memory for debugging purposes */
memset(pointer, 0x7F, chunk->size);
#endif
#ifdef MEMORY_CONTEXT_CHECKING
/* Reset requested_size to 0 in chunks that are on freelist */
chunk->requested_size = 0;
#endif
set->freelist[fidx] = chunk;
}
}
/*
* AllocSetRealloc
* Returns new pointer to allocated memory of given size; this memory
* is added to the set. Memory associated with given pointer is copied
* into the new memory, and the old memory is freed.
*/
static void *
AllocSetRealloc(MemoryContext context, void *pointer, Size size)
{
AllocSet set = (AllocSet) context;
AllocChunk chunk = AllocPointerGetChunk(pointer);
Size oldsize = chunk->size;
#ifdef MEMORY_CONTEXT_CHECKING
/* Test for someone scribbling on unused space in chunk */
if (chunk->requested_size < oldsize)
if (((char *) pointer)[chunk->requested_size] != 0x7E)
elog(NOTICE, "AllocSetRealloc: detected write past chunk end in %s %p",
set->header.name, chunk);
#endif
/*
* Chunk sizes are aligned to power of 2 in AllocSetAlloc(). Maybe the
* allocated area already is >= the new size. (In particular, we
* always fall out here if the requested size is a decrease.)
*/
if (oldsize >= size)
{
#ifdef MEMORY_CONTEXT_CHECKING
chunk->requested_size = size;
/* set mark to catch clobber of "unused" space */
if (size < oldsize)
((char *) pointer)[size] = 0x7E;
#endif
return pointer;
}
if (oldsize > ALLOC_CHUNK_LIMIT)
{
/*
* The chunk must been allocated as a single-chunk block. Find
* the containing block and use realloc() to make it bigger with
* minimum space wastage.
*/
AllocBlock block = set->blocks;
AllocBlock prevblock = NULL;
Size chksize;
Size blksize;
while (block != NULL)
{
if (chunk == (AllocChunk) (((char *) block) + ALLOC_BLOCKHDRSZ))
break;
prevblock = block;
block = block->next;
}
if (block == NULL)
elog(ERROR, "AllocSetRealloc: cannot find block containing chunk %p",
chunk);
/* let's just make sure chunk is the only one in the block */
Assert(block->freeptr == ((char *) block) +
(chunk->size + ALLOC_BLOCKHDRSZ + ALLOC_CHUNKHDRSZ));
/* Do the realloc */
chksize = MAXALIGN(size);
blksize = chksize + ALLOC_BLOCKHDRSZ + ALLOC_CHUNKHDRSZ;
block = (AllocBlock) realloc(block, blksize);
if (block == NULL)
{
MemoryContextStats(TopMemoryContext);
elog(ERROR, "Memory exhausted in AllocSetReAlloc(%lu)",
(unsigned long) size);
}
block->freeptr = block->endptr = ((char *) block) + blksize;
/* Update pointers since block has likely been moved */
chunk = (AllocChunk) (((char *) block) + ALLOC_BLOCKHDRSZ);
if (prevblock == NULL)
set->blocks = block;
else
prevblock->next = block;
chunk->size = chksize;
#ifdef MEMORY_CONTEXT_CHECKING
chunk->requested_size = size;
/* set mark to catch clobber of "unused" space */
if (size < chunk->size)
((char *) AllocChunkGetPointer(chunk))[size] = 0x7E;
#endif
return AllocChunkGetPointer(chunk);
}
else
{
/*
* Small-chunk case. If the chunk is the last one in its block,
* there might be enough free space after it that we can just
* enlarge the chunk in-place. It's relatively painful to find
* the containing block in the general case, but we can detect
* last-ness quite cheaply for the typical case where the chunk is
* in the active (topmost) allocation block. (At least with the
* regression tests and code as of 1/2001, realloc'ing the last
* chunk of a non-topmost block hardly ever happens, so it's not
* worth scanning the block list to catch that case.)
*
* NOTE: must be careful not to create a chunk of a size that
* AllocSetAlloc would not create, else we'll get confused later.
*/
AllocPointer newPointer;
if (size <= ALLOC_CHUNK_LIMIT)
{
AllocBlock block = set->blocks;
char *chunk_end;
chunk_end = (char *) chunk + (oldsize + ALLOC_CHUNKHDRSZ);
if (chunk_end == block->freeptr)
{
/* OK, it's last in block ... is there room? */
Size freespace = block->endptr - block->freeptr;
int fidx;
Size newsize;
Size delta;
fidx = AllocSetFreeIndex(size);
newsize = 1 << (fidx + ALLOC_MINBITS);
Assert(newsize >= oldsize);
delta = newsize - oldsize;
if (freespace >= delta)
{
/* Yes, so just enlarge the chunk. */
block->freeptr += delta;
chunk->size += delta;
#ifdef MEMORY_CONTEXT_CHECKING
chunk->requested_size = size;
/* set mark to catch clobber of "unused" space */
if (size < chunk->size)
((char *) pointer)[size] = 0x7E;
#endif
return pointer;
}
}
}
/* Normal small-chunk case: just do it by brute force. */
/* allocate new chunk */
newPointer = AllocSetAlloc((MemoryContext) set, size);
/* transfer existing data (certain to fit) */
memcpy(newPointer, pointer, oldsize);
/* free old chunk */
AllocSetFree((MemoryContext) set, pointer);
return newPointer;
}
}
/*
* AllocSetStats
* Displays stats about memory consumption of an allocset.
*/
static void
AllocSetStats(MemoryContext context)
{
AllocSet set = (AllocSet) context;
long nblocks = 0;
long nchunks = 0;
long totalspace = 0;
long freespace = 0;
AllocBlock block;
AllocChunk chunk;
int fidx;
for (block = set->blocks; block != NULL; block = block->next)
{
nblocks++;
totalspace += block->endptr - ((char *) block);
freespace += block->endptr - block->freeptr;
}
for (fidx = 0; fidx < ALLOCSET_NUM_FREELISTS; fidx++)
{
for (chunk = set->freelist[fidx]; chunk != NULL;
chunk = (AllocChunk) chunk->aset)
{
nchunks++;
freespace += chunk->size + ALLOC_CHUNKHDRSZ;
}
}
fprintf(stderr,
"%s: %ld total in %ld blocks; %ld free (%ld chunks); %ld used\n",
set->header.name, totalspace, nblocks, freespace, nchunks,
totalspace - freespace);
}
#ifdef MEMORY_CONTEXT_CHECKING
/*
* AllocSetCheck
* Walk through chunks and check consistency of memory.
*
* NOTE: report errors as NOTICE, *not* ERROR or FATAL. Otherwise you'll
* find yourself in an infinite loop when trouble occurs, because this
* routine will be entered again when elog cleanup tries to release memory!
*/
static void
AllocSetCheck(MemoryContext context)
{
AllocSet set = (AllocSet) context;
char *name = set->header.name;
AllocBlock block;
for (block = set->blocks; block != NULL; block = block->next)
{
char *bpoz = ((char *) block) + ALLOC_BLOCKHDRSZ;
long blk_used = block->freeptr - bpoz;
long blk_data = 0;
long nchunks = 0;
/*
* Empty block - empty can be keeper-block only
*/
if (!blk_used)
{
if (set->keeper != block)
elog(NOTICE, "AllocSetCheck: %s: empty block %p",
name, block);
}
/*
* Chunk walker
*/
while (bpoz < block->freeptr)
{
AllocChunk chunk = (AllocChunk) bpoz;
Size chsize,
dsize;
char *chdata_end;
chsize = chunk->size; /* aligned chunk size */
dsize = chunk->requested_size; /* real data */
chdata_end = ((char *) chunk) + (ALLOC_CHUNKHDRSZ + dsize);
/*
* Check chunk size
*/
if (dsize > chsize)
elog(NOTICE, "AllocSetCheck: %s: req size > alloc size for chunk %p in block %p",
name, chunk, block);
if (chsize < (1 << ALLOC_MINBITS))
elog(NOTICE, "AllocSetCheck: %s: bad size %lu for chunk %p in block %p",
name, (unsigned long) chsize, chunk, block);
/* single-chunk block? */
if (chsize > ALLOC_CHUNK_LIMIT &&
chsize + ALLOC_CHUNKHDRSZ != blk_used)
elog(NOTICE, "AllocSetCheck: %s: bad single-chunk %p in block %p",
name, chunk, block);
/*
* If chunk is allocated, check for correct aset pointer. (If
* it's free, the aset is the freelist pointer, which we can't
* check as easily...)
*/
if (dsize > 0 && chunk->aset != (void *) set)
elog(NOTICE, "AllocSetCheck: %s: bogus aset link in block %p, chunk %p",
name, block, chunk);
/*
* Check for overwrite of "unallocated" space in chunk
*/
if (dsize > 0 && dsize < chsize && *chdata_end != 0x7E)
elog(NOTICE, "AllocSetCheck: %s: detected write past chunk end in block %p, chunk %p",
name, block, chunk);
blk_data += chsize;
nchunks++;
bpoz += ALLOC_CHUNKHDRSZ + chsize;
}
if ((blk_data + (nchunks * ALLOC_CHUNKHDRSZ)) != blk_used)
elog(NOTICE, "AllocSetCheck: %s: found inconsistent memory block %p",
name, block);
}
}
#endif /* MEMORY_CONTEXT_CHECKING */
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