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/*-------------------------------------------------------------------------
*
* bufpage.c
* POSTGRES standard buffer page code.
*
* 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/storage/page/bufpage.c,v 1.37 2001/03/22 03:59:47 momjian Exp $
*
*-------------------------------------------------------------------------
*/
#include <sys/types.h>
#include <sys/file.h>
#include "postgres.h"
#include "storage/bufpage.h"
static void PageIndexTupleDeleteAdjustLinePointers(PageHeader phdr,
char *location, Size size);
/* ----------------------------------------------------------------
* Page support functions
* ----------------------------------------------------------------
*/
/*
* PageInit
* Initializes the contents of a page.
*/
void
PageInit(Page page, Size pageSize, Size specialSize)
{
PageHeader p = (PageHeader) page;
Assert(pageSize == BLCKSZ);
Assert(pageSize >
specialSize + sizeof(PageHeaderData) - sizeof(ItemIdData));
specialSize = MAXALIGN(specialSize);
p->pd_lower = sizeof(PageHeaderData) - sizeof(ItemIdData);
p->pd_upper = pageSize - specialSize;
p->pd_special = pageSize - specialSize;
PageSetPageSize(page, pageSize);
p->pd_lsn.xlogid = p->pd_lsn.xrecoff = 0;
p->pd_sui = 0;
}
/*
* WAL needs in zero-ed page data content
*/
void
PageZero(Page page)
{
MemSet((char *) page + ((PageHeader) page)->pd_lower, 0,
((PageHeader) page)->pd_special - ((PageHeader) page)->pd_lower);
}
/* ----------------
* PageAddItem
*
* Add an item to a page. Return value is offset at which it was
* inserted, or InvalidOffsetNumber if there's not room to insert.
*
* If offsetNumber is valid and <= current max offset in the page,
* insert item into the array at that position by shuffling ItemId's
* down to make room.
* If offsetNumber is not valid, then assign one by finding the first
* one that is both unused and deallocated.
*
* !!! ELOG(ERROR) IS DISALLOWED HERE !!!
*
* ----------------
*/
OffsetNumber
PageAddItem(Page page,
Item item,
Size size,
OffsetNumber offsetNumber,
ItemIdFlags flags)
{
int i;
Size alignedSize;
Offset lower;
Offset upper;
ItemId itemId;
OffsetNumber limit;
bool needshuffle = false;
bool overwritemode = flags & OverwritePageMode;
flags &= ~OverwritePageMode;
/*
* Find first unallocated offsetNumber
*/
limit = OffsetNumberNext(PageGetMaxOffsetNumber(page));
/* was offsetNumber passed in? */
if (OffsetNumberIsValid(offsetNumber))
{
if (overwritemode)
{
if (offsetNumber > limit)
{
elog(NOTICE, "PageAddItem: tried overwrite after maxoff");
return InvalidOffsetNumber;
}
if (offsetNumber < limit)
{
itemId = &((PageHeader) page)->pd_linp[offsetNumber - 1];
if (((*itemId).lp_flags & LP_USED) ||
((*itemId).lp_len != 0))
{
elog(NOTICE, "PageAddItem: tried overwrite of used ItemId");
return InvalidOffsetNumber;
}
}
}
else
{
/*
* Don't actually do the shuffle till we've checked free
* space!
*/
needshuffle = true; /* need to increase "lower" */
}
}
else
{
/* offsetNumber was not passed in, so find one */
/* look for "recyclable" (unused & deallocated) ItemId */
for (offsetNumber = 1; offsetNumber < limit; offsetNumber++)
{
itemId = &((PageHeader) page)->pd_linp[offsetNumber - 1];
if ((((*itemId).lp_flags & LP_USED) == 0) &&
((*itemId).lp_len == 0))
break;
}
}
/*
* Compute new lower and upper pointers for page, see if it'll fit
*/
if (offsetNumber > limit)
lower = (Offset) (((char *) (&((PageHeader) page)->pd_linp[offsetNumber])) - ((char *) page));
else if (offsetNumber == limit || needshuffle)
lower = ((PageHeader) page)->pd_lower + sizeof(ItemIdData);
else
lower = ((PageHeader) page)->pd_lower;
alignedSize = MAXALIGN(size);
upper = ((PageHeader) page)->pd_upper - alignedSize;
if (lower > upper)
return InvalidOffsetNumber;
/*
* OK to insert the item. First, shuffle the existing pointers if
* needed.
*/
if (needshuffle)
{
/* shuffle ItemId's (Do the PageManager Shuffle...) */
for (i = (limit - 1); i >= offsetNumber; i--)
{
ItemId fromitemId,
toitemId;
fromitemId = &((PageHeader) page)->pd_linp[i - 1];
toitemId = &((PageHeader) page)->pd_linp[i];
*toitemId = *fromitemId;
}
}
itemId = &((PageHeader) page)->pd_linp[offsetNumber - 1];
(*itemId).lp_off = upper;
(*itemId).lp_len = size;
(*itemId).lp_flags = flags;
memmove((char *) page + upper, item, size);
((PageHeader) page)->pd_lower = lower;
((PageHeader) page)->pd_upper = upper;
return offsetNumber;
}
/*
* PageGetTempPage
* Get a temporary page in local memory for special processing
*/
Page
PageGetTempPage(Page page, Size specialSize)
{
Size pageSize;
Size size;
Page temp;
PageHeader thdr;
pageSize = PageGetPageSize(page);
temp = (Page) palloc(pageSize);
thdr = (PageHeader) temp;
/* copy old page in */
memmove(temp, page, pageSize);
/* clear out the middle */
size = (pageSize - sizeof(PageHeaderData)) + sizeof(ItemIdData);
size -= MAXALIGN(specialSize);
MemSet((char *) &(thdr->pd_linp[0]), 0, size);
/* set high, low water marks */
thdr->pd_lower = sizeof(PageHeaderData) - sizeof(ItemIdData);
thdr->pd_upper = pageSize - MAXALIGN(specialSize);
return temp;
}
/*
* PageRestoreTempPage
* Copy temporary page back to permanent page after special processing
* and release the temporary page.
*/
void
PageRestoreTempPage(Page tempPage, Page oldPage)
{
Size pageSize;
pageSize = PageGetPageSize(tempPage);
memmove((char *) oldPage, (char *) tempPage, pageSize);
pfree(tempPage);
}
/* ----------------
* itemid stuff for PageRepairFragmentation
* ----------------
*/
struct itemIdSortData
{
int offsetindex; /* linp array index */
ItemIdData itemiddata;
};
static int
itemidcompare(const void *itemidp1, const void *itemidp2)
{
if (((struct itemIdSortData *) itemidp1)->itemiddata.lp_off ==
((struct itemIdSortData *) itemidp2)->itemiddata.lp_off)
return 0;
else if (((struct itemIdSortData *) itemidp1)->itemiddata.lp_off <
((struct itemIdSortData *) itemidp2)->itemiddata.lp_off)
return 1;
else
return -1;
}
/*
* PageRepairFragmentation
*
* Frees fragmented space on a page.
* It doesn't remove unused line pointers! Please don't change this.
* This routine is usable for heap pages only.
*
*/
int
PageRepairFragmentation(Page page, OffsetNumber *unused)
{
int i;
struct itemIdSortData *itemidbase,
*itemidptr;
ItemId lp;
int nline,
nused;
Offset upper;
Size alignedSize;
nline = (int16) PageGetMaxOffsetNumber(page);
nused = 0;
for (i = 0; i < nline; i++)
{
lp = ((PageHeader) page)->pd_linp + i;
if ((*lp).lp_flags & LP_DELETE) /* marked for deletion */
(*lp).lp_flags &= ~(LP_USED | LP_DELETE);
if ((*lp).lp_flags & LP_USED)
nused++;
else if (unused)
unused[i - nused] = (OffsetNumber) i;
}
if (nused == 0)
{
for (i = 0; i < nline; i++)
{
lp = ((PageHeader) page)->pd_linp + i;
if ((*lp).lp_len > 0) /* unused, but allocated */
(*lp).lp_len = 0; /* indicate unused & deallocated */
}
((PageHeader) page)->pd_upper = ((PageHeader) page)->pd_special;
}
else
{ /* nused != 0 */
itemidbase = (struct itemIdSortData *)
palloc(sizeof(struct itemIdSortData) * nused);
MemSet((char *) itemidbase, 0, sizeof(struct itemIdSortData) * nused);
itemidptr = itemidbase;
for (i = 0; i < nline; i++)
{
lp = ((PageHeader) page)->pd_linp + i;
if ((*lp).lp_flags & LP_USED)
{
itemidptr->offsetindex = i;
itemidptr->itemiddata = *lp;
itemidptr++;
}
else
{
if ((*lp).lp_len > 0) /* unused, but allocated */
(*lp).lp_len = 0; /* indicate unused & deallocated */
}
}
/* sort itemIdSortData array... */
qsort((char *) itemidbase, nused, sizeof(struct itemIdSortData),
itemidcompare);
/* compactify page */
((PageHeader) page)->pd_upper = ((PageHeader) page)->pd_special;
for (i = 0, itemidptr = itemidbase; i < nused; i++, itemidptr++)
{
lp = ((PageHeader) page)->pd_linp + itemidptr->offsetindex;
alignedSize = MAXALIGN((*lp).lp_len);
upper = ((PageHeader) page)->pd_upper - alignedSize;
memmove((char *) page + upper,
(char *) page + (*lp).lp_off,
(*lp).lp_len);
(*lp).lp_off = upper;
((PageHeader) page)->pd_upper = upper;
}
pfree(itemidbase);
}
return (nline - nused);
}
/*
* PageGetFreeSpace
* Returns the size of the free (allocatable) space on a page.
*/
Size
PageGetFreeSpace(Page page)
{
Size space;
space = ((PageHeader) page)->pd_upper - ((PageHeader) page)->pd_lower;
if (space < sizeof(ItemIdData))
return 0;
space -= sizeof(ItemIdData);/* XXX not always true */
return space;
}
/*
* PageRepairFragmentation un-useful for index page cleanup because
* of it doesn't remove line pointers. This routine could be more
* effective but ... no time -:)
*/
void
IndexPageCleanup(Buffer buffer)
{
Page page = (Page) BufferGetPage(buffer);
ItemId lp;
OffsetNumber maxoff;
OffsetNumber i;
maxoff = PageGetMaxOffsetNumber(page);
for (i = 0; i < maxoff; i++)
{
lp = ((PageHeader) page)->pd_linp + i;
if ((*lp).lp_flags & LP_DELETE) /* marked for deletion */
{
PageIndexTupleDelete(page, i + 1);
maxoff--;
}
}
}
/*
*----------------------------------------------------------------
* PageIndexTupleDelete
*----------------------------------------------------------------
*
* This routine does the work of removing a tuple from an index page.
*/
void
PageIndexTupleDelete(Page page, OffsetNumber offnum)
{
PageHeader phdr;
char *addr;
ItemId tup;
Size size;
char *locn;
int nbytes;
int offidx;
phdr = (PageHeader) page;
/* change offset number to offset index */
offidx = offnum - 1;
tup = PageGetItemId(page, offnum);
size = ItemIdGetLength(tup);
size = MAXALIGN(size);
/* location of deleted tuple data */
locn = (char *) (page + ItemIdGetOffset(tup));
/*
* First, we want to get rid of the pd_linp entry for the index tuple.
* We copy all subsequent linp's back one slot in the array.
*/
nbytes = phdr->pd_lower -
((char *) &phdr->pd_linp[offidx + 1] - (char *) phdr);
memmove((char *) &(phdr->pd_linp[offidx]),
(char *) &(phdr->pd_linp[offidx + 1]),
nbytes);
/*
* Now move everything between the old upper bound (beginning of tuple
* space) and the beginning of the deleted tuple forward, so that
* space in the middle of the page is left free. If we've just
* deleted the tuple at the beginning of tuple space, then there's no
* need to do the copy (and bcopy on some architectures SEGV's if
* asked to move zero bytes).
*/
/* beginning of tuple space */
addr = (char *) (page + phdr->pd_upper);
if (locn != addr)
memmove(addr + size, addr, (int) (locn - addr));
/* adjust free space boundary pointers */
phdr->pd_upper += size;
phdr->pd_lower -= sizeof(ItemIdData);
/* finally, we need to adjust the linp entries that remain */
if (!PageIsEmpty(page))
PageIndexTupleDeleteAdjustLinePointers(phdr, locn, size);
}
/*
*----------------------------------------------------------------
* PageIndexTupleDeleteAdjustLinePointers
*----------------------------------------------------------------
*
* Once the line pointers and tuple data have been shifted around
* on the page, we need to go down the line pointer vector and
* adjust pointers to reflect new locations. Anything that used
* to be before the deleted tuple's data was moved forward by the
* size of the deleted tuple.
*
* This routine does the work of adjusting the line pointers.
* Location is where the tuple data used to lie; size is how
* much space it occupied. We assume that size has been aligned
* as required by the time we get here.
*
* This routine should never be called on an empty page.
*/
static void
PageIndexTupleDeleteAdjustLinePointers(PageHeader phdr,
char *location,
Size size)
{
int i;
unsigned offset;
/* location is an index into the page... */
offset = (unsigned) (location - (char *) phdr);
for (i = PageGetMaxOffsetNumber((Page) phdr) - 1; i >= 0; i--)
{
if (phdr->pd_linp[i].lp_off <= offset)
phdr->pd_linp[i].lp_off += size;
}
}
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