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2c874db2dd
* db2/btree/bt_cursor.c: Likewise. * db2/common/db_region.db_c: Likewise. * db2/common/db_salloc.db_c: Likewise. * db2/db/db.c: Likewise. * db2/db/db_rec.c: Likewise. * db2/hash/hash.c: Likewise. * db2/hash/hash_page.c: Likewise. * db2/hash/hash_rec.c: Likewise. * db2/log/log_findckp.c: Likewise. * db2/log/log_get.c: Likewise. * db2/log/log_put.c: Likewise. * db2/mp/mp_fget.c: Likewise. * db2/mp/mp_fput.c: Likewise. * db2/mp/mp_region.c: Likewise.
303 lines
7.2 KiB
C
303 lines
7.2 KiB
C
/*-
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* See the file LICENSE for redistribution information.
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*
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* Copyright (c) 1996, 1997, 1998
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* Sleepycat Software. All rights reserved.
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*/
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#include "config.h"
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#ifndef lint
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static const char sccsid[] = "@(#)db_salloc.c 10.13 (Sleepycat) 5/10/98";
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#endif /* not lint */
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#ifndef NO_SYSTEM_INCLUDES
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#include <sys/types.h>
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#include <errno.h>
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#include <string.h>
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#endif
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#include "db_int.h"
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#include "shqueue.h"
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#include "common_ext.h"
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/*
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* Implement shared memory region allocation, using simple first-fit algorithm.
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* The model is that we take a "chunk" of shared memory store and begin carving
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* it up into areas, similarly to how malloc works. We do coalescing on free.
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*
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* The "len" field in the __data struct contains the length of the free region
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* (less the size_t bytes that holds the length). We use the address provided
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* by the caller to find this length, which allows us to free a chunk without
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* requiring that the caller pass in the length of the chunk they're freeing.
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*/
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SH_LIST_HEAD(__head);
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struct __data {
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size_t len;
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SH_LIST_ENTRY links;
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};
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/*
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* __db_shalloc_init --
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* Initialize the area as one large chunk.
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*
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* PUBLIC: void __db_shalloc_init __P((void *, size_t));
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*/
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void
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__db_shalloc_init(area, size)
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void *area;
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size_t size;
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{
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struct __data *elp;
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struct __head *hp;
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hp = area;
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SH_LIST_INIT(hp);
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elp = (struct __data *)(hp + 1);
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elp->len = size - sizeof(struct __head) - sizeof(elp->len);
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SH_LIST_INSERT_HEAD(hp, elp, links, __data);
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}
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/*
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* __db_shalloc --
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* Allocate some space from the shared region.
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*
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* PUBLIC: int __db_shalloc __P((void *, size_t, size_t, void *));
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*/
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int
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__db_shalloc(p, len, align, retp)
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void *p, *retp;
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size_t len, align;
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{
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struct __data *elp;
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size_t *sp;
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void *rp;
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/*
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* We never allocate less than the size of a struct __data, align
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* to less than a size_t boundary, or align to something that's not
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* a multiple of a size_t.
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*/
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if (len < sizeof(struct __data))
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len = sizeof(struct __data);
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align = align <= sizeof(size_t) ?
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sizeof(size_t) : ALIGN(align, sizeof(size_t));
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/* Walk the list, looking for a slot. */
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for (elp = SH_LIST_FIRST((struct __head *)p, __data);
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elp != NULL;
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elp = SH_LIST_NEXT(elp, links, __data)) {
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/*
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* Calculate the value of the returned pointer if we were to
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* use this chunk.
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* + Find the end of the chunk.
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* + Subtract the memory the user wants.
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* + Find the closest previous correctly-aligned address.
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*/
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rp = (u_int8_t *)elp + sizeof(size_t) + elp->len;
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rp = (u_int8_t *)rp - len;
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rp = (u_int8_t *)((ALIGNTYPE)rp & ~(align - 1));
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/*
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* Rp may now point before elp->links, in which case the chunk
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* was too small, and we have to try again.
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*/
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if ((u_int8_t *)rp < (u_int8_t *)&elp->links)
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continue;
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*(void **)retp = rp;
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#define SHALLOC_FRAGMENT 32
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/*
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* If there are at least SHALLOC_FRAGMENT additional bytes of
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* memory, divide the chunk into two chunks.
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*/
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if ((u_int8_t *)rp >=
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(u_int8_t *)&elp->links + SHALLOC_FRAGMENT) {
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sp = rp;
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*--sp = elp->len -
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((u_int8_t *)rp - (u_int8_t *)&elp->links);
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elp->len -= *sp + sizeof(size_t);
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return (0);
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}
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/*
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* Otherwise, we return the entire chunk, wasting some amount
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* of space to keep the list compact. However, because the
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* address we're returning to the user may not be the address
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* of the start of the region for alignment reasons, set the
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* size_t length fields back to the "real" length field to a
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* flag value, so that we can find the real length during free.
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*/
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#define ILLEGAL_SIZE 1
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SH_LIST_REMOVE(elp, links, __data);
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for (sp = rp; (u_int8_t *)--sp >= (u_int8_t *)&elp->links;)
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*sp = ILLEGAL_SIZE;
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return (0);
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}
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/* Nothing found large enough; need to grow the region. */
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return (ENOMEM);
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}
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/*
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* __db_shalloc_free --
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* Free a shared memory allocation.
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*
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* PUBLIC: void __db_shalloc_free __P((void *, void *));
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*/
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void
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__db_shalloc_free(regionp, ptr)
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void *regionp, *ptr;
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{
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struct __data *elp, *lastp, *newp;
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struct __head *hp;
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size_t free_size, *sp;
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int merged;
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/*
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* Step back over flagged length fields to find the beginning of
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* the object and its real size.
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*/
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for (sp = (size_t *)ptr; sp[-1] == ILLEGAL_SIZE; --sp)
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;
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ptr = sp;
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newp = (struct __data *)((u_int8_t *)ptr - sizeof(size_t));
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free_size = newp->len;
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/* Trash the returned memory. */
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#ifdef DIAGNOSTIC
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memset(ptr, 0xff, free_size);
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#endif
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/*
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* Walk the list, looking for where this entry goes.
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*
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* We keep the free list sorted by address so that coalescing is
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* trivial.
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*
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* XXX
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* Probably worth profiling this to see how expensive it is.
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*/
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hp = (struct __head *)regionp;
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for (elp = SH_LIST_FIRST(hp, __data), lastp = NULL;
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elp != NULL && (void *)elp < (void *)ptr;
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lastp = elp, elp = SH_LIST_NEXT(elp, links, __data))
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;
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/*
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* Elp is either NULL (we reached the end of the list), or the slot
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* after the one that's being returned. Lastp is either NULL (we're
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* returning the first element of the list) or the element before the
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* one being returned.
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*
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* Check for coalescing with the next element.
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*/
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merged = 0;
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if ((u_int8_t *)ptr + free_size == (u_int8_t *)elp) {
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newp->len += elp->len + sizeof(size_t);
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SH_LIST_REMOVE(elp, links, __data);
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if (lastp != NULL)
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SH_LIST_INSERT_AFTER(lastp, newp, links, __data);
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else
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SH_LIST_INSERT_HEAD(hp, newp, links, __data);
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merged = 1;
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}
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/* Check for coalescing with the previous element. */
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if (lastp != NULL && (u_int8_t *)lastp +
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lastp->len + sizeof(size_t) == (u_int8_t *)newp) {
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lastp->len += newp->len + sizeof(size_t);
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/*
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* If we have already put the new element into the list take
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* it back off again because it's just been merged with the
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* previous element.
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*/
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if (merged)
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SH_LIST_REMOVE(newp, links, __data);
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merged = 1;
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}
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if (!merged) {
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if (lastp == NULL)
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SH_LIST_INSERT_HEAD(hp, newp, links, __data);
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else
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SH_LIST_INSERT_AFTER(lastp, newp, links, __data);
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}
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}
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/*
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* __db_shalloc_count --
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* Return the amount of memory on the free list.
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*
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* PUBLIC: size_t __db_shalloc_count __P((void *));
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*/
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size_t
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__db_shalloc_count(addr)
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void *addr;
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{
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struct __data *elp;
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size_t count;
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count = 0;
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for (elp = SH_LIST_FIRST((struct __head *)addr, __data);
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elp != NULL;
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elp = SH_LIST_NEXT(elp, links, __data))
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count += elp->len;
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return (count);
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}
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/*
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* __db_shsizeof --
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* Return the size of a shalloc'd piece of memory.
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*
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* PUBLIC: size_t __db_shsizeof __P((void *));
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*/
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size_t
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__db_shsizeof(ptr)
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void *ptr;
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{
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struct __data *elp;
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size_t *sp;
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/*
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* Step back over flagged length fields to find the beginning of
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* the object and its real size.
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*/
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for (sp = (size_t *)ptr; sp[-1] == ILLEGAL_SIZE; --sp)
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;
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elp = (struct __data *)((u_int8_t *)sp - sizeof(size_t));
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return (elp->len);
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}
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/*
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* __db_shalloc_dump --
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*
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* PUBLIC: void __db_shalloc_dump __P((void *, FILE *));
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*/
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void
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__db_shalloc_dump(addr, fp)
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void *addr;
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FILE *fp;
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{
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struct __data *elp;
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/* Make it easy to call from the debugger. */
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if (fp == NULL)
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fp = stderr;
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fprintf(fp, "%s\nMemory free list\n", DB_LINE);
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for (elp = SH_LIST_FIRST((struct __head *)addr, __data);
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elp != NULL;
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elp = SH_LIST_NEXT(elp, links, __data))
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fprintf(fp, "%#lx: %lu\t", (u_long)elp, (u_long)elp->len);
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fprintf(fp, "\n");
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}
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