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fa4b497eb8
in $TMP, $TMPDIR or $TEMP, if possible. On windows, temporary DB files are now opened in binary mode and are removed when the progam terminates or the DB is closed. Multiple temp DB files can now be created in the same program. EOF value on disk is now updated when file is extended.
338 lines
12 KiB
C
338 lines
12 KiB
C
/*-
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* Copyright (c) 1990, 1993, 1994
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* The Regents of the University of California. All rights reserved.
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*
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* This code is derived from software contributed to Berkeley by
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* Margo Seltzer.
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*
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* Redistribution and use in source and binary forms, with or without
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* modification, are permitted provided that the following conditions
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* are met:
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* 1. Redistributions of source code must retain the above copyright
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* notice, this list of conditions and the following disclaimer.
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* 2. Redistributions in binary form must reproduce the above copyright
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* notice, this list of conditions and the following disclaimer in the
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* documentation and/or other materials provided with the distribution.
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* 3. All advertising materials mentioning features or use of this software
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* must display the following acknowledgement:
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* This product includes software developed by the University of
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* California, Berkeley and its contributors.
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* 4. Neither the name of the University nor the names of its contributors
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* may be used to endorse or promote products derived from this software
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* without specific prior written permission.
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*
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* THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND
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* ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
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* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
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* ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE
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* FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
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* DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
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* OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
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* HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
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* LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
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* OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
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* SUCH DAMAGE.
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*
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* @(#)hash.h 8.3 (Berkeley) 5/31/94
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*/
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/* Operations */
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#include <stdio.h>
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#include "mcom_db.h"
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typedef enum {
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HASH_GET, HASH_PUT, HASH_PUTNEW, HASH_DELETE, HASH_FIRST, HASH_NEXT
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} ACTION;
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/* Buffer Management structures */
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typedef struct _bufhead BUFHEAD;
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struct _bufhead {
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BUFHEAD *prev; /* LRU links */
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BUFHEAD *next; /* LRU links */
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BUFHEAD *ovfl; /* Overflow page buffer header */
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uint32 addr; /* Address of this page */
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char *page; /* Actual page data */
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char is_disk;
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char flags;
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#define BUF_MOD 0x0001
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#define BUF_DISK 0x0002
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#define BUF_BUCKET 0x0004
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#define BUF_PIN 0x0008
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};
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#define IS_BUCKET(X) ((X) & BUF_BUCKET)
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typedef BUFHEAD **SEGMENT;
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typedef int DBFILE_PTR;
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#define NO_FILE -1
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#ifdef macintosh
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#define DBFILE_OPEN(path, flag,mode) open((path), flag)
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#define EXISTS(path)
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#else
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#define DBFILE_OPEN(path, flag,mode) open((path), (flag), (mode))
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#endif
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/* Hash Table Information */
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typedef struct hashhdr { /* Disk resident portion */
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int32 magic; /* Magic NO for hash tables */
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int32 version; /* Version ID */
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uint32 lorder; /* Byte Order */
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int32 bsize; /* Bucket/Page Size */
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int32 bshift; /* Bucket shift */
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int32 dsize; /* Directory Size */
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int32 ssize; /* Segment Size */
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int32 sshift; /* Segment shift */
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int32 ovfl_point; /* Where overflow pages are being
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* allocated */
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int32 last_freed; /* Last overflow page freed */
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int32 max_bucket; /* ID of Maximum bucket in use */
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int32 high_mask; /* Mask to modulo into entire table */
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int32 low_mask; /* Mask to modulo into lower half of
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* table */
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int32 ffactor; /* Fill factor */
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int32 nkeys; /* Number of keys in hash table */
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int32 hdrpages; /* Size of table header */
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int32 h_charkey; /* value of hash(CHARKEY) */
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#define NCACHED 32 /* number of bit maps and spare
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* points */
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int32 spares[NCACHED];/* spare pages for overflow */
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uint16 bitmaps[NCACHED]; /* address of overflow page
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* bitmaps */
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} HASHHDR;
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typedef struct htab { /* Memory resident data structure */
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HASHHDR hdr; /* Header */
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int nsegs; /* Number of allocated segments */
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int exsegs; /* Number of extra allocated
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* segments */
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uint32 /* Hash function */
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(*hash)(const void *, size_t);
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int flags; /* Flag values */
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DBFILE_PTR fp; /* File pointer */
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char *filename;
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char *tmp_buf; /* Temporary Buffer for BIG data */
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char *tmp_key; /* Temporary Buffer for BIG keys */
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BUFHEAD *cpage; /* Current page */
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int cbucket; /* Current bucket */
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int cndx; /* Index of next item on cpage */
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int dbmerrno; /* Error Number -- for DBM
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* compatability */
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int new_file; /* Indicates if fd is backing store
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* or no */
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int save_file; /* Indicates whether we need to flush
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* file at
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* exit */
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uint32 *mapp[NCACHED]; /* Pointers to page maps */
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int nmaps; /* Initial number of bitmaps */
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int nbufs; /* Number of buffers left to
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* allocate */
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BUFHEAD bufhead; /* Header of buffer lru list */
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SEGMENT *dir; /* Hash Bucket directory */
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off_t file_size; /* in bytes */
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char is_temp; /* unlink file on close */
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char updateEOF; /* close and reopen on flush */
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} HTAB;
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/*
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* Constants
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*/
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#define DATABASE_CORRUPTED_ERROR -999 /* big ugly abort, delete database */
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#define OLD_MAX_BSIZE 65536 /* 2^16 */
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#define MAX_BSIZE 32l*1024l /* 2^15 */
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#define MIN_BUFFERS 6
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#define MINHDRSIZE 512
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#define DEF_BUFSIZE 65536l /* 64 K */
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#define DEF_BUCKET_SIZE 4096
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#define DEF_BUCKET_SHIFT 12 /* log2(BUCKET) */
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#define DEF_SEGSIZE 256
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#define DEF_SEGSIZE_SHIFT 8 /* log2(SEGSIZE) */
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#define DEF_DIRSIZE 256
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#define DEF_FFACTOR 65536l
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#define MIN_FFACTOR 4
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#define SPLTMAX 8
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#define CHARKEY "%$sniglet^&"
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#define NUMKEY 1038583l
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#define BYTE_SHIFT 3
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#define INT_TO_BYTE 2
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#define INT_BYTE_SHIFT 5
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#define ALL_SET ((uint32)0xFFFFFFFF)
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#define ALL_CLEAR 0
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#define PTROF(X) ((ptrdiff_t)(X) == BUF_DISK ? 0 : (X))
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#define ISDISK(X) ((X) ? ((ptrdiff_t)(X) == BUF_DISK ? BUF_DISK \
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: (X)->is_disk) : 0)
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#define BITS_PER_MAP 32
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/* Given the address of the beginning of a big map, clear/set the nth bit */
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#define CLRBIT(A, N) ((A)[(N)/BITS_PER_MAP] &= ~(1<<((N)%BITS_PER_MAP)))
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#define SETBIT(A, N) ((A)[(N)/BITS_PER_MAP] |= (1<<((N)%BITS_PER_MAP)))
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#define ISSET(A, N) ((A)[(N)/BITS_PER_MAP] & (1<<((N)%BITS_PER_MAP)))
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/* Overflow management */
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/*
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* Overflow page numbers are allocated per split point. At each doubling of
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* the table, we can allocate extra pages. So, an overflow page number has
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* the top 5 bits indicate which split point and the lower 11 bits indicate
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* which page at that split point is indicated (pages within split points are
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* numberered starting with 1).
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*/
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#define SPLITSHIFT 11
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#define SPLITMASK 0x7FF
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#define SPLITNUM(N) (((uint32)(N)) >> SPLITSHIFT)
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#define OPAGENUM(N) ((N) & SPLITMASK)
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#define OADDR_OF(S,O) ((uint32)((uint32)(S) << SPLITSHIFT) + (O))
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#define BUCKET_TO_PAGE(B) \
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(B) + hashp->HDRPAGES + ((B) ? hashp->SPARES[__log2((uint32)((B)+1))-1] : 0)
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#define OADDR_TO_PAGE(B) \
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BUCKET_TO_PAGE ( (1 << SPLITNUM((B))) -1 ) + OPAGENUM((B));
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/*
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* page.h contains a detailed description of the page format.
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*
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* Normally, keys and data are accessed from offset tables in the top of
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* each page which point to the beginning of the key and data. There are
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* four flag values which may be stored in these offset tables which indicate
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* the following:
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*
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*
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* OVFLPAGE Rather than a key data pair, this pair contains
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* the address of an overflow page. The format of
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* the pair is:
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* OVERFLOW_PAGE_NUMBER OVFLPAGE
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*
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* PARTIAL_KEY This must be the first key/data pair on a page
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* and implies that page contains only a partial key.
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* That is, the key is too big to fit on a single page
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* so it starts on this page and continues on the next.
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* The format of the page is:
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* KEY_OFF PARTIAL_KEY OVFL_PAGENO OVFLPAGE
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*
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* KEY_OFF -- offset of the beginning of the key
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* PARTIAL_KEY -- 1
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* OVFL_PAGENO - page number of the next overflow page
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* OVFLPAGE -- 0
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*
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* FULL_KEY This must be the first key/data pair on the page. It
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* is used in two cases.
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*
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* Case 1:
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* There is a complete key on the page but no data
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* (because it wouldn't fit). The next page contains
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* the data.
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*
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* Page format it:
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* KEY_OFF FULL_KEY OVFL_PAGENO OVFL_PAGE
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*
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* KEY_OFF -- offset of the beginning of the key
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* FULL_KEY -- 2
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* OVFL_PAGENO - page number of the next overflow page
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* OVFLPAGE -- 0
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*
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* Case 2:
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* This page contains no key, but part of a large
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* data field, which is continued on the next page.
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*
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* Page format it:
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* DATA_OFF FULL_KEY OVFL_PAGENO OVFL_PAGE
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*
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* KEY_OFF -- offset of the beginning of the data on
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* this page
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* FULL_KEY -- 2
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* OVFL_PAGENO - page number of the next overflow page
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* OVFLPAGE -- 0
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*
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* FULL_KEY_DATA
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* This must be the first key/data pair on the page.
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* There are two cases:
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*
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* Case 1:
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* This page contains a key and the beginning of the
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* data field, but the data field is continued on the
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* next page.
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*
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* Page format is:
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* KEY_OFF FULL_KEY_DATA OVFL_PAGENO DATA_OFF
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*
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* KEY_OFF -- offset of the beginning of the key
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* FULL_KEY_DATA -- 3
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* OVFL_PAGENO - page number of the next overflow page
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* DATA_OFF -- offset of the beginning of the data
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*
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* Case 2:
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* This page contains the last page of a big data pair.
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* There is no key, only the tail end of the data
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* on this page.
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*
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* Page format is:
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* DATA_OFF FULL_KEY_DATA <OVFL_PAGENO> <OVFLPAGE>
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*
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* DATA_OFF -- offset of the beginning of the data on
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* this page
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* FULL_KEY_DATA -- 3
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* OVFL_PAGENO - page number of the next overflow page
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* OVFLPAGE -- 0
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*
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* OVFL_PAGENO and OVFLPAGE are optional (they are
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* not present if there is no next page).
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*/
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#define OVFLPAGE 0
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#define PARTIAL_KEY 1
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#define FULL_KEY 2
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#define FULL_KEY_DATA 3
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#define REAL_KEY 4
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/* Short hands for accessing structure */
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#undef BSIZE
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#define BSIZE hdr.bsize
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#undef BSHIFT
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#define BSHIFT hdr.bshift
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#define DSIZE hdr.dsize
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#define SGSIZE hdr.ssize
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#define SSHIFT hdr.sshift
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#define LORDER hdr.lorder
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#define OVFL_POINT hdr.ovfl_point
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#define LAST_FREED hdr.last_freed
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#define MAX_BUCKET hdr.max_bucket
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#define FFACTOR hdr.ffactor
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#define HIGH_MASK hdr.high_mask
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#define LOW_MASK hdr.low_mask
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#define NKEYS hdr.nkeys
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#define HDRPAGES hdr.hdrpages
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#define SPARES hdr.spares
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#define BITMAPS hdr.bitmaps
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#define VERSION hdr.version
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#define MAGIC hdr.magic
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#define NEXT_FREE hdr.next_free
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#define H_CHARKEY hdr.h_charkey
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extern uint32 (*__default_hash) (const void *, size_t);
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void __buf_init(HTAB *hashp, int32 nbytes);
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int __big_delete(HTAB *hashp, BUFHEAD *bufp);
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BUFHEAD * __get_buf(HTAB *hashp, uint32 addr, BUFHEAD *prev_bp, int newpage);
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uint32 __call_hash(HTAB *hashp, char *k, size_t len);
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#include "page.h"
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extern int __big_split(HTAB *hashp, BUFHEAD *op,BUFHEAD *np,
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BUFHEAD *big_keyp,uint32 addr,uint32 obucket, SPLIT_RETURN *ret);
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void __free_ovflpage(HTAB *hashp, BUFHEAD *obufp);
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BUFHEAD * __add_ovflpage(HTAB *hashp, BUFHEAD *bufp);
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int __big_insert(HTAB *hashp, BUFHEAD *bufp, const DBT *key, const DBT *val);
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int __expand_table(HTAB *hashp);
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uint32 __log2(uint32 num);
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void __reclaim_buf(HTAB *hashp, BUFHEAD *bp);
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int __get_page(HTAB *hashp, char * p, uint32 bucket, int is_bucket, int is_disk, int is_bitmap);
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int __put_page(HTAB *hashp, char *p, uint32 bucket, int is_bucket, int is_bitmap);
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int __ibitmap(HTAB *hashp, int pnum, int nbits, int ndx);
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int __buf_free(HTAB *hashp, int do_free, int to_disk);
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int __find_bigpair(HTAB *hashp, BUFHEAD *bufp, int ndx, char *key, int size);
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uint16 __find_last_page(HTAB *hashp, BUFHEAD **bpp);
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int __addel(HTAB *hashp, BUFHEAD *bufp, const DBT *key, const DBT * val);
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int __big_return(HTAB *hashp, BUFHEAD *bufp, int ndx, DBT *val, int set_current);
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int __delpair(HTAB *hashp, BUFHEAD *bufp, int ndx);
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int __big_keydata(HTAB *hashp, BUFHEAD *bufp, DBT *key, DBT *val, int set);
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int __split_page(HTAB *hashp, uint32 obucket, uint32 nbucket);
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