acl/lib_dict/bdb/include/db_verify.h

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/*-
2014-11-19 00:25:21 +08:00
* See the file LICENSE for redistribution information.
*
* Copyright (c) 1999-2004
* Sleepycat Software. All rights reserved.
*
* $Id: db_verify.h,v 1.34 2004/05/20 14:34:12 bostic Exp $
*/
#ifndef _DB_VERIFY_H_
#define _DB_VERIFY_H_
/*
* Structures and macros for the storage and retrieval of all information
* needed for inter-page verification of a database.
*/
/*
* EPRINT is the macro for error printing. Takes as an arg the arg set
* for DB->err.
*/
#define EPRINT(x) do { \
if (!LF_ISSET(DB_SALVAGE)) \
__db_err x; \
} while (0)
/* For fatal type errors--i.e., verifier bugs. */
#define TYPE_ERR_PRINT(dbenv, func, pgno, ptype) \
EPRINT(((dbenv), \
"Page %lu: %s called on nonsensical page of type %lu", \
(u_long)(pgno), (func), (u_long)(ptype)));
/* Complain about a totally zeroed page where we don't expect one. */
#define ZEROPG_ERR_PRINT(dbenv, pgno, str) do { \
EPRINT(((dbenv), "Page %lu: %s is of inappropriate type %lu", \
(u_long)(pgno), str, (u_long)P_INVALID)); \
EPRINT(((dbenv), "Page %lu: totally zeroed page", \
(u_long)(pgno))); \
} while (0)
/*
* Note that 0 is, in general, a valid pgno, despite equalling PGNO_INVALID;
* we have to test it separately where it's not appropriate.
*/
#define IS_VALID_PGNO(x) ((x) <= vdp->last_pgno)
/*
* Flags understood by the btree structure checks (esp. __bam_vrfy_subtree).
* These share the same space as the global flags to __db_verify, and must not
* dip below 0x00010000.
*/
#define ST_DUPOK 0x00010000 /* Duplicates are acceptable. */
#define ST_DUPSET 0x00020000 /* Subtree is in a duplicate tree. */
#define ST_DUPSORT 0x00040000 /* Duplicates are sorted. */
#define ST_IS_RECNO 0x00080000 /* Subtree is a recno. */
#define ST_OVFL_LEAF 0x00100000 /* Overflow reffed from leaf page. */
#define ST_RECNUM 0x00200000 /* Subtree has record numbering on. */
#define ST_RELEN 0x00400000 /* Subtree has fixed-length records. */
#define ST_TOPLEVEL 0x00800000 /* Subtree == entire tree */
/*
* Flags understood by __bam_salvage and __db_salvage. These need not share
* the same space with the __bam_vrfy_subtree flags, but must share with
* __db_verify.
*/
#define SA_SKIPFIRSTKEY 0x00080000
/*
* VRFY_DBINFO is the fundamental structure; it either represents the database
* of subdatabases, or the sole database if there are no subdatabases.
*/
struct __vrfy_dbinfo {
/* Info about this database in particular. */
DBTYPE type;
/* List of subdatabase meta pages, if any. */
LIST_HEAD(__subdbs, __vrfy_childinfo) subdbs;
/* File-global info--stores VRFY_PAGEINFOs for each page. */
DB *pgdbp;
/* Child database--stores VRFY_CHILDINFOs of each page. */
DB *cdbp;
/* Page info structures currently in use. */
LIST_HEAD(__activepips, __vrfy_pageinfo) activepips;
/*
* DB we use to keep track of which pages are linked somehow
* during verification. 0 is the default, "unseen"; 1 is seen.
*/
DB *pgset;
/*
* This is a database we use during salvaging to keep track of which
* overflow and dup pages we need to come back to at the end and print
* with key "UNKNOWN". Pages which print with a good key get set
* to SALVAGE_IGNORE; others get set, as appropriate, to SALVAGE_LDUP,
* SALVAGE_LRECNODUP, SALVAGE_OVERFLOW for normal db overflow pages,
* and SALVAGE_BTREE, SALVAGE_LRECNO, and SALVAGE_HASH for subdb
* pages.
*/
#define SALVAGE_INVALID 0
#define SALVAGE_IGNORE 1
#define SALVAGE_LDUP 2
#define SALVAGE_LRECNODUP 3
#define SALVAGE_OVERFLOW 4
#define SALVAGE_LBTREE 5
#define SALVAGE_HASH 6
#define SALVAGE_LRECNO 7
DB *salvage_pages;
db_pgno_t last_pgno;
db_pgno_t pgs_remaining; /* For dbp->db_feedback(). */
/*
* These are used during __bam_vrfy_subtree to keep track, while
* walking up and down the Btree structure, of the prev- and next-page
* chain of leaf pages and verify that it's intact. Also, make sure
* that this chain contains pages of only one type.
*/
db_pgno_t prev_pgno;
db_pgno_t next_pgno;
u_int8_t leaf_type;
/* Queue needs these to verify data pages in the first pass. */
u_int32_t re_len;
u_int32_t rec_page;
u_int32_t page_ext;
u_int32_t first_recno;
u_int32_t last_recno;
int nextents;
db_pgno_t *extents;
#define SALVAGE_PRINTABLE 0x01 /* Output printable chars literally. */
#define SALVAGE_PRINTHEADER 0x02 /* Print the unknown-key header. */
#define SALVAGE_PRINTFOOTER 0x04 /* Print the unknown-key footer. */
#define VRFY_LEAFCHAIN_BROKEN 0x08 /* Lost one or more Btree leaf pgs. */
#define VRFY_QMETA_SET 0x10 /* We've seen a QUEUE meta page and
set things up for it. */
u_int32_t flags;
}; /* VRFY_DBINFO */
/*
* The amount of state information we need per-page is small enough that
* it's not worth the trouble to define separate structures for each
* possible type of page, and since we're doing verification with these we
* have to be open to the possibility that page N will be of a completely
* unexpected type anyway. So we define one structure here with all the
* info we need for inter-page verification.
*/
struct __vrfy_pageinfo {
u_int8_t type;
u_int8_t bt_level;
u_int8_t unused1;
u_int8_t unused2;
db_pgno_t pgno;
db_pgno_t prev_pgno;
db_pgno_t next_pgno;
/* meta pages */
db_pgno_t root;
db_pgno_t free; /* Free list head. */
db_indx_t entries; /* Actual number of entries. */
u_int16_t unused;
db_recno_t rec_cnt; /* Record count. */
u_int32_t re_len; /* Record length. */
u_int32_t bt_minkey;
u_int32_t bt_maxkey;
u_int32_t h_ffactor;
u_int32_t h_nelem;
/* overflow pages */
/*
* Note that refcount is the refcount for an overflow page; pi_refcount
* is this structure's own refcount!
*/
u_int32_t refcount;
u_int32_t olen;
#define VRFY_DUPS_UNSORTED 0x0001 /* Have to flag the negative! */
#define VRFY_HAS_DUPS 0x0002
#define VRFY_HAS_DUPSORT 0x0004 /* Has the flag set. */
#define VRFY_HAS_SUBDBS 0x0008
#define VRFY_HAS_RECNUMS 0x0010
#define VRFY_INCOMPLETE 0x0020 /* Meta or item order checks incomp. */
#define VRFY_IS_ALLZEROES 0x0040 /* Hash page we haven't touched? */
#define VRFY_IS_FIXEDLEN 0x0080
#define VRFY_IS_RECNO 0x0100
#define VRFY_IS_RRECNO 0x0200
#define VRFY_OVFL_LEAFSEEN 0x0400
u_int32_t flags;
LIST_ENTRY(__vrfy_pageinfo) links;
u_int32_t pi_refcount;
}; /* VRFY_PAGEINFO */
struct __vrfy_childinfo {
/* The following fields are set by the caller of __db_vrfy_childput. */
db_pgno_t pgno;
#define V_DUPLICATE 1 /* off-page dup metadata */
#define V_OVERFLOW 2 /* overflow page */
#define V_RECNO 3 /* btree internal or leaf page */
u_int32_t type;
db_recno_t nrecs; /* record count on a btree subtree */
u_int32_t tlen; /* ovfl. item total size */
/* The following field is maintained by __db_vrfy_childput. */
u_int32_t refcnt; /* # of times parent points to child. */
LIST_ENTRY(__vrfy_childinfo) links;
}; /* VRFY_CHILDINFO */
#endif /* !_DB_VERIFY_H_ */