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9697f95b8f
This reverts commit 15d999759e
.
304 lines
11 KiB
C
304 lines
11 KiB
C
/*-
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* See the file LICENSE for redistribution information.
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*
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* Copyright (c) 1998-2004
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* Sleepycat Software. All rights reserved.
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*
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* $Id: region.h,v 11.51 2004/10/15 16:59:39 bostic Exp $
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*/
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#ifndef _DB_REGION_H_
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#define _DB_REGION_H_
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/*
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* The DB environment consists of some number of "regions", which are described
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* by the following four structures:
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*
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* REGENV -- shared information about the environment
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* REGENV_REF -- file describing system memory version of REGENV
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* REGION -- shared information about a single region
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* REGINFO -- per-process information about a REGION
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*
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* There are three types of memory that hold regions:
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* per-process heap (malloc)
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* file mapped into memory (mmap, MapViewOfFile)
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* system memory (shmget, CreateFileMapping)
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*
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* If the regions are private to a process, they're in malloc. If they're
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* public, they're in file mapped memory, or, optionally, in system memory.
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* Regions in the filesystem are named "__db.001", "__db.002" and so on. If
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* we're not using a private environment allocated using malloc(3), the file
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* "__db.001" will always exist, as we use it to synchronize on the regions,
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* whether they exist in file mapped memory or system memory.
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*
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* The file "__db.001" contains a REGENV structure and a linked list of some
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* number of REGION structures. Each of the REGION structures describes and
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* locks one of the underlying shared regions used by DB.
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*
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* __db.001
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* +---------+
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* |REGENV |
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* +---------+ +----------+
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* |REGION |-> | __db.002 |
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* | | +----------+
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* +---------+ +----------+
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* |REGION |-> | __db.003 |
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* | | +----------+
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* +---------+ +----------+
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* |REGION |-> | __db.004 |
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* | | +----------+
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* +---------+
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*
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* The only tricky part about manipulating the regions is correctly creating
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* or joining the REGENV file, i.e., __db.001. We have to be absolutely sure
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* that only one process creates it, and that everyone else joins it without
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* seeing inconsistent data. Once that region is created, we can use normal
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* shared locking procedures to do mutual exclusion for all other regions.
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*
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* One of the REGION structures in the main environment region describes the
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* environment region itself.
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*
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* To lock a region, locate the REGION structure that describes it and acquire
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* the region's mutex. There is one exception to this rule -- the lock for the
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* environment region itself is in the REGENV structure, and not in the REGION
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* that describes the environment region. That's so that we can acquire a lock
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* without walking linked lists that could potentially change underneath us.
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* The REGION will not be moved or removed during the life of the region, and
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* so long-lived references to it can be held by the process.
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*
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* All requests to create or join a region return a REGINFO structure, which
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* is held by the caller and used to open and subsequently close the reference
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* to the region. The REGINFO structure contains the per-process information
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* that we need to access the region.
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*
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* The one remaining complication. If the regions (including the environment
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* region) live in system memory, and the system memory isn't "named" somehow
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* in the filesystem name space, we need some way of finding it. Do this by
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* by writing the REGENV_REF structure into the "__db.001" file. When we find
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* a __db.001 file that is too small to be a real, on-disk environment, we use
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* the information it contains to redirect to the real "__db.001" file/memory.
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* This currently only happens when the REGENV file is in shared system memory.
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*
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* Although DB does not currently grow regions when they run out of memory, it
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* would be possible to do so. To grow a region, allocate a new region of the
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* appropriate size, then copy the old region over it and insert the additional
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* space into the already existing shalloc arena. Callers may have to fix up
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* local references, but that should be easy to do. This failed in historic
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* versions of DB because the region lock lived in the mapped memory, and when
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* it was unmapped and remapped (or copied), threads could lose track of it.
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* Once we moved that lock into a region that is never unmapped, growing should
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* work. That all said, current versions of DB don't implement region grow
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* because some systems don't support mutex copying, e.g., from OSF1 V4.0:
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*
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* The address of an msemaphore structure may be significant. If the
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* msemaphore structure contains any value copied from an msemaphore
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* structure at a different address, the result is undefined.
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*/
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#if defined(__cplusplus)
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extern "C" {
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#endif
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#define DB_REGION_PREFIX "__db" /* DB file name prefix. */
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#define DB_REGION_FMT "__db.%03d" /* Region file name format. */
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#define DB_REGION_ENV "__db.001" /* Primary environment name. */
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#define DB_REGION_NAME_LENGTH 8 /* Length of file names. */
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#define INVALID_REGION_ID 0 /* Out-of-band region ID. */
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#define REGION_ID_ENV 1 /* Primary environment ID. */
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typedef enum {
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INVALID_REGION_TYPE=0, /* Region type. */
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REGION_TYPE_ENV,
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REGION_TYPE_LOCK,
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REGION_TYPE_LOG,
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REGION_TYPE_MPOOL,
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REGION_TYPE_MUTEX,
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REGION_TYPE_TXN } reg_type_t;
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#define INVALID_REGION_SEGID -1 /* Segment IDs are either shmget(2) or
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* Win16 segment identifiers. They are
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* both stored in a "long", and we need
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* an out-of-band value.
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*/
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/*
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* Nothing can live at region offset 0, because, in all cases, that's where
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* we store *something*. Lots of code needs an out-of-band value for region
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* offsets, so we use 0.
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*/
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#define INVALID_ROFF 0
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/* Reference describing system memory version of REGENV. */
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typedef struct __db_reg_env_ref {
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roff_t size; /* Region size. */
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long segid; /* UNIX shmget ID, VxWorks ID. */
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} REGENV_REF;
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/* Per-environment region information. */
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typedef struct __db_reg_env {
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/*
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* !!!
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* The mutex must be the first entry in the structure to guarantee
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* correct alignment.
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*/
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DB_MUTEX mutex; /* Environment mutex. */
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/*
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* !!!
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* Note, the magic and panic fields are NOT protected by any mutex,
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* and for this reason cannot be anything more complicated than a
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* zero/non-zero value.
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*/
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u_int32_t magic; /* Valid region magic number. */
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u_int32_t envid; /* Unique environment ID. */
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int envpanic; /* Environment is dead. */
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int majver; /* Major DB version number. */
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int minver; /* Minor DB version number. */
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int patch; /* Patch DB version number. */
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u_int32_t init_flags; /* Flags the env was initialized with.*/
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roff_t cipher_off; /* Offset of cipher area */
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/* List of regions. */
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SH_LIST_HEAD(__db_regionh) regionq;
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u_int32_t refcnt; /* References to the environment. */
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roff_t rep_off; /* Offset of the replication area. */
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#define DB_REGENV_REPLOCKED 0x0001 /* Env locked for rep backup. */
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u_int32_t flags; /* Shared environment flags. */
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#define DB_REGENV_TIMEOUT 30 /* Backup timeout. */
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time_t op_timestamp; /* Timestamp for operations. */
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time_t rep_timestamp; /* Timestamp for rep db handles. */
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size_t pad; /* Guarantee that following memory is
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* size_t aligned. This is necessary
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* because we're going to store the
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* allocation region information there.
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*/
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} REGENV;
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/* Per-region shared region information. */
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typedef struct __db_region {
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/*
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* !!!
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* The mutex must be the first entry in the structure to guarantee
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* correct alignment.
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*/
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DB_MUTEX mutex; /* Region mutex. */
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SH_LIST_ENTRY q; /* Linked list of REGIONs. */
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reg_type_t type; /* Region type. */
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u_int32_t id; /* Region id. */
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roff_t size_orig; /* Region size in bytes (original). */
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roff_t size; /* Region size in bytes (adjusted). */
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roff_t primary; /* Primary data structure offset. */
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long segid; /* UNIX shmget(2), Win16 segment ID. */
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} REGION;
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/*
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* Per-process/per-attachment information about a single region.
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*/
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struct __db_reginfo_t { /* __db_r_attach IN parameters. */
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DB_ENV *dbenv; /* Enclosing environment. */
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reg_type_t type; /* Region type. */
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u_int32_t id; /* Region id. */
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/* __db_r_attach OUT parameters. */
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REGION *rp; /* Shared region. */
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char *name; /* Region file name. */
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void *addr_orig; /* Region address (original). */
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void *addr; /* Region address (adjusted). */
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void *primary; /* Primary data structure address. */
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size_t max_alloc; /* Maximum bytes allocated. */
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size_t allocated; /* Bytes allocated. */
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#ifdef DB_WIN32
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HANDLE wnt_handle; /* Win/NT HANDLE. */
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#endif
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#define REGION_CREATE 0x01 /* Caller created region. */
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#define REGION_CREATE_OK 0x02 /* Caller willing to create region. */
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#define REGION_JOIN_OK 0x04 /* Caller is looking for a match. */
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u_int32_t flags;
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};
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/*
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* Mutex maintenance information each subsystem region must keep track
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* of to manage resources adequately.
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*/
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typedef struct __db_regmaint_stat_t {
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u_int32_t st_hint_hit;
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u_int32_t st_hint_miss;
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u_int32_t st_records;
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u_int32_t st_clears;
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u_int32_t st_destroys;
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u_int32_t st_max_locks;
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} REGMAINT_STAT;
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typedef struct __db_regmaint_t {
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u_int32_t reglocks; /* Maximum # of mutexes we track. */
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u_int32_t regmutex_hint; /* Hint for next slot */
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REGMAINT_STAT stat; /* Stats */
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roff_t regmutexes[1]; /* Region mutexes in use. */
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} REGMAINT;
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/*
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* R_ADDR Return a per-process address for a shared region offset.
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* R_OFFSET Return a shared region offset for a per-process address.
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*/
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#define R_ADDR(reginfop, offset) \
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(F_ISSET((reginfop)->dbenv, DB_ENV_PRIVATE) ? (void *)(offset) :\
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(void *)((u_int8_t *)((reginfop)->addr) + (offset)))
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#define R_OFFSET(reginfop, p) \
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(F_ISSET((reginfop)->dbenv, DB_ENV_PRIVATE) ? (roff_t)(p) : \
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(roff_t)((u_int8_t *)(p) - (u_int8_t *)(reginfop)->addr))
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/*
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* R_LOCK Lock/unlock a region.
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* R_UNLOCK
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*/
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#define R_LOCK(dbenv, reginfo) \
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MUTEX_LOCK(dbenv, &(reginfo)->rp->mutex)
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#define R_UNLOCK(dbenv, reginfo) \
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MUTEX_UNLOCK(dbenv, &(reginfo)->rp->mutex)
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/* PANIC_CHECK: Check to see if the DB environment is dead. */
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#define PANIC_CHECK(dbenv) \
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if (!F_ISSET((dbenv), DB_ENV_NOPANIC) && \
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(dbenv)->reginfo != NULL && ((REGENV *) \
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((REGINFO *)(dbenv)->reginfo)->primary)->envpanic != 0) \
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return (__db_panic_msg(dbenv));
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#define PANIC_SET(dbenv, onoff) \
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if ((dbenv)->reginfo != NULL) \
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((REGENV *)((REGINFO *) \
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(dbenv)->reginfo)->primary)->envpanic = (onoff);
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/*
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* All regions are created on 8K boundaries out of sheer paranoia, so we
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* don't make some underlying VM unhappy. Make sure we don't overflow or
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* underflow.
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*/
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#define OS_VMPAGESIZE (8 * 1024)
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#define OS_VMROUNDOFF(i) { \
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if ((i) < \
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(UINT32_MAX - OS_VMPAGESIZE) + 1 || (i) < OS_VMPAGESIZE) \
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(i) += OS_VMPAGESIZE - 1; \
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(i) -= (i) % OS_VMPAGESIZE; \
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}
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#if defined(__cplusplus)
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}
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#endif
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#endif /* !_DB_REGION_H_ */
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