ok
Direktori : /proc/self/root/proc/self/root/usr/include/libdb/ |
Current File : //proc/self/root/proc/self/root/usr/include/libdb/db.h |
/* * See the file LICENSE for redistribution information. * * Copyright (c) 1996, 2012 Oracle and/or its affiliates. All rights reserved. * * $Id$ * * db.h include file layout: * General. * Database Environment. * Locking subsystem. * Logging subsystem. * Shared buffer cache (mpool) subsystem. * Transaction subsystem. * Access methods. * Access method cursors. * Dbm/Ndbm, Hsearch historic interfaces. */ #ifndef _DB_H_ #define _DB_H_ #ifndef __NO_SYSTEM_INCLUDES #include <sys/types.h> #include <inttypes.h> #include <stdint.h> #include <stddef.h> #include <stdio.h> #include <unistd.h> #include <pthread.h> #endif #if defined(__cplusplus) extern "C" { #endif #undef __P #define __P(protos) protos /* * Berkeley DB version information. */ #define DB_VERSION_FAMILY 11 #define DB_VERSION_RELEASE 2 #define DB_VERSION_MAJOR 5 #define DB_VERSION_MINOR 3 #define DB_VERSION_PATCH 21 #define DB_VERSION_STRING "Berkeley DB 5.3.21: (May 11, 2012)" #define DB_VERSION_FULL_STRING "Berkeley DB 11g Release 2, library version 11.2.5.3.21: (May 11, 2012)" /* * !!! * Berkeley DB uses specifically sized types. If they're not provided by * the system, typedef them here. * * We protect them against multiple inclusion using __BIT_TYPES_DEFINED__, * as does BIND and Kerberos, since we don't know for sure what #include * files the user is using. * * !!! * We also provide the standard u_int, u_long etc., if they're not provided * by the system. */ #ifndef __BIT_TYPES_DEFINED__ #define __BIT_TYPES_DEFINED__ #endif /* * Missing ANSI types. * * uintmax_t -- * Largest unsigned type, used to align structures in memory. We don't store * floating point types in structures, so integral types should be sufficient * (and we don't have to worry about systems that store floats in other than * power-of-2 numbers of bytes). Additionally this fixes compilers that rewrite * structure assignments and ANSI C memcpy calls to be in-line instructions * that happen to require alignment. * * uintptr_t -- * Unsigned type that's the same size as a pointer. There are places where * DB modifies pointers by discarding the bottom bits to guarantee alignment. * We can't use uintmax_t, it may be larger than the pointer, and compilers * get upset about that. So far we haven't run on any machine where there's * no unsigned type the same size as a pointer -- here's hoping. */ #ifdef HAVE_MIXED_SIZE_ADDRESSING typedef u_int32_t db_size_t; #else typedef size_t db_size_t; #endif #ifdef HAVE_MIXED_SIZE_ADDRESSING typedef int32_t db_ssize_t; #else typedef ssize_t db_ssize_t; #endif /* * Sequences are only available on machines with 64-bit integral types. */ typedef int64_t db_seq_t; /* Thread and process identification. */ typedef pthread_t db_threadid_t; /* Basic types that are exported or quasi-exported. */ typedef u_int32_t db_pgno_t; /* Page number type. */ typedef u_int16_t db_indx_t; /* Page offset type. */ #define DB_MAX_PAGES 0xffffffff /* >= # of pages in a file */ typedef u_int32_t db_recno_t; /* Record number type. */ #define DB_MAX_RECORDS 0xffffffff /* >= # of records in a tree */ typedef u_int32_t db_timeout_t; /* Type of a timeout. */ /* * Region offsets are the difference between a pointer in a region and the * region's base address. With private environments, both addresses are the * result of calling malloc, and we can't assume anything about what malloc * will return, so region offsets have to be able to hold differences between * arbitrary pointers. */ typedef db_size_t roff_t; /* * Forward structure declarations, so we can declare pointers and * applications can get type checking. */ struct __channel; typedef struct __channel CHANNEL; struct __db; typedef struct __db DB; struct __db_bt_stat; typedef struct __db_bt_stat DB_BTREE_STAT; struct __db_channel; typedef struct __db_channel DB_CHANNEL; struct __db_cipher; typedef struct __db_cipher DB_CIPHER; struct __db_compact; typedef struct __db_compact DB_COMPACT; struct __db_dbt; typedef struct __db_dbt DBT; struct __db_distab; typedef struct __db_distab DB_DISTAB; struct __db_env; typedef struct __db_env DB_ENV; struct __db_h_stat; typedef struct __db_h_stat DB_HASH_STAT; struct __db_heap_rid; typedef struct __db_heap_rid DB_HEAP_RID; struct __db_heap_stat; typedef struct __db_heap_stat DB_HEAP_STAT; struct __db_ilock; typedef struct __db_ilock DB_LOCK_ILOCK; struct __db_lock_hstat; typedef struct __db_lock_hstat DB_LOCK_HSTAT; struct __db_lock_pstat; typedef struct __db_lock_pstat DB_LOCK_PSTAT; struct __db_lock_stat; typedef struct __db_lock_stat DB_LOCK_STAT; struct __db_lock_u; typedef struct __db_lock_u DB_LOCK; struct __db_locker; typedef struct __db_locker DB_LOCKER; struct __db_lockreq; typedef struct __db_lockreq DB_LOCKREQ; struct __db_locktab; typedef struct __db_locktab DB_LOCKTAB; struct __db_log; typedef struct __db_log DB_LOG; struct __db_log_cursor; typedef struct __db_log_cursor DB_LOGC; struct __db_log_stat; typedef struct __db_log_stat DB_LOG_STAT; struct __db_lsn; typedef struct __db_lsn DB_LSN; struct __db_mpool; typedef struct __db_mpool DB_MPOOL; struct __db_mpool_fstat;typedef struct __db_mpool_fstat DB_MPOOL_FSTAT; struct __db_mpool_stat; typedef struct __db_mpool_stat DB_MPOOL_STAT; struct __db_mpoolfile; typedef struct __db_mpoolfile DB_MPOOLFILE; struct __db_mutex_stat; typedef struct __db_mutex_stat DB_MUTEX_STAT; struct __db_mutex_t; typedef struct __db_mutex_t DB_MUTEX; struct __db_mutexmgr; typedef struct __db_mutexmgr DB_MUTEXMGR; struct __db_preplist; typedef struct __db_preplist DB_PREPLIST; struct __db_qam_stat; typedef struct __db_qam_stat DB_QUEUE_STAT; struct __db_rep; typedef struct __db_rep DB_REP; struct __db_rep_stat; typedef struct __db_rep_stat DB_REP_STAT; struct __db_repmgr_conn_err; typedef struct __db_repmgr_conn_err DB_REPMGR_CONN_ERR; struct __db_repmgr_site;typedef struct __db_repmgr_site DB_REPMGR_SITE; struct __db_repmgr_stat;typedef struct __db_repmgr_stat DB_REPMGR_STAT; struct __db_seq_record; typedef struct __db_seq_record DB_SEQ_RECORD; struct __db_seq_stat; typedef struct __db_seq_stat DB_SEQUENCE_STAT; struct __db_site; typedef struct __db_site DB_SITE; struct __db_sequence; typedef struct __db_sequence DB_SEQUENCE; struct __db_thread_info;typedef struct __db_thread_info DB_THREAD_INFO; struct __db_txn; typedef struct __db_txn DB_TXN; struct __db_txn_active; typedef struct __db_txn_active DB_TXN_ACTIVE; struct __db_txn_stat; typedef struct __db_txn_stat DB_TXN_STAT; struct __db_txn_token; typedef struct __db_txn_token DB_TXN_TOKEN; struct __db_txnmgr; typedef struct __db_txnmgr DB_TXNMGR; struct __dbc; typedef struct __dbc DBC; struct __dbc_internal; typedef struct __dbc_internal DBC_INTERNAL; struct __env; typedef struct __env ENV; struct __fh_t; typedef struct __fh_t DB_FH; struct __fname; typedef struct __fname FNAME; struct __key_range; typedef struct __key_range DB_KEY_RANGE; struct __mpoolfile; typedef struct __mpoolfile MPOOLFILE; struct __db_logvrfy_config; typedef struct __db_logvrfy_config DB_LOG_VERIFY_CONFIG; /* * The Berkeley DB API flags are automatically-generated -- the following flag * names are no longer used, but remain for compatibility reasons. */ #define DB_DEGREE_2 DB_READ_COMMITTED #define DB_DIRTY_READ DB_READ_UNCOMMITTED #define DB_JOINENV 0x0 /* Key/data structure -- a Data-Base Thang. */ struct __db_dbt { void *data; /* Key/data */ u_int32_t size; /* key/data length */ u_int32_t ulen; /* RO: length of user buffer. */ u_int32_t dlen; /* RO: get/put record length. */ u_int32_t doff; /* RO: get/put record offset. */ void *app_data; #define DB_DBT_APPMALLOC 0x001 /* Callback allocated memory. */ #define DB_DBT_BULK 0x002 /* Internal: Insert if duplicate. */ #define DB_DBT_DUPOK 0x004 /* Internal: Insert if duplicate. */ #define DB_DBT_ISSET 0x008 /* Lower level calls set value. */ #define DB_DBT_MALLOC 0x010 /* Return in malloc'd memory. */ #define DB_DBT_MULTIPLE 0x020 /* References multiple records. */ #define DB_DBT_PARTIAL 0x040 /* Partial put/get. */ #define DB_DBT_REALLOC 0x080 /* Return in realloc'd memory. */ #define DB_DBT_READONLY 0x100 /* Readonly, don't update. */ #define DB_DBT_STREAMING 0x200 /* Internal: DBT is being streamed. */ #define DB_DBT_USERCOPY 0x400 /* Use the user-supplied callback. */ #define DB_DBT_USERMEM 0x800 /* Return in user's memory. */ u_int32_t flags; }; /******************************************************* * Mutexes. *******************************************************/ /* * When mixed size addressing is supported mutexes need to be the same size * independent of the process address size is. */ #ifdef HAVE_MIXED_SIZE_ADDRESSING typedef db_size_t db_mutex_t; #else typedef uintptr_t db_mutex_t; #endif struct __db_mutex_stat { /* SHARED */ /* The following fields are maintained in the region's copy. */ u_int32_t st_mutex_align; /* Mutex alignment */ u_int32_t st_mutex_tas_spins; /* Mutex test-and-set spins */ u_int32_t st_mutex_init; /* Initial mutex count */ u_int32_t st_mutex_cnt; /* Mutex count */ u_int32_t st_mutex_max; /* Mutex max */ u_int32_t st_mutex_free; /* Available mutexes */ u_int32_t st_mutex_inuse; /* Mutexes in use */ u_int32_t st_mutex_inuse_max; /* Maximum mutexes ever in use */ /* The following fields are filled-in from other places. */ #ifndef __TEST_DB_NO_STATISTICS uintmax_t st_region_wait; /* Region lock granted after wait. */ uintmax_t st_region_nowait; /* Region lock granted without wait. */ roff_t st_regsize; /* Region size. */ roff_t st_regmax; /* Region max. */ #endif }; /* This is the length of the buffer passed to DB_ENV->thread_id_string() */ #define DB_THREADID_STRLEN 128 /******************************************************* * Locking. *******************************************************/ #define DB_LOCKVERSION 1 #define DB_FILE_ID_LEN 20 /* Unique file ID length. */ /* * Deadlock detector modes; used in the DB_ENV structure to configure the * locking subsystem. */ #define DB_LOCK_NORUN 0 #define DB_LOCK_DEFAULT 1 /* Default policy. */ #define DB_LOCK_EXPIRE 2 /* Only expire locks, no detection. */ #define DB_LOCK_MAXLOCKS 3 /* Select locker with max locks. */ #define DB_LOCK_MAXWRITE 4 /* Select locker with max writelocks. */ #define DB_LOCK_MINLOCKS 5 /* Select locker with min locks. */ #define DB_LOCK_MINWRITE 6 /* Select locker with min writelocks. */ #define DB_LOCK_OLDEST 7 /* Select oldest locker. */ #define DB_LOCK_RANDOM 8 /* Select random locker. */ #define DB_LOCK_YOUNGEST 9 /* Select youngest locker. */ /* * Simple R/W lock modes and for multi-granularity intention locking. * * !!! * These values are NOT random, as they are used as an index into the lock * conflicts arrays, i.e., DB_LOCK_IWRITE must be == 3, and DB_LOCK_IREAD * must be == 4. */ typedef enum { DB_LOCK_NG=0, /* Not granted. */ DB_LOCK_READ=1, /* Shared/read. */ DB_LOCK_WRITE=2, /* Exclusive/write. */ DB_LOCK_WAIT=3, /* Wait for event */ DB_LOCK_IWRITE=4, /* Intent exclusive/write. */ DB_LOCK_IREAD=5, /* Intent to share/read. */ DB_LOCK_IWR=6, /* Intent to read and write. */ DB_LOCK_READ_UNCOMMITTED=7, /* Degree 1 isolation. */ DB_LOCK_WWRITE=8 /* Was Written. */ } db_lockmode_t; /* * Request types. */ typedef enum { DB_LOCK_DUMP=0, /* Display held locks. */ DB_LOCK_GET=1, /* Get the lock. */ DB_LOCK_GET_TIMEOUT=2, /* Get lock with a timeout. */ DB_LOCK_INHERIT=3, /* Pass locks to parent. */ DB_LOCK_PUT=4, /* Release the lock. */ DB_LOCK_PUT_ALL=5, /* Release locker's locks. */ DB_LOCK_PUT_OBJ=6, /* Release locker's locks on obj. */ DB_LOCK_PUT_READ=7, /* Release locker's read locks. */ DB_LOCK_TIMEOUT=8, /* Force a txn to timeout. */ DB_LOCK_TRADE=9, /* Trade locker ids on a lock. */ DB_LOCK_UPGRADE_WRITE=10 /* Upgrade writes for dirty reads. */ } db_lockop_t; /* * Status of a lock. */ typedef enum { DB_LSTAT_ABORTED=1, /* Lock belongs to an aborted txn. */ DB_LSTAT_EXPIRED=2, /* Lock has expired. */ DB_LSTAT_FREE=3, /* Lock is unallocated. */ DB_LSTAT_HELD=4, /* Lock is currently held. */ DB_LSTAT_PENDING=5, /* Lock was waiting and has been * promoted; waiting for the owner * to run and upgrade it to held. */ DB_LSTAT_WAITING=6 /* Lock is on the wait queue. */ }db_status_t; /* Lock statistics structure. */ struct __db_lock_stat { /* SHARED */ u_int32_t st_id; /* Last allocated locker ID. */ u_int32_t st_cur_maxid; /* Current maximum unused ID. */ u_int32_t st_initlocks; /* Initial number of locks in table. */ u_int32_t st_initlockers; /* Initial num of lockers in table. */ u_int32_t st_initobjects; /* Initial num of objects in table. */ u_int32_t st_locks; /* Current number of locks in table. */ u_int32_t st_lockers; /* Current num of lockers in table. */ u_int32_t st_objects; /* Current num of objects in table. */ u_int32_t st_maxlocks; /* Maximum number of locks in table. */ u_int32_t st_maxlockers; /* Maximum num of lockers in table. */ u_int32_t st_maxobjects; /* Maximum num of objects in table. */ u_int32_t st_partitions; /* number of partitions. */ u_int32_t st_tablesize; /* Size of object hash table. */ int32_t st_nmodes; /* Number of lock modes. */ u_int32_t st_nlockers; /* Current number of lockers. */ #ifndef __TEST_DB_NO_STATISTICS u_int32_t st_nlocks; /* Current number of locks. */ u_int32_t st_maxnlocks; /* Maximum number of locks so far. */ u_int32_t st_maxhlocks; /* Maximum number of locks in any bucket. */ uintmax_t st_locksteals; /* Number of lock steals so far. */ uintmax_t st_maxlsteals; /* Maximum number steals in any partition. */ u_int32_t st_maxnlockers; /* Maximum number of lockers so far. */ u_int32_t st_nobjects; /* Current number of objects. */ u_int32_t st_maxnobjects; /* Maximum number of objects so far. */ u_int32_t st_maxhobjects; /* Maximum number of objectsin any bucket. */ uintmax_t st_objectsteals; /* Number of objects steals so far. */ uintmax_t st_maxosteals; /* Maximum number of steals in any partition. */ uintmax_t st_nrequests; /* Number of lock gets. */ uintmax_t st_nreleases; /* Number of lock puts. */ uintmax_t st_nupgrade; /* Number of lock upgrades. */ uintmax_t st_ndowngrade; /* Number of lock downgrades. */ uintmax_t st_lock_wait; /* Lock conflicts w/ subsequent wait */ uintmax_t st_lock_nowait; /* Lock conflicts w/o subsequent wait */ uintmax_t st_ndeadlocks; /* Number of lock deadlocks. */ db_timeout_t st_locktimeout; /* Lock timeout. */ uintmax_t st_nlocktimeouts; /* Number of lock timeouts. */ db_timeout_t st_txntimeout; /* Transaction timeout. */ uintmax_t st_ntxntimeouts; /* Number of transaction timeouts. */ uintmax_t st_part_wait; /* Partition lock granted after wait. */ uintmax_t st_part_nowait; /* Partition lock granted without wait. */ uintmax_t st_part_max_wait; /* Max partition lock granted after wait. */ uintmax_t st_part_max_nowait; /* Max partition lock granted without wait. */ uintmax_t st_objs_wait; /* Object lock granted after wait. */ uintmax_t st_objs_nowait; /* Object lock granted without wait. */ uintmax_t st_lockers_wait; /* Locker lock granted after wait. */ uintmax_t st_lockers_nowait; /* Locker lock granted without wait. */ uintmax_t st_region_wait; /* Region lock granted after wait. */ uintmax_t st_region_nowait; /* Region lock granted without wait. */ u_int32_t st_hash_len; /* Max length of bucket. */ roff_t st_regsize; /* Region size. */ #endif }; struct __db_lock_hstat { /* SHARED */ uintmax_t st_nrequests; /* Number of lock gets. */ uintmax_t st_nreleases; /* Number of lock puts. */ uintmax_t st_nupgrade; /* Number of lock upgrades. */ uintmax_t st_ndowngrade; /* Number of lock downgrades. */ u_int32_t st_nlocks; /* Current number of locks. */ u_int32_t st_maxnlocks; /* Maximum number of locks so far. */ u_int32_t st_nobjects; /* Current number of objects. */ u_int32_t st_maxnobjects; /* Maximum number of objects so far. */ uintmax_t st_lock_wait; /* Lock conflicts w/ subsequent wait */ uintmax_t st_lock_nowait; /* Lock conflicts w/o subsequent wait */ uintmax_t st_nlocktimeouts; /* Number of lock timeouts. */ uintmax_t st_ntxntimeouts; /* Number of transaction timeouts. */ u_int32_t st_hash_len; /* Max length of bucket. */ }; struct __db_lock_pstat { /* SHARED */ u_int32_t st_nlocks; /* Current number of locks. */ u_int32_t st_maxnlocks; /* Maximum number of locks so far. */ u_int32_t st_nobjects; /* Current number of objects. */ u_int32_t st_maxnobjects; /* Maximum number of objects so far. */ uintmax_t st_locksteals; /* Number of lock steals so far. */ uintmax_t st_objectsteals; /* Number of objects steals so far. */ }; /* * DB_LOCK_ILOCK -- * Internal DB access method lock. */ struct __db_ilock { /* SHARED */ db_pgno_t pgno; /* Page being locked. */ u_int8_t fileid[DB_FILE_ID_LEN];/* File id. */ #define DB_HANDLE_LOCK 1 #define DB_RECORD_LOCK 2 #define DB_PAGE_LOCK 3 #define DB_DATABASE_LOCK 4 u_int32_t type; /* Type of lock. */ }; /* * DB_LOCK -- * The structure is allocated by the caller and filled in during a * lock_get request (or a lock_vec/DB_LOCK_GET). */ struct __db_lock_u { /* SHARED */ roff_t off; /* Offset of the lock in the region */ u_int32_t ndx; /* Index of the object referenced by * this lock; used for locking. */ u_int32_t gen; /* Generation number of this lock. */ db_lockmode_t mode; /* mode of this lock. */ }; /* Lock request structure. */ struct __db_lockreq { db_lockop_t op; /* Operation. */ db_lockmode_t mode; /* Requested mode. */ db_timeout_t timeout; /* Time to expire lock. */ DBT *obj; /* Object being locked. */ DB_LOCK lock; /* Lock returned. */ }; /******************************************************* * Logging. *******************************************************/ #define DB_LOGVERSION 19 /* Current log version. */ #define DB_LOGVERSION_LATCHING 15 /* Log version using latching: db-4.8 */ #define DB_LOGCHKSUM 12 /* Check sum headers: db-4.5 */ #define DB_LOGOLDVER 8 /* Oldest version supported: db-4.2 */ #define DB_LOGMAGIC 0x040988 /* * A DB_LSN has two parts, a fileid which identifies a specific file, and an * offset within that file. The fileid is an unsigned 4-byte quantity that * uniquely identifies a file within the log directory -- currently a simple * counter inside the log. The offset is also an unsigned 4-byte value. The * log manager guarantees the offset is never more than 4 bytes by switching * to a new log file before the maximum length imposed by an unsigned 4-byte * offset is reached. */ struct __db_lsn { /* SHARED */ u_int32_t file; /* File ID. */ u_int32_t offset; /* File offset. */ }; /* * Application-specified log record types start at DB_user_BEGIN, and must not * equal or exceed DB_debug_FLAG. * * DB_debug_FLAG is the high-bit of the u_int32_t that specifies a log record * type. If the flag is set, it's a log record that was logged for debugging * purposes only, even if it reflects a database change -- the change was part * of a non-durable transaction. */ #define DB_user_BEGIN 10000 #define DB_debug_FLAG 0x80000000 /* * DB_LOGC -- * Log cursor. */ struct __db_log_cursor { ENV *env; /* Environment */ DB_FH *fhp; /* File handle. */ DB_LSN lsn; /* Cursor: LSN */ u_int32_t len; /* Cursor: record length */ u_int32_t prev; /* Cursor: previous record's offset */ DBT dbt; /* Return DBT. */ DB_LSN p_lsn; /* Persist LSN. */ u_int32_t p_version; /* Persist version. */ u_int8_t *bp; /* Allocated read buffer. */ u_int32_t bp_size; /* Read buffer length in bytes. */ u_int32_t bp_rlen; /* Read buffer valid data length. */ DB_LSN bp_lsn; /* Read buffer first byte LSN. */ u_int32_t bp_maxrec; /* Max record length in the log file. */ /* DB_LOGC PUBLIC HANDLE LIST BEGIN */ int (*close) __P((DB_LOGC *, u_int32_t)); int (*get) __P((DB_LOGC *, DB_LSN *, DBT *, u_int32_t)); int (*version) __P((DB_LOGC *, u_int32_t *, u_int32_t)); /* DB_LOGC PUBLIC HANDLE LIST END */ #define DB_LOG_DISK 0x01 /* Log record came from disk. */ #define DB_LOG_LOCKED 0x02 /* Log region already locked */ #define DB_LOG_SILENT_ERR 0x04 /* Turn-off error messages. */ u_int32_t flags; }; /* Log statistics structure. */ struct __db_log_stat { /* SHARED */ u_int32_t st_magic; /* Log file magic number. */ u_int32_t st_version; /* Log file version number. */ int32_t st_mode; /* Log file permissions mode. */ u_int32_t st_lg_bsize; /* Log buffer size. */ u_int32_t st_lg_size; /* Log file size. */ u_int32_t st_wc_bytes; /* Bytes to log since checkpoint. */ u_int32_t st_wc_mbytes; /* Megabytes to log since checkpoint. */ u_int32_t st_fileid_init; /* Initial allocation for fileids. */ #ifndef __TEST_DB_NO_STATISTICS u_int32_t st_nfileid; /* Current number of fileids. */ u_int32_t st_maxnfileid; /* Maximum number of fileids used. */ uintmax_t st_record; /* Records entered into the log. */ u_int32_t st_w_bytes; /* Bytes to log. */ u_int32_t st_w_mbytes; /* Megabytes to log. */ uintmax_t st_wcount; /* Total I/O writes to the log. */ uintmax_t st_wcount_fill; /* Overflow writes to the log. */ uintmax_t st_rcount; /* Total I/O reads from the log. */ uintmax_t st_scount; /* Total syncs to the log. */ uintmax_t st_region_wait; /* Region lock granted after wait. */ uintmax_t st_region_nowait; /* Region lock granted without wait. */ u_int32_t st_cur_file; /* Current log file number. */ u_int32_t st_cur_offset; /* Current log file offset. */ u_int32_t st_disk_file; /* Known on disk log file number. */ u_int32_t st_disk_offset; /* Known on disk log file offset. */ u_int32_t st_maxcommitperflush; /* Max number of commits in a flush. */ u_int32_t st_mincommitperflush; /* Min number of commits in a flush. */ roff_t st_regsize; /* Region size. */ #endif }; /* * We need to record the first log record of a transaction. For user * defined logging this macro returns the place to put that information, * if it is need in rlsnp, otherwise it leaves it unchanged. We also * need to track the last record of the transaction, this returns the * place to put that info. */ #define DB_SET_TXN_LSNP(txn, blsnp, llsnp) \ ((txn)->set_txn_lsnp(txn, blsnp, llsnp)) /* * Definition of the structure which specifies marshalling of log records. */ typedef enum { LOGREC_Done, LOGREC_ARG, LOGREC_HDR, LOGREC_DATA, LOGREC_DB, LOGREC_DBOP, LOGREC_DBT, LOGREC_LOCKS, LOGREC_OP, LOGREC_PGDBT, LOGREC_PGDDBT, LOGREC_PGLIST, LOGREC_POINTER, LOGREC_TIME } log_rec_type_t; typedef const struct __log_rec_spec { log_rec_type_t type; u_int32_t offset; const char *name; const char fmt[4]; } DB_LOG_RECSPEC; /* * Size of a DBT in a log record. */ #define LOG_DBT_SIZE(dbt) \ (sizeof(u_int32_t) + ((dbt) == NULL ? 0 : (dbt)->size)) /******************************************************* * Shared buffer cache (mpool). *******************************************************/ /* Priority values for DB_MPOOLFILE->{put,set_priority}. */ typedef enum { DB_PRIORITY_UNCHANGED=0, DB_PRIORITY_VERY_LOW=1, DB_PRIORITY_LOW=2, DB_PRIORITY_DEFAULT=3, DB_PRIORITY_HIGH=4, DB_PRIORITY_VERY_HIGH=5 } DB_CACHE_PRIORITY; /* Per-process DB_MPOOLFILE information. */ struct __db_mpoolfile { DB_FH *fhp; /* Underlying file handle. */ /* * !!! * The ref, pinref and q fields are protected by the region lock. */ u_int32_t ref; /* Reference count. */ u_int32_t pinref; /* Pinned block reference count. */ /* * !!! * Explicit representations of structures from queue.h. * TAILQ_ENTRY(__db_mpoolfile) q; */ struct { struct __db_mpoolfile *tqe_next; struct __db_mpoolfile **tqe_prev; } q; /* Linked list of DB_MPOOLFILE's. */ /* * !!! * The rest of the fields (with the exception of the MP_FLUSH flag) * are not thread-protected, even when they may be modified at any * time by the application. The reason is the DB_MPOOLFILE handle * is single-threaded from the viewpoint of the application, and so * the only fields needing to be thread-protected are those accessed * by checkpoint or sync threads when using DB_MPOOLFILE structures * to flush buffers from the cache. */ ENV *env; /* Environment */ MPOOLFILE *mfp; /* Underlying MPOOLFILE. */ u_int32_t clear_len; /* Cleared length on created pages. */ u_int8_t /* Unique file ID. */ fileid[DB_FILE_ID_LEN]; int ftype; /* File type. */ int32_t lsn_offset; /* LSN offset in page. */ u_int32_t gbytes, bytes; /* Maximum file size. */ DBT *pgcookie; /* Byte-string passed to pgin/pgout. */ int32_t priority; /* Cache priority. */ void *addr; /* Address of mmap'd region. */ size_t len; /* Length of mmap'd region. */ u_int32_t config_flags; /* Flags to DB_MPOOLFILE->set_flags. */ /* DB_MPOOLFILE PUBLIC HANDLE LIST BEGIN */ int (*close) __P((DB_MPOOLFILE *, u_int32_t)); int (*get) __P((DB_MPOOLFILE *, db_pgno_t *, DB_TXN *, u_int32_t, void *)); int (*get_clear_len) __P((DB_MPOOLFILE *, u_int32_t *)); int (*get_fileid) __P((DB_MPOOLFILE *, u_int8_t *)); int (*get_flags) __P((DB_MPOOLFILE *, u_int32_t *)); int (*get_ftype) __P((DB_MPOOLFILE *, int *)); int (*get_last_pgno) __P((DB_MPOOLFILE *, db_pgno_t *)); int (*get_lsn_offset) __P((DB_MPOOLFILE *, int32_t *)); int (*get_maxsize) __P((DB_MPOOLFILE *, u_int32_t *, u_int32_t *)); int (*get_pgcookie) __P((DB_MPOOLFILE *, DBT *)); int (*get_priority) __P((DB_MPOOLFILE *, DB_CACHE_PRIORITY *)); int (*open) __P((DB_MPOOLFILE *, const char *, u_int32_t, int, size_t)); int (*put) __P((DB_MPOOLFILE *, void *, DB_CACHE_PRIORITY, u_int32_t)); int (*set_clear_len) __P((DB_MPOOLFILE *, u_int32_t)); int (*set_fileid) __P((DB_MPOOLFILE *, u_int8_t *)); int (*set_flags) __P((DB_MPOOLFILE *, u_int32_t, int)); int (*set_ftype) __P((DB_MPOOLFILE *, int)); int (*set_lsn_offset) __P((DB_MPOOLFILE *, int32_t)); int (*set_maxsize) __P((DB_MPOOLFILE *, u_int32_t, u_int32_t)); int (*set_pgcookie) __P((DB_MPOOLFILE *, DBT *)); int (*set_priority) __P((DB_MPOOLFILE *, DB_CACHE_PRIORITY)); int (*sync) __P((DB_MPOOLFILE *)); /* DB_MPOOLFILE PUBLIC HANDLE LIST END */ /* * MP_FILEID_SET, MP_OPEN_CALLED and MP_READONLY do not need to be * thread protected because they are initialized before the file is * linked onto the per-process lists, and never modified. * * MP_FLUSH is thread protected because it is potentially read/set by * multiple threads of control. */ #define MP_FILEID_SET 0x001 /* Application supplied a file ID. */ #define MP_FLUSH 0x002 /* Was used to flush a buffer. */ #define MP_FOR_FLUSH 0x004 /* Was opened to flush a buffer. */ #define MP_MULTIVERSION 0x008 /* Opened for multiversion access. */ #define MP_OPEN_CALLED 0x010 /* File opened. */ #define MP_READONLY 0x020 /* File is readonly. */ #define MP_DUMMY 0x040 /* File is dummy for __memp_fput. */ u_int32_t flags; }; /* Mpool statistics structure. */ struct __db_mpool_stat { /* SHARED */ u_int32_t st_gbytes; /* Total cache size: GB. */ u_int32_t st_bytes; /* Total cache size: B. */ u_int32_t st_ncache; /* Number of cache regions. */ u_int32_t st_max_ncache; /* Maximum number of regions. */ db_size_t st_mmapsize; /* Maximum file size for mmap. */ int32_t st_maxopenfd; /* Maximum number of open fd's. */ int32_t st_maxwrite; /* Maximum buffers to write. */ db_timeout_t st_maxwrite_sleep; /* Sleep after writing max buffers. */ u_int32_t st_pages; /* Total number of pages. */ #ifndef __TEST_DB_NO_STATISTICS u_int32_t st_map; /* Pages from mapped files. */ uintmax_t st_cache_hit; /* Pages found in the cache. */ uintmax_t st_cache_miss; /* Pages not found in the cache. */ uintmax_t st_page_create; /* Pages created in the cache. */ uintmax_t st_page_in; /* Pages read in. */ uintmax_t st_page_out; /* Pages written out. */ uintmax_t st_ro_evict; /* Clean pages forced from the cache. */ uintmax_t st_rw_evict; /* Dirty pages forced from the cache. */ uintmax_t st_page_trickle; /* Pages written by memp_trickle. */ u_int32_t st_page_clean; /* Clean pages. */ u_int32_t st_page_dirty; /* Dirty pages. */ u_int32_t st_hash_buckets; /* Number of hash buckets. */ u_int32_t st_hash_mutexes; /* Number of hash bucket mutexes. */ u_int32_t st_pagesize; /* Assumed page size. */ u_int32_t st_hash_searches; /* Total hash chain searches. */ u_int32_t st_hash_longest; /* Longest hash chain searched. */ uintmax_t st_hash_examined; /* Total hash entries searched. */ uintmax_t st_hash_nowait; /* Hash lock granted with nowait. */ uintmax_t st_hash_wait; /* Hash lock granted after wait. */ uintmax_t st_hash_max_nowait; /* Max hash lock granted with nowait. */ uintmax_t st_hash_max_wait; /* Max hash lock granted after wait. */ uintmax_t st_region_nowait; /* Region lock granted with nowait. */ uintmax_t st_region_wait; /* Region lock granted after wait. */ uintmax_t st_mvcc_frozen; /* Buffers frozen. */ uintmax_t st_mvcc_thawed; /* Buffers thawed. */ uintmax_t st_mvcc_freed; /* Frozen buffers freed. */ uintmax_t st_alloc; /* Number of page allocations. */ uintmax_t st_alloc_buckets; /* Buckets checked during allocation. */ uintmax_t st_alloc_max_buckets;/* Max checked during allocation. */ uintmax_t st_alloc_pages; /* Pages checked during allocation. */ uintmax_t st_alloc_max_pages; /* Max checked during allocation. */ uintmax_t st_io_wait; /* Thread waited on buffer I/O. */ uintmax_t st_sync_interrupted; /* Number of times sync interrupted. */ roff_t st_regsize; /* Region size. */ roff_t st_regmax; /* Region max. */ #endif }; /* * Mpool file statistics structure. * The first fields in this structure must mirror the __db_mpool_fstat_int * structure, since content is mem copied between the two. */ struct __db_mpool_fstat { u_int32_t st_pagesize; /* Page size. */ #ifndef __TEST_DB_NO_STATISTICS u_int32_t st_map; /* Pages from mapped files. */ uintmax_t st_cache_hit; /* Pages found in the cache. */ uintmax_t st_cache_miss; /* Pages not found in the cache. */ uintmax_t st_page_create; /* Pages created in the cache. */ uintmax_t st_page_in; /* Pages read in. */ uintmax_t st_page_out; /* Pages written out. */ uintmax_t st_backup_spins; /* Number of spins during a copy. */ #endif char *file_name; /* File name. */ }; /******************************************************* * Transactions and recovery. *******************************************************/ #define DB_TXNVERSION 1 typedef enum { DB_TXN_ABORT=0, /* Public. */ DB_TXN_APPLY=1, /* Public. */ DB_TXN_BACKWARD_ROLL=3, /* Public. */ DB_TXN_FORWARD_ROLL=4, /* Public. */ DB_TXN_OPENFILES=5, /* Internal. */ DB_TXN_POPENFILES=6, /* Internal. */ DB_TXN_PRINT=7, /* Public. */ DB_TXN_LOG_VERIFY=8 /* Internal. */ } db_recops; /* * BACKWARD_ALLOC is used during the forward pass to pick up any aborted * allocations for files that were created during the forward pass. * The main difference between _ALLOC and _ROLL is that the entry for * the file not exist during the rollforward pass. */ #define DB_UNDO(op) ((op) == DB_TXN_ABORT || (op) == DB_TXN_BACKWARD_ROLL) #define DB_REDO(op) ((op) == DB_TXN_FORWARD_ROLL || (op) == DB_TXN_APPLY) struct __db_txn { DB_TXNMGR *mgrp; /* Pointer to transaction manager. */ DB_TXN *parent; /* Pointer to transaction's parent. */ DB_THREAD_INFO *thread_info; /* Pointer to thread information. */ u_int32_t txnid; /* Unique transaction id. */ char *name; /* Transaction name. */ DB_LOCKER *locker; /* Locker for this txn. */ void *td; /* Detail structure within region. */ db_timeout_t lock_timeout; /* Timeout for locks for this txn. */ void *txn_list; /* Undo information for parent. */ /* * !!! * Explicit representations of structures from queue.h. * TAILQ_ENTRY(__db_txn) links; */ struct { struct __db_txn *tqe_next; struct __db_txn **tqe_prev; } links; /* Links transactions off manager. */ /* * !!! * Explicit representations of structures from shqueue.h. * SH_TAILQ_ENTRY xa_links; * These links link together transactions that are active in * the same thread of control. */ struct { db_ssize_t stqe_next; db_ssize_t stqe_prev; } xa_links; /* Links XA transactions. */ /* * !!! * Explicit representations of structures from queue.h. * TAILQ_HEAD(__kids, __db_txn) kids; */ struct __kids { struct __db_txn *tqh_first; struct __db_txn **tqh_last; } kids; /* * !!! * Explicit representations of structures from queue.h. * TAILQ_HEAD(__events, __txn_event) events; */ struct { struct __txn_event *tqh_first; struct __txn_event **tqh_last; } events; /* Links deferred events. */ /* * !!! * Explicit representations of structures from queue.h. * STAILQ_HEAD(__logrec, __txn_logrec) logs; */ struct { struct __txn_logrec *stqh_first; struct __txn_logrec **stqh_last; } logs; /* Links in memory log records. */ /* * !!! * Explicit representations of structures from queue.h. * TAILQ_ENTRY(__db_txn) klinks; */ struct { struct __db_txn *tqe_next; struct __db_txn **tqe_prev; } klinks; /* Links of children in parent. */ /* * !!! * Explicit representations of structures from queue.h. * TAILQ_HEAD(__my_cursors, __dbc) my_cursors; */ struct __my_cursors { struct __dbc *tqh_first; struct __dbc **tqh_last; } my_cursors; /* * !!! * Explicit representations of structures from queue.h. * TAILQ_HEAD(__femfs, MPOOLFILE) femfs; * * These are DBs involved in file extension in this transaction. */ struct __femfs { DB *tqh_first; DB **tqh_last; } femfs; DB_TXN_TOKEN *token_buffer; /* User's commit token buffer. */ void *api_internal; /* C++ API private. */ void *xml_internal; /* XML API private. */ u_int32_t cursors; /* Number of cursors open for txn */ /* DB_TXN PUBLIC HANDLE LIST BEGIN */ int (*abort) __P((DB_TXN *)); int (*commit) __P((DB_TXN *, u_int32_t)); int (*discard) __P((DB_TXN *, u_int32_t)); int (*get_name) __P((DB_TXN *, const char **)); int (*get_priority) __P((DB_TXN *, u_int32_t *)); u_int32_t (*id) __P((DB_TXN *)); int (*prepare) __P((DB_TXN *, u_int8_t *)); int (*set_commit_token) __P((DB_TXN *, DB_TXN_TOKEN *)); int (*set_name) __P((DB_TXN *, const char *)); int (*set_priority) __P((DB_TXN *, u_int32_t)); int (*set_timeout) __P((DB_TXN *, db_timeout_t, u_int32_t)); /* DB_TXN PUBLIC HANDLE LIST END */ /* DB_TXN PRIVATE HANDLE LIST BEGIN */ void (*set_txn_lsnp) __P((DB_TXN *txn, DB_LSN **, DB_LSN **)); /* DB_TXN PRIVATE HANDLE LIST END */ #define TXN_XA_THREAD_NOTA 0 #define TXN_XA_THREAD_ASSOCIATED 1 #define TXN_XA_THREAD_SUSPENDED 2 #define TXN_XA_THREAD_UNASSOCIATED 3 u_int32_t xa_thr_status; #define TXN_CHILDCOMMIT 0x00001 /* Txn has committed. */ #define TXN_COMPENSATE 0x00002 /* Compensating transaction. */ #define TXN_DEADLOCK 0x00004 /* Txn has deadlocked. */ #define TXN_FAMILY 0x00008 /* Cursors/children are independent. */ #define TXN_IGNORE_LEASE 0x00010 /* Skip lease check at commit time. */ #define TXN_INFAMILY 0x00020 /* Part of a transaction family. */ #define TXN_LOCKTIMEOUT 0x00040 /* Txn has a lock timeout. */ #define TXN_MALLOC 0x00080 /* Structure allocated by TXN system. */ #define TXN_NOSYNC 0x00100 /* Do not sync on prepare and commit. */ #define TXN_NOWAIT 0x00200 /* Do not wait on locks. */ #define TXN_PRIVATE 0x00400 /* Txn owned by cursor. */ #define TXN_READONLY 0x00800 /* CDS group handle. */ #define TXN_READ_COMMITTED 0x01000 /* Txn has degree 2 isolation. */ #define TXN_READ_UNCOMMITTED 0x02000 /* Txn has degree 1 isolation. */ #define TXN_RESTORED 0x04000 /* Txn has been restored. */ #define TXN_SNAPSHOT 0x08000 /* Snapshot Isolation. */ #define TXN_SYNC 0x10000 /* Write and sync on prepare/commit. */ #define TXN_WRITE_NOSYNC 0x20000 /* Write only on prepare/commit. */ #define TXN_BULK 0x40000 /* Enable bulk loading optimization. */ u_int32_t flags; }; #define TXN_SYNC_FLAGS (TXN_SYNC | TXN_NOSYNC | TXN_WRITE_NOSYNC) /* * Structure used for two phase commit interface. * We set the size of our global transaction id (gid) to be 128 in order * to match that defined by the XA X/Open standard. */ #define DB_GID_SIZE 128 struct __db_preplist { DB_TXN *txn; u_int8_t gid[DB_GID_SIZE]; }; /* Transaction statistics structure. */ struct __db_txn_active { u_int32_t txnid; /* Transaction ID */ u_int32_t parentid; /* Transaction ID of parent */ pid_t pid; /* Process owning txn ID */ db_threadid_t tid; /* Thread owning txn ID */ DB_LSN lsn; /* LSN when transaction began */ DB_LSN read_lsn; /* Read LSN for MVCC */ u_int32_t mvcc_ref; /* MVCC reference count */ u_int32_t priority; /* Deadlock resolution priority */ #define TXN_ABORTED 1 #define TXN_COMMITTED 2 #define TXN_NEED_ABORT 3 #define TXN_PREPARED 4 #define TXN_RUNNING 5 u_int32_t status; /* Status of the transaction */ #define TXN_XA_ACTIVE 1 #define TXN_XA_DEADLOCKED 2 #define TXN_XA_IDLE 3 #define TXN_XA_PREPARED 4 #define TXN_XA_ROLLEDBACK 5 u_int32_t xa_status; /* XA status */ u_int8_t gid[DB_GID_SIZE]; /* Global transaction ID */ char name[51]; /* 50 bytes of name, nul termination */ }; struct __db_txn_stat { u_int32_t st_nrestores; /* number of restored transactions after recovery. */ #ifndef __TEST_DB_NO_STATISTICS DB_LSN st_last_ckp; /* lsn of the last checkpoint */ time_t st_time_ckp; /* time of last checkpoint */ u_int32_t st_last_txnid; /* last transaction id given out */ u_int32_t st_inittxns; /* inital txns allocated */ u_int32_t st_maxtxns; /* maximum txns possible */ uintmax_t st_naborts; /* number of aborted transactions */ uintmax_t st_nbegins; /* number of begun transactions */ uintmax_t st_ncommits; /* number of committed transactions */ u_int32_t st_nactive; /* number of active transactions */ u_int32_t st_nsnapshot; /* number of snapshot transactions */ u_int32_t st_maxnactive; /* maximum active transactions */ u_int32_t st_maxnsnapshot; /* maximum snapshot transactions */ uintmax_t st_region_wait; /* Region lock granted after wait. */ uintmax_t st_region_nowait; /* Region lock granted without wait. */ roff_t st_regsize; /* Region size. */ DB_TXN_ACTIVE *st_txnarray; /* array of active transactions */ #endif }; #define DB_TXN_TOKEN_SIZE 20 struct __db_txn_token { u_int8_t buf[DB_TXN_TOKEN_SIZE]; }; /******************************************************* * Replication. *******************************************************/ /* Special, out-of-band environment IDs. */ #define DB_EID_BROADCAST -1 #define DB_EID_INVALID -2 #define DB_EID_MASTER -3 #define DB_REP_DEFAULT_PRIORITY 100 /* Acknowledgement policies; 0 reserved as OOB. */ #define DB_REPMGR_ACKS_ALL 1 #define DB_REPMGR_ACKS_ALL_AVAILABLE 2 #define DB_REPMGR_ACKS_ALL_PEERS 3 #define DB_REPMGR_ACKS_NONE 4 #define DB_REPMGR_ACKS_ONE 5 #define DB_REPMGR_ACKS_ONE_PEER 6 #define DB_REPMGR_ACKS_QUORUM 7 /* Replication timeout configuration values. */ #define DB_REP_ACK_TIMEOUT 1 /* RepMgr acknowledgements. */ #define DB_REP_CHECKPOINT_DELAY 2 /* Master checkpoint delay. */ #define DB_REP_CONNECTION_RETRY 3 /* RepMgr connections. */ #define DB_REP_ELECTION_RETRY 4 /* RepMgr elect retries. */ #define DB_REP_ELECTION_TIMEOUT 5 /* Rep normal elections. */ #define DB_REP_FULL_ELECTION_TIMEOUT 6 /* Rep full elections. */ #define DB_REP_HEARTBEAT_MONITOR 7 /* RepMgr client HB monitor. */ #define DB_REP_HEARTBEAT_SEND 8 /* RepMgr master send freq. */ #define DB_REP_LEASE_TIMEOUT 9 /* Master leases. */ /* * Event notification types. (Tcl testing interface currently assumes there are * no more than 32 of these.) */ #define DB_EVENT_PANIC 0 #define DB_EVENT_REG_ALIVE 1 #define DB_EVENT_REG_PANIC 2 #define DB_EVENT_REP_CLIENT 3 #define DB_EVENT_REP_CONNECT_BROKEN 4 #define DB_EVENT_REP_CONNECT_ESTD 5 #define DB_EVENT_REP_CONNECT_TRY_FAILED 6 #define DB_EVENT_REP_DUPMASTER 7 #define DB_EVENT_REP_ELECTED 8 #define DB_EVENT_REP_ELECTION_FAILED 9 #define DB_EVENT_REP_INIT_DONE 10 #define DB_EVENT_REP_JOIN_FAILURE 11 #define DB_EVENT_REP_LOCAL_SITE_REMOVED 12 #define DB_EVENT_REP_MASTER 13 #define DB_EVENT_REP_MASTER_FAILURE 14 #define DB_EVENT_REP_NEWMASTER 15 #define DB_EVENT_REP_PERM_FAILED 16 #define DB_EVENT_REP_SITE_ADDED 17 #define DB_EVENT_REP_SITE_REMOVED 18 #define DB_EVENT_REP_STARTUPDONE 19 #define DB_EVENT_REP_WOULD_ROLLBACK 20 /* Undocumented; C API only. */ #define DB_EVENT_WRITE_FAILED 21 #define DB_EVENT_NO_SUCH_EVENT 0xffffffff /* OOB sentinel value */ /* Replication Manager site status. */ struct __db_repmgr_site { int eid; char *host; u_int port; #define DB_REPMGR_CONNECTED 1 #define DB_REPMGR_DISCONNECTED 2 u_int32_t status; #define DB_REPMGR_ISPEER 0x01 u_int32_t flags; }; /* Replication statistics. */ struct __db_rep_stat { /* SHARED */ /* !!! * Many replication statistics fields cannot be protected by a mutex * without an unacceptable performance penalty, since most message * processing is done without the need to hold a region-wide lock. * Fields whose comments end with a '+' may be updated without holding * the replication or log mutexes (as appropriate), and thus may be * off somewhat (or, on unreasonable architectures under unlucky * circumstances, garbaged). */ u_int32_t st_startup_complete; /* Site completed client sync-up. */ #ifndef __TEST_DB_NO_STATISTICS uintmax_t st_log_queued; /* Log records currently queued.+ */ u_int32_t st_status; /* Current replication status. */ DB_LSN st_next_lsn; /* Next LSN to use or expect. */ DB_LSN st_waiting_lsn; /* LSN we're awaiting, if any. */ DB_LSN st_max_perm_lsn; /* Maximum permanent LSN. */ db_pgno_t st_next_pg; /* Next pg we expect. */ db_pgno_t st_waiting_pg; /* pg we're awaiting, if any. */ u_int32_t st_dupmasters; /* # of times a duplicate master condition was detected.+ */ db_ssize_t st_env_id; /* Current environment ID. */ u_int32_t st_env_priority; /* Current environment priority. */ uintmax_t st_bulk_fills; /* Bulk buffer fills. */ uintmax_t st_bulk_overflows; /* Bulk buffer overflows. */ uintmax_t st_bulk_records; /* Bulk records stored. */ uintmax_t st_bulk_transfers; /* Transfers of bulk buffers. */ uintmax_t st_client_rerequests;/* Number of forced rerequests. */ uintmax_t st_client_svc_req; /* Number of client service requests received by this client. */ uintmax_t st_client_svc_miss; /* Number of client service requests missing on this client. */ u_int32_t st_gen; /* Current generation number. */ u_int32_t st_egen; /* Current election gen number. */ uintmax_t st_lease_chk; /* Lease validity checks. */ uintmax_t st_lease_chk_misses; /* Lease checks invalid. */ uintmax_t st_lease_chk_refresh; /* Lease refresh attempts. */ uintmax_t st_lease_sends; /* Lease messages sent live. */ uintmax_t st_log_duplicated; /* Log records received multiply.+ */ uintmax_t st_log_queued_max; /* Max. log records queued at once.+ */ uintmax_t st_log_queued_total; /* Total # of log recs. ever queued.+ */ uintmax_t st_log_records; /* Log records received and put.+ */ uintmax_t st_log_requested; /* Log recs. missed and requested.+ */ db_ssize_t st_master; /* Env. ID of the current master. */ uintmax_t st_master_changes; /* # of times we've switched masters. */ uintmax_t st_msgs_badgen; /* Messages with a bad generation #.+ */ uintmax_t st_msgs_processed; /* Messages received and processed.+ */ uintmax_t st_msgs_recover; /* Messages ignored because this site was a client in recovery.+ */ uintmax_t st_msgs_send_failures;/* # of failed message sends.+ */ uintmax_t st_msgs_sent; /* # of successful message sends.+ */ uintmax_t st_newsites; /* # of NEWSITE msgs. received.+ */ u_int32_t st_nsites; /* Current number of sites we will assume during elections. */ uintmax_t st_nthrottles; /* # of times we were throttled. */ uintmax_t st_outdated; /* # of times we detected and returned an OUTDATED condition.+ */ uintmax_t st_pg_duplicated; /* Pages received multiply.+ */ uintmax_t st_pg_records; /* Pages received and stored.+ */ uintmax_t st_pg_requested; /* Pages missed and requested.+ */ uintmax_t st_txns_applied; /* # of transactions applied.+ */ uintmax_t st_startsync_delayed;/* # of STARTSYNC msgs delayed.+ */ /* Elections generally. */ uintmax_t st_elections; /* # of elections held.+ */ uintmax_t st_elections_won; /* # of elections won by this site.+ */ /* Statistics about an in-progress election. */ db_ssize_t st_election_cur_winner; /* Current front-runner. */ u_int32_t st_election_gen; /* Election generation number. */ u_int32_t st_election_datagen; /* Election data generation number. */ DB_LSN st_election_lsn; /* Max. LSN of current winner. */ u_int32_t st_election_nsites; /* # of "registered voters". */ u_int32_t st_election_nvotes; /* # of "registered voters" needed. */ u_int32_t st_election_priority; /* Current election priority. */ int32_t st_election_status; /* Current election status. */ u_int32_t st_election_tiebreaker;/* Election tiebreaker value. */ u_int32_t st_election_votes; /* Votes received in this round. */ u_int32_t st_election_sec; /* Last election time seconds. */ u_int32_t st_election_usec; /* Last election time useconds. */ u_int32_t st_max_lease_sec; /* Maximum lease timestamp seconds. */ u_int32_t st_max_lease_usec; /* Maximum lease timestamp useconds. */ /* Undocumented statistics only used by the test system. */ #ifdef CONFIG_TEST u_int32_t st_filefail_cleanups; /* # of FILE_FAIL cleanups done. */ #endif #endif }; /* Replication Manager statistics. */ struct __db_repmgr_stat { /* SHARED */ uintmax_t st_perm_failed; /* # of insufficiently ack'ed msgs. */ uintmax_t st_msgs_queued; /* # msgs queued for network delay. */ uintmax_t st_msgs_dropped; /* # msgs discarded due to excessive queue length. */ uintmax_t st_connection_drop; /* Existing connections dropped. */ uintmax_t st_connect_fail; /* Failed new connection attempts. */ uintmax_t st_elect_threads; /* # of active election threads. */ uintmax_t st_max_elect_threads; /* Max concurrent e-threads ever. */ }; /* Replication Manager connection error. */ struct __db_repmgr_conn_err { int eid; /* Replication Environment ID. */ int error; /* System networking error code. */ }; /******************************************************* * Sequences. *******************************************************/ /* * The storage record for a sequence. */ struct __db_seq_record { u_int32_t seq_version; /* Version size/number. */ u_int32_t flags; /* DB_SEQ_XXX Flags. */ db_seq_t seq_value; /* Current value. */ db_seq_t seq_max; /* Max permitted. */ db_seq_t seq_min; /* Min permitted. */ }; /* * Handle for a sequence object. */ struct __db_sequence { DB *seq_dbp; /* DB handle for this sequence. */ db_mutex_t mtx_seq; /* Mutex if sequence is threaded. */ DB_SEQ_RECORD *seq_rp; /* Pointer to current data. */ DB_SEQ_RECORD seq_record; /* Data from DB_SEQUENCE. */ int32_t seq_cache_size; /* Number of values cached. */ db_seq_t seq_last_value; /* Last value cached. */ db_seq_t seq_prev_value; /* Last value returned. */ DBT seq_key; /* DBT pointing to sequence key. */ DBT seq_data; /* DBT pointing to seq_record. */ /* API-private structure: used by C++ and Java. */ void *api_internal; /* DB_SEQUENCE PUBLIC HANDLE LIST BEGIN */ int (*close) __P((DB_SEQUENCE *, u_int32_t)); int (*get) __P((DB_SEQUENCE *, DB_TXN *, int32_t, db_seq_t *, u_int32_t)); int (*get_cachesize) __P((DB_SEQUENCE *, int32_t *)); int (*get_db) __P((DB_SEQUENCE *, DB **)); int (*get_flags) __P((DB_SEQUENCE *, u_int32_t *)); int (*get_key) __P((DB_SEQUENCE *, DBT *)); int (*get_range) __P((DB_SEQUENCE *, db_seq_t *, db_seq_t *)); int (*initial_value) __P((DB_SEQUENCE *, db_seq_t)); int (*open) __P((DB_SEQUENCE *, DB_TXN *, DBT *, u_int32_t)); int (*remove) __P((DB_SEQUENCE *, DB_TXN *, u_int32_t)); int (*set_cachesize) __P((DB_SEQUENCE *, int32_t)); int (*set_flags) __P((DB_SEQUENCE *, u_int32_t)); int (*set_range) __P((DB_SEQUENCE *, db_seq_t, db_seq_t)); int (*stat) __P((DB_SEQUENCE *, DB_SEQUENCE_STAT **, u_int32_t)); int (*stat_print) __P((DB_SEQUENCE *, u_int32_t)); /* DB_SEQUENCE PUBLIC HANDLE LIST END */ }; struct __db_seq_stat { /* SHARED */ uintmax_t st_wait; /* Sequence lock granted w/o wait. */ uintmax_t st_nowait; /* Sequence lock granted after wait. */ db_seq_t st_current; /* Current value in db. */ db_seq_t st_value; /* Current cached value. */ db_seq_t st_last_value; /* Last cached value. */ db_seq_t st_min; /* Minimum value. */ db_seq_t st_max; /* Maximum value. */ int32_t st_cache_size; /* Cache size. */ u_int32_t st_flags; /* Flag value. */ }; /******************************************************* * Access methods. *******************************************************/ /* * Any new methods need to retain the original numbering. The type * is written in a log record so must be maintained. */ typedef enum { DB_BTREE=1, DB_HASH=2, DB_HEAP=6, DB_RECNO=3, DB_QUEUE=4, DB_UNKNOWN=5 /* Figure it out on open. */ } DBTYPE; #define DB_RENAMEMAGIC 0x030800 /* File has been renamed. */ #define DB_BTREEVERSION 9 /* Current btree version. */ #define DB_BTREEOLDVER 8 /* Oldest btree version supported. */ #define DB_BTREEMAGIC 0x053162 #define DB_HASHVERSION 9 /* Current hash version. */ #define DB_HASHOLDVER 7 /* Oldest hash version supported. */ #define DB_HASHMAGIC 0x061561 #define DB_HEAPVERSION 1 /* Current heap version. */ #define DB_HEAPOLDVER 1 /* Oldest heap version supported. */ #define DB_HEAPMAGIC 0x074582 #define DB_QAMVERSION 4 /* Current queue version. */ #define DB_QAMOLDVER 3 /* Oldest queue version supported. */ #define DB_QAMMAGIC 0x042253 #define DB_SEQUENCE_VERSION 2 /* Current sequence version. */ #define DB_SEQUENCE_OLDVER 1 /* Oldest sequence version supported. */ /* * DB access method and cursor operation values. Each value is an operation * code to which additional bit flags are added. */ #define DB_AFTER 1 /* Dbc.put */ #define DB_APPEND 2 /* Db.put */ #define DB_BEFORE 3 /* Dbc.put */ #define DB_CONSUME 4 /* Db.get */ #define DB_CONSUME_WAIT 5 /* Db.get */ #define DB_CURRENT 6 /* Dbc.get, Dbc.put, DbLogc.get */ #define DB_FIRST 7 /* Dbc.get, DbLogc->get */ #define DB_GET_BOTH 8 /* Db.get, Dbc.get */ #define DB_GET_BOTHC 9 /* Dbc.get (internal) */ #define DB_GET_BOTH_RANGE 10 /* Db.get, Dbc.get */ #define DB_GET_RECNO 11 /* Dbc.get */ #define DB_JOIN_ITEM 12 /* Dbc.get; don't do primary lookup */ #define DB_KEYFIRST 13 /* Dbc.put */ #define DB_KEYLAST 14 /* Dbc.put */ #define DB_LAST 15 /* Dbc.get, DbLogc->get */ #define DB_NEXT 16 /* Dbc.get, DbLogc->get */ #define DB_NEXT_DUP 17 /* Dbc.get */ #define DB_NEXT_NODUP 18 /* Dbc.get */ #define DB_NODUPDATA 19 /* Db.put, Dbc.put */ #define DB_NOOVERWRITE 20 /* Db.put */ #define DB_OVERWRITE_DUP 21 /* Dbc.put, Db.put; no DB_KEYEXIST */ #define DB_POSITION 22 /* Dbc.dup */ #define DB_PREV 23 /* Dbc.get, DbLogc->get */ #define DB_PREV_DUP 24 /* Dbc.get */ #define DB_PREV_NODUP 25 /* Dbc.get */ #define DB_SET 26 /* Dbc.get, DbLogc->get */ #define DB_SET_RANGE 27 /* Dbc.get */ #define DB_SET_RECNO 28 /* Db.get, Dbc.get */ #define DB_UPDATE_SECONDARY 29 /* Dbc.get, Dbc.del (internal) */ #define DB_SET_LTE 30 /* Dbc.get (internal) */ #define DB_GET_BOTH_LTE 31 /* Dbc.get (internal) */ /* This has to change when the max opcode hits 255. */ #define DB_OPFLAGS_MASK 0x000000ff /* Mask for operations flags. */ /* * DB (user visible) error return codes. * * !!! * We don't want our error returns to conflict with other packages where * possible, so pick a base error value that's hopefully not common. We * document that we own the error name space from -30,800 to -30,999. */ /* DB (public) error return codes. */ #define DB_BUFFER_SMALL (-30999)/* User memory too small for return. */ #define DB_DONOTINDEX (-30998)/* "Null" return from 2ndary callbk. */ #define DB_FOREIGN_CONFLICT (-30997)/* A foreign db constraint triggered. */ #define DB_HEAP_FULL (-30996)/* No free space in a heap file. */ #define DB_KEYEMPTY (-30995)/* Key/data deleted or never created. */ #define DB_KEYEXIST (-30994)/* The key/data pair already exists. */ #define DB_LOCK_DEADLOCK (-30993)/* Deadlock. */ #define DB_LOCK_NOTGRANTED (-30992)/* Lock unavailable. */ #define DB_LOG_BUFFER_FULL (-30991)/* In-memory log buffer full. */ #define DB_LOG_VERIFY_BAD (-30990)/* Log verification failed. */ #define DB_NOSERVER (-30989)/* Server panic return. */ #define DB_NOTFOUND (-30988)/* Key/data pair not found (EOF). */ #define DB_OLD_VERSION (-30987)/* Out-of-date version. */ #define DB_PAGE_NOTFOUND (-30986)/* Requested page not found. */ #define DB_REP_DUPMASTER (-30985)/* There are two masters. */ #define DB_REP_HANDLE_DEAD (-30984)/* Rolled back a commit. */ #define DB_REP_HOLDELECTION (-30983)/* Time to hold an election. */ #define DB_REP_IGNORE (-30982)/* This msg should be ignored.*/ #define DB_REP_ISPERM (-30981)/* Cached not written perm written.*/ #define DB_REP_JOIN_FAILURE (-30980)/* Unable to join replication group. */ #define DB_REP_LEASE_EXPIRED (-30979)/* Master lease has expired. */ #define DB_REP_LOCKOUT (-30978)/* API/Replication lockout now. */ #define DB_REP_NEWSITE (-30977)/* New site entered system. */ #define DB_REP_NOTPERM (-30976)/* Permanent log record not written. */ #define DB_REP_UNAVAIL (-30975)/* Site cannot currently be reached. */ #define DB_REP_WOULDROLLBACK (-30974)/* UNDOC: rollback inhibited by app. */ #define DB_RUNRECOVERY (-30973)/* Panic return. */ #define DB_SECONDARY_BAD (-30972)/* Secondary index corrupt. */ #define DB_TIMEOUT (-30971)/* Timed out on read consistency. */ #define DB_VERIFY_BAD (-30970)/* Verify failed; bad format. */ #define DB_VERSION_MISMATCH (-30969)/* Environment version mismatch. */ /* DB (private) error return codes. */ #define DB_ALREADY_ABORTED (-30899) #define DB_CHKSUM_FAIL (-30898)/* Checksum failed. */ #define DB_DELETED (-30897)/* Recovery file marked deleted. */ #define DB_EVENT_NOT_HANDLED (-30896)/* Forward event to application. */ #define DB_NEEDSPLIT (-30895)/* Page needs to be split. */ #define DB_REP_BULKOVF (-30894)/* Rep bulk buffer overflow. */ #define DB_REP_LOGREADY (-30893)/* Rep log ready for recovery. */ #define DB_REP_NEWMASTER (-30892)/* We have learned of a new master. */ #define DB_REP_PAGEDONE (-30891)/* This page was already done. */ #define DB_SURPRISE_KID (-30890)/* Child commit where parent didn't know it was a parent. */ #define DB_SWAPBYTES (-30889)/* Database needs byte swapping. */ #define DB_TXN_CKP (-30888)/* Encountered ckp record in log. */ #define DB_VERIFY_FATAL (-30887)/* DB->verify cannot proceed. */ /* Database handle. */ struct __db { /******************************************************* * Public: owned by the application. *******************************************************/ u_int32_t pgsize; /* Database logical page size. */ DB_CACHE_PRIORITY priority; /* Database priority in cache. */ /* Callbacks. */ int (*db_append_recno) __P((DB *, DBT *, db_recno_t)); void (*db_feedback) __P((DB *, int, int)); int (*dup_compare) __P((DB *, const DBT *, const DBT *)); void *app_private; /* Application-private handle. */ /******************************************************* * Private: owned by DB. *******************************************************/ DB_ENV *dbenv; /* Backing public environment. */ ENV *env; /* Backing private environment. */ DBTYPE type; /* DB access method type. */ DB_MPOOLFILE *mpf; /* Backing buffer pool. */ db_mutex_t mutex; /* Synchronization for free threading */ char *fname, *dname; /* File/database passed to DB->open. */ const char *dirname; /* Directory of DB file. */ u_int32_t open_flags; /* Flags passed to DB->open. */ u_int8_t fileid[DB_FILE_ID_LEN];/* File's unique ID for locking. */ u_int32_t adj_fileid; /* File's unique ID for curs. adj. */ #define DB_LOGFILEID_INVALID -1 FNAME *log_filename; /* File's naming info for logging. */ db_pgno_t meta_pgno; /* Meta page number */ DB_LOCKER *locker; /* Locker for handle locking. */ DB_LOCKER *cur_locker; /* Current handle lock holder. */ DB_TXN *cur_txn; /* Opening transaction. */ DB_LOCKER *associate_locker; /* Locker for DB->associate call. */ DB_LOCK handle_lock; /* Lock held on this handle. */ time_t timestamp; /* Handle timestamp for replication. */ u_int32_t fid_gen; /* Rep generation number for fids. */ /* * Returned data memory for DB->get() and friends. */ DBT my_rskey; /* Secondary key. */ DBT my_rkey; /* [Primary] key. */ DBT my_rdata; /* Data. */ /* * !!! * Some applications use DB but implement their own locking outside of * DB. If they're using fcntl(2) locking on the underlying database * file, and we open and close a file descriptor for that file, we will * discard their locks. The DB_FCNTL_LOCKING flag to DB->open is an * undocumented interface to support this usage which leaves any file * descriptors we open until DB->close. This will only work with the * DB->open interface and simple caches, e.g., creating a transaction * thread may open/close file descriptors this flag doesn't protect. * Locking with fcntl(2) on a file that you don't own is a very, very * unsafe thing to do. 'Nuff said. */ DB_FH *saved_open_fhp; /* Saved file handle. */ /* * Linked list of DBP's, linked from the ENV, used to keep track * of all open db handles for cursor adjustment. * * !!! * Explicit representations of structures from queue.h. * TAILQ_ENTRY(__db) dblistlinks; */ struct { struct __db *tqe_next; struct __db **tqe_prev; } dblistlinks; /* * Cursor queues. * * !!! * Explicit representations of structures from queue.h. * TAILQ_HEAD(__cq_fq, __dbc) free_queue; * TAILQ_HEAD(__cq_aq, __dbc) active_queue; * TAILQ_HEAD(__cq_jq, __dbc) join_queue; */ struct __cq_fq { struct __dbc *tqh_first; struct __dbc **tqh_last; } free_queue; struct __cq_aq { struct __dbc *tqh_first; struct __dbc **tqh_last; } active_queue; struct __cq_jq { struct __dbc *tqh_first; struct __dbc **tqh_last; } join_queue; /* * Secondary index support. * * Linked list of secondary indices -- set in the primary. * * !!! * Explicit representations of structures from queue.h. * LIST_HEAD(s_secondaries, __db); */ struct { struct __db *lh_first; } s_secondaries; /* * List entries for secondaries, and reference count of how many * threads are updating this secondary (see Dbc.put). * * !!! * Note that these are synchronized by the primary's mutex, but * filled in in the secondaries. * * !!! * Explicit representations of structures from queue.h. * LIST_ENTRY(__db) s_links; */ struct { struct __db *le_next; struct __db **le_prev; } s_links; u_int32_t s_refcnt; /* Secondary callback and free functions -- set in the secondary. */ int (*s_callback) __P((DB *, const DBT *, const DBT *, DBT *)); /* Reference to primary -- set in the secondary. */ DB *s_primary; #define DB_ASSOC_IMMUTABLE_KEY 0x00000001 /* Secondary key is immutable. */ #define DB_ASSOC_CREATE 0x00000002 /* Secondary db populated on open. */ /* Flags passed to associate -- set in the secondary. */ u_int32_t s_assoc_flags; /* * Foreign key support. * * Linked list of primary dbs -- set in the foreign db * * !!! * Explicit representations of structures from queue.h. * LIST_HEAD(f_primaries, __db); */ struct { struct __db_foreign_info *lh_first; } f_primaries; /* * !!! * Explicit representations of structures from queue.h. * TAILQ_ENTRY(__db) felink; * * Links in a list of DBs involved in file extension * during a transaction. These are to be used only while the * metadata is locked. */ struct { struct __db *tqe_next; struct __db **tqe_prev; } felink; /* Reference to foreign -- set in the secondary. */ DB *s_foreign; /* API-private structure: used by DB 1.85, C++, Java, Perl and Tcl */ void *api_internal; /* Subsystem-private structure. */ void *bt_internal; /* Btree/Recno access method. */ void *h_internal; /* Hash access method. */ void *heap_internal; /* Heap access method. */ void *p_internal; /* Partition informaiton. */ void *q_internal; /* Queue access method. */ /* DB PUBLIC HANDLE LIST BEGIN */ int (*associate) __P((DB *, DB_TXN *, DB *, int (*)(DB *, const DBT *, const DBT *, DBT *), u_int32_t)); int (*associate_foreign) __P((DB *, DB *, int (*)(DB *, const DBT *, DBT *, const DBT *, int *), u_int32_t)); int (*close) __P((DB *, u_int32_t)); int (*compact) __P((DB *, DB_TXN *, DBT *, DBT *, DB_COMPACT *, u_int32_t, DBT *)); int (*cursor) __P((DB *, DB_TXN *, DBC **, u_int32_t)); int (*del) __P((DB *, DB_TXN *, DBT *, u_int32_t)); void (*err) __P((DB *, int, const char *, ...)); void (*errx) __P((DB *, const char *, ...)); int (*exists) __P((DB *, DB_TXN *, DBT *, u_int32_t)); int (*fd) __P((DB *, int *)); int (*get) __P((DB *, DB_TXN *, DBT *, DBT *, u_int32_t)); int (*get_alloc) __P((DB *, void *(**)(size_t), void *(**)(void *, size_t), void (**)(void *))); int (*get_append_recno) __P((DB *, int (**)(DB *, DBT *, db_recno_t))); int (*get_assoc_flags) __P((DB *, u_int32_t *)); int (*get_bt_compare) __P((DB *, int (**)(DB *, const DBT *, const DBT *))); int (*get_bt_compress) __P((DB *, int (**)(DB *, const DBT *, const DBT *, const DBT *, const DBT *, DBT *), int (**)(DB *, const DBT *, const DBT *, DBT *, DBT *, DBT *))); int (*get_bt_minkey) __P((DB *, u_int32_t *)); int (*get_bt_prefix) __P((DB *, size_t (**)(DB *, const DBT *, const DBT *))); int (*get_byteswapped) __P((DB *, int *)); int (*get_cachesize) __P((DB *, u_int32_t *, u_int32_t *, int *)); int (*get_create_dir) __P((DB *, const char **)); int (*get_dbname) __P((DB *, const char **, const char **)); int (*get_dup_compare) __P((DB *, int (**)(DB *, const DBT *, const DBT *))); int (*get_encrypt_flags) __P((DB *, u_int32_t *)); DB_ENV *(*get_env) __P((DB *)); void (*get_errcall) __P((DB *, void (**)(const DB_ENV *, const char *, const char *))); void (*get_errfile) __P((DB *, FILE **)); void (*get_errpfx) __P((DB *, const char **)); int (*get_feedback) __P((DB *, void (**)(DB *, int, int))); int (*get_flags) __P((DB *, u_int32_t *)); int (*get_h_compare) __P((DB *, int (**)(DB *, const DBT *, const DBT *))); int (*get_h_ffactor) __P((DB *, u_int32_t *)); int (*get_h_hash) __P((DB *, u_int32_t (**)(DB *, const void *, u_int32_t))); int (*get_h_nelem) __P((DB *, u_int32_t *)); int (*get_heapsize) __P((DB *, u_int32_t *, u_int32_t *)); int (*get_heap_regionsize) __P((DB *, u_int32_t *)); int (*get_lk_exclusive) __P((DB *, int *, int *)); int (*get_lorder) __P((DB *, int *)); DB_MPOOLFILE *(*get_mpf) __P((DB *)); void (*get_msgcall) __P((DB *, void (**)(const DB_ENV *, const char *))); void (*get_msgfile) __P((DB *, FILE **)); int (*get_multiple) __P((DB *)); int (*get_open_flags) __P((DB *, u_int32_t *)); int (*get_pagesize) __P((DB *, u_int32_t *)); int (*get_partition_callback) __P((DB *, u_int32_t *, u_int32_t (**)(DB *, DBT *key))); int (*get_partition_dirs) __P((DB *, const char ***)); int (*get_partition_keys) __P((DB *, u_int32_t *, DBT **)); int (*get_priority) __P((DB *, DB_CACHE_PRIORITY *)); int (*get_q_extentsize) __P((DB *, u_int32_t *)); int (*get_re_delim) __P((DB *, int *)); int (*get_re_len) __P((DB *, u_int32_t *)); int (*get_re_pad) __P((DB *, int *)); int (*get_re_source) __P((DB *, const char **)); int (*get_transactional) __P((DB *)); int (*get_type) __P((DB *, DBTYPE *)); int (*join) __P((DB *, DBC **, DBC **, u_int32_t)); int (*key_range) __P((DB *, DB_TXN *, DBT *, DB_KEY_RANGE *, u_int32_t)); int (*open) __P((DB *, DB_TXN *, const char *, const char *, DBTYPE, u_int32_t, int)); int (*pget) __P((DB *, DB_TXN *, DBT *, DBT *, DBT *, u_int32_t)); int (*put) __P((DB *, DB_TXN *, DBT *, DBT *, u_int32_t)); int (*remove) __P((DB *, const char *, const char *, u_int32_t)); int (*rename) __P((DB *, const char *, const char *, const char *, u_int32_t)); int (*set_alloc) __P((DB *, void *(*)(size_t), void *(*)(void *, size_t), void (*)(void *))); int (*set_append_recno) __P((DB *, int (*)(DB *, DBT *, db_recno_t))); int (*set_bt_compare) __P((DB *, int (*)(DB *, const DBT *, const DBT *))); int (*set_bt_compress) __P((DB *, int (*)(DB *, const DBT *, const DBT *, const DBT *, const DBT *, DBT *), int (*)(DB *, const DBT *, const DBT *, DBT *, DBT *, DBT *))); int (*set_bt_minkey) __P((DB *, u_int32_t)); int (*set_bt_prefix) __P((DB *, size_t (*)(DB *, const DBT *, const DBT *))); int (*set_cachesize) __P((DB *, u_int32_t, u_int32_t, int)); int (*set_create_dir) __P((DB *, const char *)); int (*set_dup_compare) __P((DB *, int (*)(DB *, const DBT *, const DBT *))); int (*set_encrypt) __P((DB *, const char *, u_int32_t)); void (*set_errcall) __P((DB *, void (*)(const DB_ENV *, const char *, const char *))); void (*set_errfile) __P((DB *, FILE *)); void (*set_errpfx) __P((DB *, const char *)); int (*set_feedback) __P((DB *, void (*)(DB *, int, int))); int (*set_flags) __P((DB *, u_int32_t)); int (*set_h_compare) __P((DB *, int (*)(DB *, const DBT *, const DBT *))); int (*set_h_ffactor) __P((DB *, u_int32_t)); int (*set_h_hash) __P((DB *, u_int32_t (*)(DB *, const void *, u_int32_t))); int (*set_h_nelem) __P((DB *, u_int32_t)); int (*set_heapsize) __P((DB *, u_int32_t, u_int32_t, u_int32_t)); int (*set_heap_regionsize) __P((DB *, u_int32_t)); int (*set_lk_exclusive) __P((DB *, int)); int (*set_lorder) __P((DB *, int)); void (*set_msgcall) __P((DB *, void (*)(const DB_ENV *, const char *))); void (*set_msgfile) __P((DB *, FILE *)); int (*set_pagesize) __P((DB *, u_int32_t)); int (*set_paniccall) __P((DB *, void (*)(DB_ENV *, int))); int (*set_partition) __P((DB *, u_int32_t, DBT *, u_int32_t (*)(DB *, DBT *key))); int (*set_partition_dirs) __P((DB *, const char **)); int (*set_priority) __P((DB *, DB_CACHE_PRIORITY)); int (*set_q_extentsize) __P((DB *, u_int32_t)); int (*set_re_delim) __P((DB *, int)); int (*set_re_len) __P((DB *, u_int32_t)); int (*set_re_pad) __P((DB *, int)); int (*set_re_source) __P((DB *, const char *)); int (*sort_multiple) __P((DB *, DBT *, DBT *, u_int32_t)); int (*stat) __P((DB *, DB_TXN *, void *, u_int32_t)); int (*stat_print) __P((DB *, u_int32_t)); int (*sync) __P((DB *, u_int32_t)); int (*truncate) __P((DB *, DB_TXN *, u_int32_t *, u_int32_t)); int (*upgrade) __P((DB *, const char *, u_int32_t)); int (*verify) __P((DB *, const char *, const char *, FILE *, u_int32_t)); /* DB PUBLIC HANDLE LIST END */ /* DB PRIVATE HANDLE LIST BEGIN */ int (*dump) __P((DB *, const char *, int (*)(void *, const void *), void *, int, int)); int (*db_am_remove) __P((DB *, DB_THREAD_INFO *, DB_TXN *, const char *, const char *, u_int32_t)); int (*db_am_rename) __P((DB *, DB_THREAD_INFO *, DB_TXN *, const char *, const char *, const char *)); /* DB PRIVATE HANDLE LIST END */ /* * Never called; these are a place to save function pointers * so that we can undo an associate. */ int (*stored_get) __P((DB *, DB_TXN *, DBT *, DBT *, u_int32_t)); int (*stored_close) __P((DB *, u_int32_t)); /* Alternative handle close function, used by C++ API. */ int (*alt_close) __P((DB *, u_int32_t)); #define DB_OK_BTREE 0x01 #define DB_OK_HASH 0x02 #define DB_OK_HEAP 0x04 #define DB_OK_QUEUE 0x08 #define DB_OK_RECNO 0x10 u_int32_t am_ok; /* Legal AM choices. */ /* * This field really ought to be an AM_FLAG, but we have * have run out of bits. If/when we decide to split up * the flags, we can incorporate it. */ int preserve_fid; /* Do not free fileid on close. */ #define DB_AM_CHKSUM 0x00000001 /* Checksumming */ #define DB_AM_COMPENSATE 0x00000002 /* Created by compensating txn */ #define DB_AM_COMPRESS 0x00000004 /* Compressed BTree */ #define DB_AM_CREATED 0x00000008 /* Database was created upon open */ #define DB_AM_CREATED_MSTR 0x00000010 /* Encompassing file was created */ #define DB_AM_DBM_ERROR 0x00000020 /* Error in DBM/NDBM database */ #define DB_AM_DELIMITER 0x00000040 /* Variable length delimiter set */ #define DB_AM_DISCARD 0x00000080 /* Discard any cached pages */ #define DB_AM_DUP 0x00000100 /* DB_DUP */ #define DB_AM_DUPSORT 0x00000200 /* DB_DUPSORT */ #define DB_AM_ENCRYPT 0x00000400 /* Encryption */ #define DB_AM_FIXEDLEN 0x00000800 /* Fixed-length records */ #define DB_AM_INMEM 0x00001000 /* In-memory; no sync on close */ #define DB_AM_INORDER 0x00002000 /* DB_INORDER */ #define DB_AM_IN_RENAME 0x00004000 /* File is being renamed */ #define DB_AM_NOT_DURABLE 0x00008000 /* Do not log changes */ #define DB_AM_OPEN_CALLED 0x00010000 /* DB->open called */ #define DB_AM_PAD 0x00020000 /* Fixed-length record pad */ #define DB_AM_PARTDB 0x00040000 /* Handle for a database partition */ #define DB_AM_PGDEF 0x00080000 /* Page size was defaulted */ #define DB_AM_RDONLY 0x00100000 /* Database is readonly */ #define DB_AM_READ_UNCOMMITTED 0x00200000 /* Support degree 1 isolation */ #define DB_AM_RECNUM 0x00400000 /* DB_RECNUM */ #define DB_AM_RECOVER 0x00800000 /* DB opened by recovery routine */ #define DB_AM_RENUMBER 0x01000000 /* DB_RENUMBER */ #define DB_AM_REVSPLITOFF 0x02000000 /* DB_REVSPLITOFF */ #define DB_AM_SECONDARY 0x04000000 /* Database is a secondary index */ #define DB_AM_SNAPSHOT 0x08000000 /* DB_SNAPSHOT */ #define DB_AM_SUBDB 0x10000000 /* Subdatabases supported */ #define DB_AM_SWAP 0x20000000 /* Pages need to be byte-swapped */ #define DB_AM_TXN 0x40000000 /* Opened in a transaction */ #define DB_AM_VERIFYING 0x80000000 /* DB handle is in the verifier */ u_int32_t orig_flags; /* Flags at open, for refresh */ u_int32_t flags; #define DB2_AM_EXCL 0x00000001 /* Exclusively lock the handle */ #define DB2_AM_INTEXCL 0x00000002 /* Internal exclusive lock. */ #define DB2_AM_NOWAIT 0x00000004 /* Do not wait for handle lock */ u_int32_t orig_flags2; /* Second flags word; for refresh */ u_int32_t flags2; /* Second flags word */ }; /* * Macros for bulk operations. These are only intended for the C API. * For C++, use DbMultiple*Iterator or DbMultiple*Builder. * * Bulk operations store multiple entries into a single DBT structure. The * following macros assist with creating and reading these Multiple DBTs. * * The basic layout for single data items is: * * ------------------------------------------------------------------------- * | data1 | ... | dataN | ..... |-1 | dNLen | dNOff | ... | d1Len | d1Off | * ------------------------------------------------------------------------- * * For the DB_MULTIPLE_KEY* macros, the items are in key/data pairs, so data1 * would be a key, and data2 its corresponding value (N is always even). * * For the DB_MULTIPLE_RECNO* macros, the record number is stored along with * the len/off pair in the "header" section, and the list is zero terminated * (since -1 is a valid record number): * * -------------------------------------------------------------------------- * | d1 |..| dN |..| 0 | dNLen | dNOff | recnoN |..| d1Len | d1Off | recno1 | * -------------------------------------------------------------------------- */ #define DB_MULTIPLE_INIT(pointer, dbt) \ (pointer = (u_int8_t *)(dbt)->data + \ (dbt)->ulen - sizeof(u_int32_t)) #define DB_MULTIPLE_NEXT(pointer, dbt, retdata, retdlen) \ do { \ u_int32_t *__p = (u_int32_t *)(pointer); \ if (*__p == (u_int32_t)-1) { \ retdata = NULL; \ pointer = NULL; \ break; \ } \ retdata = (u_int8_t *)(dbt)->data + *__p--; \ retdlen = *__p--; \ pointer = __p; \ if (retdlen == 0 && retdata == (u_int8_t *)(dbt)->data) \ retdata = NULL; \ } while (0) #define DB_MULTIPLE_KEY_NEXT(pointer, dbt, retkey, retklen, retdata, retdlen) \ do { \ u_int32_t *__p = (u_int32_t *)(pointer); \ if (*__p == (u_int32_t)-1) { \ retdata = NULL; \ retkey = NULL; \ pointer = NULL; \ break; \ } \ retkey = (u_int8_t *)(dbt)->data + *__p--; \ retklen = *__p--; \ retdata = (u_int8_t *)(dbt)->data + *__p--; \ retdlen = *__p--; \ pointer = __p; \ } while (0) #define DB_MULTIPLE_RECNO_NEXT(pointer, dbt, recno, retdata, retdlen) \ do { \ u_int32_t *__p = (u_int32_t *)(pointer); \ if (*__p == (u_int32_t)0) { \ recno = 0; \ retdata = NULL; \ pointer = NULL; \ break; \ } \ recno = *__p--; \ retdata = (u_int8_t *)(dbt)->data + *__p--; \ retdlen = *__p--; \ pointer = __p; \ } while (0) #define DB_MULTIPLE_WRITE_INIT(pointer, dbt) \ do { \ (dbt)->flags |= DB_DBT_BULK; \ pointer = (u_int8_t *)(dbt)->data + \ (dbt)->ulen - sizeof(u_int32_t); \ *(u_int32_t *)(pointer) = (u_int32_t)-1; \ } while (0) #define DB_MULTIPLE_RESERVE_NEXT(pointer, dbt, writedata, writedlen) \ do { \ u_int32_t *__p = (u_int32_t *)(pointer); \ u_int32_t __off = ((pointer) == (u_int8_t *)(dbt)->data +\ (dbt)->ulen - sizeof(u_int32_t)) ? 0 : __p[1] + __p[2];\ if ((u_int8_t *)(dbt)->data + __off + (writedlen) > \ (u_int8_t *)(__p - 2)) \ writedata = NULL; \ else { \ writedata = (u_int8_t *)(dbt)->data + __off; \ __p[0] = __off; \ __p[-1] = (u_int32_t)(writedlen); \ __p[-2] = (u_int32_t)-1; \ pointer = __p - 2; \ } \ } while (0) #define DB_MULTIPLE_WRITE_NEXT(pointer, dbt, writedata, writedlen) \ do { \ void *__destd; \ DB_MULTIPLE_RESERVE_NEXT((pointer), (dbt), \ __destd, (writedlen)); \ if (__destd == NULL) \ pointer = NULL; \ else \ memcpy(__destd, (writedata), (writedlen)); \ } while (0) #define DB_MULTIPLE_KEY_RESERVE_NEXT(pointer, dbt, writekey, writeklen, writedata, writedlen) \ do { \ u_int32_t *__p = (u_int32_t *)(pointer); \ u_int32_t __off = ((pointer) == (u_int8_t *)(dbt)->data +\ (dbt)->ulen - sizeof(u_int32_t)) ? 0 : __p[1] + __p[2];\ if ((u_int8_t *)(dbt)->data + __off + (writeklen) + \ (writedlen) > (u_int8_t *)(__p - 4)) { \ writekey = NULL; \ writedata = NULL; \ } else { \ writekey = (u_int8_t *)(dbt)->data + __off; \ __p[0] = __off; \ __p[-1] = (u_int32_t)(writeklen); \ __p -= 2; \ __off += (u_int32_t)(writeklen); \ writedata = (u_int8_t *)(dbt)->data + __off; \ __p[0] = __off; \ __p[-1] = (u_int32_t)(writedlen); \ __p[-2] = (u_int32_t)-1; \ pointer = __p - 2; \ } \ } while (0) #define DB_MULTIPLE_KEY_WRITE_NEXT(pointer, dbt, writekey, writeklen, writedata, writedlen) \ do { \ void *__destk, *__destd; \ DB_MULTIPLE_KEY_RESERVE_NEXT((pointer), (dbt), \ __destk, (writeklen), __destd, (writedlen)); \ if (__destk == NULL) \ pointer = NULL; \ else { \ memcpy(__destk, (writekey), (writeklen)); \ if (__destd != NULL) \ memcpy(__destd, (writedata), (writedlen));\ } \ } while (0) #define DB_MULTIPLE_RECNO_WRITE_INIT(pointer, dbt) \ do { \ (dbt)->flags |= DB_DBT_BULK; \ pointer = (u_int8_t *)(dbt)->data + \ (dbt)->ulen - sizeof(u_int32_t); \ *(u_int32_t *)(pointer) = 0; \ } while (0) #define DB_MULTIPLE_RECNO_RESERVE_NEXT(pointer, dbt, recno, writedata, writedlen) \ do { \ u_int32_t *__p = (u_int32_t *)(pointer); \ u_int32_t __off = ((pointer) == (u_int8_t *)(dbt)->data +\ (dbt)->ulen - sizeof(u_int32_t)) ? 0 : __p[1] + __p[2]; \ if (((u_int8_t *)(dbt)->data + __off) + (writedlen) > \ (u_int8_t *)(__p - 3)) \ writedata = NULL; \ else { \ writedata = (u_int8_t *)(dbt)->data + __off; \ __p[0] = (u_int32_t)(recno); \ __p[-1] = __off; \ __p[-2] = (u_int32_t)(writedlen); \ __p[-3] = 0; \ pointer = __p - 3; \ } \ } while (0) #define DB_MULTIPLE_RECNO_WRITE_NEXT(pointer, dbt, recno, writedata, writedlen)\ do { \ void *__destd; \ DB_MULTIPLE_RECNO_RESERVE_NEXT((pointer), (dbt), \ (recno), __destd, (writedlen)); \ if (__destd == NULL) \ pointer = NULL; \ else if ((writedlen) != 0) \ memcpy(__destd, (writedata), (writedlen)); \ } while (0) struct __db_heap_rid { db_pgno_t pgno; /* Page number. */ db_indx_t indx; /* Index in the offset table. */ }; #define DB_HEAP_RID_SZ (sizeof(db_pgno_t) + sizeof(db_indx_t)) /******************************************************* * Access method cursors. *******************************************************/ struct __dbc { DB *dbp; /* Backing database */ DB_ENV *dbenv; /* Backing environment */ ENV *env; /* Backing environment */ DB_THREAD_INFO *thread_info; /* Thread that owns this cursor. */ DB_TXN *txn; /* Associated transaction. */ DB_CACHE_PRIORITY priority; /* Priority in cache. */ /* * Active/free cursor queues. * * !!! * Explicit representations of structures from queue.h. * TAILQ_ENTRY(__dbc) links; */ struct { DBC *tqe_next; DBC **tqe_prev; } links; /* * Cursor queue of the owning transaction. * * !!! * Explicit representations of structures from queue.h. * TAILQ_ENTRY(__dbc) txn_cursors; */ struct { DBC *tqe_next; /* next element */ DBC **tqe_prev; /* address of previous next element */ } txn_cursors; /* * The DBT *'s below are used by the cursor routines to return * data to the user when DBT flags indicate that DB should manage * the returned memory. They point at a DBT containing the buffer * and length that will be used, and "belonging" to the handle that * should "own" this memory. This may be a "my_*" field of this * cursor--the default--or it may be the corresponding field of * another cursor, a DB handle, a join cursor, etc. In general, it * will be whatever handle the user originally used for the current * DB interface call. */ DBT *rskey; /* Returned secondary key. */ DBT *rkey; /* Returned [primary] key. */ DBT *rdata; /* Returned data. */ DBT my_rskey; /* Space for returned secondary key. */ DBT my_rkey; /* Space for returned [primary] key. */ DBT my_rdata; /* Space for returned data. */ DB_LOCKER *lref; /* Reference to default locker. */ DB_LOCKER *locker; /* Locker for this operation. */ DBT lock_dbt; /* DBT referencing lock. */ DB_LOCK_ILOCK lock; /* Object to be locked. */ DB_LOCK mylock; /* CDB lock held on this cursor. */ DBTYPE dbtype; /* Cursor type. */ DBC_INTERNAL *internal; /* Access method private. */ /* DBC PUBLIC HANDLE LIST BEGIN */ int (*close) __P((DBC *)); int (*cmp) __P((DBC *, DBC *, int *, u_int32_t)); int (*count) __P((DBC *, db_recno_t *, u_int32_t)); int (*del) __P((DBC *, u_int32_t)); int (*dup) __P((DBC *, DBC **, u_int32_t)); int (*get) __P((DBC *, DBT *, DBT *, u_int32_t)); int (*get_priority) __P((DBC *, DB_CACHE_PRIORITY *)); int (*pget) __P((DBC *, DBT *, DBT *, DBT *, u_int32_t)); int (*put) __P((DBC *, DBT *, DBT *, u_int32_t)); int (*set_priority) __P((DBC *, DB_CACHE_PRIORITY)); /* DBC PUBLIC HANDLE LIST END */ /* The following are the method names deprecated in the 4.6 release. */ int (*c_close) __P((DBC *)); int (*c_count) __P((DBC *, db_recno_t *, u_int32_t)); int (*c_del) __P((DBC *, u_int32_t)); int (*c_dup) __P((DBC *, DBC **, u_int32_t)); int (*c_get) __P((DBC *, DBT *, DBT *, u_int32_t)); int (*c_pget) __P((DBC *, DBT *, DBT *, DBT *, u_int32_t)); int (*c_put) __P((DBC *, DBT *, DBT *, u_int32_t)); /* DBC PRIVATE HANDLE LIST BEGIN */ int (*am_bulk) __P((DBC *, DBT *, u_int32_t)); int (*am_close) __P((DBC *, db_pgno_t, int *)); int (*am_del) __P((DBC *, u_int32_t)); int (*am_destroy) __P((DBC *)); int (*am_get) __P((DBC *, DBT *, DBT *, u_int32_t, db_pgno_t *)); int (*am_put) __P((DBC *, DBT *, DBT *, u_int32_t, db_pgno_t *)); int (*am_writelock) __P((DBC *)); /* DBC PRIVATE HANDLE LIST END */ /* * DBC_DONTLOCK and DBC_RECOVER are used during recovery and transaction * abort. If a transaction is being aborted or recovered then DBC_RECOVER * will be set and locking and logging will be disabled on this cursor. If * we are performing a compensating transaction (e.g. free page processing) * then DB_DONTLOCK will be set to inhibit locking, but logging will still * be required. DB_DONTLOCK is also used if the whole database is locked. */ #define DBC_ACTIVE 0x00001 /* Cursor in use. */ #define DBC_BULK 0x00002 /* Bulk update cursor. */ #define DBC_DONTLOCK 0x00004 /* Don't lock on this cursor. */ #define DBC_DOWNREV 0x00008 /* Down rev replication master. */ #define DBC_DUPLICATE 0x00010 /* Create a duplicate cursor. */ #define DBC_ERROR 0x00020 /* Error in this request. */ #define DBC_FAMILY 0x00040 /* Part of a locker family. */ #define DBC_FROM_DB_GET 0x00080 /* Called from the DB->get() method. */ #define DBC_MULTIPLE 0x00100 /* Return Multiple data. */ #define DBC_MULTIPLE_KEY 0x00200 /* Return Multiple keys and data. */ #define DBC_OPD 0x00400 /* Cursor references off-page dups. */ #define DBC_OWN_LID 0x00800 /* Free lock id on destroy. */ #define DBC_PARTITIONED 0x01000 /* Cursor for a partitioned db. */ #define DBC_READ_COMMITTED 0x02000 /* Cursor has degree 2 isolation. */ #define DBC_READ_UNCOMMITTED 0x04000 /* Cursor has degree 1 isolation. */ #define DBC_RECOVER 0x08000 /* Recovery cursor; don't log/lock. */ #define DBC_RMW 0x10000 /* Acquire write flag in read op. */ #define DBC_TRANSIENT 0x20000 /* Cursor is transient. */ #define DBC_WAS_READ_COMMITTED 0x40000 /* Cursor holds a read commited lock. */ #define DBC_WRITECURSOR 0x80000 /* Cursor may be used to write (CDB). */ #define DBC_WRITER 0x100000 /* Cursor immediately writing (CDB). */ u_int32_t flags; }; /* Key range statistics structure */ struct __key_range { double less; double equal; double greater; }; /* Btree/Recno statistics structure. */ struct __db_bt_stat { /* SHARED */ u_int32_t bt_magic; /* Magic number. */ u_int32_t bt_version; /* Version number. */ u_int32_t bt_metaflags; /* Metadata flags. */ u_int32_t bt_nkeys; /* Number of unique keys. */ u_int32_t bt_ndata; /* Number of data items. */ u_int32_t bt_pagecnt; /* Page count. */ u_int32_t bt_pagesize; /* Page size. */ u_int32_t bt_minkey; /* Minkey value. */ u_int32_t bt_re_len; /* Fixed-length record length. */ u_int32_t bt_re_pad; /* Fixed-length record pad. */ u_int32_t bt_levels; /* Tree levels. */ u_int32_t bt_int_pg; /* Internal pages. */ u_int32_t bt_leaf_pg; /* Leaf pages. */ u_int32_t bt_dup_pg; /* Duplicate pages. */ u_int32_t bt_over_pg; /* Overflow pages. */ u_int32_t bt_empty_pg; /* Empty pages. */ u_int32_t bt_free; /* Pages on the free list. */ uintmax_t bt_int_pgfree; /* Bytes free in internal pages. */ uintmax_t bt_leaf_pgfree; /* Bytes free in leaf pages. */ uintmax_t bt_dup_pgfree; /* Bytes free in duplicate pages. */ uintmax_t bt_over_pgfree; /* Bytes free in overflow pages. */ }; struct __db_compact { /* Input Parameters. */ u_int32_t compact_fillpercent; /* Desired fillfactor: 1-100 */ db_timeout_t compact_timeout; /* Lock timeout. */ u_int32_t compact_pages; /* Max pages to process. */ /* Output Stats. */ u_int32_t compact_empty_buckets; /* Empty hash buckets found. */ u_int32_t compact_pages_free; /* Number of pages freed. */ u_int32_t compact_pages_examine; /* Number of pages examine. */ u_int32_t compact_levels; /* Number of levels removed. */ u_int32_t compact_deadlock; /* Number of deadlocks. */ db_pgno_t compact_pages_truncated; /* Pages truncated to OS. */ /* Internal. */ db_pgno_t compact_truncate; /* Page number for truncation */ }; /* Hash statistics structure. */ struct __db_h_stat { /* SHARED */ u_int32_t hash_magic; /* Magic number. */ u_int32_t hash_version; /* Version number. */ u_int32_t hash_metaflags; /* Metadata flags. */ u_int32_t hash_nkeys; /* Number of unique keys. */ u_int32_t hash_ndata; /* Number of data items. */ u_int32_t hash_pagecnt; /* Page count. */ u_int32_t hash_pagesize; /* Page size. */ u_int32_t hash_ffactor; /* Fill factor specified at create. */ u_int32_t hash_buckets; /* Number of hash buckets. */ u_int32_t hash_free; /* Pages on the free list. */ uintmax_t hash_bfree; /* Bytes free on bucket pages. */ u_int32_t hash_bigpages; /* Number of big key/data pages. */ uintmax_t hash_big_bfree; /* Bytes free on big item pages. */ u_int32_t hash_overflows; /* Number of overflow pages. */ uintmax_t hash_ovfl_free; /* Bytes free on ovfl pages. */ u_int32_t hash_dup; /* Number of dup pages. */ uintmax_t hash_dup_free; /* Bytes free on duplicate pages. */ }; /* Heap statistics structure. */ struct __db_heap_stat { /* SHARED */ u_int32_t heap_magic; /* Magic number. */ u_int32_t heap_version; /* Version number. */ u_int32_t heap_metaflags; /* Metadata flags. */ u_int32_t heap_nrecs; /* Number of records. */ u_int32_t heap_pagecnt; /* Page count. */ u_int32_t heap_pagesize; /* Page size. */ u_int32_t heap_nregions; /* Number of regions. */ u_int32_t heap_regionsize; /* Number of pages in a region. */ }; /* Queue statistics structure. */ struct __db_qam_stat { /* SHARED */ u_int32_t qs_magic; /* Magic number. */ u_int32_t qs_version; /* Version number. */ u_int32_t qs_metaflags; /* Metadata flags. */ u_int32_t qs_nkeys; /* Number of unique keys. */ u_int32_t qs_ndata; /* Number of data items. */ u_int32_t qs_pagesize; /* Page size. */ u_int32_t qs_extentsize; /* Pages per extent. */ u_int32_t qs_pages; /* Data pages. */ u_int32_t qs_re_len; /* Fixed-length record length. */ u_int32_t qs_re_pad; /* Fixed-length record pad. */ u_int32_t qs_pgfree; /* Bytes free in data pages. */ u_int32_t qs_first_recno; /* First not deleted record. */ u_int32_t qs_cur_recno; /* Next available record number. */ }; /******************************************************* * Environment. *******************************************************/ #define DB_REGION_MAGIC 0x120897 /* Environment magic number. */ /* * Database environment structure. * * This is the public database environment handle. The private environment * handle is the ENV structure. The user owns this structure, the library * owns the ENV structure. The reason there are two structures is because * the user's configuration outlives any particular DB_ENV->open call, and * separate structures allows us to easily discard internal information without * discarding the user's configuration. * * Fields in the DB_ENV structure should normally be set only by application * DB_ENV handle methods. */ /* * Memory configuration types. */ typedef enum { DB_MEM_LOCK=1, DB_MEM_LOCKOBJECT=2, DB_MEM_LOCKER=3, DB_MEM_LOGID=4, DB_MEM_TRANSACTION=5, DB_MEM_THREAD=6 } DB_MEM_CONFIG; /* * Backup configuration types. */ typedef enum { DB_BACKUP_READ_COUNT = 1, DB_BACKUP_READ_SLEEP = 2, DB_BACKUP_SIZE = 3, DB_BACKUP_WRITE_DIRECT = 4 } DB_BACKUP_CONFIG; struct __db_env { ENV *env; /* Linked ENV structure */ /* * The DB_ENV structure can be used concurrently, so field access is * protected. */ db_mutex_t mtx_db_env; /* DB_ENV structure mutex */ /* Error message callback */ void (*db_errcall) __P((const DB_ENV *, const char *, const char *)); FILE *db_errfile; /* Error message file stream */ const char *db_errpfx; /* Error message prefix */ /* Other message callback */ void (*db_msgcall) __P((const DB_ENV *, const char *)); FILE *db_msgfile; /* Other message file stream */ /* Other application callback functions */ int (*app_dispatch) __P((DB_ENV *, DBT *, DB_LSN *, db_recops)); void (*db_event_func) __P((DB_ENV *, u_int32_t, void *)); void (*db_feedback) __P((DB_ENV *, int, int)); void (*db_free) __P((void *)); void (*db_paniccall) __P((DB_ENV *, int)); void *(*db_malloc) __P((size_t)); void *(*db_realloc) __P((void *, size_t)); int (*is_alive) __P((DB_ENV *, pid_t, db_threadid_t, u_int32_t)); void (*thread_id) __P((DB_ENV *, pid_t *, db_threadid_t *)); char *(*thread_id_string) __P((DB_ENV *, pid_t, db_threadid_t, char *)); /* Application specified paths */ char *db_log_dir; /* Database log file directory */ char *db_md_dir; /* Persistent metadata directory */ char *db_tmp_dir; /* Database tmp file directory */ char *db_create_dir; /* Create directory for data files */ char **db_data_dir; /* Database data file directories */ int data_cnt; /* Database data file slots */ int data_next; /* Next database data file slot */ char *intermediate_dir_mode; /* Intermediate directory perms */ long shm_key; /* shmget key */ char *passwd; /* Cryptography support */ size_t passwd_len; /* Private handle references */ void *app_private; /* Application-private handle */ void *api1_internal; /* C++, Perl API private */ void *api2_internal; /* Java API private */ u_int32_t verbose; /* DB_VERB_XXX flags */ /* Mutex configuration */ u_int32_t mutex_align; /* Mutex alignment */ u_int32_t mutex_cnt; /* Number of mutexes to configure */ u_int32_t mutex_inc; /* Number of mutexes to add */ u_int32_t mutex_max; /* Max number of mutexes */ u_int32_t mutex_tas_spins;/* Test-and-set spin count */ /* Locking configuration */ u_int8_t *lk_conflicts; /* Two dimensional conflict matrix */ int lk_modes; /* Number of lock modes in table */ u_int32_t lk_detect; /* Deadlock detect on all conflicts */ u_int32_t lk_max; /* Maximum number of locks */ u_int32_t lk_max_lockers;/* Maximum number of lockers */ u_int32_t lk_max_objects;/* Maximum number of locked objects */ u_int32_t lk_init; /* Initial number of locks */ u_int32_t lk_init_lockers;/* Initial number of lockers */ u_int32_t lk_init_objects;/* Initial number of locked objects */ u_int32_t lk_partitions ;/* Number of object partitions */ db_timeout_t lk_timeout; /* Lock timeout period */ /* Used during initialization */ u_int32_t locker_t_size; /* Locker hash table size. */ u_int32_t object_t_size; /* Object hash table size. */ /* Logging configuration */ u_int32_t lg_bsize; /* Buffer size */ u_int32_t lg_fileid_init; /* Initial allocation for fname structs */ int lg_filemode; /* Log file permission mode */ u_int32_t lg_regionmax; /* Region size */ u_int32_t lg_size; /* Log file size */ u_int32_t lg_flags; /* Log configuration */ /* Memory pool configuration */ u_int32_t mp_gbytes; /* Cache size: GB */ u_int32_t mp_bytes; /* Cache size: bytes */ u_int32_t mp_max_gbytes; /* Maximum cache size: GB */ u_int32_t mp_max_bytes; /* Maximum cache size: bytes */ size_t mp_mmapsize; /* Maximum file size for mmap */ int mp_maxopenfd; /* Maximum open file descriptors */ int mp_maxwrite; /* Maximum buffers to write */ u_int mp_ncache; /* Initial number of cache regions */ u_int32_t mp_pagesize; /* Average page size */ u_int32_t mp_tablesize; /* Approximate hash table size */ u_int32_t mp_mtxcount; /* Number of mutexs */ /* Sleep after writing max buffers */ db_timeout_t mp_maxwrite_sleep; /* Transaction configuration */ u_int32_t tx_init; /* Initial number of transactions */ u_int32_t tx_max; /* Maximum number of transactions */ time_t tx_timestamp; /* Recover to specific timestamp */ db_timeout_t tx_timeout; /* Timeout for transactions */ /* Thread tracking configuration */ u_int32_t thr_init; /* Thread count */ u_int32_t thr_max; /* Thread max */ roff_t memory_max; /* Maximum region memory */ /* * The following fields are not strictly user-owned, but they outlive * the ENV structure, and so are stored here. */ DB_FH *registry; /* DB_REGISTER file handle */ u_int32_t registry_off; /* * Offset of our slot. We can't use * off_t because its size depends on * build settings. */ db_timeout_t envreg_timeout; /* DB_REGISTER wait timeout */ #define DB_ENV_AUTO_COMMIT 0x00000001 /* DB_AUTO_COMMIT */ #define DB_ENV_CDB_ALLDB 0x00000002 /* CDB environment wide locking */ #define DB_ENV_FAILCHK 0x00000004 /* Failchk is running */ #define DB_ENV_DIRECT_DB 0x00000008 /* DB_DIRECT_DB set */ #define DB_ENV_DSYNC_DB 0x00000010 /* DB_DSYNC_DB set */ #define DB_ENV_DATABASE_LOCKING 0x00000020 /* Try database-level locking */ #define DB_ENV_MULTIVERSION 0x00000040 /* DB_MULTIVERSION set */ #define DB_ENV_NOLOCKING 0x00000080 /* DB_NOLOCKING set */ #define DB_ENV_NOMMAP 0x00000100 /* DB_NOMMAP set */ #define DB_ENV_NOPANIC 0x00000200 /* Okay if panic set */ #define DB_ENV_OVERWRITE 0x00000400 /* DB_OVERWRITE set */ #define DB_ENV_REGION_INIT 0x00000800 /* DB_REGION_INIT set */ #define DB_ENV_TIME_NOTGRANTED 0x00001000 /* DB_TIME_NOTGRANTED set */ #define DB_ENV_TXN_NOSYNC 0x00002000 /* DB_TXN_NOSYNC set */ #define DB_ENV_TXN_NOWAIT 0x00004000 /* DB_TXN_NOWAIT set */ #define DB_ENV_TXN_SNAPSHOT 0x00008000 /* DB_TXN_SNAPSHOT set */ #define DB_ENV_TXN_WRITE_NOSYNC 0x00010000 /* DB_TXN_WRITE_NOSYNC set */ #define DB_ENV_YIELDCPU 0x00020000 /* DB_YIELDCPU set */ #define DB_ENV_HOTBACKUP 0x00040000 /* DB_HOTBACKUP_IN_PROGRESS set */ #define DB_ENV_NOFLUSH 0x00080000 /* DB_NOFLUSH set */ u_int32_t flags; /* DB_ENV PUBLIC HANDLE LIST BEGIN */ int (*add_data_dir) __P((DB_ENV *, const char *)); int (*backup) __P((DB_ENV *, const char *, u_int32_t)); int (*cdsgroup_begin) __P((DB_ENV *, DB_TXN **)); int (*close) __P((DB_ENV *, u_int32_t)); int (*dbbackup) __P((DB_ENV *, const char *, const char *, u_int32_t)); int (*dbremove) __P((DB_ENV *, DB_TXN *, const char *, const char *, u_int32_t)); int (*dbrename) __P((DB_ENV *, DB_TXN *, const char *, const char *, const char *, u_int32_t)); void (*err) __P((const DB_ENV *, int, const char *, ...)); void (*errx) __P((const DB_ENV *, const char *, ...)); int (*failchk) __P((DB_ENV *, u_int32_t)); int (*fileid_reset) __P((DB_ENV *, const char *, u_int32_t)); int (*get_alloc) __P((DB_ENV *, void *(**)(size_t), void *(**)(void *, size_t), void (**)(void *))); int (*get_app_dispatch) __P((DB_ENV *, int (**)(DB_ENV *, DBT *, DB_LSN *, db_recops))); int (*get_cache_max) __P((DB_ENV *, u_int32_t *, u_int32_t *)); int (*get_cachesize) __P((DB_ENV *, u_int32_t *, u_int32_t *, int *)); int (*get_create_dir) __P((DB_ENV *, const char **)); int (*get_data_dirs) __P((DB_ENV *, const char ***)); int (*get_data_len) __P((DB_ENV *, u_int32_t *)); int (*get_backup_callbacks) __P((DB_ENV *, int (**)(DB_ENV *, const char *, const char *, void **), int (**)(DB_ENV *, u_int32_t, u_int32_t, u_int32_t, u_int8_t *, void *), int (**)(DB_ENV *, const char *, void *))); int (*get_backup_config) __P((DB_ENV *, DB_BACKUP_CONFIG, u_int32_t *)); int (*get_encrypt_flags) __P((DB_ENV *, u_int32_t *)); void (*get_errcall) __P((DB_ENV *, void (**)(const DB_ENV *, const char *, const char *))); void (*get_errfile) __P((DB_ENV *, FILE **)); void (*get_errpfx) __P((DB_ENV *, const char **)); int (*get_flags) __P((DB_ENV *, u_int32_t *)); int (*get_feedback) __P((DB_ENV *, void (**)(DB_ENV *, int, int))); int (*get_home) __P((DB_ENV *, const char **)); int (*get_intermediate_dir_mode) __P((DB_ENV *, const char **)); int (*get_isalive) __P((DB_ENV *, int (**)(DB_ENV *, pid_t, db_threadid_t, u_int32_t))); int (*get_lg_bsize) __P((DB_ENV *, u_int32_t *)); int (*get_lg_dir) __P((DB_ENV *, const char **)); int (*get_lg_filemode) __P((DB_ENV *, int *)); int (*get_lg_max) __P((DB_ENV *, u_int32_t *)); int (*get_lg_regionmax) __P((DB_ENV *, u_int32_t *)); int (*get_lk_conflicts) __P((DB_ENV *, const u_int8_t **, int *)); int (*get_lk_detect) __P((DB_ENV *, u_int32_t *)); int (*get_lk_max_lockers) __P((DB_ENV *, u_int32_t *)); int (*get_lk_max_locks) __P((DB_ENV *, u_int32_t *)); int (*get_lk_max_objects) __P((DB_ENV *, u_int32_t *)); int (*get_lk_partitions) __P((DB_ENV *, u_int32_t *)); int (*get_lk_priority) __P((DB_ENV *, u_int32_t, u_int32_t *)); int (*get_lk_tablesize) __P((DB_ENV *, u_int32_t *)); int (*get_memory_init) __P((DB_ENV *, DB_MEM_CONFIG, u_int32_t *)); int (*get_memory_max) __P((DB_ENV *, u_int32_t *, u_int32_t *)); int (*get_metadata_dir) __P((DB_ENV *, const char **)); int (*get_mp_max_openfd) __P((DB_ENV *, int *)); int (*get_mp_max_write) __P((DB_ENV *, int *, db_timeout_t *)); int (*get_mp_mmapsize) __P((DB_ENV *, size_t *)); int (*get_mp_mtxcount) __P((DB_ENV *, u_int32_t *)); int (*get_mp_pagesize) __P((DB_ENV *, u_int32_t *)); int (*get_mp_tablesize) __P((DB_ENV *, u_int32_t *)); void (*get_msgcall) __P((DB_ENV *, void (**)(const DB_ENV *, const char *))); void (*get_msgfile) __P((DB_ENV *, FILE **)); int (*get_open_flags) __P((DB_ENV *, u_int32_t *)); int (*get_shm_key) __P((DB_ENV *, long *)); int (*get_thread_count) __P((DB_ENV *, u_int32_t *)); int (*get_thread_id_fn) __P((DB_ENV *, void (**)(DB_ENV *, pid_t *, db_threadid_t *))); int (*get_thread_id_string_fn) __P((DB_ENV *, char *(**)(DB_ENV *, pid_t, db_threadid_t, char *))); int (*get_timeout) __P((DB_ENV *, db_timeout_t *, u_int32_t)); int (*get_tmp_dir) __P((DB_ENV *, const char **)); int (*get_tx_max) __P((DB_ENV *, u_int32_t *)); int (*get_tx_timestamp) __P((DB_ENV *, time_t *)); int (*get_verbose) __P((DB_ENV *, u_int32_t, int *)); int (*is_bigendian) __P((void)); int (*lock_detect) __P((DB_ENV *, u_int32_t, u_int32_t, int *)); int (*lock_get) __P((DB_ENV *, u_int32_t, u_int32_t, DBT *, db_lockmode_t, DB_LOCK *)); int (*lock_id) __P((DB_ENV *, u_int32_t *)); int (*lock_id_free) __P((DB_ENV *, u_int32_t)); int (*lock_put) __P((DB_ENV *, DB_LOCK *)); int (*lock_stat) __P((DB_ENV *, DB_LOCK_STAT **, u_int32_t)); int (*lock_stat_print) __P((DB_ENV *, u_int32_t)); int (*lock_vec) __P((DB_ENV *, u_int32_t, u_int32_t, DB_LOCKREQ *, int, DB_LOCKREQ **)); int (*log_archive) __P((DB_ENV *, char **[], u_int32_t)); int (*log_cursor) __P((DB_ENV *, DB_LOGC **, u_int32_t)); int (*log_file) __P((DB_ENV *, const DB_LSN *, char *, size_t)); int (*log_flush) __P((DB_ENV *, const DB_LSN *)); int (*log_get_config) __P((DB_ENV *, u_int32_t, int *)); int (*log_printf) __P((DB_ENV *, DB_TXN *, const char *, ...)); int (*log_put) __P((DB_ENV *, DB_LSN *, const DBT *, u_int32_t)); int (*log_put_record) __P((DB_ENV *, DB *, DB_TXN *, DB_LSN *, u_int32_t, u_int32_t, u_int32_t, u_int32_t, DB_LOG_RECSPEC *, ...)); int (*log_read_record) __P((DB_ENV *, DB **, void *, void *, DB_LOG_RECSPEC *, u_int32_t, void **)); int (*log_set_config) __P((DB_ENV *, u_int32_t, int)); int (*log_stat) __P((DB_ENV *, DB_LOG_STAT **, u_int32_t)); int (*log_stat_print) __P((DB_ENV *, u_int32_t)); int (*log_verify) __P((DB_ENV *, const DB_LOG_VERIFY_CONFIG *)); int (*lsn_reset) __P((DB_ENV *, const char *, u_int32_t)); int (*memp_fcreate) __P((DB_ENV *, DB_MPOOLFILE **, u_int32_t)); int (*memp_register) __P((DB_ENV *, int, int (*)(DB_ENV *, db_pgno_t, void *, DBT *), int (*)(DB_ENV *, db_pgno_t, void *, DBT *))); int (*memp_stat) __P((DB_ENV *, DB_MPOOL_STAT **, DB_MPOOL_FSTAT ***, u_int32_t)); int (*memp_stat_print) __P((DB_ENV *, u_int32_t)); int (*memp_sync) __P((DB_ENV *, DB_LSN *)); int (*memp_trickle) __P((DB_ENV *, int, int *)); int (*mutex_alloc) __P((DB_ENV *, u_int32_t, db_mutex_t *)); int (*mutex_free) __P((DB_ENV *, db_mutex_t)); int (*mutex_get_align) __P((DB_ENV *, u_int32_t *)); int (*mutex_get_increment) __P((DB_ENV *, u_int32_t *)); int (*mutex_get_init) __P((DB_ENV *, u_int32_t *)); int (*mutex_get_max) __P((DB_ENV *, u_int32_t *)); int (*mutex_get_tas_spins) __P((DB_ENV *, u_int32_t *)); int (*mutex_lock) __P((DB_ENV *, db_mutex_t)); int (*mutex_set_align) __P((DB_ENV *, u_int32_t)); int (*mutex_set_increment) __P((DB_ENV *, u_int32_t)); int (*mutex_set_init) __P((DB_ENV *, u_int32_t)); int (*mutex_set_max) __P((DB_ENV *, u_int32_t)); int (*mutex_set_tas_spins) __P((DB_ENV *, u_int32_t)); int (*mutex_stat) __P((DB_ENV *, DB_MUTEX_STAT **, u_int32_t)); int (*mutex_stat_print) __P((DB_ENV *, u_int32_t)); int (*mutex_unlock) __P((DB_ENV *, db_mutex_t)); int (*open) __P((DB_ENV *, const char *, u_int32_t, int)); int (*remove) __P((DB_ENV *, const char *, u_int32_t)); int (*rep_elect) __P((DB_ENV *, u_int32_t, u_int32_t, u_int32_t)); int (*rep_flush) __P((DB_ENV *)); int (*rep_get_clockskew) __P((DB_ENV *, u_int32_t *, u_int32_t *)); int (*rep_get_config) __P((DB_ENV *, u_int32_t, int *)); int (*rep_get_limit) __P((DB_ENV *, u_int32_t *, u_int32_t *)); int (*rep_get_nsites) __P((DB_ENV *, u_int32_t *)); int (*rep_get_priority) __P((DB_ENV *, u_int32_t *)); int (*rep_get_request) __P((DB_ENV *, u_int32_t *, u_int32_t *)); int (*rep_get_timeout) __P((DB_ENV *, int, u_int32_t *)); int (*rep_process_message) __P((DB_ENV *, DBT *, DBT *, int, DB_LSN *)); int (*rep_set_clockskew) __P((DB_ENV *, u_int32_t, u_int32_t)); int (*rep_set_config) __P((DB_ENV *, u_int32_t, int)); int (*rep_set_limit) __P((DB_ENV *, u_int32_t, u_int32_t)); int (*rep_set_nsites) __P((DB_ENV *, u_int32_t)); int (*rep_set_priority) __P((DB_ENV *, u_int32_t)); int (*rep_set_request) __P((DB_ENV *, u_int32_t, u_int32_t)); int (*rep_set_timeout) __P((DB_ENV *, int, db_timeout_t)); int (*rep_set_transport) __P((DB_ENV *, int, int (*)(DB_ENV *, const DBT *, const DBT *, const DB_LSN *, int, u_int32_t))); int (*rep_start) __P((DB_ENV *, DBT *, u_int32_t)); int (*rep_stat) __P((DB_ENV *, DB_REP_STAT **, u_int32_t)); int (*rep_stat_print) __P((DB_ENV *, u_int32_t)); int (*rep_sync) __P((DB_ENV *, u_int32_t)); int (*repmgr_channel) __P((DB_ENV *, int, DB_CHANNEL **, u_int32_t)); int (*repmgr_get_ack_policy) __P((DB_ENV *, int *)); int (*repmgr_local_site) __P((DB_ENV *, DB_SITE **)); int (*repmgr_msg_dispatch) __P((DB_ENV *, void (*)(DB_ENV *, DB_CHANNEL *, DBT *, u_int32_t, u_int32_t), u_int32_t)); int (*repmgr_set_ack_policy) __P((DB_ENV *, int)); int (*repmgr_site) __P((DB_ENV *, const char *, u_int, DB_SITE**, u_int32_t)); int (*repmgr_site_by_eid) __P((DB_ENV *, int, DB_SITE**)); int (*repmgr_site_list) __P((DB_ENV *, u_int *, DB_REPMGR_SITE **)); int (*repmgr_start) __P((DB_ENV *, int, u_int32_t)); int (*repmgr_stat) __P((DB_ENV *, DB_REPMGR_STAT **, u_int32_t)); int (*repmgr_stat_print) __P((DB_ENV *, u_int32_t)); int (*set_alloc) __P((DB_ENV *, void *(*)(size_t), void *(*)(void *, size_t), void (*)(void *))); int (*set_app_dispatch) __P((DB_ENV *, int (*)(DB_ENV *, DBT *, DB_LSN *, db_recops))); int (*set_cache_max) __P((DB_ENV *, u_int32_t, u_int32_t)); int (*set_cachesize) __P((DB_ENV *, u_int32_t, u_int32_t, int)); int (*set_create_dir) __P((DB_ENV *, const char *)); int (*set_data_dir) __P((DB_ENV *, const char *)); int (*set_data_len) __P((DB_ENV *, u_int32_t)); int (*set_backup_callbacks) __P((DB_ENV *, int (*)(DB_ENV *, const char *, const char *, void **), int (*)(DB_ENV *, u_int32_t, u_int32_t, u_int32_t, u_int8_t *, void *), int (*)(DB_ENV *, const char *, void *))); int (*set_backup_config) __P((DB_ENV *, DB_BACKUP_CONFIG, u_int32_t)); int (*set_encrypt) __P((DB_ENV *, const char *, u_int32_t)); void (*set_errcall) __P((DB_ENV *, void (*)(const DB_ENV *, const char *, const char *))); void (*set_errfile) __P((DB_ENV *, FILE *)); void (*set_errpfx) __P((DB_ENV *, const char *)); int (*set_event_notify) __P((DB_ENV *, void (*)(DB_ENV *, u_int32_t, void *))); int (*set_feedback) __P((DB_ENV *, void (*)(DB_ENV *, int, int))); int (*set_flags) __P((DB_ENV *, u_int32_t, int)); int (*set_intermediate_dir_mode) __P((DB_ENV *, const char *)); int (*set_isalive) __P((DB_ENV *, int (*)(DB_ENV *, pid_t, db_threadid_t, u_int32_t))); int (*set_lg_bsize) __P((DB_ENV *, u_int32_t)); int (*set_lg_dir) __P((DB_ENV *, const char *)); int (*set_lg_filemode) __P((DB_ENV *, int)); int (*set_lg_max) __P((DB_ENV *, u_int32_t)); int (*set_lg_regionmax) __P((DB_ENV *, u_int32_t)); int (*set_lk_conflicts) __P((DB_ENV *, u_int8_t *, int)); int (*set_lk_detect) __P((DB_ENV *, u_int32_t)); int (*set_lk_max_lockers) __P((DB_ENV *, u_int32_t)); int (*set_lk_max_locks) __P((DB_ENV *, u_int32_t)); int (*set_lk_max_objects) __P((DB_ENV *, u_int32_t)); int (*set_lk_partitions) __P((DB_ENV *, u_int32_t)); int (*set_lk_priority) __P((DB_ENV *, u_int32_t, u_int32_t)); int (*set_lk_tablesize) __P((DB_ENV *, u_int32_t)); int (*set_memory_init) __P((DB_ENV *, DB_MEM_CONFIG, u_int32_t)); int (*set_memory_max) __P((DB_ENV *, u_int32_t, u_int32_t)); int (*set_metadata_dir) __P((DB_ENV *, const char *)); int (*set_mp_max_openfd) __P((DB_ENV *, int)); int (*set_mp_max_write) __P((DB_ENV *, int, db_timeout_t)); int (*set_mp_mmapsize) __P((DB_ENV *, size_t)); int (*set_mp_mtxcount) __P((DB_ENV *, u_int32_t)); int (*set_mp_pagesize) __P((DB_ENV *, u_int32_t)); int (*set_mp_tablesize) __P((DB_ENV *, u_int32_t)); void (*set_msgcall) __P((DB_ENV *, void (*)(const DB_ENV *, const char *))); void (*set_msgfile) __P((DB_ENV *, FILE *)); int (*set_paniccall) __P((DB_ENV *, void (*)(DB_ENV *, int))); int (*set_shm_key) __P((DB_ENV *, long)); int (*set_thread_count) __P((DB_ENV *, u_int32_t)); int (*set_thread_id) __P((DB_ENV *, void (*)(DB_ENV *, pid_t *, db_threadid_t *))); int (*set_thread_id_string) __P((DB_ENV *, char *(*)(DB_ENV *, pid_t, db_threadid_t, char *))); int (*set_timeout) __P((DB_ENV *, db_timeout_t, u_int32_t)); int (*set_tmp_dir) __P((DB_ENV *, const char *)); int (*set_tx_max) __P((DB_ENV *, u_int32_t)); int (*set_tx_timestamp) __P((DB_ENV *, time_t *)); int (*set_verbose) __P((DB_ENV *, u_int32_t, int)); int (*txn_applied) __P((DB_ENV *, DB_TXN_TOKEN *, db_timeout_t, u_int32_t)); int (*stat_print) __P((DB_ENV *, u_int32_t)); int (*txn_begin) __P((DB_ENV *, DB_TXN *, DB_TXN **, u_int32_t)); int (*txn_checkpoint) __P((DB_ENV *, u_int32_t, u_int32_t, u_int32_t)); int (*txn_recover) __P((DB_ENV *, DB_PREPLIST *, long, long *, u_int32_t)); int (*txn_stat) __P((DB_ENV *, DB_TXN_STAT **, u_int32_t)); int (*txn_stat_print) __P((DB_ENV *, u_int32_t)); /* DB_ENV PUBLIC HANDLE LIST END */ /* DB_ENV PRIVATE HANDLE LIST BEGIN */ int (*prdbt) __P((DBT *, int, const char *, void *, int (*)(void *, const void *), int, int)); /* DB_ENV PRIVATE HANDLE LIST END */ }; /* * Dispatch structure for recovery, log verification and print routines. Since * internal and external routines take different arguments (ENV versus DB_ENV), * we need something more elaborate than a single pointer and size. */ struct __db_distab { int (**int_dispatch) __P((ENV *, DBT *, DB_LSN *, db_recops, void *)); size_t int_size; int (**ext_dispatch) __P((DB_ENV *, DBT *, DB_LSN *, db_recops)); size_t ext_size; }; /* * Log verification configuration structure. */ struct __db_logvrfy_config { int continue_after_fail, verbose; u_int32_t cachesize; const char *temp_envhome; const char *dbfile, *dbname; DB_LSN start_lsn, end_lsn; time_t start_time, end_time; }; struct __db_channel { CHANNEL *channel; /* Pointer to internal state details. */ int eid; /* Env. ID passed in constructor. */ db_timeout_t timeout; /* DB_CHANNEL PUBLIC HANDLE LIST BEGIN */ int (*close) __P((DB_CHANNEL *, u_int32_t)); int (*send_msg) __P((DB_CHANNEL *, DBT *, u_int32_t, u_int32_t)); int (*send_request) __P((DB_CHANNEL *, DBT *, u_int32_t, DBT *, db_timeout_t, u_int32_t)); int (*set_timeout) __P((DB_CHANNEL *, db_timeout_t)); /* DB_CHANNEL PUBLIC HANDLE LIST END */ }; struct __db_site { ENV *env; int eid; const char *host; u_int port; u_int32_t flags; /* DB_SITE PUBLIC HANDLE LIST BEGIN */ int (*get_address) __P((DB_SITE *, const char **, u_int *)); int (*get_config) __P((DB_SITE *, u_int32_t, u_int32_t *)); int (*get_eid) __P((DB_SITE *, int *)); int (*set_config) __P((DB_SITE *, u_int32_t, u_int32_t)); int (*remove) __P((DB_SITE *)); int (*close) __P((DB_SITE *)); /* DB_SITE PUBLIC HANDLE LIST END */ }; #if DB_DBM_HSEARCH != 0 /******************************************************* * Dbm/Ndbm historic interfaces. *******************************************************/ typedef struct __db DBM; #define DBM_INSERT 0 /* Flags to dbm_store(). */ #define DBM_REPLACE 1 /* * The DB support for ndbm(3) always appends this suffix to the * file name to avoid overwriting the user's original database. */ #define DBM_SUFFIX ".db" #if defined(_XPG4_2) typedef struct { char *dptr; size_t dsize; } datum; #else typedef struct { char *dptr; int dsize; } datum; #endif /* * Translate NDBM calls into DB calls so that DB doesn't step on the * application's name space. */ #define dbm_clearerr(a) __db_ndbm_clearerr(a) #define dbm_close(a) __db_ndbm_close(a) #define dbm_delete(a, b) __db_ndbm_delete(a, b) #define dbm_dirfno(a) __db_ndbm_dirfno(a) #define dbm_error(a) __db_ndbm_error(a) #define dbm_fetch(a, b) __db_ndbm_fetch(a, b) #define dbm_firstkey(a) __db_ndbm_firstkey(a) #define dbm_nextkey(a) __db_ndbm_nextkey(a) #define dbm_open(a, b, c) __db_ndbm_open(a, b, c) #define dbm_pagfno(a) __db_ndbm_pagfno(a) #define dbm_rdonly(a) __db_ndbm_rdonly(a) #define dbm_store(a, b, c, d) \ __db_ndbm_store(a, b, c, d) /* * Translate DBM calls into DB calls so that DB doesn't step on the * application's name space. * * The global variables dbrdonly, dirf and pagf were not retained when 4BSD * replaced the dbm interface with ndbm, and are not supported here. */ #define dbminit(a) __db_dbm_init(a) #define dbmclose __db_dbm_close #if !defined(__cplusplus) #define delete(a) __db_dbm_delete(a) #endif #define fetch(a) __db_dbm_fetch(a) #define firstkey __db_dbm_firstkey #define nextkey(a) __db_dbm_nextkey(a) #define store(a, b) __db_dbm_store(a, b) /******************************************************* * Hsearch historic interface. *******************************************************/ typedef enum { FIND, ENTER } ACTION; typedef struct entry { char *key; char *data; } ENTRY; #define hcreate(a) __db_hcreate(a) #define hdestroy __db_hdestroy #define hsearch(a, b) __db_hsearch(a, b) #endif /* DB_DBM_HSEARCH */ #if defined(__cplusplus) } #endif #endif /* !_DB_H_ */ /* DO NOT EDIT: automatically built by dist/s_apiflags. */ #define DB_AGGRESSIVE 0x00000001 #define DB_ARCH_ABS 0x00000001 #define DB_ARCH_DATA 0x00000002 #define DB_ARCH_LOG 0x00000004 #define DB_ARCH_REMOVE 0x00000008 #define DB_AUTO_COMMIT 0x00000100 #define DB_BACKUP_CLEAN 0x00000002 #define DB_BACKUP_FILES 0x00000008 #define DB_BACKUP_NO_LOGS 0x00000010 #define DB_BACKUP_SINGLE_DIR 0x00000020 #define DB_BACKUP_UPDATE 0x00000040 #define DB_BOOTSTRAP_HELPER 0x00000001 #define DB_CDB_ALLDB 0x00000040 #define DB_CHKSUM 0x00000008 #define DB_CKP_INTERNAL 0x00000002 #define DB_CREATE 0x00000001 #define DB_CURSOR_BULK 0x00000001 #define DB_CURSOR_TRANSIENT 0x00000008 #define DB_CXX_NO_EXCEPTIONS 0x00000002 #define DB_DATABASE_LOCKING 0x00000080 #define DB_DIRECT 0x00000020 #define DB_DIRECT_DB 0x00000200 #define DB_DSYNC_DB 0x00000400 #define DB_DUP 0x00000010 #define DB_DUPSORT 0x00000002 #define DB_DURABLE_UNKNOWN 0x00000040 #define DB_ENCRYPT 0x00000001 #define DB_ENCRYPT_AES 0x00000001 #define DB_EXCL 0x00000004 #define DB_EXTENT 0x00000100 #define DB_FAILCHK 0x00000010 #define DB_FAILCHK_ISALIVE 0x00000040 #define DB_FAST_STAT 0x00000001 #define DB_FCNTL_LOCKING 0x00000800 #define DB_FLUSH 0x00000002 #define DB_FORCE 0x00000001 #define DB_FORCESYNC 0x00000001 #define DB_FOREIGN_ABORT 0x00000001 #define DB_FOREIGN_CASCADE 0x00000002 #define DB_FOREIGN_NULLIFY 0x00000004 #define DB_FREELIST_ONLY 0x00000001 #define DB_FREE_SPACE 0x00000002 #define DB_GROUP_CREATOR 0x00000002 #define DB_HOTBACKUP_IN_PROGRESS 0x00000800 #define DB_IGNORE_LEASE 0x00001000 #define DB_IMMUTABLE_KEY 0x00000002 #define DB_INIT_CDB 0x00000080 #define DB_INIT_LOCK 0x00000100 #define DB_INIT_LOG 0x00000200 #define DB_INIT_MPOOL 0x00000400 #define DB_INIT_MUTEX 0x00000800 #define DB_INIT_REP 0x00001000 #define DB_INIT_TXN 0x00002000 #define DB_INORDER 0x00000020 #define DB_INTERNAL_PERSISTENT_DB 0x00001000 #define DB_INTERNAL_TEMPORARY_DB 0x00002000 #define DB_JOIN_NOSORT 0x00000001 #define DB_LEGACY 0x00000004 #define DB_LOCAL_SITE 0x00000008 #define DB_LOCKDOWN 0x00004000 #define DB_LOCK_CHECK 0x00000001 #define DB_LOCK_IGNORE_REC 0x00000002 #define DB_LOCK_NOWAIT 0x00000004 #define DB_LOCK_RECORD 0x00000008 #define DB_LOCK_SET_TIMEOUT 0x00000010 #define DB_LOCK_SWITCH 0x00000020 #define DB_LOCK_UPGRADE 0x00000040 #define DB_LOG_AUTO_REMOVE 0x00000001 #define DB_LOG_CHKPNT 0x00000001 #define DB_LOG_COMMIT 0x00000004 #define DB_LOG_DIRECT 0x00000002 #define DB_LOG_DSYNC 0x00000004 #define DB_LOG_IN_MEMORY 0x00000008 #define DB_LOG_NOCOPY 0x00000008 #define DB_LOG_NOT_DURABLE 0x00000010 #define DB_LOG_NO_DATA 0x00000002 #define DB_LOG_VERIFY_CAF 0x00000001 #define DB_LOG_VERIFY_DBFILE 0x00000002 #define DB_LOG_VERIFY_ERR 0x00000004 #define DB_LOG_VERIFY_FORWARD 0x00000008 #define DB_LOG_VERIFY_INTERR 0x00000010 #define DB_LOG_VERIFY_PARTIAL 0x00000020 #define DB_LOG_VERIFY_VERBOSE 0x00000040 #define DB_LOG_VERIFY_WARNING 0x00000080 #define DB_LOG_WRNOSYNC 0x00000020 #define DB_LOG_ZERO 0x00000010 #define DB_MPOOL_CREATE 0x00000001 #define DB_MPOOL_DIRTY 0x00000002 #define DB_MPOOL_DISCARD 0x00000001 #define DB_MPOOL_EDIT 0x00000004 #define DB_MPOOL_FREE 0x00000008 #define DB_MPOOL_LAST 0x00000010 #define DB_MPOOL_NEW 0x00000020 #define DB_MPOOL_NOFILE 0x00000001 #define DB_MPOOL_NOLOCK 0x00000004 #define DB_MPOOL_TRY 0x00000040 #define DB_MPOOL_UNLINK 0x00000002 #define DB_MULTIPLE 0x00000800 #define DB_MULTIPLE_KEY 0x00004000 #define DB_MULTIVERSION 0x00000008 #define DB_MUTEX_ALLOCATED 0x00000001 #define DB_MUTEX_LOCKED 0x00000002 #define DB_MUTEX_LOGICAL_LOCK 0x00000004 #define DB_MUTEX_PROCESS_ONLY 0x00000008 #define DB_MUTEX_SELF_BLOCK 0x00000010 #define DB_MUTEX_SHARED 0x00000020 #define DB_NOERROR 0x00004000 #define DB_NOFLUSH 0x00001000 #define DB_NOLOCKING 0x00002000 #define DB_NOMMAP 0x00000010 #define DB_NOORDERCHK 0x00000002 #define DB_NOPANIC 0x00004000 #define DB_NOSYNC 0x00000001 #define DB_NO_AUTO_COMMIT 0x00008000 #define DB_NO_CHECKPOINT 0x00008000 #define DB_ODDFILESIZE 0x00000080 #define DB_ORDERCHKONLY 0x00000004 #define DB_OVERWRITE 0x00008000 #define DB_PANIC_ENVIRONMENT 0x00010000 #define DB_PRINTABLE 0x00000008 #define DB_PRIVATE 0x00010000 #define DB_PR_PAGE 0x00000010 #define DB_PR_RECOVERYTEST 0x00000020 #define DB_RDONLY 0x00000400 #define DB_RDWRMASTER 0x00010000 #define DB_READ_COMMITTED 0x00000400 #define DB_READ_UNCOMMITTED 0x00000200 #define DB_RECNUM 0x00000040 #define DB_RECOVER 0x00000002 #define DB_RECOVER_FATAL 0x00020000 #define DB_REGION_INIT 0x00020000 #define DB_REGISTER 0x00040000 #define DB_RENUMBER 0x00000080 #define DB_REPMGR_CONF_2SITE_STRICT 0x00000001 #define DB_REPMGR_CONF_ELECTIONS 0x00000002 #define DB_REPMGR_NEED_RESPONSE 0x00000001 #define DB_REPMGR_PEER 0x00000010 #define DB_REP_ANYWHERE 0x00000001 #define DB_REP_CLIENT 0x00000001 #define DB_REP_CONF_AUTOINIT 0x00000004 #define DB_REP_CONF_AUTOROLLBACK 0x00000008 #define DB_REP_CONF_BULK 0x00000010 #define DB_REP_CONF_DELAYCLIENT 0x00000020 #define DB_REP_CONF_INMEM 0x00000040 #define DB_REP_CONF_LEASE 0x00000080 #define DB_REP_CONF_NOWAIT 0x00000100 #define DB_REP_ELECTION 0x00000004 #define DB_REP_MASTER 0x00000002 #define DB_REP_NOBUFFER 0x00000002 #define DB_REP_PERMANENT 0x00000004 #define DB_REP_REREQUEST 0x00000008 #define DB_REVSPLITOFF 0x00000100 #define DB_RMW 0x00002000 #define DB_SALVAGE 0x00000040 #define DB_SA_SKIPFIRSTKEY 0x00000080 #define DB_SA_UNKNOWNKEY 0x00000100 #define DB_SEQ_DEC 0x00000001 #define DB_SEQ_INC 0x00000002 #define DB_SEQ_RANGE_SET 0x00000004 #define DB_SEQ_WRAP 0x00000008 #define DB_SEQ_WRAPPED 0x00000010 #define DB_SET_LOCK_TIMEOUT 0x00000001 #define DB_SET_REG_TIMEOUT 0x00000004 #define DB_SET_TXN_NOW 0x00000008 #define DB_SET_TXN_TIMEOUT 0x00000002 #define DB_SHALLOW_DUP 0x00000100 #define DB_SNAPSHOT 0x00000200 #define DB_STAT_ALL 0x00000004 #define DB_STAT_ALLOC 0x00000008 #define DB_STAT_CLEAR 0x00000001 #define DB_STAT_LOCK_CONF 0x00000010 #define DB_STAT_LOCK_LOCKERS 0x00000020 #define DB_STAT_LOCK_OBJECTS 0x00000040 #define DB_STAT_LOCK_PARAMS 0x00000080 #define DB_STAT_MEMP_HASH 0x00000010 #define DB_STAT_MEMP_NOERROR 0x00000020 #define DB_STAT_SUBSYSTEM 0x00000002 #define DB_STAT_SUMMARY 0x00000010 #define DB_ST_DUPOK 0x00000200 #define DB_ST_DUPSET 0x00000400 #define DB_ST_DUPSORT 0x00000800 #define DB_ST_IS_RECNO 0x00001000 #define DB_ST_OVFL_LEAF 0x00002000 #define DB_ST_RECNUM 0x00004000 #define DB_ST_RELEN 0x00008000 #define DB_ST_TOPLEVEL 0x00010000 #define DB_SYSTEM_MEM 0x00080000 #define DB_THREAD 0x00000020 #define DB_TIME_NOTGRANTED 0x00040000 #define DB_TRUNCATE 0x00020000 #define DB_TXN_BULK 0x00000010 #define DB_TXN_FAMILY 0x00000040 #define DB_TXN_NOSYNC 0x00000001 #define DB_TXN_NOT_DURABLE 0x00000004 #define DB_TXN_NOWAIT 0x00000002 #define DB_TXN_SNAPSHOT 0x00000004 #define DB_TXN_SYNC 0x00000008 #define DB_TXN_WAIT 0x00000080 #define DB_TXN_WRITE_NOSYNC 0x00000020 #define DB_UNREF 0x00020000 #define DB_UPGRADE 0x00000001 #define DB_USE_ENVIRON 0x00000004 #define DB_USE_ENVIRON_ROOT 0x00000008 #define DB_VERB_BACKUP 0x00000001 #define DB_VERB_DEADLOCK 0x00000002 #define DB_VERB_FILEOPS 0x00000004 #define DB_VERB_FILEOPS_ALL 0x00000008 #define DB_VERB_RECOVERY 0x00000010 #define DB_VERB_REGISTER 0x00000020 #define DB_VERB_REPLICATION 0x00000040 #define DB_VERB_REPMGR_CONNFAIL 0x00000080 #define DB_VERB_REPMGR_MISC 0x00000100 #define DB_VERB_REP_ELECT 0x00000200 #define DB_VERB_REP_LEASE 0x00000400 #define DB_VERB_REP_MISC 0x00000800 #define DB_VERB_REP_MSGS 0x00001000 #define DB_VERB_REP_SYNC 0x00002000 #define DB_VERB_REP_SYSTEM 0x00004000 #define DB_VERB_REP_TEST 0x00008000 #define DB_VERB_WAITSFOR 0x00010000 #define DB_VERIFY 0x00000002 #define DB_VERIFY_PARTITION 0x00040000 #define DB_WRITECURSOR 0x00000010 #define DB_WRITELOCK 0x00000020 #define DB_WRITEOPEN 0x00040000 #define DB_XA_CREATE 0x00000001 #define DB_YIELDCPU 0x00080000 /* DO NOT EDIT: automatically built by dist/s_include. */ #ifndef _DB_EXT_PROT_IN_ #define _DB_EXT_PROT_IN_ #if defined(__cplusplus) extern "C" { #endif int db_copy __P((DB_ENV *, const char *, const char *, const char *)); int db_create __P((DB **, DB_ENV *, u_int32_t)); char *db_strerror __P((int)); int db_env_set_func_assert __P((void (*)(const char *, const char *, int))); int db_env_set_func_close __P((int (*)(int))); int db_env_set_func_dirfree __P((void (*)(char **, int))); int db_env_set_func_dirlist __P((int (*)(const char *, char ***, int *))); int db_env_set_func_exists __P((int (*)(const char *, int *))); int db_env_set_func_free __P((void (*)(void *))); int db_env_set_func_fsync __P((int (*)(int))); int db_env_set_func_ftruncate __P((int (*)(int, off_t))); int db_env_set_func_ioinfo __P((int (*)(const char *, int, u_int32_t *, u_int32_t *, u_int32_t *))); int db_env_set_func_malloc __P((void *(*)(size_t))); int db_env_set_func_file_map __P((int (*)(DB_ENV *, char *, size_t, int, void **), int (*)(DB_ENV *, void *))); int db_env_set_func_region_map __P((int (*)(DB_ENV *, char *, size_t, int *, void **), int (*)(DB_ENV *, void *))); int db_env_set_func_pread __P((ssize_t (*)(int, void *, size_t, off_t))); int db_env_set_func_pwrite __P((ssize_t (*)(int, const void *, size_t, off_t))); int db_env_set_func_open __P((int (*)(const char *, int, ...))); int db_env_set_func_read __P((ssize_t (*)(int, void *, size_t))); int db_env_set_func_realloc __P((void *(*)(void *, size_t))); int db_env_set_func_rename __P((int (*)(const char *, const char *))); int db_env_set_func_seek __P((int (*)(int, off_t, int))); int db_env_set_func_unlink __P((int (*)(const char *))); int db_env_set_func_write __P((ssize_t (*)(int, const void *, size_t))); int db_env_set_func_yield __P((int (*)(u_long, u_long))); int db_env_create __P((DB_ENV **, u_int32_t)); char *db_version __P((int *, int *, int *)); char *db_full_version __P((int *, int *, int *, int *, int *)); int log_compare __P((const DB_LSN *, const DB_LSN *)); #if defined(DB_WIN32) && !defined(DB_WINCE) int db_env_set_win_security __P((SECURITY_ATTRIBUTES *sa)); #endif int db_sequence_create __P((DB_SEQUENCE **, DB *, u_int32_t)); #if DB_DBM_HSEARCH != 0 int __db_ndbm_clearerr __P((DBM *)); void __db_ndbm_close __P((DBM *)); int __db_ndbm_delete __P((DBM *, datum)); int __db_ndbm_dirfno __P((DBM *)); int __db_ndbm_error __P((DBM *)); datum __db_ndbm_fetch __P((DBM *, datum)); datum __db_ndbm_firstkey __P((DBM *)); datum __db_ndbm_nextkey __P((DBM *)); DBM *__db_ndbm_open __P((const char *, int, int)); int __db_ndbm_pagfno __P((DBM *)); int __db_ndbm_rdonly __P((DBM *)); int __db_ndbm_store __P((DBM *, datum, datum, int)); int __db_dbm_close __P((void)); int __db_dbm_delete __P((datum)); datum __db_dbm_fetch __P((datum)); datum __db_dbm_firstkey __P((void)); int __db_dbm_init __P((char *)); datum __db_dbm_nextkey __P((datum)); int __db_dbm_store __P((datum, datum)); #endif #if DB_DBM_HSEARCH != 0 int __db_hcreate __P((size_t)); ENTRY *__db_hsearch __P((ENTRY, ACTION)); void __db_hdestroy __P((void)); #endif #if defined(__cplusplus) } #endif #endif /* !_DB_EXT_PROT_IN_ */