/*- * See the file LICENSE for redistribution information. * * Copyright (c) 1996, 2010 Oracle and/or its affiliates. All rights reserved. * * $Id$ */ #ifndef _DB_MP_H_ #define _DB_MP_H_ #include "dbinc/atomic.h" #if defined(__cplusplus) extern "C" { #endif struct __bh; typedef struct __bh BH; struct __bh_frozen_p; typedef struct __bh_frozen_p BH_FROZEN_PAGE; struct __bh_frozen_a; typedef struct __bh_frozen_a BH_FROZEN_ALLOC; struct __db_mpool_hash; typedef struct __db_mpool_hash DB_MPOOL_HASH; struct __db_mpreg; typedef struct __db_mpreg DB_MPREG; struct __mpool; typedef struct __mpool MPOOL; /* We require at least 20KB of cache. */ #define DB_CACHESIZE_MIN (20 * 1024) /* * DB_MPOOLFILE initialization methods cannot be called after open is called, * other methods cannot be called before open is called */ #define MPF_ILLEGAL_AFTER_OPEN(dbmfp, name) \ if (F_ISSET(dbmfp, MP_OPEN_CALLED)) \ return (__db_mi_open((dbmfp)->env, name, 1)); #define MPF_ILLEGAL_BEFORE_OPEN(dbmfp, name) \ if (!F_ISSET(dbmfp, MP_OPEN_CALLED)) \ return (__db_mi_open((dbmfp)->env, name, 0)); /* * Cache flush operations, plus modifiers. */ #define DB_SYNC_ALLOC 0x0001 /* Flush for allocation. */ #define DB_SYNC_CACHE 0x0002 /* Flush entire cache. */ #define DB_SYNC_CHECKPOINT 0x0004 /* Checkpoint. */ #define DB_SYNC_FILE 0x0008 /* Flush file. */ #define DB_SYNC_INTERRUPT_OK 0x0010 /* Allow interrupt and return OK. */ #define DB_SYNC_QUEUE_EXTENT 0x0020 /* Flush a queue file with extents. */ #define DB_SYNC_SUPPRESS_WRITE 0x0040 /* Ignore max-write configuration. */ #define DB_SYNC_TRICKLE 0x0080 /* Trickle sync. */ /* * DB_MPOOL -- * Per-process memory pool structure. */ struct __db_mpool { /* These fields need to be protected for multi-threaded support. */ db_mutex_t mutex; /* Thread mutex. */ /* * DB_MPREG structure for the DB pgin/pgout routines. * * Linked list of application-specified pgin/pgout routines. */ DB_MPREG *pg_inout; LIST_HEAD(__db_mpregh, __db_mpreg) dbregq; /* List of DB_MPOOLFILE's. */ TAILQ_HEAD(__db_mpoolfileh, __db_mpoolfile) dbmfq; /* * The env and reginfo fields are not thread protected, as they are * initialized during mpool creation, and not modified again. */ ENV *env; /* Enclosing environment. */ REGINFO *reginfo; /* Underlying cache regions. */ }; /* * DB_MPREG -- * DB_MPOOL registry of pgin/pgout functions. */ struct __db_mpreg { LIST_ENTRY(__db_mpreg) q; /* Linked list. */ int32_t ftype; /* File type. */ /* Pgin, pgout routines. */ int (*pgin) __P((DB_ENV *, db_pgno_t, void *, DBT *)); int (*pgout) __P((DB_ENV *, db_pgno_t, void *, DBT *)); }; /* * File hashing -- * We hash each file to hash bucket based on its fileid * or, in the case of in memory files, its name. */ /* Number of file hash buckets, a small prime number */ #define MPOOL_FILE_BUCKETS 17 #define FHASH(id, len) __ham_func5(NULL, id, (u_int32_t)(len)) #define FNBUCKET(id, len) \ (FHASH(id, len) % MPOOL_FILE_BUCKETS) /* Macros to lock/unlock the mpool region as a whole. */ #define MPOOL_SYSTEM_LOCK(env) \ MUTEX_LOCK(env, ((MPOOL *) \ (env)->mp_handle->reginfo[0].primary)->mtx_region) #define MPOOL_SYSTEM_UNLOCK(env) \ MUTEX_UNLOCK(env, ((MPOOL *) \ (env)->mp_handle->reginfo[0].primary)->mtx_region) /* Macros to lock/unlock a specific mpool region. */ #define MPOOL_REGION_LOCK(env, infop) \ MUTEX_LOCK(env, ((MPOOL *)(infop)->primary)->mtx_region) #define MPOOL_REGION_UNLOCK(env, infop) \ MUTEX_UNLOCK(env, ((MPOOL *)(infop)->primary)->mtx_region) /* * MPOOL -- * Shared memory pool region. */ struct __mpool { /* * The memory pool can be broken up into individual pieces/files. * There are two reasons for this: firstly, on Solaris you can allocate * only a little more than 2GB of memory in a contiguous chunk, * and I expect to see more systems with similar issues. Secondly, * applications can add / remove pieces to dynamically resize the * cache. * * While this structure is duplicated in each piece of the cache, * the first of these pieces/files describes the entire pool, the * second only describe a piece of the cache. */ db_mutex_t mtx_region; /* Region mutex. */ db_mutex_t mtx_resize; /* Resizing mutex. */ /* * The lsn field and list of underlying MPOOLFILEs are thread protected * by the region lock. */ DB_LSN lsn; /* Maximum checkpoint LSN. */ /* Configuration information: protected by the region lock. */ u_int32_t max_nreg; /* Maximum number of regions. */ u_int32_t gbytes; /* Number of gigabytes in cache. */ u_int32_t bytes; /* Number of bytes in cache. */ u_int32_t pagesize; /* Default page size. */ size_t mp_mmapsize; /* Maximum file size for mmap. */ int mp_maxopenfd; /* Maximum open file descriptors. */ int mp_maxwrite; /* Maximum buffers to write. */ db_timeout_t mp_maxwrite_sleep; /* Sleep after writing max buffers. */ /* * The number of regions and the total number of hash buckets across * all regions. * These fields are not protected by a mutex because we assume that we * can read a 32-bit value atomically. They are only modified by cache * resizing which holds the mpool resizing mutex to ensure that * resizing is single-threaded. See the comment in mp_resize.c for * more information. */ u_int32_t nreg; /* Number of underlying REGIONS. */ u_int32_t nbuckets; /* Total number of hash buckets. */ /* * The regid field is protected by the resize mutex. */ roff_t regids; /* Array of underlying REGION Ids. */ roff_t ftab; /* Hash table of files. */ /* * The following fields describe the per-cache portion of the region. * * The htab and htab_buckets fields are not thread protected as they * are initialized during mpool creation, and not modified again. * * The last_checked and lru_count fields are thread protected by * the region lock. */ roff_t htab; /* Hash table offset. */ u_int32_t htab_buckets; /* Number of hash table entries. */ u_int32_t last_checked; /* Last bucket checked for free. */ u_int32_t lru_count; /* Counter for buffer LRU. */ int32_t lru_reset; /* Hash bucket lru reset point. */ u_int32_t htab_mutexes; /* Number of hash mutexes per region. */ /* * The pages field keeps track of the number of pages in the cache * and is protected by the region lock. It is accessed for reading * without the lock to return statistics. */ u_int32_t pages; /* Number of pages in the cache. */ /* * The stat fields are not thread protected, and cannot be trusted. */ DB_MPOOL_STAT stat; /* Per-cache mpool statistics. */ /* * We track page puts so that we can decide when allocation is never * going to succeed. We don't lock the field, all we care about is * if it changes. */ u_int32_t put_counter; /* Count of page put calls. */ /* * Cache flush operations take a long time... * * Some cache flush operations want to ignore the app's configured * max-write parameters (they are trying to quickly shut down an * environment, for example). We can't specify that as an argument * to the cache region functions, because we may decide to ignore * the max-write configuration after the cache operation has begun. * If the variable suppress_maxwrite is set, ignore the application * max-write config. * * We may want to interrupt cache flush operations in high-availability * configurations. */ #define DB_MEMP_SUPPRESS_WRITE 0x01 #define DB_MEMP_SYNC_INTERRUPT 0x02 u_int32_t config_flags; /* Free frozen buffer headers, protected by the region lock. */ SH_TAILQ_HEAD(__free_frozen) free_frozen; /* Allocated blocks of frozen buffer headers. */ SH_TAILQ_HEAD(__alloc_frozen) alloc_frozen; }; /* * NREGION -- * Select a cache region given the bucket number. */ #define NREGION(mp, bucket) \ ((bucket) / (mp)->htab_buckets) /* * MP_HASH -- * We make the assumption that early pages of the file are more likely * to be retrieved than the later pages, which means the top bits will * be more interesting for hashing as they're less likely to collide. * That said, as 512 8K pages represents a 4MB file, so only reasonably * large files will have page numbers with any other than the bottom 9 * bits set. We XOR in the MPOOL offset of the MPOOLFILE that backs the * page, since that should also be unique for the page. We don't want * to do anything very fancy -- speed is more important to us than using * good hashing. * * Since moving to a dynamic hash, which boils down to using some of the * least significant bits of the hash value, we no longer want to use a * simple shift here, because it's likely with a bit shift that mf_offset * will be ignored, and pages from different files end up in the same * hash bucket. Use a nearby prime instead. */ #define MP_HASH(mf_offset, pgno) \ ((((pgno) << 8) ^ (pgno)) ^ (((u_int32_t) mf_offset) * 509)) /* * Inline the calculation of the mask, since we can't reliably store the mask * with the number of buckets in the region. * * This is equivalent to: * mask = (1 << __db_log2(nbuckets)) - 1; */ #define MP_MASK(nbuckets, mask) do { \ for (mask = 1; mask < (nbuckets); mask = (mask << 1) | 1) \ ; \ } while (0) #define MP_HASH_BUCKET(hash, nbuckets, mask, bucket) do { \ (bucket) = (hash) & (mask); \ if ((bucket) >= (nbuckets)) \ (bucket) &= ((mask) >> 1); \ } while (0) #define MP_BUCKET(mf_offset, pgno, nbuckets, bucket) do { \ u_int32_t __mask; \ MP_MASK(nbuckets, __mask); \ MP_HASH_BUCKET(MP_HASH(mf_offset, pgno), nbuckets, \ __mask, bucket); \ } while (0) /* * MP_GET_REGION -- * Select the region for a given page. */ #define MP_GET_REGION(dbmfp, pgno, infopp, ret) do { \ DB_MPOOL *__t_dbmp; \ MPOOL *__t_mp; \ \ __t_dbmp = dbmfp->env->mp_handle; \ __t_mp = __t_dbmp->reginfo[0].primary; \ if (__t_mp->max_nreg == 1) { \ *(infopp) = &__t_dbmp->reginfo[0]; \ } else \ ret = __memp_get_bucket((dbmfp)->env, \ (dbmfp)->mfp, (pgno), (infopp), NULL, NULL); \ } while (0) /* * MP_GET_BUCKET -- * Select and lock the bucket for a given page. */ #define MP_GET_BUCKET(env, mfp, pgno, infopp, hp, bucket, ret) do { \ DB_MPOOL *__t_dbmp; \ MPOOL *__t_mp; \ roff_t __t_mf_offset; \ \ __t_dbmp = (env)->mp_handle; \ __t_mp = __t_dbmp->reginfo[0].primary; \ if (__t_mp->max_nreg == 1) { \ *(infopp) = &__t_dbmp->reginfo[0]; \ __t_mf_offset = R_OFFSET(*(infopp), (mfp)); \ MP_BUCKET(__t_mf_offset, \ (pgno), __t_mp->nbuckets, bucket); \ (hp) = R_ADDR(*(infopp), __t_mp->htab); \ (hp) = &(hp)[bucket]; \ MUTEX_READLOCK(env, (hp)->mtx_hash); \ ret = 0; \ } else \ ret = __memp_get_bucket((env), \ (mfp), (pgno), (infopp), &(hp), &(bucket)); \ } while (0) struct __db_mpool_hash { db_mutex_t mtx_hash; /* Per-bucket mutex. */ DB_HASHTAB hash_bucket; /* Head of bucket. */ db_atomic_t hash_page_dirty;/* Count of dirty pages. */ #ifndef __TEST_DB_NO_STATISTICS u_int32_t hash_io_wait; /* Count of I/O waits. */ u_int32_t hash_frozen; /* Count of frozen buffers. */ u_int32_t hash_thawed; /* Count of thawed buffers. */ u_int32_t hash_frozen_freed;/* Count of freed frozen buffers. */ #endif DB_LSN old_reader; /* Oldest snapshot reader (cached). */ u_int32_t flags; }; /* * The base mpool priority is 1/4th of the name space, or just under 2^30. * When the LRU counter wraps, we shift everybody down to a base-relative * value. */ #define MPOOL_BASE_DECREMENT (UINT32_MAX - (UINT32_MAX / 4)) /* * Mpool priorities from low to high. Defined in terms of fractions of the * buffers in the pool. */ #define MPOOL_PRI_VERY_LOW -1 /* Dead duck. Check and set to 0. */ #define MPOOL_PRI_LOW -2 /* Low. */ #define MPOOL_PRI_DEFAULT 0 /* No adjustment -- special case.*/ #define MPOOL_PRI_HIGH 10 /* With the dirty buffers. */ #define MPOOL_PRI_DIRTY 10 /* Dirty gets a 10% boost. */ #define MPOOL_PRI_VERY_HIGH 1 /* Add number of buffers in pool. */ /* * MPOOLFILE -- * Shared DB_MPOOLFILE information. */ struct __mpoolfile { db_mutex_t mutex; /* MPOOLFILE mutex. */ /* Protected by MPOOLFILE mutex. */ u_int32_t revision; /* Bumped on any movement subdbs. */ u_int32_t mpf_cnt; /* Ref count: DB_MPOOLFILEs. */ u_int32_t block_cnt; /* Ref count: blocks in cache. */ db_pgno_t last_pgno; /* Last page in the file. */ db_pgno_t last_flushed_pgno; /* Last page flushed to disk. */ db_pgno_t orig_last_pgno; /* Original last page in the file. */ db_pgno_t maxpgno; /* Maximum page number. */ roff_t path_off; /* File name location. */ /* Protected by hash bucket mutex. */ SH_TAILQ_ENTRY q; /* List of MPOOLFILEs */ /* * The following are used for file compaction processing. * They are only used when a thread is in the process * of trying to move free pages to the end of the file. * Other threads may look here when freeing a page. * Protected by a lock on the metapage. */ u_int32_t free_ref; /* Refcount to freelist. */ u_int32_t free_cnt; /* Count of free pages. */ size_t free_size; /* Allocated size of free list. */ roff_t free_list; /* Offset to free list. */ /* * We normally don't lock the deadfile field when we read it since we * only care if the field is zero or non-zero. We do lock on read when * searching for a matching MPOOLFILE -- see that code for more detail. */ int32_t deadfile; /* Dirty pages can be discarded. */ u_int32_t bucket; /* hash bucket for this file. */ /* * None of the following fields are thread protected. * * There are potential races with the ftype field because it's read * without holding a lock. However, it has to be set before adding * any buffers to the cache that depend on it being set, so there * would need to be incorrect operation ordering to have a problem. */ int32_t ftype; /* File type. */ /* * There are potential races with the priority field because it's read * without holding a lock. However, a collision is unlikely and if it * happens is of little consequence. */ int32_t priority; /* Priority when unpinning buffer. */ /* * There are potential races with the file_written field (many threads * may be writing blocks at the same time), and with no_backing_file * and unlink_on_close fields, as they may be set while other threads * are reading them. However, we only care if the field value is zero * or non-zero, so don't lock the memory. * * !!! * Theoretically, a 64-bit architecture could put two of these fields * in a single memory operation and we could race. I have never seen * an architecture where that's a problem, and I believe Java requires * that to never be the case. * * File_written is set whenever a buffer is marked dirty in the cache. * It can be cleared in some cases, after all dirty buffers have been * written AND the file has been flushed to disk. */ int32_t file_written; /* File was written. */ int32_t no_backing_file; /* Never open a backing file. */ int32_t unlink_on_close; /* Unlink file on last close. */ int32_t multiversion; /* Number of DB_MULTIVERSION handles. */ /* * We do not protect the statistics in "stat" because of the cost of * the mutex in the get/put routines. There is a chance that a count * will get lost. */ DB_MPOOL_FSTAT stat; /* Per-file mpool statistics. */ /* * The remaining fields are initialized at open and never subsequently * modified. */ int32_t lsn_off; /* Page's LSN offset. */ u_int32_t clear_len; /* Bytes to clear on page create. */ roff_t fileid_off; /* File ID string location. */ u_int32_t pagesize; /* Underlying pagesize. */ roff_t pgcookie_len; /* Pgin/pgout cookie length. */ roff_t pgcookie_off; /* Pgin/pgout cookie location. */ /* * The flags are initialized at open and never subsequently modified. */ #define MP_CAN_MMAP 0x001 /* If the file can be mmap'd. */ #define MP_DATABASE_LOCKING 0x002 /* Lock in exclusive mode. */ #define MP_DIRECT 0x004 /* No OS buffering. */ #define MP_DURABLE_UNKNOWN 0x008 /* We don't care about durability. */ #define MP_EXTENT 0x010 /* Extent file. */ #define MP_FAKE_DEADFILE 0x020 /* Deadfile field: fake flag. */ #define MP_FAKE_FILEWRITTEN 0x040 /* File_written field: fake flag. */ #define MP_FAKE_NB 0x080 /* No_backing_file field: fake flag. */ #define MP_FAKE_UOC 0x100 /* Unlink_on_close field: fake flag. */ #define MP_NOT_DURABLE 0x200 /* File is not durable. */ #define MP_TEMP 0x400 /* Backing file is a temporary. */ u_int32_t flags; db_pgno_t fe_watermark; /* File extension watermark. */ u_int32_t fe_txnid; /* Transaction that set watermark. */ u_int32_t fe_nlws; /* Number of log writes suppressed. */ }; /* * Flags to __memp_bh_free. */ #define BH_FREE_FREEMEM 0x01 #define BH_FREE_REUSE 0x02 #define BH_FREE_UNLOCKED 0x04 /* * BH -- * Buffer header. */ struct __bh { db_mutex_t mtx_buf; /* Shared/Exclusive mutex */ db_atomic_t ref; /* Reference count. */ #define BH_REFCOUNT(bhp) atomic_read(&(bhp)->ref) #define BH_CALLPGIN 0x001 /* Convert the page before use. */ #define BH_DIRTY 0x002 /* Page is modified. */ #define BH_DIRTY_CREATE 0x004 /* Page is modified. */ #define BH_DISCARD 0x008 /* Page is useless. */ #define BH_EXCLUSIVE 0x010 /* Exclusive access acquired. */ #define BH_FREED 0x020 /* Page was freed. */ #define BH_FROZEN 0x040 /* Frozen buffer: allocate & re-read. */ #define BH_TRASH 0x080 /* Page is garbage. */ #define BH_THAWED 0x100 /* Page was thawed. */ u_int16_t flags; u_int32_t priority; /* Priority. */ SH_TAILQ_ENTRY hq; /* MPOOL hash bucket queue. */ db_pgno_t pgno; /* Underlying MPOOLFILE page number. */ roff_t mf_offset; /* Associated MPOOLFILE offset. */ u_int32_t bucket; /* Hash bucket containing header. */ int region; /* Region containing header. */ roff_t td_off; /* MVCC: creating TXN_DETAIL offset. */ SH_CHAIN_ENTRY vc; /* MVCC: version chain. */ #ifdef DIAG_MVCC u_int16_t align_off; /* Alignment offset for diagnostics.*/ #endif /* * !!! * This array must be at least size_t aligned -- the DB access methods * put PAGE and other structures into it, and then access them directly. * (We guarantee size_t alignment to applications in the documentation, * too.) */ u_int8_t buf[1]; /* Variable length data. */ }; /* * BH_FROZEN_PAGE -- * Data used to find a frozen buffer header. */ struct __bh_frozen_p { BH header; db_pgno_t spgno; /* Page number in freezer file. */ }; /* * BH_FROZEN_ALLOC -- * Frozen buffer headers are allocated a page at a time in general. This * structure is allocated at the beginning of the page so that the * allocation chunks can be tracked and freed (for private environments). */ struct __bh_frozen_a { SH_TAILQ_ENTRY links; }; #define MULTIVERSION(dbp) ((dbp)->mpf->mfp->multiversion) #define IS_PINNED(p) \ (BH_REFCOUNT((BH *)((u_int8_t *) \ (p) - SSZA(BH, buf))) > 0) #define IS_DIRTY(p) \ (F_ISSET((BH *)((u_int8_t *) \ (p) - SSZA(BH, buf)), BH_DIRTY|BH_EXCLUSIVE) == (BH_DIRTY|BH_EXCLUSIVE)) #define BH_OWNER(env, bhp) \ ((TXN_DETAIL *)R_ADDR(&env->tx_handle->reginfo, bhp->td_off)) #define BH_OWNED_BY(env, bhp, txn) ((txn) != NULL && \ (bhp)->td_off != INVALID_ROFF && \ (txn)->td == BH_OWNER(env, bhp)) #define VISIBLE_LSN(env, bhp) \ (&BH_OWNER(env, bhp)->visible_lsn) /* * Make a copy of the buffer's visible LSN, one field at a time. We rely on the * 32-bit operations being atomic. The visible_lsn starts at MAX_LSN and is * set during commit or abort to the current LSN. * * If we race with a commit / abort, we may see either the file or the offset * still at UINT32_MAX, so vlsn is guaranteed to be in the future. That's OK, * since we had to take the log region lock to allocate the read LSN so we were * never going to see this buffer anyway. */ #define BH_VISIBLE(env, bhp, read_lsnp, vlsn) \ (bhp->td_off == INVALID_ROFF || \ ((vlsn).file = VISIBLE_LSN(env, bhp)->file, \ (vlsn).offset = VISIBLE_LSN(env, bhp)->offset, \ LOG_COMPARE((read_lsnp), &(vlsn)) >= 0)) #define BH_OBSOLETE(bhp, old_lsn, vlsn) (SH_CHAIN_HASNEXT(bhp, vc) ? \ BH_VISIBLE(env, SH_CHAIN_NEXTP(bhp, vc, __bh), &(old_lsn), vlsn) :\ BH_VISIBLE(env, bhp, &(old_lsn), vlsn)) #define MVCC_SKIP_CURADJ(dbc, pgno) (dbc->txn != NULL && \ F_ISSET(dbc->txn, TXN_SNAPSHOT) && MULTIVERSION(dbc->dbp) && \ dbc->txn->td != NULL && __memp_skip_curadj(dbc, pgno)) #if defined(DIAG_MVCC) && defined(HAVE_MPROTECT) #define VM_PAGESIZE 4096 #define MVCC_BHSIZE(mfp, sz) do { \ sz += VM_PAGESIZE + sizeof(BH); \ if (mfp->pagesize < VM_PAGESIZE) \ sz += VM_PAGESIZE - mfp->pagesize; \ } while (0) #define MVCC_BHALIGN(p) do { \ BH *__bhp; \ void *__orig = (p); \ p = ALIGNP_INC(p, VM_PAGESIZE); \ if ((u_int8_t *)p < (u_int8_t *)__orig + sizeof(BH)) \ p = (u_int8_t *)p + VM_PAGESIZE; \ __bhp = (BH *)((u_int8_t *)p - SSZA(BH, buf)); \ DB_ASSERT(env, \ ((uintptr_t)__bhp->buf & (VM_PAGESIZE - 1)) == 0); \ DB_ASSERT(env, \ (u_int8_t *)__bhp >= (u_int8_t *)__orig); \ DB_ASSERT(env, (u_int8_t *)p + mfp->pagesize < \ (u_int8_t *)__orig + len); \ __bhp->align_off = \ (u_int16_t)((u_int8_t *)__bhp - (u_int8_t *)__orig); \ p = __bhp; \ } while (0) #define MVCC_BHUNALIGN(bhp) do { \ (bhp) = (BH *)((u_int8_t *)(bhp) - (bhp)->align_off); \ } while (0) #ifdef linux #define MVCC_MPROTECT(buf, sz, mode) do { \ int __ret = mprotect((buf), (sz), (mode)); \ DB_ASSERT(env, __ret == 0); \ } while (0) #else #define MVCC_MPROTECT(buf, sz, mode) do { \ if (!F_ISSET(env, ENV_PRIVATE | ENV_SYSTEM_MEM)) { \ int __ret = mprotect((buf), (sz), (mode)); \ DB_ASSERT(env, __ret == 0); \ } \ } while (0) #endif /* linux */ #else /* defined(DIAG_MVCC) && defined(HAVE_MPROTECT) */ #define MVCC_BHSIZE(mfp, sz) do {} while (0) #define MVCC_BHALIGN(p) do {} while (0) #define MVCC_BHUNALIGN(bhp) do {} while (0) #define MVCC_MPROTECT(buf, size, mode) do {} while (0) #endif /* * Flags to __memp_ftruncate. */ #define MP_TRUNC_RECOVER 0x01 #if defined(__cplusplus) } #endif #include "dbinc_auto/mp_ext.h" #endif /* !_DB_MP_H_ */