/*- * See the file LICENSE for redistribution information. * * Copyright (c) 1996-2005 * Sleepycat Software. All rights reserved. * * $Id: mp_method.c,v 12.15 2005/10/12 12:45:10 margo Exp $ */ #include "db_config.h" #ifndef NO_SYSTEM_INCLUDES #include #include #endif #include "db_int.h" #include "dbinc/db_shash.h" #include "dbinc/mp.h" /* * __memp_dbenv_create -- * Mpool specific creation of the DB_ENV structure. * * PUBLIC: void __memp_dbenv_create __P((DB_ENV *)); */ void __memp_dbenv_create(dbenv) DB_ENV *dbenv; { /* * !!! * Our caller has not yet had the opportunity to reset the panic * state or turn off mutex locking, and so we can neither check * the panic state or acquire a mutex in the DB_ENV create path. * * We default to 32 8K pages. We don't default to a flat 256K, because * some systems require significantly more memory to hold 32 pages than * others. For example, HP-UX with POSIX pthreads needs 88 bytes for * a POSIX pthread mutex and almost 200 bytes per buffer header, while * Solaris needs 24 and 52 bytes for the same structures. The minimum * number of hash buckets is 37. These contain a mutex also. */ dbenv->mp_bytes = 32 * ((8 * 1024) + sizeof(BH)) + 37 * sizeof(DB_MPOOL_HASH); dbenv->mp_ncache = 1; } /* * __memp_get_cachesize -- * {DB_ENV,DB}->get_cachesize. * * PUBLIC: int __memp_get_cachesize * PUBLIC: __P((DB_ENV *, u_int32_t *, u_int32_t *, int *)); */ int __memp_get_cachesize(dbenv, gbytesp, bytesp, ncachep) DB_ENV *dbenv; u_int32_t *gbytesp, *bytesp; int *ncachep; { MPOOL *mp; ENV_NOT_CONFIGURED(dbenv, dbenv->mp_handle, "DB_ENV->get_cachesize", DB_INIT_MPOOL); if (MPOOL_ON(dbenv)) { /* Cannot be set after open, no lock required to read. */ mp = ((DB_MPOOL *)dbenv->mp_handle)->reginfo[0].primary; if (gbytesp != NULL) *gbytesp = mp->stat.st_gbytes; if (bytesp != NULL) *bytesp = mp->stat.st_bytes; if (ncachep != NULL) *ncachep = (int)mp->nreg; } else { if (gbytesp != NULL) *gbytesp = dbenv->mp_gbytes; if (bytesp != NULL) *bytesp = dbenv->mp_bytes; if (ncachep != NULL) *ncachep = (int)dbenv->mp_ncache; } return (0); } /* * __memp_set_cachesize -- * {DB_ENV,DB}->set_cachesize. * * PUBLIC: int __memp_set_cachesize __P((DB_ENV *, u_int32_t, u_int32_t, int)); */ int __memp_set_cachesize(dbenv, gbytes, bytes, arg_ncache) DB_ENV *dbenv; u_int32_t gbytes, bytes; int arg_ncache; { u_int ncache; ENV_ILLEGAL_AFTER_OPEN(dbenv, "DB_ENV->set_cachesize"); /* Normalize the cache count. */ ncache = arg_ncache <= 0 ? 1 : (u_int)arg_ncache; /* * You can only store 4GB-1 in an unsigned 32-bit value, so correct for * applications that specify 4GB cache sizes -- we know what they meant. */ if (sizeof(roff_t) == 4 && gbytes / ncache == 4 && bytes == 0) { --gbytes; bytes = GIGABYTE - 1; } else { gbytes += bytes / GIGABYTE; bytes %= GIGABYTE; } /* * !!! * With 32-bit region offsets, individual cache regions must be smaller * than 4GB. Also, cache sizes larger than 10TB would cause 32-bit * wrapping in the calculation of the number of hash buckets. See * __memp_open for details. */ if (sizeof(roff_t) <= 4) { if (gbytes / ncache >= 4) { __db_err(dbenv, "individual cache size too large: maximum is 4GB"); return (EINVAL); } } else if (gbytes / ncache > 10000) { __db_err(dbenv, "individual cache size too large: maximum is 10TB"); return (EINVAL); } /* * If the application requested less than 500Mb, increase the cachesize * by 25% and factor in the size of the hash buckets to account for our * overhead. (I'm guessing caches over 500Mb are specifically sized, * that is, it's a large server and the application actually knows how * much memory is available. We only document the 25% overhead number, * not the hash buckets, but I don't see a reason to confuse the issue, * it shouldn't matter to an application.) * * There is a minimum cache size, regardless. */ if (gbytes == 0) { if (bytes < 500 * MEGABYTE) bytes += (bytes / 4) + 37 * sizeof(DB_MPOOL_HASH); if (bytes / ncache < DB_CACHESIZE_MIN) bytes = ncache * DB_CACHESIZE_MIN; } dbenv->mp_gbytes = gbytes; dbenv->mp_bytes = bytes; dbenv->mp_ncache = ncache; return (0); } /* * PUBLIC: int __memp_get_mp_max_openfd __P((DB_ENV *, int *)); */ int __memp_get_mp_max_openfd(dbenv, maxopenfdp) DB_ENV *dbenv; int *maxopenfdp; { DB_MPOOL *dbmp; MPOOL *mp; ENV_NOT_CONFIGURED(dbenv, dbenv->mp_handle, "DB_ENV->get_mp_max_openfd", DB_INIT_MPOOL); if (MPOOL_ON(dbenv)) { dbmp = dbenv->mp_handle; mp = dbmp->reginfo[0].primary; MPOOL_SYSTEM_LOCK(dbenv); *maxopenfdp = mp->mp_maxopenfd; MPOOL_SYSTEM_UNLOCK(dbenv); } else *maxopenfdp = dbenv->mp_maxopenfd; return (0); } /* * __memp_set_mp_max_openfd -- * Set the maximum number of open fd's when flushing the cache. * PUBLIC: int __memp_set_mp_max_openfd __P((DB_ENV *, int)); */ int __memp_set_mp_max_openfd(dbenv, maxopenfd) DB_ENV *dbenv; int maxopenfd; { DB_MPOOL *dbmp; MPOOL *mp; ENV_NOT_CONFIGURED(dbenv, dbenv->mp_handle, "DB_ENV->set_mp_max_openfd", DB_INIT_MPOOL); if (MPOOL_ON(dbenv)) { dbmp = dbenv->mp_handle; mp = dbmp->reginfo[0].primary; MPOOL_SYSTEM_LOCK(dbenv); mp->mp_maxopenfd = maxopenfd; MPOOL_SYSTEM_UNLOCK(dbenv); } else dbenv->mp_maxopenfd = maxopenfd; return (0); } /* * PUBLIC: int __memp_get_mp_max_write __P((DB_ENV *, int *, int *)); */ int __memp_get_mp_max_write(dbenv, maxwritep, maxwrite_sleepp) DB_ENV *dbenv; int *maxwritep, *maxwrite_sleepp; { DB_MPOOL *dbmp; MPOOL *mp; ENV_NOT_CONFIGURED(dbenv, dbenv->mp_handle, "DB_ENV->get_mp_max_write", DB_INIT_MPOOL); if (MPOOL_ON(dbenv)) { dbmp = dbenv->mp_handle; mp = dbmp->reginfo[0].primary; MPOOL_SYSTEM_LOCK(dbenv); *maxwritep = mp->mp_maxwrite; *maxwrite_sleepp = mp->mp_maxwrite_sleep; MPOOL_SYSTEM_UNLOCK(dbenv); } else { *maxwritep = dbenv->mp_maxwrite; *maxwrite_sleepp = dbenv->mp_maxwrite_sleep; } return (0); } /* * __memp_set_mp_max_write -- * Set the maximum continuous I/O count. * * PUBLIC: int __memp_set_mp_max_write __P((DB_ENV *, int, int)); */ int __memp_set_mp_max_write(dbenv, maxwrite, maxwrite_sleep) DB_ENV *dbenv; int maxwrite, maxwrite_sleep; { DB_MPOOL *dbmp; MPOOL *mp; ENV_NOT_CONFIGURED(dbenv, dbenv->mp_handle, "DB_ENV->get_mp_max_write", DB_INIT_MPOOL); if (MPOOL_ON(dbenv)) { dbmp = dbenv->mp_handle; mp = dbmp->reginfo[0].primary; MPOOL_SYSTEM_LOCK(dbenv); mp->mp_maxwrite = maxwrite; mp->mp_maxwrite_sleep = maxwrite_sleep; MPOOL_SYSTEM_UNLOCK(dbenv); } else { dbenv->mp_maxwrite = maxwrite; dbenv->mp_maxwrite_sleep = maxwrite_sleep; } return (0); } /* * PUBLIC: int __memp_get_mp_mmapsize __P((DB_ENV *, size_t *)); */ int __memp_get_mp_mmapsize(dbenv, mp_mmapsizep) DB_ENV *dbenv; size_t *mp_mmapsizep; { DB_MPOOL *dbmp; MPOOL *mp; ENV_NOT_CONFIGURED(dbenv, dbenv->mp_handle, "DB_ENV->get_mp_max_mmapsize", DB_INIT_MPOOL); if (MPOOL_ON(dbenv)) { dbmp = dbenv->mp_handle; mp = dbmp->reginfo[0].primary; MPOOL_SYSTEM_LOCK(dbenv); *mp_mmapsizep = mp->mp_mmapsize; MPOOL_SYSTEM_UNLOCK(dbenv); } else *mp_mmapsizep = dbenv->mp_mmapsize; return (0); } /* * __memp_set_mp_mmapsize -- * DB_ENV->set_mp_mmapsize. * * PUBLIC: int __memp_set_mp_mmapsize __P((DB_ENV *, size_t)); */ int __memp_set_mp_mmapsize(dbenv, mp_mmapsize) DB_ENV *dbenv; size_t mp_mmapsize; { DB_MPOOL *dbmp; MPOOL *mp; ENV_NOT_CONFIGURED(dbenv, dbenv->mp_handle, "DB_ENV->get_mp_max_mmapsize", DB_INIT_MPOOL); if (MPOOL_ON(dbenv)) { dbmp = dbenv->mp_handle; mp = dbmp->reginfo[0].primary; MPOOL_SYSTEM_LOCK(dbenv); mp->mp_mmapsize = mp_mmapsize; MPOOL_SYSTEM_UNLOCK(dbenv); } else dbenv->mp_mmapsize = mp_mmapsize; return (0); } /* * __memp_nameop * Remove or rename a file in the pool. * * PUBLIC: int __memp_nameop __P((DB_ENV *, * PUBLIC: u_int8_t *, const char *, const char *, const char *, int)); * * XXX * Undocumented interface: DB private. */ int __memp_nameop(dbenv, fileid, newname, fullold, fullnew, inmem) DB_ENV *dbenv; u_int8_t *fileid; const char *newname, *fullold, *fullnew; int inmem; { DB_MPOOL *dbmp; MPOOL *mp; MPOOLFILE *save_mfp, *mfp; roff_t newname_off; int is_remove, locked, ret; void *p; ret = locked = 0; dbmp = NULL; save_mfp = mfp = NULL; is_remove = newname == NULL; if (!MPOOL_ON(dbenv)) goto fsop; dbmp = dbenv->mp_handle; mp = dbmp->reginfo[0].primary; /* * Remove or rename a file that the mpool might know about. We assume * that the fop layer has the file locked for exclusive access, so we * don't worry about locking except for the mpool mutexes. Checkpoint * can happen at any time, independent of file locking, so we have to * do the actual unlink or rename system call to avoid any race. * * If this is a rename, allocate first, because we can't recursively * grab the region lock. */ if (is_remove) { p = NULL; COMPQUIET(newname_off, INVALID_ROFF); } else { if ((ret = __memp_alloc(dbmp, dbmp->reginfo, NULL, strlen(newname) + 1, &newname_off, &p)) != 0) return (ret); memcpy(p, newname, strlen(newname) + 1); } locked = 1; MPOOL_SYSTEM_LOCK(dbenv); /* * Find the file -- if mpool doesn't know about this file, that may * not be an error -- if the file is not a memory-only file and it * is not open, it won't show up here. If this is a memory file * then on a rename, we need to make sure that the new name does * not exist. */ for (mfp = SH_TAILQ_FIRST(&mp->mpfq, __mpoolfile); mfp != NULL; mfp = SH_TAILQ_NEXT(mfp, q, __mpoolfile)) { /* Ignore non-active files. */ if (mfp->deadfile || F_ISSET(mfp, MP_TEMP)) continue; if (!is_remove && inmem && mfp->no_backing_file && strcmp(newname, R_ADDR(dbmp->reginfo, mfp->path_off)) == 0) { ret = EEXIST; goto err; } /* Try to match on fileid. */ if (memcmp(fileid, R_ADDR( dbmp->reginfo, mfp->fileid_off), DB_FILE_ID_LEN) != 0) continue; if (is_remove) { MUTEX_LOCK(dbenv, mfp->mutex); /* * In-memory dbs have an artificially incremented * ref count so that they do not ever get reclaimed * as long as they exist. Since we are now deleting * the database, we need to dec that count. */ if (mfp->no_backing_file) mfp->mpf_cnt--; mfp->deadfile = 1; MUTEX_UNLOCK(dbenv, mfp->mutex); } else { /* * Else, it's a rename. We've allocated memory * for the new name. Swap it with the old one. */ p = R_ADDR(dbmp->reginfo, mfp->path_off); mfp->path_off = newname_off; } save_mfp = mfp; if (!inmem || is_remove) break; } /* Delete the memory we no longer need. */ if (p != NULL) __db_shalloc_free(&dbmp->reginfo[0], p); fsop: if (save_mfp == NULL && inmem) { ret = ENOENT; goto err; } /* * If this is a real file, then save_mfp could be NULL, because * mpool isn't turned on, and we still need to do the file ops. */ if (save_mfp == NULL || !save_mfp->no_backing_file) { if (is_remove) { /* * !!! * Replication may ask us to unlink a file that's been * renamed. Don't complain if it doesn't exist. */ if ((ret = __os_unlink(dbenv, fullold)) == ENOENT) ret = 0; } else { /* * Defensive only, fullname should never be * NULL. */ DB_ASSERT(fullnew != NULL); if (fullnew == NULL) return (EINVAL); ret = __os_rename(dbenv, fullold, fullnew, 1); } } err: if (locked) MPOOL_SYSTEM_UNLOCK(dbenv); return (ret); } /* * __memp_get_refcnt * Return a reference count, given a fileid. * * PUBLIC: int __memp_get_refcnt __P((DB_ENV *, u_int8_t *, u_int32_t *)); */ int __memp_get_refcnt(dbenv, fileid, refp) DB_ENV *dbenv; u_int8_t *fileid; u_int32_t *refp; { DB_MPOOL *dbmp; MPOOL *mp; MPOOLFILE *mfp; *refp = 0; if (!MPOOL_ON(dbenv)) return (0); dbmp = dbenv->mp_handle; mp = dbmp->reginfo[0].primary; MPOOL_SYSTEM_LOCK(dbenv); /* * Find the file -- if mpool doesn't know about this file, the * reference count is 0. */ for (mfp = SH_TAILQ_FIRST(&mp->mpfq, __mpoolfile); mfp != NULL; mfp = SH_TAILQ_NEXT(mfp, q, __mpoolfile)) { /* Ignore non-active files. */ if (mfp->deadfile || F_ISSET(mfp, MP_TEMP)) continue; /* Ignore non-matching files. */ if (memcmp(fileid, R_ADDR( dbmp->reginfo, mfp->fileid_off), DB_FILE_ID_LEN) != 0) continue; MUTEX_LOCK(dbenv, mfp->mutex); *refp = mfp->mpf_cnt; MUTEX_UNLOCK(dbenv, mfp->mutex); break; } MPOOL_SYSTEM_UNLOCK(dbenv); return (0); } #ifdef HAVE_FTRUNCATE /* * __memp_ftruncate __ * Truncate the file. * * PUBLIC: int __memp_ftruncate __P((DB_MPOOLFILE *, db_pgno_t, u_int32_t)); */ int __memp_ftruncate(dbmfp, pgno, flags) DB_MPOOLFILE *dbmfp; db_pgno_t pgno; u_int32_t flags; { DB_ENV *dbenv; void *pagep; db_pgno_t last_pgno, pg; u_int32_t mbytes, bytes, pgsize; int ret; dbenv = dbmfp->dbenv; MPOOL_SYSTEM_LOCK(dbenv); last_pgno = dbmfp->mfp->last_pgno; MPOOL_SYSTEM_UNLOCK(dbenv); if (pgno > last_pgno) { if (LF_ISSET(MP_TRUNC_RECOVER)) return (0); __db_err(dbenv, "Truncate beyond the end of file"); return (EINVAL); } pg = pgno; do { if ((ret = __memp_fget(dbmfp, &pg, DB_MPOOL_FREE, &pagep)) != 0) return (ret); } while (pg++ < last_pgno); /* * If we are aborting an extend of a file, the call to __os_truncate * could extend the file if the new page(s) had not yet been written * to disk. If we are out of disk space, avoid generating an error on * the truncate if we are actually extending the file. [#12743] */ if (!F_ISSET(dbmfp->mfp, MP_TEMP) && !dbmfp->mfp->no_backing_file && (ret = __os_truncate(dbenv, dbmfp->fhp, pgno, dbmfp->mfp->stat.st_pagesize)) != 0) { if ((__os_ioinfo(dbenv, NULL, dbmfp->fhp, &mbytes, &bytes, NULL)) != 0) return (ret); pgsize = dbmfp->mfp->stat.st_pagesize; if (pgno < (mbytes * (MEGABYTE / pgsize)) + (bytes / pgsize)) return (ret); ret = 0; } /* * This set could race with another thread of control that extending * the file. It's not a problem because we should have the page * locked at a higher level of the system. */ MPOOL_SYSTEM_LOCK(dbenv); dbmfp->mfp->last_pgno = pgno - 1; MPOOL_SYSTEM_UNLOCK(dbenv); return (ret); } /* * Support routines for maintaining a sorted freelist * while we try to rearrange and truncate the file. */ /* * __memp_alloc_freelist -- allocate mpool space for the freelist. * * PUBLIC: int __memp_alloc_freelist __P((DB_MPOOLFILE *, * PUBLIC: u_int32_t, db_pgno_t **)); */ int __memp_alloc_freelist(dbmfp, nelems, listp) DB_MPOOLFILE *dbmfp; u_int32_t nelems; db_pgno_t **listp; { DB_ENV *dbenv; DB_MPOOL *dbmp; MPOOLFILE *mfp; void *retp; int ret; dbenv = dbmfp->dbenv; dbmp = dbenv->mp_handle; mfp = dbmfp->mfp; *listp = NULL; /* * These fields are protected because the database layer * has the metapage locked while manipulating them. */ mfp->free_ref++; if (mfp->free_size != 0) return (EBUSY); /* Allocate at least a few slots. */ mfp->free_cnt = nelems; if (nelems == 0) nelems = 50; if ((ret = __memp_alloc(dbmp, dbmp->reginfo, NULL, nelems * sizeof(db_pgno_t), &mfp->free_list, &retp)) != 0) return (ret); mfp->free_size = nelems * sizeof(db_pgno_t); *listp = retp; return (0); } /* * __memp_free_freelist -- free the list. * * PUBLIC: void __memp_free_freelist __P((DB_MPOOLFILE *)); */ void __memp_free_freelist(dbmfp) DB_MPOOLFILE *dbmfp; { DB_ENV *dbenv; DB_MPOOL *dbmp; MPOOLFILE *mfp; dbenv = dbmfp->dbenv; dbmp = dbenv->mp_handle; mfp = dbmfp->mfp; DB_ASSERT(mfp->free_ref > 0); if (--mfp->free_ref > 0) return; DB_ASSERT(mfp->free_size != 0); __db_shalloc_free(dbmp->reginfo, R_ADDR(dbmp->reginfo, mfp->free_list)); mfp->free_cnt = 0; mfp->free_list = 0; mfp->free_size = 0; } /* * __memp_get_freelst -- return current list. * * PUBLIC: int __memp_get_freelist __P(( * PUBLIC: DB_MPOOLFILE *, u_int32_t *, db_pgno_t **)); */ int __memp_get_freelist(dbmfp, nelemp, listp) DB_MPOOLFILE *dbmfp; u_int32_t *nelemp; db_pgno_t **listp; { MPOOLFILE *mfp; DB_ENV *dbenv; DB_MPOOL *dbmp; dbenv = dbmfp->dbenv; dbmp = dbenv->mp_handle; mfp = dbmfp->mfp; if (mfp->free_size == 0) { *nelemp = 0; *listp = NULL; return (0); } *nelemp = mfp->free_cnt; *listp = R_ADDR(dbmp->reginfo, mfp->free_list); return (0); } /* * __memp_extend_freelist -- extend the list. * * PUBLIC: int __memp_extend_freelist __P(( * PUBLIC: DB_MPOOLFILE *, u_int32_t , db_pgno_t **)); */ int __memp_extend_freelist(dbmfp, count, listp) DB_MPOOLFILE *dbmfp; u_int32_t count; db_pgno_t **listp; { DB_ENV *dbenv; DB_MPOOL *dbmp; MPOOLFILE *mfp; int ret; void *retp; dbenv = dbmfp->dbenv; dbmp = dbenv->mp_handle; mfp = dbmfp->mfp; if (mfp->free_size == 0) return (EINVAL); if (count * sizeof(db_pgno_t) > mfp->free_size) { mfp->free_size = (size_t)DB_ALIGN(count * sizeof(db_pgno_t), 512); *listp = R_ADDR(dbmp->reginfo, mfp->free_list); if ((ret = __memp_alloc(dbmp, dbmp->reginfo, NULL, mfp->free_size, &mfp->free_list, &retp)) != 0) return (ret); memcpy(retp, *listp, mfp->free_cnt * sizeof(db_pgno_t)); __db_shalloc_free(dbmp->reginfo, *listp); } mfp->free_cnt = count; *listp = R_ADDR(dbmp->reginfo, mfp->free_list); return (0); } #endif