/*- * See the file LICENSE for redistribution information. * * Copyright (c) 1996-2003 * Sleepycat Software. All rights reserved. */ #include "db_config.h" #ifndef lint static const char copyright[] = "Copyright (c) 1996-2003\nSleepycat Software Inc. All rights reserved.\n"; static const char revid[] = "$Id: db_stat.c,v 1.2 2004/03/30 01:21:28 jtownsen Exp $"; #endif #ifndef NO_SYSTEM_INCLUDES #include #if TIME_WITH_SYS_TIME #include #include #else #if HAVE_SYS_TIME_H #include #else #include #endif #endif #include #include #include #include #endif #include "db_int.h" #include "dbinc/db_page.h" #include "dbinc/txn.h" #define PCT(f, t, pgsize) \ ((t) == 0 ? 0 : \ ((((((double)t) * (pgsize)) - (f)) / (((double)t) * (pgsize))) * 100)) typedef enum { T_NOTSET, T_DB, T_ENV, T_LOCK, T_LOG, T_MPOOL, T_REP, T_TXN } test_t; int argcheck __P((char *, const char *)); int btree_stats __P((DB_ENV *, DB *, DB_BTREE_STAT *, u_int32_t)); int db_init __P((DB_ENV *, char *, test_t, u_int32_t, int *)); void dl __P((const char *, u_long)); void dl_bytes __P((const char *, u_long, u_long, u_long)); int env_stats __P((DB_ENV *, u_int32_t)); int hash_stats __P((DB_ENV *, DB *, u_int32_t)); int lock_stats __P((DB_ENV *, char *, u_int32_t)); int log_stats __P((DB_ENV *, u_int32_t)); int main __P((int, char *[])); int mpool_stats __P((DB_ENV *, char *, u_int32_t)); void prflags __P((DB *, u_int32_t, const FN *)); int queue_stats __P((DB_ENV *, DB *, u_int32_t)); int rep_stats __P((DB_ENV *, u_int32_t)); int txn_compare __P((const void *, const void *)); int txn_stats __P((DB_ENV *, u_int32_t)); void txn_xid_stats __P((DB_TXN_ACTIVE *)); int usage __P((void)); int version_check __P((const char *)); int main(argc, argv) int argc; char *argv[]; { extern char *optarg; extern int optind; const char *progname = "db_stat"; DB_ENV *dbenv; DB_BTREE_STAT *sp; DB *alt_dbp, *dbp; test_t ttype; u_int32_t cache, env_flags, fast, flags; int ch, checked, exitval; int nflag, private, resize, ret; char *db, *home, *internal, *passwd, *subdb; if ((ret = version_check(progname)) != 0) return (ret); dbenv = NULL; dbp = NULL; ttype = T_NOTSET; cache = MEGABYTE; exitval = fast = flags = nflag = private = 0; db = home = internal = passwd = subdb = NULL; env_flags = 0; while ((ch = getopt(argc, argv, "C:cd:efh:lM:mNP:rs:tVZ")) != EOF) switch (ch) { case 'C': if (ttype != T_NOTSET) goto argcombo; ttype = T_LOCK; if (!argcheck(internal = optarg, "Aclmop")) return (usage()); break; case 'c': if (ttype != T_NOTSET) goto argcombo; ttype = T_LOCK; break; case 'd': if (ttype != T_DB && ttype != T_NOTSET) goto argcombo; ttype = T_DB; db = optarg; break; case 'e': if (ttype != T_NOTSET) goto argcombo; ttype = T_ENV; break; case 'f': fast = DB_FAST_STAT; break; case 'h': home = optarg; break; case 'l': if (ttype != T_NOTSET) goto argcombo; ttype = T_LOG; break; case 'M': if (ttype != T_NOTSET) goto argcombo; ttype = T_MPOOL; if (!argcheck(internal = optarg, "Ahm")) return (usage()); break; case 'm': if (ttype != T_NOTSET) goto argcombo; ttype = T_MPOOL; break; case 'N': nflag = 1; break; case 'P': passwd = strdup(optarg); memset(optarg, 0, strlen(optarg)); if (passwd == NULL) { fprintf(stderr, "%s: strdup: %s\n", progname, strerror(errno)); return (EXIT_FAILURE); } break; case 'r': if (ttype != T_NOTSET) goto argcombo; ttype = T_REP; break; case 's': if (ttype != T_DB && ttype != T_NOTSET) goto argcombo; ttype = T_DB; subdb = optarg; break; case 't': if (ttype != T_NOTSET) { argcombo: fprintf(stderr, "%s: illegal option combination\n", progname); return (EXIT_FAILURE); } ttype = T_TXN; break; case 'V': printf("%s\n", db_version(NULL, NULL, NULL)); return (EXIT_SUCCESS); case 'Z': flags |= DB_STAT_CLEAR; break; case '?': default: return (usage()); } argc -= optind; argv += optind; switch (ttype) { case T_DB: if (db == NULL) return (usage()); break; case T_NOTSET: return (usage()); /* NOTREACHED */ case T_ENV: case T_LOCK: case T_LOG: case T_MPOOL: case T_REP: case T_TXN: if (fast != 0) return (usage()); break; } /* Handle possible interruptions. */ __db_util_siginit(); /* * Create an environment object and initialize it for error * reporting. */ retry: if ((ret = db_env_create(&dbenv, env_flags)) != 0) { fprintf(stderr, "%s: db_env_create: %s\n", progname, db_strerror(ret)); goto shutdown; } dbenv->set_errfile(dbenv, stderr); dbenv->set_errpfx(dbenv, progname); if (nflag) { if ((ret = dbenv->set_flags(dbenv, DB_NOLOCKING, 1)) != 0) { dbenv->err(dbenv, ret, "set_flags: DB_NOLOCKING"); goto shutdown; } if ((ret = dbenv->set_flags(dbenv, DB_NOPANIC, 1)) != 0) { dbenv->err(dbenv, ret, "set_flags: DB_NOPANIC"); goto shutdown; } } if (passwd != NULL && (ret = dbenv->set_encrypt(dbenv, passwd, DB_ENCRYPT_AES)) != 0) { dbenv->err(dbenv, ret, "set_passwd"); goto shutdown; } /* Initialize the environment. */ if (db_init(dbenv, home, ttype, cache, &private) != 0) goto shutdown; switch (ttype) { case T_DB: /* Create the DB object and open the file. */ if (flags != 0) return (usage()); if ((ret = db_create(&dbp, dbenv, 0)) != 0) { dbenv->err(dbenv, ret, "db_create"); goto shutdown; } if ((ret = dbp->open(dbp, NULL, db, subdb, DB_UNKNOWN, DB_RDONLY, 0)) != 0) { dbp->err(dbp, ret, "DB->open: %s", db); goto shutdown; } /* Check if cache is too small for this DB's pagesize. */ if (private) { if ((ret = __db_util_cache(dbenv, dbp, &cache, &resize)) != 0) goto shutdown; if (resize) { (void)dbp->close(dbp, DB_NOSYNC); dbp = NULL; (void)dbenv->close(dbenv, 0); dbenv = NULL; goto retry; } } /* * See if we can open this db read/write to update counts. * If its a master-db then we cannot. So check to see, * if its btree then it might be. */ checked = 0; if (subdb == NULL && dbp->type == DB_BTREE) { if ((ret = dbp->stat(dbp, &sp, DB_FAST_STAT)) != 0) { dbp->err(dbp, ret, "DB->stat"); goto shutdown; } checked = 1; } if (subdb != NULL || dbp->type != DB_BTREE || (sp->bt_metaflags & BTM_SUBDB) == 0) { if ((ret = db_create(&alt_dbp, dbenv, 0)) != 0) { dbenv->err(dbenv, ret, "db_create"); goto shutdown; } if ((ret = dbp->open(alt_dbp, NULL, db, subdb, DB_UNKNOWN, DB_RDONLY, 0)) != 0) { dbenv->err(dbenv, ret, "DB->open: %s:%s", db, subdb); (void)alt_dbp->close(alt_dbp, DB_NOSYNC); goto shutdown; } (void)dbp->close(dbp, DB_NOSYNC); dbp = alt_dbp; /* Need to run again to update counts */ checked = 0; } switch (dbp->type) { case DB_BTREE: case DB_RECNO: if (btree_stats( dbenv, dbp, checked == 1 ? sp : NULL, fast)) goto shutdown; break; case DB_HASH: if (hash_stats(dbenv, dbp, fast)) goto shutdown; break; case DB_QUEUE: if (queue_stats(dbenv, dbp, fast)) goto shutdown; break; case DB_UNKNOWN: dbenv->errx(dbenv, "Unknown database type."); goto shutdown; } break; case T_ENV: if (env_stats(dbenv, flags)) goto shutdown; break; case T_LOCK: if (lock_stats(dbenv, internal, flags)) goto shutdown; break; case T_LOG: if (log_stats(dbenv, flags)) goto shutdown; break; case T_MPOOL: if (mpool_stats(dbenv, internal, flags)) goto shutdown; break; case T_REP: if (rep_stats(dbenv, flags)) goto shutdown; break; case T_TXN: if (txn_stats(dbenv, flags)) goto shutdown; break; case T_NOTSET: dbenv->errx(dbenv, "Unknown statistics flag."); goto shutdown; } if (0) { shutdown: exitval = 1; } if (dbp != NULL && (ret = dbp->close(dbp, DB_NOSYNC)) != 0) { exitval = 1; dbenv->err(dbenv, ret, "close"); } if (dbenv != NULL && (ret = dbenv->close(dbenv, 0)) != 0) { exitval = 1; fprintf(stderr, "%s: dbenv->close: %s\n", progname, db_strerror(ret)); } if (passwd != NULL) free(passwd); /* Resend any caught signal. */ __db_util_sigresend(); return (exitval == 0 ? EXIT_SUCCESS : EXIT_FAILURE); } /* * env_stats -- * Display environment statistics. */ int env_stats(dbenv, flags) DB_ENV *dbenv; u_int32_t flags; { REGENV renv; REGION *rp, regs[1024]; int n, ret; const char *lable; n = sizeof(regs) / sizeof(regs[0]); if ((ret = __db_e_stat(dbenv, &renv, regs, &n, flags)) != 0) { dbenv->err(dbenv, ret, "__db_e_stat"); return (1); } printf("%d.%d.%d\tEnvironment version.\n", renv.majver, renv.minver, renv.patch); printf("%lx\tMagic number.\n", (u_long)renv.magic); printf("%d\tPanic value.\n", renv.envpanic); /* Adjust the reference count for us... */ printf("%d\tReferences.\n", renv.refcnt - 1); dl("Locks granted without waiting.\n", (u_long)renv.mutex.mutex_set_nowait); dl("Locks granted after waiting.\n", (u_long)renv.mutex.mutex_set_wait); while (n > 0) { printf("%s\n", DB_LINE); rp = ®s[--n]; switch (rp->type) { case REGION_TYPE_ENV: lable = "Environment"; break; case REGION_TYPE_LOCK: lable = "Lock"; break; case REGION_TYPE_LOG: lable = "Log"; break; case REGION_TYPE_MPOOL: lable = "Mpool"; break; case REGION_TYPE_MUTEX: lable = "Mutex"; break; case REGION_TYPE_TXN: lable = "Txn"; break; case INVALID_REGION_TYPE: default: lable = "Invalid"; break; } printf("%s Region: %d.\n", lable, rp->id); dl_bytes("Size", (u_long)0, (u_long)0, (u_long)rp->size); printf("%ld\tSegment ID.\n", rp->segid); dl("Locks granted without waiting.\n", (u_long)rp->mutex.mutex_set_nowait); dl("Locks granted after waiting.\n", (u_long)rp->mutex.mutex_set_wait); } return (0); } /* * btree_stats -- * Display btree/recno statistics. */ int btree_stats(dbenv, dbp, msp, fast) DB_ENV *dbenv; DB *dbp; DB_BTREE_STAT *msp; u_int32_t fast; { static const FN fn[] = { { BTM_DUP, "duplicates" }, { BTM_FIXEDLEN, "fixed-length" }, { BTM_RECNO, "recno" }, { BTM_RECNUM, "record-numbers" }, { BTM_RENUMBER, "renumber" }, { BTM_SUBDB, "multiple-databases" }, { 0, NULL } }; DB_BTREE_STAT *sp; int ret; COMPQUIET(dbenv, NULL); if (msp != NULL) sp = msp; else if ((ret = dbp->stat(dbp, &sp, fast)) != 0) { dbp->err(dbp, ret, "DB->stat"); return (1); } printf("%lx\tBtree magic number.\n", (u_long)sp->bt_magic); printf("%lu\tBtree version number.\n", (u_long)sp->bt_version); prflags(dbp, sp->bt_metaflags, fn); if (dbp->type == DB_BTREE) { #ifdef NOT_IMPLEMENTED dl("Maximum keys per-page.\n", (u_long)sp->bt_maxkey); #endif dl("Minimum keys per-page.\n", (u_long)sp->bt_minkey); } if (dbp->type == DB_RECNO) { dl("Fixed-length record size.\n", (u_long)sp->bt_re_len); if (isprint((int)sp->bt_re_pad) && !isspace((int)sp->bt_re_pad)) printf("%c\tFixed-length record pad.\n", (int)sp->bt_re_pad); else printf("0x%x\tFixed-length record pad.\n", (int)sp->bt_re_pad); } dl("Underlying database page size.\n", (u_long)sp->bt_pagesize); dl("Number of levels in the tree.\n", (u_long)sp->bt_levels); dl(dbp->type == DB_BTREE ? "Number of unique keys in the tree.\n" : "Number of records in the tree.\n", (u_long)sp->bt_nkeys); dl("Number of data items in the tree.\n", (u_long)sp->bt_ndata); dl("Number of tree internal pages.\n", (u_long)sp->bt_int_pg); dl("Number of bytes free in tree internal pages", (u_long)sp->bt_int_pgfree); printf(" (%.0f%% ff).\n", PCT(sp->bt_int_pgfree, sp->bt_int_pg, sp->bt_pagesize)); dl("Number of tree leaf pages.\n", (u_long)sp->bt_leaf_pg); dl("Number of bytes free in tree leaf pages", (u_long)sp->bt_leaf_pgfree); printf(" (%.0f%% ff).\n", PCT(sp->bt_leaf_pgfree, sp->bt_leaf_pg, sp->bt_pagesize)); dl("Number of tree duplicate pages.\n", (u_long)sp->bt_dup_pg); dl("Number of bytes free in tree duplicate pages", (u_long)sp->bt_dup_pgfree); printf(" (%.0f%% ff).\n", PCT(sp->bt_dup_pgfree, sp->bt_dup_pg, sp->bt_pagesize)); dl("Number of tree overflow pages.\n", (u_long)sp->bt_over_pg); dl("Number of bytes free in tree overflow pages", (u_long)sp->bt_over_pgfree); printf(" (%.0f%% ff).\n", PCT(sp->bt_over_pgfree, sp->bt_over_pg, sp->bt_pagesize)); dl("Number of pages on the free list.\n", (u_long)sp->bt_free); free(sp); return (0); } /* * hash_stats -- * Display hash statistics. */ int hash_stats(dbenv, dbp, fast) DB_ENV *dbenv; DB *dbp; u_int32_t fast; { static const FN fn[] = { { DB_HASH_DUP, "duplicates" }, { DB_HASH_SUBDB,"multiple-databases" }, { 0, NULL } }; DB_HASH_STAT *sp; int ret; COMPQUIET(dbenv, NULL); if ((ret = dbp->stat(dbp, &sp, fast)) != 0) { dbp->err(dbp, ret, "DB->stat"); return (1); } printf("%lx\tHash magic number.\n", (u_long)sp->hash_magic); printf("%lu\tHash version number.\n", (u_long)sp->hash_version); prflags(dbp, sp->hash_metaflags, fn); dl("Underlying database page size.\n", (u_long)sp->hash_pagesize); dl("Specified fill factor.\n", (u_long)sp->hash_ffactor); dl("Number of keys in the database.\n", (u_long)sp->hash_nkeys); dl("Number of data items in the database.\n", (u_long)sp->hash_ndata); dl("Number of hash buckets.\n", (u_long)sp->hash_buckets); dl("Number of bytes free on bucket pages", (u_long)sp->hash_bfree); printf(" (%.0f%% ff).\n", PCT(sp->hash_bfree, sp->hash_buckets, sp->hash_pagesize)); dl("Number of overflow pages.\n", (u_long)sp->hash_bigpages); dl("Number of bytes free in overflow pages", (u_long)sp->hash_big_bfree); printf(" (%.0f%% ff).\n", PCT(sp->hash_big_bfree, sp->hash_bigpages, sp->hash_pagesize)); dl("Number of bucket overflow pages.\n", (u_long)sp->hash_overflows); dl("Number of bytes free in bucket overflow pages", (u_long)sp->hash_ovfl_free); printf(" (%.0f%% ff).\n", PCT(sp->hash_ovfl_free, sp->hash_overflows, sp->hash_pagesize)); dl("Number of duplicate pages.\n", (u_long)sp->hash_dup); dl("Number of bytes free in duplicate pages", (u_long)sp->hash_dup_free); printf(" (%.0f%% ff).\n", PCT(sp->hash_dup_free, sp->hash_dup, sp->hash_pagesize)); dl("Number of pages on the free list.\n", (u_long)sp->hash_free); free(sp); return (0); } /* * queue_stats -- * Display queue statistics. */ int queue_stats(dbenv, dbp, fast) DB_ENV *dbenv; DB *dbp; u_int32_t fast; { DB_QUEUE_STAT *sp; int ret; COMPQUIET(dbenv, NULL); if ((ret = dbp->stat(dbp, &sp, fast)) != 0) { dbp->err(dbp, ret, "DB->stat"); return (1); } printf("%lx\tQueue magic number.\n", (u_long)sp->qs_magic); printf("%lu\tQueue version number.\n", (u_long)sp->qs_version); dl("Fixed-length record size.\n", (u_long)sp->qs_re_len); if (isprint((int)sp->qs_re_pad) && !isspace((int)sp->qs_re_pad)) printf("%c\tFixed-length record pad.\n", (int)sp->qs_re_pad); else printf("0x%x\tFixed-length record pad.\n", (int)sp->qs_re_pad); dl("Underlying database page size.\n", (u_long)sp->qs_pagesize); if (sp->qs_extentsize != 0) dl("Underlying database extent size.\n", (u_long)sp->qs_extentsize); dl("Number of records in the database.\n", (u_long)sp->qs_nkeys); dl("Number of database pages.\n", (u_long)sp->qs_pages); dl("Number of bytes free in database pages", (u_long)sp->qs_pgfree); printf(" (%.0f%% ff).\n", PCT(sp->qs_pgfree, sp->qs_pages, sp->qs_pagesize)); printf("%lu\tFirst undeleted record.\n", (u_long)sp->qs_first_recno); printf( "%lu\tNext available record number.\n", (u_long)sp->qs_cur_recno); free(sp); return (0); } /* * lock_stats -- * Display lock statistics. */ int lock_stats(dbenv, internal, flags) DB_ENV *dbenv; char *internal; u_int32_t flags; { DB_LOCK_STAT *sp; int ret; if (internal != NULL) { if ((ret = dbenv->lock_dump_region(dbenv, internal, stdout)) != 0) { dbenv->err(dbenv, ret, NULL); return (1); } return (0); } if ((ret = dbenv->lock_stat(dbenv, &sp, flags)) != 0) { dbenv->err(dbenv, ret, NULL); return (1); } dl("Last allocated locker ID.\n", (u_long)sp->st_id); dl("Current maximum unused locker ID.\n", (u_long)sp->st_cur_maxid); dl("Number of lock modes.\n", (u_long)sp->st_nmodes); dl("Maximum number of locks possible.\n", (u_long)sp->st_maxlocks); dl("Maximum number of lockers possible.\n", (u_long)sp->st_maxlockers); dl("Maximum number of lock objects possible.\n", (u_long)sp->st_maxobjects); dl("Number of current locks.\n", (u_long)sp->st_nlocks); dl("Maximum number of locks at any one time.\n", (u_long)sp->st_maxnlocks); dl("Number of current lockers.\n", (u_long)sp->st_nlockers); dl("Maximum number of lockers at any one time.\n", (u_long)sp->st_maxnlockers); dl("Number of current lock objects.\n", (u_long)sp->st_nobjects); dl("Maximum number of lock objects at any one time.\n", (u_long)sp->st_maxnobjects); dl("Total number of locks requested.\n", (u_long)sp->st_nrequests); dl("Total number of locks released.\n", (u_long)sp->st_nreleases); dl( "Total number of lock requests failing because DB_LOCK_NOWAIT was set.\n", (u_long)sp->st_nnowaits); dl( "Total number of locks not immediately available due to conflicts.\n", (u_long)sp->st_nconflicts); dl("Number of deadlocks.\n", (u_long)sp->st_ndeadlocks); dl("Lock timeout value.\n", (u_long)sp->st_locktimeout); dl("Number of locks that have timed out.\n", (u_long)sp->st_nlocktimeouts); dl("Transaction timeout value.\n", (u_long)sp->st_txntimeout); dl("Number of transactions that have timed out.\n", (u_long)sp->st_ntxntimeouts); dl_bytes("The size of the lock region.", (u_long)0, (u_long)0, (u_long)sp->st_regsize); dl("The number of region locks granted after waiting.\n", (u_long)sp->st_region_wait); dl("The number of region locks granted without waiting.\n", (u_long)sp->st_region_nowait); free(sp); return (0); } /* * log_stats -- * Display log statistics. */ int log_stats(dbenv, flags) DB_ENV *dbenv; u_int32_t flags; { DB_LOG_STAT *sp; int ret; if ((ret = dbenv->log_stat(dbenv, &sp, flags)) != 0) { dbenv->err(dbenv, ret, NULL); return (1); } printf("%lx\tLog magic number.\n", (u_long)sp->st_magic); printf("%lu\tLog version number.\n", (u_long)sp->st_version); dl_bytes("Log record cache size", (u_long)0, (u_long)0, (u_long)sp->st_lg_bsize); printf("%#o\tLog file mode.\n", sp->st_mode); if (sp->st_lg_size % MEGABYTE == 0) printf("%luMb\tCurrent log file size.\n", (u_long)sp->st_lg_size / MEGABYTE); else if (sp->st_lg_size % 1024 == 0) printf("%luKb\tCurrent log file size.\n", (u_long)sp->st_lg_size / 1024); else printf("%lu\tCurrent log file size.\n", (u_long)sp->st_lg_size); dl_bytes("Log bytes written", (u_long)0, (u_long)sp->st_w_mbytes, (u_long)sp->st_w_bytes); dl_bytes("Log bytes written since last checkpoint", (u_long)0, (u_long)sp->st_wc_mbytes, (u_long)sp->st_wc_bytes); dl("Total log file writes.\n", (u_long)sp->st_wcount); dl("Total log file write due to overflow.\n", (u_long)sp->st_wcount_fill); dl("Total log file flushes.\n", (u_long)sp->st_scount); printf("%lu\tCurrent log file number.\n", (u_long)sp->st_cur_file); printf("%lu\tCurrent log file offset.\n", (u_long)sp->st_cur_offset); printf("%lu\tOn-disk log file number.\n", (u_long)sp->st_disk_file); printf("%lu\tOn-disk log file offset.\n", (u_long)sp->st_disk_offset); dl("Max commits in a log flush.\n", (u_long)sp->st_maxcommitperflush); dl("Min commits in a log flush.\n", (u_long)sp->st_mincommitperflush); dl_bytes("Log region size", (u_long)0, (u_long)0, (u_long)sp->st_regsize); dl("The number of region locks granted after waiting.\n", (u_long)sp->st_region_wait); dl("The number of region locks granted without waiting.\n", (u_long)sp->st_region_nowait); free(sp); return (0); } /* * mpool_stats -- * Display mpool statistics. */ int mpool_stats(dbenv, internal, flags) DB_ENV *dbenv; char *internal; u_int32_t flags; { DB_MPOOL_FSTAT **fsp; DB_MPOOL_STAT *gsp; int ret; if (internal != NULL) { if ((ret = dbenv->memp_dump_region(dbenv, internal, stdout)) != 0) { dbenv->err(dbenv, ret, NULL); return (1); } return (0); } if ((ret = dbenv->memp_stat(dbenv, &gsp, &fsp, flags)) != 0) { dbenv->err(dbenv, ret, NULL); return (1); } dl_bytes("Total cache size", (u_long)gsp->st_gbytes, (u_long)0, (u_long)gsp->st_bytes); dl("Number of caches.\n", (u_long)gsp->st_ncache); dl_bytes("Pool individual cache size", (u_long)0, (u_long)0, (u_long)gsp->st_regsize); dl("Requested pages mapped into the process' address space.\n", (u_long)gsp->st_map); dl("Requested pages found in the cache", (u_long)gsp->st_cache_hit); if (gsp->st_cache_hit + gsp->st_cache_miss != 0) printf(" (%.0f%%)", ((double)gsp->st_cache_hit / (gsp->st_cache_hit + gsp->st_cache_miss)) * 100); printf(".\n"); dl("Requested pages not found in the cache.\n", (u_long)gsp->st_cache_miss); dl("Pages created in the cache.\n", (u_long)gsp->st_page_create); dl("Pages read into the cache.\n", (u_long)gsp->st_page_in); dl("Pages written from the cache to the backing file.\n", (u_long)gsp->st_page_out); dl("Clean pages forced from the cache.\n", (u_long)gsp->st_ro_evict); dl("Dirty pages forced from the cache.\n", (u_long)gsp->st_rw_evict); dl("Dirty pages written by trickle-sync thread.\n", (u_long)gsp->st_page_trickle); dl("Current total page count.\n", (u_long)gsp->st_pages); dl("Current clean page count.\n", (u_long)gsp->st_page_clean); dl("Current dirty page count.\n", (u_long)gsp->st_page_dirty); dl("Number of hash buckets used for page location.\n", (u_long)gsp->st_hash_buckets); dl("Total number of times hash chains searched for a page.\n", (u_long)gsp->st_hash_searches); dl("The longest hash chain searched for a page.\n", (u_long)gsp->st_hash_longest); dl("Total number of hash buckets examined for page location.\n", (u_long)gsp->st_hash_examined); dl("The number of hash bucket locks granted without waiting.\n", (u_long)gsp->st_hash_nowait); dl("The number of hash bucket locks granted after waiting.\n", (u_long)gsp->st_hash_wait); dl("The maximum number of times any hash bucket lock was waited for.\n", (u_long)gsp->st_hash_max_wait); dl("The number of region locks granted without waiting.\n", (u_long)gsp->st_region_nowait); dl("The number of region locks granted after waiting.\n", (u_long)gsp->st_region_wait); dl("The number of page allocations.\n", (u_long)gsp->st_alloc); dl("The number of hash buckets examined during allocations\n", (u_long)gsp->st_alloc_buckets); dl("The max number of hash buckets examined for an allocation\n", (u_long)gsp->st_alloc_max_buckets); dl("The number of pages examined during allocations\n", (u_long)gsp->st_alloc_pages); dl("The max number of pages examined for an allocation\n", (u_long)gsp->st_alloc_max_pages); for (; fsp != NULL && *fsp != NULL; ++fsp) { printf("%s\n", DB_LINE); printf("Pool File: %s\n", (*fsp)->file_name); dl("Page size.\n", (u_long)(*fsp)->st_pagesize); dl("Requested pages mapped into the process' address space.\n", (u_long)(*fsp)->st_map); dl("Requested pages found in the cache", (u_long)(*fsp)->st_cache_hit); if ((*fsp)->st_cache_hit + (*fsp)->st_cache_miss != 0) printf(" (%.0f%%)", ((double)(*fsp)->st_cache_hit / ((*fsp)->st_cache_hit + (*fsp)->st_cache_miss)) * 100); printf(".\n"); dl("Requested pages not found in the cache.\n", (u_long)(*fsp)->st_cache_miss); dl("Pages created in the cache.\n", (u_long)(*fsp)->st_page_create); dl("Pages read into the cache.\n", (u_long)(*fsp)->st_page_in); dl("Pages written from the cache to the backing file.\n", (u_long)(*fsp)->st_page_out); } free(gsp); return (0); } /* * rep_stats -- * Display replication statistics. */ int rep_stats(dbenv, flags) DB_ENV *dbenv; u_int32_t flags; { DB_REP_STAT *sp; int is_client, ret; const char *p; if ((ret = dbenv->rep_stat(dbenv, &sp, flags)) != 0) { dbenv->err(dbenv, ret, NULL); return (1); } is_client = 0; switch (sp->st_status) { case DB_REP_MASTER: printf("Environment configured as a replication master.\n"); break; case DB_REP_CLIENT: printf("Environment configured as a replication client.\n"); is_client = 1; break; case DB_REP_LOGSONLY: printf("Environment configured as a logs-only replica.\n"); is_client = 1; break; default: printf("Environment not configured for replication.\n"); break; } printf("%lu/%lu\t%s\n", (u_long)sp->st_next_lsn.file, (u_long)sp->st_next_lsn.offset, is_client ? "Next LSN expected." : "Next LSN to be used."); p = sp->st_waiting_lsn.file == 0 ? "Not waiting for any missed log records." : "LSN of first log record we have after missed log records."; printf("%lu/%lu\t%s\n", (u_long)sp->st_waiting_lsn.file, (u_long)sp->st_waiting_lsn.offset, p); dl("Number of duplicate master conditions detected.\n", (u_long)sp->st_dupmasters); if (sp->st_env_id != DB_EID_INVALID) dl("Current environment ID.\n", (u_long)sp->st_env_id); else printf("No current environment ID.\n"); dl("Current environment priority.\n", (u_long)sp->st_env_priority); dl("Current generation number.\n", (u_long)sp->st_gen); dl("Number of duplicate log records received.\n", (u_long)sp->st_log_duplicated); dl("Number of log records currently queued.\n", (u_long)sp->st_log_queued); dl("Maximum number of log records ever queued at once.\n", (u_long)sp->st_log_queued_max); dl("Total number of log records queued.\n", (u_long)sp->st_log_queued_total); dl("Number of log records received and appended to the log.\n", (u_long)sp->st_log_records); dl("Number of log records missed and requested.\n", (u_long)sp->st_log_requested); if (sp->st_master != DB_EID_INVALID) dl("Current master ID.\n", (u_long)sp->st_master); else printf("No current master ID.\n"); dl("Number of times the master has changed.\n", (u_long)sp->st_master_changes); dl("Number of messages received with a bad generation number.\n", (u_long)sp->st_msgs_badgen); dl("Number of messages received and processed.\n", (u_long)sp->st_msgs_processed); dl("Number of messages ignored due to pending recovery.\n", (u_long)sp->st_msgs_recover); dl("Number of failed message sends.\n", (u_long)sp->st_msgs_send_failures); dl("Number of messages sent.\n", (u_long)sp->st_msgs_sent); dl("Number of new site messages received.\n", (u_long)sp->st_newsites); dl("Number of environments believed to be in the replication group.\n", (u_long)sp->st_nsites); dl("Transmission limited.\n", (u_long)sp->st_nthrottles); dl("Number of outdated conditions detected.\n", (u_long)sp->st_outdated); dl("Number of transactions applied.\n", (u_long)sp->st_txns_applied); dl("Number of elections held.\n", (u_long)sp->st_elections); dl("Number of elections won.\n", (u_long)sp->st_elections_won); if (sp->st_election_status == 0) printf("No election in progress.\n"); else { dl("Current election phase.\n", (u_long)sp->st_election_status); dl("Election winner.\n", (u_long)sp->st_election_cur_winner); dl("Election generation number.\n", (u_long)sp->st_election_gen); printf("%lu/%lu\tMaximum LSN of election winner.\n", (u_long)sp->st_election_lsn.file, (u_long)sp->st_election_lsn.offset); dl("Number of sites expected to participate in elections.\n", (u_long)sp->st_election_nsites); dl("Election priority.\n", (u_long)sp->st_election_priority); dl("Election tiebreaker value.\n", (u_long)sp->st_election_tiebreaker); dl("Votes received this election round.\n", (u_long)sp->st_election_votes); } free(sp); return (0); } /* * txn_stats -- * Display transaction statistics. */ int txn_stats(dbenv, flags) DB_ENV *dbenv; u_int32_t flags; { DB_TXN_STAT *sp; u_int32_t i; int ret; const char *p; if ((ret = dbenv->txn_stat(dbenv, &sp, flags)) != 0) { dbenv->err(dbenv, ret, NULL); return (1); } p = sp->st_last_ckp.file == 0 ? "No checkpoint LSN." : "File/offset for last checkpoint LSN."; printf("%lu/%lu\t%s\n", (u_long)sp->st_last_ckp.file, (u_long)sp->st_last_ckp.offset, p); if (sp->st_time_ckp == 0) printf("0\tNo checkpoint timestamp.\n"); else printf("%.24s\tCheckpoint timestamp.\n", ctime(&sp->st_time_ckp)); printf("%lx\tLast transaction ID allocated.\n", (u_long)sp->st_last_txnid); dl("Maximum number of active transactions configured.\n", (u_long)sp->st_maxtxns); dl("Active transactions.\n", (u_long)sp->st_nactive); dl("Maximum active transactions.\n", (u_long)sp->st_maxnactive); dl("Number of transactions begun.\n", (u_long)sp->st_nbegins); dl("Number of transactions aborted.\n", (u_long)sp->st_naborts); dl("Number of transactions committed.\n", (u_long)sp->st_ncommits); dl("Number of transactions restored.\n", (u_long)sp->st_nrestores); dl_bytes("Transaction region size", (u_long)0, (u_long)0, (u_long)sp->st_regsize); dl("The number of region locks granted after waiting.\n", (u_long)sp->st_region_wait); dl("The number of region locks granted without waiting.\n", (u_long)sp->st_region_nowait); qsort(sp->st_txnarray, sp->st_nactive, sizeof(sp->st_txnarray[0]), txn_compare); for (i = 0; i < sp->st_nactive; ++i) { printf("\tid: %lx; begin LSN: file/offset %lu/%lu", (u_long)sp->st_txnarray[i].txnid, (u_long)sp->st_txnarray[i].lsn.file, (u_long)sp->st_txnarray[i].lsn.offset); if (sp->st_txnarray[i].parentid != 0) printf("; parent: %lx", (u_long)sp->st_txnarray[i].parentid); if (sp->st_txnarray[i].xa_status != 0) txn_xid_stats(&sp->st_txnarray[i]); printf("\n"); } free(sp); return (0); } void txn_xid_stats(txnp) DB_TXN_ACTIVE *txnp; { u_int32_t v; u_int i; int cnt; printf("\n\tXA: "); switch (txnp->xa_status) { case TXN_XA_ABORTED: printf("ABORTED"); break; case TXN_XA_DEADLOCKED: printf("DEADLOCKED"); break; case TXN_XA_ENDED: printf("ENDED"); break; case TXN_XA_PREPARED: printf("PREPARED"); break; case TXN_XA_STARTED: printf("STARTED"); break; case TXN_XA_SUSPENDED: printf("SUSPENDED"); break; default: printf("unknown state: %lu", (u_long)txnp->xa_status); break; } printf("; XID:\n\t\t"); for (i = 0, cnt = 0; i < DB_XIDDATASIZE; i += sizeof(u_int32_t)) { memcpy(&v, &txnp->xid[i], sizeof(u_int32_t)); printf("0x%x ", v); if (++cnt == 4) { printf("\n\t\t"); cnt = 0; } } } int txn_compare(a1, b1) const void *a1, *b1; { const DB_TXN_ACTIVE *a, *b; a = a1; b = b1; if (a->txnid > b->txnid) return (1); if (a->txnid < b->txnid) return (-1); return (0); } /* * dl -- * Display a big value. */ void dl(msg, value) const char *msg; u_long value; { /* * Two formats: if less than 10 million, display as the number, if * greater than 10 million display as ###M. */ if (value < 10000000) printf("%lu\t%s", value, msg); else printf("%luM\t%s", value / 1000000, msg); } /* * dl_bytes -- * Display a big number of bytes. */ void dl_bytes(msg, gbytes, mbytes, bytes) const char *msg; u_long gbytes, mbytes, bytes; { const char *sep; /* Normalize the values. */ while (bytes >= MEGABYTE) { ++mbytes; bytes -= MEGABYTE; } while (mbytes >= GIGABYTE / MEGABYTE) { ++gbytes; mbytes -= GIGABYTE / MEGABYTE; } sep = ""; if (gbytes > 0) { printf("%luGB", gbytes); sep = " "; } if (mbytes > 0) { printf("%s%luMB", sep, mbytes); sep = " "; } if (bytes >= 1024) { printf("%s%luKB", sep, bytes / 1024); bytes %= 1024; sep = " "; } if (bytes > 0) printf("%s%luB", sep, bytes); printf("\t%s.\n", msg); } /* * prflags -- * Print out flag values. */ void prflags(dbp, flags, fnp) DB *dbp; u_int32_t flags; const FN *fnp; { const char *sep; int lorder; sep = "\t"; printf("Flags:"); for (; fnp->mask != 0; ++fnp) if (fnp->mask & flags) { printf("%s%s", sep, fnp->name); sep = ", "; } (void)dbp->get_lorder(dbp, &lorder); switch (lorder) { case 1234: printf("%s%s", sep, "little-endian"); break; case 4321: printf("%s%s", sep, "big-endian"); break; default: printf("%s%s", sep, "UNKNOWN-LORDER"); break; } printf("\n"); } /* * db_init -- * Initialize the environment. */ int db_init(dbenv, home, ttype, cache, is_private) DB_ENV *dbenv; char *home; test_t ttype; u_int32_t cache; int *is_private; { u_int32_t oflags; int ret; /* * If our environment open fails, and we're trying to look at a * shared region, it's a hard failure. * * We will probably just drop core if the environment we join does * not include a memory pool. This is probably acceptable; trying * to use an existing environment that does not contain a memory * pool to look at a database can be safely construed as operator * error, I think. */ *is_private = 0; if ((ret = dbenv->open(dbenv, home, DB_JOINENV | DB_USE_ENVIRON, 0)) == 0) return (0); if (ttype != T_DB && ttype != T_LOG) { dbenv->err(dbenv, ret, "DB_ENV->open%s%s", home == NULL ? "" : ": ", home == NULL ? "" : home); return (1); } /* * We're looking at a database or set of log files and no environment * exists. Create one, but make it private so no files are actually * created. Declare a reasonably large cache so that we don't fail * when reporting statistics on large databases. * * An environment is required to look at databases because we may be * trying to look at databases in directories other than the current * one. */ if ((ret = dbenv->set_cachesize(dbenv, 0, cache, 1)) != 0) { dbenv->err(dbenv, ret, "set_cachesize"); return (1); } *is_private = 1; oflags = DB_CREATE | DB_PRIVATE | DB_USE_ENVIRON; if (ttype == T_DB) oflags |= DB_INIT_MPOOL; if (ttype == T_LOG) oflags |= DB_INIT_LOG; if (ttype == T_REP) oflags |= DB_INIT_REP; if ((ret = dbenv->open(dbenv, home, oflags, 0)) == 0) return (0); /* An environment is required. */ dbenv->err(dbenv, ret, "open"); return (1); } /* * argcheck -- * Return if argument flags are okay. */ int argcheck(arg, ok_args) char *arg; const char *ok_args; { for (; *arg != '\0'; ++arg) if (strchr(ok_args, *arg) == NULL) return (0); return (1); } int usage() { fprintf(stderr, "%s\n\t%s\n", "usage: db_stat [-celmNrtVZ] [-C Aclmop]", "[-d file [-f] [-s database]] [-h home] [-M Ahlm] [-P password]"); return (EXIT_FAILURE); } int version_check(progname) const char *progname; { int v_major, v_minor, v_patch; /* Make sure we're loaded with the right version of the DB library. */ (void)db_version(&v_major, &v_minor, &v_patch); if (v_major != DB_VERSION_MAJOR || v_minor != DB_VERSION_MINOR) { fprintf(stderr, "%s: version %d.%d doesn't match library version %d.%d\n", progname, DB_VERSION_MAJOR, DB_VERSION_MINOR, v_major, v_minor); return (EXIT_FAILURE); } return (0); }