/*------------------------------------------------------------------------- * * vacuumdb * * Portions Copyright (c) 1996-2022, PostgreSQL Global Development Group * Portions Copyright (c) 1994, Regents of the University of California * * src/bin/scripts/vacuumdb.c * *------------------------------------------------------------------------- */ #include "postgres_fe.h" #include #include "catalog/pg_class_d.h" #include "common.h" #include "common/connect.h" #include "common/logging.h" #include "fe_utils/cancel.h" #include "fe_utils/option_utils.h" #include "fe_utils/parallel_slot.h" #include "fe_utils/query_utils.h" #include "fe_utils/simple_list.h" #include "fe_utils/string_utils.h" /* vacuum options controlled by user flags */ typedef struct vacuumingOptions { bool analyze_only; bool verbose; bool and_analyze; bool full; bool freeze; bool disable_page_skipping; bool skip_locked; int min_xid_age; int min_mxid_age; int parallel_workers; /* >= 0 indicates user specified the * parallel degree, otherwise -1 */ bool no_index_cleanup; bool force_index_cleanup; bool do_truncate; bool process_toast; } vacuumingOptions; static void vacuum_one_database(ConnParams *cparams, vacuumingOptions *vacopts, int stage, SimpleStringList *tables, int concurrentCons, const char *progname, bool echo, bool quiet); static void vacuum_all_databases(ConnParams *cparams, vacuumingOptions *vacopts, bool analyze_in_stages, int concurrentCons, const char *progname, bool echo, bool quiet); static void prepare_vacuum_command(PQExpBuffer sql, int serverVersion, vacuumingOptions *vacopts, const char *table); static void run_vacuum_command(PGconn *conn, const char *sql, bool echo, const char *table); static void help(const char *progname); /* For analyze-in-stages mode */ #define ANALYZE_NO_STAGE -1 #define ANALYZE_NUM_STAGES 3 int main(int argc, char *argv[]) { static struct option long_options[] = { {"host", required_argument, NULL, 'h'}, {"port", required_argument, NULL, 'p'}, {"username", required_argument, NULL, 'U'}, {"no-password", no_argument, NULL, 'w'}, {"password", no_argument, NULL, 'W'}, {"echo", no_argument, NULL, 'e'}, {"quiet", no_argument, NULL, 'q'}, {"dbname", required_argument, NULL, 'd'}, {"analyze", no_argument, NULL, 'z'}, {"analyze-only", no_argument, NULL, 'Z'}, {"freeze", no_argument, NULL, 'F'}, {"all", no_argument, NULL, 'a'}, {"table", required_argument, NULL, 't'}, {"full", no_argument, NULL, 'f'}, {"verbose", no_argument, NULL, 'v'}, {"jobs", required_argument, NULL, 'j'}, {"parallel", required_argument, NULL, 'P'}, {"maintenance-db", required_argument, NULL, 2}, {"analyze-in-stages", no_argument, NULL, 3}, {"disable-page-skipping", no_argument, NULL, 4}, {"skip-locked", no_argument, NULL, 5}, {"min-xid-age", required_argument, NULL, 6}, {"min-mxid-age", required_argument, NULL, 7}, {"no-index-cleanup", no_argument, NULL, 8}, {"force-index-cleanup", no_argument, NULL, 9}, {"no-truncate", no_argument, NULL, 10}, {"no-process-toast", no_argument, NULL, 11}, {NULL, 0, NULL, 0} }; const char *progname; int optindex; int c; const char *dbname = NULL; const char *maintenance_db = NULL; char *host = NULL; char *port = NULL; char *username = NULL; enum trivalue prompt_password = TRI_DEFAULT; ConnParams cparams; bool echo = false; bool quiet = false; vacuumingOptions vacopts; bool analyze_in_stages = false; bool alldb = false; SimpleStringList tables = {NULL, NULL}; int concurrentCons = 1; int tbl_count = 0; /* initialize options */ memset(&vacopts, 0, sizeof(vacopts)); vacopts.parallel_workers = -1; vacopts.no_index_cleanup = false; vacopts.force_index_cleanup = false; vacopts.do_truncate = true; vacopts.process_toast = true; pg_logging_init(argv[0]); progname = get_progname(argv[0]); set_pglocale_pgservice(argv[0], PG_TEXTDOMAIN("pgscripts")); handle_help_version_opts(argc, argv, "vacuumdb", help); while ((c = getopt_long(argc, argv, "h:p:U:wWeqd:zZFat:fvj:P:", long_options, &optindex)) != -1) { switch (c) { case 'h': host = pg_strdup(optarg); break; case 'p': port = pg_strdup(optarg); break; case 'U': username = pg_strdup(optarg); break; case 'w': prompt_password = TRI_NO; break; case 'W': prompt_password = TRI_YES; break; case 'e': echo = true; break; case 'q': quiet = true; break; case 'd': dbname = pg_strdup(optarg); break; case 'z': vacopts.and_analyze = true; break; case 'Z': vacopts.analyze_only = true; break; case 'F': vacopts.freeze = true; break; case 'a': alldb = true; break; case 't': { simple_string_list_append(&tables, optarg); tbl_count++; break; } case 'f': vacopts.full = true; break; case 'v': vacopts.verbose = true; break; case 'j': if (!option_parse_int(optarg, "-j/--jobs", 1, INT_MAX, &concurrentCons)) exit(1); break; case 'P': if (!option_parse_int(optarg, "-P/--parallel", 0, INT_MAX, &vacopts.parallel_workers)) exit(1); break; case 2: maintenance_db = pg_strdup(optarg); break; case 3: analyze_in_stages = vacopts.analyze_only = true; break; case 4: vacopts.disable_page_skipping = true; break; case 5: vacopts.skip_locked = true; break; case 6: if (!option_parse_int(optarg, "--min-xid-age", 1, INT_MAX, &vacopts.min_xid_age)) exit(1); break; case 7: if (!option_parse_int(optarg, "--min-mxid-age", 1, INT_MAX, &vacopts.min_mxid_age)) exit(1); break; case 8: vacopts.no_index_cleanup = true; break; case 9: vacopts.force_index_cleanup = true; break; case 10: vacopts.do_truncate = false; break; case 11: vacopts.process_toast = false; break; default: /* getopt_long already emitted a complaint */ pg_log_error_hint("Try \"%s --help\" for more information.", progname); exit(1); } } /* * Non-option argument specifies database name as long as it wasn't * already specified with -d / --dbname */ if (optind < argc && dbname == NULL) { dbname = argv[optind]; optind++; } if (optind < argc) { pg_log_error("too many command-line arguments (first is \"%s\")", argv[optind]); pg_log_error_hint("Try \"%s --help\" for more information.", progname); exit(1); } if (vacopts.analyze_only) { if (vacopts.full) pg_fatal("cannot use the \"%s\" option when performing only analyze", "full"); if (vacopts.freeze) pg_fatal("cannot use the \"%s\" option when performing only analyze", "freeze"); if (vacopts.disable_page_skipping) pg_fatal("cannot use the \"%s\" option when performing only analyze", "disable-page-skipping"); if (vacopts.no_index_cleanup) pg_fatal("cannot use the \"%s\" option when performing only analyze", "no-index-cleanup"); if (vacopts.force_index_cleanup) pg_fatal("cannot use the \"%s\" option when performing only analyze", "force-index-cleanup"); if (!vacopts.do_truncate) pg_fatal("cannot use the \"%s\" option when performing only analyze", "no-truncate"); if (!vacopts.process_toast) pg_fatal("cannot use the \"%s\" option when performing only analyze", "no-process-toast"); /* allow 'and_analyze' with 'analyze_only' */ } /* Prohibit full and analyze_only options with parallel option */ if (vacopts.parallel_workers >= 0) { if (vacopts.analyze_only) pg_fatal("cannot use the \"%s\" option when performing only analyze", "parallel"); if (vacopts.full) pg_fatal("cannot use the \"%s\" option when performing full vacuum", "parallel"); } /* Prohibit --no-index-cleanup and --force-index-cleanup together */ if (vacopts.no_index_cleanup && vacopts.force_index_cleanup) pg_fatal("cannot use the \"%s\" option with the \"%s\" option", "no-index-cleanup", "force-index-cleanup"); /* fill cparams except for dbname, which is set below */ cparams.pghost = host; cparams.pgport = port; cparams.pguser = username; cparams.prompt_password = prompt_password; cparams.override_dbname = NULL; setup_cancel_handler(NULL); /* Avoid opening extra connections. */ if (tbl_count && (concurrentCons > tbl_count)) concurrentCons = tbl_count; if (alldb) { if (dbname) pg_fatal("cannot vacuum all databases and a specific one at the same time"); if (tables.head != NULL) pg_fatal("cannot vacuum specific table(s) in all databases"); cparams.dbname = maintenance_db; vacuum_all_databases(&cparams, &vacopts, analyze_in_stages, concurrentCons, progname, echo, quiet); } else { if (dbname == NULL) { if (getenv("PGDATABASE")) dbname = getenv("PGDATABASE"); else if (getenv("PGUSER")) dbname = getenv("PGUSER"); else dbname = get_user_name_or_exit(progname); } cparams.dbname = dbname; if (analyze_in_stages) { int stage; for (stage = 0; stage < ANALYZE_NUM_STAGES; stage++) { vacuum_one_database(&cparams, &vacopts, stage, &tables, concurrentCons, progname, echo, quiet); } } else vacuum_one_database(&cparams, &vacopts, ANALYZE_NO_STAGE, &tables, concurrentCons, progname, echo, quiet); } exit(0); } /* * vacuum_one_database * * Process tables in the given database. If the 'tables' list is empty, * process all tables in the database. * * Note that this function is only concerned with running exactly one stage * when in analyze-in-stages mode; caller must iterate on us if necessary. * * If concurrentCons is > 1, multiple connections are used to vacuum tables * in parallel. In this case and if the table list is empty, we first obtain * a list of tables from the database. */ static void vacuum_one_database(ConnParams *cparams, vacuumingOptions *vacopts, int stage, SimpleStringList *tables, int concurrentCons, const char *progname, bool echo, bool quiet) { PQExpBufferData sql; PQExpBufferData buf; PQExpBufferData catalog_query; PGresult *res; PGconn *conn; SimpleStringListCell *cell; ParallelSlotArray *sa; SimpleStringList dbtables = {NULL, NULL}; int i; int ntups; bool failed = false; bool tables_listed = false; bool has_where = false; const char *initcmd; const char *stage_commands[] = { "SET default_statistics_target=1; SET vacuum_cost_delay=0;", "SET default_statistics_target=10; RESET vacuum_cost_delay;", "RESET default_statistics_target;" }; const char *stage_messages[] = { gettext_noop("Generating minimal optimizer statistics (1 target)"), gettext_noop("Generating medium optimizer statistics (10 targets)"), gettext_noop("Generating default (full) optimizer statistics") }; Assert(stage == ANALYZE_NO_STAGE || (stage >= 0 && stage < ANALYZE_NUM_STAGES)); conn = connectDatabase(cparams, progname, echo, false, true); if (vacopts->disable_page_skipping && PQserverVersion(conn) < 90600) { PQfinish(conn); pg_fatal("cannot use the \"%s\" option on server versions older than PostgreSQL %s", "disable-page-skipping", "9.6"); } if (vacopts->no_index_cleanup && PQserverVersion(conn) < 120000) { PQfinish(conn); pg_fatal("cannot use the \"%s\" option on server versions older than PostgreSQL %s", "no-index-cleanup", "12"); } if (vacopts->force_index_cleanup && PQserverVersion(conn) < 120000) { PQfinish(conn); pg_fatal("cannot use the \"%s\" option on server versions older than PostgreSQL %s", "force-index-cleanup", "12"); } if (!vacopts->do_truncate && PQserverVersion(conn) < 120000) { PQfinish(conn); pg_fatal("cannot use the \"%s\" option on server versions older than PostgreSQL %s", "no-truncate", "12"); } if (!vacopts->process_toast && PQserverVersion(conn) < 140000) { PQfinish(conn); pg_fatal("cannot use the \"%s\" option on server versions older than PostgreSQL %s", "no-process-toast", "14"); } if (vacopts->skip_locked && PQserverVersion(conn) < 120000) { PQfinish(conn); pg_fatal("cannot use the \"%s\" option on server versions older than PostgreSQL %s", "skip-locked", "12"); } if (vacopts->min_xid_age != 0 && PQserverVersion(conn) < 90600) pg_fatal("cannot use the \"%s\" option on server versions older than PostgreSQL %s", "--min-xid-age", "9.6"); if (vacopts->min_mxid_age != 0 && PQserverVersion(conn) < 90600) pg_fatal("cannot use the \"%s\" option on server versions older than PostgreSQL %s", "--min-mxid-age", "9.6"); if (vacopts->parallel_workers >= 0 && PQserverVersion(conn) < 130000) pg_fatal("cannot use the \"%s\" option on server versions older than PostgreSQL %s", "--parallel", "13"); if (!quiet) { if (stage != ANALYZE_NO_STAGE) printf(_("%s: processing database \"%s\": %s\n"), progname, PQdb(conn), _(stage_messages[stage])); else printf(_("%s: vacuuming database \"%s\"\n"), progname, PQdb(conn)); fflush(stdout); } /* * Prepare the list of tables to process by querying the catalogs. * * Since we execute the constructed query with the default search_path * (which could be unsafe), everything in this query MUST be fully * qualified. * * First, build a WITH clause for the catalog query if any tables were * specified, with a set of values made of relation names and their * optional set of columns. This is used to match any provided column * lists with the generated qualified identifiers and to filter for the * tables provided via --table. If a listed table does not exist, the * catalog query will fail. */ initPQExpBuffer(&catalog_query); for (cell = tables ? tables->head : NULL; cell; cell = cell->next) { char *just_table; const char *just_columns; /* * Split relation and column names given by the user, this is used to * feed the CTE with values on which are performed pre-run validity * checks as well. For now these happen only on the relation name. */ splitTableColumnsSpec(cell->val, PQclientEncoding(conn), &just_table, &just_columns); if (!tables_listed) { appendPQExpBufferStr(&catalog_query, "WITH listed_tables (table_oid, column_list) " "AS (\n VALUES ("); tables_listed = true; } else appendPQExpBufferStr(&catalog_query, ",\n ("); appendStringLiteralConn(&catalog_query, just_table, conn); appendPQExpBufferStr(&catalog_query, "::pg_catalog.regclass, "); if (just_columns && just_columns[0] != '\0') appendStringLiteralConn(&catalog_query, just_columns, conn); else appendPQExpBufferStr(&catalog_query, "NULL"); appendPQExpBufferStr(&catalog_query, "::pg_catalog.text)"); pg_free(just_table); } /* Finish formatting the CTE */ if (tables_listed) appendPQExpBufferStr(&catalog_query, "\n)\n"); appendPQExpBufferStr(&catalog_query, "SELECT c.relname, ns.nspname"); if (tables_listed) appendPQExpBufferStr(&catalog_query, ", listed_tables.column_list"); appendPQExpBufferStr(&catalog_query, " FROM pg_catalog.pg_class c\n" " JOIN pg_catalog.pg_namespace ns" " ON c.relnamespace OPERATOR(pg_catalog.=) ns.oid\n" " LEFT JOIN pg_catalog.pg_class t" " ON c.reltoastrelid OPERATOR(pg_catalog.=) t.oid\n"); /* Used to match the tables listed by the user */ if (tables_listed) appendPQExpBufferStr(&catalog_query, " JOIN listed_tables" " ON listed_tables.table_oid OPERATOR(pg_catalog.=) c.oid\n"); /* * If no tables were listed, filter for the relevant relation types. If * tables were given via --table, don't bother filtering by relation type. * Instead, let the server decide whether a given relation can be * processed in which case the user will know about it. */ if (!tables_listed) { appendPQExpBufferStr(&catalog_query, " WHERE c.relkind OPERATOR(pg_catalog.=) ANY (array[" CppAsString2(RELKIND_RELATION) ", " CppAsString2(RELKIND_MATVIEW) "])\n"); has_where = true; } /* * For --min-xid-age and --min-mxid-age, the age of the relation is the * greatest of the ages of the main relation and its associated TOAST * table. The commands generated by vacuumdb will also process the TOAST * table for the relation if necessary, so it does not need to be * considered separately. */ if (vacopts->min_xid_age != 0) { appendPQExpBuffer(&catalog_query, " %s GREATEST(pg_catalog.age(c.relfrozenxid)," " pg_catalog.age(t.relfrozenxid)) " " OPERATOR(pg_catalog.>=) '%d'::pg_catalog.int4\n" " AND c.relfrozenxid OPERATOR(pg_catalog.!=)" " '0'::pg_catalog.xid\n", has_where ? "AND" : "WHERE", vacopts->min_xid_age); has_where = true; } if (vacopts->min_mxid_age != 0) { appendPQExpBuffer(&catalog_query, " %s GREATEST(pg_catalog.mxid_age(c.relminmxid)," " pg_catalog.mxid_age(t.relminmxid)) OPERATOR(pg_catalog.>=)" " '%d'::pg_catalog.int4\n" " AND c.relminmxid OPERATOR(pg_catalog.!=)" " '0'::pg_catalog.xid\n", has_where ? "AND" : "WHERE", vacopts->min_mxid_age); has_where = true; } /* * Execute the catalog query. We use the default search_path for this * query for consistency with table lookups done elsewhere by the user. */ appendPQExpBufferStr(&catalog_query, " ORDER BY c.relpages DESC;"); executeCommand(conn, "RESET search_path;", echo); res = executeQuery(conn, catalog_query.data, echo); termPQExpBuffer(&catalog_query); PQclear(executeQuery(conn, ALWAYS_SECURE_SEARCH_PATH_SQL, echo)); /* * If no rows are returned, there are no matching tables, so we are done. */ ntups = PQntuples(res); if (ntups == 0) { PQclear(res); PQfinish(conn); return; } /* * Build qualified identifiers for each table, including the column list * if given. */ initPQExpBuffer(&buf); for (i = 0; i < ntups; i++) { appendPQExpBufferStr(&buf, fmtQualifiedId(PQgetvalue(res, i, 1), PQgetvalue(res, i, 0))); if (tables_listed && !PQgetisnull(res, i, 2)) appendPQExpBufferStr(&buf, PQgetvalue(res, i, 2)); simple_string_list_append(&dbtables, buf.data); resetPQExpBuffer(&buf); } termPQExpBuffer(&buf); PQclear(res); /* * Ensure concurrentCons is sane. If there are more connections than * vacuumable relations, we don't need to use them all. */ if (concurrentCons > ntups) concurrentCons = ntups; if (concurrentCons <= 0) concurrentCons = 1; /* * All slots need to be prepared to run the appropriate analyze stage, if * caller requested that mode. We have to prepare the initial connection * ourselves before setting up the slots. */ if (stage == ANALYZE_NO_STAGE) initcmd = NULL; else { initcmd = stage_commands[stage]; executeCommand(conn, initcmd, echo); } /* * Setup the database connections. We reuse the connection we already have * for the first slot. If not in parallel mode, the first slot in the * array contains the connection. */ sa = ParallelSlotsSetup(concurrentCons, cparams, progname, echo, initcmd); ParallelSlotsAdoptConn(sa, conn); initPQExpBuffer(&sql); cell = dbtables.head; do { const char *tabname = cell->val; ParallelSlot *free_slot; if (CancelRequested) { failed = true; goto finish; } free_slot = ParallelSlotsGetIdle(sa, NULL); if (!free_slot) { failed = true; goto finish; } prepare_vacuum_command(&sql, PQserverVersion(free_slot->connection), vacopts, tabname); /* * Execute the vacuum. All errors are handled in processQueryResult * through ParallelSlotsGetIdle. */ ParallelSlotSetHandler(free_slot, TableCommandResultHandler, NULL); run_vacuum_command(free_slot->connection, sql.data, echo, tabname); cell = cell->next; } while (cell != NULL); if (!ParallelSlotsWaitCompletion(sa)) failed = true; finish: ParallelSlotsTerminate(sa); pg_free(sa); termPQExpBuffer(&sql); if (failed) exit(1); } /* * Vacuum/analyze all connectable databases. * * In analyze-in-stages mode, we process all databases in one stage before * moving on to the next stage. That ensure minimal stats are available * quickly everywhere before generating more detailed ones. */ static void vacuum_all_databases(ConnParams *cparams, vacuumingOptions *vacopts, bool analyze_in_stages, int concurrentCons, const char *progname, bool echo, bool quiet) { PGconn *conn; PGresult *result; int stage; int i; conn = connectMaintenanceDatabase(cparams, progname, echo); result = executeQuery(conn, "SELECT datname FROM pg_database WHERE datallowconn AND datconnlimit <> -2 ORDER BY 1;", echo); PQfinish(conn); if (analyze_in_stages) { /* * When analyzing all databases in stages, we analyze them all in the * fastest stage first, so that initial statistics become available * for all of them as soon as possible. * * This means we establish several times as many connections, but * that's a secondary consideration. */ for (stage = 0; stage < ANALYZE_NUM_STAGES; stage++) { for (i = 0; i < PQntuples(result); i++) { cparams->override_dbname = PQgetvalue(result, i, 0); vacuum_one_database(cparams, vacopts, stage, NULL, concurrentCons, progname, echo, quiet); } } } else { for (i = 0; i < PQntuples(result); i++) { cparams->override_dbname = PQgetvalue(result, i, 0); vacuum_one_database(cparams, vacopts, ANALYZE_NO_STAGE, NULL, concurrentCons, progname, echo, quiet); } } PQclear(result); } /* * Construct a vacuum/analyze command to run based on the given options, in the * given string buffer, which may contain previous garbage. * * The table name used must be already properly quoted. The command generated * depends on the server version involved and it is semicolon-terminated. */ static void prepare_vacuum_command(PQExpBuffer sql, int serverVersion, vacuumingOptions *vacopts, const char *table) { const char *paren = " ("; const char *comma = ", "; const char *sep = paren; resetPQExpBuffer(sql); if (vacopts->analyze_only) { appendPQExpBufferStr(sql, "ANALYZE"); /* parenthesized grammar of ANALYZE is supported since v11 */ if (serverVersion >= 110000) { if (vacopts->skip_locked) { /* SKIP_LOCKED is supported since v12 */ Assert(serverVersion >= 120000); appendPQExpBuffer(sql, "%sSKIP_LOCKED", sep); sep = comma; } if (vacopts->verbose) { appendPQExpBuffer(sql, "%sVERBOSE", sep); sep = comma; } if (sep != paren) appendPQExpBufferChar(sql, ')'); } else { if (vacopts->verbose) appendPQExpBufferStr(sql, " VERBOSE"); } } else { appendPQExpBufferStr(sql, "VACUUM"); /* parenthesized grammar of VACUUM is supported since v9.0 */ if (serverVersion >= 90000) { if (vacopts->disable_page_skipping) { /* DISABLE_PAGE_SKIPPING is supported since v9.6 */ Assert(serverVersion >= 90600); appendPQExpBuffer(sql, "%sDISABLE_PAGE_SKIPPING", sep); sep = comma; } if (vacopts->no_index_cleanup) { /* "INDEX_CLEANUP FALSE" has been supported since v12 */ Assert(serverVersion >= 120000); Assert(!vacopts->force_index_cleanup); appendPQExpBuffer(sql, "%sINDEX_CLEANUP FALSE", sep); sep = comma; } if (vacopts->force_index_cleanup) { /* "INDEX_CLEANUP TRUE" has been supported since v12 */ Assert(serverVersion >= 120000); Assert(!vacopts->no_index_cleanup); appendPQExpBuffer(sql, "%sINDEX_CLEANUP TRUE", sep); sep = comma; } if (!vacopts->do_truncate) { /* TRUNCATE is supported since v12 */ Assert(serverVersion >= 120000); appendPQExpBuffer(sql, "%sTRUNCATE FALSE", sep); sep = comma; } if (!vacopts->process_toast) { /* PROCESS_TOAST is supported since v14 */ Assert(serverVersion >= 140000); appendPQExpBuffer(sql, "%sPROCESS_TOAST FALSE", sep); sep = comma; } if (vacopts->skip_locked) { /* SKIP_LOCKED is supported since v12 */ Assert(serverVersion >= 120000); appendPQExpBuffer(sql, "%sSKIP_LOCKED", sep); sep = comma; } if (vacopts->full) { appendPQExpBuffer(sql, "%sFULL", sep); sep = comma; } if (vacopts->freeze) { appendPQExpBuffer(sql, "%sFREEZE", sep); sep = comma; } if (vacopts->verbose) { appendPQExpBuffer(sql, "%sVERBOSE", sep); sep = comma; } if (vacopts->and_analyze) { appendPQExpBuffer(sql, "%sANALYZE", sep); sep = comma; } if (vacopts->parallel_workers >= 0) { /* PARALLEL is supported since v13 */ Assert(serverVersion >= 130000); appendPQExpBuffer(sql, "%sPARALLEL %d", sep, vacopts->parallel_workers); sep = comma; } if (sep != paren) appendPQExpBufferChar(sql, ')'); } else { if (vacopts->full) appendPQExpBufferStr(sql, " FULL"); if (vacopts->freeze) appendPQExpBufferStr(sql, " FREEZE"); if (vacopts->verbose) appendPQExpBufferStr(sql, " VERBOSE"); if (vacopts->and_analyze) appendPQExpBufferStr(sql, " ANALYZE"); } } appendPQExpBuffer(sql, " %s;", table); } /* * Send a vacuum/analyze command to the server, returning after sending the * command. * * Any errors during command execution are reported to stderr. */ static void run_vacuum_command(PGconn *conn, const char *sql, bool echo, const char *table) { bool status; if (echo) printf("%s\n", sql); status = PQsendQuery(conn, sql) == 1; if (!status) { if (table) pg_log_error("vacuuming of table \"%s\" in database \"%s\" failed: %s", table, PQdb(conn), PQerrorMessage(conn)); else pg_log_error("vacuuming of database \"%s\" failed: %s", PQdb(conn), PQerrorMessage(conn)); } } static void help(const char *progname) { printf(_("%s cleans and analyzes a PostgreSQL database.\n\n"), progname); printf(_("Usage:\n")); printf(_(" %s [OPTION]... [DBNAME]\n"), progname); printf(_("\nOptions:\n")); printf(_(" -a, --all vacuum all databases\n")); printf(_(" -d, --dbname=DBNAME database to vacuum\n")); printf(_(" --disable-page-skipping disable all page-skipping behavior\n")); printf(_(" -e, --echo show the commands being sent to the server\n")); printf(_(" -f, --full do full vacuuming\n")); printf(_(" -F, --freeze freeze row transaction information\n")); printf(_(" --force-index-cleanup always remove index entries that point to dead tuples\n")); printf(_(" -j, --jobs=NUM use this many concurrent connections to vacuum\n")); printf(_(" --min-mxid-age=MXID_AGE minimum multixact ID age of tables to vacuum\n")); printf(_(" --min-xid-age=XID_AGE minimum transaction ID age of tables to vacuum\n")); printf(_(" --no-index-cleanup don't remove index entries that point to dead tuples\n")); printf(_(" --no-process-toast skip the TOAST table associated with the table to vacuum\n")); printf(_(" --no-truncate don't truncate empty pages at the end of the table\n")); printf(_(" -P, --parallel=PARALLEL_WORKERS use this many background workers for vacuum, if available\n")); printf(_(" -q, --quiet don't write any messages\n")); printf(_(" --skip-locked skip relations that cannot be immediately locked\n")); printf(_(" -t, --table='TABLE[(COLUMNS)]' vacuum specific table(s) only\n")); printf(_(" -v, --verbose write a lot of output\n")); printf(_(" -V, --version output version information, then exit\n")); printf(_(" -z, --analyze update optimizer statistics\n")); printf(_(" -Z, --analyze-only only update optimizer statistics; no vacuum\n")); printf(_(" --analyze-in-stages only update optimizer statistics, in multiple\n" " stages for faster results; no vacuum\n")); printf(_(" -?, --help show this help, then exit\n")); printf(_("\nConnection options:\n")); printf(_(" -h, --host=HOSTNAME database server host or socket directory\n")); printf(_(" -p, --port=PORT database server port\n")); printf(_(" -U, --username=USERNAME user name to connect as\n")); printf(_(" -w, --no-password never prompt for password\n")); printf(_(" -W, --password force password prompt\n")); printf(_(" --maintenance-db=DBNAME alternate maintenance database\n")); printf(_("\nRead the description of the SQL command VACUUM for details.\n")); printf(_("\nReport bugs to <%s>.\n"), PACKAGE_BUGREPORT); printf(_("%s home page: <%s>\n"), PACKAGE_NAME, PACKAGE_URL); }