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3bf3ab8c56
A materialized view has a rule just like a view and a heap and other physical properties like a table. The rule is only used to populate the table, references in queries refer to the materialized data. This is a minimal implementation, but should still be useful in many cases. Currently data is only populated "on demand" by the CREATE MATERIALIZED VIEW and REFRESH MATERIALIZED VIEW statements. It is expected that future releases will add incremental updates with various timings, and that a more refined concept of defining what is "fresh" data will be developed. At some point it may even be possible to have queries use a materialized in place of references to underlying tables, but that requires the other above-mentioned features to be working first. Much of the documentation work by Robert Haas. Review by Noah Misch, Thom Brown, Robert Haas, Marko Tiikkaja Security review by KaiGai Kohei, with a decision on how best to implement sepgsql still pending.
581 lines
17 KiB
C
581 lines
17 KiB
C
/*
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* pg_upgrade.c
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*
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* main source file
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*
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* Copyright (c) 2010-2013, PostgreSQL Global Development Group
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* contrib/pg_upgrade/pg_upgrade.c
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*/
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/*
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* To simplify the upgrade process, we force certain system values to be
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* identical between old and new clusters:
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*
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* We control all assignments of pg_class.oid (and relfilenode) so toast
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* oids are the same between old and new clusters. This is important
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* because toast oids are stored as toast pointers in user tables.
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*
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* FYI, while pg_class.oid and pg_class.relfilenode are initially the same
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* in a cluster, but they can diverge due to CLUSTER, REINDEX, or VACUUM
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* FULL. The new cluster will have matching pg_class.oid and
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* pg_class.relfilenode values and be based on the old oid value. This can
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* cause the old and new pg_class.relfilenode values to differ. In summary,
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* old and new pg_class.oid and new pg_class.relfilenode will have the
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* same value, and old pg_class.relfilenode might differ.
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*
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* We control all assignments of pg_type.oid because these oids are stored
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* in user composite type values.
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*
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* We control all assignments of pg_enum.oid because these oids are stored
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* in user tables as enum values.
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*
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* We control all assignments of pg_authid.oid because these oids are stored
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* in pg_largeobject_metadata.
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*/
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#include "postgres_fe.h"
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#include "pg_upgrade.h"
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#ifdef HAVE_LANGINFO_H
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#include <langinfo.h>
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#endif
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static void prepare_new_cluster(void);
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static void prepare_new_databases(void);
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static void create_new_objects(void);
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static void copy_clog_xlog_xid(void);
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static void set_frozenxids(void);
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static void setup(char *argv0, bool *live_check);
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static void cleanup(void);
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ClusterInfo old_cluster,
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new_cluster;
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OSInfo os_info;
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char *output_files[] = {
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SERVER_LOG_FILE,
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#ifdef WIN32
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/* unique file for pg_ctl start */
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SERVER_START_LOG_FILE,
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#endif
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UTILITY_LOG_FILE,
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INTERNAL_LOG_FILE,
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NULL
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};
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int
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main(int argc, char **argv)
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{
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char *sequence_script_file_name = NULL;
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char *analyze_script_file_name = NULL;
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char *deletion_script_file_name = NULL;
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bool live_check = false;
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parseCommandLine(argc, argv);
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adjust_data_dir(&old_cluster);
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adjust_data_dir(&new_cluster);
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setup(argv[0], &live_check);
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output_check_banner(live_check);
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check_cluster_versions();
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get_sock_dir(&old_cluster, live_check);
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get_sock_dir(&new_cluster, false);
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check_cluster_compatibility(live_check);
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check_and_dump_old_cluster(live_check, &sequence_script_file_name);
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/* -- NEW -- */
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start_postmaster(&new_cluster, true);
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check_new_cluster();
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report_clusters_compatible();
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pg_log(PG_REPORT, "\nPerforming Upgrade\n");
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pg_log(PG_REPORT, "------------------\n");
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prepare_new_cluster();
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stop_postmaster(false);
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/*
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* Destructive Changes to New Cluster
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*/
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copy_clog_xlog_xid();
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/* New now using xids of the old system */
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/* -- NEW -- */
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start_postmaster(&new_cluster, true);
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prepare_new_databases();
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create_new_objects();
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stop_postmaster(false);
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/*
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* Most failures happen in create_new_objects(), which has completed at
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* this point. We do this here because it is just before linking, which
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* will link the old and new cluster data files, preventing the old
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* cluster from being safely started once the new cluster is started.
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*/
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if (user_opts.transfer_mode == TRANSFER_MODE_LINK)
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disable_old_cluster();
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transfer_all_new_tablespaces(&old_cluster.dbarr, &new_cluster.dbarr,
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old_cluster.pgdata, new_cluster.pgdata);
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/*
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* Assuming OIDs are only used in system tables, there is no need to
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* restore the OID counter because we have not transferred any OIDs from
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* the old system, but we do it anyway just in case. We do it late here
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* because there is no need to have the schema load use new oids.
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*/
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prep_status("Setting next OID for new cluster");
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exec_prog(UTILITY_LOG_FILE, NULL, true,
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"\"%s/pg_resetxlog\" -o %u \"%s\"",
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new_cluster.bindir, old_cluster.controldata.chkpnt_nxtoid,
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new_cluster.pgdata);
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check_ok();
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prep_status("Sync data directory to disk");
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exec_prog(UTILITY_LOG_FILE, NULL, true,
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"\"%s/initdb\" --sync-only \"%s\"", new_cluster.bindir,
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new_cluster.pgdata);
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check_ok();
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create_script_for_cluster_analyze(&analyze_script_file_name);
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create_script_for_old_cluster_deletion(&deletion_script_file_name);
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issue_warnings(sequence_script_file_name);
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pg_log(PG_REPORT, "\nUpgrade Complete\n");
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pg_log(PG_REPORT, "----------------\n");
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output_completion_banner(analyze_script_file_name,
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deletion_script_file_name);
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pg_free(analyze_script_file_name);
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pg_free(deletion_script_file_name);
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pg_free(sequence_script_file_name);
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cleanup();
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return 0;
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}
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static void
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setup(char *argv0, bool *live_check)
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{
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char exec_path[MAXPGPATH]; /* full path to my executable */
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/*
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* make sure the user has a clean environment, otherwise, we may confuse
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* libpq when we connect to one (or both) of the servers.
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*/
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check_pghost_envvar();
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verify_directories();
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/* no postmasters should be running, except for a live check */
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if (pid_lock_file_exists(old_cluster.pgdata))
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{
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/*
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* If we have a postmaster.pid file, try to start the server. If
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* it starts, the pid file was stale, so stop the server. If it
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* doesn't start, assume the server is running. If the pid file
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* is left over from a server crash, this also allows any committed
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* transactions stored in the WAL to be replayed so they are not
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* lost, because WAL files are not transfered from old to new
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* servers.
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*/
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if (start_postmaster(&old_cluster, false))
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stop_postmaster(false);
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else
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{
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if (!user_opts.check)
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pg_log(PG_FATAL, "There seems to be a postmaster servicing the old cluster.\n"
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"Please shutdown that postmaster and try again.\n");
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else
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*live_check = true;
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}
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}
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/* same goes for the new postmaster */
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if (pid_lock_file_exists(new_cluster.pgdata))
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{
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if (start_postmaster(&new_cluster, false))
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stop_postmaster(false);
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else
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pg_log(PG_FATAL, "There seems to be a postmaster servicing the new cluster.\n"
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"Please shutdown that postmaster and try again.\n");
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}
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/* get path to pg_upgrade executable */
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if (find_my_exec(argv0, exec_path) < 0)
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pg_log(PG_FATAL, "Could not get path name to pg_upgrade: %s\n", getErrorText(errno));
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/* Trim off program name and keep just path */
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*last_dir_separator(exec_path) = '\0';
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canonicalize_path(exec_path);
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os_info.exec_path = pg_strdup(exec_path);
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}
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static void
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prepare_new_cluster(void)
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{
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/*
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* It would make more sense to freeze after loading the schema, but that
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* would cause us to lose the frozenids restored by the load. We use
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* --analyze so autovacuum doesn't update statistics later
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*/
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prep_status("Analyzing all rows in the new cluster");
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exec_prog(UTILITY_LOG_FILE, NULL, true,
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"\"%s/vacuumdb\" %s --all --analyze %s",
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new_cluster.bindir, cluster_conn_opts(&new_cluster),
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log_opts.verbose ? "--verbose" : "");
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check_ok();
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/*
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* We do freeze after analyze so pg_statistic is also frozen. template0 is
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* not frozen here, but data rows were frozen by initdb, and we set its
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* datfrozenxid and relfrozenxids later to match the new xid counter
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* later.
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*/
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prep_status("Freezing all rows on the new cluster");
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exec_prog(UTILITY_LOG_FILE, NULL, true,
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"\"%s/vacuumdb\" %s --all --freeze %s",
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new_cluster.bindir, cluster_conn_opts(&new_cluster),
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log_opts.verbose ? "--verbose" : "");
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check_ok();
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get_pg_database_relfilenode(&new_cluster);
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}
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static void
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prepare_new_databases(void)
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{
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/*
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* We set autovacuum_freeze_max_age to its maximum value so autovacuum
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* does not launch here and delete clog files, before the frozen xids are
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* set.
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*/
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set_frozenxids();
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prep_status("Restoring global objects in the new cluster");
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/*
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* Install support functions in the global-object restore database to
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* preserve pg_authid.oid. pg_dumpall uses 'template0' as its template
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* database so objects we add into 'template1' are not propogated. They
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* are removed on pg_upgrade exit.
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*/
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install_support_functions_in_new_db("template1");
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/*
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* We have to create the databases first so we can install support
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* functions in all the other databases. Ideally we could create the
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* support functions in template1 but pg_dumpall creates database using
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* the template0 template.
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*/
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exec_prog(UTILITY_LOG_FILE, NULL, true,
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"\"%s/psql\" " EXEC_PSQL_ARGS " %s -f \"%s\"",
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new_cluster.bindir, cluster_conn_opts(&new_cluster),
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GLOBALS_DUMP_FILE);
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check_ok();
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/* we load this to get a current list of databases */
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get_db_and_rel_infos(&new_cluster);
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}
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static void
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create_new_objects(void)
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{
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int dbnum;
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prep_status("Adding support functions to new cluster");
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/*
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* Technically, we only need to install these support functions in new
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* databases that also exist in the old cluster, but for completeness
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* we process all new databases.
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*/
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for (dbnum = 0; dbnum < new_cluster.dbarr.ndbs; dbnum++)
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{
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DbInfo *new_db = &new_cluster.dbarr.dbs[dbnum];
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/* skip db we already installed */
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if (strcmp(new_db->db_name, "template1") != 0)
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install_support_functions_in_new_db(new_db->db_name);
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}
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check_ok();
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prep_status("Restoring database schemas in the new cluster\n");
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for (dbnum = 0; dbnum < old_cluster.dbarr.ndbs; dbnum++)
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{
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char sql_file_name[MAXPGPATH], log_file_name[MAXPGPATH];
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DbInfo *old_db = &old_cluster.dbarr.dbs[dbnum];
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pg_log(PG_STATUS, "%s", old_db->db_name);
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snprintf(sql_file_name, sizeof(sql_file_name), DB_DUMP_FILE_MASK, old_db->db_oid);
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snprintf(log_file_name, sizeof(log_file_name), DB_DUMP_LOG_FILE_MASK, old_db->db_oid);
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/*
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* pg_dump only produces its output at the end, so there is little
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* parallelism if using the pipe.
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*/
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parallel_exec_prog(log_file_name, NULL,
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"\"%s/pg_restore\" %s --exit-on-error --verbose --dbname \"%s\" \"%s\"",
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new_cluster.bindir, cluster_conn_opts(&new_cluster),
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old_db->db_name, sql_file_name);
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}
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/* reap all children */
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while (reap_child(true) == true)
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;
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end_progress_output();
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check_ok();
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/* regenerate now that we have objects in the databases */
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get_db_and_rel_infos(&new_cluster);
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uninstall_support_functions_from_new_cluster();
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}
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/*
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* Delete the given subdirectory contents from the new cluster, and copy the
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* files from the old cluster into it.
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*/
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static void
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copy_subdir_files(char *subdir)
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{
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char old_path[MAXPGPATH];
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char new_path[MAXPGPATH];
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prep_status("Deleting files from new %s", subdir);
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snprintf(old_path, sizeof(old_path), "%s/%s", old_cluster.pgdata, subdir);
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snprintf(new_path, sizeof(new_path), "%s/%s", new_cluster.pgdata, subdir);
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if (!rmtree(new_path, true))
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pg_log(PG_FATAL, "could not delete directory \"%s\"\n", new_path);
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check_ok();
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prep_status("Copying old %s to new server", subdir);
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exec_prog(UTILITY_LOG_FILE, NULL, true,
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#ifndef WIN32
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"cp -Rf \"%s\" \"%s\"",
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#else
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/* flags: everything, no confirm, quiet, overwrite read-only */
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"xcopy /e /y /q /r \"%s\" \"%s\\\"",
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#endif
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old_path, new_path);
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check_ok();
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}
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static void
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copy_clog_xlog_xid(void)
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{
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/* copy old commit logs to new data dir */
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copy_subdir_files("pg_clog");
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/* set the next transaction id of the new cluster */
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prep_status("Setting next transaction ID for new cluster");
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exec_prog(UTILITY_LOG_FILE, NULL, true,
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"\"%s/pg_resetxlog\" -f -x %u \"%s\"",
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new_cluster.bindir, old_cluster.controldata.chkpnt_nxtxid,
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new_cluster.pgdata);
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check_ok();
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/*
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* If the old server is before the MULTIXACT_FORMATCHANGE_CAT_VER change
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* (see pg_upgrade.h) and the new server is after, then we don't copy
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* pg_multixact files, but we need to reset pg_control so that the new
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* server doesn't attempt to read multis older than the cutoff value.
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*/
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if (old_cluster.controldata.cat_ver >= MULTIXACT_FORMATCHANGE_CAT_VER &&
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new_cluster.controldata.cat_ver >= MULTIXACT_FORMATCHANGE_CAT_VER)
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{
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copy_subdir_files("pg_multixact/offsets");
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copy_subdir_files("pg_multixact/members");
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prep_status("Setting next multixact ID and offset for new cluster");
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/*
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* we preserve all files and contents, so we must preserve both "next"
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* counters here and the oldest multi present on system.
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*/
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exec_prog(UTILITY_LOG_FILE, NULL, true,
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"\"%s/pg_resetxlog\" -O %u -m %u,%u \"%s\"",
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new_cluster.bindir,
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old_cluster.controldata.chkpnt_nxtmxoff,
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old_cluster.controldata.chkpnt_nxtmulti,
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old_cluster.controldata.chkpnt_oldstMulti,
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new_cluster.pgdata);
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check_ok();
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}
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else if (new_cluster.controldata.cat_ver >= MULTIXACT_FORMATCHANGE_CAT_VER)
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{
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prep_status("Setting oldest multixact ID on new cluster");
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/*
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* We don't preserve files in this case, but it's important that the
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* oldest multi is set to the latest value used by the old system, so
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* that multixact.c returns the empty set for multis that might be
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* present on disk. We set next multi to the value following that; it
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* might end up wrapped around (i.e. 0) if the old cluster had
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* next=MaxMultiXactId, but multixact.c can cope with that just fine.
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*/
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exec_prog(UTILITY_LOG_FILE, NULL, true,
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"\"%s/pg_resetxlog\" -m %u,%u \"%s\"",
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new_cluster.bindir,
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old_cluster.controldata.chkpnt_nxtmulti + 1,
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old_cluster.controldata.chkpnt_nxtmulti,
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new_cluster.pgdata);
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check_ok();
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}
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/* now reset the wal archives in the new cluster */
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prep_status("Resetting WAL archives");
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exec_prog(UTILITY_LOG_FILE, NULL, true,
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"\"%s/pg_resetxlog\" -l %s \"%s\"", new_cluster.bindir,
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old_cluster.controldata.nextxlogfile,
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new_cluster.pgdata);
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check_ok();
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}
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|
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|
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/*
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* set_frozenxids()
|
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*
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* We have frozen all xids, so set relfrozenxid and datfrozenxid
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* to be the old cluster's xid counter, which we just set in the new
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* cluster. User-table frozenxid values will be set by pg_dumpall
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* --binary-upgrade, but objects not set by the pg_dump must have
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* proper frozen counters.
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*/
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static
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void
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set_frozenxids(void)
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{
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int dbnum;
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PGconn *conn,
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*conn_template1;
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PGresult *dbres;
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int ntups;
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int i_datname;
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int i_datallowconn;
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prep_status("Setting frozenxid counters in new cluster");
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conn_template1 = connectToServer(&new_cluster, "template1");
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/* set pg_database.datfrozenxid */
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PQclear(executeQueryOrDie(conn_template1,
|
|
"UPDATE pg_catalog.pg_database "
|
|
"SET datfrozenxid = '%u'",
|
|
old_cluster.controldata.chkpnt_nxtxid));
|
|
|
|
/* get database names */
|
|
dbres = executeQueryOrDie(conn_template1,
|
|
"SELECT datname, datallowconn "
|
|
"FROM pg_catalog.pg_database");
|
|
|
|
i_datname = PQfnumber(dbres, "datname");
|
|
i_datallowconn = PQfnumber(dbres, "datallowconn");
|
|
|
|
ntups = PQntuples(dbres);
|
|
for (dbnum = 0; dbnum < ntups; dbnum++)
|
|
{
|
|
char *datname = PQgetvalue(dbres, dbnum, i_datname);
|
|
char *datallowconn = PQgetvalue(dbres, dbnum, i_datallowconn);
|
|
|
|
/*
|
|
* We must update databases where datallowconn = false, e.g.
|
|
* template0, because autovacuum increments their datfrozenxids and
|
|
* relfrozenxids even if autovacuum is turned off, and even though all
|
|
* the data rows are already frozen To enable this, we temporarily
|
|
* change datallowconn.
|
|
*/
|
|
if (strcmp(datallowconn, "f") == 0)
|
|
PQclear(executeQueryOrDie(conn_template1,
|
|
"UPDATE pg_catalog.pg_database "
|
|
"SET datallowconn = true "
|
|
"WHERE datname = '%s'", datname));
|
|
|
|
conn = connectToServer(&new_cluster, datname);
|
|
|
|
/* set pg_class.relfrozenxid */
|
|
PQclear(executeQueryOrDie(conn,
|
|
"UPDATE pg_catalog.pg_class "
|
|
"SET relfrozenxid = '%u' "
|
|
/* only heap, materialized view, and TOAST are vacuumed */
|
|
"WHERE relkind IN ('r', 'm', 't')",
|
|
old_cluster.controldata.chkpnt_nxtxid));
|
|
PQfinish(conn);
|
|
|
|
/* Reset datallowconn flag */
|
|
if (strcmp(datallowconn, "f") == 0)
|
|
PQclear(executeQueryOrDie(conn_template1,
|
|
"UPDATE pg_catalog.pg_database "
|
|
"SET datallowconn = false "
|
|
"WHERE datname = '%s'", datname));
|
|
}
|
|
|
|
PQclear(dbres);
|
|
|
|
PQfinish(conn_template1);
|
|
|
|
check_ok();
|
|
}
|
|
|
|
|
|
static void
|
|
cleanup(void)
|
|
{
|
|
|
|
fclose(log_opts.internal);
|
|
|
|
/* Remove dump and log files? */
|
|
if (!log_opts.retain)
|
|
{
|
|
int dbnum;
|
|
char **filename;
|
|
|
|
for (filename = output_files; *filename != NULL; filename++)
|
|
unlink(*filename);
|
|
|
|
/* remove dump files */
|
|
unlink(GLOBALS_DUMP_FILE);
|
|
|
|
if (old_cluster.dbarr.dbs)
|
|
for (dbnum = 0; dbnum < old_cluster.dbarr.ndbs; dbnum++)
|
|
{
|
|
char sql_file_name[MAXPGPATH], log_file_name[MAXPGPATH];
|
|
DbInfo *old_db = &old_cluster.dbarr.dbs[dbnum];
|
|
|
|
snprintf(sql_file_name, sizeof(sql_file_name), DB_DUMP_FILE_MASK, old_db->db_oid);
|
|
unlink(sql_file_name);
|
|
|
|
snprintf(log_file_name, sizeof(log_file_name), DB_DUMP_LOG_FILE_MASK, old_db->db_oid);
|
|
unlink(log_file_name);
|
|
}
|
|
}
|
|
}
|