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514 lines
14 KiB
C
514 lines
14 KiB
C
/*
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* info.c
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*
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* information support functions
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*
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* Copyright (c) 2010-2011, PostgreSQL Global Development Group
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* contrib/pg_upgrade/info.c
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*/
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#include "pg_upgrade.h"
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#include "access/transam.h"
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static void get_db_infos(ClusterInfo *cluster);
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static void dbarr_print(ClusterInfo *cluster);
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static void relarr_print(RelInfoArr *arr);
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static void get_rel_infos(ClusterInfo *cluster, const int dbnum);
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static void relarr_free(RelInfoArr *rel_arr);
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static void map_rel(const RelInfo *oldrel,
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const RelInfo *newrel, const DbInfo *old_db,
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const DbInfo *new_db, const char *olddata,
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const char *newdata, FileNameMap *map);
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static void map_rel_by_id(Oid oldid, Oid newid,
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const char *old_nspname, const char *old_relname,
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const char *new_nspname, const char *new_relname,
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const char *old_tablespace, const DbInfo *old_db,
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const DbInfo *new_db, const char *olddata,
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const char *newdata, FileNameMap *map);
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static RelInfo *relarr_lookup_reloid(ClusterInfo *cluster, RelInfoArr *rel_arr,
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Oid oid);
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static RelInfo *relarr_lookup_rel(ClusterInfo *cluster, RelInfoArr *rel_arr,
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const char *nspname, const char *relname);
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/*
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* gen_db_file_maps()
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*
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* generates database mappings for "old_db" and "new_db". Returns a malloc'ed
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* array of mappings. nmaps is a return parameter which refers to the number
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* mappings.
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*
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* NOTE: Its the Caller's responsibility to free the returned array.
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*/
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FileNameMap *
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gen_db_file_maps(DbInfo *old_db, DbInfo *new_db,
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int *nmaps, const char *old_pgdata, const char *new_pgdata)
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{
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FileNameMap *maps;
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int relnum;
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int num_maps = 0;
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maps = (FileNameMap *) pg_malloc(sizeof(FileNameMap) *
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new_db->rel_arr.nrels);
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for (relnum = 0; relnum < new_db->rel_arr.nrels; relnum++)
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{
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RelInfo *newrel = &new_db->rel_arr.rels[relnum];
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RelInfo *oldrel;
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/* toast tables are handled by their parent */
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if (strcmp(newrel->nspname, "pg_toast") == 0)
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continue;
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oldrel = relarr_lookup_rel(&old_cluster, &old_db->rel_arr,
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newrel->nspname, newrel->relname);
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map_rel(oldrel, newrel, old_db, new_db, old_pgdata, new_pgdata,
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maps + num_maps);
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num_maps++;
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/*
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* So much for mapping this relation; now we need a mapping
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* for its corresponding toast relation, if any.
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*/
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if (oldrel->toastrelid > 0)
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{
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RelInfo *new_toast;
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RelInfo *old_toast;
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char new_name[MAXPGPATH];
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char old_name[MAXPGPATH];
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/* construct the new and old relnames for the toast relation */
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snprintf(old_name, sizeof(old_name), "pg_toast_%u",
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oldrel->reloid);
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snprintf(new_name, sizeof(new_name), "pg_toast_%u",
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newrel->reloid);
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/* look them up in their respective arrays */
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old_toast = relarr_lookup_reloid(&old_cluster, &old_db->rel_arr,
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oldrel->toastrelid);
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new_toast = relarr_lookup_rel(&new_cluster, &new_db->rel_arr,
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"pg_toast", new_name);
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/* finally create a mapping for them */
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map_rel(old_toast, new_toast, old_db, new_db, old_pgdata, new_pgdata,
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maps + num_maps);
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num_maps++;
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/*
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* also need to provide a mapping for the index of this toast
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* relation. The procedure is similar to what we did above for
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* toast relation itself, the only difference being that the
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* relnames need to be appended with _index.
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*/
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/*
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* construct the new and old relnames for the toast index
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* relations
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*/
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snprintf(old_name, sizeof(old_name), "%s_index", old_toast->relname);
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snprintf(new_name, sizeof(new_name), "pg_toast_%u_index",
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newrel->reloid);
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/* look them up in their respective arrays */
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/* we lose our cache location here */
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old_toast = relarr_lookup_rel(&old_cluster, &old_db->rel_arr,
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"pg_toast", old_name);
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new_toast = relarr_lookup_rel(&new_cluster, &new_db->rel_arr,
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"pg_toast", new_name);
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/* finally create a mapping for them */
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map_rel(old_toast, new_toast, old_db, new_db, old_pgdata,
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new_pgdata, maps + num_maps);
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num_maps++;
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}
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}
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*nmaps = num_maps;
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return maps;
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}
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static void
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map_rel(const RelInfo *oldrel, const RelInfo *newrel,
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const DbInfo *old_db, const DbInfo *new_db, const char *olddata,
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const char *newdata, FileNameMap *map)
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{
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map_rel_by_id(oldrel->relfilenode, newrel->relfilenode, oldrel->nspname,
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oldrel->relname, newrel->nspname, newrel->relname, oldrel->tablespace, old_db,
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new_db, olddata, newdata, map);
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}
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/*
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* map_rel_by_id()
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*
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* fills a file node map structure and returns it in "map".
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*/
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static void
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map_rel_by_id(Oid oldid, Oid newid,
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const char *old_nspname, const char *old_relname,
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const char *new_nspname, const char *new_relname,
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const char *old_tablespace, const DbInfo *old_db,
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const DbInfo *new_db, const char *olddata,
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const char *newdata, FileNameMap *map)
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{
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map->old_relfilenode = oldid;
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map->new_relfilenode = newid;
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snprintf(map->old_nspname, sizeof(map->old_nspname), "%s", old_nspname);
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snprintf(map->old_relname, sizeof(map->old_relname), "%s", old_relname);
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snprintf(map->new_nspname, sizeof(map->new_nspname), "%s", new_nspname);
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snprintf(map->new_relname, sizeof(map->new_relname), "%s", new_relname);
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if (strlen(old_tablespace) == 0)
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{
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/*
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* relation belongs to the default tablespace, hence relfiles would
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* exist in the data directories.
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*/
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snprintf(map->old_dir, sizeof(map->old_dir), "%s/base/%u", olddata, old_db->db_oid);
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snprintf(map->new_dir, sizeof(map->new_dir), "%s/base/%u", newdata, new_db->db_oid);
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}
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else
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{
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/*
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* relation belongs to some tablespace, hence copy its physical
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* location
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*/
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snprintf(map->old_dir, sizeof(map->old_dir), "%s%s/%u", old_tablespace,
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old_cluster.tablespace_suffix, old_db->db_oid);
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snprintf(map->new_dir, sizeof(map->new_dir), "%s%s/%u", old_tablespace,
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new_cluster.tablespace_suffix, new_db->db_oid);
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}
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}
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void
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print_maps(FileNameMap *maps, int n, const char *dbName)
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{
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if (log_opts.debug)
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{
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int mapnum;
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pg_log(PG_DEBUG, "mappings for db %s:\n", dbName);
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for (mapnum = 0; mapnum < n; mapnum++)
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pg_log(PG_DEBUG, "%s.%s:%u ==> %s.%s:%u\n",
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maps[mapnum].old_nspname, maps[mapnum].old_relname,
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maps[mapnum].old_relfilenode,
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maps[mapnum].new_nspname, maps[mapnum].new_relname,
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maps[mapnum].new_relfilenode);
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pg_log(PG_DEBUG, "\n\n");
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}
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}
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/*
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* get_db_infos()
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*
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* Scans pg_database system catalog and populates all user
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* databases.
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*/
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static void
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get_db_infos(ClusterInfo *cluster)
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{
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PGconn *conn = connectToServer(cluster, "template1");
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PGresult *res;
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int ntups;
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int tupnum;
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DbInfo *dbinfos;
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int i_datname;
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int i_oid;
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int i_spclocation;
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res = executeQueryOrDie(conn,
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"SELECT d.oid, d.datname, t.spclocation "
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"FROM pg_catalog.pg_database d "
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" LEFT OUTER JOIN pg_catalog.pg_tablespace t "
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" ON d.dattablespace = t.oid "
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"WHERE d.datallowconn = true");
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i_datname = PQfnumber(res, "datname");
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i_oid = PQfnumber(res, "oid");
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i_spclocation = PQfnumber(res, "spclocation");
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ntups = PQntuples(res);
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dbinfos = (DbInfo *) pg_malloc(sizeof(DbInfo) * ntups);
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for (tupnum = 0; tupnum < ntups; tupnum++)
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{
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dbinfos[tupnum].db_oid = atooid(PQgetvalue(res, tupnum, i_oid));
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snprintf(dbinfos[tupnum].db_name, sizeof(dbinfos[tupnum].db_name), "%s",
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PQgetvalue(res, tupnum, i_datname));
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snprintf(dbinfos[tupnum].db_tblspace, sizeof(dbinfos[tupnum].db_tblspace), "%s",
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PQgetvalue(res, tupnum, i_spclocation));
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}
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PQclear(res);
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PQfinish(conn);
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cluster->dbarr.dbs = dbinfos;
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cluster->dbarr.ndbs = ntups;
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}
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/*
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* get_db_and_rel_infos()
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*
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* higher level routine to generate dbinfos for the database running
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* on the given "port". Assumes that server is already running.
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*/
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void
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get_db_and_rel_infos(ClusterInfo *cluster)
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{
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int dbnum;
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get_db_infos(cluster);
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for (dbnum = 0; dbnum < cluster->dbarr.ndbs; dbnum++)
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get_rel_infos(cluster, dbnum);
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if (log_opts.debug)
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dbarr_print(cluster);
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}
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/*
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* get_rel_infos()
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*
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* gets the relinfos for all the user tables of the database refered
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* by "db".
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*
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* NOTE: we assume that relations/entities with oids greater than
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* FirstNormalObjectId belongs to the user
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*/
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static void
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get_rel_infos(ClusterInfo *cluster, const int dbnum)
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{
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PGconn *conn = connectToServer(cluster,
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cluster->dbarr.dbs[dbnum].db_name);
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PGresult *res;
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RelInfo *relinfos;
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int ntups;
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int relnum;
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int num_rels = 0;
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char *nspname = NULL;
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char *relname = NULL;
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int i_spclocation = -1;
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int i_nspname = -1;
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int i_relname = -1;
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int i_oid = -1;
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int i_relfilenode = -1;
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int i_reltoastrelid = -1;
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char query[QUERY_ALLOC];
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/*
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* pg_largeobject contains user data that does not appear the pg_dumpall
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* --schema-only output, so we have to upgrade that system table heap and
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* index. Ideally we could just get the relfilenode from template1 but
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* pg_largeobject_loid_pn_index's relfilenode can change if the table was
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* reindexed so we get the relfilenode for each database and upgrade it as
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* a normal user table.
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* Order by tablespace so we can cache the directory contents efficiently.
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*/
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snprintf(query, sizeof(query),
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"SELECT DISTINCT c.oid, n.nspname, c.relname, "
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" c.relfilenode, c.reltoastrelid, t.spclocation "
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"FROM pg_catalog.pg_class c JOIN "
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" pg_catalog.pg_namespace n "
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" ON c.relnamespace = n.oid "
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" LEFT OUTER JOIN pg_catalog.pg_tablespace t "
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" ON c.reltablespace = t.oid "
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"WHERE (( n.nspname NOT IN ('pg_catalog', 'information_schema') "
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" AND c.oid >= %u "
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" ) OR ( "
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" n.nspname = 'pg_catalog' "
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" AND relname IN "
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" ('pg_largeobject', 'pg_largeobject_loid_pn_index') )) "
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" AND relkind IN ('r','t', 'i'%s)"
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"GROUP BY c.oid, n.nspname, c.relname, c.relfilenode,"
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" c.reltoastrelid, t.spclocation, "
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" n.nspname "
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"ORDER BY t.spclocation, n.nspname, c.relname;",
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FirstNormalObjectId,
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/* see the comment at the top of old_8_3_create_sequence_script() */
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(GET_MAJOR_VERSION(old_cluster.major_version) <= 803) ?
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"" : ", 'S'");
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res = executeQueryOrDie(conn, query);
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ntups = PQntuples(res);
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relinfos = (RelInfo *) pg_malloc(sizeof(RelInfo) * ntups);
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i_oid = PQfnumber(res, "oid");
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i_nspname = PQfnumber(res, "nspname");
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i_relname = PQfnumber(res, "relname");
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i_relfilenode = PQfnumber(res, "relfilenode");
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i_reltoastrelid = PQfnumber(res, "reltoastrelid");
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i_spclocation = PQfnumber(res, "spclocation");
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for (relnum = 0; relnum < ntups; relnum++)
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{
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RelInfo *curr = &relinfos[num_rels++];
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const char *tblspace;
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curr->reloid = atooid(PQgetvalue(res, relnum, i_oid));
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nspname = PQgetvalue(res, relnum, i_nspname);
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strlcpy(curr->nspname, nspname, sizeof(curr->nspname));
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relname = PQgetvalue(res, relnum, i_relname);
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strlcpy(curr->relname, relname, sizeof(curr->relname));
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curr->relfilenode = atooid(PQgetvalue(res, relnum, i_relfilenode));
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curr->toastrelid = atooid(PQgetvalue(res, relnum, i_reltoastrelid));
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tblspace = PQgetvalue(res, relnum, i_spclocation);
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/* if no table tablespace, use the database tablespace */
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if (strlen(tblspace) == 0)
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tblspace = cluster->dbarr.dbs[dbnum].db_tblspace;
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strlcpy(curr->tablespace, tblspace, sizeof(curr->tablespace));
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}
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PQclear(res);
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PQfinish(conn);
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cluster->dbarr.dbs[dbnum].rel_arr.rels = relinfos;
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cluster->dbarr.dbs[dbnum].rel_arr.nrels = num_rels;
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cluster->dbarr.dbs[dbnum].rel_arr.last_relname_lookup = 0;
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}
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/*
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* dbarr_lookup_db()
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*
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* Returns the pointer to the DbInfo structure
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*/
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DbInfo *
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dbarr_lookup_db(DbInfoArr *db_arr, const char *db_name)
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{
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int dbnum;
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for (dbnum = 0; dbnum < db_arr->ndbs; dbnum++)
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{
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if (strcmp(db_arr->dbs[dbnum].db_name, db_name) == 0)
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return &db_arr->dbs[dbnum];
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}
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return NULL;
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}
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/*
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* relarr_lookup_rel()
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*
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* Searches "relname" in rel_arr. Returns the *real* pointer to the
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* RelInfo structure.
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*/
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static RelInfo *
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relarr_lookup_rel(ClusterInfo *cluster, RelInfoArr *rel_arr,
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const char *nspname, const char *relname)
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{
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int relnum;
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/* Test next lookup first, for speed */
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if (rel_arr->last_relname_lookup + 1 < rel_arr->nrels &&
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strcmp(rel_arr->rels[rel_arr->last_relname_lookup + 1].nspname, nspname) == 0 &&
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strcmp(rel_arr->rels[rel_arr->last_relname_lookup + 1].relname, relname) == 0)
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{
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rel_arr->last_relname_lookup++;
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return &rel_arr->rels[rel_arr->last_relname_lookup];
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}
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for (relnum = 0; relnum < rel_arr->nrels; relnum++)
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{
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if (strcmp(rel_arr->rels[relnum].nspname, nspname) == 0 &&
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strcmp(rel_arr->rels[relnum].relname, relname) == 0)
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{
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rel_arr->last_relname_lookup = relnum;
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return &rel_arr->rels[relnum];
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}
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}
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pg_log(PG_FATAL, "Could not find %s.%s in %s cluster\n",
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nspname, relname, CLUSTER_NAME(cluster));
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return NULL;
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}
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/*
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* relarr_lookup_reloid()
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*
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* Returns a pointer to the RelInfo structure for the
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* given oid or NULL if the desired entry cannot be
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* found.
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*/
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static RelInfo *
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relarr_lookup_reloid(ClusterInfo *cluster, RelInfoArr *rel_arr, Oid oid)
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{
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int relnum;
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for (relnum = 0; relnum < rel_arr->nrels; relnum++)
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{
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if (rel_arr->rels[relnum].reloid == oid)
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return &rel_arr->rels[relnum];
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}
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pg_log(PG_FATAL, "Could not find %d in %s cluster\n",
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oid, CLUSTER_NAME(cluster));
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return NULL;
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}
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static void
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relarr_free(RelInfoArr *rel_arr)
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{
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pg_free(rel_arr->rels);
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rel_arr->nrels = 0;
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rel_arr->last_relname_lookup = 0;
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}
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void
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dbarr_free(DbInfoArr *db_arr)
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{
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int dbnum;
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for (dbnum = 0; dbnum < db_arr->ndbs; dbnum++)
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|
relarr_free(&db_arr->dbs[dbnum].rel_arr);
|
|
db_arr->ndbs = 0;
|
|
}
|
|
|
|
|
|
static void
|
|
dbarr_print(ClusterInfo *cluster)
|
|
{
|
|
int dbnum;
|
|
|
|
pg_log(PG_DEBUG, "%s databases\n", CLUSTER_NAME(cluster));
|
|
|
|
for (dbnum = 0; dbnum < cluster->dbarr.ndbs; dbnum++)
|
|
{
|
|
pg_log(PG_DEBUG, "Database: %s\n", cluster->dbarr.dbs[dbnum].db_name);
|
|
relarr_print(&cluster->dbarr.dbs[dbnum].rel_arr);
|
|
pg_log(PG_DEBUG, "\n\n");
|
|
}
|
|
}
|
|
|
|
|
|
static void
|
|
relarr_print(RelInfoArr *arr)
|
|
{
|
|
int relnum;
|
|
|
|
for (relnum = 0; relnum < arr->nrels; relnum++)
|
|
pg_log(PG_DEBUG, "relname: %s.%s: reloid: %u reltblspace: %s\n",
|
|
arr->rels[relnum].nspname, arr->rels[relnum].relname,
|
|
arr->rels[relnum].reloid, arr->rels[relnum].tablespace);
|
|
}
|