pg_dump.c

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/*-------------------------------------------------------------------------
 *
 * pg_dump.c
 *    pg_dump is a utility for dumping out a postgres database
 *    into a script file.
 *
 * Portions Copyright (c) 1996-2019, PostgreSQL Global Development Group
 * Portions Copyright (c) 1994, Regents of the University of California
 *
 *  pg_dump will read the system catalogs in a database and dump out a
 *  script that reproduces the schema in terms of SQL that is understood
 *  by PostgreSQL
 *
 *  Note that pg_dump runs in a transaction-snapshot mode transaction,
 *  so it sees a consistent snapshot of the database including system
 *  catalogs. However, it relies in part on various specialized backend
 *  functions like pg_get_indexdef(), and those things tend to look at
 *  the currently committed state.  So it is possible to get 'cache
 *  lookup failed' error if someone performs DDL changes while a dump is
 *  happening. The window for this sort of thing is from the acquisition
 *  of the transaction snapshot to getSchemaData() (when pg_dump acquires
 *  AccessShareLock on every table it intends to dump). It isn't very large,
 *  but it can happen.
 *
 *  http://archives.postgresql.org/pgsql-bugs/2010-02/msg00187.php
 *
 * IDENTIFICATION
 *    src/bin/pg_dump/pg_dump.c
 *
 *-------------------------------------------------------------------------
 */
#include "postgres_fe.h"

#include <unistd.h>
#include <ctype.h>
#include <limits.h>
#ifdef HAVE_TERMIOS_H
#include <termios.h>
#endif

#include "getopt_long.h"

#include "access/attnum.h"
#include "access/sysattr.h"
#include "access/transam.h"
#include "catalog/pg_aggregate_d.h"
#include "catalog/pg_am_d.h"
#include "catalog/pg_attribute_d.h"
#include "catalog/pg_cast_d.h"
#include "catalog/pg_class_d.h"
#include "catalog/pg_default_acl_d.h"
#include "catalog/pg_largeobject_d.h"
#include "catalog/pg_largeobject_metadata_d.h"
#include "catalog/pg_proc_d.h"
#include "catalog/pg_trigger_d.h"
#include "catalog/pg_type_d.h"
#include "libpq/libpq-fs.h"
#include "storage/block.h"

#include "dumputils.h"
#include "parallel.h"
#include "pg_backup_db.h"
#include "pg_backup_utils.h"
#include "pg_dump.h"
#include "fe_utils/connect.h"
#include "fe_utils/string_utils.h"


typedef struct
{
    const char *descr;          /* comment for an object */
    Oid         classoid;       /* object class (catalog OID) */
    Oid         objoid;         /* object OID */
    int         objsubid;       /* subobject (table column #) */
} CommentItem;

typedef struct
{
    const char *provider;       /* label provider of this security label */
    const char *label;          /* security label for an object */
    Oid         classoid;       /* object class (catalog OID) */
    Oid         objoid;         /* object OID */
    int         objsubid;       /* subobject (table column #) */
} SecLabelItem;

typedef enum OidOptions
{
    zeroAsOpaque = 1,
    zeroAsAny = 2,
    zeroAsStar = 4,
    zeroAsNone = 8
} OidOptions;

/* global decls */
static bool dosync = true;      /* Issue fsync() to make dump durable on disk. */

/* subquery used to convert user ID (eg, datdba) to user name */
static const char *username_subquery;

/*
 * For 8.0 and earlier servers, pulled from pg_database, for 8.1+ we use
 * FirstNormalObjectId - 1.
 */
static Oid  g_last_builtin_oid; /* value of the last builtin oid */

/* The specified names/patterns should to match at least one entity */
static int  strict_names = 0;

/*
 * Object inclusion/exclusion lists
 *
 * The string lists record the patterns given by command-line switches,
 * which we then convert to lists of OIDs of matching objects.
 */
static SimpleStringList schema_include_patterns = {NULL, NULL};
static SimpleOidList schema_include_oids = {NULL, NULL};
static SimpleStringList schema_exclude_patterns = {NULL, NULL};
static SimpleOidList schema_exclude_oids = {NULL, NULL};

static SimpleStringList table_include_patterns = {NULL, NULL};
static SimpleOidList table_include_oids = {NULL, NULL};
static SimpleStringList table_exclude_patterns = {NULL, NULL};
static SimpleOidList table_exclude_oids = {NULL, NULL};
static SimpleStringList tabledata_exclude_patterns = {NULL, NULL};
static SimpleOidList tabledata_exclude_oids = {NULL, NULL};


char        g_opaque_type[10];  /* name for the opaque type */

/* placeholders for the delimiters for comments */
char        g_comment_start[10];
char        g_comment_end[10];

static const CatalogId nilCatalogId = {0, 0};

/* override for standard extra_float_digits setting */
static bool have_extra_float_digits = false;
static int  extra_float_digits;

/*
 * The default number of rows per INSERT when
 * --inserts is specified without --rows-per-insert
 */
#define DUMP_DEFAULT_ROWS_PER_INSERT 1

/*
 * Macro for producing quoted, schema-qualified name of a dumpable object.
 */
#define fmtQualifiedDumpable(obj) \
    fmtQualifiedId((obj)->dobj.namespace->dobj.name, \
                   (obj)->dobj.name)

static void help(const char *progname);
static void setup_connection(Archive *AH,
                             const char *dumpencoding, const char *dumpsnapshot,
                             char *use_role);
static ArchiveFormat parseArchiveFormat(const char *format, ArchiveMode *mode);
static void expand_schema_name_patterns(Archive *fout,
                                        SimpleStringList *patterns,
                                        SimpleOidList *oids,
                                        bool strict_names);
static void expand_table_name_patterns(Archive *fout,
                                       SimpleStringList *patterns,
                                       SimpleOidList *oids,
                                       bool strict_names);
static NamespaceInfo *findNamespace(Archive *fout, Oid nsoid);
static void dumpTableData(Archive *fout, TableDataInfo *tdinfo);
static void refreshMatViewData(Archive *fout, TableDataInfo *tdinfo);
static void guessConstraintInheritance(TableInfo *tblinfo, int numTables);
static void dumpComment(Archive *fout, const char *type, const char *name,
                        const char *namespace, const char *owner,
                        CatalogId catalogId, int subid, DumpId dumpId);
static int  findComments(Archive *fout, Oid classoid, Oid objoid,
                         CommentItem **items);
static int  collectComments(Archive *fout, CommentItem **items);
static void dumpSecLabel(Archive *fout, const char *type, const char *name,
                         const char *namespace, const char *owner,
                         CatalogId catalogId, int subid, DumpId dumpId);
static int  findSecLabels(Archive *fout, Oid classoid, Oid objoid,
                          SecLabelItem **items);
static int  collectSecLabels(Archive *fout, SecLabelItem **items);
static void dumpDumpableObject(Archive *fout, DumpableObject *dobj);
static void dumpNamespace(Archive *fout, NamespaceInfo *nspinfo);
static void dumpExtension(Archive *fout, ExtensionInfo *extinfo);
static void dumpType(Archive *fout, TypeInfo *tyinfo);
static void dumpBaseType(Archive *fout, TypeInfo *tyinfo);
static void dumpEnumType(Archive *fout, TypeInfo *tyinfo);
static void dumpRangeType(Archive *fout, TypeInfo *tyinfo);
static void dumpUndefinedType(Archive *fout, TypeInfo *tyinfo);
static void dumpDomain(Archive *fout, TypeInfo *tyinfo);
static void dumpCompositeType(Archive *fout, TypeInfo *tyinfo);
static void dumpCompositeTypeColComments(Archive *fout, TypeInfo *tyinfo);
static void dumpShellType(Archive *fout, ShellTypeInfo *stinfo);
static void dumpProcLang(Archive *fout, ProcLangInfo *plang);
static void dumpFunc(Archive *fout, FuncInfo *finfo);
static void dumpCast(Archive *fout, CastInfo *cast);
static void dumpTransform(Archive *fout, TransformInfo *transform);
static void dumpOpr(Archive *fout, OprInfo *oprinfo);
static void dumpAccessMethod(Archive *fout, AccessMethodInfo *oprinfo);
static void dumpOpclass(Archive *fout, OpclassInfo *opcinfo);
static void dumpOpfamily(Archive *fout, OpfamilyInfo *opfinfo);
static void dumpCollation(Archive *fout, CollInfo *collinfo);
static void dumpConversion(Archive *fout, ConvInfo *convinfo);
static void dumpRule(Archive *fout, RuleInfo *rinfo);
static void dumpAgg(Archive *fout, AggInfo *agginfo);
static void dumpTrigger(Archive *fout, TriggerInfo *tginfo);
static void dumpEventTrigger(Archive *fout, EventTriggerInfo *evtinfo);
static void dumpTable(Archive *fout, TableInfo *tbinfo);
static void dumpTableSchema(Archive *fout, TableInfo *tbinfo);
static void dumpAttrDef(Archive *fout, AttrDefInfo *adinfo);
static void dumpSequence(Archive *fout, TableInfo *tbinfo);
static void dumpSequenceData(Archive *fout, TableDataInfo *tdinfo);
static void dumpIndex(Archive *fout, IndxInfo *indxinfo);
static void dumpIndexAttach(Archive *fout, IndexAttachInfo *attachinfo);
static void dumpStatisticsExt(Archive *fout, StatsExtInfo *statsextinfo);
static void dumpConstraint(Archive *fout, ConstraintInfo *coninfo);
static void dumpTableConstraintComment(Archive *fout, ConstraintInfo *coninfo);
static void dumpTSParser(Archive *fout, TSParserInfo *prsinfo);
static void dumpTSDictionary(Archive *fout, TSDictInfo *dictinfo);
static void dumpTSTemplate(Archive *fout, TSTemplateInfo *tmplinfo);
static void dumpTSConfig(Archive *fout, TSConfigInfo *cfginfo);
static void dumpForeignDataWrapper(Archive *fout, FdwInfo *fdwinfo);
static void dumpForeignServer(Archive *fout, ForeignServerInfo *srvinfo);
static void dumpUserMappings(Archive *fout,
                             const char *servername, const char *namespace,
                             const char *owner, CatalogId catalogId, DumpId dumpId);
static void dumpDefaultACL(Archive *fout, DefaultACLInfo *daclinfo);

static void dumpACL(Archive *fout, CatalogId objCatId, DumpId objDumpId,
                    const char *type, const char *name, const char *subname,
                    const char *nspname, const char *owner,
                    const char *acls, const char *racls,
                    const char *initacls, const char *initracls);

static void getDependencies(Archive *fout);
static void BuildArchiveDependencies(Archive *fout);
static void findDumpableDependencies(ArchiveHandle *AH, DumpableObject *dobj,
                                     DumpId **dependencies, int *nDeps, int *allocDeps);

static DumpableObject *createBoundaryObjects(void);
static void addBoundaryDependencies(DumpableObject **dobjs, int numObjs,
                                    DumpableObject *boundaryObjs);

static void getDomainConstraints(Archive *fout, TypeInfo *tyinfo);
static void getTableData(DumpOptions *dopt, TableInfo *tblinfo, int numTables, char relkind);
static void makeTableDataInfo(DumpOptions *dopt, TableInfo *tbinfo);
static void buildMatViewRefreshDependencies(Archive *fout);
static void getTableDataFKConstraints(void);
static char *format_function_arguments(FuncInfo *finfo, char *funcargs,
                                       bool is_agg);
static char *format_function_arguments_old(Archive *fout,
                                           FuncInfo *finfo, int nallargs,
                                           char **allargtypes,
                                           char **argmodes,
                                           char **argnames);
static char *format_function_signature(Archive *fout,
                                       FuncInfo *finfo, bool honor_quotes);
static char *convertRegProcReference(Archive *fout,
                                     const char *proc);
static char *getFormattedOperatorName(Archive *fout, const char *oproid);
static char *convertTSFunction(Archive *fout, Oid funcOid);
static Oid  findLastBuiltinOid_V71(Archive *fout);
static char *getFormattedTypeName(Archive *fout, Oid oid, OidOptions opts);
static void getBlobs(Archive *fout);
static void dumpBlob(Archive *fout, BlobInfo *binfo);
static int  dumpBlobs(Archive *fout, void *arg);
static void dumpPolicy(Archive *fout, PolicyInfo *polinfo);
static void dumpPublication(Archive *fout, PublicationInfo *pubinfo);
static void dumpPublicationTable(Archive *fout, PublicationRelInfo *pubrinfo);
static void dumpSubscription(Archive *fout, SubscriptionInfo *subinfo);
static void dumpDatabase(Archive *AH);
static void dumpDatabaseConfig(Archive *AH, PQExpBuffer outbuf,
                               const char *dbname, Oid dboid);
static void dumpEncoding(Archive *AH);
static void dumpStdStrings(Archive *AH);
static void dumpSearchPath(Archive *AH);
static void binary_upgrade_set_type_oids_by_type_oid(Archive *fout,
                                                     PQExpBuffer upgrade_buffer,
                                                     Oid pg_type_oid,
                                                     bool force_array_type);
static bool binary_upgrade_set_type_oids_by_rel_oid(Archive *fout,
                                                    PQExpBuffer upgrade_buffer, Oid pg_rel_oid);
static void binary_upgrade_set_pg_class_oids(Archive *fout,
                                             PQExpBuffer upgrade_buffer,
                                             Oid pg_class_oid, bool is_index);
static void binary_upgrade_extension_member(PQExpBuffer upgrade_buffer,
                                            DumpableObject *dobj,
                                            const char *objtype,
                                            const char *objname,
                                            const char *objnamespace);
static const char *getAttrName(int attrnum, TableInfo *tblInfo);
static const char *fmtCopyColumnList(const TableInfo *ti, PQExpBuffer buffer);
static bool nonemptyReloptions(const char *reloptions);
static void appendReloptionsArrayAH(PQExpBuffer buffer, const char *reloptions,
                                    const char *prefix, Archive *fout);
static char *get_synchronized_snapshot(Archive *fout);
static void setupDumpWorker(Archive *AHX);
static TableInfo *getRootTableInfo(TableInfo *tbinfo);


int
main(int argc, char **argv)
{
    int         c;
    const char *filename = NULL;
    const char *format = "p";
    TableInfo  *tblinfo;
    int         numTables;
    DumpableObject **dobjs;
    int         numObjs;
    DumpableObject *boundaryObjs;
    int         i;
    int         optindex;
    char       *endptr;
    RestoreOptions *ropt;
    Archive    *fout;           /* the script file */
    bool        g_verbose = false;
    const char *dumpencoding = NULL;
    const char *dumpsnapshot = NULL;
    char       *use_role = NULL;
    long        rowsPerInsert;
    int         numWorkers = 1;
    trivalue    prompt_password = TRI_DEFAULT;
    int         compressLevel = -1;
    int         plainText = 0;
    ArchiveFormat archiveFormat = archUnknown;
    ArchiveMode archiveMode;

    static DumpOptions dopt;

    static struct option long_options[] = {
        {"data-only", no_argument, NULL, 'a'},
        {"blobs", no_argument, NULL, 'b'},
        {"no-blobs", no_argument, NULL, 'B'},
        {"clean", no_argument, NULL, 'c'},
        {"create", no_argument, NULL, 'C'},
        {"dbname", required_argument, NULL, 'd'},
        {"file", required_argument, NULL, 'f'},
        {"format", required_argument, NULL, 'F'},
        {"host", required_argument, NULL, 'h'},
        {"jobs", 1, NULL, 'j'},
        {"no-reconnect", no_argument, NULL, 'R'},
        {"no-owner", no_argument, NULL, 'O'},
        {"port", required_argument, NULL, 'p'},
        {"schema", required_argument, NULL, 'n'},
        {"exclude-schema", required_argument, NULL, 'N'},
        {"schema-only", no_argument, NULL, 's'},
        {"superuser", required_argument, NULL, 'S'},
        {"table", required_argument, NULL, 't'},
        {"exclude-table", required_argument, NULL, 'T'},
        {"no-password", no_argument, NULL, 'w'},
        {"password", no_argument, NULL, 'W'},
        {"username", required_argument, NULL, 'U'},
        {"verbose", no_argument, NULL, 'v'},
        {"no-privileges", no_argument, NULL, 'x'},
        {"no-acl", no_argument, NULL, 'x'},
        {"compress", required_argument, NULL, 'Z'},
        {"encoding", required_argument, NULL, 'E'},
        {"help", no_argument, NULL, '?'},
        {"version", no_argument, NULL, 'V'},

        /*
         * the following options don't have an equivalent short option letter
         */
        {"attribute-inserts", no_argument, &dopt.column_inserts, 1},
        {"binary-upgrade", no_argument, &dopt.binary_upgrade, 1},
        {"column-inserts", no_argument, &dopt.column_inserts, 1},
        {"disable-dollar-quoting", no_argument, &dopt.disable_dollar_quoting, 1},
        {"disable-triggers", no_argument, &dopt.disable_triggers, 1},
        {"enable-row-security", no_argument, &dopt.enable_row_security, 1},
        {"exclude-table-data", required_argument, NULL, 4},
        {"extra-float-digits", required_argument, NULL, 8},
        {"if-exists", no_argument, &dopt.if_exists, 1},
        {"inserts", no_argument, NULL, 9},
        {"lock-wait-timeout", required_argument, NULL, 2},
        {"no-tablespaces", no_argument, &dopt.outputNoTablespaces, 1},
        {"quote-all-identifiers", no_argument, &quote_all_identifiers, 1},
        {"load-via-partition-root", no_argument, &dopt.load_via_partition_root, 1},
        {"role", required_argument, NULL, 3},
        {"section", required_argument, NULL, 5},
        {"serializable-deferrable", no_argument, &dopt.serializable_deferrable, 1},
        {"snapshot", required_argument, NULL, 6},
        {"strict-names", no_argument, &strict_names, 1},
        {"use-set-session-authorization", no_argument, &dopt.use_setsessauth, 1},
        {"no-comments", no_argument, &dopt.no_comments, 1},
        {"no-publications", no_argument, &dopt.no_publications, 1},
        {"no-security-labels", no_argument, &dopt.no_security_labels, 1},
        {"no-synchronized-snapshots", no_argument, &dopt.no_synchronized_snapshots, 1},
        {"no-unlogged-table-data", no_argument, &dopt.no_unlogged_table_data, 1},
        {"no-subscriptions", no_argument, &dopt.no_subscriptions, 1},
        {"no-sync", no_argument, NULL, 7},
        {"on-conflict-do-nothing", no_argument, &dopt.do_nothing, 1},
        {"rows-per-insert", required_argument, NULL, 10},

        {NULL, 0, NULL, 0}
    };

    pg_logging_init(argv[0]);
    pg_logging_set_level(PG_LOG_WARNING);
    set_pglocale_pgservice(argv[0], PG_TEXTDOMAIN("pg_dump"));

    /*
     * Initialize what we need for parallel execution, especially for thread
     * support on Windows.
     */
    init_parallel_dump_utils();

    strcpy(g_comment_start, "-- ");
    g_comment_end[0] = '\0';
    strcpy(g_opaque_type, "opaque");

    progname = get_progname(argv[0]);

    if (argc > 1)
    {
        if (strcmp(argv[1], "--help") == 0 || strcmp(argv[1], "-?") == 0)
        {
            help(progname);
            exit_nicely(0);
        }
        if (strcmp(argv[1], "--version") == 0 || strcmp(argv[1], "-V") == 0)
        {
            puts("pg_dump (PostgreSQL) " PG_VERSION);
            exit_nicely(0);
        }
    }

    InitDumpOptions(&dopt);

    while ((c = getopt_long(argc, argv, "abBcCd:E:f:F:h:j:n:N:Op:RsS:t:T:U:vwWxZ:",
                            long_options, &optindex)) != -1)
    {
        switch (c)
        {
            case 'a':           /* Dump data only */
                dopt.dataOnly = true;
                break;

            case 'b':           /* Dump blobs */
                dopt.outputBlobs = true;
                break;

            case 'B':           /* Don't dump blobs */
                dopt.dontOutputBlobs = true;
                break;

            case 'c':           /* clean (i.e., drop) schema prior to create */
                dopt.outputClean = 1;
                break;

            case 'C':           /* Create DB */
                dopt.outputCreateDB = 1;
                break;

            case 'd':           /* database name */
                dopt.dbname = pg_strdup(optarg);
                break;

            case 'E':           /* Dump encoding */
                dumpencoding = pg_strdup(optarg);
                break;

            case 'f':
                filename = pg_strdup(optarg);
                break;

            case 'F':
                format = pg_strdup(optarg);
                break;

            case 'h':           /* server host */
                dopt.pghost = pg_strdup(optarg);
                break;

            case 'j':           /* number of dump jobs */
                numWorkers = atoi(optarg);
                break;

            case 'n':           /* include schema(s) */
                simple_string_list_append(&schema_include_patterns, optarg);
                dopt.include_everything = false;
                break;

            case 'N':           /* exclude schema(s) */
                simple_string_list_append(&schema_exclude_patterns, optarg);
                break;

            case 'O':           /* Don't reconnect to match owner */
                dopt.outputNoOwner = 1;
                break;

            case 'p':           /* server port */
                dopt.pgport = pg_strdup(optarg);
                break;

            case 'R':
                /* no-op, still accepted for backwards compatibility */
                break;

            case 's':           /* dump schema only */
                dopt.schemaOnly = true;
                break;

            case 'S':           /* Username for superuser in plain text output */
                dopt.outputSuperuser = pg_strdup(optarg);
                break;

            case 't':           /* include table(s) */
                simple_string_list_append(&table_include_patterns, optarg);
                dopt.include_everything = false;
                break;

            case 'T':           /* exclude table(s) */
                simple_string_list_append(&table_exclude_patterns, optarg);
                break;

            case 'U':
                dopt.username = pg_strdup(optarg);
                break;

            case 'v':           /* verbose */
                g_verbose = true;
                pg_logging_set_level(PG_LOG_INFO);
                break;

            case 'w':
                prompt_password = TRI_NO;
                break;

            case 'W':
                prompt_password = TRI_YES;
                break;

            case 'x':           /* skip ACL dump */
                dopt.aclsSkip = true;
                break;

            case 'Z':           /* Compression Level */
                compressLevel = atoi(optarg);
                if (compressLevel < 0 || compressLevel > 9)
                {
                    pg_log_error("compression level must be in range 0..9");
                    exit_nicely(1);
                }
                break;

            case 0:
                /* This covers the long options. */
                break;

            case 2:             /* lock-wait-timeout */
                dopt.lockWaitTimeout = pg_strdup(optarg);
                break;

            case 3:             /* SET ROLE */
                use_role = pg_strdup(optarg);
                break;

            case 4:             /* exclude table(s) data */
                simple_string_list_append(&tabledata_exclude_patterns, optarg);
                break;

            case 5:             /* section */
                set_dump_section(optarg, &dopt.dumpSections);
                break;

            case 6:             /* snapshot */
                dumpsnapshot = pg_strdup(optarg);
                break;

            case 7:             /* no-sync */
                dosync = false;
                break;

            case 8:
                have_extra_float_digits = true;
                extra_float_digits = atoi(optarg);
                if (extra_float_digits < -15 || extra_float_digits > 3)
                {
                    pg_log_error("extra_float_digits must be in range -15..3");
                    exit_nicely(1);
                }
                break;

            case 9:             /* inserts */

                /*
                 * dump_inserts also stores --rows-per-insert, careful not to
                 * overwrite that.
                 */
                if (dopt.dump_inserts == 0)
                    dopt.dump_inserts = DUMP_DEFAULT_ROWS_PER_INSERT;
                break;

            case 10:            /* rows per insert */
                errno = 0;
                rowsPerInsert = strtol(optarg, &endptr, 10);

                if (endptr == optarg || *endptr != '\0' ||
                    rowsPerInsert <= 0 || rowsPerInsert > INT_MAX ||
                    errno == ERANGE)
                {
                    pg_log_error("rows-per-insert must be in range %d..%d",
                                 1, INT_MAX);
                    exit_nicely(1);
                }
                dopt.dump_inserts = (int) rowsPerInsert;
                break;

            default:
                fprintf(stderr, _("Try \"%s --help\" for more information.\n"), progname);
                exit_nicely(1);
        }
    }

    /*
     * Non-option argument specifies database name as long as it wasn't
     * already specified with -d / --dbname
     */
    if (optind < argc && dopt.dbname == NULL)
        dopt.dbname = argv[optind++];

    /* Complain if any arguments remain */
    if (optind < argc)
    {
        pg_log_error("too many command-line arguments (first is \"%s\")",
                     argv[optind]);
        fprintf(stderr, _("Try \"%s --help\" for more information.\n"),
                progname);
        exit_nicely(1);
    }

    /* --column-inserts implies --inserts */
    if (dopt.column_inserts && dopt.dump_inserts == 0)
        dopt.dump_inserts = DUMP_DEFAULT_ROWS_PER_INSERT;

    /*
     * Binary upgrade mode implies dumping sequence data even in schema-only
     * mode.  This is not exposed as a separate option, but kept separate
     * internally for clarity.
     */
    if (dopt.binary_upgrade)
        dopt.sequence_data = 1;

    if (dopt.dataOnly && dopt.schemaOnly)
    {
        pg_log_error("options -s/--schema-only and -a/--data-only cannot be used together");
        exit_nicely(1);
    }

    if (dopt.dataOnly && dopt.outputClean)
    {
        pg_log_error("options -c/--clean and -a/--data-only cannot be used together");
        exit_nicely(1);
    }

    if (dopt.if_exists && !dopt.outputClean)
        fatal("option --if-exists requires option -c/--clean");

    /*
     * --inserts are already implied above if --column-inserts or
     * --rows-per-insert were specified.
     */
    if (dopt.do_nothing && dopt.dump_inserts == 0)
        fatal("option --on-conflict-do-nothing requires option --inserts, --rows-per-insert, or --column-inserts");

    /* Identify archive format to emit */
    archiveFormat = parseArchiveFormat(format, &archiveMode);

    /* archiveFormat specific setup */
    if (archiveFormat == archNull)
        plainText = 1;

    /* Custom and directory formats are compressed by default, others not */
    if (compressLevel == -1)
    {
#ifdef HAVE_LIBZ
        if (archiveFormat == archCustom || archiveFormat == archDirectory)
            compressLevel = Z_DEFAULT_COMPRESSION;
        else
#endif
            compressLevel = 0;
    }

#ifndef HAVE_LIBZ
    if (compressLevel != 0)
        pg_log_warning("requested compression not available in this installation -- archive will be uncompressed");
    compressLevel = 0;
#endif

    /*
     * If emitting an archive format, we always want to emit a DATABASE item,
     * in case --create is specified at pg_restore time.
     */
    if (!plainText)
        dopt.outputCreateDB = 1;

    /*
     * On Windows we can only have at most MAXIMUM_WAIT_OBJECTS (= 64 usually)
     * parallel jobs because that's the maximum limit for the
     * WaitForMultipleObjects() call.
     */
    if (numWorkers <= 0
#ifdef WIN32
        || numWorkers > MAXIMUM_WAIT_OBJECTS
#endif
        )
        fatal("invalid number of parallel jobs");

    /* Parallel backup only in the directory archive format so far */
    if (archiveFormat != archDirectory && numWorkers > 1)
        fatal("parallel backup only supported by the directory format");

    /* Open the output file */
    fout = CreateArchive(filename, archiveFormat, compressLevel, dosync,
                         archiveMode, setupDumpWorker);

    /* Make dump options accessible right away */
    SetArchiveOptions(fout, &dopt, NULL);

    /* Register the cleanup hook */
    on_exit_close_archive(fout);

    /* Let the archiver know how noisy to be */
    fout->verbose = g_verbose;


    /*
     * We allow the server to be back to 8.0, and up to any minor release of
     * our own major version.  (See also version check in pg_dumpall.c.)
     */
    fout->minRemoteVersion = 80000;
    fout->maxRemoteVersion = (PG_VERSION_NUM / 100) * 100 + 99;

    fout->numWorkers = numWorkers;

    /*
     * Open the database using the Archiver, so it knows about it. Errors mean
     * death.
     */
    ConnectDatabase(fout, dopt.dbname, dopt.pghost, dopt.pgport, dopt.username, prompt_password);
    setup_connection(fout, dumpencoding, dumpsnapshot, use_role);

    /*
     * Disable security label support if server version < v9.1.x (prevents
     * access to nonexistent pg_seclabel catalog)
     */
    if (fout->remoteVersion < 90100)
        dopt.no_security_labels = 1;

    /*
     * On hot standbys, never try to dump unlogged table data, since it will
     * just throw an error.
     */
    if (fout->isStandby)
        dopt.no_unlogged_table_data = true;

    /* Select the appropriate subquery to convert user IDs to names */
    if (fout->remoteVersion >= 80100)
        username_subquery = "SELECT rolname FROM pg_catalog.pg_roles WHERE oid =";
    else
        username_subquery = "SELECT usename FROM pg_catalog.pg_user WHERE usesysid =";

    /* check the version for the synchronized snapshots feature */
    if (numWorkers > 1 && fout->remoteVersion < 90200
        && !dopt.no_synchronized_snapshots)
        fatal("Synchronized snapshots are not supported by this server version.\n"
              "Run with --no-synchronized-snapshots instead if you do not need\n"
              "synchronized snapshots.");

    /* check the version when a snapshot is explicitly specified by user */
    if (dumpsnapshot && fout->remoteVersion < 90200)
        fatal("Exported snapshots are not supported by this server version.");

    /*
     * Find the last built-in OID, if needed (prior to 8.1)
     *
     * With 8.1 and above, we can just use FirstNormalObjectId - 1.
     */
    if (fout->remoteVersion < 80100)
        g_last_builtin_oid = findLastBuiltinOid_V71(fout);
    else
        g_last_builtin_oid = FirstNormalObjectId - 1;

    pg_log_info("last built-in OID is %u", g_last_builtin_oid);

    /* Expand schema selection patterns into OID lists */
    if (schema_include_patterns.head != NULL)
    {
        expand_schema_name_patterns(fout, &schema_include_patterns,
                                    &schema_include_oids,
                                    strict_names);
        if (schema_include_oids.head == NULL)
            fatal("no matching schemas were found");
    }
    expand_schema_name_patterns(fout, &schema_exclude_patterns,
                                &schema_exclude_oids,
                                false);
    /* non-matching exclusion patterns aren't an error */

    /* Expand table selection patterns into OID lists */
    if (table_include_patterns.head != NULL)
    {
        expand_table_name_patterns(fout, &table_include_patterns,
                                   &table_include_oids,
                                   strict_names);
        if (table_include_oids.head == NULL)
            fatal("no matching tables were found");
    }
    expand_table_name_patterns(fout, &table_exclude_patterns,
                               &table_exclude_oids,
                               false);

    expand_table_name_patterns(fout, &tabledata_exclude_patterns,
                               &tabledata_exclude_oids,
                               false);

    /* non-matching exclusion patterns aren't an error */

    /*
     * Dumping blobs is the default for dumps where an inclusion switch is not
     * used (an "include everything" dump).  -B can be used to exclude blobs
     * from those dumps.  -b can be used to include blobs even when an
     * inclusion switch is used.
     *
     * -s means "schema only" and blobs are data, not schema, so we never
     * include blobs when -s is used.
     */
    if (dopt.include_everything && !dopt.schemaOnly && !dopt.dontOutputBlobs)
        dopt.outputBlobs = true;

    /*
     * Now scan the database and create DumpableObject structs for all the
     * objects we intend to dump.
     */
    tblinfo = getSchemaData(fout, &numTables);

    if (fout->remoteVersion < 80400)
        guessConstraintInheritance(tblinfo, numTables);

    if (!dopt.schemaOnly)
    {
        getTableData(&dopt, tblinfo, numTables, 0);
        buildMatViewRefreshDependencies(fout);
        if (dopt.dataOnly)
            getTableDataFKConstraints();
    }

    if (dopt.schemaOnly && dopt.sequence_data)
        getTableData(&dopt, tblinfo, numTables, RELKIND_SEQUENCE);

    /*
     * In binary-upgrade mode, we do not have to worry about the actual blob
     * data or the associated metadata that resides in the pg_largeobject and
     * pg_largeobject_metadata tables, respectively.
     *
     * However, we do need to collect blob information as there may be
     * comments or other information on blobs that we do need to dump out.
     */
    if (dopt.outputBlobs || dopt.binary_upgrade)
        getBlobs(fout);

    /*
     * Collect dependency data to assist in ordering the objects.
     */
    getDependencies(fout);

    /* Lastly, create dummy objects to represent the section boundaries */
    boundaryObjs = createBoundaryObjects();

    /* Get pointers to all the known DumpableObjects */
    getDumpableObjects(&dobjs, &numObjs);

    /*
     * Add dummy dependencies to enforce the dump section ordering.
     */
    addBoundaryDependencies(dobjs, numObjs, boundaryObjs);

    /*
     * Sort the objects into a safe dump order (no forward references).
     *
     * We rely on dependency information to help us determine a safe order, so
     * the initial sort is mostly for cosmetic purposes: we sort by name to
     * ensure that logically identical schemas will dump identically.
     */
    sortDumpableObjectsByTypeName(dobjs, numObjs);

    sortDumpableObjects(dobjs, numObjs,
                        boundaryObjs[0].dumpId, boundaryObjs[1].dumpId);

    /*
     * Create archive TOC entries for all the objects to be dumped, in a safe
     * order.
     */

    /* First the special ENCODING, STDSTRINGS, and SEARCHPATH entries. */
    dumpEncoding(fout);
    dumpStdStrings(fout);
    dumpSearchPath(fout);

    /* The database items are always next, unless we don't want them at all */
    if (dopt.outputCreateDB)
        dumpDatabase(fout);

    /* Now the rearrangeable objects. */
    for (i = 0; i < numObjs; i++)
        dumpDumpableObject(fout, dobjs[i]);

    /*
     * Set up options info to ensure we dump what we want.
     */
    ropt = NewRestoreOptions();
    ropt->filename = filename;

    /* if you change this list, see dumpOptionsFromRestoreOptions */
    ropt->dropSchema = dopt.outputClean;
    ropt->dataOnly = dopt.dataOnly;
    ropt->schemaOnly = dopt.schemaOnly;
    ropt->if_exists = dopt.if_exists;
    ropt->column_inserts = dopt.column_inserts;
    ropt->dumpSections = dopt.dumpSections;
    ropt->aclsSkip = dopt.aclsSkip;
    ropt->superuser = dopt.outputSuperuser;
    ropt->createDB = dopt.outputCreateDB;
    ropt->noOwner = dopt.outputNoOwner;
    ropt->noTablespace = dopt.outputNoTablespaces;
    ropt->disable_triggers = dopt.disable_triggers;
    ropt->use_setsessauth = dopt.use_setsessauth;
    ropt->disable_dollar_quoting = dopt.disable_dollar_quoting;
    ropt->dump_inserts = dopt.dump_inserts;
    ropt->no_comments = dopt.no_comments;
    ropt->no_publications = dopt.no_publications;
    ropt->no_security_labels = dopt.no_security_labels;
    ropt->no_subscriptions = dopt.no_subscriptions;
    ropt->lockWaitTimeout = dopt.lockWaitTimeout;
    ropt->include_everything = dopt.include_everything;
    ropt->enable_row_security = dopt.enable_row_security;
    ropt->sequence_data = dopt.sequence_data;
    ropt->binary_upgrade = dopt.binary_upgrade;

    if (compressLevel == -1)
        ropt->compression = 0;
    else
        ropt->compression = compressLevel;

    ropt->suppressDumpWarnings = true;  /* We've already shown them */

    SetArchiveOptions(fout, &dopt, ropt);

    /* Mark which entries should be output */
    ProcessArchiveRestoreOptions(fout);

    /*
     * The archive's TOC entries are now marked as to which ones will actually
     * be output, so we can set up their dependency lists properly. This isn't
     * necessary for plain-text output, though.
     */
    if (!plainText)
        BuildArchiveDependencies(fout);

    /*
     * And finally we can do the actual output.
     *
     * Note: for non-plain-text output formats, the output file is written
     * inside CloseArchive().  This is, um, bizarre; but not worth changing
     * right now.
     */
    if (plainText)
        RestoreArchive(fout);

    CloseArchive(fout);

    exit_nicely(0);
}


static void
help(const char *progname)
{
    printf(_("%s dumps a database as a text file or to other formats.\n\n"), progname);
    printf(_("Usage:\n"));
    printf(_("  %s [OPTION]... [DBNAME]\n"), progname);

    printf(_("\nGeneral options:\n"));
    printf(_("  -f, --file=FILENAME          output file or directory name\n"));
    printf(_("  -F, --format=c|d|t|p         output file format (custom, directory, tar,\n"
             "                               plain text (default))\n"));
    printf(_("  -j, --jobs=NUM               use this many parallel jobs to dump\n"));
    printf(_("  -v, --verbose                verbose mode\n"));
    printf(_("  -V, --version                output version information, then exit\n"));
    printf(_("  -Z, --compress=0-9           compression level for compressed formats\n"));
    printf(_("  --lock-wait-timeout=TIMEOUT  fail after waiting TIMEOUT for a table lock\n"));
    printf(_("  --no-sync                    do not wait for changes to be written safely to disk\n"));
    printf(_("  -?, --help                   show this help, then exit\n"));

    printf(_("\nOptions controlling the output content:\n"));
    printf(_("  -a, --data-only              dump only the data, not the schema\n"));
    printf(_("  -b, --blobs                  include large objects in dump\n"));
    printf(_("  -B, --no-blobs               exclude large objects in dump\n"));
    printf(_("  -c, --clean                  clean (drop) database objects before recreating\n"));
    printf(_("  -C, --create                 include commands to create database in dump\n"));
    printf(_("  -E, --encoding=ENCODING      dump the data in encoding ENCODING\n"));
    printf(_("  -n, --schema=SCHEMA          dump the named schema(s) only\n"));
    printf(_("  -N, --exclude-schema=SCHEMA  do NOT dump the named schema(s)\n"));
    printf(_("  -O, --no-owner               skip restoration of object ownership in\n"
             "                               plain-text format\n"));
    printf(_("  -s, --schema-only            dump only the schema, no data\n"));
    printf(_("  -S, --superuser=NAME         superuser user name to use in plain-text format\n"));
    printf(_("  -t, --table=TABLE            dump the named table(s) only\n"));
    printf(_("  -T, --exclude-table=TABLE    do NOT dump the named table(s)\n"));
    printf(_("  -x, --no-privileges          do not dump privileges (grant/revoke)\n"));
    printf(_("  --binary-upgrade             for use by upgrade utilities only\n"));
    printf(_("  --column-inserts             dump data as INSERT commands with column names\n"));
    printf(_("  --disable-dollar-quoting     disable dollar quoting, use SQL standard quoting\n"));
    printf(_("  --disable-triggers           disable triggers during data-only restore\n"));
    printf(_("  --enable-row-security        enable row security (dump only content user has\n"
             "                               access to)\n"));
    printf(_("  --exclude-table-data=TABLE   do NOT dump data for the named table(s)\n"));
    printf(_("  --extra-float-digits=NUM     override default setting for extra_float_digits\n"));
    printf(_("  --if-exists                  use IF EXISTS when dropping objects\n"));
    printf(_("  --inserts                    dump data as INSERT commands, rather than COPY\n"));
    printf(_("  --load-via-partition-root    load partitions via the root table\n"));
    printf(_("  --no-comments                do not dump comments\n"));
    printf(_("  --no-publications            do not dump publications\n"));
    printf(_("  --no-security-labels         do not dump security label assignments\n"));
    printf(_("  --no-subscriptions           do not dump subscriptions\n"));
    printf(_("  --no-synchronized-snapshots  do not use synchronized snapshots in parallel jobs\n"));
    printf(_("  --no-tablespaces             do not dump tablespace assignments\n"));
    printf(_("  --no-unlogged-table-data     do not dump unlogged table data\n"));
    printf(_("  --on-conflict-do-nothing     add ON CONFLICT DO NOTHING to INSERT commands\n"));
    printf(_("  --quote-all-identifiers      quote all identifiers, even if not key words\n"));
    printf(_("  --rows-per-insert=NROWS      number of rows per INSERT; implies --inserts\n"));
    printf(_("  --section=SECTION            dump named section (pre-data, data, or post-data)\n"));
    printf(_("  --serializable-deferrable    wait until the dump can run without anomalies\n"));
    printf(_("  --snapshot=SNAPSHOT          use given snapshot for the dump\n"));
    printf(_("  --strict-names               require table and/or schema include patterns to\n"
             "                               match at least one entity each\n"));
    printf(_("  --use-set-session-authorization\n"
             "                               use SET SESSION AUTHORIZATION commands instead of\n"
             "                               ALTER OWNER commands to set ownership\n"));

    printf(_("\nConnection options:\n"));
    printf(_("  -d, --dbname=DBNAME      database to dump\n"));
    printf(_("  -h, --host=HOSTNAME      database server host or socket directory\n"));
    printf(_("  -p, --port=PORT          database server port number\n"));
    printf(_("  -U, --username=NAME      connect as specified database user\n"));
    printf(_("  -w, --no-password        never prompt for password\n"));
    printf(_("  -W, --password           force password prompt (should happen automatically)\n"));
    printf(_("  --role=ROLENAME          do SET ROLE before dump\n"));

    printf(_("\nIf no database name is supplied, then the PGDATABASE environment\n"
             "variable value is used.\n\n"));
    printf(_("Report bugs to <pgsql-bugs@lists.postgresql.org>.\n"));
}

static void
setup_connection(Archive *AH, const char *dumpencoding,
                 const char *dumpsnapshot, char *use_role)
{
    DumpOptions *dopt = AH->dopt;
    PGconn     *conn = GetConnection(AH);
    const char *std_strings;

    PQclear(ExecuteSqlQueryForSingleRow(AH, ALWAYS_SECURE_SEARCH_PATH_SQL));

    /*
     * Set the client encoding if requested.
     */
    if (dumpencoding)
    {
        if (PQsetClientEncoding(conn, dumpencoding) < 0)
            fatal("invalid client encoding \"%s\" specified",
                  dumpencoding);
    }

    /*
     * Get the active encoding and the standard_conforming_strings setting, so
     * we know how to escape strings.
     */
    AH->encoding = PQclientEncoding(conn);

    std_strings = PQparameterStatus(conn, "standard_conforming_strings");
    AH->std_strings = (std_strings && strcmp(std_strings, "on") == 0);

    /*
     * Set the role if requested.  In a parallel dump worker, we'll be passed
     * use_role == NULL, but AH->use_role is already set (if user specified it
     * originally) and we should use that.
     */
    if (!use_role && AH->use_role)
        use_role = AH->use_role;

    /* Set the role if requested */
    if (use_role && AH->remoteVersion >= 80100)
    {
        PQExpBuffer query = createPQExpBuffer();

        appendPQExpBuffer(query, "SET ROLE %s", fmtId(use_role));
        ExecuteSqlStatement(AH, query->data);
        destroyPQExpBuffer(query);

        /* save it for possible later use by parallel workers */
        if (!AH->use_role)
            AH->use_role = pg_strdup(use_role);
    }

    /* Set the datestyle to ISO to ensure the dump's portability */
    ExecuteSqlStatement(AH, "SET DATESTYLE = ISO");

    /* Likewise, avoid using sql_standard intervalstyle */
    if (AH->remoteVersion >= 80400)
        ExecuteSqlStatement(AH, "SET INTERVALSTYLE = POSTGRES");

    /*
     * Use an explicitly specified extra_float_digits if it has been provided.
     * Otherwise, set extra_float_digits so that we can dump float data
     * exactly (given correctly implemented float I/O code, anyway).
     */
    if (have_extra_float_digits)
    {
        PQExpBuffer q = createPQExpBuffer();

        appendPQExpBuffer(q, "SET extra_float_digits TO %d",
                          extra_float_digits);
        ExecuteSqlStatement(AH, q->data);
        destroyPQExpBuffer(q);
    }
    else if (AH->remoteVersion >= 90000)
        ExecuteSqlStatement(AH, "SET extra_float_digits TO 3");
    else
        ExecuteSqlStatement(AH, "SET extra_float_digits TO 2");

    /*
     * If synchronized scanning is supported, disable it, to prevent
     * unpredictable changes in row ordering across a dump and reload.
     */
    if (AH->remoteVersion >= 80300)
        ExecuteSqlStatement(AH, "SET synchronize_seqscans TO off");

    /*
     * Disable timeouts if supported.
     */
    ExecuteSqlStatement(AH, "SET statement_timeout = 0");
    if (AH->remoteVersion >= 90300)
        ExecuteSqlStatement(AH, "SET lock_timeout = 0");
    if (AH->remoteVersion >= 90600)
        ExecuteSqlStatement(AH, "SET idle_in_transaction_session_timeout = 0");

    /*
     * Quote all identifiers, if requested.
     */
    if (quote_all_identifiers && AH->remoteVersion >= 90100)
        ExecuteSqlStatement(AH, "SET quote_all_identifiers = true");

    /*
     * Adjust row-security mode, if supported.
     */
    if (AH->remoteVersion >= 90500)
    {
        if (dopt->enable_row_security)
            ExecuteSqlStatement(AH, "SET row_security = on");
        else
            ExecuteSqlStatement(AH, "SET row_security = off");
    }

    /*
     * Start transaction-snapshot mode transaction to dump consistent data.
     */
    ExecuteSqlStatement(AH, "BEGIN");
    if (AH->remoteVersion >= 90100)
    {
        /*
         * To support the combination of serializable_deferrable with the jobs
         * option we use REPEATABLE READ for the worker connections that are
         * passed a snapshot.  As long as the snapshot is acquired in a
         * SERIALIZABLE, READ ONLY, DEFERRABLE transaction, its use within a
         * REPEATABLE READ transaction provides the appropriate integrity
         * guarantees.  This is a kluge, but safe for back-patching.
         */
        if (dopt->serializable_deferrable && AH->sync_snapshot_id == NULL)
            ExecuteSqlStatement(AH,
                                "SET TRANSACTION ISOLATION LEVEL "
                                "SERIALIZABLE, READ ONLY, DEFERRABLE");
        else
            ExecuteSqlStatement(AH,
                                "SET TRANSACTION ISOLATION LEVEL "
                                "REPEATABLE READ, READ ONLY");
    }
    else
    {
        ExecuteSqlStatement(AH,
                            "SET TRANSACTION ISOLATION LEVEL "
                            "SERIALIZABLE, READ ONLY");
    }

    /*
     * If user specified a snapshot to use, select that.  In a parallel dump
     * worker, we'll be passed dumpsnapshot == NULL, but AH->sync_snapshot_id
     * is already set (if the server can handle it) and we should use that.
     */
    if (dumpsnapshot)
        AH->sync_snapshot_id = pg_strdup(dumpsnapshot);

    if (AH->sync_snapshot_id)
    {
        PQExpBuffer query = createPQExpBuffer();

        appendPQExpBufferStr(query, "SET TRANSACTION SNAPSHOT ");
        appendStringLiteralConn(query, AH->sync_snapshot_id, conn);
        ExecuteSqlStatement(AH, query->data);
        destroyPQExpBuffer(query);
    }
    else if (AH->numWorkers > 1 &&
             AH->remoteVersion >= 90200 &&
             !dopt->no_synchronized_snapshots)
    {
        if (AH->isStandby && AH->remoteVersion < 100000)
            fatal("Synchronized snapshots on standby servers are not supported by this server version.\n"
                  "Run with --no-synchronized-snapshots instead if you do not need\n"
                  "synchronized snapshots.");


        AH->sync_snapshot_id = get_synchronized_snapshot(AH);
    }
}

/* Set up connection for a parallel worker process */
static void
setupDumpWorker(Archive *AH)
{
    /*
     * We want to re-select all the same values the master connection is
     * using.  We'll have inherited directly-usable values in
     * AH->sync_snapshot_id and AH->use_role, but we need to translate the
     * inherited encoding value back to a string to pass to setup_connection.
     */
    setup_connection(AH,
                     pg_encoding_to_char(AH->encoding),
                     NULL,
                     NULL);
}

static char *
get_synchronized_snapshot(Archive *fout)
{
    char       *query = "SELECT pg_catalog.pg_export_snapshot()";
    char       *result;
    PGresult   *res;

    res = ExecuteSqlQueryForSingleRow(fout, query);
    result = pg_strdup(PQgetvalue(res, 0, 0));
    PQclear(res);

    return result;
}

static ArchiveFormat
parseArchiveFormat(const char *format, ArchiveMode *mode)
{
    ArchiveFormat archiveFormat;

    *mode = archModeWrite;

    if (pg_strcasecmp(format, "a") == 0 || pg_strcasecmp(format, "append") == 0)
    {
        /* This is used by pg_dumpall, and is not documented */
        archiveFormat = archNull;
        *mode = archModeAppend;
    }
    else if (pg_strcasecmp(format, "c") == 0)
        archiveFormat = archCustom;
    else if (pg_strcasecmp(format, "custom") == 0)
        archiveFormat = archCustom;
    else if (pg_strcasecmp(format, "d") == 0)
        archiveFormat = archDirectory;
    else if (pg_strcasecmp(format, "directory") == 0)
        archiveFormat = archDirectory;
    else if (pg_strcasecmp(format, "p") == 0)
        archiveFormat = archNull;
    else if (pg_strcasecmp(format, "plain") == 0)
        archiveFormat = archNull;
    else if (pg_strcasecmp(format, "t") == 0)
        archiveFormat = archTar;
    else if (pg_strcasecmp(format, "tar") == 0)
        archiveFormat = archTar;
    else
        fatal("invalid output format \"%s\" specified", format);
    return archiveFormat;
}

/*
 * Find the OIDs of all schemas matching the given list of patterns,
 * and append them to the given OID list.
 */
static void
expand_schema_name_patterns(Archive *fout,
                            SimpleStringList *patterns,
                            SimpleOidList *oids,
                            bool strict_names)
{
    PQExpBuffer query;
    PGresult   *res;
    SimpleStringListCell *cell;
    int         i;

    if (patterns->head == NULL)
        return;                 /* nothing to do */

    query = createPQExpBuffer();

    /*
     * The loop below runs multiple SELECTs might sometimes result in
     * duplicate entries in the OID list, but we don't care.
     */

    for (cell = patterns->head; cell; cell = cell->next)
    {
        appendPQExpBufferStr(query,
                             "SELECT oid FROM pg_catalog.pg_namespace n\n");
        processSQLNamePattern(GetConnection(fout), query, cell->val, false,
                              false, NULL, "n.nspname", NULL, NULL);

        res = ExecuteSqlQuery(fout, query->data, PGRES_TUPLES_OK);
        if (strict_names && PQntuples(res) == 0)
            fatal("no matching schemas were found for pattern \"%s\"", cell->val);

        for (i = 0; i < PQntuples(res); i++)
        {
            simple_oid_list_append(oids, atooid(PQgetvalue(res, i, 0)));
        }

        PQclear(res);
        resetPQExpBuffer(query);
    }

    destroyPQExpBuffer(query);
}

/*
 * Find the OIDs of all tables matching the given list of patterns,
 * and append them to the given OID list. See also expand_dbname_patterns()
 * in pg_dumpall.c
 */
static void
expand_table_name_patterns(Archive *fout,
                           SimpleStringList *patterns, SimpleOidList *oids,
                           bool strict_names)
{
    PQExpBuffer query;
    PGresult   *res;
    SimpleStringListCell *cell;
    int         i;

    if (patterns->head == NULL)
        return;                 /* nothing to do */

    query = createPQExpBuffer();

    /*
     * this might sometimes result in duplicate entries in the OID list, but
     * we don't care.
     */

    for (cell = patterns->head; cell; cell = cell->next)
    {
        /*
         * Query must remain ABSOLUTELY devoid of unqualified names.  This
         * would be unnecessary given a pg_table_is_visible() variant taking a
         * search_path argument.
         */
        appendPQExpBuffer(query,
                          "SELECT c.oid"
                          "\nFROM pg_catalog.pg_class c"
                          "\n     LEFT JOIN pg_catalog.pg_namespace n"
                          "\n     ON n.oid OPERATOR(pg_catalog.=) c.relnamespace"
                          "\nWHERE c.relkind OPERATOR(pg_catalog.=) ANY"
                          "\n    (array['%c', '%c', '%c', '%c', '%c', '%c'])\n",
                          RELKIND_RELATION, RELKIND_SEQUENCE, RELKIND_VIEW,
                          RELKIND_MATVIEW, RELKIND_FOREIGN_TABLE,
                          RELKIND_PARTITIONED_TABLE);
        processSQLNamePattern(GetConnection(fout), query, cell->val, true,
                              false, "n.nspname", "c.relname", NULL,
                              "pg_catalog.pg_table_is_visible(c.oid)");

        ExecuteSqlStatement(fout, "RESET search_path");
        res = ExecuteSqlQuery(fout, query->data, PGRES_TUPLES_OK);
        PQclear(ExecuteSqlQueryForSingleRow(fout,
                                            ALWAYS_SECURE_SEARCH_PATH_SQL));
        if (strict_names && PQntuples(res) == 0)
            fatal("no matching tables were found for pattern \"%s\"", cell->val);

        for (i = 0; i < PQntuples(res); i++)
        {
            simple_oid_list_append(oids, atooid(PQgetvalue(res, i, 0)));
        }

        PQclear(res);
        resetPQExpBuffer(query);
    }

    destroyPQExpBuffer(query);
}

/*
 * checkExtensionMembership
 *      Determine whether object is an extension member, and if so,
 *      record an appropriate dependency and set the object's dump flag.
 *
 * It's important to call this for each object that could be an extension
 * member.  Generally, we integrate this with determining the object's
 * to-be-dumped-ness, since extension membership overrides other rules for that.
 *
 * Returns true if object is an extension member, else false.
 */
static bool
checkExtensionMembership(DumpableObject *dobj, Archive *fout)
{
    ExtensionInfo *ext = findOwningExtension(dobj->catId);

    if (ext == NULL)
        return false;

    dobj->ext_member = true;

    /* Record dependency so that getDependencies needn't deal with that */
    addObjectDependency(dobj, ext->dobj.dumpId);

    /*
     * In 9.6 and above, mark the member object to have any non-initial ACL,
     * policies, and security labels dumped.
     *
     * Note that any initial ACLs (see pg_init_privs) will be removed when we
     * extract the information about the object.  We don't provide support for
     * initial policies and security labels and it seems unlikely for those to
     * ever exist, but we may have to revisit this later.
     *
     * Prior to 9.6, we do not include any extension member components.
     *
     * In binary upgrades, we still dump all components of the members
     * individually, since the idea is to exactly reproduce the database
     * contents rather than replace the extension contents with something
     * different.
     */
    if (fout->dopt->binary_upgrade)
        dobj->dump = ext->dobj.dump;
    else
    {
        if (fout->remoteVersion < 90600)
            dobj->dump = DUMP_COMPONENT_NONE;
        else
            dobj->dump = ext->dobj.dump_contains & (DUMP_COMPONENT_ACL |
                                                    DUMP_COMPONENT_SECLABEL |
                                                    DUMP_COMPONENT_POLICY);
    }

    return true;
}

/*
 * selectDumpableNamespace: policy-setting subroutine
 *      Mark a namespace as to be dumped or not
 */
static void
selectDumpableNamespace(NamespaceInfo *nsinfo, Archive *fout)
{
    /*
     * If specific tables are being dumped, do not dump any complete
     * namespaces. If specific namespaces are being dumped, dump just those
     * namespaces. Otherwise, dump all non-system namespaces.
     */
    if (table_include_oids.head != NULL)
        nsinfo->dobj.dump_contains = nsinfo->dobj.dump = DUMP_COMPONENT_NONE;
    else if (schema_include_oids.head != NULL)
        nsinfo->dobj.dump_contains = nsinfo->dobj.dump =
            simple_oid_list_member(&schema_include_oids,
                                   nsinfo->dobj.catId.oid) ?
            DUMP_COMPONENT_ALL : DUMP_COMPONENT_NONE;
    else if (fout->remoteVersion >= 90600 &&
             strcmp(nsinfo->dobj.name, "pg_catalog") == 0)
    {
        /*
         * In 9.6 and above, we dump out any ACLs defined in pg_catalog, if
         * they are interesting (and not the original ACLs which were set at
         * initdb time, see pg_init_privs).
         */
        nsinfo->dobj.dump_contains = nsinfo->dobj.dump = DUMP_COMPONENT_ACL;
    }
    else if (strncmp(nsinfo->dobj.name, "pg_", 3) == 0 ||
             strcmp(nsinfo->dobj.name, "information_schema") == 0)
    {
        /* Other system schemas don't get dumped */
        nsinfo->dobj.dump_contains = nsinfo->dobj.dump = DUMP_COMPONENT_NONE;
    }
    else if (strcmp(nsinfo->dobj.name, "public") == 0)
    {
        /*
         * The public schema is a strange beast that sits in a sort of
         * no-mans-land between being a system object and a user object.  We
         * don't want to dump creation or comment commands for it, because
         * that complicates matters for non-superuser use of pg_dump.  But we
         * should dump any ACL changes that have occurred for it, and of
         * course we should dump contained objects.
         */
        nsinfo->dobj.dump = DUMP_COMPONENT_ACL;
        nsinfo->dobj.dump_contains = DUMP_COMPONENT_ALL;
    }
    else
        nsinfo->dobj.dump_contains = nsinfo->dobj.dump = DUMP_COMPONENT_ALL;

    /*
     * In any case, a namespace can be excluded by an exclusion switch
     */
    if (nsinfo->dobj.dump_contains &&
        simple_oid_list_member(&schema_exclude_oids,
                               nsinfo->dobj.catId.oid))
        nsinfo->dobj.dump_contains = nsinfo->dobj.dump = DUMP_COMPONENT_NONE;

    /*
     * If the schema belongs to an extension, allow extension membership to
     * override the dump decision for the schema itself.  However, this does
     * not change dump_contains, so this won't change what we do with objects
     * within the schema.  (If they belong to the extension, they'll get
     * suppressed by it, otherwise not.)
     */
    (void) checkExtensionMembership(&nsinfo->dobj, fout);
}

/*
 * selectDumpableTable: policy-setting subroutine
 *      Mark a table as to be dumped or not
 */
static void
selectDumpableTable(TableInfo *tbinfo, Archive *fout)
{
    if (checkExtensionMembership(&tbinfo->dobj, fout))
        return;                 /* extension membership overrides all else */

    /*
     * If specific tables are being dumped, dump just those tables; else, dump
     * according to the parent namespace's dump flag.
     */
    if (table_include_oids.head != NULL)
        tbinfo->dobj.dump = simple_oid_list_member(&table_include_oids,
                                                   tbinfo->dobj.catId.oid) ?
            DUMP_COMPONENT_ALL : DUMP_COMPONENT_NONE;
    else
        tbinfo->dobj.dump = tbinfo->dobj.namespace->dobj.dump_contains;

    /*
     * In any case, a table can be excluded by an exclusion switch
     */
    if (tbinfo->dobj.dump &&
        simple_oid_list_member(&table_exclude_oids,
                               tbinfo->dobj.catId.oid))
        tbinfo->dobj.dump = DUMP_COMPONENT_NONE;
}

/*
 * selectDumpableType: policy-setting subroutine
 *      Mark a type as to be dumped or not
 *
 * If it's a table's rowtype or an autogenerated array type, we also apply a
 * special type code to facilitate sorting into the desired order.  (We don't
 * want to consider those to be ordinary types because that would bring tables
 * up into the datatype part of the dump order.)  We still set the object's
 * dump flag; that's not going to cause the dummy type to be dumped, but we
 * need it so that casts involving such types will be dumped correctly -- see
 * dumpCast.  This means the flag should be set the same as for the underlying
 * object (the table or base type).
 */
static void
selectDumpableType(TypeInfo *tyinfo, Archive *fout)
{
    /* skip complex types, except for standalone composite types */
    if (OidIsValid(tyinfo->typrelid) &&
        tyinfo->typrelkind != RELKIND_COMPOSITE_TYPE)
    {
        TableInfo  *tytable = findTableByOid(tyinfo->typrelid);

        tyinfo->dobj.objType = DO_DUMMY_TYPE;
        if (tytable != NULL)
            tyinfo->dobj.dump = tytable->dobj.dump;
        else
            tyinfo->dobj.dump = DUMP_COMPONENT_NONE;
        return;
    }

    /* skip auto-generated array types */
    if (tyinfo->isArray)
    {
        tyinfo->dobj.objType = DO_DUMMY_TYPE;

        /*
         * Fall through to set the dump flag; we assume that the subsequent
         * rules will do the same thing as they would for the array's base
         * type.  (We cannot reliably look up the base type here, since
         * getTypes may not have processed it yet.)
         */
    }

    if (checkExtensionMembership(&tyinfo->dobj, fout))
        return;                 /* extension membership overrides all else */

    /* Dump based on if the contents of the namespace are being dumped */
    tyinfo->dobj.dump = tyinfo->dobj.namespace->dobj.dump_contains;
}

/*
 * selectDumpableDefaultACL: policy-setting subroutine
 *      Mark a default ACL as to be dumped or not
 *
 * For per-schema default ACLs, dump if the schema is to be dumped.
 * Otherwise dump if we are dumping "everything".  Note that dataOnly
 * and aclsSkip are checked separately.
 */
static void
selectDumpableDefaultACL(DefaultACLInfo *dinfo, DumpOptions *dopt)
{
    /* Default ACLs can't be extension members */

    if (dinfo->dobj.namespace)
        /* default ACLs are considered part of the namespace */
        dinfo->dobj.dump = dinfo->dobj.namespace->dobj.dump_contains;
    else
        dinfo->dobj.dump = dopt->include_everything ?
            DUMP_COMPONENT_ALL : DUMP_COMPONENT_NONE;
}

/*
 * selectDumpableCast: policy-setting subroutine
 *      Mark a cast as to be dumped or not
 *
 * Casts do not belong to any particular namespace (since they haven't got
 * names), nor do they have identifiable owners.  To distinguish user-defined
 * casts from built-in ones, we must resort to checking whether the cast's
 * OID is in the range reserved for initdb.
 */
static void
selectDumpableCast(CastInfo *cast, Archive *fout)
{
    if (checkExtensionMembership(&cast->dobj, fout))
        return;                 /* extension membership overrides all else */

    /*
     * This would be DUMP_COMPONENT_ACL for from-initdb casts, but they do not
     * support ACLs currently.
     */
    if (cast->dobj.catId.oid <= (Oid) g_last_builtin_oid)
        cast->dobj.dump = DUMP_COMPONENT_NONE;
    else
        cast->dobj.dump = fout->dopt->include_everything ?
            DUMP_COMPONENT_ALL : DUMP_COMPONENT_NONE;
}

/*
 * selectDumpableProcLang: policy-setting subroutine
 *      Mark a procedural language as to be dumped or not
 *
 * Procedural languages do not belong to any particular namespace.  To
 * identify built-in languages, we must resort to checking whether the
 * language's OID is in the range reserved for initdb.
 */
static void
selectDumpableProcLang(ProcLangInfo *plang, Archive *fout)
{
    if (checkExtensionMembership(&plang->dobj, fout))
        return;                 /* extension membership overrides all else */

    /*
     * Only include procedural languages when we are dumping everything.
     *
     * For from-initdb procedural languages, only include ACLs, as we do for
     * the pg_catalog namespace.  We need this because procedural languages do
     * not live in any namespace.
     */
    if (!fout->dopt->include_everything)
        plang->dobj.dump = DUMP_COMPONENT_NONE;
    else
    {
        if (plang->dobj.catId.oid <= (Oid) g_last_builtin_oid)
            plang->dobj.dump = fout->remoteVersion < 90600 ?
                DUMP_COMPONENT_NONE : DUMP_COMPONENT_ACL;
        else
            plang->dobj.dump = DUMP_COMPONENT_ALL;
    }
}

/*
 * selectDumpableAccessMethod: policy-setting subroutine
 *      Mark an access method as to be dumped or not
 *
 * Access methods do not belong to any particular namespace.  To identify
 * built-in access methods, we must resort to checking whether the
 * method's OID is in the range reserved for initdb.
 */
static void
selectDumpableAccessMethod(AccessMethodInfo *method, Archive *fout)
{
    if (checkExtensionMembership(&method->dobj, fout))
        return;                 /* extension membership overrides all else */

    /*
     * This would be DUMP_COMPONENT_ACL for from-initdb access methods, but
     * they do not support ACLs currently.
     */
    if (method->dobj.catId.oid <= (Oid) g_last_builtin_oid)
        method->dobj.dump = DUMP_COMPONENT_NONE;
    else
        method->dobj.dump = fout->dopt->include_everything ?
            DUMP_COMPONENT_ALL : DUMP_COMPONENT_NONE;
}

/*
 * selectDumpableExtension: policy-setting subroutine
 *      Mark an extension as to be dumped or not
 *
 * Built-in extensions should be skipped except for checking ACLs, since we
 * assume those will already be installed in the target database.  We identify
 * such extensions by their having OIDs in the range reserved for initdb.
 * We dump all user-added extensions by default, or none of them if
 * include_everything is false (i.e., a --schema or --table switch was given).
 */
static void
selectDumpableExtension(ExtensionInfo *extinfo, DumpOptions *dopt)
{
    /*
     * Use DUMP_COMPONENT_ACL for built-in extensions, to allow users to
     * change permissions on their member objects, if they wish to, and have
     * those changes preserved.
     */
    if (extinfo->dobj.catId.oid <= (Oid) g_last_builtin_oid)
        extinfo->dobj.dump = extinfo->dobj.dump_contains = DUMP_COMPONENT_ACL;
    else
        extinfo->dobj.dump = extinfo->dobj.dump_contains =
            dopt->include_everything ? DUMP_COMPONENT_ALL :
            DUMP_COMPONENT_NONE;
}

/*
 * selectDumpablePublicationTable: policy-setting subroutine
 *      Mark a publication table as to be dumped or not
 *
 * Publication tables have schemas, but those are ignored in decision making,
 * because publications are only dumped when we are dumping everything.
 */
static void
selectDumpablePublicationTable(DumpableObject *dobj, Archive *fout)
{
    if (checkExtensionMembership(dobj, fout))
        return;                 /* extension membership overrides all else */

    dobj->dump = fout->dopt->include_everything ?
        DUMP_COMPONENT_ALL : DUMP_COMPONENT_NONE;
}

/*
 * selectDumpableObject: policy-setting subroutine
 *      Mark a generic dumpable object as to be dumped or not
 *
 * Use this only for object types without a special-case routine above.
 */
static void
selectDumpableObject(DumpableObject *dobj, Archive *fout)
{
    if (checkExtensionMembership(dobj, fout))
        return;                 /* extension membership overrides all else */

    /*
     * Default policy is to dump if parent namespace is dumpable, or for
     * non-namespace-associated items, dump if we're dumping "everything".
     */
    if (dobj->namespace)
        dobj->dump = dobj->namespace->dobj.dump_contains;
    else
        dobj->dump = fout->dopt->include_everything ?
            DUMP_COMPONENT_ALL : DUMP_COMPONENT_NONE;
}

/*
 *  Dump a table's contents for loading using the COPY command
 *  - this routine is called by the Archiver when it wants the table
 *    to be dumped.
 */

static int
dumpTableData_copy(Archive *fout, void *dcontext)
{
    TableDataInfo *tdinfo = (TableDataInfo *) dcontext;
    TableInfo  *tbinfo = tdinfo->tdtable;
    const char *classname = tbinfo->dobj.name;
    PQExpBuffer q = createPQExpBuffer();

    /*
     * Note: can't use getThreadLocalPQExpBuffer() here, we're calling fmtId
     * which uses it already.
     */
    PQExpBuffer clistBuf = createPQExpBuffer();
    PGconn     *conn = GetConnection(fout);
    PGresult   *res;
    int         ret;
    char       *copybuf;
    const char *column_list;

    pg_log_info("dumping contents of table \"%s.%s\"",
                tbinfo->dobj.namespace->dobj.name, classname);

    /*
     * Specify the column list explicitly so that we have no possibility of
     * retrieving data in the wrong column order.  (The default column
     * ordering of COPY will not be what we want in certain corner cases
     * involving ADD COLUMN and inheritance.)
     */
    column_list = fmtCopyColumnList(tbinfo, clistBuf);

    if (tdinfo->filtercond)
    {
        /* Note: this syntax is only supported in 8.2 and up */
        appendPQExpBufferStr(q, "COPY (SELECT ");
        /* klugery to get rid of parens in column list */
        if (strlen(column_list) > 2)
        {
            appendPQExpBufferStr(q, column_list + 1);
            q->data[q->len - 1] = ' ';
        }
        else
            appendPQExpBufferStr(q, "* ");
        appendPQExpBuffer(q, "FROM %s %s) TO stdout;",
                          fmtQualifiedDumpable(tbinfo),
                          tdinfo->filtercond);
    }
    else
    {
        appendPQExpBuffer(q, "COPY %s %s TO stdout;",
                          fmtQualifiedDumpable(tbinfo),
                          column_list);
    }
    res = ExecuteSqlQuery(fout, q->data, PGRES_COPY_OUT);
    PQclear(res);
    destroyPQExpBuffer(clistBuf);

    for (;;)
    {
        ret = PQgetCopyData(conn, &copybuf, 0);

        if (ret < 0)
            break;              /* done or error */

        if (copybuf)
        {
            WriteData(fout, copybuf, ret);
            PQfreemem(copybuf);
        }

        /* ----------
         * THROTTLE:
         *
         * There was considerable discussion in late July, 2000 regarding
         * slowing down pg_dump when backing up large tables. Users with both
         * slow & fast (multi-processor) machines experienced performance
         * degradation when doing a backup.
         *
         * Initial attempts based on sleeping for a number of ms for each ms
         * of work were deemed too complex, then a simple 'sleep in each loop'
         * implementation was suggested. The latter failed because the loop
         * was too tight. Finally, the following was implemented:
         *
         * If throttle is non-zero, then
         *      See how long since the last sleep.
         *      Work out how long to sleep (based on ratio).
         *      If sleep is more than 100ms, then
         *          sleep
         *          reset timer
         *      EndIf
         * EndIf
         *
         * where the throttle value was the number of ms to sleep per ms of
         * work. The calculation was done in each loop.
         *
         * Most of the hard work is done in the backend, and this solution
         * still did not work particularly well: on slow machines, the ratio
         * was 50:1, and on medium paced machines, 1:1, and on fast
         * multi-processor machines, it had little or no effect, for reasons
         * that were unclear.
         *
         * Further discussion ensued, and the proposal was dropped.
         *
         * For those people who want this feature, it can be implemented using
         * gettimeofday in each loop, calculating the time since last sleep,
         * multiplying that by the sleep ratio, then if the result is more
         * than a preset 'minimum sleep time' (say 100ms), call the 'select'
         * function to sleep for a subsecond period ie.
         *
         * select(0, NULL, NULL, NULL, &tvi);
         *
         * This will return after the interval specified in the structure tvi.
         * Finally, call gettimeofday again to save the 'last sleep time'.
         * ----------
         */
    }
    archprintf(fout, "\\.\n\n\n");

    if (ret == -2)
    {
        /* copy data transfer failed */
        pg_log_error("Dumping the contents of table \"%s\" failed: PQgetCopyData() failed.", classname);
        pg_log_error("Error message from server: %s", PQerrorMessage(conn));
        pg_log_error("The command was: %s", q->data);
        exit_nicely(1);
    }

    /* Check command status and return to normal libpq state */
    res = PQgetResult(conn);
    if (PQresultStatus(res) != PGRES_COMMAND_OK)
    {
        pg_log_error("Dumping the contents of table \"%s\" failed: PQgetResult() failed.", classname);
        pg_log_error("Error message from server: %s", PQerrorMessage(conn));
        pg_log_error("The command was: %s", q->data);
        exit_nicely(1);
    }
    PQclear(res);

    /* Do this to ensure we've pumped libpq back to idle state */
    if (PQgetResult(conn) != NULL)
        pg_log_warning("unexpected extra results during COPY of table \"%s\"",
                       classname);

    destroyPQExpBuffer(q);
    return 1;
}

/*
 * Dump table data using INSERT commands.
 *
 * Caution: when we restore from an archive file direct to database, the
 * INSERT commands emitted by this function have to be parsed by
 * pg_backup_db.c's ExecuteSimpleCommands(), which will not handle comments,
 * E'' strings, or dollar-quoted strings.  So don't emit anything like that.
 */
static int
dumpTableData_insert(Archive *fout, void *dcontext)
{
    TableDataInfo *tdinfo = (TableDataInfo *) dcontext;
    TableInfo  *tbinfo = tdinfo->tdtable;
    DumpOptions *dopt = fout->dopt;
    PQExpBuffer q = createPQExpBuffer();
    PQExpBuffer insertStmt = NULL;
    PGresult   *res;
    int         nfields;
    int         rows_per_statement = dopt->dump_inserts;
    int         rows_this_statement = 0;

    appendPQExpBuffer(q, "DECLARE _pg_dump_cursor CURSOR FOR "
                      "SELECT * FROM ONLY %s",
                      fmtQualifiedDumpable(tbinfo));
    if (tdinfo->filtercond)
        appendPQExpBuffer(q, " %s", tdinfo->filtercond);

    ExecuteSqlStatement(fout, q->data);

    while (1)
    {
        res = ExecuteSqlQuery(fout, "FETCH 100 FROM _pg_dump_cursor",
                              PGRES_TUPLES_OK);
        nfields = PQnfields(res);

        /*
         * First time through, we build as much of the INSERT statement as
         * possible in "insertStmt", which we can then just print for each
         * statement. If the table happens to have zero columns then this will
         * be a complete statement, otherwise it will end in "VALUES" and be
         * ready to have the row's column values printed.
         */
        if (insertStmt == NULL)
        {
            TableInfo  *targettab;

            insertStmt = createPQExpBuffer();

            /*
             * When load-via-partition-root is set, get the root table name
             * for the partition table, so that we can reload data through the
             * root table.
             */
            if (dopt->load_via_partition_root && tbinfo->ispartition)
                targettab = getRootTableInfo(tbinfo);
            else
                targettab = tbinfo;

            appendPQExpBuffer(insertStmt, "INSERT INTO %s ",
                              fmtQualifiedDumpable(targettab));

            /* corner case for zero-column table */
            if (nfields == 0)
            {
                appendPQExpBufferStr(insertStmt, "DEFAULT VALUES;\n");
            }
            else
            {
                /* append the list of column names if required */
                if (dopt->column_inserts)
                {
                    appendPQExpBufferChar(insertStmt, '(');
                    for (int field = 0; field < nfields; field++)
                    {
                        if (field > 0)
                            appendPQExpBufferStr(insertStmt, ", ");
                        appendPQExpBufferStr(insertStmt,
                                             fmtId(PQfname(res, field)));
                    }
                    appendPQExpBufferStr(insertStmt, ") ");
                }

                if (tbinfo->needs_override)
                    appendPQExpBufferStr(insertStmt, "OVERRIDING SYSTEM VALUE ");

                appendPQExpBufferStr(insertStmt, "VALUES");
            }
        }

        for (int tuple = 0; tuple < PQntuples(res); tuple++)
        {
            /* Write the INSERT if not in the middle of a multi-row INSERT. */
            if (rows_this_statement == 0)
                archputs(insertStmt->data, fout);

            /*
             * If it is zero-column table then we've already written the
             * complete statement, which will mean we've disobeyed
             * --rows-per-insert when it's set greater than 1.  We do support
             * a way to make this multi-row with: SELECT UNION ALL SELECT
             * UNION ALL ... but that's non-standard so we should avoid it
             * given that using INSERTs is mostly only ever needed for
             * cross-database exports.
             */
            if (nfields == 0)
                continue;

            /* Emit a row heading */
            if (rows_per_statement == 1)
                archputs(" (", fout);
            else if (rows_this_statement > 0)
                archputs(",\n\t(", fout);
            else
                archputs("\n\t(", fout);

            for (int field = 0; field < nfields; field++)
            {
                if (field > 0)
                    archputs(", ", fout);
                if (tbinfo->attgenerated[field])
                {
                    archputs("DEFAULT", fout);
                    continue;
                }
                if (PQgetisnull(res, tuple, field))
                {
                    archputs("NULL", fout);
                    continue;
                }

                /* XXX This code is partially duplicated in ruleutils.c */
                switch (PQftype(res, field))
                {
                    case INT2OID:
                    case INT4OID:
                    case INT8OID:
                    case OIDOID:
                    case FLOAT4OID:
                    case FLOAT8OID:
                    case NUMERICOID:
                        {
                            /*
                             * These types are printed without quotes unless
                             * they contain values that aren't accepted by the
                             * scanner unquoted (e.g., 'NaN').  Note that
                             * strtod() and friends might accept NaN, so we
                             * can't use that to test.
                             *
                             * In reality we only need to defend against
                             * infinity and NaN, so we need not get too crazy
                             * about pattern matching here.
                             */
                            const char *s = PQgetvalue(res, tuple, field);

                            if (strspn(s, "0123456789 +-eE.") == strlen(s))
                                archputs(s, fout);
                            else
                                archprintf(fout, "'%s'", s);
                        }
                        break;

                    case BITOID:
                    case VARBITOID:
                        archprintf(fout, "B'%s'",
                                   PQgetvalue(res, tuple, field));
                        break;

                    case BOOLOID:
                        if (strcmp(PQgetvalue(res, tuple, field), "t") == 0)
                            archputs("true", fout);
                        else
                            archputs("false", fout);
                        break;

                    default:
                        /* All other types are printed as string literals. */
                        resetPQExpBuffer(q);
                        appendStringLiteralAH(q,
                                              PQgetvalue(res, tuple, field),
                                              fout);
                        archputs(q->data, fout);
                        break;
                }
            }

            /* Terminate the row ... */
            archputs(")", fout);

            /* ... and the statement, if the target no. of rows is reached */
            if (++rows_this_statement >= rows_per_statement)
            {
                if (dopt->do_nothing)
                    archputs(" ON CONFLICT DO NOTHING;\n", fout);
                else
                    archputs(";\n", fout);
                /* Reset the row counter */
                rows_this_statement = 0;
            }
        }

        if (PQntuples(res) <= 0)
        {
            PQclear(res);
            break;
        }
        PQclear(res);
    }

    /* Terminate any statements that didn't make the row count. */
    if (rows_this_statement > 0)
    {
        if (dopt->do_nothing)
            archputs(" ON CONFLICT DO NOTHING;\n", fout);
        else
            archputs(";\n", fout);
    }

    archputs("\n\n", fout);

    ExecuteSqlStatement(fout, "CLOSE _pg_dump_cursor");

    destroyPQExpBuffer(q);
    if (insertStmt != NULL)
        destroyPQExpBuffer(insertStmt);

    return 1;
}

/*
 * getRootTableInfo:
 *     get the root TableInfo for the given partition table.
 */
static TableInfo *
getRootTableInfo(TableInfo *tbinfo)
{
    TableInfo  *parentTbinfo;

    Assert(tbinfo->ispartition);
    Assert(tbinfo->numParents == 1);

    parentTbinfo = tbinfo->parents[0];
    while (parentTbinfo->ispartition)
    {
        Assert(parentTbinfo->numParents == 1);
        parentTbinfo = parentTbinfo->parents[0];
    }

    return parentTbinfo;
}

/*
 * dumpTableData -
 *    dump the contents of a single table
 *
 * Actually, this just makes an ArchiveEntry for the table contents.
 */
static void
dumpTableData(Archive *fout, TableDataInfo *tdinfo)
{
    DumpOptions *dopt = fout->dopt;
    TableInfo  *tbinfo = tdinfo->tdtable;
    PQExpBuffer copyBuf = createPQExpBuffer();
    PQExpBuffer clistBuf = createPQExpBuffer();
    DataDumperPtr dumpFn;
    char       *copyStmt;
    const char *copyFrom;

    if (!dopt->dump_inserts)
    {
        /* Dump/restore using COPY */
        dumpFn = dumpTableData_copy;

        /*
         * When load-via-partition-root is set, get the root table name for
         * the partition table, so that we can reload data through the root
         * table.
         */
        if (dopt->load_via_partition_root && tbinfo->ispartition)
        {
            TableInfo  *parentTbinfo;

            parentTbinfo = getRootTableInfo(tbinfo);
            copyFrom = fmtQualifiedDumpable(parentTbinfo);
        }
        else
            copyFrom = fmtQualifiedDumpable(tbinfo);

        /* must use 2 steps here 'cause fmtId is nonreentrant */
        appendPQExpBuffer(copyBuf, "COPY %s ",
                          copyFrom);
        appendPQExpBuffer(copyBuf, "%s FROM stdin;\n",
                          fmtCopyColumnList(tbinfo, clistBuf));
        copyStmt = copyBuf->data;
    }
    else
    {
        /* Restore using INSERT */
        dumpFn = dumpTableData_insert;
        copyStmt = NULL;
    }

    /*
     * Note: although the TableDataInfo is a full DumpableObject, we treat its
     * dependency on its table as "special" and pass it to ArchiveEntry now.
     * See comments for BuildArchiveDependencies.
     */
    if (tdinfo->dobj.dump & DUMP_COMPONENT_DATA)
    {
        TocEntry   *te;

        te = ArchiveEntry(fout, tdinfo->dobj.catId, tdinfo->dobj.dumpId,
                          ARCHIVE_OPTS(.tag = tbinfo->dobj.name,
                                       .namespace = tbinfo->dobj.namespace->dobj.name,
                                       .owner = tbinfo->rolname,
                                       .description = "TABLE DATA",
                                       .section = SECTION_DATA,
                                       .copyStmt = copyStmt,
                                       .deps = &(tbinfo->dobj.dumpId),
                                       .nDeps = 1,
                                       .dumpFn = dumpFn,
                                       .dumpArg = tdinfo));

        /*
         * Set the TocEntry's dataLength in case we are doing a parallel dump
         * and want to order dump jobs by table size.  We choose to measure
         * dataLength in table pages during dump, so no scaling is needed.
         * However, relpages is declared as "integer" in pg_class, and hence
         * also in TableInfo, but it's really BlockNumber a/k/a unsigned int.
         * Cast so that we get the right interpretation of table sizes
         * exceeding INT_MAX pages.
         */
        te->dataLength = (BlockNumber) tbinfo->relpages;
    }

    destroyPQExpBuffer(copyBuf);
    destroyPQExpBuffer(clistBuf);
}

/*
 * refreshMatViewData -
 *    load or refresh the contents of a single materialized view
 *
 * Actually, this just makes an ArchiveEntry for the REFRESH MATERIALIZED VIEW
 * statement.
 */
static void
refreshMatViewData(Archive *fout, TableDataInfo *tdinfo)
{
    TableInfo  *tbinfo = tdinfo->tdtable;
    PQExpBuffer q;

    /* If the materialized view is not flagged as populated, skip this. */
    if (!tbinfo->relispopulated)
        return;

    q = createPQExpBuffer();

    appendPQExpBuffer(q, "REFRESH MATERIALIZED VIEW %s;\n",
                      fmtQualifiedDumpable(tbinfo));

    if (tdinfo->dobj.dump & DUMP_COMPONENT_DATA)
        ArchiveEntry(fout,
                     tdinfo->dobj.catId,    /* catalog ID */
                     tdinfo->dobj.dumpId,   /* dump ID */
                     ARCHIVE_OPTS(.tag = tbinfo->dobj.name,
                                  .namespace = tbinfo->dobj.namespace->dobj.name,
                                  .owner = tbinfo->rolname,
                                  .description = "MATERIALIZED VIEW DATA",
                                  .section = SECTION_POST_DATA,
                                  .createStmt = q->data,
                                  .deps = tdinfo->dobj.dependencies,
                                  .nDeps = tdinfo->dobj.nDeps));

    destroyPQExpBuffer(q);
}

/*
 * getTableData -
 *    set up dumpable objects representing the contents of tables
 */
static void
getTableData(DumpOptions *dopt, TableInfo *tblinfo, int numTables, char relkind)
{
    int         i;

    for (i = 0; i < numTables; i++)
    {
        if (tblinfo[i].dobj.dump & DUMP_COMPONENT_DATA &&
            (!relkind || tblinfo[i].relkind == relkind))
            makeTableDataInfo(dopt, &(tblinfo[i]));
    }
}

/*
 * Make a dumpable object for the data of this specific table
 *
 * Note: we make a TableDataInfo if and only if we are going to dump the
 * table data; the "dump" flag in such objects isn't used.
 */
static void
makeTableDataInfo(DumpOptions *dopt, TableInfo *tbinfo)
{
    TableDataInfo *tdinfo;

    /*
     * Nothing to do if we already decided to dump the table.  This will
     * happen for "config" tables.
     */
    if (tbinfo->dataObj != NULL)
        return;

    /* Skip VIEWs (no data to dump) */
    if (tbinfo->relkind == RELKIND_VIEW)
        return;
    /* Skip FOREIGN TABLEs (no data to dump) */
    if (tbinfo->relkind == RELKIND_FOREIGN_TABLE)
        return;
    /* Skip partitioned tables (data in partitions) */
    if (tbinfo->relkind == RELKIND_PARTITIONED_TABLE)
        return;

    /* Don't dump data in unlogged tables, if so requested */
    if (tbinfo->relpersistence == RELPERSISTENCE_UNLOGGED &&
        dopt->no_unlogged_table_data)
        return;

    /* Check that the data is not explicitly excluded */
    if (simple_oid_list_member(&tabledata_exclude_oids,
                               tbinfo->dobj.catId.oid))
        return;

    /* OK, let's dump it */
    tdinfo = (TableDataInfo *) pg_malloc(sizeof(TableDataInfo));

    if (tbinfo->relkind == RELKIND_MATVIEW)
        tdinfo->dobj.objType = DO_REFRESH_MATVIEW;
    else if (tbinfo->relkind == RELKIND_SEQUENCE)
        tdinfo->dobj.objType = DO_SEQUENCE_SET;
    else
        tdinfo->dobj.objType = DO_TABLE_DATA;

    /*
     * Note: use tableoid 0 so that this object won't be mistaken for
     * something that pg_depend entries apply to.
     */
    tdinfo->dobj.catId.tableoid = 0;
    tdinfo->dobj.catId.oid = tbinfo->dobj.catId.oid;
    AssignDumpId(&tdinfo->dobj);
    tdinfo->dobj.name = tbinfo->dobj.name;
    tdinfo->dobj.namespace = tbinfo->dobj.namespace;
    tdinfo->tdtable = tbinfo;
    tdinfo->filtercond = NULL;  /* might get set later */
    addObjectDependency(&tdinfo->dobj, tbinfo->dobj.dumpId);

    tbinfo->dataObj = tdinfo;
}

/*
 * The refresh for a materialized view must be dependent on the refresh for
 * any materialized view that this one is dependent on.
 *
 * This must be called after all the objects are created, but before they are
 * sorted.
 */
static void
buildMatViewRefreshDependencies(Archive *fout)
{
    PQExpBuffer query;
    PGresult   *res;
    int         ntups,
                i;
    int         i_classid,
                i_objid,
                i_refobjid;

    /* No Mat Views before 9.3. */
    if (fout->remoteVersion < 90300)
        return;

    query = createPQExpBuffer();

    appendPQExpBufferStr(query, "WITH RECURSIVE w AS "
                         "( "
                         "SELECT d1.objid, d2.refobjid, c2.relkind AS refrelkind "
                         "FROM pg_depend d1 "
                         "JOIN pg_class c1 ON c1.oid = d1.objid "
                         "AND c1.relkind = " CppAsString2(RELKIND_MATVIEW)
                         " JOIN pg_rewrite r1 ON r1.ev_class = d1.objid "
                         "JOIN pg_depend d2 ON d2.classid = 'pg_rewrite'::regclass "
                         "AND d2.objid = r1.oid "
                         "AND d2.refobjid <> d1.objid "
                         "JOIN pg_class c2 ON c2.oid = d2.refobjid "
                         "AND c2.relkind IN (" CppAsString2(RELKIND_MATVIEW) ","
                         CppAsString2(RELKIND_VIEW) ") "
                         "WHERE d1.classid = 'pg_class'::regclass "
                         "UNION "
                         "SELECT w.objid, d3.refobjid, c3.relkind "
                         "FROM w "
                         "JOIN pg_rewrite r3 ON r3.ev_class = w.refobjid "
                         "JOIN pg_depend d3 ON d3.classid = 'pg_rewrite'::regclass "
                         "AND d3.objid = r3.oid "
                         "AND d3.refobjid <> w.refobjid "
                         "JOIN pg_class c3 ON c3.oid = d3.refobjid "
                         "AND c3.relkind IN (" CppAsString2(RELKIND_MATVIEW) ","
                         CppAsString2(RELKIND_VIEW) ") "
                         ") "
                         "SELECT 'pg_class'::regclass::oid AS classid, objid, refobjid "
                         "FROM w "
                         "WHERE refrelkind = " CppAsString2(RELKIND_MATVIEW));

    res = ExecuteSqlQuery(fout, query->data, PGRES_TUPLES_OK);

    ntups = PQntuples(res);

    i_classid = PQfnumber(res, "classid");
    i_objid = PQfnumber(res, "objid");
    i_refobjid = PQfnumber(res, "refobjid");

    for (i = 0; i < ntups; i++)
    {
        CatalogId   objId;
        CatalogId   refobjId;
        DumpableObject *dobj;
        DumpableObject *refdobj;
        TableInfo  *tbinfo;
        TableInfo  *reftbinfo;

        objId.tableoid = atooid(PQgetvalue(res, i, i_classid));
        objId.oid = atooid(PQgetvalue(res, i, i_objid));
        refobjId.tableoid = objId.tableoid;
        refobjId.oid = atooid(PQgetvalue(res, i, i_refobjid));

        dobj = findObjectByCatalogId(objId);
        if (dobj == NULL)
            continue;

        Assert(dobj->objType == DO_TABLE);
        tbinfo = (TableInfo *) dobj;
        Assert(tbinfo->relkind == RELKIND_MATVIEW);
        dobj = (DumpableObject *) tbinfo->dataObj;
        if (dobj == NULL)
            continue;
        Assert(dobj->objType == DO_REFRESH_MATVIEW);

        refdobj = findObjectByCatalogId(refobjId);
        if (refdobj == NULL)
            continue;

        Assert(refdobj->objType == DO_TABLE);
        reftbinfo = (TableInfo *) refdobj;
        Assert(reftbinfo->relkind == RELKIND_MATVIEW);
        refdobj = (DumpableObject *) reftbinfo->dataObj;
        if (refdobj == NULL)
            continue;
        Assert(refdobj->objType == DO_REFRESH_MATVIEW);

        addObjectDependency(dobj, refdobj->dumpId);

        if (!reftbinfo->relispopulated)
            tbinfo->relispopulated = false;
    }

    PQclear(res);

    destroyPQExpBuffer(query);
}

/*
 * getTableDataFKConstraints -
 *    add dump-order dependencies reflecting foreign key constraints
 *
 * This code is executed only in a data-only dump --- in schema+data dumps
 * we handle foreign key issues by not creating the FK constraints until
 * after the data is loaded.  In a data-only dump, however, we want to
 * order the table data objects in such a way that a table's referenced
 * tables are restored first.  (In the presence of circular references or
 * self-references this may be impossible; we'll detect and complain about
 * that during the dependency sorting step.)
 */
static void
getTableDataFKConstraints(void)
{
    DumpableObject **dobjs;
    int         numObjs;
    int         i;

    /* Search through all the dumpable objects for FK constraints */
    getDumpableObjects(&dobjs, &numObjs);
    for (i = 0; i < numObjs; i++)
    {
        if (dobjs[i]->objType == DO_FK_CONSTRAINT)
        {
            ConstraintInfo *cinfo = (ConstraintInfo *) dobjs[i];
            TableInfo  *ftable;

            /* Not interesting unless both tables are to be dumped */
            if (cinfo->contable == NULL ||
                cinfo->contable->dataObj == NULL)
                continue;
            ftable = findTableByOid(cinfo->confrelid);
            if (ftable == NULL ||
                ftable->dataObj == NULL)
                continue;

            /*
             * Okay, make referencing table's TABLE_DATA object depend on the
             * referenced table's TABLE_DATA object.
             */
            addObjectDependency(&cinfo->contable->dataObj->dobj,
                                ftable->dataObj->dobj.dumpId);
        }
    }
    free(dobjs);
}


/*
 * guessConstraintInheritance:
 *  In pre-8.4 databases, we can't tell for certain which constraints
 *  are inherited.  We assume a CHECK constraint is inherited if its name
 *  matches the name of any constraint in the parent.  Originally this code
 *  tried to compare the expression texts, but that can fail for various
 *  reasons --- for example, if the parent and child tables are in different
 *  schemas, reverse-listing of function calls may produce different text
 *  (schema-qualified or not) depending on search path.
 *
 *  In 8.4 and up we can rely on the conislocal field to decide which
 *  constraints must be dumped; much safer.
 *
 *  This function assumes all conislocal flags were initialized to true.
 *  It clears the flag on anything that seems to be inherited.
 */
static void
guessConstraintInheritance(TableInfo *tblinfo, int numTables)
{
    int         i,
                j,
                k;

    for (i = 0; i < numTables; i++)
    {
        TableInfo  *tbinfo = &(tblinfo[i]);
        int         numParents;
        TableInfo **parents;
        TableInfo  *parent;

        /* Sequences and views never have parents */
        if (tbinfo->relkind == RELKIND_SEQUENCE ||
            tbinfo->relkind == RELKIND_VIEW)
            continue;

        /* Don't bother computing anything for non-target tables, either */
        if (!(tbinfo->dobj.dump & DUMP_COMPONENT_DEFINITION))
            continue;

        numParents = tbinfo->numParents;
        parents = tbinfo->parents;

        if (numParents == 0)
            continue;           /* nothing to see here, move along */

        /* scan for inherited CHECK constraints */
        for (j = 0; j < tbinfo->ncheck; j++)
        {
            ConstraintInfo *constr;

            constr = &(tbinfo->checkexprs[j]);

            for (k = 0; k < numParents; k++)
            {
                int         l;

                parent = parents[k];
                for (l = 0; l < parent->ncheck; l++)
                {
                    ConstraintInfo *pconstr = &(parent->checkexprs[l]);

                    if (strcmp(pconstr->dobj.name, constr->dobj.name) == 0)
                    {
                        constr->conislocal = false;
                        break;
                    }
                }
                if (!constr->conislocal)
                    break;
            }
        }
    }
}


/*
 * dumpDatabase:
 *  dump the database definition
 */
static void
dumpDatabase(Archive *fout)
{
    DumpOptions *dopt = fout->dopt;
    PQExpBuffer dbQry = createPQExpBuffer();
    PQExpBuffer delQry = createPQExpBuffer();
    PQExpBuffer creaQry = createPQExpBuffer();
    PQExpBuffer labelq = createPQExpBuffer();
    PGconn     *conn = GetConnection(fout);
    PGresult   *res;
    int         i_tableoid,
                i_oid,
                i_datname,
                i_dba,
                i_encoding,
                i_collate,
                i_ctype,
                i_frozenxid,
                i_minmxid,
                i_datacl,
                i_rdatacl,
                i_datistemplate,
                i_datconnlimit,
                i_tablespace;
    CatalogId   dbCatId;
    DumpId      dbDumpId;
    const char *datname,
               *dba,
               *encoding,
               *collate,
               *ctype,
               *datacl,
               *rdatacl,
               *datistemplate,
               *datconnlimit,
               *tablespace;
    uint32      frozenxid,
                minmxid;
    char       *qdatname;

    pg_log_info("saving database definition");

    /*
     * Fetch the database-level properties for this database.
     *
     * The order in which privileges are in the ACL string (the order they
     * have been GRANT'd in, which the backend maintains) must be preserved to
     * ensure that GRANTs WITH GRANT OPTION and subsequent GRANTs based on
     * those are dumped in the correct order.  Note that initial privileges
     * (pg_init_privs) are not supported on databases, so this logic cannot
     * make use of buildACLQueries().
     */
    if (fout->remoteVersion >= 90600)
    {
        appendPQExpBuffer(dbQry, "SELECT tableoid, oid, datname, "
                          "(%s datdba) AS dba, "
                          "pg_encoding_to_char(encoding) AS encoding, "
                          "datcollate, datctype, datfrozenxid, datminmxid, "
                          "(SELECT array_agg(acl ORDER BY row_n) FROM "
                          "  (SELECT acl, row_n FROM "
                          "     unnest(coalesce(datacl,acldefault('d',datdba))) "
                          "     WITH ORDINALITY AS perm(acl,row_n) "
                          "   WHERE NOT EXISTS ( "
                          "     SELECT 1 "
                          "     FROM unnest(acldefault('d',datdba)) "
                          "       AS init(init_acl) "
                          "     WHERE acl = init_acl)) AS datacls) "
                          " AS datacl, "
                          "(SELECT array_agg(acl ORDER BY row_n) FROM "
                          "  (SELECT acl, row_n FROM "
                          "     unnest(acldefault('d',datdba)) "
                          "     WITH ORDINALITY AS initp(acl,row_n) "
                          "   WHERE NOT EXISTS ( "
                          "     SELECT 1 "
                          "     FROM unnest(coalesce(datacl,acldefault('d',datdba))) "
                          "       AS permp(orig_acl) "
                          "     WHERE acl = orig_acl)) AS rdatacls) "
                          " AS rdatacl, "
                          "datistemplate, datconnlimit, "
                          "(SELECT spcname FROM pg_tablespace t WHERE t.oid = dattablespace) AS tablespace, "
                          "shobj_description(oid, 'pg_database') AS description "

                          "FROM pg_database "
                          "WHERE datname = current_database()",
                          username_subquery);
    }
    else if (fout->remoteVersion >= 90300)
    {
        appendPQExpBuffer(dbQry, "SELECT tableoid, oid, datname, "
                          "(%s datdba) AS dba, "
                          "pg_encoding_to_char(encoding) AS encoding, "
                          "datcollate, datctype, datfrozenxid, datminmxid, "
                          "datacl, '' as rdatacl, datistemplate, datconnlimit, "
                          "(SELECT spcname FROM pg_tablespace t WHERE t.oid = dattablespace) AS tablespace, "
                          "shobj_description(oid, 'pg_database') AS description "

                          "FROM pg_database "
                          "WHERE datname = current_database()",
                          username_subquery);
    }
    else if (fout->remoteVersion >= 80400)
    {
        appendPQExpBuffer(dbQry, "SELECT tableoid, oid, datname, "
                          "(%s datdba) AS dba, "
                          "pg_encoding_to_char(encoding) AS encoding, "
                          "datcollate, datctype, datfrozenxid, 0 AS datminmxid, "
                          "datacl, '' as rdatacl, datistemplate, datconnlimit, "
                          "(SELECT spcname FROM pg_tablespace t WHERE t.oid = dattablespace) AS tablespace, "
                          "shobj_description(oid, 'pg_database') AS description "

                          "FROM pg_database "
                          "WHERE datname = current_database()",
                          username_subquery);
    }
    else if (fout->remoteVersion >= 80200)
    {
        appendPQExpBuffer(dbQry, "SELECT tableoid, oid, datname, "
                          "(%s datdba) AS dba, "
                          "pg_encoding_to_char(encoding) AS encoding, "
                          "NULL AS datcollate, NULL AS datctype, datfrozenxid, 0 AS datminmxid, "
                          "datacl, '' as rdatacl, datistemplate, datconnlimit, "
                          "(SELECT spcname FROM pg_tablespace t WHERE t.oid = dattablespace) AS tablespace, "
                          "shobj_description(oid, 'pg_database') AS description "

                          "FROM pg_database "
                          "WHERE datname = current_database()",
                          username_subquery);
    }
    else
    {
        appendPQExpBuffer(dbQry, "SELECT tableoid, oid, datname, "
                          "(%s datdba) AS dba, "
                          "pg_encoding_to_char(encoding) AS encoding, "
                          "NULL AS datcollate, NULL AS datctype, datfrozenxid, 0 AS datminmxid, "
                          "datacl, '' as rdatacl, datistemplate, "
                          "-1 as datconnlimit, "
                          "(SELECT spcname FROM pg_tablespace t WHERE t.oid = dattablespace) AS tablespace "
                          "FROM pg_database "
                          "WHERE datname = current_database()",
                          username_subquery);
    }

    res = ExecuteSqlQueryForSingleRow(fout, dbQry->data);

    i_tableoid = PQfnumber(res, "tableoid");
    i_oid = PQfnumber(res, "oid");
    i_datname = PQfnumber(res, "datname");
    i_dba = PQfnumber(res, "dba");
    i_encoding = PQfnumber(res, "encoding");
    i_collate = PQfnumber(res, "datcollate");
    i_ctype = PQfnumber(res, "datctype");
    i_frozenxid = PQfnumber(res, "datfrozenxid");
    i_minmxid = PQfnumber(res, "datminmxid");
    i_datacl = PQfnumber(res, "datacl");
    i_rdatacl = PQfnumber(res, "rdatacl");
    i_datistemplate = PQfnumber(res, "datistemplate");
    i_datconnlimit = PQfnumber(res, "datconnlimit");
    i_tablespace = PQfnumber(res, "tablespace");

    dbCatId.tableoid = atooid(PQgetvalue(res, 0, i_tableoid));
    dbCatId.oid = atooid(PQgetvalue(res, 0, i_oid));
    datname = PQgetvalue(res, 0, i_datname);
    dba = PQgetvalue(res, 0, i_dba);
    encoding = PQgetvalue(res, 0, i_encoding);
    collate = PQgetvalue(res, 0, i_collate);
    ctype = PQgetvalue(res, 0, i_ctype);
    frozenxid = atooid(PQgetvalue(res, 0, i_frozenxid));
    minmxid = atooid(PQgetvalue(res, 0, i_minmxid));
    datacl = PQgetvalue(res, 0, i_datacl);
    rdatacl = PQgetvalue(res, 0, i_rdatacl);
    datistemplate = PQgetvalue(res, 0, i_datistemplate);
    datconnlimit = PQgetvalue(res, 0, i_datconnlimit);
    tablespace = PQgetvalue(res, 0, i_tablespace);

    qdatname = pg_strdup(fmtId(datname));

    /*
     * Prepare the CREATE DATABASE command.  We must specify encoding, locale,
     * and tablespace since those can't be altered later.  Other DB properties
     * are left to the DATABASE PROPERTIES entry, so that they can be applied
     * after reconnecting to the target DB.
     */
    appendPQExpBuffer(creaQry, "CREATE DATABASE %s WITH TEMPLATE = template0",
                      qdatname);
    if (strlen(encoding) > 0)
    {
        appendPQExpBufferStr(creaQry, " ENCODING = ");
        appendStringLiteralAH(creaQry, encoding, fout);
    }
    if (strlen(collate) > 0)
    {
        appendPQExpBufferStr(creaQry, " LC_COLLATE = ");
        appendStringLiteralAH(creaQry, collate, fout);
    }
    if (strlen(ctype) > 0)
    {
        appendPQExpBufferStr(creaQry, " LC_CTYPE = ");
        appendStringLiteralAH(creaQry, ctype, fout);
    }

    /*
     * Note: looking at dopt->outputNoTablespaces here is completely the wrong
     * thing; the decision whether to specify a tablespace should be left till
     * pg_restore, so that pg_restore --no-tablespaces applies.  Ideally we'd
     * label the DATABASE entry with the tablespace and let the normal
     * tablespace selection logic work ... but CREATE DATABASE doesn't pay
     * attention to default_tablespace, so that won't work.
     */
    if (strlen(tablespace) > 0 && strcmp(tablespace, "pg_default") != 0 &&
        !dopt->outputNoTablespaces)
        appendPQExpBuffer(creaQry, " TABLESPACE = %s",
                          fmtId(tablespace));
    appendPQExpBufferStr(creaQry, ";\n");

    appendPQExpBuffer(delQry, "DROP DATABASE %s;\n",
                      qdatname);

    dbDumpId = createDumpId();

    ArchiveEntry(fout,
                 dbCatId,       /* catalog ID */
                 dbDumpId,      /* dump ID */
                 ARCHIVE_OPTS(.tag = datname,
                              .owner = dba,
                              .description = "DATABASE",
                              .section = SECTION_PRE_DATA,
                              .createStmt = creaQry->data,
                              .dropStmt = delQry->data));

    /* Compute correct tag for archive entry */
    appendPQExpBuffer(labelq, "DATABASE %s", qdatname);

    /* Dump DB comment if any */
    if (fout->remoteVersion >= 80200)
    {
        /*
         * 8.2 and up keep comments on shared objects in a shared table, so we
         * cannot use the dumpComment() code used for other database objects.
         * Be careful that the ArchiveEntry parameters match that function.
         */
        char       *comment = PQgetvalue(res, 0, PQfnumber(res, "description"));

        if (comment && *comment && !dopt->no_comments)
        {
            resetPQExpBuffer(dbQry);

            /*
             * Generates warning when loaded into a differently-named
             * database.
             */
            appendPQExpBuffer(dbQry, "COMMENT ON DATABASE %s IS ", qdatname);
            appendStringLiteralAH(dbQry, comment, fout);
            appendPQExpBufferStr(dbQry, ";\n");

            ArchiveEntry(fout, nilCatalogId, createDumpId(),
                         ARCHIVE_OPTS(.tag = labelq->data,
                                      .owner = dba,
                                      .description = "COMMENT",
                                      .section = SECTION_NONE,
                                      .createStmt = dbQry->data,
                                      .deps = &dbDumpId,
                                      .nDeps = 1));
        }
    }
    else
    {
        dumpComment(fout, "DATABASE", qdatname, NULL, dba,
                    dbCatId, 0, dbDumpId);
    }

    /* Dump DB security label, if enabled */
    if (!dopt->no_security_labels && fout->remoteVersion >= 90200)
    {
        PGresult   *shres;
        PQExpBuffer seclabelQry;

        seclabelQry = createPQExpBuffer();

        buildShSecLabelQuery(conn, "pg_database", dbCatId.oid, seclabelQry);
        shres = ExecuteSqlQuery(fout, seclabelQry->data, PGRES_TUPLES_OK);
        resetPQExpBuffer(seclabelQry);
        emitShSecLabels(conn, shres, seclabelQry, "DATABASE", datname);
        if (seclabelQry->len > 0)
            ArchiveEntry(fout, nilCatalogId, createDumpId(),
                         ARCHIVE_OPTS(.tag = labelq->data,
                                      .owner = dba,
                                      .description = "SECURITY LABEL",
                                      .section = SECTION_NONE,
                                      .createStmt = seclabelQry->data,
                                      .deps = &dbDumpId,
                                      .nDeps = 1));
        destroyPQExpBuffer(seclabelQry);
        PQclear(shres);
    }

    /*
     * Dump ACL if any.  Note that we do not support initial privileges
     * (pg_init_privs) on databases.
     */
    dumpACL(fout, dbCatId, dbDumpId, "DATABASE",
            qdatname, NULL, NULL,
            dba, datacl, rdatacl, "", "");

    /*
     * Now construct a DATABASE PROPERTIES archive entry to restore any
     * non-default database-level properties.  (The reason this must be
     * separate is that we cannot put any additional commands into the TOC
     * entry that has CREATE DATABASE.  pg_restore would execute such a group
     * in an implicit transaction block, and the backend won't allow CREATE
     * DATABASE in that context.)
     */
    resetPQExpBuffer(creaQry);
    resetPQExpBuffer(delQry);

    if (strlen(datconnlimit) > 0 && strcmp(datconnlimit, "-1") != 0)
        appendPQExpBuffer(creaQry, "ALTER DATABASE %s CONNECTION LIMIT = %s;\n",
                          qdatname, datconnlimit);

    if (strcmp(datistemplate, "t") == 0)
    {
        appendPQExpBuffer(creaQry, "ALTER DATABASE %s IS_TEMPLATE = true;\n",
                          qdatname);

        /*
         * The backend won't accept DROP DATABASE on a template database.  We
         * can deal with that by removing the template marking before the DROP
         * gets issued.  We'd prefer to use ALTER DATABASE IF EXISTS here, but
         * since no such command is currently supported, fake it with a direct
         * UPDATE on pg_database.
         */
        appendPQExpBufferStr(delQry, "UPDATE pg_catalog.pg_database "
                             "SET datistemplate = false WHERE datname = ");
        appendStringLiteralAH(delQry, datname, fout);
        appendPQExpBufferStr(delQry, ";\n");
    }

    /* Add database-specific SET options */
    dumpDatabaseConfig(fout, creaQry, datname, dbCatId.oid);

    /*
     * We stick this binary-upgrade query into the DATABASE PROPERTIES archive
     * entry, too, for lack of a better place.
     */
    if (dopt->binary_upgrade)
    {
        appendPQExpBufferStr(creaQry, "\n-- For binary upgrade, set datfrozenxid and datminmxid.\n");
        appendPQExpBuffer(creaQry, "UPDATE pg_catalog.pg_database\n"
                          "SET datfrozenxid = '%u', datminmxid = '%u'\n"
                          "WHERE datname = ",
                          frozenxid, minmxid);
        appendStringLiteralAH(creaQry, datname, fout);
        appendPQExpBufferStr(creaQry, ";\n");
    }

    if (creaQry->len > 0)
        ArchiveEntry(fout, nilCatalogId, createDumpId(),
                     ARCHIVE_OPTS(.tag = datname,
                                  .owner = dba,
                                  .description = "DATABASE PROPERTIES",
                                  .section = SECTION_PRE_DATA,
                                  .createStmt = creaQry->data,
                                  .dropStmt = delQry->data,
                                  .deps = &dbDumpId));

    /*
     * pg_largeobject comes from the old system intact, so set its
     * relfrozenxids and relminmxids.
     */
    if (dopt->binary_upgrade)
    {
        PGresult   *lo_res;
        PQExpBuffer loFrozenQry = createPQExpBuffer();
        PQExpBuffer loOutQry = createPQExpBuffer();
        int         i_relfrozenxid,
                    i_relminmxid;

        /*
         * pg_largeobject
         */
        if (fout->remoteVersion >= 90300)
            appendPQExpBuffer(loFrozenQry, "SELECT relfrozenxid, relminmxid\n"
                              "FROM pg_catalog.pg_class\n"
                              "WHERE oid = %u;\n",
                              LargeObjectRelationId);
        else
            appendPQExpBuffer(loFrozenQry, "SELECT relfrozenxid, 0 AS relminmxid\n"
                              "FROM pg_catalog.pg_class\n"
                              "WHERE oid = %u;\n",
                              LargeObjectRelationId);

        lo_res = ExecuteSqlQueryForSingleRow(fout, loFrozenQry->data);

        i_relfrozenxid = PQfnumber(lo_res, "relfrozenxid");
        i_relminmxid = PQfnumber(lo_res, "relminmxid");

        appendPQExpBufferStr(loOutQry, "\n-- For binary upgrade, set pg_largeobject relfrozenxid and relminmxid\n");
        appendPQExpBuffer(loOutQry, "UPDATE pg_catalog.pg_class\n"
                          "SET relfrozenxid = '%u', relminmxid = '%u'\n"
                          "WHERE oid = %u;\n",
                          atooid(PQgetvalue(lo_res, 0, i_relfrozenxid)),
                          atooid(PQgetvalue(lo_res, 0, i_relminmxid)),
                          LargeObjectRelationId);
        ArchiveEntry(fout, nilCatalogId, createDumpId(),
                     ARCHIVE_OPTS(.tag = "pg_largeobject",
                                  .description = "pg_largeobject",
                                  .section = SECTION_PRE_DATA,
                                  .createStmt = loOutQry->data));

        PQclear(lo_res);

        destroyPQExpBuffer(loFrozenQry);
        destroyPQExpBuffer(loOutQry);
    }

    PQclear(res);

    free(qdatname);
    destroyPQExpBuffer(dbQry);
    destroyPQExpBuffer(delQry);
    destroyPQExpBuffer(creaQry);
    destroyPQExpBuffer(labelq);
}

/*
 * Collect any database-specific or role-and-database-specific SET options
 * for this database, and append them to outbuf.
 */
static void
dumpDatabaseConfig(Archive *AH, PQExpBuffer outbuf,
                   const char *dbname, Oid dboid)
{
    PGconn     *conn = GetConnection(AH);
    PQExpBuffer buf = createPQExpBuffer();
    PGresult   *res;
    int         count = 1;

    /*
     * First collect database-specific options.  Pre-8.4 server versions lack
     * unnest(), so we do this the hard way by querying once per subscript.
     */
    for (;;)
    {
        if (AH->remoteVersion >= 90000)
            printfPQExpBuffer(buf, "SELECT setconfig[%d] FROM pg_db_role_setting "
                              "WHERE setrole = 0 AND setdatabase = '%u'::oid",
                              count, dboid);
        else
            printfPQExpBuffer(buf, "SELECT datconfig[%d] FROM pg_database WHERE oid = '%u'::oid", count, dboid);

        res = ExecuteSqlQuery(AH, buf->data, PGRES_TUPLES_OK);

        if (PQntuples(res) == 1 &&
            !PQgetisnull(res, 0, 0))
        {
            makeAlterConfigCommand(conn, PQgetvalue(res, 0, 0),
                                   "DATABASE", dbname, NULL, NULL,
                                   outbuf);
            PQclear(res);
            count++;
        }
        else
        {
            PQclear(res);
            break;
        }
    }

    /* Now look for role-and-database-specific options */
    if (AH->remoteVersion >= 90000)
    {
        /* Here we can assume we have unnest() */
        printfPQExpBuffer(buf, "SELECT rolname, unnest(setconfig) "
                          "FROM pg_db_role_setting s, pg_roles r "
                          "WHERE setrole = r.oid AND setdatabase = '%u'::oid",
                          dboid);

        res = ExecuteSqlQuery(AH, buf->data, PGRES_TUPLES_OK);

        if (PQntuples(res) > 0)
        {
            int         i;

            for (i = 0; i < PQntuples(res); i++)
                makeAlterConfigCommand(conn, PQgetvalue(res, i, 1),
                                       "ROLE", PQgetvalue(res, i, 0),
                                       "DATABASE", dbname,
                                       outbuf);
        }

        PQclear(res);
    }

    destroyPQExpBuffer(buf);
}

/*
 * dumpEncoding: put the correct encoding into the archive
 */
static void
dumpEncoding(Archive *AH)
{
    const char *encname = pg_encoding_to_char(AH->encoding);
    PQExpBuffer qry = createPQExpBuffer();

    pg_log_info("saving encoding = %s", encname);

    appendPQExpBufferStr(qry, "SET client_encoding = ");
    appendStringLiteralAH(qry, encname, AH);
    appendPQExpBufferStr(qry, ";\n");

    ArchiveEntry(AH, nilCatalogId, createDumpId(),
                 ARCHIVE_OPTS(.tag = "ENCODING",
                              .description = "ENCODING",
                              .section = SECTION_PRE_DATA,
                              .createStmt = qry->data));

    destroyPQExpBuffer(qry);
}


/*
 * dumpStdStrings: put the correct escape string behavior into the archive
 */
static void
dumpStdStrings(Archive *AH)
{
    const char *stdstrings = AH->std_strings ? "on" : "off";
    PQExpBuffer qry = createPQExpBuffer();

    pg_log_info("saving standard_conforming_strings = %s",
                stdstrings);

    appendPQExpBuffer(qry, "SET standard_conforming_strings = '%s';\n",
                      stdstrings);

    ArchiveEntry(AH, nilCatalogId, createDumpId(),
                 ARCHIVE_OPTS(.tag = "STDSTRINGS",
                              .description = "STDSTRINGS",
                              .section = SECTION_PRE_DATA,
                              .createStmt = qry->data));

    destroyPQExpBuffer(qry);
}

/*
 * dumpSearchPath: record the active search_path in the archive
 */
static void
dumpSearchPath(Archive *AH)
{
    PQExpBuffer qry = createPQExpBuffer();
    PQExpBuffer path = createPQExpBuffer();
    PGresult   *res;
    char      **schemanames = NULL;
    int         nschemanames = 0;
    int         i;

    /*
     * We use the result of current_schemas(), not the search_path GUC,
     * because that might contain wildcards such as "$user", which won't
     * necessarily have the same value during restore.  Also, this way avoids
     * listing schemas that may appear in search_path but not actually exist,
     * which seems like a prudent exclusion.
     */
    res = ExecuteSqlQueryForSingleRow(AH,
                                      "SELECT pg_catalog.current_schemas(false)");

    if (!parsePGArray(PQgetvalue(res, 0, 0), &schemanames, &nschemanames))
        fatal("could not parse result of current_schemas()");

    /*
     * We use set_config(), not a simple "SET search_path" command, because
     * the latter has less-clean behavior if the search path is empty.  While
     * that's likely to get fixed at some point, it seems like a good idea to
     * be as backwards-compatible as possible in what we put into archives.
     */
    for (i = 0; i < nschemanames; i++)
    {
        if (i > 0)
            appendPQExpBufferStr(path, ", ");
        appendPQExpBufferStr(path, fmtId(schemanames[i]));
    }

    appendPQExpBufferStr(qry, "SELECT pg_catalog.set_config('search_path', ");
    appendStringLiteralAH(qry, path->data, AH);
    appendPQExpBufferStr(qry, ", false);\n");

    pg_log_info("saving search_path = %s", path->data);

    ArchiveEntry(AH, nilCatalogId, createDumpId(),
                 ARCHIVE_OPTS(.tag = "SEARCHPATH",
                              .description = "SEARCHPATH",
                              .section = SECTION_PRE_DATA,
                              .createStmt = qry->data));

    /* Also save it in AH->searchpath, in case we're doing plain text dump */
    AH->searchpath = pg_strdup(qry->data);

    if (schemanames)
        free(schemanames);
    PQclear(res);
    destroyPQExpBuffer(qry);
    destroyPQExpBuffer(path);
}


/*
 * getBlobs:
 *  Collect schema-level data about large objects
 */
static void
getBlobs(Archive *fout)
{
    DumpOptions *dopt = fout->dopt;
    PQExpBuffer blobQry = createPQExpBuffer();
    BlobInfo   *binfo;
    DumpableObject *bdata;
    PGresult   *res;
    int         ntups;
    int         i;
    int         i_oid;
    int         i_lomowner;
    int         i_lomacl;
    int         i_rlomacl;
    int         i_initlomacl;
    int         i_initrlomacl;

    pg_log_info("reading large objects");

    /* Fetch BLOB OIDs, and owner/ACL data if >= 9.0 */
    if (fout->remoteVersion >= 90600)
    {
        PQExpBuffer acl_subquery = createPQExpBuffer();
        PQExpBuffer racl_subquery = createPQExpBuffer();
        PQExpBuffer init_acl_subquery = createPQExpBuffer();
        PQExpBuffer init_racl_subquery = createPQExpBuffer();

        buildACLQueries(acl_subquery, racl_subquery, init_acl_subquery,
                        init_racl_subquery, "l.lomacl", "l.lomowner", "'L'",
                        dopt->binary_upgrade);

        appendPQExpBuffer(blobQry,
                          "SELECT l.oid, (%s l.lomowner) AS rolname, "
                          "%s AS lomacl, "
                          "%s AS rlomacl, "
                          "%s AS initlomacl, "
                          "%s AS initrlomacl "
                          "FROM pg_largeobject_metadata l "
                          "LEFT JOIN pg_init_privs pip ON "
                          "(l.oid = pip.objoid "
                          "AND pip.classoid = 'pg_largeobject'::regclass "
                          "AND pip.objsubid = 0) ",
                          username_subquery,
                          acl_subquery->data,
                          racl_subquery->data,
                          init_acl_subquery->data,
                          init_racl_subquery->data);

        destroyPQExpBuffer(acl_subquery);
        destroyPQExpBuffer(racl_subquery);
        destroyPQExpBuffer(init_acl_subquery);
        destroyPQExpBuffer(init_racl_subquery);
    }
    else if (fout->remoteVersion >= 90000)
        appendPQExpBuffer(blobQry,
                          "SELECT oid, (%s lomowner) AS rolname, lomacl, "
                          "NULL AS rlomacl, NULL AS initlomacl, "
                          "NULL AS initrlomacl "
                          " FROM pg_largeobject_metadata",
                          username_subquery);
    else
        appendPQExpBufferStr(blobQry,
                             "SELECT DISTINCT loid AS oid, "
                             "NULL::name AS rolname, NULL::oid AS lomacl, "
                             "NULL::oid AS rlomacl, NULL::oid AS initlomacl, "
                             "NULL::oid AS initrlomacl "
                             " FROM pg_largeobject");

    res = ExecuteSqlQuery(fout, blobQry->data, PGRES_TUPLES_OK);

    i_oid = PQfnumber(res, "oid");
    i_lomowner = PQfnumber(res, "rolname");
    i_lomacl = PQfnumber(res, "lomacl");
    i_rlomacl = PQfnumber(res, "rlomacl");
    i_initlomacl = PQfnumber(res, "initlomacl");
    i_initrlomacl = PQfnumber(res, "initrlomacl");

    ntups = PQntuples(res);

    /*
     * Each large object has its own BLOB archive entry.
     */
    binfo = (BlobInfo *) pg_malloc(ntups * sizeof(BlobInfo));

    for (i = 0; i < ntups; i++)
    {
        binfo[i].dobj.objType = DO_BLOB;
        binfo[i].dobj.catId.tableoid = LargeObjectRelationId;
        binfo[i].dobj.catId.oid = atooid(PQgetvalue(res, i, i_oid));
        AssignDumpId(&binfo[i].dobj);

        binfo[i].dobj.name = pg_strdup(PQgetvalue(res, i, i_oid));
        binfo[i].rolname = pg_strdup(PQgetvalue(res, i, i_lomowner));
        binfo[i].blobacl = pg_strdup(PQgetvalue(res, i, i_lomacl));
        binfo[i].rblobacl = pg_strdup(PQgetvalue(res, i, i_rlomacl));
        binfo[i].initblobacl = pg_strdup(PQgetvalue(res, i, i_initlomacl));
        binfo[i].initrblobacl = pg_strdup(PQgetvalue(res, i, i_initrlomacl));

        if (PQgetisnull(res, i, i_lomacl) &&
            PQgetisnull(res, i, i_rlomacl) &&
            PQgetisnull(res, i, i_initlomacl) &&
            PQgetisnull(res, i, i_initrlomacl))
            binfo[i].dobj.dump &= ~DUMP_COMPONENT_ACL;

        /*
         * In binary-upgrade mode for blobs, we do *not* dump out the blob
         * data, as it will be copied by pg_upgrade, which simply copies the
         * pg_largeobject table. We *do* however dump out anything but the
         * data, as pg_upgrade copies just pg_largeobject, but not
         * pg_largeobject_metadata, after the dump is restored.
         */
        if (dopt->binary_upgrade)
            binfo[i].dobj.dump &= ~DUMP_COMPONENT_DATA;
    }

    /*
     * If we have any large objects, a "BLOBS" archive entry is needed. This
     * is just a placeholder for sorting; it carries no data now.
     */
    if (ntups > 0)
    {
        bdata = (DumpableObject *) pg_malloc(sizeof(DumpableObject));
        bdata->objType = DO_BLOB_DATA;
        bdata->catId = nilCatalogId;
        AssignDumpId(bdata);
        bdata->name = pg_strdup("BLOBS");
    }

    PQclear(res);
    destroyPQExpBuffer(blobQry);
}

/*
 * dumpBlob
 *
 * dump the definition (metadata) of the given large object
 */
static void
dumpBlob(Archive *fout, BlobInfo *binfo)
{
    PQExpBuffer cquery = createPQExpBuffer();
    PQExpBuffer dquery = createPQExpBuffer();

    appendPQExpBuffer(cquery,
                      "SELECT pg_catalog.lo_create('%s');\n",
                      binfo->dobj.name);

    appendPQExpBuffer(dquery,
                      "SELECT pg_catalog.lo_unlink('%s');\n",
                      binfo->dobj.name);

    if (binfo->dobj.dump & DUMP_COMPONENT_DEFINITION)
        ArchiveEntry(fout, binfo->dobj.catId, binfo->dobj.dumpId,
                     ARCHIVE_OPTS(.tag = binfo->dobj.name,
                                  .owner = binfo->rolname,
                                  .description = "BLOB",
                                  .section = SECTION_PRE_DATA,
                                  .createStmt = cquery->data,
                                  .dropStmt = dquery->data));

    /* Dump comment if any */
    if (binfo->dobj.dump & DUMP_COMPONENT_COMMENT)
        dumpComment(fout, "LARGE OBJECT", binfo->dobj.name,
                    NULL, binfo->rolname,
                    binfo->dobj.catId, 0, binfo->dobj.dumpId);

    /* Dump security label if any */
    if (binfo->dobj.dump & DUMP_COMPONENT_SECLABEL)
        dumpSecLabel(fout, "LARGE OBJECT", binfo->dobj.name,
                     NULL, binfo->rolname,
                     binfo->dobj.catId, 0, binfo->dobj.dumpId);

    /* Dump ACL if any */
    if (binfo->blobacl && (binfo->dobj.dump & DUMP_COMPONENT_ACL))
        dumpACL(fout, binfo->dobj.catId, binfo->dobj.dumpId, "LARGE OBJECT",
                binfo->dobj.name, NULL,
                NULL, binfo->rolname, binfo->blobacl, binfo->rblobacl,
                binfo->initblobacl, binfo->initrblobacl);

    destroyPQExpBuffer(cquery);
    destroyPQExpBuffer(dquery);
}

/*
 * dumpBlobs:
 *  dump the data contents of all large objects
 */
static int
dumpBlobs(Archive *fout, void *arg)
{
    const char *blobQry;
    const char *blobFetchQry;
    PGconn     *conn = GetConnection(fout);
    PGresult   *res;
    char        buf[LOBBUFSIZE];
    int         ntups;
    int         i;
    int         cnt;

    pg_log_info("saving large objects");

    /*
     * Currently, we re-fetch all BLOB OIDs using a cursor.  Consider scanning
     * the already-in-memory dumpable objects instead...
     */
    if (fout->remoteVersion >= 90000)
        blobQry =
            "DECLARE bloboid CURSOR FOR "
            "SELECT oid FROM pg_largeobject_metadata ORDER BY 1";
    else
        blobQry =
            "DECLARE bloboid CURSOR FOR "
            "SELECT DISTINCT loid FROM pg_largeobject ORDER BY 1";

    ExecuteSqlStatement(fout, blobQry);

    /* Command to fetch from cursor */
    blobFetchQry = "FETCH 1000 IN bloboid";

    do
    {
        /* Do a fetch */
        res = ExecuteSqlQuery(fout, blobFetchQry, PGRES_TUPLES_OK);

        /* Process the tuples, if any */
        ntups = PQntuples(res);
        for (i = 0; i < ntups; i++)
        {
            Oid         blobOid;
            int         loFd;

            blobOid = atooid(PQgetvalue(res, i, 0));
            /* Open the BLOB */
            loFd = lo_open(conn, blobOid, INV_READ);
            if (loFd == -1)
                fatal("could not open large object %u: %s",
                      blobOid, PQerrorMessage(conn));

            StartBlob(fout, blobOid);

            /* Now read it in chunks, sending data to archive */
            do
            {
                cnt = lo_read(conn, loFd, buf, LOBBUFSIZE);
                if (cnt < 0)
                    fatal("error reading large object %u: %s",
                          blobOid, PQerrorMessage(conn));

                WriteData(fout, buf, cnt);
            } while (cnt > 0);

            lo_close(conn, loFd);

            EndBlob(fout, blobOid);
        }

        PQclear(res);
    } while (ntups > 0);

    return 1;
}

/*
 * getPolicies
 *    get information about policies on a dumpable table.
 */
void
getPolicies(Archive *fout, TableInfo tblinfo[], int numTables)
{
    PQExpBuffer query;
    PGresult   *res;
    PolicyInfo *polinfo;
    int         i_oid;
    int         i_tableoid;
    int         i_polname;
    int         i_polcmd;
    int         i_polpermissive;
    int         i_polroles;
    int         i_polqual;
    int         i_polwithcheck;
    int         i,
                j,
                ntups;

    if (fout->remoteVersion < 90500)
        return;

    query = createPQExpBuffer();

    for (i = 0; i < numTables; i++)
    {
        TableInfo  *tbinfo = &tblinfo[i];

        /* Ignore row security on tables not to be dumped */
        if (!(tbinfo->dobj.dump & DUMP_COMPONENT_POLICY))
            continue;

        pg_log_info("reading row security enabled for table \"%s.%s\"",
                    tbinfo->dobj.namespace->dobj.name,
                    tbinfo->dobj.name);

        /*
         * Get row security enabled information for the table. We represent
         * RLS being enabled on a table by creating a PolicyInfo object with
         * null polname.
         */
        if (tbinfo->rowsec)
        {
            /*
             * Note: use tableoid 0 so that this object won't be mistaken for
             * something that pg_depend entries apply to.
             */
            polinfo = pg_malloc(sizeof(PolicyInfo));
            polinfo->dobj.objType = DO_POLICY;
            polinfo->dobj.catId.tableoid = 0;
            polinfo->dobj.catId.oid = tbinfo->dobj.catId.oid;
            AssignDumpId(&polinfo->dobj);
            polinfo->dobj.namespace = tbinfo->dobj.namespace;
            polinfo->dobj.name = pg_strdup(tbinfo->dobj.name);
            polinfo->poltable = tbinfo;
            polinfo->polname = NULL;
            polinfo->polcmd = '\0';
            polinfo->polpermissive = 0;
            polinfo->polroles = NULL;
            polinfo->polqual = NULL;
            polinfo->polwithcheck = NULL;
        }

        pg_log_info("reading policies for table \"%s.%s\"",
                    tbinfo->dobj.namespace->dobj.name,
                    tbinfo->dobj.name);

        resetPQExpBuffer(query);

        /* Get the policies for the table. */
        if (fout->remoteVersion >= 100000)
            appendPQExpBuffer(query,
                              "SELECT oid, tableoid, pol.polname, pol.polcmd, pol.polpermissive, "
                              "CASE WHEN pol.polroles = '{0}' THEN NULL ELSE "
                              "   pg_catalog.array_to_string(ARRAY(SELECT pg_catalog.quote_ident(rolname) from pg_catalog.pg_roles WHERE oid = ANY(pol.polroles)), ', ') END AS polroles, "
                              "pg_catalog.pg_get_expr(pol.polqual, pol.polrelid) AS polqual, "
                              "pg_catalog.pg_get_expr(pol.polwithcheck, pol.polrelid) AS polwithcheck "
                              "FROM pg_catalog.pg_policy pol "
                              "WHERE polrelid = '%u'",
                              tbinfo->dobj.catId.oid);
        else
            appendPQExpBuffer(query,
                              "SELECT oid, tableoid, pol.polname, pol.polcmd, 't' as polpermissive, "
                              "CASE WHEN pol.polroles = '{0}' THEN NULL ELSE "
                              "   pg_catalog.array_to_string(ARRAY(SELECT pg_catalog.quote_ident(rolname) from pg_catalog.pg_roles WHERE oid = ANY(pol.polroles)), ', ') END AS polroles, "
                              "pg_catalog.pg_get_expr(pol.polqual, pol.polrelid) AS polqual, "
                              "pg_catalog.pg_get_expr(pol.polwithcheck, pol.polrelid) AS polwithcheck "
                              "FROM pg_catalog.pg_policy pol "
                              "WHERE polrelid = '%u'",
                              tbinfo->dobj.catId.oid);
        res = ExecuteSqlQuery(fout, query->data, PGRES_TUPLES_OK);

        ntups = PQntuples(res);

        if (ntups == 0)
        {
            /*
             * No explicit policies to handle (only the default-deny policy,
             * which is handled as part of the table definition).  Clean up
             * and return.
             */
            PQclear(res);
            continue;
        }

        i_oid = PQfnumber(res, "oid");
        i_tableoid = PQfnumber(res, "tableoid");
        i_polname = PQfnumber(res, "polname");
        i_polcmd = PQfnumber(res, "polcmd");
        i_polpermissive = PQfnumber(res, "polpermissive");
        i_polroles = PQfnumber(res, "polroles");
        i_polqual = PQfnumber(res, "polqual");
        i_polwithcheck = PQfnumber(res, "polwithcheck");

        polinfo = pg_malloc(ntups * sizeof(PolicyInfo));

        for (j = 0; j < ntups; j++)
        {
            polinfo[j].dobj.objType = DO_POLICY;
            polinfo[j].dobj.catId.tableoid =
                atooid(PQgetvalue(res, j, i_tableoid));
            polinfo[j].dobj.catId.oid = atooid(PQgetvalue(res, j, i_oid));
            AssignDumpId(&polinfo[j].dobj);
            polinfo[j].dobj.namespace = tbinfo->dobj.namespace;
            polinfo[j].poltable = tbinfo;
            polinfo[j].polname = pg_strdup(PQgetvalue(res, j, i_polname));
            polinfo[j].dobj.name = pg_strdup(polinfo[j].polname);

            polinfo[j].polcmd = *(PQgetvalue(res, j, i_polcmd));
            polinfo[j].polpermissive = *(PQgetvalue(res, j, i_polpermissive)) == 't';

            if (PQgetisnull(res, j, i_polroles))
                polinfo[j].polroles = NULL;
            else
                polinfo[j].polroles = pg_strdup(PQgetvalue(res, j, i_polroles));

            if (PQgetisnull(res, j, i_polqual))
                polinfo[j].polqual = NULL;
            else
                polinfo[j].polqual = pg_strdup(PQgetvalue(res, j, i_polqual));

            if (PQgetisnull(res, j, i_polwithcheck))
                polinfo[j].polwithcheck = NULL;
            else
                polinfo[j].polwithcheck
                    = pg_strdup(PQgetvalue(res, j, i_polwithcheck));
        }
        PQclear(res);
    }
    destroyPQExpBuffer(query);
}

/*
 * dumpPolicy
 *    dump the definition of the given policy
 */
static void
dumpPolicy(Archive *fout, PolicyInfo *polinfo)
{
    DumpOptions *dopt = fout->dopt;
    TableInfo  *tbinfo = polinfo->poltable;
    PQExpBuffer query;
    PQExpBuffer delqry;
    const char *cmd;
    char       *tag;

    if (dopt->dataOnly)
        return;

    /*
     * If polname is NULL, then this record is just indicating that ROW LEVEL
     * SECURITY is enabled for the table. Dump as ALTER TABLE <table> ENABLE
     * ROW LEVEL SECURITY.
     */
    if (polinfo->polname == NULL)
    {
        query = createPQExpBuffer();

        appendPQExpBuffer(query, "ALTER TABLE %s ENABLE ROW LEVEL SECURITY;",
                          fmtQualifiedDumpable(tbinfo));

        /*
         * We must emit the ROW SECURITY object's dependency on its table
         * explicitly, because it will not match anything in pg_depend (unlike
         * the case for other PolicyInfo objects).
         */
        if (polinfo->dobj.dump & DUMP_COMPONENT_POLICY)
            ArchiveEntry(fout, polinfo->dobj.catId, polinfo->dobj.dumpId,
                         ARCHIVE_OPTS(.tag = polinfo->dobj.name,
                                      .namespace = polinfo->dobj.namespace->dobj.name,
                                      .owner = tbinfo->rolname,
                                      .description = "ROW SECURITY",
                                      .section = SECTION_POST_DATA,
                                      .createStmt = query->data,
                                      .deps = &(tbinfo->dobj.dumpId),
                                      .nDeps = 1));

        destroyPQExpBuffer(query);
        return;
    }

    if (polinfo->polcmd == '*')
        cmd = "";
    else if (polinfo->polcmd == 'r')
        cmd = " FOR SELECT";
    else if (polinfo->polcmd == 'a')
        cmd = " FOR INSERT";
    else if (polinfo->polcmd == 'w')
        cmd = " FOR UPDATE";
    else if (polinfo->polcmd == 'd')
        cmd = " FOR DELETE";
    else
    {
        pg_log_error("unexpected policy command type: %c",
                     polinfo->polcmd);
        exit_nicely(1);
    }

    query = createPQExpBuffer();
    delqry = createPQExpBuffer();

    appendPQExpBuffer(query, "CREATE POLICY %s", fmtId(polinfo->polname));

    appendPQExpBuffer(query, " ON %s%s%s", fmtQualifiedDumpable(tbinfo),
                      !polinfo->polpermissive ? " AS RESTRICTIVE" : "", cmd);

    if (polinfo->polroles != NULL)
        appendPQExpBuffer(query, " TO %s", polinfo->polroles);

    if (polinfo->polqual != NULL)
        appendPQExpBuffer(query, " USING (%s)", polinfo->polqual);

    if (polinfo->polwithcheck != NULL)
        appendPQExpBuffer(query, " WITH CHECK (%s)", polinfo->polwithcheck);

    appendPQExpBufferStr(query, ";\n");

    appendPQExpBuffer(delqry, "DROP POLICY %s", fmtId(polinfo->polname));
    appendPQExpBuffer(delqry, " ON %s;\n", fmtQualifiedDumpable(tbinfo));

    tag = psprintf("%s %s", tbinfo->dobj.name, polinfo->dobj.name);

    if (polinfo->dobj.dump & DUMP_COMPONENT_POLICY)
        ArchiveEntry(fout, polinfo->dobj.catId, polinfo->dobj.dumpId,
                     ARCHIVE_OPTS(.tag = tag,
                                  .namespace = polinfo->dobj.namespace->dobj.name,
                                  .owner = tbinfo->rolname,
                                  .description = "POLICY",
                                  .section = SECTION_POST_DATA,
                                  .createStmt = query->data,
                                  .dropStmt = delqry->data));

    free(tag);
    destroyPQExpBuffer(query);
    destroyPQExpBuffer(delqry);
}

/*
 * getPublications
 *    get information about publications
 */
void
getPublications(Archive *fout)
{
    DumpOptions *dopt = fout->dopt;
    PQExpBuffer query;
    PGresult   *res;
    PublicationInfo *pubinfo;
    int         i_tableoid;
    int         i_oid;
    int         i_pubname;
    int         i_rolname;
    int         i_puballtables;
    int         i_pubinsert;
    int         i_pubupdate;
    int         i_pubdelete;
    int         i_pubtruncate;
    int         i,
                ntups;

    if (dopt->no_publications || fout->remoteVersion < 100000)
        return;

    query = createPQExpBuffer();

    resetPQExpBuffer(query);

    /* Get the publications. */
    if (fout->remoteVersion >= 110000)
        appendPQExpBuffer(query,
                          "SELECT p.tableoid, p.oid, p.pubname, "
                          "(%s p.pubowner) AS rolname, "
                          "p.puballtables, p.pubinsert, p.pubupdate, p.pubdelete, p.pubtruncate "
                          "FROM pg_publication p",
                          username_subquery);
    else
        appendPQExpBuffer(query,
                          "SELECT p.tableoid, p.oid, p.pubname, "
                          "(%s p.pubowner) AS rolname, "
                          "p.puballtables, p.pubinsert, p.pubupdate, p.pubdelete, false AS pubtruncate "
                          "FROM pg_publication p",
                          username_subquery);

    res = ExecuteSqlQuery(fout, query->data, PGRES_TUPLES_OK);

    ntups = PQntuples(res);

    i_tableoid = PQfnumber(res, "tableoid");
    i_oid = PQfnumber(res, "oid");
    i_pubname = PQfnumber(res, "pubname");
    i_rolname = PQfnumber(res, "rolname");
    i_puballtables = PQfnumber(res, "puballtables");
    i_pubinsert = PQfnumber(res, "pubinsert");
    i_pubupdate = PQfnumber(res, "pubupdate");
    i_pubdelete = PQfnumber(res, "pubdelete");
    i_pubtruncate = PQfnumber(res, "pubtruncate");

    pubinfo = pg_malloc(ntups * sizeof(PublicationInfo));

    for (i = 0; i < ntups; i++)
    {
        pubinfo[i].dobj.objType = DO_PUBLICATION;
        pubinfo[i].dobj.catId.tableoid =
            atooid(PQgetvalue(res, i, i_tableoid));
        pubinfo[i].dobj.catId.oid = atooid(PQgetvalue(res, i, i_oid));
        AssignDumpId(&pubinfo[i].dobj);
        pubinfo[i].dobj.name = pg_strdup(PQgetvalue(res, i, i_pubname));
        pubinfo[i].rolname = pg_strdup(PQgetvalue(res, i, i_rolname));
        pubinfo[i].puballtables =
            (strcmp(PQgetvalue(res, i, i_puballtables), "t") == 0);
        pubinfo[i].pubinsert =
            (strcmp(PQgetvalue(res, i, i_pubinsert), "t") == 0);
        pubinfo[i].pubupdate =
            (strcmp(PQgetvalue(res, i, i_pubupdate), "t") == 0);
        pubinfo[i].pubdelete =
            (strcmp(PQgetvalue(res, i, i_pubdelete), "t") == 0);
        pubinfo[i].pubtruncate =
            (strcmp(PQgetvalue(res, i, i_pubtruncate), "t") == 0);

        if (strlen(pubinfo[i].rolname) == 0)
            pg_log_warning("owner of publication \"%s\" appears to be invalid",
                           pubinfo[i].dobj.name);

        /* Decide whether we want to dump it */
        selectDumpableObject(&(pubinfo[i].dobj), fout);
    }
    PQclear(res);

    destroyPQExpBuffer(query);
}

/*
 * dumpPublication
 *    dump the definition of the given publication
 */
static void
dumpPublication(Archive *fout, PublicationInfo *pubinfo)
{
    PQExpBuffer delq;
    PQExpBuffer query;
    char       *qpubname;
    bool        first = true;

    if (!(pubinfo->dobj.dump & DUMP_COMPONENT_DEFINITION))
        return;

    delq = createPQExpBuffer();
    query = createPQExpBuffer();

    qpubname = pg_strdup(fmtId(pubinfo->dobj.name));

    appendPQExpBuffer(delq, "DROP PUBLICATION %s;\n",
                      qpubname);

    appendPQExpBuffer(query, "CREATE PUBLICATION %s",
                      qpubname);

    if (pubinfo->puballtables)
        appendPQExpBufferStr(query, " FOR ALL TABLES");

    appendPQExpBufferStr(query, " WITH (publish = '");
    if (pubinfo->pubinsert)
    {
        appendPQExpBufferStr(query, "insert");
        first = false;
    }

    if (pubinfo->pubupdate)
    {
        if (!first)
            appendPQExpBufferStr(query, ", ");

        appendPQExpBufferStr(query, "update");
        first = false;
    }

    if (pubinfo->pubdelete)
    {
        if (!first)
            appendPQExpBufferStr(query, ", ");

        appendPQExpBufferStr(query, "delete");
        first = false;
    }

    if (pubinfo->pubtruncate)
    {
        if (!first)
            appendPQExpBufferStr(query, ", ");

        appendPQExpBufferStr(query, "truncate");
        first = false;
    }

    appendPQExpBufferStr(query, "');\n");

    ArchiveEntry(fout, pubinfo->dobj.catId, pubinfo->dobj.dumpId,
                 ARCHIVE_OPTS(.tag = pubinfo->dobj.name,
                              .owner = pubinfo->rolname,
                              .description = "PUBLICATION",
                              .section = SECTION_POST_DATA,
                              .createStmt = query->data,
                              .dropStmt = delq->data));

    if (pubinfo->dobj.dump & DUMP_COMPONENT_COMMENT)
        dumpComment(fout, "PUBLICATION", qpubname,
                    NULL, pubinfo->rolname,
                    pubinfo->dobj.catId, 0, pubinfo->dobj.dumpId);

    if (pubinfo->dobj.dump & DUMP_COMPONENT_SECLABEL)
        dumpSecLabel(fout, "PUBLICATION", qpubname,
                     NULL, pubinfo->rolname,
                     pubinfo->dobj.catId, 0, pubinfo->dobj.dumpId);

    destroyPQExpBuffer(delq);
    destroyPQExpBuffer(query);
    free(qpubname);
}

/*
 * getPublicationTables
 *    get information about publication membership for dumpable tables.
 */
void
getPublicationTables(Archive *fout, TableInfo tblinfo[], int numTables)
{
    PQExpBuffer query;
    PGresult   *res;
    PublicationRelInfo *pubrinfo;
    DumpOptions *dopt = fout->dopt;
    int         i_tableoid;
    int         i_oid;
    int         i_pubname;
    int         i,
                j,
                ntups;

    if (dopt->no_publications || fout->remoteVersion < 100000)
        return;

    query = createPQExpBuffer();

    for (i = 0; i < numTables; i++)
    {
        TableInfo  *tbinfo = &tblinfo[i];

        /* Only plain tables can be aded to publications. */
        if (tbinfo->relkind != RELKIND_RELATION)
            continue;

        /*
         * Ignore publication membership of tables whose definitions are not
         * to be dumped.
         */
        if (!(tbinfo->dobj.dump & DUMP_COMPONENT_DEFINITION))
            continue;

        pg_log_info("reading publication membership for table \"%s.%s\"",
                    tbinfo->dobj.namespace->dobj.name,
                    tbinfo->dobj.name);

        resetPQExpBuffer(query);

        /* Get the publication membership for the table. */
        appendPQExpBuffer(query,
                          "SELECT pr.tableoid, pr.oid, p.pubname "
                          "FROM pg_publication_rel pr, pg_publication p "
                          "WHERE pr.prrelid = '%u'"
                          "  AND p.oid = pr.prpubid",
                          tbinfo->dobj.catId.oid);
        res = ExecuteSqlQuery(fout, query->data, PGRES_TUPLES_OK);

        ntups = PQntuples(res);

        if (ntups == 0)
        {
            /*
             * Table is not member of any publications. Clean up and return.
             */
            PQclear(res);
            continue;
        }

        i_tableoid = PQfnumber(res, "tableoid");
        i_oid = PQfnumber(res, "oid");
        i_pubname = PQfnumber(res, "pubname");

        pubrinfo = pg_malloc(ntups * sizeof(PublicationRelInfo));

        for (j = 0; j < ntups; j++)
        {
            pubrinfo[j].dobj.objType = DO_PUBLICATION_REL;
            pubrinfo[j].dobj.catId.tableoid =
                atooid(PQgetvalue(res, j, i_tableoid));
            pubrinfo[j].dobj.catId.oid = atooid(PQgetvalue(res, j, i_oid));
            AssignDumpId(&pubrinfo[j].dobj);
            pubrinfo[j].dobj.namespace = tbinfo->dobj.namespace;
            pubrinfo[j].dobj.name = tbinfo->dobj.name;
            pubrinfo[j].pubname = pg_strdup(PQgetvalue(res, j, i_pubname));
            pubrinfo[j].pubtable = tbinfo;

            /* Decide whether we want to dump it */
            selectDumpablePublicationTable(&(pubrinfo[j].dobj), fout);
        }
        PQclear(res);
    }
    destroyPQExpBuffer(query);
}

/*
 * dumpPublicationTable
 *    dump the definition of the given publication table mapping
 */
static void
dumpPublicationTable(Archive *fout, PublicationRelInfo *pubrinfo)
{
    TableInfo  *tbinfo = pubrinfo->pubtable;
    PQExpBuffer query;
    char       *tag;

    if (!(pubrinfo->dobj.dump & DUMP_COMPONENT_DEFINITION))
        return;

    tag = psprintf("%s %s", pubrinfo->pubname, tbinfo->dobj.name);

    query = createPQExpBuffer();

    appendPQExpBuffer(query, "ALTER PUBLICATION %s ADD TABLE ONLY",
                      fmtId(pubrinfo->pubname));
    appendPQExpBuffer(query, " %s;\n",
                      fmtQualifiedDumpable(tbinfo));

    /*
     * There is no point in creating drop query as the drop is done by table
     * drop.
     */
    ArchiveEntry(fout, pubrinfo->dobj.catId, pubrinfo->dobj.dumpId,
                 ARCHIVE_OPTS(.tag = tag,
                              .namespace = tbinfo->dobj.namespace->dobj.name,
                              .description = "PUBLICATION TABLE",
                              .section = SECTION_POST_DATA,
                              .createStmt = query->data));

    free(tag);
    destroyPQExpBuffer(query);
}

/*
 * Is the currently connected user a superuser?
 */
static bool
is_superuser(Archive *fout)
{
    ArchiveHandle *AH = (ArchiveHandle *) fout;
    const char *val;

    val = PQparameterStatus(AH->connection, "is_superuser");

    if (val && strcmp(val, "on") == 0)
        return true;

    return false;
}

/*
 * getSubscriptions
 *    get information about subscriptions
 */
void
getSubscriptions(Archive *fout)
{
    DumpOptions *dopt = fout->dopt;
    PQExpBuffer query;
    PGresult   *res;
    SubscriptionInfo *subinfo;
    int         i_tableoid;
    int         i_oid;
    int         i_subname;
    int         i_rolname;
    int         i_subconninfo;
    int         i_subslotname;
    int         i_subsynccommit;
    int         i_subpublications;
    int         i,
                ntups;

    if (dopt->no_subscriptions || fout->remoteVersion < 100000)
        return;

    if (!is_superuser(fout))
    {
        int         n;

        res = ExecuteSqlQuery(fout,
                              "SELECT count(*) FROM pg_subscription "
                              "WHERE subdbid = (SELECT oid FROM pg_database"
                              "                 WHERE datname = current_database())",
                              PGRES_TUPLES_OK);
        n = atoi(PQgetvalue(res, 0, 0));
        if (n > 0)
            pg_log_warning("subscriptions not dumped because current user is not a superuser");
        PQclear(res);
        return;
    }

    query = createPQExpBuffer();

    resetPQExpBuffer(query);

    /* Get the subscriptions in current database. */
    appendPQExpBuffer(query,
                      "SELECT s.tableoid, s.oid, s.subname,"
                      "(%s s.subowner) AS rolname, "
                      " s.subconninfo, s.subslotname, s.subsynccommit, "
                      " s.subpublications "
                      "FROM pg_subscription s "
                      "WHERE s.subdbid = (SELECT oid FROM pg_database"
                      "                   WHERE datname = current_database())",
                      username_subquery);
    res = ExecuteSqlQuery(fout, query->data, PGRES_TUPLES_OK);

    ntups = PQntuples(res);

    i_tableoid = PQfnumber(res, "tableoid");
    i_oid = PQfnumber(res, "oid");
    i_subname = PQfnumber(res, "subname");
    i_rolname = PQfnumber(res, "rolname");
    i_subconninfo = PQfnumber(res, "subconninfo");
    i_subslotname = PQfnumber(res, "subslotname");
    i_subsynccommit = PQfnumber(res, "subsynccommit");
    i_subpublications = PQfnumber(res, "subpublications");

    subinfo = pg_malloc(ntups * sizeof(SubscriptionInfo));

    for (i = 0; i < ntups; i++)
    {
        subinfo[i].dobj.objType = DO_SUBSCRIPTION;
        subinfo[i].dobj.catId.tableoid =
            atooid(PQgetvalue(res, i, i_tableoid));
        subinfo[i].dobj.catId.oid = atooid(PQgetvalue(res, i, i_oid));
        AssignDumpId(&subinfo[i].dobj);
        subinfo[i].dobj.name = pg_strdup(PQgetvalue(res, i, i_subname));
        subinfo[i].rolname = pg_strdup(PQgetvalue(res, i, i_rolname));
        subinfo[i].subconninfo = pg_strdup(PQgetvalue(res, i, i_subconninfo));
        if (PQgetisnull(res, i, i_subslotname))
            subinfo[i].subslotname = NULL;
        else
            subinfo[i].subslotname = pg_strdup(PQgetvalue(res, i, i_subslotname));
        subinfo[i].subsynccommit =
            pg_strdup(PQgetvalue(res, i, i_subsynccommit));
        subinfo[i].subpublications =
            pg_strdup(PQgetvalue(res, i, i_subpublications));

        if (strlen(subinfo[i].rolname) == 0)
            pg_log_warning("owner of subscription \"%s\" appears to be invalid",
                           subinfo[i].dobj.name);

        /* Decide whether we want to dump it */
        selectDumpableObject(&(subinfo[i].dobj), fout);
    }
    PQclear(res);

    destroyPQExpBuffer(query);
}

/*
 * dumpSubscription
 *    dump the definition of the given subscription
 */
static void
dumpSubscription(Archive *fout, SubscriptionInfo *subinfo)
{
    PQExpBuffer delq;
    PQExpBuffer query;
    PQExpBuffer publications;
    char       *qsubname;
    char      **pubnames = NULL;
    int         npubnames = 0;
    int         i;

    if (!(subinfo->dobj.dump & DUMP_COMPONENT_DEFINITION))
        return;

    delq = createPQExpBuffer();
    query = createPQExpBuffer();

    qsubname = pg_strdup(fmtId(subinfo->dobj.name));

    appendPQExpBuffer(delq, "DROP SUBSCRIPTION %s;\n",
                      qsubname);

    appendPQExpBuffer(query, "CREATE SUBSCRIPTION %s CONNECTION ",
                      qsubname);
    appendStringLiteralAH(query, subinfo->subconninfo, fout);

    /* Build list of quoted publications and append them to query. */
    if (!parsePGArray(subinfo->subpublications, &pubnames, &npubnames))
    {
        pg_log_warning("could not parse subpublications array");
        if (pubnames)
            free(pubnames);
        pubnames = NULL;
        npubnames = 0;
    }

    publications = createPQExpBuffer();
    for (i = 0; i < npubnames; i++)
    {
        if (i > 0)
            appendPQExpBufferStr(publications, ", ");

        appendPQExpBufferStr(publications, fmtId(pubnames[i]));
    }

    appendPQExpBuffer(query, " PUBLICATION %s WITH (connect = false, slot_name = ", publications->data);
    if (subinfo->subslotname)
        appendStringLiteralAH(query, subinfo->subslotname, fout);
    else
        appendPQExpBufferStr(query, "NONE");

    if (strcmp(subinfo->subsynccommit, "off") != 0)
        appendPQExpBuffer(query, ", synchronous_commit = %s", fmtId(subinfo->subsynccommit));

    appendPQExpBufferStr(query, ");\n");

    ArchiveEntry(fout, subinfo->dobj.catId, subinfo->dobj.dumpId,
                 ARCHIVE_OPTS(.tag = subinfo->dobj.name,
                              .owner = subinfo->rolname,
                              .description = "SUBSCRIPTION",
                              .section = SECTION_POST_DATA,
                              .createStmt = query->data,
                              .dropStmt = delq->data));

    if (subinfo->dobj.dump & DUMP_COMPONENT_COMMENT)
        dumpComment(fout, "SUBSCRIPTION", qsubname,
                    NULL, subinfo->rolname,
                    subinfo->dobj.catId, 0, subinfo->dobj.dumpId);

    if (subinfo->dobj.dump & DUMP_COMPONENT_SECLABEL)
        dumpSecLabel(fout, "SUBSCRIPTION", qsubname,
                     NULL, subinfo->rolname,
                     subinfo->dobj.catId, 0, subinfo->dobj.dumpId);

    destroyPQExpBuffer(publications);
    if (pubnames)
        free(pubnames);

    destroyPQExpBuffer(delq);
    destroyPQExpBuffer(query);
    free(qsubname);
}

static void
binary_upgrade_set_type_oids_by_type_oid(Archive *fout,
                                         PQExpBuffer upgrade_buffer,
                                         Oid pg_type_oid,
                                         bool force_array_type)
{
    PQExpBuffer upgrade_query = createPQExpBuffer();
    PGresult   *res;
    Oid         pg_type_array_oid;

    appendPQExpBufferStr(upgrade_buffer, "\n-- For binary upgrade, must preserve pg_type oid\n");
    appendPQExpBuffer(upgrade_buffer,
                      "SELECT pg_catalog.binary_upgrade_set_next_pg_type_oid('%u'::pg_catalog.oid);\n\n",
                      pg_type_oid);

    /* we only support old >= 8.3 for binary upgrades */
    appendPQExpBuffer(upgrade_query,
                      "SELECT typarray "
                      "FROM pg_catalog.pg_type "
                      "WHERE oid = '%u'::pg_catalog.oid;",
                      pg_type_oid);

    res = ExecuteSqlQueryForSingleRow(fout, upgrade_query->data);

    pg_type_array_oid = atooid(PQgetvalue(res, 0, PQfnumber(res, "typarray")));

    PQclear(res);

    if (!OidIsValid(pg_type_array_oid) && force_array_type)
    {
        /*
         * If the old version didn't assign an array type, but the new version
         * does, we must select an unused type OID to assign.  This currently
         * only happens for domains, when upgrading pre-v11 to v11 and up.
         *
         * Note: local state here is kind of ugly, but we must have some,
         * since we mustn't choose the same unused OID more than once.
         */
        static Oid  next_possible_free_oid = FirstNormalObjectId;
        bool        is_dup;

        do
        {
            ++next_possible_free_oid;
            printfPQExpBuffer(upgrade_query,
                              "SELECT EXISTS(SELECT 1 "
                              "FROM pg_catalog.pg_type "
                              "WHERE oid = '%u'::pg_catalog.oid);",
                              next_possible_free_oid);
            res = ExecuteSqlQueryForSingleRow(fout, upgrade_query->data);
            is_dup = (PQgetvalue(res, 0, 0)[0] == 't');
            PQclear(res);
        } while (is_dup);

        pg_type_array_oid = next_possible_free_oid;
    }

    if (OidIsValid(pg_type_array_oid))
    {
        appendPQExpBufferStr(upgrade_buffer,
                             "\n-- For binary upgrade, must preserve pg_type array oid\n");
        appendPQExpBuffer(upgrade_buffer,
                          "SELECT pg_catalog.binary_upgrade_set_next_array_pg_type_oid('%u'::pg_catalog.oid);\n\n",
                          pg_type_array_oid);
    }

    destroyPQExpBuffer(upgrade_query);
}

static bool
binary_upgrade_set_type_oids_by_rel_oid(Archive *fout,
                                        PQExpBuffer upgrade_buffer,
                                        Oid pg_rel_oid)
{
    PQExpBuffer upgrade_query = createPQExpBuffer();
    PGresult   *upgrade_res;
    Oid         pg_type_oid;
    bool        toast_set = false;

    /*
     * We only support old >= 8.3 for binary upgrades.
     *
     * We purposefully ignore toast OIDs for partitioned tables; the reason is
     * that versions 10 and 11 have them, but 12 does not, so emitting them
     * causes the upgrade to fail.
     */
    appendPQExpBuffer(upgrade_query,
                      "SELECT c.reltype AS crel, t.reltype AS trel "
                      "FROM pg_catalog.pg_class c "
                      "LEFT JOIN pg_catalog.pg_class t ON "
                      "  (c.reltoastrelid = t.oid AND c.relkind <> '%c') "
                      "WHERE c.oid = '%u'::pg_catalog.oid;",
                      RELKIND_PARTITIONED_TABLE, pg_rel_oid);

    upgrade_res = ExecuteSqlQueryForSingleRow(fout, upgrade_query->data);

    pg_type_oid = atooid(PQgetvalue(upgrade_res, 0, PQfnumber(upgrade_res, "crel")));

    binary_upgrade_set_type_oids_by_type_oid(fout, upgrade_buffer,
                                             pg_type_oid, false);

    if (!PQgetisnull(upgrade_res, 0, PQfnumber(upgrade_res, "trel")))
    {
        /* Toast tables do not have pg_type array rows */
        Oid         pg_type_toast_oid = atooid(PQgetvalue(upgrade_res, 0,
                                                          PQfnumber(upgrade_res, "trel")));

        appendPQExpBufferStr(upgrade_buffer, "\n-- For binary upgrade, must preserve pg_type toast oid\n");
        appendPQExpBuffer(upgrade_buffer,
                          "SELECT pg_catalog.binary_upgrade_set_next_toast_pg_type_oid('%u'::pg_catalog.oid);\n\n",
                          pg_type_toast_oid);

        toast_set = true;
    }

    PQclear(upgrade_res);
    destroyPQExpBuffer(upgrade_query);

    return toast_set;
}

static void
binary_upgrade_set_pg_class_oids(Archive *fout,
                                 PQExpBuffer upgrade_buffer, Oid pg_class_oid,
                                 bool is_index)
{
    PQExpBuffer upgrade_query = createPQExpBuffer();
    PGresult   *upgrade_res;
    Oid         pg_class_reltoastrelid;
    Oid         pg_index_indexrelid;

    appendPQExpBuffer(upgrade_query,
                      "SELECT c.reltoastrelid, i.indexrelid "
                      "FROM pg_catalog.pg_class c LEFT JOIN "
                      "pg_catalog.pg_index i ON (c.reltoastrelid = i.indrelid AND i.indisvalid) "
                      "WHERE c.oid = '%u'::pg_catalog.oid;",
                      pg_class_oid);

    upgrade_res = ExecuteSqlQueryForSingleRow(fout, upgrade_query->data);

    pg_class_reltoastrelid = atooid(PQgetvalue(upgrade_res, 0, PQfnumber(upgrade_res, "reltoastrelid")));
    pg_index_indexrelid = atooid(PQgetvalue(upgrade_res, 0, PQfnumber(upgrade_res, "indexrelid")));

    appendPQExpBufferStr(upgrade_buffer,
                         "\n-- For binary upgrade, must preserve pg_class oids\n");

    if (!is_index)
    {
        appendPQExpBuffer(upgrade_buffer,
                          "SELECT pg_catalog.binary_upgrade_set_next_heap_pg_class_oid('%u'::pg_catalog.oid);\n",
                          pg_class_oid);
        /* only tables have toast tables, not indexes */
        if (OidIsValid(pg_class_reltoastrelid))
        {
            /*
             * One complexity is that the table definition might not require
             * the creation of a TOAST table, and the TOAST table might have
             * been created long after table creation, when the table was
             * loaded with wide data.  By setting the TOAST oid we force
             * creation of the TOAST heap and TOAST index by the backend so we
             * can cleanly copy the files during binary upgrade.
             */

            appendPQExpBuffer(upgrade_buffer,
                              "SELECT pg_catalog.binary_upgrade_set_next_toast_pg_class_oid('%u'::pg_catalog.oid);\n",
                              pg_class_reltoastrelid);

            /* every toast table has an index */
            appendPQExpBuffer(upgrade_buffer,
                              "SELECT pg_catalog.binary_upgrade_set_next_index_pg_class_oid('%u'::pg_catalog.oid);\n",
                              pg_index_indexrelid);
        }
    }
    else
        appendPQExpBuffer(upgrade_buffer,
                          "SELECT pg_catalog.binary_upgrade_set_next_index_pg_class_oid('%u'::pg_catalog.oid);\n",
                          pg_class_oid);

    appendPQExpBufferChar(upgrade_buffer, '\n');

    PQclear(upgrade_res);
    destroyPQExpBuffer(upgrade_query);
}

/*
 * If the DumpableObject is a member of an extension, add a suitable
 * ALTER EXTENSION ADD command to the creation commands in upgrade_buffer.
 *
 * For somewhat historical reasons, objname should already be quoted,
 * but not objnamespace (if any).
 */
static void
binary_upgrade_extension_member(PQExpBuffer upgrade_buffer,
                                DumpableObject *dobj,
                                const char *objtype,
                                const char *objname,
                                const char *objnamespace)
{
    DumpableObject *extobj = NULL;
    int         i;

    if (!dobj->ext_member)
        return;

    /*
     * Find the parent extension.  We could avoid this search if we wanted to
     * add a link field to DumpableObject, but the space costs of that would
     * be considerable.  We assume that member objects could only have a
     * direct dependency on their own extension, not any others.
     */
    for (i = 0; i < dobj->nDeps; i++)
    {
        extobj = findObjectByDumpId(dobj->dependencies[i]);
        if (extobj && extobj->objType == DO_EXTENSION)
            break;
        extobj = NULL;
    }
    if (extobj == NULL)
        fatal("could not find parent extension for %s %s",
              objtype, objname);

    appendPQExpBufferStr(upgrade_buffer,
                         "\n-- For binary upgrade, handle extension membership the hard way\n");
    appendPQExpBuffer(upgrade_buffer, "ALTER EXTENSION %s ADD %s ",
                      fmtId(extobj->name),
                      objtype);
    if (objnamespace && *objnamespace)
        appendPQExpBuffer(upgrade_buffer, "%s.", fmtId(objnamespace));
    appendPQExpBuffer(upgrade_buffer, "%s;\n", objname);
}

/*
 * getNamespaces:
 *    read all namespaces in the system catalogs and return them in the
 * NamespaceInfo* structure
 *
 *  numNamespaces is set to the number of namespaces read in
 */
NamespaceInfo *
getNamespaces(Archive *fout, int *numNamespaces)
{
    DumpOptions *dopt = fout->dopt;
    PGresult   *res;
    int         ntups;
    int         i;
    PQExpBuffer query;
    NamespaceInfo *nsinfo;
    int         i_tableoid;
    int         i_oid;
    int         i_nspname;
    int         i_rolname;
    int         i_nspacl;
    int         i_rnspacl;
    int         i_initnspacl;
    int         i_initrnspacl;

    query = createPQExpBuffer();

    /*
     * we fetch all namespaces including system ones, so that every object we
     * read in can be linked to a containing namespace.
     */
    if (fout->remoteVersion >= 90600)
    {
        PQExpBuffer acl_subquery = createPQExpBuffer();
        PQExpBuffer racl_subquery = createPQExpBuffer();
        PQExpBuffer init_acl_subquery = createPQExpBuffer();
        PQExpBuffer init_racl_subquery = createPQExpBuffer();

        buildACLQueries(acl_subquery, racl_subquery, init_acl_subquery,
                        init_racl_subquery, "n.nspacl", "n.nspowner", "'n'",
                        dopt->binary_upgrade);

        appendPQExpBuffer(query, "SELECT n.tableoid, n.oid, n.nspname, "
                          "(%s nspowner) AS rolname, "
                          "%s as nspacl, "
                          "%s as rnspacl, "
                          "%s as initnspacl, "
                          "%s as initrnspacl "
                          "FROM pg_namespace n "
                          "LEFT JOIN pg_init_privs pip "
                          "ON (n.oid = pip.objoid "
                          "AND pip.classoid = 'pg_namespace'::regclass "
                          "AND pip.objsubid = 0",
                          username_subquery,
                          acl_subquery->data,
                          racl_subquery->data,
                          init_acl_subquery->data,
                          init_racl_subquery->data);

        appendPQExpBufferStr(query, ") ");

        destroyPQExpBuffer(acl_subquery);
        destroyPQExpBuffer(racl_subquery);
        destroyPQExpBuffer(init_acl_subquery);
        destroyPQExpBuffer(init_racl_subquery);
    }
    else
        appendPQExpBuffer(query, "SELECT tableoid, oid, nspname, "
                          "(%s nspowner) AS rolname, "
                          "nspacl, NULL as rnspacl, "
                          "NULL AS initnspacl, NULL as initrnspacl "
                          "FROM pg_namespace",
                          username_subquery);

    res = ExecuteSqlQuery(fout, query->data, PGRES_TUPLES_OK);

    ntups = PQntuples(res);

    nsinfo = (NamespaceInfo *) pg_malloc(ntups * sizeof(NamespaceInfo));

    i_tableoid = PQfnumber(res, "tableoid");
    i_oid = PQfnumber(res, "oid");
    i_nspname = PQfnumber(res, "nspname");
    i_rolname = PQfnumber(res, "rolname");
    i_nspacl = PQfnumber(res, "nspacl");
    i_rnspacl = PQfnumber(res, "rnspacl");
    i_initnspacl = PQfnumber(res, "initnspacl");
    i_initrnspacl = PQfnumber(res, "initrnspacl");

    for (i = 0; i < ntups; i++)
    {
        nsinfo[i].dobj.objType = DO_NAMESPACE;
        nsinfo[i].dobj.catId.tableoid = atooid(PQgetvalue(res, i, i_tableoid));
        nsinfo[i].dobj.catId.oid = atooid(PQgetvalue(res, i, i_oid));
        AssignDumpId(&nsinfo[i].dobj);
        nsinfo[i].dobj.name = pg_strdup(PQgetvalue(res, i, i_nspname));
        nsinfo[i].rolname = pg_strdup(PQgetvalue(res, i, i_rolname));
        nsinfo[i].nspacl = pg_strdup(PQgetvalue(res, i, i_nspacl));
        nsinfo[i].rnspacl = pg_strdup(PQgetvalue(res, i, i_rnspacl));
        nsinfo[i].initnspacl = pg_strdup(PQgetvalue(res, i, i_initnspacl));
        nsinfo[i].initrnspacl = pg_strdup(PQgetvalue(res, i, i_initrnspacl));

        /* Decide whether to dump this namespace */
        selectDumpableNamespace(&nsinfo[i], fout);

        /*
         * Do not try to dump ACL if the ACL is empty or the default.
         *
         * This is useful because, for some schemas/objects, the only
         * component we are going to try and dump is the ACL and if we can
         * remove that then 'dump' goes to zero/false and we don't consider
         * this object for dumping at all later on.
         */
        if (PQgetisnull(res, i, i_nspacl) && PQgetisnull(res, i, i_rnspacl) &&
            PQgetisnull(res, i, i_initnspacl) &&
            PQgetisnull(res, i, i_initrnspacl))
            nsinfo[i].dobj.dump &= ~DUMP_COMPONENT_ACL;

        if (strlen(nsinfo[i].rolname) == 0)
            pg_log_warning("owner of schema \"%s\" appears to be invalid",
                           nsinfo[i].dobj.name);
    }

    PQclear(res);
    destroyPQExpBuffer(query);

    *numNamespaces = ntups;

    return nsinfo;
}

/*
 * findNamespace:
 *      given a namespace OID, look up the info read by getNamespaces
 */
static NamespaceInfo *
findNamespace(Archive *fout, Oid nsoid)
{
    NamespaceInfo *nsinfo;

    nsinfo = findNamespaceByOid(nsoid);
    if (nsinfo == NULL)
        fatal("schema with OID %u does not exist", nsoid);
    return nsinfo;
}

/*
 * getExtensions:
 *    read all extensions in the system catalogs and return them in the
 * ExtensionInfo* structure
 *
 *  numExtensions is set to the number of extensions read in
 */
ExtensionInfo *
getExtensions(Archive *fout, int *numExtensions)
{
    DumpOptions *dopt = fout->dopt;
    PGresult   *res;
    int         ntups;
    int         i;
    PQExpBuffer query;
    ExtensionInfo *extinfo;
    int         i_tableoid;
    int         i_oid;
    int         i_extname;
    int         i_nspname;
    int         i_extrelocatable;
    int         i_extversion;
    int         i_extconfig;
    int         i_extcondition;

    /*
     * Before 9.1, there are no extensions.
     */
    if (fout->remoteVersion < 90100)
    {
        *numExtensions = 0;
        return NULL;
    }

    query = createPQExpBuffer();

    appendPQExpBufferStr(query, "SELECT x.tableoid, x.oid, "
                         "x.extname, n.nspname, x.extrelocatable, x.extversion, x.extconfig, x.extcondition "
                         "FROM pg_extension x "
                         "JOIN pg_namespace n ON n.oid = x.extnamespace");

    res = ExecuteSqlQuery(fout, query->data, PGRES_TUPLES_OK);

    ntups = PQntuples(res);

    extinfo = (ExtensionInfo *) pg_malloc(ntups * sizeof(ExtensionInfo));

    i_tableoid = PQfnumber(res, "tableoid");
    i_oid = PQfnumber(res, "oid");
    i_extname = PQfnumber(res, "extname");
    i_nspname = PQfnumber(res, "nspname");
    i_extrelocatable = PQfnumber(res, "extrelocatable");
    i_extversion = PQfnumber(res, "extversion");
    i_extconfig = PQfnumber(res, "extconfig");
    i_extcondition = PQfnumber(res, "extcondition");

    for (i = 0; i < ntups; i++)
    {
        extinfo[i].dobj.objType = DO_EXTENSION;
        extinfo[i].dobj.catId.tableoid = atooid(PQgetvalue(res, i, i_tableoid));
        extinfo[i].dobj.catId.oid = atooid(PQgetvalue(res, i, i_oid));
        AssignDumpId(&extinfo[i].dobj);
        extinfo[i].dobj.name = pg_strdup(PQgetvalue(res, i, i_extname));
        extinfo[i].namespace = pg_strdup(PQgetvalue(res, i, i_nspname));
        extinfo[i].relocatable = *(PQgetvalue(res, i, i_extrelocatable)) == 't';
        extinfo[i].extversion = pg_strdup(PQgetvalue(res, i, i_extversion));
        extinfo[i].extconfig = pg_strdup(PQgetvalue(res, i, i_extconfig));
        extinfo[i].extcondition = pg_strdup(PQgetvalue(res, i, i_extcondition));

        /* Decide whether we want to dump it */
        selectDumpableExtension(&(extinfo[i]), dopt);
    }

    PQclear(res);
    destroyPQExpBuffer(query);

    *numExtensions = ntups;

    return extinfo;
}

/*
 * getTypes:
 *    read all types in the system catalogs and return them in the
 * TypeInfo* structure
 *
 *  numTypes is set to the number of types read in
 *
 * NB: this must run after getFuncs() because we assume we can do
 * findFuncByOid().
 */
TypeInfo *
getTypes(Archive *fout, int *numTypes)
{
    DumpOptions *dopt = fout->dopt;
    PGresult   *res;
    int         ntups;
    int         i;
    PQExpBuffer query = createPQExpBuffer();
    TypeInfo   *tyinfo;
    ShellTypeInfo *stinfo;
    int         i_tableoid;
    int         i_oid;
    int         i_typname;
    int         i_typnamespace;
    int         i_typacl;
    int         i_rtypacl;
    int         i_inittypacl;
    int         i_initrtypacl;
    int         i_rolname;
    int         i_typelem;
    int         i_typrelid;
    int         i_typrelkind;
    int         i_typtype;
    int         i_typisdefined;
    int         i_isarray;

    /*
     * we include even the built-in types because those may be used as array
     * elements by user-defined types
     *
     * we filter out the built-in types when we dump out the types
     *
     * same approach for undefined (shell) types and array types
     *
     * Note: as of 8.3 we can reliably detect whether a type is an
     * auto-generated array type by checking the element type's typarray.
     * (Before that the test is capable of generating false positives.) We
     * still check for name beginning with '_', though, so as to avoid the
     * cost of the subselect probe for all standard types.  This would have to
     * be revisited if the backend ever allows renaming of array types.
     */

    if (fout->remoteVersion >= 90600)
    {
        PQExpBuffer acl_subquery = createPQExpBuffer();
        PQExpBuffer racl_subquery = createPQExpBuffer();
        PQExpBuffer initacl_subquery = createPQExpBuffer();
        PQExpBuffer initracl_subquery = createPQExpBuffer();

        buildACLQueries(acl_subquery, racl_subquery, initacl_subquery,
                        initracl_subquery, "t.typacl", "t.typowner", "'T'",
                        dopt->binary_upgrade);

        appendPQExpBuffer(query, "SELECT t.tableoid, t.oid, t.typname, "
                          "t.typnamespace, "
                          "%s AS typacl, "
                          "%s AS rtypacl, "
                          "%s AS inittypacl, "
                          "%s AS initrtypacl, "
                          "(%s t.typowner) AS rolname, "
                          "t.typelem, t.typrelid, "
                          "CASE WHEN t.typrelid = 0 THEN ' '::\"char\" "
                          "ELSE (SELECT relkind FROM pg_class WHERE oid = t.typrelid) END AS typrelkind, "
                          "t.typtype, t.typisdefined, "
                          "t.typname[0] = '_' AND t.typelem != 0 AND "
                          "(SELECT typarray FROM pg_type te WHERE oid = t.typelem) = t.oid AS isarray "
                          "FROM pg_type t "
                          "LEFT JOIN pg_init_privs pip ON "
                          "(t.oid = pip.objoid "
                          "AND pip.classoid = 'pg_type'::regclass "
                          "AND pip.objsubid = 0) ",
                          acl_subquery->data,
                          racl_subquery->data,
                          initacl_subquery->data,
                          initracl_subquery->data,
                          username_subquery);

        destroyPQExpBuffer(acl_subquery);
        destroyPQExpBuffer(racl_subquery);
        destroyPQExpBuffer(initacl_subquery);
        destroyPQExpBuffer(initracl_subquery);
    }
    else if (fout->remoteVersion >= 90200)
    {
        appendPQExpBuffer(query, "SELECT tableoid, oid, typname, "
                          "typnamespace, typacl, NULL as rtypacl, "
                          "NULL AS inittypacl, NULL AS initrtypacl, "
                          "(%s typowner) AS rolname, "
                          "typelem, typrelid, "
                          "CASE WHEN typrelid = 0 THEN ' '::\"char\" "
                          "ELSE (SELECT relkind FROM pg_class WHERE oid = typrelid) END AS typrelkind, "
                          "typtype, typisdefined, "
                          "typname[0] = '_' AND typelem != 0 AND "
                          "(SELECT typarray FROM pg_type te WHERE oid = pg_type.typelem) = oid AS isarray "
                          "FROM pg_type",
                          username_subquery);
    }
    else if (fout->remoteVersion >= 80300)
    {
        appendPQExpBuffer(query, "SELECT tableoid, oid, typname, "
                          "typnamespace, NULL AS typacl, NULL as rtypacl, "
                          "NULL AS inittypacl, NULL AS initrtypacl, "
                          "(%s typowner) AS rolname, "
                          "typelem, typrelid, "
                          "CASE WHEN typrelid = 0 THEN ' '::\"char\" "
                          "ELSE (SELECT relkind FROM pg_class WHERE oid = typrelid) END AS typrelkind, "
                          "typtype, typisdefined, "
                          "typname[0] = '_' AND typelem != 0 AND "
                          "(SELECT typarray FROM pg_type te WHERE oid = pg_type.typelem) = oid AS isarray "
                          "FROM pg_type",
                          username_subquery);
    }
    else
    {
        appendPQExpBuffer(query, "SELECT tableoid, oid, typname, "
                          "typnamespace, NULL AS typacl, NULL as rtypacl, "
                          "NULL AS inittypacl, NULL AS initrtypacl, "
                          "(%s typowner) AS rolname, "
                          "typelem, typrelid, "
                          "CASE WHEN typrelid = 0 THEN ' '::\"char\" "
                          "ELSE (SELECT relkind FROM pg_class WHERE oid = typrelid) END AS typrelkind, "
                          "typtype, typisdefined, "
                          "typname[0] = '_' AND typelem != 0 AS isarray "
                          "FROM pg_type",
                          username_subquery);
    }

    res = ExecuteSqlQuery(fout, query->data, PGRES_TUPLES_OK);

    ntups = PQntuples(res);

    tyinfo = (TypeInfo *) pg_malloc(ntups * sizeof(TypeInfo));

    i_tableoid = PQfnumber(res, "tableoid");
    i_oid = PQfnumber(res, "oid");
    i_typname = PQfnumber(res, "typname");
    i_typnamespace = PQfnumber(res, "typnamespace");
    i_typacl = PQfnumber(res, "typacl");
    i_rtypacl = PQfnumber(res, "rtypacl");
    i_inittypacl = PQfnumber(res, "inittypacl");
    i_initrtypacl = PQfnumber(res, "initrtypacl");
    i_rolname = PQfnumber(res, "rolname");
    i_typelem = PQfnumber(res, "typelem");
    i_typrelid = PQfnumber(res, "typrelid");
    i_typrelkind = PQfnumber(res, "typrelkind");
    i_typtype = PQfnumber(res, "typtype");
    i_typisdefined = PQfnumber(res, "typisdefined");
    i_isarray = PQfnumber(res, "isarray");

    for (i = 0; i < ntups; i++)
    {
        tyinfo[i].dobj.objType = DO_TYPE;
        tyinfo[i].dobj.catId.tableoid = atooid(PQgetvalue(res, i, i_tableoid));
        tyinfo[i].dobj.catId.oid = atooid(PQgetvalue(res, i, i_oid));
        AssignDumpId(&tyinfo[i].dobj);
        tyinfo[i].dobj.name = pg_strdup(PQgetvalue(res, i, i_typname));
        tyinfo[i].dobj.namespace =
            findNamespace(fout,
                          atooid(PQgetvalue(res, i, i_typnamespace)));
        tyinfo[i].rolname = pg_strdup(PQgetvalue(res, i, i_rolname));
        tyinfo[i].typacl = pg_strdup(PQgetvalue(res, i, i_typacl));
        tyinfo[i].rtypacl = pg_strdup(PQgetvalue(res, i, i_rtypacl));
        tyinfo[i].inittypacl = pg_strdup(PQgetvalue(res, i, i_inittypacl));
        tyinfo[i].initrtypacl = pg_strdup(PQgetvalue(res, i, i_initrtypacl));
        tyinfo[i].typelem = atooid(PQgetvalue(res, i, i_typelem));
        tyinfo[i].typrelid = atooid(PQgetvalue(res, i, i_typrelid));
        tyinfo[i].typrelkind = *PQgetvalue(res, i, i_typrelkind);
        tyinfo[i].typtype = *PQgetvalue(res, i, i_typtype);
        tyinfo[i].shellType = NULL;

        if (strcmp(PQgetvalue(res, i, i_typisdefined), "t") == 0)
            tyinfo[i].isDefined = true;
        else
            tyinfo[i].isDefined = false;

        if (strcmp(PQgetvalue(res, i, i_isarray), "t") == 0)
            tyinfo[i].isArray = true;
        else
            tyinfo[i].isArray = false;

        /* Decide whether we want to dump it */
        selectDumpableType(&tyinfo[i], fout);

        /* Do not try to dump ACL if no ACL exists. */
        if (PQgetisnull(res, i, i_typacl) && PQgetisnull(res, i, i_rtypacl) &&
            PQgetisnull(res, i, i_inittypacl) &&
            PQgetisnull(res, i, i_initrtypacl))
            tyinfo[i].dobj.dump &= ~DUMP_COMPONENT_ACL;

        /*
         * If it's a domain, fetch info about its constraints, if any
         */
        tyinfo[i].nDomChecks = 0;
        tyinfo[i].domChecks = NULL;
        if ((tyinfo[i].dobj.dump & DUMP_COMPONENT_DEFINITION) &&
            tyinfo[i].typtype == TYPTYPE_DOMAIN)
            getDomainConstraints(fout, &(tyinfo[i]));

        /*
         * If it's a base type, make a DumpableObject representing a shell
         * definition of the type.  We will need to dump that ahead of the I/O
         * functions for the type.  Similarly, range types need a shell
         * definition in case they have a canonicalize function.
         *
         * Note: the shell type doesn't have a catId.  You might think it
         * should copy the base type's catId, but then it might capture the
         * pg_depend entries for the type, which we don't want.
         */
        if ((tyinfo[i].dobj.dump & DUMP_COMPONENT_DEFINITION) &&
            (tyinfo[i].typtype == TYPTYPE_BASE ||
             tyinfo[i].typtype == TYPTYPE_RANGE))
        {
            stinfo = (ShellTypeInfo *) pg_malloc(sizeof(ShellTypeInfo));
            stinfo->dobj.objType = DO_SHELL_TYPE;
            stinfo->dobj.catId = nilCatalogId;
            AssignDumpId(&stinfo->dobj);
            stinfo->dobj.name = pg_strdup(tyinfo[i].dobj.name);
            stinfo->dobj.namespace = tyinfo[i].dobj.namespace;
            stinfo->baseType = &(tyinfo[i]);
            tyinfo[i].shellType = stinfo;

            /*
             * Initially mark the shell type as not to be dumped.  We'll only
             * dump it if the I/O or canonicalize functions need to be dumped;
             * this is taken care of while sorting dependencies.
             */
            stinfo->dobj.dump = DUMP_COMPONENT_NONE;
        }

        if (strlen(tyinfo[i].rolname) == 0)
            pg_log_warning("owner of data type \"%s\" appears to be invalid",
                           tyinfo[i].dobj.name);
    }

    *numTypes = ntups;

    PQclear(res);

    destroyPQExpBuffer(query);

    return tyinfo;
}

/*
 * getOperators:
 *    read all operators in the system catalogs and return them in the
 * OprInfo* structure
 *
 *  numOprs is set to the number of operators read in
 */
OprInfo *
getOperators(Archive *fout, int *numOprs)
{
    PGresult   *res;
    int         ntups;
    int         i;
    PQExpBuffer query = createPQExpBuffer();
    OprInfo    *oprinfo;
    int         i_tableoid;
    int         i_oid;
    int         i_oprname;
    int         i_oprnamespace;
    int         i_rolname;
    int         i_oprkind;
    int         i_oprcode;

    /*
     * find all operators, including builtin operators; we filter out
     * system-defined operators at dump-out time.
     */

    appendPQExpBuffer(query, "SELECT tableoid, oid, oprname, "
                      "oprnamespace, "
                      "(%s oprowner) AS rolname, "
                      "oprkind, "
                      "oprcode::oid AS oprcode "
                      "FROM pg_operator",
                      username_subquery);

    res = ExecuteSqlQuery(fout, query->data, PGRES_TUPLES_OK);

    ntups = PQntuples(res);
    *numOprs = ntups;

    oprinfo = (OprInfo *) pg_malloc(ntups * sizeof(OprInfo));

    i_tableoid = PQfnumber(res, "tableoid");
    i_oid = PQfnumber(res, "oid");
    i_oprname = PQfnumber(res, "oprname");
    i_oprnamespace = PQfnumber(res, "oprnamespace");
    i_rolname = PQfnumber(res, "rolname");
    i_oprkind = PQfnumber(res, "oprkind");
    i_oprcode = PQfnumber(res, "oprcode");

    for (i = 0; i < ntups; i++)
    {
        oprinfo[i].dobj.objType = DO_OPERATOR;
        oprinfo[i].dobj.catId.tableoid = atooid(PQgetvalue(res, i, i_tableoid));
        oprinfo[i].dobj.catId.oid = atooid(PQgetvalue(res, i, i_oid));
        AssignDumpId(&oprinfo[i].dobj);
        oprinfo[i].dobj.name = pg_strdup(PQgetvalue(res, i, i_oprname));
        oprinfo[i].dobj.namespace =
            findNamespace(fout,
                          atooid(PQgetvalue(res, i, i_oprnamespace)));
        oprinfo[i].rolname = pg_strdup(PQgetvalue(res, i, i_rolname));
        oprinfo[i].oprkind = (PQgetvalue(res, i, i_oprkind))[0];
        oprinfo[i].oprcode = atooid(PQgetvalue(res, i, i_oprcode));

        /* Decide whether we want to dump it */
        selectDumpableObject(&(oprinfo[i].dobj), fout);

        /* Operators do not currently have ACLs. */
        oprinfo[i].dobj.dump &= ~DUMP_COMPONENT_ACL;

        if (strlen(oprinfo[i].rolname) == 0)
            pg_log_warning("owner of operator \"%s\" appears to be invalid",
                           oprinfo[i].dobj.name);
    }

    PQclear(res);

    destroyPQExpBuffer(query);

    return oprinfo;
}

/*
 * getCollations:
 *    read all collations in the system catalogs and return them in the
 * CollInfo* structure
 *
 *  numCollations is set to the number of collations read in
 */
CollInfo *
getCollations(Archive *fout, int *numCollations)
{
    PGresult   *res;
    int         ntups;
    int         i;
    PQExpBuffer query;
    CollInfo   *collinfo;
    int         i_tableoid;
    int         i_oid;
    int         i_collname;
    int         i_collnamespace;
    int         i_rolname;

    /* Collations didn't exist pre-9.1 */
    if (fout->remoteVersion < 90100)
    {
        *numCollations = 0;
        return NULL;
    }

    query = createPQExpBuffer();

    /*
     * find all collations, including builtin collations; we filter out
     * system-defined collations at dump-out time.
     */

    appendPQExpBuffer(query, "SELECT tableoid, oid, collname, "
                      "collnamespace, "
                      "(%s collowner) AS rolname "
                      "FROM pg_collation",
                      username_subquery);

    res = ExecuteSqlQuery(fout, query->data, PGRES_TUPLES_OK);

    ntups = PQntuples(res);
    *numCollations = ntups;

    collinfo = (CollInfo *) pg_malloc(ntups * sizeof(CollInfo));

    i_tableoid = PQfnumber(res, "tableoid");
    i_oid = PQfnumber(res, "oid");
    i_collname = PQfnumber(res, "collname");
    i_collnamespace = PQfnumber(res, "collnamespace");
    i_rolname = PQfnumber(res, "rolname");

    for (i = 0; i < ntups; i++)
    {
        collinfo[i].dobj.objType = DO_COLLATION;
        collinfo[i].dobj.catId.tableoid = atooid(PQgetvalue(res, i, i_tableoid));
        collinfo[i].dobj.catId.oid = atooid(PQgetvalue(res, i, i_oid));
        AssignDumpId(&collinfo[i].dobj);
        collinfo[i].dobj.name = pg_strdup(PQgetvalue(res, i, i_collname));
        collinfo[i].dobj.namespace =
            findNamespace(fout,
                          atooid(PQgetvalue(res, i, i_collnamespace)));
        collinfo[i].rolname = pg_strdup(PQgetvalue(res, i, i_rolname));

        /* Decide whether we want to dump it */
        selectDumpableObject(&(collinfo[i].dobj), fout);

        /* Collations do not currently have ACLs. */
        collinfo[i].dobj.dump &= ~DUMP_COMPONENT_ACL;
    }

    PQclear(res);

    destroyPQExpBuffer(query);

    return collinfo;
}

/*
 * getConversions:
 *    read all conversions in the system catalogs and return them in the
 * ConvInfo* structure
 *
 *  numConversions is set to the number of conversions read in
 */
ConvInfo *
getConversions(Archive *fout, int *numConversions)
{
    PGresult   *res;
    int         ntups;
    int         i;
    PQExpBuffer query;
    ConvInfo   *convinfo;
    int         i_tableoid;
    int         i_oid;
    int         i_conname;
    int         i_connamespace;
    int         i_rolname;

    query = createPQExpBuffer();

    /*
     * find all conversions, including builtin conversions; we filter out
     * system-defined conversions at dump-out time.
     */

    appendPQExpBuffer(query, "SELECT tableoid, oid, conname, "
                      "connamespace, "
                      "(%s conowner) AS rolname "
                      "FROM pg_conversion",
                      username_subquery);

    res = ExecuteSqlQuery(fout, query->data, PGRES_TUPLES_OK);

    ntups = PQntuples(res);
    *numConversions = ntups;

    convinfo = (ConvInfo *) pg_malloc(ntups * sizeof(ConvInfo));

    i_tableoid = PQfnumber(res, "tableoid");
    i_oid = PQfnumber(res, "oid");
    i_conname = PQfnumber(res, "conname");
    i_connamespace = PQfnumber(res, "connamespace");
    i_rolname = PQfnumber(res, "rolname");

    for (i = 0; i < ntups; i++)
    {
        convinfo[i].dobj.objType = DO_CONVERSION;
        convinfo[i].dobj.catId.tableoid = atooid(PQgetvalue(res, i, i_tableoid));
        convinfo[i].dobj.catId.oid = atooid(PQgetvalue(res, i, i_oid));
        AssignDumpId(&convinfo[i].dobj);
        convinfo[i].dobj.name = pg_strdup(PQgetvalue(res, i, i_conname));
        convinfo[i].dobj.namespace =
            findNamespace(fout,
                          atooid(PQgetvalue(res, i, i_connamespace)));
        convinfo[i].rolname = pg_strdup(PQgetvalue(res, i, i_rolname));

        /* Decide whether we want to dump it */
        selectDumpableObject(&(convinfo[i].dobj), fout);

        /* Conversions do not currently have ACLs. */
        convinfo[i].dobj.dump &= ~DUMP_COMPONENT_ACL;
    }

    PQclear(res);

    destroyPQExpBuffer(query);

    return convinfo;
}

/*
 * getAccessMethods:
 *    read all user-defined access methods in the system catalogs and return
 *    them in the AccessMethodInfo* structure
 *
 *  numAccessMethods is set to the number of access methods read in
 */
AccessMethodInfo *
getAccessMethods(Archive *fout, int *numAccessMethods)
{
    PGresult   *res;
    int         ntups;
    int         i;
    PQExpBuffer query;
    AccessMethodInfo *aminfo;
    int         i_tableoid;
    int         i_oid;
    int         i_amname;
    int         i_amhandler;
    int         i_amtype;

    /* Before 9.6, there are no user-defined access methods */
    if (fout->remoteVersion < 90600)
    {
        *numAccessMethods = 0;
        return NULL;
    }

    query = createPQExpBuffer();

    /* Select all access methods from pg_am table */
    appendPQExpBufferStr(query, "SELECT tableoid, oid, amname, amtype, "
                         "amhandler::pg_catalog.regproc AS amhandler "
                         "FROM pg_am");

    res = ExecuteSqlQuery(fout, query->data, PGRES_TUPLES_OK);

    ntups = PQntuples(res);
    *numAccessMethods = ntups;

    aminfo = (AccessMethodInfo *) pg_malloc(ntups * sizeof(AccessMethodInfo));

    i_tableoid = PQfnumber(res, "tableoid");
    i_oid = PQfnumber(res, "oid");
    i_amname = PQfnumber(res, "amname");
    i_amhandler = PQfnumber(res, "amhandler");
    i_amtype = PQfnumber(res, "amtype");

    for (i = 0; i < ntups; i++)
    {
        aminfo[i].dobj.objType = DO_ACCESS_METHOD;
        aminfo[i].dobj.catId.tableoid = atooid(PQgetvalue(res, i, i_tableoid));
        aminfo[i].dobj.catId.oid = atooid(PQgetvalue(res, i, i_oid));
        AssignDumpId(&aminfo[i].dobj);
        aminfo[i].dobj.name = pg_strdup(PQgetvalue(res, i, i_amname));
        aminfo[i].dobj.namespace = NULL;
        aminfo[i].amhandler = pg_strdup(PQgetvalue(res, i, i_amhandler));
        aminfo[i].amtype = *(PQgetvalue(res, i, i_amtype));

        /* Decide whether we want to dump it */
        selectDumpableAccessMethod(&(aminfo[i]), fout);

        /* Access methods do not currently have ACLs. */
        aminfo[i].dobj.dump &= ~DUMP_COMPONENT_ACL;
    }

    PQclear(res);

    destroyPQExpBuffer(query);

    return aminfo;
}


/*
 * getOpclasses:
 *    read all opclasses in the system catalogs and return them in the
 * OpclassInfo* structure
 *
 *  numOpclasses is set to the number of opclasses read in
 */
OpclassInfo *
getOpclasses(Archive *fout, int *numOpclasses)
{
    PGresult   *res;
    int         ntups;
    int         i;
    PQExpBuffer query = createPQExpBuffer();
    OpclassInfo *opcinfo;
    int         i_tableoid;
    int         i_oid;
    int         i_opcname;
    int         i_opcnamespace;