/*------------------------------------------------------------------------- * * pg_dump.c * pg_dump is a utility for dumping out a postgres database * into a script file. * * Portions Copyright (c) 1996-2023, 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 #include #include #ifdef HAVE_TERMIOS_H #include #endif #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_authid_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_subscription.h" #include "catalog/pg_trigger_d.h" #include "catalog/pg_type_d.h" #include "common/connect.h" #include "common/relpath.h" #include "compress_io.h" #include "dumputils.h" #include "fe_utils/option_utils.h" #include "fe_utils/string_utils.h" #include "getopt_long.h" #include "libpq/libpq-fs.h" #include "parallel.h" #include "pg_backup_db.h" #include "pg_backup_utils.h" #include "pg_dump.h" #include "storage/block.h" typedef struct { Oid roleoid; /* role's OID */ const char *rolename; /* role's name */ } RoleNameItem; 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 { zeroIsError = 1, zeroAsStar = 2, zeroAsNone = 4 } OidOptions; /* global decls */ static bool dosync = true; /* Issue fsync() to make dump durable on disk. */ 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; static pg_compress_algorithm compression_algorithm = PG_COMPRESSION_NONE; /* * 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 SimpleStringList table_include_patterns_and_children = {NULL, NULL}; static SimpleOidList table_include_oids = {NULL, NULL}; static SimpleStringList table_exclude_patterns = {NULL, NULL}; static SimpleStringList table_exclude_patterns_and_children = {NULL, NULL}; static SimpleOidList table_exclude_oids = {NULL, NULL}; static SimpleStringList tabledata_exclude_patterns = {NULL, NULL}; static SimpleStringList tabledata_exclude_patterns_and_children = {NULL, NULL}; static SimpleOidList tabledata_exclude_oids = {NULL, NULL}; static SimpleStringList foreign_servers_include_patterns = {NULL, NULL}; static SimpleOidList foreign_servers_include_oids = {NULL, NULL}; static SimpleStringList extension_include_patterns = {NULL, NULL}; static SimpleOidList extension_include_oids = {NULL, NULL}; 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; /* sorted table of role names */ static RoleNameItem *rolenames = NULL; static int nrolenames = 0; /* sorted table of comments */ static CommentItem *comments = NULL; static int ncomments = 0; /* sorted table of security labels */ static SecLabelItem *seclabels = NULL; static int nseclabels = 0; /* * 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_extension_name_patterns(Archive *fout, SimpleStringList *patterns, SimpleOidList *oids, bool strict_names); static void expand_foreign_server_name_patterns(Archive *fout, SimpleStringList *patterns, SimpleOidList *oids); static void expand_table_name_patterns(Archive *fout, SimpleStringList *patterns, SimpleOidList *oids, bool strict_names, bool with_child_tables); static void prohibit_crossdb_refs(PGconn *conn, const char *dbname, const char *pattern); static NamespaceInfo *findNamespace(Oid nsoid); static void dumpTableData(Archive *fout, const TableDataInfo *tdinfo); static void refreshMatViewData(Archive *fout, const TableDataInfo *tdinfo); static const char *getRoleName(const char *roleoid_str); static void collectRoleNames(Archive *fout); static void getAdditionalACLs(Archive *fout); static void dumpCommentExtended(Archive *fout, const char *type, const char *name, const char *namespace, const char *owner, CatalogId catalogId, int subid, DumpId dumpId, const char *initdb_comment); static inline 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(Oid classoid, Oid objoid, CommentItem **items); static void collectComments(Archive *fout); 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(Oid classoid, Oid objoid, SecLabelItem **items); static void collectSecLabels(Archive *fout); static void dumpDumpableObject(Archive *fout, DumpableObject *dobj); static void dumpNamespace(Archive *fout, const NamespaceInfo *nspinfo); static void dumpExtension(Archive *fout, const ExtensionInfo *extinfo); static void dumpType(Archive *fout, const TypeInfo *tyinfo); static void dumpBaseType(Archive *fout, const TypeInfo *tyinfo); static void dumpEnumType(Archive *fout, const TypeInfo *tyinfo); static void dumpRangeType(Archive *fout, const TypeInfo *tyinfo); static void dumpUndefinedType(Archive *fout, const TypeInfo *tyinfo); static void dumpDomain(Archive *fout, const TypeInfo *tyinfo); static void dumpCompositeType(Archive *fout, const TypeInfo *tyinfo); static void dumpCompositeTypeColComments(Archive *fout, const TypeInfo *tyinfo, PGresult *res); static void dumpShellType(Archive *fout, const ShellTypeInfo *stinfo); static void dumpProcLang(Archive *fout, const ProcLangInfo *plang); static void dumpFunc(Archive *fout, const FuncInfo *finfo); static void dumpCast(Archive *fout, const CastInfo *cast); static void dumpTransform(Archive *fout, const TransformInfo *transform); static void dumpOpr(Archive *fout, const OprInfo *oprinfo); static void dumpAccessMethod(Archive *fout, const AccessMethodInfo *aminfo); static void dumpOpclass(Archive *fout, const OpclassInfo *opcinfo); static void dumpOpfamily(Archive *fout, const OpfamilyInfo *opfinfo); static void dumpCollation(Archive *fout, const CollInfo *collinfo); static void dumpConversion(Archive *fout, const ConvInfo *convinfo); static void dumpRule(Archive *fout, const RuleInfo *rinfo); static void dumpAgg(Archive *fout, const AggInfo *agginfo); static void dumpTrigger(Archive *fout, const TriggerInfo *tginfo); static void dumpEventTrigger(Archive *fout, const EventTriggerInfo *evtinfo); static void dumpTable(Archive *fout, const TableInfo *tbinfo); static void dumpTableSchema(Archive *fout, const TableInfo *tbinfo); static void dumpTableAttach(Archive *fout, const TableAttachInfo *attachinfo); static void dumpAttrDef(Archive *fout, const AttrDefInfo *adinfo); static void dumpSequence(Archive *fout, const TableInfo *tbinfo); static void dumpSequenceData(Archive *fout, const TableDataInfo *tdinfo); static void dumpIndex(Archive *fout, const IndxInfo *indxinfo); static void dumpIndexAttach(Archive *fout, const IndexAttachInfo *attachinfo); static void dumpStatisticsExt(Archive *fout, const StatsExtInfo *statsextinfo); static void dumpConstraint(Archive *fout, const ConstraintInfo *coninfo); static void dumpTableConstraintComment(Archive *fout, const ConstraintInfo *coninfo); static void dumpTSParser(Archive *fout, const TSParserInfo *prsinfo); static void dumpTSDictionary(Archive *fout, const TSDictInfo *dictinfo); static void dumpTSTemplate(Archive *fout, const TSTemplateInfo *tmplinfo); static void dumpTSConfig(Archive *fout, const TSConfigInfo *cfginfo); static void dumpForeignDataWrapper(Archive *fout, const FdwInfo *fdwinfo); static void dumpForeignServer(Archive *fout, const 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, const DefaultACLInfo *daclinfo); static DumpId dumpACL(Archive *fout, DumpId objDumpId, DumpId altDumpId, const char *type, const char *name, const char *subname, const char *nspname, const char *owner, const DumpableAcl *dacl); static void getDependencies(Archive *fout); static void BuildArchiveDependencies(Archive *fout); static void findDumpableDependencies(ArchiveHandle *AH, const DumpableObject *dobj, DumpId **dependencies, int *nDeps, int *allocDeps); static DumpableObject *createBoundaryObjects(void); static void addBoundaryDependencies(DumpableObject **dobjs, int numObjs, DumpableObject *boundaryObjs); static void addConstrChildIdxDeps(DumpableObject *dobj, const IndxInfo *refidx); 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(const FuncInfo *finfo, const char *funcargs, bool is_agg); static char *format_function_signature(Archive *fout, const FuncInfo *finfo, bool honor_quotes); static char *convertRegProcReference(const char *proc); static char *getFormattedOperatorName(const char *oproid); static char *convertTSFunction(Archive *fout, Oid funcOid); static const char *getFormattedTypeName(Archive *fout, Oid oid, OidOptions opts); static void getLOs(Archive *fout); static void dumpLO(Archive *fout, const LoInfo *loinfo); static int dumpLOs(Archive *fout, const void *arg); static void dumpPolicy(Archive *fout, const PolicyInfo *polinfo); static void dumpPublication(Archive *fout, const PublicationInfo *pubinfo); static void dumpPublicationTable(Archive *fout, const PublicationRelInfo *pubrinfo); static void dumpSubscription(Archive *fout, const SubscriptionInfo *subinfo); static void dumpDatabase(Archive *fout); 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, bool include_multirange_type); static void binary_upgrade_set_type_oids_by_rel(Archive *fout, PQExpBuffer upgrade_buffer, const TableInfo *tbinfo); 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, const DumpableObject *dobj, const char *objtype, const char *objname, const char *objnamespace); static const char *getAttrName(int attrnum, const 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 *AH); static TableInfo *getRootTableInfo(const TableInfo *tbinfo); static bool forcePartitionRootLoad(const 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; RestoreOptions *ropt; Archive *fout; /* the script file */ bool g_verbose = false; const char *dumpencoding = NULL; const char *dumpsnapshot = NULL; char *use_role = NULL; int numWorkers = 1; int plainText = 0; ArchiveFormat archiveFormat = archUnknown; ArchiveMode archiveMode; pg_compress_specification compression_spec = {0}; char *compression_detail = NULL; char *compression_algorithm_str = "none"; char *error_detail = NULL; bool user_compression_defined = false; static DumpOptions dopt; static struct option long_options[] = { {"data-only", no_argument, NULL, 'a'}, {"blobs", no_argument, NULL, 'b'}, {"large-objects", no_argument, NULL, 'b'}, {"no-blobs", no_argument, NULL, 'B'}, {"no-large-objects", no_argument, NULL, 'B'}, {"clean", no_argument, NULL, 'c'}, {"create", no_argument, NULL, 'C'}, {"dbname", required_argument, NULL, 'd'}, {"extension", required_argument, NULL, 'e'}, {"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-table-access-method", no_argument, &dopt.outputNoTableAm, 1}, {"no-tablespaces", no_argument, &dopt.outputNoTablespaces, 1}, {"quote-all-identifiers", no_argument, "e_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-subscriptions", no_argument, &dopt.no_subscriptions, 1}, {"no-toast-compression", no_argument, &dopt.no_toast_compression, 1}, {"no-unlogged-table-data", no_argument, &dopt.no_unlogged_table_data, 1}, {"no-sync", no_argument, NULL, 7}, {"on-conflict-do-nothing", no_argument, &dopt.do_nothing, 1}, {"rows-per-insert", required_argument, NULL, 10}, {"include-foreign-data", required_argument, NULL, 11}, {"table-and-children", required_argument, NULL, 12}, {"exclude-table-and-children", required_argument, NULL, 13}, {"exclude-table-data-and-children", required_argument, NULL, 14}, {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(); 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: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 LOs */ dopt.outputLOs = true; break; case 'B': /* Don't dump LOs */ dopt.dontOutputLOs = 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.cparams.dbname = pg_strdup(optarg); break; case 'e': /* include extension(s) */ simple_string_list_append(&extension_include_patterns, optarg); dopt.include_everything = false; 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.cparams.pghost = pg_strdup(optarg); break; case 'j': /* number of dump jobs */ if (!option_parse_int(optarg, "-j/--jobs", 1, PG_MAX_JOBS, &numWorkers)) exit_nicely(1); 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.cparams.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.cparams.username = pg_strdup(optarg); break; case 'v': /* verbose */ g_verbose = true; pg_logging_increase_verbosity(); break; case 'w': dopt.cparams.promptPassword = TRI_NO; break; case 'W': dopt.cparams.promptPassword = TRI_YES; break; case 'x': /* skip ACL dump */ dopt.aclsSkip = true; break; case 'Z': /* Compression */ parse_compress_options(optarg, &compression_algorithm_str, &compression_detail); user_compression_defined = true; 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; if (!option_parse_int(optarg, "--extra-float-digits", -15, 3, &extra_float_digits)) 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 */ if (!option_parse_int(optarg, "--rows-per-insert", 1, INT_MAX, &dopt.dump_inserts)) exit_nicely(1); break; case 11: /* include foreign data */ simple_string_list_append(&foreign_servers_include_patterns, optarg); break; case 12: /* include table(s) and their children */ simple_string_list_append(&table_include_patterns_and_children, optarg); dopt.include_everything = false; break; case 13: /* exclude table(s) and their children */ simple_string_list_append(&table_exclude_patterns_and_children, optarg); break; case 14: /* exclude data of table(s) and children */ simple_string_list_append(&tabledata_exclude_patterns_and_children, optarg); break; default: /* getopt_long already emitted a complaint */ pg_log_error_hint("Try \"%s --help\" for more information.", 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.cparams.dbname == NULL) dopt.cparams.dbname = argv[optind++]; /* Complain if any arguments remain */ if (optind < argc) { pg_log_error("too many command-line arguments (first is \"%s\")", argv[optind]); pg_log_error_hint("Try \"%s --help\" for more information.", progname); exit_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_fatal("options -s/--schema-only and -a/--data-only cannot be used together"); if (dopt.schemaOnly && foreign_servers_include_patterns.head != NULL) pg_fatal("options -s/--schema-only and --include-foreign-data cannot be used together"); if (numWorkers > 1 && foreign_servers_include_patterns.head != NULL) pg_fatal("option --include-foreign-data is not supported with parallel backup"); if (dopt.dataOnly && dopt.outputClean) pg_fatal("options -c/--clean and -a/--data-only cannot be used together"); if (dopt.if_exists && !dopt.outputClean) pg_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) pg_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 with gzip when * available, not the others. If gzip is not available, no compression is * done by default. */ if ((archiveFormat == archCustom || archiveFormat == archDirectory) && !user_compression_defined) { #ifdef HAVE_LIBZ compression_algorithm_str = "gzip"; #else compression_algorithm_str = "none"; #endif } /* * Compression options */ if (!parse_compress_algorithm(compression_algorithm_str, &compression_algorithm)) pg_fatal("unrecognized compression algorithm: \"%s\"", compression_algorithm_str); parse_compress_specification(compression_algorithm, compression_detail, &compression_spec); error_detail = validate_compress_specification(&compression_spec); if (error_detail != NULL) pg_fatal("invalid compression specification: %s", error_detail); error_detail = supports_compression(compression_spec); if (error_detail != NULL) pg_fatal("%s", error_detail); /* * Disable support for zstd workers for now - these are based on * threading, and it's unclear how it interacts with parallel dumps on * platforms where that relies on threads too (e.g. Windows). */ if (compression_spec.options & PG_COMPRESSION_OPTION_WORKERS) pg_log_warning("compression option \"%s\" is not currently supported by pg_dump", "workers"); /* * 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; /* Parallel backup only in the directory archive format so far */ if (archiveFormat != archDirectory && numWorkers > 1) pg_fatal("parallel backup only supported by the directory format"); /* Open the output file */ fout = CreateArchive(filename, archiveFormat, compression_spec, 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 9.2, and up to any minor release of * our own major version. (See also version check in pg_dumpall.c.) */ fout->minRemoteVersion = 90200; 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.cparams, false); setup_connection(fout, dumpencoding, dumpsnapshot, use_role); /* * 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; /* * Find the last built-in OID, if needed (prior to 8.1) * * With 8.1 and above, we can just use FirstNormalObjectId - 1. */ 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) pg_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 */ expand_table_name_patterns(fout, &table_include_patterns, &table_include_oids, strict_names, false); expand_table_name_patterns(fout, &table_include_patterns_and_children, &table_include_oids, strict_names, true); if ((table_include_patterns.head != NULL || table_include_patterns_and_children.head != NULL) && table_include_oids.head == NULL) pg_fatal("no matching tables were found"); expand_table_name_patterns(fout, &table_exclude_patterns, &table_exclude_oids, false, false); expand_table_name_patterns(fout, &table_exclude_patterns_and_children, &table_exclude_oids, false, true); expand_table_name_patterns(fout, &tabledata_exclude_patterns, &tabledata_exclude_oids, false, false); expand_table_name_patterns(fout, &tabledata_exclude_patterns_and_children, &tabledata_exclude_oids, false, true); expand_foreign_server_name_patterns(fout, &foreign_servers_include_patterns, &foreign_servers_include_oids); /* non-matching exclusion patterns aren't an error */ /* Expand extension selection patterns into OID lists */ if (extension_include_patterns.head != NULL) { expand_extension_name_patterns(fout, &extension_include_patterns, &extension_include_oids, strict_names); if (extension_include_oids.head == NULL) pg_fatal("no matching extensions were found"); } /* * Dumping LOs is the default for dumps where an inclusion switch is not * used (an "include everything" dump). -B can be used to exclude LOs * from those dumps. -b can be used to include LOs even when an inclusion * switch is used. * * -s means "schema only" and LOs are data, not schema, so we never * include LOs when -s is used. */ if (dopt.include_everything && !dopt.schemaOnly && !dopt.dontOutputLOs) dopt.outputLOs = true; /* * Collect role names so we can map object owner OIDs to names. */ collectRoleNames(fout); /* * Now scan the database and create DumpableObject structs for all the * objects we intend to dump. */ tblinfo = getSchemaData(fout, &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 LO * data or the associated metadata that resides in the pg_largeobject and * pg_largeobject_metadata tables, respectively. * * However, we do need to collect LO information as there may be comments * or other information on LOs that we do need to dump out. */ if (dopt.outputLOs || dopt.binary_upgrade) getLOs(fout); /* * Collect dependency data to assist in ordering the objects. */ getDependencies(fout); /* * Collect ACLs, comments, and security labels, if wanted. */ if (!dopt.aclsSkip) getAdditionalACLs(fout); if (!dopt.no_comments) collectComments(fout); if (!dopt.no_security_labels) collectSecLabels(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 entries for ENCODING, STDSTRINGS, and SEARCHPATH. */ 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->cparams.dbname = dopt.cparams.dbname ? pg_strdup(dopt.cparams.dbname) : NULL; ropt->cparams.pgport = dopt.cparams.pgport ? pg_strdup(dopt.cparams.pgport) : NULL; ropt->cparams.pghost = dopt.cparams.pghost ? pg_strdup(dopt.cparams.pghost) : NULL; ropt->cparams.username = dopt.cparams.username ? pg_strdup(dopt.cparams.username) : NULL; ropt->cparams.promptPassword = dopt.cparams.promptPassword; 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->noTableAm = dopt.outputNoTableAm; 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; ropt->compression_spec = compression_spec; 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=METHOD[:DETAIL]\n" " compress as specified\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, --large-objects include large objects in dump\n")); printf(_(" --blobs (same as --large-objects, deprecated)\n")); printf(_(" -B, --no-large-objects exclude large objects in dump\n")); printf(_(" --no-blobs (same as --no-large-objects, deprecated)\n")); printf(_(" -c, --clean clean (drop) database objects before recreating\n")); printf(_(" -C, --create include commands to create database in dump\n")); printf(_(" -e, --extension=PATTERN dump the specified extension(s) only\n")); printf(_(" -E, --encoding=ENCODING dump the data in encoding ENCODING\n")); printf(_(" -n, --schema=PATTERN dump the specified schema(s) only\n")); printf(_(" -N, --exclude-schema=PATTERN do NOT dump the specified 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=PATTERN dump only the specified table(s)\n")); printf(_(" -T, --exclude-table=PATTERN do NOT dump the specified 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-and-children=PATTERN\n" " do NOT dump the specified table(s), including\n" " child and partition tables\n")); printf(_(" --exclude-table-data=PATTERN do NOT dump data for the specified table(s)\n")); printf(_(" --exclude-table-data-and-children=PATTERN\n" " do NOT dump data for the specified table(s),\n" " including child and partition tables\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(_(" --include-foreign-data=PATTERN\n" " include data of foreign tables on foreign\n" " servers matching PATTERN\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-table-access-method do not dump table access methods\n")); printf(_(" --no-tablespaces do not dump tablespace assignments\n")); printf(_(" --no-toast-compression do not dump TOAST compression methods\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(_(" --table-and-children=PATTERN dump only the specified table(s), including\n" " child and partition tables\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 <%s>.\n"), PACKAGE_BUGREPORT); printf(_("%s home page: <%s>\n"), PACKAGE_NAME, PACKAGE_URL); } 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) pg_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) { 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 */ 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 ExecuteSqlStatement(AH, "SET extra_float_digits TO 3"); /* * Disable synchronized scanning, to prevent unpredictable changes in row * ordering across a dump and reload. */ 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) 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"); } /* * Initialize prepared-query state to "nothing prepared". We do this here * so that a parallel dump worker will have its own state. */ AH->is_prepared = (bool *) pg_malloc0(NUM_PREP_QUERIES * sizeof(bool)); /* * Start transaction-snapshot mode transaction to dump consistent data. */ ExecuteSqlStatement(AH, "BEGIN"); /* * 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"); /* * 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) { if (AH->isStandby && AH->remoteVersion < 100000) pg_fatal("parallel dumps from standby servers are not supported by this server version"); 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 leader 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 pg_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) { PQExpBufferData dbbuf; int dotcnt; appendPQExpBufferStr(query, "SELECT oid FROM pg_catalog.pg_namespace n\n"); initPQExpBuffer(&dbbuf); processSQLNamePattern(GetConnection(fout), query, cell->val, false, false, NULL, "n.nspname", NULL, NULL, &dbbuf, &dotcnt); if (dotcnt > 1) pg_fatal("improper qualified name (too many dotted names): %s", cell->val); else if (dotcnt == 1) prohibit_crossdb_refs(GetConnection(fout), dbbuf.data, cell->val); termPQExpBuffer(&dbbuf); res = ExecuteSqlQuery(fout, query->data, PGRES_TUPLES_OK); if (strict_names && PQntuples(res) == 0) pg_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 extensions matching the given list of patterns, * and append them to the given OID list. */ static void expand_extension_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) { int dotcnt; appendPQExpBufferStr(query, "SELECT oid FROM pg_catalog.pg_extension e\n"); processSQLNamePattern(GetConnection(fout), query, cell->val, false, false, NULL, "e.extname", NULL, NULL, NULL, &dotcnt); if (dotcnt > 0) pg_fatal("improper qualified name (too many dotted names): %s", cell->val); res = ExecuteSqlQuery(fout, query->data, PGRES_TUPLES_OK); if (strict_names && PQntuples(res) == 0) pg_fatal("no matching extensions 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 foreign servers matching the given list of patterns, * and append them to the given OID list. */ static void expand_foreign_server_name_patterns(Archive *fout, SimpleStringList *patterns, SimpleOidList *oids) { 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) { int dotcnt; appendPQExpBufferStr(query, "SELECT oid FROM pg_catalog.pg_foreign_server s\n"); processSQLNamePattern(GetConnection(fout), query, cell->val, false, false, NULL, "s.srvname", NULL, NULL, NULL, &dotcnt); if (dotcnt > 0) pg_fatal("improper qualified name (too many dotted names): %s", cell->val); res = ExecuteSqlQuery(fout, query->data, PGRES_TUPLES_OK); if (PQntuples(res) == 0) pg_fatal("no matching foreign servers 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, bool with_child_tables) { 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) { PQExpBufferData dbbuf; int dotcnt; /* * Query must remain ABSOLUTELY devoid of unqualified names. This * would be unnecessary given a pg_table_is_visible() variant taking a * search_path argument. * * For with_child_tables, we start with the basic query's results and * recursively search the inheritance tree to add child tables. */ if (with_child_tables) { appendPQExpBuffer(query, "WITH RECURSIVE partition_tree (relid) AS (\n"); } 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); initPQExpBuffer(&dbbuf); processSQLNamePattern(GetConnection(fout), query, cell->val, true, false, "n.nspname", "c.relname", NULL, "pg_catalog.pg_table_is_visible(c.oid)", &dbbuf, &dotcnt); if (dotcnt > 2) pg_fatal("improper relation name (too many dotted names): %s", cell->val); else if (dotcnt == 2) prohibit_crossdb_refs(GetConnection(fout), dbbuf.data, cell->val); termPQExpBuffer(&dbbuf); if (with_child_tables) { appendPQExpBuffer(query, "UNION" "\nSELECT i.inhrelid" "\nFROM partition_tree p" "\n JOIN pg_catalog.pg_inherits i" "\n ON p.relid OPERATOR(pg_catalog.=) i.inhparent" "\n)" "\nSELECT relid FROM partition_tree"); } 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) pg_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); } /* * Verifies that the connected database name matches the given database name, * and if not, dies with an error about the given pattern. * * The 'dbname' argument should be a literal name parsed from 'pattern'. */ static void prohibit_crossdb_refs(PGconn *conn, const char *dbname, const char *pattern) { const char *db; db = PQdb(conn); if (db == NULL) pg_fatal("You are currently not connected to a database."); if (strcmp(db, dbname) != 0) pg_fatal("cross-database references are not implemented: %s", pattern); } /* * 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 ACLs * dumped. (Any initial ACLs will be removed later, using data from * pg_init_privs, so that we'll dump only the delta from the extension's * initial setup.) * * 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. * * Note: it might be interesting someday to implement storage and delta * dumping of extension members' RLS policies and/or security labels. * However there is a pitfall for RLS policies: trying to dump them * requires getting a lock on their tables, and the calling user might not * have privileges for that. We need no lock to examine a table's ACLs, * so the current feature doesn't have a problem of that sort. */ 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); } return true; } /* * selectDumpableNamespace: policy-setting subroutine * Mark a namespace as to be dumped or not */ static void selectDumpableNamespace(NamespaceInfo *nsinfo, Archive *fout) { /* * DUMP_COMPONENT_DEFINITION typically implies a CREATE SCHEMA statement * and (for --clean) a DROP SCHEMA statement. (In the absence of * DUMP_COMPONENT_DEFINITION, this value is irrelevant.) */ nsinfo->create = true; /* * 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. * CREATE SCHEMA would fail, so its DUMP_COMPONENT_DEFINITION is just * a comment and an indication of ownership. If the owner is the * default, omit that superfluous DUMP_COMPONENT_DEFINITION. Before * v15, the default owner was BOOTSTRAP_SUPERUSERID. */ nsinfo->create = false; nsinfo->dobj.dump = DUMP_COMPONENT_ALL; if (nsinfo->nspowner == ROLE_PG_DATABASE_OWNER) nsinfo->dobj.dump &= ~DUMP_COMPONENT_DEFINITION; nsinfo->dobj.dump_contains = DUMP_COMPONENT_ALL; /* * Also, make like it has a comment even if it doesn't; this is so * that we'll emit a command to drop the comment, if appropriate. * (Without this, we'd not call dumpCommentExtended for it.) */ nsinfo->dobj.components |= DUMP_COMPONENT_COMMENT; } 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->isMultirange) { 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. No extensions are dumped * if include_everything is false (i.e., a --schema or --table switch was * given), except if --extension specifies a list of extensions to dump. */ 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 { /* check if there is a list of extensions to dump */ if (extension_include_oids.head != NULL) extinfo->dobj.dump = extinfo->dobj.dump_contains = simple_oid_list_member(&extension_include_oids, extinfo->dobj.catId.oid) ? DUMP_COMPONENT_ALL : DUMP_COMPONENT_NONE; else extinfo->dobj.dump = extinfo->dobj.dump_contains = dopt->include_everything ? DUMP_COMPONENT_ALL : DUMP_COMPONENT_NONE; } } /* * selectDumpablePublicationObject: policy-setting subroutine * Mark a publication object as to be dumped or not * * A publication can have schemas and tables which have schemas, but those are * ignored in decision making, because publications are only dumped when we are * dumping everything. */ static void selectDumpablePublicationObject(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; } /* * selectDumpableStatisticsObject: policy-setting subroutine * Mark an extended statistics object as to be dumped or not * * We dump an extended statistics object if the schema it's in and the table * it's for are being dumped. (This'll need more thought if statistics * objects ever support cross-table stats.) */ static void selectDumpableStatisticsObject(StatsExtInfo *sobj, Archive *fout) { if (checkExtensionMembership(&sobj->dobj, fout)) return; /* extension membership overrides all else */ sobj->dobj.dump = sobj->dobj.namespace->dobj.dump_contains; if (sobj->stattable == NULL || !(sobj->stattable->dobj.dump & DUMP_COMPONENT_DEFINITION)) sobj->dobj.dump = 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, const 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); /* * Use COPY (SELECT ...) TO when dumping a foreign table's data, and when * a filter condition was specified. For other cases a simple COPY * suffices. */ if (tdinfo->filtercond || tbinfo->relkind == RELKIND_FOREIGN_TABLE) { 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 ? 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, ©buf, 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_detail("Error message from server: %s", PQerrorMessage(conn)); pg_log_error_detail("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_detail("Error message from server: %s", PQerrorMessage(conn)); pg_log_error_detail("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, const void *dcontext) { TableDataInfo *tdinfo = (TableDataInfo *) dcontext; TableInfo *tbinfo = tdinfo->tdtable; DumpOptions *dopt = fout->dopt; PQExpBuffer q = createPQExpBuffer(); PQExpBuffer insertStmt = NULL; char *attgenerated; PGresult *res; int nfields, i; int rows_per_statement = dopt->dump_inserts; int rows_this_statement = 0; /* * If we're going to emit INSERTs with column names, the most efficient * way to deal with generated columns is to exclude them entirely. For * INSERTs without column names, we have to emit DEFAULT rather than the * actual column value --- but we can save a few cycles by fetching nulls * rather than the uninteresting-to-us value. */ attgenerated = (char *) pg_malloc(tbinfo->numatts * sizeof(char)); appendPQExpBufferStr(q, "DECLARE _pg_dump_cursor CURSOR FOR SELECT "); nfields = 0; for (i = 0; i < tbinfo->numatts; i++) { if (tbinfo->attisdropped[i]) continue; if (tbinfo->attgenerated[i] && dopt->column_inserts) continue; if (nfields > 0) appendPQExpBufferStr(q, ", "); if (tbinfo->attgenerated[i]) appendPQExpBufferStr(q, "NULL"); else appendPQExpBufferStr(q, fmtId(tbinfo->attnames[i])); attgenerated[nfields] = tbinfo->attgenerated[i]; nfields++; } /* Servers before 9.4 will complain about zero-column SELECT */ if (nfields == 0) appendPQExpBufferStr(q, "NULL"); appendPQExpBuffer(q, " 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); /* cross-check field count, allowing for dummy NULL if any */ if (nfields != PQnfields(res) && !(nfields == 0 && PQnfields(res) == 1)) pg_fatal("wrong number of fields retrieved from table \"%s\"", tbinfo->dobj.name); /* * 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 dumpable 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 or forced, get the root * table name for the partition table, so that we can reload data * through the root table. */ if (tbinfo->ispartition && (dopt->load_via_partition_root || forcePartitionRootLoad(tbinfo))) 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 (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); free(attgenerated); return 1; } /* * getRootTableInfo: * get the root TableInfo for the given partition table. */ static TableInfo * getRootTableInfo(const 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; } /* * forcePartitionRootLoad * Check if we must force load_via_partition_root for this partition. * * This is required if any level of ancestral partitioned table has an * unsafe partitioning scheme. */ static bool forcePartitionRootLoad(const TableInfo *tbinfo) { TableInfo *parentTbinfo; Assert(tbinfo->ispartition); Assert(tbinfo->numParents == 1); parentTbinfo = tbinfo->parents[0]; if (parentTbinfo->unsafe_partitions) return true; while (parentTbinfo->ispartition) { Assert(parentTbinfo->numParents == 1); parentTbinfo = parentTbinfo->parents[0]; if (parentTbinfo->unsafe_partitions) return true; } return false; } /* * dumpTableData - * dump the contents of a single table * * Actually, this just makes an ArchiveEntry for the table contents. */ static void dumpTableData(Archive *fout, const TableDataInfo *tdinfo) { DumpOptions *dopt = fout->dopt; TableInfo *tbinfo = tdinfo->tdtable; PQExpBuffer copyBuf = createPQExpBuffer(); PQExpBuffer clistBuf = createPQExpBuffer(); DataDumperPtr dumpFn; char *tdDefn = NULL; char *copyStmt; const char *copyFrom; /* We had better have loaded per-column details about this table */ Assert(tbinfo->interesting); /* * When load-via-partition-root is set or forced, get the root table name * for the partition table, so that we can reload data through the root * table. Then construct a comment to be inserted into the TOC entry's * defn field, so that such cases can be identified reliably. */ if (tbinfo->ispartition && (dopt->load_via_partition_root || forcePartitionRootLoad(tbinfo))) { TableInfo *parentTbinfo; parentTbinfo = getRootTableInfo(tbinfo); copyFrom = fmtQualifiedDumpable(parentTbinfo); printfPQExpBuffer(copyBuf, "-- load via partition root %s", copyFrom); tdDefn = pg_strdup(copyBuf->data); } else copyFrom = fmtQualifiedDumpable(tbinfo); if (dopt->dump_inserts == 0) { /* Dump/restore using COPY */ dumpFn = dumpTableData_copy; /* must use 2 steps here 'cause fmtId is nonreentrant */ printfPQExpBuffer(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, .createStmt = tdDefn, .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 (including TOAST 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; te->dataLength += (BlockNumber) tbinfo->toastpages; /* * If pgoff_t is only 32 bits wide, the above refinement is useless, * and instead we'd better worry about integer overflow. Clamp to * INT_MAX if the correct result exceeds that. */ if (sizeof(te->dataLength) == 4 && (tbinfo->relpages < 0 || tbinfo->toastpages < 0 || te->dataLength < 0)) te->dataLength = INT_MAX; } 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, const 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" field in such objects isn't very interesting. */ 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) unless requested explicitly */ if (tbinfo->relkind == RELKIND_FOREIGN_TABLE && (foreign_servers_include_oids.head == NULL || !simple_oid_list_member(&foreign_servers_include_oids, tbinfo->foreign_server))) 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); /* A TableDataInfo contains data, of course */ tdinfo->dobj.components |= DUMP_COMPONENT_DATA; tbinfo->dataObj = tdinfo; /* Make sure that we'll collect per-column info for this table. */ tbinfo->interesting = true; } /* * 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); } /* * 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_datdba, i_encoding, i_datlocprovider, i_collate, i_ctype, i_daticulocale, i_daticurules, i_frozenxid, i_minmxid, i_datacl, i_acldefault, i_datistemplate, i_datconnlimit, i_datcollversion, i_tablespace; CatalogId dbCatId; DumpId dbDumpId; DumpableAcl dbdacl; const char *datname, *dba, *encoding, *datlocprovider, *collate, *ctype, *iculocale, *icurules, *datistemplate, *datconnlimit, *tablespace; uint32 frozenxid, minmxid; char *qdatname; pg_log_info("saving database definition"); /* * Fetch the database-level properties for this database. */ appendPQExpBufferStr(dbQry, "SELECT tableoid, oid, datname, " "datdba, " "pg_encoding_to_char(encoding) AS encoding, " "datcollate, datctype, datfrozenxid, " "datacl, acldefault('d', datdba) AS acldefault, " "datistemplate, datconnlimit, "); if (fout->remoteVersion >= 90300) appendPQExpBufferStr(dbQry, "datminmxid, "); else appendPQExpBufferStr(dbQry, "0 AS datminmxid, "); if (fout->remoteVersion >= 150000) appendPQExpBufferStr(dbQry, "datlocprovider, daticulocale, datcollversion, "); else appendPQExpBufferStr(dbQry, "'c' AS datlocprovider, NULL AS daticulocale, NULL AS datcollversion, "); if (fout->remoteVersion >= 160000) appendPQExpBufferStr(dbQry, "daticurules, "); else appendPQExpBufferStr(dbQry, "NULL AS daticurules, "); appendPQExpBufferStr(dbQry, "(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()"); res = ExecuteSqlQueryForSingleRow(fout, dbQry->data); i_tableoid = PQfnumber(res, "tableoid"); i_oid = PQfnumber(res, "oid"); i_datname = PQfnumber(res, "datname"); i_datdba = PQfnumber(res, "datdba"); i_encoding = PQfnumber(res, "encoding"); i_datlocprovider = PQfnumber(res, "datlocprovider"); i_collate = PQfnumber(res, "datcollate"); i_ctype = PQfnumber(res, "datctype"); i_daticulocale = PQfnumber(res, "daticulocale"); i_daticurules = PQfnumber(res, "daticurules"); i_frozenxid = PQfnumber(res, "datfrozenxid"); i_minmxid = PQfnumber(res, "datminmxid"); i_datacl = PQfnumber(res, "datacl"); i_acldefault = PQfnumber(res, "acldefault"); i_datistemplate = PQfnumber(res, "datistemplate"); i_datconnlimit = PQfnumber(res, "datconnlimit"); i_datcollversion = PQfnumber(res, "datcollversion"); 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 = getRoleName(PQgetvalue(res, 0, i_datdba)); encoding = PQgetvalue(res, 0, i_encoding); datlocprovider = PQgetvalue(res, 0, i_datlocprovider); collate = PQgetvalue(res, 0, i_collate); ctype = PQgetvalue(res, 0, i_ctype); if (!PQgetisnull(res, 0, i_daticulocale)) iculocale = PQgetvalue(res, 0, i_daticulocale); else iculocale = NULL; if (!PQgetisnull(res, 0, i_daticurules)) icurules = PQgetvalue(res, 0, i_daticurules); else icurules = NULL; frozenxid = atooid(PQgetvalue(res, 0, i_frozenxid)); minmxid = atooid(PQgetvalue(res, 0, i_minmxid)); dbdacl.acl = PQgetvalue(res, 0, i_datacl); dbdacl.acldefault = PQgetvalue(res, 0, i_acldefault); 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 OID (if we want * to preserve that), as well as the 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. */ if (dopt->binary_upgrade) { appendPQExpBuffer(creaQry, "CREATE DATABASE %s WITH TEMPLATE = template0 OID = %u", qdatname, dbCatId.oid); } else { appendPQExpBuffer(creaQry, "CREATE DATABASE %s WITH TEMPLATE = template0", qdatname); } if (strlen(encoding) > 0) { appendPQExpBufferStr(creaQry, " ENCODING = "); appendStringLiteralAH(creaQry, encoding, fout); } appendPQExpBufferStr(creaQry, " LOCALE_PROVIDER = "); if (datlocprovider[0] == 'c') appendPQExpBufferStr(creaQry, "libc"); else if (datlocprovider[0] == 'i') appendPQExpBufferStr(creaQry, "icu"); else pg_fatal("unrecognized locale provider: %s", datlocprovider); if (strlen(collate) > 0 && strcmp(collate, ctype) == 0) { appendPQExpBufferStr(creaQry, " LOCALE = "); appendStringLiteralAH(creaQry, collate, fout); } else { if (strlen(collate) > 0) { appendPQExpBufferStr(creaQry, " LC_COLLATE = "); appendStringLiteralAH(creaQry, collate, fout); } if (strlen(ctype) > 0) { appendPQExpBufferStr(creaQry, " LC_CTYPE = "); appendStringLiteralAH(creaQry, ctype, fout); } } if (iculocale) { appendPQExpBufferStr(creaQry, " ICU_LOCALE = "); appendStringLiteralAH(creaQry, iculocale, fout); } if (icurules) { appendPQExpBufferStr(creaQry, " ICU_RULES = "); appendStringLiteralAH(creaQry, icurules, fout); } /* * For binary upgrade, carry over the collation version. For normal * dump/restore, omit the version, so that it is computed upon restore. */ if (dopt->binary_upgrade) { if (!PQgetisnull(res, 0, i_datcollversion)) { appendPQExpBufferStr(creaQry, " COLLATION_VERSION = "); appendStringLiteralAH(creaQry, PQgetvalue(res, 0, i_datcollversion), 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 */ { /* * 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)); } } /* Dump DB security label, if enabled */ if (!dopt->no_security_labels) { PGresult *shres; PQExpBuffer seclabelQry; seclabelQry = createPQExpBuffer(); buildShSecLabelQuery("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. */ dbdacl.privtype = 0; dbdacl.initprivs = NULL; dumpACL(fout, dbDumpId, InvalidDumpId, "DATABASE", qdatname, NULL, NULL, dba, &dbdacl); /* * 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, relminmxids and relfilenode. */ if (dopt->binary_upgrade) { PGresult *lo_res; PQExpBuffer loFrozenQry = createPQExpBuffer(); PQExpBuffer loOutQry = createPQExpBuffer(); PQExpBuffer loHorizonQry = createPQExpBuffer(); int ii_relfrozenxid, ii_relfilenode, ii_oid, ii_relminmxid; /* * pg_largeobject */ if (fout->remoteVersion >= 90300) appendPQExpBuffer(loFrozenQry, "SELECT relfrozenxid, relminmxid, relfilenode, oid\n" "FROM pg_catalog.pg_class\n" "WHERE oid IN (%u, %u);\n", LargeObjectRelationId, LargeObjectLOidPNIndexId); else appendPQExpBuffer(loFrozenQry, "SELECT relfrozenxid, 0 AS relminmxid, relfilenode, oid\n" "FROM pg_catalog.pg_class\n" "WHERE oid IN (%u, %u);\n", LargeObjectRelationId, LargeObjectLOidPNIndexId); lo_res = ExecuteSqlQuery(fout, loFrozenQry->data, PGRES_TUPLES_OK); ii_relfrozenxid = PQfnumber(lo_res, "relfrozenxid"); ii_relminmxid = PQfnumber(lo_res, "relminmxid"); ii_relfilenode = PQfnumber(lo_res, "relfilenode"); ii_oid = PQfnumber(lo_res, "oid"); appendPQExpBufferStr(loHorizonQry, "\n-- For binary upgrade, set pg_largeobject relfrozenxid and relminmxid\n"); appendPQExpBufferStr(loOutQry, "\n-- For binary upgrade, preserve pg_largeobject and index relfilenodes\n"); for (int i = 0; i < PQntuples(lo_res); ++i) { Oid oid; RelFileNumber relfilenumber; appendPQExpBuffer(loHorizonQry, "UPDATE pg_catalog.pg_class\n" "SET relfrozenxid = '%u', relminmxid = '%u'\n" "WHERE oid = %u;\n", atooid(PQgetvalue(lo_res, i, ii_relfrozenxid)), atooid(PQgetvalue(lo_res, i, ii_relminmxid)), atooid(PQgetvalue(lo_res, i, ii_oid))); oid = atooid(PQgetvalue(lo_res, i, ii_oid)); relfilenumber = atooid(PQgetvalue(lo_res, i, ii_relfilenode)); if (oid == LargeObjectRelationId) appendPQExpBuffer(loOutQry, "SELECT pg_catalog.binary_upgrade_set_next_heap_relfilenode('%u'::pg_catalog.oid);\n", relfilenumber); else if (oid == LargeObjectLOidPNIndexId) appendPQExpBuffer(loOutQry, "SELECT pg_catalog.binary_upgrade_set_next_index_relfilenode('%u'::pg_catalog.oid);\n", relfilenumber); } appendPQExpBufferStr(loOutQry, "TRUNCATE pg_catalog.pg_largeobject;\n"); appendPQExpBufferStr(loOutQry, loHorizonQry->data); 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(loHorizonQry); 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; /* First collect database-specific options */ printfPQExpBuffer(buf, "SELECT unnest(setconfig) FROM pg_db_role_setting " "WHERE setrole = 0 AND setdatabase = '%u'::oid", dboid); res = ExecuteSqlQuery(AH, buf->data, PGRES_TUPLES_OK); for (int i = 0; i < PQntuples(res); i++) makeAlterConfigCommand(conn, PQgetvalue(res, i, 0), "DATABASE", dbname, NULL, NULL, outbuf); PQclear(res); /* Now look for role-and-database-specific options */ 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); for (int 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)) pg_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); free(schemanames); PQclear(res); destroyPQExpBuffer(qry); destroyPQExpBuffer(path); } /* * getLOs: * Collect schema-level data about large objects */ static void getLOs(Archive *fout) { DumpOptions *dopt = fout->dopt; PQExpBuffer loQry = createPQExpBuffer(); LoInfo *loinfo; DumpableObject *lodata; PGresult *res; int ntups; int i; int i_oid; int i_lomowner; int i_lomacl; int i_acldefault; pg_log_info("reading large objects"); /* Fetch LO OIDs, and owner/ACL data */ appendPQExpBufferStr(loQry, "SELECT oid, lomowner, lomacl, " "acldefault('L', lomowner) AS acldefault " "FROM pg_largeobject_metadata"); res = ExecuteSqlQuery(fout, loQry->data, PGRES_TUPLES_OK); i_oid = PQfnumber(res, "oid"); i_lomowner = PQfnumber(res, "lomowner"); i_lomacl = PQfnumber(res, "lomacl"); i_acldefault = PQfnumber(res, "acldefault"); ntups = PQntuples(res); /* * Each large object has its own "BLOB" archive entry. */ loinfo = (LoInfo *) pg_malloc(ntups * sizeof(LoInfo)); for (i = 0; i < ntups; i++) { loinfo[i].dobj.objType = DO_LARGE_OBJECT; loinfo[i].dobj.catId.tableoid = LargeObjectRelationId; loinfo[i].dobj.catId.oid = atooid(PQgetvalue(res, i, i_oid)); AssignDumpId(&loinfo[i].dobj); loinfo[i].dobj.name = pg_strdup(PQgetvalue(res, i, i_oid)); loinfo[i].dacl.acl = pg_strdup(PQgetvalue(res, i, i_lomacl)); loinfo[i].dacl.acldefault = pg_strdup(PQgetvalue(res, i, i_acldefault)); loinfo[i].dacl.privtype = 0; loinfo[i].dacl.initprivs = NULL; loinfo[i].rolname = getRoleName(PQgetvalue(res, i, i_lomowner)); /* LOs have data */ loinfo[i].dobj.components |= DUMP_COMPONENT_DATA; /* Mark whether LO has an ACL */ if (!PQgetisnull(res, i, i_lomacl)) loinfo[i].dobj.components |= DUMP_COMPONENT_ACL; /* * In binary-upgrade mode for LOs, we do *not* dump out the LO 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) loinfo[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) { lodata = (DumpableObject *) pg_malloc(sizeof(DumpableObject)); lodata->objType = DO_LARGE_OBJECT_DATA; lodata->catId = nilCatalogId; AssignDumpId(lodata); lodata->name = pg_strdup("BLOBS"); lodata->components |= DUMP_COMPONENT_DATA; } PQclear(res); destroyPQExpBuffer(loQry); } /* * dumpLO * * dump the definition (metadata) of the given large object */ static void dumpLO(Archive *fout, const LoInfo *loinfo) { PQExpBuffer cquery = createPQExpBuffer(); PQExpBuffer dquery = createPQExpBuffer(); appendPQExpBuffer(cquery, "SELECT pg_catalog.lo_create('%s');\n", loinfo->dobj.name); appendPQExpBuffer(dquery, "SELECT pg_catalog.lo_unlink('%s');\n", loinfo->dobj.name); if (loinfo->dobj.dump & DUMP_COMPONENT_DEFINITION) ArchiveEntry(fout, loinfo->dobj.catId, loinfo->dobj.dumpId, ARCHIVE_OPTS(.tag = loinfo->dobj.name, .owner = loinfo->rolname, .description = "BLOB", .section = SECTION_PRE_DATA, .createStmt = cquery->data, .dropStmt = dquery->data)); /* Dump comment if any */ if (loinfo->dobj.dump & DUMP_COMPONENT_COMMENT) dumpComment(fout, "LARGE OBJECT", loinfo->dobj.name, NULL, loinfo->rolname, loinfo->dobj.catId, 0, loinfo->dobj.dumpId); /* Dump security label if any */ if (loinfo->dobj.dump & DUMP_COMPONENT_SECLABEL) dumpSecLabel(fout, "LARGE OBJECT", loinfo->dobj.name, NULL, loinfo->rolname, loinfo->dobj.catId, 0, loinfo->dobj.dumpId); /* Dump ACL if any */ if (loinfo->dobj.dump & DUMP_COMPONENT_ACL) dumpACL(fout, loinfo->dobj.dumpId, InvalidDumpId, "LARGE OBJECT", loinfo->dobj.name, NULL, NULL, loinfo->rolname, &loinfo->dacl); destroyPQExpBuffer(cquery); destroyPQExpBuffer(dquery); } /* * dumpLOs: * dump the data contents of all large objects */ static int dumpLOs(Archive *fout, const void *arg) { const char *loQry; const char *loFetchQry; 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 LO OIDs using a cursor. Consider scanning * the already-in-memory dumpable objects instead... */ loQry = "DECLARE looid CURSOR FOR " "SELECT oid FROM pg_largeobject_metadata ORDER BY 1"; ExecuteSqlStatement(fout, loQry); /* Command to fetch from cursor */ loFetchQry = "FETCH 1000 IN looid"; do { /* Do a fetch */ res = ExecuteSqlQuery(fout, loFetchQry, PGRES_TUPLES_OK); /* Process the tuples, if any */ ntups = PQntuples(res); for (i = 0; i < ntups; i++) { Oid loOid; int loFd; loOid = atooid(PQgetvalue(res, i, 0)); /* Open the LO */ loFd = lo_open(conn, loOid, INV_READ); if (loFd == -1) pg_fatal("could not open large object %u: %s", loOid, PQerrorMessage(conn)); StartLO(fout, loOid); /* Now read it in chunks, sending data to archive */ do { cnt = lo_read(conn, loFd, buf, LOBBUFSIZE); if (cnt < 0) pg_fatal("error reading large object %u: %s", loOid, PQerrorMessage(conn)); WriteData(fout, buf, cnt); } while (cnt > 0); lo_close(conn, loFd); EndLO(fout, loOid); } PQclear(res); } while (ntups > 0); return 1; } /* * getPolicies * get information about all RLS policies on dumpable tables. */ void getPolicies(Archive *fout, TableInfo tblinfo[], int numTables) { PQExpBuffer query; PQExpBuffer tbloids; PGresult *res; PolicyInfo *polinfo; int i_oid; int i_tableoid; int i_polrelid; int i_polname; int i_polcmd; int i_polpermissive; int i_polroles; int i_polqual; int i_polwithcheck; int i, j, ntups; /* No policies before 9.5 */ if (fout->remoteVersion < 90500) return; query = createPQExpBuffer(); tbloids = createPQExpBuffer(); /* * Identify tables of interest, and check which ones have RLS enabled. */ appendPQExpBufferChar(tbloids, '{'); 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; /* It can't have RLS or policies if it's not a table */ if (tbinfo->relkind != RELKIND_RELATION && tbinfo->relkind != RELKIND_PARTITIONED_TABLE) continue; /* Add it to the list of table OIDs to be probed below */ if (tbloids->len > 1) /* do we have more than the '{'? */ appendPQExpBufferChar(tbloids, ','); appendPQExpBuffer(tbloids, "%u", tbinfo->dobj.catId.oid); /* Is RLS enabled? (That's separate from whether it has policies) */ if (tbinfo->rowsec) { tbinfo->dobj.components |= DUMP_COMPONENT_POLICY; /* * We represent RLS being enabled on a table by creating a * PolicyInfo object with null polname. * * 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; } } appendPQExpBufferChar(tbloids, '}'); /* * Now, read all RLS policies belonging to the tables of interest, and * create PolicyInfo objects for them. (Note that we must filter the * results server-side not locally, because we dare not apply pg_get_expr * to tables we don't have lock on.) */ pg_log_info("reading row-level security policies"); printfPQExpBuffer(query, "SELECT pol.oid, pol.tableoid, pol.polrelid, pol.polname, pol.polcmd, "); if (fout->remoteVersion >= 100000) appendPQExpBufferStr(query, "pol.polpermissive, "); else appendPQExpBufferStr(query, "'t' as polpermissive, "); appendPQExpBuffer(query, "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 unnest('%s'::pg_catalog.oid[]) AS src(tbloid)\n" "JOIN pg_catalog.pg_policy pol ON (src.tbloid = pol.polrelid)", tbloids->data); res = ExecuteSqlQuery(fout, query->data, PGRES_TUPLES_OK); ntups = PQntuples(res); if (ntups > 0) { i_oid = PQfnumber(res, "oid"); i_tableoid = PQfnumber(res, "tableoid"); i_polrelid = PQfnumber(res, "polrelid"); 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++) { Oid polrelid = atooid(PQgetvalue(res, j, i_polrelid)); TableInfo *tbinfo = findTableByOid(polrelid); tbinfo->dobj.components |= DUMP_COMPONENT_POLICY; 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); destroyPQExpBuffer(tbloids); } /* * dumpPolicy * dump the definition of the given policy */ static void dumpPolicy(Archive *fout, const PolicyInfo *polinfo) { DumpOptions *dopt = fout->dopt; TableInfo *tbinfo = polinfo->poltable; PQExpBuffer query; PQExpBuffer delqry; PQExpBuffer polprefix; char *qtabname; const char *cmd; char *tag; /* Do nothing in data-only dump */ 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 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_DEFINITION) 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_fatal("unexpected policy command type: %c", polinfo->polcmd); query = createPQExpBuffer(); delqry = createPQExpBuffer(); polprefix = createPQExpBuffer(); qtabname = pg_strdup(fmtId(tbinfo->dobj.name)); 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)); appendPQExpBuffer(polprefix, "POLICY %s ON", fmtId(polinfo->polname)); tag = psprintf("%s %s", tbinfo->dobj.name, polinfo->dobj.name); if (polinfo->dobj.dump & DUMP_COMPONENT_DEFINITION) 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)); if (polinfo->dobj.dump & DUMP_COMPONENT_COMMENT) dumpComment(fout, polprefix->data, qtabname, tbinfo->dobj.namespace->dobj.name, tbinfo->rolname, polinfo->dobj.catId, 0, polinfo->dobj.dumpId); free(tag); destroyPQExpBuffer(query); destroyPQExpBuffer(delqry); destroyPQExpBuffer(polprefix); free(qtabname); } /* * getPublications * get information about publications */ PublicationInfo * getPublications(Archive *fout, int *numPublications) { DumpOptions *dopt = fout->dopt; PQExpBuffer query; PGresult *res; PublicationInfo *pubinfo; int i_tableoid; int i_oid; int i_pubname; int i_pubowner; int i_puballtables; int i_pubinsert; int i_pubupdate; int i_pubdelete; int i_pubtruncate; int i_pubviaroot; int i, ntups; if (dopt->no_publications || fout->remoteVersion < 100000) { *numPublications = 0; return NULL; } query = createPQExpBuffer(); resetPQExpBuffer(query); /* Get the publications. */ if (fout->remoteVersion >= 130000) appendPQExpBufferStr(query, "SELECT p.tableoid, p.oid, p.pubname, " "p.pubowner, " "p.puballtables, p.pubinsert, p.pubupdate, p.pubdelete, p.pubtruncate, p.pubviaroot " "FROM pg_publication p"); else if (fout->remoteVersion >= 110000) appendPQExpBufferStr(query, "SELECT p.tableoid, p.oid, p.pubname, " "p.pubowner, " "p.puballtables, p.pubinsert, p.pubupdate, p.pubdelete, p.pubtruncate, false AS pubviaroot " "FROM pg_publication p"); else appendPQExpBufferStr(query, "SELECT p.tableoid, p.oid, p.pubname, " "p.pubowner, " "p.puballtables, p.pubinsert, p.pubupdate, p.pubdelete, false AS pubtruncate, false AS pubviaroot " "FROM pg_publication p"); 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_pubowner = PQfnumber(res, "pubowner"); 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"); i_pubviaroot = PQfnumber(res, "pubviaroot"); 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 = getRoleName(PQgetvalue(res, i, i_pubowner)); 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); pubinfo[i].pubviaroot = (strcmp(PQgetvalue(res, i, i_pubviaroot), "t") == 0); /* Decide whether we want to dump it */ selectDumpableObject(&(pubinfo[i].dobj), fout); } PQclear(res); destroyPQExpBuffer(query); *numPublications = ntups; return pubinfo; } /* * dumpPublication * dump the definition of the given publication */ static void dumpPublication(Archive *fout, const PublicationInfo *pubinfo) { DumpOptions *dopt = fout->dopt; PQExpBuffer delq; PQExpBuffer query; char *qpubname; bool first = true; /* Do nothing in data-only dump */ if (dopt->dataOnly) 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; } appendPQExpBufferChar(query, '\''); if (pubinfo->pubviaroot) appendPQExpBufferStr(query, ", publish_via_partition_root = true"); appendPQExpBufferStr(query, ");\n"); if (pubinfo->dobj.dump & DUMP_COMPONENT_DEFINITION) 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); } /* * getPublicationNamespaces * get information about publication membership for dumpable schemas. */ void getPublicationNamespaces(Archive *fout) { PQExpBuffer query; PGresult *res; PublicationSchemaInfo *pubsinfo; DumpOptions *dopt = fout->dopt; int i_tableoid; int i_oid; int i_pnpubid; int i_pnnspid; int i, j, ntups; if (dopt->no_publications || fout->remoteVersion < 150000) return; query = createPQExpBuffer(); /* Collect all publication membership info. */ appendPQExpBufferStr(query, "SELECT tableoid, oid, pnpubid, pnnspid " "FROM pg_catalog.pg_publication_namespace"); res = ExecuteSqlQuery(fout, query->data, PGRES_TUPLES_OK); ntups = PQntuples(res); i_tableoid = PQfnumber(res, "tableoid"); i_oid = PQfnumber(res, "oid"); i_pnpubid = PQfnumber(res, "pnpubid"); i_pnnspid = PQfnumber(res, "pnnspid"); /* this allocation may be more than we need */ pubsinfo = pg_malloc(ntups * sizeof(PublicationSchemaInfo)); j = 0; for (i = 0; i < ntups; i++) { Oid pnpubid = atooid(PQgetvalue(res, i, i_pnpubid)); Oid pnnspid = atooid(PQgetvalue(res, i, i_pnnspid)); PublicationInfo *pubinfo; NamespaceInfo *nspinfo; /* * Ignore any entries for which we aren't interested in either the * publication or the rel. */ pubinfo = findPublicationByOid(pnpubid); if (pubinfo == NULL) continue; nspinfo = findNamespaceByOid(pnnspid); if (nspinfo == NULL) continue; /* * We always dump publication namespaces unless the corresponding * namespace is excluded from the dump. */ if (nspinfo->dobj.dump == DUMP_COMPONENT_NONE) continue; /* OK, make a DumpableObject for this relationship */ pubsinfo[j].dobj.objType = DO_PUBLICATION_TABLE_IN_SCHEMA; pubsinfo[j].dobj.catId.tableoid = atooid(PQgetvalue(res, i, i_tableoid)); pubsinfo[j].dobj.catId.oid = atooid(PQgetvalue(res, i, i_oid)); AssignDumpId(&pubsinfo[j].dobj); pubsinfo[j].dobj.namespace = nspinfo->dobj.namespace; pubsinfo[j].dobj.name = nspinfo->dobj.name; pubsinfo[j].publication = pubinfo; pubsinfo[j].pubschema = nspinfo; /* Decide whether we want to dump it */ selectDumpablePublicationObject(&(pubsinfo[j].dobj), fout); j++; } PQclear(res); destroyPQExpBuffer(query); } /* * 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_prpubid; int i_prrelid; int i_prrelqual; int i_prattrs; int i, j, ntups; if (dopt->no_publications || fout->remoteVersion < 100000) return; query = createPQExpBuffer(); /* Collect all publication membership info. */ if (fout->remoteVersion >= 150000) appendPQExpBufferStr(query, "SELECT tableoid, oid, prpubid, prrelid, " "pg_catalog.pg_get_expr(prqual, prrelid) AS prrelqual, " "(CASE\n" " WHEN pr.prattrs IS NOT NULL THEN\n" " (SELECT array_agg(attname)\n" " FROM\n" " pg_catalog.generate_series(0, pg_catalog.array_upper(pr.prattrs::pg_catalog.int2[], 1)) s,\n" " pg_catalog.pg_attribute\n" " WHERE attrelid = pr.prrelid AND attnum = prattrs[s])\n" " ELSE NULL END) prattrs " "FROM pg_catalog.pg_publication_rel pr"); else appendPQExpBufferStr(query, "SELECT tableoid, oid, prpubid, prrelid, " "NULL AS prrelqual, NULL AS prattrs " "FROM pg_catalog.pg_publication_rel"); res = ExecuteSqlQuery(fout, query->data, PGRES_TUPLES_OK); ntups = PQntuples(res); i_tableoid = PQfnumber(res, "tableoid"); i_oid = PQfnumber(res, "oid"); i_prpubid = PQfnumber(res, "prpubid"); i_prrelid = PQfnumber(res, "prrelid"); i_prrelqual = PQfnumber(res, "prrelqual"); i_prattrs = PQfnumber(res, "prattrs"); /* this allocation may be more than we need */ pubrinfo = pg_malloc(ntups * sizeof(PublicationRelInfo)); j = 0; for (i = 0; i < ntups; i++) { Oid prpubid = atooid(PQgetvalue(res, i, i_prpubid)); Oid prrelid = atooid(PQgetvalue(res, i, i_prrelid)); PublicationInfo *pubinfo; TableInfo *tbinfo; /* * Ignore any entries for which we aren't interested in either the * publication or the rel. */ pubinfo = findPublicationByOid(prpubid); if (pubinfo == NULL) continue; tbinfo = findTableByOid(prrelid); if (tbinfo == NULL) continue; /* * Ignore publication membership of tables whose definitions are not * to be dumped. */ if (!(tbinfo->dobj.dump & DUMP_COMPONENT_DEFINITION)) continue; /* OK, make a DumpableObject for this relationship */ pubrinfo[j].dobj.objType = DO_PUBLICATION_REL; pubrinfo[j].dobj.catId.tableoid = atooid(PQgetvalue(res, i, i_tableoid)); pubrinfo[j].dobj.catId.oid = atooid(PQgetvalue(res, i, i_oid)); AssignDumpId(&pubrinfo[j].dobj); pubrinfo[j].dobj.namespace = tbinfo->dobj.namespace; pubrinfo[j].dobj.name = tbinfo->dobj.name; pubrinfo[j].publication = pubinfo; pubrinfo[j].pubtable = tbinfo; if (PQgetisnull(res, i, i_prrelqual)) pubrinfo[j].pubrelqual = NULL; else pubrinfo[j].pubrelqual = pg_strdup(PQgetvalue(res, i, i_prrelqual)); if (!PQgetisnull(res, i, i_prattrs)) { char **attnames; int nattnames; PQExpBuffer attribs; if (!parsePGArray(PQgetvalue(res, i, i_prattrs), &attnames, &nattnames)) pg_fatal("could not parse %s array", "prattrs"); attribs = createPQExpBuffer(); for (int k = 0; k < nattnames; k++) { if (k > 0) appendPQExpBufferStr(attribs, ", "); appendPQExpBufferStr(attribs, fmtId(attnames[k])); } pubrinfo[j].pubrattrs = attribs->data; } else pubrinfo[j].pubrattrs = NULL; /* Decide whether we want to dump it */ selectDumpablePublicationObject(&(pubrinfo[j].dobj), fout); j++; } PQclear(res); destroyPQExpBuffer(query); } /* * dumpPublicationNamespace * dump the definition of the given publication schema mapping. */ static void dumpPublicationNamespace(Archive *fout, const PublicationSchemaInfo *pubsinfo) { DumpOptions *dopt = fout->dopt; NamespaceInfo *schemainfo = pubsinfo->pubschema; PublicationInfo *pubinfo = pubsinfo->publication; PQExpBuffer query; char *tag; /* Do nothing in data-only dump */ if (dopt->dataOnly) return; tag = psprintf("%s %s", pubinfo->dobj.name, schemainfo->dobj.name); query = createPQExpBuffer(); appendPQExpBuffer(query, "ALTER PUBLICATION %s ", fmtId(pubinfo->dobj.name)); appendPQExpBuffer(query, "ADD TABLES IN SCHEMA %s;\n", fmtId(schemainfo->dobj.name)); /* * There is no point in creating drop query as the drop is done by schema * drop. */ if (pubsinfo->dobj.dump & DUMP_COMPONENT_DEFINITION) ArchiveEntry(fout, pubsinfo->dobj.catId, pubsinfo->dobj.dumpId, ARCHIVE_OPTS(.tag = tag, .namespace = schemainfo->dobj.name, .owner = pubinfo->rolname, .description = "PUBLICATION TABLES IN SCHEMA", .section = SECTION_POST_DATA, .createStmt = query->data)); /* These objects can't currently have comments or seclabels */ free(tag); destroyPQExpBuffer(query); } /* * dumpPublicationTable * dump the definition of the given publication table mapping */ static void dumpPublicationTable(Archive *fout, const PublicationRelInfo *pubrinfo) { DumpOptions *dopt = fout->dopt; PublicationInfo *pubinfo = pubrinfo->publication; TableInfo *tbinfo = pubrinfo->pubtable; PQExpBuffer query; char *tag; /* Do nothing in data-only dump */ if (dopt->dataOnly) return; tag = psprintf("%s %s", pubinfo->dobj.name, tbinfo->dobj.name); query = createPQExpBuffer(); appendPQExpBuffer(query, "ALTER PUBLICATION %s ADD TABLE ONLY", fmtId(pubinfo->dobj.name)); appendPQExpBuffer(query, " %s", fmtQualifiedDumpable(tbinfo)); if (pubrinfo->pubrattrs) appendPQExpBuffer(query, " (%s)", pubrinfo->pubrattrs); if (pubrinfo->pubrelqual) { /* * It's necessary to add parentheses around the expression because * pg_get_expr won't supply the parentheses for things like WHERE * TRUE. */ appendPQExpBuffer(query, " WHERE (%s)", pubrinfo->pubrelqual); } appendPQExpBufferStr(query, ";\n"); /* * There is no point in creating a drop query as the drop is done by table * drop. (If you think to change this, see also _printTocEntry().) * Although this object doesn't really have ownership as such, set the * owner field anyway to ensure that the command is run by the correct * role at restore time. */ if (pubrinfo->dobj.dump & DUMP_COMPONENT_DEFINITION) ArchiveEntry(fout, pubrinfo->dobj.catId, pubrinfo->dobj.dumpId, ARCHIVE_OPTS(.tag = tag, .namespace = tbinfo->dobj.namespace->dobj.name, .owner = pubinfo->rolname, .description = "PUBLICATION TABLE", .section = SECTION_POST_DATA, .createStmt = query->data)); /* These objects can't currently have comments or seclabels */ 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_subowner; int i_subbinary; int i_substream; int i_subtwophasestate; int i_subdisableonerr; int i_subpasswordrequired; int i_subrunasowner; int i_subconninfo; int i_subslotname; int i_subsynccommit; int i_subpublications; int i_suborigin; 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(); /* Get the subscriptions in current database. */ appendPQExpBufferStr(query, "SELECT s.tableoid, s.oid, s.subname,\n" " s.subowner,\n" " s.subconninfo, s.subslotname, s.subsynccommit,\n" " s.subpublications,\n"); if (fout->remoteVersion >= 140000) appendPQExpBufferStr(query, " s.subbinary,\n"); else appendPQExpBufferStr(query, " false AS subbinary,\n"); if (fout->remoteVersion >= 140000) appendPQExpBufferStr(query, " s.substream,\n"); else appendPQExpBufferStr(query, " 'f' AS substream,\n"); if (fout->remoteVersion >= 150000) appendPQExpBufferStr(query, " s.subtwophasestate,\n" " s.subdisableonerr,\n"); else appendPQExpBuffer(query, " '%c' AS subtwophasestate,\n" " false AS subdisableonerr,\n", LOGICALREP_TWOPHASE_STATE_DISABLED); if (fout->remoteVersion >= 160000) appendPQExpBufferStr(query, " s.subpasswordrequired,\n" " s.subrunasowner,\n" " s.suborigin\n"); else appendPQExpBuffer(query, " 't' AS subpasswordrequired,\n" " 't' AS subrunasowner,\n" " '%s' AS suborigin\n", LOGICALREP_ORIGIN_ANY); appendPQExpBufferStr(query, "FROM pg_subscription s\n" "WHERE s.subdbid = (SELECT oid FROM pg_database\n" " WHERE datname = current_database())"); res = ExecuteSqlQuery(fout, query->data, PGRES_TUPLES_OK); ntups = PQntuples(res); /* * Get subscription fields. We don't include subskiplsn in the dump as * after restoring the dump this value may no longer be relevant. */ i_tableoid = PQfnumber(res, "tableoid"); i_oid = PQfnumber(res, "oid"); i_subname = PQfnumber(res, "subname"); i_subowner = PQfnumber(res, "subowner"); i_subbinary = PQfnumber(res, "subbinary"); i_substream = PQfnumber(res, "substream"); i_subtwophasestate = PQfnumber(res, "subtwophasestate"); i_subdisableonerr = PQfnumber(res, "subdisableonerr"); i_subpasswordrequired = PQfnumber(res, "subpasswordrequired"); i_subrunasowner = PQfnumber(res, "subrunasowner"); i_subconninfo = PQfnumber(res, "subconninfo"); i_subslotname = PQfnumber(res, "subslotname"); i_subsynccommit = PQfnumber(res, "subsynccommit"); i_subpublications = PQfnumber(res, "subpublications"); i_suborigin = PQfnumber(res, "suborigin"); 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 = getRoleName(PQgetvalue(res, i, i_subowner)); subinfo[i].subbinary = pg_strdup(PQgetvalue(res, i, i_subbinary)); subinfo[i].substream = pg_strdup(PQgetvalue(res, i, i_substream)); subinfo[i].subtwophasestate = pg_strdup(PQgetvalue(res, i, i_subtwophasestate)); subinfo[i].subdisableonerr = pg_strdup(PQgetvalue(res, i, i_subdisableonerr)); subinfo[i].subpasswordrequired = pg_strdup(PQgetvalue(res, i, i_subpasswordrequired)); subinfo[i].subrunasowner = pg_strdup(PQgetvalue(res, i, i_subrunasowner)); 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)); subinfo[i].suborigin = pg_strdup(PQgetvalue(res, i, i_suborigin)); /* 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, const SubscriptionInfo *subinfo) { DumpOptions *dopt = fout->dopt; PQExpBuffer delq; PQExpBuffer query; PQExpBuffer publications; char *qsubname; char **pubnames = NULL; int npubnames = 0; int i; char two_phase_disabled[] = {LOGICALREP_TWOPHASE_STATE_DISABLED, '\0'}; /* Do nothing in data-only dump */ if (dopt->dataOnly) 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_fatal("could not parse %s array", "subpublications"); 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->subbinary, "t") == 0) appendPQExpBufferStr(query, ", binary = true"); if (strcmp(subinfo->substream, "t") == 0) appendPQExpBufferStr(query, ", streaming = on"); else if (strcmp(subinfo->substream, "p") == 0) appendPQExpBufferStr(query, ", streaming = parallel"); if (strcmp(subinfo->subtwophasestate, two_phase_disabled) != 0) appendPQExpBufferStr(query, ", two_phase = on"); if (strcmp(subinfo->subdisableonerr, "t") == 0) appendPQExpBufferStr(query, ", disable_on_error = true"); if (strcmp(subinfo->subpasswordrequired, "t") != 0) appendPQExpBuffer(query, ", password_required = false"); if (strcmp(subinfo->subrunasowner, "t") == 0) appendPQExpBufferStr(query, ", run_as_owner = true"); if (strcmp(subinfo->subsynccommit, "off") != 0) appendPQExpBuffer(query, ", synchronous_commit = %s", fmtId(subinfo->subsynccommit)); if (pg_strcasecmp(subinfo->suborigin, LOGICALREP_ORIGIN_ANY) != 0) appendPQExpBuffer(query, ", origin = %s", subinfo->suborigin); appendPQExpBufferStr(query, ");\n"); if (subinfo->dobj.dump & DUMP_COMPONENT_DEFINITION) 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); free(pubnames); destroyPQExpBuffer(delq); destroyPQExpBuffer(query); free(qsubname); } /* * Given a "create query", append as many ALTER ... DEPENDS ON EXTENSION as * the object needs. */ static void append_depends_on_extension(Archive *fout, PQExpBuffer create, const DumpableObject *dobj, const char *catalog, const char *keyword, const char *objname) { if (dobj->depends_on_ext) { char *nm; PGresult *res; PQExpBuffer query; int ntups; int i_extname; int i; /* dodge fmtId() non-reentrancy */ nm = pg_strdup(objname); query = createPQExpBuffer(); appendPQExpBuffer(query, "SELECT e.extname " "FROM pg_catalog.pg_depend d, pg_catalog.pg_extension e " "WHERE d.refobjid = e.oid AND classid = '%s'::pg_catalog.regclass " "AND objid = '%u'::pg_catalog.oid AND deptype = 'x' " "AND refclassid = 'pg_catalog.pg_extension'::pg_catalog.regclass", catalog, dobj->catId.oid); res = ExecuteSqlQuery(fout, query->data, PGRES_TUPLES_OK); ntups = PQntuples(res); i_extname = PQfnumber(res, "extname"); for (i = 0; i < ntups; i++) { appendPQExpBuffer(create, "ALTER %s %s DEPENDS ON EXTENSION %s;\n", keyword, nm, fmtId(PQgetvalue(res, i, i_extname))); } PQclear(res); destroyPQExpBuffer(query); pg_free(nm); } } static Oid get_next_possible_free_pg_type_oid(Archive *fout, PQExpBuffer upgrade_query) { /* * 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; PGresult *res; 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); return next_possible_free_oid; } static void binary_upgrade_set_type_oids_by_type_oid(Archive *fout, PQExpBuffer upgrade_buffer, Oid pg_type_oid, bool force_array_type, bool include_multirange_type) { PQExpBuffer upgrade_query = createPQExpBuffer(); PGresult *res; Oid pg_type_array_oid; Oid pg_type_multirange_oid; Oid pg_type_multirange_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); 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) pg_type_array_oid = get_next_possible_free_pg_type_oid(fout, upgrade_query); 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); } /* * Pre-set the multirange type oid and its own array type oid. */ if (include_multirange_type) { if (fout->remoteVersion >= 140000) { printfPQExpBuffer(upgrade_query, "SELECT t.oid, t.typarray " "FROM pg_catalog.pg_type t " "JOIN pg_catalog.pg_range r " "ON t.oid = r.rngmultitypid " "WHERE r.rngtypid = '%u'::pg_catalog.oid;", pg_type_oid); res = ExecuteSqlQueryForSingleRow(fout, upgrade_query->data); pg_type_multirange_oid = atooid(PQgetvalue(res, 0, PQfnumber(res, "oid"))); pg_type_multirange_array_oid = atooid(PQgetvalue(res, 0, PQfnumber(res, "typarray"))); PQclear(res); } else { pg_type_multirange_oid = get_next_possible_free_pg_type_oid(fout, upgrade_query); pg_type_multirange_array_oid = get_next_possible_free_pg_type_oid(fout, upgrade_query); } appendPQExpBufferStr(upgrade_buffer, "\n-- For binary upgrade, must preserve multirange pg_type oid\n"); appendPQExpBuffer(upgrade_buffer, "SELECT pg_catalog.binary_upgrade_set_next_multirange_pg_type_oid('%u'::pg_catalog.oid);\n\n", pg_type_multirange_oid); appendPQExpBufferStr(upgrade_buffer, "\n-- For binary upgrade, must preserve multirange pg_type array oid\n"); appendPQExpBuffer(upgrade_buffer, "SELECT pg_catalog.binary_upgrade_set_next_multirange_array_pg_type_oid('%u'::pg_catalog.oid);\n\n", pg_type_multirange_array_oid); } destroyPQExpBuffer(upgrade_query); } static void binary_upgrade_set_type_oids_by_rel(Archive *fout, PQExpBuffer upgrade_buffer, const TableInfo *tbinfo) { Oid pg_type_oid = tbinfo->reltype; if (OidIsValid(pg_type_oid)) binary_upgrade_set_type_oids_by_type_oid(fout, upgrade_buffer, pg_type_oid, false, false); } 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; RelFileNumber relfilenumber; Oid toast_oid; RelFileNumber toast_relfilenumber; char relkind; Oid toast_index_oid; RelFileNumber toast_index_relfilenumber; /* * Preserve the OID and relfilenumber of the table, table's index, table's * toast table and toast table's index if any. * * One complexity is that the current table definition might not require * the creation of a TOAST table, but the old database might have a TOAST * table that was created earlier, before some wide columns were dropped. * By setting the TOAST oid we force creation of the TOAST heap and index * by the new backend, so we can copy the files during binary upgrade * without worrying about this case. */ appendPQExpBuffer(upgrade_query, "SELECT c.relkind, c.relfilenode, c.reltoastrelid, ct.relfilenode AS toast_relfilenode, i.indexrelid, cti.relfilenode AS toast_index_relfilenode " "FROM pg_catalog.pg_class c LEFT JOIN " "pg_catalog.pg_index i ON (c.reltoastrelid = i.indrelid AND i.indisvalid) " "LEFT JOIN pg_catalog.pg_class ct ON (c.reltoastrelid = ct.oid) " "LEFT JOIN pg_catalog.pg_class AS cti ON (i.indexrelid = cti.oid) " "WHERE c.oid = '%u'::pg_catalog.oid;", pg_class_oid); upgrade_res = ExecuteSqlQueryForSingleRow(fout, upgrade_query->data); relkind = *PQgetvalue(upgrade_res, 0, PQfnumber(upgrade_res, "relkind")); relfilenumber = atooid(PQgetvalue(upgrade_res, 0, PQfnumber(upgrade_res, "relfilenode"))); toast_oid = atooid(PQgetvalue(upgrade_res, 0, PQfnumber(upgrade_res, "reltoastrelid"))); toast_relfilenumber = atooid(PQgetvalue(upgrade_res, 0, PQfnumber(upgrade_res, "toast_relfilenode"))); toast_index_oid = atooid(PQgetvalue(upgrade_res, 0, PQfnumber(upgrade_res, "indexrelid"))); toast_index_relfilenumber = atooid(PQgetvalue(upgrade_res, 0, PQfnumber(upgrade_res, "toast_index_relfilenode"))); appendPQExpBufferStr(upgrade_buffer, "\n-- For binary upgrade, must preserve pg_class oids and relfilenodes\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); /* * Not every relation has storage. Also, in a pre-v12 database, * partitioned tables have a relfilenumber, which should not be * preserved when upgrading. */ if (RelFileNumberIsValid(relfilenumber) && relkind != RELKIND_PARTITIONED_TABLE) appendPQExpBuffer(upgrade_buffer, "SELECT pg_catalog.binary_upgrade_set_next_heap_relfilenode('%u'::pg_catalog.oid);\n", relfilenumber); /* * In a pre-v12 database, partitioned tables might be marked as having * toast tables, but we should ignore them if so. */ if (OidIsValid(toast_oid) && relkind != RELKIND_PARTITIONED_TABLE) { appendPQExpBuffer(upgrade_buffer, "SELECT pg_catalog.binary_upgrade_set_next_toast_pg_class_oid('%u'::pg_catalog.oid);\n", toast_oid); appendPQExpBuffer(upgrade_buffer, "SELECT pg_catalog.binary_upgrade_set_next_toast_relfilenode('%u'::pg_catalog.oid);\n", toast_relfilenumber); /* 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", toast_index_oid); appendPQExpBuffer(upgrade_buffer, "SELECT pg_catalog.binary_upgrade_set_next_index_relfilenode('%u'::pg_catalog.oid);\n", toast_index_relfilenumber); } PQclear(upgrade_res); } else { /* Preserve the OID and relfilenumber of the index */ appendPQExpBuffer(upgrade_buffer, "SELECT pg_catalog.binary_upgrade_set_next_index_pg_class_oid('%u'::pg_catalog.oid);\n", pg_class_oid); appendPQExpBuffer(upgrade_buffer, "SELECT pg_catalog.binary_upgrade_set_next_index_relfilenode('%u'::pg_catalog.oid);\n", relfilenumber); } appendPQExpBufferChar(upgrade_buffer, '\n'); 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, const 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) pg_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) { PGresult *res; int ntups; int i; PQExpBuffer query; NamespaceInfo *nsinfo; int i_tableoid; int i_oid; int i_nspname; int i_nspowner; int i_nspacl; int i_acldefault; query = createPQExpBuffer(); /* * we fetch all namespaces including system ones, so that every object we * read in can be linked to a containing namespace. */ appendPQExpBufferStr(query, "SELECT n.tableoid, n.oid, n.nspname, " "n.nspowner, " "n.nspacl, " "acldefault('n', n.nspowner) AS acldefault " "FROM pg_namespace n"); 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_nspowner = PQfnumber(res, "nspowner"); i_nspacl = PQfnumber(res, "nspacl"); i_acldefault = PQfnumber(res, "acldefault"); for (i = 0; i < ntups; i++) { const char *nspowner; 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].dacl.acl = pg_strdup(PQgetvalue(res, i, i_nspacl)); nsinfo[i].dacl.acldefault = pg_strdup(PQgetvalue(res, i, i_acldefault)); nsinfo[i].dacl.privtype = 0; nsinfo[i].dacl.initprivs = NULL; nspowner = PQgetvalue(res, i, i_nspowner); nsinfo[i].nspowner = atooid(nspowner); nsinfo[i].rolname = getRoleName(nspowner); /* Decide whether to dump this namespace */ selectDumpableNamespace(&nsinfo[i], fout); /* Mark whether namespace has an ACL */ if (!PQgetisnull(res, i, i_nspacl)) nsinfo[i].dobj.components |= DUMP_COMPONENT_ACL; /* * We ignore any pg_init_privs.initprivs entry for the public schema * and assume a predetermined default, for several reasons. First, * dropping and recreating the schema removes its pg_init_privs entry, * but an empty destination database starts with this ACL nonetheless. * Second, we support dump/reload of public schema ownership changes. * ALTER SCHEMA OWNER filters nspacl through aclnewowner(), but * initprivs continues to reflect the initial owner. Hence, * synthesize the value that nspacl will have after the restore's * ALTER SCHEMA OWNER. Third, this makes the destination database * match the source's ACL, even if the latter was an initdb-default * ACL, which changed in v15. An upgrade pulls in changes to most * system object ACLs that the DBA had not customized. We've made the * public schema depart from that, because changing its ACL so easily * breaks applications. */ if (strcmp(nsinfo[i].dobj.name, "public") == 0) { PQExpBuffer aclarray = createPQExpBuffer(); PQExpBuffer aclitem = createPQExpBuffer(); /* Standard ACL as of v15 is {owner=UC/owner,=U/owner} */ appendPQExpBufferChar(aclarray, '{'); quoteAclUserName(aclitem, nsinfo[i].rolname); appendPQExpBufferStr(aclitem, "=UC/"); quoteAclUserName(aclitem, nsinfo[i].rolname); appendPGArray(aclarray, aclitem->data); resetPQExpBuffer(aclitem); appendPQExpBufferStr(aclitem, "=U/"); quoteAclUserName(aclitem, nsinfo[i].rolname); appendPGArray(aclarray, aclitem->data); appendPQExpBufferChar(aclarray, '}'); nsinfo[i].dacl.privtype = 'i'; nsinfo[i].dacl.initprivs = pstrdup(aclarray->data); nsinfo[i].dobj.components |= DUMP_COMPONENT_ACL; destroyPQExpBuffer(aclarray); destroyPQExpBuffer(aclitem); } } PQclear(res); destroyPQExpBuffer(query); *numNamespaces = ntups; return nsinfo; } /* * findNamespace: * given a namespace OID, look up the info read by getNamespaces */ static NamespaceInfo * findNamespace(Oid nsoid) { NamespaceInfo *nsinfo; nsinfo = findNamespaceByOid(nsoid); if (nsinfo == NULL) pg_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; 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) { 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_acldefault; int i_typowner; 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. */ appendPQExpBufferStr(query, "SELECT tableoid, oid, typname, " "typnamespace, typacl, " "acldefault('T', typowner) AS acldefault, " "typowner, " "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"); 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_acldefault = PQfnumber(res, "acldefault"); i_typowner = PQfnumber(res, "typowner"); 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(atooid(PQgetvalue(res, i, i_typnamespace))); tyinfo[i].dacl.acl = pg_strdup(PQgetvalue(res, i, i_typacl)); tyinfo[i].dacl.acldefault = pg_strdup(PQgetvalue(res, i, i_acldefault)); tyinfo[i].dacl.privtype = 0; tyinfo[i].dacl.initprivs = NULL; tyinfo[i].ftypname = NULL; /* may get filled later */ tyinfo[i].rolname = getRoleName(PQgetvalue(res, i, i_typowner)); 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; if (tyinfo[i].typtype == 'm') tyinfo[i].isMultirange = true; else tyinfo[i].isMultirange = false; /* Decide whether we want to dump it */ selectDumpableType(&tyinfo[i], fout); /* Mark whether type has an ACL */ if (!PQgetisnull(res, i, i_typacl)) tyinfo[i].dobj.components |= 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; } } *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_oprowner; int i_oprkind; int i_oprcode; /* * find all operators, including builtin operators; we filter out * system-defined operators at dump-out time. */ appendPQExpBufferStr(query, "SELECT tableoid, oid, oprname, " "oprnamespace, " "oprowner, " "oprkind, " "oprcode::oid AS oprcode " "FROM pg_operator"); 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_oprowner = PQfnumber(res, "oprowner"); 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(atooid(PQgetvalue(res, i, i_oprnamespace))); oprinfo[i].rolname = getRoleName(PQgetvalue(res, i, i_oprowner)); 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); } 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_collowner; query = createPQExpBuffer(); /* * find all collations, including builtin collations; we filter out * system-defined collations at dump-out time. */ appendPQExpBufferStr(query, "SELECT tableoid, oid, collname, " "collnamespace, " "collowner " "FROM pg_collation"); 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_collowner = PQfnumber(res, "collowner"); 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(atooid(PQgetvalue(res, i, i_collnamespace))); collinfo[i].rolname = getRoleName(PQgetvalue(res, i, i_collowner)); /* Decide whether we want to dump it */ selectDumpableObject(&(collinfo[i].dobj), fout); } 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_conowner; query = createPQExpBuffer(); /* * find all conversions, including builtin conversions; we filter out * system-defined conversions at dump-out time. */ appendPQExpBufferStr(query, "SELECT tableoid, oid, conname, " "connamespace, " "conowner " "FROM pg_conversion"); 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_conowner = PQfnumber(res, "conowner"); 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(atooid(PQgetvalue(res, i, i_connamespace))); convinfo[i].rolname = getRoleName(PQgetvalue(res, i, i_conowner)); /* Decide whether we want to dump it */ selectDumpableObject(&(convinfo[i].dobj), fout); } 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); } 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; int i_opcowner; /* * find all opclasses, including builtin opclasses; we filter out * system-defined opclasses at dump-out time. */ appendPQExpBufferStr(query, "SELECT tableoid, oid, opcname, " "opcnamespace, " "opcowner " "FROM pg_opclass"); res = ExecuteSqlQuery(fout, query->data, PGRES_TUPLES_OK); ntups = PQntuples(res); *numOpclasses = ntups; opcinfo = (OpclassInfo *) pg_malloc(ntups * sizeof(OpclassInfo)); i_tableoid = PQfnumber(res, "tableoid"); i_oid = PQfnumber(res, "oid"); i_opcname = PQfnumber(res, "opcname"); i_opcnamespace = PQfnumber(res, "opcnamespace"); i_opcowner = PQfnumber(res, "opcowner"); for (i = 0; i < ntups; i++) { opcinfo[i].dobj.objType = DO_OPCLASS; opcinfo[i].dobj.catId.tableoid = atooid(PQgetvalue(res, i, i_tableoid)); opcinfo[i].dobj.catId.oid = atooid(PQgetvalue(res, i, i_oid)); AssignDumpId(&opcinfo[i].dobj); opcinfo[i].dobj.name = pg_strdup(PQgetvalue(res, i, i_opcname)); opcinfo[i].dobj.namespace = findNamespace(atooid(PQgetvalue(res, i, i_opcnamespace))); opcinfo[i].rolname = getRoleName(PQgetvalue(res, i, i_opcowner)); /* Decide whether we want to dump it */ selectDumpableObject(&(opcinfo[i].dobj), fout); } PQclear(res); destroyPQExpBuffer(query); return opcinfo; } /* * getOpfamilies: * read all opfamilies in the system catalogs and return them in the * OpfamilyInfo* structure * * numOpfamilies is set to the number of opfamilies read in */ OpfamilyInfo * getOpfamilies(Archive *fout, int *numOpfamilies) { PGresult *res; int ntups; int i; PQExpBuffer query; OpfamilyInfo *opfinfo; int i_tableoid; int i_oid; int i_opfname; int i_opfnamespace; int i_opfowner; query = createPQExpBuffer(); /* * find all opfamilies, including builtin opfamilies; we filter out * system-defined opfamilies at dump-out time. */ appendPQExpBufferStr(query, "SELECT tableoid, oid, opfname, " "opfnamespace, " "opfowner " "FROM pg_opfamily"); res = ExecuteSqlQuery(fout, query->data, PGRES_TUPLES_OK); ntups = PQntuples(res); *numOpfamilies = ntups; opfinfo = (OpfamilyInfo *) pg_malloc(ntups * sizeof(OpfamilyInfo)); i_tableoid = PQfnumber(res, "tableoid"); i_oid = PQfnumber(res, "oid"); i_opfname = PQfnumber(res, "opfname"); i_opfnamespace = PQfnumber(res, "opfnamespace"); i_opfowner = PQfnumber(res, "opfowner"); for (i = 0; i < ntups; i++) { opfinfo[i].dobj.objType = DO_OPFAMILY; opfinfo[i].dobj.catId.tableoid = atooid(PQgetvalue(res, i, i_tableoid)); opfinfo[i].dobj.catId.oid = atooid(PQgetvalue(res, i, i_oid)); AssignDumpId(&opfinfo[i].dobj); opfinfo[i].dobj.name = pg_strdup(PQgetvalue(res, i, i_opfname)); opfinfo[i].dobj.namespace = findNamespace(atooid(PQgetvalue(res, i, i_opfnamespace))); opfinfo[i].rolname = getRoleName(PQgetvalue(res, i, i_opfowner)); /* Decide whether we want to dump it */ selectDumpableObject(&(opfinfo[i].dobj), fout); } PQclear(res); destroyPQExpBuffer(query); return opfinfo; } /* * getAggregates: * read all the user-defined aggregates in the system catalogs and * return them in the AggInfo* structure * * numAggs is set to the number of aggregates read in */ AggInfo * getAggregates(Archive *fout, int *numAggs) { DumpOptions *dopt = fout->dopt; PGresult *res; int ntups; int i; PQExpBuffer query = createPQExpBuffer(); AggInfo *agginfo; int i_tableoid; int i_oid; int i_aggname; int i_aggnamespace; int i_pronargs; int i_proargtypes; int i_proowner; int i_aggacl; int i_acldefault; /* * Find all interesting aggregates. See comment in getFuncs() for the * rationale behind the filtering logic. */ if (fout->remoteVersion >= 90600) { const char *agg_check; agg_check = (fout->remoteVersion >= 110000 ? "p.prokind = 'a'" : "p.proisagg"); appendPQExpBuffer(query, "SELECT p.tableoid, p.oid, " "p.proname AS aggname, " "p.pronamespace AS aggnamespace, " "p.pronargs, p.proargtypes, " "p.proowner, " "p.proacl AS aggacl, " "acldefault('f', p.proowner) AS acldefault " "FROM pg_proc p " "LEFT JOIN pg_init_privs pip ON " "(p.oid = pip.objoid " "AND pip.classoid = 'pg_proc'::regclass " "AND pip.objsubid = 0) " "WHERE %s AND (" "p.pronamespace != " "(SELECT oid FROM pg_namespace " "WHERE nspname = 'pg_catalog') OR " "p.proacl IS DISTINCT FROM pip.initprivs", agg_check); if (dopt->binary_upgrade) appendPQExpBufferStr(query, " OR EXISTS(SELECT 1 FROM pg_depend WHERE " "classid = 'pg_proc'::regclass AND " "objid = p.oid AND " "refclassid = 'pg_extension'::regclass AND " "deptype = 'e')"); appendPQExpBufferChar(query, ')'); } else { appendPQExpBufferStr(query, "SELECT tableoid, oid, proname AS aggname, " "pronamespace AS aggnamespace, " "pronargs, proargtypes, " "proowner, " "proacl AS aggacl, " "acldefault('f', proowner) AS acldefault " "FROM pg_proc p " "WHERE proisagg AND (" "pronamespace != " "(SELECT oid FROM pg_namespace " "WHERE nspname = 'pg_catalog')"); if (dopt->binary_upgrade) appendPQExpBufferStr(query, " OR EXISTS(SELECT 1 FROM pg_depend WHERE " "classid = 'pg_proc'::regclass AND " "objid = p.oid AND " "refclassid = 'pg_extension'::regclass AND " "deptype = 'e')"); appendPQExpBufferChar(query, ')'); } res = ExecuteSqlQuery(fout, query->data, PGRES_TUPLES_OK); ntups = PQntuples(res); *numAggs = ntups; agginfo = (AggInfo *) pg_malloc(ntups * sizeof(AggInfo)); i_tableoid = PQfnumber(res, "tableoid"); i_oid = PQfnumber(res, "oid"); i_aggname = PQfnumber(res, "aggname"); i_aggnamespace = PQfnumber(res, "aggnamespace"); i_pronargs = PQfnumber(res, "pronargs"); i_proargtypes = PQfnumber(res, "proargtypes"); i_proowner = PQfnumber(res, "proowner"); i_aggacl = PQfnumber(res, "aggacl"); i_acldefault = PQfnumber(res, "acldefault"); for (i = 0; i < ntups; i++) { agginfo[i].aggfn.dobj.objType = DO_AGG; agginfo[i].aggfn.dobj.catId.tableoid = atooid(PQgetvalue(res, i, i_tableoid)); agginfo[i].aggfn.dobj.catId.oid = atooid(PQgetvalue(res, i, i_oid)); AssignDumpId(&agginfo[i].aggfn.dobj); agginfo[i].aggfn.dobj.name = pg_strdup(PQgetvalue(res, i, i_aggname)); agginfo[i].aggfn.dobj.namespace = findNamespace(atooid(PQgetvalue(res, i, i_aggnamespace))); agginfo[i].aggfn.dacl.acl = pg_strdup(PQgetvalue(res, i, i_aggacl)); agginfo[i].aggfn.dacl.acldefault = pg_strdup(PQgetvalue(res, i, i_acldefault)); agginfo[i].aggfn.dacl.privtype = 0; agginfo[i].aggfn.dacl.initprivs = NULL; agginfo[i].aggfn.rolname = getRoleName(PQgetvalue(res, i, i_proowner)); agginfo[i].aggfn.lang = InvalidOid; /* not currently interesting */ agginfo[i].aggfn.prorettype = InvalidOid; /* not saved */ agginfo[i].aggfn.nargs = atoi(PQgetvalue(res, i, i_pronargs)); if (agginfo[i].aggfn.nargs == 0) agginfo[i].aggfn.argtypes = NULL; else { agginfo[i].aggfn.argtypes = (Oid *) pg_malloc(agginfo[i].aggfn.nargs * sizeof(Oid)); parseOidArray(PQgetvalue(res, i, i_proargtypes), agginfo[i].aggfn.argtypes, agginfo[i].aggfn.nargs); } agginfo[i].aggfn.postponed_def = false; /* might get set during sort */ /* Decide whether we want to dump it */ selectDumpableObject(&(agginfo[i].aggfn.dobj), fout); /* Mark whether aggregate has an ACL */ if (!PQgetisnull(res, i, i_aggacl)) agginfo[i].aggfn.dobj.components |= DUMP_COMPONENT_ACL; } PQclear(res); destroyPQExpBuffer(query); return agginfo; } /* * getFuncs: * read all the user-defined functions in the system catalogs and * return them in the FuncInfo* structure * * numFuncs is set to the number of functions read in */ FuncInfo * getFuncs(Archive *fout, int *numFuncs) { DumpOptions *dopt = fout->dopt; PGresult *res; int ntups; int i; PQExpBuffer query = createPQExpBuffer(); FuncInfo *finfo; int i_tableoid; int i_oid; int i_proname; int i_pronamespace; int i_proowner; int i_prolang; int i_pronargs; int i_proargtypes; int i_prorettype; int i_proacl; int i_acldefault; /* * Find all interesting functions. This is a bit complicated: * * 1. Always exclude aggregates; those are handled elsewhere. * * 2. Always exclude functions that are internally dependent on something * else, since presumably those will be created as a result of creating * the something else. This currently acts only to suppress constructor * functions for range types. Note this is OK only because the * constructors don't have any dependencies the range type doesn't have; * otherwise we might not get creation ordering correct. * * 3. Otherwise, we normally exclude functions in pg_catalog. However, if * they're members of extensions and we are in binary-upgrade mode then * include them, since we want to dump extension members individually in * that mode. Also, if they are used by casts or transforms then we need * to gather the information about them, though they won't be dumped if * they are built-in. Also, in 9.6 and up, include functions in * pg_catalog if they have an ACL different from what's shown in * pg_init_privs (so we have to join to pg_init_privs; annoying). */ if (fout->remoteVersion >= 90600) { const char *not_agg_check; not_agg_check = (fout->remoteVersion >= 110000 ? "p.prokind <> 'a'" : "NOT p.proisagg"); appendPQExpBuffer(query, "SELECT p.tableoid, p.oid, p.proname, p.prolang, " "p.pronargs, p.proargtypes, p.prorettype, " "p.proacl, " "acldefault('f', p.proowner) AS acldefault, " "p.pronamespace, " "p.proowner " "FROM pg_proc p " "LEFT JOIN pg_init_privs pip ON " "(p.oid = pip.objoid " "AND pip.classoid = 'pg_proc'::regclass " "AND pip.objsubid = 0) " "WHERE %s" "\n AND NOT EXISTS (SELECT 1 FROM pg_depend " "WHERE classid = 'pg_proc'::regclass AND " "objid = p.oid AND deptype = 'i')" "\n AND (" "\n pronamespace != " "(SELECT oid FROM pg_namespace " "WHERE nspname = 'pg_catalog')" "\n OR EXISTS (SELECT 1 FROM pg_cast" "\n WHERE pg_cast.oid > %u " "\n AND p.oid = pg_cast.castfunc)" "\n OR EXISTS (SELECT 1 FROM pg_transform" "\n WHERE pg_transform.oid > %u AND " "\n (p.oid = pg_transform.trffromsql" "\n OR p.oid = pg_transform.trftosql))", not_agg_check, g_last_builtin_oid, g_last_builtin_oid); if (dopt->binary_upgrade) appendPQExpBufferStr(query, "\n OR EXISTS(SELECT 1 FROM pg_depend WHERE " "classid = 'pg_proc'::regclass AND " "objid = p.oid AND " "refclassid = 'pg_extension'::regclass AND " "deptype = 'e')"); appendPQExpBufferStr(query, "\n OR p.proacl IS DISTINCT FROM pip.initprivs"); appendPQExpBufferChar(query, ')'); } else { appendPQExpBuffer(query, "SELECT tableoid, oid, proname, prolang, " "pronargs, proargtypes, prorettype, proacl, " "acldefault('f', proowner) AS acldefault, " "pronamespace, " "proowner " "FROM pg_proc p " "WHERE NOT proisagg" "\n AND NOT EXISTS (SELECT 1 FROM pg_depend " "WHERE classid = 'pg_proc'::regclass AND " "objid = p.oid AND deptype = 'i')" "\n AND (" "\n pronamespace != " "(SELECT oid FROM pg_namespace " "WHERE nspname = 'pg_catalog')" "\n OR EXISTS (SELECT 1 FROM pg_cast" "\n WHERE pg_cast.oid > '%u'::oid" "\n AND p.oid = pg_cast.castfunc)", g_last_builtin_oid); if (fout->remoteVersion >= 90500) appendPQExpBuffer(query, "\n OR EXISTS (SELECT 1 FROM pg_transform" "\n WHERE pg_transform.oid > '%u'::oid" "\n AND (p.oid = pg_transform.trffromsql" "\n OR p.oid = pg_transform.trftosql))", g_last_builtin_oid); if (dopt->binary_upgrade) appendPQExpBufferStr(query, "\n OR EXISTS(SELECT 1 FROM pg_depend WHERE " "classid = 'pg_proc'::regclass AND " "objid = p.oid AND " "refclassid = 'pg_extension'::regclass AND " "deptype = 'e')"); appendPQExpBufferChar(query, ')'); } res = ExecuteSqlQuery(fout, query->data, PGRES_TUPLES_OK); ntups = PQntuples(res); *numFuncs = ntups; finfo = (FuncInfo *) pg_malloc0(ntups * sizeof(FuncInfo)); i_tableoid = PQfnumber(res, "tableoid"); i_oid = PQfnumber(res, "oid"); i_proname = PQfnumber(res, "proname"); i_pronamespace = PQfnumber(res, "pronamespace"); i_proowner = PQfnumber(res, "proowner"); i_prolang = PQfnumber(res, "prolang"); i_pronargs = PQfnumber(res, "pronargs"); i_proargtypes = PQfnumber(res, "proargtypes"); i_prorettype = PQfnumber(res, "prorettype"); i_proacl = PQfnumber(res, "proacl"); i_acldefault = PQfnumber(res, "acldefault"); for (i = 0; i < ntups; i++) { finfo[i].dobj.objType = DO_FUNC; finfo[i].dobj.catId.tableoid = atooid(PQgetvalue(res, i, i_tableoid)); finfo[i].dobj.catId.oid = atooid(PQgetvalue(res, i, i_oid)); AssignDumpId(&finfo[i].dobj); finfo[i].dobj.name = pg_strdup(PQgetvalue(res, i, i_proname)); finfo[i].dobj.namespace = findNamespace(atooid(PQgetvalue(res, i, i_pronamespace))); finfo[i].dacl.acl = pg_strdup(PQgetvalue(res, i, i_proacl)); finfo[i].dacl.acldefault = pg_strdup(PQgetvalue(res, i, i_acldefault)); finfo[i].dacl.privtype = 0; finfo[i].dacl.initprivs = NULL; finfo[i].rolname = getRoleName(PQgetvalue(res, i, i_proowner)); finfo[i].lang = atooid(PQgetvalue(res, i, i_prolang)); finfo[i].prorettype = atooid(PQgetvalue(res, i, i_prorettype)); finfo[i].nargs = atoi(PQgetvalue(res, i, i_pronargs)); if (finfo[i].nargs == 0) finfo[i].argtypes = NULL; else { finfo[i].argtypes = (Oid *) pg_malloc(finfo[i].nargs * sizeof(Oid)); parseOidArray(PQgetvalue(res, i, i_proargtypes), finfo[i].argtypes, finfo[i].nargs); } finfo[i].postponed_def = false; /* might get set during sort */ /* Decide whether we want to dump it */ selectDumpableObject(&(finfo[i].dobj), fout); /* Mark whether function has an ACL */ if (!PQgetisnull(res, i, i_proacl)) finfo[i].dobj.components |= DUMP_COMPONENT_ACL; } PQclear(res); destroyPQExpBuffer(query); return finfo; } /* * getTables * read all the tables (no indexes) in the system catalogs, * and return them as an array of TableInfo structures * * *numTables is set to the number of tables read in */ TableInfo * getTables(Archive *fout, int *numTables) { DumpOptions *dopt = fout->dopt; PGresult *res; int ntups; int i; PQExpBuffer query = createPQExpBuffer(); TableInfo *tblinfo; int i_reltableoid; int i_reloid; int i_relname; int i_relnamespace; int i_relkind; int i_reltype; int i_relowner; int i_relchecks; int i_relhasindex; int i_relhasrules; int i_relpages; int i_toastpages; int i_owning_tab; int i_owning_col; int i_reltablespace; int i_relhasoids; int i_relhastriggers; int i_relpersistence; int i_relispopulated; int i_relreplident; int i_relrowsec; int i_relforcerowsec; int i_relfrozenxid; int i_toastfrozenxid; int i_toastoid; int i_relminmxid; int i_toastminmxid; int i_reloptions; int i_checkoption; int i_toastreloptions; int i_reloftype; int i_foreignserver; int i_amname; int i_is_identity_sequence; int i_relacl; int i_acldefault; int i_ispartition; /* * Find all the tables and table-like objects. * * We must fetch all tables in this phase because otherwise we cannot * correctly identify inherited columns, owned sequences, etc. * * We include system catalogs, so that we can work if a user table is * defined to inherit from a system catalog (pretty weird, but...) * * Note: in this phase we should collect only a minimal amount of * information about each table, basically just enough to decide if it is * interesting. In particular, since we do not yet have lock on any user * table, we MUST NOT invoke any server-side data collection functions * (for instance, pg_get_partkeydef()). Those are likely to fail or give * wrong answers if any concurrent DDL is happening. */ appendPQExpBufferStr(query, "SELECT c.tableoid, c.oid, c.relname, " "c.relnamespace, c.relkind, c.reltype, " "c.relowner, " "c.relchecks, " "c.relhasindex, c.relhasrules, c.relpages, " "c.relhastriggers, " "c.relpersistence, " "c.reloftype, " "c.relacl, " "acldefault(CASE WHEN c.relkind = " CppAsString2(RELKIND_SEQUENCE) " THEN 's'::\"char\" ELSE 'r'::\"char\" END, c.relowner) AS acldefault, " "CASE WHEN c.relkind = " CppAsString2(RELKIND_FOREIGN_TABLE) " THEN " "(SELECT ftserver FROM pg_catalog.pg_foreign_table WHERE ftrelid = c.oid) " "ELSE 0 END AS foreignserver, " "c.relfrozenxid, tc.relfrozenxid AS tfrozenxid, " "tc.oid AS toid, " "tc.relpages AS toastpages, " "tc.reloptions AS toast_reloptions, " "d.refobjid AS owning_tab, " "d.refobjsubid AS owning_col, " "tsp.spcname AS reltablespace, "); if (fout->remoteVersion >= 120000) appendPQExpBufferStr(query, "false AS relhasoids, "); else appendPQExpBufferStr(query, "c.relhasoids, "); if (fout->remoteVersion >= 90300) appendPQExpBufferStr(query, "c.relispopulated, "); else appendPQExpBufferStr(query, "'t' as relispopulated, "); if (fout->remoteVersion >= 90400) appendPQExpBufferStr(query, "c.relreplident, "); else appendPQExpBufferStr(query, "'d' AS relreplident, "); if (fout->remoteVersion >= 90500) appendPQExpBufferStr(query, "c.relrowsecurity, c.relforcerowsecurity, "); else appendPQExpBufferStr(query, "false AS relrowsecurity, " "false AS relforcerowsecurity, "); if (fout->remoteVersion >= 90300) appendPQExpBufferStr(query, "c.relminmxid, tc.relminmxid AS tminmxid, "); else appendPQExpBufferStr(query, "0 AS relminmxid, 0 AS tminmxid, "); if (fout->remoteVersion >= 90300) appendPQExpBufferStr(query, "array_remove(array_remove(c.reloptions,'check_option=local'),'check_option=cascaded') AS reloptions, " "CASE WHEN 'check_option=local' = ANY (c.reloptions) THEN 'LOCAL'::text " "WHEN 'check_option=cascaded' = ANY (c.reloptions) THEN 'CASCADED'::text ELSE NULL END AS checkoption, "); else appendPQExpBufferStr(query, "c.reloptions, NULL AS checkoption, "); if (fout->remoteVersion >= 90600) appendPQExpBufferStr(query, "am.amname, "); else appendPQExpBufferStr(query, "NULL AS amname, "); if (fout->remoteVersion >= 90600) appendPQExpBufferStr(query, "(d.deptype = 'i') IS TRUE AS is_identity_sequence, "); else appendPQExpBufferStr(query, "false AS is_identity_sequence, "); if (fout->remoteVersion >= 100000) appendPQExpBufferStr(query, "c.relispartition AS ispartition "); else appendPQExpBufferStr(query, "false AS ispartition "); /* * Left join to pg_depend to pick up dependency info linking sequences to * their owning column, if any (note this dependency is AUTO except for * identity sequences, where it's INTERNAL). Also join to pg_tablespace to * collect the spcname. */ appendPQExpBufferStr(query, "\nFROM pg_class c\n" "LEFT JOIN pg_depend d ON " "(c.relkind = " CppAsString2(RELKIND_SEQUENCE) " AND " "d.classid = 'pg_class'::regclass AND d.objid = c.oid AND " "d.objsubid = 0 AND " "d.refclassid = 'pg_class'::regclass AND d.deptype IN ('a', 'i'))\n" "LEFT JOIN pg_tablespace tsp ON (tsp.oid = c.reltablespace)\n"); /* * In 9.6 and up, left join to pg_am to pick up the amname. */ if (fout->remoteVersion >= 90600) appendPQExpBufferStr(query, "LEFT JOIN pg_am am ON (c.relam = am.oid)\n"); /* * We purposefully ignore toast OIDs for partitioned tables; the reason is * that versions 10 and 11 have them, but later versions do not, so * emitting them causes the upgrade to fail. */ appendPQExpBufferStr(query, "LEFT JOIN pg_class tc ON (c.reltoastrelid = tc.oid" " AND tc.relkind = " CppAsString2(RELKIND_TOASTVALUE) " AND c.relkind <> " CppAsString2(RELKIND_PARTITIONED_TABLE) ")\n"); /* * Restrict to interesting relkinds (in particular, not indexes). Not all * relkinds are possible in older servers, but it's not worth the trouble * to emit a version-dependent list. * * Composite-type table entries won't be dumped as such, but we have to * make a DumpableObject for them so that we can track dependencies of the * composite type (pg_depend entries for columns of the composite type * link to the pg_class entry not the pg_type entry). */ appendPQExpBufferStr(query, "WHERE c.relkind IN (" CppAsString2(RELKIND_RELATION) ", " CppAsString2(RELKIND_SEQUENCE) ", " CppAsString2(RELKIND_VIEW) ", " CppAsString2(RELKIND_COMPOSITE_TYPE) ", " CppAsString2(RELKIND_MATVIEW) ", " CppAsString2(RELKIND_FOREIGN_TABLE) ", " CppAsString2(RELKIND_PARTITIONED_TABLE) ")\n" "ORDER BY c.oid"); res = ExecuteSqlQuery(fout, query->data, PGRES_TUPLES_OK); ntups = PQntuples(res); *numTables = ntups; /* * Extract data from result and lock dumpable tables. We do the locking * before anything else, to minimize the window wherein a table could * disappear under us. * * Note that we have to save info about all tables here, even when dumping * only one, because we don't yet know which tables might be inheritance * ancestors of the target table. */ tblinfo = (TableInfo *) pg_malloc0(ntups * sizeof(TableInfo)); i_reltableoid = PQfnumber(res, "tableoid"); i_reloid = PQfnumber(res, "oid"); i_relname = PQfnumber(res, "relname"); i_relnamespace = PQfnumber(res, "relnamespace"); i_relkind = PQfnumber(res, "relkind"); i_reltype = PQfnumber(res, "reltype"); i_relowner = PQfnumber(res, "relowner"); i_relchecks = PQfnumber(res, "relchecks"); i_relhasindex = PQfnumber(res, "relhasindex"); i_relhasrules = PQfnumber(res, "relhasrules"); i_relpages = PQfnumber(res, "relpages"); i_toastpages = PQfnumber(res, "toastpages"); i_owning_tab = PQfnumber(res, "owning_tab"); i_owning_col = PQfnumber(res, "owning_col"); i_reltablespace = PQfnumber(res, "reltablespace"); i_relhasoids = PQfnumber(res, "relhasoids"); i_relhastriggers = PQfnumber(res, "relhastriggers"); i_relpersistence = PQfnumber(res, "relpersistence"); i_relispopulated = PQfnumber(res, "relispopulated"); i_relreplident = PQfnumber(res, "relreplident"); i_relrowsec = PQfnumber(res, "relrowsecurity"); i_relforcerowsec = PQfnumber(res, "relforcerowsecurity"); i_relfrozenxid = PQfnumber(res, "relfrozenxid"); i_toastfrozenxid = PQfnumber(res, "tfrozenxid"); i_toastoid = PQfnumber(res, "toid"); i_relminmxid = PQfnumber(res, "relminmxid"); i_toastminmxid = PQfnumber(res, "tminmxid"); i_reloptions = PQfnumber(res, "reloptions"); i_checkoption = PQfnumber(res, "checkoption"); i_toastreloptions = PQfnumber(res, "toast_reloptions"); i_reloftype = PQfnumber(res, "reloftype"); i_foreignserver = PQfnumber(res, "foreignserver"); i_amname = PQfnumber(res, "amname"); i_is_identity_sequence = PQfnumber(res, "is_identity_sequence"); i_relacl = PQfnumber(res, "relacl"); i_acldefault = PQfnumber(res, "acldefault"); i_ispartition = PQfnumber(res, "ispartition"); if (dopt->lockWaitTimeout) { /* * Arrange to fail instead of waiting forever for a table lock. * * NB: this coding assumes that the only queries issued within the * following loop are LOCK TABLEs; else the timeout may be undesirably * applied to other things too. */ resetPQExpBuffer(query); appendPQExpBufferStr(query, "SET statement_timeout = "); appendStringLiteralConn(query, dopt->lockWaitTimeout, GetConnection(fout)); ExecuteSqlStatement(fout, query->data); } resetPQExpBuffer(query); for (i = 0; i < ntups; i++) { tblinfo[i].dobj.objType = DO_TABLE; tblinfo[i].dobj.catId.tableoid = atooid(PQgetvalue(res, i, i_reltableoid)); tblinfo[i].dobj.catId.oid = atooid(PQgetvalue(res, i, i_reloid)); AssignDumpId(&tblinfo[i].dobj); tblinfo[i].dobj.name = pg_strdup(PQgetvalue(res, i, i_relname)); tblinfo[i].dobj.namespace = findNamespace(atooid(PQgetvalue(res, i, i_relnamespace))); tblinfo[i].dacl.acl = pg_strdup(PQgetvalue(res, i, i_relacl)); tblinfo[i].dacl.acldefault = pg_strdup(PQgetvalue(res, i, i_acldefault)); tblinfo[i].dacl.privtype = 0; tblinfo[i].dacl.initprivs = NULL; tblinfo[i].relkind = *(PQgetvalue(res, i, i_relkind)); tblinfo[i].reltype = atooid(PQgetvalue(res, i, i_reltype)); tblinfo[i].rolname = getRoleName(PQgetvalue(res, i, i_relowner)); tblinfo[i].ncheck = atoi(PQgetvalue(res, i, i_relchecks)); tblinfo[i].hasindex = (strcmp(PQgetvalue(res, i, i_relhasindex), "t") == 0); tblinfo[i].hasrules = (strcmp(PQgetvalue(res, i, i_relhasrules), "t") == 0); tblinfo[i].relpages = atoi(PQgetvalue(res, i, i_relpages)); if (PQgetisnull(res, i, i_toastpages)) tblinfo[i].toastpages = 0; else tblinfo[i].toastpages = atoi(PQgetvalue(res, i, i_toastpages)); if (PQgetisnull(res, i, i_owning_tab)) { tblinfo[i].owning_tab = InvalidOid; tblinfo[i].owning_col = 0; } else { tblinfo[i].owning_tab = atooid(PQgetvalue(res, i, i_owning_tab)); tblinfo[i].owning_col = atoi(PQgetvalue(res, i, i_owning_col)); } tblinfo[i].reltablespace = pg_strdup(PQgetvalue(res, i, i_reltablespace)); tblinfo[i].hasoids = (strcmp(PQgetvalue(res, i, i_relhasoids), "t") == 0); tblinfo[i].hastriggers = (strcmp(PQgetvalue(res, i, i_relhastriggers), "t") == 0); tblinfo[i].relpersistence = *(PQgetvalue(res, i, i_relpersistence)); tblinfo[i].relispopulated = (strcmp(PQgetvalue(res, i, i_relispopulated), "t") == 0); tblinfo[i].relreplident = *(PQgetvalue(res, i, i_relreplident)); tblinfo[i].rowsec = (strcmp(PQgetvalue(res, i, i_relrowsec), "t") == 0); tblinfo[i].forcerowsec = (strcmp(PQgetvalue(res, i, i_relforcerowsec), "t") == 0); tblinfo[i].frozenxid = atooid(PQgetvalue(res, i, i_relfrozenxid)); tblinfo[i].toast_frozenxid = atooid(PQgetvalue(res, i, i_toastfrozenxid)); tblinfo[i].toast_oid = atooid(PQgetvalue(res, i, i_toastoid)); tblinfo[i].minmxid = atooid(PQgetvalue(res, i, i_relminmxid)); tblinfo[i].toast_minmxid = atooid(PQgetvalue(res, i, i_toastminmxid)); tblinfo[i].reloptions = pg_strdup(PQgetvalue(res, i, i_reloptions)); if (PQgetisnull(res, i, i_checkoption)) tblinfo[i].checkoption = NULL; else tblinfo[i].checkoption = pg_strdup(PQgetvalue(res, i, i_checkoption)); tblinfo[i].toast_reloptions = pg_strdup(PQgetvalue(res, i, i_toastreloptions)); tblinfo[i].reloftype = atooid(PQgetvalue(res, i, i_reloftype)); tblinfo[i].foreign_server = atooid(PQgetvalue(res, i, i_foreignserver)); if (PQgetisnull(res, i, i_amname)) tblinfo[i].amname = NULL; else tblinfo[i].amname = pg_strdup(PQgetvalue(res, i, i_amname)); tblinfo[i].is_identity_sequence = (strcmp(PQgetvalue(res, i, i_is_identity_sequence), "t") == 0); tblinfo[i].ispartition = (strcmp(PQgetvalue(res, i, i_ispartition), "t") == 0); /* other fields were zeroed above */ /* * Decide whether we want to dump this table. */ if (tblinfo[i].relkind == RELKIND_COMPOSITE_TYPE) tblinfo[i].dobj.dump = DUMP_COMPONENT_NONE; else selectDumpableTable(&tblinfo[i], fout); /* * Now, consider the table "interesting" if we need to dump its * definition or its data. Later on, we'll skip a lot of data * collection for uninteresting tables. * * Note: the "interesting" flag will also be set by flagInhTables for * parents of interesting tables, so that we collect necessary * inheritance info even when the parents are not themselves being * dumped. This is the main reason why we need an "interesting" flag * that's separate from the components-to-dump bitmask. */ tblinfo[i].interesting = (tblinfo[i].dobj.dump & (DUMP_COMPONENT_DEFINITION | DUMP_COMPONENT_DATA)) != 0; tblinfo[i].dummy_view = false; /* might get set during sort */ tblinfo[i].postponed_def = false; /* might get set during sort */ /* Tables have data */ tblinfo[i].dobj.components |= DUMP_COMPONENT_DATA; /* Mark whether table has an ACL */ if (!PQgetisnull(res, i, i_relacl)) tblinfo[i].dobj.components |= DUMP_COMPONENT_ACL; tblinfo[i].hascolumnACLs = false; /* may get set later */ /* * Read-lock target tables to make sure they aren't DROPPED or altered * in schema before we get around to dumping them. * * Note that we don't explicitly lock parents of the target tables; we * assume our lock on the child is enough to prevent schema * alterations to parent tables. * * NOTE: it'd be kinda nice to lock other relations too, not only * plain or partitioned tables, but the backend doesn't presently * allow that. * * We only need to lock the table for certain components; see * pg_dump.h */ if ((tblinfo[i].dobj.dump & DUMP_COMPONENTS_REQUIRING_LOCK) && (tblinfo[i].relkind == RELKIND_RELATION || tblinfo[i].relkind == RELKIND_PARTITIONED_TABLE)) { /* * Tables are locked in batches. When dumping from a remote * server this can save a significant amount of time by reducing * the number of round trips. */ if (query->len == 0) appendPQExpBuffer(query, "LOCK TABLE %s", fmtQualifiedDumpable(&tblinfo[i])); else { appendPQExpBuffer(query, ", %s", fmtQualifiedDumpable(&tblinfo[i])); /* Arbitrarily end a batch when query length reaches 100K. */ if (query->len >= 100000) { /* Lock another batch of tables. */ appendPQExpBufferStr(query, " IN ACCESS SHARE MODE"); ExecuteSqlStatement(fout, query->data); resetPQExpBuffer(query); } } } } if (query->len != 0) { /* Lock the tables in the last batch. */ appendPQExpBufferStr(query, " IN ACCESS SHARE MODE"); ExecuteSqlStatement(fout, query->data); } if (dopt->lockWaitTimeout) { ExecuteSqlStatement(fout, "SET statement_timeout = 0"); } PQclear(res); destroyPQExpBuffer(query); return tblinfo; } /* * getOwnedSeqs * identify owned sequences and mark them as dumpable if owning table is * * We used to do this in getTables(), but it's better to do it after the * index used by findTableByOid() has been set up. */ void getOwnedSeqs(Archive *fout, TableInfo tblinfo[], int numTables) { int i; /* * Force sequences that are "owned" by table columns to be dumped whenever * their owning table is being dumped. */ for (i = 0; i < numTables; i++) { TableInfo *seqinfo = &tblinfo[i]; TableInfo *owning_tab; if (!OidIsValid(seqinfo->owning_tab)) continue; /* not an owned sequence */ owning_tab = findTableByOid(seqinfo->owning_tab); if (owning_tab == NULL) pg_fatal("failed sanity check, parent table with OID %u of sequence with OID %u not found", seqinfo->owning_tab, seqinfo->dobj.catId.oid); /* * Only dump identity sequences if we're going to dump the table that * it belongs to. */ if (owning_tab->dobj.dump == DUMP_COMPONENT_NONE && seqinfo->is_identity_sequence) { seqinfo->dobj.dump = DUMP_COMPONENT_NONE; continue; } /* * Otherwise we need to dump the components that are being dumped for * the table and any components which the sequence is explicitly * marked with. * * We can't simply use the set of components which are being dumped * for the table as the table might be in an extension (and only the * non-extension components, eg: ACLs if changed, security labels, and * policies, are being dumped) while the sequence is not (and * therefore the definition and other components should also be * dumped). * * If the sequence is part of the extension then it should be properly * marked by checkExtensionMembership() and this will be a no-op as * the table will be equivalently marked. */ seqinfo->dobj.dump = seqinfo->dobj.dump | owning_tab->dobj.dump; if (seqinfo->dobj.dump != DUMP_COMPONENT_NONE) seqinfo->interesting = true; } } /* * getInherits * read all the inheritance information * from the system catalogs return them in the InhInfo* structure * * numInherits is set to the number of pairs read in */ InhInfo * getInherits(Archive *fout, int *numInherits) { PGresult *res; int ntups; int i; PQExpBuffer query = createPQExpBuffer(); InhInfo *inhinfo; int i_inhrelid; int i_inhparent; /* find all the inheritance information */ appendPQExpBufferStr(query, "SELECT inhrelid, inhparent FROM pg_inherits"); res = ExecuteSqlQuery(fout, query->data, PGRES_TUPLES_OK); ntups = PQntuples(res); *numInherits = ntups; inhinfo = (InhInfo *) pg_malloc(ntups * sizeof(InhInfo)); i_inhrelid = PQfnumber(res, "inhrelid"); i_inhparent = PQfnumber(res, "inhparent"); for (i = 0; i < ntups; i++) { inhinfo[i].inhrelid = atooid(PQgetvalue(res, i, i_inhrelid)); inhinfo[i].inhparent = atooid(PQgetvalue(res, i, i_inhparent)); } PQclear(res); destroyPQExpBuffer(query); return inhinfo; } /* * getPartitioningInfo * get information about partitioning * * For the most part, we only collect partitioning info about tables we * intend to dump. However, this function has to consider all partitioned * tables in the database, because we need to know about parents of partitions * we are going to dump even if the parents themselves won't be dumped. * * Specifically, what we need to know is whether each partitioned table * has an "unsafe" partitioning scheme that requires us to force * load-via-partition-root mode for its children. Currently the only case * for which we force that is hash partitioning on enum columns, since the * hash codes depend on enum value OIDs which won't be replicated across * dump-and-reload. There are other cases in which load-via-partition-root * might be necessary, but we expect users to cope with them. */ void getPartitioningInfo(Archive *fout) { PQExpBuffer query; PGresult *res; int ntups; /* hash partitioning didn't exist before v11 */ if (fout->remoteVersion < 110000) return; /* needn't bother if schema-only dump */ if (fout->dopt->schemaOnly) return; query = createPQExpBuffer(); /* * Unsafe partitioning schemes are exactly those for which hash enum_ops * appears among the partition opclasses. We needn't check partstrat. * * Note that this query may well retrieve info about tables we aren't * going to dump and hence have no lock on. That's okay since we need not * invoke any unsafe server-side functions. */ appendPQExpBufferStr(query, "SELECT partrelid FROM pg_partitioned_table WHERE\n" "(SELECT c.oid FROM pg_opclass c JOIN pg_am a " "ON c.opcmethod = a.oid\n" "WHERE opcname = 'enum_ops' " "AND opcnamespace = 'pg_catalog'::regnamespace " "AND amname = 'hash') = ANY(partclass)"); res = ExecuteSqlQuery(fout, query->data, PGRES_TUPLES_OK); ntups = PQntuples(res); for (int i = 0; i < ntups; i++) { Oid tabrelid = atooid(PQgetvalue(res, i, 0)); TableInfo *tbinfo; tbinfo = findTableByOid(tabrelid); if (tbinfo == NULL) pg_fatal("failed sanity check, table OID %u appearing in pg_partitioned_table not found", tabrelid); tbinfo->unsafe_partitions = true; } PQclear(res); destroyPQExpBuffer(query); } /* * getIndexes * get information about every index on a dumpable table * * Note: index data is not returned directly to the caller, but it * does get entered into the DumpableObject tables. */ void getIndexes(Archive *fout, TableInfo tblinfo[], int numTables) { PQExpBuffer query = createPQExpBuffer(); PQExpBuffer tbloids = createPQExpBuffer(); PGresult *res; int ntups; int curtblindx; IndxInfo *indxinfo; int i_tableoid, i_oid, i_indrelid, i_indexname, i_parentidx, i_indexdef, i_indnkeyatts, i_indnatts, i_indkey, i_indisclustered, i_indisreplident, i_indnullsnotdistinct, i_contype, i_conname, i_condeferrable, i_condeferred, i_contableoid, i_conoid, i_condef, i_tablespace, i_indreloptions, i_indstatcols, i_indstatvals; /* * We want to perform just one query against pg_index. However, we * mustn't try to select every row of the catalog and then sort it out on * the client side, because some of the server-side functions we need * would be unsafe to apply to tables we don't have lock on. Hence, we * build an array of the OIDs of tables we care about (and now have lock * on!), and use a WHERE clause to constrain which rows are selected. */ appendPQExpBufferChar(tbloids, '{'); for (int i = 0; i < numTables; i++) { TableInfo *tbinfo = &tblinfo[i]; if (!tbinfo->hasindex) continue; /* * We can ignore indexes of uninteresting tables. */ if (!tbinfo->interesting) continue; /* OK, we need info for this table */ if (tbloids->len > 1) /* do we have more than the '{'? */ appendPQExpBufferChar(tbloids, ','); appendPQExpBuffer(tbloids, "%u", tbinfo->dobj.catId.oid); } appendPQExpBufferChar(tbloids, '}'); appendPQExpBufferStr(query, "SELECT t.tableoid, t.oid, i.indrelid, " "t.relname AS indexname, " "pg_catalog.pg_get_indexdef(i.indexrelid) AS indexdef, " "i.indkey, i.indisclustered, " "c.contype, c.conname, " "c.condeferrable, c.condeferred, " "c.tableoid AS contableoid, " "c.oid AS conoid, " "pg_catalog.pg_get_constraintdef(c.oid, false) AS condef, " "(SELECT spcname FROM pg_catalog.pg_tablespace s WHERE s.oid = t.reltablespace) AS tablespace, " "t.reloptions AS indreloptions, "); if (fout->remoteVersion >= 90400) appendPQExpBufferStr(query, "i.indisreplident, "); else appendPQExpBufferStr(query, "false AS indisreplident, "); if (fout->remoteVersion >= 110000) appendPQExpBufferStr(query, "inh.inhparent AS parentidx, " "i.indnkeyatts AS indnkeyatts, " "i.indnatts AS indnatts, " "(SELECT pg_catalog.array_agg(attnum ORDER BY attnum) " " FROM pg_catalog.pg_attribute " " WHERE attrelid = i.indexrelid AND " " attstattarget >= 0) AS indstatcols, " "(SELECT pg_catalog.array_agg(attstattarget ORDER BY attnum) " " FROM pg_catalog.pg_attribute " " WHERE attrelid = i.indexrelid AND " " attstattarget >= 0) AS indstatvals, "); else appendPQExpBufferStr(query, "0 AS parentidx, " "i.indnatts AS indnkeyatts, " "i.indnatts AS indnatts, " "'' AS indstatcols, " "'' AS indstatvals, "); if (fout->remoteVersion >= 150000) appendPQExpBufferStr(query, "i.indnullsnotdistinct "); else appendPQExpBufferStr(query, "false AS indnullsnotdistinct "); /* * The point of the messy-looking outer join is to find a constraint that * is related by an internal dependency link to the index. If we find one, * create a CONSTRAINT entry linked to the INDEX entry. We assume an * index won't have more than one internal dependency. * * Note: the check on conrelid is redundant, but useful because that * column is indexed while conindid is not. */ if (fout->remoteVersion >= 110000) { appendPQExpBuffer(query, "FROM unnest('%s'::pg_catalog.oid[]) AS src(tbloid)\n" "JOIN pg_catalog.pg_index i ON (src.tbloid = i.indrelid) " "JOIN pg_catalog.pg_class t ON (t.oid = i.indexrelid) " "JOIN pg_catalog.pg_class t2 ON (t2.oid = i.indrelid) " "LEFT JOIN pg_catalog.pg_constraint c " "ON (i.indrelid = c.conrelid AND " "i.indexrelid = c.conindid AND " "c.contype IN ('p','u','x')) " "LEFT JOIN pg_catalog.pg_inherits inh " "ON (inh.inhrelid = indexrelid) " "WHERE (i.indisvalid OR t2.relkind = 'p') " "AND i.indisready " "ORDER BY i.indrelid, indexname", tbloids->data); } else { /* * the test on indisready is necessary in 9.2, and harmless in * earlier/later versions */ appendPQExpBuffer(query, "FROM unnest('%s'::pg_catalog.oid[]) AS src(tbloid)\n" "JOIN pg_catalog.pg_index i ON (src.tbloid = i.indrelid) " "JOIN pg_catalog.pg_class t ON (t.oid = i.indexrelid) " "LEFT JOIN pg_catalog.pg_constraint c " "ON (i.indrelid = c.conrelid AND " "i.indexrelid = c.conindid AND " "c.contype IN ('p','u','x')) " "WHERE i.indisvalid AND i.indisready " "ORDER BY i.indrelid, indexname", tbloids->data); } res = ExecuteSqlQuery(fout, query->data, PGRES_TUPLES_OK); ntups = PQntuples(res); i_tableoid = PQfnumber(res, "tableoid"); i_oid = PQfnumber(res, "oid"); i_indrelid = PQfnumber(res, "indrelid"); i_indexname = PQfnumber(res, "indexname"); i_parentidx = PQfnumber(res, "parentidx"); i_indexdef = PQfnumber(res, "indexdef"); i_indnkeyatts = PQfnumber(res, "indnkeyatts"); i_indnatts = PQfnumber(res, "indnatts"); i_indkey = PQfnumber(res, "indkey"); i_indisclustered = PQfnumber(res, "indisclustered"); i_indisreplident = PQfnumber(res, "indisreplident"); i_indnullsnotdistinct = PQfnumber(res, "indnullsnotdistinct"); i_contype = PQfnumber(res, "contype"); i_conname = PQfnumber(res, "conname"); i_condeferrable = PQfnumber(res, "condeferrable"); i_condeferred = PQfnumber(res, "condeferred"); i_contableoid = PQfnumber(res, "contableoid"); i_conoid = PQfnumber(res, "conoid"); i_condef = PQfnumber(res, "condef"); i_tablespace = PQfnumber(res, "tablespace"); i_indreloptions = PQfnumber(res, "indreloptions"); i_indstatcols = PQfnumber(res, "indstatcols"); i_indstatvals = PQfnumber(res, "indstatvals"); indxinfo = (IndxInfo *) pg_malloc(ntups * sizeof(IndxInfo)); /* * Outer loop iterates once per table, not once per row. Incrementing of * j is handled by the inner loop. */ curtblindx = -1; for (int j = 0; j < ntups;) { Oid indrelid = atooid(PQgetvalue(res, j, i_indrelid)); TableInfo *tbinfo = NULL; int numinds; /* Count rows for this table */ for (numinds = 1; numinds < ntups - j; numinds++) if (atooid(PQgetvalue(res, j + numinds, i_indrelid)) != indrelid) break; /* * Locate the associated TableInfo; we rely on tblinfo[] being in OID * order. */ while (++curtblindx < numTables) { tbinfo = &tblinfo[curtblindx]; if (tbinfo->dobj.catId.oid == indrelid) break; } if (curtblindx >= numTables) pg_fatal("unrecognized table OID %u", indrelid); /* cross-check that we only got requested tables */ if (!tbinfo->hasindex || !tbinfo->interesting) pg_fatal("unexpected index data for table \"%s\"", tbinfo->dobj.name); /* Save data for this table */ tbinfo->indexes = indxinfo + j; tbinfo->numIndexes = numinds; for (int c = 0; c < numinds; c++, j++) { char contype; indxinfo[j].dobj.objType = DO_INDEX; indxinfo[j].dobj.catId.tableoid = atooid(PQgetvalue(res, j, i_tableoid)); indxinfo[j].dobj.catId.oid = atooid(PQgetvalue(res, j, i_oid)); AssignDumpId(&indxinfo[j].dobj); indxinfo[j].dobj.dump = tbinfo->dobj.dump; indxinfo[j].dobj.name = pg_strdup(PQgetvalue(res, j, i_indexname)); indxinfo[j].dobj.namespace = tbinfo->dobj.namespace; indxinfo[j].indextable = tbinfo; indxinfo[j].indexdef = pg_strdup(PQgetvalue(res, j, i_indexdef)); indxinfo[j].indnkeyattrs = atoi(PQgetvalue(res, j, i_indnkeyatts)); indxinfo[j].indnattrs = atoi(PQgetvalue(res, j, i_indnatts)); indxinfo[j].tablespace = pg_strdup(PQgetvalue(res, j, i_tablespace)); indxinfo[j].indreloptions = pg_strdup(PQgetvalue(res, j, i_indreloptions)); indxinfo[j].indstatcols = pg_strdup(PQgetvalue(res, j, i_indstatcols)); indxinfo[j].indstatvals = pg_strdup(PQgetvalue(res, j, i_indstatvals)); indxinfo[j].indkeys = (Oid *) pg_malloc(indxinfo[j].indnattrs * sizeof(Oid)); parseOidArray(PQgetvalue(res, j, i_indkey), indxinfo[j].indkeys, indxinfo[j].indnattrs); indxinfo[j].indisclustered = (PQgetvalue(res, j, i_indisclustered)[0] == 't'); indxinfo[j].indisreplident = (PQgetvalue(res, j, i_indisreplident)[0] == 't'); indxinfo[j].indnullsnotdistinct = (PQgetvalue(res, j, i_indnullsnotdistinct)[0] == 't'); indxinfo[j].parentidx = atooid(PQgetvalue(res, j, i_parentidx)); indxinfo[j].partattaches = (SimplePtrList) { NULL, NULL }; contype = *(PQgetvalue(res, j, i_contype)); if (contype == 'p' || contype == 'u' || contype == 'x') { /* * If we found a constraint matching the index, create an * entry for it. */ ConstraintInfo *constrinfo; constrinfo = (ConstraintInfo *) pg_malloc(sizeof(ConstraintInfo)); constrinfo->dobj.objType = DO_CONSTRAINT; constrinfo->dobj.catId.tableoid = atooid(PQgetvalue(res, j, i_contableoid)); constrinfo->dobj.catId.oid = atooid(PQgetvalue(res, j, i_conoid)); AssignDumpId(&constrinfo->dobj); constrinfo->dobj.dump = tbinfo->dobj.dump; constrinfo->dobj.name = pg_strdup(PQgetvalue(res, j, i_conname)); constrinfo->dobj.namespace = tbinfo->dobj.namespace; constrinfo->contable = tbinfo; constrinfo->condomain = NULL; constrinfo->contype = contype; if (contype == 'x') constrinfo->condef = pg_strdup(PQgetvalue(res, j, i_condef)); else constrinfo->condef = NULL; constrinfo->confrelid = InvalidOid; constrinfo->conindex = indxinfo[j].dobj.dumpId; constrinfo->condeferrable = *(PQgetvalue(res, j, i_condeferrable)) == 't'; constrinfo->condeferred = *(PQgetvalue(res, j, i_condeferred)) == 't'; constrinfo->conislocal = true; constrinfo->separate = true; indxinfo[j].indexconstraint = constrinfo->dobj.dumpId; } else { /* Plain secondary index */ indxinfo[j].indexconstraint = 0; } } } PQclear(res); destroyPQExpBuffer(query); destroyPQExpBuffer(tbloids); } /* * getExtendedStatistics * get information about extended-statistics objects. * * Note: extended statistics data is not returned directly to the caller, but * it does get entered into the DumpableObject tables. */ void getExtendedStatistics(Archive *fout) { PQExpBuffer query; PGresult *res; StatsExtInfo *statsextinfo; int ntups; int i_tableoid; int i_oid; int i_stxname; int i_stxnamespace; int i_stxowner; int i_stxrelid; int i_stattarget; int i; /* Extended statistics were new in v10 */ if (fout->remoteVersion < 100000) return; query = createPQExpBuffer(); if (fout->remoteVersion < 130000) appendPQExpBufferStr(query, "SELECT tableoid, oid, stxname, " "stxnamespace, stxowner, stxrelid, (-1) AS stxstattarget " "FROM pg_catalog.pg_statistic_ext"); else appendPQExpBufferStr(query, "SELECT tableoid, oid, stxname, " "stxnamespace, stxowner, stxrelid, stxstattarget " "FROM pg_catalog.pg_statistic_ext"); res = ExecuteSqlQuery(fout, query->data, PGRES_TUPLES_OK); ntups = PQntuples(res); i_tableoid = PQfnumber(res, "tableoid"); i_oid = PQfnumber(res, "oid"); i_stxname = PQfnumber(res, "stxname"); i_stxnamespace = PQfnumber(res, "stxnamespace"); i_stxowner = PQfnumber(res, "stxowner"); i_stxrelid = PQfnumber(res, "stxrelid"); i_stattarget = PQfnumber(res, "stxstattarget"); statsextinfo = (StatsExtInfo *) pg_malloc(ntups * sizeof(StatsExtInfo)); for (i = 0; i < ntups; i++) { statsextinfo[i].dobj.objType = DO_STATSEXT; statsextinfo[i].dobj.catId.tableoid = atooid(PQgetvalue(res, i, i_tableoid)); statsextinfo[i].dobj.catId.oid = atooid(PQgetvalue(res, i, i_oid)); AssignDumpId(&statsextinfo[i].dobj); statsextinfo[i].dobj.name = pg_strdup(PQgetvalue(res, i, i_stxname)); statsextinfo[i].dobj.namespace = findNamespace(atooid(PQgetvalue(res, i, i_stxnamespace))); statsextinfo[i].rolname = getRoleName(PQgetvalue(res, i, i_stxowner)); statsextinfo[i].stattable = findTableByOid(atooid(PQgetvalue(res, i, i_stxrelid))); statsextinfo[i].stattarget = atoi(PQgetvalue(res, i, i_stattarget)); /* Decide whether we want to dump it */ selectDumpableStatisticsObject(&(statsextinfo[i]), fout); } PQclear(res); destroyPQExpBuffer(query); } /* * getConstraints * * Get info about constraints on dumpable tables. * * Currently handles foreign keys only. * Unique and primary key constraints are handled with indexes, * while check constraints are processed in getTableAttrs(). */ void getConstraints(Archive *fout, TableInfo tblinfo[], int numTables) { PQExpBuffer query = createPQExpBuffer(); PQExpBuffer tbloids = createPQExpBuffer(); PGresult *res; int ntups; int curtblindx; TableInfo *tbinfo = NULL; ConstraintInfo *constrinfo; int i_contableoid, i_conoid, i_conrelid, i_conname, i_confrelid, i_conindid, i_condef; /* * We want to perform just one query against pg_constraint. However, we * mustn't try to select every row of the catalog and then sort it out on * the client side, because some of the server-side functions we need * would be unsafe to apply to tables we don't have lock on. Hence, we * build an array of the OIDs of tables we care about (and now have lock * on!), and use a WHERE clause to constrain which rows are selected. */ appendPQExpBufferChar(tbloids, '{'); for (int i = 0; i < numTables; i++) { TableInfo *tinfo = &tblinfo[i]; /* * For partitioned tables, foreign keys have no triggers so they must * be included anyway in case some foreign keys are defined. */ if ((!tinfo->hastriggers && tinfo->relkind != RELKIND_PARTITIONED_TABLE) || !(tinfo->dobj.dump & DUMP_COMPONENT_DEFINITION)) continue; /* OK, we need info for this table */ if (tbloids->len > 1) /* do we have more than the '{'? */ appendPQExpBufferChar(tbloids, ','); appendPQExpBuffer(tbloids, "%u", tinfo->dobj.catId.oid); } appendPQExpBufferChar(tbloids, '}'); appendPQExpBufferStr(query, "SELECT c.tableoid, c.oid, " "conrelid, conname, confrelid, "); if (fout->remoteVersion >= 110000) appendPQExpBufferStr(query, "conindid, "); else appendPQExpBufferStr(query, "0 AS conindid, "); appendPQExpBuffer(query, "pg_catalog.pg_get_constraintdef(c.oid) AS condef\n" "FROM unnest('%s'::pg_catalog.oid[]) AS src(tbloid)\n" "JOIN pg_catalog.pg_constraint c ON (src.tbloid = c.conrelid)\n" "WHERE contype = 'f' ", tbloids->data); if (fout->remoteVersion >= 110000) appendPQExpBufferStr(query, "AND conparentid = 0 "); appendPQExpBufferStr(query, "ORDER BY conrelid, conname"); res = ExecuteSqlQuery(fout, query->data, PGRES_TUPLES_OK); ntups = PQntuples(res); i_contableoid = PQfnumber(res, "tableoid"); i_conoid = PQfnumber(res, "oid"); i_conrelid = PQfnumber(res, "conrelid"); i_conname = PQfnumber(res, "conname"); i_confrelid = PQfnumber(res, "confrelid"); i_conindid = PQfnumber(res, "conindid"); i_condef = PQfnumber(res, "condef"); constrinfo = (ConstraintInfo *) pg_malloc(ntups * sizeof(ConstraintInfo)); curtblindx = -1; for (int j = 0; j < ntups; j++) { Oid conrelid = atooid(PQgetvalue(res, j, i_conrelid)); TableInfo *reftable; /* * Locate the associated TableInfo; we rely on tblinfo[] being in OID * order. */ if (tbinfo == NULL || tbinfo->dobj.catId.oid != conrelid) { while (++curtblindx < numTables) { tbinfo = &tblinfo[curtblindx]; if (tbinfo->dobj.catId.oid == conrelid) break; } if (curtblindx >= numTables) pg_fatal("unrecognized table OID %u", conrelid); } constrinfo[j].dobj.objType = DO_FK_CONSTRAINT; constrinfo[j].dobj.catId.tableoid = atooid(PQgetvalue(res, j, i_contableoid)); constrinfo[j].dobj.catId.oid = atooid(PQgetvalue(res, j, i_conoid)); AssignDumpId(&constrinfo[j].dobj); constrinfo[j].dobj.name = pg_strdup(PQgetvalue(res, j, i_conname)); constrinfo[j].dobj.namespace = tbinfo->dobj.namespace; constrinfo[j].contable = tbinfo; constrinfo[j].condomain = NULL; constrinfo[j].contype = 'f'; constrinfo[j].condef = pg_strdup(PQgetvalue(res, j, i_condef)); constrinfo[j].confrelid = atooid(PQgetvalue(res, j, i_confrelid)); constrinfo[j].conindex = 0; constrinfo[j].condeferrable = false; constrinfo[j].condeferred = false; constrinfo[j].conislocal = true; constrinfo[j].separate = true; /* * Restoring an FK that points to a partitioned table requires that * all partition indexes have been attached beforehand. Ensure that * happens by making the constraint depend on each index partition * attach object. */ reftable = findTableByOid(constrinfo[j].confrelid); if (reftable && reftable->relkind == RELKIND_PARTITIONED_TABLE) { Oid indexOid = atooid(PQgetvalue(res, j, i_conindid)); if (indexOid != InvalidOid) { for (int k = 0; k < reftable->numIndexes; k++) { IndxInfo *refidx; /* not our index? */ if (reftable->indexes[k].dobj.catId.oid != indexOid) continue; refidx = &reftable->indexes[k]; addConstrChildIdxDeps(&constrinfo[j].dobj, refidx); break; } } } } PQclear(res); destroyPQExpBuffer(query); destroyPQExpBuffer(tbloids); } /* * addConstrChildIdxDeps * * Recursive subroutine for getConstraints * * Given an object representing a foreign key constraint and an index on the * partitioned table it references, mark the constraint object as dependent * on the DO_INDEX_ATTACH object of each index partition, recursively * drilling down to their partitions if any. This ensures that the FK is not * restored until the index is fully marked valid. */ static void addConstrChildIdxDeps(DumpableObject *dobj, const IndxInfo *refidx) { SimplePtrListCell *cell; Assert(dobj->objType == DO_FK_CONSTRAINT); for (cell = refidx->partattaches.head; cell; cell = cell->next) { IndexAttachInfo *attach = (IndexAttachInfo *) cell->ptr; addObjectDependency(dobj, attach->dobj.dumpId); if (attach->partitionIdx->partattaches.head != NULL) addConstrChildIdxDeps(dobj, attach->partitionIdx); } } /* * getDomainConstraints * * Get info about constraints on a domain. */ static void getDomainConstraints(Archive *fout, TypeInfo *tyinfo) { int i; ConstraintInfo *constrinfo; PQExpBuffer query = createPQExpBuffer(); PGresult *res; int i_tableoid, i_oid, i_conname, i_consrc; int ntups; if (!fout->is_prepared[PREPQUERY_GETDOMAINCONSTRAINTS]) { /* Set up query for constraint-specific details */ appendPQExpBufferStr(query, "PREPARE getDomainConstraints(pg_catalog.oid) AS\n" "SELECT tableoid, oid, conname, " "pg_catalog.pg_get_constraintdef(oid) AS consrc, " "convalidated " "FROM pg_catalog.pg_constraint " "WHERE contypid = $1 " "ORDER BY conname"); ExecuteSqlStatement(fout, query->data); fout->is_prepared[PREPQUERY_GETDOMAINCONSTRAINTS] = true; } printfPQExpBuffer(query, "EXECUTE getDomainConstraints('%u')", tyinfo->dobj.catId.oid); res = ExecuteSqlQuery(fout, query->data, PGRES_TUPLES_OK); ntups = PQntuples(res); i_tableoid = PQfnumber(res, "tableoid"); i_oid = PQfnumber(res, "oid"); i_conname = PQfnumber(res, "conname"); i_consrc = PQfnumber(res, "consrc"); constrinfo = (ConstraintInfo *) pg_malloc(ntups * sizeof(ConstraintInfo)); tyinfo->nDomChecks = ntups; tyinfo->domChecks = constrinfo; for (i = 0; i < ntups; i++) { bool validated = PQgetvalue(res, i, 4)[0] == 't'; constrinfo[i].dobj.objType = DO_CONSTRAINT; constrinfo[i].dobj.catId.tableoid = atooid(PQgetvalue(res, i, i_tableoid)); constrinfo[i].dobj.catId.oid = atooid(PQgetvalue(res, i, i_oid)); AssignDumpId(&constrinfo[i].dobj); constrinfo[i].dobj.name = pg_strdup(PQgetvalue(res, i, i_conname)); constrinfo[i].dobj.namespace = tyinfo->dobj.namespace; constrinfo[i].contable = NULL; constrinfo[i].condomain = tyinfo; constrinfo[i].contype = 'c'; constrinfo[i].condef = pg_strdup(PQgetvalue(res, i, i_consrc)); constrinfo[i].confrelid = InvalidOid; constrinfo[i].conindex = 0; constrinfo[i].condeferrable = false; constrinfo[i].condeferred = false; constrinfo[i].conislocal = true; constrinfo[i].separate = !validated; /* * Make the domain depend on the constraint, ensuring it won't be * output till any constraint dependencies are OK. If the constraint * has not been validated, it's going to be dumped after the domain * anyway, so this doesn't matter. */ if (validated) addObjectDependency(&tyinfo->dobj, constrinfo[i].dobj.dumpId); } PQclear(res); destroyPQExpBuffer(query); } /* * getRules * get basic information about every rule in the system * * numRules is set to the number of rules read in */ RuleInfo * getRules(Archive *fout, int *numRules) { PGresult *res; int ntups; int i; PQExpBuffer query = createPQExpBuffer(); RuleInfo *ruleinfo; int i_tableoid; int i_oid; int i_rulename; int i_ruletable; int i_ev_type; int i_is_instead; int i_ev_enabled; appendPQExpBufferStr(query, "SELECT " "tableoid, oid, rulename, " "ev_class AS ruletable, ev_type, is_instead, " "ev_enabled " "FROM pg_rewrite " "ORDER BY oid"); res = ExecuteSqlQuery(fout, query->data, PGRES_TUPLES_OK); ntups = PQntuples(res); *numRules = ntups; ruleinfo = (RuleInfo *) pg_malloc(ntups * sizeof(RuleInfo)); i_tableoid = PQfnumber(res, "tableoid"); i_oid = PQfnumber(res, "oid"); i_rulename = PQfnumber(res, "rulename"); i_ruletable = PQfnumber(res, "ruletable"); i_ev_type = PQfnumber(res, "ev_type"); i_is_instead = PQfnumber(res, "is_instead"); i_ev_enabled = PQfnumber(res, "ev_enabled"); for (i = 0; i < ntups; i++) { Oid ruletableoid; ruleinfo[i].dobj.objType = DO_RULE; ruleinfo[i].dobj.catId.tableoid = atooid(PQgetvalue(res, i, i_tableoid)); ruleinfo[i].dobj.catId.oid = atooid(PQgetvalue(res, i, i_oid)); AssignDumpId(&ruleinfo[i].dobj); ruleinfo[i].dobj.name = pg_strdup(PQgetvalue(res, i, i_rulename)); ruletableoid = atooid(PQgetvalue(res, i, i_ruletable)); ruleinfo[i].ruletable = findTableByOid(ruletableoid); if (ruleinfo[i].ruletable == NULL) pg_fatal("failed sanity check, parent table with OID %u of pg_rewrite entry with OID %u not found", ruletableoid, ruleinfo[i].dobj.catId.oid); ruleinfo[i].dobj.namespace = ruleinfo[i].ruletable->dobj.namespace; ruleinfo[i].dobj.dump = ruleinfo[i].ruletable->dobj.dump; ruleinfo[i].ev_type = *(PQgetvalue(res, i, i_ev_type)); ruleinfo[i].is_instead = *(PQgetvalue(res, i, i_is_instead)) == 't'; ruleinfo[i].ev_enabled = *(PQgetvalue(res, i, i_ev_enabled)); if (ruleinfo[i].ruletable) { /* * If the table is a view or materialized view, force its ON * SELECT rule to be sorted before the view itself --- this * ensures that any dependencies for the rule affect the table's * positioning. Other rules are forced to appear after their * table. */ if ((ruleinfo[i].ruletable->relkind == RELKIND_VIEW || ruleinfo[i].ruletable->relkind == RELKIND_MATVIEW) && ruleinfo[i].ev_type == '1' && ruleinfo[i].is_instead) { addObjectDependency(&ruleinfo[i].ruletable->dobj, ruleinfo[i].dobj.dumpId); /* We'll merge the rule into CREATE VIEW, if possible */ ruleinfo[i].separate = false; } else { addObjectDependency(&ruleinfo[i].dobj, ruleinfo[i].ruletable->dobj.dumpId); ruleinfo[i].separate = true; } } else ruleinfo[i].separate = true; } PQclear(res); destroyPQExpBuffer(query); return ruleinfo; } /* * getTriggers * get information about every trigger on a dumpable table * * Note: trigger data is not returned directly to the caller, but it * does get entered into the DumpableObject tables. */ void getTriggers(Archive *fout, TableInfo tblinfo[], int numTables) { PQExpBuffer query = createPQExpBuffer(); PQExpBuffer tbloids = createPQExpBuffer(); PGresult *res; int ntups; int curtblindx; TriggerInfo *tginfo; int i_tableoid, i_oid, i_tgrelid, i_tgname, i_tgfname, i_tgtype, i_tgnargs, i_tgargs, i_tgisconstraint, i_tgconstrname, i_tgconstrrelid, i_tgconstrrelname, i_tgenabled, i_tgispartition, i_tgdeferrable, i_tginitdeferred, i_tgdef; /* * We want to perform just one query against pg_trigger. However, we * mustn't try to select every row of the catalog and then sort it out on * the client side, because some of the server-side functions we need * would be unsafe to apply to tables we don't have lock on. Hence, we * build an array of the OIDs of tables we care about (and now have lock * on!), and use a WHERE clause to constrain which rows are selected. */ appendPQExpBufferChar(tbloids, '{'); for (int i = 0; i < numTables; i++) { TableInfo *tbinfo = &tblinfo[i]; if (!tbinfo->hastriggers || !(tbinfo->dobj.dump & DUMP_COMPONENT_DEFINITION)) continue; /* OK, we need info for this table */ if (tbloids->len > 1) /* do we have more than the '{'? */ appendPQExpBufferChar(tbloids, ','); appendPQExpBuffer(tbloids, "%u", tbinfo->dobj.catId.oid); } appendPQExpBufferChar(tbloids, '}'); if (fout->remoteVersion >= 150000) { /* * NB: think not to use pretty=true in pg_get_triggerdef. It could * result in non-forward-compatible dumps of WHEN clauses due to * under-parenthesization. * * NB: We need to see partition triggers in case the tgenabled flag * has been changed from the parent. */ appendPQExpBuffer(query, "SELECT t.tgrelid, t.tgname, " "t.tgfoid::pg_catalog.regproc AS tgfname, " "pg_catalog.pg_get_triggerdef(t.oid, false) AS tgdef, " "t.tgenabled, t.tableoid, t.oid, " "t.tgparentid <> 0 AS tgispartition\n" "FROM unnest('%s'::pg_catalog.oid[]) AS src(tbloid)\n" "JOIN pg_catalog.pg_trigger t ON (src.tbloid = t.tgrelid) " "LEFT JOIN pg_catalog.pg_trigger u ON (u.oid = t.tgparentid) " "WHERE ((NOT t.tgisinternal AND t.tgparentid = 0) " "OR t.tgenabled != u.tgenabled) " "ORDER BY t.tgrelid, t.tgname", tbloids->data); } else if (fout->remoteVersion >= 130000) { /* * NB: think not to use pretty=true in pg_get_triggerdef. It could * result in non-forward-compatible dumps of WHEN clauses due to * under-parenthesization. * * NB: We need to see tgisinternal triggers in partitions, in case the * tgenabled flag has been changed from the parent. */ appendPQExpBuffer(query, "SELECT t.tgrelid, t.tgname, " "t.tgfoid::pg_catalog.regproc AS tgfname, " "pg_catalog.pg_get_triggerdef(t.oid, false) AS tgdef, " "t.tgenabled, t.tableoid, t.oid, t.tgisinternal as tgispartition\n" "FROM unnest('%s'::pg_catalog.oid[]) AS src(tbloid)\n" "JOIN pg_catalog.pg_trigger t ON (src.tbloid = t.tgrelid) " "LEFT JOIN pg_catalog.pg_trigger u ON (u.oid = t.tgparentid) " "WHERE (NOT t.tgisinternal OR t.tgenabled != u.tgenabled) " "ORDER BY t.tgrelid, t.tgname", tbloids->data); } else if (fout->remoteVersion >= 110000) { /* * NB: We need to see tgisinternal triggers in partitions, in case the * tgenabled flag has been changed from the parent. No tgparentid in * version 11-12, so we have to match them via pg_depend. * * See above about pretty=true in pg_get_triggerdef. */ appendPQExpBuffer(query, "SELECT t.tgrelid, t.tgname, " "t.tgfoid::pg_catalog.regproc AS tgfname, " "pg_catalog.pg_get_triggerdef(t.oid, false) AS tgdef, " "t.tgenabled, t.tableoid, t.oid, t.tgisinternal as tgispartition " "FROM unnest('%s'::pg_catalog.oid[]) AS src(tbloid)\n" "JOIN pg_catalog.pg_trigger t ON (src.tbloid = t.tgrelid) " "LEFT JOIN pg_catalog.pg_depend AS d ON " " d.classid = 'pg_catalog.pg_trigger'::pg_catalog.regclass AND " " d.refclassid = 'pg_catalog.pg_trigger'::pg_catalog.regclass AND " " d.objid = t.oid " "LEFT JOIN pg_catalog.pg_trigger AS pt ON pt.oid = refobjid " "WHERE (NOT t.tgisinternal OR t.tgenabled != pt.tgenabled) " "ORDER BY t.tgrelid, t.tgname", tbloids->data); } else { /* See above about pretty=true in pg_get_triggerdef */ appendPQExpBuffer(query, "SELECT t.tgrelid, t.tgname, " "t.tgfoid::pg_catalog.regproc AS tgfname, " "pg_catalog.pg_get_triggerdef(t.oid, false) AS tgdef, " "t.tgenabled, false as tgispartition, " "t.tableoid, t.oid " "FROM unnest('%s'::pg_catalog.oid[]) AS src(tbloid)\n" "JOIN pg_catalog.pg_trigger t ON (src.tbloid = t.tgrelid) " "WHERE NOT tgisinternal " "ORDER BY t.tgrelid, t.tgname", tbloids->data); } res = ExecuteSqlQuery(fout, query->data, PGRES_TUPLES_OK); ntups = PQntuples(res); i_tableoid = PQfnumber(res, "tableoid"); i_oid = PQfnumber(res, "oid"); i_tgrelid = PQfnumber(res, "tgrelid"); i_tgname = PQfnumber(res, "tgname"); i_tgfname = PQfnumber(res, "tgfname"); i_tgtype = PQfnumber(res, "tgtype"); i_tgnargs = PQfnumber(res, "tgnargs"); i_tgargs = PQfnumber(res, "tgargs"); i_tgisconstraint = PQfnumber(res, "tgisconstraint"); i_tgconstrname = PQfnumber(res, "tgconstrname"); i_tgconstrrelid = PQfnumber(res, "tgconstrrelid"); i_tgconstrrelname = PQfnumber(res, "tgconstrrelname"); i_tgenabled = PQfnumber(res, "tgenabled"); i_tgispartition = PQfnumber(res, "tgispartition"); i_tgdeferrable = PQfnumber(res, "tgdeferrable"); i_tginitdeferred = PQfnumber(res, "tginitdeferred"); i_tgdef = PQfnumber(res, "tgdef"); tginfo = (TriggerInfo *) pg_malloc(ntups * sizeof(TriggerInfo)); /* * Outer loop iterates once per table, not once per row. Incrementing of * j is handled by the inner loop. */ curtblindx = -1; for (int j = 0; j < ntups;) { Oid tgrelid = atooid(PQgetvalue(res, j, i_tgrelid)); TableInfo *tbinfo = NULL; int numtrigs; /* Count rows for this table */ for (numtrigs = 1; numtrigs < ntups - j; numtrigs++) if (atooid(PQgetvalue(res, j + numtrigs, i_tgrelid)) != tgrelid) break; /* * Locate the associated TableInfo; we rely on tblinfo[] being in OID * order. */ while (++curtblindx < numTables) { tbinfo = &tblinfo[curtblindx]; if (tbinfo->dobj.catId.oid == tgrelid) break; } if (curtblindx >= numTables) pg_fatal("unrecognized table OID %u", tgrelid); /* Save data for this table */ tbinfo->triggers = tginfo + j; tbinfo->numTriggers = numtrigs; for (int c = 0; c < numtrigs; c++, j++) { tginfo[j].dobj.objType = DO_TRIGGER; tginfo[j].dobj.catId.tableoid = atooid(PQgetvalue(res, j, i_tableoid)); tginfo[j].dobj.catId.oid = atooid(PQgetvalue(res, j, i_oid)); AssignDumpId(&tginfo[j].dobj); tginfo[j].dobj.name = pg_strdup(PQgetvalue(res, j, i_tgname)); tginfo[j].dobj.namespace = tbinfo->dobj.namespace; tginfo[j].tgtable = tbinfo; tginfo[j].tgenabled = *(PQgetvalue(res, j, i_tgenabled)); tginfo[j].tgispartition = *(PQgetvalue(res, j, i_tgispartition)) == 't'; if (i_tgdef >= 0) { tginfo[j].tgdef = pg_strdup(PQgetvalue(res, j, i_tgdef)); /* remaining fields are not valid if we have tgdef */ tginfo[j].tgfname = NULL; tginfo[j].tgtype = 0; tginfo[j].tgnargs = 0; tginfo[j].tgargs = NULL; tginfo[j].tgisconstraint = false; tginfo[j].tgdeferrable = false; tginfo[j].tginitdeferred = false; tginfo[j].tgconstrname = NULL; tginfo[j].tgconstrrelid = InvalidOid; tginfo[j].tgconstrrelname = NULL; } else { tginfo[j].tgdef = NULL; tginfo[j].tgfname = pg_strdup(PQgetvalue(res, j, i_tgfname)); tginfo[j].tgtype = atoi(PQgetvalue(res, j, i_tgtype)); tginfo[j].tgnargs = atoi(PQgetvalue(res, j, i_tgnargs)); tginfo[j].tgargs = pg_strdup(PQgetvalue(res, j, i_tgargs)); tginfo[j].tgisconstraint = *(PQgetvalue(res, j, i_tgisconstraint)) == 't'; tginfo[j].tgdeferrable = *(PQgetvalue(res, j, i_tgdeferrable)) == 't'; tginfo[j].tginitdeferred = *(PQgetvalue(res, j, i_tginitdeferred)) == 't'; if (tginfo[j].tgisconstraint) { tginfo[j].tgconstrname = pg_strdup(PQgetvalue(res, j, i_tgconstrname)); tginfo[j].tgconstrrelid = atooid(PQgetvalue(res, j, i_tgconstrrelid)); if (OidIsValid(tginfo[j].tgconstrrelid)) { if (PQgetisnull(res, j, i_tgconstrrelname)) pg_fatal("query produced null referenced table name for foreign key trigger \"%s\" on table \"%s\" (OID of table: %u)", tginfo[j].dobj.name, tbinfo->dobj.name, tginfo[j].tgconstrrelid); tginfo[j].tgconstrrelname = pg_strdup(PQgetvalue(res, j, i_tgconstrrelname)); } else tginfo[j].tgconstrrelname = NULL; } else { tginfo[j].tgconstrname = NULL; tginfo[j].tgconstrrelid = InvalidOid; tginfo[j].tgconstrrelname = NULL; } } } } PQclear(res); destroyPQExpBuffer(query); destroyPQExpBuffer(tbloids); } /* * getEventTriggers * get information about event triggers */ EventTriggerInfo * getEventTriggers(Archive *fout, int *numEventTriggers) { int i; PQExpBuffer query; PGresult *res; EventTriggerInfo *evtinfo; int i_tableoid, i_oid, i_evtname, i_evtevent, i_evtowner, i_evttags, i_evtfname, i_evtenabled; int ntups; /* Before 9.3, there are no event triggers */ if (fout->remoteVersion < 90300) { *numEventTriggers = 0; return NULL; } query = createPQExpBuffer(); appendPQExpBufferStr(query, "SELECT e.tableoid, e.oid, evtname, evtenabled, " "evtevent, evtowner, " "array_to_string(array(" "select quote_literal(x) " " from unnest(evttags) as t(x)), ', ') as evttags, " "e.evtfoid::regproc as evtfname " "FROM pg_event_trigger e " "ORDER BY e.oid"); res = ExecuteSqlQuery(fout, query->data, PGRES_TUPLES_OK); ntups = PQntuples(res); *numEventTriggers = ntups; evtinfo = (EventTriggerInfo *) pg_malloc(ntups * sizeof(EventTriggerInfo)); i_tableoid = PQfnumber(res, "tableoid"); i_oid = PQfnumber(res, "oid"); i_evtname = PQfnumber(res, "evtname"); i_evtevent = PQfnumber(res, "evtevent"); i_evtowner = PQfnumber(res, "evtowner"); i_evttags = PQfnumber(res, "evttags"); i_evtfname = PQfnumber(res, "evtfname"); i_evtenabled = PQfnumber(res, "evtenabled"); for (i = 0; i < ntups; i++) { evtinfo[i].dobj.objType = DO_EVENT_TRIGGER; evtinfo[i].dobj.catId.tableoid = atooid(PQgetvalue(res, i, i_tableoid)); evtinfo[i].dobj.catId.oid = atooid(PQgetvalue(res, i, i_oid)); AssignDumpId(&evtinfo[i].dobj); evtinfo[i].dobj.name = pg_strdup(PQgetvalue(res, i, i_evtname)); evtinfo[i].evtname = pg_strdup(PQgetvalue(res, i, i_evtname)); evtinfo[i].evtevent = pg_strdup(PQgetvalue(res, i, i_evtevent)); evtinfo[i].evtowner = getRoleName(PQgetvalue(res, i, i_evtowner)); evtinfo[i].evttags = pg_strdup(PQgetvalue(res, i, i_evttags)); evtinfo[i].evtfname = pg_strdup(PQgetvalue(res, i, i_evtfname)); evtinfo[i].evtenabled = *(PQgetvalue(res, i, i_evtenabled)); /* Decide whether we want to dump it */ selectDumpableObject(&(evtinfo[i].dobj), fout); } PQclear(res); destroyPQExpBuffer(query); return evtinfo; } /* * getProcLangs * get basic information about every procedural language in the system * * numProcLangs is set to the number of langs read in * * NB: this must run after getFuncs() because we assume we can do * findFuncByOid(). */ ProcLangInfo * getProcLangs(Archive *fout, int *numProcLangs) { PGresult *res; int ntups; int i; PQExpBuffer query = createPQExpBuffer(); ProcLangInfo *planginfo; int i_tableoid; int i_oid; int i_lanname; int i_lanpltrusted; int i_lanplcallfoid; int i_laninline; int i_lanvalidator; int i_lanacl; int i_acldefault; int i_lanowner; appendPQExpBufferStr(query, "SELECT tableoid, oid, " "lanname, lanpltrusted, lanplcallfoid, " "laninline, lanvalidator, " "lanacl, " "acldefault('l', lanowner) AS acldefault, " "lanowner " "FROM pg_language " "WHERE lanispl " "ORDER BY oid"); res = ExecuteSqlQuery(fout, query->data, PGRES_TUPLES_OK); ntups = PQntuples(res); *numProcLangs = ntups; planginfo = (ProcLangInfo *) pg_malloc(ntups * sizeof(ProcLangInfo)); i_tableoid = PQfnumber(res, "tableoid"); i_oid = PQfnumber(res, "oid"); i_lanname = PQfnumber(res, "lanname"); i_lanpltrusted = PQfnumber(res, "lanpltrusted"); i_lanplcallfoid = PQfnumber(res, "lanplcallfoid"); i_laninline = PQfnumber(res, "laninline"); i_lanvalidator = PQfnumber(res, "lanvalidator"); i_lanacl = PQfnumber(res, "lanacl"); i_acldefault = PQfnumber(res, "acldefault"); i_lanowner = PQfnumber(res, "lanowner"); for (i = 0; i < ntups; i++) { planginfo[i].dobj.objType = DO_PROCLANG; planginfo[i].dobj.catId.tableoid = atooid(PQgetvalue(res, i, i_tableoid)); planginfo[i].dobj.catId.oid = atooid(PQgetvalue(res, i, i_oid)); AssignDumpId(&planginfo[i].dobj); planginfo[i].dobj.name = pg_strdup(PQgetvalue(res, i, i_lanname)); planginfo[i].dacl.acl = pg_strdup(PQgetvalue(res, i, i_lanacl)); planginfo[i].dacl.acldefault = pg_strdup(PQgetvalue(res, i, i_acldefault)); planginfo[i].dacl.privtype = 0; planginfo[i].dacl.initprivs = NULL; planginfo[i].lanpltrusted = *(PQgetvalue(res, i, i_lanpltrusted)) == 't'; planginfo[i].lanplcallfoid = atooid(PQgetvalue(res, i, i_lanplcallfoid)); planginfo[i].laninline = atooid(PQgetvalue(res, i, i_laninline)); planginfo[i].lanvalidator = atooid(PQgetvalue(res, i, i_lanvalidator)); planginfo[i].lanowner = getRoleName(PQgetvalue(res, i, i_lanowner)); /* Decide whether we want to dump it */ selectDumpableProcLang(&(planginfo[i]), fout); /* Mark whether language has an ACL */ if (!PQgetisnull(res, i, i_lanacl)) planginfo[i].dobj.components |= DUMP_COMPONENT_ACL; } PQclear(res); destroyPQExpBuffer(query); return planginfo; } /* * getCasts * get basic information about most casts in the system * * numCasts is set to the number of casts read in * * Skip casts from a range to its multirange, since we'll create those * automatically. */ CastInfo * getCasts(Archive *fout, int *numCasts) { PGresult *res; int ntups; int i; PQExpBuffer query = createPQExpBuffer(); CastInfo *castinfo; int i_tableoid; int i_oid; int i_castsource; int i_casttarget; int i_castfunc; int i_castcontext; int i_castmethod; if (fout->remoteVersion >= 140000) { appendPQExpBufferStr(query, "SELECT tableoid, oid, " "castsource, casttarget, castfunc, castcontext, " "castmethod " "FROM pg_cast c " "WHERE NOT EXISTS ( " "SELECT 1 FROM pg_range r " "WHERE c.castsource = r.rngtypid " "AND c.casttarget = r.rngmultitypid " ") " "ORDER BY 3,4"); } else { appendPQExpBufferStr(query, "SELECT tableoid, oid, " "castsource, casttarget, castfunc, castcontext, " "castmethod " "FROM pg_cast ORDER BY 3,4"); } res = ExecuteSqlQuery(fout, query->data, PGRES_TUPLES_OK); ntups = PQntuples(res); *numCasts = ntups; castinfo = (CastInfo *) pg_malloc(ntups * sizeof(CastInfo)); i_tableoid = PQfnumber(res, "tableoid"); i_oid = PQfnumber(res, "oid"); i_castsource = PQfnumber(res, "castsource"); i_casttarget = PQfnumber(res, "casttarget"); i_castfunc = PQfnumber(res, "castfunc"); i_castcontext = PQfnumber(res, "castcontext"); i_castmethod = PQfnumber(res, "castmethod"); for (i = 0; i < ntups; i++) { PQExpBufferData namebuf; TypeInfo *sTypeInfo; TypeInfo *tTypeInfo; castinfo[i].dobj.objType = DO_CAST; castinfo[i].dobj.catId.tableoid = atooid(PQgetvalue(res, i, i_tableoid)); castinfo[i].dobj.catId.oid = atooid(PQgetvalue(res, i, i_oid)); AssignDumpId(&castinfo[i].dobj); castinfo[i].castsource = atooid(PQgetvalue(res, i, i_castsource)); castinfo[i].casttarget = atooid(PQgetvalue(res, i, i_casttarget)); castinfo[i].castfunc = atooid(PQgetvalue(res, i, i_castfunc)); castinfo[i].castcontext = *(PQgetvalue(res, i, i_castcontext)); castinfo[i].castmethod = *(PQgetvalue(res, i, i_castmethod)); /* * Try to name cast as concatenation of typnames. This is only used * for purposes of sorting. If we fail to find either type, the name * will be an empty string. */ initPQExpBuffer(&namebuf); sTypeInfo = findTypeByOid(castinfo[i].castsource); tTypeInfo = findTypeByOid(castinfo[i].casttarget); if (sTypeInfo && tTypeInfo) appendPQExpBuffer(&namebuf, "%s %s", sTypeInfo->dobj.name, tTypeInfo->dobj.name); castinfo[i].dobj.name = namebuf.data; /* Decide whether we want to dump it */ selectDumpableCast(&(castinfo[i]), fout); } PQclear(res); destroyPQExpBuffer(query); return castinfo; } static char * get_language_name(Archive *fout, Oid langid) { PQExpBuffer query; PGresult *res; char *lanname; query = createPQExpBuffer(); appendPQExpBuffer(query, "SELECT lanname FROM pg_language WHERE oid = %u", langid); res = ExecuteSqlQueryForSingleRow(fout, query->data); lanname = pg_strdup(fmtId(PQgetvalue(res, 0, 0))); destroyPQExpBuffer(query); PQclear(res); return lanname; } /* * getTransforms * get basic information about every transform in the system * * numTransforms is set to the number of transforms read in */ TransformInfo * getTransforms(Archive *fout, int *numTransforms) { PGresult *res; int ntups; int i; PQExpBuffer query; TransformInfo *transforminfo; int i_tableoid; int i_oid; int i_trftype; int i_trflang; int i_trffromsql; int i_trftosql; /* Transforms didn't exist pre-9.5 */ if (fout->remoteVersion < 90500) { *numTransforms = 0; return NULL; } query = createPQExpBuffer(); appendPQExpBufferStr(query, "SELECT tableoid, oid, " "trftype, trflang, trffromsql::oid, trftosql::oid " "FROM pg_transform " "ORDER BY 3,4"); res = ExecuteSqlQuery(fout, query->data, PGRES_TUPLES_OK); ntups = PQntuples(res); *numTransforms = ntups; transforminfo = (TransformInfo *) pg_malloc(ntups * sizeof(TransformInfo)); i_tableoid = PQfnumber(res, "tableoid"); i_oid = PQfnumber(res, "oid"); i_trftype = PQfnumber(res, "trftype"); i_trflang = PQfnumber(res, "trflang"); i_trffromsql = PQfnumber(res, "trffromsql"); i_trftosql = PQfnumber(res, "trftosql"); for (i = 0; i < ntups; i++) { PQExpBufferData namebuf; TypeInfo *typeInfo; char *lanname; transforminfo[i].dobj.objType = DO_TRANSFORM; transforminfo[i].dobj.catId.tableoid = atooid(PQgetvalue(res, i, i_tableoid)); transforminfo[i].dobj.catId.oid = atooid(PQgetvalue(res, i, i_oid)); AssignDumpId(&transforminfo[i].dobj); transforminfo[i].trftype = atooid(PQgetvalue(res, i, i_trftype)); transforminfo[i].trflang = atooid(PQgetvalue(res, i, i_trflang)); transforminfo[i].trffromsql = atooid(PQgetvalue(res, i, i_trffromsql)); transforminfo[i].trftosql = atooid(PQgetvalue(res, i, i_trftosql)); /* * Try to name transform as concatenation of type and language name. * This is only used for purposes of sorting. If we fail to find * either, the name will be an empty string. */ initPQExpBuffer(&namebuf); typeInfo = findTypeByOid(transforminfo[i].trftype); lanname = get_language_name(fout, transforminfo[i].trflang); if (typeInfo && lanname) appendPQExpBuffer(&namebuf, "%s %s", typeInfo->dobj.name, lanname); transforminfo[i].dobj.name = namebuf.data; free(lanname); /* Decide whether we want to dump it */ selectDumpableObject(&(transforminfo[i].dobj), fout); } PQclear(res); destroyPQExpBuffer(query); return transforminfo; } /* * getTableAttrs - * for each interesting table, read info about its attributes * (names, types, default values, CHECK constraints, etc) * * modifies tblinfo */ void getTableAttrs(Archive *fout, TableInfo *tblinfo, int numTables) { DumpOptions *dopt = fout->dopt; PQExpBuffer q = createPQExpBuffer(); PQExpBuffer tbloids = createPQExpBuffer(); PQExpBuffer checkoids = createPQExpBuffer(); PGresult *res; int ntups; int curtblindx; int i_attrelid; int i_attnum; int i_attname; int i_atttypname; int i_attstattarget; int i_attstorage; int i_typstorage; int i_attidentity; int i_attgenerated; int i_attisdropped; int i_attlen; int i_attalign; int i_attislocal; int i_attnotnull; int i_attoptions; int i_attcollation; int i_attcompression; int i_attfdwoptions; int i_attmissingval; int i_atthasdef; /* * We want to perform just one query against pg_attribute, and then just * one against pg_attrdef (for DEFAULTs) and one against pg_constraint * (for CHECK constraints). However, we mustn't try to select every row * of those catalogs and then sort it out on the client side, because some * of the server-side functions we need would be unsafe to apply to tables * we don't have lock on. Hence, we build an array of the OIDs of tables * we care about (and now have lock on!), and use a WHERE clause to * constrain which rows are selected. */ appendPQExpBufferChar(tbloids, '{'); appendPQExpBufferChar(checkoids, '{'); for (int i = 0; i < numTables; i++) { TableInfo *tbinfo = &tblinfo[i]; /* Don't bother to collect info for sequences */ if (tbinfo->relkind == RELKIND_SEQUENCE) continue; /* Don't bother with uninteresting tables, either */ if (!tbinfo->interesting) continue; /* OK, we need info for this table */ if (tbloids->len > 1) /* do we have more than the '{'? */ appendPQExpBufferChar(tbloids, ','); appendPQExpBuffer(tbloids, "%u", tbinfo->dobj.catId.oid); if (tbinfo->ncheck > 0) { /* Also make a list of the ones with check constraints */ if (checkoids->len > 1) /* do we have more than the '{'? */ appendPQExpBufferChar(checkoids, ','); appendPQExpBuffer(checkoids, "%u", tbinfo->dobj.catId.oid); } } appendPQExpBufferChar(tbloids, '}'); appendPQExpBufferChar(checkoids, '}'); /* * Find all the user attributes and their types. * * Since we only want to dump COLLATE clauses for attributes whose * collation is different from their type's default, we use a CASE here to * suppress uninteresting attcollations cheaply. */ appendPQExpBufferStr(q, "SELECT\n" "a.attrelid,\n" "a.attnum,\n" "a.attname,\n" "a.attstattarget,\n" "a.attstorage,\n" "t.typstorage,\n" "a.attnotnull,\n" "a.atthasdef,\n" "a.attisdropped,\n" "a.attlen,\n" "a.attalign,\n" "a.attislocal,\n" "pg_catalog.format_type(t.oid, a.atttypmod) AS atttypname,\n" "array_to_string(a.attoptions, ', ') AS attoptions,\n" "CASE WHEN a.attcollation <> t.typcollation " "THEN a.attcollation ELSE 0 END AS attcollation,\n" "pg_catalog.array_to_string(ARRAY(" "SELECT pg_catalog.quote_ident(option_name) || " "' ' || pg_catalog.quote_literal(option_value) " "FROM pg_catalog.pg_options_to_table(attfdwoptions) " "ORDER BY option_name" "), E',\n ') AS attfdwoptions,\n"); if (fout->remoteVersion >= 140000) appendPQExpBufferStr(q, "a.attcompression AS attcompression,\n"); else appendPQExpBufferStr(q, "'' AS attcompression,\n"); if (fout->remoteVersion >= 100000) appendPQExpBufferStr(q, "a.attidentity,\n"); else appendPQExpBufferStr(q, "'' AS attidentity,\n"); if (fout->remoteVersion >= 110000) appendPQExpBufferStr(q, "CASE WHEN a.atthasmissing AND NOT a.attisdropped " "THEN a.attmissingval ELSE null END AS attmissingval,\n"); else appendPQExpBufferStr(q, "NULL AS attmissingval,\n"); if (fout->remoteVersion >= 120000) appendPQExpBufferStr(q, "a.attgenerated\n"); else appendPQExpBufferStr(q, "'' AS attgenerated\n"); /* need left join to pg_type to not fail on dropped columns ... */ appendPQExpBuffer(q, "FROM unnest('%s'::pg_catalog.oid[]) AS src(tbloid)\n" "JOIN pg_catalog.pg_attribute a ON (src.tbloid = a.attrelid) " "LEFT JOIN pg_catalog.pg_type t " "ON (a.atttypid = t.oid)\n" "WHERE a.attnum > 0::pg_catalog.int2\n" "ORDER BY a.attrelid, a.attnum", tbloids->data); res = ExecuteSqlQuery(fout, q->data, PGRES_TUPLES_OK); ntups = PQntuples(res); i_attrelid = PQfnumber(res, "attrelid"); i_attnum = PQfnumber(res, "attnum"); i_attname = PQfnumber(res, "attname"); i_atttypname = PQfnumber(res, "atttypname"); i_attstattarget = PQfnumber(res, "attstattarget"); i_attstorage = PQfnumber(res, "attstorage"); i_typstorage = PQfnumber(res, "typstorage"); i_attidentity = PQfnumber(res, "attidentity"); i_attgenerated = PQfnumber(res, "attgenerated"); i_attisdropped = PQfnumber(res, "attisdropped"); i_attlen = PQfnumber(res, "attlen"); i_attalign = PQfnumber(res, "attalign"); i_attislocal = PQfnumber(res, "attislocal"); i_attnotnull = PQfnumber(res, "attnotnull"); i_attoptions = PQfnumber(res, "attoptions"); i_attcollation = PQfnumber(res, "attcollation"); i_attcompression = PQfnumber(res, "attcompression"); i_attfdwoptions = PQfnumber(res, "attfdwoptions"); i_attmissingval = PQfnumber(res, "attmissingval"); i_atthasdef = PQfnumber(res, "atthasdef"); /* Within the next loop, we'll accumulate OIDs of tables with defaults */ resetPQExpBuffer(tbloids); appendPQExpBufferChar(tbloids, '{'); /* * Outer loop iterates once per table, not once per row. Incrementing of * r is handled by the inner loop. */ curtblindx = -1; for (int r = 0; r < ntups;) { Oid attrelid = atooid(PQgetvalue(res, r, i_attrelid)); TableInfo *tbinfo = NULL; int numatts; bool hasdefaults; /* Count rows for this table */ for (numatts = 1; numatts < ntups - r; numatts++) if (atooid(PQgetvalue(res, r + numatts, i_attrelid)) != attrelid) break; /* * Locate the associated TableInfo; we rely on tblinfo[] being in OID * order. */ while (++curtblindx < numTables) { tbinfo = &tblinfo[curtblindx]; if (tbinfo->dobj.catId.oid == attrelid) break; } if (curtblindx >= numTables) pg_fatal("unrecognized table OID %u", attrelid); /* cross-check that we only got requested tables */ if (tbinfo->relkind == RELKIND_SEQUENCE || !tbinfo->interesting) pg_fatal("unexpected column data for table \"%s\"", tbinfo->dobj.name); /* Save data for this table */ tbinfo->numatts = numatts; tbinfo->attnames = (char **) pg_malloc(numatts * sizeof(char *)); tbinfo->atttypnames = (char **) pg_malloc(numatts * sizeof(char *)); tbinfo->attstattarget = (int *) pg_malloc(numatts * sizeof(int)); tbinfo->attstorage = (char *) pg_malloc(numatts * sizeof(char)); tbinfo->typstorage = (char *) pg_malloc(numatts * sizeof(char)); tbinfo->attidentity = (char *) pg_malloc(numatts * sizeof(char)); tbinfo->attgenerated = (char *) pg_malloc(numatts * sizeof(char)); tbinfo->attisdropped = (bool *) pg_malloc(numatts * sizeof(bool)); tbinfo->attlen = (int *) pg_malloc(numatts * sizeof(int)); tbinfo->attalign = (char *) pg_malloc(numatts * sizeof(char)); tbinfo->attislocal = (bool *) pg_malloc(numatts * sizeof(bool)); tbinfo->attoptions = (char **) pg_malloc(numatts * sizeof(char *)); tbinfo->attcollation = (Oid *) pg_malloc(numatts * sizeof(Oid)); tbinfo->attcompression = (char *) pg_malloc(numatts * sizeof(char)); tbinfo->attfdwoptions = (char **) pg_malloc(numatts * sizeof(char *)); tbinfo->attmissingval = (char **) pg_malloc(numatts * sizeof(char *)); tbinfo->notnull = (bool *) pg_malloc(numatts * sizeof(bool)); tbinfo->inhNotNull = (bool *) pg_malloc(numatts * sizeof(bool)); tbinfo->attrdefs = (AttrDefInfo **) pg_malloc(numatts * sizeof(AttrDefInfo *)); hasdefaults = false; for (int j = 0; j < numatts; j++, r++) { if (j + 1 != atoi(PQgetvalue(res, r, i_attnum))) pg_fatal("invalid column numbering in table \"%s\"", tbinfo->dobj.name); tbinfo->attnames[j] = pg_strdup(PQgetvalue(res, r, i_attname)); tbinfo->atttypnames[j] = pg_strdup(PQgetvalue(res, r, i_atttypname)); tbinfo->attstattarget[j] = atoi(PQgetvalue(res, r, i_attstattarget)); tbinfo->attstorage[j] = *(PQgetvalue(res, r, i_attstorage)); tbinfo->typstorage[j] = *(PQgetvalue(res, r, i_typstorage)); tbinfo->attidentity[j] = *(PQgetvalue(res, r, i_attidentity)); tbinfo->attgenerated[j] = *(PQgetvalue(res, r, i_attgenerated)); tbinfo->needs_override = tbinfo->needs_override || (tbinfo->attidentity[j] == ATTRIBUTE_IDENTITY_ALWAYS); tbinfo->attisdropped[j] = (PQgetvalue(res, r, i_attisdropped)[0] == 't'); tbinfo->attlen[j] = atoi(PQgetvalue(res, r, i_attlen)); tbinfo->attalign[j] = *(PQgetvalue(res, r, i_attalign)); tbinfo->attislocal[j] = (PQgetvalue(res, r, i_attislocal)[0] == 't'); tbinfo->notnull[j] = (PQgetvalue(res, r, i_attnotnull)[0] == 't'); tbinfo->attoptions[j] = pg_strdup(PQgetvalue(res, r, i_attoptions)); tbinfo->attcollation[j] = atooid(PQgetvalue(res, r, i_attcollation)); tbinfo->attcompression[j] = *(PQgetvalue(res, r, i_attcompression)); tbinfo->attfdwoptions[j] = pg_strdup(PQgetvalue(res, r, i_attfdwoptions)); tbinfo->attmissingval[j] = pg_strdup(PQgetvalue(res, r, i_attmissingval)); tbinfo->attrdefs[j] = NULL; /* fix below */ if (PQgetvalue(res, r, i_atthasdef)[0] == 't') hasdefaults = true; /* these flags will be set in flagInhAttrs() */ tbinfo->inhNotNull[j] = false; } if (hasdefaults) { /* Collect OIDs of interesting tables that have defaults */ if (tbloids->len > 1) /* do we have more than the '{'? */ appendPQExpBufferChar(tbloids, ','); appendPQExpBuffer(tbloids, "%u", tbinfo->dobj.catId.oid); } } PQclear(res); /* * Now get info about column defaults. This is skipped for a data-only * dump, as it is only needed for table schemas. */ if (!dopt->dataOnly && tbloids->len > 1) { AttrDefInfo *attrdefs; int numDefaults; TableInfo *tbinfo = NULL; pg_log_info("finding table default expressions"); appendPQExpBufferChar(tbloids, '}'); printfPQExpBuffer(q, "SELECT a.tableoid, a.oid, adrelid, adnum, " "pg_catalog.pg_get_expr(adbin, adrelid) AS adsrc\n" "FROM unnest('%s'::pg_catalog.oid[]) AS src(tbloid)\n" "JOIN pg_catalog.pg_attrdef a ON (src.tbloid = a.adrelid)\n" "ORDER BY a.adrelid, a.adnum", tbloids->data); res = ExecuteSqlQuery(fout, q->data, PGRES_TUPLES_OK); numDefaults = PQntuples(res); attrdefs = (AttrDefInfo *) pg_malloc(numDefaults * sizeof(AttrDefInfo)); curtblindx = -1; for (int j = 0; j < numDefaults; j++) { Oid adtableoid = atooid(PQgetvalue(res, j, 0)); Oid adoid = atooid(PQgetvalue(res, j, 1)); Oid adrelid = atooid(PQgetvalue(res, j, 2)); int adnum = atoi(PQgetvalue(res, j, 3)); char *adsrc = PQgetvalue(res, j, 4); /* * Locate the associated TableInfo; we rely on tblinfo[] being in * OID order. */ if (tbinfo == NULL || tbinfo->dobj.catId.oid != adrelid) { while (++curtblindx < numTables) { tbinfo = &tblinfo[curtblindx]; if (tbinfo->dobj.catId.oid == adrelid) break; } if (curtblindx >= numTables) pg_fatal("unrecognized table OID %u", adrelid); } if (adnum <= 0 || adnum > tbinfo->numatts) pg_fatal("invalid adnum value %d for table \"%s\"", adnum, tbinfo->dobj.name); /* * dropped columns shouldn't have defaults, but just in case, * ignore 'em */ if (tbinfo->attisdropped[adnum - 1]) continue; attrdefs[j].dobj.objType = DO_ATTRDEF; attrdefs[j].dobj.catId.tableoid = adtableoid; attrdefs[j].dobj.catId.oid = adoid; AssignDumpId(&attrdefs[j].dobj); attrdefs[j].adtable = tbinfo; attrdefs[j].adnum = adnum; attrdefs[j].adef_expr = pg_strdup(adsrc); attrdefs[j].dobj.name = pg_strdup(tbinfo->dobj.name); attrdefs[j].dobj.namespace = tbinfo->dobj.namespace; attrdefs[j].dobj.dump = tbinfo->dobj.dump; /* * Figure out whether the default/generation expression should be * dumped as part of the main CREATE TABLE (or similar) command or * as a separate ALTER TABLE (or similar) command. The preference * is to put it into the CREATE command, but in some cases that's * not possible. */ if (tbinfo->attgenerated[adnum - 1]) { /* * Column generation expressions cannot be dumped separately, * because there is no syntax for it. By setting separate to * false here we prevent the "default" from being processed as * its own dumpable object. Later, flagInhAttrs() will mark * it as not to be dumped at all, if possible (that is, if it * can be inherited from a parent). */ attrdefs[j].separate = false; } else if (tbinfo->relkind == RELKIND_VIEW) { /* * Defaults on a VIEW must always be dumped as separate ALTER * TABLE commands. */ attrdefs[j].separate = true; } else if (!shouldPrintColumn(dopt, tbinfo, adnum - 1)) { /* column will be suppressed, print default separately */ attrdefs[j].separate = true; } else { attrdefs[j].separate = false; } if (!attrdefs[j].separate) { /* * Mark the default as needing to appear before the table, so * that any dependencies it has must be emitted before the * CREATE TABLE. If this is not possible, we'll change to * "separate" mode while sorting dependencies. */ addObjectDependency(&tbinfo->dobj, attrdefs[j].dobj.dumpId); } tbinfo->attrdefs[adnum - 1] = &attrdefs[j]; } PQclear(res); } /* * Get info about table CHECK constraints. This is skipped for a * data-only dump, as it is only needed for table schemas. */ if (!dopt->dataOnly && checkoids->len > 2) { ConstraintInfo *constrs; int numConstrs; int i_tableoid; int i_oid; int i_conrelid; int i_conname; int i_consrc; int i_conislocal; int i_convalidated; pg_log_info("finding table check constraints"); resetPQExpBuffer(q); appendPQExpBuffer(q, "SELECT c.tableoid, c.oid, conrelid, conname, " "pg_catalog.pg_get_constraintdef(c.oid) AS consrc, " "conislocal, convalidated " "FROM unnest('%s'::pg_catalog.oid[]) AS src(tbloid)\n" "JOIN pg_catalog.pg_constraint c ON (src.tbloid = c.conrelid)\n" "WHERE contype = 'c' " "ORDER BY c.conrelid, c.conname", checkoids->data); res = ExecuteSqlQuery(fout, q->data, PGRES_TUPLES_OK); numConstrs = PQntuples(res); constrs = (ConstraintInfo *) pg_malloc(numConstrs * sizeof(ConstraintInfo)); i_tableoid = PQfnumber(res, "tableoid"); i_oid = PQfnumber(res, "oid"); i_conrelid = PQfnumber(res, "conrelid"); i_conname = PQfnumber(res, "conname"); i_consrc = PQfnumber(res, "consrc"); i_conislocal = PQfnumber(res, "conislocal"); i_convalidated = PQfnumber(res, "convalidated"); /* As above, this loop iterates once per table, not once per row */ curtblindx = -1; for (int j = 0; j < numConstrs;) { Oid conrelid = atooid(PQgetvalue(res, j, i_conrelid)); TableInfo *tbinfo = NULL; int numcons; /* Count rows for this table */ for (numcons = 1; numcons < numConstrs - j; numcons++) if (atooid(PQgetvalue(res, j + numcons, i_conrelid)) != conrelid) break; /* * Locate the associated TableInfo; we rely on tblinfo[] being in * OID order. */ while (++curtblindx < numTables) { tbinfo = &tblinfo[curtblindx]; if (tbinfo->dobj.catId.oid == conrelid) break; } if (curtblindx >= numTables) pg_fatal("unrecognized table OID %u", conrelid); if (numcons != tbinfo->ncheck) { pg_log_error(ngettext("expected %d check constraint on table \"%s\" but found %d", "expected %d check constraints on table \"%s\" but found %d", tbinfo->ncheck), tbinfo->ncheck, tbinfo->dobj.name, numcons); pg_log_error_hint("The system catalogs might be corrupted."); exit_nicely(1); } tbinfo->checkexprs = constrs + j; for (int c = 0; c < numcons; c++, j++) { bool validated = PQgetvalue(res, j, i_convalidated)[0] == 't'; constrs[j].dobj.objType = DO_CONSTRAINT; constrs[j].dobj.catId.tableoid = atooid(PQgetvalue(res, j, i_tableoid)); constrs[j].dobj.catId.oid = atooid(PQgetvalue(res, j, i_oid)); AssignDumpId(&constrs[j].dobj); constrs[j].dobj.name = pg_strdup(PQgetvalue(res, j, i_conname)); constrs[j].dobj.namespace = tbinfo->dobj.namespace; constrs[j].contable = tbinfo; constrs[j].condomain = NULL; constrs[j].contype = 'c'; constrs[j].condef = pg_strdup(PQgetvalue(res, j, i_consrc)); constrs[j].confrelid = InvalidOid; constrs[j].conindex = 0; constrs[j].condeferrable = false; constrs[j].condeferred = false; constrs[j].conislocal = (PQgetvalue(res, j, i_conislocal)[0] == 't'); /* * An unvalidated constraint needs to be dumped separately, so * that potentially-violating existing data is loaded before * the constraint. */ constrs[j].separate = !validated; constrs[j].dobj.dump = tbinfo->dobj.dump; /* * Mark the constraint as needing to appear before the table * --- this is so that any other dependencies of the * constraint will be emitted before we try to create the * table. If the constraint is to be dumped separately, it * will be dumped after data is loaded anyway, so don't do it. * (There's an automatic dependency in the opposite direction * anyway, so don't need to add one manually here.) */ if (!constrs[j].separate) addObjectDependency(&tbinfo->dobj, constrs[j].dobj.dumpId); /* * We will detect later whether the constraint must be split * out from the table definition. */ } } PQclear(res); } destroyPQExpBuffer(q); destroyPQExpBuffer(tbloids); destroyPQExpBuffer(checkoids); } /* * Test whether a column should be printed as part of table's CREATE TABLE. * Column number is zero-based. * * Normally this is always true, but it's false for dropped columns, as well * as those that were inherited without any local definition. (If we print * such a column it will mistakenly get pg_attribute.attislocal set to true.) * For partitions, it's always true, because we want the partitions to be * created independently and ATTACH PARTITION used afterwards. * * In binary_upgrade mode, we must print all columns and fix the attislocal/ * attisdropped state later, so as to keep control of the physical column * order. * * This function exists because there are scattered nonobvious places that * must be kept in sync with this decision. */ bool shouldPrintColumn(const DumpOptions *dopt, const TableInfo *tbinfo, int colno) { if (dopt->binary_upgrade) return true; if (tbinfo->attisdropped[colno]) return false; return (tbinfo->attislocal[colno] || tbinfo->ispartition); } /* * getTSParsers: * read all text search parsers in the system catalogs and return them * in the TSParserInfo* structure * * numTSParsers is set to the number of parsers read in */ TSParserInfo * getTSParsers(Archive *fout, int *numTSParsers) { PGresult *res; int ntups; int i; PQExpBuffer query; TSParserInfo *prsinfo; int i_tableoid; int i_oid; int i_prsname; int i_prsnamespace; int i_prsstart; int i_prstoken; int i_prsend; int i_prsheadline; int i_prslextype; query = createPQExpBuffer(); /* * find all text search objects, including builtin ones; we filter out * system-defined objects at dump-out time. */ appendPQExpBufferStr(query, "SELECT tableoid, oid, prsname, prsnamespace, " "prsstart::oid, prstoken::oid, " "prsend::oid, prsheadline::oid, prslextype::oid " "FROM pg_ts_parser"); res = ExecuteSqlQuery(fout, query->data, PGRES_TUPLES_OK); ntups = PQntuples(res); *numTSParsers = ntups; prsinfo = (TSParserInfo *) pg_malloc(ntups * sizeof(TSParserInfo)); i_tableoid = PQfnumber(res, "tableoid"); i_oid = PQfnumber(res, "oid"); i_prsname = PQfnumber(res, "prsname"); i_prsnamespace = PQfnumber(res, "prsnamespace"); i_prsstart = PQfnumber(res, "prsstart"); i_prstoken = PQfnumber(res, "prstoken"); i_prsend = PQfnumber(res, "prsend"); i_prsheadline = PQfnumber(res, "prsheadline"); i_prslextype = PQfnumber(res, "prslextype"); for (i = 0; i < ntups; i++) { prsinfo[i].dobj.objType = DO_TSPARSER; prsinfo[i].dobj.catId.tableoid = atooid(PQgetvalue(res, i, i_tableoid)); prsinfo[i].dobj.catId.oid = atooid(PQgetvalue(res, i, i_oid)); AssignDumpId(&prsinfo[i].dobj); prsinfo[i].dobj.name = pg_strdup(PQgetvalue(res, i, i_prsname)); prsinfo[i].dobj.namespace = findNamespace(atooid(PQgetvalue(res, i, i_prsnamespace))); prsinfo[i].prsstart = atooid(PQgetvalue(res, i, i_prsstart)); prsinfo[i].prstoken = atooid(PQgetvalue(res, i, i_prstoken)); prsinfo[i].prsend = atooid(PQgetvalue(res, i, i_prsend)); prsinfo[i].prsheadline = atooid(PQgetvalue(res, i, i_prsheadline)); prsinfo[i].prslextype = atooid(PQgetvalue(res, i, i_prslextype)); /* Decide whether we want to dump it */ selectDumpableObject(&(prsinfo[i].dobj), fout); } PQclear(res); destroyPQExpBuffer(query); return prsinfo; } /* * getTSDictionaries: * read all text search dictionaries in the system catalogs and return them * in the TSDictInfo* structure * * numTSDicts is set to the number of dictionaries read in */ TSDictInfo * getTSDictionaries(Archive *fout, int *numTSDicts) { PGresult *res; int ntups; int i; PQExpBuffer query; TSDictInfo *dictinfo; int i_tableoid; int i_oid; int i_dictname; int i_dictnamespace; int i_dictowner; int i_dicttemplate; int i_dictinitoption; query = createPQExpBuffer(); appendPQExpBufferStr(query, "SELECT tableoid, oid, dictname, " "dictnamespace, dictowner, " "dicttemplate, dictinitoption " "FROM pg_ts_dict"); res = ExecuteSqlQuery(fout, query->data, PGRES_TUPLES_OK); ntups = PQntuples(res); *numTSDicts = ntups; dictinfo = (TSDictInfo *) pg_malloc(ntups * sizeof(TSDictInfo)); i_tableoid = PQfnumber(res, "tableoid"); i_oid = PQfnumber(res, "oid"); i_dictname = PQfnumber(res, "dictname"); i_dictnamespace = PQfnumber(res, "dictnamespace"); i_dictowner = PQfnumber(res, "dictowner"); i_dictinitoption = PQfnumber(res, "dictinitoption"); i_dicttemplate = PQfnumber(res, "dicttemplate"); for (i = 0; i < ntups; i++) { dictinfo[i].dobj.objType = DO_TSDICT; dictinfo[i].dobj.catId.tableoid = atooid(PQgetvalue(res, i, i_tableoid)); dictinfo[i].dobj.catId.oid = atooid(PQgetvalue(res, i, i_oid)); AssignDumpId(&dictinfo[i].dobj); dictinfo[i].dobj.name = pg_strdup(PQgetvalue(res, i, i_dictname)); dictinfo[i].dobj.namespace = findNamespace(atooid(PQgetvalue(res, i, i_dictnamespace))); dictinfo[i].rolname = getRoleName(PQgetvalue(res, i, i_dictowner)); dictinfo[i].dicttemplate = atooid(PQgetvalue(res, i, i_dicttemplate)); if (PQgetisnull(res, i, i_dictinitoption)) dictinfo[i].dictinitoption = NULL; else dictinfo[i].dictinitoption = pg_strdup(PQgetvalue(res, i, i_dictinitoption)); /* Decide whether we want to dump it */ selectDumpableObject(&(dictinfo[i].dobj), fout); } PQclear(res); destroyPQExpBuffer(query); return dictinfo; } /* * getTSTemplates: * read all text search templates in the system catalogs and return them * in the TSTemplateInfo* structure * * numTSTemplates is set to the number of templates read in */ TSTemplateInfo * getTSTemplates(Archive *fout, int *numTSTemplates) { PGresult *res; int ntups; int i; PQExpBuffer query; TSTemplateInfo *tmplinfo; int i_tableoid; int i_oid; int i_tmplname; int i_tmplnamespace; int i_tmplinit; int i_tmpllexize; query = createPQExpBuffer(); appendPQExpBufferStr(query, "SELECT tableoid, oid, tmplname, " "tmplnamespace, tmplinit::oid, tmpllexize::oid " "FROM pg_ts_template"); res = ExecuteSqlQuery(fout, query->data, PGRES_TUPLES_OK); ntups = PQntuples(res); *numTSTemplates = ntups; tmplinfo = (TSTemplateInfo *) pg_malloc(ntups * sizeof(TSTemplateInfo)); i_tableoid = PQfnumber(res, "tableoid"); i_oid = PQfnumber(res, "oid"); i_tmplname = PQfnumber(res, "tmplname"); i_tmplnamespace = PQfnumber(res, "tmplnamespace"); i_tmplinit = PQfnumber(res, "tmplinit"); i_tmpllexize = PQfnumber(res, "tmpllexize"); for (i = 0; i < ntups; i++) { tmplinfo[i].dobj.objType = DO_TSTEMPLATE; tmplinfo[i].dobj.catId.tableoid = atooid(PQgetvalue(res, i, i_tableoid)); tmplinfo[i].dobj.catId.oid = atooid(PQgetvalue(res, i, i_oid)); AssignDumpId(&tmplinfo[i].dobj); tmplinfo[i].dobj.name = pg_strdup(PQgetvalue(res, i, i_tmplname)); tmplinfo[i].dobj.namespace = findNamespace(atooid(PQgetvalue(res, i, i_tmplnamespace))); tmplinfo[i].tmplinit = atooid(PQgetvalue(res, i, i_tmplinit)); tmplinfo[i].tmpllexize = atooid(PQgetvalue(res, i, i_tmpllexize)); /* Decide whether we want to dump it */ selectDumpableObject(&(tmplinfo[i].dobj), fout); } PQclear(res); destroyPQExpBuffer(query); return tmplinfo; } /* * getTSConfigurations: * read all text search configurations in the system catalogs and return * them in the TSConfigInfo* structure * * numTSConfigs is set to the number of configurations read in */ TSConfigInfo * getTSConfigurations(Archive *fout, int *numTSConfigs) { PGresult *res; int ntups; int i; PQExpBuffer query; TSConfigInfo *cfginfo; int i_tableoid; int i_oid; int i_cfgname; int i_cfgnamespace; int i_cfgowner; int i_cfgparser; query = createPQExpBuffer(); appendPQExpBufferStr(query, "SELECT tableoid, oid, cfgname, " "cfgnamespace, cfgowner, cfgparser " "FROM pg_ts_config"); res = ExecuteSqlQuery(fout, query->data, PGRES_TUPLES_OK); ntups = PQntuples(res); *numTSConfigs = ntups; cfginfo = (TSConfigInfo *) pg_malloc(ntups * sizeof(TSConfigInfo)); i_tableoid = PQfnumber(res, "tableoid"); i_oid = PQfnumber(res, "oid"); i_cfgname = PQfnumber(res, "cfgname"); i_cfgnamespace = PQfnumber(res, "cfgnamespace"); i_cfgowner = PQfnumber(res, "cfgowner"); i_cfgparser = PQfnumber(res, "cfgparser"); for (i = 0; i < ntups; i++) { cfginfo[i].dobj.objType = DO_TSCONFIG; cfginfo[i].dobj.catId.tableoid = atooid(PQgetvalue(res, i, i_tableoid)); cfginfo[i].dobj.catId.oid = atooid(PQgetvalue(res, i, i_oid)); AssignDumpId(&cfginfo[i].dobj); cfginfo[i].dobj.name = pg_strdup(PQgetvalue(res, i, i_cfgname)); cfginfo[i].dobj.namespace = findNamespace(atooid(PQgetvalue(res, i, i_cfgnamespace))); cfginfo[i].rolname = getRoleName(PQgetvalue(res, i, i_cfgowner)); cfginfo[i].cfgparser = atooid(PQgetvalue(res, i, i_cfgparser)); /* Decide whether we want to dump it */ selectDumpableObject(&(cfginfo[i].dobj), fout); } PQclear(res); destroyPQExpBuffer(query); return cfginfo; } /* * getForeignDataWrappers: * read all foreign-data wrappers in the system catalogs and return * them in the FdwInfo* structure * * numForeignDataWrappers is set to the number of fdws read in */ FdwInfo * getForeignDataWrappers(Archive *fout, int *numForeignDataWrappers) { PGresult *res; int ntups; int i; PQExpBuffer query; FdwInfo *fdwinfo; int i_tableoid; int i_oid; int i_fdwname; int i_fdwowner; int i_fdwhandler; int i_fdwvalidator; int i_fdwacl; int i_acldefault; int i_fdwoptions; query = createPQExpBuffer(); appendPQExpBufferStr(query, "SELECT tableoid, oid, fdwname, " "fdwowner, " "fdwhandler::pg_catalog.regproc, " "fdwvalidator::pg_catalog.regproc, " "fdwacl, " "acldefault('F', fdwowner) AS acldefault, " "array_to_string(ARRAY(" "SELECT quote_ident(option_name) || ' ' || " "quote_literal(option_value) " "FROM pg_options_to_table(fdwoptions) " "ORDER BY option_name" "), E',\n ') AS fdwoptions " "FROM pg_foreign_data_wrapper"); res = ExecuteSqlQuery(fout, query->data, PGRES_TUPLES_OK); ntups = PQntuples(res); *numForeignDataWrappers = ntups; fdwinfo = (FdwInfo *) pg_malloc(ntups * sizeof(FdwInfo)); i_tableoid = PQfnumber(res, "tableoid"); i_oid = PQfnumber(res, "oid"); i_fdwname = PQfnumber(res, "fdwname"); i_fdwowner = PQfnumber(res, "fdwowner"); i_fdwhandler = PQfnumber(res, "fdwhandler"); i_fdwvalidator = PQfnumber(res, "fdwvalidator"); i_fdwacl = PQfnumber(res, "fdwacl"); i_acldefault = PQfnumber(res, "acldefault"); i_fdwoptions = PQfnumber(res, "fdwoptions"); for (i = 0; i < ntups; i++) { fdwinfo[i].dobj.objType = DO_FDW; fdwinfo[i].dobj.catId.tableoid = atooid(PQgetvalue(res, i, i_tableoid)); fdwinfo[i].dobj.catId.oid = atooid(PQgetvalue(res, i, i_oid)); AssignDumpId(&fdwinfo[i].dobj); fdwinfo[i].dobj.name = pg_strdup(PQgetvalue(res, i, i_fdwname)); fdwinfo[i].dobj.namespace = NULL; fdwinfo[i].dacl.acl = pg_strdup(PQgetvalue(res, i, i_fdwacl)); fdwinfo[i].dacl.acldefault = pg_strdup(PQgetvalue(res, i, i_acldefault)); fdwinfo[i].dacl.privtype = 0; fdwinfo[i].dacl.initprivs = NULL; fdwinfo[i].rolname = getRoleName(PQgetvalue(res, i, i_fdwowner)); fdwinfo[i].fdwhandler = pg_strdup(PQgetvalue(res, i, i_fdwhandler)); fdwinfo[i].fdwvalidator = pg_strdup(PQgetvalue(res, i, i_fdwvalidator)); fdwinfo[i].fdwoptions = pg_strdup(PQgetvalue(res, i, i_fdwoptions)); /* Decide whether we want to dump it */ selectDumpableObject(&(fdwinfo[i].dobj), fout); /* Mark whether FDW has an ACL */ if (!PQgetisnull(res, i, i_fdwacl)) fdwinfo[i].dobj.components |= DUMP_COMPONENT_ACL; } PQclear(res); destroyPQExpBuffer(query); return fdwinfo; } /* * getForeignServers: * read all foreign servers in the system catalogs and return * them in the ForeignServerInfo * structure * * numForeignServers is set to the number of servers read in */ ForeignServerInfo * getForeignServers(Archive *fout, int *numForeignServers) { PGresult *res; int ntups; int i; PQExpBuffer query; ForeignServerInfo *srvinfo; int i_tableoid; int i_oid; int i_srvname; int i_srvowner; int i_srvfdw; int i_srvtype; int i_srvversion; int i_srvacl; int i_acldefault; int i_srvoptions; query = createPQExpBuffer(); appendPQExpBufferStr(query, "SELECT tableoid, oid, srvname, " "srvowner, " "srvfdw, srvtype, srvversion, srvacl, " "acldefault('S', srvowner) AS acldefault, " "array_to_string(ARRAY(" "SELECT quote_ident(option_name) || ' ' || " "quote_literal(option_value) " "FROM pg_options_to_table(srvoptions) " "ORDER BY option_name" "), E',\n ') AS srvoptions " "FROM pg_foreign_server"); res = ExecuteSqlQuery(fout, query->data, PGRES_TUPLES_OK); ntups = PQntuples(res); *numForeignServers = ntups; srvinfo = (ForeignServerInfo *) pg_malloc(ntups * sizeof(ForeignServerInfo)); i_tableoid = PQfnumber(res, "tableoid"); i_oid = PQfnumber(res, "oid"); i_srvname = PQfnumber(res, "srvname"); i_srvowner = PQfnumber(res, "srvowner"); i_srvfdw = PQfnumber(res, "srvfdw"); i_srvtype = PQfnumber(res, "srvtype"); i_srvversion = PQfnumber(res, "srvversion"); i_srvacl = PQfnumber(res, "srvacl"); i_acldefault = PQfnumber(res, "acldefault"); i_srvoptions = PQfnumber(res, "srvoptions"); for (i = 0; i < ntups; i++) { srvinfo[i].dobj.objType = DO_FOREIGN_SERVER; srvinfo[i].dobj.catId.tableoid = atooid(PQgetvalue(res, i, i_tableoid)); srvinfo[i].dobj.catId.oid = atooid(PQgetvalue(res, i, i_oid)); AssignDumpId(&srvinfo[i].dobj); srvinfo[i].dobj.name = pg_strdup(PQgetvalue(res, i, i_srvname)); srvinfo[i].dobj.namespace = NULL; srvinfo[i].dacl.acl = pg_strdup(PQgetvalue(res, i, i_srvacl)); srvinfo[i].dacl.acldefault = pg_strdup(PQgetvalue(res, i, i_acldefault)); srvinfo[i].dacl.privtype = 0; srvinfo[i].dacl.initprivs = NULL; srvinfo[i].rolname = getRoleName(PQgetvalue(res, i, i_srvowner)); srvinfo[i].srvfdw = atooid(PQgetvalue(res, i, i_srvfdw)); srvinfo[i].srvtype = pg_strdup(PQgetvalue(res, i, i_srvtype)); srvinfo[i].srvversion = pg_strdup(PQgetvalue(res, i, i_srvversion)); srvinfo[i].srvoptions = pg_strdup(PQgetvalue(res, i, i_srvoptions)); /* Decide whether we want to dump it */ selectDumpableObject(&(srvinfo[i].dobj), fout); /* Servers have user mappings */ srvinfo[i].dobj.components |= DUMP_COMPONENT_USERMAP; /* Mark whether server has an ACL */ if (!PQgetisnull(res, i, i_srvacl)) srvinfo[i].dobj.components |= DUMP_COMPONENT_ACL; } PQclear(res); destroyPQExpBuffer(query); return srvinfo; } /* * getDefaultACLs: * read all default ACL information in the system catalogs and return * them in the DefaultACLInfo structure * * numDefaultACLs is set to the number of ACLs read in */ DefaultACLInfo * getDefaultACLs(Archive *fout, int *numDefaultACLs) { DumpOptions *dopt = fout->dopt; DefaultACLInfo *daclinfo; PQExpBuffer query; PGresult *res; int i_oid; int i_tableoid; int i_defaclrole; int i_defaclnamespace; int i_defaclobjtype; int i_defaclacl; int i_acldefault; int i, ntups; query = createPQExpBuffer(); /* * Global entries (with defaclnamespace=0) replace the hard-wired default * ACL for their object type. We should dump them as deltas from the * default ACL, since that will be used as a starting point for * interpreting the ALTER DEFAULT PRIVILEGES commands. On the other hand, * non-global entries can only add privileges not revoke them. We must * dump those as-is (i.e., as deltas from an empty ACL). * * We can use defaclobjtype as the object type for acldefault(), except * for the case of 'S' (DEFACLOBJ_SEQUENCE) which must be converted to * 's'. */ appendPQExpBufferStr(query, "SELECT oid, tableoid, " "defaclrole, " "defaclnamespace, " "defaclobjtype, " "defaclacl, " "CASE WHEN defaclnamespace = 0 THEN " "acldefault(CASE WHEN defaclobjtype = 'S' " "THEN 's'::\"char\" ELSE defaclobjtype END, " "defaclrole) ELSE '{}' END AS acldefault " "FROM pg_default_acl"); res = ExecuteSqlQuery(fout, query->data, PGRES_TUPLES_OK); ntups = PQntuples(res); *numDefaultACLs = ntups; daclinfo = (DefaultACLInfo *) pg_malloc(ntups * sizeof(DefaultACLInfo)); i_oid = PQfnumber(res, "oid"); i_tableoid = PQfnumber(res, "tableoid"); i_defaclrole = PQfnumber(res, "defaclrole"); i_defaclnamespace = PQfnumber(res, "defaclnamespace"); i_defaclobjtype = PQfnumber(res, "defaclobjtype"); i_defaclacl = PQfnumber(res, "defaclacl"); i_acldefault = PQfnumber(res, "acldefault"); for (i = 0; i < ntups; i++) { Oid nspid = atooid(PQgetvalue(res, i, i_defaclnamespace)); daclinfo[i].dobj.objType = DO_DEFAULT_ACL; daclinfo[i].dobj.catId.tableoid = atooid(PQgetvalue(res, i, i_tableoid)); daclinfo[i].dobj.catId.oid = atooid(PQgetvalue(res, i, i_oid)); AssignDumpId(&daclinfo[i].dobj); /* cheesy ... is it worth coming up with a better object name? */ daclinfo[i].dobj.name = pg_strdup(PQgetvalue(res, i, i_defaclobjtype)); if (nspid != InvalidOid) daclinfo[i].dobj.namespace = findNamespace(nspid); else daclinfo[i].dobj.namespace = NULL; daclinfo[i].dacl.acl = pg_strdup(PQgetvalue(res, i, i_defaclacl)); daclinfo[i].dacl.acldefault = pg_strdup(PQgetvalue(res, i, i_acldefault)); daclinfo[i].dacl.privtype = 0; daclinfo[i].dacl.initprivs = NULL; daclinfo[i].defaclrole = getRoleName(PQgetvalue(res, i, i_defaclrole)); daclinfo[i].defaclobjtype = *(PQgetvalue(res, i, i_defaclobjtype)); /* Default ACLs are ACLs, of course */ daclinfo[i].dobj.components |= DUMP_COMPONENT_ACL; /* Decide whether we want to dump it */ selectDumpableDefaultACL(&(daclinfo[i]), dopt); } PQclear(res); destroyPQExpBuffer(query); return daclinfo; } /* * getRoleName -- look up the name of a role, given its OID * * In current usage, we don't expect failures, so error out for a bad OID. */ static const char * getRoleName(const char *roleoid_str) { Oid roleoid = atooid(roleoid_str); /* * Do binary search to find the appropriate item. */ if (nrolenames > 0) { RoleNameItem *low = &rolenames[0]; RoleNameItem *high = &rolenames[nrolenames - 1]; while (low <= high) { RoleNameItem *middle = low + (high - low) / 2; if (roleoid < middle->roleoid) high = middle - 1; else if (roleoid > middle->roleoid) low = middle + 1; else return middle->rolename; /* found a match */ } } pg_fatal("role with OID %u does not exist", roleoid); return NULL; /* keep compiler quiet */ } /* * collectRoleNames -- * * Construct a table of all known roles. * The table is sorted by OID for speed in lookup. */ static void collectRoleNames(Archive *fout) { PGresult *res; const char *query; int i; query = "SELECT oid, rolname FROM pg_catalog.pg_roles ORDER BY 1"; res = ExecuteSqlQuery(fout, query, PGRES_TUPLES_OK); nrolenames = PQntuples(res); rolenames = (RoleNameItem *) pg_malloc(nrolenames * sizeof(RoleNameItem)); for (i = 0; i < nrolenames; i++) { rolenames[i].roleoid = atooid(PQgetvalue(res, i, 0)); rolenames[i].rolename = pg_strdup(PQgetvalue(res, i, 1)); } PQclear(res); } /* * getAdditionalACLs * * We have now created all the DumpableObjects, and collected the ACL data * that appears in the directly-associated catalog entries. However, there's * more ACL-related info to collect. If any of a table's columns have ACLs, * we must set the TableInfo's DUMP_COMPONENT_ACL components flag, as well as * its hascolumnACLs flag (we won't store the ACLs themselves here, though). * Also, in versions having the pg_init_privs catalog, read that and load the * information into the relevant DumpableObjects. */ static void getAdditionalACLs(Archive *fout) { PQExpBuffer query = createPQExpBuffer(); PGresult *res; int ntups, i; /* Check for per-column ACLs */ appendPQExpBufferStr(query, "SELECT DISTINCT attrelid FROM pg_attribute " "WHERE attacl IS NOT NULL"); res = ExecuteSqlQuery(fout, query->data, PGRES_TUPLES_OK); ntups = PQntuples(res); for (i = 0; i < ntups; i++) { Oid relid = atooid(PQgetvalue(res, i, 0)); TableInfo *tblinfo; tblinfo = findTableByOid(relid); /* OK to ignore tables we haven't got a DumpableObject for */ if (tblinfo) { tblinfo->dobj.components |= DUMP_COMPONENT_ACL; tblinfo->hascolumnACLs = true; } } PQclear(res); /* Fetch initial-privileges data */ if (fout->remoteVersion >= 90600) { printfPQExpBuffer(query, "SELECT objoid, classoid, objsubid, privtype, initprivs " "FROM pg_init_privs"); res = ExecuteSqlQuery(fout, query->data, PGRES_TUPLES_OK); ntups = PQntuples(res); for (i = 0; i < ntups; i++) { Oid objoid = atooid(PQgetvalue(res, i, 0)); Oid classoid = atooid(PQgetvalue(res, i, 1)); int objsubid = atoi(PQgetvalue(res, i, 2)); char privtype = *(PQgetvalue(res, i, 3)); char *initprivs = PQgetvalue(res, i, 4); CatalogId objId; DumpableObject *dobj; objId.tableoid = classoid; objId.oid = objoid; dobj = findObjectByCatalogId(objId); /* OK to ignore entries we haven't got a DumpableObject for */ if (dobj) { /* Cope with sub-object initprivs */ if (objsubid != 0) { if (dobj->objType == DO_TABLE) { /* For a column initprivs, set the table's ACL flags */ dobj->components |= DUMP_COMPONENT_ACL; ((TableInfo *) dobj)->hascolumnACLs = true; } else pg_log_warning("unsupported pg_init_privs entry: %u %u %d", classoid, objoid, objsubid); continue; } /* * We ignore any pg_init_privs.initprivs entry for the public * schema, as explained in getNamespaces(). */ if (dobj->objType == DO_NAMESPACE && strcmp(dobj->name, "public") == 0) continue; /* Else it had better be of a type we think has ACLs */ if (dobj->objType == DO_NAMESPACE || dobj->objType == DO_TYPE || dobj->objType == DO_FUNC || dobj->objType == DO_AGG || dobj->objType == DO_TABLE || dobj->objType == DO_PROCLANG || dobj->objType == DO_FDW || dobj->objType == DO_FOREIGN_SERVER) { DumpableObjectWithAcl *daobj = (DumpableObjectWithAcl *) dobj; daobj->dacl.privtype = privtype; daobj->dacl.initprivs = pstrdup(initprivs); } else pg_log_warning("unsupported pg_init_privs entry: %u %u %d", classoid, objoid, objsubid); } } PQclear(res); } destroyPQExpBuffer(query); } /* * dumpCommentExtended -- * * This routine is used to dump any comments associated with the * object handed to this routine. The routine takes the object type * and object name (ready to print, except for schema decoration), plus * the namespace and owner of the object (for labeling the ArchiveEntry), * plus catalog ID and subid which are the lookup key for pg_description, * plus the dump ID for the object (for setting a dependency). * If a matching pg_description entry is found, it is dumped. * * Note: in some cases, such as comments for triggers and rules, the "type" * string really looks like, e.g., "TRIGGER name ON". This is a bit of a hack * but it doesn't seem worth complicating the API for all callers to make * it cleaner. * * Note: although this routine takes a dumpId for dependency purposes, * that purpose is just to mark the dependency in the emitted dump file * for possible future use by pg_restore. We do NOT use it for determining * ordering of the comment in the dump file, because this routine is called * after dependency sorting occurs. This routine should be called just after * calling ArchiveEntry() for the specified object. */ static void dumpCommentExtended(Archive *fout, const char *type, const char *name, const char *namespace, const char *owner, CatalogId catalogId, int subid, DumpId dumpId, const char *initdb_comment) { DumpOptions *dopt = fout->dopt; CommentItem *comments; int ncomments; /* do nothing, if --no-comments is supplied */ if (dopt->no_comments) return; /* Comments are schema not data ... except LO comments are data */ if (strcmp(type, "LARGE OBJECT") != 0) { if (dopt->dataOnly) return; } else { /* We do dump LO comments in binary-upgrade mode */ if (dopt->schemaOnly && !dopt->binary_upgrade) return; } /* Search for comments associated with catalogId, using table */ ncomments = findComments(catalogId.tableoid, catalogId.oid, &comments); /* Is there one matching the subid? */ while (ncomments > 0) { if (comments->objsubid == subid) break; comments++; ncomments--; } if (initdb_comment != NULL) { static CommentItem empty_comment = {.descr = ""}; /* * initdb creates this object with a comment. Skip dumping the * initdb-provided comment, which would complicate matters for * non-superuser use of pg_dump. When the DBA has removed initdb's * comment, replicate that. */ if (ncomments == 0) { comments = &empty_comment; ncomments = 1; } else if (strcmp(comments->descr, initdb_comment) == 0) ncomments = 0; } /* If a comment exists, build COMMENT ON statement */ if (ncomments > 0) { PQExpBuffer query = createPQExpBuffer(); PQExpBuffer tag = createPQExpBuffer(); appendPQExpBuffer(query, "COMMENT ON %s ", type); if (namespace && *namespace) appendPQExpBuffer(query, "%s.", fmtId(namespace)); appendPQExpBuffer(query, "%s IS ", name); appendStringLiteralAH(query, comments->descr, fout); appendPQExpBufferStr(query, ";\n"); appendPQExpBuffer(tag, "%s %s", type, name); /* * We mark comments as SECTION_NONE because they really belong in the * same section as their parent, whether that is pre-data or * post-data. */ ArchiveEntry(fout, nilCatalogId, createDumpId(), ARCHIVE_OPTS(.tag = tag->data, .namespace = namespace, .owner = owner, .description = "COMMENT", .section = SECTION_NONE, .createStmt = query->data, .deps = &dumpId, .nDeps = 1)); destroyPQExpBuffer(query); destroyPQExpBuffer(tag); } } /* * dumpComment -- * * Typical simplification of the above function. */ static inline void dumpComment(Archive *fout, const char *type, const char *name, const char *namespace, const char *owner, CatalogId catalogId, int subid, DumpId dumpId) { dumpCommentExtended(fout, type, name, namespace, owner, catalogId, subid, dumpId, NULL); } /* * dumpTableComment -- * * As above, but dump comments for both the specified table (or view) * and its columns. */ static void dumpTableComment(Archive *fout, const TableInfo *tbinfo, const char *reltypename) { DumpOptions *dopt = fout->dopt; CommentItem *comments; int ncomments; PQExpBuffer query; PQExpBuffer tag; /* do nothing, if --no-comments is supplied */ if (dopt->no_comments) return; /* Comments are SCHEMA not data */ if (dopt->dataOnly) return; /* Search for comments associated with relation, using table */ ncomments = findComments(tbinfo->dobj.catId.tableoid, tbinfo->dobj.catId.oid, &comments); /* If comments exist, build COMMENT ON statements */ if (ncomments <= 0) return; query = createPQExpBuffer(); tag = createPQExpBuffer(); while (ncomments > 0) { const char *descr = comments->descr; int objsubid = comments->objsubid; if (objsubid == 0) { resetPQExpBuffer(tag); appendPQExpBuffer(tag, "%s %s", reltypename, fmtId(tbinfo->dobj.name)); resetPQExpBuffer(query); appendPQExpBuffer(query, "COMMENT ON %s %s IS ", reltypename, fmtQualifiedDumpable(tbinfo)); appendStringLiteralAH(query, descr, fout); appendPQExpBufferStr(query, ";\n"); ArchiveEntry(fout, nilCatalogId, createDumpId(), ARCHIVE_OPTS(.tag = tag->data, .namespace = tbinfo->dobj.namespace->dobj.name, .owner = tbinfo->rolname, .description = "COMMENT", .section = SECTION_NONE, .createStmt = query->data, .deps = &(tbinfo->dobj.dumpId), .nDeps = 1)); } else if (objsubid > 0 && objsubid <= tbinfo->numatts) { resetPQExpBuffer(tag); appendPQExpBuffer(tag, "COLUMN %s.", fmtId(tbinfo->dobj.name)); appendPQExpBufferStr(tag, fmtId(tbinfo->attnames[objsubid - 1])); resetPQExpBuffer(query); appendPQExpBuffer(query, "COMMENT ON COLUMN %s.", fmtQualifiedDumpable(tbinfo)); appendPQExpBuffer(query, "%s IS ", fmtId(tbinfo->attnames[objsubid - 1])); appendStringLiteralAH(query, descr, fout); appendPQExpBufferStr(query, ";\n"); ArchiveEntry(fout, nilCatalogId, createDumpId(), ARCHIVE_OPTS(.tag = tag->data, .namespace = tbinfo->dobj.namespace->dobj.name, .owner = tbinfo->rolname, .description = "COMMENT", .section = SECTION_NONE, .createStmt = query->data, .deps = &(tbinfo->dobj.dumpId), .nDeps = 1)); } comments++; ncomments--; } destroyPQExpBuffer(query); destroyPQExpBuffer(tag); } /* * findComments -- * * Find the comment(s), if any, associated with the given object. All the * objsubid values associated with the given classoid/objoid are found with * one search. */ static int findComments(Oid classoid, Oid objoid, CommentItem **items) { CommentItem *middle = NULL; CommentItem *low; CommentItem *high; int nmatch; /* * Do binary search to find some item matching the object. */ low = &comments[0]; high = &comments[ncomments - 1]; while (low <= high) { middle = low + (high - low) / 2; if (classoid < middle->classoid) high = middle - 1; else if (classoid > middle->classoid) low = middle + 1; else if (objoid < middle->objoid) high = middle - 1; else if (objoid > middle->objoid) low = middle + 1; else break; /* found a match */ } if (low > high) /* no matches */ { *items = NULL; return 0; } /* * Now determine how many items match the object. The search loop * invariant still holds: only items between low and high inclusive could * match. */ nmatch = 1; while (middle > low) { if (classoid != middle[-1].classoid || objoid != middle[-1].objoid) break; middle--; nmatch++; } *items = middle; middle += nmatch; while (middle <= high) { if (classoid != middle->classoid || objoid != middle->objoid) break; middle++; nmatch++; } return nmatch; } /* * collectComments -- * * Construct a table of all comments available for database objects; * also set the has-comment component flag for each relevant object. * * We used to do per-object queries for the comments, but it's much faster * to pull them all over at once, and on most databases the memory cost * isn't high. * * The table is sorted by classoid/objid/objsubid for speed in lookup. */ static void collectComments(Archive *fout) { PGresult *res; PQExpBuffer query; int i_description; int i_classoid; int i_objoid; int i_objsubid; int ntups; int i; DumpableObject *dobj; query = createPQExpBuffer(); appendPQExpBufferStr(query, "SELECT description, classoid, objoid, objsubid " "FROM pg_catalog.pg_description " "ORDER BY classoid, objoid, objsubid"); res = ExecuteSqlQuery(fout, query->data, PGRES_TUPLES_OK); /* Construct lookup table containing OIDs in numeric form */ i_description = PQfnumber(res, "description"); i_classoid = PQfnumber(res, "classoid"); i_objoid = PQfnumber(res, "objoid"); i_objsubid = PQfnumber(res, "objsubid"); ntups = PQntuples(res); comments = (CommentItem *) pg_malloc(ntups * sizeof(CommentItem)); ncomments = 0; dobj = NULL; for (i = 0; i < ntups; i++) { CatalogId objId; int subid; objId.tableoid = atooid(PQgetvalue(res, i, i_classoid)); objId.oid = atooid(PQgetvalue(res, i, i_objoid)); subid = atoi(PQgetvalue(res, i, i_objsubid)); /* We needn't remember comments that don't match any dumpable object */ if (dobj == NULL || dobj->catId.tableoid != objId.tableoid || dobj->catId.oid != objId.oid) dobj = findObjectByCatalogId(objId); if (dobj == NULL) continue; /* * Comments on columns of composite types are linked to the type's * pg_class entry, but we need to set the DUMP_COMPONENT_COMMENT flag * in the type's own DumpableObject. */ if (subid != 0 && dobj->objType == DO_TABLE && ((TableInfo *) dobj)->relkind == RELKIND_COMPOSITE_TYPE) { TypeInfo *cTypeInfo; cTypeInfo = findTypeByOid(((TableInfo *) dobj)->reltype); if (cTypeInfo) cTypeInfo->dobj.components |= DUMP_COMPONENT_COMMENT; } else dobj->components |= DUMP_COMPONENT_COMMENT; comments[ncomments].descr = pg_strdup(PQgetvalue(res, i, i_description)); comments[ncomments].classoid = objId.tableoid; comments[ncomments].objoid = objId.oid; comments[ncomments].objsubid = subid; ncomments++; } PQclear(res); destroyPQExpBuffer(query); } /* * dumpDumpableObject * * This routine and its subsidiaries are responsible for creating * ArchiveEntries (TOC objects) for each object to be dumped. */ static void dumpDumpableObject(Archive *fout, DumpableObject *dobj) { /* * Clear any dump-request bits for components that don't exist for this * object. (This makes it safe to initially use DUMP_COMPONENT_ALL as the * request for every kind of object.) */ dobj->dump &= dobj->components; /* Now, short-circuit if there's nothing to be done here. */ if (dobj->dump == 0) return; switch (dobj->objType) { case DO_NAMESPACE: dumpNamespace(fout, (const NamespaceInfo *) dobj); break; case DO_EXTENSION: dumpExtension(fout, (const ExtensionInfo *) dobj); break; case DO_TYPE: dumpType(fout, (const TypeInfo *) dobj); break; case DO_SHELL_TYPE: dumpShellType(fout, (const ShellTypeInfo *) dobj); break; case DO_FUNC: dumpFunc(fout, (const FuncInfo *) dobj); break; case DO_AGG: dumpAgg(fout, (const AggInfo *) dobj); break; case DO_OPERATOR: dumpOpr(fout, (const OprInfo *) dobj); break; case DO_ACCESS_METHOD: dumpAccessMethod(fout, (const AccessMethodInfo *) dobj); break; case DO_OPCLASS: dumpOpclass(fout, (const OpclassInfo *) dobj); break; case DO_OPFAMILY: dumpOpfamily(fout, (const OpfamilyInfo *) dobj); break; case DO_COLLATION: dumpCollation(fout, (const CollInfo *) dobj); break; case DO_CONVERSION: dumpConversion(fout, (const ConvInfo *) dobj); break; case DO_TABLE: dumpTable(fout, (const TableInfo *) dobj); break; case DO_TABLE_ATTACH: dumpTableAttach(fout, (const TableAttachInfo *) dobj); break; case DO_ATTRDEF: dumpAttrDef(fout, (const AttrDefInfo *) dobj); break; case DO_INDEX: dumpIndex(fout, (const IndxInfo *) dobj); break; case DO_INDEX_ATTACH: dumpIndexAttach(fout, (const IndexAttachInfo *) dobj); break; case DO_STATSEXT: dumpStatisticsExt(fout, (const StatsExtInfo *) dobj); break; case DO_REFRESH_MATVIEW: refreshMatViewData(fout, (const TableDataInfo *) dobj); break; case DO_RULE: dumpRule(fout, (const RuleInfo *) dobj); break; case DO_TRIGGER: dumpTrigger(fout, (const TriggerInfo *) dobj); break; case DO_EVENT_TRIGGER: dumpEventTrigger(fout, (const EventTriggerInfo *) dobj); break; case DO_CONSTRAINT: dumpConstraint(fout, (const ConstraintInfo *) dobj); break; case DO_FK_CONSTRAINT: dumpConstraint(fout, (const ConstraintInfo *) dobj); break; case DO_PROCLANG: dumpProcLang(fout, (const ProcLangInfo *) dobj); break; case DO_CAST: dumpCast(fout, (const CastInfo *) dobj); break; case DO_TRANSFORM: dumpTransform(fout, (const TransformInfo *) dobj); break; case DO_SEQUENCE_SET: dumpSequenceData(fout, (const TableDataInfo *) dobj); break; case DO_TABLE_DATA: dumpTableData(fout, (const TableDataInfo *) dobj); break; case DO_DUMMY_TYPE: /* table rowtypes and array types are never dumped separately */ break; case DO_TSPARSER: dumpTSParser(fout, (const TSParserInfo *) dobj); break; case DO_TSDICT: dumpTSDictionary(fout, (const TSDictInfo *) dobj); break; case DO_TSTEMPLATE: dumpTSTemplate(fout, (const TSTemplateInfo *) dobj); break; case DO_TSCONFIG: dumpTSConfig(fout, (const TSConfigInfo *) dobj); break; case DO_FDW: dumpForeignDataWrapper(fout, (const FdwInfo *) dobj); break; case DO_FOREIGN_SERVER: dumpForeignServer(fout, (const ForeignServerInfo *) dobj); break; case DO_DEFAULT_ACL: dumpDefaultACL(fout, (const DefaultACLInfo *) dobj); break; case DO_LARGE_OBJECT: dumpLO(fout, (const LoInfo *) dobj); break; case DO_LARGE_OBJECT_DATA: if (dobj->dump & DUMP_COMPONENT_DATA) { TocEntry *te; te = ArchiveEntry(fout, dobj->catId, dobj->dumpId, ARCHIVE_OPTS(.tag = dobj->name, .description = "BLOBS", .section = SECTION_DATA, .dumpFn = dumpLOs)); /* * Set the TocEntry's dataLength in case we are doing a * parallel dump and want to order dump jobs by table size. * (We need some size estimate for every TocEntry with a * DataDumper function.) We don't currently have any cheap * way to estimate the size of LOs, but it doesn't matter; * let's just set the size to a large value so parallel dumps * will launch this job first. If there's lots of LOs, we * win, and if there aren't, we don't lose much. (If you want * to improve on this, really what you should be thinking * about is allowing LO dumping to be parallelized, not just * getting a smarter estimate for the single TOC entry.) */ te->dataLength = INT_MAX; } break; case DO_POLICY: dumpPolicy(fout, (const PolicyInfo *) dobj); break; case DO_PUBLICATION: dumpPublication(fout, (const PublicationInfo *) dobj); break; case DO_PUBLICATION_REL: dumpPublicationTable(fout, (const PublicationRelInfo *) dobj); break; case DO_PUBLICATION_TABLE_IN_SCHEMA: dumpPublicationNamespace(fout, (const PublicationSchemaInfo *) dobj); break; case DO_SUBSCRIPTION: dumpSubscription(fout, (const SubscriptionInfo *) dobj); break; case DO_PRE_DATA_BOUNDARY: case DO_POST_DATA_BOUNDARY: /* never dumped, nothing to do */ break; } } /* * dumpNamespace * writes out to fout the queries to recreate a user-defined namespace */ static void dumpNamespace(Archive *fout, const NamespaceInfo *nspinfo) { DumpOptions *dopt = fout->dopt; PQExpBuffer q; PQExpBuffer delq; char *qnspname; /* Do nothing in data-only dump */ if (dopt->dataOnly) return; q = createPQExpBuffer(); delq = createPQExpBuffer(); qnspname = pg_strdup(fmtId(nspinfo->dobj.name)); if (nspinfo->create) { appendPQExpBuffer(delq, "DROP SCHEMA %s;\n", qnspname); appendPQExpBuffer(q, "CREATE SCHEMA %s;\n", qnspname); } else { /* see selectDumpableNamespace() */ appendPQExpBufferStr(delq, "-- *not* dropping schema, since initdb creates it\n"); appendPQExpBufferStr(q, "-- *not* creating schema, since initdb creates it\n"); } if (dopt->binary_upgrade) binary_upgrade_extension_member(q, &nspinfo->dobj, "SCHEMA", qnspname, NULL); if (nspinfo->dobj.dump & DUMP_COMPONENT_DEFINITION) ArchiveEntry(fout, nspinfo->dobj.catId, nspinfo->dobj.dumpId, ARCHIVE_OPTS(.tag = nspinfo->dobj.name, .owner = nspinfo->rolname, .description = "SCHEMA", .section = SECTION_PRE_DATA, .createStmt = q->data, .dropStmt = delq->data)); /* Dump Schema Comments and Security Labels */ if (nspinfo->dobj.dump & DUMP_COMPONENT_COMMENT) { const char *initdb_comment = NULL; if (!nspinfo->create && strcmp(qnspname, "public") == 0) initdb_comment = "standard public schema"; dumpCommentExtended(fout, "SCHEMA", qnspname, NULL, nspinfo->rolname, nspinfo->dobj.catId, 0, nspinfo->dobj.dumpId, initdb_comment); } if (nspinfo->dobj.dump & DUMP_COMPONENT_SECLABEL) dumpSecLabel(fout, "SCHEMA", qnspname, NULL, nspinfo->rolname, nspinfo->dobj.catId, 0, nspinfo->dobj.dumpId); if (nspinfo->dobj.dump & DUMP_COMPONENT_ACL) dumpACL(fout, nspinfo->dobj.dumpId, InvalidDumpId, "SCHEMA", qnspname, NULL, NULL, nspinfo->rolname, &nspinfo->dacl); free(qnspname); destroyPQExpBuffer(q); destroyPQExpBuffer(delq); } /* * dumpExtension * writes out to fout the queries to recreate an extension */ static void dumpExtension(Archive *fout, const ExtensionInfo *extinfo) { DumpOptions *dopt = fout->dopt; PQExpBuffer q; PQExpBuffer delq; char *qextname; /* Do nothing in data-only dump */ if (dopt->dataOnly) return; q = createPQExpBuffer(); delq = createPQExpBuffer(); qextname = pg_strdup(fmtId(extinfo->dobj.name)); appendPQExpBuffer(delq, "DROP EXTENSION %s;\n", qextname); if (!dopt->binary_upgrade) { /* * In a regular dump, we simply create the extension, intentionally * not specifying a version, so that the destination installation's * default version is used. * * Use of IF NOT EXISTS here is unlike our behavior for other object * types; but there are various scenarios in which it's convenient to * manually create the desired extension before restoring, so we * prefer to allow it to exist already. */ appendPQExpBuffer(q, "CREATE EXTENSION IF NOT EXISTS %s WITH SCHEMA %s;\n", qextname, fmtId(extinfo->namespace)); } else { /* * In binary-upgrade mode, it's critical to reproduce the state of the * database exactly, so our procedure is to create an empty extension, * restore all the contained objects normally, and add them to the * extension one by one. This function performs just the first of * those steps. binary_upgrade_extension_member() takes care of * adding member objects as they're created. */ int i; int n; appendPQExpBufferStr(q, "-- For binary upgrade, create an empty extension and insert objects into it\n"); /* * We unconditionally create the extension, so we must drop it if it * exists. This could happen if the user deleted 'plpgsql' and then * readded it, causing its oid to be greater than g_last_builtin_oid. */ appendPQExpBuffer(q, "DROP EXTENSION IF EXISTS %s;\n", qextname); appendPQExpBufferStr(q, "SELECT pg_catalog.binary_upgrade_create_empty_extension("); appendStringLiteralAH(q, extinfo->dobj.name, fout); appendPQExpBufferStr(q, ", "); appendStringLiteralAH(q, extinfo->namespace, fout); appendPQExpBufferStr(q, ", "); appendPQExpBuffer(q, "%s, ", extinfo->relocatable ? "true" : "false"); appendStringLiteralAH(q, extinfo->extversion, fout); appendPQExpBufferStr(q, ", "); /* * Note that we're pushing extconfig (an OID array) back into * pg_extension exactly as-is. This is OK because pg_class OIDs are * preserved in binary upgrade. */ if (strlen(extinfo->extconfig) > 2) appendStringLiteralAH(q, extinfo->extconfig, fout); else appendPQExpBufferStr(q, "NULL"); appendPQExpBufferStr(q, ", "); if (strlen(extinfo->extcondition) > 2) appendStringLiteralAH(q, extinfo->extcondition, fout); else appendPQExpBufferStr(q, "NULL"); appendPQExpBufferStr(q, ", "); appendPQExpBufferStr(q, "ARRAY["); n = 0; for (i = 0; i < extinfo->dobj.nDeps; i++) { DumpableObject *extobj; extobj = findObjectByDumpId(extinfo->dobj.dependencies[i]); if (extobj && extobj->objType == DO_EXTENSION) { if (n++ > 0) appendPQExpBufferChar(q, ','); appendStringLiteralAH(q, extobj->name, fout); } } appendPQExpBufferStr(q, "]::pg_catalog.text[]"); appendPQExpBufferStr(q, ");\n"); } if (extinfo->dobj.dump & DUMP_COMPONENT_DEFINITION) ArchiveEntry(fout, extinfo->dobj.catId, extinfo->dobj.dumpId, ARCHIVE_OPTS(.tag = extinfo->dobj.name, .description = "EXTENSION", .section = SECTION_PRE_DATA, .createStmt = q->data, .dropStmt = delq->data)); /* Dump Extension Comments and Security Labels */ if (extinfo->dobj.dump & DUMP_COMPONENT_COMMENT) dumpComment(fout, "EXTENSION", qextname, NULL, "", extinfo->dobj.catId, 0, extinfo->dobj.dumpId); if (extinfo->dobj.dump & DUMP_COMPONENT_SECLABEL) dumpSecLabel(fout, "EXTENSION", qextname, NULL, "", extinfo->dobj.catId, 0, extinfo->dobj.dumpId); free(qextname); destroyPQExpBuffer(q); destroyPQExpBuffer(delq); } /* * dumpType * writes out to fout the queries to recreate a user-defined type */ static void dumpType(Archive *fout, const TypeInfo *tyinfo) { DumpOptions *dopt = fout->dopt; /* Do nothing in data-only dump */ if (dopt->dataOnly) return; /* Dump out in proper style */ if (tyinfo->typtype == TYPTYPE_BASE) dumpBaseType(fout, tyinfo); else if (tyinfo->typtype == TYPTYPE_DOMAIN) dumpDomain(fout, tyinfo); else if (tyinfo->typtype == TYPTYPE_COMPOSITE) dumpCompositeType(fout, tyinfo); else if (tyinfo->typtype == TYPTYPE_ENUM) dumpEnumType(fout, tyinfo); else if (tyinfo->typtype == TYPTYPE_RANGE) dumpRangeType(fout, tyinfo); else if (tyinfo->typtype == TYPTYPE_PSEUDO && !tyinfo->isDefined) dumpUndefinedType(fout, tyinfo); else pg_log_warning("typtype of data type \"%s\" appears to be invalid", tyinfo->dobj.name); } /* * dumpEnumType * writes out to fout the queries to recreate a user-defined enum type */ static void dumpEnumType(Archive *fout, const TypeInfo *tyinfo) { DumpOptions *dopt = fout->dopt; PQExpBuffer q = createPQExpBuffer(); PQExpBuffer delq = createPQExpBuffer(); PQExpBuffer query = createPQExpBuffer(); PGresult *res; int num, i; Oid enum_oid; char *qtypname; char *qualtypname; char *label; int i_enumlabel; int i_oid; if (!fout->is_prepared[PREPQUERY_DUMPENUMTYPE]) { /* Set up query for enum-specific details */ appendPQExpBufferStr(query, "PREPARE dumpEnumType(pg_catalog.oid) AS\n" "SELECT oid, enumlabel " "FROM pg_catalog.pg_enum " "WHERE enumtypid = $1 " "ORDER BY enumsortorder"); ExecuteSqlStatement(fout, query->data); fout->is_prepared[PREPQUERY_DUMPENUMTYPE] = true; } printfPQExpBuffer(query, "EXECUTE dumpEnumType('%u')", tyinfo->dobj.catId.oid); res = ExecuteSqlQuery(fout, query->data, PGRES_TUPLES_OK); num = PQntuples(res); qtypname = pg_strdup(fmtId(tyinfo->dobj.name)); qualtypname = pg_strdup(fmtQualifiedDumpable(tyinfo)); /* * CASCADE shouldn't be required here as for normal types since the I/O * functions are generic and do not get dropped. */ appendPQExpBuffer(delq, "DROP TYPE %s;\n", qualtypname); if (dopt->binary_upgrade) binary_upgrade_set_type_oids_by_type_oid(fout, q, tyinfo->dobj.catId.oid, false, false); appendPQExpBuffer(q, "CREATE TYPE %s AS ENUM (", qualtypname); if (!dopt->binary_upgrade) { i_enumlabel = PQfnumber(res, "enumlabel"); /* Labels with server-assigned oids */ for (i = 0; i < num; i++) { label = PQgetvalue(res, i, i_enumlabel); if (i > 0) appendPQExpBufferChar(q, ','); appendPQExpBufferStr(q, "\n "); appendStringLiteralAH(q, label, fout); } } appendPQExpBufferStr(q, "\n);\n"); if (dopt->binary_upgrade) { i_oid = PQfnumber(res, "oid"); i_enumlabel = PQfnumber(res, "enumlabel"); /* Labels with dump-assigned (preserved) oids */ for (i = 0; i < num; i++) { enum_oid = atooid(PQgetvalue(res, i, i_oid)); label = PQgetvalue(res, i, i_enumlabel); if (i == 0) appendPQExpBufferStr(q, "\n-- For binary upgrade, must preserve pg_enum oids\n"); appendPQExpBuffer(q, "SELECT pg_catalog.binary_upgrade_set_next_pg_enum_oid('%u'::pg_catalog.oid);\n", enum_oid); appendPQExpBuffer(q, "ALTER TYPE %s ADD VALUE ", qualtypname); appendStringLiteralAH(q, label, fout); appendPQExpBufferStr(q, ";\n\n"); } } if (dopt->binary_upgrade) binary_upgrade_extension_member(q, &tyinfo->dobj, "TYPE", qtypname, tyinfo->dobj.namespace->dobj.name); if (tyinfo->dobj.dump & DUMP_COMPONENT_DEFINITION) ArchiveEntry(fout, tyinfo->dobj.catId, tyinfo->dobj.dumpId, ARCHIVE_OPTS(.tag = tyinfo->dobj.name, .namespace = tyinfo->dobj.namespace->dobj.name, .owner = tyinfo->rolname, .description = "TYPE", .section = SECTION_PRE_DATA, .createStmt = q->data, .dropStmt = delq->data)); /* Dump Type Comments and Security Labels */ if (tyinfo->dobj.dump & DUMP_COMPONENT_COMMENT) dumpComment(fout, "TYPE", qtypname, tyinfo->dobj.namespace->dobj.name, tyinfo->rolname, tyinfo->dobj.catId, 0, tyinfo->dobj.dumpId); if (tyinfo->dobj.dump & DUMP_COMPONENT_SECLABEL) dumpSecLabel(fout, "TYPE", qtypname, tyinfo->dobj.namespace->dobj.name, tyinfo->rolname, tyinfo->dobj.catId, 0, tyinfo->dobj.dumpId); if (tyinfo->dobj.dump & DUMP_COMPONENT_ACL) dumpACL(fout, tyinfo->dobj.dumpId, InvalidDumpId, "TYPE", qtypname, NULL, tyinfo->dobj.namespace->dobj.name, tyinfo->rolname, &tyinfo->dacl); PQclear(res); destroyPQExpBuffer(q); destroyPQExpBuffer(delq); destroyPQExpBuffer(query); free(qtypname); free(qualtypname); } /* * dumpRangeType * writes out to fout the queries to recreate a user-defined range type */ static void dumpRangeType(Archive *fout, const TypeInfo *tyinfo) { DumpOptions *dopt = fout->dopt; PQExpBuffer q = createPQExpBuffer(); PQExpBuffer delq = createPQExpBuffer(); PQExpBuffer query = createPQExpBuffer(); PGresult *res; Oid collationOid; char *qtypname; char *qualtypname; char *procname; if (!fout->is_prepared[PREPQUERY_DUMPRANGETYPE]) { /* Set up query for range-specific details */ appendPQExpBufferStr(query, "PREPARE dumpRangeType(pg_catalog.oid) AS\n"); appendPQExpBufferStr(query, "SELECT "); if (fout->remoteVersion >= 140000) appendPQExpBufferStr(query, "pg_catalog.format_type(rngmultitypid, NULL) AS rngmultitype, "); else appendPQExpBufferStr(query, "NULL AS rngmultitype, "); appendPQExpBufferStr(query, "pg_catalog.format_type(rngsubtype, NULL) AS rngsubtype, " "opc.opcname AS opcname, " "(SELECT nspname FROM pg_catalog.pg_namespace nsp " " WHERE nsp.oid = opc.opcnamespace) AS opcnsp, " "opc.opcdefault, " "CASE WHEN rngcollation = st.typcollation THEN 0 " " ELSE rngcollation END AS collation, " "rngcanonical, rngsubdiff " "FROM pg_catalog.pg_range r, pg_catalog.pg_type st, " " pg_catalog.pg_opclass opc " "WHERE st.oid = rngsubtype AND opc.oid = rngsubopc AND " "rngtypid = $1"); ExecuteSqlStatement(fout, query->data); fout->is_prepared[PREPQUERY_DUMPRANGETYPE] = true; } printfPQExpBuffer(query, "EXECUTE dumpRangeType('%u')", tyinfo->dobj.catId.oid); res = ExecuteSqlQueryForSingleRow(fout, query->data); qtypname = pg_strdup(fmtId(tyinfo->dobj.name)); qualtypname = pg_strdup(fmtQualifiedDumpable(tyinfo)); /* * CASCADE shouldn't be required here as for normal types since the I/O * functions are generic and do not get dropped. */ appendPQExpBuffer(delq, "DROP TYPE %s;\n", qualtypname); if (dopt->binary_upgrade) binary_upgrade_set_type_oids_by_type_oid(fout, q, tyinfo->dobj.catId.oid, false, true); appendPQExpBuffer(q, "CREATE TYPE %s AS RANGE (", qualtypname); appendPQExpBuffer(q, "\n subtype = %s", PQgetvalue(res, 0, PQfnumber(res, "rngsubtype"))); if (!PQgetisnull(res, 0, PQfnumber(res, "rngmultitype"))) appendPQExpBuffer(q, ",\n multirange_type_name = %s", PQgetvalue(res, 0, PQfnumber(res, "rngmultitype"))); /* print subtype_opclass only if not default for subtype */ if (PQgetvalue(res, 0, PQfnumber(res, "opcdefault"))[0] != 't') { char *opcname = PQgetvalue(res, 0, PQfnumber(res, "opcname")); char *nspname = PQgetvalue(res, 0, PQfnumber(res, "opcnsp")); appendPQExpBuffer(q, ",\n subtype_opclass = %s.", fmtId(nspname)); appendPQExpBufferStr(q, fmtId(opcname)); } collationOid = atooid(PQgetvalue(res, 0, PQfnumber(res, "collation"))); if (OidIsValid(collationOid)) { CollInfo *coll = findCollationByOid(collationOid); if (coll) appendPQExpBuffer(q, ",\n collation = %s", fmtQualifiedDumpable(coll)); } procname = PQgetvalue(res, 0, PQfnumber(res, "rngcanonical")); if (strcmp(procname, "-") != 0) appendPQExpBuffer(q, ",\n canonical = %s", procname); procname = PQgetvalue(res, 0, PQfnumber(res, "rngsubdiff")); if (strcmp(procname, "-") != 0) appendPQExpBuffer(q, ",\n subtype_diff = %s", procname); appendPQExpBufferStr(q, "\n);\n"); if (dopt->binary_upgrade) binary_upgrade_extension_member(q, &tyinfo->dobj, "TYPE", qtypname, tyinfo->dobj.namespace->dobj.name); if (tyinfo->dobj.dump & DUMP_COMPONENT_DEFINITION) ArchiveEntry(fout, tyinfo->dobj.catId, tyinfo->dobj.dumpId, ARCHIVE_OPTS(.tag = tyinfo->dobj.name, .namespace = tyinfo->dobj.namespace->dobj.name, .owner = tyinfo->rolname, .description = "TYPE", .section = SECTION_PRE_DATA, .createStmt = q->data, .dropStmt = delq->data)); /* Dump Type Comments and Security Labels */ if (tyinfo->dobj.dump & DUMP_COMPONENT_COMMENT) dumpComment(fout, "TYPE", qtypname, tyinfo->dobj.namespace->dobj.name, tyinfo->rolname, tyinfo->dobj.catId, 0, tyinfo->dobj.dumpId); if (tyinfo->dobj.dump & DUMP_COMPONENT_SECLABEL) dumpSecLabel(fout, "TYPE", qtypname, tyinfo->dobj.namespace->dobj.name, tyinfo->rolname, tyinfo->dobj.catId, 0, tyinfo->dobj.dumpId); if (tyinfo->dobj.dump & DUMP_COMPONENT_ACL) dumpACL(fout, tyinfo->dobj.dumpId, InvalidDumpId, "TYPE", qtypname, NULL, tyinfo->dobj.namespace->dobj.name, tyinfo->rolname, &tyinfo->dacl); PQclear(res); destroyPQExpBuffer(q); destroyPQExpBuffer(delq); destroyPQExpBuffer(query); free(qtypname); free(qualtypname); } /* * dumpUndefinedType * writes out to fout the queries to recreate a !typisdefined type * * This is a shell type, but we use different terminology to distinguish * this case from where we have to emit a shell type definition to break * circular dependencies. An undefined type shouldn't ever have anything * depending on it. */ static void dumpUndefinedType(Archive *fout, const TypeInfo *tyinfo) { DumpOptions *dopt = fout->dopt; PQExpBuffer q = createPQExpBuffer(); PQExpBuffer delq = createPQExpBuffer(); char *qtypname; char *qualtypname; qtypname = pg_strdup(fmtId(tyinfo->dobj.name)); qualtypname = pg_strdup(fmtQualifiedDumpable(tyinfo)); appendPQExpBuffer(delq, "DROP TYPE %s;\n", qualtypname); if (dopt->binary_upgrade) binary_upgrade_set_type_oids_by_type_oid(fout, q, tyinfo->dobj.catId.oid, false, false); appendPQExpBuffer(q, "CREATE TYPE %s;\n", qualtypname); if (dopt->binary_upgrade) binary_upgrade_extension_member(q, &tyinfo->dobj, "TYPE", qtypname, tyinfo->dobj.namespace->dobj.name); if (tyinfo->dobj.dump & DUMP_COMPONENT_DEFINITION) ArchiveEntry(fout, tyinfo->dobj.catId, tyinfo->dobj.dumpId, ARCHIVE_OPTS(.tag = tyinfo->dobj.name, .namespace = tyinfo->dobj.namespace->dobj.name, .owner = tyinfo->rolname, .description = "TYPE", .section = SECTION_PRE_DATA, .createStmt = q->data, .dropStmt = delq->data)); /* Dump Type Comments and Security Labels */ if (tyinfo->dobj.dump & DUMP_COMPONENT_COMMENT) dumpComment(fout, "TYPE", qtypname, tyinfo->dobj.namespace->dobj.name, tyinfo->rolname, tyinfo->dobj.catId, 0, tyinfo->dobj.dumpId); if (tyinfo->dobj.dump & DUMP_COMPONENT_SECLABEL) dumpSecLabel(fout, "TYPE", qtypname, tyinfo->dobj.namespace->dobj.name, tyinfo->rolname, tyinfo->dobj.catId, 0, tyinfo->dobj.dumpId); if (tyinfo->dobj.dump & DUMP_COMPONENT_ACL) dumpACL(fout, tyinfo->dobj.dumpId, InvalidDumpId, "TYPE", qtypname, NULL, tyinfo->dobj.namespace->dobj.name, tyinfo->rolname, &tyinfo->dacl); destroyPQExpBuffer(q); destroyPQExpBuffer(delq); free(qtypname); free(qualtypname); } /* * dumpBaseType * writes out to fout the queries to recreate a user-defined base type */ static void dumpBaseType(Archive *fout, const TypeInfo *tyinfo) { DumpOptions *dopt = fout->dopt; PQExpBuffer q = createPQExpBuffer(); PQExpBuffer delq = createPQExpBuffer(); PQExpBuffer query = createPQExpBuffer(); PGresult *res; char *qtypname; char *qualtypname; char *typlen; char *typinput; char *typoutput; char *typreceive; char *typsend; char *typmodin; char *typmodout; char *typanalyze; char *typsubscript; Oid typreceiveoid; Oid typsendoid; Oid typmodinoid; Oid typmodoutoid; Oid typanalyzeoid; Oid typsubscriptoid; char *typcategory; char *typispreferred; char *typdelim; char *typbyval; char *typalign; char *typstorage; char *typcollatable; char *typdefault; bool typdefault_is_literal = false; if (!fout->is_prepared[PREPQUERY_DUMPBASETYPE]) { /* Set up query for type-specific details */ appendPQExpBufferStr(query, "PREPARE dumpBaseType(pg_catalog.oid) AS\n" "SELECT typlen, " "typinput, typoutput, typreceive, typsend, " "typreceive::pg_catalog.oid AS typreceiveoid, " "typsend::pg_catalog.oid AS typsendoid, " "typanalyze, " "typanalyze::pg_catalog.oid AS typanalyzeoid, " "typdelim, typbyval, typalign, typstorage, " "typmodin, typmodout, " "typmodin::pg_catalog.oid AS typmodinoid, " "typmodout::pg_catalog.oid AS typmodoutoid, " "typcategory, typispreferred, " "(typcollation <> 0) AS typcollatable, " "pg_catalog.pg_get_expr(typdefaultbin, 0) AS typdefaultbin, typdefault, "); if (fout->remoteVersion >= 140000) appendPQExpBufferStr(query, "typsubscript, " "typsubscript::pg_catalog.oid AS typsubscriptoid "); else appendPQExpBufferStr(query, "'-' AS typsubscript, 0 AS typsubscriptoid "); appendPQExpBufferStr(query, "FROM pg_catalog.pg_type " "WHERE oid = $1"); ExecuteSqlStatement(fout, query->data); fout->is_prepared[PREPQUERY_DUMPBASETYPE] = true; } printfPQExpBuffer(query, "EXECUTE dumpBaseType('%u')", tyinfo->dobj.catId.oid); res = ExecuteSqlQueryForSingleRow(fout, query->data); typlen = PQgetvalue(res, 0, PQfnumber(res, "typlen")); typinput = PQgetvalue(res, 0, PQfnumber(res, "typinput")); typoutput = PQgetvalue(res, 0, PQfnumber(res, "typoutput")); typreceive = PQgetvalue(res, 0, PQfnumber(res, "typreceive")); typsend = PQgetvalue(res, 0, PQfnumber(res, "typsend")); typmodin = PQgetvalue(res, 0, PQfnumber(res, "typmodin")); typmodout = PQgetvalue(res, 0, PQfnumber(res, "typmodout")); typanalyze = PQgetvalue(res, 0, PQfnumber(res, "typanalyze")); typsubscript = PQgetvalue(res, 0, PQfnumber(res, "typsubscript")); typreceiveoid = atooid(PQgetvalue(res, 0, PQfnumber(res, "typreceiveoid"))); typsendoid = atooid(PQgetvalue(res, 0, PQfnumber(res, "typsendoid"))); typmodinoid = atooid(PQgetvalue(res, 0, PQfnumber(res, "typmodinoid"))); typmodoutoid = atooid(PQgetvalue(res, 0, PQfnumber(res, "typmodoutoid"))); typanalyzeoid = atooid(PQgetvalue(res, 0, PQfnumber(res, "typanalyzeoid"))); typsubscriptoid = atooid(PQgetvalue(res, 0, PQfnumber(res, "typsubscriptoid"))); typcategory = PQgetvalue(res, 0, PQfnumber(res, "typcategory")); typispreferred = PQgetvalue(res, 0, PQfnumber(res, "typispreferred")); typdelim = PQgetvalue(res, 0, PQfnumber(res, "typdelim")); typbyval = PQgetvalue(res, 0, PQfnumber(res, "typbyval")); typalign = PQgetvalue(res, 0, PQfnumber(res, "typalign")); typstorage = PQgetvalue(res, 0, PQfnumber(res, "typstorage")); typcollatable = PQgetvalue(res, 0, PQfnumber(res, "typcollatable")); if (!PQgetisnull(res, 0, PQfnumber(res, "typdefaultbin"))) typdefault = PQgetvalue(res, 0, PQfnumber(res, "typdefaultbin")); else if (!PQgetisnull(res, 0, PQfnumber(res, "typdefault"))) { typdefault = PQgetvalue(res, 0, PQfnumber(res, "typdefault")); typdefault_is_literal = true; /* it needs quotes */ } else typdefault = NULL; qtypname = pg_strdup(fmtId(tyinfo->dobj.name)); qualtypname = pg_strdup(fmtQualifiedDumpable(tyinfo)); /* * The reason we include CASCADE is that the circular dependency between * the type and its I/O functions makes it impossible to drop the type any * other way. */ appendPQExpBuffer(delq, "DROP TYPE %s CASCADE;\n", qualtypname); /* * We might already have a shell type, but setting pg_type_oid is * harmless, and in any case we'd better set the array type OID. */ if (dopt->binary_upgrade) binary_upgrade_set_type_oids_by_type_oid(fout, q, tyinfo->dobj.catId.oid, false, false); appendPQExpBuffer(q, "CREATE TYPE %s (\n" " INTERNALLENGTH = %s", qualtypname, (strcmp(typlen, "-1") == 0) ? "variable" : typlen); /* regproc result is sufficiently quoted already */ appendPQExpBuffer(q, ",\n INPUT = %s", typinput); appendPQExpBuffer(q, ",\n OUTPUT = %s", typoutput); if (OidIsValid(typreceiveoid)) appendPQExpBuffer(q, ",\n RECEIVE = %s", typreceive); if (OidIsValid(typsendoid)) appendPQExpBuffer(q, ",\n SEND = %s", typsend); if (OidIsValid(typmodinoid)) appendPQExpBuffer(q, ",\n TYPMOD_IN = %s", typmodin); if (OidIsValid(typmodoutoid)) appendPQExpBuffer(q, ",\n TYPMOD_OUT = %s", typmodout); if (OidIsValid(typanalyzeoid)) appendPQExpBuffer(q, ",\n ANALYZE = %s", typanalyze); if (strcmp(typcollatable, "t") == 0) appendPQExpBufferStr(q, ",\n COLLATABLE = true"); if (typdefault != NULL) { appendPQExpBufferStr(q, ",\n DEFAULT = "); if (typdefault_is_literal) appendStringLiteralAH(q, typdefault, fout); else appendPQExpBufferStr(q, typdefault); } if (OidIsValid(typsubscriptoid)) appendPQExpBuffer(q, ",\n SUBSCRIPT = %s", typsubscript); if (OidIsValid(tyinfo->typelem)) appendPQExpBuffer(q, ",\n ELEMENT = %s", getFormattedTypeName(fout, tyinfo->typelem, zeroIsError)); if (strcmp(typcategory, "U") != 0) { appendPQExpBufferStr(q, ",\n CATEGORY = "); appendStringLiteralAH(q, typcategory, fout); } if (strcmp(typispreferred, "t") == 0) appendPQExpBufferStr(q, ",\n PREFERRED = true"); if (typdelim && strcmp(typdelim, ",") != 0) { appendPQExpBufferStr(q, ",\n DELIMITER = "); appendStringLiteralAH(q, typdelim, fout); } if (*typalign == TYPALIGN_CHAR) appendPQExpBufferStr(q, ",\n ALIGNMENT = char"); else if (*typalign == TYPALIGN_SHORT) appendPQExpBufferStr(q, ",\n ALIGNMENT = int2"); else if (*typalign == TYPALIGN_INT) appendPQExpBufferStr(q, ",\n ALIGNMENT = int4"); else if (*typalign == TYPALIGN_DOUBLE) appendPQExpBufferStr(q, ",\n ALIGNMENT = double"); if (*typstorage == TYPSTORAGE_PLAIN) appendPQExpBufferStr(q, ",\n STORAGE = plain"); else if (*typstorage == TYPSTORAGE_EXTERNAL) appendPQExpBufferStr(q, ",\n STORAGE = external"); else if (*typstorage == TYPSTORAGE_EXTENDED) appendPQExpBufferStr(q, ",\n STORAGE = extended"); else if (*typstorage == TYPSTORAGE_MAIN) appendPQExpBufferStr(q, ",\n STORAGE = main"); if (strcmp(typbyval, "t") == 0) appendPQExpBufferStr(q, ",\n PASSEDBYVALUE"); appendPQExpBufferStr(q, "\n);\n"); if (dopt->binary_upgrade) binary_upgrade_extension_member(q, &tyinfo->dobj, "TYPE", qtypname, tyinfo->dobj.namespace->dobj.name); if (tyinfo->dobj.dump & DUMP_COMPONENT_DEFINITION) ArchiveEntry(fout, tyinfo->dobj.catId, tyinfo->dobj.dumpId, ARCHIVE_OPTS(.tag = tyinfo->dobj.name, .namespace = tyinfo->dobj.namespace->dobj.name, .owner = tyinfo->rolname, .description = "TYPE", .section = SECTION_PRE_DATA, .createStmt = q->data, .dropStmt = delq->data)); /* Dump Type Comments and Security Labels */ if (tyinfo->dobj.dump & DUMP_COMPONENT_COMMENT) dumpComment(fout, "TYPE", qtypname, tyinfo->dobj.namespace->dobj.name, tyinfo->rolname, tyinfo->dobj.catId, 0, tyinfo->dobj.dumpId); if (tyinfo->dobj.dump & DUMP_COMPONENT_SECLABEL) dumpSecLabel(fout, "TYPE", qtypname, tyinfo->dobj.namespace->dobj.name, tyinfo->rolname, tyinfo->dobj.catId, 0, tyinfo->dobj.dumpId); if (tyinfo->dobj.dump & DUMP_COMPONENT_ACL) dumpACL(fout, tyinfo->dobj.dumpId, InvalidDumpId, "TYPE", qtypname, NULL, tyinfo->dobj.namespace->dobj.name, tyinfo->rolname, &tyinfo->dacl); PQclear(res); destroyPQExpBuffer(q); destroyPQExpBuffer(delq); destroyPQExpBuffer(query); free(qtypname); free(qualtypname); } /* * dumpDomain * writes out to fout the queries to recreate a user-defined domain */ static void dumpDomain(Archive *fout, const TypeInfo *tyinfo) { DumpOptions *dopt = fout->dopt; PQExpBuffer q = createPQExpBuffer(); PQExpBuffer delq = createPQExpBuffer(); PQExpBuffer query = createPQExpBuffer(); PGresult *res; int i; char *qtypname; char *qualtypname; char *typnotnull; char *typdefn; char *typdefault; Oid typcollation; bool typdefault_is_literal = false; if (!fout->is_prepared[PREPQUERY_DUMPDOMAIN]) { /* Set up query for domain-specific details */ appendPQExpBufferStr(query, "PREPARE dumpDomain(pg_catalog.oid) AS\n"); appendPQExpBufferStr(query, "SELECT t.typnotnull, " "pg_catalog.format_type(t.typbasetype, t.typtypmod) AS typdefn, " "pg_catalog.pg_get_expr(t.typdefaultbin, 'pg_catalog.pg_type'::pg_catalog.regclass) AS typdefaultbin, " "t.typdefault, " "CASE WHEN t.typcollation <> u.typcollation " "THEN t.typcollation ELSE 0 END AS typcollation " "FROM pg_catalog.pg_type t " "LEFT JOIN pg_catalog.pg_type u ON (t.typbasetype = u.oid) " "WHERE t.oid = $1"); ExecuteSqlStatement(fout, query->data); fout->is_prepared[PREPQUERY_DUMPDOMAIN] = true; } printfPQExpBuffer(query, "EXECUTE dumpDomain('%u')", tyinfo->dobj.catId.oid); res = ExecuteSqlQueryForSingleRow(fout, query->data); typnotnull = PQgetvalue(res, 0, PQfnumber(res, "typnotnull")); typdefn = PQgetvalue(res, 0, PQfnumber(res, "typdefn")); if (!PQgetisnull(res, 0, PQfnumber(res, "typdefaultbin"))) typdefault = PQgetvalue(res, 0, PQfnumber(res, "typdefaultbin")); else if (!PQgetisnull(res, 0, PQfnumber(res, "typdefault"))) { typdefault = PQgetvalue(res, 0, PQfnumber(res, "typdefault")); typdefault_is_literal = true; /* it needs quotes */ } else typdefault = NULL; typcollation = atooid(PQgetvalue(res, 0, PQfnumber(res, "typcollation"))); if (dopt->binary_upgrade) binary_upgrade_set_type_oids_by_type_oid(fout, q, tyinfo->dobj.catId.oid, true, /* force array type */ false); /* force multirange type */ qtypname = pg_strdup(fmtId(tyinfo->dobj.name)); qualtypname = pg_strdup(fmtQualifiedDumpable(tyinfo)); appendPQExpBuffer(q, "CREATE DOMAIN %s AS %s", qualtypname, typdefn); /* Print collation only if different from base type's collation */ if (OidIsValid(typcollation)) { CollInfo *coll; coll = findCollationByOid(typcollation); if (coll) appendPQExpBuffer(q, " COLLATE %s", fmtQualifiedDumpable(coll)); } if (typnotnull[0] == 't') appendPQExpBufferStr(q, " NOT NULL"); if (typdefault != NULL) { appendPQExpBufferStr(q, " DEFAULT "); if (typdefault_is_literal) appendStringLiteralAH(q, typdefault, fout); else appendPQExpBufferStr(q, typdefault); } PQclear(res); /* * Add any CHECK constraints for the domain */ for (i = 0; i < tyinfo->nDomChecks; i++) { ConstraintInfo *domcheck = &(tyinfo->domChecks[i]); if (!domcheck->separate) appendPQExpBuffer(q, "\n\tCONSTRAINT %s %s", fmtId(domcheck->dobj.name), domcheck->condef); } appendPQExpBufferStr(q, ";\n"); appendPQExpBuffer(delq, "DROP DOMAIN %s;\n", qualtypname); if (dopt->binary_upgrade) binary_upgrade_extension_member(q, &tyinfo->dobj, "DOMAIN", qtypname, tyinfo->dobj.namespace->dobj.name); if (tyinfo->dobj.dump & DUMP_COMPONENT_DEFINITION) ArchiveEntry(fout, tyinfo->dobj.catId, tyinfo->dobj.dumpId, ARCHIVE_OPTS(.tag = tyinfo->dobj.name, .namespace = tyinfo->dobj.namespace->dobj.name, .owner = tyinfo->rolname, .description = "DOMAIN", .section = SECTION_PRE_DATA, .createStmt = q->data, .dropStmt = delq->data)); /* Dump Domain Comments and Security Labels */ if (tyinfo->dobj.dump & DUMP_COMPONENT_COMMENT) dumpComment(fout, "DOMAIN", qtypname, tyinfo->dobj.namespace->dobj.name, tyinfo->rolname, tyinfo->dobj.catId, 0, tyinfo->dobj.dumpId); if (tyinfo->dobj.dump & DUMP_COMPONENT_SECLABEL) dumpSecLabel(fout, "DOMAIN", qtypname, tyinfo->dobj.namespace->dobj.name, tyinfo->rolname, tyinfo->dobj.catId, 0, tyinfo->dobj.dumpId); if (tyinfo->dobj.dump & DUMP_COMPONENT_ACL) dumpACL(fout, tyinfo->dobj.dumpId, InvalidDumpId, "TYPE", qtypname, NULL, tyinfo->dobj.namespace->dobj.name, tyinfo->rolname, &tyinfo->dacl); /* Dump any per-constraint comments */ for (i = 0; i < tyinfo->nDomChecks; i++) { ConstraintInfo *domcheck = &(tyinfo->domChecks[i]); PQExpBuffer conprefix = createPQExpBuffer(); appendPQExpBuffer(conprefix, "CONSTRAINT %s ON DOMAIN", fmtId(domcheck->dobj.name)); if (domcheck->dobj.dump & DUMP_COMPONENT_COMMENT) dumpComment(fout, conprefix->data, qtypname, tyinfo->dobj.namespace->dobj.name, tyinfo->rolname, domcheck->dobj.catId, 0, tyinfo->dobj.dumpId); destroyPQExpBuffer(conprefix); } destroyPQExpBuffer(q); destroyPQExpBuffer(delq); destroyPQExpBuffer(query); free(qtypname); free(qualtypname); } /* * dumpCompositeType * writes out to fout the queries to recreate a user-defined stand-alone * composite type */ static void dumpCompositeType(Archive *fout, const TypeInfo *tyinfo) { DumpOptions *dopt = fout->dopt; PQExpBuffer q = createPQExpBuffer(); PQExpBuffer dropped = createPQExpBuffer(); PQExpBuffer delq = createPQExpBuffer(); PQExpBuffer query = createPQExpBuffer(); PGresult *res; char *qtypname; char *qualtypname; int ntups; int i_attname; int i_atttypdefn; int i_attlen; int i_attalign; int i_attisdropped; int i_attcollation; int i; int actual_atts; if (!fout->is_prepared[PREPQUERY_DUMPCOMPOSITETYPE]) { /* * Set up query for type-specific details. * * Since we only want to dump COLLATE clauses for attributes whose * collation is different from their type's default, we use a CASE * here to suppress uninteresting attcollations cheaply. atttypid * will be 0 for dropped columns; collation does not matter for those. */ appendPQExpBufferStr(query, "PREPARE dumpCompositeType(pg_catalog.oid) AS\n" "SELECT a.attname, a.attnum, " "pg_catalog.format_type(a.atttypid, a.atttypmod) AS atttypdefn, " "a.attlen, a.attalign, a.attisdropped, " "CASE WHEN a.attcollation <> at.typcollation " "THEN a.attcollation ELSE 0 END AS attcollation " "FROM pg_catalog.pg_type ct " "JOIN pg_catalog.pg_attribute a ON a.attrelid = ct.typrelid " "LEFT JOIN pg_catalog.pg_type at ON at.oid = a.atttypid " "WHERE ct.oid = $1 " "ORDER BY a.attnum"); ExecuteSqlStatement(fout, query->data); fout->is_prepared[PREPQUERY_DUMPCOMPOSITETYPE] = true; } printfPQExpBuffer(query, "EXECUTE dumpCompositeType('%u')", tyinfo->dobj.catId.oid); res = ExecuteSqlQuery(fout, query->data, PGRES_TUPLES_OK); ntups = PQntuples(res); i_attname = PQfnumber(res, "attname"); i_atttypdefn = PQfnumber(res, "atttypdefn"); i_attlen = PQfnumber(res, "attlen"); i_attalign = PQfnumber(res, "attalign"); i_attisdropped = PQfnumber(res, "attisdropped"); i_attcollation = PQfnumber(res, "attcollation"); if (dopt->binary_upgrade) { binary_upgrade_set_type_oids_by_type_oid(fout, q, tyinfo->dobj.catId.oid, false, false); binary_upgrade_set_pg_class_oids(fout, q, tyinfo->typrelid, false); } qtypname = pg_strdup(fmtId(tyinfo->dobj.name)); qualtypname = pg_strdup(fmtQualifiedDumpable(tyinfo)); appendPQExpBuffer(q, "CREATE TYPE %s AS (", qualtypname); actual_atts = 0; for (i = 0; i < ntups; i++) { char *attname; char *atttypdefn; char *attlen; char *attalign; bool attisdropped; Oid attcollation; attname = PQgetvalue(res, i, i_attname); atttypdefn = PQgetvalue(res, i, i_atttypdefn); attlen = PQgetvalue(res, i, i_attlen); attalign = PQgetvalue(res, i, i_attalign); attisdropped = (PQgetvalue(res, i, i_attisdropped)[0] == 't'); attcollation = atooid(PQgetvalue(res, i, i_attcollation)); if (attisdropped && !dopt->binary_upgrade) continue; /* Format properly if not first attr */ if (actual_atts++ > 0) appendPQExpBufferChar(q, ','); appendPQExpBufferStr(q, "\n\t"); if (!attisdropped) { appendPQExpBuffer(q, "%s %s", fmtId(attname), atttypdefn); /* Add collation if not default for the column type */ if (OidIsValid(attcollation)) { CollInfo *coll; coll = findCollationByOid(attcollation); if (coll) appendPQExpBuffer(q, " COLLATE %s", fmtQualifiedDumpable(coll)); } } else { /* * This is a dropped attribute and we're in binary_upgrade mode. * Insert a placeholder for it in the CREATE TYPE command, and set * length and alignment with direct UPDATE to the catalogs * afterwards. See similar code in dumpTableSchema(). */ appendPQExpBuffer(q, "%s INTEGER /* dummy */", fmtId(attname)); /* stash separately for insertion after the CREATE TYPE */ appendPQExpBufferStr(dropped, "\n-- For binary upgrade, recreate dropped column.\n"); appendPQExpBuffer(dropped, "UPDATE pg_catalog.pg_attribute\n" "SET attlen = %s, " "attalign = '%s', attbyval = false\n" "WHERE attname = ", attlen, attalign); appendStringLiteralAH(dropped, attname, fout); appendPQExpBufferStr(dropped, "\n AND attrelid = "); appendStringLiteralAH(dropped, qualtypname, fout); appendPQExpBufferStr(dropped, "::pg_catalog.regclass;\n"); appendPQExpBuffer(dropped, "ALTER TYPE %s ", qualtypname); appendPQExpBuffer(dropped, "DROP ATTRIBUTE %s;\n", fmtId(attname)); } } appendPQExpBufferStr(q, "\n);\n"); appendPQExpBufferStr(q, dropped->data); appendPQExpBuffer(delq, "DROP TYPE %s;\n", qualtypname); if (dopt->binary_upgrade) binary_upgrade_extension_member(q, &tyinfo->dobj, "TYPE", qtypname, tyinfo->dobj.namespace->dobj.name); if (tyinfo->dobj.dump & DUMP_COMPONENT_DEFINITION) ArchiveEntry(fout, tyinfo->dobj.catId, tyinfo->dobj.dumpId, ARCHIVE_OPTS(.tag = tyinfo->dobj.name, .namespace = tyinfo->dobj.namespace->dobj.name, .owner = tyinfo->rolname, .description = "TYPE", .section = SECTION_PRE_DATA, .createStmt = q->data, .dropStmt = delq->data)); /* Dump Type Comments and Security Labels */ if (tyinfo->dobj.dump & DUMP_COMPONENT_COMMENT) dumpComment(fout, "TYPE", qtypname, tyinfo->dobj.namespace->dobj.name, tyinfo->rolname, tyinfo->dobj.catId, 0, tyinfo->dobj.dumpId); if (tyinfo->dobj.dump & DUMP_COMPONENT_SECLABEL) dumpSecLabel(fout, "TYPE", qtypname, tyinfo->dobj.namespace->dobj.name, tyinfo->rolname, tyinfo->dobj.catId, 0, tyinfo->dobj.dumpId); if (tyinfo->dobj.dump & DUMP_COMPONENT_ACL) dumpACL(fout, tyinfo->dobj.dumpId, InvalidDumpId, "TYPE", qtypname, NULL, tyinfo->dobj.namespace->dobj.name, tyinfo->rolname, &tyinfo->dacl); /* Dump any per-column comments */ if (tyinfo->dobj.dump & DUMP_COMPONENT_COMMENT) dumpCompositeTypeColComments(fout, tyinfo, res); PQclear(res); destroyPQExpBuffer(q); destroyPQExpBuffer(dropped); destroyPQExpBuffer(delq); destroyPQExpBuffer(query); free(qtypname); free(qualtypname); } /* * dumpCompositeTypeColComments * writes out to fout the queries to recreate comments on the columns of * a user-defined stand-alone composite type. * * The caller has already made a query to collect the names and attnums * of the type's columns, so we just pass that result into here rather * than reading them again. */ static void dumpCompositeTypeColComments(Archive *fout, const TypeInfo *tyinfo, PGresult *res) { CommentItem *comments; int ncomments; PQExpBuffer query; PQExpBuffer target; int i; int ntups; int i_attname; int i_attnum; int i_attisdropped; /* do nothing, if --no-comments is supplied */ if (fout->dopt->no_comments) return; /* Search for comments associated with type's pg_class OID */ ncomments = findComments(RelationRelationId, tyinfo->typrelid, &comments); /* If no comments exist, we're done */ if (ncomments <= 0) return; /* Build COMMENT ON statements */ query = createPQExpBuffer(); target = createPQExpBuffer(); ntups = PQntuples(res); i_attnum = PQfnumber(res, "attnum"); i_attname = PQfnumber(res, "attname"); i_attisdropped = PQfnumber(res, "attisdropped"); while (ncomments > 0) { const char *attname; attname = NULL; for (i = 0; i < ntups; i++) { if (atoi(PQgetvalue(res, i, i_attnum)) == comments->objsubid && PQgetvalue(res, i, i_attisdropped)[0] != 't') { attname = PQgetvalue(res, i, i_attname); break; } } if (attname) /* just in case we don't find it */ { const char *descr = comments->descr; resetPQExpBuffer(target); appendPQExpBuffer(target, "COLUMN %s.", fmtId(tyinfo->dobj.name)); appendPQExpBufferStr(target, fmtId(attname)); resetPQExpBuffer(query); appendPQExpBuffer(query, "COMMENT ON COLUMN %s.", fmtQualifiedDumpable(tyinfo)); appendPQExpBuffer(query, "%s IS ", fmtId(attname)); appendStringLiteralAH(query, descr, fout); appendPQExpBufferStr(query, ";\n"); ArchiveEntry(fout, nilCatalogId, createDumpId(), ARCHIVE_OPTS(.tag = target->data, .namespace = tyinfo->dobj.namespace->dobj.name, .owner = tyinfo->rolname, .description = "COMMENT", .section = SECTION_NONE, .createStmt = query->data, .deps = &(tyinfo->dobj.dumpId), .nDeps = 1)); } comments++; ncomments--; } destroyPQExpBuffer(query); destroyPQExpBuffer(target); } /* * dumpShellType * writes out to fout the queries to create a shell type * * We dump a shell definition in advance of the I/O functions for the type. */ static void dumpShellType(Archive *fout, const ShellTypeInfo *stinfo) { DumpOptions *dopt = fout->dopt; PQExpBuffer q; /* Do nothing in data-only dump */ if (dopt->dataOnly) return; q = createPQExpBuffer(); /* * Note the lack of a DROP command for the shell type; any required DROP * is driven off the base type entry, instead. This interacts with * _printTocEntry()'s use of the presence of a DROP command to decide * whether an entry needs an ALTER OWNER command. We don't want to alter * the shell type's owner immediately on creation; that should happen only * after it's filled in, otherwise the backend complains. */ if (dopt->binary_upgrade) binary_upgrade_set_type_oids_by_type_oid(fout, q, stinfo->baseType->dobj.catId.oid, false, false); appendPQExpBuffer(q, "CREATE TYPE %s;\n", fmtQualifiedDumpable(stinfo)); if (stinfo->dobj.dump & DUMP_COMPONENT_DEFINITION) ArchiveEntry(fout, stinfo->dobj.catId, stinfo->dobj.dumpId, ARCHIVE_OPTS(.tag = stinfo->dobj.name, .namespace = stinfo->dobj.namespace->dobj.name, .owner = stinfo->baseType->rolname, .description = "SHELL TYPE", .section = SECTION_PRE_DATA, .createStmt = q->data)); destroyPQExpBuffer(q); } /* * dumpProcLang * writes out to fout the queries to recreate a user-defined * procedural language */ static void dumpProcLang(Archive *fout, const ProcLangInfo *plang) { DumpOptions *dopt = fout->dopt; PQExpBuffer defqry; PQExpBuffer delqry; bool useParams; char *qlanname; FuncInfo *funcInfo; FuncInfo *inlineInfo = NULL; FuncInfo *validatorInfo = NULL; /* Do nothing in data-only dump */ if (dopt->dataOnly) return; /* * Try to find the support function(s). It is not an error if we don't * find them --- if the functions are in the pg_catalog schema, as is * standard in 8.1 and up, then we won't have loaded them. (In this case * we will emit a parameterless CREATE LANGUAGE command, which will * require PL template knowledge in the backend to reload.) */ funcInfo = findFuncByOid(plang->lanplcallfoid); if (funcInfo != NULL && !funcInfo->dobj.dump) funcInfo = NULL; /* treat not-dumped same as not-found */ if (OidIsValid(plang->laninline)) { inlineInfo = findFuncByOid(plang->laninline); if (inlineInfo != NULL && !inlineInfo->dobj.dump) inlineInfo = NULL; } if (OidIsValid(plang->lanvalidator)) { validatorInfo = findFuncByOid(plang->lanvalidator); if (validatorInfo != NULL && !validatorInfo->dobj.dump) validatorInfo = NULL; } /* * If the functions are dumpable then emit a complete CREATE LANGUAGE with * parameters. Otherwise, we'll write a parameterless command, which will * be interpreted as CREATE EXTENSION. */ useParams = (funcInfo != NULL && (inlineInfo != NULL || !OidIsValid(plang->laninline)) && (validatorInfo != NULL || !OidIsValid(plang->lanvalidator))); defqry = createPQExpBuffer(); delqry = createPQExpBuffer(); qlanname = pg_strdup(fmtId(plang->dobj.name)); appendPQExpBuffer(delqry, "DROP PROCEDURAL LANGUAGE %s;\n", qlanname); if (useParams) { appendPQExpBuffer(defqry, "CREATE %sPROCEDURAL LANGUAGE %s", plang->lanpltrusted ? "TRUSTED " : "", qlanname); appendPQExpBuffer(defqry, " HANDLER %s", fmtQualifiedDumpable(funcInfo)); if (OidIsValid(plang->laninline)) appendPQExpBuffer(defqry, " INLINE %s", fmtQualifiedDumpable(inlineInfo)); if (OidIsValid(plang->lanvalidator)) appendPQExpBuffer(defqry, " VALIDATOR %s", fmtQualifiedDumpable(validatorInfo)); } else { /* * If not dumping parameters, then use CREATE OR REPLACE so that the * command will not fail if the language is preinstalled in the target * database. * * Modern servers will interpret this as CREATE EXTENSION IF NOT * EXISTS; perhaps we should emit that instead? But it might just add * confusion. */ appendPQExpBuffer(defqry, "CREATE OR REPLACE PROCEDURAL LANGUAGE %s", qlanname); } appendPQExpBufferStr(defqry, ";\n"); if (dopt->binary_upgrade) binary_upgrade_extension_member(defqry, &plang->dobj, "LANGUAGE", qlanname, NULL); if (plang->dobj.dump & DUMP_COMPONENT_DEFINITION) ArchiveEntry(fout, plang->dobj.catId, plang->dobj.dumpId, ARCHIVE_OPTS(.tag = plang->dobj.name, .owner = plang->lanowner, .description = "PROCEDURAL LANGUAGE", .section = SECTION_PRE_DATA, .createStmt = defqry->data, .dropStmt = delqry->data, )); /* Dump Proc Lang Comments and Security Labels */ if (plang->dobj.dump & DUMP_COMPONENT_COMMENT) dumpComment(fout, "LANGUAGE", qlanname, NULL, plang->lanowner, plang->dobj.catId, 0, plang->dobj.dumpId); if (plang->dobj.dump & DUMP_COMPONENT_SECLABEL) dumpSecLabel(fout, "LANGUAGE", qlanname, NULL, plang->lanowner, plang->dobj.catId, 0, plang->dobj.dumpId); if (plang->lanpltrusted && plang->dobj.dump & DUMP_COMPONENT_ACL) dumpACL(fout, plang->dobj.dumpId, InvalidDumpId, "LANGUAGE", qlanname, NULL, NULL, plang->lanowner, &plang->dacl); free(qlanname); destroyPQExpBuffer(defqry); destroyPQExpBuffer(delqry); } /* * format_function_arguments: generate function name and argument list * * This is used when we can rely on pg_get_function_arguments to format * the argument list. Note, however, that pg_get_function_arguments * does not special-case zero-argument aggregates. */ static char * format_function_arguments(const FuncInfo *finfo, const char *funcargs, bool is_agg) { PQExpBufferData fn; initPQExpBuffer(&fn); appendPQExpBufferStr(&fn, fmtId(finfo->dobj.name)); if (is_agg && finfo->nargs == 0) appendPQExpBufferStr(&fn, "(*)"); else appendPQExpBuffer(&fn, "(%s)", funcargs); return fn.data; } /* * format_function_signature: generate function name and argument list * * Only a minimal list of input argument types is generated; this is * sufficient to reference the function, but not to define it. * * If honor_quotes is false then the function name is never quoted. * This is appropriate for use in TOC tags, but not in SQL commands. */ static char * format_function_signature(Archive *fout, const FuncInfo *finfo, bool honor_quotes) { PQExpBufferData fn; int j; initPQExpBuffer(&fn); if (honor_quotes) appendPQExpBuffer(&fn, "%s(", fmtId(finfo->dobj.name)); else appendPQExpBuffer(&fn, "%s(", finfo->dobj.name); for (j = 0; j < finfo->nargs; j++) { if (j > 0) appendPQExpBufferStr(&fn, ", "); appendPQExpBufferStr(&fn, getFormattedTypeName(fout, finfo->argtypes[j], zeroIsError)); } appendPQExpBufferChar(&fn, ')'); return fn.data; } /* * dumpFunc: * dump out one function */ static void dumpFunc(Archive *fout, const FuncInfo *finfo) { DumpOptions *dopt = fout->dopt; PQExpBuffer query; PQExpBuffer q; PQExpBuffer delqry; PQExpBuffer asPart; PGresult *res; char *funcsig; /* identity signature */ char *funcfullsig = NULL; /* full signature */ char *funcsig_tag; char *qual_funcsig; char *proretset; char *prosrc; char *probin; char *prosqlbody; char *funcargs; char *funciargs; char *funcresult; char *protrftypes; char *prokind; char *provolatile; char *proisstrict; char *prosecdef; char *proleakproof; char *proconfig; char *procost; char *prorows; char *prosupport; char *proparallel; char *lanname; char **configitems = NULL; int nconfigitems = 0; const char *keyword; /* Do nothing in data-only dump */ if (dopt->dataOnly) return; query = createPQExpBuffer(); q = createPQExpBuffer(); delqry = createPQExpBuffer(); asPart = createPQExpBuffer(); if (!fout->is_prepared[PREPQUERY_DUMPFUNC]) { /* Set up query for function-specific details */ appendPQExpBufferStr(query, "PREPARE dumpFunc(pg_catalog.oid) AS\n"); appendPQExpBufferStr(query, "SELECT\n" "proretset,\n" "prosrc,\n" "probin,\n" "provolatile,\n" "proisstrict,\n" "prosecdef,\n" "lanname,\n" "proconfig,\n" "procost,\n" "prorows,\n" "pg_catalog.pg_get_function_arguments(p.oid) AS funcargs,\n" "pg_catalog.pg_get_function_identity_arguments(p.oid) AS funciargs,\n" "pg_catalog.pg_get_function_result(p.oid) AS funcresult,\n" "proleakproof,\n"); if (fout->remoteVersion >= 90500) appendPQExpBufferStr(query, "array_to_string(protrftypes, ' ') AS protrftypes,\n"); else appendPQExpBufferStr(query, "NULL AS protrftypes,\n"); if (fout->remoteVersion >= 90600) appendPQExpBufferStr(query, "proparallel,\n"); else appendPQExpBufferStr(query, "'u' AS proparallel,\n"); if (fout->remoteVersion >= 110000) appendPQExpBufferStr(query, "prokind,\n"); else appendPQExpBufferStr(query, "CASE WHEN proiswindow THEN 'w' ELSE 'f' END AS prokind,\n"); if (fout->remoteVersion >= 120000) appendPQExpBufferStr(query, "prosupport,\n"); else appendPQExpBufferStr(query, "'-' AS prosupport,\n"); if (fout->remoteVersion >= 140000) appendPQExpBufferStr(query, "pg_get_function_sqlbody(p.oid) AS prosqlbody\n"); else appendPQExpBufferStr(query, "NULL AS prosqlbody\n"); appendPQExpBufferStr(query, "FROM pg_catalog.pg_proc p, pg_catalog.pg_language l\n" "WHERE p.oid = $1 " "AND l.oid = p.prolang"); ExecuteSqlStatement(fout, query->data); fout->is_prepared[PREPQUERY_DUMPFUNC] = true; } printfPQExpBuffer(query, "EXECUTE dumpFunc('%u')", finfo->dobj.catId.oid); res = ExecuteSqlQueryForSingleRow(fout, query->data); proretset = PQgetvalue(res, 0, PQfnumber(res, "proretset")); if (PQgetisnull(res, 0, PQfnumber(res, "prosqlbody"))) { prosrc = PQgetvalue(res, 0, PQfnumber(res, "prosrc")); probin = PQgetvalue(res, 0, PQfnumber(res, "probin")); prosqlbody = NULL; } else { prosrc = NULL; probin = NULL; prosqlbody = PQgetvalue(res, 0, PQfnumber(res, "prosqlbody")); } funcargs = PQgetvalue(res, 0, PQfnumber(res, "funcargs")); funciargs = PQgetvalue(res, 0, PQfnumber(res, "funciargs")); funcresult = PQgetvalue(res, 0, PQfnumber(res, "funcresult")); protrftypes = PQgetvalue(res, 0, PQfnumber(res, "protrftypes")); prokind = PQgetvalue(res, 0, PQfnumber(res, "prokind")); provolatile = PQgetvalue(res, 0, PQfnumber(res, "provolatile")); proisstrict = PQgetvalue(res, 0, PQfnumber(res, "proisstrict")); prosecdef = PQgetvalue(res, 0, PQfnumber(res, "prosecdef")); proleakproof = PQgetvalue(res, 0, PQfnumber(res, "proleakproof")); proconfig = PQgetvalue(res, 0, PQfnumber(res, "proconfig")); procost = PQgetvalue(res, 0, PQfnumber(res, "procost")); prorows = PQgetvalue(res, 0, PQfnumber(res, "prorows")); prosupport = PQgetvalue(res, 0, PQfnumber(res, "prosupport")); proparallel = PQgetvalue(res, 0, PQfnumber(res, "proparallel")); lanname = PQgetvalue(res, 0, PQfnumber(res, "lanname")); /* * See backend/commands/functioncmds.c for details of how the 'AS' clause * is used. */ if (prosqlbody) { appendPQExpBufferStr(asPart, prosqlbody); } else if (probin[0] != '\0') { appendPQExpBufferStr(asPart, "AS "); appendStringLiteralAH(asPart, probin, fout); if (prosrc[0] != '\0') { appendPQExpBufferStr(asPart, ", "); /* * where we have bin, use dollar quoting if allowed and src * contains quote or backslash; else use regular quoting. */ if (dopt->disable_dollar_quoting || (strchr(prosrc, '\'') == NULL && strchr(prosrc, '\\') == NULL)) appendStringLiteralAH(asPart, prosrc, fout); else appendStringLiteralDQ(asPart, prosrc, NULL); } } else { appendPQExpBufferStr(asPart, "AS "); /* with no bin, dollar quote src unconditionally if allowed */ if (dopt->disable_dollar_quoting) appendStringLiteralAH(asPart, prosrc, fout); else appendStringLiteralDQ(asPart, prosrc, NULL); } if (*proconfig) { if (!parsePGArray(proconfig, &configitems, &nconfigitems)) pg_fatal("could not parse %s array", "proconfig"); } else { configitems = NULL; nconfigitems = 0; } funcfullsig = format_function_arguments(finfo, funcargs, false); funcsig = format_function_arguments(finfo, funciargs, false); funcsig_tag = format_function_signature(fout, finfo, false); qual_funcsig = psprintf("%s.%s", fmtId(finfo->dobj.namespace->dobj.name), funcsig); if (prokind[0] == PROKIND_PROCEDURE) keyword = "PROCEDURE"; else keyword = "FUNCTION"; /* works for window functions too */ appendPQExpBuffer(delqry, "DROP %s %s;\n", keyword, qual_funcsig); appendPQExpBuffer(q, "CREATE %s %s.%s", keyword, fmtId(finfo->dobj.namespace->dobj.name), funcfullsig ? funcfullsig : funcsig); if (prokind[0] == PROKIND_PROCEDURE) /* no result type to output */ ; else if (funcresult) appendPQExpBuffer(q, " RETURNS %s", funcresult); else appendPQExpBuffer(q, " RETURNS %s%s", (proretset[0] == 't') ? "SETOF " : "", getFormattedTypeName(fout, finfo->prorettype, zeroIsError)); appendPQExpBuffer(q, "\n LANGUAGE %s", fmtId(lanname)); if (*protrftypes) { Oid *typeids = palloc(FUNC_MAX_ARGS * sizeof(Oid)); int i; appendPQExpBufferStr(q, " TRANSFORM "); parseOidArray(protrftypes, typeids, FUNC_MAX_ARGS); for (i = 0; typeids[i]; i++) { if (i != 0) appendPQExpBufferStr(q, ", "); appendPQExpBuffer(q, "FOR TYPE %s", getFormattedTypeName(fout, typeids[i], zeroAsNone)); } } if (prokind[0] == PROKIND_WINDOW) appendPQExpBufferStr(q, " WINDOW"); if (provolatile[0] != PROVOLATILE_VOLATILE) { if (provolatile[0] == PROVOLATILE_IMMUTABLE) appendPQExpBufferStr(q, " IMMUTABLE"); else if (provolatile[0] == PROVOLATILE_STABLE) appendPQExpBufferStr(q, " STABLE"); else if (provolatile[0] != PROVOLATILE_VOLATILE) pg_fatal("unrecognized provolatile value for function \"%s\"", finfo->dobj.name); } if (proisstrict[0] == 't') appendPQExpBufferStr(q, " STRICT"); if (prosecdef[0] == 't') appendPQExpBufferStr(q, " SECURITY DEFINER"); if (proleakproof[0] == 't') appendPQExpBufferStr(q, " LEAKPROOF"); /* * COST and ROWS are emitted only if present and not default, so as not to * break backwards-compatibility of the dump without need. Keep this code * in sync with the defaults in functioncmds.c. */ if (strcmp(procost, "0") != 0) { if (strcmp(lanname, "internal") == 0 || strcmp(lanname, "c") == 0) { /* default cost is 1 */ if (strcmp(procost, "1") != 0) appendPQExpBuffer(q, " COST %s", procost); } else { /* default cost is 100 */ if (strcmp(procost, "100") != 0) appendPQExpBuffer(q, " COST %s", procost); } } if (proretset[0] == 't' && strcmp(prorows, "0") != 0 && strcmp(prorows, "1000") != 0) appendPQExpBuffer(q, " ROWS %s", prorows); if (strcmp(prosupport, "-") != 0) { /* We rely on regprocout to provide quoting and qualification */ appendPQExpBuffer(q, " SUPPORT %s", prosupport); } if (proparallel[0] != PROPARALLEL_UNSAFE) { if (proparallel[0] == PROPARALLEL_SAFE) appendPQExpBufferStr(q, " PARALLEL SAFE"); else if (proparallel[0] == PROPARALLEL_RESTRICTED) appendPQExpBufferStr(q, " PARALLEL RESTRICTED"); else if (proparallel[0] != PROPARALLEL_UNSAFE) pg_fatal("unrecognized proparallel value for function \"%s\"", finfo->dobj.name); } for (int i = 0; i < nconfigitems; i++) { /* we feel free to scribble on configitems[] here */ char *configitem = configitems[i]; char *pos; pos = strchr(configitem, '='); if (pos == NULL) continue; *pos++ = '\0'; appendPQExpBuffer(q, "\n SET %s TO ", fmtId(configitem)); /* * Variables that are marked GUC_LIST_QUOTE were already fully quoted * by flatten_set_variable_args() before they were put into the * proconfig array. However, because the quoting rules used there * aren't exactly like SQL's, we have to break the list value apart * and then quote the elements as string literals. (The elements may * be double-quoted as-is, but we can't just feed them to the SQL * parser; it would do the wrong thing with elements that are * zero-length or longer than NAMEDATALEN.) * * Variables that are not so marked should just be emitted as simple * string literals. If the variable is not known to * variable_is_guc_list_quote(), we'll do that; this makes it unsafe * to use GUC_LIST_QUOTE for extension variables. */ if (variable_is_guc_list_quote(configitem)) { char **namelist; char **nameptr; /* Parse string into list of identifiers */ /* this shouldn't fail really */ if (SplitGUCList(pos, ',', &namelist)) { for (nameptr = namelist; *nameptr; nameptr++) { if (nameptr != namelist) appendPQExpBufferStr(q, ", "); appendStringLiteralAH(q, *nameptr, fout); } } pg_free(namelist); } else appendStringLiteralAH(q, pos, fout); } appendPQExpBuffer(q, "\n %s;\n", asPart->data); append_depends_on_extension(fout, q, &finfo->dobj, "pg_catalog.pg_proc", keyword, qual_funcsig); if (dopt->binary_upgrade) binary_upgrade_extension_member(q, &finfo->dobj, keyword, funcsig, finfo->dobj.namespace->dobj.name); if (finfo->dobj.dump & DUMP_COMPONENT_DEFINITION) ArchiveEntry(fout, finfo->dobj.catId, finfo->dobj.dumpId, ARCHIVE_OPTS(.tag = funcsig_tag, .namespace = finfo->dobj.namespace->dobj.name, .owner = finfo->rolname, .description = keyword, .section = finfo->postponed_def ? SECTION_POST_DATA : SECTION_PRE_DATA, .createStmt = q->data, .dropStmt = delqry->data)); /* Dump Function Comments and Security Labels */ if (finfo->dobj.dump & DUMP_COMPONENT_COMMENT) dumpComment(fout, keyword, funcsig, finfo->dobj.namespace->dobj.name, finfo->rolname, finfo->dobj.catId, 0, finfo->dobj.dumpId); if (finfo->dobj.dump & DUMP_COMPONENT_SECLABEL) dumpSecLabel(fout, keyword, funcsig, finfo->dobj.namespace->dobj.name, finfo->rolname, finfo->dobj.catId, 0, finfo->dobj.dumpId); if (finfo->dobj.dump & DUMP_COMPONENT_ACL) dumpACL(fout, finfo->dobj.dumpId, InvalidDumpId, keyword, funcsig, NULL, finfo->dobj.namespace->dobj.name, finfo->rolname, &finfo->dacl); PQclear(res); destroyPQExpBuffer(query); destroyPQExpBuffer(q); destroyPQExpBuffer(delqry); destroyPQExpBuffer(asPart); free(funcsig); free(funcfullsig); free(funcsig_tag); free(qual_funcsig); free(configitems); } /* * Dump a user-defined cast */ static void dumpCast(Archive *fout, const CastInfo *cast) { DumpOptions *dopt = fout->dopt; PQExpBuffer defqry; PQExpBuffer delqry; PQExpBuffer labelq; PQExpBuffer castargs; FuncInfo *funcInfo = NULL; const char *sourceType; const char *targetType; /* Do nothing in data-only dump */ if (dopt->dataOnly) return; /* Cannot dump if we don't have the cast function's info */ if (OidIsValid(cast->castfunc)) { funcInfo = findFuncByOid(cast->castfunc); if (funcInfo == NULL) pg_fatal("could not find function definition for function with OID %u", cast->castfunc); } defqry = createPQExpBuffer(); delqry = createPQExpBuffer(); labelq = createPQExpBuffer(); castargs = createPQExpBuffer(); sourceType = getFormattedTypeName(fout, cast->castsource, zeroAsNone); targetType = getFormattedTypeName(fout, cast->casttarget, zeroAsNone); appendPQExpBuffer(delqry, "DROP CAST (%s AS %s);\n", sourceType, targetType); appendPQExpBuffer(defqry, "CREATE CAST (%s AS %s) ", sourceType, targetType); switch (cast->castmethod) { case COERCION_METHOD_BINARY: appendPQExpBufferStr(defqry, "WITHOUT FUNCTION"); break; case COERCION_METHOD_INOUT: appendPQExpBufferStr(defqry, "WITH INOUT"); break; case COERCION_METHOD_FUNCTION: if (funcInfo) { char *fsig = format_function_signature(fout, funcInfo, true); /* * Always qualify the function name (format_function_signature * won't qualify it). */ appendPQExpBuffer(defqry, "WITH FUNCTION %s.%s", fmtId(funcInfo->dobj.namespace->dobj.name), fsig); free(fsig); } else pg_log_warning("bogus value in pg_cast.castfunc or pg_cast.castmethod field"); break; default: pg_log_warning("bogus value in pg_cast.castmethod field"); } if (cast->castcontext == 'a') appendPQExpBufferStr(defqry, " AS ASSIGNMENT"); else if (cast->castcontext == 'i') appendPQExpBufferStr(defqry, " AS IMPLICIT"); appendPQExpBufferStr(defqry, ";\n"); appendPQExpBuffer(labelq, "CAST (%s AS %s)", sourceType, targetType); appendPQExpBuffer(castargs, "(%s AS %s)", sourceType, targetType); if (dopt->binary_upgrade) binary_upgrade_extension_member(defqry, &cast->dobj, "CAST", castargs->data, NULL); if (cast->dobj.dump & DUMP_COMPONENT_DEFINITION) ArchiveEntry(fout, cast->dobj.catId, cast->dobj.dumpId, ARCHIVE_OPTS(.tag = labelq->data, .description = "CAST", .section = SECTION_PRE_DATA, .createStmt = defqry->data, .dropStmt = delqry->data)); /* Dump Cast Comments */ if (cast->dobj.dump & DUMP_COMPONENT_COMMENT) dumpComment(fout, "CAST", castargs->data, NULL, "", cast->dobj.catId, 0, cast->dobj.dumpId); destroyPQExpBuffer(defqry); destroyPQExpBuffer(delqry); destroyPQExpBuffer(labelq); destroyPQExpBuffer(castargs); } /* * Dump a transform */ static void dumpTransform(Archive *fout, const TransformInfo *transform) { DumpOptions *dopt = fout->dopt; PQExpBuffer defqry; PQExpBuffer delqry; PQExpBuffer labelq; PQExpBuffer transformargs; FuncInfo *fromsqlFuncInfo = NULL; FuncInfo *tosqlFuncInfo = NULL; char *lanname; const char *transformType; /* Do nothing in data-only dump */ if (dopt->dataOnly) return; /* Cannot dump if we don't have the transform functions' info */ if (OidIsValid(transform->trffromsql)) { fromsqlFuncInfo = findFuncByOid(transform->trffromsql); if (fromsqlFuncInfo == NULL) pg_fatal("could not find function definition for function with OID %u", transform->trffromsql); } if (OidIsValid(transform->trftosql)) { tosqlFuncInfo = findFuncByOid(transform->trftosql); if (tosqlFuncInfo == NULL) pg_fatal("could not find function definition for function with OID %u", transform->trftosql); } defqry = createPQExpBuffer(); delqry = createPQExpBuffer(); labelq = createPQExpBuffer(); transformargs = createPQExpBuffer(); lanname = get_language_name(fout, transform->trflang); transformType = getFormattedTypeName(fout, transform->trftype, zeroAsNone); appendPQExpBuffer(delqry, "DROP TRANSFORM FOR %s LANGUAGE %s;\n", transformType, lanname); appendPQExpBuffer(defqry, "CREATE TRANSFORM FOR %s LANGUAGE %s (", transformType, lanname); if (!transform->trffromsql && !transform->trftosql) pg_log_warning("bogus transform definition, at least one of trffromsql and trftosql should be nonzero"); if (transform->trffromsql) { if (fromsqlFuncInfo) { char *fsig = format_function_signature(fout, fromsqlFuncInfo, true); /* * Always qualify the function name (format_function_signature * won't qualify it). */ appendPQExpBuffer(defqry, "FROM SQL WITH FUNCTION %s.%s", fmtId(fromsqlFuncInfo->dobj.namespace->dobj.name), fsig); free(fsig); } else pg_log_warning("bogus value in pg_transform.trffromsql field"); } if (transform->trftosql) { if (transform->trffromsql) appendPQExpBufferStr(defqry, ", "); if (tosqlFuncInfo) { char *fsig = format_function_signature(fout, tosqlFuncInfo, true); /* * Always qualify the function name (format_function_signature * won't qualify it). */ appendPQExpBuffer(defqry, "TO SQL WITH FUNCTION %s.%s", fmtId(tosqlFuncInfo->dobj.namespace->dobj.name), fsig); free(fsig); } else pg_log_warning("bogus value in pg_transform.trftosql field"); } appendPQExpBufferStr(defqry, ");\n"); appendPQExpBuffer(labelq, "TRANSFORM FOR %s LANGUAGE %s", transformType, lanname); appendPQExpBuffer(transformargs, "FOR %s LANGUAGE %s", transformType, lanname); if (dopt->binary_upgrade) binary_upgrade_extension_member(defqry, &transform->dobj, "TRANSFORM", transformargs->data, NULL); if (transform->dobj.dump & DUMP_COMPONENT_DEFINITION) ArchiveEntry(fout, transform->dobj.catId, transform->dobj.dumpId, ARCHIVE_OPTS(.tag = labelq->data, .description = "TRANSFORM", .section = SECTION_PRE_DATA, .createStmt = defqry->data, .dropStmt = delqry->data, .deps = transform->dobj.dependencies, .nDeps = transform->dobj.nDeps)); /* Dump Transform Comments */ if (transform->dobj.dump & DUMP_COMPONENT_COMMENT) dumpComment(fout, "TRANSFORM", transformargs->data, NULL, "", transform->dobj.catId, 0, transform->dobj.dumpId); free(lanname); destroyPQExpBuffer(defqry); destroyPQExpBuffer(delqry); destroyPQExpBuffer(labelq); destroyPQExpBuffer(transformargs); } /* * dumpOpr * write out a single operator definition */ static void dumpOpr(Archive *fout, const OprInfo *oprinfo) { DumpOptions *dopt = fout->dopt; PQExpBuffer query; PQExpBuffer q; PQExpBuffer delq; PQExpBuffer oprid; PQExpBuffer details; PGresult *res; int i_oprkind; int i_oprcode; int i_oprleft; int i_oprright; int i_oprcom; int i_oprnegate; int i_oprrest; int i_oprjoin; int i_oprcanmerge; int i_oprcanhash; char *oprkind; char *oprcode; char *oprleft; char *oprright; char *oprcom; char *oprnegate; char *oprrest; char *oprjoin; char *oprcanmerge; char *oprcanhash; char *oprregproc; char *oprref; /* Do nothing in data-only dump */ if (dopt->dataOnly) return; /* * some operators are invalid because they were the result of user * defining operators before commutators exist */ if (!OidIsValid(oprinfo->oprcode)) return; query = createPQExpBuffer(); q = createPQExpBuffer(); delq = createPQExpBuffer(); oprid = createPQExpBuffer(); details = createPQExpBuffer(); if (!fout->is_prepared[PREPQUERY_DUMPOPR]) { /* Set up query for operator-specific details */ appendPQExpBufferStr(query, "PREPARE dumpOpr(pg_catalog.oid) AS\n" "SELECT oprkind, " "oprcode::pg_catalog.regprocedure, " "oprleft::pg_catalog.regtype, " "oprright::pg_catalog.regtype, " "oprcom, " "oprnegate, " "oprrest::pg_catalog.regprocedure, " "oprjoin::pg_catalog.regprocedure, " "oprcanmerge, oprcanhash " "FROM pg_catalog.pg_operator " "WHERE oid = $1"); ExecuteSqlStatement(fout, query->data); fout->is_prepared[PREPQUERY_DUMPOPR] = true; } printfPQExpBuffer(query, "EXECUTE dumpOpr('%u')", oprinfo->dobj.catId.oid); res = ExecuteSqlQueryForSingleRow(fout, query->data); i_oprkind = PQfnumber(res, "oprkind"); i_oprcode = PQfnumber(res, "oprcode"); i_oprleft = PQfnumber(res, "oprleft"); i_oprright = PQfnumber(res, "oprright"); i_oprcom = PQfnumber(res, "oprcom"); i_oprnegate = PQfnumber(res, "oprnegate"); i_oprrest = PQfnumber(res, "oprrest"); i_oprjoin = PQfnumber(res, "oprjoin"); i_oprcanmerge = PQfnumber(res, "oprcanmerge"); i_oprcanhash = PQfnumber(res, "oprcanhash"); oprkind = PQgetvalue(res, 0, i_oprkind); oprcode = PQgetvalue(res, 0, i_oprcode); oprleft = PQgetvalue(res, 0, i_oprleft); oprright = PQgetvalue(res, 0, i_oprright); oprcom = PQgetvalue(res, 0, i_oprcom); oprnegate = PQgetvalue(res, 0, i_oprnegate); oprrest = PQgetvalue(res, 0, i_oprrest); oprjoin = PQgetvalue(res, 0, i_oprjoin); oprcanmerge = PQgetvalue(res, 0, i_oprcanmerge); oprcanhash = PQgetvalue(res, 0, i_oprcanhash); /* In PG14 upwards postfix operator support does not exist anymore. */ if (strcmp(oprkind, "r") == 0) pg_log_warning("postfix operators are not supported anymore (operator \"%s\")", oprcode); oprregproc = convertRegProcReference(oprcode); if (oprregproc) { appendPQExpBuffer(details, " FUNCTION = %s", oprregproc); free(oprregproc); } appendPQExpBuffer(oprid, "%s (", oprinfo->dobj.name); /* * right unary means there's a left arg and left unary means there's a * right arg. (Although the "r" case is dead code for PG14 and later, * continue to support it in case we're dumping from an old server.) */ if (strcmp(oprkind, "r") == 0 || strcmp(oprkind, "b") == 0) { appendPQExpBuffer(details, ",\n LEFTARG = %s", oprleft); appendPQExpBufferStr(oprid, oprleft); } else appendPQExpBufferStr(oprid, "NONE"); if (strcmp(oprkind, "l") == 0 || strcmp(oprkind, "b") == 0) { appendPQExpBuffer(details, ",\n RIGHTARG = %s", oprright); appendPQExpBuffer(oprid, ", %s)", oprright); } else appendPQExpBufferStr(oprid, ", NONE)"); oprref = getFormattedOperatorName(oprcom); if (oprref) { appendPQExpBuffer(details, ",\n COMMUTATOR = %s", oprref); free(oprref); } oprref = getFormattedOperatorName(oprnegate); if (oprref) { appendPQExpBuffer(details, ",\n NEGATOR = %s", oprref); free(oprref); } if (strcmp(oprcanmerge, "t") == 0) appendPQExpBufferStr(details, ",\n MERGES"); if (strcmp(oprcanhash, "t") == 0) appendPQExpBufferStr(details, ",\n HASHES"); oprregproc = convertRegProcReference(oprrest); if (oprregproc) { appendPQExpBuffer(details, ",\n RESTRICT = %s", oprregproc); free(oprregproc); } oprregproc = convertRegProcReference(oprjoin); if (oprregproc) { appendPQExpBuffer(details, ",\n JOIN = %s", oprregproc); free(oprregproc); } appendPQExpBuffer(delq, "DROP OPERATOR %s.%s;\n", fmtId(oprinfo->dobj.namespace->dobj.name), oprid->data); appendPQExpBuffer(q, "CREATE OPERATOR %s.%s (\n%s\n);\n", fmtId(oprinfo->dobj.namespace->dobj.name), oprinfo->dobj.name, details->data); if (dopt->binary_upgrade) binary_upgrade_extension_member(q, &oprinfo->dobj, "OPERATOR", oprid->data, oprinfo->dobj.namespace->dobj.name); if (oprinfo->dobj.dump & DUMP_COMPONENT_DEFINITION) ArchiveEntry(fout, oprinfo->dobj.catId, oprinfo->dobj.dumpId, ARCHIVE_OPTS(.tag = oprinfo->dobj.name, .namespace = oprinfo->dobj.namespace->dobj.name, .owner = oprinfo->rolname, .description = "OPERATOR", .section = SECTION_PRE_DATA, .createStmt = q->data, .dropStmt = delq->data)); /* Dump Operator Comments */ if (oprinfo->dobj.dump & DUMP_COMPONENT_COMMENT) dumpComment(fout, "OPERATOR", oprid->data, oprinfo->dobj.namespace->dobj.name, oprinfo->rolname, oprinfo->dobj.catId, 0, oprinfo->dobj.dumpId); PQclear(res); destroyPQExpBuffer(query); destroyPQExpBuffer(q); destroyPQExpBuffer(delq); destroyPQExpBuffer(oprid); destroyPQExpBuffer(details); } /* * Convert a function reference obtained from pg_operator * * Returns allocated string of what to print, or NULL if function references * is InvalidOid. Returned string is expected to be free'd by the caller. * * The input is a REGPROCEDURE display; we have to strip the argument-types * part. */ static char * convertRegProcReference(const char *proc) { char *name; char *paren; bool inquote; /* In all cases "-" means a null reference */ if (strcmp(proc, "-") == 0) return NULL; name = pg_strdup(proc); /* find non-double-quoted left paren */ inquote = false; for (paren = name; *paren; paren++) { if (*paren == '(' && !inquote) { *paren = '\0'; break; } if (*paren == '"') inquote = !inquote; } return name; } /* * getFormattedOperatorName - retrieve the operator name for the * given operator OID (presented in string form). * * Returns an allocated string, or NULL if the given OID is invalid. * Caller is responsible for free'ing result string. * * What we produce has the format "OPERATOR(schema.oprname)". This is only * useful in commands where the operator's argument types can be inferred from * context. We always schema-qualify the name, though. The predecessor to * this code tried to skip the schema qualification if possible, but that led * to wrong results in corner cases, such as if an operator and its negator * are in different schemas. */ static char * getFormattedOperatorName(const char *oproid) { OprInfo *oprInfo; /* In all cases "0" means a null reference */ if (strcmp(oproid, "0") == 0) return NULL; oprInfo = findOprByOid(atooid(oproid)); if (oprInfo == NULL) { pg_log_warning("could not find operator with OID %s", oproid); return NULL; } return psprintf("OPERATOR(%s.%s)", fmtId(oprInfo->dobj.namespace->dobj.name), oprInfo->dobj.name); } /* * Convert a function OID obtained from pg_ts_parser or pg_ts_template * * It is sufficient to use REGPROC rather than REGPROCEDURE, since the * argument lists of these functions are predetermined. Note that the * caller should ensure we are in the proper schema, because the results * are search path dependent! */ static char * convertTSFunction(Archive *fout, Oid funcOid) { char *result; char query[128]; PGresult *res; snprintf(query, sizeof(query), "SELECT '%u'::pg_catalog.regproc", funcOid); res = ExecuteSqlQueryForSingleRow(fout, query); result = pg_strdup(PQgetvalue(res, 0, 0)); PQclear(res); return result; } /* * dumpAccessMethod * write out a single access method definition */ static void dumpAccessMethod(Archive *fout, const AccessMethodInfo *aminfo) { DumpOptions *dopt = fout->dopt; PQExpBuffer q; PQExpBuffer delq; char *qamname; /* Do nothing in data-only dump */ if (dopt->dataOnly) return; q = createPQExpBuffer(); delq = createPQExpBuffer(); qamname = pg_strdup(fmtId(aminfo->dobj.name)); appendPQExpBuffer(q, "CREATE ACCESS METHOD %s ", qamname); switch (aminfo->amtype) { case AMTYPE_INDEX: appendPQExpBufferStr(q, "TYPE INDEX "); break; case AMTYPE_TABLE: appendPQExpBufferStr(q, "TYPE TABLE "); break; default: pg_log_warning("invalid type \"%c\" of access method \"%s\"", aminfo->amtype, qamname); destroyPQExpBuffer(q); destroyPQExpBuffer(delq); free(qamname); return; } appendPQExpBuffer(q, "HANDLER %s;\n", aminfo->amhandler); appendPQExpBuffer(delq, "DROP ACCESS METHOD %s;\n", qamname); if (dopt->binary_upgrade) binary_upgrade_extension_member(q, &aminfo->dobj, "ACCESS METHOD", qamname, NULL); if (aminfo->dobj.dump & DUMP_COMPONENT_DEFINITION) ArchiveEntry(fout, aminfo->dobj.catId, aminfo->dobj.dumpId, ARCHIVE_OPTS(.tag = aminfo->dobj.name, .description = "ACCESS METHOD", .section = SECTION_PRE_DATA, .createStmt = q->data, .dropStmt = delq->data)); /* Dump Access Method Comments */ if (aminfo->dobj.dump & DUMP_COMPONENT_COMMENT) dumpComment(fout, "ACCESS METHOD", qamname, NULL, "", aminfo->dobj.catId, 0, aminfo->dobj.dumpId); destroyPQExpBuffer(q); destroyPQExpBuffer(delq); free(qamname); } /* * dumpOpclass * write out a single operator class definition */ static void dumpOpclass(Archive *fout, const OpclassInfo *opcinfo) { DumpOptions *dopt = fout->dopt; PQExpBuffer query; PQExpBuffer q; PQExpBuffer delq; PQExpBuffer nameusing; PGresult *res; int ntups; int i_opcintype; int i_opckeytype; int i_opcdefault; int i_opcfamily; int i_opcfamilyname; int i_opcfamilynsp; int i_amname; int i_amopstrategy; int i_amopopr; int i_sortfamily; int i_sortfamilynsp; int i_amprocnum; int i_amproc; int i_amproclefttype; int i_amprocrighttype; char *opcintype; char *opckeytype; char *opcdefault; char *opcfamily; char *opcfamilyname; char *opcfamilynsp; char *amname; char *amopstrategy; char *amopopr; char *sortfamily; char *sortfamilynsp; char *amprocnum; char *amproc; char *amproclefttype; char *amprocrighttype; bool needComma; int i; /* Do nothing in data-only dump */ if (dopt->dataOnly) return; query = createPQExpBuffer(); q = createPQExpBuffer(); delq = createPQExpBuffer(); nameusing = createPQExpBuffer(); /* Get additional fields from the pg_opclass row */ appendPQExpBuffer(query, "SELECT opcintype::pg_catalog.regtype, " "opckeytype::pg_catalog.regtype, " "opcdefault, opcfamily, " "opfname AS opcfamilyname, " "nspname AS opcfamilynsp, " "(SELECT amname FROM pg_catalog.pg_am WHERE oid = opcmethod) AS amname " "FROM pg_catalog.pg_opclass c " "LEFT JOIN pg_catalog.pg_opfamily f ON f.oid = opcfamily " "LEFT JOIN pg_catalog.pg_namespace n ON n.oid = opfnamespace " "WHERE c.oid = '%u'::pg_catalog.oid", opcinfo->dobj.catId.oid); res = ExecuteSqlQueryForSingleRow(fout, query->data); i_opcintype = PQfnumber(res, "opcintype"); i_opckeytype = PQfnumber(res, "opckeytype"); i_opcdefault = PQfnumber(res, "opcdefault"); i_opcfamily = PQfnumber(res, "opcfamily"); i_opcfamilyname = PQfnumber(res, "opcfamilyname"); i_opcfamilynsp = PQfnumber(res, "opcfamilynsp"); i_amname = PQfnumber(res, "amname"); /* opcintype may still be needed after we PQclear res */ opcintype = pg_strdup(PQgetvalue(res, 0, i_opcintype)); opckeytype = PQgetvalue(res, 0, i_opckeytype); opcdefault = PQgetvalue(res, 0, i_opcdefault); /* opcfamily will still be needed after we PQclear res */ opcfamily = pg_strdup(PQgetvalue(res, 0, i_opcfamily)); opcfamilyname = PQgetvalue(res, 0, i_opcfamilyname); opcfamilynsp = PQgetvalue(res, 0, i_opcfamilynsp); /* amname will still be needed after we PQclear res */ amname = pg_strdup(PQgetvalue(res, 0, i_amname)); appendPQExpBuffer(delq, "DROP OPERATOR CLASS %s", fmtQualifiedDumpable(opcinfo)); appendPQExpBuffer(delq, " USING %s;\n", fmtId(amname)); /* Build the fixed portion of the CREATE command */ appendPQExpBuffer(q, "CREATE OPERATOR CLASS %s\n ", fmtQualifiedDumpable(opcinfo)); if (strcmp(opcdefault, "t") == 0) appendPQExpBufferStr(q, "DEFAULT "); appendPQExpBuffer(q, "FOR TYPE %s USING %s", opcintype, fmtId(amname)); if (strlen(opcfamilyname) > 0) { appendPQExpBufferStr(q, " FAMILY "); appendPQExpBuffer(q, "%s.", fmtId(opcfamilynsp)); appendPQExpBufferStr(q, fmtId(opcfamilyname)); } appendPQExpBufferStr(q, " AS\n "); needComma = false; if (strcmp(opckeytype, "-") != 0) { appendPQExpBuffer(q, "STORAGE %s", opckeytype); needComma = true; } PQclear(res); /* * Now fetch and print the OPERATOR entries (pg_amop rows). * * Print only those opfamily members that are tied to the opclass by * pg_depend entries. */ resetPQExpBuffer(query); appendPQExpBuffer(query, "SELECT amopstrategy, " "amopopr::pg_catalog.regoperator, " "opfname AS sortfamily, " "nspname AS sortfamilynsp " "FROM pg_catalog.pg_amop ao JOIN pg_catalog.pg_depend ON " "(classid = 'pg_catalog.pg_amop'::pg_catalog.regclass AND objid = ao.oid) " "LEFT JOIN pg_catalog.pg_opfamily f ON f.oid = amopsortfamily " "LEFT JOIN pg_catalog.pg_namespace n ON n.oid = opfnamespace " "WHERE refclassid = 'pg_catalog.pg_opclass'::pg_catalog.regclass " "AND refobjid = '%u'::pg_catalog.oid " "AND amopfamily = '%s'::pg_catalog.oid " "ORDER BY amopstrategy", opcinfo->dobj.catId.oid, opcfamily); res = ExecuteSqlQuery(fout, query->data, PGRES_TUPLES_OK); ntups = PQntuples(res); i_amopstrategy = PQfnumber(res, "amopstrategy"); i_amopopr = PQfnumber(res, "amopopr"); i_sortfamily = PQfnumber(res, "sortfamily"); i_sortfamilynsp = PQfnumber(res, "sortfamilynsp"); for (i = 0; i < ntups; i++) { amopstrategy = PQgetvalue(res, i, i_amopstrategy); amopopr = PQgetvalue(res, i, i_amopopr); sortfamily = PQgetvalue(res, i, i_sortfamily); sortfamilynsp = PQgetvalue(res, i, i_sortfamilynsp); if (needComma) appendPQExpBufferStr(q, " ,\n "); appendPQExpBuffer(q, "OPERATOR %s %s", amopstrategy, amopopr); if (strlen(sortfamily) > 0) { appendPQExpBufferStr(q, " FOR ORDER BY "); appendPQExpBuffer(q, "%s.", fmtId(sortfamilynsp)); appendPQExpBufferStr(q, fmtId(sortfamily)); } needComma = true; } PQclear(res); /* * Now fetch and print the FUNCTION entries (pg_amproc rows). * * Print only those opfamily members that are tied to the opclass by * pg_depend entries. * * We print the amproclefttype/amprocrighttype even though in most cases * the backend could deduce the right values, because of the corner case * of a btree sort support function for a cross-type comparison. */ resetPQExpBuffer(query); appendPQExpBuffer(query, "SELECT amprocnum, " "amproc::pg_catalog.regprocedure, " "amproclefttype::pg_catalog.regtype, " "amprocrighttype::pg_catalog.regtype " "FROM pg_catalog.pg_amproc ap, pg_catalog.pg_depend " "WHERE refclassid = 'pg_catalog.pg_opclass'::pg_catalog.regclass " "AND refobjid = '%u'::pg_catalog.oid " "AND classid = 'pg_catalog.pg_amproc'::pg_catalog.regclass " "AND objid = ap.oid " "ORDER BY amprocnum", opcinfo->dobj.catId.oid); res = ExecuteSqlQuery(fout, query->data, PGRES_TUPLES_OK); ntups = PQntuples(res); i_amprocnum = PQfnumber(res, "amprocnum"); i_amproc = PQfnumber(res, "amproc"); i_amproclefttype = PQfnumber(res, "amproclefttype"); i_amprocrighttype = PQfnumber(res, "amprocrighttype"); for (i = 0; i < ntups; i++) { amprocnum = PQgetvalue(res, i, i_amprocnum); amproc = PQgetvalue(res, i, i_amproc); amproclefttype = PQgetvalue(res, i, i_amproclefttype); amprocrighttype = PQgetvalue(res, i, i_amprocrighttype); if (needComma) appendPQExpBufferStr(q, " ,\n "); appendPQExpBuffer(q, "FUNCTION %s", amprocnum); if (*amproclefttype && *amprocrighttype) appendPQExpBuffer(q, " (%s, %s)", amproclefttype, amprocrighttype); appendPQExpBuffer(q, " %s", amproc); needComma = true; } PQclear(res); /* * If needComma is still false it means we haven't added anything after * the AS keyword. To avoid printing broken SQL, append a dummy STORAGE * clause with the same datatype. This isn't sanctioned by the * documentation, but actually DefineOpClass will treat it as a no-op. */ if (!needComma) appendPQExpBuffer(q, "STORAGE %s", opcintype); appendPQExpBufferStr(q, ";\n"); appendPQExpBufferStr(nameusing, fmtId(opcinfo->dobj.name)); appendPQExpBuffer(nameusing, " USING %s", fmtId(amname)); if (dopt->binary_upgrade) binary_upgrade_extension_member(q, &opcinfo->dobj, "OPERATOR CLASS", nameusing->data, opcinfo->dobj.namespace->dobj.name); if (opcinfo->dobj.dump & DUMP_COMPONENT_DEFINITION) ArchiveEntry(fout, opcinfo->dobj.catId, opcinfo->dobj.dumpId, ARCHIVE_OPTS(.tag = opcinfo->dobj.name, .namespace = opcinfo->dobj.namespace->dobj.name, .owner = opcinfo->rolname, .description = "OPERATOR CLASS", .section = SECTION_PRE_DATA, .createStmt = q->data, .dropStmt = delq->data)); /* Dump Operator Class Comments */ if (opcinfo->dobj.dump & DUMP_COMPONENT_COMMENT) dumpComment(fout, "OPERATOR CLASS", nameusing->data, opcinfo->dobj.namespace->dobj.name, opcinfo->rolname, opcinfo->dobj.catId, 0, opcinfo->dobj.dumpId); free(opcintype); free(opcfamily); free(amname); destroyPQExpBuffer(query); destroyPQExpBuffer(q); destroyPQExpBuffer(delq); destroyPQExpBuffer(nameusing); } /* * dumpOpfamily * write out a single operator family definition * * Note: this also dumps any "loose" operator members that aren't bound to a * specific opclass within the opfamily. */ static void dumpOpfamily(Archive *fout, const OpfamilyInfo *opfinfo) { DumpOptions *dopt = fout->dopt; PQExpBuffer query; PQExpBuffer q; PQExpBuffer delq; PQExpBuffer nameusing; PGresult *res; PGresult *res_ops; PGresult *res_procs; int ntups; int i_amname; int i_amopstrategy; int i_amopopr; int i_sortfamily; int i_sortfamilynsp; int i_amprocnum; int i_amproc; int i_amproclefttype; int i_amprocrighttype; char *amname; char *amopstrategy; char *amopopr; char *sortfamily; char *sortfamilynsp; char *amprocnum; char *amproc; char *amproclefttype; char *amprocrighttype; bool needComma; int i; /* Do nothing in data-only dump */ if (dopt->dataOnly) return; query = createPQExpBuffer(); q = createPQExpBuffer(); delq = createPQExpBuffer(); nameusing = createPQExpBuffer(); /* * Fetch only those opfamily members that are tied directly to the * opfamily by pg_depend entries. */ appendPQExpBuffer(query, "SELECT amopstrategy, " "amopopr::pg_catalog.regoperator, " "opfname AS sortfamily, " "nspname AS sortfamilynsp " "FROM pg_catalog.pg_amop ao JOIN pg_catalog.pg_depend ON " "(classid = 'pg_catalog.pg_amop'::pg_catalog.regclass AND objid = ao.oid) " "LEFT JOIN pg_catalog.pg_opfamily f ON f.oid = amopsortfamily " "LEFT JOIN pg_catalog.pg_namespace n ON n.oid = opfnamespace " "WHERE refclassid = 'pg_catalog.pg_opfamily'::pg_catalog.regclass " "AND refobjid = '%u'::pg_catalog.oid " "AND amopfamily = '%u'::pg_catalog.oid " "ORDER BY amopstrategy", opfinfo->dobj.catId.oid, opfinfo->dobj.catId.oid); res_ops = ExecuteSqlQuery(fout, query->data, PGRES_TUPLES_OK); resetPQExpBuffer(query); appendPQExpBuffer(query, "SELECT amprocnum, " "amproc::pg_catalog.regprocedure, " "amproclefttype::pg_catalog.regtype, " "amprocrighttype::pg_catalog.regtype " "FROM pg_catalog.pg_amproc ap, pg_catalog.pg_depend " "WHERE refclassid = 'pg_catalog.pg_opfamily'::pg_catalog.regclass " "AND refobjid = '%u'::pg_catalog.oid " "AND classid = 'pg_catalog.pg_amproc'::pg_catalog.regclass " "AND objid = ap.oid " "ORDER BY amprocnum", opfinfo->dobj.catId.oid); res_procs = ExecuteSqlQuery(fout, query->data, PGRES_TUPLES_OK); /* Get additional fields from the pg_opfamily row */ resetPQExpBuffer(query); appendPQExpBuffer(query, "SELECT " "(SELECT amname FROM pg_catalog.pg_am WHERE oid = opfmethod) AS amname " "FROM pg_catalog.pg_opfamily " "WHERE oid = '%u'::pg_catalog.oid", opfinfo->dobj.catId.oid); res = ExecuteSqlQueryForSingleRow(fout, query->data); i_amname = PQfnumber(res, "amname"); /* amname will still be needed after we PQclear res */ amname = pg_strdup(PQgetvalue(res, 0, i_amname)); appendPQExpBuffer(delq, "DROP OPERATOR FAMILY %s", fmtQualifiedDumpable(opfinfo)); appendPQExpBuffer(delq, " USING %s;\n", fmtId(amname)); /* Build the fixed portion of the CREATE command */ appendPQExpBuffer(q, "CREATE OPERATOR FAMILY %s", fmtQualifiedDumpable(opfinfo)); appendPQExpBuffer(q, " USING %s;\n", fmtId(amname)); PQclear(res); /* Do we need an ALTER to add loose members? */ if (PQntuples(res_ops) > 0 || PQntuples(res_procs) > 0) { appendPQExpBuffer(q, "ALTER OPERATOR FAMILY %s", fmtQualifiedDumpable(opfinfo)); appendPQExpBuffer(q, " USING %s ADD\n ", fmtId(amname)); needComma = false; /* * Now fetch and print the OPERATOR entries (pg_amop rows). */ ntups = PQntuples(res_ops); i_amopstrategy = PQfnumber(res_ops, "amopstrategy"); i_amopopr = PQfnumber(res_ops, "amopopr"); i_sortfamily = PQfnumber(res_ops, "sortfamily"); i_sortfamilynsp = PQfnumber(res_ops, "sortfamilynsp"); for (i = 0; i < ntups; i++) { amopstrategy = PQgetvalue(res_ops, i, i_amopstrategy); amopopr = PQgetvalue(res_ops, i, i_amopopr); sortfamily = PQgetvalue(res_ops, i, i_sortfamily); sortfamilynsp = PQgetvalue(res_ops, i, i_sortfamilynsp); if (needComma) appendPQExpBufferStr(q, " ,\n "); appendPQExpBuffer(q, "OPERATOR %s %s", amopstrategy, amopopr); if (strlen(sortfamily) > 0) { appendPQExpBufferStr(q, " FOR ORDER BY "); appendPQExpBuffer(q, "%s.", fmtId(sortfamilynsp)); appendPQExpBufferStr(q, fmtId(sortfamily)); } needComma = true; } /* * Now fetch and print the FUNCTION entries (pg_amproc rows). */ ntups = PQntuples(res_procs); i_amprocnum = PQfnumber(res_procs, "amprocnum"); i_amproc = PQfnumber(res_procs, "amproc"); i_amproclefttype = PQfnumber(res_procs, "amproclefttype"); i_amprocrighttype = PQfnumber(res_procs, "amprocrighttype"); for (i = 0; i < ntups; i++) { amprocnum = PQgetvalue(res_procs, i, i_amprocnum); amproc = PQgetvalue(res_procs, i, i_amproc); amproclefttype = PQgetvalue(res_procs, i, i_amproclefttype); amprocrighttype = PQgetvalue(res_procs, i, i_amprocrighttype); if (needComma) appendPQExpBufferStr(q, " ,\n "); appendPQExpBuffer(q, "FUNCTION %s (%s, %s) %s", amprocnum, amproclefttype, amprocrighttype, amproc); needComma = true; } appendPQExpBufferStr(q, ";\n"); } appendPQExpBufferStr(nameusing, fmtId(opfinfo->dobj.name)); appendPQExpBuffer(nameusing, " USING %s", fmtId(amname)); if (dopt->binary_upgrade) binary_upgrade_extension_member(q, &opfinfo->dobj, "OPERATOR FAMILY", nameusing->data, opfinfo->dobj.namespace->dobj.name); if (opfinfo->dobj.dump & DUMP_COMPONENT_DEFINITION) ArchiveEntry(fout, opfinfo->dobj.catId, opfinfo->dobj.dumpId, ARCHIVE_OPTS(.tag = opfinfo->dobj.name, .namespace = opfinfo->dobj.namespace->dobj.name, .owner = opfinfo->rolname, .description = "OPERATOR FAMILY", .section = SECTION_PRE_DATA, .createStmt = q->data, .dropStmt = delq->data)); /* Dump Operator Family Comments */ if (opfinfo->dobj.dump & DUMP_COMPONENT_COMMENT) dumpComment(fout, "OPERATOR FAMILY", nameusing->data, opfinfo->dobj.namespace->dobj.name, opfinfo->rolname, opfinfo->dobj.catId, 0, opfinfo->dobj.dumpId); free(amname); PQclear(res_ops); PQclear(res_procs); destroyPQExpBuffer(query); destroyPQExpBuffer(q); destroyPQExpBuffer(delq); destroyPQExpBuffer(nameusing); } /* * dumpCollation * write out a single collation definition */ static void dumpCollation(Archive *fout, const CollInfo *collinfo) { DumpOptions *dopt = fout->dopt; PQExpBuffer query; PQExpBuffer q; PQExpBuffer delq; char *qcollname; PGresult *res; int i_collprovider; int i_collisdeterministic; int i_collcollate; int i_collctype; int i_colliculocale; int i_collicurules; const char *collprovider; const char *collcollate; const char *collctype; const char *colliculocale; const char *collicurules; /* Do nothing in data-only dump */ if (dopt->dataOnly) return; query = createPQExpBuffer(); q = createPQExpBuffer(); delq = createPQExpBuffer(); qcollname = pg_strdup(fmtId(collinfo->dobj.name)); /* Get collation-specific details */ appendPQExpBufferStr(query, "SELECT "); if (fout->remoteVersion >= 100000) appendPQExpBufferStr(query, "collprovider, " "collversion, "); else appendPQExpBufferStr(query, "'c' AS collprovider, " "NULL AS collversion, "); if (fout->remoteVersion >= 120000) appendPQExpBufferStr(query, "collisdeterministic, "); else appendPQExpBufferStr(query, "true AS collisdeterministic, "); if (fout->remoteVersion >= 150000) appendPQExpBufferStr(query, "colliculocale, "); else appendPQExpBufferStr(query, "NULL AS colliculocale, "); if (fout->remoteVersion >= 160000) appendPQExpBufferStr(query, "collicurules, "); else appendPQExpBufferStr(query, "NULL AS collicurules, "); appendPQExpBuffer(query, "collcollate, " "collctype " "FROM pg_catalog.pg_collation c " "WHERE c.oid = '%u'::pg_catalog.oid", collinfo->dobj.catId.oid); res = ExecuteSqlQueryForSingleRow(fout, query->data); i_collprovider = PQfnumber(res, "collprovider"); i_collisdeterministic = PQfnumber(res, "collisdeterministic"); i_collcollate = PQfnumber(res, "collcollate"); i_collctype = PQfnumber(res, "collctype"); i_colliculocale = PQfnumber(res, "colliculocale"); i_collicurules = PQfnumber(res, "collicurules"); collprovider = PQgetvalue(res, 0, i_collprovider); if (!PQgetisnull(res, 0, i_collcollate)) collcollate = PQgetvalue(res, 0, i_collcollate); else collcollate = NULL; if (!PQgetisnull(res, 0, i_collctype)) collctype = PQgetvalue(res, 0, i_collctype); else collctype = NULL; /* * Before version 15, collcollate and collctype were of type NAME and * non-nullable. Treat empty strings as NULL for consistency. */ if (fout->remoteVersion < 150000) { if (collcollate[0] == '\0') collcollate = NULL; if (collctype[0] == '\0') collctype = NULL; } if (!PQgetisnull(res, 0, i_colliculocale)) colliculocale = PQgetvalue(res, 0, i_colliculocale); else colliculocale = NULL; if (!PQgetisnull(res, 0, i_collicurules)) collicurules = PQgetvalue(res, 0, i_collicurules); else collicurules = NULL; appendPQExpBuffer(delq, "DROP COLLATION %s;\n", fmtQualifiedDumpable(collinfo)); appendPQExpBuffer(q, "CREATE COLLATION %s (", fmtQualifiedDumpable(collinfo)); appendPQExpBufferStr(q, "provider = "); if (collprovider[0] == 'c') appendPQExpBufferStr(q, "libc"); else if (collprovider[0] == 'i') appendPQExpBufferStr(q, "icu"); else if (collprovider[0] == 'd') /* to allow dumping pg_catalog; not accepted on input */ appendPQExpBufferStr(q, "default"); else pg_fatal("unrecognized collation provider: %s", collprovider); if (strcmp(PQgetvalue(res, 0, i_collisdeterministic), "f") == 0) appendPQExpBufferStr(q, ", deterministic = false"); if (collprovider[0] == 'd') { if (collcollate || collctype || colliculocale || collicurules) pg_log_warning("invalid collation \"%s\"", qcollname); /* no locale -- the default collation cannot be reloaded anyway */ } else if (collprovider[0] == 'i') { if (fout->remoteVersion >= 150000) { if (collcollate || collctype || !colliculocale) pg_log_warning("invalid collation \"%s\"", qcollname); appendPQExpBufferStr(q, ", locale = "); appendStringLiteralAH(q, colliculocale ? colliculocale : "", fout); } else { if (!collcollate || !collctype || colliculocale || strcmp(collcollate, collctype) != 0) pg_log_warning("invalid collation \"%s\"", qcollname); appendPQExpBufferStr(q, ", locale = "); appendStringLiteralAH(q, collcollate ? collcollate : "", fout); } if (collicurules) { appendPQExpBufferStr(q, ", rules = "); appendStringLiteralAH(q, collicurules ? collicurules : "", fout); } } else if (collprovider[0] == 'c') { if (colliculocale || collicurules || !collcollate || !collctype) pg_log_warning("invalid collation \"%s\"", qcollname); if (collcollate && collctype && strcmp(collcollate, collctype) == 0) { appendPQExpBufferStr(q, ", locale = "); appendStringLiteralAH(q, collcollate ? collcollate : "", fout); } else { appendPQExpBufferStr(q, ", lc_collate = "); appendStringLiteralAH(q, collcollate ? collcollate : "", fout); appendPQExpBufferStr(q, ", lc_ctype = "); appendStringLiteralAH(q, collctype ? collctype : "", fout); } } else pg_fatal("unrecognized collation provider: %s", collprovider); /* * For binary upgrade, carry over the collation version. For normal * dump/restore, omit the version, so that it is computed upon restore. */ if (dopt->binary_upgrade) { int i_collversion; i_collversion = PQfnumber(res, "collversion"); if (!PQgetisnull(res, 0, i_collversion)) { appendPQExpBufferStr(q, ", version = "); appendStringLiteralAH(q, PQgetvalue(res, 0, i_collversion), fout); } } appendPQExpBufferStr(q, ");\n"); if (dopt->binary_upgrade) binary_upgrade_extension_member(q, &collinfo->dobj, "COLLATION", qcollname, collinfo->dobj.namespace->dobj.name); if (collinfo->dobj.dump & DUMP_COMPONENT_DEFINITION) ArchiveEntry(fout, collinfo->dobj.catId, collinfo->dobj.dumpId, ARCHIVE_OPTS(.tag = collinfo->dobj.name, .namespace = collinfo->dobj.namespace->dobj.name, .owner = collinfo->rolname, .description = "COLLATION", .section = SECTION_PRE_DATA, .createStmt = q->data, .dropStmt = delq->data)); /* Dump Collation Comments */ if (collinfo->dobj.dump & DUMP_COMPONENT_COMMENT) dumpComment(fout, "COLLATION", qcollname, collinfo->dobj.namespace->dobj.name, collinfo->rolname, collinfo->dobj.catId, 0, collinfo->dobj.dumpId); PQclear(res); destroyPQExpBuffer(query); destroyPQExpBuffer(q); destroyPQExpBuffer(delq); free(qcollname); } /* * dumpConversion * write out a single conversion definition */ static void dumpConversion(Archive *fout, const ConvInfo *convinfo) { DumpOptions *dopt = fout->dopt; PQExpBuffer query; PQExpBuffer q; PQExpBuffer delq; char *qconvname; PGresult *res; int i_conforencoding; int i_contoencoding; int i_conproc; int i_condefault; const char *conforencoding; const char *contoencoding; const char *conproc; bool condefault; /* Do nothing in data-only dump */ if (dopt->dataOnly) return; query = createPQExpBuffer(); q = createPQExpBuffer(); delq = createPQExpBuffer(); qconvname = pg_strdup(fmtId(convinfo->dobj.name)); /* Get conversion-specific details */ appendPQExpBuffer(query, "SELECT " "pg_catalog.pg_encoding_to_char(conforencoding) AS conforencoding, " "pg_catalog.pg_encoding_to_char(contoencoding) AS contoencoding, " "conproc, condefault " "FROM pg_catalog.pg_conversion c " "WHERE c.oid = '%u'::pg_catalog.oid", convinfo->dobj.catId.oid); res = ExecuteSqlQueryForSingleRow(fout, query->data); i_conforencoding = PQfnumber(res, "conforencoding"); i_contoencoding = PQfnumber(res, "contoencoding"); i_conproc = PQfnumber(res, "conproc"); i_condefault = PQfnumber(res, "condefault"); conforencoding = PQgetvalue(res, 0, i_conforencoding); contoencoding = PQgetvalue(res, 0, i_contoencoding); conproc = PQgetvalue(res, 0, i_conproc); condefault = (PQgetvalue(res, 0, i_condefault)[0] == 't'); appendPQExpBuffer(delq, "DROP CONVERSION %s;\n", fmtQualifiedDumpable(convinfo)); appendPQExpBuffer(q, "CREATE %sCONVERSION %s FOR ", (condefault) ? "DEFAULT " : "", fmtQualifiedDumpable(convinfo)); appendStringLiteralAH(q, conforencoding, fout); appendPQExpBufferStr(q, " TO "); appendStringLiteralAH(q, contoencoding, fout); /* regproc output is already sufficiently quoted */ appendPQExpBuffer(q, " FROM %s;\n", conproc); if (dopt->binary_upgrade) binary_upgrade_extension_member(q, &convinfo->dobj, "CONVERSION", qconvname, convinfo->dobj.namespace->dobj.name); if (convinfo->dobj.dump & DUMP_COMPONENT_DEFINITION) ArchiveEntry(fout, convinfo->dobj.catId, convinfo->dobj.dumpId, ARCHIVE_OPTS(.tag = convinfo->dobj.name, .namespace = convinfo->dobj.namespace->dobj.name, .owner = convinfo->rolname, .description = "CONVERSION", .section = SECTION_PRE_DATA, .createStmt = q->data, .dropStmt = delq->data)); /* Dump Conversion Comments */ if (convinfo->dobj.dump & DUMP_COMPONENT_COMMENT) dumpComment(fout, "CONVERSION", qconvname, convinfo->dobj.namespace->dobj.name, convinfo->rolname, convinfo->dobj.catId, 0, convinfo->dobj.dumpId); PQclear(res); destroyPQExpBuffer(query); destroyPQExpBuffer(q); destroyPQExpBuffer(delq); free(qconvname); } /* * format_aggregate_signature: generate aggregate name and argument list * * The argument type names are qualified if needed. The aggregate name * is never qualified. */ static char * format_aggregate_signature(const AggInfo *agginfo, Archive *fout, bool honor_quotes) { PQExpBufferData buf; int j; initPQExpBuffer(&buf); if (honor_quotes) appendPQExpBufferStr(&buf, fmtId(agginfo->aggfn.dobj.name)); else appendPQExpBufferStr(&buf, agginfo->aggfn.dobj.name); if (agginfo->aggfn.nargs == 0) appendPQExpBufferStr(&buf, "(*)"); else { appendPQExpBufferChar(&buf, '('); for (j = 0; j < agginfo->aggfn.nargs; j++) appendPQExpBuffer(&buf, "%s%s", (j > 0) ? ", " : "", getFormattedTypeName(fout, agginfo->aggfn.argtypes[j], zeroIsError)); appendPQExpBufferChar(&buf, ')'); } return buf.data; } /* * dumpAgg * write out a single aggregate definition */ static void dumpAgg(Archive *fout, const AggInfo *agginfo) { DumpOptions *dopt = fout->dopt; PQExpBuffer query; PQExpBuffer q; PQExpBuffer delq; PQExpBuffer details; char *aggsig; /* identity signature */ char *aggfullsig = NULL; /* full signature */ char *aggsig_tag; PGresult *res; int i_agginitval; int i_aggminitval; const char *aggtransfn; const char *aggfinalfn; const char *aggcombinefn; const char *aggserialfn; const char *aggdeserialfn; const char *aggmtransfn; const char *aggminvtransfn; const char *aggmfinalfn; bool aggfinalextra; bool aggmfinalextra; char aggfinalmodify; char aggmfinalmodify; const char *aggsortop; char *aggsortconvop; char aggkind; const char *aggtranstype; const char *aggtransspace; const char *aggmtranstype; const char *aggmtransspace; const char *agginitval; const char *aggminitval; const char *proparallel; char defaultfinalmodify; /* Do nothing in data-only dump */ if (dopt->dataOnly) return; query = createPQExpBuffer(); q = createPQExpBuffer(); delq = createPQExpBuffer(); details = createPQExpBuffer(); if (!fout->is_prepared[PREPQUERY_DUMPAGG]) { /* Set up query for aggregate-specific details */ appendPQExpBufferStr(query, "PREPARE dumpAgg(pg_catalog.oid) AS\n"); appendPQExpBufferStr(query, "SELECT " "aggtransfn,\n" "aggfinalfn,\n" "aggtranstype::pg_catalog.regtype,\n" "agginitval,\n" "aggsortop,\n" "pg_catalog.pg_get_function_arguments(p.oid) AS funcargs,\n" "pg_catalog.pg_get_function_identity_arguments(p.oid) AS funciargs,\n"); if (fout->remoteVersion >= 90400) appendPQExpBufferStr(query, "aggkind,\n" "aggmtransfn,\n" "aggminvtransfn,\n" "aggmfinalfn,\n" "aggmtranstype::pg_catalog.regtype,\n" "aggfinalextra,\n" "aggmfinalextra,\n" "aggtransspace,\n" "aggmtransspace,\n" "aggminitval,\n"); else appendPQExpBufferStr(query, "'n' AS aggkind,\n" "'-' AS aggmtransfn,\n" "'-' AS aggminvtransfn,\n" "'-' AS aggmfinalfn,\n" "0 AS aggmtranstype,\n" "false AS aggfinalextra,\n" "false AS aggmfinalextra,\n" "0 AS aggtransspace,\n" "0 AS aggmtransspace,\n" "NULL AS aggminitval,\n"); if (fout->remoteVersion >= 90600) appendPQExpBufferStr(query, "aggcombinefn,\n" "aggserialfn,\n" "aggdeserialfn,\n" "proparallel,\n"); else appendPQExpBufferStr(query, "'-' AS aggcombinefn,\n" "'-' AS aggserialfn,\n" "'-' AS aggdeserialfn,\n" "'u' AS proparallel,\n"); if (fout->remoteVersion >= 110000) appendPQExpBufferStr(query, "aggfinalmodify,\n" "aggmfinalmodify\n"); else appendPQExpBufferStr(query, "'0' AS aggfinalmodify,\n" "'0' AS aggmfinalmodify\n"); appendPQExpBufferStr(query, "FROM pg_catalog.pg_aggregate a, pg_catalog.pg_proc p " "WHERE a.aggfnoid = p.oid " "AND p.oid = $1"); ExecuteSqlStatement(fout, query->data); fout->is_prepared[PREPQUERY_DUMPAGG] = true; } printfPQExpBuffer(query, "EXECUTE dumpAgg('%u')", agginfo->aggfn.dobj.catId.oid); res = ExecuteSqlQueryForSingleRow(fout, query->data); i_agginitval = PQfnumber(res, "agginitval"); i_aggminitval = PQfnumber(res, "aggminitval"); aggtransfn = PQgetvalue(res, 0, PQfnumber(res, "aggtransfn")); aggfinalfn = PQgetvalue(res, 0, PQfnumber(res, "aggfinalfn")); aggcombinefn = PQgetvalue(res, 0, PQfnumber(res, "aggcombinefn")); aggserialfn = PQgetvalue(res, 0, PQfnumber(res, "aggserialfn")); aggdeserialfn = PQgetvalue(res, 0, PQfnumber(res, "aggdeserialfn")); aggmtransfn = PQgetvalue(res, 0, PQfnumber(res, "aggmtransfn")); aggminvtransfn = PQgetvalue(res, 0, PQfnumber(res, "aggminvtransfn")); aggmfinalfn = PQgetvalue(res, 0, PQfnumber(res, "aggmfinalfn")); aggfinalextra = (PQgetvalue(res, 0, PQfnumber(res, "aggfinalextra"))[0] == 't'); aggmfinalextra = (PQgetvalue(res, 0, PQfnumber(res, "aggmfinalextra"))[0] == 't'); aggfinalmodify = PQgetvalue(res, 0, PQfnumber(res, "aggfinalmodify"))[0]; aggmfinalmodify = PQgetvalue(res, 0, PQfnumber(res, "aggmfinalmodify"))[0]; aggsortop = PQgetvalue(res, 0, PQfnumber(res, "aggsortop")); aggkind = PQgetvalue(res, 0, PQfnumber(res, "aggkind"))[0]; aggtranstype = PQgetvalue(res, 0, PQfnumber(res, "aggtranstype")); aggtransspace = PQgetvalue(res, 0, PQfnumber(res, "aggtransspace")); aggmtranstype = PQgetvalue(res, 0, PQfnumber(res, "aggmtranstype")); aggmtransspace = PQgetvalue(res, 0, PQfnumber(res, "aggmtransspace")); agginitval = PQgetvalue(res, 0, i_agginitval); aggminitval = PQgetvalue(res, 0, i_aggminitval); proparallel = PQgetvalue(res, 0, PQfnumber(res, "proparallel")); { char *funcargs; char *funciargs; funcargs = PQgetvalue(res, 0, PQfnumber(res, "funcargs")); funciargs = PQgetvalue(res, 0, PQfnumber(res, "funciargs")); aggfullsig = format_function_arguments(&agginfo->aggfn, funcargs, true); aggsig = format_function_arguments(&agginfo->aggfn, funciargs, true); } aggsig_tag = format_aggregate_signature(agginfo, fout, false); /* identify default modify flag for aggkind (must match DefineAggregate) */ defaultfinalmodify = (aggkind == AGGKIND_NORMAL) ? AGGMODIFY_READ_ONLY : AGGMODIFY_READ_WRITE; /* replace omitted flags for old versions */ if (aggfinalmodify == '0') aggfinalmodify = defaultfinalmodify; if (aggmfinalmodify == '0') aggmfinalmodify = defaultfinalmodify; /* regproc and regtype output is already sufficiently quoted */ appendPQExpBuffer(details, " SFUNC = %s,\n STYPE = %s", aggtransfn, aggtranstype); if (strcmp(aggtransspace, "0") != 0) { appendPQExpBuffer(details, ",\n SSPACE = %s", aggtransspace); } if (!PQgetisnull(res, 0, i_agginitval)) { appendPQExpBufferStr(details, ",\n INITCOND = "); appendStringLiteralAH(details, agginitval, fout); } if (strcmp(aggfinalfn, "-") != 0) { appendPQExpBuffer(details, ",\n FINALFUNC = %s", aggfinalfn); if (aggfinalextra) appendPQExpBufferStr(details, ",\n FINALFUNC_EXTRA"); if (aggfinalmodify != defaultfinalmodify) { switch (aggfinalmodify) { case AGGMODIFY_READ_ONLY: appendPQExpBufferStr(details, ",\n FINALFUNC_MODIFY = READ_ONLY"); break; case AGGMODIFY_SHAREABLE: appendPQExpBufferStr(details, ",\n FINALFUNC_MODIFY = SHAREABLE"); break; case AGGMODIFY_READ_WRITE: appendPQExpBufferStr(details, ",\n FINALFUNC_MODIFY = READ_WRITE"); break; default: pg_fatal("unrecognized aggfinalmodify value for aggregate \"%s\"", agginfo->aggfn.dobj.name); break; } } } if (strcmp(aggcombinefn, "-") != 0) appendPQExpBuffer(details, ",\n COMBINEFUNC = %s", aggcombinefn); if (strcmp(aggserialfn, "-") != 0) appendPQExpBuffer(details, ",\n SERIALFUNC = %s", aggserialfn); if (strcmp(aggdeserialfn, "-") != 0) appendPQExpBuffer(details, ",\n DESERIALFUNC = %s", aggdeserialfn); if (strcmp(aggmtransfn, "-") != 0) { appendPQExpBuffer(details, ",\n MSFUNC = %s,\n MINVFUNC = %s,\n MSTYPE = %s", aggmtransfn, aggminvtransfn, aggmtranstype); } if (strcmp(aggmtransspace, "0") != 0) { appendPQExpBuffer(details, ",\n MSSPACE = %s", aggmtransspace); } if (!PQgetisnull(res, 0, i_aggminitval)) { appendPQExpBufferStr(details, ",\n MINITCOND = "); appendStringLiteralAH(details, aggminitval, fout); } if (strcmp(aggmfinalfn, "-") != 0) { appendPQExpBuffer(details, ",\n MFINALFUNC = %s", aggmfinalfn); if (aggmfinalextra) appendPQExpBufferStr(details, ",\n MFINALFUNC_EXTRA"); if (aggmfinalmodify != defaultfinalmodify) { switch (aggmfinalmodify) { case AGGMODIFY_READ_ONLY: appendPQExpBufferStr(details, ",\n MFINALFUNC_MODIFY = READ_ONLY"); break; case AGGMODIFY_SHAREABLE: appendPQExpBufferStr(details, ",\n MFINALFUNC_MODIFY = SHAREABLE"); break; case AGGMODIFY_READ_WRITE: appendPQExpBufferStr(details, ",\n MFINALFUNC_MODIFY = READ_WRITE"); break; default: pg_fatal("unrecognized aggmfinalmodify value for aggregate \"%s\"", agginfo->aggfn.dobj.name); break; } } } aggsortconvop = getFormattedOperatorName(aggsortop); if (aggsortconvop) { appendPQExpBuffer(details, ",\n SORTOP = %s", aggsortconvop); free(aggsortconvop); } if (aggkind == AGGKIND_HYPOTHETICAL) appendPQExpBufferStr(details, ",\n HYPOTHETICAL"); if (proparallel[0] != PROPARALLEL_UNSAFE) { if (proparallel[0] == PROPARALLEL_SAFE) appendPQExpBufferStr(details, ",\n PARALLEL = safe"); else if (proparallel[0] == PROPARALLEL_RESTRICTED) appendPQExpBufferStr(details, ",\n PARALLEL = restricted"); else if (proparallel[0] != PROPARALLEL_UNSAFE) pg_fatal("unrecognized proparallel value for function \"%s\"", agginfo->aggfn.dobj.name); } appendPQExpBuffer(delq, "DROP AGGREGATE %s.%s;\n", fmtId(agginfo->aggfn.dobj.namespace->dobj.name), aggsig); appendPQExpBuffer(q, "CREATE AGGREGATE %s.%s (\n%s\n);\n", fmtId(agginfo->aggfn.dobj.namespace->dobj.name), aggfullsig ? aggfullsig : aggsig, details->data); if (dopt->binary_upgrade) binary_upgrade_extension_member(q, &agginfo->aggfn.dobj, "AGGREGATE", aggsig, agginfo->aggfn.dobj.namespace->dobj.name); if (agginfo->aggfn.dobj.dump & DUMP_COMPONENT_DEFINITION) ArchiveEntry(fout, agginfo->aggfn.dobj.catId, agginfo->aggfn.dobj.dumpId, ARCHIVE_OPTS(.tag = aggsig_tag, .namespace = agginfo->aggfn.dobj.namespace->dobj.name, .owner = agginfo->aggfn.rolname, .description = "AGGREGATE", .section = SECTION_PRE_DATA, .createStmt = q->data, .dropStmt = delq->data)); /* Dump Aggregate Comments */ if (agginfo->aggfn.dobj.dump & DUMP_COMPONENT_COMMENT) dumpComment(fout, "AGGREGATE", aggsig, agginfo->aggfn.dobj.namespace->dobj.name, agginfo->aggfn.rolname, agginfo->aggfn.dobj.catId, 0, agginfo->aggfn.dobj.dumpId); if (agginfo->aggfn.dobj.dump & DUMP_COMPONENT_SECLABEL) dumpSecLabel(fout, "AGGREGATE", aggsig, agginfo->aggfn.dobj.namespace->dobj.name, agginfo->aggfn.rolname, agginfo->aggfn.dobj.catId, 0, agginfo->aggfn.dobj.dumpId); /* * Since there is no GRANT ON AGGREGATE syntax, we have to make the ACL * command look like a function's GRANT; in particular this affects the * syntax for zero-argument aggregates and ordered-set aggregates. */ free(aggsig); aggsig = format_function_signature(fout, &agginfo->aggfn, true); if (agginfo->aggfn.dobj.dump & DUMP_COMPONENT_ACL) dumpACL(fout, agginfo->aggfn.dobj.dumpId, InvalidDumpId, "FUNCTION", aggsig, NULL, agginfo->aggfn.dobj.namespace->dobj.name, agginfo->aggfn.rolname, &agginfo->aggfn.dacl); free(aggsig); free(aggfullsig); free(aggsig_tag); PQclear(res); destroyPQExpBuffer(query); destroyPQExpBuffer(q); destroyPQExpBuffer(delq); destroyPQExpBuffer(details); } /* * dumpTSParser * write out a single text search parser */ static void dumpTSParser(Archive *fout, const TSParserInfo *prsinfo) { DumpOptions *dopt = fout->dopt; PQExpBuffer q; PQExpBuffer delq; char *qprsname; /* Do nothing in data-only dump */ if (dopt->dataOnly) return; q = createPQExpBuffer(); delq = createPQExpBuffer(); qprsname = pg_strdup(fmtId(prsinfo->dobj.name)); appendPQExpBuffer(q, "CREATE TEXT SEARCH PARSER %s (\n", fmtQualifiedDumpable(prsinfo)); appendPQExpBuffer(q, " START = %s,\n", convertTSFunction(fout, prsinfo->prsstart)); appendPQExpBuffer(q, " GETTOKEN = %s,\n", convertTSFunction(fout, prsinfo->prstoken)); appendPQExpBuffer(q, " END = %s,\n", convertTSFunction(fout, prsinfo->prsend)); if (prsinfo->prsheadline != InvalidOid) appendPQExpBuffer(q, " HEADLINE = %s,\n", convertTSFunction(fout, prsinfo->prsheadline)); appendPQExpBuffer(q, " LEXTYPES = %s );\n", convertTSFunction(fout, prsinfo->prslextype)); appendPQExpBuffer(delq, "DROP TEXT SEARCH PARSER %s;\n", fmtQualifiedDumpable(prsinfo)); if (dopt->binary_upgrade) binary_upgrade_extension_member(q, &prsinfo->dobj, "TEXT SEARCH PARSER", qprsname, prsinfo->dobj.namespace->dobj.name); if (prsinfo->dobj.dump & DUMP_COMPONENT_DEFINITION) ArchiveEntry(fout, prsinfo->dobj.catId, prsinfo->dobj.dumpId, ARCHIVE_OPTS(.tag = prsinfo->dobj.name, .namespace = prsinfo->dobj.namespace->dobj.name, .description = "TEXT SEARCH PARSER", .section = SECTION_PRE_DATA, .createStmt = q->data, .dropStmt = delq->data)); /* Dump Parser Comments */ if (prsinfo->dobj.dump & DUMP_COMPONENT_COMMENT) dumpComment(fout, "TEXT SEARCH PARSER", qprsname, prsinfo->dobj.namespace->dobj.name, "", prsinfo->dobj.catId, 0, prsinfo->dobj.dumpId); destroyPQExpBuffer(q); destroyPQExpBuffer(delq); free(qprsname); } /* * dumpTSDictionary * write out a single text search dictionary */ static void dumpTSDictionary(Archive *fout, const TSDictInfo *dictinfo) { DumpOptions *dopt = fout->dopt; PQExpBuffer q; PQExpBuffer delq; PQExpBuffer query; char *qdictname; PGresult *res; char *nspname; char *tmplname; /* Do nothing in data-only dump */ if (dopt->dataOnly) return; q = createPQExpBuffer(); delq = createPQExpBuffer(); query = createPQExpBuffer(); qdictname = pg_strdup(fmtId(dictinfo->dobj.name)); /* Fetch name and namespace of the dictionary's template */ appendPQExpBuffer(query, "SELECT nspname, tmplname " "FROM pg_ts_template p, pg_namespace n " "WHERE p.oid = '%u' AND n.oid = tmplnamespace", dictinfo->dicttemplate); res = ExecuteSqlQueryForSingleRow(fout, query->data); nspname = PQgetvalue(res, 0, 0); tmplname = PQgetvalue(res, 0, 1); appendPQExpBuffer(q, "CREATE TEXT SEARCH DICTIONARY %s (\n", fmtQualifiedDumpable(dictinfo)); appendPQExpBufferStr(q, " TEMPLATE = "); appendPQExpBuffer(q, "%s.", fmtId(nspname)); appendPQExpBufferStr(q, fmtId(tmplname)); PQclear(res); /* the dictinitoption can be dumped straight into the command */ if (dictinfo->dictinitoption) appendPQExpBuffer(q, ",\n %s", dictinfo->dictinitoption); appendPQExpBufferStr(q, " );\n"); appendPQExpBuffer(delq, "DROP TEXT SEARCH DICTIONARY %s;\n", fmtQualifiedDumpable(dictinfo)); if (dopt->binary_upgrade) binary_upgrade_extension_member(q, &dictinfo->dobj, "TEXT SEARCH DICTIONARY", qdictname, dictinfo->dobj.namespace->dobj.name); if (dictinfo->dobj.dump & DUMP_COMPONENT_DEFINITION) ArchiveEntry(fout, dictinfo->dobj.catId, dictinfo->dobj.dumpId, ARCHIVE_OPTS(.tag = dictinfo->dobj.name, .namespace = dictinfo->dobj.namespace->dobj.name, .owner = dictinfo->rolname, .description = "TEXT SEARCH DICTIONARY", .section = SECTION_PRE_DATA, .createStmt = q->data, .dropStmt = delq->data)); /* Dump Dictionary Comments */ if (dictinfo->dobj.dump & DUMP_COMPONENT_COMMENT) dumpComment(fout, "TEXT SEARCH DICTIONARY", qdictname, dictinfo->dobj.namespace->dobj.name, dictinfo->rolname, dictinfo->dobj.catId, 0, dictinfo->dobj.dumpId); destroyPQExpBuffer(q); destroyPQExpBuffer(delq); destroyPQExpBuffer(query); free(qdictname); } /* * dumpTSTemplate * write out a single text search template */ static void dumpTSTemplate(Archive *fout, const TSTemplateInfo *tmplinfo) { DumpOptions *dopt = fout->dopt; PQExpBuffer q; PQExpBuffer delq; char *qtmplname; /* Do nothing in data-only dump */ if (dopt->dataOnly) return; q = createPQExpBuffer(); delq = createPQExpBuffer(); qtmplname = pg_strdup(fmtId(tmplinfo->dobj.name)); appendPQExpBuffer(q, "CREATE TEXT SEARCH TEMPLATE %s (\n", fmtQualifiedDumpable(tmplinfo)); if (tmplinfo->tmplinit != InvalidOid) appendPQExpBuffer(q, " INIT = %s,\n", convertTSFunction(fout, tmplinfo->tmplinit)); appendPQExpBuffer(q, " LEXIZE = %s );\n", convertTSFunction(fout, tmplinfo->tmpllexize)); appendPQExpBuffer(delq, "DROP TEXT SEARCH TEMPLATE %s;\n", fmtQualifiedDumpable(tmplinfo)); if (dopt->binary_upgrade) binary_upgrade_extension_member(q, &tmplinfo->dobj, "TEXT SEARCH TEMPLATE", qtmplname, tmplinfo->dobj.namespace->dobj.name); if (tmplinfo->dobj.dump & DUMP_COMPONENT_DEFINITION) ArchiveEntry(fout, tmplinfo->dobj.catId, tmplinfo->dobj.dumpId, ARCHIVE_OPTS(.tag = tmplinfo->dobj.name, .namespace = tmplinfo->dobj.namespace->dobj.name, .description = "TEXT SEARCH TEMPLATE", .section = SECTION_PRE_DATA, .createStmt = q->data, .dropStmt = delq->data)); /* Dump Template Comments */ if (tmplinfo->dobj.dump & DUMP_COMPONENT_COMMENT) dumpComment(fout, "TEXT SEARCH TEMPLATE", qtmplname, tmplinfo->dobj.namespace->dobj.name, "", tmplinfo->dobj.catId, 0, tmplinfo->dobj.dumpId); destroyPQExpBuffer(q); destroyPQExpBuffer(delq); free(qtmplname); } /* * dumpTSConfig * write out a single text search configuration */ static void dumpTSConfig(Archive *fout, const TSConfigInfo *cfginfo) { DumpOptions *dopt = fout->dopt; PQExpBuffer q; PQExpBuffer delq; PQExpBuffer query; char *qcfgname; PGresult *res; char *nspname; char *prsname; int ntups, i; int i_tokenname; int i_dictname; /* Do nothing in data-only dump */ if (dopt->dataOnly) return; q = createPQExpBuffer(); delq = createPQExpBuffer(); query = createPQExpBuffer(); qcfgname = pg_strdup(fmtId(cfginfo->dobj.name)); /* Fetch name and namespace of the config's parser */ appendPQExpBuffer(query, "SELECT nspname, prsname " "FROM pg_ts_parser p, pg_namespace n " "WHERE p.oid = '%u' AND n.oid = prsnamespace", cfginfo->cfgparser); res = ExecuteSqlQueryForSingleRow(fout, query->data); nspname = PQgetvalue(res, 0, 0); prsname = PQgetvalue(res, 0, 1); appendPQExpBuffer(q, "CREATE TEXT SEARCH CONFIGURATION %s (\n", fmtQualifiedDumpable(cfginfo)); appendPQExpBuffer(q, " PARSER = %s.", fmtId(nspname)); appendPQExpBuffer(q, "%s );\n", fmtId(prsname)); PQclear(res); resetPQExpBuffer(query); appendPQExpBuffer(query, "SELECT\n" " ( SELECT alias FROM pg_catalog.ts_token_type('%u'::pg_catalog.oid) AS t\n" " WHERE t.tokid = m.maptokentype ) AS tokenname,\n" " m.mapdict::pg_catalog.regdictionary AS dictname\n" "FROM pg_catalog.pg_ts_config_map AS m\n" "WHERE m.mapcfg = '%u'\n" "ORDER BY m.mapcfg, m.maptokentype, m.mapseqno", cfginfo->cfgparser, cfginfo->dobj.catId.oid); res = ExecuteSqlQuery(fout, query->data, PGRES_TUPLES_OK); ntups = PQntuples(res); i_tokenname = PQfnumber(res, "tokenname"); i_dictname = PQfnumber(res, "dictname"); for (i = 0; i < ntups; i++) { char *tokenname = PQgetvalue(res, i, i_tokenname); char *dictname = PQgetvalue(res, i, i_dictname); if (i == 0 || strcmp(tokenname, PQgetvalue(res, i - 1, i_tokenname)) != 0) { /* starting a new token type, so start a new command */ if (i > 0) appendPQExpBufferStr(q, ";\n"); appendPQExpBuffer(q, "\nALTER TEXT SEARCH CONFIGURATION %s\n", fmtQualifiedDumpable(cfginfo)); /* tokenname needs quoting, dictname does NOT */ appendPQExpBuffer(q, " ADD MAPPING FOR %s WITH %s", fmtId(tokenname), dictname); } else appendPQExpBuffer(q, ", %s", dictname); } if (ntups > 0) appendPQExpBufferStr(q, ";\n"); PQclear(res); appendPQExpBuffer(delq, "DROP TEXT SEARCH CONFIGURATION %s;\n", fmtQualifiedDumpable(cfginfo)); if (dopt->binary_upgrade) binary_upgrade_extension_member(q, &cfginfo->dobj, "TEXT SEARCH CONFIGURATION", qcfgname, cfginfo->dobj.namespace->dobj.name); if (cfginfo->dobj.dump & DUMP_COMPONENT_DEFINITION) ArchiveEntry(fout, cfginfo->dobj.catId, cfginfo->dobj.dumpId, ARCHIVE_OPTS(.tag = cfginfo->dobj.name, .namespace = cfginfo->dobj.namespace->dobj.name, .owner = cfginfo->rolname, .description = "TEXT SEARCH CONFIGURATION", .section = SECTION_PRE_DATA, .createStmt = q->data, .dropStmt = delq->data)); /* Dump Configuration Comments */ if (cfginfo->dobj.dump & DUMP_COMPONENT_COMMENT) dumpComment(fout, "TEXT SEARCH CONFIGURATION", qcfgname, cfginfo->dobj.namespace->dobj.name, cfginfo->rolname, cfginfo->dobj.catId, 0, cfginfo->dobj.dumpId); destroyPQExpBuffer(q); destroyPQExpBuffer(delq); destroyPQExpBuffer(query); free(qcfgname); } /* * dumpForeignDataWrapper * write out a single foreign-data wrapper definition */ static void dumpForeignDataWrapper(Archive *fout, const FdwInfo *fdwinfo) { DumpOptions *dopt = fout->dopt; PQExpBuffer q; PQExpBuffer delq; char *qfdwname; /* Do nothing in data-only dump */ if (dopt->dataOnly) return; q = createPQExpBuffer(); delq = createPQExpBuffer(); qfdwname = pg_strdup(fmtId(fdwinfo->dobj.name)); appendPQExpBuffer(q, "CREATE FOREIGN DATA WRAPPER %s", qfdwname); if (strcmp(fdwinfo->fdwhandler, "-") != 0) appendPQExpBuffer(q, " HANDLER %s", fdwinfo->fdwhandler); if (strcmp(fdwinfo->fdwvalidator, "-") != 0) appendPQExpBuffer(q, " VALIDATOR %s", fdwinfo->fdwvalidator); if (strlen(fdwinfo->fdwoptions) > 0) appendPQExpBuffer(q, " OPTIONS (\n %s\n)", fdwinfo->fdwoptions); appendPQExpBufferStr(q, ";\n"); appendPQExpBuffer(delq, "DROP FOREIGN DATA WRAPPER %s;\n", qfdwname); if (dopt->binary_upgrade) binary_upgrade_extension_member(q, &fdwinfo->dobj, "FOREIGN DATA WRAPPER", qfdwname, NULL); if (fdwinfo->dobj.dump & DUMP_COMPONENT_DEFINITION) ArchiveEntry(fout, fdwinfo->dobj.catId, fdwinfo->dobj.dumpId, ARCHIVE_OPTS(.tag = fdwinfo->dobj.name, .owner = fdwinfo->rolname, .description = "FOREIGN DATA WRAPPER", .section = SECTION_PRE_DATA, .createStmt = q->data, .dropStmt = delq->data)); /* Dump Foreign Data Wrapper Comments */ if (fdwinfo->dobj.dump & DUMP_COMPONENT_COMMENT) dumpComment(fout, "FOREIGN DATA WRAPPER", qfdwname, NULL, fdwinfo->rolname, fdwinfo->dobj.catId, 0, fdwinfo->dobj.dumpId); /* Handle the ACL */ if (fdwinfo->dobj.dump & DUMP_COMPONENT_ACL) dumpACL(fout, fdwinfo->dobj.dumpId, InvalidDumpId, "FOREIGN DATA WRAPPER", qfdwname, NULL, NULL, fdwinfo->rolname, &fdwinfo->dacl); free(qfdwname); destroyPQExpBuffer(q); destroyPQExpBuffer(delq); } /* * dumpForeignServer * write out a foreign server definition */ static void dumpForeignServer(Archive *fout, const ForeignServerInfo *srvinfo) { DumpOptions *dopt = fout->dopt; PQExpBuffer q; PQExpBuffer delq; PQExpBuffer query; PGresult *res; char *qsrvname; char *fdwname; /* Do nothing in data-only dump */ if (dopt->dataOnly) return; q = createPQExpBuffer(); delq = createPQExpBuffer(); query = createPQExpBuffer(); qsrvname = pg_strdup(fmtId(srvinfo->dobj.name)); /* look up the foreign-data wrapper */ appendPQExpBuffer(query, "SELECT fdwname " "FROM pg_foreign_data_wrapper w " "WHERE w.oid = '%u'", srvinfo->srvfdw); res = ExecuteSqlQueryForSingleRow(fout, query->data); fdwname = PQgetvalue(res, 0, 0); appendPQExpBuffer(q, "CREATE SERVER %s", qsrvname); if (srvinfo->srvtype && strlen(srvinfo->srvtype) > 0) { appendPQExpBufferStr(q, " TYPE "); appendStringLiteralAH(q, srvinfo->srvtype, fout); } if (srvinfo->srvversion && strlen(srvinfo->srvversion) > 0) { appendPQExpBufferStr(q, " VERSION "); appendStringLiteralAH(q, srvinfo->srvversion, fout); } appendPQExpBufferStr(q, " FOREIGN DATA WRAPPER "); appendPQExpBufferStr(q, fmtId(fdwname)); if (srvinfo->srvoptions && strlen(srvinfo->srvoptions) > 0) appendPQExpBuffer(q, " OPTIONS (\n %s\n)", srvinfo->srvoptions); appendPQExpBufferStr(q, ";\n"); appendPQExpBuffer(delq, "DROP SERVER %s;\n", qsrvname); if (dopt->binary_upgrade) binary_upgrade_extension_member(q, &srvinfo->dobj, "SERVER", qsrvname, NULL); if (srvinfo->dobj.dump & DUMP_COMPONENT_DEFINITION) ArchiveEntry(fout, srvinfo->dobj.catId, srvinfo->dobj.dumpId, ARCHIVE_OPTS(.tag = srvinfo->dobj.name, .owner = srvinfo->rolname, .description = "SERVER", .section = SECTION_PRE_DATA, .createStmt = q->data, .dropStmt = delq->data)); /* Dump Foreign Server Comments */ if (srvinfo->dobj.dump & DUMP_COMPONENT_COMMENT) dumpComment(fout, "SERVER", qsrvname, NULL, srvinfo->rolname, srvinfo->dobj.catId, 0, srvinfo->dobj.dumpId); /* Handle the ACL */ if (srvinfo->dobj.dump & DUMP_COMPONENT_ACL) dumpACL(fout, srvinfo->dobj.dumpId, InvalidDumpId, "FOREIGN SERVER", qsrvname, NULL, NULL, srvinfo->rolname, &srvinfo->dacl); /* Dump user mappings */ if (srvinfo->dobj.dump & DUMP_COMPONENT_USERMAP) dumpUserMappings(fout, srvinfo->dobj.name, NULL, srvinfo->rolname, srvinfo->dobj.catId, srvinfo->dobj.dumpId); PQclear(res); free(qsrvname); destroyPQExpBuffer(q); destroyPQExpBuffer(delq); destroyPQExpBuffer(query); } /* * dumpUserMappings * * This routine is used to dump any user mappings associated with the * server handed to this routine. Should be called after ArchiveEntry() * for the server. */ static void dumpUserMappings(Archive *fout, const char *servername, const char *namespace, const char *owner, CatalogId catalogId, DumpId dumpId) { PQExpBuffer q; PQExpBuffer delq; PQExpBuffer query; PQExpBuffer tag; PGresult *res; int ntups; int i_usename; int i_umoptions; int i; q = createPQExpBuffer(); tag = createPQExpBuffer(); delq = createPQExpBuffer(); query = createPQExpBuffer(); /* * We read from the publicly accessible view pg_user_mappings, so as not * to fail if run by a non-superuser. Note that the view will show * umoptions as null if the user hasn't got privileges for the associated * server; this means that pg_dump will dump such a mapping, but with no * OPTIONS clause. A possible alternative is to skip such mappings * altogether, but it's not clear that that's an improvement. */ appendPQExpBuffer(query, "SELECT usename, " "array_to_string(ARRAY(" "SELECT quote_ident(option_name) || ' ' || " "quote_literal(option_value) " "FROM pg_options_to_table(umoptions) " "ORDER BY option_name" "), E',\n ') AS umoptions " "FROM pg_user_mappings " "WHERE srvid = '%u' " "ORDER BY usename", catalogId.oid); res = ExecuteSqlQuery(fout, query->data, PGRES_TUPLES_OK); ntups = PQntuples(res); i_usename = PQfnumber(res, "usename"); i_umoptions = PQfnumber(res, "umoptions"); for (i = 0; i < ntups; i++) { char *usename; char *umoptions; usename = PQgetvalue(res, i, i_usename); umoptions = PQgetvalue(res, i, i_umoptions); resetPQExpBuffer(q); appendPQExpBuffer(q, "CREATE USER MAPPING FOR %s", fmtId(usename)); appendPQExpBuffer(q, " SERVER %s", fmtId(servername)); if (umoptions && strlen(umoptions) > 0) appendPQExpBuffer(q, " OPTIONS (\n %s\n)", umoptions); appendPQExpBufferStr(q, ";\n"); resetPQExpBuffer(delq); appendPQExpBuffer(delq, "DROP USER MAPPING FOR %s", fmtId(usename)); appendPQExpBuffer(delq, " SERVER %s;\n", fmtId(servername)); resetPQExpBuffer(tag); appendPQExpBuffer(tag, "USER MAPPING %s SERVER %s", usename, servername); ArchiveEntry(fout, nilCatalogId, createDumpId(), ARCHIVE_OPTS(.tag = tag->data, .namespace = namespace, .owner = owner, .description = "USER MAPPING", .section = SECTION_PRE_DATA, .createStmt = q->data, .dropStmt = delq->data)); } PQclear(res); destroyPQExpBuffer(query); destroyPQExpBuffer(delq); destroyPQExpBuffer(tag); destroyPQExpBuffer(q); } /* * Write out default privileges information */ static void dumpDefaultACL(Archive *fout, const DefaultACLInfo *daclinfo) { DumpOptions *dopt = fout->dopt; PQExpBuffer q; PQExpBuffer tag; const char *type; /* Do nothing in data-only dump, or if we're skipping ACLs */ if (dopt->dataOnly || dopt->aclsSkip) return; q = createPQExpBuffer(); tag = createPQExpBuffer(); switch (daclinfo->defaclobjtype) { case DEFACLOBJ_RELATION: type = "TABLES"; break; case DEFACLOBJ_SEQUENCE: type = "SEQUENCES"; break; case DEFACLOBJ_FUNCTION: type = "FUNCTIONS"; break; case DEFACLOBJ_TYPE: type = "TYPES"; break; case DEFACLOBJ_NAMESPACE: type = "SCHEMAS"; break; default: /* shouldn't get here */ pg_fatal("unrecognized object type in default privileges: %d", (int) daclinfo->defaclobjtype); type = ""; /* keep compiler quiet */ } appendPQExpBuffer(tag, "DEFAULT PRIVILEGES FOR %s", type); /* build the actual command(s) for this tuple */ if (!buildDefaultACLCommands(type, daclinfo->dobj.namespace != NULL ? daclinfo->dobj.namespace->dobj.name : NULL, daclinfo->dacl.acl, daclinfo->dacl.acldefault, daclinfo->defaclrole, fout->remoteVersion, q)) pg_fatal("could not parse default ACL list (%s)", daclinfo->dacl.acl); if (daclinfo->dobj.dump & DUMP_COMPONENT_ACL) ArchiveEntry(fout, daclinfo->dobj.catId, daclinfo->dobj.dumpId, ARCHIVE_OPTS(.tag = tag->data, .namespace = daclinfo->dobj.namespace ? daclinfo->dobj.namespace->dobj.name : NULL, .owner = daclinfo->defaclrole, .description = "DEFAULT ACL", .section = SECTION_POST_DATA, .createStmt = q->data)); destroyPQExpBuffer(tag); destroyPQExpBuffer(q); } /*---------- * Write out grant/revoke information * * 'objDumpId' is the dump ID of the underlying object. * 'altDumpId' can be a second dumpId that the ACL entry must also depend on, * or InvalidDumpId if there is no need for a second dependency. * 'type' must be one of * TABLE, SEQUENCE, FUNCTION, LANGUAGE, SCHEMA, DATABASE, TABLESPACE, * FOREIGN DATA WRAPPER, SERVER, or LARGE OBJECT. * 'name' is the formatted name of the object. Must be quoted etc. already. * 'subname' is the formatted name of the sub-object, if any. Must be quoted. * (Currently we assume that subname is only provided for table columns.) * 'nspname' is the namespace the object is in (NULL if none). * 'owner' is the owner, NULL if there is no owner (for languages). * 'dacl' is the DumpableAcl struct fpr the object. * * Returns the dump ID assigned to the ACL TocEntry, or InvalidDumpId if * no ACL entry was created. *---------- */ static DumpId dumpACL(Archive *fout, DumpId objDumpId, DumpId altDumpId, const char *type, const char *name, const char *subname, const char *nspname, const char *owner, const DumpableAcl *dacl) { DumpId aclDumpId = InvalidDumpId; DumpOptions *dopt = fout->dopt; const char *acls = dacl->acl; const char *acldefault = dacl->acldefault; char privtype = dacl->privtype; const char *initprivs = dacl->initprivs; const char *baseacls; PQExpBuffer sql; /* Do nothing if ACL dump is not enabled */ if (dopt->aclsSkip) return InvalidDumpId; /* --data-only skips ACLs *except* large object ACLs */ if (dopt->dataOnly && strcmp(type, "LARGE OBJECT") != 0) return InvalidDumpId; sql = createPQExpBuffer(); /* * In binary upgrade mode, we don't run an extension's script but instead * dump out the objects independently and then recreate them. To preserve * any initial privileges which were set on extension objects, we need to * compute the set of GRANT and REVOKE commands necessary to get from the * default privileges of an object to its initial privileges as recorded * in pg_init_privs. * * At restore time, we apply these commands after having called * binary_upgrade_set_record_init_privs(true). That tells the backend to * copy the results into pg_init_privs. This is how we preserve the * contents of that catalog across binary upgrades. */ if (dopt->binary_upgrade && privtype == 'e' && initprivs && *initprivs != '\0') { appendPQExpBufferStr(sql, "SELECT pg_catalog.binary_upgrade_set_record_init_privs(true);\n"); if (!buildACLCommands(name, subname, nspname, type, initprivs, acldefault, owner, "", fout->remoteVersion, sql)) pg_fatal("could not parse initial ACL list (%s) or default (%s) for object \"%s\" (%s)", initprivs, acldefault, name, type); appendPQExpBufferStr(sql, "SELECT pg_catalog.binary_upgrade_set_record_init_privs(false);\n"); } /* * Now figure the GRANT and REVOKE commands needed to get to the object's * actual current ACL, starting from the initprivs if given, else from the * object-type-specific default. Also, while buildACLCommands will assume * that a NULL/empty acls string means it needn't do anything, what that * actually represents is the object-type-specific default; so we need to * substitute the acldefault string to get the right results in that case. */ if (initprivs && *initprivs != '\0') { baseacls = initprivs; if (acls == NULL || *acls == '\0') acls = acldefault; } else baseacls = acldefault; if (!buildACLCommands(name, subname, nspname, type, acls, baseacls, owner, "", fout->remoteVersion, sql)) pg_fatal("could not parse ACL list (%s) or default (%s) for object \"%s\" (%s)", acls, baseacls, name, type); if (sql->len > 0) { PQExpBuffer tag = createPQExpBuffer(); DumpId aclDeps[2]; int nDeps = 0; if (subname) appendPQExpBuffer(tag, "COLUMN %s.%s", name, subname); else appendPQExpBuffer(tag, "%s %s", type, name); aclDeps[nDeps++] = objDumpId; if (altDumpId != InvalidDumpId) aclDeps[nDeps++] = altDumpId; aclDumpId = createDumpId(); ArchiveEntry(fout, nilCatalogId, aclDumpId, ARCHIVE_OPTS(.tag = tag->data, .namespace = nspname, .owner = owner, .description = "ACL", .section = SECTION_NONE, .createStmt = sql->data, .deps = aclDeps, .nDeps = nDeps)); destroyPQExpBuffer(tag); } destroyPQExpBuffer(sql); return aclDumpId; } /* * dumpSecLabel * * This routine is used to dump any security labels associated with the * object handed to this routine. The routine takes the object type * and object name (ready to print, except for schema decoration), plus * the namespace and owner of the object (for labeling the ArchiveEntry), * plus catalog ID and subid which are the lookup key for pg_seclabel, * plus the dump ID for the object (for setting a dependency). * If a matching pg_seclabel entry is found, it is dumped. * * Note: although this routine takes a dumpId for dependency purposes, * that purpose is just to mark the dependency in the emitted dump file * for possible future use by pg_restore. We do NOT use it for determining * ordering of the label in the dump file, because this routine is called * after dependency sorting occurs. This routine should be called just after * calling ArchiveEntry() for the specified object. */ static void dumpSecLabel(Archive *fout, const char *type, const char *name, const char *namespace, const char *owner, CatalogId catalogId, int subid, DumpId dumpId) { DumpOptions *dopt = fout->dopt; SecLabelItem *labels; int nlabels; int i; PQExpBuffer query; /* do nothing, if --no-security-labels is supplied */ if (dopt->no_security_labels) return; /* * Security labels are schema not data ... except large object labels are * data */ if (strcmp(type, "LARGE OBJECT") != 0) { if (dopt->dataOnly) return; } else { /* We do dump large object security labels in binary-upgrade mode */ if (dopt->schemaOnly && !dopt->binary_upgrade) return; } /* Search for security labels associated with catalogId, using table */ nlabels = findSecLabels(catalogId.tableoid, catalogId.oid, &labels); query = createPQExpBuffer(); for (i = 0; i < nlabels; i++) { /* * Ignore label entries for which the subid doesn't match. */ if (labels[i].objsubid != subid) continue; appendPQExpBuffer(query, "SECURITY LABEL FOR %s ON %s ", fmtId(labels[i].provider), type); if (namespace && *namespace) appendPQExpBuffer(query, "%s.", fmtId(namespace)); appendPQExpBuffer(query, "%s IS ", name); appendStringLiteralAH(query, labels[i].label, fout); appendPQExpBufferStr(query, ";\n"); } if (query->len > 0) { PQExpBuffer tag = createPQExpBuffer(); appendPQExpBuffer(tag, "%s %s", type, name); ArchiveEntry(fout, nilCatalogId, createDumpId(), ARCHIVE_OPTS(.tag = tag->data, .namespace = namespace, .owner = owner, .description = "SECURITY LABEL", .section = SECTION_NONE, .createStmt = query->data, .deps = &dumpId, .nDeps = 1)); destroyPQExpBuffer(tag); } destroyPQExpBuffer(query); } /* * dumpTableSecLabel * * As above, but dump security label for both the specified table (or view) * and its columns. */ static void dumpTableSecLabel(Archive *fout, const TableInfo *tbinfo, const char *reltypename) { DumpOptions *dopt = fout->dopt; SecLabelItem *labels; int nlabels; int i; PQExpBuffer query; PQExpBuffer target; /* do nothing, if --no-security-labels is supplied */ if (dopt->no_security_labels) return; /* SecLabel are SCHEMA not data */ if (dopt->dataOnly) return; /* Search for comments associated with relation, using table */ nlabels = findSecLabels(tbinfo->dobj.catId.tableoid, tbinfo->dobj.catId.oid, &labels); /* If security labels exist, build SECURITY LABEL statements */ if (nlabels <= 0) return; query = createPQExpBuffer(); target = createPQExpBuffer(); for (i = 0; i < nlabels; i++) { const char *colname; const char *provider = labels[i].provider; const char *label = labels[i].label; int objsubid = labels[i].objsubid; resetPQExpBuffer(target); if (objsubid == 0) { appendPQExpBuffer(target, "%s %s", reltypename, fmtQualifiedDumpable(tbinfo)); } else { colname = getAttrName(objsubid, tbinfo); /* first fmtXXX result must be consumed before calling again */ appendPQExpBuffer(target, "COLUMN %s", fmtQualifiedDumpable(tbinfo)); appendPQExpBuffer(target, ".%s", fmtId(colname)); } appendPQExpBuffer(query, "SECURITY LABEL FOR %s ON %s IS ", fmtId(provider), target->data); appendStringLiteralAH(query, label, fout); appendPQExpBufferStr(query, ";\n"); } if (query->len > 0) { resetPQExpBuffer(target); appendPQExpBuffer(target, "%s %s", reltypename, fmtId(tbinfo->dobj.name)); ArchiveEntry(fout, nilCatalogId, createDumpId(), ARCHIVE_OPTS(.tag = target->data, .namespace = tbinfo->dobj.namespace->dobj.name, .owner = tbinfo->rolname, .description = "SECURITY LABEL", .section = SECTION_NONE, .createStmt = query->data, .deps = &(tbinfo->dobj.dumpId), .nDeps = 1)); } destroyPQExpBuffer(query); destroyPQExpBuffer(target); } /* * findSecLabels * * Find the security label(s), if any, associated with the given object. * All the objsubid values associated with the given classoid/objoid are * found with one search. */ static int findSecLabels(Oid classoid, Oid objoid, SecLabelItem **items) { SecLabelItem *middle = NULL; SecLabelItem *low; SecLabelItem *high; int nmatch; if (nseclabels <= 0) /* no labels, so no match is possible */ { *items = NULL; return 0; } /* * Do binary search to find some item matching the object. */ low = &seclabels[0]; high = &seclabels[nseclabels - 1]; while (low <= high) { middle = low + (high - low) / 2; if (classoid < middle->classoid) high = middle - 1; else if (classoid > middle->classoid) low = middle + 1; else if (objoid < middle->objoid) high = middle - 1; else if (objoid > middle->objoid) low = middle + 1; else break; /* found a match */ } if (low > high) /* no matches */ { *items = NULL; return 0; } /* * Now determine how many items match the object. The search loop * invariant still holds: only items between low and high inclusive could * match. */ nmatch = 1; while (middle > low) { if (classoid != middle[-1].classoid || objoid != middle[-1].objoid) break; middle--; nmatch++; } *items = middle; middle += nmatch; while (middle <= high) { if (classoid != middle->classoid || objoid != middle->objoid) break; middle++; nmatch++; } return nmatch; } /* * collectSecLabels * * Construct a table of all security labels available for database objects; * also set the has-seclabel component flag for each relevant object. * * The table is sorted by classoid/objid/objsubid for speed in lookup. */ static void collectSecLabels(Archive *fout) { PGresult *res; PQExpBuffer query; int i_label; int i_provider; int i_classoid; int i_objoid; int i_objsubid; int ntups; int i; DumpableObject *dobj; query = createPQExpBuffer(); appendPQExpBufferStr(query, "SELECT label, provider, classoid, objoid, objsubid " "FROM pg_catalog.pg_seclabel " "ORDER BY classoid, objoid, objsubid"); res = ExecuteSqlQuery(fout, query->data, PGRES_TUPLES_OK); /* Construct lookup table containing OIDs in numeric form */ i_label = PQfnumber(res, "label"); i_provider = PQfnumber(res, "provider"); i_classoid = PQfnumber(res, "classoid"); i_objoid = PQfnumber(res, "objoid"); i_objsubid = PQfnumber(res, "objsubid"); ntups = PQntuples(res); seclabels = (SecLabelItem *) pg_malloc(ntups * sizeof(SecLabelItem)); nseclabels = 0; dobj = NULL; for (i = 0; i < ntups; i++) { CatalogId objId; int subid; objId.tableoid = atooid(PQgetvalue(res, i, i_classoid)); objId.oid = atooid(PQgetvalue(res, i, i_objoid)); subid = atoi(PQgetvalue(res, i, i_objsubid)); /* We needn't remember labels that don't match any dumpable object */ if (dobj == NULL || dobj->catId.tableoid != objId.tableoid || dobj->catId.oid != objId.oid) dobj = findObjectByCatalogId(objId); if (dobj == NULL) continue; /* * Labels on columns of composite types are linked to the type's * pg_class entry, but we need to set the DUMP_COMPONENT_SECLABEL flag * in the type's own DumpableObject. */ if (subid != 0 && dobj->objType == DO_TABLE && ((TableInfo *) dobj)->relkind == RELKIND_COMPOSITE_TYPE) { TypeInfo *cTypeInfo; cTypeInfo = findTypeByOid(((TableInfo *) dobj)->reltype); if (cTypeInfo) cTypeInfo->dobj.components |= DUMP_COMPONENT_SECLABEL; } else dobj->components |= DUMP_COMPONENT_SECLABEL; seclabels[nseclabels].label = pg_strdup(PQgetvalue(res, i, i_label)); seclabels[nseclabels].provider = pg_strdup(PQgetvalue(res, i, i_provider)); seclabels[nseclabels].classoid = objId.tableoid; seclabels[nseclabels].objoid = objId.oid; seclabels[nseclabels].objsubid = subid; nseclabels++; } PQclear(res); destroyPQExpBuffer(query); } /* * dumpTable * write out to fout the declarations (not data) of a user-defined table */ static void dumpTable(Archive *fout, const TableInfo *tbinfo) { DumpOptions *dopt = fout->dopt; DumpId tableAclDumpId = InvalidDumpId; char *namecopy; /* Do nothing in data-only dump */ if (dopt->dataOnly) return; if (tbinfo->dobj.dump & DUMP_COMPONENT_DEFINITION) { if (tbinfo->relkind == RELKIND_SEQUENCE) dumpSequence(fout, tbinfo); else dumpTableSchema(fout, tbinfo); } /* Handle the ACL here */ namecopy = pg_strdup(fmtId(tbinfo->dobj.name)); if (tbinfo->dobj.dump & DUMP_COMPONENT_ACL) { const char *objtype = (tbinfo->relkind == RELKIND_SEQUENCE) ? "SEQUENCE" : "TABLE"; tableAclDumpId = dumpACL(fout, tbinfo->dobj.dumpId, InvalidDumpId, objtype, namecopy, NULL, tbinfo->dobj.namespace->dobj.name, tbinfo->rolname, &tbinfo->dacl); } /* * Handle column ACLs, if any. Note: we pull these with a separate query * rather than trying to fetch them during getTableAttrs, so that we won't * miss ACLs on system columns. Doing it this way also allows us to dump * ACLs for catalogs that we didn't mark "interesting" back in getTables. */ if ((tbinfo->dobj.dump & DUMP_COMPONENT_ACL) && tbinfo->hascolumnACLs) { PQExpBuffer query = createPQExpBuffer(); PGresult *res; int i; if (!fout->is_prepared[PREPQUERY_GETCOLUMNACLS]) { /* Set up query for column ACLs */ appendPQExpBufferStr(query, "PREPARE getColumnACLs(pg_catalog.oid) AS\n"); if (fout->remoteVersion >= 90600) { /* * In principle we should call acldefault('c', relowner) to * get the default ACL for a column. However, we don't * currently store the numeric OID of the relowner in * TableInfo. We could convert the owner name using regrole, * but that creates a risk of failure due to concurrent role * renames. Given that the default ACL for columns is empty * and is likely to stay that way, it's not worth extra cycles * and risk to avoid hard-wiring that knowledge here. */ appendPQExpBufferStr(query, "SELECT at.attname, " "at.attacl, " "'{}' AS acldefault, " "pip.privtype, pip.initprivs " "FROM pg_catalog.pg_attribute at " "LEFT JOIN pg_catalog.pg_init_privs pip ON " "(at.attrelid = pip.objoid " "AND pip.classoid = 'pg_catalog.pg_class'::pg_catalog.regclass " "AND at.attnum = pip.objsubid) " "WHERE at.attrelid = $1 AND " "NOT at.attisdropped " "AND (at.attacl IS NOT NULL OR pip.initprivs IS NOT NULL) " "ORDER BY at.attnum"); } else { appendPQExpBufferStr(query, "SELECT attname, attacl, '{}' AS acldefault, " "NULL AS privtype, NULL AS initprivs " "FROM pg_catalog.pg_attribute " "WHERE attrelid = $1 AND NOT attisdropped " "AND attacl IS NOT NULL " "ORDER BY attnum"); } ExecuteSqlStatement(fout, query->data); fout->is_prepared[PREPQUERY_GETCOLUMNACLS] = true; } printfPQExpBuffer(query, "EXECUTE getColumnACLs('%u')", tbinfo->dobj.catId.oid); res = ExecuteSqlQuery(fout, query->data, PGRES_TUPLES_OK); for (i = 0; i < PQntuples(res); i++) { char *attname = PQgetvalue(res, i, 0); char *attacl = PQgetvalue(res, i, 1); char *acldefault = PQgetvalue(res, i, 2); char privtype = *(PQgetvalue(res, i, 3)); char *initprivs = PQgetvalue(res, i, 4); DumpableAcl coldacl; char *attnamecopy; coldacl.acl = attacl; coldacl.acldefault = acldefault; coldacl.privtype = privtype; coldacl.initprivs = initprivs; attnamecopy = pg_strdup(fmtId(attname)); /* * Column's GRANT type is always TABLE. Each column ACL depends * on the table-level ACL, since we can restore column ACLs in * parallel but the table-level ACL has to be done first. */ dumpACL(fout, tbinfo->dobj.dumpId, tableAclDumpId, "TABLE", namecopy, attnamecopy, tbinfo->dobj.namespace->dobj.name, tbinfo->rolname, &coldacl); free(attnamecopy); } PQclear(res); destroyPQExpBuffer(query); } free(namecopy); } /* * Create the AS clause for a view or materialized view. The semicolon is * stripped because a materialized view must add a WITH NO DATA clause. * * This returns a new buffer which must be freed by the caller. */ static PQExpBuffer createViewAsClause(Archive *fout, const TableInfo *tbinfo) { PQExpBuffer query = createPQExpBuffer(); PQExpBuffer result = createPQExpBuffer(); PGresult *res; int len; /* Fetch the view definition */ appendPQExpBuffer(query, "SELECT pg_catalog.pg_get_viewdef('%u'::pg_catalog.oid) AS viewdef", tbinfo->dobj.catId.oid); res = ExecuteSqlQuery(fout, query->data, PGRES_TUPLES_OK); if (PQntuples(res) != 1) { if (PQntuples(res) < 1) pg_fatal("query to obtain definition of view \"%s\" returned no data", tbinfo->dobj.name); else pg_fatal("query to obtain definition of view \"%s\" returned more than one definition", tbinfo->dobj.name); } len = PQgetlength(res, 0, 0); if (len == 0) pg_fatal("definition of view \"%s\" appears to be empty (length zero)", tbinfo->dobj.name); /* Strip off the trailing semicolon so that other things may follow. */ Assert(PQgetvalue(res, 0, 0)[len - 1] == ';'); appendBinaryPQExpBuffer(result, PQgetvalue(res, 0, 0), len - 1); PQclear(res); destroyPQExpBuffer(query); return result; } /* * Create a dummy AS clause for a view. This is used when the real view * definition has to be postponed because of circular dependencies. * We must duplicate the view's external properties -- column names and types * (including collation) -- so that it works for subsequent references. * * This returns a new buffer which must be freed by the caller. */ static PQExpBuffer createDummyViewAsClause(Archive *fout, const TableInfo *tbinfo) { PQExpBuffer result = createPQExpBuffer(); int j; appendPQExpBufferStr(result, "SELECT"); for (j = 0; j < tbinfo->numatts; j++) { if (j > 0) appendPQExpBufferChar(result, ','); appendPQExpBufferStr(result, "\n "); appendPQExpBuffer(result, "NULL::%s", tbinfo->atttypnames[j]); /* * Must add collation if not default for the type, because CREATE OR * REPLACE VIEW won't change it */ if (OidIsValid(tbinfo->attcollation[j])) { CollInfo *coll; coll = findCollationByOid(tbinfo->attcollation[j]); if (coll) appendPQExpBuffer(result, " COLLATE %s", fmtQualifiedDumpable(coll)); } appendPQExpBuffer(result, " AS %s", fmtId(tbinfo->attnames[j])); } return result; } /* * dumpTableSchema * write the declaration (not data) of one user-defined table or view */ static void dumpTableSchema(Archive *fout, const TableInfo *tbinfo) { DumpOptions *dopt = fout->dopt; PQExpBuffer q = createPQExpBuffer(); PQExpBuffer delq = createPQExpBuffer(); char *qrelname; char *qualrelname; int numParents; TableInfo **parents; int actual_atts; /* number of attrs in this CREATE statement */ const char *reltypename; char *storage; int j, k; /* We had better have loaded per-column details about this table */ Assert(tbinfo->interesting); qrelname = pg_strdup(fmtId(tbinfo->dobj.name)); qualrelname = pg_strdup(fmtQualifiedDumpable(tbinfo)); if (tbinfo->hasoids) pg_log_warning("WITH OIDS is not supported anymore (table \"%s\")", qrelname); if (dopt->binary_upgrade) binary_upgrade_set_type_oids_by_rel(fout, q, tbinfo); /* Is it a table or a view? */ if (tbinfo->relkind == RELKIND_VIEW) { PQExpBuffer result; /* * Note: keep this code in sync with the is_view case in dumpRule() */ reltypename = "VIEW"; appendPQExpBuffer(delq, "DROP VIEW %s;\n", qualrelname); if (dopt->binary_upgrade) binary_upgrade_set_pg_class_oids(fout, q, tbinfo->dobj.catId.oid, false); appendPQExpBuffer(q, "CREATE VIEW %s", qualrelname); if (tbinfo->dummy_view) result = createDummyViewAsClause(fout, tbinfo); else { if (nonemptyReloptions(tbinfo->reloptions)) { appendPQExpBufferStr(q, " WITH ("); appendReloptionsArrayAH(q, tbinfo->reloptions, "", fout); appendPQExpBufferChar(q, ')'); } result = createViewAsClause(fout, tbinfo); } appendPQExpBuffer(q, " AS\n%s", result->data); destroyPQExpBuffer(result); if (tbinfo->checkoption != NULL && !tbinfo->dummy_view) appendPQExpBuffer(q, "\n WITH %s CHECK OPTION", tbinfo->checkoption); appendPQExpBufferStr(q, ";\n"); } else { char *partkeydef = NULL; char *ftoptions = NULL; char *srvname = NULL; char *foreign = ""; /* * Set reltypename, and collect any relkind-specific data that we * didn't fetch during getTables(). */ switch (tbinfo->relkind) { case RELKIND_PARTITIONED_TABLE: { PQExpBuffer query = createPQExpBuffer(); PGresult *res; reltypename = "TABLE"; /* retrieve partition key definition */ appendPQExpBuffer(query, "SELECT pg_get_partkeydef('%u')", tbinfo->dobj.catId.oid); res = ExecuteSqlQueryForSingleRow(fout, query->data); partkeydef = pg_strdup(PQgetvalue(res, 0, 0)); PQclear(res); destroyPQExpBuffer(query); break; } case RELKIND_FOREIGN_TABLE: { PQExpBuffer query = createPQExpBuffer(); PGresult *res; int i_srvname; int i_ftoptions; reltypename = "FOREIGN TABLE"; /* retrieve name of foreign server and generic options */ appendPQExpBuffer(query, "SELECT fs.srvname, " "pg_catalog.array_to_string(ARRAY(" "SELECT pg_catalog.quote_ident(option_name) || " "' ' || pg_catalog.quote_literal(option_value) " "FROM pg_catalog.pg_options_to_table(ftoptions) " "ORDER BY option_name" "), E',\n ') AS ftoptions " "FROM pg_catalog.pg_foreign_table ft " "JOIN pg_catalog.pg_foreign_server fs " "ON (fs.oid = ft.ftserver) " "WHERE ft.ftrelid = '%u'", tbinfo->dobj.catId.oid); res = ExecuteSqlQueryForSingleRow(fout, query->data); i_srvname = PQfnumber(res, "srvname"); i_ftoptions = PQfnumber(res, "ftoptions"); srvname = pg_strdup(PQgetvalue(res, 0, i_srvname)); ftoptions = pg_strdup(PQgetvalue(res, 0, i_ftoptions)); PQclear(res); destroyPQExpBuffer(query); foreign = "FOREIGN "; break; } case RELKIND_MATVIEW: reltypename = "MATERIALIZED VIEW"; break; default: reltypename = "TABLE"; break; } numParents = tbinfo->numParents; parents = tbinfo->parents; appendPQExpBuffer(delq, "DROP %s %s;\n", reltypename, qualrelname); if (dopt->binary_upgrade) binary_upgrade_set_pg_class_oids(fout, q, tbinfo->dobj.catId.oid, false); appendPQExpBuffer(q, "CREATE %s%s %s", tbinfo->relpersistence == RELPERSISTENCE_UNLOGGED ? "UNLOGGED " : "", reltypename, qualrelname); /* * Attach to type, if reloftype; except in case of a binary upgrade, * we dump the table normally and attach it to the type afterward. */ if (OidIsValid(tbinfo->reloftype) && !dopt->binary_upgrade) appendPQExpBuffer(q, " OF %s", getFormattedTypeName(fout, tbinfo->reloftype, zeroIsError)); if (tbinfo->relkind != RELKIND_MATVIEW) { /* Dump the attributes */ actual_atts = 0; for (j = 0; j < tbinfo->numatts; j++) { /* * Normally, dump if it's locally defined in this table, and * not dropped. But for binary upgrade, we'll dump all the * columns, and then fix up the dropped and nonlocal cases * below. */ if (shouldPrintColumn(dopt, tbinfo, j)) { bool print_default; bool print_notnull; /* * Default value --- suppress if to be printed separately * or not at all. */ print_default = (tbinfo->attrdefs[j] != NULL && tbinfo->attrdefs[j]->dobj.dump && !tbinfo->attrdefs[j]->separate); /* * Not Null constraint --- suppress if inherited, except * if partition, or in binary-upgrade case where that * won't work. */ print_notnull = (tbinfo->notnull[j] && (!tbinfo->inhNotNull[j] || tbinfo->ispartition || dopt->binary_upgrade)); /* * Skip column if fully defined by reloftype, except in * binary upgrade */ if (OidIsValid(tbinfo->reloftype) && !print_default && !print_notnull && !dopt->binary_upgrade) continue; /* Format properly if not first attr */ if (actual_atts == 0) appendPQExpBufferStr(q, " ("); else appendPQExpBufferChar(q, ','); appendPQExpBufferStr(q, "\n "); actual_atts++; /* Attribute name */ appendPQExpBufferStr(q, fmtId(tbinfo->attnames[j])); if (tbinfo->attisdropped[j]) { /* * ALTER TABLE DROP COLUMN clears * pg_attribute.atttypid, so we will not have gotten a * valid type name; insert INTEGER as a stopgap. We'll * clean things up later. */ appendPQExpBufferStr(q, " INTEGER /* dummy */"); /* and skip to the next column */ continue; } /* * Attribute type; print it except when creating a typed * table ('OF type_name'), but in binary-upgrade mode, * print it in that case too. */ if (dopt->binary_upgrade || !OidIsValid(tbinfo->reloftype)) { appendPQExpBuffer(q, " %s", tbinfo->atttypnames[j]); } if (print_default) { if (tbinfo->attgenerated[j] == ATTRIBUTE_GENERATED_STORED) appendPQExpBuffer(q, " GENERATED ALWAYS AS (%s) STORED", tbinfo->attrdefs[j]->adef_expr); else appendPQExpBuffer(q, " DEFAULT %s", tbinfo->attrdefs[j]->adef_expr); } if (print_notnull) appendPQExpBufferStr(q, " NOT NULL"); /* Add collation if not default for the type */ if (OidIsValid(tbinfo->attcollation[j])) { CollInfo *coll; coll = findCollationByOid(tbinfo->attcollation[j]); if (coll) appendPQExpBuffer(q, " COLLATE %s", fmtQualifiedDumpable(coll)); } } } /* * Add non-inherited CHECK constraints, if any. * * For partitions, we need to include check constraints even if * they're not defined locally, because the ALTER TABLE ATTACH * PARTITION that we'll emit later expects the constraint to be * there. (No need to fix conislocal: ATTACH PARTITION does that) */ for (j = 0; j < tbinfo->ncheck; j++) { ConstraintInfo *constr = &(tbinfo->checkexprs[j]); if (constr->separate || (!constr->conislocal && !tbinfo->ispartition)) continue; if (actual_atts == 0) appendPQExpBufferStr(q, " (\n "); else appendPQExpBufferStr(q, ",\n "); appendPQExpBuffer(q, "CONSTRAINT %s ", fmtId(constr->dobj.name)); appendPQExpBufferStr(q, constr->condef); actual_atts++; } if (actual_atts) appendPQExpBufferStr(q, "\n)"); else if (!(OidIsValid(tbinfo->reloftype) && !dopt->binary_upgrade)) { /* * No attributes? we must have a parenthesized attribute list, * even though empty, when not using the OF TYPE syntax. */ appendPQExpBufferStr(q, " (\n)"); } /* * Emit the INHERITS clause (not for partitions), except in * binary-upgrade mode. */ if (numParents > 0 && !tbinfo->ispartition && !dopt->binary_upgrade) { appendPQExpBufferStr(q, "\nINHERITS ("); for (k = 0; k < numParents; k++) { TableInfo *parentRel = parents[k]; if (k > 0) appendPQExpBufferStr(q, ", "); appendPQExpBufferStr(q, fmtQualifiedDumpable(parentRel)); } appendPQExpBufferChar(q, ')'); } if (tbinfo->relkind == RELKIND_PARTITIONED_TABLE) appendPQExpBuffer(q, "\nPARTITION BY %s", partkeydef); if (tbinfo->relkind == RELKIND_FOREIGN_TABLE) appendPQExpBuffer(q, "\nSERVER %s", fmtId(srvname)); } if (nonemptyReloptions(tbinfo->reloptions) || nonemptyReloptions(tbinfo->toast_reloptions)) { bool addcomma = false; appendPQExpBufferStr(q, "\nWITH ("); if (nonemptyReloptions(tbinfo->reloptions)) { addcomma = true; appendReloptionsArrayAH(q, tbinfo->reloptions, "", fout); } if (nonemptyReloptions(tbinfo->toast_reloptions)) { if (addcomma) appendPQExpBufferStr(q, ", "); appendReloptionsArrayAH(q, tbinfo->toast_reloptions, "toast.", fout); } appendPQExpBufferChar(q, ')'); } /* Dump generic options if any */ if (ftoptions && ftoptions[0]) appendPQExpBuffer(q, "\nOPTIONS (\n %s\n)", ftoptions); /* * For materialized views, create the AS clause just like a view. At * this point, we always mark the view as not populated. */ if (tbinfo->relkind == RELKIND_MATVIEW) { PQExpBuffer result; result = createViewAsClause(fout, tbinfo); appendPQExpBuffer(q, " AS\n%s\n WITH NO DATA;\n", result->data); destroyPQExpBuffer(result); } else appendPQExpBufferStr(q, ";\n"); /* Materialized views can depend on extensions */ if (tbinfo->relkind == RELKIND_MATVIEW) append_depends_on_extension(fout, q, &tbinfo->dobj, "pg_catalog.pg_class", "MATERIALIZED VIEW", qualrelname); /* * in binary upgrade mode, update the catalog with any missing values * that might be present. */ if (dopt->binary_upgrade) { for (j = 0; j < tbinfo->numatts; j++) { if (tbinfo->attmissingval[j][0] != '\0') { appendPQExpBufferStr(q, "\n-- set missing value.\n"); appendPQExpBufferStr(q, "SELECT pg_catalog.binary_upgrade_set_missing_value("); appendStringLiteralAH(q, qualrelname, fout); appendPQExpBufferStr(q, "::pg_catalog.regclass,"); appendStringLiteralAH(q, tbinfo->attnames[j], fout); appendPQExpBufferChar(q, ','); appendStringLiteralAH(q, tbinfo->attmissingval[j], fout); appendPQExpBufferStr(q, ");\n\n"); } } } /* * To create binary-compatible heap files, we have to ensure the same * physical column order, including dropped columns, as in the * original. Therefore, we create dropped columns above and drop them * here, also updating their attlen/attalign values so that the * dropped column can be skipped properly. (We do not bother with * restoring the original attbyval setting.) Also, inheritance * relationships are set up by doing ALTER TABLE INHERIT rather than * using an INHERITS clause --- the latter would possibly mess up the * column order. That also means we have to take care about setting * attislocal correctly, plus fix up any inherited CHECK constraints. * Analogously, we set up typed tables using ALTER TABLE / OF here. * * We process foreign and partitioned tables here, even though they * lack heap storage, because they can participate in inheritance * relationships and we want this stuff to be consistent across the * inheritance tree. We can exclude indexes, toast tables, sequences * and matviews, even though they have storage, because we don't * support altering or dropping columns in them, nor can they be part * of inheritance trees. */ if (dopt->binary_upgrade && (tbinfo->relkind == RELKIND_RELATION || tbinfo->relkind == RELKIND_FOREIGN_TABLE || tbinfo->relkind == RELKIND_PARTITIONED_TABLE)) { for (j = 0; j < tbinfo->numatts; j++) { if (tbinfo->attisdropped[j]) { appendPQExpBufferStr(q, "\n-- For binary upgrade, recreate dropped column.\n"); appendPQExpBuffer(q, "UPDATE pg_catalog.pg_attribute\n" "SET attlen = %d, " "attalign = '%c', attbyval = false\n" "WHERE attname = ", tbinfo->attlen[j], tbinfo->attalign[j]); appendStringLiteralAH(q, tbinfo->attnames[j], fout); appendPQExpBufferStr(q, "\n AND attrelid = "); appendStringLiteralAH(q, qualrelname, fout); appendPQExpBufferStr(q, "::pg_catalog.regclass;\n"); if (tbinfo->relkind == RELKIND_RELATION || tbinfo->relkind == RELKIND_PARTITIONED_TABLE) appendPQExpBuffer(q, "ALTER TABLE ONLY %s ", qualrelname); else appendPQExpBuffer(q, "ALTER FOREIGN TABLE ONLY %s ", qualrelname); appendPQExpBuffer(q, "DROP COLUMN %s;\n", fmtId(tbinfo->attnames[j])); } else if (!tbinfo->attislocal[j]) { appendPQExpBufferStr(q, "\n-- For binary upgrade, recreate inherited column.\n"); appendPQExpBufferStr(q, "UPDATE pg_catalog.pg_attribute\n" "SET attislocal = false\n" "WHERE attname = "); appendStringLiteralAH(q, tbinfo->attnames[j], fout); appendPQExpBufferStr(q, "\n AND attrelid = "); appendStringLiteralAH(q, qualrelname, fout); appendPQExpBufferStr(q, "::pg_catalog.regclass;\n"); } } /* * Add inherited CHECK constraints, if any. * * For partitions, they were already dumped, and conislocal * doesn't need fixing. */ for (k = 0; k < tbinfo->ncheck; k++) { ConstraintInfo *constr = &(tbinfo->checkexprs[k]); if (constr->separate || constr->conislocal || tbinfo->ispartition) continue; appendPQExpBufferStr(q, "\n-- For binary upgrade, set up inherited constraint.\n"); appendPQExpBuffer(q, "ALTER %sTABLE ONLY %s ADD CONSTRAINT %s %s;\n", foreign, qualrelname, fmtId(constr->dobj.name), constr->condef); appendPQExpBufferStr(q, "UPDATE pg_catalog.pg_constraint\n" "SET conislocal = false\n" "WHERE contype = 'c' AND conname = "); appendStringLiteralAH(q, constr->dobj.name, fout); appendPQExpBufferStr(q, "\n AND conrelid = "); appendStringLiteralAH(q, qualrelname, fout); appendPQExpBufferStr(q, "::pg_catalog.regclass;\n"); } if (numParents > 0 && !tbinfo->ispartition) { appendPQExpBufferStr(q, "\n-- For binary upgrade, set up inheritance this way.\n"); for (k = 0; k < numParents; k++) { TableInfo *parentRel = parents[k]; appendPQExpBuffer(q, "ALTER %sTABLE ONLY %s INHERIT %s;\n", foreign, qualrelname, fmtQualifiedDumpable(parentRel)); } } if (OidIsValid(tbinfo->reloftype)) { appendPQExpBufferStr(q, "\n-- For binary upgrade, set up typed tables this way.\n"); appendPQExpBuffer(q, "ALTER TABLE ONLY %s OF %s;\n", qualrelname, getFormattedTypeName(fout, tbinfo->reloftype, zeroIsError)); } } /* * In binary_upgrade mode, arrange to restore the old relfrozenxid and * relminmxid of all vacuumable relations. (While vacuum.c processes * TOAST tables semi-independently, here we see them only as children * of other relations; so this "if" lacks RELKIND_TOASTVALUE, and the * child toast table is handled below.) */ if (dopt->binary_upgrade && (tbinfo->relkind == RELKIND_RELATION || tbinfo->relkind == RELKIND_MATVIEW)) { appendPQExpBufferStr(q, "\n-- For binary upgrade, set heap's relfrozenxid and relminmxid\n"); appendPQExpBuffer(q, "UPDATE pg_catalog.pg_class\n" "SET relfrozenxid = '%u', relminmxid = '%u'\n" "WHERE oid = ", tbinfo->frozenxid, tbinfo->minmxid); appendStringLiteralAH(q, qualrelname, fout); appendPQExpBufferStr(q, "::pg_catalog.regclass;\n"); if (tbinfo->toast_oid) { /* * The toast table will have the same OID at restore, so we * can safely target it by OID. */ appendPQExpBufferStr(q, "\n-- For binary upgrade, set toast's relfrozenxid and relminmxid\n"); appendPQExpBuffer(q, "UPDATE pg_catalog.pg_class\n" "SET relfrozenxid = '%u', relminmxid = '%u'\n" "WHERE oid = '%u';\n", tbinfo->toast_frozenxid, tbinfo->toast_minmxid, tbinfo->toast_oid); } } /* * In binary_upgrade mode, restore matviews' populated status by * poking pg_class directly. This is pretty ugly, but we can't use * REFRESH MATERIALIZED VIEW since it's possible that some underlying * matview is not populated even though this matview is; in any case, * we want to transfer the matview's heap storage, not run REFRESH. */ if (dopt->binary_upgrade && tbinfo->relkind == RELKIND_MATVIEW && tbinfo->relispopulated) { appendPQExpBufferStr(q, "\n-- For binary upgrade, mark materialized view as populated\n"); appendPQExpBufferStr(q, "UPDATE pg_catalog.pg_class\n" "SET relispopulated = 't'\n" "WHERE oid = "); appendStringLiteralAH(q, qualrelname, fout); appendPQExpBufferStr(q, "::pg_catalog.regclass;\n"); } /* * Dump additional per-column properties that we can't handle in the * main CREATE TABLE command. */ for (j = 0; j < tbinfo->numatts; j++) { /* None of this applies to dropped columns */ if (tbinfo->attisdropped[j]) continue; /* * If we didn't dump the column definition explicitly above, and * it is NOT NULL and did not inherit that property from a parent, * we have to mark it separately. */ if (!shouldPrintColumn(dopt, tbinfo, j) && tbinfo->notnull[j] && !tbinfo->inhNotNull[j]) appendPQExpBuffer(q, "ALTER %sTABLE ONLY %s ALTER COLUMN %s SET NOT NULL;\n", foreign, qualrelname, fmtId(tbinfo->attnames[j])); /* * Dump per-column statistics information. We only issue an ALTER * TABLE statement if the attstattarget entry for this column is * non-negative (i.e. it's not the default value) */ if (tbinfo->attstattarget[j] >= 0) appendPQExpBuffer(q, "ALTER %sTABLE ONLY %s ALTER COLUMN %s SET STATISTICS %d;\n", foreign, qualrelname, fmtId(tbinfo->attnames[j]), tbinfo->attstattarget[j]); /* * Dump per-column storage information. The statement is only * dumped if the storage has been changed from the type's default. */ if (tbinfo->attstorage[j] != tbinfo->typstorage[j]) { switch (tbinfo->attstorage[j]) { case TYPSTORAGE_PLAIN: storage = "PLAIN"; break; case TYPSTORAGE_EXTERNAL: storage = "EXTERNAL"; break; case TYPSTORAGE_EXTENDED: storage = "EXTENDED"; break; case TYPSTORAGE_MAIN: storage = "MAIN"; break; default: storage = NULL; } /* * Only dump the statement if it's a storage type we recognize */ if (storage != NULL) appendPQExpBuffer(q, "ALTER %sTABLE ONLY %s ALTER COLUMN %s SET STORAGE %s;\n", foreign, qualrelname, fmtId(tbinfo->attnames[j]), storage); } /* * Dump per-column compression, if it's been set. */ if (!dopt->no_toast_compression) { const char *cmname; switch (tbinfo->attcompression[j]) { case 'p': cmname = "pglz"; break; case 'l': cmname = "lz4"; break; default: cmname = NULL; break; } if (cmname != NULL) appendPQExpBuffer(q, "ALTER %sTABLE ONLY %s ALTER COLUMN %s SET COMPRESSION %s;\n", foreign, qualrelname, fmtId(tbinfo->attnames[j]), cmname); } /* * Dump per-column attributes. */ if (tbinfo->attoptions[j][0] != '\0') appendPQExpBuffer(q, "ALTER %sTABLE ONLY %s ALTER COLUMN %s SET (%s);\n", foreign, qualrelname, fmtId(tbinfo->attnames[j]), tbinfo->attoptions[j]); /* * Dump per-column fdw options. */ if (tbinfo->relkind == RELKIND_FOREIGN_TABLE && tbinfo->attfdwoptions[j][0] != '\0') appendPQExpBuffer(q, "ALTER FOREIGN TABLE %s ALTER COLUMN %s OPTIONS (\n" " %s\n" ");\n", qualrelname, fmtId(tbinfo->attnames[j]), tbinfo->attfdwoptions[j]); } /* end loop over columns */ free(partkeydef); free(ftoptions); free(srvname); } /* * dump properties we only have ALTER TABLE syntax for */ if ((tbinfo->relkind == RELKIND_RELATION || tbinfo->relkind == RELKIND_PARTITIONED_TABLE || tbinfo->relkind == RELKIND_MATVIEW) && tbinfo->relreplident != REPLICA_IDENTITY_DEFAULT) { if (tbinfo->relreplident == REPLICA_IDENTITY_INDEX) { /* nothing to do, will be set when the index is dumped */ } else if (tbinfo->relreplident == REPLICA_IDENTITY_NOTHING) { appendPQExpBuffer(q, "\nALTER TABLE ONLY %s REPLICA IDENTITY NOTHING;\n", qualrelname); } else if (tbinfo->relreplident == REPLICA_IDENTITY_FULL) { appendPQExpBuffer(q, "\nALTER TABLE ONLY %s REPLICA IDENTITY FULL;\n", qualrelname); } } if (tbinfo->forcerowsec) appendPQExpBuffer(q, "\nALTER TABLE ONLY %s FORCE ROW LEVEL SECURITY;\n", qualrelname); if (dopt->binary_upgrade) binary_upgrade_extension_member(q, &tbinfo->dobj, reltypename, qrelname, tbinfo->dobj.namespace->dobj.name); if (tbinfo->dobj.dump & DUMP_COMPONENT_DEFINITION) { char *tablespace = NULL; char *tableam = NULL; /* * _selectTablespace() relies on tablespace-enabled objects in the * default tablespace to have a tablespace of "" (empty string) versus * non-tablespace-enabled objects to have a tablespace of NULL. * getTables() sets tbinfo->reltablespace to "" for the default * tablespace (not NULL). */ if (RELKIND_HAS_TABLESPACE(tbinfo->relkind)) tablespace = tbinfo->reltablespace; if (RELKIND_HAS_TABLE_AM(tbinfo->relkind)) tableam = tbinfo->amname; ArchiveEntry(fout, tbinfo->dobj.catId, tbinfo->dobj.dumpId, ARCHIVE_OPTS(.tag = tbinfo->dobj.name, .namespace = tbinfo->dobj.namespace->dobj.name, .tablespace = tablespace, .tableam = tableam, .owner = tbinfo->rolname, .description = reltypename, .section = tbinfo->postponed_def ? SECTION_POST_DATA : SECTION_PRE_DATA, .createStmt = q->data, .dropStmt = delq->data)); } /* Dump Table Comments */ if (tbinfo->dobj.dump & DUMP_COMPONENT_COMMENT) dumpTableComment(fout, tbinfo, reltypename); /* Dump Table Security Labels */ if (tbinfo->dobj.dump & DUMP_COMPONENT_SECLABEL) dumpTableSecLabel(fout, tbinfo, reltypename); /* Dump comments on inlined table constraints */ for (j = 0; j < tbinfo->ncheck; j++) { ConstraintInfo *constr = &(tbinfo->checkexprs[j]); if (constr->separate || !constr->conislocal) continue; if (constr->dobj.dump & DUMP_COMPONENT_COMMENT) dumpTableConstraintComment(fout, constr); } destroyPQExpBuffer(q); destroyPQExpBuffer(delq); free(qrelname); free(qualrelname); } /* * dumpTableAttach * write to fout the commands to attach a child partition * * Child partitions are always made by creating them separately * and then using ATTACH PARTITION, rather than using * CREATE TABLE ... PARTITION OF. This is important for preserving * any possible discrepancy in column layout, to allow assigning the * correct tablespace if different, and so that it's possible to restore * a partition without restoring its parent. (You'll get an error from * the ATTACH PARTITION command, but that can be ignored, or skipped * using "pg_restore -L" if you prefer.) The last point motivates * treating ATTACH PARTITION as a completely separate ArchiveEntry * rather than emitting it within the child partition's ArchiveEntry. */ static void dumpTableAttach(Archive *fout, const TableAttachInfo *attachinfo) { DumpOptions *dopt = fout->dopt; PQExpBuffer q; PGresult *res; char *partbound; /* Do nothing in data-only dump */ if (dopt->dataOnly) return; q = createPQExpBuffer(); if (!fout->is_prepared[PREPQUERY_DUMPTABLEATTACH]) { /* Set up query for partbound details */ appendPQExpBufferStr(q, "PREPARE dumpTableAttach(pg_catalog.oid) AS\n"); appendPQExpBufferStr(q, "SELECT pg_get_expr(c.relpartbound, c.oid) " "FROM pg_class c " "WHERE c.oid = $1"); ExecuteSqlStatement(fout, q->data); fout->is_prepared[PREPQUERY_DUMPTABLEATTACH] = true; } printfPQExpBuffer(q, "EXECUTE dumpTableAttach('%u')", attachinfo->partitionTbl->dobj.catId.oid); res = ExecuteSqlQueryForSingleRow(fout, q->data); partbound = PQgetvalue(res, 0, 0); /* Perform ALTER TABLE on the parent */ printfPQExpBuffer(q, "ALTER TABLE ONLY %s ", fmtQualifiedDumpable(attachinfo->parentTbl)); appendPQExpBuffer(q, "ATTACH PARTITION %s %s;\n", fmtQualifiedDumpable(attachinfo->partitionTbl), partbound); /* * There is no point in creating a drop query as the drop is done by table * drop. (If you think to change this, see also _printTocEntry().) * Although this object doesn't really have ownership as such, set the * owner field anyway to ensure that the command is run by the correct * role at restore time. */ ArchiveEntry(fout, attachinfo->dobj.catId, attachinfo->dobj.dumpId, ARCHIVE_OPTS(.tag = attachinfo->dobj.name, .namespace = attachinfo->dobj.namespace->dobj.name, .owner = attachinfo->partitionTbl->rolname, .description = "TABLE ATTACH", .section = SECTION_PRE_DATA, .createStmt = q->data)); PQclear(res); destroyPQExpBuffer(q); } /* * dumpAttrDef --- dump an attribute's default-value declaration */ static void dumpAttrDef(Archive *fout, const AttrDefInfo *adinfo) { DumpOptions *dopt = fout->dopt; TableInfo *tbinfo = adinfo->adtable; int adnum = adinfo->adnum; PQExpBuffer q; PQExpBuffer delq; char *qualrelname; char *tag; char *foreign; /* Do nothing in data-only dump */ if (dopt->dataOnly) return; /* Skip if not "separate"; it was dumped in the table's definition */ if (!adinfo->separate) return; q = createPQExpBuffer(); delq = createPQExpBuffer(); qualrelname = pg_strdup(fmtQualifiedDumpable(tbinfo)); foreign = tbinfo->relkind == RELKIND_FOREIGN_TABLE ? "FOREIGN " : ""; appendPQExpBuffer(q, "ALTER %sTABLE ONLY %s ALTER COLUMN %s SET DEFAULT %s;\n", foreign, qualrelname, fmtId(tbinfo->attnames[adnum - 1]), adinfo->adef_expr); appendPQExpBuffer(delq, "ALTER %sTABLE %s ALTER COLUMN %s DROP DEFAULT;\n", foreign, qualrelname, fmtId(tbinfo->attnames[adnum - 1])); tag = psprintf("%s %s", tbinfo->dobj.name, tbinfo->attnames[adnum - 1]); if (adinfo->dobj.dump & DUMP_COMPONENT_DEFINITION) ArchiveEntry(fout, adinfo->dobj.catId, adinfo->dobj.dumpId, ARCHIVE_OPTS(.tag = tag, .namespace = tbinfo->dobj.namespace->dobj.name, .owner = tbinfo->rolname, .description = "DEFAULT", .section = SECTION_PRE_DATA, .createStmt = q->data, .dropStmt = delq->data)); free(tag); destroyPQExpBuffer(q); destroyPQExpBuffer(delq); free(qualrelname); } /* * getAttrName: extract the correct name for an attribute * * The array tblInfo->attnames[] only provides names of user attributes; * if a system attribute number is supplied, we have to fake it. * We also do a little bit of bounds checking for safety's sake. */ static const char * getAttrName(int attrnum, const TableInfo *tblInfo) { if (attrnum > 0 && attrnum <= tblInfo->numatts) return tblInfo->attnames[attrnum - 1]; switch (attrnum) { case SelfItemPointerAttributeNumber: return "ctid"; case MinTransactionIdAttributeNumber: return "xmin"; case MinCommandIdAttributeNumber: return "cmin"; case MaxTransactionIdAttributeNumber: return "xmax"; case MaxCommandIdAttributeNumber: return "cmax"; case TableOidAttributeNumber: return "tableoid"; } pg_fatal("invalid column number %d for table \"%s\"", attrnum, tblInfo->dobj.name); return NULL; /* keep compiler quiet */ } /* * dumpIndex * write out to fout a user-defined index */ static void dumpIndex(Archive *fout, const IndxInfo *indxinfo) { DumpOptions *dopt = fout->dopt; TableInfo *tbinfo = indxinfo->indextable; bool is_constraint = (indxinfo->indexconstraint != 0); PQExpBuffer q; PQExpBuffer delq; char *qindxname; char *qqindxname; /* Do nothing in data-only dump */ if (dopt->dataOnly) return; q = createPQExpBuffer(); delq = createPQExpBuffer(); qindxname = pg_strdup(fmtId(indxinfo->dobj.name)); qqindxname = pg_strdup(fmtQualifiedDumpable(indxinfo)); /* * If there's an associated constraint, don't dump the index per se, but * do dump any comment for it. (This is safe because dependency ordering * will have ensured the constraint is emitted first.) Note that the * emitted comment has to be shown as depending on the constraint, not the * index, in such cases. */ if (!is_constraint) { char *indstatcols = indxinfo->indstatcols; char *indstatvals = indxinfo->indstatvals; char **indstatcolsarray = NULL; char **indstatvalsarray = NULL; int nstatcols = 0; int nstatvals = 0; if (dopt->binary_upgrade) binary_upgrade_set_pg_class_oids(fout, q, indxinfo->dobj.catId.oid, true); /* Plain secondary index */ appendPQExpBuffer(q, "%s;\n", indxinfo->indexdef); /* * Append ALTER TABLE commands as needed to set properties that we * only have ALTER TABLE syntax for. Keep this in sync with the * similar code in dumpConstraint! */ /* If the index is clustered, we need to record that. */ if (indxinfo->indisclustered) { appendPQExpBuffer(q, "\nALTER TABLE %s CLUSTER", fmtQualifiedDumpable(tbinfo)); /* index name is not qualified in this syntax */ appendPQExpBuffer(q, " ON %s;\n", qindxname); } /* * If the index has any statistics on some of its columns, generate * the associated ALTER INDEX queries. */ if (strlen(indstatcols) != 0 || strlen(indstatvals) != 0) { int j; if (!parsePGArray(indstatcols, &indstatcolsarray, &nstatcols)) pg_fatal("could not parse index statistic columns"); if (!parsePGArray(indstatvals, &indstatvalsarray, &nstatvals)) pg_fatal("could not parse index statistic values"); if (nstatcols != nstatvals) pg_fatal("mismatched number of columns and values for index statistics"); for (j = 0; j < nstatcols; j++) { appendPQExpBuffer(q, "ALTER INDEX %s ", qqindxname); /* * Note that this is a column number, so no quotes should be * used. */ appendPQExpBuffer(q, "ALTER COLUMN %s ", indstatcolsarray[j]); appendPQExpBuffer(q, "SET STATISTICS %s;\n", indstatvalsarray[j]); } } /* Indexes can depend on extensions */ append_depends_on_extension(fout, q, &indxinfo->dobj, "pg_catalog.pg_class", "INDEX", qqindxname); /* If the index defines identity, we need to record that. */ if (indxinfo->indisreplident) { appendPQExpBuffer(q, "\nALTER TABLE ONLY %s REPLICA IDENTITY USING", fmtQualifiedDumpable(tbinfo)); /* index name is not qualified in this syntax */ appendPQExpBuffer(q, " INDEX %s;\n", qindxname); } appendPQExpBuffer(delq, "DROP INDEX %s;\n", qqindxname); if (indxinfo->dobj.dump & DUMP_COMPONENT_DEFINITION) ArchiveEntry(fout, indxinfo->dobj.catId, indxinfo->dobj.dumpId, ARCHIVE_OPTS(.tag = indxinfo->dobj.name, .namespace = tbinfo->dobj.namespace->dobj.name, .tablespace = indxinfo->tablespace, .owner = tbinfo->rolname, .description = "INDEX", .section = SECTION_POST_DATA, .createStmt = q->data, .dropStmt = delq->data)); free(indstatcolsarray); free(indstatvalsarray); } /* Dump Index Comments */ if (indxinfo->dobj.dump & DUMP_COMPONENT_COMMENT) dumpComment(fout, "INDEX", qindxname, tbinfo->dobj.namespace->dobj.name, tbinfo->rolname, indxinfo->dobj.catId, 0, is_constraint ? indxinfo->indexconstraint : indxinfo->dobj.dumpId); destroyPQExpBuffer(q); destroyPQExpBuffer(delq); free(qindxname); free(qqindxname); } /* * dumpIndexAttach * write out to fout a partitioned-index attachment clause */ static void dumpIndexAttach(Archive *fout, const IndexAttachInfo *attachinfo) { /* Do nothing in data-only dump */ if (fout->dopt->dataOnly) return; if (attachinfo->partitionIdx->dobj.dump & DUMP_COMPONENT_DEFINITION) { PQExpBuffer q = createPQExpBuffer(); appendPQExpBuffer(q, "ALTER INDEX %s ", fmtQualifiedDumpable(attachinfo->parentIdx)); appendPQExpBuffer(q, "ATTACH PARTITION %s;\n", fmtQualifiedDumpable(attachinfo->partitionIdx)); /* * There is no point in creating a drop query as the drop is done by * index drop. (If you think to change this, see also * _printTocEntry().) Although this object doesn't really have * ownership as such, set the owner field anyway to ensure that the * command is run by the correct role at restore time. */ ArchiveEntry(fout, attachinfo->dobj.catId, attachinfo->dobj.dumpId, ARCHIVE_OPTS(.tag = attachinfo->dobj.name, .namespace = attachinfo->dobj.namespace->dobj.name, .owner = attachinfo->parentIdx->indextable->rolname, .description = "INDEX ATTACH", .section = SECTION_POST_DATA, .createStmt = q->data)); destroyPQExpBuffer(q); } } /* * dumpStatisticsExt * write out to fout an extended statistics object */ static void dumpStatisticsExt(Archive *fout, const StatsExtInfo *statsextinfo) { DumpOptions *dopt = fout->dopt; PQExpBuffer q; PQExpBuffer delq; PQExpBuffer query; char *qstatsextname; PGresult *res; char *stxdef; /* Do nothing in data-only dump */ if (dopt->dataOnly) return; q = createPQExpBuffer(); delq = createPQExpBuffer(); query = createPQExpBuffer(); qstatsextname = pg_strdup(fmtId(statsextinfo->dobj.name)); appendPQExpBuffer(query, "SELECT " "pg_catalog.pg_get_statisticsobjdef('%u'::pg_catalog.oid)", statsextinfo->dobj.catId.oid); res = ExecuteSqlQueryForSingleRow(fout, query->data); stxdef = PQgetvalue(res, 0, 0); /* Result of pg_get_statisticsobjdef is complete except for semicolon */ appendPQExpBuffer(q, "%s;\n", stxdef); /* * We only issue an ALTER STATISTICS statement if the stxstattarget entry * for this statistics object is non-negative (i.e. it's not the default * value). */ if (statsextinfo->stattarget >= 0) { appendPQExpBuffer(q, "ALTER STATISTICS %s ", fmtQualifiedDumpable(statsextinfo)); appendPQExpBuffer(q, "SET STATISTICS %d;\n", statsextinfo->stattarget); } appendPQExpBuffer(delq, "DROP STATISTICS %s;\n", fmtQualifiedDumpable(statsextinfo)); if (statsextinfo->dobj.dump & DUMP_COMPONENT_DEFINITION) ArchiveEntry(fout, statsextinfo->dobj.catId, statsextinfo->dobj.dumpId, ARCHIVE_OPTS(.tag = statsextinfo->dobj.name, .namespace = statsextinfo->dobj.namespace->dobj.name, .owner = statsextinfo->rolname, .description = "STATISTICS", .section = SECTION_POST_DATA, .createStmt = q->data, .dropStmt = delq->data)); /* Dump Statistics Comments */ if (statsextinfo->dobj.dump & DUMP_COMPONENT_COMMENT) dumpComment(fout, "STATISTICS", qstatsextname, statsextinfo->dobj.namespace->dobj.name, statsextinfo->rolname, statsextinfo->dobj.catId, 0, statsextinfo->dobj.dumpId); PQclear(res); destroyPQExpBuffer(q); destroyPQExpBuffer(delq); destroyPQExpBuffer(query); free(qstatsextname); } /* * dumpConstraint * write out to fout a user-defined constraint */ static void dumpConstraint(Archive *fout, const ConstraintInfo *coninfo) { DumpOptions *dopt = fout->dopt; TableInfo *tbinfo = coninfo->contable; PQExpBuffer q; PQExpBuffer delq; char *tag = NULL; char *foreign; /* Do nothing in data-only dump */ if (dopt->dataOnly) return; q = createPQExpBuffer(); delq = createPQExpBuffer(); foreign = tbinfo && tbinfo->relkind == RELKIND_FOREIGN_TABLE ? "FOREIGN " : ""; if (coninfo->contype == 'p' || coninfo->contype == 'u' || coninfo->contype == 'x') { /* Index-related constraint */ IndxInfo *indxinfo; int k; indxinfo = (IndxInfo *) findObjectByDumpId(coninfo->conindex); if (indxinfo == NULL) pg_fatal("missing index for constraint \"%s\"", coninfo->dobj.name); if (dopt->binary_upgrade) binary_upgrade_set_pg_class_oids(fout, q, indxinfo->dobj.catId.oid, true); appendPQExpBuffer(q, "ALTER %sTABLE ONLY %s\n", foreign, fmtQualifiedDumpable(tbinfo)); appendPQExpBuffer(q, " ADD CONSTRAINT %s ", fmtId(coninfo->dobj.name)); if (coninfo->condef) { /* pg_get_constraintdef should have provided everything */ appendPQExpBuffer(q, "%s;\n", coninfo->condef); } else { appendPQExpBufferStr(q, coninfo->contype == 'p' ? "PRIMARY KEY" : "UNIQUE"); /* * PRIMARY KEY constraints should not be using NULLS NOT DISTINCT * indexes. Being able to create this was fixed, but we need to * make the index distinct in order to be able to restore the * dump. */ if (indxinfo->indnullsnotdistinct && coninfo->contype != 'p') appendPQExpBufferStr(q, " NULLS NOT DISTINCT"); appendPQExpBufferStr(q, " ("); for (k = 0; k < indxinfo->indnkeyattrs; k++) { int indkey = (int) indxinfo->indkeys[k]; const char *attname; if (indkey == InvalidAttrNumber) break; attname = getAttrName(indkey, tbinfo); appendPQExpBuffer(q, "%s%s", (k == 0) ? "" : ", ", fmtId(attname)); } if (indxinfo->indnkeyattrs < indxinfo->indnattrs) appendPQExpBufferStr(q, ") INCLUDE ("); for (k = indxinfo->indnkeyattrs; k < indxinfo->indnattrs; k++) { int indkey = (int) indxinfo->indkeys[k]; const char *attname; if (indkey == InvalidAttrNumber) break; attname = getAttrName(indkey, tbinfo); appendPQExpBuffer(q, "%s%s", (k == indxinfo->indnkeyattrs) ? "" : ", ", fmtId(attname)); } appendPQExpBufferChar(q, ')'); if (nonemptyReloptions(indxinfo->indreloptions)) { appendPQExpBufferStr(q, " WITH ("); appendReloptionsArrayAH(q, indxinfo->indreloptions, "", fout); appendPQExpBufferChar(q, ')'); } if (coninfo->condeferrable) { appendPQExpBufferStr(q, " DEFERRABLE"); if (coninfo->condeferred) appendPQExpBufferStr(q, " INITIALLY DEFERRED"); } appendPQExpBufferStr(q, ";\n"); } /* * Append ALTER TABLE commands as needed to set properties that we * only have ALTER TABLE syntax for. Keep this in sync with the * similar code in dumpIndex! */ /* If the index is clustered, we need to record that. */ if (indxinfo->indisclustered) { appendPQExpBuffer(q, "\nALTER TABLE %s CLUSTER", fmtQualifiedDumpable(tbinfo)); /* index name is not qualified in this syntax */ appendPQExpBuffer(q, " ON %s;\n", fmtId(indxinfo->dobj.name)); } /* If the index defines identity, we need to record that. */ if (indxinfo->indisreplident) { appendPQExpBuffer(q, "\nALTER TABLE ONLY %s REPLICA IDENTITY USING", fmtQualifiedDumpable(tbinfo)); /* index name is not qualified in this syntax */ appendPQExpBuffer(q, " INDEX %s;\n", fmtId(indxinfo->dobj.name)); } /* Indexes can depend on extensions */ append_depends_on_extension(fout, q, &indxinfo->dobj, "pg_catalog.pg_class", "INDEX", fmtQualifiedDumpable(indxinfo)); appendPQExpBuffer(delq, "ALTER %sTABLE ONLY %s ", foreign, fmtQualifiedDumpable(tbinfo)); appendPQExpBuffer(delq, "DROP CONSTRAINT %s;\n", fmtId(coninfo->dobj.name)); tag = psprintf("%s %s", tbinfo->dobj.name, coninfo->dobj.name); if (coninfo->dobj.dump & DUMP_COMPONENT_DEFINITION) ArchiveEntry(fout, coninfo->dobj.catId, coninfo->dobj.dumpId, ARCHIVE_OPTS(.tag = tag, .namespace = tbinfo->dobj.namespace->dobj.name, .tablespace = indxinfo->tablespace, .owner = tbinfo->rolname, .description = "CONSTRAINT", .section = SECTION_POST_DATA, .createStmt = q->data, .dropStmt = delq->data)); } else if (coninfo->contype == 'f') { char *only; /* * Foreign keys on partitioned tables are always declared as * inheriting to partitions; for all other cases, emit them as * applying ONLY directly to the named table, because that's how they * work for regular inherited tables. */ only = tbinfo->relkind == RELKIND_PARTITIONED_TABLE ? "" : "ONLY "; /* * XXX Potentially wrap in a 'SET CONSTRAINTS OFF' block so that the * current table data is not processed */ appendPQExpBuffer(q, "ALTER %sTABLE %s%s\n", foreign, only, fmtQualifiedDumpable(tbinfo)); appendPQExpBuffer(q, " ADD CONSTRAINT %s %s;\n", fmtId(coninfo->dobj.name), coninfo->condef); appendPQExpBuffer(delq, "ALTER %sTABLE %s%s ", foreign, only, fmtQualifiedDumpable(tbinfo)); appendPQExpBuffer(delq, "DROP CONSTRAINT %s;\n", fmtId(coninfo->dobj.name)); tag = psprintf("%s %s", tbinfo->dobj.name, coninfo->dobj.name); if (coninfo->dobj.dump & DUMP_COMPONENT_DEFINITION) ArchiveEntry(fout, coninfo->dobj.catId, coninfo->dobj.dumpId, ARCHIVE_OPTS(.tag = tag, .namespace = tbinfo->dobj.namespace->dobj.name, .owner = tbinfo->rolname, .description = "FK CONSTRAINT", .section = SECTION_POST_DATA, .createStmt = q->data, .dropStmt = delq->data)); } else if (coninfo->contype == 'c' && tbinfo) { /* CHECK constraint on a table */ /* Ignore if not to be dumped separately, or if it was inherited */ if (coninfo->separate && coninfo->conislocal) { /* not ONLY since we want it to propagate to children */ appendPQExpBuffer(q, "ALTER %sTABLE %s\n", foreign, fmtQualifiedDumpable(tbinfo)); appendPQExpBuffer(q, " ADD CONSTRAINT %s %s;\n", fmtId(coninfo->dobj.name), coninfo->condef); appendPQExpBuffer(delq, "ALTER %sTABLE %s ", foreign, fmtQualifiedDumpable(tbinfo)); appendPQExpBuffer(delq, "DROP CONSTRAINT %s;\n", fmtId(coninfo->dobj.name)); tag = psprintf("%s %s", tbinfo->dobj.name, coninfo->dobj.name); if (coninfo->dobj.dump & DUMP_COMPONENT_DEFINITION) ArchiveEntry(fout, coninfo->dobj.catId, coninfo->dobj.dumpId, ARCHIVE_OPTS(.tag = tag, .namespace = tbinfo->dobj.namespace->dobj.name, .owner = tbinfo->rolname, .description = "CHECK CONSTRAINT", .section = SECTION_POST_DATA, .createStmt = q->data, .dropStmt = delq->data)); } } else if (coninfo->contype == 'c' && tbinfo == NULL) { /* CHECK constraint on a domain */ TypeInfo *tyinfo = coninfo->condomain; /* Ignore if not to be dumped separately */ if (coninfo->separate) { appendPQExpBuffer(q, "ALTER DOMAIN %s\n", fmtQualifiedDumpable(tyinfo)); appendPQExpBuffer(q, " ADD CONSTRAINT %s %s;\n", fmtId(coninfo->dobj.name), coninfo->condef); appendPQExpBuffer(delq, "ALTER DOMAIN %s ", fmtQualifiedDumpable(tyinfo)); appendPQExpBuffer(delq, "DROP CONSTRAINT %s;\n", fmtId(coninfo->dobj.name)); tag = psprintf("%s %s", tyinfo->dobj.name, coninfo->dobj.name); if (coninfo->dobj.dump & DUMP_COMPONENT_DEFINITION) ArchiveEntry(fout, coninfo->dobj.catId, coninfo->dobj.dumpId, ARCHIVE_OPTS(.tag = tag, .namespace = tyinfo->dobj.namespace->dobj.name, .owner = tyinfo->rolname, .description = "CHECK CONSTRAINT", .section = SECTION_POST_DATA, .createStmt = q->data, .dropStmt = delq->data)); } } else { pg_fatal("unrecognized constraint type: %c", coninfo->contype); } /* Dump Constraint Comments --- only works for table constraints */ if (tbinfo && coninfo->separate && coninfo->dobj.dump & DUMP_COMPONENT_COMMENT) dumpTableConstraintComment(fout, coninfo); free(tag); destroyPQExpBuffer(q); destroyPQExpBuffer(delq); } /* * dumpTableConstraintComment --- dump a constraint's comment if any * * This is split out because we need the function in two different places * depending on whether the constraint is dumped as part of CREATE TABLE * or as a separate ALTER command. */ static void dumpTableConstraintComment(Archive *fout, const ConstraintInfo *coninfo) { TableInfo *tbinfo = coninfo->contable; PQExpBuffer conprefix = createPQExpBuffer(); char *qtabname; qtabname = pg_strdup(fmtId(tbinfo->dobj.name)); appendPQExpBuffer(conprefix, "CONSTRAINT %s ON", fmtId(coninfo->dobj.name)); if (coninfo->dobj.dump & DUMP_COMPONENT_COMMENT) dumpComment(fout, conprefix->data, qtabname, tbinfo->dobj.namespace->dobj.name, tbinfo->rolname, coninfo->dobj.catId, 0, coninfo->separate ? coninfo->dobj.dumpId : tbinfo->dobj.dumpId); destroyPQExpBuffer(conprefix); free(qtabname); } /* * dumpSequence * write the declaration (not data) of one user-defined sequence */ static void dumpSequence(Archive *fout, const TableInfo *tbinfo) { DumpOptions *dopt = fout->dopt; PGresult *res; char *startv, *incby, *maxv, *minv, *cache, *seqtype; bool cycled; bool is_ascending; int64 default_minv, default_maxv; char bufm[32], bufx[32]; PQExpBuffer query = createPQExpBuffer(); PQExpBuffer delqry = createPQExpBuffer(); char *qseqname; TableInfo *owning_tab = NULL; qseqname = pg_strdup(fmtId(tbinfo->dobj.name)); if (fout->remoteVersion >= 100000) { appendPQExpBuffer(query, "SELECT format_type(seqtypid, NULL), " "seqstart, seqincrement, " "seqmax, seqmin, " "seqcache, seqcycle " "FROM pg_catalog.pg_sequence " "WHERE seqrelid = '%u'::oid", tbinfo->dobj.catId.oid); } else { /* * Before PostgreSQL 10, sequence metadata is in the sequence itself. * * Note: it might seem that 'bigint' potentially needs to be * schema-qualified, but actually that's a keyword. */ appendPQExpBuffer(query, "SELECT 'bigint' AS sequence_type, " "start_value, increment_by, max_value, min_value, " "cache_value, is_cycled FROM %s", fmtQualifiedDumpable(tbinfo)); } res = ExecuteSqlQuery(fout, query->data, PGRES_TUPLES_OK); if (PQntuples(res) != 1) pg_fatal(ngettext("query to get data of sequence \"%s\" returned %d row (expected 1)", "query to get data of sequence \"%s\" returned %d rows (expected 1)", PQntuples(res)), tbinfo->dobj.name, PQntuples(res)); seqtype = PQgetvalue(res, 0, 0); startv = PQgetvalue(res, 0, 1); incby = PQgetvalue(res, 0, 2); maxv = PQgetvalue(res, 0, 3); minv = PQgetvalue(res, 0, 4); cache = PQgetvalue(res, 0, 5); cycled = (strcmp(PQgetvalue(res, 0, 6), "t") == 0); /* Calculate default limits for a sequence of this type */ is_ascending = (incby[0] != '-'); if (strcmp(seqtype, "smallint") == 0) { default_minv = is_ascending ? 1 : PG_INT16_MIN; default_maxv = is_ascending ? PG_INT16_MAX : -1; } else if (strcmp(seqtype, "integer") == 0) { default_minv = is_ascending ? 1 : PG_INT32_MIN; default_maxv = is_ascending ? PG_INT32_MAX : -1; } else if (strcmp(seqtype, "bigint") == 0) { default_minv = is_ascending ? 1 : PG_INT64_MIN; default_maxv = is_ascending ? PG_INT64_MAX : -1; } else { pg_fatal("unrecognized sequence type: %s", seqtype); default_minv = default_maxv = 0; /* keep compiler quiet */ } /* * 64-bit strtol() isn't very portable, so convert the limits to strings * and compare that way. */ snprintf(bufm, sizeof(bufm), INT64_FORMAT, default_minv); snprintf(bufx, sizeof(bufx), INT64_FORMAT, default_maxv); /* Don't print minv/maxv if they match the respective default limit */ if (strcmp(minv, bufm) == 0) minv = NULL; if (strcmp(maxv, bufx) == 0) maxv = NULL; /* * Identity sequences are not to be dropped separately. */ if (!tbinfo->is_identity_sequence) { appendPQExpBuffer(delqry, "DROP SEQUENCE %s;\n", fmtQualifiedDumpable(tbinfo)); } resetPQExpBuffer(query); if (dopt->binary_upgrade) { binary_upgrade_set_pg_class_oids(fout, query, tbinfo->dobj.catId.oid, false); /* * In older PG versions a sequence will have a pg_type entry, but v14 * and up don't use that, so don't attempt to preserve the type OID. */ } if (tbinfo->is_identity_sequence) { owning_tab = findTableByOid(tbinfo->owning_tab); appendPQExpBuffer(query, "ALTER TABLE %s ", fmtQualifiedDumpable(owning_tab)); appendPQExpBuffer(query, "ALTER COLUMN %s ADD GENERATED ", fmtId(owning_tab->attnames[tbinfo->owning_col - 1])); if (owning_tab->attidentity[tbinfo->owning_col - 1] == ATTRIBUTE_IDENTITY_ALWAYS) appendPQExpBufferStr(query, "ALWAYS"); else if (owning_tab->attidentity[tbinfo->owning_col - 1] == ATTRIBUTE_IDENTITY_BY_DEFAULT) appendPQExpBufferStr(query, "BY DEFAULT"); appendPQExpBuffer(query, " AS IDENTITY (\n SEQUENCE NAME %s\n", fmtQualifiedDumpable(tbinfo)); } else { appendPQExpBuffer(query, "CREATE %sSEQUENCE %s\n", tbinfo->relpersistence == RELPERSISTENCE_UNLOGGED ? "UNLOGGED " : "", fmtQualifiedDumpable(tbinfo)); if (strcmp(seqtype, "bigint") != 0) appendPQExpBuffer(query, " AS %s\n", seqtype); } appendPQExpBuffer(query, " START WITH %s\n", startv); appendPQExpBuffer(query, " INCREMENT BY %s\n", incby); if (minv) appendPQExpBuffer(query, " MINVALUE %s\n", minv); else appendPQExpBufferStr(query, " NO MINVALUE\n"); if (maxv) appendPQExpBuffer(query, " MAXVALUE %s\n", maxv); else appendPQExpBufferStr(query, " NO MAXVALUE\n"); appendPQExpBuffer(query, " CACHE %s%s", cache, (cycled ? "\n CYCLE" : "")); if (tbinfo->is_identity_sequence) { appendPQExpBufferStr(query, "\n);\n"); if (tbinfo->relpersistence != owning_tab->relpersistence) appendPQExpBuffer(query, "ALTER SEQUENCE %s SET %s;\n", fmtQualifiedDumpable(tbinfo), tbinfo->relpersistence == RELPERSISTENCE_UNLOGGED ? "UNLOGGED" : "LOGGED"); } else appendPQExpBufferStr(query, ";\n"); /* binary_upgrade: no need to clear TOAST table oid */ if (dopt->binary_upgrade) binary_upgrade_extension_member(query, &tbinfo->dobj, "SEQUENCE", qseqname, tbinfo->dobj.namespace->dobj.name); if (tbinfo->dobj.dump & DUMP_COMPONENT_DEFINITION) ArchiveEntry(fout, tbinfo->dobj.catId, tbinfo->dobj.dumpId, ARCHIVE_OPTS(.tag = tbinfo->dobj.name, .namespace = tbinfo->dobj.namespace->dobj.name, .owner = tbinfo->rolname, .description = "SEQUENCE", .section = SECTION_PRE_DATA, .createStmt = query->data, .dropStmt = delqry->data)); /* * If the sequence is owned by a table column, emit the ALTER for it as a * separate TOC entry immediately following the sequence's own entry. It's * OK to do this rather than using full sorting logic, because the * dependency that tells us it's owned will have forced the table to be * created first. We can't just include the ALTER in the TOC entry * because it will fail if we haven't reassigned the sequence owner to * match the table's owner. * * We need not schema-qualify the table reference because both sequence * and table must be in the same schema. */ if (OidIsValid(tbinfo->owning_tab) && !tbinfo->is_identity_sequence) { owning_tab = findTableByOid(tbinfo->owning_tab); if (owning_tab == NULL) pg_fatal("failed sanity check, parent table with OID %u of sequence with OID %u not found", tbinfo->owning_tab, tbinfo->dobj.catId.oid); if (owning_tab->dobj.dump & DUMP_COMPONENT_DEFINITION) { resetPQExpBuffer(query); appendPQExpBuffer(query, "ALTER SEQUENCE %s", fmtQualifiedDumpable(tbinfo)); appendPQExpBuffer(query, " OWNED BY %s", fmtQualifiedDumpable(owning_tab)); appendPQExpBuffer(query, ".%s;\n", fmtId(owning_tab->attnames[tbinfo->owning_col - 1])); if (tbinfo->dobj.dump & DUMP_COMPONENT_DEFINITION) ArchiveEntry(fout, nilCatalogId, createDumpId(), ARCHIVE_OPTS(.tag = tbinfo->dobj.name, .namespace = tbinfo->dobj.namespace->dobj.name, .owner = tbinfo->rolname, .description = "SEQUENCE OWNED BY", .section = SECTION_PRE_DATA, .createStmt = query->data, .deps = &(tbinfo->dobj.dumpId), .nDeps = 1)); } } /* Dump Sequence Comments and Security Labels */ if (tbinfo->dobj.dump & DUMP_COMPONENT_COMMENT) dumpComment(fout, "SEQUENCE", qseqname, tbinfo->dobj.namespace->dobj.name, tbinfo->rolname, tbinfo->dobj.catId, 0, tbinfo->dobj.dumpId); if (tbinfo->dobj.dump & DUMP_COMPONENT_SECLABEL) dumpSecLabel(fout, "SEQUENCE", qseqname, tbinfo->dobj.namespace->dobj.name, tbinfo->rolname, tbinfo->dobj.catId, 0, tbinfo->dobj.dumpId); PQclear(res); destroyPQExpBuffer(query); destroyPQExpBuffer(delqry); free(qseqname); } /* * dumpSequenceData * write the data of one user-defined sequence */ static void dumpSequenceData(Archive *fout, const TableDataInfo *tdinfo) { TableInfo *tbinfo = tdinfo->tdtable; PGresult *res; char *last; bool called; PQExpBuffer query = createPQExpBuffer(); appendPQExpBuffer(query, "SELECT last_value, is_called FROM %s", fmtQualifiedDumpable(tbinfo)); res = ExecuteSqlQuery(fout, query->data, PGRES_TUPLES_OK); if (PQntuples(res) != 1) pg_fatal(ngettext("query to get data of sequence \"%s\" returned %d row (expected 1)", "query to get data of sequence \"%s\" returned %d rows (expected 1)", PQntuples(res)), tbinfo->dobj.name, PQntuples(res)); last = PQgetvalue(res, 0, 0); called = (strcmp(PQgetvalue(res, 0, 1), "t") == 0); resetPQExpBuffer(query); appendPQExpBufferStr(query, "SELECT pg_catalog.setval("); appendStringLiteralAH(query, fmtQualifiedDumpable(tbinfo), fout); appendPQExpBuffer(query, ", %s, %s);\n", last, (called ? "true" : "false")); if (tdinfo->dobj.dump & DUMP_COMPONENT_DATA) ArchiveEntry(fout, nilCatalogId, createDumpId(), ARCHIVE_OPTS(.tag = tbinfo->dobj.name, .namespace = tbinfo->dobj.namespace->dobj.name, .owner = tbinfo->rolname, .description = "SEQUENCE SET", .section = SECTION_DATA, .createStmt = query->data, .deps = &(tbinfo->dobj.dumpId), .nDeps = 1)); PQclear(res); destroyPQExpBuffer(query); } /* * dumpTrigger * write the declaration of one user-defined table trigger */ static void dumpTrigger(Archive *fout, const TriggerInfo *tginfo) { DumpOptions *dopt = fout->dopt; TableInfo *tbinfo = tginfo->tgtable; PQExpBuffer query; PQExpBuffer delqry; PQExpBuffer trigprefix; PQExpBuffer trigidentity; char *qtabname; char *tgargs; size_t lentgargs; const char *p; int findx; char *tag; /* Do nothing in data-only dump */ if (dopt->dataOnly) return; query = createPQExpBuffer(); delqry = createPQExpBuffer(); trigprefix = createPQExpBuffer(); trigidentity = createPQExpBuffer(); qtabname = pg_strdup(fmtId(tbinfo->dobj.name)); appendPQExpBuffer(trigidentity, "%s ", fmtId(tginfo->dobj.name)); appendPQExpBuffer(trigidentity, "ON %s", fmtQualifiedDumpable(tbinfo)); appendPQExpBuffer(delqry, "DROP TRIGGER %s;\n", trigidentity->data); if (tginfo->tgdef) { appendPQExpBuffer(query, "%s;\n", tginfo->tgdef); } else { if (tginfo->tgisconstraint) { appendPQExpBufferStr(query, "CREATE CONSTRAINT TRIGGER "); appendPQExpBufferStr(query, fmtId(tginfo->tgconstrname)); } else { appendPQExpBufferStr(query, "CREATE TRIGGER "); appendPQExpBufferStr(query, fmtId(tginfo->dobj.name)); } appendPQExpBufferStr(query, "\n "); /* Trigger type */ if (TRIGGER_FOR_BEFORE(tginfo->tgtype)) appendPQExpBufferStr(query, "BEFORE"); else if (TRIGGER_FOR_AFTER(tginfo->tgtype)) appendPQExpBufferStr(query, "AFTER"); else if (TRIGGER_FOR_INSTEAD(tginfo->tgtype)) appendPQExpBufferStr(query, "INSTEAD OF"); else pg_fatal("unexpected tgtype value: %d", tginfo->tgtype); findx = 0; if (TRIGGER_FOR_INSERT(tginfo->tgtype)) { appendPQExpBufferStr(query, " INSERT"); findx++; } if (TRIGGER_FOR_DELETE(tginfo->tgtype)) { if (findx > 0) appendPQExpBufferStr(query, " OR DELETE"); else appendPQExpBufferStr(query, " DELETE"); findx++; } if (TRIGGER_FOR_UPDATE(tginfo->tgtype)) { if (findx > 0) appendPQExpBufferStr(query, " OR UPDATE"); else appendPQExpBufferStr(query, " UPDATE"); findx++; } if (TRIGGER_FOR_TRUNCATE(tginfo->tgtype)) { if (findx > 0) appendPQExpBufferStr(query, " OR TRUNCATE"); else appendPQExpBufferStr(query, " TRUNCATE"); findx++; } appendPQExpBuffer(query, " ON %s\n", fmtQualifiedDumpable(tbinfo)); if (tginfo->tgisconstraint) { if (OidIsValid(tginfo->tgconstrrelid)) { /* regclass output is already quoted */ appendPQExpBuffer(query, " FROM %s\n ", tginfo->tgconstrrelname); } if (!tginfo->tgdeferrable) appendPQExpBufferStr(query, "NOT "); appendPQExpBufferStr(query, "DEFERRABLE INITIALLY "); if (tginfo->tginitdeferred) appendPQExpBufferStr(query, "DEFERRED\n"); else appendPQExpBufferStr(query, "IMMEDIATE\n"); } if (TRIGGER_FOR_ROW(tginfo->tgtype)) appendPQExpBufferStr(query, " FOR EACH ROW\n "); else appendPQExpBufferStr(query, " FOR EACH STATEMENT\n "); /* regproc output is already sufficiently quoted */ appendPQExpBuffer(query, "EXECUTE FUNCTION %s(", tginfo->tgfname); tgargs = (char *) PQunescapeBytea((unsigned char *) tginfo->tgargs, &lentgargs); p = tgargs; for (findx = 0; findx < tginfo->tgnargs; findx++) { /* find the embedded null that terminates this trigger argument */ size_t tlen = strlen(p); if (p + tlen >= tgargs + lentgargs) { /* hm, not found before end of bytea value... */ pg_fatal("invalid argument string (%s) for trigger \"%s\" on table \"%s\"", tginfo->tgargs, tginfo->dobj.name, tbinfo->dobj.name); } if (findx > 0) appendPQExpBufferStr(query, ", "); appendStringLiteralAH(query, p, fout); p += tlen + 1; } free(tgargs); appendPQExpBufferStr(query, ");\n"); } /* Triggers can depend on extensions */ append_depends_on_extension(fout, query, &tginfo->dobj, "pg_catalog.pg_trigger", "TRIGGER", trigidentity->data); if (tginfo->tgispartition) { Assert(tbinfo->ispartition); /* * Partition triggers only appear here because their 'tgenabled' flag * differs from its parent's. The trigger is created already, so * remove the CREATE and replace it with an ALTER. (Clear out the * DROP query too, so that pg_dump --create does not cause errors.) */ resetPQExpBuffer(query); resetPQExpBuffer(delqry); appendPQExpBuffer(query, "\nALTER %sTABLE %s ", tbinfo->relkind == RELKIND_FOREIGN_TABLE ? "FOREIGN " : "", fmtQualifiedDumpable(tbinfo)); switch (tginfo->tgenabled) { case 'f': case 'D': appendPQExpBufferStr(query, "DISABLE"); break; case 't': case 'O': appendPQExpBufferStr(query, "ENABLE"); break; case 'R': appendPQExpBufferStr(query, "ENABLE REPLICA"); break; case 'A': appendPQExpBufferStr(query, "ENABLE ALWAYS"); break; } appendPQExpBuffer(query, " TRIGGER %s;\n", fmtId(tginfo->dobj.name)); } else if (tginfo->tgenabled != 't' && tginfo->tgenabled != 'O') { appendPQExpBuffer(query, "\nALTER %sTABLE %s ", tbinfo->relkind == RELKIND_FOREIGN_TABLE ? "FOREIGN " : "", fmtQualifiedDumpable(tbinfo)); switch (tginfo->tgenabled) { case 'D': case 'f': appendPQExpBufferStr(query, "DISABLE"); break; case 'A': appendPQExpBufferStr(query, "ENABLE ALWAYS"); break; case 'R': appendPQExpBufferStr(query, "ENABLE REPLICA"); break; default: appendPQExpBufferStr(query, "ENABLE"); break; } appendPQExpBuffer(query, " TRIGGER %s;\n", fmtId(tginfo->dobj.name)); } appendPQExpBuffer(trigprefix, "TRIGGER %s ON", fmtId(tginfo->dobj.name)); tag = psprintf("%s %s", tbinfo->dobj.name, tginfo->dobj.name); if (tginfo->dobj.dump & DUMP_COMPONENT_DEFINITION) ArchiveEntry(fout, tginfo->dobj.catId, tginfo->dobj.dumpId, ARCHIVE_OPTS(.tag = tag, .namespace = tbinfo->dobj.namespace->dobj.name, .owner = tbinfo->rolname, .description = "TRIGGER", .section = SECTION_POST_DATA, .createStmt = query->data, .dropStmt = delqry->data)); if (tginfo->dobj.dump & DUMP_COMPONENT_COMMENT) dumpComment(fout, trigprefix->data, qtabname, tbinfo->dobj.namespace->dobj.name, tbinfo->rolname, tginfo->dobj.catId, 0, tginfo->dobj.dumpId); free(tag); destroyPQExpBuffer(query); destroyPQExpBuffer(delqry); destroyPQExpBuffer(trigprefix); destroyPQExpBuffer(trigidentity); free(qtabname); } /* * dumpEventTrigger * write the declaration of one user-defined event trigger */ static void dumpEventTrigger(Archive *fout, const EventTriggerInfo *evtinfo) { DumpOptions *dopt = fout->dopt; PQExpBuffer query; PQExpBuffer delqry; char *qevtname; /* Do nothing in data-only dump */ if (dopt->dataOnly) return; query = createPQExpBuffer(); delqry = createPQExpBuffer(); qevtname = pg_strdup(fmtId(evtinfo->dobj.name)); appendPQExpBufferStr(query, "CREATE EVENT TRIGGER "); appendPQExpBufferStr(query, qevtname); appendPQExpBufferStr(query, " ON "); appendPQExpBufferStr(query, fmtId(evtinfo->evtevent)); if (strcmp("", evtinfo->evttags) != 0) { appendPQExpBufferStr(query, "\n WHEN TAG IN ("); appendPQExpBufferStr(query, evtinfo->evttags); appendPQExpBufferChar(query, ')'); } appendPQExpBufferStr(query, "\n EXECUTE FUNCTION "); appendPQExpBufferStr(query, evtinfo->evtfname); appendPQExpBufferStr(query, "();\n"); if (evtinfo->evtenabled != 'O') { appendPQExpBuffer(query, "\nALTER EVENT TRIGGER %s ", qevtname); switch (evtinfo->evtenabled) { case 'D': appendPQExpBufferStr(query, "DISABLE"); break; case 'A': appendPQExpBufferStr(query, "ENABLE ALWAYS"); break; case 'R': appendPQExpBufferStr(query, "ENABLE REPLICA"); break; default: appendPQExpBufferStr(query, "ENABLE"); break; } appendPQExpBufferStr(query, ";\n"); } appendPQExpBuffer(delqry, "DROP EVENT TRIGGER %s;\n", qevtname); if (dopt->binary_upgrade) binary_upgrade_extension_member(query, &evtinfo->dobj, "EVENT TRIGGER", qevtname, NULL); if (evtinfo->dobj.dump & DUMP_COMPONENT_DEFINITION) ArchiveEntry(fout, evtinfo->dobj.catId, evtinfo->dobj.dumpId, ARCHIVE_OPTS(.tag = evtinfo->dobj.name, .owner = evtinfo->evtowner, .description = "EVENT TRIGGER", .section = SECTION_POST_DATA, .createStmt = query->data, .dropStmt = delqry->data)); if (evtinfo->dobj.dump & DUMP_COMPONENT_COMMENT) dumpComment(fout, "EVENT TRIGGER", qevtname, NULL, evtinfo->evtowner, evtinfo->dobj.catId, 0, evtinfo->dobj.dumpId); destroyPQExpBuffer(query); destroyPQExpBuffer(delqry); free(qevtname); } /* * dumpRule * Dump a rule */ static void dumpRule(Archive *fout, const RuleInfo *rinfo) { DumpOptions *dopt = fout->dopt; TableInfo *tbinfo = rinfo->ruletable; bool is_view; PQExpBuffer query; PQExpBuffer cmd; PQExpBuffer delcmd; PQExpBuffer ruleprefix; char *qtabname; PGresult *res; char *tag; /* Do nothing in data-only dump */ if (dopt->dataOnly) return; /* * If it is an ON SELECT rule that is created implicitly by CREATE VIEW, * we do not want to dump it as a separate object. */ if (!rinfo->separate) return; /* * If it's an ON SELECT rule, we want to print it as a view definition, * instead of a rule. */ is_view = (rinfo->ev_type == '1' && rinfo->is_instead); query = createPQExpBuffer(); cmd = createPQExpBuffer(); delcmd = createPQExpBuffer(); ruleprefix = createPQExpBuffer(); qtabname = pg_strdup(fmtId(tbinfo->dobj.name)); if (is_view) { PQExpBuffer result; /* * We need OR REPLACE here because we'll be replacing a dummy view. * Otherwise this should look largely like the regular view dump code. */ appendPQExpBuffer(cmd, "CREATE OR REPLACE VIEW %s", fmtQualifiedDumpable(tbinfo)); if (nonemptyReloptions(tbinfo->reloptions)) { appendPQExpBufferStr(cmd, " WITH ("); appendReloptionsArrayAH(cmd, tbinfo->reloptions, "", fout); appendPQExpBufferChar(cmd, ')'); } result = createViewAsClause(fout, tbinfo); appendPQExpBuffer(cmd, " AS\n%s", result->data); destroyPQExpBuffer(result); if (tbinfo->checkoption != NULL) appendPQExpBuffer(cmd, "\n WITH %s CHECK OPTION", tbinfo->checkoption); appendPQExpBufferStr(cmd, ";\n"); } else { /* In the rule case, just print pg_get_ruledef's result verbatim */ appendPQExpBuffer(query, "SELECT pg_catalog.pg_get_ruledef('%u'::pg_catalog.oid)", rinfo->dobj.catId.oid); res = ExecuteSqlQuery(fout, query->data, PGRES_TUPLES_OK); if (PQntuples(res) != 1) pg_fatal("query to get rule \"%s\" for table \"%s\" failed: wrong number of rows returned", rinfo->dobj.name, tbinfo->dobj.name); printfPQExpBuffer(cmd, "%s\n", PQgetvalue(res, 0, 0)); PQclear(res); } /* * Add the command to alter the rules replication firing semantics if it * differs from the default. */ if (rinfo->ev_enabled != 'O') { appendPQExpBuffer(cmd, "ALTER TABLE %s ", fmtQualifiedDumpable(tbinfo)); switch (rinfo->ev_enabled) { case 'A': appendPQExpBuffer(cmd, "ENABLE ALWAYS RULE %s;\n", fmtId(rinfo->dobj.name)); break; case 'R': appendPQExpBuffer(cmd, "ENABLE REPLICA RULE %s;\n", fmtId(rinfo->dobj.name)); break; case 'D': appendPQExpBuffer(cmd, "DISABLE RULE %s;\n", fmtId(rinfo->dobj.name)); break; } } if (is_view) { /* * We can't DROP a view's ON SELECT rule. Instead, use CREATE OR * REPLACE VIEW to replace the rule with something with minimal * dependencies. */ PQExpBuffer result; appendPQExpBuffer(delcmd, "CREATE OR REPLACE VIEW %s", fmtQualifiedDumpable(tbinfo)); result = createDummyViewAsClause(fout, tbinfo); appendPQExpBuffer(delcmd, " AS\n%s;\n", result->data); destroyPQExpBuffer(result); } else { appendPQExpBuffer(delcmd, "DROP RULE %s ", fmtId(rinfo->dobj.name)); appendPQExpBuffer(delcmd, "ON %s;\n", fmtQualifiedDumpable(tbinfo)); } appendPQExpBuffer(ruleprefix, "RULE %s ON", fmtId(rinfo->dobj.name)); tag = psprintf("%s %s", tbinfo->dobj.name, rinfo->dobj.name); if (rinfo->dobj.dump & DUMP_COMPONENT_DEFINITION) ArchiveEntry(fout, rinfo->dobj.catId, rinfo->dobj.dumpId, ARCHIVE_OPTS(.tag = tag, .namespace = tbinfo->dobj.namespace->dobj.name, .owner = tbinfo->rolname, .description = "RULE", .section = SECTION_POST_DATA, .createStmt = cmd->data, .dropStmt = delcmd->data)); /* Dump rule comments */ if (rinfo->dobj.dump & DUMP_COMPONENT_COMMENT) dumpComment(fout, ruleprefix->data, qtabname, tbinfo->dobj.namespace->dobj.name, tbinfo->rolname, rinfo->dobj.catId, 0, rinfo->dobj.dumpId); free(tag); destroyPQExpBuffer(query); destroyPQExpBuffer(cmd); destroyPQExpBuffer(delcmd); destroyPQExpBuffer(ruleprefix); free(qtabname); } /* * getExtensionMembership --- obtain extension membership data * * We need to identify objects that are extension members as soon as they're * loaded, so that we can correctly determine whether they need to be dumped. * Generally speaking, extension member objects will get marked as *not* to * be dumped, as they will be recreated by the single CREATE EXTENSION * command. However, in binary upgrade mode we still need to dump the members * individually. */ void getExtensionMembership(Archive *fout, ExtensionInfo extinfo[], int numExtensions) { PQExpBuffer query; PGresult *res; int ntups, i; int i_classid, i_objid, i_refobjid; ExtensionInfo *ext; /* Nothing to do if no extensions */ if (numExtensions == 0) return; query = createPQExpBuffer(); /* refclassid constraint is redundant but may speed the search */ appendPQExpBufferStr(query, "SELECT " "classid, objid, refobjid " "FROM pg_depend " "WHERE refclassid = 'pg_extension'::regclass " "AND deptype = 'e' " "ORDER BY 3"); 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"); /* * Since we ordered the SELECT by referenced ID, we can expect that * multiple entries for the same extension will appear together; this * saves on searches. */ ext = NULL; for (i = 0; i < ntups; i++) { CatalogId objId; Oid extId; objId.tableoid = atooid(PQgetvalue(res, i, i_classid)); objId.oid = atooid(PQgetvalue(res, i, i_objid)); extId = atooid(PQgetvalue(res, i, i_refobjid)); if (ext == NULL || ext->dobj.catId.oid != extId) ext = findExtensionByOid(extId); if (ext == NULL) { /* shouldn't happen */ pg_log_warning("could not find referenced extension %u", extId); continue; } recordExtensionMembership(objId, ext); } PQclear(res); destroyPQExpBuffer(query); } /* * processExtensionTables --- deal with extension configuration tables * * There are two parts to this process: * * 1. Identify and create dump records for extension configuration tables. * * Extensions can mark tables as "configuration", which means that the user * is able and expected to modify those tables after the extension has been * loaded. For these tables, we dump out only the data- the structure is * expected to be handled at CREATE EXTENSION time, including any indexes or * foreign keys, which brings us to- * * 2. Record FK dependencies between configuration tables. * * Due to the FKs being created at CREATE EXTENSION time and therefore before * the data is loaded, we have to work out what the best order for reloading * the data is, to avoid FK violations when the tables are restored. This is * not perfect- we can't handle circular dependencies and if any exist they * will cause an invalid dump to be produced (though at least all of the data * is included for a user to manually restore). This is currently documented * but perhaps we can provide a better solution in the future. */ void processExtensionTables(Archive *fout, ExtensionInfo extinfo[], int numExtensions) { DumpOptions *dopt = fout->dopt; PQExpBuffer query; PGresult *res; int ntups, i; int i_conrelid, i_confrelid; /* Nothing to do if no extensions */ if (numExtensions == 0) return; /* * Identify extension configuration tables and create TableDataInfo * objects for them, ensuring their data will be dumped even though the * tables themselves won't be. * * Note that we create TableDataInfo objects even in schemaOnly mode, ie, * user data in a configuration table is treated like schema data. This * seems appropriate since system data in a config table would get * reloaded by CREATE EXTENSION. If the extension is not listed in the * list of extensions to be included, none of its data is dumped. */ for (i = 0; i < numExtensions; i++) { ExtensionInfo *curext = &(extinfo[i]); char *extconfig = curext->extconfig; char *extcondition = curext->extcondition; char **extconfigarray = NULL; char **extconditionarray = NULL; int nconfigitems = 0; int nconditionitems = 0; /* * Check if this extension is listed as to include in the dump. If * not, any table data associated with it is discarded. */ if (extension_include_oids.head != NULL && !simple_oid_list_member(&extension_include_oids, curext->dobj.catId.oid)) continue; if (strlen(extconfig) != 0 || strlen(extcondition) != 0) { int j; if (!parsePGArray(extconfig, &extconfigarray, &nconfigitems)) pg_fatal("could not parse %s array", "extconfig"); if (!parsePGArray(extcondition, &extconditionarray, &nconditionitems)) pg_fatal("could not parse %s array", "extcondition"); if (nconfigitems != nconditionitems) pg_fatal("mismatched number of configurations and conditions for extension"); for (j = 0; j < nconfigitems; j++) { TableInfo *configtbl; Oid configtbloid = atooid(extconfigarray[j]); bool dumpobj = curext->dobj.dump & DUMP_COMPONENT_DEFINITION; configtbl = findTableByOid(configtbloid); if (configtbl == NULL) continue; /* * Tables of not-to-be-dumped extensions shouldn't be dumped * unless the table or its schema is explicitly included */ if (!(curext->dobj.dump & DUMP_COMPONENT_DEFINITION)) { /* check table explicitly requested */ if (table_include_oids.head != NULL && simple_oid_list_member(&table_include_oids, configtbloid)) dumpobj = true; /* check table's schema explicitly requested */ if (configtbl->dobj.namespace->dobj.dump & DUMP_COMPONENT_DATA) dumpobj = true; } /* check table excluded by an exclusion switch */ if (table_exclude_oids.head != NULL && simple_oid_list_member(&table_exclude_oids, configtbloid)) dumpobj = false; /* check schema excluded by an exclusion switch */ if (simple_oid_list_member(&schema_exclude_oids, configtbl->dobj.namespace->dobj.catId.oid)) dumpobj = false; if (dumpobj) { makeTableDataInfo(dopt, configtbl); if (configtbl->dataObj != NULL) { if (strlen(extconditionarray[j]) > 0) configtbl->dataObj->filtercond = pg_strdup(extconditionarray[j]); } } } } if (extconfigarray) free(extconfigarray); if (extconditionarray) free(extconditionarray); } /* * Now that all the TableDataInfo objects have been created for all the * extensions, check their FK dependencies and register them to try and * dump the data out in an order that they can be restored in. * * Note that this is not a problem for user tables as their FKs are * recreated after the data has been loaded. */ query = createPQExpBuffer(); printfPQExpBuffer(query, "SELECT conrelid, confrelid " "FROM pg_constraint " "JOIN pg_depend ON (objid = confrelid) " "WHERE contype = 'f' " "AND refclassid = 'pg_extension'::regclass " "AND classid = 'pg_class'::regclass;"); res = ExecuteSqlQuery(fout, query->data, PGRES_TUPLES_OK); ntups = PQntuples(res); i_conrelid = PQfnumber(res, "conrelid"); i_confrelid = PQfnumber(res, "confrelid"); /* Now get the dependencies and register them */ for (i = 0; i < ntups; i++) { Oid conrelid, confrelid; TableInfo *reftable, *contable; conrelid = atooid(PQgetvalue(res, i, i_conrelid)); confrelid = atooid(PQgetvalue(res, i, i_confrelid)); contable = findTableByOid(conrelid); reftable = findTableByOid(confrelid); if (reftable == NULL || reftable->dataObj == NULL || contable == NULL || contable->dataObj == NULL) continue; /* * Make referencing TABLE_DATA object depend on the referenced table's * TABLE_DATA object. */ addObjectDependency(&contable->dataObj->dobj, reftable->dataObj->dobj.dumpId); } PQclear(res); destroyPQExpBuffer(query); } /* * getDependencies --- obtain available dependency data */ static void getDependencies(Archive *fout) { PQExpBuffer query; PGresult *res; int ntups, i; int i_classid, i_objid, i_refclassid, i_refobjid, i_deptype; DumpableObject *dobj, *refdobj; pg_log_info("reading dependency data"); query = createPQExpBuffer(); /* * Messy query to collect the dependency data we need. Note that we * ignore the sub-object column, so that dependencies of or on a column * look the same as dependencies of or on a whole table. * * PIN dependencies aren't interesting, and EXTENSION dependencies were * already processed by getExtensionMembership. */ appendPQExpBufferStr(query, "SELECT " "classid, objid, refclassid, refobjid, deptype " "FROM pg_depend " "WHERE deptype != 'p' AND deptype != 'e'\n"); /* * Since we don't treat pg_amop entries as separate DumpableObjects, we * have to translate their dependencies into dependencies of their parent * opfamily. Ignore internal dependencies though, as those will point to * their parent opclass, which we needn't consider here (and if we did, * it'd just result in circular dependencies). Also, "loose" opfamily * entries will have dependencies on their parent opfamily, which we * should drop since they'd likewise become useless self-dependencies. * (But be sure to keep deps on *other* opfamilies; see amopsortfamily.) */ appendPQExpBufferStr(query, "UNION ALL\n" "SELECT 'pg_opfamily'::regclass AS classid, amopfamily AS objid, refclassid, refobjid, deptype " "FROM pg_depend d, pg_amop o " "WHERE deptype NOT IN ('p', 'e', 'i') AND " "classid = 'pg_amop'::regclass AND objid = o.oid " "AND NOT (refclassid = 'pg_opfamily'::regclass AND amopfamily = refobjid)\n"); /* Likewise for pg_amproc entries */ appendPQExpBufferStr(query, "UNION ALL\n" "SELECT 'pg_opfamily'::regclass AS classid, amprocfamily AS objid, refclassid, refobjid, deptype " "FROM pg_depend d, pg_amproc p " "WHERE deptype NOT IN ('p', 'e', 'i') AND " "classid = 'pg_amproc'::regclass AND objid = p.oid " "AND NOT (refclassid = 'pg_opfamily'::regclass AND amprocfamily = refobjid)\n"); /* Sort the output for efficiency below */ appendPQExpBufferStr(query, "ORDER BY 1,2"); res = ExecuteSqlQuery(fout, query->data, PGRES_TUPLES_OK); ntups = PQntuples(res); i_classid = PQfnumber(res, "classid"); i_objid = PQfnumber(res, "objid"); i_refclassid = PQfnumber(res, "refclassid"); i_refobjid = PQfnumber(res, "refobjid"); i_deptype = PQfnumber(res, "deptype"); /* * Since we ordered the SELECT by referencing ID, we can expect that * multiple entries for the same object will appear together; this saves * on searches. */ dobj = NULL; for (i = 0; i < ntups; i++) { CatalogId objId; CatalogId refobjId; char deptype; objId.tableoid = atooid(PQgetvalue(res, i, i_classid)); objId.oid = atooid(PQgetvalue(res, i, i_objid)); refobjId.tableoid = atooid(PQgetvalue(res, i, i_refclassid)); refobjId.oid = atooid(PQgetvalue(res, i, i_refobjid)); deptype = *(PQgetvalue(res, i, i_deptype)); if (dobj == NULL || dobj->catId.tableoid != objId.tableoid || dobj->catId.oid != objId.oid) dobj = findObjectByCatalogId(objId); /* * Failure to find objects mentioned in pg_depend is not unexpected, * since for example we don't collect info about TOAST tables. */ if (dobj == NULL) { #ifdef NOT_USED pg_log_warning("no referencing object %u %u", objId.tableoid, objId.oid); #endif continue; } refdobj = findObjectByCatalogId(refobjId); if (refdobj == NULL) { #ifdef NOT_USED pg_log_warning("no referenced object %u %u", refobjId.tableoid, refobjId.oid); #endif continue; } /* * For 'x' dependencies, mark the object for later; we still add the * normal dependency, for possible ordering purposes. Currently * pg_dump_sort.c knows to put extensions ahead of all object types * that could possibly depend on them, but this is safer. */ if (deptype == 'x') dobj->depends_on_ext = true; /* * Ordinarily, table rowtypes have implicit dependencies on their * tables. However, for a composite type the implicit dependency goes * the other way in pg_depend; which is the right thing for DROP but * it doesn't produce the dependency ordering we need. So in that one * case, we reverse the direction of the dependency. */ if (deptype == 'i' && dobj->objType == DO_TABLE && refdobj->objType == DO_TYPE) addObjectDependency(refdobj, dobj->dumpId); else /* normal case */ addObjectDependency(dobj, refdobj->dumpId); } PQclear(res); destroyPQExpBuffer(query); } /* * createBoundaryObjects - create dummy DumpableObjects to represent * dump section boundaries. */ static DumpableObject * createBoundaryObjects(void) { DumpableObject *dobjs; dobjs = (DumpableObject *) pg_malloc(2 * sizeof(DumpableObject)); dobjs[0].objType = DO_PRE_DATA_BOUNDARY; dobjs[0].catId = nilCatalogId; AssignDumpId(dobjs + 0); dobjs[0].name = pg_strdup("PRE-DATA BOUNDARY"); dobjs[1].objType = DO_POST_DATA_BOUNDARY; dobjs[1].catId = nilCatalogId; AssignDumpId(dobjs + 1); dobjs[1].name = pg_strdup("POST-DATA BOUNDARY"); return dobjs; } /* * addBoundaryDependencies - add dependencies as needed to enforce the dump * section boundaries. */ static void addBoundaryDependencies(DumpableObject **dobjs, int numObjs, DumpableObject *boundaryObjs) { DumpableObject *preDataBound = boundaryObjs + 0; DumpableObject *postDataBound = boundaryObjs + 1; int i; for (i = 0; i < numObjs; i++) { DumpableObject *dobj = dobjs[i]; /* * The classification of object types here must match the SECTION_xxx * values assigned during subsequent ArchiveEntry calls! */ switch (dobj->objType) { case DO_NAMESPACE: case DO_EXTENSION: case DO_TYPE: case DO_SHELL_TYPE: case DO_FUNC: case DO_AGG: case DO_OPERATOR: case DO_ACCESS_METHOD: case DO_OPCLASS: case DO_OPFAMILY: case DO_COLLATION: case DO_CONVERSION: case DO_TABLE: case DO_TABLE_ATTACH: case DO_ATTRDEF: case DO_PROCLANG: case DO_CAST: case DO_DUMMY_TYPE: case DO_TSPARSER: case DO_TSDICT: case DO_TSTEMPLATE: case DO_TSCONFIG: case DO_FDW: case DO_FOREIGN_SERVER: case DO_TRANSFORM: case DO_LARGE_OBJECT: /* Pre-data objects: must come before the pre-data boundary */ addObjectDependency(preDataBound, dobj->dumpId); break; case DO_TABLE_DATA: case DO_SEQUENCE_SET: case DO_LARGE_OBJECT_DATA: /* Data objects: must come between the boundaries */ addObjectDependency(dobj, preDataBound->dumpId); addObjectDependency(postDataBound, dobj->dumpId); break; case DO_INDEX: case DO_INDEX_ATTACH: case DO_STATSEXT: case DO_REFRESH_MATVIEW: case DO_TRIGGER: case DO_EVENT_TRIGGER: case DO_DEFAULT_ACL: case DO_POLICY: case DO_PUBLICATION: case DO_PUBLICATION_REL: case DO_PUBLICATION_TABLE_IN_SCHEMA: case DO_SUBSCRIPTION: /* Post-data objects: must come after the post-data boundary */ addObjectDependency(dobj, postDataBound->dumpId); break; case DO_RULE: /* Rules are post-data, but only if dumped separately */ if (((RuleInfo *) dobj)->separate) addObjectDependency(dobj, postDataBound->dumpId); break; case DO_CONSTRAINT: case DO_FK_CONSTRAINT: /* Constraints are post-data, but only if dumped separately */ if (((ConstraintInfo *) dobj)->separate) addObjectDependency(dobj, postDataBound->dumpId); break; case DO_PRE_DATA_BOUNDARY: /* nothing to do */ break; case DO_POST_DATA_BOUNDARY: /* must come after the pre-data boundary */ addObjectDependency(dobj, preDataBound->dumpId); break; } } } /* * BuildArchiveDependencies - create dependency data for archive TOC entries * * The raw dependency data obtained by getDependencies() is not terribly * useful in an archive dump, because in many cases there are dependency * chains linking through objects that don't appear explicitly in the dump. * For example, a view will depend on its _RETURN rule while the _RETURN rule * will depend on other objects --- but the rule will not appear as a separate * object in the dump. We need to adjust the view's dependencies to include * whatever the rule depends on that is included in the dump. * * Just to make things more complicated, there are also "special" dependencies * such as the dependency of a TABLE DATA item on its TABLE, which we must * not rearrange because pg_restore knows that TABLE DATA only depends on * its table. In these cases we must leave the dependencies strictly as-is * even if they refer to not-to-be-dumped objects. * * To handle this, the convention is that "special" dependencies are created * during ArchiveEntry calls, and an archive TOC item that has any such * entries will not be touched here. Otherwise, we recursively search the * DumpableObject data structures to build the correct dependencies for each * archive TOC item. */ static void BuildArchiveDependencies(Archive *fout) { ArchiveHandle *AH = (ArchiveHandle *) fout; TocEntry *te; /* Scan all TOC entries in the archive */ for (te = AH->toc->next; te != AH->toc; te = te->next) { DumpableObject *dobj; DumpId *dependencies; int nDeps; int allocDeps; /* No need to process entries that will not be dumped */ if (te->reqs == 0) continue; /* Ignore entries that already have "special" dependencies */ if (te->nDeps > 0) continue; /* Otherwise, look up the item's original DumpableObject, if any */ dobj = findObjectByDumpId(te->dumpId); if (dobj == NULL) continue; /* No work if it has no dependencies */ if (dobj->nDeps <= 0) continue; /* Set up work array */ allocDeps = 64; dependencies = (DumpId *) pg_malloc(allocDeps * sizeof(DumpId)); nDeps = 0; /* Recursively find all dumpable dependencies */ findDumpableDependencies(AH, dobj, &dependencies, &nDeps, &allocDeps); /* And save 'em ... */ if (nDeps > 0) { dependencies = (DumpId *) pg_realloc(dependencies, nDeps * sizeof(DumpId)); te->dependencies = dependencies; te->nDeps = nDeps; } else free(dependencies); } } /* Recursive search subroutine for BuildArchiveDependencies */ static void findDumpableDependencies(ArchiveHandle *AH, const DumpableObject *dobj, DumpId **dependencies, int *nDeps, int *allocDeps) { int i; /* * Ignore section boundary objects: if we search through them, we'll * report lots of bogus dependencies. */ if (dobj->objType == DO_PRE_DATA_BOUNDARY || dobj->objType == DO_POST_DATA_BOUNDARY) return; for (i = 0; i < dobj->nDeps; i++) { DumpId depid = dobj->dependencies[i]; if (TocIDRequired(AH, depid) != 0) { /* Object will be dumped, so just reference it as a dependency */ if (*nDeps >= *allocDeps) { *allocDeps *= 2; *dependencies = (DumpId *) pg_realloc(*dependencies, *allocDeps * sizeof(DumpId)); } (*dependencies)[*nDeps] = depid; (*nDeps)++; } else { /* * Object will not be dumped, so recursively consider its deps. We * rely on the assumption that sortDumpableObjects already broke * any dependency loops, else we might recurse infinitely. */ DumpableObject *otherdobj = findObjectByDumpId(depid); if (otherdobj) findDumpableDependencies(AH, otherdobj, dependencies, nDeps, allocDeps); } } } /* * getFormattedTypeName - retrieve a nicely-formatted type name for the * given type OID. * * This does not guarantee to schema-qualify the output, so it should not * be used to create the target object name for CREATE or ALTER commands. * * Note that the result is cached and must not be freed by the caller. */ static const char * getFormattedTypeName(Archive *fout, Oid oid, OidOptions opts) { TypeInfo *typeInfo; char *result; PQExpBuffer query; PGresult *res; if (oid == 0) { if ((opts & zeroAsStar) != 0) return "*"; else if ((opts & zeroAsNone) != 0) return "NONE"; } /* see if we have the result cached in the type's TypeInfo record */ typeInfo = findTypeByOid(oid); if (typeInfo && typeInfo->ftypname) return typeInfo->ftypname; query = createPQExpBuffer(); appendPQExpBuffer(query, "SELECT pg_catalog.format_type('%u'::pg_catalog.oid, NULL)", oid); res = ExecuteSqlQueryForSingleRow(fout, query->data); /* result of format_type is already quoted */ result = pg_strdup(PQgetvalue(res, 0, 0)); PQclear(res); destroyPQExpBuffer(query); /* * Cache the result for re-use in later requests, if possible. If we * don't have a TypeInfo for the type, the string will be leaked once the * caller is done with it ... but that case really should not happen, so * leaking if it does seems acceptable. */ if (typeInfo) typeInfo->ftypname = result; return result; } /* * Return a column list clause for the given relation. * * Special case: if there are no undropped columns in the relation, return * "", not an invalid "()" column list. */ static const char * fmtCopyColumnList(const TableInfo *ti, PQExpBuffer buffer) { int numatts = ti->numatts; char **attnames = ti->attnames; bool *attisdropped = ti->attisdropped; char *attgenerated = ti->attgenerated; bool needComma; int i; appendPQExpBufferChar(buffer, '('); needComma = false; for (i = 0; i < numatts; i++) { if (attisdropped[i]) continue; if (attgenerated[i]) continue; if (needComma) appendPQExpBufferStr(buffer, ", "); appendPQExpBufferStr(buffer, fmtId(attnames[i])); needComma = true; } if (!needComma) return ""; /* no undropped columns */ appendPQExpBufferChar(buffer, ')'); return buffer->data; } /* * Check if a reloptions array is nonempty. */ static bool nonemptyReloptions(const char *reloptions) { /* Don't want to print it if it's just "{}" */ return (reloptions != NULL && strlen(reloptions) > 2); } /* * Format a reloptions array and append it to the given buffer. * * "prefix" is prepended to the option names; typically it's "" or "toast.". */ static void appendReloptionsArrayAH(PQExpBuffer buffer, const char *reloptions, const char *prefix, Archive *fout) { bool res; res = appendReloptionsArray(buffer, reloptions, prefix, fout->encoding, fout->std_strings); if (!res) pg_log_warning("could not parse %s array", "reloptions"); }