/*------------------------------------------------------------------------- * * catalog.c * routines concerned with catalog naming conventions and other * bits of hard-wired knowledge * * * Portions Copyright (c) 1996-2018, PostgreSQL Global Development Group * Portions Copyright (c) 1994, Regents of the University of California * * * IDENTIFICATION * src/backend/catalog/catalog.c * *------------------------------------------------------------------------- */ #include "postgres.h" #include #include #include "access/genam.h" #include "access/sysattr.h" #include "access/transam.h" #include "catalog/catalog.h" #include "catalog/indexing.h" #include "catalog/namespace.h" #include "catalog/pg_auth_members.h" #include "catalog/pg_authid.h" #include "catalog/pg_database.h" #include "catalog/pg_namespace.h" #include "catalog/pg_pltemplate.h" #include "catalog/pg_db_role_setting.h" #include "catalog/pg_replication_origin.h" #include "catalog/pg_shdepend.h" #include "catalog/pg_shdescription.h" #include "catalog/pg_shseclabel.h" #include "catalog/pg_subscription.h" #include "catalog/pg_tablespace.h" #include "catalog/pg_type.h" #include "catalog/toasting.h" #include "miscadmin.h" #include "storage/fd.h" #include "utils/fmgroids.h" #include "utils/rel.h" #include "utils/tqual.h" /* * IsSystemRelation * True iff the relation is either a system catalog or toast table. * By a system catalog, we mean one that created in the pg_catalog schema * during initdb. User-created relations in pg_catalog don't count as * system catalogs. * * NB: TOAST relations are considered system relations by this test * for compatibility with the old IsSystemRelationName function. * This is appropriate in many places but not all. Where it's not, * also check IsToastRelation or use IsCatalogRelation(). */ bool IsSystemRelation(Relation relation) { return IsSystemClass(RelationGetRelid(relation), relation->rd_rel); } /* * IsSystemClass * Like the above, but takes a Form_pg_class as argument. * Used when we do not want to open the relation and have to * search pg_class directly. */ bool IsSystemClass(Oid relid, Form_pg_class reltuple) { return IsToastClass(reltuple) || IsCatalogClass(relid, reltuple); } /* * IsCatalogRelation * True iff the relation is a system catalog, or the toast table for * a system catalog. By a system catalog, we mean one that created * in the pg_catalog schema during initdb. As with IsSystemRelation(), * user-created relations in pg_catalog don't count as system catalogs. * * Note that IsSystemRelation() returns true for ALL toast relations, * but this function returns true only for toast relations of system * catalogs. */ bool IsCatalogRelation(Relation relation) { return IsCatalogClass(RelationGetRelid(relation), relation->rd_rel); } /* * IsCatalogClass * True iff the relation is a system catalog relation. * * Check IsCatalogRelation() for details. */ bool IsCatalogClass(Oid relid, Form_pg_class reltuple) { Oid relnamespace = reltuple->relnamespace; /* * Never consider relations outside pg_catalog/pg_toast to be catalog * relations. */ if (!IsSystemNamespace(relnamespace) && !IsToastNamespace(relnamespace)) return false; /* ---- * Check whether the oid was assigned during initdb, when creating the * initial template database. Minus the relations in information_schema * excluded above, these are integral part of the system. * We could instead check whether the relation is pinned in pg_depend, but * this is noticeably cheaper and doesn't require catalog access. * * This test is safe since even an oid wraparound will preserve this * property (cf. GetNewObjectId()) and it has the advantage that it works * correctly even if a user decides to create a relation in the pg_catalog * namespace. * ---- */ return relid < FirstNormalObjectId; } /* * IsToastRelation * True iff relation is a TOAST support relation (or index). */ bool IsToastRelation(Relation relation) { return IsToastNamespace(RelationGetNamespace(relation)); } /* * IsToastClass * Like the above, but takes a Form_pg_class as argument. * Used when we do not want to open the relation and have to * search pg_class directly. */ bool IsToastClass(Form_pg_class reltuple) { Oid relnamespace = reltuple->relnamespace; return IsToastNamespace(relnamespace); } /* * IsSystemNamespace * True iff namespace is pg_catalog. * * NOTE: the reason this isn't a macro is to avoid having to include * catalog/pg_namespace.h in a lot of places. */ bool IsSystemNamespace(Oid namespaceId) { return namespaceId == PG_CATALOG_NAMESPACE; } /* * IsToastNamespace * True iff namespace is pg_toast or my temporary-toast-table namespace. * * Note: this will return false for temporary-toast-table namespaces belonging * to other backends. Those are treated the same as other backends' regular * temp table namespaces, and access is prevented where appropriate. */ bool IsToastNamespace(Oid namespaceId) { return (namespaceId == PG_TOAST_NAMESPACE) || isTempToastNamespace(namespaceId); } /* * IsReservedName * True iff name starts with the pg_ prefix. * * For some classes of objects, the prefix pg_ is reserved for * system objects only. As of 8.0, this was only true for * schema and tablespace names. With 9.6, this is also true * for roles. */ bool IsReservedName(const char *name) { /* ugly coding for speed */ return (name[0] == 'p' && name[1] == 'g' && name[2] == '_'); } /* * IsSharedRelation * Given the OID of a relation, determine whether it's supposed to be * shared across an entire database cluster. * * In older releases, this had to be hard-wired so that we could compute the * locktag for a relation and lock it before examining its catalog entry. * Since we now have MVCC catalog access, the race conditions that made that * a hard requirement are gone, so we could look at relaxing this restriction. * However, if we scanned the pg_class entry to find relisshared, and only * then locked the relation, pg_class could get updated in the meantime, * forcing us to scan the relation again, which would definitely be complex * and might have undesirable performance consequences. Fortunately, the set * of shared relations is fairly static, so a hand-maintained list of their * OIDs isn't completely impractical. */ bool IsSharedRelation(Oid relationId) { /* These are the shared catalogs (look for BKI_SHARED_RELATION) */ if (relationId == AuthIdRelationId || relationId == AuthMemRelationId || relationId == DatabaseRelationId || relationId == PLTemplateRelationId || relationId == SharedDescriptionRelationId || relationId == SharedDependRelationId || relationId == SharedSecLabelRelationId || relationId == TableSpaceRelationId || relationId == DbRoleSettingRelationId || relationId == ReplicationOriginRelationId || relationId == SubscriptionRelationId) return true; /* These are their indexes (see indexing.h) */ if (relationId == AuthIdRolnameIndexId || relationId == AuthIdOidIndexId || relationId == AuthMemRoleMemIndexId || relationId == AuthMemMemRoleIndexId || relationId == DatabaseNameIndexId || relationId == DatabaseOidIndexId || relationId == PLTemplateNameIndexId || relationId == SharedDescriptionObjIndexId || relationId == SharedDependDependerIndexId || relationId == SharedDependReferenceIndexId || relationId == SharedSecLabelObjectIndexId || relationId == TablespaceOidIndexId || relationId == TablespaceNameIndexId || relationId == DbRoleSettingDatidRolidIndexId || relationId == ReplicationOriginIdentIndex || relationId == ReplicationOriginNameIndex || relationId == SubscriptionObjectIndexId || relationId == SubscriptionNameIndexId) return true; /* These are their toast tables and toast indexes (see toasting.h) */ if (relationId == PgShdescriptionToastTable || relationId == PgShdescriptionToastIndex || relationId == PgDbRoleSettingToastTable || relationId == PgDbRoleSettingToastIndex || relationId == PgShseclabelToastTable || relationId == PgShseclabelToastIndex) return true; return false; } /* * GetNewOid * Generate a new OID that is unique within the given relation. * * Caller must have a suitable lock on the relation. * * Uniqueness is promised only if the relation has a unique index on OID. * This is true for all system catalogs that have OIDs, but might not be * true for user tables. Note that we are effectively assuming that the * table has a relatively small number of entries (much less than 2^32) * and there aren't very long runs of consecutive existing OIDs. Again, * this is reasonable for system catalogs but less so for user tables. * * Since the OID is not immediately inserted into the table, there is a * race condition here; but a problem could occur only if someone else * managed to cycle through 2^32 OIDs and generate the same OID before we * finish inserting our row. This seems unlikely to be a problem. Note * that if we had to *commit* the row to end the race condition, the risk * would be rather higher; therefore we use SnapshotDirty in the test, * so that we will see uncommitted rows. */ Oid GetNewOid(Relation relation) { Oid oidIndex; /* If relation doesn't have OIDs at all, caller is confused */ Assert(relation->rd_rel->relhasoids); /* In bootstrap mode, we don't have any indexes to use */ if (IsBootstrapProcessingMode()) return GetNewObjectId(); /* The relcache will cache the identity of the OID index for us */ oidIndex = RelationGetOidIndex(relation); /* If no OID index, just hand back the next OID counter value */ if (!OidIsValid(oidIndex)) { /* * System catalogs that have OIDs should *always* have a unique OID * index; we should only take this path for user tables. Give a * warning if it looks like somebody forgot an index. */ if (IsSystemRelation(relation)) elog(WARNING, "generating possibly-non-unique OID for \"%s\"", RelationGetRelationName(relation)); return GetNewObjectId(); } /* Otherwise, use the index to find a nonconflicting OID */ return GetNewOidWithIndex(relation, oidIndex, ObjectIdAttributeNumber); } /* * GetNewOidWithIndex * Guts of GetNewOid: use the supplied index * * This is exported separately because there are cases where we want to use * an index that will not be recognized by RelationGetOidIndex: TOAST tables * have indexes that are usable, but have multiple columns and are on * ordinary columns rather than a true OID column. This code will work * anyway, so long as the OID is the index's first column. The caller must * pass in the actual heap attnum of the OID column, however. * * Caller must have a suitable lock on the relation. */ Oid GetNewOidWithIndex(Relation relation, Oid indexId, AttrNumber oidcolumn) { Oid newOid; SnapshotData SnapshotDirty; SysScanDesc scan; ScanKeyData key; bool collides; /* * We should never be asked to generate a new pg_type OID during * pg_upgrade; doing so would risk collisions with the OIDs it wants to * assign. Hitting this assert means there's some path where we failed to * ensure that a type OID is determined by commands in the dump script. */ Assert(!IsBinaryUpgrade || RelationGetRelid(relation) != TypeRelationId); InitDirtySnapshot(SnapshotDirty); /* Generate new OIDs until we find one not in the table */ do { CHECK_FOR_INTERRUPTS(); newOid = GetNewObjectId(); ScanKeyInit(&key, oidcolumn, BTEqualStrategyNumber, F_OIDEQ, ObjectIdGetDatum(newOid)); /* see notes above about using SnapshotDirty */ scan = systable_beginscan(relation, indexId, true, &SnapshotDirty, 1, &key); collides = HeapTupleIsValid(systable_getnext(scan)); systable_endscan(scan); } while (collides); return newOid; } /* * GetNewRelFileNode * Generate a new relfilenode number that is unique within the * database of the given tablespace. * * If the relfilenode will also be used as the relation's OID, pass the * opened pg_class catalog, and this routine will guarantee that the result * is also an unused OID within pg_class. If the result is to be used only * as a relfilenode for an existing relation, pass NULL for pg_class. * * As with GetNewOid, there is some theoretical risk of a race condition, * but it doesn't seem worth worrying about. * * Note: we don't support using this in bootstrap mode. All relations * created by bootstrap have preassigned OIDs, so there's no need. */ Oid GetNewRelFileNode(Oid reltablespace, Relation pg_class, char relpersistence) { RelFileNodeBackend rnode; char *rpath; int fd; bool collides; BackendId backend; /* * If we ever get here during pg_upgrade, there's something wrong; all * relfilenode assignments during a binary-upgrade run should be * determined by commands in the dump script. */ Assert(!IsBinaryUpgrade); switch (relpersistence) { case RELPERSISTENCE_TEMP: backend = BackendIdForTempRelations(); break; case RELPERSISTENCE_UNLOGGED: case RELPERSISTENCE_PERMANENT: backend = InvalidBackendId; break; default: elog(ERROR, "invalid relpersistence: %c", relpersistence); return InvalidOid; /* placate compiler */ } /* This logic should match RelationInitPhysicalAddr */ rnode.node.spcNode = reltablespace ? reltablespace : MyDatabaseTableSpace; rnode.node.dbNode = (rnode.node.spcNode == GLOBALTABLESPACE_OID) ? InvalidOid : MyDatabaseId; /* * The relpath will vary based on the backend ID, so we must initialize * that properly here to make sure that any collisions based on filename * are properly detected. */ rnode.backend = backend; do { CHECK_FOR_INTERRUPTS(); /* Generate the OID */ if (pg_class) rnode.node.relNode = GetNewOid(pg_class); else rnode.node.relNode = GetNewObjectId(); /* Check for existing file of same name */ rpath = relpath(rnode, MAIN_FORKNUM); fd = BasicOpenFile(rpath, O_RDONLY | PG_BINARY); if (fd >= 0) { /* definite collision */ close(fd); collides = true; } else { /* * Here we have a little bit of a dilemma: if errno is something * other than ENOENT, should we declare a collision and loop? In * particular one might think this advisable for, say, EPERM. * However there really shouldn't be any unreadable files in a * tablespace directory, and if the EPERM is actually complaining * that we can't read the directory itself, we'd be in an infinite * loop. In practice it seems best to go ahead regardless of the * errno. If there is a colliding file we will get an smgr * failure when we attempt to create the new relation file. */ collides = false; } pfree(rpath); } while (collides); return rnode.node.relNode; }