/*------------------------------------------------------------------------- * * relfilenode.h * Physical access information for relations. * * * Portions Copyright (c) 1996-2021, PostgreSQL Global Development Group * Portions Copyright (c) 1994, Regents of the University of California * * src/include/storage/relfilenode.h * *------------------------------------------------------------------------- */ #ifndef RELFILENODE_H #define RELFILENODE_H #include "common/relpath.h" #include "storage/backendid.h" /* * RelFileNode must provide all that we need to know to physically access * a relation, with the exception of the backend ID, which can be provided * separately. Note, however, that a "physical" relation is comprised of * multiple files on the filesystem, as each fork is stored as a separate * file, and each fork can be divided into multiple segments. See md.c. * * spcNode identifies the tablespace of the relation. It corresponds to * pg_tablespace.oid. * * dbNode identifies the database of the relation. It is zero for * "shared" relations (those common to all databases of a cluster). * Nonzero dbNode values correspond to pg_database.oid. * * relNode identifies the specific relation. relNode corresponds to * pg_class.relfilenode (NOT pg_class.oid, because we need to be able * to assign new physical files to relations in some situations). * Notice that relNode is only unique within a database in a particular * tablespace. * * Note: spcNode must be GLOBALTABLESPACE_OID if and only if dbNode is * zero. We support shared relations only in the "global" tablespace. * * Note: in pg_class we allow reltablespace == 0 to denote that the * relation is stored in its database's "default" tablespace (as * identified by pg_database.dattablespace). However this shorthand * is NOT allowed in RelFileNode structs --- the real tablespace ID * must be supplied when setting spcNode. * * Note: in pg_class, relfilenode can be zero to denote that the relation * is a "mapped" relation, whose current true filenode number is available * from relmapper.c. Again, this case is NOT allowed in RelFileNodes. * * Note: various places use RelFileNode in hashtable keys. Therefore, * there *must not* be any unused padding bytes in this struct. That * should be safe as long as all the fields are of type Oid. */ typedef struct RelFileNode { Oid spcNode; /* tablespace */ Oid dbNode; /* database */ Oid relNode; /* relation */ } RelFileNode; /* * Augmenting a relfilenode with the backend ID provides all the information * we need to locate the physical storage. The backend ID is InvalidBackendId * for regular relations (those accessible to more than one backend), or the * owning backend's ID for backend-local relations. Backend-local relations * are always transient and removed in case of a database crash; they are * never WAL-logged or fsync'd. */ typedef struct RelFileNodeBackend { RelFileNode node; BackendId backend; } RelFileNodeBackend; #define RelFileNodeBackendIsTemp(rnode) \ ((rnode).backend != InvalidBackendId) /* * Note: RelFileNodeEquals and RelFileNodeBackendEquals compare relNode first * since that is most likely to be different in two unequal RelFileNodes. It * is probably redundant to compare spcNode if the other fields are found equal, * but do it anyway to be sure. Likewise for checking the backend ID in * RelFileNodeBackendEquals. */ #define RelFileNodeEquals(node1, node2) \ ((node1).relNode == (node2).relNode && \ (node1).dbNode == (node2).dbNode && \ (node1).spcNode == (node2).spcNode) #define RelFileNodeBackendEquals(node1, node2) \ ((node1).node.relNode == (node2).node.relNode && \ (node1).node.dbNode == (node2).node.dbNode && \ (node1).backend == (node2).backend && \ (node1).node.spcNode == (node2).node.spcNode) #endif /* RELFILENODE_H */