/*------------------------------------------------------------------------- * * expandeddatum.c * Support functions for "expanded" value representations. * * Portions Copyright (c) 1996-2023, PostgreSQL Global Development Group * Portions Copyright (c) 1994, Regents of the University of California * * * IDENTIFICATION * src/backend/utils/adt/expandeddatum.c * *------------------------------------------------------------------------- */ #include "postgres.h" #include "utils/expandeddatum.h" #include "utils/memutils.h" /* * DatumGetEOHP * * Given a Datum that is an expanded-object reference, extract the pointer. * * This is a bit tedious since the pointer may not be properly aligned; * compare VARATT_EXTERNAL_GET_POINTER(). */ ExpandedObjectHeader * DatumGetEOHP(Datum d) { varattrib_1b_e *datum = (varattrib_1b_e *) DatumGetPointer(d); varatt_expanded ptr; Assert(VARATT_IS_EXTERNAL_EXPANDED(datum)); memcpy(&ptr, VARDATA_EXTERNAL(datum), sizeof(ptr)); Assert(VARATT_IS_EXPANDED_HEADER(ptr.eohptr)); return ptr.eohptr; } /* * EOH_init_header * * Initialize the common header of an expanded object. * * The main thing this encapsulates is initializing the TOAST pointers. */ void EOH_init_header(ExpandedObjectHeader *eohptr, const ExpandedObjectMethods *methods, MemoryContext obj_context) { varatt_expanded ptr; eohptr->vl_len_ = EOH_HEADER_MAGIC; eohptr->eoh_methods = methods; eohptr->eoh_context = obj_context; ptr.eohptr = eohptr; SET_VARTAG_EXTERNAL(eohptr->eoh_rw_ptr, VARTAG_EXPANDED_RW); memcpy(VARDATA_EXTERNAL(eohptr->eoh_rw_ptr), &ptr, sizeof(ptr)); SET_VARTAG_EXTERNAL(eohptr->eoh_ro_ptr, VARTAG_EXPANDED_RO); memcpy(VARDATA_EXTERNAL(eohptr->eoh_ro_ptr), &ptr, sizeof(ptr)); } /* * EOH_get_flat_size * EOH_flatten_into * * Convenience functions for invoking the "methods" of an expanded object. */ Size EOH_get_flat_size(ExpandedObjectHeader *eohptr) { return eohptr->eoh_methods->get_flat_size(eohptr); } void EOH_flatten_into(ExpandedObjectHeader *eohptr, void *result, Size allocated_size) { eohptr->eoh_methods->flatten_into(eohptr, result, allocated_size); } /* * If the Datum represents a R/W expanded object, change it to R/O. * Otherwise return the original Datum. * * Caller must ensure that the datum is a non-null varlena value. Typically * this is invoked via MakeExpandedObjectReadOnly(), which checks that. */ Datum MakeExpandedObjectReadOnlyInternal(Datum d) { ExpandedObjectHeader *eohptr; /* Nothing to do if not a read-write expanded-object pointer */ if (!VARATT_IS_EXTERNAL_EXPANDED_RW(DatumGetPointer(d))) return d; /* Now safe to extract the object pointer */ eohptr = DatumGetEOHP(d); /* Return the built-in read-only pointer instead of given pointer */ return EOHPGetRODatum(eohptr); } /* * Transfer ownership of an expanded object to a new parent memory context. * The object must be referenced by a R/W pointer, and what we return is * always its "standard" R/W pointer, which is certain to have the same * lifespan as the object itself. (The passed-in pointer might not, and * in any case wouldn't provide a unique identifier if it's not that one.) */ Datum TransferExpandedObject(Datum d, MemoryContext new_parent) { ExpandedObjectHeader *eohptr = DatumGetEOHP(d); /* Assert caller gave a R/W pointer */ Assert(VARATT_IS_EXTERNAL_EXPANDED_RW(DatumGetPointer(d))); /* Transfer ownership */ MemoryContextSetParent(eohptr->eoh_context, new_parent); /* Return the object's standard read-write pointer */ return EOHPGetRWDatum(eohptr); } /* * Delete an expanded object (must be referenced by a R/W pointer). */ void DeleteExpandedObject(Datum d) { ExpandedObjectHeader *eohptr = DatumGetEOHP(d); /* Assert caller gave a R/W pointer */ Assert(VARATT_IS_EXTERNAL_EXPANDED_RW(DatumGetPointer(d))); /* Kill it */ MemoryContextDelete(eohptr->eoh_context); }