/*------------------------------------------------------------------------- * * htup.h * POSTGRES heap tuple definitions. * * * Portions Copyright (c) 1996-2002, PostgreSQL Global Development Group * Portions Copyright (c) 1994, Regents of the University of California * * $Id: htup.h,v 1.54 2002/06/20 20:29:43 momjian Exp $ * *------------------------------------------------------------------------- */ #ifndef HTUP_H #define HTUP_H #include "storage/bufpage.h" #include "storage/relfilenode.h" #include "access/transam.h" /* * MaxTupleAttributeNumber limits the number of (user) columns in a tuple. * The key limit on this value is that the size of the fixed overhead for * a tuple, plus the size of the null-values bitmap (at 1 bit per column), * plus MAXALIGN alignment, must fit into t_hoff which is uint8. On most * machines the upper limit without making t_hoff wider would be a little * over 1700. We use round numbers here and for MaxHeapAttributeNumber * so that alterations in HeapTupleHeaderData layout won't change the * supported max number of columns. */ #define MaxTupleAttributeNumber 1664 /* 8 * 208 */ /*---------- * MaxHeapAttributeNumber limits the number of (user) columns in a table. * This should be somewhat less than MaxTupleAttributeNumber. It must be * at least one less, else we will fail to do UPDATEs on a maximal-width * table (because UPDATE has to form working tuples that include CTID). * In practice we want some additional daylight so that we can gracefully * support operations that add hidden "resjunk" columns, for example * SELECT * FROM wide_table ORDER BY foo, bar, baz. * In any case, depending on column data types you will likely be running * into the disk-block-based limit on overall tuple size if you have more * than a thousand or so columns. TOAST won't help. *---------- */ #define MaxHeapAttributeNumber 1600 /* 8 * 200 */ /* * On-disk heap tuple header. Currently this is also used as the header * format for tuples formed in memory, although in principle they could * be different. * * To avoid wasting space, the attributes should be layed out in such a * way to reduce structure padding. Note that t_hoff is the offset to * the start of the user data, and so must be a multiple of MAXALIGN. * Also note that we omit the nulls bitmap if t_infomask shows that there * are no nulls in the tuple. */ typedef struct HeapTupleHeaderData { Oid t_oid; /* OID of this tuple -- 4 bytes */ CommandId t_cmin; /* insert CID stamp -- 4 bytes each */ CommandId t_cmax; /* delete CommandId stamp */ TransactionId t_xmin; /* insert XID stamp -- 4 bytes each */ TransactionId t_xmax; /* delete XID stamp */ ItemPointerData t_ctid; /* current TID of this or newer tuple */ int16 t_natts; /* number of attributes */ uint16 t_infomask; /* various flag bits, see below */ uint8 t_hoff; /* sizeof header incl. bitmap, padding */ /* ^ - 31 bytes - ^ */ bits8 t_bits[1]; /* bitmap of NULLs -- VARIABLE LENGTH */ /* MORE DATA FOLLOWS AT END OF STRUCT */ } HeapTupleHeaderData; typedef HeapTupleHeaderData *HeapTupleHeader; /* * information stored in t_infomask: */ #define HEAP_HASNULL 0x0001 /* has null attribute(s) */ #define HEAP_HASVARLENA 0x0002 /* has variable length * attribute(s) */ #define HEAP_HASEXTERNAL 0x0004 /* has external stored * attribute(s) */ #define HEAP_HASCOMPRESSED 0x0008 /* has compressed stored * attribute(s) */ #define HEAP_HASEXTENDED 0x000C /* the two above combined */ #define HEAP_XMAX_UNLOGGED 0x0080 /* to lock tuple for update */ /* without logging */ #define HEAP_XMIN_COMMITTED 0x0100 /* t_xmin committed */ #define HEAP_XMIN_INVALID 0x0200 /* t_xmin invalid/aborted */ #define HEAP_XMAX_COMMITTED 0x0400 /* t_xmax committed */ #define HEAP_XMAX_INVALID 0x0800 /* t_xmax invalid/aborted */ #define HEAP_MARKED_FOR_UPDATE 0x1000 /* marked for UPDATE */ #define HEAP_UPDATED 0x2000 /* this is UPDATEd version of row */ #define HEAP_MOVED_OFF 0x4000 /* moved to another place by * vacuum */ #define HEAP_MOVED_IN 0x8000 /* moved from another place by * vacuum */ #define HEAP_XACT_MASK 0xFFF0 /* visibility-related bits */ /* HeapTupleHeader accessor macros */ #define HeapTupleHeaderGetXmin(tup) \ ((tup)->t_xmin) #define HeapTupleHeaderGetXmax(tup) \ ((tup)->t_xmax) /* no AssertMacro, because this is read as a system-defined attribute also */ #define HeapTupleHeaderGetCmin(tup) \ ( \ (tup)->t_cmin \ ) #define HeapTupleHeaderGetCmax(tup) \ ((tup)->t_cmax) #define HeapTupleHeaderGetXvac(tup) \ ( \ AssertMacro((tup)->t_infomask & (HEAP_MOVED_IN | HEAP_MOVED_OFF)), \ (TransactionId) (tup)->t_cmin \ ) #define HeapTupleHeaderSetXmin(tup, xid) \ (TransactionIdStore((xid), &(tup)->t_xmin)) #define HeapTupleHeaderSetXminInvalid(tup) \ (StoreInvalidTransactionId(&(tup)->t_xmin)) #define HeapTupleHeaderSetXmax(tup, xid) \ (TransactionIdStore((xid), &(tup)->t_xmax)) #define HeapTupleHeaderSetXmaxInvalid(tup) \ (StoreInvalidTransactionId(&(tup)->t_xmax)) #define HeapTupleHeaderSetCmin(tup, cid) \ ( \ AssertMacro(!((tup)->t_infomask & (HEAP_MOVED_IN | HEAP_MOVED_OFF))), \ (tup)->t_cmin = (cid) \ ) #define HeapTupleHeaderSetCmax(tup, cid) \ ((tup)->t_cmax = (cid)) #define HeapTupleHeaderSetXvac(tup, xid) \ ( \ AssertMacro((tup)->t_infomask & (HEAP_MOVED_IN | HEAP_MOVED_OFF)), \ TransactionIdStore((xid), (TransactionId *) &((tup)->t_cmin)) \ ) /* * XLOG allows to store some information in high 4 bits of log * record xl_info field */ #define XLOG_HEAP_INSERT 0x00 #define XLOG_HEAP_DELETE 0x10 #define XLOG_HEAP_UPDATE 0x20 #define XLOG_HEAP_MOVE 0x30 #define XLOG_HEAP_CLEAN 0x40 #define XLOG_HEAP_OPMASK 0x70 /* * When we insert 1st item on new page in INSERT/UPDATE * we can (and we do) restore entire page in redo */ #define XLOG_HEAP_INIT_PAGE 0x80 /* * All what we need to find changed tuple (18 bytes) * * NB: on most machines, sizeof(xl_heaptid) will include some trailing pad * bytes for alignment. We don't want to store the pad space in the XLOG, * so use SizeOfHeapTid for space calculations. Similar comments apply for * the other xl_FOO structs. */ typedef struct xl_heaptid { RelFileNode node; ItemPointerData tid; /* changed tuple id */ } xl_heaptid; #define SizeOfHeapTid (offsetof(xl_heaptid, tid) + SizeOfIptrData) /* This is what we need to know about delete */ typedef struct xl_heap_delete { xl_heaptid target; /* deleted tuple id */ } xl_heap_delete; #define SizeOfHeapDelete (offsetof(xl_heap_delete, target) + SizeOfHeapTid) typedef struct xl_heap_header { Oid t_oid; int16 t_natts; uint8 t_hoff; uint8 mask; /* low 8 bits of t_infomask */ } xl_heap_header; #define SizeOfHeapHeader (offsetof(xl_heap_header, mask) + sizeof(uint8)) /* This is what we need to know about insert */ typedef struct xl_heap_insert { xl_heaptid target; /* inserted tuple id */ /* xl_heap_header & TUPLE DATA FOLLOWS AT END OF STRUCT */ } xl_heap_insert; #define SizeOfHeapInsert (offsetof(xl_heap_insert, target) + SizeOfHeapTid) /* This is what we need to know about update|move */ typedef struct xl_heap_update { xl_heaptid target; /* deleted tuple id */ ItemPointerData newtid; /* new inserted tuple id */ /* NEW TUPLE xl_heap_header (PLUS xmax & xmin IF MOVE OP) */ /* and TUPLE DATA FOLLOWS AT END OF STRUCT */ } xl_heap_update; #define SizeOfHeapUpdate (offsetof(xl_heap_update, newtid) + SizeOfIptrData) /* This is what we need to know about page cleanup */ typedef struct xl_heap_clean { RelFileNode node; BlockNumber block; /* UNUSED OFFSET NUMBERS FOLLOW AT THE END */ } xl_heap_clean; #define SizeOfHeapClean (offsetof(xl_heap_clean, block) + sizeof(BlockNumber)) /* * MaxTupleSize is the maximum allowed size of a tuple, including header and * MAXALIGN alignment padding. Basically it's BLCKSZ minus the other stuff * that has to be on a disk page. The "other stuff" includes access-method- * dependent "special space", which we assume will be no more than * MaxSpecialSpace bytes (currently, on heap pages it's actually zero). * * NOTE: we do not need to count an ItemId for the tuple because * sizeof(PageHeaderData) includes the first ItemId on the page. */ #define MaxSpecialSpace 32 #define MaxTupleSize \ (BLCKSZ - MAXALIGN(sizeof(PageHeaderData) + MaxSpecialSpace)) /* * MaxAttrSize is a somewhat arbitrary upper limit on the declared size of * data fields of char(n) and similar types. It need not have anything * directly to do with the *actual* upper limit of varlena values, which * is currently 1Gb (see struct varattrib in postgres.h). I've set it * at 10Mb which seems like a reasonable number --- tgl 8/6/00. */ #define MaxAttrSize (10 * 1024 * 1024) /* * Attribute numbers for the system-defined attributes */ #define SelfItemPointerAttributeNumber (-1) #define ObjectIdAttributeNumber (-2) #define MinTransactionIdAttributeNumber (-3) #define MinCommandIdAttributeNumber (-4) #define MaxTransactionIdAttributeNumber (-5) #define MaxCommandIdAttributeNumber (-6) #define TableOidAttributeNumber (-7) #define FirstLowInvalidHeapAttributeNumber (-8) /* * HeapTupleData is an in-memory data structure that points to a tuple. * * This new HeapTuple for version >= 6.5 and this is why it was changed: * * 1. t_len moved off on-disk tuple data - ItemIdData is used to get len; * 2. t_ctid above is not self tuple TID now - it may point to * updated version of tuple (required by MVCC); * 3. someday someone let tuple to cross block boundaries - * he have to add something below... * * Change for 7.0: * Up to now t_data could be NULL, the memory location directly following * HeapTupleData, or pointing into a buffer. Now, it could also point to * a separate allocation that was done in the t_datamcxt memory context. */ typedef struct HeapTupleData { uint32 t_len; /* length of *t_data */ ItemPointerData t_self; /* SelfItemPointer */ Oid t_tableOid; /* table the tuple came from */ MemoryContext t_datamcxt; /* memory context of allocation */ HeapTupleHeader t_data; /* -> tuple header and data */ } HeapTupleData; typedef HeapTupleData *HeapTuple; #define HEAPTUPLESIZE MAXALIGN(sizeof(HeapTupleData)) /* ---------------- * support macros * ---------------- */ #define GETSTRUCT(TUP) (((char *)((HeapTuple)(TUP))->t_data) + \ ((HeapTuple)(TUP))->t_data->t_hoff) /* * BITMAPLEN(NATTS) - * Computes size of null bitmap given number of data columns. */ #define BITMAPLEN(NATTS) (((int)(NATTS) + 7) / 8) /* * HeapTupleIsValid * True iff the heap tuple is valid. */ #define HeapTupleIsValid(tuple) PointerIsValid(tuple) #define HeapTupleNoNulls(tuple) \ (!(((HeapTuple) (tuple))->t_data->t_infomask & HEAP_HASNULL)) #define HeapTupleAllFixed(tuple) \ (!(((HeapTuple) (tuple))->t_data->t_infomask & HEAP_HASVARLENA)) #define HeapTupleHasExternal(tuple) \ ((((HeapTuple)(tuple))->t_data->t_infomask & HEAP_HASEXTERNAL) != 0) #define HeapTupleHasCompressed(tuple) \ ((((HeapTuple)(tuple))->t_data->t_infomask & HEAP_HASCOMPRESSED) != 0) #define HeapTupleHasExtended(tuple) \ ((((HeapTuple)(tuple))->t_data->t_infomask & HEAP_HASEXTENDED) != 0) #endif /* HTUP_H */