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/*------------------------------------------------------------------------- * * freespace.h * POSTGRES free space map for quickly finding free space in relations * * * Portions Copyright (c) 1996-2008, PostgreSQL Global Development Group * Portions Copyright (c) 1994, Regents of the University of California * * $PostgreSQL: pgsql/src/include/storage/freespace.h,v 1.27 2008/01/01 19:45:59 momjian Exp $ * *------------------------------------------------------------------------- */ #ifndef FREESPACE_H_ #define FREESPACE_H_ #include "storage/relfilenode.h" #include "storage/itemptr.h" /* * exported types */ typedef struct PageFreeSpaceInfo { BlockNumber blkno; /* which page in relation */ Size avail; /* space available on this page */ } PageFreeSpaceInfo; /* Initial value for average-request moving average */ #define INITIAL_AVERAGE ((Size) (BLCKSZ / 32)) /* * Number of pages and bytes per allocation chunk. Indexes can squeeze 50% * more pages into the same space because they don't need to remember how much * free space on each page. The nominal number of pages, CHUNKPAGES, is for * regular rels, and INDEXCHUNKPAGES is for indexes. CHUNKPAGES should be * even so that no space is wasted in the index case. */ #define CHUNKPAGES 16 #define CHUNKBYTES (CHUNKPAGES * sizeof(FSMPageData)) #define INDEXCHUNKPAGES ((int) (CHUNKBYTES / sizeof(IndexFSMPageData))) /* * Typedefs and macros for items in the page-storage arena. We use the * existing ItemPointer and BlockId data structures, which are designed * to pack well (they should be 6 and 4 bytes apiece regardless of machine * alignment issues). Unfortunately we can't use the ItemPointer access * macros, because they include Asserts insisting that ip_posid != 0. */ typedef ItemPointerData FSMPageData; typedef BlockIdData IndexFSMPageData; #define FSMPageGetPageNum(ptr) \ BlockIdGetBlockNumber(&(ptr)->ip_blkid) #define FSMPageGetSpace(ptr) \ ((Size) (ptr)->ip_posid) #define FSMPageSetPageNum(ptr, pg) \ BlockIdSet(&(ptr)->ip_blkid, pg) #define FSMPageSetSpace(ptr, sz) \ ((ptr)->ip_posid = (OffsetNumber) (sz)) #define IndexFSMPageGetPageNum(ptr) \ BlockIdGetBlockNumber(ptr) #define IndexFSMPageSetPageNum(ptr, pg) \ BlockIdSet(ptr, pg) /* * Shared free-space-map objects * * The per-relation objects are indexed by a hash table, and are also members * of two linked lists: one ordered by recency of usage (most recent first), * and the other ordered by physical location of the associated storage in * the page-info arena. * * Each relation owns one or more chunks of per-page storage in the "arena". * The chunks for each relation are always consecutive, so that it can treat * its page storage as a simple array. We further insist that its page data * be ordered by block number, so that binary search is possible. * * Note: we handle pointers to these items as pointers, not as SHMEM_OFFSETs. * This assumes that all processes accessing the map will have the shared * memory segment mapped at the same place in their address space. */ typedef struct FSMHeader FSMHeader; typedef struct FSMRelation FSMRelation; /* Header for whole map */ struct FSMHeader { FSMRelation *usageList; /* FSMRelations in usage-recency order */ FSMRelation *usageListTail; /* tail of usage-recency list */ FSMRelation *firstRel; /* FSMRelations in arena storage order */ FSMRelation *lastRel; /* tail of storage-order list */ int numRels; /* number of FSMRelations now in use */ double sumRequests; /* sum of requested chunks over all rels */ char *arena; /* arena for page-info storage */ int totalChunks; /* total size of arena, in chunks */ int usedChunks; /* # of chunks assigned */ /* NB: there are totalChunks - usedChunks free chunks at end of arena */ }; /* * Per-relation struct --- this is an entry in the shared hash table. * The hash key is the RelFileNode value (hence, we look at the physical * relation ID, not the logical ID, which is appropriate). */ struct FSMRelation { RelFileNode key; /* hash key (must be first) */ FSMRelation *nextUsage; /* next rel in usage-recency order */ FSMRelation *priorUsage; /* prior rel in usage-recency order */ FSMRelation *nextPhysical; /* next rel in arena-storage order */ FSMRelation *priorPhysical; /* prior rel in arena-storage order */ bool isIndex; /* if true, we store only page numbers */ Size avgRequest; /* moving average of space requests */ BlockNumber interestingPages; /* # of pages with useful free space */ int firstChunk; /* chunk # of my first chunk in arena */ int storedPages; /* # of pages stored in arena */ int nextPage; /* index (from 0) to start next search at */ }; /* GUC variables */ extern PGDLLIMPORT int MaxFSMRelations; extern PGDLLIMPORT int MaxFSMPages; /* * function prototypes */ extern void InitFreeSpaceMap(void); extern Size FreeSpaceShmemSize(void); extern FSMHeader *GetFreeSpaceMap(void); extern BlockNumber GetPageWithFreeSpace(RelFileNode *rel, Size spaceNeeded); extern BlockNumber RecordAndGetPageWithFreeSpace(RelFileNode *rel, BlockNumber oldPage, Size oldSpaceAvail, Size spaceNeeded); extern Size GetAvgFSMRequestSize(RelFileNode *rel); extern void RecordRelationFreeSpace(RelFileNode *rel, BlockNumber interestingPages, int nPages, PageFreeSpaceInfo *pageSpaces); extern BlockNumber GetFreeIndexPage(RelFileNode *rel); extern void RecordIndexFreeSpace(RelFileNode *rel, BlockNumber interestingPages, int nPages, BlockNumber *pages); extern void FreeSpaceMapTruncateRel(RelFileNode *rel, BlockNumber nblocks); extern void FreeSpaceMapForgetRel(RelFileNode *rel); extern void FreeSpaceMapForgetDatabase(Oid dbid); extern void PrintFreeSpaceMapStatistics(int elevel); extern void DumpFreeSpaceMap(int code, Datum arg); extern void LoadFreeSpaceMap(void); #ifdef FREESPACE_DEBUG extern void DumpFreeSpace(void); #endif #endif /* FREESPACE_H */