/*------------------------------------------------------------------------- * * slru.h * Simple LRU buffering for transaction status logfiles * * Portions Copyright (c) 1996-2004, PostgreSQL Global Development Group * Portions Copyright (c) 1994, Regents of the University of California * * $PostgreSQL: pgsql/src/include/access/slru.h,v 1.9 2004/08/29 04:13:03 momjian Exp $ * *------------------------------------------------------------------------- */ #ifndef SLRU_H #define SLRU_H #include "storage/lwlock.h" /* * Number of page buffers. Ideally this could be different for CLOG and * SUBTRANS, but the benefit doesn't seem to be worth any additional * notational cruft. */ #define NUM_SLRU_BUFFERS 8 /* Page status codes */ typedef enum { SLRU_PAGE_EMPTY, /* buffer is not in use */ SLRU_PAGE_READ_IN_PROGRESS, /* page is being read in */ SLRU_PAGE_CLEAN, /* page is valid and not dirty */ SLRU_PAGE_DIRTY, /* page is valid but needs write */ SLRU_PAGE_WRITE_IN_PROGRESS /* page is being written out */ } SlruPageStatus; /* * Shared-memory state */ typedef struct SlruSharedData { LWLockId ControlLock; /* * Info for each buffer slot. Page number is undefined when status is * EMPTY. lru_count is essentially the number of page switches since * last use of this page; the page with highest lru_count is the best * candidate to replace. */ char *page_buffer[NUM_SLRU_BUFFERS]; SlruPageStatus page_status[NUM_SLRU_BUFFERS]; int page_number[NUM_SLRU_BUFFERS]; unsigned int page_lru_count[NUM_SLRU_BUFFERS]; LWLockId buffer_locks[NUM_SLRU_BUFFERS]; /* * latest_page_number is the page number of the current end of the * log; this is not critical data, since we use it only to avoid * swapping out the latest page. */ int latest_page_number; } SlruSharedData; typedef SlruSharedData *SlruShared; /* * SlruCtlData is an unshared structure that points to the active information * in shared memory. */ typedef struct SlruCtlData { SlruShared shared; /* * This flag tells whether to fsync writes (true for pg_clog, * false for pg_subtrans). */ bool do_fsync; /* * Decide which of two page numbers is "older" for truncation purposes. * We need to use comparison of TransactionIds here in order to do the * right thing with wraparound XID arithmetic. */ bool (*PagePrecedes) (int, int); /* * Dir is set during SimpleLruInit and does not change thereafter. * Since it's always the same, it doesn't need to be in shared memory. */ char Dir[MAXPGPATH]; } SlruCtlData; typedef SlruCtlData *SlruCtl; /* Opaque struct known only in slru.c */ typedef struct SlruFlushData *SlruFlush; extern int SimpleLruShmemSize(void); extern void SimpleLruInit(SlruCtl ctl, const char *name, LWLockId ctllock, const char *subdir); extern int SimpleLruZeroPage(SlruCtl ctl, int pageno); extern int SimpleLruReadPage(SlruCtl ctl, int pageno, TransactionId xid); extern void SimpleLruWritePage(SlruCtl ctl, int slotno, SlruFlush fdata); extern void SimpleLruFlush(SlruCtl ctl, bool checkpoint); extern void SimpleLruTruncate(SlruCtl ctl, int cutoffPage); extern bool SlruScanDirectory(SlruCtl ctl, int cutoffPage, bool doDeletions); #endif /* SLRU_H */