#include "access/xlogdefs.h"
#include "storage/lwlock.h"
#include "storage/sync.h"

Include dependency graph for slru.h:

This graph shows which files directly or indirectly include this file:

Data Structures
struct	SlruSharedData

struct	SlruCtlData

Macros
#define	SLRU_MAX_ALLOWED_BUFFERS ((1024 * 1024 * 1024) / BLCKSZ)

#define	SlruPagePrecedesUnitTests(ctl, per_page) do {} while (0)

Typedefs
typedef struct SlruSharedData	SlruSharedData

typedef SlruSharedData *	SlruShared

typedef struct SlruCtlData	SlruCtlData

typedef SlruCtlData *	SlruCtl

typedef bool(*	SlruScanCallback) (SlruCtl ctl, char filename, int64 segpage, void data)

Enumerations
enum	SlruPageStatus { SLRU_PAGE_EMPTY , SLRU_PAGE_READ_IN_PROGRESS , SLRU_PAGE_VALID , SLRU_PAGE_WRITE_IN_PROGRESS }

Functions
static LWLock *	SimpleLruGetBankLock (SlruCtl ctl, int64 pageno)

Size	SimpleLruShmemSize (int nslots, int nlsns)

int	SimpleLruAutotuneBuffers (int divisor, int max)

void	SimpleLruInit (SlruCtl ctl, const char name, int nslots, int nlsns, const char subdir, int buffer_tranche_id, int bank_tranche_id, SyncRequestHandler sync_handler, bool long_segment_names)

int	SimpleLruZeroPage (SlruCtl ctl, int64 pageno)

void	SimpleLruZeroAndWritePage (SlruCtl ctl, int64 pageno)

int	SimpleLruReadPage (SlruCtl ctl, int64 pageno, bool write_ok, TransactionId xid)

int	SimpleLruReadPage_ReadOnly (SlruCtl ctl, int64 pageno, TransactionId xid)

void	SimpleLruWritePage (SlruCtl ctl, int slotno)

void	SimpleLruWriteAll (SlruCtl ctl, bool allow_redirtied)

void	SimpleLruTruncate (SlruCtl ctl, int64 cutoffPage)

bool	SimpleLruDoesPhysicalPageExist (SlruCtl ctl, int64 pageno)

bool	SlruScanDirectory (SlruCtl ctl, SlruScanCallback callback, void *data)

void	SlruDeleteSegment (SlruCtl ctl, int64 segno)

int	SlruSyncFileTag (SlruCtl ctl, const FileTag ftag, char path)

bool	SlruScanDirCbReportPresence (SlruCtl ctl, char filename, int64 segpage, void data)

bool	SlruScanDirCbDeleteAll (SlruCtl ctl, char filename, int64 segpage, void data)

bool	check_slru_buffers (const char name, int newval)

Macro Definition Documentation

◆ SLRU_MAX_ALLOWED_BUFFERS

#define SLRU_MAX_ALLOWED_BUFFERS ((1024 * 1024 * 1024) / BLCKSZ)

Definition at line 24 of file slru.h.

◆ SlruPagePrecedesUnitTests

#define SlruPagePrecedesUnitTests	(	ctl,
		per_page
	)	do {} while (0)

Definition at line 185 of file slru.h.

Typedef Documentation

◆ SlruCtl

typedef SlruCtlData* SlruCtl

Definition at line 151 of file slru.h.

◆ SlruCtlData

typedef struct SlruCtlData SlruCtlData

◆ SlruScanCallback

typedef bool(* SlruScanCallback) (SlruCtl ctl, char *filename, int64 segpage, void *data)

Definition at line 190 of file slru.h.

◆ SlruShared

typedef SlruSharedData* SlruShared

Definition at line 106 of file slru.h.

◆ SlruSharedData

typedef struct SlruSharedData SlruSharedData

Enumeration Type Documentation

◆ SlruPageStatus

enum SlruPageStatus

Enumerator
SLRU_PAGE_EMPTY
SLRU_PAGE_READ_IN_PROGRESS
SLRU_PAGE_VALID
SLRU_PAGE_WRITE_IN_PROGRESS

Definition at line 32 of file slru.h.

{
    SLRU_PAGE_EMPTY,            /* buffer is not in use */
    SLRU_PAGE_READ_IN_PROGRESS, /* page is being read in */
    SLRU_PAGE_VALID,            /* page is valid and not being written */
    SLRU_PAGE_WRITE_IN_PROGRESS,    /* page is being written out */
} SlruPageStatus;

Function Documentation

◆ check_slru_buffers()

bool check_slru_buffers	(	const char *	name,
		int *	newval
	)

Definition at line 355 of file slru.c.

{
    /* Valid values are multiples of SLRU_BANK_SIZE */
    if (*newval % SLRU_BANK_SIZE == 0)
        return true;
 
    GUC_check_errdetail("\"%s\" must be a multiple of %d.", name,
                        SLRU_BANK_SIZE);
    return false;
}

References GUC_check_errdetail, name, newval, and SLRU_BANK_SIZE.

Referenced by check_commit_ts_buffers(), check_multixact_member_buffers(), check_multixact_offset_buffers(), check_notify_buffers(), check_serial_buffers(), check_subtrans_buffers(), and check_transaction_buffers().

◆ SimpleLruAutotuneBuffers()

int SimpleLruAutotuneBuffers	(	int	divisor,
		int	max
	)

Definition at line 231 of file slru.c.

{
    return Min(max - (max % SLRU_BANK_SIZE),
               Max(SLRU_BANK_SIZE,
                   NBuffers / divisor - (NBuffers / divisor) % SLRU_BANK_SIZE));
}

References Max, Min, NBuffers, and SLRU_BANK_SIZE.

Referenced by CLOGShmemBuffers(), CommitTsShmemBuffers(), and SUBTRANSShmemBuffers().

◆ SimpleLruDoesPhysicalPageExist()

bool SimpleLruDoesPhysicalPageExist	(	SlruCtl	ctl,
		int64	pageno
	)

Definition at line 771 of file slru.c.

{
    int64       segno = pageno / SLRU_PAGES_PER_SEGMENT;
    int         rpageno = pageno % SLRU_PAGES_PER_SEGMENT;
    int         offset = rpageno * BLCKSZ;
    char        path[MAXPGPATH];
    int         fd;
    bool        result;
    off_t       endpos;
 
    /* update the stats counter of checked pages */
    pgstat_count_slru_blocks_exists(ctl->shared->slru_stats_idx);
 
    SlruFileName(ctl, path, segno);
 
    fd = OpenTransientFile(path, O_RDONLY | PG_BINARY);
    if (fd < 0)
    {
        /* expected: file doesn't exist */
        if (errno == ENOENT)
            return false;
 
        /* report error normally */
        slru_errcause = SLRU_OPEN_FAILED;
        slru_errno = errno;
        SlruReportIOError(ctl, pageno, 0);
    }
 
    if ((endpos = lseek(fd, 0, SEEK_END)) < 0)
    {
        slru_errcause = SLRU_SEEK_FAILED;
        slru_errno = errno;
        SlruReportIOError(ctl, pageno, 0);
    }
 
    result = endpos >= (off_t) (offset + BLCKSZ);
 
    if (CloseTransientFile(fd) != 0)
    {
        slru_errcause = SLRU_CLOSE_FAILED;
        slru_errno = errno;
        return false;
    }
 
    return result;
}

References CloseTransientFile(), ctl, endpos, fd(), MAXPGPATH, OpenTransientFile(), PG_BINARY, pgstat_count_slru_blocks_exists(), SlruWriteAllData::segno, SLRU_CLOSE_FAILED, slru_errcause, slru_errno, SLRU_OPEN_FAILED, SLRU_PAGES_PER_SEGMENT, SLRU_SEEK_FAILED, SlruFileName(), and SlruReportIOError().

Referenced by ActivateCommitTs(), find_multixact_start(), MaybeExtendOffsetSlru(), and test_slru_page_exists().

◆ SimpleLruGetBankLock()

static LWLock * SimpleLruGetBankLock	(	SlruCtl	ctl,
		int64	pageno
	)

inlinestatic

Definition at line 160 of file slru.h.

{
    int         bankno;
 
    bankno = pageno % ctl->nbanks;
    return &(ctl->shared->bank_locks[bankno].lock);
}

References ctl.

Referenced by AsyncNotifyFreezeXids(), asyncQueueAddEntries(), asyncQueueProcessPageEntries(), ExtendCLOG(), ExtendCommitTs(), ExtendMultiXactMember(), ExtendMultiXactOffset(), ExtendSUBTRANS(), find_multixact_start(), GetMultiXactIdMembers(), MaybeExtendOffsetSlru(), RecordNewMultiXact(), SerialAdd(), SerialGetMinConflictCommitSeqNo(), SetXidCommitTsInPage(), SimpleLruReadPage(), SimpleLruReadPage_ReadOnly(), SimpleLruZeroAndWritePage(), SimpleLruZeroPage(), SlruInternalWritePage(), SlruSelectLRUPage(), StartupSUBTRANS(), SubTransGetParent(), SubTransSetParent(), test_slru_page_exists(), test_slru_page_read(), test_slru_page_readonly(), test_slru_page_write(), TransactionGroupUpdateXidStatus(), TransactionIdGetCommitTsData(), TransactionIdGetStatus(), TransactionIdSetPageStatus(), TransactionIdSetPageStatusInternal(), TransactionIdSetStatusBit(), TrimCLOG(), and TrimMultiXact().

◆ SimpleLruInit()

void SimpleLruInit	(	SlruCtl	ctl,
		const char *	name,
		int	nslots,
		int	nlsns,
		const char *	subdir,
		int	buffer_tranche_id,
		int	bank_tranche_id,
		SyncRequestHandler	sync_handler,
		bool	long_segment_names
	)

Definition at line 252 of file slru.c.

{
    SlruShared  shared;
    bool        found;
    int         nbanks = nslots / SLRU_BANK_SIZE;
 
    Assert(nslots <= SLRU_MAX_ALLOWED_BUFFERS);
 
    shared = (SlruShared) ShmemInitStruct(name,
                                          SimpleLruShmemSize(nslots, nlsns),
                                          &found);
 
    if (!IsUnderPostmaster)
    {
        /* Initialize locks and shared memory area */
        char       *ptr;
        Size        offset;
 
        Assert(!found);
 
        memset(shared, 0, sizeof(SlruSharedData));
 
        shared->num_slots = nslots;
        shared->lsn_groups_per_page = nlsns;
 
        pg_atomic_init_u64(&shared->latest_page_number, 0);
 
        shared->slru_stats_idx = pgstat_get_slru_index(name);
 
        ptr = (char *) shared;
        offset = MAXALIGN(sizeof(SlruSharedData));
        shared->page_buffer = (char **) (ptr + offset);
        offset += MAXALIGN(nslots * sizeof(char *));
        shared->page_status = (SlruPageStatus *) (ptr + offset);
        offset += MAXALIGN(nslots * sizeof(SlruPageStatus));
        shared->page_dirty = (bool *) (ptr + offset);
        offset += MAXALIGN(nslots * sizeof(bool));
        shared->page_number = (int64 *) (ptr + offset);
        offset += MAXALIGN(nslots * sizeof(int64));
        shared->page_lru_count = (int *) (ptr + offset);
        offset += MAXALIGN(nslots * sizeof(int));
 
        /* Initialize LWLocks */
        shared->buffer_locks = (LWLockPadded *) (ptr + offset);
        offset += MAXALIGN(nslots * sizeof(LWLockPadded));
        shared->bank_locks = (LWLockPadded *) (ptr + offset);
        offset += MAXALIGN(nbanks * sizeof(LWLockPadded));
        shared->bank_cur_lru_count = (int *) (ptr + offset);
        offset += MAXALIGN(nbanks * sizeof(int));
 
        if (nlsns > 0)
        {
            shared->group_lsn = (XLogRecPtr *) (ptr + offset);
            offset += MAXALIGN(nslots * nlsns * sizeof(XLogRecPtr));
        }
 
        ptr += BUFFERALIGN(offset);
        for (int slotno = 0; slotno < nslots; slotno++)
        {
            LWLockInitialize(&shared->buffer_locks[slotno].lock,
                             buffer_tranche_id);
 
            shared->page_buffer[slotno] = ptr;
            shared->page_status[slotno] = SLRU_PAGE_EMPTY;
            shared->page_dirty[slotno] = false;
            shared->page_lru_count[slotno] = 0;
            ptr += BLCKSZ;
        }
 
        /* Initialize the slot banks. */
        for (int bankno = 0; bankno < nbanks; bankno++)
        {
            LWLockInitialize(&shared->bank_locks[bankno].lock, bank_tranche_id);
            shared->bank_cur_lru_count[bankno] = 0;
        }
 
        /* Should fit to estimated shmem size */
        Assert(ptr - (char *) shared <= SimpleLruShmemSize(nslots, nlsns));
    }
    else
    {
        Assert(found);
        Assert(shared->num_slots == nslots);
    }
 
    /*
     * Initialize the unshared control struct, including directory path. We
     * assume caller set PagePrecedes.
     */
    ctl->shared = shared;
    ctl->sync_handler = sync_handler;
    ctl->long_segment_names = long_segment_names;
    ctl->nbanks = nbanks;
    strlcpy(ctl->Dir, subdir, sizeof(ctl->Dir));
}

References Assert(), SlruSharedData::bank_cur_lru_count, SlruSharedData::bank_locks, SlruSharedData::buffer_locks, BUFFERALIGN, ctl, SlruSharedData::group_lsn, IsUnderPostmaster, SlruSharedData::latest_page_number, LWLockPadded::lock, SlruSharedData::lsn_groups_per_page, LWLockInitialize(), MAXALIGN, name, SlruSharedData::num_slots, SlruSharedData::page_buffer, SlruSharedData::page_dirty, SlruSharedData::page_lru_count, SlruSharedData::page_number, SlruSharedData::page_status, pg_atomic_init_u64(), pgstat_get_slru_index(), ShmemInitStruct(), SimpleLruShmemSize(), SLRU_BANK_SIZE, SLRU_MAX_ALLOWED_BUFFERS, SLRU_PAGE_EMPTY, SlruSharedData::slru_stats_idx, and strlcpy().

Referenced by AsyncShmemInit(), CLOGShmemInit(), CommitTsShmemInit(), MultiXactShmemInit(), SerialInit(), SUBTRANSShmemInit(), and test_slru_shmem_startup().

◆ SimpleLruReadPage()

int SimpleLruReadPage	(	SlruCtl	ctl,
		int64	pageno,
		bool	write_ok,
		TransactionId	xid
	)

Definition at line 527 of file slru.c.

{
    SlruShared  shared = ctl->shared;
    LWLock     *banklock = SimpleLruGetBankLock(ctl, pageno);
 
    Assert(LWLockHeldByMeInMode(banklock, LW_EXCLUSIVE));
 
    /* Outer loop handles restart if we must wait for someone else's I/O */
    for (;;)
    {
        int         slotno;
        bool        ok;
 
        /* See if page already is in memory; if not, pick victim slot */
        slotno = SlruSelectLRUPage(ctl, pageno);
 
        /* Did we find the page in memory? */
        if (shared->page_status[slotno] != SLRU_PAGE_EMPTY &&
            shared->page_number[slotno] == pageno)
        {
            /*
             * If page is still being read in, we must wait for I/O.  Likewise
             * if the page is being written and the caller said that's not OK.
             */
            if (shared->page_status[slotno] == SLRU_PAGE_READ_IN_PROGRESS ||
                (shared->page_status[slotno] == SLRU_PAGE_WRITE_IN_PROGRESS &&
                 !write_ok))
            {
                SimpleLruWaitIO(ctl, slotno);
                /* Now we must recheck state from the top */
                continue;
            }
            /* Otherwise, it's ready to use */
            SlruRecentlyUsed(shared, slotno);
 
            /* update the stats counter of pages found in the SLRU */
            pgstat_count_slru_blocks_hit(shared->slru_stats_idx);
 
            return slotno;
        }
 
        /* We found no match; assert we selected a freeable slot */
        Assert(shared->page_status[slotno] == SLRU_PAGE_EMPTY ||
               (shared->page_status[slotno] == SLRU_PAGE_VALID &&
                !shared->page_dirty[slotno]));
 
        /* Mark the slot read-busy */
        shared->page_number[slotno] = pageno;
        shared->page_status[slotno] = SLRU_PAGE_READ_IN_PROGRESS;
        shared->page_dirty[slotno] = false;
 
        /* Acquire per-buffer lock (cannot deadlock, see notes at top) */
        LWLockAcquire(&shared->buffer_locks[slotno].lock, LW_EXCLUSIVE);
 
        /* Release bank lock while doing I/O */
        LWLockRelease(banklock);
 
        /* Do the read */
        ok = SlruPhysicalReadPage(ctl, pageno, slotno);
 
        /* Set the LSNs for this newly read-in page to zero */
        SimpleLruZeroLSNs(ctl, slotno);
 
        /* Re-acquire bank control lock and update page state */
        LWLockAcquire(banklock, LW_EXCLUSIVE);
 
        Assert(shared->page_number[slotno] == pageno &&
               shared->page_status[slotno] == SLRU_PAGE_READ_IN_PROGRESS &&
               !shared->page_dirty[slotno]);
 
        shared->page_status[slotno] = ok ? SLRU_PAGE_VALID : SLRU_PAGE_EMPTY;
 
        LWLockRelease(&shared->buffer_locks[slotno].lock);
 
        /* Now it's okay to ereport if we failed */
        if (!ok)
            SlruReportIOError(ctl, pageno, xid);
 
        SlruRecentlyUsed(shared, slotno);
 
        /* update the stats counter of pages not found in SLRU */
        pgstat_count_slru_blocks_read(shared->slru_stats_idx);
 
        return slotno;
    }
}

References Assert(), SlruSharedData::buffer_locks, ctl, LWLockPadded::lock, LW_EXCLUSIVE, LWLockAcquire(), LWLockHeldByMeInMode(), LWLockRelease(), SlruSharedData::page_dirty, SlruSharedData::page_number, SlruSharedData::page_status, pgstat_count_slru_blocks_hit(), pgstat_count_slru_blocks_read(), SimpleLruGetBankLock(), SimpleLruWaitIO(), SimpleLruZeroLSNs(), SLRU_PAGE_EMPTY, SLRU_PAGE_READ_IN_PROGRESS, SLRU_PAGE_VALID, SLRU_PAGE_WRITE_IN_PROGRESS, SlruSharedData::slru_stats_idx, SlruPhysicalReadPage(), SlruRecentlyUsed(), SlruReportIOError(), and SlruSelectLRUPage().

Referenced by AsyncNotifyFreezeXids(), asyncQueueAddEntries(), GetMultiXactIdMembers(), RecordNewMultiXact(), SerialAdd(), SetXidCommitTsInPage(), SimpleLruReadPage_ReadOnly(), SubTransSetParent(), test_slru_page_read(), TransactionIdSetPageStatusInternal(), TrimCLOG(), and TrimMultiXact().

◆ SimpleLruReadPage_ReadOnly()

int SimpleLruReadPage_ReadOnly	(	SlruCtl	ctl,
		int64	pageno,
		TransactionId	xid
	)

Definition at line 630 of file slru.c.

{
    SlruShared  shared = ctl->shared;
    LWLock     *banklock = SimpleLruGetBankLock(ctl, pageno);
    int         bankno = pageno % ctl->nbanks;
    int         bankstart = bankno * SLRU_BANK_SIZE;
    int         bankend = bankstart + SLRU_BANK_SIZE;
 
    /* Try to find the page while holding only shared lock */
    LWLockAcquire(banklock, LW_SHARED);
 
    /* See if page is already in a buffer */
    for (int slotno = bankstart; slotno < bankend; slotno++)
    {
        if (shared->page_status[slotno] != SLRU_PAGE_EMPTY &&
            shared->page_number[slotno] == pageno &&
            shared->page_status[slotno] != SLRU_PAGE_READ_IN_PROGRESS)
        {
            /* See comments for SlruRecentlyUsed() */
            SlruRecentlyUsed(shared, slotno);
 
            /* update the stats counter of pages found in the SLRU */
            pgstat_count_slru_blocks_hit(shared->slru_stats_idx);
 
            return slotno;
        }
    }
 
    /* No luck, so switch to normal exclusive lock and do regular read */
    LWLockRelease(banklock);
    LWLockAcquire(banklock, LW_EXCLUSIVE);
 
    return SimpleLruReadPage(ctl, pageno, true, xid);
}

References ctl, LW_EXCLUSIVE, LW_SHARED, LWLockAcquire(), LWLockRelease(), SlruSharedData::page_number, SlruSharedData::page_status, pgstat_count_slru_blocks_hit(), SimpleLruGetBankLock(), SimpleLruReadPage(), SLRU_BANK_SIZE, SLRU_PAGE_EMPTY, SLRU_PAGE_READ_IN_PROGRESS, SlruSharedData::slru_stats_idx, and SlruRecentlyUsed().

Referenced by asyncQueueProcessPageEntries(), find_multixact_start(), SerialGetMinConflictCommitSeqNo(), SubTransGetParent(), test_slru_page_readonly(), TransactionIdGetCommitTsData(), and TransactionIdGetStatus().

◆ SimpleLruShmemSize()

Size SimpleLruShmemSize	(	int	nslots,
		int	nlsns
	)

Definition at line 198 of file slru.c.

{
    int         nbanks = nslots / SLRU_BANK_SIZE;
    Size        sz;
 
    Assert(nslots <= SLRU_MAX_ALLOWED_BUFFERS);
    Assert(nslots % SLRU_BANK_SIZE == 0);
 
    /* we assume nslots isn't so large as to risk overflow */
    sz = MAXALIGN(sizeof(SlruSharedData));
    sz += MAXALIGN(nslots * sizeof(char *));    /* page_buffer[] */
    sz += MAXALIGN(nslots * sizeof(SlruPageStatus));    /* page_status[] */
    sz += MAXALIGN(nslots * sizeof(bool));  /* page_dirty[] */
    sz += MAXALIGN(nslots * sizeof(int64)); /* page_number[] */
    sz += MAXALIGN(nslots * sizeof(int));   /* page_lru_count[] */
    sz += MAXALIGN(nslots * sizeof(LWLockPadded));  /* buffer_locks[] */
    sz += MAXALIGN(nbanks * sizeof(LWLockPadded));  /* bank_locks[] */
    sz += MAXALIGN(nbanks * sizeof(int));   /* bank_cur_lru_count[] */
 
    if (nlsns > 0)
        sz += MAXALIGN(nslots * nlsns * sizeof(XLogRecPtr));    /* group_lsn[] */
 
    return BUFFERALIGN(sz) + BLCKSZ * nslots;
}

References Assert(), BUFFERALIGN, MAXALIGN, SLRU_BANK_SIZE, and SLRU_MAX_ALLOWED_BUFFERS.

Referenced by AsyncShmemSize(), CLOGShmemSize(), CommitTsShmemSize(), MultiXactShmemSize(), PredicateLockShmemSize(), SimpleLruInit(), SUBTRANSShmemSize(), and test_slru_shmem_request().

◆ SimpleLruTruncate()

void SimpleLruTruncate	(	SlruCtl	ctl,
		int64	cutoffPage
	)

Definition at line 1433 of file slru.c.

{
    SlruShared  shared = ctl->shared;
    int         prevbank;
 
    /* update the stats counter of truncates */
    pgstat_count_slru_truncate(shared->slru_stats_idx);
 
    /*
     * Scan shared memory and remove any pages preceding the cutoff page, to
     * ensure we won't rewrite them later.  (Since this is normally called in
     * or just after a checkpoint, any dirty pages should have been flushed
     * already ... we're just being extra careful here.)
     */
restart:
 
    /*
     * An important safety check: the current endpoint page must not be
     * eligible for removal.  This check is just a backstop against wraparound
     * bugs elsewhere in SLRU handling, so we don't care if we read a slightly
     * outdated value; therefore we don't add a memory barrier.
     */
    if (ctl->PagePrecedes(pg_atomic_read_u64(&shared->latest_page_number),
                          cutoffPage))
    {
        ereport(LOG,
                (errmsg("could not truncate directory \"%s\": apparent wraparound",
                        ctl->Dir)));
        return;
    }
 
    prevbank = SlotGetBankNumber(0);
    LWLockAcquire(&shared->bank_locks[prevbank].lock, LW_EXCLUSIVE);
    for (int slotno = 0; slotno < shared->num_slots; slotno++)
    {
        int         curbank = SlotGetBankNumber(slotno);
 
        /*
         * If the current bank lock is not same as the previous bank lock then
         * release the previous lock and acquire the new lock.
         */
        if (curbank != prevbank)
        {
            LWLockRelease(&shared->bank_locks[prevbank].lock);
            LWLockAcquire(&shared->bank_locks[curbank].lock, LW_EXCLUSIVE);
            prevbank = curbank;
        }
 
        if (shared->page_status[slotno] == SLRU_PAGE_EMPTY)
            continue;
        if (!ctl->PagePrecedes(shared->page_number[slotno], cutoffPage))
            continue;
 
        /*
         * If page is clean, just change state to EMPTY (expected case).
         */
        if (shared->page_status[slotno] == SLRU_PAGE_VALID &&
            !shared->page_dirty[slotno])
        {
            shared->page_status[slotno] = SLRU_PAGE_EMPTY;
            continue;
        }
 
        /*
         * Hmm, we have (or may have) I/O operations acting on the page, so
         * we've got to wait for them to finish and then start again. This is
         * the same logic as in SlruSelectLRUPage.  (XXX if page is dirty,
         * wouldn't it be OK to just discard it without writing it?
         * SlruMayDeleteSegment() uses a stricter qualification, so we might
         * not delete this page in the end; even if we don't delete it, we
         * won't have cause to read its data again.  For now, keep the logic
         * the same as it was.)
         */
        if (shared->page_status[slotno] == SLRU_PAGE_VALID)
            SlruInternalWritePage(ctl, slotno, NULL);
        else
            SimpleLruWaitIO(ctl, slotno);
 
        LWLockRelease(&shared->bank_locks[prevbank].lock);
        goto restart;
    }
 
    LWLockRelease(&shared->bank_locks[prevbank].lock);
 
    /* Now we can remove the old segment(s) */
    (void) SlruScanDirectory(ctl, SlruScanDirCbDeleteCutoff, &cutoffPage);
}

References SlruSharedData::bank_locks, ctl, ereport, errmsg(), SlruSharedData::latest_page_number, LWLockPadded::lock, LOG, LW_EXCLUSIVE, LWLockAcquire(), LWLockRelease(), SlruSharedData::num_slots, SlruSharedData::page_dirty, SlruSharedData::page_number, SlruSharedData::page_status, pg_atomic_read_u64(), pgstat_count_slru_truncate(), SimpleLruWaitIO(), SlotGetBankNumber, SLRU_PAGE_EMPTY, SLRU_PAGE_VALID, SlruSharedData::slru_stats_idx, SlruInternalWritePage(), SlruScanDirCbDeleteCutoff(), and SlruScanDirectory().

Referenced by asyncQueueAdvanceTail(), CheckPointPredicate(), clog_redo(), commit_ts_redo(), PerformOffsetsTruncation(), test_slru_page_truncate(), TruncateCLOG(), TruncateCommitTs(), and TruncateSUBTRANS().

◆ SimpleLruWriteAll()

void SimpleLruWriteAll	(	SlruCtl	ctl,
		bool	allow_redirtied
	)

Definition at line 1347 of file slru.c.

{
    SlruShared  shared = ctl->shared;
    SlruWriteAllData fdata;
    int64       pageno = 0;
    int         prevbank = SlotGetBankNumber(0);
    bool        ok;
 
    /* update the stats counter of flushes */
    pgstat_count_slru_flush(shared->slru_stats_idx);
 
    /*
     * Find and write dirty pages
     */
    fdata.num_files = 0;
 
    LWLockAcquire(&shared->bank_locks[prevbank].lock, LW_EXCLUSIVE);
 
    for (int slotno = 0; slotno < shared->num_slots; slotno++)
    {
        int         curbank = SlotGetBankNumber(slotno);
 
        /*
         * If the current bank lock is not same as the previous bank lock then
         * release the previous lock and acquire the new lock.
         */
        if (curbank != prevbank)
        {
            LWLockRelease(&shared->bank_locks[prevbank].lock);
            LWLockAcquire(&shared->bank_locks[curbank].lock, LW_EXCLUSIVE);
            prevbank = curbank;
        }
 
        /* Do nothing if slot is unused */
        if (shared->page_status[slotno] == SLRU_PAGE_EMPTY)
            continue;
 
        SlruInternalWritePage(ctl, slotno, &fdata);
 
        /*
         * In some places (e.g. checkpoints), we cannot assert that the slot
         * is clean now, since another process might have re-dirtied it
         * already.  That's okay.
         */
        Assert(allow_redirtied ||
               shared->page_status[slotno] == SLRU_PAGE_EMPTY ||
               (shared->page_status[slotno] == SLRU_PAGE_VALID &&
                !shared->page_dirty[slotno]));
    }
 
    LWLockRelease(&shared->bank_locks[prevbank].lock);
 
    /*
     * Now close any files that were open
     */
    ok = true;
    for (int i = 0; i < fdata.num_files; i++)
    {
        if (CloseTransientFile(fdata.fd[i]) != 0)
        {
            slru_errcause = SLRU_CLOSE_FAILED;
            slru_errno = errno;
            pageno = fdata.segno[i] * SLRU_PAGES_PER_SEGMENT;
            ok = false;
        }
    }
    if (!ok)
        SlruReportIOError(ctl, pageno, InvalidTransactionId);
 
    /* Ensure that directory entries for new files are on disk. */
    if (ctl->sync_handler != SYNC_HANDLER_NONE)
        fsync_fname(ctl->Dir, true);
}

References Assert(), SlruSharedData::bank_locks, CloseTransientFile(), ctl, SlruWriteAllData::fd, fsync_fname(), i, InvalidTransactionId, LWLockPadded::lock, LW_EXCLUSIVE, LWLockAcquire(), LWLockRelease(), SlruWriteAllData::num_files, SlruSharedData::num_slots, SlruSharedData::page_dirty, SlruSharedData::page_status, pgstat_count_slru_flush(), SlruWriteAllData::segno, SlotGetBankNumber, SLRU_CLOSE_FAILED, slru_errcause, slru_errno, SLRU_PAGE_EMPTY, SLRU_PAGE_VALID, SLRU_PAGES_PER_SEGMENT, SlruSharedData::slru_stats_idx, SlruInternalWritePage(), SlruReportIOError(), and SYNC_HANDLER_NONE.

Referenced by CheckPointCLOG(), CheckPointCommitTs(), CheckPointMultiXact(), CheckPointPredicate(), CheckPointSUBTRANS(), find_multixact_start(), and test_slru_page_writeall().

◆ SimpleLruWritePage()

void SimpleLruWritePage	(	SlruCtl	ctl,
		int	slotno
	)

Definition at line 757 of file slru.c.

{
    Assert(ctl->shared->page_status[slotno] != SLRU_PAGE_EMPTY);
 
    SlruInternalWritePage(ctl, slotno, NULL);
}

References Assert(), ctl, SLRU_PAGE_EMPTY, and SlruInternalWritePage().

Referenced by MaybeExtendOffsetSlru(), SimpleLruZeroAndWritePage(), and test_slru_page_write().

◆ SimpleLruZeroAndWritePage()

void SimpleLruZeroAndWritePage	(	SlruCtl	ctl,
		int64	pageno
	)

Definition at line 444 of file slru.c.

{
    int         slotno;
    LWLock     *lock;
 
    lock = SimpleLruGetBankLock(ctl, pageno);
    LWLockAcquire(lock, LW_EXCLUSIVE);
 
    /* Create and zero the page */
    slotno = SimpleLruZeroPage(ctl, pageno);
 
    /* Make sure it's written out */
    SimpleLruWritePage(ctl, slotno);
    Assert(!ctl->shared->page_dirty[slotno]);
 
    LWLockRelease(lock);
}

References Assert(), ctl, LW_EXCLUSIVE, LWLockAcquire(), LWLockRelease(), SimpleLruGetBankLock(), SimpleLruWritePage(), and SimpleLruZeroPage().

Referenced by ActivateCommitTs(), BootStrapCLOG(), BootStrapMultiXact(), BootStrapSUBTRANS(), clog_redo(), commit_ts_redo(), and multixact_redo().

◆ SimpleLruZeroPage()

int SimpleLruZeroPage	(	SlruCtl	ctl,
		int64	pageno
	)

Definition at line 375 of file slru.c.

{
    SlruShared  shared = ctl->shared;
    int         slotno;
 
    Assert(LWLockHeldByMeInMode(SimpleLruGetBankLock(ctl, pageno), LW_EXCLUSIVE));
 
    /* Find a suitable buffer slot for the page */
    slotno = SlruSelectLRUPage(ctl, pageno);
    Assert(shared->page_status[slotno] == SLRU_PAGE_EMPTY ||
           (shared->page_status[slotno] == SLRU_PAGE_VALID &&
            !shared->page_dirty[slotno]) ||
           shared->page_number[slotno] == pageno);
 
    /* Mark the slot as containing this page */
    shared->page_number[slotno] = pageno;
    shared->page_status[slotno] = SLRU_PAGE_VALID;
    shared->page_dirty[slotno] = true;
    SlruRecentlyUsed(shared, slotno);
 
    /* Set the buffer to zeroes */
    MemSet(shared->page_buffer[slotno], 0, BLCKSZ);
 
    /* Set the LSNs for this new page to zero */
    SimpleLruZeroLSNs(ctl, slotno);
 
    /*
     * Assume this page is now the latest active page.
     *
     * Note that because both this routine and SlruSelectLRUPage run with a
     * SLRU bank lock held, it is not possible for this to be zeroing a page
     * that SlruSelectLRUPage is going to evict simultaneously.  Therefore,
     * there's no memory barrier here.
     */
    pg_atomic_write_u64(&shared->latest_page_number, pageno);
 
    /* update the stats counter of zeroed pages */
    pgstat_count_slru_blocks_zeroed(shared->slru_stats_idx);
 
    return slotno;
}

References Assert(), ctl, SlruSharedData::latest_page_number, LW_EXCLUSIVE, LWLockHeldByMeInMode(), MemSet, SlruSharedData::page_buffer, SlruSharedData::page_dirty, SlruSharedData::page_number, SlruSharedData::page_status, pg_atomic_write_u64(), pgstat_count_slru_blocks_zeroed(), SimpleLruGetBankLock(), SimpleLruZeroLSNs(), SLRU_PAGE_EMPTY, SLRU_PAGE_VALID, SlruSharedData::slru_stats_idx, SlruRecentlyUsed(), and SlruSelectLRUPage().

Referenced by asyncQueueAddEntries(), ExtendCLOG(), ExtendCommitTs(), ExtendMultiXactMember(), ExtendMultiXactOffset(), ExtendSUBTRANS(), MaybeExtendOffsetSlru(), SerialAdd(), SimpleLruZeroAndWritePage(), StartupSUBTRANS(), test_slru_page_write(), and TrimMultiXact().

◆ SlruDeleteSegment()

void SlruDeleteSegment	(	SlruCtl	ctl,
		int64	segno
	)

Definition at line 1551 of file slru.c.

{
    SlruShared  shared = ctl->shared;
    int         prevbank = SlotGetBankNumber(0);
    bool        did_write;
 
    /* Clean out any possibly existing references to the segment. */
    LWLockAcquire(&shared->bank_locks[prevbank].lock, LW_EXCLUSIVE);
restart:
    did_write = false;
    for (int slotno = 0; slotno < shared->num_slots; slotno++)
    {
        int64       pagesegno;
        int         curbank = SlotGetBankNumber(slotno);
 
        /*
         * If the current bank lock is not same as the previous bank lock then
         * release the previous lock and acquire the new lock.
         */
        if (curbank != prevbank)
        {
            LWLockRelease(&shared->bank_locks[prevbank].lock);
            LWLockAcquire(&shared->bank_locks[curbank].lock, LW_EXCLUSIVE);
            prevbank = curbank;
        }
 
        if (shared->page_status[slotno] == SLRU_PAGE_EMPTY)
            continue;
 
        pagesegno = shared->page_number[slotno] / SLRU_PAGES_PER_SEGMENT;
        /* not the segment we're looking for */
        if (pagesegno != segno)
            continue;
 
        /* If page is clean, just change state to EMPTY (expected case). */
        if (shared->page_status[slotno] == SLRU_PAGE_VALID &&
            !shared->page_dirty[slotno])
        {
            shared->page_status[slotno] = SLRU_PAGE_EMPTY;
            continue;
        }
 
        /* Same logic as SimpleLruTruncate() */
        if (shared->page_status[slotno] == SLRU_PAGE_VALID)
            SlruInternalWritePage(ctl, slotno, NULL);
        else
            SimpleLruWaitIO(ctl, slotno);
 
        did_write = true;
    }
 
    /*
     * Be extra careful and re-check. The IO functions release the control
     * lock, so new pages could have been read in.
     */
    if (did_write)
        goto restart;
 
    SlruInternalDeleteSegment(ctl, segno);
 
    LWLockRelease(&shared->bank_locks[prevbank].lock);
}

References SlruSharedData::bank_locks, ctl, LWLockPadded::lock, LW_EXCLUSIVE, LWLockAcquire(), LWLockRelease(), SlruSharedData::num_slots, SlruSharedData::page_dirty, SlruSharedData::page_number, SlruSharedData::page_status, SlruWriteAllData::segno, SimpleLruWaitIO(), SlotGetBankNumber, SLRU_PAGE_EMPTY, SLRU_PAGE_VALID, SLRU_PAGES_PER_SEGMENT, SlruInternalDeleteSegment(), and SlruInternalWritePage().

Referenced by PerformMembersTruncation(), and test_slru_page_delete().

◆ SlruScanDirCbDeleteAll()

bool SlruScanDirCbDeleteAll	(	SlruCtl	ctl,
		char *	filename,
		int64	segpage,
		void *	data
	)

Definition at line 1769 of file slru.c.

{
    SlruInternalDeleteSegment(ctl, segpage / SLRU_PAGES_PER_SEGMENT);
 
    return false;               /* keep going */
}

References ctl, SLRU_PAGES_PER_SEGMENT, and SlruInternalDeleteSegment().

Referenced by AsyncShmemInit(), DeactivateCommitTs(), and test_slru_scan_cb().

◆ SlruScanDirCbReportPresence()

bool SlruScanDirCbReportPresence	(	SlruCtl	ctl,
		char *	filename,
		int64	segpage,
		void *	data
	)

Definition at line 1737 of file slru.c.

{
    int64       cutoffPage = *(int64 *) data;
 
    if (SlruMayDeleteSegment(ctl, segpage, cutoffPage))
        return true;            /* found one; don't iterate any more */
 
    return false;               /* keep going */
}

References ctl, data, and SlruMayDeleteSegment().

Referenced by TruncateCLOG(), and TruncateCommitTs().

◆ SlruScanDirectory()

bool SlruScanDirectory	(	SlruCtl	ctl,
		SlruScanCallback	callback,
		void *	data
	)

Definition at line 1816 of file slru.c.

{
    bool        retval = false;
    DIR        *cldir;
    struct dirent *clde;
    int64       segno;
    int64       segpage;
 
    cldir = AllocateDir(ctl->Dir);
    while ((clde = ReadDir(cldir, ctl->Dir)) != NULL)
    {
        size_t      len;
 
        len = strlen(clde->d_name);
 
        if (SlruCorrectSegmentFilenameLength(ctl, len) &&
            strspn(clde->d_name, "0123456789ABCDEF") == len)
        {
            segno = strtoi64(clde->d_name, NULL, 16);
            segpage = segno * SLRU_PAGES_PER_SEGMENT;
 
            elog(DEBUG2, "SlruScanDirectory invoking callback on %s/%s",
                 ctl->Dir, clde->d_name);
            retval = callback(ctl, clde->d_name, segpage, data);
            if (retval)
                break;
        }
    }
    FreeDir(cldir);
 
    return retval;
}

References AllocateDir(), callback(), ctl, dirent::d_name, data, DEBUG2, elog, FreeDir(), len, ReadDir(), SLRU_PAGES_PER_SEGMENT, and SlruCorrectSegmentFilenameLength().

Referenced by AsyncShmemInit(), DeactivateCommitTs(), SimpleLruTruncate(), test_slru_delete_all(), TruncateCLOG(), TruncateCommitTs(), and TruncateMultiXact().

◆ SlruSyncFileTag()

int SlruSyncFileTag	(	SlruCtl	ctl,
		const FileTag *	ftag,
		char *	path
	)

Definition at line 1856 of file slru.c.

{
    int         fd;
    int         save_errno;
    int         result;
 
    SlruFileName(ctl, path, ftag->segno);
 
    fd = OpenTransientFile(path, O_RDWR | PG_BINARY);
    if (fd < 0)
        return -1;
 
    pgstat_report_wait_start(WAIT_EVENT_SLRU_FLUSH_SYNC);
    result = pg_fsync(fd);
    pgstat_report_wait_end();
    save_errno = errno;
 
    CloseTransientFile(fd);
 
    errno = save_errno;
    return result;
}

References CloseTransientFile(), ctl, fd(), OpenTransientFile(), PG_BINARY, pg_fsync(), pgstat_report_wait_end(), pgstat_report_wait_start(), FileTag::segno, and SlruFileName().

Referenced by clogsyncfiletag(), committssyncfiletag(), multixactmemberssyncfiletag(), multixactoffsetssyncfiletag(), and test_slru_page_sync().

Data Structures

Macros

Typedefs

Enumerations

Functions