checkpointer.c File Reference

#include "postgres.h"
#include <sys/time.h>
#include "access/xlog.h"
#include "access/xlog_internal.h"
#include "libpq/pqsignal.h"
#include "miscadmin.h"
#include "pgstat.h"
#include "postmaster/bgwriter.h"
#include "postmaster/interrupt.h"
#include "replication/syncrep.h"
#include "storage/bufmgr.h"
#include "storage/condition_variable.h"
#include "storage/fd.h"
#include "storage/ipc.h"
#include "storage/lwlock.h"
#include "storage/proc.h"
#include "storage/procsignal.h"
#include "storage/shmem.h"
#include "storage/smgr.h"
#include "storage/spin.h"
#include "utils/guc.h"
#include "utils/memutils.h"
#include "utils/resowner.h"

Include dependency graph for checkpointer.c:

Go to the source code of this file.

Data Structures
struct	CheckpointerRequest
struct	CheckpointerShmemStruct

Macros
#define	WRITES_PER_ABSORB   1000
#define	MAX_SIGNAL_TRIES   600 /* max wait 60.0 sec */

Functions
static void	HandleCheckpointerInterrupts (void)
static void	CheckArchiveTimeout (void)
static bool	IsCheckpointOnSchedule (double progress)
static bool	ImmediateCheckpointRequested (void)
static bool	CompactCheckpointerRequestQueue (void)
static void	UpdateSharedMemoryConfig (void)
static void	ReqCheckpointHandler (SIGNAL_ARGS)
void	CheckpointerMain (void)
void	CheckpointWriteDelay (int flags, double progress)
Size	CheckpointerShmemSize (void)
void	CheckpointerShmemInit (void)
void	RequestCheckpoint (int flags)
bool	ForwardSyncRequest (const FileTag *ftag, SyncRequestType type)
void	AbsorbSyncRequests (void)
bool	FirstCallSinceLastCheckpoint (void)

Variables
static CheckpointerShmemStruct *	CheckpointerShmem
int	CheckPointTimeout = 300
int	CheckPointWarning = 30
double	CheckPointCompletionTarget = 0.5
static bool	ckpt_active = false
static pg_time_t	ckpt_start_time
static XLogRecPtr	ckpt_start_recptr
static double	ckpt_cached_elapsed
static pg_time_t	last_checkpoint_time
static pg_time_t	last_xlog_switch_time

Macro Definition Documentation

MAX_SIGNAL_TRIES

#define MAX_SIGNAL_TRIES   600 /* max wait 60.0 sec */

Referenced by RequestCheckpoint().

WRITES_PER_ABSORB

#define WRITES_PER_ABSORB   1000

Definition at line 141 of file checkpointer.c.

Referenced by CheckpointWriteDelay().

Function Documentation

AbsorbSyncRequests()

void AbsorbSyncRequests

(

void

)

Definition at line 1229 of file checkpointer.c.

References AmCheckpointerProcess, BgWriterStats, END_CRIT_SECTION, CheckpointerRequest::ftag, LW_EXCLUSIVE, LWLockAcquire(), LWLockRelease(), PgStat_MsgBgWriter::m_buf_fsync_backend, PgStat_MsgBgWriter::m_buf_written_backend, CheckpointerShmemStruct::num_backend_fsync, CheckpointerShmemStruct::num_backend_writes, CheckpointerShmemStruct::num_requests, palloc(), pfree(), RememberSyncRequest(), CheckpointerShmemStruct::requests, START_CRIT_SECTION, and CheckpointerRequest::type.

Referenced by CheckpointerMain(), CheckpointWriteDelay(), ProcessSyncRequests(), and SyncPostCheckpoint().

{
    CheckpointerRequest *requests = NULL;
    CheckpointerRequest *request;
    int         n;

    if (!AmCheckpointerProcess())
        return;

    LWLockAcquire(CheckpointerCommLock, LW_EXCLUSIVE);

    /* Transfer stats counts into pending pgstats message */
    BgWriterStats.m_buf_written_backend += CheckpointerShmem->num_backend_writes;
    BgWriterStats.m_buf_fsync_backend += CheckpointerShmem->num_backend_fsync;

    CheckpointerShmem->num_backend_writes = 0;
    CheckpointerShmem->num_backend_fsync = 0;

    /*
     * We try to avoid holding the lock for a long time by copying the request
     * array, and processing the requests after releasing the lock.
     *
     * Once we have cleared the requests from shared memory, we have to PANIC
     * if we then fail to absorb them (eg, because our hashtable runs out of
     * memory).  This is because the system cannot run safely if we are unable
     * to fsync what we have been told to fsync.  Fortunately, the hashtable
     * is so small that the problem is quite unlikely to arise in practice.
     */
    n = CheckpointerShmem->num_requests;
    if (n > 0)
    {
        requests = (CheckpointerRequest *) palloc(n * sizeof(CheckpointerRequest));
        memcpy(requests, CheckpointerShmem->requests, n * sizeof(CheckpointerRequest));
    }

    START_CRIT_SECTION();

    CheckpointerShmem->num_requests = 0;

    LWLockRelease(CheckpointerCommLock);

    for (request = requests; n > 0; request++, n--)
        RememberSyncRequest(&request->ftag, request->type);

    END_CRIT_SECTION();

    if (requests)
        pfree(requests);
}

CheckArchiveTimeout()

static void CheckArchiveTimeout ( void  )

static

Definition at line 575 of file checkpointer.c.

References DEBUG1, elog, GetLastImportantRecPtr(), GetLastSegSwitchData(), last_xlog_switch_time, Max, now(), RecoveryInProgress(), RequestXLogSwitch(), wal_segment_size, XLogArchiveTimeout, and XLogSegmentOffset.

Referenced by CheckpointerMain(), and CheckpointWriteDelay().

{
    pg_time_t   now;
    pg_time_t   last_time;
    XLogRecPtr  last_switch_lsn;

    if (XLogArchiveTimeout <= 0 || RecoveryInProgress())
        return;

    now = (pg_time_t) time(NULL);

    /* First we do a quick check using possibly-stale local state. */
    if ((int) (now - last_xlog_switch_time) < XLogArchiveTimeout)
        return;

    /*
     * Update local state ... note that last_xlog_switch_time is the last time
     * a switch was performed *or requested*.
     */
    last_time = GetLastSegSwitchData(&last_switch_lsn);

    last_xlog_switch_time = Max(last_xlog_switch_time, last_time);

    /* Now we can do the real checks */
    if ((int) (now - last_xlog_switch_time) >= XLogArchiveTimeout)
    {
        /*
         * Switch segment only when "important" WAL has been logged since the
         * last segment switch (last_switch_lsn points to end of segment
         * switch occurred in).
         */
        if (GetLastImportantRecPtr() > last_switch_lsn)
        {
            XLogRecPtr  switchpoint;

            /* mark switch as unimportant, avoids triggering checkpoints */
            switchpoint = RequestXLogSwitch(true);

            /*
             * If the returned pointer points exactly to a segment boundary,
             * assume nothing happened.
             */
            if (XLogSegmentOffset(switchpoint, wal_segment_size) != 0)
                elog(DEBUG1, "write-ahead log switch forced (archive_timeout=%d)",
                     XLogArchiveTimeout);
        }

        /*
         * Update state in any case, so we don't retry constantly when the
         * system is idle.
         */
        last_xlog_switch_time = now;
    }
}

CheckpointerMain()

void CheckpointerMain

(

void

)

Definition at line 183 of file checkpointer.c.

References AbortBufferIO(), AbsorbSyncRequests(), ALLOCSET_DEFAULT_SIZES, AllocSetContextCreate, AtEOXact_Buffers(), AtEOXact_Files(), AtEOXact_HashTables(), AtEOXact_SMgr(), BgWriterStats, BlockSig, CheckArchiveTimeout(), CHECKPOINT_CAUSE_TIME, CHECKPOINT_CAUSE_XLOG, CHECKPOINT_END_OF_RECOVERY, CheckpointerShmemStruct::checkpointer_pid, PROC_HDR::checkpointerLatch, CheckPointTimeout, CheckPointWarning, ckpt_active, ckpt_cached_elapsed, CheckpointerShmemStruct::ckpt_done, CheckpointerShmemStruct::ckpt_failed, CheckpointerShmemStruct::ckpt_flags, CheckpointerShmemStruct::ckpt_lck, ckpt_start_recptr, ckpt_start_time, CheckpointerShmemStruct::ckpt_started, ConditionVariableBroadcast(), ConditionVariableCancelSleep(), CreateCheckPoint(), CreateRestartPoint(), CheckpointerShmemStruct::done_cv, EmitErrorReport(), ereport, errhint(), errmsg_plural(), error_context_stack, FlushErrorState(), GetInsertRecPtr(), GetXLogReplayRecPtr(), HandleCheckpointerInterrupts(), HOLD_INTERRUPTS, last_checkpoint_time, last_xlog_switch_time, LOG, LWLockReleaseAll(), PgStat_MsgBgWriter::m_requested_checkpoints, PgStat_MsgBgWriter::m_timed_checkpoints, MemoryContextResetAndDeleteChildren, MemoryContextSwitchTo(), Min, MyLatch, MyProc, MyProcPid, now(), PG_exception_stack, PG_SETMASK, pg_usleep(), pgstat_report_wait_end(), pgstat_send_bgwriter(), pqsignal(), ProcGlobal, PGPROC::procLatch, procsignal_sigusr1_handler(), RecoveryInProgress(), ReleaseAuxProcessResources(), ReqCheckpointHandler(), ResetLatch(), RESUME_INTERRUPTS, SIG_DFL, SIG_IGN, SIGALRM, SIGCHLD, SIGHUP, SignalHandlerForConfigReload(), SignalHandlerForCrashExit(), SignalHandlerForShutdownRequest(), SIGPIPE, SIGQUIT, SIGUSR1, SIGUSR2, smgrcloseall(), SpinLockAcquire, SpinLockRelease, CheckpointerShmemStruct::start_cv, TopMemoryContext, UnBlockSig, UnlockBuffers(), UpdateSharedMemoryConfig(), WAIT_EVENT_CHECKPOINTER_MAIN, WaitLatch(), WL_EXIT_ON_PM_DEATH, WL_LATCH_SET, WL_TIMEOUT, and XLogArchiveTimeout.

Referenced by AuxiliaryProcessMain().

{
    sigjmp_buf  local_sigjmp_buf;
    MemoryContext checkpointer_context;

    CheckpointerShmem->checkpointer_pid = MyProcPid;

    /*
     * Properly accept or ignore signals the postmaster might send us
     *
     * Note: we deliberately ignore SIGTERM, because during a standard Unix
     * system shutdown cycle, init will SIGTERM all processes at once.  We
     * want to wait for the backends to exit, whereupon the postmaster will
     * tell us it's okay to shut down (via SIGUSR2).
     */
    pqsignal(SIGHUP, SignalHandlerForConfigReload);
    pqsignal(SIGINT, ReqCheckpointHandler); /* request checkpoint */
    pqsignal(SIGTERM, SIG_IGN); /* ignore SIGTERM */
    pqsignal(SIGQUIT, SignalHandlerForCrashExit);
    pqsignal(SIGALRM, SIG_IGN);
    pqsignal(SIGPIPE, SIG_IGN);
    pqsignal(SIGUSR1, procsignal_sigusr1_handler);
    pqsignal(SIGUSR2, SignalHandlerForShutdownRequest);

    /*
     * Reset some signals that are accepted by postmaster but not here
     */
    pqsignal(SIGCHLD, SIG_DFL);

    /* We allow SIGQUIT (quickdie) at all times */
    sigdelset(&BlockSig, SIGQUIT);

    /*
     * Initialize so that first time-driven event happens at the correct time.
     */
    last_checkpoint_time = last_xlog_switch_time = (pg_time_t) time(NULL);

    /*
     * Create a memory context that we will do all our work in.  We do this so
     * that we can reset the context during error recovery and thereby avoid
     * possible memory leaks.  Formerly this code just ran in
     * TopMemoryContext, but resetting that would be a really bad idea.
     */
    checkpointer_context = AllocSetContextCreate(TopMemoryContext,
                                                 "Checkpointer",
                                                 ALLOCSET_DEFAULT_SIZES);
    MemoryContextSwitchTo(checkpointer_context);

    /*
     * If an exception is encountered, processing resumes here.
     *
     * See notes in postgres.c about the design of this coding.
     */
    if (sigsetjmp(local_sigjmp_buf, 1) != 0)
    {
        /* Since not using PG_TRY, must reset error stack by hand */
        error_context_stack = NULL;

        /* Prevent interrupts while cleaning up */
        HOLD_INTERRUPTS();

        /* Report the error to the server log */
        EmitErrorReport();

        /*
         * These operations are really just a minimal subset of
         * AbortTransaction().  We don't have very many resources to worry
         * about in checkpointer, but we do have LWLocks, buffers, and temp
         * files.
         */
        LWLockReleaseAll();
        ConditionVariableCancelSleep();
        pgstat_report_wait_end();
        AbortBufferIO();
        UnlockBuffers();
        ReleaseAuxProcessResources(false);
        AtEOXact_Buffers(false);
        AtEOXact_SMgr();
        AtEOXact_Files(false);
        AtEOXact_HashTables(false);

        /* Warn any waiting backends that the checkpoint failed. */
        if (ckpt_active)
        {
            SpinLockAcquire(&CheckpointerShmem->ckpt_lck);
            CheckpointerShmem->ckpt_failed++;
            CheckpointerShmem->ckpt_done = CheckpointerShmem->ckpt_started;
            SpinLockRelease(&CheckpointerShmem->ckpt_lck);

            ConditionVariableBroadcast(&CheckpointerShmem->done_cv);

            ckpt_active = false;
        }

        /*
         * Now return to normal top-level context and clear ErrorContext for
         * next time.
         */
        MemoryContextSwitchTo(checkpointer_context);
        FlushErrorState();

        /* Flush any leaked data in the top-level context */
        MemoryContextResetAndDeleteChildren(checkpointer_context);

        /* Now we can allow interrupts again */
        RESUME_INTERRUPTS();

        /*
         * Sleep at least 1 second after any error.  A write error is likely
         * to be repeated, and we don't want to be filling the error logs as
         * fast as we can.
         */
        pg_usleep(1000000L);

        /*
         * Close all open files after any error.  This is helpful on Windows,
         * where holding deleted files open causes various strange errors.
         * It's not clear we need it elsewhere, but shouldn't hurt.
         */
        smgrcloseall();
    }

    /* We can now handle ereport(ERROR) */
    PG_exception_stack = &local_sigjmp_buf;

    /*
     * Unblock signals (they were blocked when the postmaster forked us)
     */
    PG_SETMASK(&UnBlockSig);

    /*
     * Ensure all shared memory values are set correctly for the config. Doing
     * this here ensures no race conditions from other concurrent updaters.
     */
    UpdateSharedMemoryConfig();

    /*
     * Advertise our latch that backends can use to wake us up while we're
     * sleeping.
     */
    ProcGlobal->checkpointerLatch = &MyProc->procLatch;

    /*
     * Loop forever
     */
    for (;;)
    {
        bool        do_checkpoint = false;
        int         flags = 0;
        pg_time_t   now;
        int         elapsed_secs;
        int         cur_timeout;

        /* Clear any already-pending wakeups */
        ResetLatch(MyLatch);

        /*
         * Process any requests or signals received recently.
         */
        AbsorbSyncRequests();
        HandleCheckpointerInterrupts();

        /*
         * Detect a pending checkpoint request by checking whether the flags
         * word in shared memory is nonzero.  We shouldn't need to acquire the
         * ckpt_lck for this.
         */
        if (((volatile CheckpointerShmemStruct *) CheckpointerShmem)->ckpt_flags)
        {
            do_checkpoint = true;
            BgWriterStats.m_requested_checkpoints++;
        }

        /*
         * Force a checkpoint if too much time has elapsed since the last one.
         * Note that we count a timed checkpoint in stats only when this
         * occurs without an external request, but we set the CAUSE_TIME flag
         * bit even if there is also an external request.
         */
        now = (pg_time_t) time(NULL);
        elapsed_secs = now - last_checkpoint_time;
        if (elapsed_secs >= CheckPointTimeout)
        {
            if (!do_checkpoint)
                BgWriterStats.m_timed_checkpoints++;
            do_checkpoint = true;
            flags |= CHECKPOINT_CAUSE_TIME;
        }

        /*
         * Do a checkpoint if requested.
         */
        if (do_checkpoint)
        {
            bool        ckpt_performed = false;
            bool        do_restartpoint;

            /*
             * Check if we should perform a checkpoint or a restartpoint. As a
             * side-effect, RecoveryInProgress() initializes TimeLineID if
             * it's not set yet.
             */
            do_restartpoint = RecoveryInProgress();

            /*
             * Atomically fetch the request flags to figure out what kind of a
             * checkpoint we should perform, and increase the started-counter
             * to acknowledge that we've started a new checkpoint.
             */
            SpinLockAcquire(&CheckpointerShmem->ckpt_lck);
            flags |= CheckpointerShmem->ckpt_flags;
            CheckpointerShmem->ckpt_flags = 0;
            CheckpointerShmem->ckpt_started++;
            SpinLockRelease(&CheckpointerShmem->ckpt_lck);

            ConditionVariableBroadcast(&CheckpointerShmem->start_cv);

            /*
             * The end-of-recovery checkpoint is a real checkpoint that's
             * performed while we're still in recovery.
             */
            if (flags & CHECKPOINT_END_OF_RECOVERY)
                do_restartpoint = false;

            /*
             * We will warn if (a) too soon since last checkpoint (whatever
             * caused it) and (b) somebody set the CHECKPOINT_CAUSE_XLOG flag
             * since the last checkpoint start.  Note in particular that this
             * implementation will not generate warnings caused by
             * CheckPointTimeout < CheckPointWarning.
             */
            if (!do_restartpoint &&
                (flags & CHECKPOINT_CAUSE_XLOG) &&
                elapsed_secs < CheckPointWarning)
                ereport(LOG,
                        (errmsg_plural("checkpoints are occurring too frequently (%d second apart)",
                                       "checkpoints are occurring too frequently (%d seconds apart)",
                                       elapsed_secs,
                                       elapsed_secs),
                         errhint("Consider increasing the configuration parameter \"max_wal_size\".")));

            /*
             * Initialize checkpointer-private variables used during
             * checkpoint.
             */
            ckpt_active = true;
            if (do_restartpoint)
                ckpt_start_recptr = GetXLogReplayRecPtr(NULL);
            else
                ckpt_start_recptr = GetInsertRecPtr();
            ckpt_start_time = now;
            ckpt_cached_elapsed = 0;

            /*
             * Do the checkpoint.
             */
            if (!do_restartpoint)
            {
                CreateCheckPoint(flags);
                ckpt_performed = true;
            }
            else
                ckpt_performed = CreateRestartPoint(flags);

            /*
             * After any checkpoint, close all smgr files.  This is so we
             * won't hang onto smgr references to deleted files indefinitely.
             */
            smgrcloseall();

            /*
             * Indicate checkpoint completion to any waiting backends.
             */
            SpinLockAcquire(&CheckpointerShmem->ckpt_lck);
            CheckpointerShmem->ckpt_done = CheckpointerShmem->ckpt_started;
            SpinLockRelease(&CheckpointerShmem->ckpt_lck);

            ConditionVariableBroadcast(&CheckpointerShmem->done_cv);

            if (ckpt_performed)
            {
                /*
                 * Note we record the checkpoint start time not end time as
                 * last_checkpoint_time.  This is so that time-driven
                 * checkpoints happen at a predictable spacing.
                 */
                last_checkpoint_time = now;
            }
            else
            {
                /*
                 * We were not able to perform the restartpoint (checkpoints
                 * throw an ERROR in case of error).  Most likely because we
                 * have not received any new checkpoint WAL records since the
                 * last restartpoint. Try again in 15 s.
                 */
                last_checkpoint_time = now - CheckPointTimeout + 15;
            }

            ckpt_active = false;
        }

        /* Check for archive_timeout and switch xlog files if necessary. */
        CheckArchiveTimeout();

        /*
         * Send off activity statistics to the stats collector.  (The reason
         * why we re-use bgwriter-related code for this is that the bgwriter
         * and checkpointer used to be just one process.  It's probably not
         * worth the trouble to split the stats support into two independent
         * stats message types.)
         */
        pgstat_send_bgwriter();

        /*
         * Sleep until we are signaled or it's time for another checkpoint or
         * xlog file switch.
         */
        now = (pg_time_t) time(NULL);
        elapsed_secs = now - last_checkpoint_time;
        if (elapsed_secs >= CheckPointTimeout)
            continue;           /* no sleep for us ... */
        cur_timeout = CheckPointTimeout - elapsed_secs;
        if (XLogArchiveTimeout > 0 && !RecoveryInProgress())
        {
            elapsed_secs = now - last_xlog_switch_time;
            if (elapsed_secs >= XLogArchiveTimeout)
                continue;       /* no sleep for us ... */
            cur_timeout = Min(cur_timeout, XLogArchiveTimeout - elapsed_secs);
        }

        (void) WaitLatch(MyLatch,
                         WL_LATCH_SET | WL_TIMEOUT | WL_EXIT_ON_PM_DEATH,
                         cur_timeout * 1000L /* convert to ms */ ,
                         WAIT_EVENT_CHECKPOINTER_MAIN);
    }
}

CheckpointerShmemInit()

void CheckpointerShmemInit

(

void

)

Definition at line 853 of file checkpointer.c.

References CheckpointerShmemSize(), CheckpointerShmemStruct::ckpt_lck, ConditionVariableInit(), CheckpointerShmemStruct::done_cv, CheckpointerShmemStruct::max_requests, MemSet, NBuffers, ShmemInitStruct(), SpinLockInit, and CheckpointerShmemStruct::start_cv.

Referenced by CreateSharedMemoryAndSemaphores().

{
    Size        size = CheckpointerShmemSize();
    bool        found;

    CheckpointerShmem = (CheckpointerShmemStruct *)
        ShmemInitStruct("Checkpointer Data",
                        size,
                        &found);

    if (!found)
    {
        /*
         * First time through, so initialize.  Note that we zero the whole
         * requests array; this is so that CompactCheckpointerRequestQueue can
         * assume that any pad bytes in the request structs are zeroes.
         */
        MemSet(CheckpointerShmem, 0, size);
        SpinLockInit(&CheckpointerShmem->ckpt_lck);
        CheckpointerShmem->max_requests = NBuffers;
        ConditionVariableInit(&CheckpointerShmem->start_cv);
        ConditionVariableInit(&CheckpointerShmem->done_cv);
    }
}

CheckpointerShmemSize()

Size CheckpointerShmemSize

(

void

)

Definition at line 834 of file checkpointer.c.

References add_size(), mul_size(), NBuffers, and offsetof.

Referenced by CheckpointerShmemInit(), and CreateSharedMemoryAndSemaphores().

{
    Size        size;

    /*
     * Currently, the size of the requests[] array is arbitrarily set equal to
     * NBuffers.  This may prove too large or small ...
     */
    size = offsetof(CheckpointerShmemStruct, requests);
    size = add_size(size, mul_size(NBuffers, sizeof(CheckpointerRequest)));

    return size;
}

CheckpointWriteDelay()

void CheckpointWriteDelay	(	int	flags,
		double	progress
	)

Definition at line 663 of file checkpointer.c.

References AbsorbSyncRequests(), AmCheckpointerProcess, CheckArchiveTimeout(), CHECKPOINT_IMMEDIATE, ConfigReloadPending, ImmediateCheckpointRequested(), IsCheckpointOnSchedule(), pg_usleep(), PGC_SIGHUP, pgstat_send_bgwriter(), ProcessConfigFile(), ProcessProcSignalBarrier(), ProcSignalBarrierPending, ShutdownRequestPending, UpdateSharedMemoryConfig(), and WRITES_PER_ABSORB.

Referenced by BufferSync().

{
    static int  absorb_counter = WRITES_PER_ABSORB;

    /* Do nothing if checkpoint is being executed by non-checkpointer process */
    if (!AmCheckpointerProcess())
        return;

    /*
     * Perform the usual duties and take a nap, unless we're behind schedule,
     * in which case we just try to catch up as quickly as possible.
     */
    if (!(flags & CHECKPOINT_IMMEDIATE) &&
        !ShutdownRequestPending &&
        !ImmediateCheckpointRequested() &&
        IsCheckpointOnSchedule(progress))
    {
        if (ConfigReloadPending)
        {
            ConfigReloadPending = false;
            ProcessConfigFile(PGC_SIGHUP);
            /* update shmem copies of config variables */
            UpdateSharedMemoryConfig();
        }

        AbsorbSyncRequests();
        absorb_counter = WRITES_PER_ABSORB;

        CheckArchiveTimeout();

        /*
         * Report interim activity statistics to the stats collector.
         */
        pgstat_send_bgwriter();

        /*
         * This sleep used to be connected to bgwriter_delay, typically 200ms.
         * That resulted in more frequent wakeups if not much work to do.
         * Checkpointer and bgwriter are no longer related so take the Big
         * Sleep.
         */
        pg_usleep(100000L);
    }
    else if (--absorb_counter <= 0)
    {
        /*
         * Absorb pending fsync requests after each WRITES_PER_ABSORB write
         * operations even when we don't sleep, to prevent overflow of the
         * fsync request queue.
         */
        AbsorbSyncRequests();
        absorb_counter = WRITES_PER_ABSORB;
    }

    /* Check for barrier events. */
    if (ProcSignalBarrierPending)
        ProcessProcSignalBarrier();
}

CompactCheckpointerRequestQueue()

static bool CompactCheckpointerRequestQueue ( void  )

static

Definition at line 1122 of file checkpointer.c.

References Assert, CurrentMemoryContext, DEBUG1, HASHCTL::entrysize, ereport, errmsg(), HASH_BLOBS, HASH_CONTEXT, hash_create(), hash_destroy(), HASH_ELEM, HASH_ENTER, hash_search(), HASHCTL::hcxt, HASHCTL::keysize, LWLockHeldByMe(), MemSet, CheckpointerShmemStruct::num_requests, palloc0(), pfree(), and CheckpointerShmemStruct::requests.

Referenced by ForwardSyncRequest().

{
    struct CheckpointerSlotMapping
    {
        CheckpointerRequest request;
        int         slot;
    };

    int         n,
                preserve_count;
    int         num_skipped = 0;
    HASHCTL     ctl;
    HTAB       *htab;
    bool       *skip_slot;

    /* must hold CheckpointerCommLock in exclusive mode */
    Assert(LWLockHeldByMe(CheckpointerCommLock));

    /* Initialize skip_slot array */
    skip_slot = palloc0(sizeof(bool) * CheckpointerShmem->num_requests);

    /* Initialize temporary hash table */
    MemSet(&ctl, 0, sizeof(ctl));
    ctl.keysize = sizeof(CheckpointerRequest);
    ctl.entrysize = sizeof(struct CheckpointerSlotMapping);
    ctl.hcxt = CurrentMemoryContext;

    htab = hash_create("CompactCheckpointerRequestQueue",
                       CheckpointerShmem->num_requests,
                       &ctl,
                       HASH_ELEM | HASH_BLOBS | HASH_CONTEXT);

    /*
     * The basic idea here is that a request can be skipped if it's followed
     * by a later, identical request.  It might seem more sensible to work
     * backwards from the end of the queue and check whether a request is
     * *preceded* by an earlier, identical request, in the hopes of doing less
     * copying.  But that might change the semantics, if there's an
     * intervening SYNC_FORGET_REQUEST or SYNC_FILTER_REQUEST, so we do it
     * this way.  It would be possible to be even smarter if we made the code
     * below understand the specific semantics of such requests (it could blow
     * away preceding entries that would end up being canceled anyhow), but
     * it's not clear that the extra complexity would buy us anything.
     */
    for (n = 0; n < CheckpointerShmem->num_requests; n++)
    {
        CheckpointerRequest *request;
        struct CheckpointerSlotMapping *slotmap;
        bool        found;

        /*
         * We use the request struct directly as a hashtable key.  This
         * assumes that any padding bytes in the structs are consistently the
         * same, which should be okay because we zeroed them in
         * CheckpointerShmemInit.  Note also that RelFileNode had better
         * contain no pad bytes.
         */
        request = &CheckpointerShmem->requests[n];
        slotmap = hash_search(htab, request, HASH_ENTER, &found);
        if (found)
        {
            /* Duplicate, so mark the previous occurrence as skippable */
            skip_slot[slotmap->slot] = true;
            num_skipped++;
        }
        /* Remember slot containing latest occurrence of this request value */
        slotmap->slot = n;
    }

    /* Done with the hash table. */
    hash_destroy(htab);

    /* If no duplicates, we're out of luck. */
    if (!num_skipped)
    {
        pfree(skip_slot);
        return false;
    }

    /* We found some duplicates; remove them. */
    preserve_count = 0;
    for (n = 0; n < CheckpointerShmem->num_requests; n++)
    {
        if (skip_slot[n])
            continue;
        CheckpointerShmem->requests[preserve_count++] = CheckpointerShmem->requests[n];
    }
    ereport(DEBUG1,
            (errmsg("compacted fsync request queue from %d entries to %d entries",
                    CheckpointerShmem->num_requests, preserve_count)));
    CheckpointerShmem->num_requests = preserve_count;

    /* Cleanup. */
    pfree(skip_slot);
    return true;
}

FirstCallSinceLastCheckpoint()

bool FirstCallSinceLastCheckpoint

(

void

)

Definition at line 1302 of file checkpointer.c.

References CheckpointerShmemStruct::ckpt_done, CheckpointerShmemStruct::ckpt_lck, SpinLockAcquire, and SpinLockRelease.

Referenced by BackgroundWriterMain().

{
    static int  ckpt_done = 0;
    int         new_done;
    bool        FirstCall = false;

    SpinLockAcquire(&CheckpointerShmem->ckpt_lck);
    new_done = CheckpointerShmem->ckpt_done;
    SpinLockRelease(&CheckpointerShmem->ckpt_lck);

    if (new_done != ckpt_done)
        FirstCall = true;

    ckpt_done = new_done;

    return FirstCall;
}

ForwardSyncRequest()

bool ForwardSyncRequest	(	const FileTag *	ftag,
		SyncRequestType	type
	)

Definition at line 1051 of file checkpointer.c.

References AmBackgroundWriterProcess, AmCheckpointerProcess, CheckpointerShmemStruct::checkpointer_pid, PROC_HDR::checkpointerLatch, CompactCheckpointerRequestQueue(), elog, ERROR, CheckpointerRequest::ftag, IsUnderPostmaster, LW_EXCLUSIVE, LWLockAcquire(), LWLockRelease(), CheckpointerShmemStruct::max_requests, CheckpointerShmemStruct::num_backend_fsync, CheckpointerShmemStruct::num_backend_writes, CheckpointerShmemStruct::num_requests, ProcGlobal, CheckpointerShmemStruct::requests, SetLatch(), CheckpointerRequest::type, and generate_unaccent_rules::type.

Referenced by RegisterSyncRequest().

{
    CheckpointerRequest *request;
    bool        too_full;

    if (!IsUnderPostmaster)
        return false;           /* probably shouldn't even get here */

    if (AmCheckpointerProcess())
        elog(ERROR, "ForwardSyncRequest must not be called in checkpointer");

    LWLockAcquire(CheckpointerCommLock, LW_EXCLUSIVE);

    /* Count all backend writes regardless of if they fit in the queue */
    if (!AmBackgroundWriterProcess())
        CheckpointerShmem->num_backend_writes++;

    /*
     * If the checkpointer isn't running or the request queue is full, the
     * backend will have to perform its own fsync request.  But before forcing
     * that to happen, we can try to compact the request queue.
     */
    if (CheckpointerShmem->checkpointer_pid == 0 ||
        (CheckpointerShmem->num_requests >= CheckpointerShmem->max_requests &&
         !CompactCheckpointerRequestQueue()))
    {
        /*
         * Count the subset of writes where backends have to do their own
         * fsync
         */
        if (!AmBackgroundWriterProcess())
            CheckpointerShmem->num_backend_fsync++;
        LWLockRelease(CheckpointerCommLock);
        return false;
    }

    /* OK, insert request */
    request = &CheckpointerShmem->requests[CheckpointerShmem->num_requests++];
    request->ftag = *ftag;
    request->type = type;

    /* If queue is more than half full, nudge the checkpointer to empty it */
    too_full = (CheckpointerShmem->num_requests >=
                CheckpointerShmem->max_requests / 2);

    LWLockRelease(CheckpointerCommLock);

    /* ... but not till after we release the lock */
    if (too_full && ProcGlobal->checkpointerLatch)
        SetLatch(ProcGlobal->checkpointerLatch);

    return true;
}

HandleCheckpointerInterrupts()

static void HandleCheckpointerInterrupts ( void  )

static

Definition at line 525 of file checkpointer.c.

References ConfigReloadPending, ExitOnAnyError, PGC_SIGHUP, proc_exit(), ProcessConfigFile(), ProcessProcSignalBarrier(), ProcSignalBarrierPending, ShutdownRequestPending, ShutdownXLOG(), and UpdateSharedMemoryConfig().

Referenced by CheckpointerMain().

{
    if (ProcSignalBarrierPending)
        ProcessProcSignalBarrier();

    if (ConfigReloadPending)
    {
        ConfigReloadPending = false;
        ProcessConfigFile(PGC_SIGHUP);

        /*
         * Checkpointer is the last process to shut down, so we ask it to
         * hold the keys for a range of other tasks required most of which
         * have nothing to do with checkpointing at all.
         *
         * For various reasons, some config values can change dynamically
         * so the primary copy of them is held in shared memory to make
         * sure all backends see the same value.  We make Checkpointer
         * responsible for updating the shared memory copy if the
         * parameter setting changes because of SIGHUP.
         */
        UpdateSharedMemoryConfig();
    }
    if (ShutdownRequestPending)
    {
        /*
         * From here on, elog(ERROR) should end with exit(1), not send
         * control back to the sigsetjmp block above
         */
        ExitOnAnyError = true;
        /* Close down the database */
        ShutdownXLOG(0, 0);
        /* Normal exit from the checkpointer is here */
        proc_exit(0);       /* done */
    }
}

ImmediateCheckpointRequested()

static bool ImmediateCheckpointRequested ( void  )

static

Definition at line 636 of file checkpointer.c.

References CHECKPOINT_IMMEDIATE, CheckpointerShmem, and CheckpointerShmemStruct::ckpt_flags.

Referenced by CheckpointWriteDelay().

{
    volatile CheckpointerShmemStruct *cps = CheckpointerShmem;

    /*
     * We don't need to acquire the ckpt_lck in this case because we're only
     * looking at a single flag bit.
     */
    if (cps->ckpt_flags & CHECKPOINT_IMMEDIATE)
        return true;
    return false;
}

IsCheckpointOnSchedule()

static bool IsCheckpointOnSchedule ( double  progress )

static

Definition at line 731 of file checkpointer.c.

References Assert, CheckPointCompletionTarget, CheckPointSegments, CheckPointTimeout, ckpt_active, ckpt_cached_elapsed, ckpt_start_recptr, ckpt_start_time, elapsed_time(), GetInsertRecPtr(), gettimeofday(), GetXLogReplayRecPtr(), RecoveryInProgress(), and wal_segment_size.

Referenced by CheckpointWriteDelay().

{
    XLogRecPtr  recptr;
    struct timeval now;
    double      elapsed_xlogs,
                elapsed_time;

    Assert(ckpt_active);

    /* Scale progress according to checkpoint_completion_target. */
    progress *= CheckPointCompletionTarget;

    /*
     * Check against the cached value first. Only do the more expensive
     * calculations once we reach the target previously calculated. Since
     * neither time or WAL insert pointer moves backwards, a freshly
     * calculated value can only be greater than or equal to the cached value.
     */
    if (progress < ckpt_cached_elapsed)
        return false;

    /*
     * Check progress against WAL segments written and CheckPointSegments.
     *
     * We compare the current WAL insert location against the location
     * computed before calling CreateCheckPoint. The code in XLogInsert that
     * actually triggers a checkpoint when CheckPointSegments is exceeded
     * compares against RedoRecPtr, so this is not completely accurate.
     * However, it's good enough for our purposes, we're only calculating an
     * estimate anyway.
     *
     * During recovery, we compare last replayed WAL record's location with
     * the location computed before calling CreateRestartPoint. That maintains
     * the same pacing as we have during checkpoints in normal operation, but
     * we might exceed max_wal_size by a fair amount. That's because there can
     * be a large gap between a checkpoint's redo-pointer and the checkpoint
     * record itself, and we only start the restartpoint after we've seen the
     * checkpoint record. (The gap is typically up to CheckPointSegments *
     * checkpoint_completion_target where checkpoint_completion_target is the
     * value that was in effect when the WAL was generated).
     */
    if (RecoveryInProgress())
        recptr = GetXLogReplayRecPtr(NULL);
    else
        recptr = GetInsertRecPtr();
    elapsed_xlogs = (((double) (recptr - ckpt_start_recptr)) /
                     wal_segment_size) / CheckPointSegments;

    if (progress < elapsed_xlogs)
    {
        ckpt_cached_elapsed = elapsed_xlogs;
        return false;
    }

    /*
     * Check progress against time elapsed and checkpoint_timeout.
     */
    gettimeofday(&now, NULL);
    elapsed_time = ((double) ((pg_time_t) now.tv_sec - ckpt_start_time) +
                    now.tv_usec / 1000000.0) / CheckPointTimeout;

    if (progress < elapsed_time)
    {
        ckpt_cached_elapsed = elapsed_time;
        return false;
    }

    /* It looks like we're on schedule. */
    return true;
}

ReqCheckpointHandler()

static void ReqCheckpointHandler ( SIGNAL_ARGS  )

static

Definition at line 810 of file checkpointer.c.

References MyLatch, and SetLatch().

Referenced by CheckpointerMain().

{
    int         save_errno = errno;

    /*
     * The signalling process should have set ckpt_flags nonzero, so all we
     * need do is ensure that our main loop gets kicked out of any wait.
     */
    SetLatch(MyLatch);

    errno = save_errno;
}

RequestCheckpoint()

void RequestCheckpoint

(

int

flags

)

Definition at line 896 of file checkpointer.c.

References CHECK_FOR_INTERRUPTS, CHECKPOINT_IMMEDIATE, CHECKPOINT_REQUESTED, CHECKPOINT_WAIT, CheckpointerShmemStruct::checkpointer_pid, CheckpointerShmemStruct::ckpt_done, CheckpointerShmemStruct::ckpt_failed, CheckpointerShmemStruct::ckpt_flags, CheckpointerShmemStruct::ckpt_lck, CheckpointerShmemStruct::ckpt_started, ConditionVariableCancelSleep(), ConditionVariablePrepareToSleep(), ConditionVariableSleep(), CreateCheckPoint(), CheckpointerShmemStruct::done_cv, elog, ereport, errhint(), errmsg(), ERROR, IsPostmasterEnvironment, kill, LOG, MAX_SIGNAL_TRIES, pg_usleep(), smgrcloseall(), SpinLockAcquire, SpinLockRelease, CheckpointerShmemStruct::start_cv, WAIT_EVENT_CHECKPOINT_DONE, and WAIT_EVENT_CHECKPOINT_START.

Referenced by createdb(), do_pg_start_backup(), dropdb(), DropTableSpace(), movedb(), standard_ProcessUtility(), StartupXLOG(), XLogPageRead(), and XLogWrite().

{
    int         ntries;
    int         old_failed,
                old_started;

    /*
     * If in a standalone backend, just do it ourselves.
     */
    if (!IsPostmasterEnvironment)
    {
        /*
         * There's no point in doing slow checkpoints in a standalone backend,
         * because there's no other backends the checkpoint could disrupt.
         */
        CreateCheckPoint(flags | CHECKPOINT_IMMEDIATE);

        /*
         * After any checkpoint, close all smgr files.  This is so we won't
         * hang onto smgr references to deleted files indefinitely.
         */
        smgrcloseall();

        return;
    }

    /*
     * Atomically set the request flags, and take a snapshot of the counters.
     * When we see ckpt_started > old_started, we know the flags we set here
     * have been seen by checkpointer.
     *
     * Note that we OR the flags with any existing flags, to avoid overriding
     * a "stronger" request by another backend.  The flag senses must be
     * chosen to make this work!
     */
    SpinLockAcquire(&CheckpointerShmem->ckpt_lck);

    old_failed = CheckpointerShmem->ckpt_failed;
    old_started = CheckpointerShmem->ckpt_started;
    CheckpointerShmem->ckpt_flags |= (flags | CHECKPOINT_REQUESTED);

    SpinLockRelease(&CheckpointerShmem->ckpt_lck);

    /*
     * Send signal to request checkpoint.  It's possible that the checkpointer
     * hasn't started yet, or is in process of restarting, so we will retry a
     * few times if needed.  (Actually, more than a few times, since on slow
     * or overloaded buildfarm machines, it's been observed that the
     * checkpointer can take several seconds to start.)  However, if not told
     * to wait for the checkpoint to occur, we consider failure to send the
     * signal to be nonfatal and merely LOG it.  The checkpointer should see
     * the request when it does start, with or without getting a signal.
     */
#define MAX_SIGNAL_TRIES 600    /* max wait 60.0 sec */
    for (ntries = 0;; ntries++)
    {
        if (CheckpointerShmem->checkpointer_pid == 0)
        {
            if (ntries >= MAX_SIGNAL_TRIES || !(flags & CHECKPOINT_WAIT))
            {
                elog((flags & CHECKPOINT_WAIT) ? ERROR : LOG,
                     "could not signal for checkpoint: checkpointer is not running");
                break;
            }
        }
        else if (kill(CheckpointerShmem->checkpointer_pid, SIGINT) != 0)
        {
            if (ntries >= MAX_SIGNAL_TRIES || !(flags & CHECKPOINT_WAIT))
            {
                elog((flags & CHECKPOINT_WAIT) ? ERROR : LOG,
                     "could not signal for checkpoint: %m");
                break;
            }
        }
        else
            break;              /* signal sent successfully */

        CHECK_FOR_INTERRUPTS();
        pg_usleep(100000L);     /* wait 0.1 sec, then retry */
    }

    /*
     * If requested, wait for completion.  We detect completion according to
     * the algorithm given above.
     */
    if (flags & CHECKPOINT_WAIT)
    {
        int         new_started,
                    new_failed;

        /* Wait for a new checkpoint to start. */
        ConditionVariablePrepareToSleep(&CheckpointerShmem->start_cv);
        for (;;)
        {
            SpinLockAcquire(&CheckpointerShmem->ckpt_lck);
            new_started = CheckpointerShmem->ckpt_started;
            SpinLockRelease(&CheckpointerShmem->ckpt_lck);

            if (new_started != old_started)
                break;

            ConditionVariableSleep(&CheckpointerShmem->start_cv,
                                   WAIT_EVENT_CHECKPOINT_START);
        }
        ConditionVariableCancelSleep();

        /*
         * We are waiting for ckpt_done >= new_started, in a modulo sense.
         */
        ConditionVariablePrepareToSleep(&CheckpointerShmem->done_cv);
        for (;;)
        {
            int         new_done;

            SpinLockAcquire(&CheckpointerShmem->ckpt_lck);
            new_done = CheckpointerShmem->ckpt_done;
            new_failed = CheckpointerShmem->ckpt_failed;
            SpinLockRelease(&CheckpointerShmem->ckpt_lck);

            if (new_done - new_started >= 0)
                break;

            ConditionVariableSleep(&CheckpointerShmem->done_cv,
                                   WAIT_EVENT_CHECKPOINT_DONE);
        }
        ConditionVariableCancelSleep();

        if (new_failed != old_failed)
            ereport(ERROR,
                    (errmsg("checkpoint request failed"),
                     errhint("Consult recent messages in the server log for details.")));
    }
}

UpdateSharedMemoryConfig()

static void UpdateSharedMemoryConfig ( void  )

static

Definition at line 1283 of file checkpointer.c.

References DEBUG2, elog, SyncRepUpdateSyncStandbysDefined(), and UpdateFullPageWrites().

Referenced by CheckpointerMain(), CheckpointWriteDelay(), and HandleCheckpointerInterrupts().

{
    /* update global shmem state for sync rep */
    SyncRepUpdateSyncStandbysDefined();

    /*
     * If full_page_writes has been changed by SIGHUP, we update it in shared
     * memory and write an XLOG_FPW_CHANGE record.
     */
    UpdateFullPageWrites();

    elog(DEBUG2, "checkpointer updated shared memory configuration values");
}

Variable Documentation

CheckPointCompletionTarget

double CheckPointCompletionTarget = 0.5

Definition at line 148 of file checkpointer.c.

Referenced by assign_checkpoint_completion_target(), CalculateCheckpointSegments(), IsCheckpointOnSchedule(), and XLOGfileslop().

CheckpointerShmem

CheckpointerShmemStruct* CheckpointerShmem

static

Definition at line 138 of file checkpointer.c.

Referenced by ImmediateCheckpointRequested().

CheckPointTimeout

int CheckPointTimeout = 300

Definition at line 146 of file checkpointer.c.

Referenced by CheckpointerMain(), and IsCheckpointOnSchedule().

CheckPointWarning

int CheckPointWarning = 30

Definition at line 147 of file checkpointer.c.

Referenced by CheckpointerMain().

ckpt_active

bool ckpt_active = false

static

Definition at line 153 of file checkpointer.c.

Referenced by CheckpointerMain(), and IsCheckpointOnSchedule().

ckpt_cached_elapsed

double ckpt_cached_elapsed

static

Definition at line 158 of file checkpointer.c.

Referenced by CheckpointerMain(), and IsCheckpointOnSchedule().

ckpt_start_recptr

XLogRecPtr ckpt_start_recptr

static

Definition at line 157 of file checkpointer.c.

Referenced by CheckpointerMain(), and IsCheckpointOnSchedule().

ckpt_start_time

pg_time_t ckpt_start_time

static

Definition at line 156 of file checkpointer.c.

Referenced by CheckpointerMain(), and IsCheckpointOnSchedule().

last_checkpoint_time

pg_time_t last_checkpoint_time

static

Definition at line 160 of file checkpointer.c.

Referenced by CheckpointerMain().

last_xlog_switch_time

pg_time_t last_xlog_switch_time

static

Definition at line 161 of file checkpointer.c.

Referenced by CheckArchiveTimeout(), and CheckpointerMain().