commit_ts.c

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/*-------------------------------------------------------------------------
 *
 * commit_ts.c
 *      PostgreSQL commit timestamp manager
 *
 * This module is a pg_xact-like system that stores the commit timestamp
 * for each transaction.
 *
 * XLOG interactions: this module generates an XLOG record whenever a new
 * CommitTs page is initialized to zeroes.  Other writes of CommitTS come
 * from recording of transaction commit in xact.c, which generates its own
 * XLOG records for these events and will re-perform the status update on
 * redo; so we need make no additional XLOG entry here.
 *
 * Portions Copyright (c) 1996-2025, PostgreSQL Global Development Group
 * Portions Copyright (c) 1994, Regents of the University of California
 *
 * src/backend/access/transam/commit_ts.c
 *
 *-------------------------------------------------------------------------
 */
#include "postgres.h"
 
#include "access/commit_ts.h"
#include "access/htup_details.h"
#include "access/slru.h"
#include "access/transam.h"
#include "access/xloginsert.h"
#include "access/xlogutils.h"
#include "funcapi.h"
#include "miscadmin.h"
#include "storage/shmem.h"
#include "utils/fmgrprotos.h"
#include "utils/guc_hooks.h"
#include "utils/timestamp.h"
 
/*
 * Defines for CommitTs page sizes.  A page is the same BLCKSZ as is used
 * everywhere else in Postgres.
 *
 * Note: because TransactionIds are 32 bits and wrap around at 0xFFFFFFFF,
 * CommitTs page numbering also wraps around at
 * 0xFFFFFFFF/COMMIT_TS_XACTS_PER_PAGE, and CommitTs segment numbering at
 * 0xFFFFFFFF/COMMIT_TS_XACTS_PER_PAGE/SLRU_PAGES_PER_SEGMENT.  We need take no
 * explicit notice of that fact in this module, except when comparing segment
 * and page numbers in TruncateCommitTs (see CommitTsPagePrecedes).
 */
 
/*
 * We need 8+2 bytes per xact.  Note that enlarging this struct might mean
 * the largest possible file name is more than 5 chars long; see
 * SlruScanDirectory.
 */
typedef struct CommitTimestampEntry
{
    TimestampTz time;
    RepOriginId nodeid;
} CommitTimestampEntry;
 
#define SizeOfCommitTimestampEntry (offsetof(CommitTimestampEntry, nodeid) + \
                                    sizeof(RepOriginId))
 
#define COMMIT_TS_XACTS_PER_PAGE \
    (BLCKSZ / SizeOfCommitTimestampEntry)
 
 
/*
 * Although we return an int64 the actual value can't currently exceed
 * 0xFFFFFFFF/COMMIT_TS_XACTS_PER_PAGE.
 */
static inline int64
TransactionIdToCTsPage(TransactionId xid)
{
    return xid / (int64) COMMIT_TS_XACTS_PER_PAGE;
}
 
#define TransactionIdToCTsEntry(xid)    \
    ((xid) % (TransactionId) COMMIT_TS_XACTS_PER_PAGE)
 
/*
 * Link to shared-memory data structures for CommitTs control
 */
static SlruCtlData CommitTsCtlData;
 
#define CommitTsCtl (&CommitTsCtlData)
 
/*
 * We keep a cache of the last value set in shared memory.
 *
 * This is also good place to keep the activation status.  We keep this
 * separate from the GUC so that the standby can activate the module if the
 * primary has it active independently of the value of the GUC.
 *
 * This is protected by CommitTsLock.  In some places, we use commitTsActive
 * without acquiring the lock; where this happens, a comment explains the
 * rationale for it.
 */
typedef struct CommitTimestampShared
{
    TransactionId xidLastCommit;
    CommitTimestampEntry dataLastCommit;
    bool        commitTsActive;
} CommitTimestampShared;
 
static CommitTimestampShared *commitTsShared;
 
 
/* GUC variable */
bool        track_commit_timestamp;
 
static void SetXidCommitTsInPage(TransactionId xid, int nsubxids,
                                 TransactionId *subxids, TimestampTz ts,
                                 RepOriginId nodeid, int64 pageno);
static void TransactionIdSetCommitTs(TransactionId xid, TimestampTz ts,
                                     RepOriginId nodeid, int slotno);
static void error_commit_ts_disabled(void);
static int  ZeroCommitTsPage(int64 pageno, bool writeXlog);
static bool CommitTsPagePrecedes(int64 page1, int64 page2);
static void ActivateCommitTs(void);
static void DeactivateCommitTs(void);
static void WriteZeroPageXlogRec(int64 pageno);
static void WriteTruncateXlogRec(int64 pageno, TransactionId oldestXid);
 
/*
 * TransactionTreeSetCommitTsData
 *
 * Record the final commit timestamp of transaction entries in the commit log
 * for a transaction and its subtransaction tree, as efficiently as possible.
 *
 * xid is the top level transaction id.
 *
 * subxids is an array of xids of length nsubxids, representing subtransactions
 * in the tree of xid. In various cases nsubxids may be zero.
 * The reason why tracking just the parent xid commit timestamp is not enough
 * is that the subtrans SLRU does not stay valid across crashes (it's not
 * permanent) so we need to keep the information about them here. If the
 * subtrans implementation changes in the future, we might want to revisit the
 * decision of storing timestamp info for each subxid.
 */
void
TransactionTreeSetCommitTsData(TransactionId xid, int nsubxids,
                               TransactionId *subxids, TimestampTz timestamp,
                               RepOriginId nodeid)
{
    int         i;
    TransactionId headxid;
    TransactionId newestXact;
 
    /*
     * No-op if the module is not active.
     *
     * An unlocked read here is fine, because in a standby (the only place
     * where the flag can change in flight) this routine is only called by the
     * recovery process, which is also the only process which can change the
     * flag.
     */
    if (!commitTsShared->commitTsActive)
        return;
 
    /*
     * Figure out the latest Xid in this batch: either the last subxid if
     * there's any, otherwise the parent xid.
     */
    if (nsubxids > 0)
        newestXact = subxids[nsubxids - 1];
    else
        newestXact = xid;
 
    /*
     * We split the xids to set the timestamp to in groups belonging to the
     * same SLRU page; the first element in each such set is its head.  The
     * first group has the main XID as the head; subsequent sets use the first
     * subxid not on the previous page as head.  This way, we only have to
     * lock/modify each SLRU page once.
     */
    headxid = xid;
    i = 0;
    for (;;)
    {
        int64       pageno = TransactionIdToCTsPage(headxid);
        int         j;
 
        for (j = i; j < nsubxids; j++)
        {
            if (TransactionIdToCTsPage(subxids[j]) != pageno)
                break;
        }
        /* subxids[i..j] are on the same page as the head */
 
        SetXidCommitTsInPage(headxid, j - i, subxids + i, timestamp, nodeid,
                             pageno);
 
        /* if we wrote out all subxids, we're done. */
        if (j >= nsubxids)
            break;
 
        /*
         * Set the new head and skip over it, as well as over the subxids we
         * just wrote.
         */
        headxid = subxids[j];
        i = j + 1;
    }
 
    /* update the cached value in shared memory */
    LWLockAcquire(CommitTsLock, LW_EXCLUSIVE);
    commitTsShared->xidLastCommit = xid;
    commitTsShared->dataLastCommit.time = timestamp;
    commitTsShared->dataLastCommit.nodeid = nodeid;
 
    /* and move forwards our endpoint, if needed */
    if (TransactionIdPrecedes(TransamVariables->newestCommitTsXid, newestXact))
        TransamVariables->newestCommitTsXid = newestXact;
    LWLockRelease(CommitTsLock);
}
 
/*
 * Record the commit timestamp of transaction entries in the commit log for all
 * entries on a single page.  Atomic only on this page.
 */
static void
SetXidCommitTsInPage(TransactionId xid, int nsubxids,
                     TransactionId *subxids, TimestampTz ts,
                     RepOriginId nodeid, int64 pageno)
{
    LWLock     *lock = SimpleLruGetBankLock(CommitTsCtl, pageno);
    int         slotno;
    int         i;
 
    LWLockAcquire(lock, LW_EXCLUSIVE);
 
    slotno = SimpleLruReadPage(CommitTsCtl, pageno, true, xid);
 
    TransactionIdSetCommitTs(xid, ts, nodeid, slotno);
    for (i = 0; i < nsubxids; i++)
        TransactionIdSetCommitTs(subxids[i], ts, nodeid, slotno);
 
    CommitTsCtl->shared->page_dirty[slotno] = true;
 
    LWLockRelease(lock);
}
 
/*
 * Sets the commit timestamp of a single transaction.
 *
 * Caller must hold the correct SLRU bank lock, will be held at exit
 */
static void
TransactionIdSetCommitTs(TransactionId xid, TimestampTz ts,
                         RepOriginId nodeid, int slotno)
{
    int         entryno = TransactionIdToCTsEntry(xid);
    CommitTimestampEntry entry;
 
    Assert(TransactionIdIsNormal(xid));
 
    entry.time = ts;
    entry.nodeid = nodeid;
 
    memcpy(CommitTsCtl->shared->page_buffer[slotno] +
           SizeOfCommitTimestampEntry * entryno,
           &entry, SizeOfCommitTimestampEntry);
}
 
/*
 * Interrogate the commit timestamp of a transaction.
 *
 * The return value indicates whether a commit timestamp record was found for
 * the given xid.  The timestamp value is returned in *ts (which may not be
 * null), and the origin node for the Xid is returned in *nodeid, if it's not
 * null.
 */
bool
TransactionIdGetCommitTsData(TransactionId xid, TimestampTz *ts,
                             RepOriginId *nodeid)
{
    int64       pageno = TransactionIdToCTsPage(xid);
    int         entryno = TransactionIdToCTsEntry(xid);
    int         slotno;
    CommitTimestampEntry entry;
    TransactionId oldestCommitTsXid;
    TransactionId newestCommitTsXid;
 
    if (!TransactionIdIsValid(xid))
        ereport(ERROR,
                (errcode(ERRCODE_INVALID_PARAMETER_VALUE),
                 errmsg("cannot retrieve commit timestamp for transaction %u", xid)));
    else if (!TransactionIdIsNormal(xid))
    {
        /* frozen and bootstrap xids are always committed far in the past */
        *ts = 0;
        if (nodeid)
            *nodeid = 0;
        return false;
    }
 
    LWLockAcquire(CommitTsLock, LW_SHARED);
 
    /* Error if module not enabled */
    if (!commitTsShared->commitTsActive)
        error_commit_ts_disabled();
 
    /*
     * If we're asked for the cached value, return that.  Otherwise, fall
     * through to read from SLRU.
     */
    if (commitTsShared->xidLastCommit == xid)
    {
        *ts = commitTsShared->dataLastCommit.time;
        if (nodeid)
            *nodeid = commitTsShared->dataLastCommit.nodeid;
 
        LWLockRelease(CommitTsLock);
        return *ts != 0;
    }
 
    oldestCommitTsXid = TransamVariables->oldestCommitTsXid;
    newestCommitTsXid = TransamVariables->newestCommitTsXid;
    /* neither is invalid, or both are */
    Assert(TransactionIdIsValid(oldestCommitTsXid) == TransactionIdIsValid(newestCommitTsXid));
    LWLockRelease(CommitTsLock);
 
    /*
     * Return empty if the requested value is outside our valid range.
     */
    if (!TransactionIdIsValid(oldestCommitTsXid) ||
        TransactionIdPrecedes(xid, oldestCommitTsXid) ||
        TransactionIdPrecedes(newestCommitTsXid, xid))
    {
        *ts = 0;
        if (nodeid)
            *nodeid = InvalidRepOriginId;
        return false;
    }
 
    /* lock is acquired by SimpleLruReadPage_ReadOnly */
    slotno = SimpleLruReadPage_ReadOnly(CommitTsCtl, pageno, xid);
    memcpy(&entry,
           CommitTsCtl->shared->page_buffer[slotno] +
           SizeOfCommitTimestampEntry * entryno,
           SizeOfCommitTimestampEntry);
 
    *ts = entry.time;
    if (nodeid)
        *nodeid = entry.nodeid;
 
    LWLockRelease(SimpleLruGetBankLock(CommitTsCtl, pageno));
    return *ts != 0;
}
 
/*
 * Return the Xid of the latest committed transaction.  (As far as this module
 * is concerned, anyway; it's up to the caller to ensure the value is useful
 * for its purposes.)
 *
 * ts and nodeid are filled with the corresponding data; they can be passed
 * as NULL if not wanted.
 */
TransactionId
GetLatestCommitTsData(TimestampTz *ts, RepOriginId *nodeid)
{
    TransactionId xid;
 
    LWLockAcquire(CommitTsLock, LW_SHARED);
 
    /* Error if module not enabled */
    if (!commitTsShared->commitTsActive)
        error_commit_ts_disabled();
 
    xid = commitTsShared->xidLastCommit;
    if (ts)
        *ts = commitTsShared->dataLastCommit.time;
    if (nodeid)
        *nodeid = commitTsShared->dataLastCommit.nodeid;
    LWLockRelease(CommitTsLock);
 
    return xid;
}
 
static void
error_commit_ts_disabled(void)
{
    ereport(ERROR,
            (errcode(ERRCODE_OBJECT_NOT_IN_PREREQUISITE_STATE),
             errmsg("could not get commit timestamp data"),
             RecoveryInProgress() ?
             errhint("Make sure the configuration parameter \"%s\" is set on the primary server.",
                     "track_commit_timestamp") :
             errhint("Make sure the configuration parameter \"%s\" is set.",
                     "track_commit_timestamp")));
}
 
/*
 * SQL-callable wrapper to obtain commit time of a transaction
 */
Datum
pg_xact_commit_timestamp(PG_FUNCTION_ARGS)
{
    TransactionId xid = PG_GETARG_TRANSACTIONID(0);
    TimestampTz ts;
    bool        found;
 
    found = TransactionIdGetCommitTsData(xid, &ts, NULL);
 
    if (!found)
        PG_RETURN_NULL();
 
    PG_RETURN_TIMESTAMPTZ(ts);
}
 
 
/*
 * pg_last_committed_xact
 *
 * SQL-callable wrapper to obtain some information about the latest
 * committed transaction: transaction ID, timestamp and replication
 * origin.
 */
Datum
pg_last_committed_xact(PG_FUNCTION_ARGS)
{
    TransactionId xid;
    RepOriginId nodeid;
    TimestampTz ts;
    Datum       values[3];
    bool        nulls[3];
    TupleDesc   tupdesc;
    HeapTuple   htup;
 
    /* and construct a tuple with our data */
    xid = GetLatestCommitTsData(&ts, &nodeid);
 
    if (get_call_result_type(fcinfo, NULL, &tupdesc) != TYPEFUNC_COMPOSITE)
        elog(ERROR, "return type must be a row type");
 
    if (!TransactionIdIsNormal(xid))
    {
        memset(nulls, true, sizeof(nulls));
    }
    else
    {
        values[0] = TransactionIdGetDatum(xid);
        nulls[0] = false;
 
        values[1] = TimestampTzGetDatum(ts);
        nulls[1] = false;
 
        values[2] = ObjectIdGetDatum((Oid) nodeid);
        nulls[2] = false;
    }
 
    htup = heap_form_tuple(tupdesc, values, nulls);
 
    PG_RETURN_DATUM(HeapTupleGetDatum(htup));
}
 
/*
 * pg_xact_commit_timestamp_origin
 *
 * SQL-callable wrapper to obtain commit timestamp and replication origin
 * of a given transaction.
 */
Datum
pg_xact_commit_timestamp_origin(PG_FUNCTION_ARGS)
{
    TransactionId xid = PG_GETARG_TRANSACTIONID(0);
    RepOriginId nodeid;
    TimestampTz ts;
    Datum       values[2];
    bool        nulls[2];
    TupleDesc   tupdesc;
    HeapTuple   htup;
    bool        found;
 
    found = TransactionIdGetCommitTsData(xid, &ts, &nodeid);
 
    if (get_call_result_type(fcinfo, NULL, &tupdesc) != TYPEFUNC_COMPOSITE)
        elog(ERROR, "return type must be a row type");
 
    if (!found)
    {
        memset(nulls, true, sizeof(nulls));
    }
    else
    {
        values[0] = TimestampTzGetDatum(ts);
        nulls[0] = false;
 
        values[1] = ObjectIdGetDatum((Oid) nodeid);
        nulls[1] = false;
    }
 
    htup = heap_form_tuple(tupdesc, values, nulls);
 
    PG_RETURN_DATUM(HeapTupleGetDatum(htup));
}
 
/*
 * Number of shared CommitTS buffers.
 *
 * If asked to autotune, use 2MB for every 1GB of shared buffers, up to 8MB.
 * Otherwise just cap the configured amount to be between 16 and the maximum
 * allowed.
 */
static int
CommitTsShmemBuffers(void)
{
    /* auto-tune based on shared buffers */
    if (commit_timestamp_buffers == 0)
        return SimpleLruAutotuneBuffers(512, 1024);
 
    return Min(Max(16, commit_timestamp_buffers), SLRU_MAX_ALLOWED_BUFFERS);
}
 
/*
 * Shared memory sizing for CommitTs
 */
Size
CommitTsShmemSize(void)
{
    return SimpleLruShmemSize(CommitTsShmemBuffers(), 0) +
        sizeof(CommitTimestampShared);
}
 
/*
 * Initialize CommitTs at system startup (postmaster start or standalone
 * backend)
 */
void
CommitTsShmemInit(void)
{
    bool        found;
 
    /* If auto-tuning is requested, now is the time to do it */
    if (commit_timestamp_buffers == 0)
    {
        char        buf[32];
 
        snprintf(buf, sizeof(buf), "%d", CommitTsShmemBuffers());
        SetConfigOption("commit_timestamp_buffers", buf, PGC_POSTMASTER,
                        PGC_S_DYNAMIC_DEFAULT);
 
        /*
         * We prefer to report this value's source as PGC_S_DYNAMIC_DEFAULT.
         * However, if the DBA explicitly set commit_timestamp_buffers = 0 in
         * the config file, then PGC_S_DYNAMIC_DEFAULT will fail to override
         * that and we must force the matter with PGC_S_OVERRIDE.
         */
        if (commit_timestamp_buffers == 0)  /* failed to apply it? */
            SetConfigOption("commit_timestamp_buffers", buf, PGC_POSTMASTER,
                            PGC_S_OVERRIDE);
    }
    Assert(commit_timestamp_buffers != 0);
 
    CommitTsCtl->PagePrecedes = CommitTsPagePrecedes;
    SimpleLruInit(CommitTsCtl, "commit_timestamp", CommitTsShmemBuffers(), 0,
                  "pg_commit_ts", LWTRANCHE_COMMITTS_BUFFER,
                  LWTRANCHE_COMMITTS_SLRU,
                  SYNC_HANDLER_COMMIT_TS,
                  false);
    SlruPagePrecedesUnitTests(CommitTsCtl, COMMIT_TS_XACTS_PER_PAGE);
 
    commitTsShared = ShmemInitStruct("CommitTs shared",
                                     sizeof(CommitTimestampShared),
                                     &found);
 
    if (!IsUnderPostmaster)
    {
        Assert(!found);
 
        commitTsShared->xidLastCommit = InvalidTransactionId;
        TIMESTAMP_NOBEGIN(commitTsShared->dataLastCommit.time);
        commitTsShared->dataLastCommit.nodeid = InvalidRepOriginId;
        commitTsShared->commitTsActive = false;
    }
    else
        Assert(found);
}
 
/*
 * GUC check_hook for commit_timestamp_buffers
 */
bool
check_commit_ts_buffers(int *newval, void **extra, GucSource source)
{
    return check_slru_buffers("commit_timestamp_buffers", newval);
}
 
/*
 * This function must be called ONCE on system install.
 *
 * (The CommitTs directory is assumed to have been created by initdb, and
 * CommitTsShmemInit must have been called already.)
 */
void
BootStrapCommitTs(void)
{
    /*
     * Nothing to do here at present, unlike most other SLRU modules; segments
     * are created when the server is started with this module enabled. See
     * ActivateCommitTs.
     */
}
 
/*
 * Initialize (or reinitialize) a page of CommitTs to zeroes.
 * If writeXlog is true, also emit an XLOG record saying we did this.
 *
 * The page is not actually written, just set up in shared memory.
 * The slot number of the new page is returned.
 *
 * Control lock must be held at entry, and will be held at exit.
 */
static int
ZeroCommitTsPage(int64 pageno, bool writeXlog)
{
    int         slotno;
 
    slotno = SimpleLruZeroPage(CommitTsCtl, pageno);
 
    if (writeXlog)
        WriteZeroPageXlogRec(pageno);
 
    return slotno;
}
 
/*
 * This must be called ONCE during postmaster or standalone-backend startup,
 * after StartupXLOG has initialized TransamVariables->nextXid.
 */
void
StartupCommitTs(void)
{
    ActivateCommitTs();
}
 
/*
 * This must be called ONCE during postmaster or standalone-backend startup,
 * after recovery has finished.
 */
void
CompleteCommitTsInitialization(void)
{
    /*
     * If the feature is not enabled, turn it off for good.  This also removes
     * any leftover data.
     *
     * Conversely, we activate the module if the feature is enabled.  This is
     * necessary for primary and standby as the activation depends on the
     * control file contents at the beginning of recovery or when a
     * XLOG_PARAMETER_CHANGE is replayed.
     */
    if (!track_commit_timestamp)
        DeactivateCommitTs();
    else
        ActivateCommitTs();
}
 
/*
 * Activate or deactivate CommitTs' upon reception of a XLOG_PARAMETER_CHANGE
 * XLog record during recovery.
 */
void
CommitTsParameterChange(bool newvalue, bool oldvalue)
{
    /*
     * If the commit_ts module is disabled in this server and we get word from
     * the primary server that it is enabled there, activate it so that we can
     * replay future WAL records involving it; also mark it as active on
     * pg_control.  If the old value was already set, we already did this, so
     * don't do anything.
     *
     * If the module is disabled in the primary, disable it here too, unless
     * the module is enabled locally.
     *
     * Note this only runs in the recovery process, so an unlocked read is
     * fine.
     */
    if (newvalue)
    {
        if (!commitTsShared->commitTsActive)
            ActivateCommitTs();
    }
    else if (commitTsShared->commitTsActive)
        DeactivateCommitTs();
}
 
/*
 * Activate this module whenever necessary.
 *      This must happen during postmaster or standalone-backend startup,
 *      or during WAL replay anytime the track_commit_timestamp setting is
 *      changed in the primary.
 *
 * The reason why this SLRU needs separate activation/deactivation functions is
 * that it can be enabled/disabled during start and the activation/deactivation
 * on the primary is propagated to the standby via replay. Other SLRUs don't
 * have this property and they can be just initialized during normal startup.
 *
 * This is in charge of creating the currently active segment, if it's not
 * already there.  The reason for this is that the server might have been
 * running with this module disabled for a while and thus might have skipped
 * the normal creation point.
 */
static void
ActivateCommitTs(void)
{
    TransactionId xid;
    int64       pageno;
 
    /* If we've done this already, there's nothing to do */
    LWLockAcquire(CommitTsLock, LW_EXCLUSIVE);
    if (commitTsShared->commitTsActive)
    {
        LWLockRelease(CommitTsLock);
        return;
    }
    LWLockRelease(CommitTsLock);
 
    xid = XidFromFullTransactionId(TransamVariables->nextXid);
    pageno = TransactionIdToCTsPage(xid);
 
    /*
     * Re-Initialize our idea of the latest page number.
     */
    pg_atomic_write_u64(&CommitTsCtl->shared->latest_page_number, pageno);
 
    /*
     * If CommitTs is enabled, but it wasn't in the previous server run, we
     * need to set the oldest and newest values to the next Xid; that way, we
     * will not try to read data that might not have been set.
     *
     * XXX does this have a problem if a server is started with commitTs
     * enabled, then started with commitTs disabled, then restarted with it
     * enabled again?  It doesn't look like it does, because there should be a
     * checkpoint that sets the value to InvalidTransactionId at end of
     * recovery; and so any chance of injecting new transactions without
     * CommitTs values would occur after the oldestCommitTsXid has been set to
     * Invalid temporarily.
     */
    LWLockAcquire(CommitTsLock, LW_EXCLUSIVE);
    if (TransamVariables->oldestCommitTsXid == InvalidTransactionId)
    {
        TransamVariables->oldestCommitTsXid =
            TransamVariables->newestCommitTsXid = ReadNextTransactionId();
    }
    LWLockRelease(CommitTsLock);
 
    /* Create the current segment file, if necessary */
    if (!SimpleLruDoesPhysicalPageExist(CommitTsCtl, pageno))
    {
        LWLock     *lock = SimpleLruGetBankLock(CommitTsCtl, pageno);
        int         slotno;
 
        LWLockAcquire(lock, LW_EXCLUSIVE);
        slotno = ZeroCommitTsPage(pageno, false);
        SimpleLruWritePage(CommitTsCtl, slotno);
        Assert(!CommitTsCtl->shared->page_dirty[slotno]);
        LWLockRelease(lock);
    }
 
    /* Change the activation status in shared memory. */
    LWLockAcquire(CommitTsLock, LW_EXCLUSIVE);
    commitTsShared->commitTsActive = true;
    LWLockRelease(CommitTsLock);
}
 
/*
 * Deactivate this module.
 *
 * This must be called when the track_commit_timestamp parameter is turned off.
 * This happens during postmaster or standalone-backend startup, or during WAL
 * replay.
 *
 * Resets CommitTs into invalid state to make sure we don't hand back
 * possibly-invalid data; also removes segments of old data.
 */
static void
DeactivateCommitTs(void)
{
    /*
     * Cleanup the status in the shared memory.
     *
     * We reset everything in the commitTsShared record to prevent user from
     * getting confusing data about last committed transaction on the standby
     * when the module was activated repeatedly on the primary.
     */
    LWLockAcquire(CommitTsLock, LW_EXCLUSIVE);
 
    commitTsShared->commitTsActive = false;
    commitTsShared->xidLastCommit = InvalidTransactionId;
    TIMESTAMP_NOBEGIN(commitTsShared->dataLastCommit.time);
    commitTsShared->dataLastCommit.nodeid = InvalidRepOriginId;
 
    TransamVariables->oldestCommitTsXid = InvalidTransactionId;
    TransamVariables->newestCommitTsXid = InvalidTransactionId;
 
    /*
     * Remove *all* files.  This is necessary so that there are no leftover
     * files; in the case where this feature is later enabled after running
     * with it disabled for some time there may be a gap in the file sequence.
     * (We can probably tolerate out-of-sequence files, as they are going to
     * be overwritten anyway when we wrap around, but it seems better to be
     * tidy.)
     *
     * Note that we do this with CommitTsLock acquired in exclusive mode. This
     * is very heavy-handed, but since this routine can only be called in the
     * replica and should happen very rarely, we don't worry too much about
     * it.  Note also that no process should be consulting this SLRU if we
     * have just deactivated it.
     */
    (void) SlruScanDirectory(CommitTsCtl, SlruScanDirCbDeleteAll, NULL);
 
    LWLockRelease(CommitTsLock);
}
 
/*
 * Perform a checkpoint --- either during shutdown, or on-the-fly
 */
void
CheckPointCommitTs(void)
{
    /*
     * Write dirty CommitTs pages to disk.  This may result in sync requests
     * queued for later handling by ProcessSyncRequests(), as part of the
     * checkpoint.
     */
    SimpleLruWriteAll(CommitTsCtl, true);
}
 
/*
 * Make sure that CommitTs has room for a newly-allocated XID.
 *
 * NB: this is called while holding XidGenLock.  We want it to be very fast
 * most of the time; even when it's not so fast, no actual I/O need happen
 * unless we're forced to write out a dirty CommitTs or xlog page to make room
 * in shared memory.
 *
 * NB: the current implementation relies on track_commit_timestamp being
 * PGC_POSTMASTER.
 */
void
ExtendCommitTs(TransactionId newestXact)
{
    int64       pageno;
    LWLock     *lock;
 
    /*
     * Nothing to do if module not enabled.  Note we do an unlocked read of
     * the flag here, which is okay because this routine is only called from
     * GetNewTransactionId, which is never called in a standby.
     */
    Assert(!InRecovery);
    if (!commitTsShared->commitTsActive)
        return;
 
    /*
     * No work except at first XID of a page.  But beware: just after
     * wraparound, the first XID of page zero is FirstNormalTransactionId.
     */
    if (TransactionIdToCTsEntry(newestXact) != 0 &&
        !TransactionIdEquals(newestXact, FirstNormalTransactionId))
        return;
 
    pageno = TransactionIdToCTsPage(newestXact);
 
    lock = SimpleLruGetBankLock(CommitTsCtl, pageno);
 
    LWLockAcquire(lock, LW_EXCLUSIVE);
 
    /* Zero the page and make an XLOG entry about it */
    ZeroCommitTsPage(pageno, !InRecovery);
 
    LWLockRelease(lock);
}
 
/*
 * Remove all CommitTs segments before the one holding the passed
 * transaction ID.
 *
 * Note that we don't need to flush XLOG here.
 */
void
TruncateCommitTs(TransactionId oldestXact)
{
    int64       cutoffPage;
 
    /*
     * The cutoff point is the start of the segment containing oldestXact. We
     * pass the *page* containing oldestXact to SimpleLruTruncate.
     */
    cutoffPage = TransactionIdToCTsPage(oldestXact);
 
    /* Check to see if there's any files that could be removed */
    if (!SlruScanDirectory(CommitTsCtl, SlruScanDirCbReportPresence,
                           &cutoffPage))
        return;                 /* nothing to remove */
 
    /* Write XLOG record */
    WriteTruncateXlogRec(cutoffPage, oldestXact);
 
    /* Now we can remove the old CommitTs segment(s) */
    SimpleLruTruncate(CommitTsCtl, cutoffPage);
}
 
/*
 * Set the limit values between which commit TS can be consulted.
 */
void
SetCommitTsLimit(TransactionId oldestXact, TransactionId newestXact)
{
    /*
     * Be careful not to overwrite values that are either further into the
     * "future" or signal a disabled committs.
     */
    LWLockAcquire(CommitTsLock, LW_EXCLUSIVE);
    if (TransamVariables->oldestCommitTsXid != InvalidTransactionId)
    {
        if (TransactionIdPrecedes(TransamVariables->oldestCommitTsXid, oldestXact))
            TransamVariables->oldestCommitTsXid = oldestXact;
        if (TransactionIdPrecedes(newestXact, TransamVariables->newestCommitTsXid))
            TransamVariables->newestCommitTsXid = newestXact;
    }
    else
    {
        Assert(TransamVariables->newestCommitTsXid == InvalidTransactionId);
        TransamVariables->oldestCommitTsXid = oldestXact;
        TransamVariables->newestCommitTsXid = newestXact;
    }
    LWLockRelease(CommitTsLock);
}
 
/*
 * Move forwards the oldest commitTS value that can be consulted
 */
void
AdvanceOldestCommitTsXid(TransactionId oldestXact)
{
    LWLockAcquire(CommitTsLock, LW_EXCLUSIVE);
    if (TransamVariables->oldestCommitTsXid != InvalidTransactionId &&
        TransactionIdPrecedes(TransamVariables->oldestCommitTsXid, oldestXact))
        TransamVariables->oldestCommitTsXid = oldestXact;
    LWLockRelease(CommitTsLock);
}
 
 
/*
 * Decide whether a commitTS page number is "older" for truncation purposes.
 * Analogous to CLOGPagePrecedes().
 *
 * At default BLCKSZ, (1 << 31) % COMMIT_TS_XACTS_PER_PAGE == 128.  This
 * introduces differences compared to CLOG and the other SLRUs having (1 <<
 * 31) % per_page == 0.  This function never tests exactly
 * TransactionIdPrecedes(x-2^31, x).  When the system reaches xidStopLimit,
 * there are two possible counts of page boundaries between oldestXact and the
 * latest XID assigned, depending on whether oldestXact is within the first
 * 128 entries of its page.  Since this function doesn't know the location of
 * oldestXact within page2, it returns false for one page that actually is
 * expendable.  This is a wider (yet still negligible) version of the
 * truncation opportunity that CLOGPagePrecedes() cannot recognize.
 *
 * For the sake of a worked example, number entries with decimal values such
 * that page1==1 entries range from 1.0 to 1.999.  Let N+0.15 be the number of
 * pages that 2^31 entries will span (N is an integer).  If oldestXact=N+2.1,
 * then the final safe XID assignment leaves newestXact=1.95.  We keep page 2,
 * because entry=2.85 is the border that toggles whether entries precede the
 * last entry of the oldestXact page.  While page 2 is expendable at
 * oldestXact=N+2.1, it would be precious at oldestXact=N+2.9.
 */
static bool
CommitTsPagePrecedes(int64 page1, int64 page2)
{
    TransactionId xid1;
    TransactionId xid2;
 
    xid1 = ((TransactionId) page1) * COMMIT_TS_XACTS_PER_PAGE;
    xid1 += FirstNormalTransactionId + 1;
    xid2 = ((TransactionId) page2) * COMMIT_TS_XACTS_PER_PAGE;
    xid2 += FirstNormalTransactionId + 1;
 
    return (TransactionIdPrecedes(xid1, xid2) &&
            TransactionIdPrecedes(xid1, xid2 + COMMIT_TS_XACTS_PER_PAGE - 1));
}
 
 
/*
 * Write a ZEROPAGE xlog record
 */
static void
WriteZeroPageXlogRec(int64 pageno)
{
    XLogBeginInsert();
    XLogRegisterData(&pageno, sizeof(pageno));
    (void) XLogInsert(RM_COMMIT_TS_ID, COMMIT_TS_ZEROPAGE);
}
 
/*
 * Write a TRUNCATE xlog record
 */
static void
WriteTruncateXlogRec(int64 pageno, TransactionId oldestXid)
{
    xl_commit_ts_truncate xlrec;
 
    xlrec.pageno = pageno;
    xlrec.oldestXid = oldestXid;
 
    XLogBeginInsert();
    XLogRegisterData(&xlrec, SizeOfCommitTsTruncate);
    (void) XLogInsert(RM_COMMIT_TS_ID, COMMIT_TS_TRUNCATE);
}
 
/*
 * CommitTS resource manager's routines
 */
void
commit_ts_redo(XLogReaderState *record)
{
    uint8       info = XLogRecGetInfo(record) & ~XLR_INFO_MASK;
 
    /* Backup blocks are not used in commit_ts records */
    Assert(!XLogRecHasAnyBlockRefs(record));
 
    if (info == COMMIT_TS_ZEROPAGE)
    {
        int64       pageno;
        int         slotno;
        LWLock     *lock;
 
        memcpy(&pageno, XLogRecGetData(record), sizeof(pageno));
 
        lock = SimpleLruGetBankLock(CommitTsCtl, pageno);
        LWLockAcquire(lock, LW_EXCLUSIVE);
 
        slotno = ZeroCommitTsPage(pageno, false);
        SimpleLruWritePage(CommitTsCtl, slotno);
        Assert(!CommitTsCtl->shared->page_dirty[slotno]);
 
        LWLockRelease(lock);
    }
    else if (info == COMMIT_TS_TRUNCATE)
    {
        xl_commit_ts_truncate *trunc = (xl_commit_ts_truncate *) XLogRecGetData(record);
 
        AdvanceOldestCommitTsXid(trunc->oldestXid);
 
        /*
         * During XLOG replay, latest_page_number isn't set up yet; insert a
         * suitable value to bypass the sanity test in SimpleLruTruncate.
         */
        pg_atomic_write_u64(&CommitTsCtl->shared->latest_page_number,
                            trunc->pageno);
 
        SimpleLruTruncate(CommitTsCtl, trunc->pageno);
    }
    else
        elog(PANIC, "commit_ts_redo: unknown op code %u", info);
}
 
/*
 * Entrypoint for sync.c to sync commit_ts files.
 */
int
committssyncfiletag(const FileTag *ftag, char *path)
{
    return SlruSyncFileTag(CommitTsCtl, ftag, path);
}