slot.c File Reference

#include "postgres.h"
#include <unistd.h>
#include <sys/stat.h>
#include "access/transam.h"
#include "access/xlog_internal.h"
#include "common/string.h"
#include "miscadmin.h"
#include "pgstat.h"
#include "replication/slot.h"
#include "storage/fd.h"
#include "storage/proc.h"
#include "storage/procarray.h"
#include "utils/builtins.h"

Include dependency graph for slot.c:

Go to the source code of this file.

Data Structures
struct	ReplicationSlotOnDisk

Macros
#define	ReplicationSlotOnDiskConstantSize   offsetof(ReplicationSlotOnDisk, slotdata)
#define	SnapBuildOnDiskNotChecksummedSize   offsetof(ReplicationSlotOnDisk, version)
#define	SnapBuildOnDiskChecksummedSize   sizeof(ReplicationSlotOnDisk) - SnapBuildOnDiskNotChecksummedSize
#define	ReplicationSlotOnDiskV2Size   sizeof(ReplicationSlotOnDisk) - ReplicationSlotOnDiskConstantSize
#define	SLOT_MAGIC   0x1051CA1 /* format identifier */
#define	SLOT_VERSION   2 /* version for new files */

Typedefs
typedef struct ReplicationSlotOnDisk	ReplicationSlotOnDisk

Functions
static void	ReplicationSlotDropAcquired (void)
static void	ReplicationSlotDropPtr (ReplicationSlot *slot)
static void	RestoreSlotFromDisk (const char *name)
static void	CreateSlotOnDisk (ReplicationSlot *slot)
static void	SaveSlotToPath (ReplicationSlot *slot, const char *path, int elevel)
Size	ReplicationSlotsShmemSize (void)
void	ReplicationSlotsShmemInit (void)
bool	ReplicationSlotValidateName (const char *name, int elevel)
void	ReplicationSlotCreate (const char *name, bool db_specific, ReplicationSlotPersistency persistency)
void	ReplicationSlotAcquire (const char *name, bool nowait)
void	ReplicationSlotRelease (void)
void	ReplicationSlotCleanup (void)
void	ReplicationSlotDrop (const char *name, bool nowait)
void	ReplicationSlotSave (void)
void	ReplicationSlotMarkDirty (void)
void	ReplicationSlotPersist (void)
void	ReplicationSlotsComputeRequiredXmin (bool already_locked)
void	ReplicationSlotsComputeRequiredLSN (void)
XLogRecPtr	ReplicationSlotsComputeLogicalRestartLSN (void)
bool	ReplicationSlotsCountDBSlots (Oid dboid, int *nslots, int *nactive)
void	ReplicationSlotsDropDBSlots (Oid dboid)
void	CheckSlotRequirements (void)
void	ReplicationSlotReserveWal (void)
void	CheckPointReplicationSlots (void)
void	StartupReplicationSlots (void)

Variables
ReplicationSlotCtlData *	ReplicationSlotCtl = NULL
ReplicationSlot *	MyReplicationSlot = NULL
int	max_replication_slots = 0

Macro Definition Documentation

ReplicationSlotOnDiskConstantSize

#define ReplicationSlotOnDiskConstantSize   offsetof(ReplicationSlotOnDisk, slotdata)

Definition at line 77 of file slot.c.

Referenced by RestoreSlotFromDisk().

ReplicationSlotOnDiskV2Size

#define ReplicationSlotOnDiskV2Size   sizeof(ReplicationSlotOnDisk) - ReplicationSlotOnDiskConstantSize

Definition at line 86 of file slot.c.

Referenced by RestoreSlotFromDisk(), and SaveSlotToPath().

SLOT_MAGIC

#define SLOT_MAGIC   0x1051CA1 /* format identifier */

Definition at line 89 of file slot.c.

Referenced by RestoreSlotFromDisk(), and SaveSlotToPath().

SLOT_VERSION

#define SLOT_VERSION   2 /* version for new files */

Definition at line 90 of file slot.c.

Referenced by RestoreSlotFromDisk(), and SaveSlotToPath().

SnapBuildOnDiskChecksummedSize

#define SnapBuildOnDiskChecksummedSize   sizeof(ReplicationSlotOnDisk) - SnapBuildOnDiskNotChecksummedSize

Definition at line 83 of file slot.c.

Referenced by RestoreSlotFromDisk(), and SaveSlotToPath().

SnapBuildOnDiskNotChecksummedSize

#define SnapBuildOnDiskNotChecksummedSize   offsetof(ReplicationSlotOnDisk, version)

Definition at line 80 of file slot.c.

Referenced by RestoreSlotFromDisk(), and SaveSlotToPath().

Typedef Documentation

ReplicationSlotOnDisk

typedef struct ReplicationSlotOnDisk ReplicationSlotOnDisk

Function Documentation

CheckPointReplicationSlots()

void CheckPointReplicationSlots

(

void

)

Definition at line 1074 of file slot.c.

References ReplicationSlot::data, DEBUG1, elog, i, ReplicationSlot::in_use, LOG, LW_SHARED, LWLockAcquire(), LWLockRelease(), max_replication_slots, MAXPGPATH, ReplicationSlotPersistentData::name, NameStr, ReplicationSlotCtlData::replication_slots, SaveSlotToPath(), and sprintf.

Referenced by CheckPointGuts().

{
    int         i;

    elog(DEBUG1, "performing replication slot checkpoint");

    /*
     * Prevent any slot from being created/dropped while we're active. As we
     * explicitly do *not* want to block iterating over replication_slots or
     * acquiring a slot we cannot take the control lock - but that's OK,
     * because holding ReplicationSlotAllocationLock is strictly stronger, and
     * enough to guarantee that nobody can change the in_use bits on us.
     */
    LWLockAcquire(ReplicationSlotAllocationLock, LW_SHARED);

    for (i = 0; i < max_replication_slots; i++)
    {
        ReplicationSlot *s = &ReplicationSlotCtl->replication_slots[i];
        char        path[MAXPGPATH];

        if (!s->in_use)
            continue;

        /* save the slot to disk, locking is handled in SaveSlotToPath() */
        sprintf(path, "pg_replslot/%s", NameStr(s->data.name));
        SaveSlotToPath(s, path, LOG);
    }
    LWLockRelease(ReplicationSlotAllocationLock);
}

CheckSlotRequirements()

void CheckSlotRequirements

(

void

)

Definition at line 972 of file slot.c.

References ereport, errcode(), errmsg(), ERROR, max_replication_slots, wal_level, and WAL_LEVEL_REPLICA.

Referenced by CheckLogicalDecodingRequirements(), copy_replication_slot(), pg_create_physical_replication_slot(), and pg_drop_replication_slot().

{
    /*
     * NB: Adding a new requirement likely means that RestoreSlotFromDisk()
     * needs the same check.
     */

    if (max_replication_slots == 0)
        ereport(ERROR,
                (errcode(ERRCODE_OBJECT_NOT_IN_PREREQUISITE_STATE),
                 (errmsg("replication slots can only be used if max_replication_slots > 0"))));

    if (wal_level < WAL_LEVEL_REPLICA)
        ereport(ERROR,
                (errcode(ERRCODE_OBJECT_NOT_IN_PREREQUISITE_STATE),
                 errmsg("replication slots can only be used if wal_level >= replica")));
}

CreateSlotOnDisk()

static void CreateSlotOnDisk ( ReplicationSlot *  slot )

static

Definition at line 1169 of file slot.c.

References ReplicationSlot::data, ReplicationSlot::dirty, END_CRIT_SECTION, ereport, errcode_for_file_access(), errmsg(), ERROR, fsync_fname(), MakePGDirectory(), MAXPGPATH, ReplicationSlotPersistentData::name, NameStr, rmtree(), S_ISDIR, SaveSlotToPath(), sprintf, START_CRIT_SECTION, and stat.

Referenced by ReplicationSlotCreate().

{
    char        tmppath[MAXPGPATH];
    char        path[MAXPGPATH];
    struct stat st;

    /*
     * No need to take out the io_in_progress_lock, nobody else can see this
     * slot yet, so nobody else will write. We're reusing SaveSlotToPath which
     * takes out the lock, if we'd take the lock here, we'd deadlock.
     */

    sprintf(path, "pg_replslot/%s", NameStr(slot->data.name));
    sprintf(tmppath, "pg_replslot/%s.tmp", NameStr(slot->data.name));

    /*
     * It's just barely possible that some previous effort to create or drop a
     * slot with this name left a temp directory lying around. If that seems
     * to be the case, try to remove it.  If the rmtree() fails, we'll error
     * out at the MakePGDirectory() below, so we don't bother checking
     * success.
     */
    if (stat(tmppath, &st) == 0 && S_ISDIR(st.st_mode))
        rmtree(tmppath, true);

    /* Create and fsync the temporary slot directory. */
    if (MakePGDirectory(tmppath) < 0)
        ereport(ERROR,
                (errcode_for_file_access(),
                 errmsg("could not create directory \"%s\": %m",
                        tmppath)));
    fsync_fname(tmppath, true);

    /* Write the actual state file. */
    slot->dirty = true;         /* signal that we really need to write */
    SaveSlotToPath(slot, tmppath, ERROR);

    /* Rename the directory into place. */
    if (rename(tmppath, path) != 0)
        ereport(ERROR,
                (errcode_for_file_access(),
                 errmsg("could not rename file \"%s\" to \"%s\": %m",
                        tmppath, path)));

    /*
     * If we'd now fail - really unlikely - we wouldn't know whether this slot
     * would persist after an OS crash or not - so, force a restart. The
     * restart would try to fsync this again till it works.
     */
    START_CRIT_SECTION();

    fsync_fname(path, true);
    fsync_fname("pg_replslot", true);

    END_CRIT_SECTION();
}

ReplicationSlotAcquire()

void ReplicationSlotAcquire	(	const char *	name,
		bool	nowait
	)

Definition at line 330 of file slot.c.

References ReplicationSlot::active_cv, ReplicationSlot::active_pid, Assert, ConditionVariableBroadcast(), ConditionVariableCancelSleep(), ConditionVariablePrepareToSleep(), ConditionVariableSleep(), ReplicationSlot::data, ereport, errcode(), errmsg(), ERROR, i, ReplicationSlot::in_use, IsUnderPostmaster, LW_SHARED, LWLockAcquire(), LWLockRelease(), max_replication_slots, ReplicationSlot::mutex, MyProcPid, ReplicationSlotPersistentData::name, NameStr, ReplicationSlotCtlData::replication_slots, SpinLockAcquire, SpinLockRelease, and WAIT_EVENT_REPLICATION_SLOT_DROP.

Referenced by pg_logical_slot_get_changes_guts(), pg_replication_slot_advance(), ReplicationSlotDrop(), StartLogicalReplication(), and StartReplication().

{
    ReplicationSlot *slot;
    int         active_pid;
    int         i;

retry:
    Assert(MyReplicationSlot == NULL);

    /*
     * Search for the named slot and mark it active if we find it.  If the
     * slot is already active, we exit the loop with active_pid set to the PID
     * of the backend that owns it.
     */
    active_pid = 0;
    slot = NULL;
    LWLockAcquire(ReplicationSlotControlLock, LW_SHARED);
    for (i = 0; i < max_replication_slots; i++)
    {
        ReplicationSlot *s = &ReplicationSlotCtl->replication_slots[i];

        if (s->in_use && strcmp(name, NameStr(s->data.name)) == 0)
        {
            /*
             * This is the slot we want; check if it's active under some other
             * process.  In single user mode, we don't need this check.
             */
            if (IsUnderPostmaster)
            {
                /*
                 * Get ready to sleep on it in case it is active.  (We may end
                 * up not sleeping, but we don't want to do this while holding
                 * the spinlock.)
                 */
                ConditionVariablePrepareToSleep(&s->active_cv);

                SpinLockAcquire(&s->mutex);

                active_pid = s->active_pid;
                if (active_pid == 0)
                    active_pid = s->active_pid = MyProcPid;

                SpinLockRelease(&s->mutex);
            }
            else
                active_pid = MyProcPid;
            slot = s;

            break;
        }
    }
    LWLockRelease(ReplicationSlotControlLock);

    /* If we did not find the slot, error out. */
    if (slot == NULL)
        ereport(ERROR,
                (errcode(ERRCODE_UNDEFINED_OBJECT),
                 errmsg("replication slot \"%s\" does not exist", name)));

    /*
     * If we found the slot but it's already active in another backend, we
     * either error out or retry after a short wait, as caller specified.
     */
    if (active_pid != MyProcPid)
    {
        if (nowait)
            ereport(ERROR,
                    (errcode(ERRCODE_OBJECT_IN_USE),
                     errmsg("replication slot \"%s\" is active for PID %d",
                            name, active_pid)));

        /* Wait here until we get signaled, and then restart */
        ConditionVariableSleep(&slot->active_cv,
                               WAIT_EVENT_REPLICATION_SLOT_DROP);
        ConditionVariableCancelSleep();
        goto retry;
    }
    else
        ConditionVariableCancelSleep(); /* no sleep needed after all */

    /* Let everybody know we've modified this slot */
    ConditionVariableBroadcast(&slot->active_cv);

    /* We made this slot active, so it's ours now. */
    MyReplicationSlot = slot;
}

ReplicationSlotCleanup()

void ReplicationSlotCleanup

(

void

)

Definition at line 479 of file slot.c.

References ReplicationSlot::active_cv, ReplicationSlot::active_pid, Assert, ConditionVariableBroadcast(), ReplicationSlot::data, i, ReplicationSlot::in_use, LW_SHARED, LWLockAcquire(), LWLockRelease(), max_replication_slots, ReplicationSlot::mutex, MyProcPid, ReplicationSlotPersistentData::persistency, ReplicationSlotCtlData::replication_slots, ReplicationSlotDropPtr(), RS_TEMPORARY, SpinLockAcquire, and SpinLockRelease.

Referenced by PostgresMain(), ProcKill(), and WalSndErrorCleanup().

{
    int         i;

    Assert(MyReplicationSlot == NULL);

restart:
    LWLockAcquire(ReplicationSlotControlLock, LW_SHARED);
    for (i = 0; i < max_replication_slots; i++)
    {
        ReplicationSlot *s = &ReplicationSlotCtl->replication_slots[i];

        if (!s->in_use)
            continue;

        SpinLockAcquire(&s->mutex);
        if (s->active_pid == MyProcPid)
        {
            Assert(s->data.persistency == RS_TEMPORARY);
            SpinLockRelease(&s->mutex);
            LWLockRelease(ReplicationSlotControlLock);  /* avoid deadlock */

            ReplicationSlotDropPtr(s);

            ConditionVariableBroadcast(&s->active_cv);
            goto restart;
        }
        else
            SpinLockRelease(&s->mutex);
    }

    LWLockRelease(ReplicationSlotControlLock);
}

ReplicationSlotCreate()

void ReplicationSlotCreate	(	const char *	name,
		bool	db_specific,
		ReplicationSlotPersistency	persistency
	)

Definition at line 221 of file slot.c.

References ReplicationSlot::active_cv, ReplicationSlot::active_pid, Assert, ReplicationSlot::candidate_catalog_xmin, ReplicationSlot::candidate_restart_lsn, ReplicationSlot::candidate_restart_valid, ReplicationSlot::candidate_xmin_lsn, ConditionVariableBroadcast(), CreateSlotOnDisk(), ReplicationSlot::data, ReplicationSlotPersistentData::database, ReplicationSlot::dirty, ReplicationSlot::effective_catalog_xmin, ReplicationSlot::effective_xmin, ereport, errcode(), ERRCODE_DUPLICATE_OBJECT, errhint(), errmsg(), ERROR, i, ReplicationSlot::in_use, InvalidOid, InvalidTransactionId, InvalidXLogRecPtr, ReplicationSlot::just_dirtied, LW_EXCLUSIVE, LW_SHARED, LWLockAcquire(), LWLockRelease(), max_replication_slots, ReplicationSlot::mutex, MyDatabaseId, MyProcPid, ReplicationSlotPersistentData::name, NAMEDATALEN, NameStr, ReplicationSlotPersistentData::persistency, ReplicationSlotCtlData::replication_slots, ReplicationSlotValidateName(), SpinLockAcquire, SpinLockRelease, and StrNCpy.

Referenced by create_logical_replication_slot(), create_physical_replication_slot(), and CreateReplicationSlot().

{
    ReplicationSlot *slot = NULL;
    int         i;

    Assert(MyReplicationSlot == NULL);

    ReplicationSlotValidateName(name, ERROR);

    /*
     * If some other backend ran this code concurrently with us, we'd likely
     * both allocate the same slot, and that would be bad.  We'd also be at
     * risk of missing a name collision.  Also, we don't want to try to create
     * a new slot while somebody's busy cleaning up an old one, because we
     * might both be monkeying with the same directory.
     */
    LWLockAcquire(ReplicationSlotAllocationLock, LW_EXCLUSIVE);

    /*
     * Check for name collision, and identify an allocatable slot.  We need to
     * hold ReplicationSlotControlLock in shared mode for this, so that nobody
     * else can change the in_use flags while we're looking at them.
     */
    LWLockAcquire(ReplicationSlotControlLock, LW_SHARED);
    for (i = 0; i < max_replication_slots; i++)
    {
        ReplicationSlot *s = &ReplicationSlotCtl->replication_slots[i];

        if (s->in_use && strcmp(name, NameStr(s->data.name)) == 0)
            ereport(ERROR,
                    (errcode(ERRCODE_DUPLICATE_OBJECT),
                     errmsg("replication slot \"%s\" already exists", name)));
        if (!s->in_use && slot == NULL)
            slot = s;
    }
    LWLockRelease(ReplicationSlotControlLock);

    /* If all slots are in use, we're out of luck. */
    if (slot == NULL)
        ereport(ERROR,
                (errcode(ERRCODE_CONFIGURATION_LIMIT_EXCEEDED),
                 errmsg("all replication slots are in use"),
                 errhint("Free one or increase max_replication_slots.")));

    /*
     * Since this slot is not in use, nobody should be looking at any part of
     * it other than the in_use field unless they're trying to allocate it.
     * And since we hold ReplicationSlotAllocationLock, nobody except us can
     * be doing that.  So it's safe to initialize the slot.
     */
    Assert(!slot->in_use);
    Assert(slot->active_pid == 0);

    /* first initialize persistent data */
    memset(&slot->data, 0, sizeof(ReplicationSlotPersistentData));
    StrNCpy(NameStr(slot->data.name), name, NAMEDATALEN);
    slot->data.database = db_specific ? MyDatabaseId : InvalidOid;
    slot->data.persistency = persistency;

    /* and then data only present in shared memory */
    slot->just_dirtied = false;
    slot->dirty = false;
    slot->effective_xmin = InvalidTransactionId;
    slot->effective_catalog_xmin = InvalidTransactionId;
    slot->candidate_catalog_xmin = InvalidTransactionId;
    slot->candidate_xmin_lsn = InvalidXLogRecPtr;
    slot->candidate_restart_valid = InvalidXLogRecPtr;
    slot->candidate_restart_lsn = InvalidXLogRecPtr;

    /*
     * Create the slot on disk.  We haven't actually marked the slot allocated
     * yet, so no special cleanup is required if this errors out.
     */
    CreateSlotOnDisk(slot);

    /*
     * We need to briefly prevent any other backend from iterating over the
     * slots while we flip the in_use flag. We also need to set the active
     * flag while holding the ControlLock as otherwise a concurrent
     * ReplicationSlotAcquire() could acquire the slot as well.
     */
    LWLockAcquire(ReplicationSlotControlLock, LW_EXCLUSIVE);

    slot->in_use = true;

    /* We can now mark the slot active, and that makes it our slot. */
    SpinLockAcquire(&slot->mutex);
    Assert(slot->active_pid == 0);
    slot->active_pid = MyProcPid;
    SpinLockRelease(&slot->mutex);
    MyReplicationSlot = slot;

    LWLockRelease(ReplicationSlotControlLock);

    /*
     * Now that the slot has been marked as in_use and active, it's safe to
     * let somebody else try to allocate a slot.
     */
    LWLockRelease(ReplicationSlotAllocationLock);

    /* Let everybody know we've modified this slot */
    ConditionVariableBroadcast(&slot->active_cv);
}

ReplicationSlotDrop()

void ReplicationSlotDrop	(	const char *	name,
		bool	nowait
	)

Definition at line 517 of file slot.c.

References Assert, ReplicationSlotAcquire(), and ReplicationSlotDropAcquired().

Referenced by DropReplicationSlot(), and pg_drop_replication_slot().

{
    Assert(MyReplicationSlot == NULL);

    ReplicationSlotAcquire(name, nowait);

    ReplicationSlotDropAcquired();
}

ReplicationSlotDropAcquired()

static void ReplicationSlotDropAcquired ( void  )

static

Definition at line 530 of file slot.c.

References Assert, MyReplicationSlot, and ReplicationSlotDropPtr().

Referenced by ReplicationSlotDrop(), ReplicationSlotRelease(), and ReplicationSlotsDropDBSlots().

{
    ReplicationSlot *slot = MyReplicationSlot;

    Assert(MyReplicationSlot != NULL);

    /* slot isn't acquired anymore */
    MyReplicationSlot = NULL;

    ReplicationSlotDropPtr(slot);
}

ReplicationSlotDropPtr()

static void ReplicationSlotDropPtr ( ReplicationSlot *  slot )

static

Definition at line 547 of file slot.c.

References ReplicationSlot::active_cv, ReplicationSlot::active_pid, ConditionVariableBroadcast(), ReplicationSlot::data, END_CRIT_SECTION, ereport, errcode_for_file_access(), errmsg(), ERROR, fsync_fname(), ReplicationSlot::in_use, LW_EXCLUSIVE, LWLockAcquire(), LWLockRelease(), MAXPGPATH, ReplicationSlot::mutex, ReplicationSlotPersistentData::name, NameStr, ReplicationSlotPersistentData::persistency, ReplicationSlotsComputeRequiredLSN(), ReplicationSlotsComputeRequiredXmin(), rmtree(), RS_PERSISTENT, SpinLockAcquire, SpinLockRelease, sprintf, START_CRIT_SECTION, and WARNING.

Referenced by ReplicationSlotCleanup(), and ReplicationSlotDropAcquired().

{
    char        path[MAXPGPATH];
    char        tmppath[MAXPGPATH];

    /*
     * If some other backend ran this code concurrently with us, we might try
     * to delete a slot with a certain name while someone else was trying to
     * create a slot with the same name.
     */
    LWLockAcquire(ReplicationSlotAllocationLock, LW_EXCLUSIVE);

    /* Generate pathnames. */
    sprintf(path, "pg_replslot/%s", NameStr(slot->data.name));
    sprintf(tmppath, "pg_replslot/%s.tmp", NameStr(slot->data.name));

    /*
     * Rename the slot directory on disk, so that we'll no longer recognize
     * this as a valid slot.  Note that if this fails, we've got to mark the
     * slot inactive before bailing out.  If we're dropping an ephemeral or a
     * temporary slot, we better never fail hard as the caller won't expect
     * the slot to survive and this might get called during error handling.
     */
    if (rename(path, tmppath) == 0)
    {
        /*
         * We need to fsync() the directory we just renamed and its parent to
         * make sure that our changes are on disk in a crash-safe fashion.  If
         * fsync() fails, we can't be sure whether the changes are on disk or
         * not.  For now, we handle that by panicking;
         * StartupReplicationSlots() will try to straighten it out after
         * restart.
         */
        START_CRIT_SECTION();
        fsync_fname(tmppath, true);
        fsync_fname("pg_replslot", true);
        END_CRIT_SECTION();
    }
    else
    {
        bool        fail_softly = slot->data.persistency != RS_PERSISTENT;

        SpinLockAcquire(&slot->mutex);
        slot->active_pid = 0;
        SpinLockRelease(&slot->mutex);

        /* wake up anyone waiting on this slot */
        ConditionVariableBroadcast(&slot->active_cv);

        ereport(fail_softly ? WARNING : ERROR,
                (errcode_for_file_access(),
                 errmsg("could not rename file \"%s\" to \"%s\": %m",
                        path, tmppath)));
    }

    /*
     * The slot is definitely gone.  Lock out concurrent scans of the array
     * long enough to kill it.  It's OK to clear the active PID here without
     * grabbing the mutex because nobody else can be scanning the array here,
     * and nobody can be attached to this slot and thus access it without
     * scanning the array.
     *
     * Also wake up processes waiting for it.
     */
    LWLockAcquire(ReplicationSlotControlLock, LW_EXCLUSIVE);
    slot->active_pid = 0;
    slot->in_use = false;
    LWLockRelease(ReplicationSlotControlLock);
    ConditionVariableBroadcast(&slot->active_cv);

    /*
     * Slot is dead and doesn't prevent resource removal anymore, recompute
     * limits.
     */
    ReplicationSlotsComputeRequiredXmin(false);
    ReplicationSlotsComputeRequiredLSN();

    /*
     * If removing the directory fails, the worst thing that will happen is
     * that the user won't be able to create a new slot with the same name
     * until the next server restart.  We warn about it, but that's all.
     */
    if (!rmtree(tmppath, true))
        ereport(WARNING,
                (errmsg("could not remove directory \"%s\"", tmppath)));

    /*
     * We release this at the very end, so that nobody starts trying to create
     * a slot while we're still cleaning up the detritus of the old one.
     */
    LWLockRelease(ReplicationSlotAllocationLock);
}

ReplicationSlotMarkDirty()

void ReplicationSlotMarkDirty

(

void

)

Definition at line 663 of file slot.c.

References Assert, ReplicationSlot::dirty, ReplicationSlot::just_dirtied, ReplicationSlot::mutex, MyReplicationSlot, SpinLockAcquire, and SpinLockRelease.

Referenced by copy_replication_slot(), create_physical_replication_slot(), CreateInitDecodingContext(), CreateReplicationSlot(), LogicalConfirmReceivedLocation(), pg_logical_replication_slot_advance(), pg_logical_slot_get_changes_guts(), pg_replication_slot_advance(), PhysicalConfirmReceivedLocation(), PhysicalReplicationSlotNewXmin(), and ReplicationSlotPersist().

{
    ReplicationSlot *slot = MyReplicationSlot;

    Assert(MyReplicationSlot != NULL);

    SpinLockAcquire(&slot->mutex);
    MyReplicationSlot->just_dirtied = true;
    MyReplicationSlot->dirty = true;
    SpinLockRelease(&slot->mutex);
}

ReplicationSlotPersist()

void ReplicationSlotPersist

(

void

)

Definition at line 680 of file slot.c.

References Assert, ReplicationSlot::data, ReplicationSlot::mutex, MyReplicationSlot, ReplicationSlotPersistentData::persistency, ReplicationSlotMarkDirty(), ReplicationSlotSave(), RS_PERSISTENT, SpinLockAcquire, and SpinLockRelease.

Referenced by copy_replication_slot(), CreateReplicationSlot(), and pg_create_logical_replication_slot().

{
    ReplicationSlot *slot = MyReplicationSlot;

    Assert(slot != NULL);
    Assert(slot->data.persistency != RS_PERSISTENT);

    SpinLockAcquire(&slot->mutex);
    slot->data.persistency = RS_PERSISTENT;
    SpinLockRelease(&slot->mutex);

    ReplicationSlotMarkDirty();
    ReplicationSlotSave();
}

ReplicationSlotRelease()

void ReplicationSlotRelease

(

void

)

Definition at line 424 of file slot.c.

References ReplicationSlot::active_cv, ReplicationSlot::active_pid, Assert, ConditionVariableBroadcast(), ReplicationSlot::data, ReplicationSlot::effective_xmin, InvalidTransactionId, LW_EXCLUSIVE, LWLockAcquire(), LWLockRelease(), ReplicationSlot::mutex, MyPgXact, MyReplicationSlot, ReplicationSlotPersistentData::persistency, PROC_IN_LOGICAL_DECODING, ReplicationSlotDropAcquired(), ReplicationSlotsComputeRequiredXmin(), RS_EPHEMERAL, RS_PERSISTENT, SpinLockAcquire, SpinLockRelease, TransactionIdIsValid, PGXACT::vacuumFlags, and ReplicationSlotPersistentData::xmin.

Referenced by copy_replication_slot(), CreateReplicationSlot(), pg_create_logical_replication_slot(), pg_create_physical_replication_slot(), pg_logical_slot_get_changes_guts(), pg_replication_slot_advance(), PostgresMain(), ProcKill(), StartLogicalReplication(), StartReplication(), and WalSndErrorCleanup().

{
    ReplicationSlot *slot = MyReplicationSlot;

    Assert(slot != NULL && slot->active_pid != 0);

    if (slot->data.persistency == RS_EPHEMERAL)
    {
        /*
         * Delete the slot. There is no !PANIC case where this is allowed to
         * fail, all that may happen is an incomplete cleanup of the on-disk
         * data.
         */
        ReplicationSlotDropAcquired();
    }

    /*
     * If slot needed to temporarily restrain both data and catalog xmin to
     * create the catalog snapshot, remove that temporary constraint.
     * Snapshots can only be exported while the initial snapshot is still
     * acquired.
     */
    if (!TransactionIdIsValid(slot->data.xmin) &&
        TransactionIdIsValid(slot->effective_xmin))
    {
        SpinLockAcquire(&slot->mutex);
        slot->effective_xmin = InvalidTransactionId;
        SpinLockRelease(&slot->mutex);
        ReplicationSlotsComputeRequiredXmin(false);
    }

    if (slot->data.persistency == RS_PERSISTENT)
    {
        /*
         * Mark persistent slot inactive.  We're not freeing it, just
         * disconnecting, but wake up others that may be waiting for it.
         */
        SpinLockAcquire(&slot->mutex);
        slot->active_pid = 0;
        SpinLockRelease(&slot->mutex);
        ConditionVariableBroadcast(&slot->active_cv);
    }

    MyReplicationSlot = NULL;

    /* might not have been set when we've been a plain slot */
    LWLockAcquire(ProcArrayLock, LW_EXCLUSIVE);
    MyPgXact->vacuumFlags &= ~PROC_IN_LOGICAL_DECODING;
    LWLockRelease(ProcArrayLock);
}

ReplicationSlotReserveWal()

void ReplicationSlotReserveWal

(

void

)

Definition at line 997 of file slot.c.

References Assert, ReplicationSlot::data, GetRedoRecPtr(), GetXLogInsertRecPtr(), InvalidXLogRecPtr, LogStandbySnapshot(), ReplicationSlot::mutex, MyReplicationSlot, RecoveryInProgress(), ReplicationSlotsComputeRequiredLSN(), ReplicationSlotPersistentData::restart_lsn, SlotIsLogical, SpinLockAcquire, SpinLockRelease, wal_segment_size, XLByteToSeg, XLogFlush(), and XLogGetLastRemovedSegno().

Referenced by create_physical_replication_slot(), CreateInitDecodingContext(), and CreateReplicationSlot().

{
    ReplicationSlot *slot = MyReplicationSlot;

    Assert(slot != NULL);
    Assert(slot->data.restart_lsn == InvalidXLogRecPtr);

    /*
     * The replication slot mechanism is used to prevent removal of required
     * WAL. As there is no interlock between this routine and checkpoints, WAL
     * segments could concurrently be removed when a now stale return value of
     * ReplicationSlotsComputeRequiredLSN() is used. In the unlikely case that
     * this happens we'll just retry.
     */
    while (true)
    {
        XLogSegNo   segno;
        XLogRecPtr  restart_lsn;

        /*
         * For logical slots log a standby snapshot and start logical decoding
         * at exactly that position. That allows the slot to start up more
         * quickly.
         *
         * That's not needed (or indeed helpful) for physical slots as they'll
         * start replay at the last logged checkpoint anyway. Instead return
         * the location of the last redo LSN. While that slightly increases
         * the chance that we have to retry, it's where a base backup has to
         * start replay at.
         */
        if (!RecoveryInProgress() && SlotIsLogical(slot))
        {
            XLogRecPtr  flushptr;

            /* start at current insert position */
            restart_lsn = GetXLogInsertRecPtr();
            SpinLockAcquire(&slot->mutex);
            slot->data.restart_lsn = restart_lsn;
            SpinLockRelease(&slot->mutex);

            /* make sure we have enough information to start */
            flushptr = LogStandbySnapshot();

            /* and make sure it's fsynced to disk */
            XLogFlush(flushptr);
        }
        else
        {
            restart_lsn = GetRedoRecPtr();
            SpinLockAcquire(&slot->mutex);
            slot->data.restart_lsn = restart_lsn;
            SpinLockRelease(&slot->mutex);
        }

        /* prevent WAL removal as fast as possible */
        ReplicationSlotsComputeRequiredLSN();

        /*
         * If all required WAL is still there, great, otherwise retry. The
         * slot should prevent further removal of WAL, unless there's a
         * concurrent ReplicationSlotsComputeRequiredLSN() after we've written
         * the new restart_lsn above, so normally we should never need to loop
         * more than twice.
         */
        XLByteToSeg(slot->data.restart_lsn, segno, wal_segment_size);
        if (XLogGetLastRemovedSegno() < segno)
            break;
    }
}

ReplicationSlotSave()

void ReplicationSlotSave

(

void

)

Definition at line 645 of file slot.c.

References Assert, ReplicationSlot::data, ERROR, MAXPGPATH, ReplicationSlotPersistentData::name, NameStr, SaveSlotToPath(), and sprintf.

Referenced by copy_replication_slot(), create_physical_replication_slot(), CreateInitDecodingContext(), CreateReplicationSlot(), LogicalConfirmReceivedLocation(), pg_replication_slot_advance(), and ReplicationSlotPersist().

{
    char        path[MAXPGPATH];

    Assert(MyReplicationSlot != NULL);

    sprintf(path, "pg_replslot/%s", NameStr(MyReplicationSlot->data.name));
    SaveSlotToPath(MyReplicationSlot, path, ERROR);
}

ReplicationSlotsComputeLogicalRestartLSN()

XLogRecPtr ReplicationSlotsComputeLogicalRestartLSN

(

void

)

Definition at line 791 of file slot.c.

References ReplicationSlot::data, i, ReplicationSlot::in_use, InvalidXLogRecPtr, LW_SHARED, LWLockAcquire(), LWLockRelease(), max_replication_slots, ReplicationSlot::mutex, ReplicationSlotCtlData::replication_slots, ReplicationSlotPersistentData::restart_lsn, SlotIsLogical, SpinLockAcquire, and SpinLockRelease.

Referenced by CheckPointLogicalRewriteHeap(), and CheckPointSnapBuild().

{
    XLogRecPtr  result = InvalidXLogRecPtr;
    int         i;

    if (max_replication_slots <= 0)
        return InvalidXLogRecPtr;

    LWLockAcquire(ReplicationSlotControlLock, LW_SHARED);

    for (i = 0; i < max_replication_slots; i++)
    {
        ReplicationSlot *s;
        XLogRecPtr  restart_lsn;

        s = &ReplicationSlotCtl->replication_slots[i];

        /* cannot change while ReplicationSlotCtlLock is held */
        if (!s->in_use)
            continue;

        /* we're only interested in logical slots */
        if (!SlotIsLogical(s))
            continue;

        /* read once, it's ok if it increases while we're checking */
        SpinLockAcquire(&s->mutex);
        restart_lsn = s->data.restart_lsn;
        SpinLockRelease(&s->mutex);

        if (result == InvalidXLogRecPtr ||
            restart_lsn < result)
            result = restart_lsn;
    }

    LWLockRelease(ReplicationSlotControlLock);

    return result;
}

ReplicationSlotsComputeRequiredLSN()

void ReplicationSlotsComputeRequiredLSN

(

void

)

Definition at line 748 of file slot.c.

References Assert, ReplicationSlot::data, i, ReplicationSlot::in_use, InvalidXLogRecPtr, LW_SHARED, LWLockAcquire(), LWLockRelease(), max_replication_slots, ReplicationSlot::mutex, ReplicationSlotCtlData::replication_slots, ReplicationSlotPersistentData::restart_lsn, SpinLockAcquire, SpinLockRelease, and XLogSetReplicationSlotMinimumLSN().

Referenced by copy_replication_slot(), LogicalConfirmReceivedLocation(), pg_replication_slot_advance(), PhysicalConfirmReceivedLocation(), ReplicationSlotDropPtr(), ReplicationSlotReserveWal(), and StartupReplicationSlots().

{
    int         i;
    XLogRecPtr  min_required = InvalidXLogRecPtr;

    Assert(ReplicationSlotCtl != NULL);

    LWLockAcquire(ReplicationSlotControlLock, LW_SHARED);
    for (i = 0; i < max_replication_slots; i++)
    {
        ReplicationSlot *s = &ReplicationSlotCtl->replication_slots[i];
        XLogRecPtr  restart_lsn;

        if (!s->in_use)
            continue;

        SpinLockAcquire(&s->mutex);
        restart_lsn = s->data.restart_lsn;
        SpinLockRelease(&s->mutex);

        if (restart_lsn != InvalidXLogRecPtr &&
            (min_required == InvalidXLogRecPtr ||
             restart_lsn < min_required))
            min_required = restart_lsn;
    }
    LWLockRelease(ReplicationSlotControlLock);

    XLogSetReplicationSlotMinimumLSN(min_required);
}

ReplicationSlotsComputeRequiredXmin()

void ReplicationSlotsComputeRequiredXmin

(

bool

already_locked

)

Definition at line 702 of file slot.c.

References Assert, ReplicationSlot::effective_catalog_xmin, ReplicationSlot::effective_xmin, i, ReplicationSlot::in_use, InvalidTransactionId, LW_SHARED, LWLockAcquire(), LWLockRelease(), max_replication_slots, ReplicationSlot::mutex, ProcArraySetReplicationSlotXmin(), ReplicationSlotCtlData::replication_slots, SpinLockAcquire, SpinLockRelease, TransactionIdIsValid, and TransactionIdPrecedes().

Referenced by copy_replication_slot(), CreateInitDecodingContext(), LogicalConfirmReceivedLocation(), pg_replication_slot_advance(), PhysicalReplicationSlotNewXmin(), ReplicationSlotDropPtr(), ReplicationSlotRelease(), and StartupReplicationSlots().

{
    int         i;
    TransactionId agg_xmin = InvalidTransactionId;
    TransactionId agg_catalog_xmin = InvalidTransactionId;

    Assert(ReplicationSlotCtl != NULL);

    LWLockAcquire(ReplicationSlotControlLock, LW_SHARED);

    for (i = 0; i < max_replication_slots; i++)
    {
        ReplicationSlot *s = &ReplicationSlotCtl->replication_slots[i];
        TransactionId effective_xmin;
        TransactionId effective_catalog_xmin;

        if (!s->in_use)
            continue;

        SpinLockAcquire(&s->mutex);
        effective_xmin = s->effective_xmin;
        effective_catalog_xmin = s->effective_catalog_xmin;
        SpinLockRelease(&s->mutex);

        /* check the data xmin */
        if (TransactionIdIsValid(effective_xmin) &&
            (!TransactionIdIsValid(agg_xmin) ||
             TransactionIdPrecedes(effective_xmin, agg_xmin)))
            agg_xmin = effective_xmin;

        /* check the catalog xmin */
        if (TransactionIdIsValid(effective_catalog_xmin) &&
            (!TransactionIdIsValid(agg_catalog_xmin) ||
             TransactionIdPrecedes(effective_catalog_xmin, agg_catalog_xmin)))
            agg_catalog_xmin = effective_catalog_xmin;
    }

    LWLockRelease(ReplicationSlotControlLock);

    ProcArraySetReplicationSlotXmin(agg_xmin, agg_catalog_xmin, already_locked);
}

ReplicationSlotsCountDBSlots()

bool ReplicationSlotsCountDBSlots	(	Oid	dboid,
		int *	nslots,
		int *	nactive
	)

Definition at line 840 of file slot.c.

References ReplicationSlot::active_pid, ReplicationSlot::data, ReplicationSlotPersistentData::database, i, ReplicationSlot::in_use, LW_SHARED, LWLockAcquire(), LWLockRelease(), max_replication_slots, ReplicationSlot::mutex, ReplicationSlotCtlData::replication_slots, SlotIsLogical, SpinLockAcquire, and SpinLockRelease.

Referenced by dropdb().

{
    int         i;

    *nslots = *nactive = 0;

    if (max_replication_slots <= 0)
        return false;

    LWLockAcquire(ReplicationSlotControlLock, LW_SHARED);
    for (i = 0; i < max_replication_slots; i++)
    {
        ReplicationSlot *s;

        s = &ReplicationSlotCtl->replication_slots[i];

        /* cannot change while ReplicationSlotCtlLock is held */
        if (!s->in_use)
            continue;

        /* only logical slots are database specific, skip */
        if (!SlotIsLogical(s))
            continue;

        /* not our database, skip */
        if (s->data.database != dboid)
            continue;

        /* count slots with spinlock held */
        SpinLockAcquire(&s->mutex);
        (*nslots)++;
        if (s->active_pid != 0)
            (*nactive)++;
        SpinLockRelease(&s->mutex);
    }
    LWLockRelease(ReplicationSlotControlLock);

    if (*nslots > 0)
        return true;
    return false;
}

ReplicationSlotsDropDBSlots()

void ReplicationSlotsDropDBSlots

(

Oid

dboid

)

Definition at line 896 of file slot.c.

References ReplicationSlot::active_pid, ReplicationSlot::data, ReplicationSlotPersistentData::database, ereport, errcode(), errmsg(), ERROR, i, ReplicationSlot::in_use, LW_SHARED, LWLockAcquire(), LWLockRelease(), max_replication_slots, ReplicationSlot::mutex, MyProcPid, ReplicationSlotPersistentData::name, NameStr, ReplicationSlotCtlData::replication_slots, ReplicationSlotDropAcquired(), SlotIsLogical, SpinLockAcquire, and SpinLockRelease.

Referenced by dbase_redo(), and dropdb().

{
    int         i;

    if (max_replication_slots <= 0)
        return;

restart:
    LWLockAcquire(ReplicationSlotControlLock, LW_SHARED);
    for (i = 0; i < max_replication_slots; i++)
    {
        ReplicationSlot *s;
        char       *slotname;
        int         active_pid;

        s = &ReplicationSlotCtl->replication_slots[i];

        /* cannot change while ReplicationSlotCtlLock is held */
        if (!s->in_use)
            continue;

        /* only logical slots are database specific, skip */
        if (!SlotIsLogical(s))
            continue;

        /* not our database, skip */
        if (s->data.database != dboid)
            continue;

        /* acquire slot, so ReplicationSlotDropAcquired can be reused  */
        SpinLockAcquire(&s->mutex);
        /* can't change while ReplicationSlotControlLock is held */
        slotname = NameStr(s->data.name);
        active_pid = s->active_pid;
        if (active_pid == 0)
        {
            MyReplicationSlot = s;
            s->active_pid = MyProcPid;
        }
        SpinLockRelease(&s->mutex);

        /*
         * Even though we hold an exclusive lock on the database object a
         * logical slot for that DB can still be active, e.g. if it's
         * concurrently being dropped by a backend connected to another DB.
         *
         * That's fairly unlikely in practice, so we'll just bail out.
         */
        if (active_pid)
            ereport(ERROR,
                    (errcode(ERRCODE_OBJECT_IN_USE),
                     errmsg("replication slot \"%s\" is active for PID %d",
                            slotname, active_pid)));

        /*
         * To avoid duplicating ReplicationSlotDropAcquired() and to avoid
         * holding ReplicationSlotControlLock over filesystem operations,
         * release ReplicationSlotControlLock and use
         * ReplicationSlotDropAcquired.
         *
         * As that means the set of slots could change, restart scan from the
         * beginning each time we release the lock.
         */
        LWLockRelease(ReplicationSlotControlLock);
        ReplicationSlotDropAcquired();
        goto restart;
    }
    LWLockRelease(ReplicationSlotControlLock);
}

ReplicationSlotsShmemInit()

void ReplicationSlotsShmemInit

(

void

)

Definition at line 132 of file slot.c.

References ReplicationSlot::active_cv, ConditionVariableInit(), i, ReplicationSlot::io_in_progress_lock, LWLockInitialize(), LWLockRegisterTranche(), LWTRANCHE_REPLICATION_SLOT_IO_IN_PROGRESS, max_replication_slots, MemSet, ReplicationSlot::mutex, ReplicationSlotCtlData::replication_slots, ReplicationSlotsShmemSize(), ShmemInitStruct(), and SpinLockInit.

Referenced by CreateSharedMemoryAndSemaphores().

{
    bool        found;

    if (max_replication_slots == 0)
        return;

    ReplicationSlotCtl = (ReplicationSlotCtlData *)
        ShmemInitStruct("ReplicationSlot Ctl", ReplicationSlotsShmemSize(),
                        &found);

    LWLockRegisterTranche(LWTRANCHE_REPLICATION_SLOT_IO_IN_PROGRESS,
                          "replication_slot_io");

    if (!found)
    {
        int         i;

        /* First time through, so initialize */
        MemSet(ReplicationSlotCtl, 0, ReplicationSlotsShmemSize());

        for (i = 0; i < max_replication_slots; i++)
        {
            ReplicationSlot *slot = &ReplicationSlotCtl->replication_slots[i];

            /* everything else is zeroed by the memset above */
            SpinLockInit(&slot->mutex);
            LWLockInitialize(&slot->io_in_progress_lock, LWTRANCHE_REPLICATION_SLOT_IO_IN_PROGRESS);
            ConditionVariableInit(&slot->active_cv);
        }
    }
}

ReplicationSlotsShmemSize()

Size ReplicationSlotsShmemSize

(

void

)

Definition at line 114 of file slot.c.

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

Referenced by CreateSharedMemoryAndSemaphores(), and ReplicationSlotsShmemInit().

{
    Size        size = 0;

    if (max_replication_slots == 0)
        return size;

    size = offsetof(ReplicationSlotCtlData, replication_slots);
    size = add_size(size,
                    mul_size(max_replication_slots, sizeof(ReplicationSlot)));

    return size;
}

ReplicationSlotValidateName()

bool ReplicationSlotValidateName	(	const char *	name,
		int	elevel
	)

Definition at line 174 of file slot.c.

References ereport, errcode(), errhint(), errmsg(), and NAMEDATALEN.

Referenced by check_primary_slot_name(), ReplicationSlotCreate(), and StartupReorderBuffer().

{
    const char *cp;

    if (strlen(name) == 0)
    {
        ereport(elevel,
                (errcode(ERRCODE_INVALID_NAME),
                 errmsg("replication slot name \"%s\" is too short",
                        name)));
        return false;
    }

    if (strlen(name) >= NAMEDATALEN)
    {
        ereport(elevel,
                (errcode(ERRCODE_NAME_TOO_LONG),
                 errmsg("replication slot name \"%s\" is too long",
                        name)));
        return false;
    }

    for (cp = name; *cp; cp++)
    {
        if (!((*cp >= 'a' && *cp <= 'z')
              || (*cp >= '0' && *cp <= '9')
              || (*cp == '_')))
        {
            ereport(elevel,
                    (errcode(ERRCODE_INVALID_NAME),
                     errmsg("replication slot name \"%s\" contains invalid character",
                            name),
                     errhint("Replication slot names may only contain lower case letters, numbers, and the underscore character.")));
            return false;
        }
    }
    return true;
}

RestoreSlotFromDisk()

static void RestoreSlotFromDisk ( const char *  name )

static

Definition at line 1364 of file slot.c.

References ReplicationSlot::active_pid, ReplicationSlot::candidate_catalog_xmin, ReplicationSlot::candidate_restart_lsn, ReplicationSlot::candidate_restart_valid, ReplicationSlot::candidate_xmin_lsn, ReplicationSlotPersistentData::catalog_xmin, ReplicationSlotOnDisk::checksum, CloseTransientFile(), COMP_CRC32C, ReplicationSlot::data, ReplicationSlotPersistentData::database, DEBUG1, ReplicationSlot::effective_catalog_xmin, ReplicationSlot::effective_xmin, elog, END_CRIT_SECTION, EQ_CRC32C, ereport, errcode(), ERRCODE_DATA_CORRUPTED, errcode_for_file_access(), errhint(), errmsg(), FATAL, fd(), FIN_CRC32C, fsync_fname(), i, ReplicationSlot::in_use, INIT_CRC32C, InvalidOid, InvalidTransactionId, InvalidXLogRecPtr, ReplicationSlotOnDisk::length, ReplicationSlotOnDisk::magic, max_replication_slots, MAXPGPATH, ReplicationSlotPersistentData::name, NameStr, OpenTransientFile(), PANIC, ReplicationSlotPersistentData::persistency, PG_BINARY, pg_fsync(), pgstat_report_wait_end(), pgstat_report_wait_start(), read, ReplicationSlotCtlData::replication_slots, ReplicationSlotOnDiskConstantSize, ReplicationSlotOnDiskV2Size, rmtree(), RS_PERSISTENT, SLOT_MAGIC, SLOT_VERSION, ReplicationSlotOnDisk::slotdata, SnapBuildOnDiskChecksummedSize, SnapBuildOnDiskNotChecksummedSize, sprintf, START_CRIT_SECTION, ReplicationSlotOnDisk::version, WAIT_EVENT_REPLICATION_SLOT_READ, WAIT_EVENT_REPLICATION_SLOT_RESTORE_SYNC, wal_level, WAL_LEVEL_LOGICAL, WAL_LEVEL_REPLICA, WARNING, and ReplicationSlotPersistentData::xmin.

Referenced by StartupReplicationSlots().

{
    ReplicationSlotOnDisk cp;
    int         i;
    char        slotdir[MAXPGPATH + 12];
    char        path[MAXPGPATH + 22];
    int         fd;
    bool        restored = false;
    int         readBytes;
    pg_crc32c   checksum;

    /* no need to lock here, no concurrent access allowed yet */

    /* delete temp file if it exists */
    sprintf(slotdir, "pg_replslot/%s", name);
    sprintf(path, "%s/state.tmp", slotdir);
    if (unlink(path) < 0 && errno != ENOENT)
        ereport(PANIC,
                (errcode_for_file_access(),
                 errmsg("could not remove file \"%s\": %m", path)));

    sprintf(path, "%s/state", slotdir);

    elog(DEBUG1, "restoring replication slot from \"%s\"", path);

    fd = OpenTransientFile(path, O_RDONLY | PG_BINARY);

    /*
     * We do not need to handle this as we are rename()ing the directory into
     * place only after we fsync()ed the state file.
     */
    if (fd < 0)
        ereport(PANIC,
                (errcode_for_file_access(),
                 errmsg("could not open file \"%s\": %m", path)));

    /*
     * Sync state file before we're reading from it. We might have crashed
     * while it wasn't synced yet and we shouldn't continue on that basis.
     */
    pgstat_report_wait_start(WAIT_EVENT_REPLICATION_SLOT_RESTORE_SYNC);
    if (pg_fsync(fd) != 0)
        ereport(PANIC,
                (errcode_for_file_access(),
                 errmsg("could not fsync file \"%s\": %m",
                        path)));
    pgstat_report_wait_end();

    /* Also sync the parent directory */
    START_CRIT_SECTION();
    fsync_fname(slotdir, true);
    END_CRIT_SECTION();

    /* read part of statefile that's guaranteed to be version independent */
    pgstat_report_wait_start(WAIT_EVENT_REPLICATION_SLOT_READ);
    readBytes = read(fd, &cp, ReplicationSlotOnDiskConstantSize);
    pgstat_report_wait_end();
    if (readBytes != ReplicationSlotOnDiskConstantSize)
    {
        if (readBytes < 0)
            ereport(PANIC,
                    (errcode_for_file_access(),
                     errmsg("could not read file \"%s\": %m", path)));
        else
            ereport(PANIC,
                    (errcode(ERRCODE_DATA_CORRUPTED),
                     errmsg("could not read file \"%s\": read %d of %zu",
                            path, readBytes,
                            (Size) ReplicationSlotOnDiskConstantSize)));
    }

    /* verify magic */
    if (cp.magic != SLOT_MAGIC)
        ereport(PANIC,
                (errcode(ERRCODE_DATA_CORRUPTED),
                 errmsg("replication slot file \"%s\" has wrong magic number: %u instead of %u",
                        path, cp.magic, SLOT_MAGIC)));

    /* verify version */
    if (cp.version != SLOT_VERSION)
        ereport(PANIC,
                (errcode(ERRCODE_DATA_CORRUPTED),
                 errmsg("replication slot file \"%s\" has unsupported version %u",
                        path, cp.version)));

    /* boundary check on length */
    if (cp.length != ReplicationSlotOnDiskV2Size)
        ereport(PANIC,
                (errcode(ERRCODE_DATA_CORRUPTED),
                 errmsg("replication slot file \"%s\" has corrupted length %u",
                        path, cp.length)));

    /* Now that we know the size, read the entire file */
    pgstat_report_wait_start(WAIT_EVENT_REPLICATION_SLOT_READ);
    readBytes = read(fd,
                     (char *) &cp + ReplicationSlotOnDiskConstantSize,
                     cp.length);
    pgstat_report_wait_end();
    if (readBytes != cp.length)
    {
        if (readBytes < 0)
            ereport(PANIC,
                    (errcode_for_file_access(),
                     errmsg("could not read file \"%s\": %m", path)));
        else
            ereport(PANIC,
                    (errcode(ERRCODE_DATA_CORRUPTED),
                     errmsg("could not read file \"%s\": read %d of %zu",
                            path, readBytes, (Size) cp.length)));
    }

    if (CloseTransientFile(fd) != 0)
        ereport(PANIC,
                (errcode_for_file_access(),
                 errmsg("could not close file \"%s\": %m", path)));

    /* now verify the CRC */
    INIT_CRC32C(checksum);
    COMP_CRC32C(checksum,
                (char *) &cp + SnapBuildOnDiskNotChecksummedSize,
                SnapBuildOnDiskChecksummedSize);
    FIN_CRC32C(checksum);

    if (!EQ_CRC32C(checksum, cp.checksum))
        ereport(PANIC,
                (errmsg("checksum mismatch for replication slot file \"%s\": is %u, should be %u",
                        path, checksum, cp.checksum)));

    /*
     * If we crashed with an ephemeral slot active, don't restore but delete
     * it.
     */
    if (cp.slotdata.persistency != RS_PERSISTENT)
    {
        if (!rmtree(slotdir, true))
        {
            ereport(WARNING,
                    (errmsg("could not remove directory \"%s\"",
                            slotdir)));
        }
        fsync_fname("pg_replslot", true);
        return;
    }

    /*
     * Verify that requirements for the specific slot type are met. That's
     * important because if these aren't met we're not guaranteed to retain
     * all the necessary resources for the slot.
     *
     * NB: We have to do so *after* the above checks for ephemeral slots,
     * because otherwise a slot that shouldn't exist anymore could prevent
     * restarts.
     *
     * NB: Changing the requirements here also requires adapting
     * CheckSlotRequirements() and CheckLogicalDecodingRequirements().
     */
    if (cp.slotdata.database != InvalidOid && wal_level < WAL_LEVEL_LOGICAL)
        ereport(FATAL,
                (errcode(ERRCODE_OBJECT_NOT_IN_PREREQUISITE_STATE),
                 errmsg("logical replication slot \"%s\" exists, but wal_level < logical",
                        NameStr(cp.slotdata.name)),
                 errhint("Change wal_level to be logical or higher.")));
    else if (wal_level < WAL_LEVEL_REPLICA)
        ereport(FATAL,
                (errcode(ERRCODE_OBJECT_NOT_IN_PREREQUISITE_STATE),
                 errmsg("physical replication slot \"%s\" exists, but wal_level < replica",
                        NameStr(cp.slotdata.name)),
                 errhint("Change wal_level to be replica or higher.")));

    /* nothing can be active yet, don't lock anything */
    for (i = 0; i < max_replication_slots; i++)
    {
        ReplicationSlot *slot;

        slot = &ReplicationSlotCtl->replication_slots[i];

        if (slot->in_use)
            continue;

        /* restore the entire set of persistent data */
        memcpy(&slot->data, &cp.slotdata,
               sizeof(ReplicationSlotPersistentData));

        /* initialize in memory state */
        slot->effective_xmin = cp.slotdata.xmin;
        slot->effective_catalog_xmin = cp.slotdata.catalog_xmin;

        slot->candidate_catalog_xmin = InvalidTransactionId;
        slot->candidate_xmin_lsn = InvalidXLogRecPtr;
        slot->candidate_restart_lsn = InvalidXLogRecPtr;
        slot->candidate_restart_valid = InvalidXLogRecPtr;

        slot->in_use = true;
        slot->active_pid = 0;

        restored = true;
        break;
    }

    if (!restored)
        ereport(FATAL,
                (errmsg("too many replication slots active before shutdown"),
                 errhint("Increase max_replication_slots and try again.")));
}

SaveSlotToPath()

static void SaveSlotToPath ( ReplicationSlot *  slot, const char *  path, int  elevel  )

static

Definition at line 1230 of file slot.c.

References ReplicationSlotOnDisk::checksum, CloseTransientFile(), COMP_CRC32C, ReplicationSlot::data, ReplicationSlot::dirty, END_CRIT_SECTION, ereport, errcode_for_file_access(), errmsg(), fd(), FIN_CRC32C, fsync_fname(), INIT_CRC32C, ReplicationSlot::io_in_progress_lock, ReplicationSlot::just_dirtied, ReplicationSlotOnDisk::length, LW_EXCLUSIVE, LWLockAcquire(), LWLockRelease(), ReplicationSlotOnDisk::magic, MAXPGPATH, ReplicationSlot::mutex, OpenTransientFile(), PG_BINARY, pg_fsync(), pgstat_report_wait_end(), pgstat_report_wait_start(), ReplicationSlotOnDiskV2Size, SLOT_MAGIC, SLOT_VERSION, ReplicationSlotOnDisk::slotdata, SnapBuildOnDiskChecksummedSize, SnapBuildOnDiskNotChecksummedSize, SpinLockAcquire, SpinLockRelease, sprintf, START_CRIT_SECTION, ReplicationSlotOnDisk::version, WAIT_EVENT_REPLICATION_SLOT_SYNC, WAIT_EVENT_REPLICATION_SLOT_WRITE, and write.

Referenced by CheckPointReplicationSlots(), CreateSlotOnDisk(), and ReplicationSlotSave().

{
    char        tmppath[MAXPGPATH];
    char        path[MAXPGPATH];
    int         fd;
    ReplicationSlotOnDisk cp;
    bool        was_dirty;

    /* first check whether there's something to write out */
    SpinLockAcquire(&slot->mutex);
    was_dirty = slot->dirty;
    slot->just_dirtied = false;
    SpinLockRelease(&slot->mutex);

    /* and don't do anything if there's nothing to write */
    if (!was_dirty)
        return;

    LWLockAcquire(&slot->io_in_progress_lock, LW_EXCLUSIVE);

    /* silence valgrind :( */
    memset(&cp, 0, sizeof(ReplicationSlotOnDisk));

    sprintf(tmppath, "%s/state.tmp", dir);
    sprintf(path, "%s/state", dir);

    fd = OpenTransientFile(tmppath, O_CREAT | O_EXCL | O_WRONLY | PG_BINARY);
    if (fd < 0)
    {
        ereport(elevel,
                (errcode_for_file_access(),
                 errmsg("could not create file \"%s\": %m",
                        tmppath)));
        return;
    }

    cp.magic = SLOT_MAGIC;
    INIT_CRC32C(cp.checksum);
    cp.version = SLOT_VERSION;
    cp.length = ReplicationSlotOnDiskV2Size;

    SpinLockAcquire(&slot->mutex);

    memcpy(&cp.slotdata, &slot->data, sizeof(ReplicationSlotPersistentData));

    SpinLockRelease(&slot->mutex);

    COMP_CRC32C(cp.checksum,
                (char *) (&cp) + SnapBuildOnDiskNotChecksummedSize,
                SnapBuildOnDiskChecksummedSize);
    FIN_CRC32C(cp.checksum);

    errno = 0;
    pgstat_report_wait_start(WAIT_EVENT_REPLICATION_SLOT_WRITE);
    if ((write(fd, &cp, sizeof(cp))) != sizeof(cp))
    {
        int         save_errno = errno;

        pgstat_report_wait_end();
        CloseTransientFile(fd);

        /* if write didn't set errno, assume problem is no disk space */
        errno = save_errno ? save_errno : ENOSPC;
        ereport(elevel,
                (errcode_for_file_access(),
                 errmsg("could not write to file \"%s\": %m",
                        tmppath)));
        return;
    }
    pgstat_report_wait_end();

    /* fsync the temporary file */
    pgstat_report_wait_start(WAIT_EVENT_REPLICATION_SLOT_SYNC);
    if (pg_fsync(fd) != 0)
    {
        int         save_errno = errno;

        pgstat_report_wait_end();
        CloseTransientFile(fd);
        errno = save_errno;
        ereport(elevel,
                (errcode_for_file_access(),
                 errmsg("could not fsync file \"%s\": %m",
                        tmppath)));
        return;
    }
    pgstat_report_wait_end();

    if (CloseTransientFile(fd) != 0)
    {
        ereport(elevel,
                (errcode_for_file_access(),
                 errmsg("could not close file \"%s\": %m",
                        tmppath)));
        return;
    }

    /* rename to permanent file, fsync file and directory */
    if (rename(tmppath, path) != 0)
    {
        ereport(elevel,
                (errcode_for_file_access(),
                 errmsg("could not rename file \"%s\" to \"%s\": %m",
                        tmppath, path)));
        return;
    }

    /*
     * Check CreateSlotOnDisk() for the reasoning of using a critical section.
     */
    START_CRIT_SECTION();

    fsync_fname(path, false);
    fsync_fname(dir, true);
    fsync_fname("pg_replslot", true);

    END_CRIT_SECTION();

    /*
     * Successfully wrote, unset dirty bit, unless somebody dirtied again
     * already.
     */
    SpinLockAcquire(&slot->mutex);
    if (!slot->just_dirtied)
        slot->dirty = false;
    SpinLockRelease(&slot->mutex);

    LWLockRelease(&slot->io_in_progress_lock);
}

StartupReplicationSlots()

void StartupReplicationSlots

(

void

)

Definition at line 1109 of file slot.c.

References AllocateDir(), dirent::d_name, DEBUG1, elog, ereport, errmsg(), FreeDir(), fsync_fname(), lstat, max_replication_slots, MAXPGPATH, pg_str_endswith(), ReadDir(), ReplicationSlotsComputeRequiredLSN(), ReplicationSlotsComputeRequiredXmin(), RestoreSlotFromDisk(), rmtree(), S_ISDIR, snprintf, stat, and WARNING.

Referenced by StartupXLOG().

{
    DIR        *replication_dir;
    struct dirent *replication_de;

    elog(DEBUG1, "starting up replication slots");

    /* restore all slots by iterating over all on-disk entries */
    replication_dir = AllocateDir("pg_replslot");
    while ((replication_de = ReadDir(replication_dir, "pg_replslot")) != NULL)
    {
        struct stat statbuf;
        char        path[MAXPGPATH + 12];

        if (strcmp(replication_de->d_name, ".") == 0 ||
            strcmp(replication_de->d_name, "..") == 0)
            continue;

        snprintf(path, sizeof(path), "pg_replslot/%s", replication_de->d_name);

        /* we're only creating directories here, skip if it's not our's */
        if (lstat(path, &statbuf) == 0 && !S_ISDIR(statbuf.st_mode))
            continue;

        /* we crashed while a slot was being setup or deleted, clean up */
        if (pg_str_endswith(replication_de->d_name, ".tmp"))
        {
            if (!rmtree(path, true))
            {
                ereport(WARNING,
                        (errmsg("could not remove directory \"%s\"",
                                path)));
                continue;
            }
            fsync_fname("pg_replslot", true);
            continue;
        }

        /* looks like a slot in a normal state, restore */
        RestoreSlotFromDisk(replication_de->d_name);
    }
    FreeDir(replication_dir);

    /* currently no slots exist, we're done. */
    if (max_replication_slots <= 0)
        return;

    /* Now that we have recovered all the data, compute replication xmin */
    ReplicationSlotsComputeRequiredXmin(false);
    ReplicationSlotsComputeRequiredLSN();
}

Variable Documentation

max_replication_slots

int max_replication_slots = 0

Definition at line 99 of file slot.c.

Referenced by CheckPointReplicationOrigin(), CheckPointReplicationSlots(), CheckSlotRequirements(), copy_replication_slot(), KeepLogSeg(), logicalrep_worker_launch(), pg_get_replication_slots(), pg_show_replication_origin_status(), ReplicationOriginShmemInit(), ReplicationOriginShmemSize(), ReplicationSlotAcquire(), ReplicationSlotCleanup(), ReplicationSlotCreate(), ReplicationSlotsComputeLogicalRestartLSN(), ReplicationSlotsComputeRequiredLSN(), ReplicationSlotsComputeRequiredXmin(), ReplicationSlotsCountDBSlots(), ReplicationSlotsDropDBSlots(), ReplicationSlotsShmemInit(), ReplicationSlotsShmemSize(), replorigin_advance(), replorigin_check_prerequisites(), replorigin_drop(), replorigin_get_progress(), replorigin_redo(), replorigin_session_reset(), replorigin_session_setup(), RestoreSlotFromDisk(), StartupReplicationOrigin(), and StartupReplicationSlots().

MyReplicationSlot

ReplicationSlot* MyReplicationSlot = NULL

Definition at line 96 of file slot.c.

Referenced by copy_replication_slot(), create_logical_replication_slot(), create_physical_replication_slot(), CreateDecodingContext(), CreateInitDecodingContext(), CreateReplicationSlot(), LogicalConfirmReceivedLocation(), LogicalIncreaseRestartDecodingForSlot(), LogicalIncreaseXminForSlot(), pg_create_logical_replication_slot(), pg_create_physical_replication_slot(), pg_logical_replication_slot_advance(), pg_logical_slot_get_changes_guts(), pg_physical_replication_slot_advance(), pg_replication_slot_advance(), PhysicalConfirmReceivedLocation(), PhysicalReplicationSlotNewXmin(), PostgresMain(), ProcessStandbyHSFeedbackMessage(), ProcessStandbyReplyMessage(), ProcKill(), ReorderBufferAllocate(), ReorderBufferFree(), ReorderBufferRestoreChanges(), ReorderBufferRestoreCleanup(), ReorderBufferSerializedPath(), ReorderBufferSerializeTXN(), ReplicationSlotDropAcquired(), ReplicationSlotMarkDirty(), ReplicationSlotPersist(), ReplicationSlotRelease(), ReplicationSlotReserveWal(), StartLogicalReplication(), StartReplication(), StartupDecodingContext(), and WalSndErrorCleanup().

ReplicationSlotCtl

ReplicationSlotCtlData* ReplicationSlotCtl = NULL

Definition at line 93 of file slot.c.

Referenced by copy_replication_slot(), and pg_get_replication_slots().