tablesync.c

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/*-------------------------------------------------------------------------
 * tablesync.c
 *    PostgreSQL logical replication: initial table data synchronization
 *
 * Copyright (c) 2012-2022, PostgreSQL Global Development Group
 *
 * IDENTIFICATION
 *    src/backend/replication/logical/tablesync.c
 *
 * NOTES
 *    This file contains code for initial table data synchronization for
 *    logical replication.
 *
 *    The initial data synchronization is done separately for each table,
 *    in a separate apply worker that only fetches the initial snapshot data
 *    from the publisher and then synchronizes the position in the stream with
 *    the main apply worker.
 *
 *    There are several reasons for doing the synchronization this way:
 *     - It allows us to parallelize the initial data synchronization
 *       which lowers the time needed for it to happen.
 *     - The initial synchronization does not have to hold the xid and LSN
 *       for the time it takes to copy data of all tables, causing less
 *       bloat and lower disk consumption compared to doing the
 *       synchronization in a single process for the whole database.
 *     - It allows us to synchronize any tables added after the initial
 *       synchronization has finished.
 *
 *    The stream position synchronization works in multiple steps:
 *     - Apply worker requests a tablesync worker to start, setting the new
 *       table state to INIT.
 *     - Tablesync worker starts; changes table state from INIT to DATASYNC while
 *       copying.
 *     - Tablesync worker does initial table copy; there is a FINISHEDCOPY (sync
 *       worker specific) state to indicate when the copy phase has completed, so
 *       if the worker crashes with this (non-memory) state then the copy will not
 *       be re-attempted.
 *     - Tablesync worker then sets table state to SYNCWAIT; waits for state change.
 *     - Apply worker periodically checks for tables in SYNCWAIT state.  When
 *       any appear, it sets the table state to CATCHUP and starts loop-waiting
 *       until either the table state is set to SYNCDONE or the sync worker
 *       exits.
 *     - After the sync worker has seen the state change to CATCHUP, it will
 *       read the stream and apply changes (acting like an apply worker) until
 *       it catches up to the specified stream position.  Then it sets the
 *       state to SYNCDONE.  There might be zero changes applied between
 *       CATCHUP and SYNCDONE, because the sync worker might be ahead of the
 *       apply worker.
 *     - Once the state is set to SYNCDONE, the apply will continue tracking
 *       the table until it reaches the SYNCDONE stream position, at which
 *       point it sets state to READY and stops tracking.  Again, there might
 *       be zero changes in between.
 *
 *    So the state progression is always: INIT -> DATASYNC -> FINISHEDCOPY
 *    -> SYNCWAIT -> CATCHUP -> SYNCDONE -> READY.
 *
 *    The catalog pg_subscription_rel is used to keep information about
 *    subscribed tables and their state.  The catalog holds all states
 *    except SYNCWAIT and CATCHUP which are only in shared memory.
 *
 *    Example flows look like this:
 *     - Apply is in front:
 *        sync:8
 *          -> set in catalog FINISHEDCOPY
 *          -> set in memory SYNCWAIT
 *        apply:10
 *          -> set in memory CATCHUP
 *          -> enter wait-loop
 *        sync:10
 *          -> set in catalog SYNCDONE
 *          -> exit
 *        apply:10
 *          -> exit wait-loop
 *          -> continue rep
 *        apply:11
 *          -> set in catalog READY
 *
 *     - Sync is in front:
 *        sync:10
 *          -> set in catalog FINISHEDCOPY
 *          -> set in memory SYNCWAIT
 *        apply:8
 *          -> set in memory CATCHUP
 *          -> continue per-table filtering
 *        sync:10
 *          -> set in catalog SYNCDONE
 *          -> exit
 *        apply:10
 *          -> set in catalog READY
 *          -> stop per-table filtering
 *          -> continue rep
 *-------------------------------------------------------------------------
 */
 
#include "postgres.h"
 
#include "access/table.h"
#include "access/xact.h"
#include "catalog/indexing.h"
#include "catalog/pg_subscription_rel.h"
#include "catalog/pg_type.h"
#include "commands/copy.h"
#include "miscadmin.h"
#include "parser/parse_relation.h"
#include "pgstat.h"
#include "replication/logicallauncher.h"
#include "replication/logicalrelation.h"
#include "replication/walreceiver.h"
#include "replication/worker_internal.h"
#include "replication/slot.h"
#include "replication/origin.h"
#include "storage/ipc.h"
#include "storage/lmgr.h"
#include "utils/acl.h"
#include "utils/array.h"
#include "utils/builtins.h"
#include "utils/lsyscache.h"
#include "utils/memutils.h"
#include "utils/rls.h"
#include "utils/snapmgr.h"
#include "utils/syscache.h"
 
static bool table_states_valid = false;
static List *table_states_not_ready = NIL;
static bool FetchTableStates(bool *started_tx);
 
static StringInfo copybuf = NULL;
 
/*
 * Exit routine for synchronization worker.
 */
static void
pg_attribute_noreturn()
finish_sync_worker(void)
{
    /*
     * Commit any outstanding transaction. This is the usual case, unless
     * there was nothing to do for the table.
     */
    if (IsTransactionState())
    {
        CommitTransactionCommand();
        pgstat_report_stat(true);
    }
 
    /* And flush all writes. */
    XLogFlush(GetXLogWriteRecPtr());
 
    StartTransactionCommand();
    ereport(LOG,
            (errmsg("logical replication table synchronization worker for subscription \"%s\", table \"%s\" has finished",
                    MySubscription->name,
                    get_rel_name(MyLogicalRepWorker->relid))));
    CommitTransactionCommand();
 
    /* Find the main apply worker and signal it. */
    logicalrep_worker_wakeup(MyLogicalRepWorker->subid, InvalidOid);
 
    /* Stop gracefully */
    proc_exit(0);
}
 
/*
 * Wait until the relation sync state is set in the catalog to the expected
 * one; return true when it happens.
 *
 * Returns false if the table sync worker or the table itself have
 * disappeared, or the table state has been reset.
 *
 * Currently, this is used in the apply worker when transitioning from
 * CATCHUP state to SYNCDONE.
 */
static bool
wait_for_relation_state_change(Oid relid, char expected_state)
{
    char        state;
 
    for (;;)
    {
        LogicalRepWorker *worker;
        XLogRecPtr  statelsn;
 
        CHECK_FOR_INTERRUPTS();
 
        InvalidateCatalogSnapshot();
        state = GetSubscriptionRelState(MyLogicalRepWorker->subid,
                                        relid, &statelsn);
 
        if (state == SUBREL_STATE_UNKNOWN)
            break;
 
        if (state == expected_state)
            return true;
 
        /* Check if the sync worker is still running and bail if not. */
        LWLockAcquire(LogicalRepWorkerLock, LW_SHARED);
        worker = logicalrep_worker_find(MyLogicalRepWorker->subid, relid,
                                        false);
        LWLockRelease(LogicalRepWorkerLock);
        if (!worker)
            break;
 
        (void) WaitLatch(MyLatch,
                         WL_LATCH_SET | WL_TIMEOUT | WL_EXIT_ON_PM_DEATH,
                         1000L, WAIT_EVENT_LOGICAL_SYNC_STATE_CHANGE);
 
        ResetLatch(MyLatch);
    }
 
    return false;
}
 
/*
 * Wait until the apply worker changes the state of our synchronization
 * worker to the expected one.
 *
 * Used when transitioning from SYNCWAIT state to CATCHUP.
 *
 * Returns false if the apply worker has disappeared.
 */
static bool
wait_for_worker_state_change(char expected_state)
{
    int         rc;
 
    for (;;)
    {
        LogicalRepWorker *worker;
 
        CHECK_FOR_INTERRUPTS();
 
        /*
         * Done if already in correct state.  (We assume this fetch is atomic
         * enough to not give a misleading answer if we do it with no lock.)
         */
        if (MyLogicalRepWorker->relstate == expected_state)
            return true;
 
        /*
         * Bail out if the apply worker has died, else signal it we're
         * waiting.
         */
        LWLockAcquire(LogicalRepWorkerLock, LW_SHARED);
        worker = logicalrep_worker_find(MyLogicalRepWorker->subid,
                                        InvalidOid, false);
        if (worker && worker->proc)
            logicalrep_worker_wakeup_ptr(worker);
        LWLockRelease(LogicalRepWorkerLock);
        if (!worker)
            break;
 
        /*
         * Wait.  We expect to get a latch signal back from the apply worker,
         * but use a timeout in case it dies without sending one.
         */
        rc = WaitLatch(MyLatch,
                       WL_LATCH_SET | WL_TIMEOUT | WL_EXIT_ON_PM_DEATH,
                       1000L, WAIT_EVENT_LOGICAL_SYNC_STATE_CHANGE);
 
        if (rc & WL_LATCH_SET)
            ResetLatch(MyLatch);
    }
 
    return false;
}
 
/*
 * Callback from syscache invalidation.
 */
void
invalidate_syncing_table_states(Datum arg, int cacheid, uint32 hashvalue)
{
    table_states_valid = false;
}
 
/*
 * Handle table synchronization cooperation from the synchronization
 * worker.
 *
 * If the sync worker is in CATCHUP state and reached (or passed) the
 * predetermined synchronization point in the WAL stream, mark the table as
 * SYNCDONE and finish.
 */
static void
process_syncing_tables_for_sync(XLogRecPtr current_lsn)
{
    SpinLockAcquire(&MyLogicalRepWorker->relmutex);
 
    if (MyLogicalRepWorker->relstate == SUBREL_STATE_CATCHUP &&
        current_lsn >= MyLogicalRepWorker->relstate_lsn)
    {
        TimeLineID  tli;
        char        syncslotname[NAMEDATALEN] = {0};
        char        originname[NAMEDATALEN] = {0};
 
        MyLogicalRepWorker->relstate = SUBREL_STATE_SYNCDONE;
        MyLogicalRepWorker->relstate_lsn = current_lsn;
 
        SpinLockRelease(&MyLogicalRepWorker->relmutex);
 
        /*
         * UpdateSubscriptionRelState must be called within a transaction.
         */
        if (!IsTransactionState())
            StartTransactionCommand();
 
        UpdateSubscriptionRelState(MyLogicalRepWorker->subid,
                                   MyLogicalRepWorker->relid,
                                   MyLogicalRepWorker->relstate,
                                   MyLogicalRepWorker->relstate_lsn);
 
        /*
         * End streaming so that LogRepWorkerWalRcvConn can be used to drop
         * the slot.
         */
        walrcv_endstreaming(LogRepWorkerWalRcvConn, &tli);
 
        /*
         * Cleanup the tablesync slot.
         *
         * This has to be done after updating the state because otherwise if
         * there is an error while doing the database operations we won't be
         * able to rollback dropped slot.
         */
        ReplicationSlotNameForTablesync(MyLogicalRepWorker->subid,
                                        MyLogicalRepWorker->relid,
                                        syncslotname,
                                        sizeof(syncslotname));
 
        /*
         * It is important to give an error if we are unable to drop the slot,
         * otherwise, it won't be dropped till the corresponding subscription
         * is dropped. So passing missing_ok = false.
         */
        ReplicationSlotDropAtPubNode(LogRepWorkerWalRcvConn, syncslotname, false);
 
        CommitTransactionCommand();
        pgstat_report_stat(false);
 
        /*
         * Start a new transaction to clean up the tablesync origin tracking.
         * This transaction will be ended within the finish_sync_worker().
         * Now, even, if we fail to remove this here, the apply worker will
         * ensure to clean it up afterward.
         *
         * We need to do this after the table state is set to SYNCDONE.
         * Otherwise, if an error occurs while performing the database
         * operation, the worker will be restarted and the in-memory state of
         * replication progress (remote_lsn) won't be rolled-back which would
         * have been cleared before restart. So, the restarted worker will use
         * invalid replication progress state resulting in replay of
         * transactions that have already been applied.
         */
        StartTransactionCommand();
 
        ReplicationOriginNameForLogicalRep(MyLogicalRepWorker->subid,
                                           MyLogicalRepWorker->relid,
                                           originname,
                                           sizeof(originname));
 
        /*
         * Resetting the origin session removes the ownership of the slot.
         * This is needed to allow the origin to be dropped.
         */
        replorigin_session_reset();
        replorigin_session_origin = InvalidRepOriginId;
        replorigin_session_origin_lsn = InvalidXLogRecPtr;
        replorigin_session_origin_timestamp = 0;
 
        /*
         * Drop the tablesync's origin tracking if exists.
         *
         * There is a chance that the user is concurrently performing refresh
         * for the subscription where we remove the table state and its origin
         * or the apply worker would have removed this origin. So passing
         * missing_ok = true.
         */
        replorigin_drop_by_name(originname, true, false);
 
        finish_sync_worker();
    }
    else
        SpinLockRelease(&MyLogicalRepWorker->relmutex);
}
 
/*
 * Handle table synchronization cooperation from the apply worker.
 *
 * Walk over all subscription tables that are individually tracked by the
 * apply process (currently, all that have state other than
 * SUBREL_STATE_READY) and manage synchronization for them.
 *
 * If there are tables that need synchronizing and are not being synchronized
 * yet, start sync workers for them (if there are free slots for sync
 * workers).  To prevent starting the sync worker for the same relation at a
 * high frequency after a failure, we store its last start time with each sync
 * state info.  We start the sync worker for the same relation after waiting
 * at least wal_retrieve_retry_interval.
 *
 * For tables that are being synchronized already, check if sync workers
 * either need action from the apply worker or have finished.  This is the
 * SYNCWAIT to CATCHUP transition.
 *
 * If the synchronization position is reached (SYNCDONE), then the table can
 * be marked as READY and is no longer tracked.
 */
static void
process_syncing_tables_for_apply(XLogRecPtr current_lsn)
{
    struct tablesync_start_time_mapping
    {
        Oid         relid;
        TimestampTz last_start_time;
    };
    static HTAB *last_start_times = NULL;
    ListCell   *lc;
    bool        started_tx = false;
 
    Assert(!IsTransactionState());
 
    /* We need up-to-date sync state info for subscription tables here. */
    FetchTableStates(&started_tx);
 
    /*
     * Prepare a hash table for tracking last start times of workers, to avoid
     * immediate restarts.  We don't need it if there are no tables that need
     * syncing.
     */
    if (table_states_not_ready != NIL && !last_start_times)
    {
        HASHCTL     ctl;
 
        ctl.keysize = sizeof(Oid);
        ctl.entrysize = sizeof(struct tablesync_start_time_mapping);
        last_start_times = hash_create("Logical replication table sync worker start times",
                                       256, &ctl, HASH_ELEM | HASH_BLOBS);
    }
 
    /*
     * Clean up the hash table when we're done with all tables (just to
     * release the bit of memory).
     */
    else if (table_states_not_ready == NIL && last_start_times)
    {
        hash_destroy(last_start_times);
        last_start_times = NULL;
    }
 
    /*
     * Even when the two_phase mode is requested by the user, it remains as
     * 'pending' until all tablesyncs have reached READY state.
     *
     * When this happens, we restart the apply worker and (if the conditions
     * are still ok) then the two_phase tri-state will become 'enabled' at
     * that time.
     *
     * Note: If the subscription has no tables then leave the state as
     * PENDING, which allows ALTER SUBSCRIPTION ... REFRESH PUBLICATION to
     * work.
     */
    if (MySubscription->twophasestate == LOGICALREP_TWOPHASE_STATE_PENDING &&
        AllTablesyncsReady())
    {
        ereport(LOG,
                (errmsg("logical replication apply worker for subscription \"%s\" will restart so that two_phase can be enabled",
                        MySubscription->name)));
 
        proc_exit(0);
    }
 
    /*
     * Process all tables that are being synchronized.
     */
    foreach(lc, table_states_not_ready)
    {
        SubscriptionRelState *rstate = (SubscriptionRelState *) lfirst(lc);
 
        if (rstate->state == SUBREL_STATE_SYNCDONE)
        {
            /*
             * Apply has caught up to the position where the table sync has
             * finished.  Mark the table as ready so that the apply will just
             * continue to replicate it normally.
             */
            if (current_lsn >= rstate->lsn)
            {
                char        originname[NAMEDATALEN];
 
                rstate->state = SUBREL_STATE_READY;
                rstate->lsn = current_lsn;
                if (!started_tx)
                {
                    StartTransactionCommand();
                    started_tx = true;
                }
 
                /*
                 * Remove the tablesync origin tracking if exists.
                 *
                 * There is a chance that the user is concurrently performing
                 * refresh for the subscription where we remove the table
                 * state and its origin or the tablesync worker would have
                 * already removed this origin. We can't rely on tablesync
                 * worker to remove the origin tracking as if there is any
                 * error while dropping we won't restart it to drop the
                 * origin. So passing missing_ok = true.
                 */
                ReplicationOriginNameForLogicalRep(MyLogicalRepWorker->subid,
                                                   rstate->relid,
                                                   originname,
                                                   sizeof(originname));
                replorigin_drop_by_name(originname, true, false);
 
                /*
                 * Update the state to READY only after the origin cleanup.
                 */
                UpdateSubscriptionRelState(MyLogicalRepWorker->subid,
                                           rstate->relid, rstate->state,
                                           rstate->lsn);
            }
        }
        else
        {
            LogicalRepWorker *syncworker;
 
            /*
             * Look for a sync worker for this relation.
             */
            LWLockAcquire(LogicalRepWorkerLock, LW_SHARED);
 
            syncworker = logicalrep_worker_find(MyLogicalRepWorker->subid,
                                                rstate->relid, false);
 
            if (syncworker)
            {
                /* Found one, update our copy of its state */
                SpinLockAcquire(&syncworker->relmutex);
                rstate->state = syncworker->relstate;
                rstate->lsn = syncworker->relstate_lsn;
                if (rstate->state == SUBREL_STATE_SYNCWAIT)
                {
                    /*
                     * Sync worker is waiting for apply.  Tell sync worker it
                     * can catchup now.
                     */
                    syncworker->relstate = SUBREL_STATE_CATCHUP;
                    syncworker->relstate_lsn =
                        Max(syncworker->relstate_lsn, current_lsn);
                }
                SpinLockRelease(&syncworker->relmutex);
 
                /* If we told worker to catch up, wait for it. */
                if (rstate->state == SUBREL_STATE_SYNCWAIT)
                {
                    /* Signal the sync worker, as it may be waiting for us. */
                    if (syncworker->proc)
                        logicalrep_worker_wakeup_ptr(syncworker);
 
                    /* Now safe to release the LWLock */
                    LWLockRelease(LogicalRepWorkerLock);
 
                    /*
                     * Enter busy loop and wait for synchronization worker to
                     * reach expected state (or die trying).
                     */
                    if (!started_tx)
                    {
                        StartTransactionCommand();
                        started_tx = true;
                    }
 
                    wait_for_relation_state_change(rstate->relid,
                                                   SUBREL_STATE_SYNCDONE);
                }
                else
                    LWLockRelease(LogicalRepWorkerLock);
            }
            else
            {
                /*
                 * If there is no sync worker for this table yet, count
                 * running sync workers for this subscription, while we have
                 * the lock.
                 */
                int         nsyncworkers =
                logicalrep_sync_worker_count(MyLogicalRepWorker->subid);
 
                /* Now safe to release the LWLock */
                LWLockRelease(LogicalRepWorkerLock);
 
                /*
                 * If there are free sync worker slot(s), start a new sync
                 * worker for the table.
                 */
                if (nsyncworkers < max_sync_workers_per_subscription)
                {
                    TimestampTz now = GetCurrentTimestamp();
                    struct tablesync_start_time_mapping *hentry;
                    bool        found;
 
                    hentry = hash_search(last_start_times, &rstate->relid,
                                         HASH_ENTER, &found);
 
                    if (!found ||
                        TimestampDifferenceExceeds(hentry->last_start_time, now,
                                                   wal_retrieve_retry_interval))
                    {
                        logicalrep_worker_launch(MyLogicalRepWorker->dbid,
                                                 MySubscription->oid,
                                                 MySubscription->name,
                                                 MyLogicalRepWorker->userid,
                                                 rstate->relid);
                        hentry->last_start_time = now;
                    }
                }
            }
        }
    }
 
    if (started_tx)
    {
        CommitTransactionCommand();
        pgstat_report_stat(true);
    }
}
 
/*
 * Process possible state change(s) of tables that are being synchronized.
 */
void
process_syncing_tables(XLogRecPtr current_lsn)
{
    if (am_tablesync_worker())
        process_syncing_tables_for_sync(current_lsn);
    else
        process_syncing_tables_for_apply(current_lsn);
}
 
/*
 * Create list of columns for COPY based on logical relation mapping.
 */
static List *
make_copy_attnamelist(LogicalRepRelMapEntry *rel)
{
    List       *attnamelist = NIL;
    int         i;
 
    for (i = 0; i < rel->remoterel.natts; i++)
    {
        attnamelist = lappend(attnamelist,
                              makeString(rel->remoterel.attnames[i]));
    }
 
 
    return attnamelist;
}
 
/*
 * Data source callback for the COPY FROM, which reads from the remote
 * connection and passes the data back to our local COPY.
 */
static int
copy_read_data(void *outbuf, int minread, int maxread)
{
    int         bytesread = 0;
    int         avail;
 
    /* If there are some leftover data from previous read, use it. */
    avail = copybuf->len - copybuf->cursor;
    if (avail)
    {
        if (avail > maxread)
            avail = maxread;
        memcpy(outbuf, &copybuf->data[copybuf->cursor], avail);
        copybuf->cursor += avail;
        maxread -= avail;
        bytesread += avail;
    }
 
    while (maxread > 0 && bytesread < minread)
    {
        pgsocket    fd = PGINVALID_SOCKET;
        int         len;
        char       *buf = NULL;
 
        for (;;)
        {
            /* Try read the data. */
            len = walrcv_receive(LogRepWorkerWalRcvConn, &buf, &fd);
 
            CHECK_FOR_INTERRUPTS();
 
            if (len == 0)
                break;
            else if (len < 0)
                return bytesread;
            else
            {
                /* Process the data */
                copybuf->data = buf;
                copybuf->len = len;
                copybuf->cursor = 0;
 
                avail = copybuf->len - copybuf->cursor;
                if (avail > maxread)
                    avail = maxread;
                memcpy(outbuf, &copybuf->data[copybuf->cursor], avail);
                outbuf = (void *) ((char *) outbuf + avail);
                copybuf->cursor += avail;
                maxread -= avail;
                bytesread += avail;
            }
 
            if (maxread <= 0 || bytesread >= minread)
                return bytesread;
        }
 
        /*
         * Wait for more data or latch.
         */
        (void) WaitLatchOrSocket(MyLatch,
                                 WL_SOCKET_READABLE | WL_LATCH_SET |
                                 WL_TIMEOUT | WL_EXIT_ON_PM_DEATH,
                                 fd, 1000L, WAIT_EVENT_LOGICAL_SYNC_DATA);
 
        ResetLatch(MyLatch);
    }
 
    return bytesread;
}
 
 
/*
 * Get information about remote relation in similar fashion the RELATION
 * message provides during replication. This function also returns the relation
 * qualifications to be used in the COPY command.
 */
static void
fetch_remote_table_info(char *nspname, char *relname,
                        LogicalRepRelation *lrel, List **qual)
{
    WalRcvExecResult *res;
    StringInfoData cmd;
    TupleTableSlot *slot;
    Oid         tableRow[] = {OIDOID, CHAROID, CHAROID};
    Oid         attrRow[] = {INT2OID, TEXTOID, OIDOID, BOOLOID};
    Oid         qualRow[] = {TEXTOID};
    bool        isnull;
    int         natt;
    ListCell   *lc;
    Bitmapset  *included_cols = NULL;
 
    lrel->nspname = nspname;
    lrel->relname = relname;
 
    /* First fetch Oid and replica identity. */
    initStringInfo(&cmd);
    appendStringInfo(&cmd, "SELECT c.oid, c.relreplident, c.relkind"
                     "  FROM pg_catalog.pg_class c"
                     "  INNER JOIN pg_catalog.pg_namespace n"
                     "        ON (c.relnamespace = n.oid)"
                     " WHERE n.nspname = %s"
                     "   AND c.relname = %s",
                     quote_literal_cstr(nspname),
                     quote_literal_cstr(relname));
    res = walrcv_exec(LogRepWorkerWalRcvConn, cmd.data,
                      lengthof(tableRow), tableRow);
 
    if (res->status != WALRCV_OK_TUPLES)
        ereport(ERROR,
                (errcode(ERRCODE_CONNECTION_FAILURE),
                 errmsg("could not fetch table info for table \"%s.%s\" from publisher: %s",
                        nspname, relname, res->err)));
 
    slot = MakeSingleTupleTableSlot(res->tupledesc, &TTSOpsMinimalTuple);
    if (!tuplestore_gettupleslot(res->tuplestore, true, false, slot))
        ereport(ERROR,
                (errcode(ERRCODE_UNDEFINED_OBJECT),
                 errmsg("table \"%s.%s\" not found on publisher",
                        nspname, relname)));
 
    lrel->remoteid = DatumGetObjectId(slot_getattr(slot, 1, &isnull));
    Assert(!isnull);
    lrel->replident = DatumGetChar(slot_getattr(slot, 2, &isnull));
    Assert(!isnull);
    lrel->relkind = DatumGetChar(slot_getattr(slot, 3, &isnull));
    Assert(!isnull);
 
    ExecDropSingleTupleTableSlot(slot);
    walrcv_clear_result(res);
 
 
    /*
     * Get column lists for each relation.
     *
     * We need to do this before fetching info about column names and types,
     * so that we can skip columns that should not be replicated.
     */
    if (walrcv_server_version(LogRepWorkerWalRcvConn) >= 150000)
    {
        WalRcvExecResult *pubres;
        TupleTableSlot *tslot;
        Oid         attrsRow[] = {INT2VECTOROID};
        StringInfoData pub_names;
        initStringInfo(&pub_names);
        foreach(lc, MySubscription->publications)
        {
            if (foreach_current_index(lc) > 0)
                appendStringInfoString(&pub_names, ", ");
            appendStringInfoString(&pub_names, quote_literal_cstr(strVal(lfirst(lc))));
        }
 
        /*
         * Fetch info about column lists for the relation (from all the
         * publications).
         */
        resetStringInfo(&cmd);
        appendStringInfo(&cmd,
                         "SELECT DISTINCT"
                         "  (CASE WHEN (array_length(gpt.attrs, 1) = c.relnatts)"
                         "   THEN NULL ELSE gpt.attrs END)"
                         "  FROM pg_publication p,"
                         "  LATERAL pg_get_publication_tables(p.pubname) gpt,"
                         "  pg_class c"
                         " WHERE gpt.relid = %u AND c.oid = gpt.relid"
                         "   AND p.pubname IN ( %s )",
                         lrel->remoteid,
                         pub_names.data);
 
        pubres = walrcv_exec(LogRepWorkerWalRcvConn, cmd.data,
                             lengthof(attrsRow), attrsRow);
 
        if (pubres->status != WALRCV_OK_TUPLES)
            ereport(ERROR,
                    (errcode(ERRCODE_CONNECTION_FAILURE),
                     errmsg("could not fetch column list info for table \"%s.%s\" from publisher: %s",
                            nspname, relname, pubres->err)));
 
        /*
         * We don't support the case where the column list is different for
         * the same table when combining publications. See comments atop
         * fetch_table_list. So there should be only one row returned.
         * Although we already checked this when creating the subscription, we
         * still need to check here in case the column list was changed after
         * creating the subscription and before the sync worker is started.
         */
        if (tuplestore_tuple_count(pubres->tuplestore) > 1)
            ereport(ERROR,
                    errcode(ERRCODE_FEATURE_NOT_SUPPORTED),
                    errmsg("cannot use different column lists for table \"%s.%s\" in different publications",
                           nspname, relname));
 
        /*
         * Get the column list and build a single bitmap with the attnums.
         *
         * If we find a NULL value, it means all the columns should be
         * replicated.
         */
        tslot = MakeSingleTupleTableSlot(pubres->tupledesc, &TTSOpsMinimalTuple);
        if (tuplestore_gettupleslot(pubres->tuplestore, true, false, tslot))
        {
            Datum       cfval = slot_getattr(tslot, 1, &isnull);
 
            if (!isnull)
            {
                ArrayType  *arr;
                int         nelems;
                int16      *elems;
 
                arr = DatumGetArrayTypeP(cfval);
                nelems = ARR_DIMS(arr)[0];
                elems = (int16 *) ARR_DATA_PTR(arr);
 
                for (natt = 0; natt < nelems; natt++)
                    included_cols = bms_add_member(included_cols, elems[natt]);
            }
 
            ExecClearTuple(tslot);
        }
        ExecDropSingleTupleTableSlot(tslot);
 
        walrcv_clear_result(pubres);
 
        pfree(pub_names.data);
    }
 
    /*
     * Now fetch column names and types.
     */
    resetStringInfo(&cmd);
    appendStringInfo(&cmd,
                     "SELECT a.attnum,"
                     "       a.attname,"
                     "       a.atttypid,"
                     "       a.attnum = ANY(i.indkey)"
                     "  FROM pg_catalog.pg_attribute a"
                     "  LEFT JOIN pg_catalog.pg_index i"
                     "       ON (i.indexrelid = pg_get_replica_identity_index(%u))"
                     " WHERE a.attnum > 0::pg_catalog.int2"
                     "   AND NOT a.attisdropped %s"
                     "   AND a.attrelid = %u"
                     " ORDER BY a.attnum",
                     lrel->remoteid,
                     (walrcv_server_version(LogRepWorkerWalRcvConn) >= 120000 ?
                      "AND a.attgenerated = ''" : ""),
                     lrel->remoteid);
    res = walrcv_exec(LogRepWorkerWalRcvConn, cmd.data,
                      lengthof(attrRow), attrRow);
 
    if (res->status != WALRCV_OK_TUPLES)
        ereport(ERROR,
                (errcode(ERRCODE_CONNECTION_FAILURE),
                 errmsg("could not fetch table info for table \"%s.%s\" from publisher: %s",
                        nspname, relname, res->err)));
 
    /* We don't know the number of rows coming, so allocate enough space. */
    lrel->attnames = palloc0(MaxTupleAttributeNumber * sizeof(char *));
    lrel->atttyps = palloc0(MaxTupleAttributeNumber * sizeof(Oid));
    lrel->attkeys = NULL;
 
    /*
     * Store the columns as a list of names.  Ignore those that are not
     * present in the column list, if there is one.
     */
    natt = 0;
    slot = MakeSingleTupleTableSlot(res->tupledesc, &TTSOpsMinimalTuple);
    while (tuplestore_gettupleslot(res->tuplestore, true, false, slot))
    {
        char       *rel_colname;
        AttrNumber  attnum;
 
        attnum = DatumGetInt16(slot_getattr(slot, 1, &isnull));
        Assert(!isnull);
 
        /* If the column is not in the column list, skip it. */
        if (included_cols != NULL && !bms_is_member(attnum, included_cols))
        {
            ExecClearTuple(slot);
            continue;
        }
 
        rel_colname = TextDatumGetCString(slot_getattr(slot, 2, &isnull));
        Assert(!isnull);
 
        lrel->attnames[natt] = rel_colname;
        lrel->atttyps[natt] = DatumGetObjectId(slot_getattr(slot, 3, &isnull));
        Assert(!isnull);
 
        if (DatumGetBool(slot_getattr(slot, 4, &isnull)))
            lrel->attkeys = bms_add_member(lrel->attkeys, natt);
 
        /* Should never happen. */
        if (++natt >= MaxTupleAttributeNumber)
            elog(ERROR, "too many columns in remote table \"%s.%s\"",
                 nspname, relname);
 
        ExecClearTuple(slot);
    }
    ExecDropSingleTupleTableSlot(slot);
 
    lrel->natts = natt;
 
    walrcv_clear_result(res);
 
    /*
     * Get relation's row filter expressions. DISTINCT avoids the same
     * expression of a table in multiple publications from being included
     * multiple times in the final expression.
     *
     * We need to copy the row even if it matches just one of the
     * publications, so we later combine all the quals with OR.
     *
     * For initial synchronization, row filtering can be ignored in following
     * cases:
     *
     * 1) one of the subscribed publications for the table hasn't specified
     * any row filter
     *
     * 2) one of the subscribed publications has puballtables set to true
     *
     * 3) one of the subscribed publications is declared as TABLES IN SCHEMA
     * that includes this relation
     */
    if (walrcv_server_version(LogRepWorkerWalRcvConn) >= 150000)
    {
        StringInfoData pub_names;
 
        /* Build the pubname list. */
        initStringInfo(&pub_names);
        foreach(lc, MySubscription->publications)
        {
            char       *pubname = strVal(lfirst(lc));
 
            if (foreach_current_index(lc) > 0)
                appendStringInfoString(&pub_names, ", ");
 
            appendStringInfoString(&pub_names, quote_literal_cstr(pubname));
        }
 
        /* Check for row filters. */
        resetStringInfo(&cmd);
        appendStringInfo(&cmd,
                         "SELECT DISTINCT pg_get_expr(gpt.qual, gpt.relid)"
                         "  FROM pg_publication p,"
                         "  LATERAL pg_get_publication_tables(p.pubname) gpt"
                         " WHERE gpt.relid = %u"
                         "   AND p.pubname IN ( %s )",
                         lrel->remoteid,
                         pub_names.data);
 
        res = walrcv_exec(LogRepWorkerWalRcvConn, cmd.data, 1, qualRow);
 
        if (res->status != WALRCV_OK_TUPLES)
            ereport(ERROR,
                    (errmsg("could not fetch table WHERE clause info for table \"%s.%s\" from publisher: %s",
                            nspname, relname, res->err)));
 
        /*
         * Multiple row filter expressions for the same table will be combined
         * by COPY using OR. If any of the filter expressions for this table
         * are null, it means the whole table will be copied. In this case it
         * is not necessary to construct a unified row filter expression at
         * all.
         */
        slot = MakeSingleTupleTableSlot(res->tupledesc, &TTSOpsMinimalTuple);
        while (tuplestore_gettupleslot(res->tuplestore, true, false, slot))
        {
            Datum       rf = slot_getattr(slot, 1, &isnull);
 
            if (!isnull)
                *qual = lappend(*qual, makeString(TextDatumGetCString(rf)));
            else
            {
                /* Ignore filters and cleanup as necessary. */
                if (*qual)
                {
                    list_free_deep(*qual);
                    *qual = NIL;
                }
                break;
            }
 
            ExecClearTuple(slot);
        }
        ExecDropSingleTupleTableSlot(slot);
 
        walrcv_clear_result(res);
    }
 
    pfree(cmd.data);
}
 
/*
 * Copy existing data of a table from publisher.
 *
 * Caller is responsible for locking the local relation.
 */
static void
copy_table(Relation rel)
{
    LogicalRepRelMapEntry *relmapentry;
    LogicalRepRelation lrel;
    List       *qual = NIL;
    WalRcvExecResult *res;
    StringInfoData cmd;
    CopyFromState cstate;
    List       *attnamelist;
    ParseState *pstate;
 
    /* Get the publisher relation info. */
    fetch_remote_table_info(get_namespace_name(RelationGetNamespace(rel)),
                            RelationGetRelationName(rel), &lrel, &qual);
 
    /* Put the relation into relmap. */
    logicalrep_relmap_update(&lrel);
 
    /* Map the publisher relation to local one. */
    relmapentry = logicalrep_rel_open(lrel.remoteid, NoLock);
    Assert(rel == relmapentry->localrel);
 
    /* Start copy on the publisher. */
    initStringInfo(&cmd);
 
    /* Regular table with no row filter */
    if (lrel.relkind == RELKIND_RELATION && qual == NIL)
    {
        appendStringInfo(&cmd, "COPY %s (",
                         quote_qualified_identifier(lrel.nspname, lrel.relname));
 
        /*
         * XXX Do we need to list the columns in all cases? Maybe we're
         * replicating all columns?
         */
        for (int i = 0; i < lrel.natts; i++)
        {
            if (i > 0)
                appendStringInfoString(&cmd, ", ");
 
            appendStringInfoString(&cmd, quote_identifier(lrel.attnames[i]));
        }
 
        appendStringInfoString(&cmd, ") TO STDOUT");
    }
    else
    {
        /*
         * For non-tables and tables with row filters, we need to do COPY
         * (SELECT ...), but we can't just do SELECT * because we need to not
         * copy generated columns. For tables with any row filters, build a
         * SELECT query with OR'ed row filters for COPY.
         */
        appendStringInfoString(&cmd, "COPY (SELECT ");
        for (int i = 0; i < lrel.natts; i++)
        {
            appendStringInfoString(&cmd, quote_identifier(lrel.attnames[i]));
            if (i < lrel.natts - 1)
                appendStringInfoString(&cmd, ", ");
        }
 
        appendStringInfoString(&cmd, " FROM ");
 
        /*
         * For regular tables, make sure we don't copy data from a child that
         * inherits the named table as those will be copied separately.
         */
        if (lrel.relkind == RELKIND_RELATION)
            appendStringInfoString(&cmd, "ONLY ");
 
        appendStringInfoString(&cmd, quote_qualified_identifier(lrel.nspname, lrel.relname));
        /* list of OR'ed filters */
        if (qual != NIL)
        {
            ListCell   *lc;
            char       *q = strVal(linitial(qual));
 
            appendStringInfo(&cmd, " WHERE %s", q);
            for_each_from(lc, qual, 1)
            {
                q = strVal(lfirst(lc));
                appendStringInfo(&cmd, " OR %s", q);
            }
            list_free_deep(qual);
        }
 
        appendStringInfoString(&cmd, ") TO STDOUT");
    }
    res = walrcv_exec(LogRepWorkerWalRcvConn, cmd.data, 0, NULL);
    pfree(cmd.data);
    if (res->status != WALRCV_OK_COPY_OUT)
        ereport(ERROR,
                (errcode(ERRCODE_CONNECTION_FAILURE),
                 errmsg("could not start initial contents copy for table \"%s.%s\": %s",
                        lrel.nspname, lrel.relname, res->err)));
    walrcv_clear_result(res);
 
    copybuf = makeStringInfo();
 
    pstate = make_parsestate(NULL);
    (void) addRangeTableEntryForRelation(pstate, rel, AccessShareLock,
                                         NULL, false, false);
 
    attnamelist = make_copy_attnamelist(relmapentry);
    cstate = BeginCopyFrom(pstate, rel, NULL, NULL, false, copy_read_data, attnamelist, NIL);
 
    /* Do the copy */
    (void) CopyFrom(cstate);
 
    logicalrep_rel_close(relmapentry, NoLock);
}
 
/*
 * Determine the tablesync slot name.
 *
 * The name must not exceed NAMEDATALEN - 1 because of remote node constraints
 * on slot name length. We append system_identifier to avoid slot_name
 * collision with subscriptions in other clusters. With the current scheme
 * pg_%u_sync_%u_UINT64_FORMAT (3 + 10 + 6 + 10 + 20 + '\0'), the maximum
 * length of slot_name will be 50.
 *
 * The returned slot name is stored in the supplied buffer (syncslotname) with
 * the given size.
 *
 * Note: We don't use the subscription slot name as part of tablesync slot name
 * because we are responsible for cleaning up these slots and it could become
 * impossible to recalculate what name to cleanup if the subscription slot name
 * had changed.
 */
void
ReplicationSlotNameForTablesync(Oid suboid, Oid relid,
                                char *syncslotname, Size szslot)
{
    snprintf(syncslotname, szslot, "pg_%u_sync_%u_" UINT64_FORMAT, suboid,
             relid, GetSystemIdentifier());
}
 
/*
 * Start syncing the table in the sync worker.
 *
 * If nothing needs to be done to sync the table, we exit the worker without
 * any further action.
 *
 * The returned slot name is palloc'ed in current memory context.
 */
char *
LogicalRepSyncTableStart(XLogRecPtr *origin_startpos)
{
    char       *slotname;
    char       *err;
    char        relstate;
    XLogRecPtr  relstate_lsn;
    Relation    rel;
    AclResult   aclresult;
    WalRcvExecResult *res;
    char        originname[NAMEDATALEN];
    RepOriginId originid;
 
    /* Check the state of the table synchronization. */
    StartTransactionCommand();
    relstate = GetSubscriptionRelState(MyLogicalRepWorker->subid,
                                       MyLogicalRepWorker->relid,
                                       &relstate_lsn);
    CommitTransactionCommand();
 
    SpinLockAcquire(&MyLogicalRepWorker->relmutex);
    MyLogicalRepWorker->relstate = relstate;
    MyLogicalRepWorker->relstate_lsn = relstate_lsn;
    SpinLockRelease(&MyLogicalRepWorker->relmutex);
 
    /*
     * If synchronization is already done or no longer necessary, exit now
     * that we've updated shared memory state.
     */
    switch (relstate)
    {
        case SUBREL_STATE_SYNCDONE:
        case SUBREL_STATE_READY:
        case SUBREL_STATE_UNKNOWN:
            finish_sync_worker();   /* doesn't return */
    }
 
    /* Calculate the name of the tablesync slot. */
    slotname = (char *) palloc(NAMEDATALEN);
    ReplicationSlotNameForTablesync(MySubscription->oid,
                                    MyLogicalRepWorker->relid,
                                    slotname,
                                    NAMEDATALEN);
 
    /*
     * Here we use the slot name instead of the subscription name as the
     * application_name, so that it is different from the main apply worker,
     * so that synchronous replication can distinguish them.
     */
    LogRepWorkerWalRcvConn =
        walrcv_connect(MySubscription->conninfo, true, slotname, &err);
    if (LogRepWorkerWalRcvConn == NULL)
        ereport(ERROR,
                (errcode(ERRCODE_CONNECTION_FAILURE),
                 errmsg("could not connect to the publisher: %s", err)));
 
    Assert(MyLogicalRepWorker->relstate == SUBREL_STATE_INIT ||
           MyLogicalRepWorker->relstate == SUBREL_STATE_DATASYNC ||
           MyLogicalRepWorker->relstate == SUBREL_STATE_FINISHEDCOPY);
 
    /* Assign the origin tracking record name. */
    ReplicationOriginNameForLogicalRep(MySubscription->oid,
                                       MyLogicalRepWorker->relid,
                                       originname,
                                       sizeof(originname));
 
    if (MyLogicalRepWorker->relstate == SUBREL_STATE_DATASYNC)
    {
        /*
         * We have previously errored out before finishing the copy so the
         * replication slot might exist. We want to remove the slot if it
         * already exists and proceed.
         *
         * XXX We could also instead try to drop the slot, last time we failed
         * but for that, we might need to clean up the copy state as it might
         * be in the middle of fetching the rows. Also, if there is a network
         * breakdown then it wouldn't have succeeded so trying it next time
         * seems like a better bet.
         */
        ReplicationSlotDropAtPubNode(LogRepWorkerWalRcvConn, slotname, true);
    }
    else if (MyLogicalRepWorker->relstate == SUBREL_STATE_FINISHEDCOPY)
    {
        /*
         * The COPY phase was previously done, but tablesync then crashed
         * before it was able to finish normally.
         */
        StartTransactionCommand();
 
        /*
         * The origin tracking name must already exist. It was created first
         * time this tablesync was launched.
         */
        originid = replorigin_by_name(originname, false);
        replorigin_session_setup(originid);
        replorigin_session_origin = originid;
        *origin_startpos = replorigin_session_get_progress(false);
 
        CommitTransactionCommand();
 
        goto copy_table_done;
    }
 
    SpinLockAcquire(&MyLogicalRepWorker->relmutex);
    MyLogicalRepWorker->relstate = SUBREL_STATE_DATASYNC;
    MyLogicalRepWorker->relstate_lsn = InvalidXLogRecPtr;
    SpinLockRelease(&MyLogicalRepWorker->relmutex);
 
    /* Update the state and make it visible to others. */
    StartTransactionCommand();
    UpdateSubscriptionRelState(MyLogicalRepWorker->subid,
                               MyLogicalRepWorker->relid,
                               MyLogicalRepWorker->relstate,
                               MyLogicalRepWorker->relstate_lsn);
    CommitTransactionCommand();
    pgstat_report_stat(true);
 
    StartTransactionCommand();
 
    /*
     * Use a standard write lock here. It might be better to disallow access
     * to the table while it's being synchronized. But we don't want to block
     * the main apply process from working and it has to open the relation in
     * RowExclusiveLock when remapping remote relation id to local one.
     */
    rel = table_open(MyLogicalRepWorker->relid, RowExclusiveLock);
 
    /*
     * Check that our table sync worker has permission to insert into the
     * target table.
     */
    aclresult = pg_class_aclcheck(RelationGetRelid(rel), GetUserId(),
                                  ACL_INSERT);
    if (aclresult != ACLCHECK_OK)
        aclcheck_error(aclresult,
                       get_relkind_objtype(rel->rd_rel->relkind),
                       RelationGetRelationName(rel));
 
    /*
     * COPY FROM does not honor RLS policies.  That is not a problem for
     * subscriptions owned by roles with BYPASSRLS privilege (or superuser,
     * who has it implicitly), but other roles should not be able to
     * circumvent RLS.  Disallow logical replication into RLS enabled
     * relations for such roles.
     */
    if (check_enable_rls(RelationGetRelid(rel), InvalidOid, false) == RLS_ENABLED)
        ereport(ERROR,
                (errcode(ERRCODE_FEATURE_NOT_SUPPORTED),
                 errmsg("user \"%s\" cannot replicate into relation with row-level security enabled: \"%s\"",
                        GetUserNameFromId(GetUserId(), true),
                        RelationGetRelationName(rel))));
 
    /*
     * Start a transaction in the remote node in REPEATABLE READ mode.  This
     * ensures that both the replication slot we create (see below) and the
     * COPY are consistent with each other.
     */
    res = walrcv_exec(LogRepWorkerWalRcvConn,
                      "BEGIN READ ONLY ISOLATION LEVEL REPEATABLE READ",
                      0, NULL);
    if (res->status != WALRCV_OK_COMMAND)
        ereport(ERROR,
                (errcode(ERRCODE_CONNECTION_FAILURE),
                 errmsg("table copy could not start transaction on publisher: %s",
                        res->err)));
    walrcv_clear_result(res);
 
    /*
     * Create a new permanent logical decoding slot. This slot will be used
     * for the catchup phase after COPY is done, so tell it to use the
     * snapshot to make the final data consistent.
     *
     * Prevent cancel/die interrupts while creating slot here because it is
     * possible that before the server finishes this command, a concurrent
     * drop subscription happens which would complete without removing this
     * slot leading to a dangling slot on the server.
     */
    HOLD_INTERRUPTS();
    walrcv_create_slot(LogRepWorkerWalRcvConn,
                       slotname, false /* permanent */ , false /* two_phase */ ,
                       CRS_USE_SNAPSHOT, origin_startpos);
    RESUME_INTERRUPTS();
 
    /*
     * Setup replication origin tracking. The purpose of doing this before the
     * copy is to avoid doing the copy again due to any error in setting up
     * origin tracking.
     */
    originid = replorigin_by_name(originname, true);
    if (!OidIsValid(originid))
    {
        /*
         * Origin tracking does not exist, so create it now.
         *
         * Then advance to the LSN got from walrcv_create_slot. This is WAL
         * logged for the purpose of recovery. Locks are to prevent the
         * replication origin from vanishing while advancing.
         */
        originid = replorigin_create(originname);
 
        LockRelationOid(ReplicationOriginRelationId, RowExclusiveLock);
        replorigin_advance(originid, *origin_startpos, InvalidXLogRecPtr,
                           true /* go backward */ , true /* WAL log */ );
        UnlockRelationOid(ReplicationOriginRelationId, RowExclusiveLock);
 
        replorigin_session_setup(originid);
        replorigin_session_origin = originid;
    }
    else
    {
        ereport(ERROR,
                (errcode(ERRCODE_DUPLICATE_OBJECT),
                 errmsg("replication origin \"%s\" already exists",
                        originname)));
    }
 
    /* Now do the initial data copy */
    PushActiveSnapshot(GetTransactionSnapshot());
    copy_table(rel);
    PopActiveSnapshot();
 
    res = walrcv_exec(LogRepWorkerWalRcvConn, "COMMIT", 0, NULL);
    if (res->status != WALRCV_OK_COMMAND)
        ereport(ERROR,
                (errcode(ERRCODE_CONNECTION_FAILURE),
                 errmsg("table copy could not finish transaction on publisher: %s",
                        res->err)));
    walrcv_clear_result(res);
 
    table_close(rel, NoLock);
 
    /* Make the copy visible. */
    CommandCounterIncrement();
 
    /*
     * Update the persisted state to indicate the COPY phase is done; make it
     * visible to others.
     */
    UpdateSubscriptionRelState(MyLogicalRepWorker->subid,
                               MyLogicalRepWorker->relid,
                               SUBREL_STATE_FINISHEDCOPY,
                               MyLogicalRepWorker->relstate_lsn);
 
    CommitTransactionCommand();
 
copy_table_done:
 
    elog(DEBUG1,
         "LogicalRepSyncTableStart: '%s' origin_startpos lsn %X/%X",
         originname, LSN_FORMAT_ARGS(*origin_startpos));
 
    /*
     * We are done with the initial data synchronization, update the state.
     */
    SpinLockAcquire(&MyLogicalRepWorker->relmutex);
    MyLogicalRepWorker->relstate = SUBREL_STATE_SYNCWAIT;
    MyLogicalRepWorker->relstate_lsn = *origin_startpos;
    SpinLockRelease(&MyLogicalRepWorker->relmutex);
 
    /*
     * Finally, wait until the main apply worker tells us to catch up and then
     * return to let LogicalRepApplyLoop do it.
     */
    wait_for_worker_state_change(SUBREL_STATE_CATCHUP);
    return slotname;
}
 
/*
 * Common code to fetch the up-to-date sync state info into the static lists.
 *
 * Returns true if subscription has 1 or more tables, else false.
 *
 * Note: If this function started the transaction (indicated by the parameter)
 * then it is the caller's responsibility to commit it.
 */
static bool
FetchTableStates(bool *started_tx)
{
    static bool has_subrels = false;
 
    *started_tx = false;
 
    if (!table_states_valid)
    {
        MemoryContext oldctx;
        List       *rstates;
        ListCell   *lc;
        SubscriptionRelState *rstate;
 
        /* Clean the old lists. */
        list_free_deep(table_states_not_ready);
        table_states_not_ready = NIL;
 
        if (!IsTransactionState())
        {
            StartTransactionCommand();
            *started_tx = true;
        }
 
        /* Fetch all non-ready tables. */
        rstates = GetSubscriptionRelations(MySubscription->oid, true);
 
        /* Allocate the tracking info in a permanent memory context. */
        oldctx = MemoryContextSwitchTo(CacheMemoryContext);
        foreach(lc, rstates)
        {
            rstate = palloc(sizeof(SubscriptionRelState));
            memcpy(rstate, lfirst(lc), sizeof(SubscriptionRelState));
            table_states_not_ready = lappend(table_states_not_ready, rstate);
        }
        MemoryContextSwitchTo(oldctx);
 
        /*
         * Does the subscription have tables?
         *
         * If there were not-READY relations found then we know it does. But
         * if table_state_not_ready was empty we still need to check again to
         * see if there are 0 tables.
         */
        has_subrels = (table_states_not_ready != NIL) ||
            HasSubscriptionRelations(MySubscription->oid);
 
        table_states_valid = true;
    }
 
    return has_subrels;
}
 
/*
 * If the subscription has no tables then return false.
 *
 * Otherwise, are all tablesyncs READY?
 *
 * Note: This function is not suitable to be called from outside of apply or
 * tablesync workers because MySubscription needs to be already initialized.
 */
bool
AllTablesyncsReady(void)
{
    bool        started_tx = false;
    bool        has_subrels = false;
 
    /* We need up-to-date sync state info for subscription tables here. */
    has_subrels = FetchTableStates(&started_tx);
 
    if (started_tx)
    {
        CommitTransactionCommand();
        pgstat_report_stat(true);
    }
 
    /*
     * Return false when there are no tables in subscription or not all tables
     * are in ready state; true otherwise.
     */
    return has_subrels && (table_states_not_ready == NIL);
}
 
/*
 * Update the two_phase state of the specified subscription in pg_subscription.
 */
void
UpdateTwoPhaseState(Oid suboid, char new_state)
{
    Relation    rel;
    HeapTuple   tup;
    bool        nulls[Natts_pg_subscription];
    bool        replaces[Natts_pg_subscription];
    Datum       values[Natts_pg_subscription];
 
    Assert(new_state == LOGICALREP_TWOPHASE_STATE_DISABLED ||
           new_state == LOGICALREP_TWOPHASE_STATE_PENDING ||
           new_state == LOGICALREP_TWOPHASE_STATE_ENABLED);
 
    rel = table_open(SubscriptionRelationId, RowExclusiveLock);
    tup = SearchSysCacheCopy1(SUBSCRIPTIONOID, ObjectIdGetDatum(suboid));
    if (!HeapTupleIsValid(tup))
        elog(ERROR,
             "cache lookup failed for subscription oid %u",
             suboid);
 
    /* Form a new tuple. */
    memset(values, 0, sizeof(values));
    memset(nulls, false, sizeof(nulls));
    memset(replaces, false, sizeof(replaces));
 
    /* And update/set two_phase state */
    values[Anum_pg_subscription_subtwophasestate - 1] = CharGetDatum(new_state);
    replaces[Anum_pg_subscription_subtwophasestate - 1] = true;
 
    tup = heap_modify_tuple(tup, RelationGetDescr(rel),
                            values, nulls, replaces);
    CatalogTupleUpdate(rel, &tup->t_self, tup);
 
    heap_freetuple(tup);
    table_close(rel, RowExclusiveLock);
}