#include "postgres.h"
#include <sys/stat.h>
#include <unistd.h>
#include "access/commit_ts.h"
#include "access/table.h"
#include "access/tableam.h"
#include "access/twophase.h"
#include "access/xact.h"
#include "catalog/indexing.h"
#include "catalog/pg_inherits.h"
#include "catalog/pg_subscription.h"
#include "catalog/pg_subscription_rel.h"
#include "commands/subscriptioncmds.h"
#include "commands/tablecmds.h"
#include "commands/trigger.h"
#include "executor/executor.h"
#include "executor/execPartition.h"
#include "libpq/pqformat.h"
#include "miscadmin.h"
#include "optimizer/optimizer.h"
#include "parser/parse_relation.h"
#include "pgstat.h"
#include "postmaster/bgworker.h"
#include "postmaster/interrupt.h"
#include "postmaster/walwriter.h"
#include "replication/conflict.h"
#include "replication/logicallauncher.h"
#include "replication/logicalproto.h"
#include "replication/logicalrelation.h"
#include "replication/logicalworker.h"
#include "replication/origin.h"
#include "replication/slot.h"
#include "replication/walreceiver.h"
#include "replication/worker_internal.h"
#include "rewrite/rewriteHandler.h"
#include "storage/buffile.h"
#include "storage/ipc.h"
#include "storage/lmgr.h"
#include "storage/procarray.h"
#include "tcop/tcopprot.h"
#include "utils/acl.h"
#include "utils/guc.h"
#include "utils/inval.h"
#include "utils/lsyscache.h"
#include "utils/memutils.h"
#include "utils/pg_lsn.h"
#include "utils/rel.h"
#include "utils/rls.h"
#include "utils/snapmgr.h"
#include "utils/syscache.h"
#include "utils/usercontext.h"

Include dependency graph for worker.c:

Data Structures
struct	FlushPosition

struct	ApplyExecutionData

struct	ApplyErrorCallbackArg

struct	RetainDeadTuplesData

struct	SubXactInfo

struct	ApplySubXactData

Macros
#define	NAPTIME_PER_CYCLE 1000 /* max sleep time between cycles (1s) */

#define	MIN_XID_ADVANCE_INTERVAL 100

#define	MAX_XID_ADVANCE_INTERVAL 180000

#define	is_skipping_changes() (unlikely(!XLogRecPtrIsInvalid(skip_xact_finish_lsn)))

Typedefs
typedef struct FlushPosition	FlushPosition

typedef struct ApplyExecutionData	ApplyExecutionData

typedef struct ApplyErrorCallbackArg	ApplyErrorCallbackArg

typedef struct RetainDeadTuplesData	RetainDeadTuplesData

typedef struct SubXactInfo	SubXactInfo

typedef struct ApplySubXactData	ApplySubXactData

Enumerations
enum	TransApplyAction { TRANS_LEADER_APPLY , TRANS_LEADER_SERIALIZE , TRANS_LEADER_SEND_TO_PARALLEL , TRANS_LEADER_PARTIAL_SERIALIZE , TRANS_PARALLEL_APPLY }

enum	RetainDeadTuplesPhase { RDT_GET_CANDIDATE_XID , RDT_REQUEST_PUBLISHER_STATUS , RDT_WAIT_FOR_PUBLISHER_STATUS , RDT_WAIT_FOR_LOCAL_FLUSH , RDT_STOP_CONFLICT_INFO_RETENTION , RDT_RESUME_CONFLICT_INFO_RETENTION }

Functions
static void	subxact_filename (char *path, Oid subid, TransactionId xid)

static void	changes_filename (char *path, Oid subid, TransactionId xid)

static void	subxact_info_write (Oid subid, TransactionId xid)

static void	subxact_info_read (Oid subid, TransactionId xid)

static void	subxact_info_add (TransactionId xid)

static void	cleanup_subxact_info (void)

static void	stream_open_file (Oid subid, TransactionId xid, bool first_segment)

static void	stream_write_change (char action, StringInfo s)

static void	stream_open_and_write_change (TransactionId xid, char action, StringInfo s)

static void	stream_close_file (void)

static void	send_feedback (XLogRecPtr recvpos, bool force, bool requestReply)

static void	maybe_advance_nonremovable_xid (RetainDeadTuplesData *rdt_data, bool status_received)

static bool	can_advance_nonremovable_xid (RetainDeadTuplesData *rdt_data)

static void	process_rdt_phase_transition (RetainDeadTuplesData *rdt_data, bool status_received)

static void	get_candidate_xid (RetainDeadTuplesData *rdt_data)

static void	request_publisher_status (RetainDeadTuplesData *rdt_data)

static void	wait_for_publisher_status (RetainDeadTuplesData *rdt_data, bool status_received)

static void	wait_for_local_flush (RetainDeadTuplesData *rdt_data)

static bool	should_stop_conflict_info_retention (RetainDeadTuplesData *rdt_data)

static void	stop_conflict_info_retention (RetainDeadTuplesData *rdt_data)

static void	resume_conflict_info_retention (RetainDeadTuplesData *rdt_data)

static bool	update_retention_status (bool active)

static void	reset_retention_data_fields (RetainDeadTuplesData *rdt_data)

static void	adjust_xid_advance_interval (RetainDeadTuplesData *rdt_data, bool new_xid_found)

static void	apply_worker_exit (void)

static void	apply_handle_commit_internal (LogicalRepCommitData *commit_data)

static void	apply_handle_insert_internal (ApplyExecutionData edata, ResultRelInfo relinfo, TupleTableSlot *remoteslot)

static void	apply_handle_update_internal (ApplyExecutionData edata, ResultRelInfo relinfo, TupleTableSlot remoteslot, LogicalRepTupleData newtup, Oid localindexoid)

static void	apply_handle_delete_internal (ApplyExecutionData edata, ResultRelInfo relinfo, TupleTableSlot *remoteslot, Oid localindexoid)

static bool	FindReplTupleInLocalRel (ApplyExecutionData edata, Relation localrel, LogicalRepRelation remoterel, Oid localidxoid, TupleTableSlot remoteslot, TupleTableSlot *localslot)

static bool	FindDeletedTupleInLocalRel (Relation localrel, Oid localidxoid, TupleTableSlot remoteslot, TransactionId delete_xid, RepOriginId delete_origin, TimestampTz delete_time)

static void	apply_handle_tuple_routing (ApplyExecutionData edata, TupleTableSlot remoteslot, LogicalRepTupleData *newtup, CmdType operation)

static void	maybe_start_skipping_changes (XLogRecPtr finish_lsn)

static void	stop_skipping_changes (void)

static void	clear_subscription_skip_lsn (XLogRecPtr finish_lsn)

static void	set_apply_error_context_xact (TransactionId xid, XLogRecPtr lsn)

static void	reset_apply_error_context_info (void)

static TransApplyAction	get_transaction_apply_action (TransactionId xid, ParallelApplyWorkerInfo **winfo)

static void	replorigin_reset (int code, Datum arg)

void	ReplicationOriginNameForLogicalRep (Oid suboid, Oid relid, char *originname, Size szoriginname)

static bool	should_apply_changes_for_rel (LogicalRepRelMapEntry *rel)

static void	begin_replication_step (void)

static void	end_replication_step (void)

static bool	handle_streamed_transaction (LogicalRepMsgType action, StringInfo s)

static ApplyExecutionData *	create_edata_for_relation (LogicalRepRelMapEntry *rel)

static void	finish_edata (ApplyExecutionData *edata)

static void	slot_fill_defaults (LogicalRepRelMapEntry rel, EState estate, TupleTableSlot *slot)

static void	slot_store_data (TupleTableSlot slot, LogicalRepRelMapEntry rel, LogicalRepTupleData *tupleData)

static void	slot_modify_data (TupleTableSlot slot, TupleTableSlot srcslot, LogicalRepRelMapEntry rel, LogicalRepTupleData tupleData)

static void	apply_handle_begin (StringInfo s)

static void	apply_handle_commit (StringInfo s)

static void	apply_handle_begin_prepare (StringInfo s)

static void	apply_handle_prepare_internal (LogicalRepPreparedTxnData *prepare_data)

static void	apply_handle_prepare (StringInfo s)

static void	apply_handle_commit_prepared (StringInfo s)

static void	apply_handle_rollback_prepared (StringInfo s)

static void	apply_handle_stream_prepare (StringInfo s)

static void	apply_handle_origin (StringInfo s)

void	stream_start_internal (TransactionId xid, bool first_segment)

static void	apply_handle_stream_start (StringInfo s)

void	stream_stop_internal (TransactionId xid)

static void	apply_handle_stream_stop (StringInfo s)

static void	stream_abort_internal (TransactionId xid, TransactionId subxid)

static void	apply_handle_stream_abort (StringInfo s)

static void	ensure_last_message (FileSet *stream_fileset, TransactionId xid, int fileno, off_t offset)

void	apply_spooled_messages (FileSet *stream_fileset, TransactionId xid, XLogRecPtr lsn)

static void	apply_handle_stream_commit (StringInfo s)

static void	apply_handle_relation (StringInfo s)

static void	apply_handle_type (StringInfo s)

static void	TargetPrivilegesCheck (Relation rel, AclMode mode)

static void	apply_handle_insert (StringInfo s)

static void	check_relation_updatable (LogicalRepRelMapEntry *rel)

static void	apply_handle_update (StringInfo s)

static void	apply_handle_delete (StringInfo s)

static bool	IsIndexUsableForFindingDeletedTuple (Oid localindexoid, TransactionId conflict_detection_xmin)

static void	apply_handle_truncate (StringInfo s)

void	apply_dispatch (StringInfo s)

static void	get_flush_position (XLogRecPtr write, XLogRecPtr flush, bool *have_pending_txes)

void	store_flush_position (XLogRecPtr remote_lsn, XLogRecPtr local_lsn)

static void	UpdateWorkerStats (XLogRecPtr last_lsn, TimestampTz send_time, bool reply)

static void	LogicalRepApplyLoop (XLogRecPtr last_received)

void	maybe_reread_subscription (void)

static void	subscription_change_cb (Datum arg, int cacheid, uint32 hashvalue)

void	stream_cleanup_files (Oid subid, TransactionId xid)

void	set_stream_options (WalRcvStreamOptions options, char slotname, XLogRecPtr *origin_startpos)

void	start_apply (XLogRecPtr origin_startpos)

static void	run_apply_worker ()

void	InitializeLogRepWorker (void)

void	SetupApplyOrSyncWorker (int worker_slot)

void	ApplyWorkerMain (Datum main_arg)

void	DisableSubscriptionAndExit (void)

bool	IsLogicalWorker (void)

bool	IsLogicalParallelApplyWorker (void)

void	apply_error_callback (void *arg)

void	LogicalRepWorkersWakeupAtCommit (Oid subid)

void	AtEOXact_LogicalRepWorkers (bool isCommit)

void	set_apply_error_context_origin (char *originname)

Variables
static dlist_head	lsn_mapping = DLIST_STATIC_INIT(lsn_mapping)

static ApplyErrorCallbackArg	apply_error_callback_arg

ErrorContextCallback *	apply_error_context_stack = NULL

MemoryContext	ApplyMessageContext = NULL

MemoryContext	ApplyContext = NULL

static MemoryContext	LogicalStreamingContext = NULL

WalReceiverConn *	LogRepWorkerWalRcvConn = NULL

Subscription *	MySubscription = NULL

static bool	MySubscriptionValid = false

static List *	on_commit_wakeup_workers_subids = NIL

bool	in_remote_transaction = false

static XLogRecPtr	remote_final_lsn = InvalidXLogRecPtr

static bool	in_streamed_transaction = false

static TransactionId	stream_xid = InvalidTransactionId

static uint32	parallel_stream_nchanges = 0

bool	InitializingApplyWorker = false

static XLogRecPtr	skip_xact_finish_lsn = InvalidXLogRecPtr

static BufFile *	stream_fd = NULL

static XLogRecPtr	last_flushpos = InvalidXLogRecPtr

static ApplySubXactData	subxact_data = {0, 0, InvalidTransactionId, NULL}

Macro Definition Documentation

◆ is_skipping_changes

#define is_skipping_changes ( ) (unlikely(!XLogRecPtrIsInvalid(skip_xact_finish_lsn)))

Definition at line 517 of file worker.c.

◆ MAX_XID_ADVANCE_INTERVAL

#define MAX_XID_ADVANCE_INTERVAL 180000

Definition at line 456 of file worker.c.

◆ MIN_XID_ADVANCE_INTERVAL

#define MIN_XID_ADVANCE_INTERVAL 100

Definition at line 455 of file worker.c.

◆ NAPTIME_PER_CYCLE

#define NAPTIME_PER_CYCLE 1000 /* max sleep time between cycles (1s) */

Definition at line 299 of file worker.c.

Typedef Documentation

◆ ApplyErrorCallbackArg

typedef struct ApplyErrorCallbackArg ApplyErrorCallbackArg

◆ ApplyExecutionData

typedef struct ApplyExecutionData ApplyExecutionData

◆ ApplySubXactData

typedef struct ApplySubXactData ApplySubXactData

◆ FlushPosition

typedef struct FlushPosition FlushPosition

◆ RetainDeadTuplesData

typedef struct RetainDeadTuplesData RetainDeadTuplesData

◆ SubXactInfo

typedef struct SubXactInfo SubXactInfo

Enumeration Type Documentation

◆ RetainDeadTuplesPhase

enum RetainDeadTuplesPhase

Enumerator
RDT_GET_CANDIDATE_XID
RDT_REQUEST_PUBLISHER_STATUS
RDT_WAIT_FOR_PUBLISHER_STATUS
RDT_WAIT_FOR_LOCAL_FLUSH
RDT_STOP_CONFLICT_INFO_RETENTION
RDT_RESUME_CONFLICT_INFO_RETENTION

Definition at line 387 of file worker.c.

{
    RDT_GET_CANDIDATE_XID,
    RDT_REQUEST_PUBLISHER_STATUS,
    RDT_WAIT_FOR_PUBLISHER_STATUS,
    RDT_WAIT_FOR_LOCAL_FLUSH,
    RDT_STOP_CONFLICT_INFO_RETENTION,
    RDT_RESUME_CONFLICT_INFO_RETENTION,
} RetainDeadTuplesPhase;

◆ TransApplyAction

enum TransApplyAction

Enumerator
TRANS_LEADER_APPLY
TRANS_LEADER_SERIALIZE
TRANS_LEADER_SEND_TO_PARALLEL
TRANS_LEADER_PARTIAL_SERIALIZE
TRANS_PARALLEL_APPLY

Definition at line 369 of file worker.c.

{
    /* The action for non-streaming transactions. */
    TRANS_LEADER_APPLY,
 
    /* Actions for streaming transactions. */
    TRANS_LEADER_SERIALIZE,
    TRANS_LEADER_SEND_TO_PARALLEL,
    TRANS_LEADER_PARTIAL_SERIALIZE,
    TRANS_PARALLEL_APPLY,
} TransApplyAction;

Function Documentation

◆ adjust_xid_advance_interval()

static void adjust_xid_advance_interval	(	RetainDeadTuplesData *	rdt_data,
		bool	new_xid_found
	)

static

Definition at line 4924 of file worker.c.

{
    if (rdt_data->xid_advance_interval && !new_xid_found)
    {
        int         max_interval = wal_receiver_status_interval
            ? wal_receiver_status_interval * 1000
            : MAX_XID_ADVANCE_INTERVAL;
 
        /*
         * No new transaction ID has been assigned since the last check, so
         * double the interval, but not beyond the maximum allowable value.
         */
        rdt_data->xid_advance_interval = Min(rdt_data->xid_advance_interval * 2,
                                             max_interval);
    }
    else if (rdt_data->xid_advance_interval &&
             !MySubscription->retentionactive)
    {
        /*
         * Retention has been stopped, so double the interval-capped at a
         * maximum of 3 minutes. The wal_receiver_status_interval is
         * intentionally not used as a upper bound, since the likelihood of
         * retention resuming is lower than that of general activity resuming.
         */
        rdt_data->xid_advance_interval = Min(rdt_data->xid_advance_interval * 2,
                                             MAX_XID_ADVANCE_INTERVAL);
    }
    else
    {
        /*
         * A new transaction ID was found or the interval is not yet
         * initialized, so set the interval to the minimum value.
         */
        rdt_data->xid_advance_interval = MIN_XID_ADVANCE_INTERVAL;
    }
 
    /*
     * Ensure the wait time remains within the maximum retention time limit
     * when retention is active.
     */
    if (MySubscription->retentionactive)
        rdt_data->xid_advance_interval = Min(rdt_data->xid_advance_interval,
                                             MySubscription->maxretention);
}

References MAX_XID_ADVANCE_INTERVAL, Subscription::maxretention, Min, MIN_XID_ADVANCE_INTERVAL, MySubscription, Subscription::retentionactive, wal_receiver_status_interval, and RetainDeadTuplesData::xid_advance_interval.

Referenced by get_candidate_xid().

◆ apply_dispatch()

void apply_dispatch ( StringInfo s )

Definition at line 3747 of file worker.c.

{
    LogicalRepMsgType action = pq_getmsgbyte(s);
    LogicalRepMsgType saved_command;
 
    /*
     * Set the current command being applied. Since this function can be
     * called recursively when applying spooled changes, save the current
     * command.
     */
    saved_command = apply_error_callback_arg.command;
    apply_error_callback_arg.command = action;
 
    switch (action)
    {
        case LOGICAL_REP_MSG_BEGIN:
            apply_handle_begin(s);
            break;
 
        case LOGICAL_REP_MSG_COMMIT:
            apply_handle_commit(s);
            break;
 
        case LOGICAL_REP_MSG_INSERT:
            apply_handle_insert(s);
            break;
 
        case LOGICAL_REP_MSG_UPDATE:
            apply_handle_update(s);
            break;
 
        case LOGICAL_REP_MSG_DELETE:
            apply_handle_delete(s);
            break;
 
        case LOGICAL_REP_MSG_TRUNCATE:
            apply_handle_truncate(s);
            break;
 
        case LOGICAL_REP_MSG_RELATION:
            apply_handle_relation(s);
            break;
 
        case LOGICAL_REP_MSG_TYPE:
            apply_handle_type(s);
            break;
 
        case LOGICAL_REP_MSG_ORIGIN:
            apply_handle_origin(s);
            break;
 
        case LOGICAL_REP_MSG_MESSAGE:
 
            /*
             * Logical replication does not use generic logical messages yet.
             * Although, it could be used by other applications that use this
             * output plugin.
             */
            break;
 
        case LOGICAL_REP_MSG_STREAM_START:
            apply_handle_stream_start(s);
            break;
 
        case LOGICAL_REP_MSG_STREAM_STOP:
            apply_handle_stream_stop(s);
            break;
 
        case LOGICAL_REP_MSG_STREAM_ABORT:
            apply_handle_stream_abort(s);
            break;
 
        case LOGICAL_REP_MSG_STREAM_COMMIT:
            apply_handle_stream_commit(s);
            break;
 
        case LOGICAL_REP_MSG_BEGIN_PREPARE:
            apply_handle_begin_prepare(s);
            break;
 
        case LOGICAL_REP_MSG_PREPARE:
            apply_handle_prepare(s);
            break;
 
        case LOGICAL_REP_MSG_COMMIT_PREPARED:
            apply_handle_commit_prepared(s);
            break;
 
        case LOGICAL_REP_MSG_ROLLBACK_PREPARED:
            apply_handle_rollback_prepared(s);
            break;
 
        case LOGICAL_REP_MSG_STREAM_PREPARE:
            apply_handle_stream_prepare(s);
            break;
 
        default:
            ereport(ERROR,
                    (errcode(ERRCODE_PROTOCOL_VIOLATION),
                     errmsg("invalid logical replication message type \"??? (%d)\"", action)));
    }
 
    /* Reset the current command */
    apply_error_callback_arg.command = saved_command;
}

References generate_unaccent_rules::action, apply_error_callback_arg, apply_handle_begin(), apply_handle_begin_prepare(), apply_handle_commit(), apply_handle_commit_prepared(), apply_handle_delete(), apply_handle_insert(), apply_handle_origin(), apply_handle_prepare(), apply_handle_relation(), apply_handle_rollback_prepared(), apply_handle_stream_abort(), apply_handle_stream_commit(), apply_handle_stream_prepare(), apply_handle_stream_start(), apply_handle_stream_stop(), apply_handle_truncate(), apply_handle_type(), apply_handle_update(), ApplyErrorCallbackArg::command, ereport, errcode(), errmsg(), ERROR, LOGICAL_REP_MSG_BEGIN, LOGICAL_REP_MSG_BEGIN_PREPARE, LOGICAL_REP_MSG_COMMIT, LOGICAL_REP_MSG_COMMIT_PREPARED, LOGICAL_REP_MSG_DELETE, LOGICAL_REP_MSG_INSERT, LOGICAL_REP_MSG_MESSAGE, LOGICAL_REP_MSG_ORIGIN, LOGICAL_REP_MSG_PREPARE, LOGICAL_REP_MSG_RELATION, LOGICAL_REP_MSG_ROLLBACK_PREPARED, LOGICAL_REP_MSG_STREAM_ABORT, LOGICAL_REP_MSG_STREAM_COMMIT, LOGICAL_REP_MSG_STREAM_PREPARE, LOGICAL_REP_MSG_STREAM_START, LOGICAL_REP_MSG_STREAM_STOP, LOGICAL_REP_MSG_TRUNCATE, LOGICAL_REP_MSG_TYPE, LOGICAL_REP_MSG_UPDATE, and pq_getmsgbyte().

Referenced by apply_spooled_messages(), LogicalParallelApplyLoop(), and LogicalRepApplyLoop().

◆ apply_error_callback()

void apply_error_callback ( void * arg )

Definition at line 6118 of file worker.c.

{
    ApplyErrorCallbackArg *errarg = &apply_error_callback_arg;
 
    if (apply_error_callback_arg.command == 0)
        return;
 
    Assert(errarg->origin_name);
 
    if (errarg->rel == NULL)
    {
        if (!TransactionIdIsValid(errarg->remote_xid))
            errcontext("processing remote data for replication origin \"%s\" during message type \"%s\"",
                       errarg->origin_name,
                       logicalrep_message_type(errarg->command));
        else if (XLogRecPtrIsInvalid(errarg->finish_lsn))
            errcontext("processing remote data for replication origin \"%s\" during message type \"%s\" in transaction %u",
                       errarg->origin_name,
                       logicalrep_message_type(errarg->command),
                       errarg->remote_xid);
        else
            errcontext("processing remote data for replication origin \"%s\" during message type \"%s\" in transaction %u, finished at %X/%08X",
                       errarg->origin_name,
                       logicalrep_message_type(errarg->command),
                       errarg->remote_xid,
                       LSN_FORMAT_ARGS(errarg->finish_lsn));
    }
    else
    {
        if (errarg->remote_attnum < 0)
        {
            if (XLogRecPtrIsInvalid(errarg->finish_lsn))
                errcontext("processing remote data for replication origin \"%s\" during message type \"%s\" for replication target relation \"%s.%s\" in transaction %u",
                           errarg->origin_name,
                           logicalrep_message_type(errarg->command),
                           errarg->rel->remoterel.nspname,
                           errarg->rel->remoterel.relname,
                           errarg->remote_xid);
            else
                errcontext("processing remote data for replication origin \"%s\" during message type \"%s\" for replication target relation \"%s.%s\" in transaction %u, finished at %X/%08X",
                           errarg->origin_name,
                           logicalrep_message_type(errarg->command),
                           errarg->rel->remoterel.nspname,
                           errarg->rel->remoterel.relname,
                           errarg->remote_xid,
                           LSN_FORMAT_ARGS(errarg->finish_lsn));
        }
        else
        {
            if (XLogRecPtrIsInvalid(errarg->finish_lsn))
                errcontext("processing remote data for replication origin \"%s\" during message type \"%s\" for replication target relation \"%s.%s\" column \"%s\" in transaction %u",
                           errarg->origin_name,
                           logicalrep_message_type(errarg->command),
                           errarg->rel->remoterel.nspname,
                           errarg->rel->remoterel.relname,
                           errarg->rel->remoterel.attnames[errarg->remote_attnum],
                           errarg->remote_xid);
            else
                errcontext("processing remote data for replication origin \"%s\" during message type \"%s\" for replication target relation \"%s.%s\" column \"%s\" in transaction %u, finished at %X/%08X",
                           errarg->origin_name,
                           logicalrep_message_type(errarg->command),
                           errarg->rel->remoterel.nspname,
                           errarg->rel->remoterel.relname,
                           errarg->rel->remoterel.attnames[errarg->remote_attnum],
                           errarg->remote_xid,
                           LSN_FORMAT_ARGS(errarg->finish_lsn));
        }
    }
}

References apply_error_callback_arg, Assert(), LogicalRepRelation::attnames, ApplyErrorCallbackArg::command, errcontext, ApplyErrorCallbackArg::finish_lsn, logicalrep_message_type(), LSN_FORMAT_ARGS, LogicalRepRelation::nspname, ApplyErrorCallbackArg::origin_name, ApplyErrorCallbackArg::rel, LogicalRepRelation::relname, ApplyErrorCallbackArg::remote_attnum, ApplyErrorCallbackArg::remote_xid, LogicalRepRelMapEntry::remoterel, TransactionIdIsValid, and XLogRecPtrIsInvalid.

Referenced by LogicalParallelApplyLoop(), and LogicalRepApplyLoop().

◆ apply_handle_begin()

static void apply_handle_begin ( StringInfo s )

static

Definition at line 1205 of file worker.c.

{
    LogicalRepBeginData begin_data;
 
    /* There must not be an active streaming transaction. */
    Assert(!TransactionIdIsValid(stream_xid));
 
    logicalrep_read_begin(s, &begin_data);
    set_apply_error_context_xact(begin_data.xid, begin_data.final_lsn);
 
    remote_final_lsn = begin_data.final_lsn;
 
    maybe_start_skipping_changes(begin_data.final_lsn);
 
    in_remote_transaction = true;
 
    pgstat_report_activity(STATE_RUNNING, NULL);
}

References Assert(), LogicalRepBeginData::final_lsn, in_remote_transaction, logicalrep_read_begin(), maybe_start_skipping_changes(), pgstat_report_activity(), remote_final_lsn, set_apply_error_context_xact(), STATE_RUNNING, stream_xid, TransactionIdIsValid, and LogicalRepBeginData::xid.

Referenced by apply_dispatch().

◆ apply_handle_begin_prepare()

static void apply_handle_begin_prepare ( StringInfo s )

static

Definition at line 1256 of file worker.c.

{
    LogicalRepPreparedTxnData begin_data;
 
    /* Tablesync should never receive prepare. */
    if (am_tablesync_worker())
        ereport(ERROR,
                (errcode(ERRCODE_PROTOCOL_VIOLATION),
                 errmsg_internal("tablesync worker received a BEGIN PREPARE message")));
 
    /* There must not be an active streaming transaction. */
    Assert(!TransactionIdIsValid(stream_xid));
 
    logicalrep_read_begin_prepare(s, &begin_data);
    set_apply_error_context_xact(begin_data.xid, begin_data.prepare_lsn);
 
    remote_final_lsn = begin_data.prepare_lsn;
 
    maybe_start_skipping_changes(begin_data.prepare_lsn);
 
    in_remote_transaction = true;
 
    pgstat_report_activity(STATE_RUNNING, NULL);
}

References am_tablesync_worker(), Assert(), ereport, errcode(), errmsg_internal(), ERROR, in_remote_transaction, logicalrep_read_begin_prepare(), maybe_start_skipping_changes(), pgstat_report_activity(), LogicalRepPreparedTxnData::prepare_lsn, remote_final_lsn, set_apply_error_context_xact(), STATE_RUNNING, stream_xid, TransactionIdIsValid, and LogicalRepPreparedTxnData::xid.

Referenced by apply_dispatch().

◆ apply_handle_commit()

static void apply_handle_commit ( StringInfo s )

static

Definition at line 1230 of file worker.c.

{
    LogicalRepCommitData commit_data;
 
    logicalrep_read_commit(s, &commit_data);
 
    if (commit_data.commit_lsn != remote_final_lsn)
        ereport(ERROR,
                (errcode(ERRCODE_PROTOCOL_VIOLATION),
                 errmsg_internal("incorrect commit LSN %X/%08X in commit message (expected %X/%08X)",
                                 LSN_FORMAT_ARGS(commit_data.commit_lsn),
                                 LSN_FORMAT_ARGS(remote_final_lsn))));
 
    apply_handle_commit_internal(&commit_data);
 
    /* Process any tables that are being synchronized in parallel. */
    process_syncing_tables(commit_data.end_lsn);
 
    pgstat_report_activity(STATE_IDLE, NULL);
    reset_apply_error_context_info();
}

References apply_handle_commit_internal(), LogicalRepCommitData::commit_lsn, LogicalRepCommitData::end_lsn, ereport, errcode(), errmsg_internal(), ERROR, logicalrep_read_commit(), LSN_FORMAT_ARGS, pgstat_report_activity(), process_syncing_tables(), remote_final_lsn, reset_apply_error_context_info(), and STATE_IDLE.

Referenced by apply_dispatch().

◆ apply_handle_commit_internal()

static void apply_handle_commit_internal ( LogicalRepCommitData * commit_data )

static

Definition at line 2478 of file worker.c.

{
    if (is_skipping_changes())
    {
        stop_skipping_changes();
 
        /*
         * Start a new transaction to clear the subskiplsn, if not started
         * yet.
         */
        if (!IsTransactionState())
            StartTransactionCommand();
    }
 
    if (IsTransactionState())
    {
        /*
         * The transaction is either non-empty or skipped, so we clear the
         * subskiplsn.
         */
        clear_subscription_skip_lsn(commit_data->commit_lsn);
 
        /*
         * Update origin state so we can restart streaming from correct
         * position in case of crash.
         */
        replorigin_session_origin_lsn = commit_data->end_lsn;
        replorigin_session_origin_timestamp = commit_data->committime;
 
        CommitTransactionCommand();
 
        if (IsTransactionBlock())
        {
            EndTransactionBlock(false);
            CommitTransactionCommand();
        }
 
        pgstat_report_stat(false);
 
        store_flush_position(commit_data->end_lsn, XactLastCommitEnd);
    }
    else
    {
        /* Process any invalidation messages that might have accumulated. */
        AcceptInvalidationMessages();
        maybe_reread_subscription();
    }
 
    in_remote_transaction = false;
}

References AcceptInvalidationMessages(), clear_subscription_skip_lsn(), LogicalRepCommitData::commit_lsn, LogicalRepCommitData::committime, CommitTransactionCommand(), LogicalRepCommitData::end_lsn, EndTransactionBlock(), in_remote_transaction, is_skipping_changes, IsTransactionBlock(), IsTransactionState(), maybe_reread_subscription(), pgstat_report_stat(), replorigin_session_origin_lsn, replorigin_session_origin_timestamp, StartTransactionCommand(), stop_skipping_changes(), store_flush_position(), and XactLastCommitEnd.

Referenced by apply_handle_commit(), and apply_handle_stream_commit().

◆ apply_handle_commit_prepared()

static void apply_handle_commit_prepared ( StringInfo s )

static

Definition at line 1393 of file worker.c.

{
    LogicalRepCommitPreparedTxnData prepare_data;
    char        gid[GIDSIZE];
 
    logicalrep_read_commit_prepared(s, &prepare_data);
    set_apply_error_context_xact(prepare_data.xid, prepare_data.commit_lsn);
 
    /* Compute GID for two_phase transactions. */
    TwoPhaseTransactionGid(MySubscription->oid, prepare_data.xid,
                           gid, sizeof(gid));
 
    /* There is no transaction when COMMIT PREPARED is called */
    begin_replication_step();
 
    /*
     * Update origin state so we can restart streaming from correct position
     * in case of crash.
     */
    replorigin_session_origin_lsn = prepare_data.end_lsn;
    replorigin_session_origin_timestamp = prepare_data.commit_time;
 
    FinishPreparedTransaction(gid, true);
    end_replication_step();
    CommitTransactionCommand();
    pgstat_report_stat(false);
 
    store_flush_position(prepare_data.end_lsn, XactLastCommitEnd);
    in_remote_transaction = false;
 
    /* Process any tables that are being synchronized in parallel. */
    process_syncing_tables(prepare_data.end_lsn);
 
    clear_subscription_skip_lsn(prepare_data.end_lsn);
 
    pgstat_report_activity(STATE_IDLE, NULL);
    reset_apply_error_context_info();
}

References begin_replication_step(), clear_subscription_skip_lsn(), LogicalRepCommitPreparedTxnData::commit_lsn, LogicalRepCommitPreparedTxnData::commit_time, CommitTransactionCommand(), LogicalRepCommitPreparedTxnData::end_lsn, end_replication_step(), FinishPreparedTransaction(), GIDSIZE, in_remote_transaction, logicalrep_read_commit_prepared(), MySubscription, Subscription::oid, pgstat_report_activity(), pgstat_report_stat(), process_syncing_tables(), replorigin_session_origin_lsn, replorigin_session_origin_timestamp, reset_apply_error_context_info(), set_apply_error_context_xact(), STATE_IDLE, store_flush_position(), TwoPhaseTransactionGid(), XactLastCommitEnd, and LogicalRepCommitPreparedTxnData::xid.

Referenced by apply_dispatch().

◆ apply_handle_delete()

static void apply_handle_delete ( StringInfo s )

static

Definition at line 2987 of file worker.c.

{
    LogicalRepRelMapEntry *rel;
    LogicalRepTupleData oldtup;
    LogicalRepRelId relid;
    UserContext ucxt;
    ApplyExecutionData *edata;
    EState     *estate;
    TupleTableSlot *remoteslot;
    MemoryContext oldctx;
    bool        run_as_owner;
 
    /*
     * Quick return if we are skipping data modification changes or handling
     * streamed transactions.
     */
    if (is_skipping_changes() ||
        handle_streamed_transaction(LOGICAL_REP_MSG_DELETE, s))
        return;
 
    begin_replication_step();
 
    relid = logicalrep_read_delete(s, &oldtup);
    rel = logicalrep_rel_open(relid, RowExclusiveLock);
    if (!should_apply_changes_for_rel(rel))
    {
        /*
         * The relation can't become interesting in the middle of the
         * transaction so it's safe to unlock it.
         */
        logicalrep_rel_close(rel, RowExclusiveLock);
        end_replication_step();
        return;
    }
 
    /* Set relation for error callback */
    apply_error_callback_arg.rel = rel;
 
    /* Check if we can do the delete. */
    check_relation_updatable(rel);
 
    /*
     * Make sure that any user-supplied code runs as the table owner, unless
     * the user has opted out of that behavior.
     */
    run_as_owner = MySubscription->runasowner;
    if (!run_as_owner)
        SwitchToUntrustedUser(rel->localrel->rd_rel->relowner, &ucxt);
 
    /* Initialize the executor state. */
    edata = create_edata_for_relation(rel);
    estate = edata->estate;
    remoteslot = ExecInitExtraTupleSlot(estate,
                                        RelationGetDescr(rel->localrel),
                                        &TTSOpsVirtual);
 
    /* Build the search tuple. */
    oldctx = MemoryContextSwitchTo(GetPerTupleMemoryContext(estate));
    slot_store_data(remoteslot, rel, &oldtup);
    MemoryContextSwitchTo(oldctx);
 
    /* For a partitioned table, apply delete to correct partition. */
    if (rel->localrel->rd_rel->relkind == RELKIND_PARTITIONED_TABLE)
        apply_handle_tuple_routing(edata,
                                   remoteslot, NULL, CMD_DELETE);
    else
    {
        ResultRelInfo *relinfo = edata->targetRelInfo;
 
        ExecOpenIndices(relinfo, false);
        apply_handle_delete_internal(edata, relinfo,
                                     remoteslot, rel->localindexoid);
        ExecCloseIndices(relinfo);
    }
 
    finish_edata(edata);
 
    /* Reset relation for error callback */
    apply_error_callback_arg.rel = NULL;
 
    if (!run_as_owner)
        RestoreUserContext(&ucxt);
 
    logicalrep_rel_close(rel, NoLock);
 
    end_replication_step();
}

References apply_error_callback_arg, apply_handle_delete_internal(), apply_handle_tuple_routing(), begin_replication_step(), check_relation_updatable(), CMD_DELETE, create_edata_for_relation(), end_replication_step(), ApplyExecutionData::estate, ExecCloseIndices(), ExecInitExtraTupleSlot(), ExecOpenIndices(), finish_edata(), GetPerTupleMemoryContext, handle_streamed_transaction(), is_skipping_changes, LogicalRepRelMapEntry::localindexoid, LogicalRepRelMapEntry::localrel, LOGICAL_REP_MSG_DELETE, logicalrep_read_delete(), logicalrep_rel_close(), logicalrep_rel_open(), MemoryContextSwitchTo(), MySubscription, NoLock, RelationData::rd_rel, ApplyErrorCallbackArg::rel, RelationGetDescr, RestoreUserContext(), RowExclusiveLock, Subscription::runasowner, should_apply_changes_for_rel(), slot_store_data(), SwitchToUntrustedUser(), ApplyExecutionData::targetRelInfo, and TTSOpsVirtual.

Referenced by apply_dispatch().

◆ apply_handle_delete_internal()

static void apply_handle_delete_internal	(	ApplyExecutionData *	edata,
		ResultRelInfo *	relinfo,
		TupleTableSlot *	remoteslot,
		Oid	localindexoid
	)

static

Definition at line 3081 of file worker.c.

{
    EState     *estate = edata->estate;
    Relation    localrel = relinfo->ri_RelationDesc;
    LogicalRepRelation *remoterel = &edata->targetRel->remoterel;
    EPQState    epqstate;
    TupleTableSlot *localslot;
    ConflictTupleInfo conflicttuple = {0};
    bool        found;
 
    EvalPlanQualInit(&epqstate, estate, NULL, NIL, -1, NIL);
 
    /* Caller should have opened indexes already. */
    Assert(relinfo->ri_IndexRelationDescs != NULL ||
           !localrel->rd_rel->relhasindex ||
           RelationGetIndexList(localrel) == NIL);
 
    found = FindReplTupleInLocalRel(edata, localrel, remoterel, localindexoid,
                                    remoteslot, &localslot);
 
    /* If found delete it. */
    if (found)
    {
        /*
         * Report the conflict if the tuple was modified by a different
         * origin.
         */
        if (GetTupleTransactionInfo(localslot, &conflicttuple.xmin,
                                    &conflicttuple.origin, &conflicttuple.ts) &&
            conflicttuple.origin != replorigin_session_origin)
        {
            conflicttuple.slot = localslot;
            ReportApplyConflict(estate, relinfo, LOG, CT_DELETE_ORIGIN_DIFFERS,
                                remoteslot, NULL,
                                list_make1(&conflicttuple));
        }
 
        EvalPlanQualSetSlot(&epqstate, localslot);
 
        /* Do the actual delete. */
        TargetPrivilegesCheck(relinfo->ri_RelationDesc, ACL_DELETE);
        ExecSimpleRelationDelete(relinfo, estate, &epqstate, localslot);
    }
    else
    {
        /*
         * The tuple to be deleted could not be found.  Do nothing except for
         * emitting a log message.
         */
        ReportApplyConflict(estate, relinfo, LOG, CT_DELETE_MISSING,
                            remoteslot, NULL, list_make1(&conflicttuple));
    }
 
    /* Cleanup. */
    EvalPlanQualEnd(&epqstate);
}

References ACL_DELETE, Assert(), CT_DELETE_MISSING, CT_DELETE_ORIGIN_DIFFERS, ApplyExecutionData::estate, EvalPlanQualEnd(), EvalPlanQualInit(), EvalPlanQualSetSlot, ExecSimpleRelationDelete(), FindReplTupleInLocalRel(), GetTupleTransactionInfo(), list_make1, LOG, NIL, ConflictTupleInfo::origin, RelationData::rd_rel, RelationGetIndexList(), LogicalRepRelMapEntry::remoterel, replorigin_session_origin, ReportApplyConflict(), ResultRelInfo::ri_IndexRelationDescs, ResultRelInfo::ri_RelationDesc, ConflictTupleInfo::slot, TargetPrivilegesCheck(), ApplyExecutionData::targetRel, ConflictTupleInfo::ts, and ConflictTupleInfo::xmin.

Referenced by apply_handle_delete(), and apply_handle_tuple_routing().

◆ apply_handle_insert()

static void apply_handle_insert ( StringInfo s )

static

Definition at line 2608 of file worker.c.

{
    LogicalRepRelMapEntry *rel;
    LogicalRepTupleData newtup;
    LogicalRepRelId relid;
    UserContext ucxt;
    ApplyExecutionData *edata;
    EState     *estate;
    TupleTableSlot *remoteslot;
    MemoryContext oldctx;
    bool        run_as_owner;
 
    /*
     * Quick return if we are skipping data modification changes or handling
     * streamed transactions.
     */
    if (is_skipping_changes() ||
        handle_streamed_transaction(LOGICAL_REP_MSG_INSERT, s))
        return;
 
    begin_replication_step();
 
    relid = logicalrep_read_insert(s, &newtup);
    rel = logicalrep_rel_open(relid, RowExclusiveLock);
    if (!should_apply_changes_for_rel(rel))
    {
        /*
         * The relation can't become interesting in the middle of the
         * transaction so it's safe to unlock it.
         */
        logicalrep_rel_close(rel, RowExclusiveLock);
        end_replication_step();
        return;
    }
 
    /*
     * Make sure that any user-supplied code runs as the table owner, unless
     * the user has opted out of that behavior.
     */
    run_as_owner = MySubscription->runasowner;
    if (!run_as_owner)
        SwitchToUntrustedUser(rel->localrel->rd_rel->relowner, &ucxt);
 
    /* Set relation for error callback */
    apply_error_callback_arg.rel = rel;
 
    /* Initialize the executor state. */
    edata = create_edata_for_relation(rel);
    estate = edata->estate;
    remoteslot = ExecInitExtraTupleSlot(estate,
                                        RelationGetDescr(rel->localrel),
                                        &TTSOpsVirtual);
 
    /* Process and store remote tuple in the slot */
    oldctx = MemoryContextSwitchTo(GetPerTupleMemoryContext(estate));
    slot_store_data(remoteslot, rel, &newtup);
    slot_fill_defaults(rel, estate, remoteslot);
    MemoryContextSwitchTo(oldctx);
 
    /* For a partitioned table, insert the tuple into a partition. */
    if (rel->localrel->rd_rel->relkind == RELKIND_PARTITIONED_TABLE)
        apply_handle_tuple_routing(edata,
                                   remoteslot, NULL, CMD_INSERT);
    else
    {
        ResultRelInfo *relinfo = edata->targetRelInfo;
 
        ExecOpenIndices(relinfo, false);
        apply_handle_insert_internal(edata, relinfo, remoteslot);
        ExecCloseIndices(relinfo);
    }
 
    finish_edata(edata);
 
    /* Reset relation for error callback */
    apply_error_callback_arg.rel = NULL;
 
    if (!run_as_owner)
        RestoreUserContext(&ucxt);
 
    logicalrep_rel_close(rel, NoLock);
 
    end_replication_step();
}

References apply_error_callback_arg, apply_handle_insert_internal(), apply_handle_tuple_routing(), begin_replication_step(), CMD_INSERT, create_edata_for_relation(), end_replication_step(), ApplyExecutionData::estate, ExecCloseIndices(), ExecInitExtraTupleSlot(), ExecOpenIndices(), finish_edata(), GetPerTupleMemoryContext, handle_streamed_transaction(), is_skipping_changes, LogicalRepRelMapEntry::localrel, LOGICAL_REP_MSG_INSERT, logicalrep_read_insert(), logicalrep_rel_close(), logicalrep_rel_open(), MemoryContextSwitchTo(), MySubscription, NoLock, RelationData::rd_rel, ApplyErrorCallbackArg::rel, RelationGetDescr, RestoreUserContext(), RowExclusiveLock, Subscription::runasowner, should_apply_changes_for_rel(), slot_fill_defaults(), slot_store_data(), SwitchToUntrustedUser(), ApplyExecutionData::targetRelInfo, and TTSOpsVirtual.

Referenced by apply_dispatch().

◆ apply_handle_insert_internal()

static void apply_handle_insert_internal	(	ApplyExecutionData *	edata,
		ResultRelInfo *	relinfo,
		TupleTableSlot *	remoteslot
	)

static

Definition at line 2699 of file worker.c.

{
    EState     *estate = edata->estate;
 
    /* Caller should have opened indexes already. */
    Assert(relinfo->ri_IndexRelationDescs != NULL ||
           !relinfo->ri_RelationDesc->rd_rel->relhasindex ||
           RelationGetIndexList(relinfo->ri_RelationDesc) == NIL);
 
    /* Caller will not have done this bit. */
    Assert(relinfo->ri_onConflictArbiterIndexes == NIL);
    InitConflictIndexes(relinfo);
 
    /* Do the insert. */
    TargetPrivilegesCheck(relinfo->ri_RelationDesc, ACL_INSERT);
    ExecSimpleRelationInsert(relinfo, estate, remoteslot);
}

References ACL_INSERT, Assert(), ApplyExecutionData::estate, ExecSimpleRelationInsert(), InitConflictIndexes(), NIL, RelationData::rd_rel, RelationGetIndexList(), ResultRelInfo::ri_IndexRelationDescs, ResultRelInfo::ri_onConflictArbiterIndexes, ResultRelInfo::ri_RelationDesc, and TargetPrivilegesCheck().

Referenced by apply_handle_insert(), and apply_handle_tuple_routing().

◆ apply_handle_origin()

static void apply_handle_origin ( StringInfo s )

static

Definition at line 1645 of file worker.c.

{
    /*
     * ORIGIN message can only come inside streaming transaction or inside
     * remote transaction and before any actual writes.
     */
    if (!in_streamed_transaction &&
        (!in_remote_transaction ||
         (IsTransactionState() && !am_tablesync_worker())))
        ereport(ERROR,
                (errcode(ERRCODE_PROTOCOL_VIOLATION),
                 errmsg_internal("ORIGIN message sent out of order")));
}

References am_tablesync_worker(), ereport, errcode(), errmsg_internal(), ERROR, in_remote_transaction, in_streamed_transaction, and IsTransactionState().

Referenced by apply_dispatch().

◆ apply_handle_prepare()

static void apply_handle_prepare ( StringInfo s )

static

Definition at line 1322 of file worker.c.

{
    LogicalRepPreparedTxnData prepare_data;
 
    logicalrep_read_prepare(s, &prepare_data);
 
    if (prepare_data.prepare_lsn != remote_final_lsn)
        ereport(ERROR,
                (errcode(ERRCODE_PROTOCOL_VIOLATION),
                 errmsg_internal("incorrect prepare LSN %X/%08X in prepare message (expected %X/%08X)",
                                 LSN_FORMAT_ARGS(prepare_data.prepare_lsn),
                                 LSN_FORMAT_ARGS(remote_final_lsn))));
 
    /*
     * Unlike commit, here, we always prepare the transaction even though no
     * change has happened in this transaction or all changes are skipped. It
     * is done this way because at commit prepared time, we won't know whether
     * we have skipped preparing a transaction because of those reasons.
     *
     * XXX, We can optimize such that at commit prepared time, we first check
     * whether we have prepared the transaction or not but that doesn't seem
     * worthwhile because such cases shouldn't be common.
     */
    begin_replication_step();
 
    apply_handle_prepare_internal(&prepare_data);
 
    end_replication_step();
    CommitTransactionCommand();
    pgstat_report_stat(false);
 
    /*
     * It is okay not to set the local_end LSN for the prepare because we
     * always flush the prepare record. So, we can send the acknowledgment of
     * the remote_end LSN as soon as prepare is finished.
     *
     * XXX For the sake of consistency with commit, we could have set it with
     * the LSN of prepare but as of now we don't track that value similar to
     * XactLastCommitEnd, and adding it for this purpose doesn't seems worth
     * it.
     */
    store_flush_position(prepare_data.end_lsn, InvalidXLogRecPtr);
 
    in_remote_transaction = false;
 
    /* Process any tables that are being synchronized in parallel. */
    process_syncing_tables(prepare_data.end_lsn);
 
    /*
     * Since we have already prepared the transaction, in a case where the
     * server crashes before clearing the subskiplsn, it will be left but the
     * transaction won't be resent. But that's okay because it's a rare case
     * and the subskiplsn will be cleared when finishing the next transaction.
     */
    stop_skipping_changes();
    clear_subscription_skip_lsn(prepare_data.prepare_lsn);
 
    pgstat_report_activity(STATE_IDLE, NULL);
    reset_apply_error_context_info();
}

References apply_handle_prepare_internal(), begin_replication_step(), clear_subscription_skip_lsn(), CommitTransactionCommand(), LogicalRepPreparedTxnData::end_lsn, end_replication_step(), ereport, errcode(), errmsg_internal(), ERROR, in_remote_transaction, InvalidXLogRecPtr, logicalrep_read_prepare(), LSN_FORMAT_ARGS, pgstat_report_activity(), pgstat_report_stat(), LogicalRepPreparedTxnData::prepare_lsn, process_syncing_tables(), remote_final_lsn, reset_apply_error_context_info(), STATE_IDLE, stop_skipping_changes(), and store_flush_position().

Referenced by apply_dispatch().

◆ apply_handle_prepare_internal()

static void apply_handle_prepare_internal ( LogicalRepPreparedTxnData * prepare_data )

static

Definition at line 1285 of file worker.c.

{
    char        gid[GIDSIZE];
 
    /*
     * Compute unique GID for two_phase transactions. We don't use GID of
     * prepared transaction sent by server as that can lead to deadlock when
     * we have multiple subscriptions from same node point to publications on
     * the same node. See comments atop worker.c
     */
    TwoPhaseTransactionGid(MySubscription->oid, prepare_data->xid,
                           gid, sizeof(gid));
 
    /*
     * BeginTransactionBlock is necessary to balance the EndTransactionBlock
     * called within the PrepareTransactionBlock below.
     */
    if (!IsTransactionBlock())
    {
        BeginTransactionBlock();
        CommitTransactionCommand(); /* Completes the preceding Begin command. */
    }
 
    /*
     * Update origin state so we can restart streaming from correct position
     * in case of crash.
     */
    replorigin_session_origin_lsn = prepare_data->end_lsn;
    replorigin_session_origin_timestamp = prepare_data->prepare_time;
 
    PrepareTransactionBlock(gid);
}

References BeginTransactionBlock(), CommitTransactionCommand(), LogicalRepPreparedTxnData::end_lsn, GIDSIZE, IsTransactionBlock(), MySubscription, Subscription::oid, LogicalRepPreparedTxnData::prepare_time, PrepareTransactionBlock(), replorigin_session_origin_lsn, replorigin_session_origin_timestamp, TwoPhaseTransactionGid(), and LogicalRepPreparedTxnData::xid.

Referenced by apply_handle_prepare(), and apply_handle_stream_prepare().

◆ apply_handle_relation()

static void apply_handle_relation ( StringInfo s )

static

Definition at line 2538 of file worker.c.

{
    LogicalRepRelation *rel;
 
    if (handle_streamed_transaction(LOGICAL_REP_MSG_RELATION, s))
        return;
 
    rel = logicalrep_read_rel(s);
    logicalrep_relmap_update(rel);
 
    /* Also reset all entries in the partition map that refer to remoterel. */
    logicalrep_partmap_reset_relmap(rel);
}

References handle_streamed_transaction(), LOGICAL_REP_MSG_RELATION, logicalrep_partmap_reset_relmap(), logicalrep_read_rel(), and logicalrep_relmap_update().

Referenced by apply_dispatch().

◆ apply_handle_rollback_prepared()

static void apply_handle_rollback_prepared ( StringInfo s )

static

Definition at line 1442 of file worker.c.

{
    LogicalRepRollbackPreparedTxnData rollback_data;
    char        gid[GIDSIZE];
 
    logicalrep_read_rollback_prepared(s, &rollback_data);
    set_apply_error_context_xact(rollback_data.xid, rollback_data.rollback_end_lsn);
 
    /* Compute GID for two_phase transactions. */
    TwoPhaseTransactionGid(MySubscription->oid, rollback_data.xid,
                           gid, sizeof(gid));
 
    /*
     * It is possible that we haven't received prepare because it occurred
     * before walsender reached a consistent point or the two_phase was still
     * not enabled by that time, so in such cases, we need to skip rollback
     * prepared.
     */
    if (LookupGXact(gid, rollback_data.prepare_end_lsn,
                    rollback_data.prepare_time))
    {
        /*
         * Update origin state so we can restart streaming from correct
         * position in case of crash.
         */
        replorigin_session_origin_lsn = rollback_data.rollback_end_lsn;
        replorigin_session_origin_timestamp = rollback_data.rollback_time;
 
        /* There is no transaction when ABORT/ROLLBACK PREPARED is called */
        begin_replication_step();
        FinishPreparedTransaction(gid, false);
        end_replication_step();
        CommitTransactionCommand();
 
        clear_subscription_skip_lsn(rollback_data.rollback_end_lsn);
    }
 
    pgstat_report_stat(false);
 
    /*
     * It is okay not to set the local_end LSN for the rollback of prepared
     * transaction because we always flush the WAL record for it. See
     * apply_handle_prepare.
     */
    store_flush_position(rollback_data.rollback_end_lsn, InvalidXLogRecPtr);
    in_remote_transaction = false;
 
    /* Process any tables that are being synchronized in parallel. */
    process_syncing_tables(rollback_data.rollback_end_lsn);
 
    pgstat_report_activity(STATE_IDLE, NULL);
    reset_apply_error_context_info();
}

References begin_replication_step(), clear_subscription_skip_lsn(), CommitTransactionCommand(), end_replication_step(), FinishPreparedTransaction(), GIDSIZE, in_remote_transaction, InvalidXLogRecPtr, logicalrep_read_rollback_prepared(), LookupGXact(), MySubscription, Subscription::oid, pgstat_report_activity(), pgstat_report_stat(), LogicalRepRollbackPreparedTxnData::prepare_end_lsn, LogicalRepRollbackPreparedTxnData::prepare_time, process_syncing_tables(), replorigin_session_origin_lsn, replorigin_session_origin_timestamp, reset_apply_error_context_info(), LogicalRepRollbackPreparedTxnData::rollback_end_lsn, LogicalRepRollbackPreparedTxnData::rollback_time, set_apply_error_context_xact(), STATE_IDLE, store_flush_position(), TwoPhaseTransactionGid(), and LogicalRepRollbackPreparedTxnData::xid.

Referenced by apply_dispatch().

◆ apply_handle_stream_abort()

static void apply_handle_stream_abort ( StringInfo s )

static

Definition at line 2049 of file worker.c.

{
    TransactionId xid;
    TransactionId subxid;
    LogicalRepStreamAbortData abort_data;
    ParallelApplyWorkerInfo *winfo;
    TransApplyAction apply_action;
 
    /* Save the message before it is consumed. */
    StringInfoData original_msg = *s;
    bool        toplevel_xact;
 
    if (in_streamed_transaction)
        ereport(ERROR,
                (errcode(ERRCODE_PROTOCOL_VIOLATION),
                 errmsg_internal("STREAM ABORT message without STREAM STOP")));
 
    /* We receive abort information only when we can apply in parallel. */
    logicalrep_read_stream_abort(s, &abort_data,
                                 MyLogicalRepWorker->parallel_apply);
 
    xid = abort_data.xid;
    subxid = abort_data.subxid;
    toplevel_xact = (xid == subxid);
 
    set_apply_error_context_xact(subxid, abort_data.abort_lsn);
 
    apply_action = get_transaction_apply_action(xid, &winfo);
 
    switch (apply_action)
    {
        case TRANS_LEADER_APPLY:
 
            /*
             * We are in the leader apply worker and the transaction has been
             * serialized to file.
             */
            stream_abort_internal(xid, subxid);
 
            elog(DEBUG1, "finished processing the STREAM ABORT command");
            break;
 
        case TRANS_LEADER_SEND_TO_PARALLEL:
            Assert(winfo);
 
            /*
             * For the case of aborting the subtransaction, we increment the
             * number of streaming blocks and take the lock again before
             * sending the STREAM_ABORT to ensure that the parallel apply
             * worker will wait on the lock for the next set of changes after
             * processing the STREAM_ABORT message if it is not already
             * waiting for STREAM_STOP message.
             *
             * It is important to perform this locking before sending the
             * STREAM_ABORT message so that the leader can hold the lock first
             * and the parallel apply worker will wait for the leader to
             * release the lock. This is the same as what we do in
             * apply_handle_stream_stop. See Locking Considerations atop
             * applyparallelworker.c.
             */
            if (!toplevel_xact)
            {
                pa_unlock_stream(xid, AccessExclusiveLock);
                pg_atomic_add_fetch_u32(&winfo->shared->pending_stream_count, 1);
                pa_lock_stream(xid, AccessExclusiveLock);
            }
 
            if (pa_send_data(winfo, s->len, s->data))
            {
                /*
                 * Unlike STREAM_COMMIT and STREAM_PREPARE, we don't need to
                 * wait here for the parallel apply worker to finish as that
                 * is not required to maintain the commit order and won't have
                 * the risk of failures due to transaction dependencies and
                 * deadlocks. However, it is possible that before the parallel
                 * worker finishes and we clear the worker info, the xid
                 * wraparound happens on the upstream and a new transaction
                 * with the same xid can appear and that can lead to duplicate
                 * entries in ParallelApplyTxnHash. Yet another problem could
                 * be that we may have serialized the changes in partial
                 * serialize mode and the file containing xact changes may
                 * already exist, and after xid wraparound trying to create
                 * the file for the same xid can lead to an error. To avoid
                 * these problems, we decide to wait for the aborts to finish.
                 *
                 * Note, it is okay to not update the flush location position
                 * for aborts as in worst case that means such a transaction
                 * won't be sent again after restart.
                 */
                if (toplevel_xact)
                    pa_xact_finish(winfo, InvalidXLogRecPtr);
 
                break;
            }
 
            /*
             * Switch to serialize mode when we are not able to send the
             * change to parallel apply worker.
             */
            pa_switch_to_partial_serialize(winfo, true);
 
            /* fall through */
        case TRANS_LEADER_PARTIAL_SERIALIZE:
            Assert(winfo);
 
            /*
             * Parallel apply worker might have applied some changes, so write
             * the STREAM_ABORT message so that it can rollback the
             * subtransaction if needed.
             */
            stream_open_and_write_change(xid, LOGICAL_REP_MSG_STREAM_ABORT,
                                         &original_msg);
 
            if (toplevel_xact)
            {
                pa_set_fileset_state(winfo->shared, FS_SERIALIZE_DONE);
                pa_xact_finish(winfo, InvalidXLogRecPtr);
            }
            break;
 
        case TRANS_PARALLEL_APPLY:
 
            /*
             * If the parallel apply worker is applying spooled messages then
             * close the file before aborting.
             */
            if (toplevel_xact && stream_fd)
                stream_close_file();
 
            pa_stream_abort(&abort_data);
 
            /*
             * We need to wait after processing rollback to savepoint for the
             * next set of changes.
             *
             * We have a race condition here due to which we can start waiting
             * here when there are more chunk of streams in the queue. See
             * apply_handle_stream_stop.
             */
            if (!toplevel_xact)
                pa_decr_and_wait_stream_block();
 
            elog(DEBUG1, "finished processing the STREAM ABORT command");
            break;
 
        default:
            elog(ERROR, "unexpected apply action: %d", (int) apply_action);
            break;
    }
 
    reset_apply_error_context_info();
}

References LogicalRepStreamAbortData::abort_lsn, AccessExclusiveLock, Assert(), StringInfoData::data, DEBUG1, elog, ereport, errcode(), errmsg_internal(), ERROR, FS_SERIALIZE_DONE, get_transaction_apply_action(), in_streamed_transaction, InvalidXLogRecPtr, StringInfoData::len, LOGICAL_REP_MSG_STREAM_ABORT, logicalrep_read_stream_abort(), MyLogicalRepWorker, pa_decr_and_wait_stream_block(), pa_lock_stream(), pa_send_data(), pa_set_fileset_state(), pa_stream_abort(), pa_switch_to_partial_serialize(), pa_unlock_stream(), pa_xact_finish(), LogicalRepWorker::parallel_apply, ParallelApplyWorkerShared::pending_stream_count, pg_atomic_add_fetch_u32(), reset_apply_error_context_info(), set_apply_error_context_xact(), ParallelApplyWorkerInfo::shared, stream_abort_internal(), stream_close_file(), stream_fd, stream_open_and_write_change(), LogicalRepStreamAbortData::subxid, TRANS_LEADER_APPLY, TRANS_LEADER_PARTIAL_SERIALIZE, TRANS_LEADER_SEND_TO_PARALLEL, TRANS_PARALLEL_APPLY, and LogicalRepStreamAbortData::xid.

Referenced by apply_dispatch().

◆ apply_handle_stream_commit()

static void apply_handle_stream_commit ( StringInfo s )

static

Definition at line 2368 of file worker.c.

{
    TransactionId xid;
    LogicalRepCommitData commit_data;
    ParallelApplyWorkerInfo *winfo;
    TransApplyAction apply_action;
 
    /* Save the message before it is consumed. */
    StringInfoData original_msg = *s;
 
    if (in_streamed_transaction)
        ereport(ERROR,
                (errcode(ERRCODE_PROTOCOL_VIOLATION),
                 errmsg_internal("STREAM COMMIT message without STREAM STOP")));
 
    xid = logicalrep_read_stream_commit(s, &commit_data);
    set_apply_error_context_xact(xid, commit_data.commit_lsn);
 
    apply_action = get_transaction_apply_action(xid, &winfo);
 
    switch (apply_action)
    {
        case TRANS_LEADER_APPLY:
 
            /*
             * The transaction has been serialized to file, so replay all the
             * spooled operations.
             */
            apply_spooled_messages(MyLogicalRepWorker->stream_fileset, xid,
                                   commit_data.commit_lsn);
 
            apply_handle_commit_internal(&commit_data);
 
            /* Unlink the files with serialized changes and subxact info. */
            stream_cleanup_files(MyLogicalRepWorker->subid, xid);
 
            elog(DEBUG1, "finished processing the STREAM COMMIT command");
            break;
 
        case TRANS_LEADER_SEND_TO_PARALLEL:
            Assert(winfo);
 
            if (pa_send_data(winfo, s->len, s->data))
            {
                /* Finish processing the streaming transaction. */
                pa_xact_finish(winfo, commit_data.end_lsn);
                break;
            }
 
            /*
             * Switch to serialize mode when we are not able to send the
             * change to parallel apply worker.
             */
            pa_switch_to_partial_serialize(winfo, true);
 
            /* fall through */
        case TRANS_LEADER_PARTIAL_SERIALIZE:
            Assert(winfo);
 
            stream_open_and_write_change(xid, LOGICAL_REP_MSG_STREAM_COMMIT,
                                         &original_msg);
 
            pa_set_fileset_state(winfo->shared, FS_SERIALIZE_DONE);
 
            /* Finish processing the streaming transaction. */
            pa_xact_finish(winfo, commit_data.end_lsn);
            break;
 
        case TRANS_PARALLEL_APPLY:
 
            /*
             * If the parallel apply worker is applying spooled messages then
             * close the file before committing.
             */
            if (stream_fd)
                stream_close_file();
 
            apply_handle_commit_internal(&commit_data);
 
            MyParallelShared->last_commit_end = XactLastCommitEnd;
 
            /*
             * It is important to set the transaction state as finished before
             * releasing the lock. See pa_wait_for_xact_finish.
             */
            pa_set_xact_state(MyParallelShared, PARALLEL_TRANS_FINISHED);
            pa_unlock_transaction(xid, AccessExclusiveLock);
 
            pa_reset_subtrans();
 
            elog(DEBUG1, "finished processing the STREAM COMMIT command");
            break;
 
        default:
            elog(ERROR, "unexpected apply action: %d", (int) apply_action);
            break;
    }
 
    /* Process any tables that are being synchronized in parallel. */
    process_syncing_tables(commit_data.end_lsn);
 
    pgstat_report_activity(STATE_IDLE, NULL);
 
    reset_apply_error_context_info();
}

References AccessExclusiveLock, apply_handle_commit_internal(), apply_spooled_messages(), Assert(), LogicalRepCommitData::commit_lsn, StringInfoData::data, DEBUG1, elog, LogicalRepCommitData::end_lsn, ereport, errcode(), errmsg_internal(), ERROR, FS_SERIALIZE_DONE, get_transaction_apply_action(), in_streamed_transaction, ParallelApplyWorkerShared::last_commit_end, StringInfoData::len, LOGICAL_REP_MSG_STREAM_COMMIT, logicalrep_read_stream_commit(), MyLogicalRepWorker, MyParallelShared, pa_reset_subtrans(), pa_send_data(), pa_set_fileset_state(), pa_set_xact_state(), pa_switch_to_partial_serialize(), pa_unlock_transaction(), pa_xact_finish(), PARALLEL_TRANS_FINISHED, pgstat_report_activity(), process_syncing_tables(), reset_apply_error_context_info(), set_apply_error_context_xact(), ParallelApplyWorkerInfo::shared, STATE_IDLE, stream_cleanup_files(), stream_close_file(), stream_fd, LogicalRepWorker::stream_fileset, stream_open_and_write_change(), LogicalRepWorker::subid, TRANS_LEADER_APPLY, TRANS_LEADER_PARTIAL_SERIALIZE, TRANS_LEADER_SEND_TO_PARALLEL, TRANS_PARALLEL_APPLY, and XactLastCommitEnd.

Referenced by apply_dispatch().

◆ apply_handle_stream_prepare()

static void apply_handle_stream_prepare ( StringInfo s )

static

Definition at line 1500 of file worker.c.

{
    LogicalRepPreparedTxnData prepare_data;
    ParallelApplyWorkerInfo *winfo;
    TransApplyAction apply_action;
 
    /* Save the message before it is consumed. */
    StringInfoData original_msg = *s;
 
    if (in_streamed_transaction)
        ereport(ERROR,
                (errcode(ERRCODE_PROTOCOL_VIOLATION),
                 errmsg_internal("STREAM PREPARE message without STREAM STOP")));
 
    /* Tablesync should never receive prepare. */
    if (am_tablesync_worker())
        ereport(ERROR,
                (errcode(ERRCODE_PROTOCOL_VIOLATION),
                 errmsg_internal("tablesync worker received a STREAM PREPARE message")));
 
    logicalrep_read_stream_prepare(s, &prepare_data);
    set_apply_error_context_xact(prepare_data.xid, prepare_data.prepare_lsn);
 
    apply_action = get_transaction_apply_action(prepare_data.xid, &winfo);
 
    switch (apply_action)
    {
        case TRANS_LEADER_APPLY:
 
            /*
             * The transaction has been serialized to file, so replay all the
             * spooled operations.
             */
            apply_spooled_messages(MyLogicalRepWorker->stream_fileset,
                                   prepare_data.xid, prepare_data.prepare_lsn);
 
            /* Mark the transaction as prepared. */
            apply_handle_prepare_internal(&prepare_data);
 
            CommitTransactionCommand();
 
            /*
             * It is okay not to set the local_end LSN for the prepare because
             * we always flush the prepare record. See apply_handle_prepare.
             */
            store_flush_position(prepare_data.end_lsn, InvalidXLogRecPtr);
 
            in_remote_transaction = false;
 
            /* Unlink the files with serialized changes and subxact info. */
            stream_cleanup_files(MyLogicalRepWorker->subid, prepare_data.xid);
 
            elog(DEBUG1, "finished processing the STREAM PREPARE command");
            break;
 
        case TRANS_LEADER_SEND_TO_PARALLEL:
            Assert(winfo);
 
            if (pa_send_data(winfo, s->len, s->data))
            {
                /* Finish processing the streaming transaction. */
                pa_xact_finish(winfo, prepare_data.end_lsn);
                break;
            }
 
            /*
             * Switch to serialize mode when we are not able to send the
             * change to parallel apply worker.
             */
            pa_switch_to_partial_serialize(winfo, true);
 
            /* fall through */
        case TRANS_LEADER_PARTIAL_SERIALIZE:
            Assert(winfo);
 
            stream_open_and_write_change(prepare_data.xid,
                                         LOGICAL_REP_MSG_STREAM_PREPARE,
                                         &original_msg);
 
            pa_set_fileset_state(winfo->shared, FS_SERIALIZE_DONE);
 
            /* Finish processing the streaming transaction. */
            pa_xact_finish(winfo, prepare_data.end_lsn);
            break;
 
        case TRANS_PARALLEL_APPLY:
 
            /*
             * If the parallel apply worker is applying spooled messages then
             * close the file before preparing.
             */
            if (stream_fd)
                stream_close_file();
 
            begin_replication_step();
 
            /* Mark the transaction as prepared. */
            apply_handle_prepare_internal(&prepare_data);
 
            end_replication_step();
 
            CommitTransactionCommand();
 
            /*
             * It is okay not to set the local_end LSN for the prepare because
             * we always flush the prepare record. See apply_handle_prepare.
             */
            MyParallelShared->last_commit_end = InvalidXLogRecPtr;
 
            pa_set_xact_state(MyParallelShared, PARALLEL_TRANS_FINISHED);
            pa_unlock_transaction(MyParallelShared->xid, AccessExclusiveLock);
 
            pa_reset_subtrans();
 
            elog(DEBUG1, "finished processing the STREAM PREPARE command");
            break;
 
        default:
            elog(ERROR, "unexpected apply action: %d", (int) apply_action);
            break;
    }
 
    pgstat_report_stat(false);
 
    /* Process any tables that are being synchronized in parallel. */
    process_syncing_tables(prepare_data.end_lsn);
 
    /*
     * Similar to prepare case, the subskiplsn could be left in a case of
     * server crash but it's okay. See the comments in apply_handle_prepare().
     */
    stop_skipping_changes();
    clear_subscription_skip_lsn(prepare_data.prepare_lsn);
 
    pgstat_report_activity(STATE_IDLE, NULL);
 
    reset_apply_error_context_info();
}

References AccessExclusiveLock, am_tablesync_worker(), apply_handle_prepare_internal(), apply_spooled_messages(), Assert(), begin_replication_step(), clear_subscription_skip_lsn(), CommitTransactionCommand(), StringInfoData::data, DEBUG1, elog, LogicalRepPreparedTxnData::end_lsn, end_replication_step(), ereport, errcode(), errmsg_internal(), ERROR, FS_SERIALIZE_DONE, get_transaction_apply_action(), in_remote_transaction, in_streamed_transaction, InvalidXLogRecPtr, ParallelApplyWorkerShared::last_commit_end, StringInfoData::len, LOGICAL_REP_MSG_STREAM_PREPARE, logicalrep_read_stream_prepare(), MyLogicalRepWorker, MyParallelShared, pa_reset_subtrans(), pa_send_data(), pa_set_fileset_state(), pa_set_xact_state(), pa_switch_to_partial_serialize(), pa_unlock_transaction(), pa_xact_finish(), PARALLEL_TRANS_FINISHED, pgstat_report_activity(), pgstat_report_stat(), LogicalRepPreparedTxnData::prepare_lsn, process_syncing_tables(), reset_apply_error_context_info(), set_apply_error_context_xact(), ParallelApplyWorkerInfo::shared, STATE_IDLE, stop_skipping_changes(), store_flush_position(), stream_cleanup_files(), stream_close_file(), stream_fd, LogicalRepWorker::stream_fileset, stream_open_and_write_change(), LogicalRepWorker::subid, TRANS_LEADER_APPLY, TRANS_LEADER_PARTIAL_SERIALIZE, TRANS_LEADER_SEND_TO_PARALLEL, TRANS_PARALLEL_APPLY, LogicalRepPreparedTxnData::xid, and ParallelApplyWorkerShared::xid.

Referenced by apply_dispatch().

◆ apply_handle_stream_start()

static void apply_handle_stream_start ( StringInfo s )

static

Definition at line 1704 of file worker.c.

{
    bool        first_segment;
    ParallelApplyWorkerInfo *winfo;
    TransApplyAction apply_action;
 
    /* Save the message before it is consumed. */
    StringInfoData original_msg = *s;
 
    if (in_streamed_transaction)
        ereport(ERROR,
                (errcode(ERRCODE_PROTOCOL_VIOLATION),
                 errmsg_internal("duplicate STREAM START message")));
 
    /* There must not be an active streaming transaction. */
    Assert(!TransactionIdIsValid(stream_xid));
 
    /* notify handle methods we're processing a remote transaction */
    in_streamed_transaction = true;
 
    /* extract XID of the top-level transaction */
    stream_xid = logicalrep_read_stream_start(s, &first_segment);
 
    if (!TransactionIdIsValid(stream_xid))
        ereport(ERROR,
                (errcode(ERRCODE_PROTOCOL_VIOLATION),
                 errmsg_internal("invalid transaction ID in streamed replication transaction")));
 
    set_apply_error_context_xact(stream_xid, InvalidXLogRecPtr);
 
    /* Try to allocate a worker for the streaming transaction. */
    if (first_segment)
        pa_allocate_worker(stream_xid);
 
    apply_action = get_transaction_apply_action(stream_xid, &winfo);
 
    switch (apply_action)
    {
        case TRANS_LEADER_SERIALIZE:
 
            /*
             * Function stream_start_internal starts a transaction. This
             * transaction will be committed on the stream stop unless it is a
             * tablesync worker in which case it will be committed after
             * processing all the messages. We need this transaction for
             * handling the BufFile, used for serializing the streaming data
             * and subxact info.
             */
            stream_start_internal(stream_xid, first_segment);
            break;
 
        case TRANS_LEADER_SEND_TO_PARALLEL:
            Assert(winfo);
 
            /*
             * Once we start serializing the changes, the parallel apply
             * worker will wait for the leader to release the stream lock
             * until the end of the transaction. So, we don't need to release
             * the lock or increment the stream count in that case.
             */
            if (pa_send_data(winfo, s->len, s->data))
            {
                /*
                 * Unlock the shared object lock so that the parallel apply
                 * worker can continue to receive changes.
                 */
                if (!first_segment)
                    pa_unlock_stream(winfo->shared->xid, AccessExclusiveLock);
 
                /*
                 * Increment the number of streaming blocks waiting to be
                 * processed by parallel apply worker.
                 */
                pg_atomic_add_fetch_u32(&winfo->shared->pending_stream_count, 1);
 
                /* Cache the parallel apply worker for this transaction. */
                pa_set_stream_apply_worker(winfo);
                break;
            }
 
            /*
             * Switch to serialize mode when we are not able to send the
             * change to parallel apply worker.
             */
            pa_switch_to_partial_serialize(winfo, !first_segment);
 
            /* fall through */
        case TRANS_LEADER_PARTIAL_SERIALIZE:
            Assert(winfo);
 
            /*
             * Open the spool file unless it was already opened when switching
             * to serialize mode. The transaction started in
             * stream_start_internal will be committed on the stream stop.
             */
            if (apply_action != TRANS_LEADER_SEND_TO_PARALLEL)
                stream_start_internal(stream_xid, first_segment);
 
            stream_write_change(LOGICAL_REP_MSG_STREAM_START, &original_msg);
 
            /* Cache the parallel apply worker for this transaction. */
            pa_set_stream_apply_worker(winfo);
            break;
 
        case TRANS_PARALLEL_APPLY:
            if (first_segment)
            {
                /* Hold the lock until the end of the transaction. */
                pa_lock_transaction(MyParallelShared->xid, AccessExclusiveLock);
                pa_set_xact_state(MyParallelShared, PARALLEL_TRANS_STARTED);
 
                /*
                 * Signal the leader apply worker, as it may be waiting for
                 * us.
                 */
                logicalrep_worker_wakeup(MyLogicalRepWorker->subid, InvalidOid);
            }
 
            parallel_stream_nchanges = 0;
            break;
 
        default:
            elog(ERROR, "unexpected apply action: %d", (int) apply_action);
            break;
    }
 
    pgstat_report_activity(STATE_RUNNING, NULL);
}

References AccessExclusiveLock, Assert(), StringInfoData::data, elog, ereport, errcode(), errmsg_internal(), ERROR, get_transaction_apply_action(), in_streamed_transaction, InvalidOid, InvalidXLogRecPtr, StringInfoData::len, LOGICAL_REP_MSG_STREAM_START, logicalrep_read_stream_start(), logicalrep_worker_wakeup(), MyLogicalRepWorker, MyParallelShared, pa_allocate_worker(), pa_lock_transaction(), pa_send_data(), pa_set_stream_apply_worker(), pa_set_xact_state(), pa_switch_to_partial_serialize(), pa_unlock_stream(), parallel_stream_nchanges, PARALLEL_TRANS_STARTED, ParallelApplyWorkerShared::pending_stream_count, pg_atomic_add_fetch_u32(), pgstat_report_activity(), set_apply_error_context_xact(), ParallelApplyWorkerInfo::shared, STATE_RUNNING, stream_start_internal(), stream_write_change(), stream_xid, LogicalRepWorker::subid, TRANS_LEADER_PARTIAL_SERIALIZE, TRANS_LEADER_SEND_TO_PARALLEL, TRANS_LEADER_SERIALIZE, TRANS_PARALLEL_APPLY, TransactionIdIsValid, and ParallelApplyWorkerShared::xid.

Referenced by apply_dispatch().

◆ apply_handle_stream_stop()

static void apply_handle_stream_stop ( StringInfo s )

static

Definition at line 1863 of file worker.c.

{
    ParallelApplyWorkerInfo *winfo;
    TransApplyAction apply_action;
 
    if (!in_streamed_transaction)
        ereport(ERROR,
                (errcode(ERRCODE_PROTOCOL_VIOLATION),
                 errmsg_internal("STREAM STOP message without STREAM START")));
 
    apply_action = get_transaction_apply_action(stream_xid, &winfo);
 
    switch (apply_action)
    {
        case TRANS_LEADER_SERIALIZE:
            stream_stop_internal(stream_xid);
            break;
 
        case TRANS_LEADER_SEND_TO_PARALLEL:
            Assert(winfo);
 
            /*
             * Lock before sending the STREAM_STOP message so that the leader
             * can hold the lock first and the parallel apply worker will wait
             * for leader to release the lock. See Locking Considerations atop
             * applyparallelworker.c.
             */
            pa_lock_stream(winfo->shared->xid, AccessExclusiveLock);
 
            if (pa_send_data(winfo, s->len, s->data))
            {
                pa_set_stream_apply_worker(NULL);
                break;
            }
 
            /*
             * Switch to serialize mode when we are not able to send the
             * change to parallel apply worker.
             */
            pa_switch_to_partial_serialize(winfo, true);
 
            /* fall through */
        case TRANS_LEADER_PARTIAL_SERIALIZE:
            stream_write_change(LOGICAL_REP_MSG_STREAM_STOP, s);
            stream_stop_internal(stream_xid);
            pa_set_stream_apply_worker(NULL);
            break;
 
        case TRANS_PARALLEL_APPLY:
            elog(DEBUG1, "applied %u changes in the streaming chunk",
                 parallel_stream_nchanges);
 
            /*
             * By the time parallel apply worker is processing the changes in
             * the current streaming block, the leader apply worker may have
             * sent multiple streaming blocks. This can lead to parallel apply
             * worker start waiting even when there are more chunk of streams
             * in the queue. So, try to lock only if there is no message left
             * in the queue. See Locking Considerations atop
             * applyparallelworker.c.
             *
             * Note that here we have a race condition where we can start
             * waiting even when there are pending streaming chunks. This can
             * happen if the leader sends another streaming block and acquires
             * the stream lock again after the parallel apply worker checks
             * that there is no pending streaming block and before it actually
             * starts waiting on a lock. We can handle this case by not
             * allowing the leader to increment the stream block count during
             * the time parallel apply worker acquires the lock but it is not
             * clear whether that is worth the complexity.
             *
             * Now, if this missed chunk contains rollback to savepoint, then
             * there is a risk of deadlock which probably shouldn't happen
             * after restart.
             */
            pa_decr_and_wait_stream_block();
            break;
 
        default:
            elog(ERROR, "unexpected apply action: %d", (int) apply_action);
            break;
    }
 
    in_streamed_transaction = false;
    stream_xid = InvalidTransactionId;
 
    /*
     * The parallel apply worker could be in a transaction in which case we
     * need to report the state as STATE_IDLEINTRANSACTION.
     */
    if (IsTransactionOrTransactionBlock())
        pgstat_report_activity(STATE_IDLEINTRANSACTION, NULL);
    else
        pgstat_report_activity(STATE_IDLE, NULL);
 
    reset_apply_error_context_info();
}

References AccessExclusiveLock, Assert(), StringInfoData::data, DEBUG1, elog, ereport, errcode(), errmsg_internal(), ERROR, get_transaction_apply_action(), in_streamed_transaction, InvalidTransactionId, IsTransactionOrTransactionBlock(), StringInfoData::len, LOGICAL_REP_MSG_STREAM_STOP, pa_decr_and_wait_stream_block(), pa_lock_stream(), pa_send_data(), pa_set_stream_apply_worker(), pa_switch_to_partial_serialize(), parallel_stream_nchanges, pgstat_report_activity(), reset_apply_error_context_info(), ParallelApplyWorkerInfo::shared, STATE_IDLE, STATE_IDLEINTRANSACTION, stream_stop_internal(), stream_write_change(), stream_xid, TRANS_LEADER_PARTIAL_SERIALIZE, TRANS_LEADER_SEND_TO_PARALLEL, TRANS_LEADER_SERIALIZE, TRANS_PARALLEL_APPLY, and ParallelApplyWorkerShared::xid.

Referenced by apply_dispatch().

◆ apply_handle_truncate()

static void apply_handle_truncate ( StringInfo s )

static

Definition at line 3619 of file worker.c.

{
    bool        cascade = false;
    bool        restart_seqs = false;
    List       *remote_relids = NIL;
    List       *remote_rels = NIL;
    List       *rels = NIL;
    List       *part_rels = NIL;
    List       *relids = NIL;
    List       *relids_logged = NIL;
    ListCell   *lc;
    LOCKMODE    lockmode = AccessExclusiveLock;
 
    /*
     * Quick return if we are skipping data modification changes or handling
     * streamed transactions.
     */
    if (is_skipping_changes() ||
        handle_streamed_transaction(LOGICAL_REP_MSG_TRUNCATE, s))
        return;
 
    begin_replication_step();
 
    remote_relids = logicalrep_read_truncate(s, &cascade, &restart_seqs);
 
    foreach(lc, remote_relids)
    {
        LogicalRepRelId relid = lfirst_oid(lc);
        LogicalRepRelMapEntry *rel;
 
        rel = logicalrep_rel_open(relid, lockmode);
        if (!should_apply_changes_for_rel(rel))
        {
            /*
             * The relation can't become interesting in the middle of the
             * transaction so it's safe to unlock it.
             */
            logicalrep_rel_close(rel, lockmode);
            continue;
        }
 
        remote_rels = lappend(remote_rels, rel);
        TargetPrivilegesCheck(rel->localrel, ACL_TRUNCATE);
        rels = lappend(rels, rel->localrel);
        relids = lappend_oid(relids, rel->localreloid);
        if (RelationIsLogicallyLogged(rel->localrel))
            relids_logged = lappend_oid(relids_logged, rel->localreloid);
 
        /*
         * Truncate partitions if we got a message to truncate a partitioned
         * table.
         */
        if (rel->localrel->rd_rel->relkind == RELKIND_PARTITIONED_TABLE)
        {
            ListCell   *child;
            List       *children = find_all_inheritors(rel->localreloid,
                                                       lockmode,
                                                       NULL);
 
            foreach(child, children)
            {
                Oid         childrelid = lfirst_oid(child);
                Relation    childrel;
 
                if (list_member_oid(relids, childrelid))
                    continue;
 
                /* find_all_inheritors already got lock */
                childrel = table_open(childrelid, NoLock);
 
                /*
                 * Ignore temp tables of other backends.  See similar code in
                 * ExecuteTruncate().
                 */
                if (RELATION_IS_OTHER_TEMP(childrel))
                {
                    table_close(childrel, lockmode);
                    continue;
                }
 
                TargetPrivilegesCheck(childrel, ACL_TRUNCATE);
                rels = lappend(rels, childrel);
                part_rels = lappend(part_rels, childrel);
                relids = lappend_oid(relids, childrelid);
                /* Log this relation only if needed for logical decoding */
                if (RelationIsLogicallyLogged(childrel))
                    relids_logged = lappend_oid(relids_logged, childrelid);
            }
        }
    }
 
    /*
     * Even if we used CASCADE on the upstream primary we explicitly default
     * to replaying changes without further cascading. This might be later
     * changeable with a user specified option.
     *
     * MySubscription->runasowner tells us whether we want to execute
     * replication actions as the subscription owner; the last argument to
     * TruncateGuts tells it whether we want to switch to the table owner.
     * Those are exactly opposite conditions.
     */
    ExecuteTruncateGuts(rels,
                        relids,
                        relids_logged,
                        DROP_RESTRICT,
                        restart_seqs,
                        !MySubscription->runasowner);
    foreach(lc, remote_rels)
    {
        LogicalRepRelMapEntry *rel = lfirst(lc);
 
        logicalrep_rel_close(rel, NoLock);
    }
    foreach(lc, part_rels)
    {
        Relation    rel = lfirst(lc);
 
        table_close(rel, NoLock);
    }
 
    end_replication_step();
}

References AccessExclusiveLock, ACL_TRUNCATE, begin_replication_step(), DROP_RESTRICT, end_replication_step(), ExecuteTruncateGuts(), find_all_inheritors(), handle_streamed_transaction(), is_skipping_changes, lappend(), lappend_oid(), lfirst, lfirst_oid, list_member_oid(), LogicalRepRelMapEntry::localrel, LogicalRepRelMapEntry::localreloid, LOGICAL_REP_MSG_TRUNCATE, logicalrep_read_truncate(), logicalrep_rel_close(), logicalrep_rel_open(), MySubscription, NIL, NoLock, RelationData::rd_rel, RELATION_IS_OTHER_TEMP, RelationIsLogicallyLogged, Subscription::runasowner, should_apply_changes_for_rel(), table_close(), table_open(), and TargetPrivilegesCheck().

Referenced by apply_dispatch().

◆ apply_handle_tuple_routing()

static void apply_handle_tuple_routing	(	ApplyExecutionData *	edata,
		TupleTableSlot *	remoteslot,
		LogicalRepTupleData *	newtup,
		CmdType	operation
	)

static

Definition at line 3325 of file worker.c.

{
    EState     *estate = edata->estate;
    LogicalRepRelMapEntry *relmapentry = edata->targetRel;
    ResultRelInfo *relinfo = edata->targetRelInfo;
    Relation    parentrel = relinfo->ri_RelationDesc;
    ModifyTableState *mtstate;
    PartitionTupleRouting *proute;
    ResultRelInfo *partrelinfo;
    Relation    partrel;
    TupleTableSlot *remoteslot_part;
    TupleConversionMap *map;
    MemoryContext oldctx;
    LogicalRepRelMapEntry *part_entry = NULL;
    AttrMap    *attrmap = NULL;
 
    /* ModifyTableState is needed for ExecFindPartition(). */
    edata->mtstate = mtstate = makeNode(ModifyTableState);
    mtstate->ps.plan = NULL;
    mtstate->ps.state = estate;
    mtstate->operation = operation;
    mtstate->resultRelInfo = relinfo;
 
    /* ... as is PartitionTupleRouting. */
    edata->proute = proute = ExecSetupPartitionTupleRouting(estate, parentrel);
 
    /*
     * Find the partition to which the "search tuple" belongs.
     */
    Assert(remoteslot != NULL);
    oldctx = MemoryContextSwitchTo(GetPerTupleMemoryContext(estate));
    partrelinfo = ExecFindPartition(mtstate, relinfo, proute,
                                    remoteslot, estate);
    Assert(partrelinfo != NULL);
    partrel = partrelinfo->ri_RelationDesc;
 
    /*
     * Check for supported relkind.  We need this since partitions might be of
     * unsupported relkinds; and the set of partitions can change, so checking
     * at CREATE/ALTER SUBSCRIPTION would be insufficient.
     */
    CheckSubscriptionRelkind(partrel->rd_rel->relkind,
                             get_namespace_name(RelationGetNamespace(partrel)),
                             RelationGetRelationName(partrel));
 
    /*
     * To perform any of the operations below, the tuple must match the
     * partition's rowtype. Convert if needed or just copy, using a dedicated
     * slot to store the tuple in any case.
     */
    remoteslot_part = partrelinfo->ri_PartitionTupleSlot;
    if (remoteslot_part == NULL)
        remoteslot_part = table_slot_create(partrel, &estate->es_tupleTable);
    map = ExecGetRootToChildMap(partrelinfo, estate);
    if (map != NULL)
    {
        attrmap = map->attrMap;
        remoteslot_part = execute_attr_map_slot(attrmap, remoteslot,
                                                remoteslot_part);
    }
    else
    {
        remoteslot_part = ExecCopySlot(remoteslot_part, remoteslot);
        slot_getallattrs(remoteslot_part);
    }
    MemoryContextSwitchTo(oldctx);
 
    /* Check if we can do the update or delete on the leaf partition. */
    if (operation == CMD_UPDATE || operation == CMD_DELETE)
    {
        part_entry = logicalrep_partition_open(relmapentry, partrel,
                                               attrmap);
        check_relation_updatable(part_entry);
    }
 
    switch (operation)
    {
        case CMD_INSERT:
            apply_handle_insert_internal(edata, partrelinfo,
                                         remoteslot_part);
            break;
 
        case CMD_DELETE:
            apply_handle_delete_internal(edata, partrelinfo,
                                         remoteslot_part,
                                         part_entry->localindexoid);
            break;
 
        case CMD_UPDATE:
 
            /*
             * For UPDATE, depending on whether or not the updated tuple
             * satisfies the partition's constraint, perform a simple UPDATE
             * of the partition or move the updated tuple into a different
             * suitable partition.
             */
            {
                TupleTableSlot *localslot;
                ResultRelInfo *partrelinfo_new;
                Relation    partrel_new;
                bool        found;
                EPQState    epqstate;
                ConflictTupleInfo conflicttuple = {0};
 
                /* Get the matching local tuple from the partition. */
                found = FindReplTupleInLocalRel(edata, partrel,
                                                &part_entry->remoterel,
                                                part_entry->localindexoid,
                                                remoteslot_part, &localslot);
                if (!found)
                {
                    ConflictType type;
                    TupleTableSlot *newslot = localslot;
 
                    /*
                     * Detecting whether the tuple was recently deleted or
                     * never existed is crucial to avoid misleading the user
                     * during conflict handling.
                     */
                    if (FindDeletedTupleInLocalRel(partrel,
                                                   part_entry->localindexoid,
                                                   remoteslot_part,
                                                   &conflicttuple.xmin,
                                                   &conflicttuple.origin,
                                                   &conflicttuple.ts) &&
                        conflicttuple.origin != replorigin_session_origin)
                        type = CT_UPDATE_DELETED;
                    else
                        type = CT_UPDATE_MISSING;
 
                    /* Store the new tuple for conflict reporting */
                    slot_store_data(newslot, part_entry, newtup);
 
                    /*
                     * The tuple to be updated could not be found or was
                     * deleted.  Do nothing except for emitting a log message.
                     */
                    ReportApplyConflict(estate, partrelinfo, LOG,
                                        type, remoteslot_part, newslot,
                                        list_make1(&conflicttuple));
 
                    return;
                }
 
                /*
                 * Report the conflict if the tuple was modified by a
                 * different origin.
                 */
                if (GetTupleTransactionInfo(localslot, &conflicttuple.xmin,
                                            &conflicttuple.origin,
                                            &conflicttuple.ts) &&
                    conflicttuple.origin != replorigin_session_origin)
                {
                    TupleTableSlot *newslot;
 
                    /* Store the new tuple for conflict reporting */
                    newslot = table_slot_create(partrel, &estate->es_tupleTable);
                    slot_store_data(newslot, part_entry, newtup);
 
                    conflicttuple.slot = localslot;
 
                    ReportApplyConflict(estate, partrelinfo, LOG, CT_UPDATE_ORIGIN_DIFFERS,
                                        remoteslot_part, newslot,
                                        list_make1(&conflicttuple));
                }
 
                /*
                 * Apply the update to the local tuple, putting the result in
                 * remoteslot_part.
                 */
                oldctx = MemoryContextSwitchTo(GetPerTupleMemoryContext(estate));
                slot_modify_data(remoteslot_part, localslot, part_entry,
                                 newtup);
                MemoryContextSwitchTo(oldctx);
 
                EvalPlanQualInit(&epqstate, estate, NULL, NIL, -1, NIL);
 
                /*
                 * Does the updated tuple still satisfy the current
                 * partition's constraint?
                 */
                if (!partrel->rd_rel->relispartition ||
                    ExecPartitionCheck(partrelinfo, remoteslot_part, estate,
                                       false))
                {
                    /*
                     * Yes, so simply UPDATE the partition.  We don't call
                     * apply_handle_update_internal() here, which would
                     * normally do the following work, to avoid repeating some
                     * work already done above to find the local tuple in the
                     * partition.
                     */
                    InitConflictIndexes(partrelinfo);
 
                    EvalPlanQualSetSlot(&epqstate, remoteslot_part);
                    TargetPrivilegesCheck(partrelinfo->ri_RelationDesc,
                                          ACL_UPDATE);
                    ExecSimpleRelationUpdate(partrelinfo, estate, &epqstate,
                                             localslot, remoteslot_part);
                }
                else
                {
                    /* Move the tuple into the new partition. */
 
                    /*
                     * New partition will be found using tuple routing, which
                     * can only occur via the parent table.  We might need to
                     * convert the tuple to the parent's rowtype.  Note that
                     * this is the tuple found in the partition, not the
                     * original search tuple received by this function.
                     */
                    if (map)
                    {
                        TupleConversionMap *PartitionToRootMap =
                            convert_tuples_by_name(RelationGetDescr(partrel),
                                                   RelationGetDescr(parentrel));
 
                        remoteslot =
                            execute_attr_map_slot(PartitionToRootMap->attrMap,
                                                  remoteslot_part, remoteslot);
                    }
                    else
                    {
                        remoteslot = ExecCopySlot(remoteslot, remoteslot_part);
                        slot_getallattrs(remoteslot);
                    }
 
                    /* Find the new partition. */
                    oldctx = MemoryContextSwitchTo(GetPerTupleMemoryContext(estate));
                    partrelinfo_new = ExecFindPartition(mtstate, relinfo,
                                                        proute, remoteslot,
                                                        estate);
                    MemoryContextSwitchTo(oldctx);
                    Assert(partrelinfo_new != partrelinfo);
                    partrel_new = partrelinfo_new->ri_RelationDesc;
 
                    /* Check that new partition also has supported relkind. */
                    CheckSubscriptionRelkind(partrel_new->rd_rel->relkind,
                                             get_namespace_name(RelationGetNamespace(partrel_new)),
                                             RelationGetRelationName(partrel_new));
 
                    /* DELETE old tuple found in the old partition. */
                    EvalPlanQualSetSlot(&epqstate, localslot);
                    TargetPrivilegesCheck(partrelinfo->ri_RelationDesc, ACL_DELETE);
                    ExecSimpleRelationDelete(partrelinfo, estate, &epqstate, localslot);
 
                    /* INSERT new tuple into the new partition. */
 
                    /*
                     * Convert the replacement tuple to match the destination
                     * partition rowtype.
                     */
                    oldctx = MemoryContextSwitchTo(GetPerTupleMemoryContext(estate));
                    remoteslot_part = partrelinfo_new->ri_PartitionTupleSlot;
                    if (remoteslot_part == NULL)
                        remoteslot_part = table_slot_create(partrel_new,
                                                            &estate->es_tupleTable);
                    map = ExecGetRootToChildMap(partrelinfo_new, estate);
                    if (map != NULL)
                    {
                        remoteslot_part = execute_attr_map_slot(map->attrMap,
                                                                remoteslot,
                                                                remoteslot_part);
                    }
                    else
                    {
                        remoteslot_part = ExecCopySlot(remoteslot_part,
                                                       remoteslot);
                        slot_getallattrs(remoteslot);
                    }
                    MemoryContextSwitchTo(oldctx);
                    apply_handle_insert_internal(edata, partrelinfo_new,
                                                 remoteslot_part);
                }
 
                EvalPlanQualEnd(&epqstate);
            }
            break;
 
        default:
            elog(ERROR, "unrecognized CmdType: %d", (int) operation);
            break;
    }
}

References ACL_DELETE, ACL_UPDATE, apply_handle_delete_internal(), apply_handle_insert_internal(), Assert(), TupleConversionMap::attrMap, check_relation_updatable(), CheckSubscriptionRelkind(), CMD_DELETE, CMD_INSERT, CMD_UPDATE, convert_tuples_by_name(), CT_UPDATE_DELETED, CT_UPDATE_MISSING, CT_UPDATE_ORIGIN_DIFFERS, elog, ERROR, EState::es_tupleTable, ApplyExecutionData::estate, EvalPlanQualEnd(), EvalPlanQualInit(), EvalPlanQualSetSlot, ExecCopySlot(), ExecFindPartition(), ExecGetRootToChildMap(), ExecPartitionCheck(), ExecSetupPartitionTupleRouting(), ExecSimpleRelationDelete(), ExecSimpleRelationUpdate(), execute_attr_map_slot(), FindDeletedTupleInLocalRel(), FindReplTupleInLocalRel(), get_namespace_name(), GetPerTupleMemoryContext, GetTupleTransactionInfo(), InitConflictIndexes(), list_make1, LogicalRepRelMapEntry::localindexoid, LOG, logicalrep_partition_open(), makeNode, MemoryContextSwitchTo(), ApplyExecutionData::mtstate, NIL, ModifyTableState::operation, ConflictTupleInfo::origin, PlanState::plan, ApplyExecutionData::proute, ModifyTableState::ps, RelationData::rd_rel, RelationGetDescr, RelationGetNamespace, RelationGetRelationName, LogicalRepRelMapEntry::remoterel, replorigin_session_origin, ReportApplyConflict(), ModifyTableState::resultRelInfo, ResultRelInfo::ri_PartitionTupleSlot, ResultRelInfo::ri_RelationDesc, ConflictTupleInfo::slot, slot_getallattrs(), slot_modify_data(), slot_store_data(), PlanState::state, table_slot_create(), TargetPrivilegesCheck(), ApplyExecutionData::targetRel, ApplyExecutionData::targetRelInfo, ConflictTupleInfo::ts, type, and ConflictTupleInfo::xmin.

Referenced by apply_handle_delete(), apply_handle_insert(), and apply_handle_update().

◆ apply_handle_type()

static void apply_handle_type ( StringInfo s )

static

Definition at line 2561 of file worker.c.

{
    LogicalRepTyp typ;
 
    if (handle_streamed_transaction(LOGICAL_REP_MSG_TYPE, s))
        return;
 
    logicalrep_read_typ(s, &typ);
}

References handle_streamed_transaction(), LOGICAL_REP_MSG_TYPE, and logicalrep_read_typ().

Referenced by apply_dispatch().

◆ apply_handle_update()

static void apply_handle_update ( StringInfo s )

static

Definition at line 2765 of file worker.c.

{
    LogicalRepRelMapEntry *rel;
    LogicalRepRelId relid;
    UserContext ucxt;
    ApplyExecutionData *edata;
    EState     *estate;
    LogicalRepTupleData oldtup;
    LogicalRepTupleData newtup;
    bool        has_oldtup;
    TupleTableSlot *remoteslot;
    RTEPermissionInfo *target_perminfo;
    MemoryContext oldctx;
    bool        run_as_owner;
 
    /*
     * Quick return if we are skipping data modification changes or handling
     * streamed transactions.
     */
    if (is_skipping_changes() ||
        handle_streamed_transaction(LOGICAL_REP_MSG_UPDATE, s))
        return;
 
    begin_replication_step();
 
    relid = logicalrep_read_update(s, &has_oldtup, &oldtup,
                                   &newtup);
    rel = logicalrep_rel_open(relid, RowExclusiveLock);
    if (!should_apply_changes_for_rel(rel))
    {
        /*
         * The relation can't become interesting in the middle of the
         * transaction so it's safe to unlock it.
         */
        logicalrep_rel_close(rel, RowExclusiveLock);
        end_replication_step();
        return;
    }
 
    /* Set relation for error callback */
    apply_error_callback_arg.rel = rel;
 
    /* Check if we can do the update. */
    check_relation_updatable(rel);
 
    /*
     * Make sure that any user-supplied code runs as the table owner, unless
     * the user has opted out of that behavior.
     */
    run_as_owner = MySubscription->runasowner;
    if (!run_as_owner)
        SwitchToUntrustedUser(rel->localrel->rd_rel->relowner, &ucxt);
 
    /* Initialize the executor state. */
    edata = create_edata_for_relation(rel);
    estate = edata->estate;
    remoteslot = ExecInitExtraTupleSlot(estate,
                                        RelationGetDescr(rel->localrel),
                                        &TTSOpsVirtual);
 
    /*
     * Populate updatedCols so that per-column triggers can fire, and so
     * executor can correctly pass down indexUnchanged hint.  This could
     * include more columns than were actually changed on the publisher
     * because the logical replication protocol doesn't contain that
     * information.  But it would for example exclude columns that only exist
     * on the subscriber, since we are not touching those.
     */
    target_perminfo = list_nth(estate->es_rteperminfos, 0);
    for (int i = 0; i < remoteslot->tts_tupleDescriptor->natts; i++)
    {
        Form_pg_attribute att = TupleDescAttr(remoteslot->tts_tupleDescriptor, i);
        int         remoteattnum = rel->attrmap->attnums[i];
 
        if (!att->attisdropped && remoteattnum >= 0)
        {
            Assert(remoteattnum < newtup.ncols);
            if (newtup.colstatus[remoteattnum] != LOGICALREP_COLUMN_UNCHANGED)
                target_perminfo->updatedCols =
                    bms_add_member(target_perminfo->updatedCols,
                                   i + 1 - FirstLowInvalidHeapAttributeNumber);
        }
    }
 
    /* Build the search tuple. */
    oldctx = MemoryContextSwitchTo(GetPerTupleMemoryContext(estate));
    slot_store_data(remoteslot, rel,
                    has_oldtup ? &oldtup : &newtup);
    MemoryContextSwitchTo(oldctx);
 
    /* For a partitioned table, apply update to correct partition. */
    if (rel->localrel->rd_rel->relkind == RELKIND_PARTITIONED_TABLE)
        apply_handle_tuple_routing(edata,
                                   remoteslot, &newtup, CMD_UPDATE);
    else
        apply_handle_update_internal(edata, edata->targetRelInfo,
                                     remoteslot, &newtup, rel->localindexoid);
 
    finish_edata(edata);
 
    /* Reset relation for error callback */
    apply_error_callback_arg.rel = NULL;
 
    if (!run_as_owner)
        RestoreUserContext(&ucxt);
 
    logicalrep_rel_close(rel, NoLock);
 
    end_replication_step();
}

References apply_error_callback_arg, apply_handle_tuple_routing(), apply_handle_update_internal(), Assert(), AttrMap::attnums, LogicalRepRelMapEntry::attrmap, begin_replication_step(), bms_add_member(), check_relation_updatable(), CMD_UPDATE, LogicalRepTupleData::colstatus, create_edata_for_relation(), end_replication_step(), EState::es_rteperminfos, ApplyExecutionData::estate, ExecInitExtraTupleSlot(), finish_edata(), FirstLowInvalidHeapAttributeNumber, GetPerTupleMemoryContext, handle_streamed_transaction(), i, is_skipping_changes, list_nth(), LogicalRepRelMapEntry::localindexoid, LogicalRepRelMapEntry::localrel, LOGICAL_REP_MSG_UPDATE, LOGICALREP_COLUMN_UNCHANGED, logicalrep_read_update(), logicalrep_rel_close(), logicalrep_rel_open(), MemoryContextSwitchTo(), MySubscription, TupleDescData::natts, LogicalRepTupleData::ncols, NoLock, RelationData::rd_rel, ApplyErrorCallbackArg::rel, RelationGetDescr, RestoreUserContext(), RowExclusiveLock, Subscription::runasowner, should_apply_changes_for_rel(), slot_store_data(), SwitchToUntrustedUser(), ApplyExecutionData::targetRelInfo, TupleTableSlot::tts_tupleDescriptor, TTSOpsVirtual, TupleDescAttr(), and RTEPermissionInfo::updatedCols.

Referenced by apply_dispatch().

◆ apply_handle_update_internal()

static void apply_handle_update_internal	(	ApplyExecutionData *	edata,
		ResultRelInfo *	relinfo,
		TupleTableSlot *	remoteslot,
		LogicalRepTupleData *	newtup,
		Oid	localindexoid
	)

static

Definition at line 2882 of file worker.c.

{
    EState     *estate = edata->estate;
    LogicalRepRelMapEntry *relmapentry = edata->targetRel;
    Relation    localrel = relinfo->ri_RelationDesc;
    EPQState    epqstate;
    TupleTableSlot *localslot = NULL;
    ConflictTupleInfo conflicttuple = {0};
    bool        found;
    MemoryContext oldctx;
 
    EvalPlanQualInit(&epqstate, estate, NULL, NIL, -1, NIL);
    ExecOpenIndices(relinfo, false);
 
    found = FindReplTupleInLocalRel(edata, localrel,
                                    &relmapentry->remoterel,
                                    localindexoid,
                                    remoteslot, &localslot);
 
    /*
     * Tuple found.
     *
     * Note this will fail if there are other conflicting unique indexes.
     */
    if (found)
    {
        /*
         * Report the conflict if the tuple was modified by a different
         * origin.
         */
        if (GetTupleTransactionInfo(localslot, &conflicttuple.xmin,
                                    &conflicttuple.origin, &conflicttuple.ts) &&
            conflicttuple.origin != replorigin_session_origin)
        {
            TupleTableSlot *newslot;
 
            /* Store the new tuple for conflict reporting */
            newslot = table_slot_create(localrel, &estate->es_tupleTable);
            slot_store_data(newslot, relmapentry, newtup);
 
            conflicttuple.slot = localslot;
 
            ReportApplyConflict(estate, relinfo, LOG, CT_UPDATE_ORIGIN_DIFFERS,
                                remoteslot, newslot,
                                list_make1(&conflicttuple));
        }
 
        /* Process and store remote tuple in the slot */
        oldctx = MemoryContextSwitchTo(GetPerTupleMemoryContext(estate));
        slot_modify_data(remoteslot, localslot, relmapentry, newtup);
        MemoryContextSwitchTo(oldctx);
 
        EvalPlanQualSetSlot(&epqstate, remoteslot);
 
        InitConflictIndexes(relinfo);
 
        /* Do the actual update. */
        TargetPrivilegesCheck(relinfo->ri_RelationDesc, ACL_UPDATE);
        ExecSimpleRelationUpdate(relinfo, estate, &epqstate, localslot,
                                 remoteslot);
    }
    else
    {
        ConflictType type;
        TupleTableSlot *newslot = localslot;
 
        /*
         * Detecting whether the tuple was recently deleted or never existed
         * is crucial to avoid misleading the user during conflict handling.
         */
        if (FindDeletedTupleInLocalRel(localrel, localindexoid, remoteslot,
                                       &conflicttuple.xmin,
                                       &conflicttuple.origin,
                                       &conflicttuple.ts) &&
            conflicttuple.origin != replorigin_session_origin)
            type = CT_UPDATE_DELETED;
        else
            type = CT_UPDATE_MISSING;
 
        /* Store the new tuple for conflict reporting */
        slot_store_data(newslot, relmapentry, newtup);
 
        /*
         * The tuple to be updated could not be found or was deleted.  Do
         * nothing except for emitting a log message.
         */
        ReportApplyConflict(estate, relinfo, LOG, type, remoteslot, newslot,
                            list_make1(&conflicttuple));
    }
 
    /* Cleanup. */
    ExecCloseIndices(relinfo);
    EvalPlanQualEnd(&epqstate);
}

References ACL_UPDATE, CT_UPDATE_DELETED, CT_UPDATE_MISSING, CT_UPDATE_ORIGIN_DIFFERS, EState::es_tupleTable, ApplyExecutionData::estate, EvalPlanQualEnd(), EvalPlanQualInit(), EvalPlanQualSetSlot, ExecCloseIndices(), ExecOpenIndices(), ExecSimpleRelationUpdate(), FindDeletedTupleInLocalRel(), FindReplTupleInLocalRel(), GetPerTupleMemoryContext, GetTupleTransactionInfo(), InitConflictIndexes(), list_make1, LOG, MemoryContextSwitchTo(), NIL, ConflictTupleInfo::origin, LogicalRepRelMapEntry::remoterel, replorigin_session_origin, ReportApplyConflict(), ResultRelInfo::ri_RelationDesc, ConflictTupleInfo::slot, slot_modify_data(), slot_store_data(), table_slot_create(), TargetPrivilegesCheck(), ApplyExecutionData::targetRel, ConflictTupleInfo::ts, type, and ConflictTupleInfo::xmin.

Referenced by apply_handle_update().

◆ apply_spooled_messages()

void apply_spooled_messages	(	FileSet *	stream_fileset,
		TransactionId	xid,
		XLogRecPtr	lsn
	)

Definition at line 2238 of file worker.c.

{
    int         nchanges;
    char        path[MAXPGPATH];
    char       *buffer = NULL;
    MemoryContext oldcxt;
    ResourceOwner oldowner;
    int         fileno;
    off_t       offset;
 
    if (!am_parallel_apply_worker())
        maybe_start_skipping_changes(lsn);
 
    /* Make sure we have an open transaction */
    begin_replication_step();
 
    /*
     * Allocate file handle and memory required to process all the messages in
     * TopTransactionContext to avoid them getting reset after each message is
     * processed.
     */
    oldcxt = MemoryContextSwitchTo(TopTransactionContext);
 
    /* Open the spool file for the committed/prepared transaction */
    changes_filename(path, MyLogicalRepWorker->subid, xid);
    elog(DEBUG1, "replaying changes from file \"%s\"", path);
 
    /*
     * Make sure the file is owned by the toplevel transaction so that the
     * file will not be accidentally closed when aborting a subtransaction.
     */
    oldowner = CurrentResourceOwner;
    CurrentResourceOwner = TopTransactionResourceOwner;
 
    stream_fd = BufFileOpenFileSet(stream_fileset, path, O_RDONLY, false);
 
    CurrentResourceOwner = oldowner;
 
    buffer = palloc(BLCKSZ);
 
    MemoryContextSwitchTo(oldcxt);
 
    remote_final_lsn = lsn;
 
    /*
     * Make sure the handle apply_dispatch methods are aware we're in a remote
     * transaction.
     */
    in_remote_transaction = true;
    pgstat_report_activity(STATE_RUNNING, NULL);
 
    end_replication_step();
 
    /*
     * Read the entries one by one and pass them through the same logic as in
     * apply_dispatch.
     */
    nchanges = 0;
    while (true)
    {
        StringInfoData s2;
        size_t      nbytes;
        int         len;
 
        CHECK_FOR_INTERRUPTS();
 
        /* read length of the on-disk record */
        nbytes = BufFileReadMaybeEOF(stream_fd, &len, sizeof(len), true);
 
        /* have we reached end of the file? */
        if (nbytes == 0)
            break;
 
        /* do we have a correct length? */
        if (len <= 0)
            elog(ERROR, "incorrect length %d in streaming transaction's changes file \"%s\"",
                 len, path);
 
        /* make sure we have sufficiently large buffer */
        buffer = repalloc(buffer, len);
 
        /* and finally read the data into the buffer */
        BufFileReadExact(stream_fd, buffer, len);
 
        BufFileTell(stream_fd, &fileno, &offset);
 
        /* init a stringinfo using the buffer and call apply_dispatch */
        initReadOnlyStringInfo(&s2, buffer, len);
 
        /* Ensure we are reading the data into our memory context. */
        oldcxt = MemoryContextSwitchTo(ApplyMessageContext);
 
        apply_dispatch(&s2);
 
        MemoryContextReset(ApplyMessageContext);
 
        MemoryContextSwitchTo(oldcxt);
 
        nchanges++;
 
        /*
         * It is possible the file has been closed because we have processed
         * the transaction end message like stream_commit in which case that
         * must be the last message.
         */
        if (!stream_fd)
        {
            ensure_last_message(stream_fileset, xid, fileno, offset);
            break;
        }
 
        if (nchanges % 1000 == 0)
            elog(DEBUG1, "replayed %d changes from file \"%s\"",
                 nchanges, path);
    }
 
    if (stream_fd)
        stream_close_file();
 
    elog(DEBUG1, "replayed %d (all) changes from file \"%s\"",
         nchanges, path);
 
    return;
}

References am_parallel_apply_worker(), apply_dispatch(), ApplyMessageContext, begin_replication_step(), BufFileOpenFileSet(), BufFileReadExact(), BufFileReadMaybeEOF(), BufFileTell(), changes_filename(), CHECK_FOR_INTERRUPTS, CurrentResourceOwner, DEBUG1, elog, end_replication_step(), ensure_last_message(), ERROR, in_remote_transaction, initReadOnlyStringInfo(), len, MAXPGPATH, maybe_start_skipping_changes(), MemoryContextReset(), MemoryContextSwitchTo(), MyLogicalRepWorker, palloc(), pgstat_report_activity(), remote_final_lsn, repalloc(), s2, STATE_RUNNING, stream_close_file(), stream_fd, LogicalRepWorker::subid, TopTransactionContext, and TopTransactionResourceOwner.

Referenced by apply_handle_stream_commit(), apply_handle_stream_prepare(), and pa_process_spooled_messages_if_required().

◆ apply_worker_exit()

static void apply_worker_exit ( void )

static

Definition at line 4973 of file worker.c.

{
    if (am_parallel_apply_worker())
    {
        /*
         * Don't stop the parallel apply worker as the leader will detect the
         * subscription parameter change and restart logical replication later
         * anyway. This also prevents the leader from reporting errors when
         * trying to communicate with a stopped parallel apply worker, which
         * would accidentally disable subscriptions if disable_on_error was
         * set.
         */
        return;
    }
 
    /*
     * Reset the last-start time for this apply worker so that the launcher
     * will restart it without waiting for wal_retrieve_retry_interval if the
     * subscription is still active, and so that we won't leak that hash table
     * entry if it isn't.
     */
    if (am_leader_apply_worker())
        ApplyLauncherForgetWorkerStartTime(MyLogicalRepWorker->subid);
 
    proc_exit(0);
}

References am_leader_apply_worker(), am_parallel_apply_worker(), ApplyLauncherForgetWorkerStartTime(), MyLogicalRepWorker, proc_exit(), and LogicalRepWorker::subid.

Referenced by InitializeLogRepWorker(), maybe_reread_subscription(), and resume_conflict_info_retention().

◆ ApplyWorkerMain()

void ApplyWorkerMain ( Datum main_arg )

Definition at line 5885 of file worker.c.

{
    int         worker_slot = DatumGetInt32(main_arg);
 
    InitializingApplyWorker = true;
 
    SetupApplyOrSyncWorker(worker_slot);
 
    InitializingApplyWorker = false;
 
    run_apply_worker();
 
    proc_exit(0);
}

References DatumGetInt32(), InitializingApplyWorker, proc_exit(), run_apply_worker(), and SetupApplyOrSyncWorker().

◆ AtEOXact_LogicalRepWorkers()

void AtEOXact_LogicalRepWorkers ( bool isCommit )

Definition at line 6228 of file worker.c.

{
    if (isCommit && on_commit_wakeup_workers_subids != NIL)
    {
        ListCell   *lc;
 
        LWLockAcquire(LogicalRepWorkerLock, LW_SHARED);
        foreach(lc, on_commit_wakeup_workers_subids)
        {
            Oid         subid = lfirst_oid(lc);
            List       *workers;
            ListCell   *lc2;
 
            workers = logicalrep_workers_find(subid, true, false);
            foreach(lc2, workers)
            {
                LogicalRepWorker *worker = (LogicalRepWorker *) lfirst(lc2);
 
                logicalrep_worker_wakeup_ptr(worker);
            }
        }
        LWLockRelease(LogicalRepWorkerLock);
    }
 
    /* The List storage will be reclaimed automatically in xact cleanup. */
    on_commit_wakeup_workers_subids = NIL;
}

References lfirst, lfirst_oid, logicalrep_worker_wakeup_ptr(), logicalrep_workers_find(), LW_SHARED, LWLockAcquire(), LWLockRelease(), NIL, and on_commit_wakeup_workers_subids.

Referenced by AbortTransaction(), CommitTransaction(), and PrepareTransaction().

◆ begin_replication_step()

static void begin_replication_step ( void )

static

Definition at line 721 of file worker.c.

{
    SetCurrentStatementStartTimestamp();
 
    if (!IsTransactionState())
    {
        StartTransactionCommand();
        maybe_reread_subscription();
    }
 
    PushActiveSnapshot(GetTransactionSnapshot());
 
    MemoryContextSwitchTo(ApplyMessageContext);
}

References ApplyMessageContext, GetTransactionSnapshot(), IsTransactionState(), maybe_reread_subscription(), MemoryContextSwitchTo(), PushActiveSnapshot(), SetCurrentStatementStartTimestamp(), and StartTransactionCommand().

Referenced by apply_handle_commit_prepared(), apply_handle_delete(), apply_handle_insert(), apply_handle_prepare(), apply_handle_rollback_prepared(), apply_handle_stream_prepare(), apply_handle_truncate(), apply_handle_update(), apply_spooled_messages(), ensure_last_message(), stream_abort_internal(), and stream_start_internal().

◆ can_advance_nonremovable_xid()

static bool can_advance_nonremovable_xid ( RetainDeadTuplesData * rdt_data )

static

Definition at line 4370 of file worker.c.

{
    /*
     * It is sufficient to manage non-removable transaction ID for a
     * subscription by the main apply worker to detect update_deleted reliably
     * even for table sync or parallel apply workers.
     */
    if (!am_leader_apply_worker())
        return false;
 
    /* No need to advance if retaining dead tuples is not required */
    if (!MySubscription->retaindeadtuples)
        return false;
 
    return true;
}

References am_leader_apply_worker(), MySubscription, and Subscription::retaindeadtuples.

Referenced by maybe_advance_nonremovable_xid().

◆ changes_filename()

static void changes_filename	(	char *	path,
		Oid	subid,
		TransactionId	xid
	)

inlinestatic

Definition at line 5336 of file worker.c.

{
    snprintf(path, MAXPGPATH, "%u-%u.changes", subid, xid);
}

References MAXPGPATH, and snprintf.

Referenced by apply_spooled_messages(), ensure_last_message(), stream_abort_internal(), stream_cleanup_files(), and stream_open_file().

◆ check_relation_updatable()

static void check_relation_updatable ( LogicalRepRelMapEntry * rel )

static

Definition at line 2724 of file worker.c.

{
    /*
     * For partitioned tables, we only need to care if the target partition is
     * updatable (aka has PK or RI defined for it).
     */
    if (rel->localrel->rd_rel->relkind == RELKIND_PARTITIONED_TABLE)
        return;
 
    /* Updatable, no error. */
    if (rel->updatable)
        return;
 
    /*
     * We are in error mode so it's fine this is somewhat slow. It's better to
     * give user correct error.
     */
    if (OidIsValid(GetRelationIdentityOrPK(rel->localrel)))
    {
        ereport(ERROR,
                (errcode(ERRCODE_OBJECT_NOT_IN_PREREQUISITE_STATE),
                 errmsg("publisher did not send replica identity column "
                        "expected by the logical replication target relation \"%s.%s\"",
                        rel->remoterel.nspname, rel->remoterel.relname)));
    }
 
    ereport(ERROR,
            (errcode(ERRCODE_OBJECT_NOT_IN_PREREQUISITE_STATE),
             errmsg("logical replication target relation \"%s.%s\" has "
                    "neither REPLICA IDENTITY index nor PRIMARY "
                    "KEY and published relation does not have "
                    "REPLICA IDENTITY FULL",
                    rel->remoterel.nspname, rel->remoterel.relname)));
}

References ereport, errcode(), errmsg(), ERROR, GetRelationIdentityOrPK(), LogicalRepRelMapEntry::localrel, LogicalRepRelation::nspname, OidIsValid, RelationData::rd_rel, LogicalRepRelation::relname, LogicalRepRelMapEntry::remoterel, and LogicalRepRelMapEntry::updatable.

Referenced by apply_handle_delete(), apply_handle_tuple_routing(), and apply_handle_update().

◆ cleanup_subxact_info()

static void cleanup_subxact_info ( void )

inlinestatic

Definition at line 5533 of file worker.c.

{
    if (subxact_data.subxacts)
        pfree(subxact_data.subxacts);
 
    subxact_data.subxacts = NULL;
    subxact_data.subxact_last = InvalidTransactionId;
    subxact_data.nsubxacts = 0;
    subxact_data.nsubxacts_max = 0;
}

References InvalidTransactionId, ApplySubXactData::nsubxacts, ApplySubXactData::nsubxacts_max, pfree(), subxact_data, ApplySubXactData::subxact_last, and ApplySubXactData::subxacts.

Referenced by stream_abort_internal(), and subxact_info_write().

◆ clear_subscription_skip_lsn()

static void clear_subscription_skip_lsn ( XLogRecPtr finish_lsn )

static

Definition at line 6029 of file worker.c.

{
    Relation    rel;
    Form_pg_subscription subform;
    HeapTuple   tup;
    XLogRecPtr  myskiplsn = MySubscription->skiplsn;
    bool        started_tx = false;
 
    if (likely(XLogRecPtrIsInvalid(myskiplsn)) || am_parallel_apply_worker())
        return;
 
    if (!IsTransactionState())
    {
        StartTransactionCommand();
        started_tx = true;
    }
 
    /*
     * Updating pg_subscription might involve TOAST table access, so ensure we
     * have a valid snapshot.
     */
    PushActiveSnapshot(GetTransactionSnapshot());
 
    /*
     * Protect subskiplsn of pg_subscription from being concurrently updated
     * while clearing it.
     */
    LockSharedObject(SubscriptionRelationId, MySubscription->oid, 0,
                     AccessShareLock);
 
    rel = table_open(SubscriptionRelationId, RowExclusiveLock);
 
    /* Fetch the existing tuple. */
    tup = SearchSysCacheCopy1(SUBSCRIPTIONOID,
                              ObjectIdGetDatum(MySubscription->oid));
 
    if (!HeapTupleIsValid(tup))
        elog(ERROR, "subscription \"%s\" does not exist", MySubscription->name);
 
    subform = (Form_pg_subscription) GETSTRUCT(tup);
 
    /*
     * Clear the subskiplsn. If the user has already changed subskiplsn before
     * clearing it we don't update the catalog and the replication origin
     * state won't get advanced. So in the worst case, if the server crashes
     * before sending an acknowledgment of the flush position the transaction
     * will be sent again and the user needs to set subskiplsn again. We can
     * reduce the possibility by logging a replication origin WAL record to
     * advance the origin LSN instead but there is no way to advance the
     * origin timestamp and it doesn't seem to be worth doing anything about
     * it since it's a very rare case.
     */
    if (subform->subskiplsn == myskiplsn)
    {
        bool        nulls[Natts_pg_subscription];
        bool        replaces[Natts_pg_subscription];
        Datum       values[Natts_pg_subscription];
 
        memset(values, 0, sizeof(values));
        memset(nulls, false, sizeof(nulls));
        memset(replaces, false, sizeof(replaces));
 
        /* reset subskiplsn */
        values[Anum_pg_subscription_subskiplsn - 1] = LSNGetDatum(InvalidXLogRecPtr);
        replaces[Anum_pg_subscription_subskiplsn - 1] = true;
 
        tup = heap_modify_tuple(tup, RelationGetDescr(rel), values, nulls,
                                replaces);
        CatalogTupleUpdate(rel, &tup->t_self, tup);
 
        if (myskiplsn != finish_lsn)
            ereport(WARNING,
                    errmsg("skip-LSN of subscription \"%s\" cleared", MySubscription->name),
                    errdetail("Remote transaction's finish WAL location (LSN) %X/%08X did not match skip-LSN %X/%08X.",
                              LSN_FORMAT_ARGS(finish_lsn),
                              LSN_FORMAT_ARGS(myskiplsn)));
    }
 
    heap_freetuple(tup);
    table_close(rel, NoLock);
 
    PopActiveSnapshot();
 
    if (started_tx)
        CommitTransactionCommand();
}

References AccessShareLock, am_parallel_apply_worker(), CatalogTupleUpdate(), CommitTransactionCommand(), elog, ereport, errdetail(), errmsg(), ERROR, GETSTRUCT(), GetTransactionSnapshot(), heap_freetuple(), heap_modify_tuple(), HeapTupleIsValid, InvalidXLogRecPtr, IsTransactionState(), likely, LockSharedObject(), LSN_FORMAT_ARGS, LSNGetDatum(), MySubscription, Subscription::name, NoLock, ObjectIdGetDatum(), Subscription::oid, PopActiveSnapshot(), PushActiveSnapshot(), RelationGetDescr, RowExclusiveLock, SearchSysCacheCopy1, Subscription::skiplsn, StartTransactionCommand(), HeapTupleData::t_self, table_close(), table_open(), values, WARNING, and XLogRecPtrIsInvalid.

Referenced by apply_handle_commit_internal(), apply_handle_commit_prepared(), apply_handle_prepare(), apply_handle_rollback_prepared(), and apply_handle_stream_prepare().

◆ create_edata_for_relation()

static ApplyExecutionData * create_edata_for_relation ( LogicalRepRelMapEntry * rel )

static

Definition at line 865 of file worker.c.

{
    ApplyExecutionData *edata;
    EState     *estate;
    RangeTblEntry *rte;
    List       *perminfos = NIL;
    ResultRelInfo *resultRelInfo;
 
    edata = (ApplyExecutionData *) palloc0(sizeof(ApplyExecutionData));
    edata->targetRel = rel;
 
    edata->estate = estate = CreateExecutorState();
 
    rte = makeNode(RangeTblEntry);
    rte->rtekind = RTE_RELATION;
    rte->relid = RelationGetRelid(rel->localrel);
    rte->relkind = rel->localrel->rd_rel->relkind;
    rte->rellockmode = AccessShareLock;
 
    addRTEPermissionInfo(&perminfos, rte);
 
    ExecInitRangeTable(estate, list_make1(rte), perminfos,
                       bms_make_singleton(1));
 
    edata->targetRelInfo = resultRelInfo = makeNode(ResultRelInfo);
 
    /*
     * Use Relation opened by logicalrep_rel_open() instead of opening it
     * again.
     */
    InitResultRelInfo(resultRelInfo, rel->localrel, 1, NULL, 0);
 
    /*
     * We put the ResultRelInfo in the es_opened_result_relations list, even
     * though we don't populate the es_result_relations array.  That's a bit
     * bogus, but it's enough to make ExecGetTriggerResultRel() find them.
     *
     * ExecOpenIndices() is not called here either, each execution path doing
     * an apply operation being responsible for that.
     */
    estate->es_opened_result_relations =
        lappend(estate->es_opened_result_relations, resultRelInfo);
 
    estate->es_output_cid = GetCurrentCommandId(true);
 
    /* Prepare to catch AFTER triggers. */
    AfterTriggerBeginQuery();
 
    /* other fields of edata remain NULL for now */
 
    return edata;
}

References AccessShareLock, addRTEPermissionInfo(), AfterTriggerBeginQuery(), bms_make_singleton(), CreateExecutorState(), EState::es_opened_result_relations, EState::es_output_cid, ApplyExecutionData::estate, ExecInitRangeTable(), GetCurrentCommandId(), InitResultRelInfo(), lappend(), list_make1, LogicalRepRelMapEntry::localrel, makeNode, NIL, palloc0(), RelationData::rd_rel, RelationGetRelid, RTE_RELATION, RangeTblEntry::rtekind, ApplyExecutionData::targetRel, and ApplyExecutionData::targetRelInfo.

Referenced by apply_handle_delete(), apply_handle_insert(), and apply_handle_update().

◆ DisableSubscriptionAndExit()

void DisableSubscriptionAndExit ( void )

Definition at line 5905 of file worker.c.

{
    /*
     * Emit the error message, and recover from the error state to an idle
     * state
     */
    HOLD_INTERRUPTS();
 
    EmitErrorReport();
    AbortOutOfAnyTransaction();
    FlushErrorState();
 
    RESUME_INTERRUPTS();
 
    /* Report the worker failed during either table synchronization or apply */
    pgstat_report_subscription_error(MyLogicalRepWorker->subid,
                                     !am_tablesync_worker());
 
    /* Disable the subscription */
    StartTransactionCommand();
 
    /*
     * Updating pg_subscription might involve TOAST table access, so ensure we
     * have a valid snapshot.
     */
    PushActiveSnapshot(GetTransactionSnapshot());
 
    DisableSubscription(MySubscription->oid);
    PopActiveSnapshot();
    CommitTransactionCommand();
 
    /* Ensure we remove no-longer-useful entry for worker's start time */
    if (am_leader_apply_worker())
        ApplyLauncherForgetWorkerStartTime(MyLogicalRepWorker->subid);
 
    /* Notify the subscription has been disabled and exit */
    ereport(LOG,
            errmsg("subscription \"%s\" has been disabled because of an error",
                   MySubscription->name));
 
    /*
     * Skip the track_commit_timestamp check when disabling the worker due to
     * an error, as verifying commit timestamps is unnecessary in this
     * context.
     */
    CheckSubDeadTupleRetention(false, true, WARNING,
                               MySubscription->retaindeadtuples,
                               MySubscription->retentionactive, false);
 
    proc_exit(0);
}

References AbortOutOfAnyTransaction(), am_leader_apply_worker(), am_tablesync_worker(), ApplyLauncherForgetWorkerStartTime(), CheckSubDeadTupleRetention(), CommitTransactionCommand(), DisableSubscription(), EmitErrorReport(), ereport, errmsg(), FlushErrorState(), GetTransactionSnapshot(), HOLD_INTERRUPTS, LOG, MyLogicalRepWorker, MySubscription, Subscription::name, Subscription::oid, pgstat_report_subscription_error(), PopActiveSnapshot(), proc_exit(), PushActiveSnapshot(), RESUME_INTERRUPTS, Subscription::retaindeadtuples, Subscription::retentionactive, StartTransactionCommand(), LogicalRepWorker::subid, and WARNING.

Referenced by start_apply(), and start_table_sync().

◆ end_replication_step()

static void end_replication_step ( void )

static

Definition at line 744 of file worker.c.

{
    PopActiveSnapshot();
 
    CommandCounterIncrement();
}

References CommandCounterIncrement(), and PopActiveSnapshot().

Referenced by apply_handle_commit_prepared(), apply_handle_delete(), apply_handle_insert(), apply_handle_prepare(), apply_handle_rollback_prepared(), apply_handle_stream_prepare(), apply_handle_truncate(), apply_handle_update(), apply_spooled_messages(), ensure_last_message(), stream_abort_internal(), and stream_start_internal().

◆ ensure_last_message()

static void ensure_last_message	(	FileSet *	stream_fileset,
		TransactionId	xid,
		int	fileno,
		off_t	offset
	)

static

Definition at line 2206 of file worker.c.

{
    char        path[MAXPGPATH];
    BufFile    *fd;
    int         last_fileno;
    off_t       last_offset;
 
    Assert(!IsTransactionState());
 
    begin_replication_step();
 
    changes_filename(path, MyLogicalRepWorker->subid, xid);
 
    fd = BufFileOpenFileSet(stream_fileset, path, O_RDONLY, false);
 
    BufFileSeek(fd, 0, 0, SEEK_END);
    BufFileTell(fd, &last_fileno, &last_offset);
 
    BufFileClose(fd);
 
    end_replication_step();
 
    if (last_fileno != fileno || last_offset != offset)
        elog(ERROR, "unexpected message left in streaming transaction's changes file \"%s\"",
             path);
}

References Assert(), begin_replication_step(), BufFileClose(), BufFileOpenFileSet(), BufFileSeek(), BufFileTell(), changes_filename(), elog, end_replication_step(), ERROR, fd(), IsTransactionState(), MAXPGPATH, MyLogicalRepWorker, and LogicalRepWorker::subid.

Referenced by apply_spooled_messages().

◆ FindDeletedTupleInLocalRel()

static bool FindDeletedTupleInLocalRel	(	Relation	localrel,
		Oid	localidxoid,
		TupleTableSlot *	remoteslot,
		TransactionId *	delete_xid,
		RepOriginId *	delete_origin,
		TimestampTz *	delete_time
	)

static

Definition at line 3244 of file worker.c.

{
    TransactionId oldestxmin;
 
    /*
     * Return false if either dead tuples are not retained or commit timestamp
     * data is not available.
     */
    if (!MySubscription->retaindeadtuples || !track_commit_timestamp)
        return false;
 
    /*
     * For conflict detection, we use the leader worker's
     * oldest_nonremovable_xid value instead of invoking
     * GetOldestNonRemovableTransactionId() or using the conflict detection
     * slot's xmin. The oldest_nonremovable_xid acts as a threshold to
     * identify tuples that were recently deleted. These deleted tuples are no
     * longer visible to concurrent transactions. However, if a remote update
     * matches such a tuple, we log an update_deleted conflict.
     *
     * While GetOldestNonRemovableTransactionId() and slot.xmin may return
     * transaction IDs older than oldest_nonremovable_xid, for our current
     * purpose, it is acceptable to treat tuples deleted by transactions prior
     * to oldest_nonremovable_xid as update_missing conflicts.
     */
    if (am_leader_apply_worker())
    {
        oldestxmin = MyLogicalRepWorker->oldest_nonremovable_xid;
    }
    else
    {
        LogicalRepWorker *leader;
 
        /*
         * Obtain the information from the leader apply worker as only the
         * leader manages oldest_nonremovable_xid (see
         * maybe_advance_nonremovable_xid() for details).
         */
        LWLockAcquire(LogicalRepWorkerLock, LW_SHARED);
        leader = logicalrep_worker_find(MyLogicalRepWorker->subid,
                                        InvalidOid, false);
        if (!leader)
        {
            ereport(ERROR,
                    (errcode(ERRCODE_OBJECT_NOT_IN_PREREQUISITE_STATE),
                     errmsg("could not detect conflict as the leader apply worker has exited")));
        }
 
        SpinLockAcquire(&leader->relmutex);
        oldestxmin = leader->oldest_nonremovable_xid;
        SpinLockRelease(&leader->relmutex);
        LWLockRelease(LogicalRepWorkerLock);
    }
 
    /*
     * Return false if the leader apply worker has stopped retaining
     * information for detecting conflicts. This implies that update_deleted
     * can no longer be reliably detected.
     */
    if (!TransactionIdIsValid(oldestxmin))
        return false;
 
    if (OidIsValid(localidxoid) &&
        IsIndexUsableForFindingDeletedTuple(localidxoid, oldestxmin))
        return RelationFindDeletedTupleInfoByIndex(localrel, localidxoid,
                                                   remoteslot, oldestxmin,
                                                   delete_xid, delete_origin,
                                                   delete_time);
    else
        return RelationFindDeletedTupleInfoSeq(localrel, remoteslot,
                                               oldestxmin, delete_xid,
                                               delete_origin, delete_time);
}

References am_leader_apply_worker(), ereport, errcode(), errmsg(), ERROR, InvalidOid, IsIndexUsableForFindingDeletedTuple(), logicalrep_worker_find(), LW_SHARED, LWLockAcquire(), LWLockRelease(), MyLogicalRepWorker, MySubscription, OidIsValid, LogicalRepWorker::oldest_nonremovable_xid, RelationFindDeletedTupleInfoByIndex(), RelationFindDeletedTupleInfoSeq(), LogicalRepWorker::relmutex, Subscription::retaindeadtuples, SpinLockAcquire, SpinLockRelease, LogicalRepWorker::subid, track_commit_timestamp, and TransactionIdIsValid.

Referenced by apply_handle_tuple_routing(), and apply_handle_update_internal().

◆ FindReplTupleInLocalRel()

static bool FindReplTupleInLocalRel	(	ApplyExecutionData *	edata,
		Relation	localrel,
		LogicalRepRelation *	remoterel,
		Oid	localidxoid,
		TupleTableSlot *	remoteslot,
		TupleTableSlot **	localslot
	)

static

Definition at line 3149 of file worker.c.

{
    EState     *estate = edata->estate;
    bool        found;
 
    /*
     * Regardless of the top-level operation, we're performing a read here, so
     * check for SELECT privileges.
     */
    TargetPrivilegesCheck(localrel, ACL_SELECT);
 
    *localslot = table_slot_create(localrel, &estate->es_tupleTable);
 
    Assert(OidIsValid(localidxoid) ||
           (remoterel->replident == REPLICA_IDENTITY_FULL));
 
    if (OidIsValid(localidxoid))
    {
#ifdef USE_ASSERT_CHECKING
        Relation    idxrel = index_open(localidxoid, AccessShareLock);
 
        /* Index must be PK, RI, or usable for REPLICA IDENTITY FULL tables */
        Assert(GetRelationIdentityOrPK(localrel) == localidxoid ||
               (remoterel->replident == REPLICA_IDENTITY_FULL &&
                IsIndexUsableForReplicaIdentityFull(idxrel,
                                                    edata->targetRel->attrmap)));
        index_close(idxrel, AccessShareLock);
#endif
 
        found = RelationFindReplTupleByIndex(localrel, localidxoid,
                                             LockTupleExclusive,
                                             remoteslot, *localslot);
    }
    else
        found = RelationFindReplTupleSeq(localrel, LockTupleExclusive,
                                         remoteslot, *localslot);
 
    return found;
}

References AccessShareLock, ACL_SELECT, Assert(), LogicalRepRelMapEntry::attrmap, EState::es_tupleTable, ApplyExecutionData::estate, GetRelationIdentityOrPK(), index_close(), index_open(), IsIndexUsableForReplicaIdentityFull(), LockTupleExclusive, OidIsValid, RelationFindReplTupleByIndex(), RelationFindReplTupleSeq(), LogicalRepRelation::replident, table_slot_create(), TargetPrivilegesCheck(), and ApplyExecutionData::targetRel.

Referenced by apply_handle_delete_internal(), apply_handle_tuple_routing(), and apply_handle_update_internal().

◆ finish_edata()

static void finish_edata ( ApplyExecutionData * edata )

static

Definition at line 923 of file worker.c.

{
    EState     *estate = edata->estate;
 
    /* Handle any queued AFTER triggers. */
    AfterTriggerEndQuery(estate);
 
    /* Shut down tuple routing, if any was done. */
    if (edata->proute)
        ExecCleanupTupleRouting(edata->mtstate, edata->proute);
 
    /*
     * Cleanup.  It might seem that we should call ExecCloseResultRelations()
     * here, but we intentionally don't.  It would close the rel we added to
     * es_opened_result_relations above, which is wrong because we took no
     * corresponding refcount.  We rely on ExecCleanupTupleRouting() to close
     * any other relations opened during execution.
     */
    ExecResetTupleTable(estate->es_tupleTable, false);
    FreeExecutorState(estate);
    pfree(edata);
}

References AfterTriggerEndQuery(), EState::es_tupleTable, ApplyExecutionData::estate, ExecCleanupTupleRouting(), ExecResetTupleTable(), FreeExecutorState(), ApplyExecutionData::mtstate, pfree(), and ApplyExecutionData::proute.

Referenced by apply_handle_delete(), apply_handle_insert(), and apply_handle_update().

◆ get_candidate_xid()

static void get_candidate_xid ( RetainDeadTuplesData * rdt_data )

static

Definition at line 4422 of file worker.c.

{
    TransactionId oldest_running_xid;
    TimestampTz now;
 
    /*
     * Use last_recv_time when applying changes in the loop to avoid
     * unnecessary system time retrieval. If last_recv_time is not available,
     * obtain the current timestamp.
     */
    now = rdt_data->last_recv_time ? rdt_data->last_recv_time : GetCurrentTimestamp();
 
    /*
     * Compute the candidate_xid and request the publisher status at most once
     * per xid_advance_interval. Refer to adjust_xid_advance_interval() for
     * details on how this value is dynamically adjusted. This is to avoid
     * using CPU and network resources without making much progress.
     */
    if (!TimestampDifferenceExceeds(rdt_data->candidate_xid_time, now,
                                    rdt_data->xid_advance_interval))
        return;
 
    /*
     * Immediately update the timer, even if the function returns later
     * without setting candidate_xid due to inactivity on the subscriber. This
     * avoids frequent calls to GetOldestActiveTransactionId.
     */
    rdt_data->candidate_xid_time = now;
 
    /*
     * Consider transactions in the current database, as only dead tuples from
     * this database are required for conflict detection.
     */
    oldest_running_xid = GetOldestActiveTransactionId(false, false);
 
    /*
     * Oldest active transaction ID (oldest_running_xid) can't be behind any
     * of its previously computed value.
     */
    Assert(TransactionIdPrecedesOrEquals(MyLogicalRepWorker->oldest_nonremovable_xid,
                                         oldest_running_xid));
 
    /* Return if the oldest_nonremovable_xid cannot be advanced */
    if (TransactionIdEquals(MyLogicalRepWorker->oldest_nonremovable_xid,
                            oldest_running_xid))
    {
        adjust_xid_advance_interval(rdt_data, false);
        return;
    }
 
    adjust_xid_advance_interval(rdt_data, true);
 
    rdt_data->candidate_xid = oldest_running_xid;
    rdt_data->phase = RDT_REQUEST_PUBLISHER_STATUS;
 
    /* process the next phase */
    process_rdt_phase_transition(rdt_data, false);
}

References adjust_xid_advance_interval(), Assert(), RetainDeadTuplesData::candidate_xid, RetainDeadTuplesData::candidate_xid_time, GetCurrentTimestamp(), GetOldestActiveTransactionId(), RetainDeadTuplesData::last_recv_time, MyLogicalRepWorker, now(), LogicalRepWorker::oldest_nonremovable_xid, RetainDeadTuplesData::phase, process_rdt_phase_transition(), RDT_REQUEST_PUBLISHER_STATUS, TimestampDifferenceExceeds(), TransactionIdEquals, TransactionIdPrecedesOrEquals(), and RetainDeadTuplesData::xid_advance_interval.

Referenced by process_rdt_phase_transition().

◆ get_flush_position()

static void get_flush_position	(	XLogRecPtr *	write,
		XLogRecPtr *	flush,
		bool *	have_pending_txes
	)

static

Definition at line 3867 of file worker.c.

{
    dlist_mutable_iter iter;
    XLogRecPtr  local_flush = GetFlushRecPtr(NULL);
 
    *write = InvalidXLogRecPtr;
    *flush = InvalidXLogRecPtr;
 
    dlist_foreach_modify(iter, &lsn_mapping)
    {
        FlushPosition *pos =
            dlist_container(FlushPosition, node, iter.cur);
 
        *write = pos->remote_end;
 
        if (pos->local_end <= local_flush)
        {
            *flush = pos->remote_end;
            dlist_delete(iter.cur);
            pfree(pos);
        }
        else
        {
            /*
             * Don't want to uselessly iterate over the rest of the list which
             * could potentially be long. Instead get the last element and
             * grab the write position from there.
             */
            pos = dlist_tail_element(FlushPosition, node,
                                     &lsn_mapping);
            *write = pos->remote_end;
            *have_pending_txes = true;
            return;
        }
    }
 
    *have_pending_txes = !dlist_is_empty(&lsn_mapping);
}

References dlist_mutable_iter::cur, dlist_container, dlist_delete(), dlist_foreach_modify, dlist_is_empty(), dlist_tail_element, GetFlushRecPtr(), InvalidXLogRecPtr, FlushPosition::local_end, lsn_mapping, pfree(), FlushPosition::remote_end, and write.

Referenced by send_feedback(), and wait_for_local_flush().

◆ get_transaction_apply_action()

static TransApplyAction get_transaction_apply_action	(	TransactionId	xid,
		ParallelApplyWorkerInfo **	winfo
	)

static

Definition at line 6275 of file worker.c.

{
    *winfo = NULL;
 
    if (am_parallel_apply_worker())
    {
        return TRANS_PARALLEL_APPLY;
    }
 
    /*
     * If we are processing this transaction using a parallel apply worker
     * then either we send the changes to the parallel worker or if the worker
     * is busy then serialize the changes to the file which will later be
     * processed by the parallel worker.
     */
    *winfo = pa_find_worker(xid);
 
    if (*winfo && (*winfo)->serialize_changes)
    {
        return TRANS_LEADER_PARTIAL_SERIALIZE;
    }
    else if (*winfo)
    {
        return TRANS_LEADER_SEND_TO_PARALLEL;
    }
 
    /*
     * If there is no parallel worker involved to process this transaction
     * then we either directly apply the change or serialize it to a file
     * which will later be applied when the transaction finish message is
     * processed.
     */
    else if (in_streamed_transaction)
    {
        return TRANS_LEADER_SERIALIZE;
    }
    else
    {
        return TRANS_LEADER_APPLY;
    }
}

References am_parallel_apply_worker(), in_streamed_transaction, pa_find_worker(), ParallelApplyWorkerInfo::serialize_changes, TRANS_LEADER_APPLY, TRANS_LEADER_PARTIAL_SERIALIZE, TRANS_LEADER_SEND_TO_PARALLEL, TRANS_LEADER_SERIALIZE, and TRANS_PARALLEL_APPLY.

Referenced by apply_handle_stream_abort(), apply_handle_stream_commit(), apply_handle_stream_prepare(), apply_handle_stream_start(), apply_handle_stream_stop(), and handle_streamed_transaction().

◆ handle_streamed_transaction()

static bool handle_streamed_transaction	(	LogicalRepMsgType	action,
		StringInfo	s
	)

static

Definition at line 772 of file worker.c.

{
    TransactionId current_xid;
    ParallelApplyWorkerInfo *winfo;
    TransApplyAction apply_action;
    StringInfoData original_msg;
 
    apply_action = get_transaction_apply_action(stream_xid, &winfo);
 
    /* not in streaming mode */
    if (apply_action == TRANS_LEADER_APPLY)
        return false;
 
    Assert(TransactionIdIsValid(stream_xid));
 
    /*
     * The parallel apply worker needs the xid in this message to decide
     * whether to define a savepoint, so save the original message that has
     * not moved the cursor after the xid. We will serialize this message to a
     * file in PARTIAL_SERIALIZE mode.
     */
    original_msg = *s;
 
    /*
     * We should have received XID of the subxact as the first part of the
     * message, so extract it.
     */
    current_xid = pq_getmsgint(s, 4);
 
    if (!TransactionIdIsValid(current_xid))
        ereport(ERROR,
                (errcode(ERRCODE_PROTOCOL_VIOLATION),
                 errmsg_internal("invalid transaction ID in streamed replication transaction")));
 
    switch (apply_action)
    {
        case TRANS_LEADER_SERIALIZE:
            Assert(stream_fd);
 
            /* Add the new subxact to the array (unless already there). */
            subxact_info_add(current_xid);
 
            /* Write the change to the current file */
            stream_write_change(action, s);
            return true;
 
        case TRANS_LEADER_SEND_TO_PARALLEL:
            Assert(winfo);
 
            /*
             * XXX The publisher side doesn't always send relation/type update
             * messages after the streaming transaction, so also update the
             * relation/type in leader apply worker. See function
             * cleanup_rel_sync_cache.
             */
            if (pa_send_data(winfo, s->len, s->data))
                return (action != LOGICAL_REP_MSG_RELATION &&
                        action != LOGICAL_REP_MSG_TYPE);
 
            /*
             * Switch to serialize mode when we are not able to send the
             * change to parallel apply worker.
             */
            pa_switch_to_partial_serialize(winfo, false);
 
            /* fall through */
        case TRANS_LEADER_PARTIAL_SERIALIZE:
            stream_write_change(action, &original_msg);
 
            /* Same reason as TRANS_LEADER_SEND_TO_PARALLEL case. */
            return (action != LOGICAL_REP_MSG_RELATION &&
                    action != LOGICAL_REP_MSG_TYPE);
 
        case TRANS_PARALLEL_APPLY:
            parallel_stream_nchanges += 1;
 
            /* Define a savepoint for a subxact if needed. */
            pa_start_subtrans(current_xid, stream_xid);
            return false;
 
        default:
            elog(ERROR, "unexpected apply action: %d", (int) apply_action);
            return false;       /* silence compiler warning */
    }
}

References generate_unaccent_rules::action, Assert(), StringInfoData::data, elog, ereport, errcode(), errmsg_internal(), ERROR, get_transaction_apply_action(), StringInfoData::len, LOGICAL_REP_MSG_RELATION, LOGICAL_REP_MSG_TYPE, pa_send_data(), pa_start_subtrans(), pa_switch_to_partial_serialize(), parallel_stream_nchanges, pq_getmsgint(), stream_fd, stream_write_change(), stream_xid, subxact_info_add(), TRANS_LEADER_APPLY, TRANS_LEADER_PARTIAL_SERIALIZE, TRANS_LEADER_SEND_TO_PARALLEL, TRANS_LEADER_SERIALIZE, TRANS_PARALLEL_APPLY, and TransactionIdIsValid.

Referenced by apply_handle_delete(), apply_handle_insert(), apply_handle_relation(), apply_handle_truncate(), apply_handle_type(), and apply_handle_update().

◆ InitializeLogRepWorker()

void InitializeLogRepWorker ( void )

Definition at line 5705 of file worker.c.

{
    MemoryContext oldctx;
 
    /* Run as replica session replication role. */
    SetConfigOption("session_replication_role", "replica",
                    PGC_SUSET, PGC_S_OVERRIDE);
 
    /* Connect to our database. */
    BackgroundWorkerInitializeConnectionByOid(MyLogicalRepWorker->dbid,
                                              MyLogicalRepWorker->userid,
                                              0);
 
    /*
     * Set always-secure search path, so malicious users can't redirect user
     * code (e.g. pg_index.indexprs).
     */
    SetConfigOption("search_path", "", PGC_SUSET, PGC_S_OVERRIDE);
 
    /* Load the subscription into persistent memory context. */
    ApplyContext = AllocSetContextCreate(TopMemoryContext,
                                         "ApplyContext",
                                         ALLOCSET_DEFAULT_SIZES);
    StartTransactionCommand();
    oldctx = MemoryContextSwitchTo(ApplyContext);
 
    /*
     * Lock the subscription to prevent it from being concurrently dropped,
     * then re-verify its existence. After the initialization, the worker will
     * be terminated gracefully if the subscription is dropped.
     */
    LockSharedObject(SubscriptionRelationId, MyLogicalRepWorker->subid, 0,
                     AccessShareLock);
    MySubscription = GetSubscription(MyLogicalRepWorker->subid, true);
    if (!MySubscription)
    {
        ereport(LOG,
                (errmsg("logical replication worker for subscription %u will not start because the subscription was removed during startup",
                        MyLogicalRepWorker->subid)));
 
        /* Ensure we remove no-longer-useful entry for worker's start time */
        if (am_leader_apply_worker())
            ApplyLauncherForgetWorkerStartTime(MyLogicalRepWorker->subid);
 
        proc_exit(0);
    }
 
    MySubscriptionValid = true;
    MemoryContextSwitchTo(oldctx);
 
    if (!MySubscription->enabled)
    {
        ereport(LOG,
                (errmsg("logical replication worker for subscription \"%s\" will not start because the subscription was disabled during startup",
                        MySubscription->name)));
 
        apply_worker_exit();
    }
 
    /*
     * Restart the worker if retain_dead_tuples was enabled during startup.
     *
     * At this point, the replication slot used for conflict detection might
     * not exist yet, or could be dropped soon if the launcher perceives
     * retain_dead_tuples as disabled. To avoid unnecessary tracking of
     * oldest_nonremovable_xid when the slot is absent or at risk of being
     * dropped, a restart is initiated.
     *
     * The oldest_nonremovable_xid should be initialized only when the
     * subscription's retention is active before launching the worker. See
     * logicalrep_worker_launch.
     */
    if (am_leader_apply_worker() &&
        MySubscription->retaindeadtuples &&
        MySubscription->retentionactive &&
        !TransactionIdIsValid(MyLogicalRepWorker->oldest_nonremovable_xid))
    {
        ereport(LOG,
                errmsg("logical replication worker for subscription \"%s\" will restart because the option %s was enabled during startup",
                       MySubscription->name, "retain_dead_tuples"));
 
        apply_worker_exit();
    }
 
    /* Setup synchronous commit according to the user's wishes */
    SetConfigOption("synchronous_commit", MySubscription->synccommit,
                    PGC_BACKEND, PGC_S_OVERRIDE);
 
    /*
     * Keep us informed about subscription or role changes. Note that the
     * role's superuser privilege can be revoked.
     */
    CacheRegisterSyscacheCallback(SUBSCRIPTIONOID,
                                  subscription_change_cb,
                                  (Datum) 0);
 
    CacheRegisterSyscacheCallback(AUTHOID,
                                  subscription_change_cb,
                                  (Datum) 0);
 
    if (am_tablesync_worker())
        ereport(LOG,
                (errmsg("logical replication table synchronization worker for subscription \"%s\", table \"%s\" has started",
                        MySubscription->name,
                        get_rel_name(MyLogicalRepWorker->relid))));
    else
        ereport(LOG,
                (errmsg("logical replication apply worker for subscription \"%s\" has started",
                        MySubscription->name)));
 
    CommitTransactionCommand();
}

References AccessShareLock, ALLOCSET_DEFAULT_SIZES, AllocSetContextCreate, am_leader_apply_worker(), am_tablesync_worker(), apply_worker_exit(), ApplyContext, ApplyLauncherForgetWorkerStartTime(), BackgroundWorkerInitializeConnectionByOid(), CacheRegisterSyscacheCallback(), CommitTransactionCommand(), LogicalRepWorker::dbid, Subscription::enabled, ereport, errmsg(), get_rel_name(), GetSubscription(), LockSharedObject(), LOG, MemoryContextSwitchTo(), MyLogicalRepWorker, MySubscription, MySubscriptionValid, Subscription::name, LogicalRepWorker::oldest_nonremovable_xid, PGC_BACKEND, PGC_S_OVERRIDE, PGC_SUSET, proc_exit(), LogicalRepWorker::relid, Subscription::retaindeadtuples, Subscription::retentionactive, SetConfigOption(), StartTransactionCommand(), LogicalRepWorker::subid, subscription_change_cb(), Subscription::synccommit, TopMemoryContext, TransactionIdIsValid, and LogicalRepWorker::userid.

Referenced by ParallelApplyWorkerMain(), and SetupApplyOrSyncWorker().

◆ IsIndexUsableForFindingDeletedTuple()

static bool IsIndexUsableForFindingDeletedTuple	(	Oid	localindexoid,
		TransactionId	conflict_detection_xmin
	)

static

Definition at line 3210 of file worker.c.

{
    HeapTuple   index_tuple;
    TransactionId index_xmin;
 
    index_tuple = SearchSysCache1(INDEXRELID, ObjectIdGetDatum(localindexoid));
 
    if (!HeapTupleIsValid(index_tuple)) /* should not happen */
        elog(ERROR, "cache lookup failed for index %u", localindexoid);
 
    /*
     * No need to check for a frozen transaction ID, as
     * TransactionIdPrecedes() manages it internally, treating it as falling
     * behind the conflict_detection_xmin.
     */
    index_xmin = HeapTupleHeaderGetXmin(index_tuple->t_data);
 
    ReleaseSysCache(index_tuple);
 
    return TransactionIdPrecedes(index_xmin, conflict_detection_xmin);
}

References elog, ERROR, HeapTupleHeaderGetXmin(), HeapTupleIsValid, ObjectIdGetDatum(), ReleaseSysCache(), SearchSysCache1(), HeapTupleData::t_data, and TransactionIdPrecedes().

Referenced by FindDeletedTupleInLocalRel().

◆ IsLogicalParallelApplyWorker()

bool IsLogicalParallelApplyWorker ( void )

Definition at line 5970 of file worker.c.

{
    return IsLogicalWorker() && am_parallel_apply_worker();
}

References am_parallel_apply_worker(), and IsLogicalWorker().

Referenced by mq_putmessage().

◆ IsLogicalWorker()

bool IsLogicalWorker ( void )

Definition at line 5961 of file worker.c.

{
    return MyLogicalRepWorker != NULL;
}

References MyLogicalRepWorker.

Referenced by IsLogicalParallelApplyWorker(), and ProcessInterrupts().

◆ LogicalRepApplyLoop()

static void LogicalRepApplyLoop ( XLogRecPtr last_received )

static

Definition at line 3953 of file worker.c.

{
    TimestampTz last_recv_timestamp = GetCurrentTimestamp();
    bool        ping_sent = false;
    TimeLineID  tli;
    ErrorContextCallback errcallback;
    RetainDeadTuplesData rdt_data = {0};
 
    /*
     * Init the ApplyMessageContext which we clean up after each replication
     * protocol message.
     */
    ApplyMessageContext = AllocSetContextCreate(ApplyContext,
                                                "ApplyMessageContext",
                                                ALLOCSET_DEFAULT_SIZES);
 
    /*
     * This memory context is used for per-stream data when the streaming mode
     * is enabled. This context is reset on each stream stop.
     */
    LogicalStreamingContext = AllocSetContextCreate(ApplyContext,
                                                    "LogicalStreamingContext",
                                                    ALLOCSET_DEFAULT_SIZES);
 
    /* mark as idle, before starting to loop */
    pgstat_report_activity(STATE_IDLE, NULL);
 
    /*
     * Push apply error context callback. Fields will be filled while applying
     * a change.
     */
    errcallback.callback = apply_error_callback;
    errcallback.previous = error_context_stack;
    error_context_stack = &errcallback;
    apply_error_context_stack = error_context_stack;
 
    /* This outer loop iterates once per wait. */
    for (;;)
    {
        pgsocket    fd = PGINVALID_SOCKET;
        int         rc;
        int         len;
        char       *buf = NULL;
        bool        endofstream = false;
        long        wait_time;
 
        CHECK_FOR_INTERRUPTS();
 
        MemoryContextSwitchTo(ApplyMessageContext);
 
        len = walrcv_receive(LogRepWorkerWalRcvConn, &buf, &fd);
 
        if (len != 0)
        {
            /* Loop to process all available data (without blocking). */
            for (;;)
            {
                CHECK_FOR_INTERRUPTS();
 
                if (len == 0)
                {
                    break;
                }
                else if (len < 0)
                {
                    ereport(LOG,
                            (errmsg("data stream from publisher has ended")));
                    endofstream = true;
                    break;
                }
                else
                {
                    int         c;
                    StringInfoData s;
 
                    if (ConfigReloadPending)
                    {
                        ConfigReloadPending = false;
                        ProcessConfigFile(PGC_SIGHUP);
                    }
 
                    /* Reset timeout. */
                    last_recv_timestamp = GetCurrentTimestamp();
                    ping_sent = false;
 
                    rdt_data.last_recv_time = last_recv_timestamp;
 
                    /* Ensure we are reading the data into our memory context. */
                    MemoryContextSwitchTo(ApplyMessageContext);
 
                    initReadOnlyStringInfo(&s, buf, len);
 
                    c = pq_getmsgbyte(&s);
 
                    if (c == PqReplMsg_WALData)
                    {
                        XLogRecPtr  start_lsn;
                        XLogRecPtr  end_lsn;
                        TimestampTz send_time;
 
                        start_lsn = pq_getmsgint64(&s);
                        end_lsn = pq_getmsgint64(&s);
                        send_time = pq_getmsgint64(&s);
 
                        if (last_received < start_lsn)
                            last_received = start_lsn;
 
                        if (last_received < end_lsn)
                            last_received = end_lsn;
 
                        UpdateWorkerStats(last_received, send_time, false);
 
                        apply_dispatch(&s);
 
                        maybe_advance_nonremovable_xid(&rdt_data, false);
                    }
                    else if (c == PqReplMsg_Keepalive)
                    {
                        XLogRecPtr  end_lsn;
                        TimestampTz timestamp;
                        bool        reply_requested;
 
                        end_lsn = pq_getmsgint64(&s);
                        timestamp = pq_getmsgint64(&s);
                        reply_requested = pq_getmsgbyte(&s);
 
                        if (last_received < end_lsn)
                            last_received = end_lsn;
 
                        send_feedback(last_received, reply_requested, false);
 
                        maybe_advance_nonremovable_xid(&rdt_data, false);
 
                        UpdateWorkerStats(last_received, timestamp, true);
                    }
                    else if (c == PqReplMsg_PrimaryStatusUpdate)
                    {
                        rdt_data.remote_lsn = pq_getmsgint64(&s);
                        rdt_data.remote_oldestxid = FullTransactionIdFromU64((uint64) pq_getmsgint64(&s));
                        rdt_data.remote_nextxid = FullTransactionIdFromU64((uint64) pq_getmsgint64(&s));
                        rdt_data.reply_time = pq_getmsgint64(&s);
 
                        /*
                         * This should never happen, see
                         * ProcessStandbyPSRequestMessage. But if it happens
                         * due to a bug, we don't want to proceed as it can
                         * incorrectly advance oldest_nonremovable_xid.
                         */
                        if (XLogRecPtrIsInvalid(rdt_data.remote_lsn))
                            elog(ERROR, "cannot get the latest WAL position from the publisher");
 
                        maybe_advance_nonremovable_xid(&rdt_data, true);
 
                        UpdateWorkerStats(last_received, rdt_data.reply_time, false);
                    }
                    /* other message types are purposefully ignored */
 
                    MemoryContextReset(ApplyMessageContext);
                }
 
                len = walrcv_receive(LogRepWorkerWalRcvConn, &buf, &fd);
            }
        }
 
        /* confirm all writes so far */
        send_feedback(last_received, false, false);
 
        /* Reset the timestamp if no message was received */
        rdt_data.last_recv_time = 0;
 
        maybe_advance_nonremovable_xid(&rdt_data, false);
 
        if (!in_remote_transaction && !in_streamed_transaction)
        {
            /*
             * If we didn't get any transactions for a while there might be
             * unconsumed invalidation messages in the queue, consume them
             * now.
             */
            AcceptInvalidationMessages();
            maybe_reread_subscription();
 
            /* Process any table synchronization changes. */
            process_syncing_tables(last_received);
        }
 
        /* Cleanup the memory. */
        MemoryContextReset(ApplyMessageContext);
        MemoryContextSwitchTo(TopMemoryContext);
 
        /* Check if we need to exit the streaming loop. */
        if (endofstream)
            break;
 
        /*
         * Wait for more data or latch.  If we have unflushed transactions,
         * wake up after WalWriterDelay to see if they've been flushed yet (in
         * which case we should send a feedback message).  Otherwise, there's
         * no particular urgency about waking up unless we get data or a
         * signal.
         */
        if (!dlist_is_empty(&lsn_mapping))
            wait_time = WalWriterDelay;
        else
            wait_time = NAPTIME_PER_CYCLE;
 
        /*
         * Ensure to wake up when it's possible to advance the non-removable
         * transaction ID, or when the retention duration may have exceeded
         * max_retention_duration.
         */
        if (MySubscription->retentionactive)
        {
            if (rdt_data.phase == RDT_GET_CANDIDATE_XID &&
                rdt_data.xid_advance_interval)
                wait_time = Min(wait_time, rdt_data.xid_advance_interval);
            else if (MySubscription->maxretention > 0)
                wait_time = Min(wait_time, MySubscription->maxretention);
        }
 
        rc = WaitLatchOrSocket(MyLatch,
                               WL_SOCKET_READABLE | WL_LATCH_SET |
                               WL_TIMEOUT | WL_EXIT_ON_PM_DEATH,
                               fd, wait_time,
                               WAIT_EVENT_LOGICAL_APPLY_MAIN);
 
        if (rc & WL_LATCH_SET)
        {
            ResetLatch(MyLatch);
            CHECK_FOR_INTERRUPTS();
        }
 
        if (ConfigReloadPending)
        {
            ConfigReloadPending = false;
            ProcessConfigFile(PGC_SIGHUP);
        }
 
        if (rc & WL_TIMEOUT)
        {
            /*
             * We didn't receive anything new. If we haven't heard anything
             * from the server for more than wal_receiver_timeout / 2, ping
             * the server. Also, if it's been longer than
             * wal_receiver_status_interval since the last update we sent,
             * send a status update to the primary anyway, to report any
             * progress in applying WAL.
             */
            bool        requestReply = false;
 
            /*
             * Check if time since last receive from primary has reached the
             * configured limit.
             */
            if (wal_receiver_timeout > 0)
            {
                TimestampTz now = GetCurrentTimestamp();
                TimestampTz timeout;
 
                timeout =
                    TimestampTzPlusMilliseconds(last_recv_timestamp,
                                                wal_receiver_timeout);
 
                if (now >= timeout)
                    ereport(ERROR,
                            (errcode(ERRCODE_CONNECTION_FAILURE),
                             errmsg("terminating logical replication worker due to timeout")));
 
                /* Check to see if it's time for a ping. */
                if (!ping_sent)
                {
                    timeout = TimestampTzPlusMilliseconds(last_recv_timestamp,
                                                          (wal_receiver_timeout / 2));
                    if (now >= timeout)
                    {
                        requestReply = true;
                        ping_sent = true;
                    }
                }
            }
 
            send_feedback(last_received, requestReply, requestReply);
 
            maybe_advance_nonremovable_xid(&rdt_data, false);
 
            /*
             * Force reporting to ensure long idle periods don't lead to
             * arbitrarily delayed stats. Stats can only be reported outside
             * of (implicit or explicit) transactions. That shouldn't lead to
             * stats being delayed for long, because transactions are either
             * sent as a whole on commit or streamed. Streamed transactions
             * are spilled to disk and applied on commit.
             */
            if (!IsTransactionState())
                pgstat_report_stat(true);
        }
    }
 
    /* Pop the error context stack */
    error_context_stack = errcallback.previous;
    apply_error_context_stack = error_context_stack;
 
    /* All done */
    walrcv_endstreaming(LogRepWorkerWalRcvConn, &tli);
}

References AcceptInvalidationMessages(), ALLOCSET_DEFAULT_SIZES, AllocSetContextCreate, apply_dispatch(), apply_error_callback(), apply_error_context_stack, ApplyContext, ApplyMessageContext, buf, ErrorContextCallback::callback, CHECK_FOR_INTERRUPTS, ConfigReloadPending, dlist_is_empty(), elog, ereport, errcode(), errmsg(), ERROR, error_context_stack, fd(), FullTransactionIdFromU64(), GetCurrentTimestamp(), in_remote_transaction, in_streamed_transaction, initReadOnlyStringInfo(), IsTransactionState(), RetainDeadTuplesData::last_recv_time, len, LOG, LogicalStreamingContext, LogRepWorkerWalRcvConn, lsn_mapping, Subscription::maxretention, maybe_advance_nonremovable_xid(), maybe_reread_subscription(), MemoryContextReset(), MemoryContextSwitchTo(), Min, MyLatch, MySubscription, NAPTIME_PER_CYCLE, now(), PGC_SIGHUP, PGINVALID_SOCKET, pgstat_report_activity(), pgstat_report_stat(), RetainDeadTuplesData::phase, pq_getmsgbyte(), pq_getmsgint64(), PqReplMsg_Keepalive, PqReplMsg_PrimaryStatusUpdate, PqReplMsg_WALData, ErrorContextCallback::previous, process_syncing_tables(), ProcessConfigFile(), RDT_GET_CANDIDATE_XID, RetainDeadTuplesData::remote_lsn, RetainDeadTuplesData::remote_nextxid, RetainDeadTuplesData::remote_oldestxid, RetainDeadTuplesData::reply_time, ResetLatch(), Subscription::retentionactive, send_feedback(), STATE_IDLE, TimestampTzPlusMilliseconds, TopMemoryContext, UpdateWorkerStats(), WaitLatchOrSocket(), wal_receiver_timeout, walrcv_endstreaming, walrcv_receive, WalWriterDelay, WL_EXIT_ON_PM_DEATH, WL_LATCH_SET, WL_SOCKET_READABLE, WL_TIMEOUT, RetainDeadTuplesData::xid_advance_interval, and XLogRecPtrIsInvalid.

Referenced by start_apply().

◆ LogicalRepWorkersWakeupAtCommit()

void LogicalRepWorkersWakeupAtCommit ( Oid subid )

Definition at line 6214 of file worker.c.

{
    MemoryContext oldcxt;
 
    oldcxt = MemoryContextSwitchTo(TopTransactionContext);
    on_commit_wakeup_workers_subids =
        list_append_unique_oid(on_commit_wakeup_workers_subids, subid);
    MemoryContextSwitchTo(oldcxt);
}

References list_append_unique_oid(), MemoryContextSwitchTo(), on_commit_wakeup_workers_subids, and TopTransactionContext.

Referenced by AlterObjectRename_internal(), AlterSubscription(), and AlterSubscriptionOwner_internal().

◆ maybe_advance_nonremovable_xid()

static void maybe_advance_nonremovable_xid	(	RetainDeadTuplesData *	rdt_data,
		bool	status_received
	)

static

Definition at line 4356 of file worker.c.

{
    if (!can_advance_nonremovable_xid(rdt_data))
        return;
 
    process_rdt_phase_transition(rdt_data, status_received);
}

References can_advance_nonremovable_xid(), and process_rdt_phase_transition().

Referenced by LogicalRepApplyLoop().

◆ maybe_reread_subscription()

void maybe_reread_subscription ( void )

Definition at line 5007 of file worker.c.

{
    MemoryContext oldctx;
    Subscription *newsub;
    bool        started_tx = false;
 
    /* When cache state is valid there is nothing to do here. */
    if (MySubscriptionValid)
        return;
 
    /* This function might be called inside or outside of transaction. */
    if (!IsTransactionState())
    {
        StartTransactionCommand();
        started_tx = true;
    }
 
    /* Ensure allocations in permanent context. */
    oldctx = MemoryContextSwitchTo(ApplyContext);
 
    newsub = GetSubscription(MyLogicalRepWorker->subid, true);
 
    /*
     * Exit if the subscription was removed. This normally should not happen
     * as the worker gets killed during DROP SUBSCRIPTION.
     */
    if (!newsub)
    {
        ereport(LOG,
                (errmsg("logical replication worker for subscription \"%s\" will stop because the subscription was removed",
                        MySubscription->name)));
 
        /* Ensure we remove no-longer-useful entry for worker's start time */
        if (am_leader_apply_worker())
            ApplyLauncherForgetWorkerStartTime(MyLogicalRepWorker->subid);
 
        proc_exit(0);
    }
 
    /* Exit if the subscription was disabled. */
    if (!newsub->enabled)
    {
        ereport(LOG,
                (errmsg("logical replication worker for subscription \"%s\" will stop because the subscription was disabled",
                        MySubscription->name)));
 
        apply_worker_exit();
    }
 
    /* !slotname should never happen when enabled is true. */
    Assert(newsub->slotname);
 
    /* two-phase cannot be altered while the worker is running */
    Assert(newsub->twophasestate == MySubscription->twophasestate);
 
    /*
     * Exit if any parameter that affects the remote connection was changed.
     * The launcher will start a new worker but note that the parallel apply
     * worker won't restart if the streaming option's value is changed from
     * 'parallel' to any other value or the server decides not to stream the
     * in-progress transaction.
     */
    if (strcmp(newsub->conninfo, MySubscription->conninfo) != 0 ||
        strcmp(newsub->name, MySubscription->name) != 0 ||
        strcmp(newsub->slotname, MySubscription->slotname) != 0 ||
        newsub->binary != MySubscription->binary ||
        newsub->stream != MySubscription->stream ||
        newsub->passwordrequired != MySubscription->passwordrequired ||
        strcmp(newsub->origin, MySubscription->origin) != 0 ||
        newsub->owner != MySubscription->owner ||
        !equal(newsub->publications, MySubscription->publications))
    {
        if (am_parallel_apply_worker())
            ereport(LOG,
                    (errmsg("logical replication parallel apply worker for subscription \"%s\" will stop because of a parameter change",
                            MySubscription->name)));
        else
            ereport(LOG,
                    (errmsg("logical replication worker for subscription \"%s\" will restart because of a parameter change",
                            MySubscription->name)));
 
        apply_worker_exit();
    }
 
    /*
     * Exit if the subscription owner's superuser privileges have been
     * revoked.
     */
    if (!newsub->ownersuperuser && MySubscription->ownersuperuser)
    {
        if (am_parallel_apply_worker())
            ereport(LOG,
                    errmsg("logical replication parallel apply worker for subscription \"%s\" will stop because the subscription owner's superuser privileges have been revoked",
                           MySubscription->name));
        else
            ereport(LOG,
                    errmsg("logical replication worker for subscription \"%s\" will restart because the subscription owner's superuser privileges have been revoked",
                           MySubscription->name));
 
        apply_worker_exit();
    }
 
    /* Check for other changes that should never happen too. */
    if (newsub->dbid != MySubscription->dbid)
    {
        elog(ERROR, "subscription %u changed unexpectedly",
             MyLogicalRepWorker->subid);
    }
 
    /* Clean old subscription info and switch to new one. */
    FreeSubscription(MySubscription);
    MySubscription = newsub;
 
    MemoryContextSwitchTo(oldctx);
 
    /* Change synchronous commit according to the user's wishes */
    SetConfigOption("synchronous_commit", MySubscription->synccommit,
                    PGC_BACKEND, PGC_S_OVERRIDE);
 
    if (started_tx)
        CommitTransactionCommand();
 
    MySubscriptionValid = true;
}

References am_leader_apply_worker(), am_parallel_apply_worker(), apply_worker_exit(), ApplyContext, ApplyLauncherForgetWorkerStartTime(), Assert(), Subscription::binary, CommitTransactionCommand(), Subscription::conninfo, Subscription::dbid, elog, equal(), ereport, errmsg(), ERROR, FreeSubscription(), GetSubscription(), IsTransactionState(), LOG, MemoryContextSwitchTo(), MyLogicalRepWorker, MySubscription, MySubscriptionValid, Subscription::name, newsub(), Subscription::origin, Subscription::owner, Subscription::ownersuperuser, Subscription::passwordrequired, PGC_BACKEND, PGC_S_OVERRIDE, proc_exit(), Subscription::publications, SetConfigOption(), Subscription::slotname, StartTransactionCommand(), Subscription::stream, LogicalRepWorker::subid, Subscription::synccommit, and Subscription::twophasestate.

Referenced by apply_handle_commit_internal(), begin_replication_step(), LogicalRepApplyLoop(), and pa_can_start().

◆ maybe_start_skipping_changes()

static void maybe_start_skipping_changes ( XLogRecPtr finish_lsn )

static

Definition at line 5980 of file worker.c.

{
    Assert(!is_skipping_changes());
    Assert(!in_remote_transaction);
    Assert(!in_streamed_transaction);
 
    /*
     * Quick return if it's not requested to skip this transaction. This
     * function is called for every remote transaction and we assume that
     * skipping the transaction is not used often.
     */
    if (likely(XLogRecPtrIsInvalid(MySubscription->skiplsn) ||
               MySubscription->skiplsn != finish_lsn))
        return;
 
    /* Start skipping all changes of this transaction */
    skip_xact_finish_lsn = finish_lsn;
 
    ereport(LOG,
            errmsg("logical replication starts skipping transaction at LSN %X/%08X",
                   LSN_FORMAT_ARGS(skip_xact_finish_lsn)));
}

References Assert(), ereport, errmsg(), in_remote_transaction, in_streamed_transaction, is_skipping_changes, likely, LOG, LSN_FORMAT_ARGS, MySubscription, skip_xact_finish_lsn, Subscription::skiplsn, and XLogRecPtrIsInvalid.

Referenced by apply_handle_begin(), apply_handle_begin_prepare(), and apply_spooled_messages().

◆ process_rdt_phase_transition()

static void process_rdt_phase_transition	(	RetainDeadTuplesData *	rdt_data,
		bool	status_received
	)

static

Definition at line 4392 of file worker.c.

{
    switch (rdt_data->phase)
    {
        case RDT_GET_CANDIDATE_XID:
            get_candidate_xid(rdt_data);
            break;
        case RDT_REQUEST_PUBLISHER_STATUS:
            request_publisher_status(rdt_data);
            break;
        case RDT_WAIT_FOR_PUBLISHER_STATUS:
            wait_for_publisher_status(rdt_data, status_received);
            break;
        case RDT_WAIT_FOR_LOCAL_FLUSH:
            wait_for_local_flush(rdt_data);
            break;
        case RDT_STOP_CONFLICT_INFO_RETENTION:
            stop_conflict_info_retention(rdt_data);
            break;
        case RDT_RESUME_CONFLICT_INFO_RETENTION:
            resume_conflict_info_retention(rdt_data);
            break;
    }
}

References get_candidate_xid(), RetainDeadTuplesData::phase, RDT_GET_CANDIDATE_XID, RDT_REQUEST_PUBLISHER_STATUS, RDT_RESUME_CONFLICT_INFO_RETENTION, RDT_STOP_CONFLICT_INFO_RETENTION, RDT_WAIT_FOR_LOCAL_FLUSH, RDT_WAIT_FOR_PUBLISHER_STATUS, request_publisher_status(), resume_conflict_info_retention(), stop_conflict_info_retention(), wait_for_local_flush(), and wait_for_publisher_status().

Referenced by get_candidate_xid(), maybe_advance_nonremovable_xid(), wait_for_local_flush(), and wait_for_publisher_status().

◆ ReplicationOriginNameForLogicalRep()

void ReplicationOriginNameForLogicalRep	(	Oid	suboid,
		Oid	relid,
		char *	originname,
		Size	szoriginname
	)

Definition at line 641 of file worker.c.

{
    if (OidIsValid(relid))
    {
        /* Replication origin name for tablesync workers. */
        snprintf(originname, szoriginname, "pg_%u_%u", suboid, relid);
    }
    else
    {
        /* Replication origin name for non-tablesync workers. */
        snprintf(originname, szoriginname, "pg_%u", suboid);
    }
}

References OidIsValid, and snprintf.

Referenced by AlterSubscription(), AlterSubscription_refresh(), binary_upgrade_replorigin_advance(), CreateSubscription(), DropSubscription(), LogicalRepSyncTableStart(), ParallelApplyWorkerMain(), process_syncing_tables_for_apply(), process_syncing_tables_for_sync(), run_apply_worker(), and run_tablesync_worker().

◆ replorigin_reset()

static void replorigin_reset	(	int	code,
		Datum	arg
	)

static

Definition at line 5822 of file worker.c.

{
    replorigin_session_origin = InvalidRepOriginId;
    replorigin_session_origin_lsn = InvalidXLogRecPtr;
    replorigin_session_origin_timestamp = 0;
}

References InvalidRepOriginId, InvalidXLogRecPtr, replorigin_session_origin, replorigin_session_origin_lsn, and replorigin_session_origin_timestamp.

Referenced by SetupApplyOrSyncWorker(), and start_apply().

◆ request_publisher_status()

static void request_publisher_status ( RetainDeadTuplesData * rdt_data )

static

Definition at line 4485 of file worker.c.

{
    static StringInfo request_message = NULL;
 
    if (!request_message)
    {
        MemoryContext oldctx = MemoryContextSwitchTo(ApplyContext);
 
        request_message = makeStringInfo();
        MemoryContextSwitchTo(oldctx);
    }
    else
        resetStringInfo(request_message);
 
    /*
     * Send the current time to update the remote walsender's latest reply
     * message received time.
     */
    pq_sendbyte(request_message, PqReplMsg_PrimaryStatusRequest);
    pq_sendint64(request_message, GetCurrentTimestamp());
 
    elog(DEBUG2, "sending publisher status request message");
 
    /* Send a request for the publisher status */
    walrcv_send(LogRepWorkerWalRcvConn,
                request_message->data, request_message->len);
 
    rdt_data->phase = RDT_WAIT_FOR_PUBLISHER_STATUS;
 
    /*
     * Skip calling maybe_advance_nonremovable_xid() since further transition
     * is possible only once we receive the publisher status message.
     */
}

References ApplyContext, StringInfoData::data, DEBUG2, elog, GetCurrentTimestamp(), StringInfoData::len, LogRepWorkerWalRcvConn, makeStringInfo(), MemoryContextSwitchTo(), RetainDeadTuplesData::phase, pq_sendbyte(), pq_sendint64(), PqReplMsg_PrimaryStatusRequest, RDT_WAIT_FOR_PUBLISHER_STATUS, resetStringInfo(), and walrcv_send.

Referenced by process_rdt_phase_transition().

◆ reset_apply_error_context_info()

static void reset_apply_error_context_info ( void )

inlinestatic

Definition at line 6198 of file worker.c.

{
    apply_error_callback_arg.command = 0;
    apply_error_callback_arg.rel = NULL;
    apply_error_callback_arg.remote_attnum = -1;
    set_apply_error_context_xact(InvalidTransactionId, InvalidXLogRecPtr);
}

References apply_error_callback_arg, ApplyErrorCallbackArg::command, InvalidTransactionId, InvalidXLogRecPtr, ApplyErrorCallbackArg::rel, ApplyErrorCallbackArg::remote_attnum, and set_apply_error_context_xact().

Referenced by apply_handle_commit(), apply_handle_commit_prepared(), apply_handle_prepare(), apply_handle_rollback_prepared(), apply_handle_stream_abort(), apply_handle_stream_commit(), apply_handle_stream_prepare(), and apply_handle_stream_stop().

◆ reset_retention_data_fields()

static void reset_retention_data_fields ( RetainDeadTuplesData * rdt_data )

static

Definition at line 4890 of file worker.c.

{
    rdt_data->phase = RDT_GET_CANDIDATE_XID;
    rdt_data->remote_lsn = InvalidXLogRecPtr;
    rdt_data->remote_oldestxid = InvalidFullTransactionId;
    rdt_data->remote_nextxid = InvalidFullTransactionId;
    rdt_data->reply_time = 0;
    rdt_data->remote_wait_for = InvalidFullTransactionId;
    rdt_data->candidate_xid = InvalidTransactionId;
    rdt_data->table_sync_wait_time = 0;
}

References RetainDeadTuplesData::candidate_xid, InvalidFullTransactionId, InvalidTransactionId, InvalidXLogRecPtr, RetainDeadTuplesData::phase, RDT_GET_CANDIDATE_XID, RetainDeadTuplesData::remote_lsn, RetainDeadTuplesData::remote_nextxid, RetainDeadTuplesData::remote_oldestxid, RetainDeadTuplesData::remote_wait_for, RetainDeadTuplesData::reply_time, and RetainDeadTuplesData::table_sync_wait_time.

Referenced by stop_conflict_info_retention(), and wait_for_local_flush().

◆ resume_conflict_info_retention()

static void resume_conflict_info_retention ( RetainDeadTuplesData * rdt_data )

static

Definition at line 4811 of file worker.c.

{
    /* We can't resume retention without updating retention status. */
    if (!update_retention_status(true))
        return;
 
    ereport(LOG,
            errmsg("logical replication worker for subscription \"%s\" will resume retaining the information for detecting conflicts",
                   MySubscription->name),
            MySubscription->maxretention
            ? errdetail("Retention is re-enabled because the apply process has caught up with the publisher within the configured max_retention_duration.")
            : errdetail("Retention is re-enabled because max_retention_duration has been set to unlimited."));
 
    /*
     * Restart the worker to let the launcher initialize
     * oldest_nonremovable_xid at startup.
     *
     * While it's technically possible to derive this value on-the-fly using
     * the conflict detection slot's xmin, doing so risks a race condition:
     * the launcher might clean slot.xmin just after retention resumes. This
     * would make oldest_nonremovable_xid unreliable, especially during xid
     * wraparound.
     *
     * Although this can be prevented by introducing heavy weight locking, the
     * complexity it will bring doesn't seem worthwhile given how rarely
     * retention is resumed.
     */
    apply_worker_exit();
}

References apply_worker_exit(), ereport, errdetail(), errmsg(), LOG, Subscription::maxretention, MySubscription, Subscription::name, and update_retention_status().

Referenced by process_rdt_phase_transition().

◆ run_apply_worker()

static void run_apply_worker ( )

static

Definition at line 5592 of file worker.c.

{
    char        originname[NAMEDATALEN];
    XLogRecPtr  origin_startpos = InvalidXLogRecPtr;
    char       *slotname = NULL;
    WalRcvStreamOptions options;
    RepOriginId originid;
    TimeLineID  startpointTLI;
    char       *err;
    bool        must_use_password;
 
    slotname = MySubscription->slotname;
 
    /*
     * This shouldn't happen if the subscription is enabled, but guard against
     * DDL bugs or manual catalog changes.  (libpqwalreceiver will crash if
     * slot is NULL.)
     */
    if (!slotname)
        ereport(ERROR,
                (errcode(ERRCODE_OBJECT_NOT_IN_PREREQUISITE_STATE),
                 errmsg("subscription has no replication slot set")));
 
    /* Setup replication origin tracking. */
    ReplicationOriginNameForLogicalRep(MySubscription->oid, InvalidOid,
                                       originname, sizeof(originname));
    StartTransactionCommand();
    originid = replorigin_by_name(originname, true);
    if (!OidIsValid(originid))
        originid = replorigin_create(originname);
    replorigin_session_setup(originid, 0);
    replorigin_session_origin = originid;
    origin_startpos = replorigin_session_get_progress(false);
    CommitTransactionCommand();
 
    /* Is the use of a password mandatory? */
    must_use_password = MySubscription->passwordrequired &&
        !MySubscription->ownersuperuser;
 
    LogRepWorkerWalRcvConn = walrcv_connect(MySubscription->conninfo, true,
                                            true, must_use_password,
                                            MySubscription->name, &err);
 
    if (LogRepWorkerWalRcvConn == NULL)
        ereport(ERROR,
                (errcode(ERRCODE_CONNECTION_FAILURE),
                 errmsg("apply worker for subscription \"%s\" could not connect to the publisher: %s",
                        MySubscription->name, err)));
 
    /*
     * We don't really use the output identify_system for anything but it does
     * some initializations on the upstream so let's still call it.
     */
    (void) walrcv_identify_system(LogRepWorkerWalRcvConn, &startpointTLI);
 
    set_apply_error_context_origin(originname);
 
    set_stream_options(&options, slotname, &origin_startpos);
 
    /*
     * Even when the two_phase mode is requested by the user, it remains as
     * the tri-state PENDING until all tablesyncs have reached READY state.
     * Only then, can it become ENABLED.
     *
     * 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())
    {
        /* Start streaming with two_phase enabled */
        options.proto.logical.twophase = true;
        walrcv_startstreaming(LogRepWorkerWalRcvConn, &options);
 
        StartTransactionCommand();
 
        /*
         * Updating pg_subscription might involve TOAST table access, so
         * ensure we have a valid snapshot.
         */
        PushActiveSnapshot(GetTransactionSnapshot());
 
        UpdateTwoPhaseState(MySubscription->oid, LOGICALREP_TWOPHASE_STATE_ENABLED);
        MySubscription->twophasestate = LOGICALREP_TWOPHASE_STATE_ENABLED;
        PopActiveSnapshot();
        CommitTransactionCommand();
    }
    else
    {
        walrcv_startstreaming(LogRepWorkerWalRcvConn, &options);
    }
 
    ereport(DEBUG1,
            (errmsg_internal("logical replication apply worker for subscription \"%s\" two_phase is %s",
                             MySubscription->name,
                             MySubscription->twophasestate == LOGICALREP_TWOPHASE_STATE_DISABLED ? "DISABLED" :
                             MySubscription->twophasestate == LOGICALREP_TWOPHASE_STATE_PENDING ? "PENDING" :
                             MySubscription->twophasestate == LOGICALREP_TWOPHASE_STATE_ENABLED ? "ENABLED" :
                             "?")));
 
    /* Run the main loop. */
    start_apply(origin_startpos);
}

References AllTablesyncsReady(), CommitTransactionCommand(), Subscription::conninfo, DEBUG1, ereport, err(), errcode(), errmsg(), errmsg_internal(), ERROR, GetTransactionSnapshot(), InvalidOid, InvalidXLogRecPtr, LogRepWorkerWalRcvConn, MySubscription, Subscription::name, NAMEDATALEN, Subscription::oid, OidIsValid, options, Subscription::ownersuperuser, Subscription::passwordrequired, PopActiveSnapshot(), PushActiveSnapshot(), ReplicationOriginNameForLogicalRep(), replorigin_by_name(), replorigin_create(), replorigin_session_get_progress(), replorigin_session_origin, replorigin_session_setup(), set_apply_error_context_origin(), set_stream_options(), Subscription::slotname, start_apply(), StartTransactionCommand(), Subscription::twophasestate, UpdateTwoPhaseState(), walrcv_connect, walrcv_identify_system, and walrcv_startstreaming.

Referenced by ApplyWorkerMain().

◆ send_feedback()

static void send_feedback	(	XLogRecPtr	recvpos,
		bool	force,
		bool	requestReply
	)

static

Definition at line 4266 of file worker.c.

{
    static StringInfo reply_message = NULL;
    static TimestampTz send_time = 0;
 
    static XLogRecPtr last_recvpos = InvalidXLogRecPtr;
    static XLogRecPtr last_writepos = InvalidXLogRecPtr;
 
    XLogRecPtr  writepos;
    XLogRecPtr  flushpos;
    TimestampTz now;
    bool        have_pending_txes;
 
    /*
     * If the user doesn't want status to be reported to the publisher, be
     * sure to exit before doing anything at all.
     */
    if (!force && wal_receiver_status_interval <= 0)
        return;
 
    /* It's legal to not pass a recvpos */
    if (recvpos < last_recvpos)
        recvpos = last_recvpos;
 
    get_flush_position(&writepos, &flushpos, &have_pending_txes);
 
    /*
     * No outstanding transactions to flush, we can report the latest received
     * position. This is important for synchronous replication.
     */
    if (!have_pending_txes)
        flushpos = writepos = recvpos;
 
    if (writepos < last_writepos)
        writepos = last_writepos;
 
    if (flushpos < last_flushpos)
        flushpos = last_flushpos;
 
    now = GetCurrentTimestamp();
 
    /* if we've already reported everything we're good */
    if (!force &&
        writepos == last_writepos &&
        flushpos == last_flushpos &&
        !TimestampDifferenceExceeds(send_time, now,
                                    wal_receiver_status_interval * 1000))
        return;
    send_time = now;
 
    if (!reply_message)
    {
        MemoryContext oldctx = MemoryContextSwitchTo(ApplyContext);
 
        reply_message = makeStringInfo();
        MemoryContextSwitchTo(oldctx);
    }
    else
        resetStringInfo(reply_message);
 
    pq_sendbyte(reply_message, PqReplMsg_StandbyStatusUpdate);
    pq_sendint64(reply_message, recvpos);   /* write */
    pq_sendint64(reply_message, flushpos);  /* flush */
    pq_sendint64(reply_message, writepos);  /* apply */
    pq_sendint64(reply_message, now);   /* sendTime */
    pq_sendbyte(reply_message, requestReply);   /* replyRequested */
 
    elog(DEBUG2, "sending feedback (force %d) to recv %X/%08X, write %X/%08X, flush %X/%08X",
         force,
         LSN_FORMAT_ARGS(recvpos),
         LSN_FORMAT_ARGS(writepos),
         LSN_FORMAT_ARGS(flushpos));
 
    walrcv_send(LogRepWorkerWalRcvConn,
                reply_message->data, reply_message->len);
 
    if (recvpos > last_recvpos)
        last_recvpos = recvpos;
    if (writepos > last_writepos)
        last_writepos = writepos;
    if (flushpos > last_flushpos)
        last_flushpos = flushpos;
}

References ApplyContext, StringInfoData::data, DEBUG2, elog, get_flush_position(), GetCurrentTimestamp(), InvalidXLogRecPtr, last_flushpos, StringInfoData::len, LogRepWorkerWalRcvConn, LSN_FORMAT_ARGS, makeStringInfo(), MemoryContextSwitchTo(), now(), pq_sendbyte(), pq_sendint64(), PqReplMsg_StandbyStatusUpdate, reply_message, resetStringInfo(), TimestampDifferenceExceeds(), wal_receiver_status_interval, and walrcv_send.

Referenced by LogicalRepApplyLoop().

◆ set_apply_error_context_origin()

void set_apply_error_context_origin ( char * originname )

Definition at line 6260 of file worker.c.

{
    apply_error_callback_arg.origin_name = MemoryContextStrdup(ApplyContext,
                                                               originname);
}

References apply_error_callback_arg, ApplyContext, MemoryContextStrdup(), and ApplyErrorCallbackArg::origin_name.

Referenced by ParallelApplyWorkerMain(), run_apply_worker(), and run_tablesync_worker().

◆ set_apply_error_context_xact()

static void set_apply_error_context_xact	(	TransactionId	xid,
		XLogRecPtr	lsn
	)

inlinestatic

Definition at line 6190 of file worker.c.

{
    apply_error_callback_arg.remote_xid = xid;
    apply_error_callback_arg.finish_lsn = lsn;
}

References apply_error_callback_arg, ApplyErrorCallbackArg::finish_lsn, and ApplyErrorCallbackArg::remote_xid.

Referenced by apply_handle_begin(), apply_handle_begin_prepare(), apply_handle_commit_prepared(), apply_handle_rollback_prepared(), apply_handle_stream_abort(), apply_handle_stream_commit(), apply_handle_stream_prepare(), apply_handle_stream_start(), and reset_apply_error_context_info().

◆ set_stream_options()

void set_stream_options	(	WalRcvStreamOptions *	options,
		char *	slotname,
		XLogRecPtr *	origin_startpos
	)

Definition at line 5483 of file worker.c.

{
    int         server_version;
 
    options->logical = true;
    options->startpoint = *origin_startpos;
    options->slotname = slotname;
 
    server_version = walrcv_server_version(LogRepWorkerWalRcvConn);
    options->proto.logical.proto_version =
        server_version >= 160000 ? LOGICALREP_PROTO_STREAM_PARALLEL_VERSION_NUM :
        server_version >= 150000 ? LOGICALREP_PROTO_TWOPHASE_VERSION_NUM :
        server_version >= 140000 ? LOGICALREP_PROTO_STREAM_VERSION_NUM :
        LOGICALREP_PROTO_VERSION_NUM;
 
    options->proto.logical.publication_names = MySubscription->publications;
    options->proto.logical.binary = MySubscription->binary;
 
    /*
     * Assign the appropriate option value for streaming option according to
     * the 'streaming' mode and the publisher's ability to support that mode.
     */
    if (server_version >= 160000 &&
        MySubscription->stream == LOGICALREP_STREAM_PARALLEL)
    {
        options->proto.logical.streaming_str = "parallel";
        MyLogicalRepWorker->parallel_apply = true;
    }
    else if (server_version >= 140000 &&
             MySubscription->stream != LOGICALREP_STREAM_OFF)
    {
        options->proto.logical.streaming_str = "on";
        MyLogicalRepWorker->parallel_apply = false;
    }
    else
    {
        options->proto.logical.streaming_str = NULL;
        MyLogicalRepWorker->parallel_apply = false;
    }
 
    options->proto.logical.twophase = false;
    options->proto.logical.origin = pstrdup(MySubscription->origin);
}

References Subscription::binary, LOGICALREP_PROTO_STREAM_PARALLEL_VERSION_NUM, LOGICALREP_PROTO_STREAM_VERSION_NUM, LOGICALREP_PROTO_TWOPHASE_VERSION_NUM, LOGICALREP_PROTO_VERSION_NUM, LogRepWorkerWalRcvConn, MyLogicalRepWorker, MySubscription, Subscription::origin, LogicalRepWorker::parallel_apply, pstrdup(), Subscription::publications, server_version, Subscription::stream, and walrcv_server_version.

Referenced by run_apply_worker(), and run_tablesync_worker().

◆ SetupApplyOrSyncWorker()

void SetupApplyOrSyncWorker ( int worker_slot )

Definition at line 5831 of file worker.c.

{
    /* Attach to slot */
    logicalrep_worker_attach(worker_slot);
 
    Assert(am_tablesync_worker() || am_leader_apply_worker());
 
    /* Setup signal handling */
    pqsignal(SIGHUP, SignalHandlerForConfigReload);
    pqsignal(SIGTERM, die);
    BackgroundWorkerUnblockSignals();
 
    /*
     * We don't currently need any ResourceOwner in a walreceiver process, but
     * if we did, we could call CreateAuxProcessResourceOwner here.
     */
 
    /* Initialise stats to a sanish value */
    MyLogicalRepWorker->last_send_time = MyLogicalRepWorker->last_recv_time =
        MyLogicalRepWorker->reply_time = GetCurrentTimestamp();
 
    /* Load the libpq-specific functions */
    load_file("libpqwalreceiver", false);
 
    InitializeLogRepWorker();
 
    /*
     * Register a callback to reset the origin state before aborting any
     * pending transaction during shutdown (see ShutdownPostgres()). This will
     * avoid origin advancement for an in-complete transaction which could
     * otherwise lead to its loss as such a transaction won't be sent by the
     * server again.
     *
     * Note that even a LOG or DEBUG statement placed after setting the origin
     * state may process a shutdown signal before committing the current apply
     * operation. So, it is important to register such a callback here.
     */
    before_shmem_exit(replorigin_reset, (Datum) 0);
 
    /* Connect to the origin and start the replication. */
    elog(DEBUG1, "connecting to publisher using connection string \"%s\"",
         MySubscription->conninfo);
 
    /*
     * Setup callback for syscache so that we know when something changes in
     * the subscription relation state.
     */
    CacheRegisterSyscacheCallback(SUBSCRIPTIONRELMAP,
                                  invalidate_syncing_table_states,
                                  (Datum) 0);
}

References am_leader_apply_worker(), am_tablesync_worker(), Assert(), BackgroundWorkerUnblockSignals(), before_shmem_exit(), CacheRegisterSyscacheCallback(), Subscription::conninfo, DEBUG1, die, elog, GetCurrentTimestamp(), InitializeLogRepWorker(), invalidate_syncing_table_states(), LogicalRepWorker::last_recv_time, LogicalRepWorker::last_send_time, load_file(), logicalrep_worker_attach(), MyLogicalRepWorker, MySubscription, pqsignal, replorigin_reset(), LogicalRepWorker::reply_time, SIGHUP, and SignalHandlerForConfigReload().

Referenced by ApplyWorkerMain(), and TablesyncWorkerMain().

◆ should_apply_changes_for_rel()

static bool should_apply_changes_for_rel ( LogicalRepRelMapEntry * rel )

static

Definition at line 681 of file worker.c.

{
    switch (MyLogicalRepWorker->type)
    {
        case WORKERTYPE_TABLESYNC:
            return MyLogicalRepWorker->relid == rel->localreloid;
 
        case WORKERTYPE_PARALLEL_APPLY:
            /* We don't synchronize rel's that are in unknown state. */
            if (rel->state != SUBREL_STATE_READY &&
                rel->state != SUBREL_STATE_UNKNOWN)
                ereport(ERROR,
                        (errcode(ERRCODE_OBJECT_NOT_IN_PREREQUISITE_STATE),
                         errmsg("logical replication parallel apply worker for subscription \"%s\" will stop",
                                MySubscription->name),
                         errdetail("Cannot handle streamed replication transactions using parallel apply workers until all tables have been synchronized.")));
 
            return rel->state == SUBREL_STATE_READY;
 
        case WORKERTYPE_APPLY:
            return (rel->state == SUBREL_STATE_READY ||
                    (rel->state == SUBREL_STATE_SYNCDONE &&
                     rel->statelsn <= remote_final_lsn));
 
        case WORKERTYPE_UNKNOWN:
            /* Should never happen. */
            elog(ERROR, "Unknown worker type");
    }
 
    return false;               /* dummy for compiler */
}

References elog, ereport, errcode(), errdetail(), errmsg(), ERROR, LogicalRepRelMapEntry::localreloid, MyLogicalRepWorker, MySubscription, Subscription::name, LogicalRepWorker::relid, remote_final_lsn, LogicalRepRelMapEntry::state, LogicalRepRelMapEntry::statelsn, LogicalRepWorker::type, WORKERTYPE_APPLY, WORKERTYPE_PARALLEL_APPLY, WORKERTYPE_TABLESYNC, and WORKERTYPE_UNKNOWN.

Referenced by apply_handle_delete(), apply_handle_insert(), apply_handle_truncate(), and apply_handle_update().

◆ should_stop_conflict_info_retention()

static bool should_stop_conflict_info_retention ( RetainDeadTuplesData * rdt_data )

static

Definition at line 4738 of file worker.c.

{
    TimestampTz now;
 
    Assert(TransactionIdIsValid(rdt_data->candidate_xid));
    Assert(rdt_data->phase == RDT_WAIT_FOR_PUBLISHER_STATUS ||
           rdt_data->phase == RDT_WAIT_FOR_LOCAL_FLUSH);
 
    if (!MySubscription->maxretention)
        return false;
 
    /*
     * Use last_recv_time when applying changes in the loop to avoid
     * unnecessary system time retrieval. If last_recv_time is not available,
     * obtain the current timestamp.
     */
    now = rdt_data->last_recv_time ? rdt_data->last_recv_time : GetCurrentTimestamp();
 
    /*
     * Return early if the wait time has not exceeded the configured maximum
     * (max_retention_duration). Time spent waiting for table synchronization
     * is excluded from this calculation, as it occurs infrequently.
     */
    if (!TimestampDifferenceExceeds(rdt_data->candidate_xid_time, now,
                                    MySubscription->maxretention +
                                    rdt_data->table_sync_wait_time))
        return false;
 
    return true;
}

References Assert(), RetainDeadTuplesData::candidate_xid, RetainDeadTuplesData::candidate_xid_time, GetCurrentTimestamp(), RetainDeadTuplesData::last_recv_time, Subscription::maxretention, MySubscription, now(), RetainDeadTuplesData::phase, RDT_WAIT_FOR_LOCAL_FLUSH, RDT_WAIT_FOR_PUBLISHER_STATUS, RetainDeadTuplesData::table_sync_wait_time, TimestampDifferenceExceeds(), and TransactionIdIsValid.

Referenced by wait_for_local_flush(), and wait_for_publisher_status().

◆ slot_fill_defaults()

static void slot_fill_defaults	(	LogicalRepRelMapEntry *	rel,
		EState *	estate,
		TupleTableSlot *	slot
	)

static

Definition at line 954 of file worker.c.

{
    TupleDesc   desc = RelationGetDescr(rel->localrel);
    int         num_phys_attrs = desc->natts;
    int         i;
    int         attnum,
                num_defaults = 0;
    int        *defmap;
    ExprState **defexprs;
    ExprContext *econtext;
 
    econtext = GetPerTupleExprContext(estate);
 
    /* We got all the data via replication, no need to evaluate anything. */
    if (num_phys_attrs == rel->remoterel.natts)
        return;
 
    defmap = (int *) palloc(num_phys_attrs * sizeof(int));
    defexprs = (ExprState **) palloc(num_phys_attrs * sizeof(ExprState *));
 
    Assert(rel->attrmap->maplen == num_phys_attrs);
    for (attnum = 0; attnum < num_phys_attrs; attnum++)
    {
        Expr       *defexpr;
 
        if (TupleDescAttr(desc, attnum)->attisdropped || TupleDescAttr(desc, attnum)->attgenerated)
            continue;
 
        if (rel->attrmap->attnums[attnum] >= 0)
            continue;
 
        defexpr = (Expr *) build_column_default(rel->localrel, attnum + 1);
 
        if (defexpr != NULL)
        {
            /* Run the expression through planner */
            defexpr = expression_planner(defexpr);
 
            /* Initialize executable expression in copycontext */
            defexprs[num_defaults] = ExecInitExpr(defexpr, NULL);
            defmap[num_defaults] = attnum;
            num_defaults++;
        }
    }
 
    for (i = 0; i < num_defaults; i++)
        slot->tts_values[defmap[i]] =
            ExecEvalExpr(defexprs[i], econtext, &slot->tts_isnull[defmap[i]]);
}

References Assert(), attnum, AttrMap::attnums, LogicalRepRelMapEntry::attrmap, build_column_default(), ExecEvalExpr(), ExecInitExpr(), expression_planner(), GetPerTupleExprContext, i, LogicalRepRelMapEntry::localrel, AttrMap::maplen, TupleDescData::natts, LogicalRepRelation::natts, palloc(), RelationGetDescr, LogicalRepRelMapEntry::remoterel, TupleTableSlot::tts_isnull, TupleTableSlot::tts_values, and TupleDescAttr().

Referenced by apply_handle_insert().

◆ slot_modify_data()

static void slot_modify_data	(	TupleTableSlot *	slot,
		TupleTableSlot *	srcslot,
		LogicalRepRelMapEntry *	rel,
		LogicalRepTupleData *	tupleData
	)

static

Definition at line 1112 of file worker.c.

{
    int         natts = slot->tts_tupleDescriptor->natts;
    int         i;
 
    /* We'll fill "slot" with a virtual tuple, so we must start with ... */
    ExecClearTuple(slot);
 
    /*
     * Copy all the column data from srcslot, so that we'll have valid values
     * for unreplaced columns.
     */
    Assert(natts == srcslot->tts_tupleDescriptor->natts);
    slot_getallattrs(srcslot);
    memcpy(slot->tts_values, srcslot->tts_values, natts * sizeof(Datum));
    memcpy(slot->tts_isnull, srcslot->tts_isnull, natts * sizeof(bool));
 
    /* Call the "in" function for each replaced attribute */
    Assert(natts == rel->attrmap->maplen);
    for (i = 0; i < natts; i++)
    {
        Form_pg_attribute att = TupleDescAttr(slot->tts_tupleDescriptor, i);
        int         remoteattnum = rel->attrmap->attnums[i];
 
        if (remoteattnum < 0)
            continue;
 
        Assert(remoteattnum < tupleData->ncols);
 
        if (tupleData->colstatus[remoteattnum] != LOGICALREP_COLUMN_UNCHANGED)
        {
            StringInfo  colvalue = &tupleData->colvalues[remoteattnum];
 
            /* Set attnum for error callback */
            apply_error_callback_arg.remote_attnum = remoteattnum;
 
            if (tupleData->colstatus[remoteattnum] == LOGICALREP_COLUMN_TEXT)
            {
                Oid         typinput;
                Oid         typioparam;
 
                getTypeInputInfo(att->atttypid, &typinput, &typioparam);
                slot->tts_values[i] =
                    OidInputFunctionCall(typinput, colvalue->data,
                                         typioparam, att->atttypmod);
                slot->tts_isnull[i] = false;
            }
            else if (tupleData->colstatus[remoteattnum] == LOGICALREP_COLUMN_BINARY)
            {
                Oid         typreceive;
                Oid         typioparam;
 
                /*
                 * In some code paths we may be asked to re-parse the same
                 * tuple data.  Reset the StringInfo's cursor so that works.
                 */
                colvalue->cursor = 0;
 
                getTypeBinaryInputInfo(att->atttypid, &typreceive, &typioparam);
                slot->tts_values[i] =
                    OidReceiveFunctionCall(typreceive, colvalue,
                                           typioparam, att->atttypmod);
 
                /* Trouble if it didn't eat the whole buffer */
                if (colvalue->cursor != colvalue->len)
                    ereport(ERROR,
                            (errcode(ERRCODE_INVALID_BINARY_REPRESENTATION),
                             errmsg("incorrect binary data format in logical replication column %d",
                                    remoteattnum + 1)));
                slot->tts_isnull[i] = false;
            }
            else
            {
                /* must be LOGICALREP_COLUMN_NULL */
                slot->tts_values[i] = (Datum) 0;
                slot->tts_isnull[i] = true;
            }
 
            /* Reset attnum for error callback */
            apply_error_callback_arg.remote_attnum = -1;
        }
    }
 
    /* And finally, declare that "slot" contains a valid virtual tuple */
    ExecStoreVirtualTuple(slot);
}

References apply_error_callback_arg, Assert(), AttrMap::attnums, LogicalRepRelMapEntry::attrmap, LogicalRepTupleData::colstatus, LogicalRepTupleData::colvalues, StringInfoData::cursor, StringInfoData::data, ereport, errcode(), errmsg(), ERROR, ExecClearTuple(), ExecStoreVirtualTuple(), getTypeBinaryInputInfo(), getTypeInputInfo(), i, StringInfoData::len, LOGICALREP_COLUMN_BINARY, LOGICALREP_COLUMN_TEXT, LOGICALREP_COLUMN_UNCHANGED, AttrMap::maplen, TupleDescData::natts, OidInputFunctionCall(), OidReceiveFunctionCall(), ApplyErrorCallbackArg::remote_attnum, slot_getallattrs(), TupleTableSlot::tts_isnull, TupleTableSlot::tts_tupleDescriptor, TupleTableSlot::tts_values, and TupleDescAttr().

Referenced by apply_handle_tuple_routing(), and apply_handle_update_internal().

◆ slot_store_data()

static void slot_store_data	(	TupleTableSlot *	slot,
		LogicalRepRelMapEntry *	rel,
		LogicalRepTupleData *	tupleData
	)

static

Definition at line 1011 of file worker.c.

{
    int         natts = slot->tts_tupleDescriptor->natts;
    int         i;
 
    ExecClearTuple(slot);
 
    /* Call the "in" function for each non-dropped, non-null attribute */
    Assert(natts == rel->attrmap->maplen);
    for (i = 0; i < natts; i++)
    {
        Form_pg_attribute att = TupleDescAttr(slot->tts_tupleDescriptor, i);
        int         remoteattnum = rel->attrmap->attnums[i];
 
        if (!att->attisdropped && remoteattnum >= 0)
        {
            StringInfo  colvalue = &tupleData->colvalues[remoteattnum];
 
            Assert(remoteattnum < tupleData->ncols);
 
            /* Set attnum for error callback */
            apply_error_callback_arg.remote_attnum = remoteattnum;
 
            if (tupleData->colstatus[remoteattnum] == LOGICALREP_COLUMN_TEXT)
            {
                Oid         typinput;
                Oid         typioparam;
 
                getTypeInputInfo(att->atttypid, &typinput, &typioparam);
                slot->tts_values[i] =
                    OidInputFunctionCall(typinput, colvalue->data,
                                         typioparam, att->atttypmod);
                slot->tts_isnull[i] = false;
            }
            else if (tupleData->colstatus[remoteattnum] == LOGICALREP_COLUMN_BINARY)
            {
                Oid         typreceive;
                Oid         typioparam;
 
                /*
                 * In some code paths we may be asked to re-parse the same
                 * tuple data.  Reset the StringInfo's cursor so that works.
                 */
                colvalue->cursor = 0;
 
                getTypeBinaryInputInfo(att->atttypid, &typreceive, &typioparam);
                slot->tts_values[i] =
                    OidReceiveFunctionCall(typreceive, colvalue,
                                           typioparam, att->atttypmod);
 
                /* Trouble if it didn't eat the whole buffer */
                if (colvalue->cursor != colvalue->len)
                    ereport(ERROR,
                            (errcode(ERRCODE_INVALID_BINARY_REPRESENTATION),
                             errmsg("incorrect binary data format in logical replication column %d",
                                    remoteattnum + 1)));
                slot->tts_isnull[i] = false;
            }
            else
            {
                /*
                 * NULL value from remote.  (We don't expect to see
                 * LOGICALREP_COLUMN_UNCHANGED here, but if we do, treat it as
                 * NULL.)
                 */
                slot->tts_values[i] = (Datum) 0;
                slot->tts_isnull[i] = true;
            }
 
            /* Reset attnum for error callback */
            apply_error_callback_arg.remote_attnum = -1;
        }
        else
        {
            /*
             * We assign NULL to dropped attributes and missing values
             * (missing values should be later filled using
             * slot_fill_defaults).
             */
            slot->tts_values[i] = (Datum) 0;
            slot->tts_isnull[i] = true;
        }
    }
 
    ExecStoreVirtualTuple(slot);
}

References apply_error_callback_arg, Assert(), AttrMap::attnums, LogicalRepRelMapEntry::attrmap, LogicalRepTupleData::colstatus, LogicalRepTupleData::colvalues, StringInfoData::cursor, StringInfoData::data, ereport, errcode(), errmsg(), ERROR, ExecClearTuple(), ExecStoreVirtualTuple(), getTypeBinaryInputInfo(), getTypeInputInfo(), i, StringInfoData::len, LOGICALREP_COLUMN_BINARY, LOGICALREP_COLUMN_TEXT, AttrMap::maplen, TupleDescData::natts, OidInputFunctionCall(), OidReceiveFunctionCall(), ApplyErrorCallbackArg::remote_attnum, TupleTableSlot::tts_isnull, TupleTableSlot::tts_tupleDescriptor, TupleTableSlot::tts_values, and TupleDescAttr().

Referenced by apply_handle_delete(), apply_handle_insert(), apply_handle_tuple_routing(), apply_handle_update(), and apply_handle_update_internal().

◆ start_apply()

void start_apply ( XLogRecPtr origin_startpos )

Definition at line 5552 of file worker.c.

{
    PG_TRY();
    {
        LogicalRepApplyLoop(origin_startpos);
    }
    PG_CATCH();
    {
        /*
         * Reset the origin state to prevent the advancement of origin
         * progress if we fail to apply. Otherwise, this will result in
         * transaction loss as that transaction won't be sent again by the
         * server.
         */
        replorigin_reset(0, (Datum) 0);
 
        if (MySubscription->disableonerr)
            DisableSubscriptionAndExit();
        else
        {
            /*
             * Report the worker failed while applying changes. Abort the
             * current transaction so that the stats message is sent in an
             * idle state.
             */
            AbortOutOfAnyTransaction();
            pgstat_report_subscription_error(MySubscription->oid, !am_tablesync_worker());
 
            PG_RE_THROW();
        }
    }
    PG_END_TRY();
}

References AbortOutOfAnyTransaction(), am_tablesync_worker(), Subscription::disableonerr, DisableSubscriptionAndExit(), LogicalRepApplyLoop(), MySubscription, Subscription::oid, PG_CATCH, PG_END_TRY, PG_RE_THROW, PG_TRY, pgstat_report_subscription_error(), and replorigin_reset().

Referenced by run_apply_worker(), and run_tablesync_worker().

◆ stop_conflict_info_retention()

static void stop_conflict_info_retention ( RetainDeadTuplesData * rdt_data )

static

Definition at line 4773 of file worker.c.

{
    /* Stop retention if not yet */
    if (MySubscription->retentionactive)
    {
        /*
         * If the retention status cannot be updated (e.g., due to active
         * transaction), skip further processing to avoid inconsistent
         * retention behavior.
         */
        if (!update_retention_status(false))
            return;
 
        SpinLockAcquire(&MyLogicalRepWorker->relmutex);
        MyLogicalRepWorker->oldest_nonremovable_xid = InvalidTransactionId;
        SpinLockRelease(&MyLogicalRepWorker->relmutex);
 
        ereport(LOG,
                errmsg("logical replication worker for subscription \"%s\" has stopped retaining the information for detecting conflicts",
                       MySubscription->name),
                errdetail("Retention is stopped because the apply process has not caught up with the publisher within the configured max_retention_duration."));
    }
 
    Assert(!TransactionIdIsValid(MyLogicalRepWorker->oldest_nonremovable_xid));
 
    /*
     * If retention has been stopped, reset to the initial phase to retry
     * resuming retention. This reset is required to recalculate the current
     * wait time and resume retention if the time falls within
     * max_retention_duration.
     */
    reset_retention_data_fields(rdt_data);
}

References Assert(), ereport, errdetail(), errmsg(), InvalidTransactionId, LOG, MyLogicalRepWorker, MySubscription, Subscription::name, LogicalRepWorker::oldest_nonremovable_xid, LogicalRepWorker::relmutex, reset_retention_data_fields(), Subscription::retentionactive, SpinLockAcquire, SpinLockRelease, TransactionIdIsValid, and update_retention_status().

Referenced by process_rdt_phase_transition().

◆ stop_skipping_changes()

static void stop_skipping_changes ( void )

static

Definition at line 6007 of file worker.c.

{
    if (!is_skipping_changes())
        return;
 
    ereport(LOG,
            errmsg("logical replication completed skipping transaction at LSN %X/%08X",
                   LSN_FORMAT_ARGS(skip_xact_finish_lsn)));
 
    /* Stop skipping changes */
    skip_xact_finish_lsn = InvalidXLogRecPtr;
}

References ereport, errmsg(), InvalidXLogRecPtr, is_skipping_changes, LOG, LSN_FORMAT_ARGS, and skip_xact_finish_lsn.

Referenced by apply_handle_commit_internal(), apply_handle_prepare(), and apply_handle_stream_prepare().

◆ store_flush_position()

void store_flush_position	(	XLogRecPtr	remote_lsn,
		XLogRecPtr	local_lsn
	)

Definition at line 3911 of file worker.c.

{
    FlushPosition *flushpos;
 
    /*
     * Skip for parallel apply workers, because the lsn_mapping is maintained
     * by the leader apply worker.
     */
    if (am_parallel_apply_worker())
        return;
 
    /* Need to do this in permanent context */
    MemoryContextSwitchTo(ApplyContext);
 
    /* Track commit lsn  */
    flushpos = (FlushPosition *) palloc(sizeof(FlushPosition));
    flushpos->local_end = local_lsn;
    flushpos->remote_end = remote_lsn;
 
    dlist_push_tail(&lsn_mapping, &flushpos->node);
    MemoryContextSwitchTo(ApplyMessageContext);
}

References am_parallel_apply_worker(), ApplyContext, ApplyMessageContext, dlist_push_tail(), FlushPosition::local_end, lsn_mapping, MemoryContextSwitchTo(), FlushPosition::node, palloc(), and FlushPosition::remote_end.

Referenced by apply_handle_commit_internal(), apply_handle_commit_prepared(), apply_handle_prepare(), apply_handle_rollback_prepared(), apply_handle_stream_prepare(), and pa_xact_finish().

◆ stream_abort_internal()

static void stream_abort_internal	(	TransactionId	xid,
		TransactionId	subxid
	)

static

Definition at line 1966 of file worker.c.

{
    /*
     * If the two XIDs are the same, it's in fact abort of toplevel xact, so
     * just delete the files with serialized info.
     */
    if (xid == subxid)
        stream_cleanup_files(MyLogicalRepWorker->subid, xid);
    else
    {
        /*
         * OK, so it's a subxact. We need to read the subxact file for the
         * toplevel transaction, determine the offset tracked for the subxact,
         * and truncate the file with changes. We also remove the subxacts
         * with higher offsets (or rather higher XIDs).
         *
         * We intentionally scan the array from the tail, because we're likely
         * aborting a change for the most recent subtransactions.
         *
         * We can't use the binary search here as subxact XIDs won't
         * necessarily arrive in sorted order, consider the case where we have
         * released the savepoint for multiple subtransactions and then
         * performed rollback to savepoint for one of the earlier
         * sub-transaction.
         */
        int64       i;
        int64       subidx;
        BufFile    *fd;
        bool        found = false;
        char        path[MAXPGPATH];
 
        subidx = -1;
        begin_replication_step();
        subxact_info_read(MyLogicalRepWorker->subid, xid);
 
        for (i = subxact_data.nsubxacts; i > 0; i--)
        {
            if (subxact_data.subxacts[i - 1].xid == subxid)
            {
                subidx = (i - 1);
                found = true;
                break;
            }
        }
 
        /*
         * If it's an empty sub-transaction then we will not find the subxid
         * here so just cleanup the subxact info and return.
         */
        if (!found)
        {
            /* Cleanup the subxact info */
            cleanup_subxact_info();
            end_replication_step();
            CommitTransactionCommand();
            return;
        }
 
        /* open the changes file */
        changes_filename(path, MyLogicalRepWorker->subid, xid);
        fd = BufFileOpenFileSet(MyLogicalRepWorker->stream_fileset, path,
                                O_RDWR, false);
 
        /* OK, truncate the file at the right offset */
        BufFileTruncateFileSet(fd, subxact_data.subxacts[subidx].fileno,
                               subxact_data.subxacts[subidx].offset);
        BufFileClose(fd);
 
        /* discard the subxacts added later */
        subxact_data.nsubxacts = subidx;
 
        /* write the updated subxact list */
        subxact_info_write(MyLogicalRepWorker->subid, xid);
 
        end_replication_step();
        CommitTransactionCommand();
    }
}

References begin_replication_step(), BufFileClose(), BufFileOpenFileSet(), BufFileTruncateFileSet(), changes_filename(), cleanup_subxact_info(), CommitTransactionCommand(), end_replication_step(), fd(), SubXactInfo::fileno, i, MAXPGPATH, MyLogicalRepWorker, ApplySubXactData::nsubxacts, SubXactInfo::offset, stream_cleanup_files(), LogicalRepWorker::stream_fileset, LogicalRepWorker::subid, subxact_data, subxact_info_read(), subxact_info_write(), ApplySubXactData::subxacts, and SubXactInfo::xid.

Referenced by apply_handle_stream_abort().

◆ stream_cleanup_files()

void stream_cleanup_files	(	Oid	subid,
		TransactionId	xid
	)

Definition at line 5350 of file worker.c.

{
    char        path[MAXPGPATH];
 
    /* Delete the changes file. */
    changes_filename(path, subid, xid);
    BufFileDeleteFileSet(MyLogicalRepWorker->stream_fileset, path, false);
 
    /* Delete the subxact file, if it exists. */
    subxact_filename(path, subid, xid);
    BufFileDeleteFileSet(MyLogicalRepWorker->stream_fileset, path, true);
}

References BufFileDeleteFileSet(), changes_filename(), MAXPGPATH, MyLogicalRepWorker, LogicalRepWorker::stream_fileset, and subxact_filename().

Referenced by apply_handle_stream_commit(), apply_handle_stream_prepare(), pa_free_worker_info(), and stream_abort_internal().

◆ stream_close_file()

static void stream_close_file ( void )

static

Definition at line 5419 of file worker.c.

{
    Assert(stream_fd != NULL);
 
    BufFileClose(stream_fd);
 
    stream_fd = NULL;
}

References Assert(), BufFileClose(), and stream_fd.

Referenced by apply_handle_stream_abort(), apply_handle_stream_commit(), apply_handle_stream_prepare(), apply_spooled_messages(), and stream_stop_internal().

◆ stream_open_and_write_change()

static void stream_open_and_write_change	(	TransactionId	xid,
		char	action,
		StringInfo	s
	)

static

Definition at line 5467 of file worker.c.

{
    Assert(!in_streamed_transaction);
 
    if (!stream_fd)
        stream_start_internal(xid, false);
 
    stream_write_change(action, s);
    stream_stop_internal(xid);
}

References generate_unaccent_rules::action, Assert(), in_streamed_transaction, stream_fd, stream_start_internal(), stream_stop_internal(), and stream_write_change().

Referenced by apply_handle_stream_abort(), apply_handle_stream_commit(), and apply_handle_stream_prepare().

◆ stream_open_file()

static void stream_open_file	(	Oid	subid,
		TransactionId	xid,
		bool	first_segment
	)

static

Definition at line 5374 of file worker.c.

{
    char        path[MAXPGPATH];
    MemoryContext oldcxt;
 
    Assert(OidIsValid(subid));
    Assert(TransactionIdIsValid(xid));
    Assert(stream_fd == NULL);
 
 
    changes_filename(path, subid, xid);
    elog(DEBUG1, "opening file \"%s\" for streamed changes", path);
 
    /*
     * Create/open the buffiles under the logical streaming context so that we
     * have those files until stream stop.
     */
    oldcxt = MemoryContextSwitchTo(LogicalStreamingContext);
 
    /*
     * If this is the first streamed segment, create the changes file.
     * Otherwise, just open the file for writing, in append mode.
     */
    if (first_segment)
        stream_fd = BufFileCreateFileSet(MyLogicalRepWorker->stream_fileset,
                                         path);
    else
    {
        /*
         * Open the file and seek to the end of the file because we always
         * append the changes file.
         */
        stream_fd = BufFileOpenFileSet(MyLogicalRepWorker->stream_fileset,
                                       path, O_RDWR, false);
        BufFileSeek(stream_fd, 0, 0, SEEK_END);
    }
 
    MemoryContextSwitchTo(oldcxt);
}

References Assert(), BufFileCreateFileSet(), BufFileOpenFileSet(), BufFileSeek(), changes_filename(), DEBUG1, elog, LogicalStreamingContext, MAXPGPATH, MemoryContextSwitchTo(), MyLogicalRepWorker, OidIsValid, stream_fd, LogicalRepWorker::stream_fileset, and TransactionIdIsValid.

Referenced by stream_start_internal().

◆ stream_start_internal()

void stream_start_internal	(	TransactionId	xid,
		bool	first_segment
	)

Definition at line 1666 of file worker.c.

{
    begin_replication_step();
 
    /*
     * Initialize the worker's stream_fileset if we haven't yet. This will be
     * used for the entire duration of the worker so create it in a permanent
     * context. We create this on the very first streaming message from any
     * transaction and then use it for this and other streaming transactions.
     * Now, we could create a fileset at the start of the worker as well but
     * then we won't be sure that it will ever be used.
     */
    if (!MyLogicalRepWorker->stream_fileset)
    {
        MemoryContext oldctx;
 
        oldctx = MemoryContextSwitchTo(ApplyContext);
 
        MyLogicalRepWorker->stream_fileset = palloc(sizeof(FileSet));
        FileSetInit(MyLogicalRepWorker->stream_fileset);
 
        MemoryContextSwitchTo(oldctx);
    }
 
    /* Open the spool file for this transaction. */
    stream_open_file(MyLogicalRepWorker->subid, xid, first_segment);
 
    /* If this is not the first segment, open existing subxact file. */
    if (!first_segment)
        subxact_info_read(MyLogicalRepWorker->subid, xid);
 
    end_replication_step();
}

References ApplyContext, begin_replication_step(), end_replication_step(), FileSetInit(), MemoryContextSwitchTo(), MyLogicalRepWorker, palloc(), LogicalRepWorker::stream_fileset, stream_open_file(), LogicalRepWorker::subid, and subxact_info_read().

Referenced by apply_handle_stream_start(), pa_switch_to_partial_serialize(), and stream_open_and_write_change().

◆ stream_stop_internal()

void stream_stop_internal ( TransactionId xid )

Definition at line 1840 of file worker.c.

{
    /*
     * Serialize information about subxacts for the toplevel transaction, then
     * close the stream messages spool file.
     */
    subxact_info_write(MyLogicalRepWorker->subid, xid);
    stream_close_file();
 
    /* We must be in a valid transaction state */
    Assert(IsTransactionState());
 
    /* Commit the per-stream transaction */
    CommitTransactionCommand();
 
    /* Reset per-stream context */
    MemoryContextReset(LogicalStreamingContext);
}

References Assert(), CommitTransactionCommand(), IsTransactionState(), LogicalStreamingContext, MemoryContextReset(), MyLogicalRepWorker, stream_close_file(), LogicalRepWorker::subid, and subxact_info_write().

Referenced by apply_handle_stream_stop(), and stream_open_and_write_change().

◆ stream_write_change()

static void stream_write_change	(	char	action,
		StringInfo	s
	)

static

Definition at line 5437 of file worker.c.

{
    int         len;
 
    Assert(stream_fd != NULL);
 
    /* total on-disk size, including the action type character */
    len = (s->len - s->cursor) + sizeof(char);
 
    /* first write the size */
    BufFileWrite(stream_fd, &len, sizeof(len));
 
    /* then the action */
    BufFileWrite(stream_fd, &action, sizeof(action));
 
    /* and finally the remaining part of the buffer (after the XID) */
    len = (s->len - s->cursor);
 
    BufFileWrite(stream_fd, &s->data[s->cursor], len);
}

References generate_unaccent_rules::action, Assert(), BufFileWrite(), StringInfoData::cursor, StringInfoData::data, StringInfoData::len, len, and stream_fd.

Referenced by apply_handle_stream_start(), apply_handle_stream_stop(), handle_streamed_transaction(), and stream_open_and_write_change().

◆ subscription_change_cb()

static void subscription_change_cb	(	Datum	arg,
		int	cacheid,
		uint32	hashvalue
	)

static

Definition at line 5136 of file worker.c.

{
    MySubscriptionValid = false;
}

References MySubscriptionValid.

Referenced by InitializeLogRepWorker().

◆ subxact_filename()

static void subxact_filename	(	char *	path,
		Oid	subid,
		TransactionId	xid
	)

inlinestatic

Definition at line 5329 of file worker.c.

{
    snprintf(path, MAXPGPATH, "%u-%u.subxacts", subid, xid);
}

References MAXPGPATH, and snprintf.

Referenced by stream_cleanup_files(), subxact_info_read(), and subxact_info_write().

◆ subxact_info_add()

static void subxact_info_add ( TransactionId xid )

static

Definition at line 5251 of file worker.c.

{
    SubXactInfo *subxacts = subxact_data.subxacts;
    int64       i;
 
    /* We must have a valid top level stream xid and a stream fd. */
    Assert(TransactionIdIsValid(stream_xid));
    Assert(stream_fd != NULL);
 
    /*
     * If the XID matches the toplevel transaction, we don't want to add it.
     */
    if (stream_xid == xid)
        return;
 
    /*
     * In most cases we're checking the same subxact as we've already seen in
     * the last call, so make sure to ignore it (this change comes later).
     */
    if (subxact_data.subxact_last == xid)
        return;
 
    /* OK, remember we're processing this XID. */
    subxact_data.subxact_last = xid;
 
    /*
     * Check if the transaction is already present in the array of subxact. We
     * intentionally scan the array from the tail, because we're likely adding
     * a change for the most recent subtransactions.
     *
     * XXX Can we rely on the subxact XIDs arriving in sorted order? That
     * would allow us to use binary search here.
     */
    for (i = subxact_data.nsubxacts; i > 0; i--)
    {
        /* found, so we're done */
        if (subxacts[i - 1].xid == xid)
            return;
    }
 
    /* This is a new subxact, so we need to add it to the array. */
    if (subxact_data.nsubxacts == 0)
    {
        MemoryContext oldctx;
 
        subxact_data.nsubxacts_max = 128;
 
        /*
         * Allocate this memory for subxacts in per-stream context, see
         * subxact_info_read.
         */
        oldctx = MemoryContextSwitchTo(LogicalStreamingContext);
        subxacts = palloc(subxact_data.nsubxacts_max * sizeof(SubXactInfo));
        MemoryContextSwitchTo(oldctx);
    }
    else if (subxact_data.nsubxacts == subxact_data.nsubxacts_max)
    {
        subxact_data.nsubxacts_max *= 2;
        subxacts = repalloc(subxacts,
                            subxact_data.nsubxacts_max * sizeof(SubXactInfo));
    }
 
    subxacts[subxact_data.nsubxacts].xid = xid;
 
    /*
     * Get the current offset of the stream file and store it as offset of
     * this subxact.
     */
    BufFileTell(stream_fd,
                &subxacts[subxact_data.nsubxacts].fileno,
                &subxacts[subxact_data.nsubxacts].offset);
 
    subxact_data.nsubxacts++;
    subxact_data.subxacts = subxacts;
}

References Assert(), BufFileTell(), SubXactInfo::fileno, i, LogicalStreamingContext, MemoryContextSwitchTo(), ApplySubXactData::nsubxacts, ApplySubXactData::nsubxacts_max, SubXactInfo::offset, palloc(), repalloc(), stream_fd, stream_xid, subxact_data, ApplySubXactData::subxact_last, ApplySubXactData::subxacts, TransactionIdIsValid, and SubXactInfo::xid.

Referenced by handle_streamed_transaction().

◆ subxact_info_read()

static void subxact_info_read	(	Oid	subid,
		TransactionId	xid
	)

static

Definition at line 5200 of file worker.c.

{
    char        path[MAXPGPATH];
    Size        len;
    BufFile    *fd;
    MemoryContext oldctx;
 
    Assert(!subxact_data.subxacts);
    Assert(subxact_data.nsubxacts == 0);
    Assert(subxact_data.nsubxacts_max == 0);
 
    /*
     * If the subxact file doesn't exist that means we don't have any subxact
     * info.
     */
    subxact_filename(path, subid, xid);
    fd = BufFileOpenFileSet(MyLogicalRepWorker->stream_fileset, path, O_RDONLY,
                            true);
    if (fd == NULL)
        return;
 
    /* read number of subxact items */
    BufFileReadExact(fd, &subxact_data.nsubxacts, sizeof(subxact_data.nsubxacts));
 
    len = sizeof(SubXactInfo) * subxact_data.nsubxacts;
 
    /* we keep the maximum as a power of 2 */
    subxact_data.nsubxacts_max = 1 << pg_ceil_log2_32(subxact_data.nsubxacts);
 
    /*
     * Allocate subxact information in the logical streaming context. We need
     * this information during the complete stream so that we can add the sub
     * transaction info to this. On stream stop we will flush this information
     * to the subxact file and reset the logical streaming context.
     */
    oldctx = MemoryContextSwitchTo(LogicalStreamingContext);
    subxact_data.subxacts = palloc(subxact_data.nsubxacts_max *
                                   sizeof(SubXactInfo));
    MemoryContextSwitchTo(oldctx);
 
    if (len > 0)
        BufFileReadExact(fd, subxact_data.subxacts, len);
 
    BufFileClose(fd);
}

References Assert(), BufFileClose(), BufFileOpenFileSet(), BufFileReadExact(), fd(), len, LogicalStreamingContext, MAXPGPATH, MemoryContextSwitchTo(), MyLogicalRepWorker, ApplySubXactData::nsubxacts, ApplySubXactData::nsubxacts_max, palloc(), pg_ceil_log2_32(), LogicalRepWorker::stream_fileset, subxact_data, subxact_filename(), and ApplySubXactData::subxacts.

Referenced by stream_abort_internal(), and stream_start_internal().

◆ subxact_info_write()

static void subxact_info_write	(	Oid	subid,
		TransactionId	xid
	)

static

Definition at line 5151 of file worker.c.

{
    char        path[MAXPGPATH];
    Size        len;
    BufFile    *fd;
 
    Assert(TransactionIdIsValid(xid));
 
    /* construct the subxact filename */
    subxact_filename(path, subid, xid);
 
    /* Delete the subxacts file, if exists. */
    if (subxact_data.nsubxacts == 0)
    {
        cleanup_subxact_info();
        BufFileDeleteFileSet(MyLogicalRepWorker->stream_fileset, path, true);
 
        return;
    }
 
    /*
     * Create the subxact file if it not already created, otherwise open the
     * existing file.
     */
    fd = BufFileOpenFileSet(MyLogicalRepWorker->stream_fileset, path, O_RDWR,
                            true);
    if (fd == NULL)
        fd = BufFileCreateFileSet(MyLogicalRepWorker->stream_fileset, path);
 
    len = sizeof(SubXactInfo) * subxact_data.nsubxacts;
 
    /* Write the subxact count and subxact info */
    BufFileWrite(fd, &subxact_data.nsubxacts, sizeof(subxact_data.nsubxacts));
    BufFileWrite(fd, subxact_data.subxacts, len);
 
    BufFileClose(fd);
 
    /* free the memory allocated for subxact info */
    cleanup_subxact_info();
}

References Assert(), BufFileClose(), BufFileCreateFileSet(), BufFileDeleteFileSet(), BufFileOpenFileSet(), BufFileWrite(), cleanup_subxact_info(), fd(), len, MAXPGPATH, MyLogicalRepWorker, ApplySubXactData::nsubxacts, LogicalRepWorker::stream_fileset, subxact_data, subxact_filename(), ApplySubXactData::subxacts, and TransactionIdIsValid.

Referenced by stream_abort_internal(), and stream_stop_internal().

◆ TargetPrivilegesCheck()

static void TargetPrivilegesCheck	(	Relation	rel,
		AclMode	mode
	)

static

Definition at line 2576 of file worker.c.

{
    Oid         relid;
    AclResult   aclresult;
 
    relid = RelationGetRelid(rel);
    aclresult = pg_class_aclcheck(relid, GetUserId(), mode);
    if (aclresult != ACLCHECK_OK)
        aclcheck_error(aclresult,
                       get_relkind_objtype(rel->rd_rel->relkind),
                       get_rel_name(relid));
 
    /*
     * We lack the infrastructure to honor RLS policies.  It might be possible
     * to add such infrastructure here, but tablesync workers lack it, too, so
     * we don't bother.  RLS does not ordinarily apply to TRUNCATE commands,
     * but it seems dangerous to replicate a TRUNCATE and then refuse to
     * replicate subsequent INSERTs, so we forbid all commands the same.
     */
    if (check_enable_rls(relid, 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))));
}

References aclcheck_error(), ACLCHECK_OK, check_enable_rls(), ereport, errcode(), errmsg(), ERROR, get_rel_name(), get_relkind_objtype(), GetUserId(), GetUserNameFromId(), InvalidOid, mode, pg_class_aclcheck(), RelationData::rd_rel, RelationGetRelationName, RelationGetRelid, and RLS_ENABLED.

Referenced by apply_handle_delete_internal(), apply_handle_insert_internal(), apply_handle_truncate(), apply_handle_tuple_routing(), apply_handle_update_internal(), and FindReplTupleInLocalRel().

◆ update_retention_status()

static bool update_retention_status ( bool active )

static

Definition at line 4851 of file worker.c.

{
    /*
     * Do not update the catalog during an active transaction. The transaction
     * may be started during change application, leading to a possible
     * rollback of catalog updates if the application fails subsequently.
     */
    if (IsTransactionState())
        return false;
 
    StartTransactionCommand();
 
    /*
     * Updating pg_subscription might involve TOAST table access, so ensure we
     * have a valid snapshot.
     */
    PushActiveSnapshot(GetTransactionSnapshot());
 
    /* Update pg_subscription.subretentionactive */
    UpdateDeadTupleRetentionStatus(MySubscription->oid, active);
 
    PopActiveSnapshot();
    CommitTransactionCommand();
 
    /* Notify launcher to update the conflict slot */
    ApplyLauncherWakeup();
 
    MySubscription->retentionactive = active;
 
    return true;
}

References ApplyLauncherWakeup(), CommitTransactionCommand(), GetTransactionSnapshot(), IsTransactionState(), MySubscription, Subscription::oid, PopActiveSnapshot(), PushActiveSnapshot(), Subscription::retentionactive, StartTransactionCommand(), and UpdateDeadTupleRetentionStatus().

Referenced by resume_conflict_info_retention(), and stop_conflict_info_retention().

◆ UpdateWorkerStats()

static void UpdateWorkerStats	(	XLogRecPtr	last_lsn,
		TimestampTz	send_time,
		bool	reply
	)

static

Definition at line 3937 of file worker.c.

{
    MyLogicalRepWorker->last_lsn = last_lsn;
    MyLogicalRepWorker->last_send_time = send_time;
    MyLogicalRepWorker->last_recv_time = GetCurrentTimestamp();
    if (reply)
    {
        MyLogicalRepWorker->reply_lsn = last_lsn;
        MyLogicalRepWorker->reply_time = send_time;
    }
}

References GetCurrentTimestamp(), LogicalRepWorker::last_lsn, LogicalRepWorker::last_recv_time, LogicalRepWorker::last_send_time, MyLogicalRepWorker, LogicalRepWorker::reply_lsn, and LogicalRepWorker::reply_time.

Referenced by LogicalRepApplyLoop().

◆ wait_for_local_flush()

static void wait_for_local_flush ( RetainDeadTuplesData * rdt_data )

static

Definition at line 4583 of file worker.c.

{
    Assert(!XLogRecPtrIsInvalid(rdt_data->remote_lsn) &&
           TransactionIdIsValid(rdt_data->candidate_xid));
 
    /*
     * We expect the publisher and subscriber clocks to be in sync using time
     * sync service like NTP. Otherwise, we will advance this worker's
     * oldest_nonremovable_xid prematurely, leading to the removal of rows
     * required to detect update_deleted reliably. This check primarily
     * addresses scenarios where the publisher's clock falls behind; if the
     * publisher's clock is ahead, subsequent transactions will naturally bear
     * later commit timestamps, conforming to the design outlined atop
     * worker.c.
     *
     * XXX Consider waiting for the publisher's clock to catch up with the
     * subscriber's before proceeding to the next phase.
     */
    if (TimestampDifferenceExceeds(rdt_data->reply_time,
                                   rdt_data->candidate_xid_time, 0))
        ereport(ERROR,
                errmsg_internal("oldest_nonremovable_xid transaction ID could be advanced prematurely"),
                errdetail_internal("The clock on the publisher is behind that of the subscriber."));
 
    /*
     * Do not attempt to advance the non-removable transaction ID when table
     * sync is in progress. During this time, changes from a single
     * transaction may be applied by multiple table sync workers corresponding
     * to the target tables. So, it's necessary for all table sync workers to
     * apply and flush the corresponding changes before advancing the
     * transaction ID, otherwise, dead tuples that are still needed for
     * conflict detection in table sync workers could be removed prematurely.
     * However, confirming the apply and flush progress across all table sync
     * workers is complex and not worth the effort, so we simply return if not
     * all tables are in the READY state.
     *
     * Advancing the transaction ID is necessary even when no tables are
     * currently subscribed, to avoid retaining dead tuples unnecessarily.
     * While it might seem safe to skip all phases and directly assign
     * candidate_xid to oldest_nonremovable_xid during the
     * RDT_GET_CANDIDATE_XID phase in such cases, this is unsafe. If users
     * concurrently add tables to the subscription, the apply worker may not
     * process invalidations in time. Consequently,
     * HasSubscriptionRelationsCached() might miss the new tables, leading to
     * premature advancement of oldest_nonremovable_xid.
     *
     * Performing the check during RDT_WAIT_FOR_LOCAL_FLUSH is safe, as
     * invalidations are guaranteed to be processed before applying changes
     * from newly added tables while waiting for the local flush to reach
     * remote_lsn.
     *
     * Additionally, even if we check for subscription tables during
     * RDT_GET_CANDIDATE_XID, they might be dropped before reaching
     * RDT_WAIT_FOR_LOCAL_FLUSH. Therefore, it's still necessary to verify
     * subscription tables at this stage to prevent unnecessary tuple
     * retention.
     */
    if (HasSubscriptionRelationsCached() && !AllTablesyncsReady())
    {
        TimestampTz now;
 
        now = rdt_data->last_recv_time
            ? rdt_data->last_recv_time : GetCurrentTimestamp();
 
        /*
         * Record the time spent waiting for table sync, it is needed for the
         * timeout check in should_stop_conflict_info_retention().
         */
        rdt_data->table_sync_wait_time =
            TimestampDifferenceMilliseconds(rdt_data->candidate_xid_time, now);
 
        return;
    }
 
    /*
     * We don't need to maintain oldest_nonremovable_xid if we decide to stop
     * retaining conflict information for this worker.
     */
    if (should_stop_conflict_info_retention(rdt_data))
    {
        rdt_data->phase = RDT_STOP_CONFLICT_INFO_RETENTION;
        return;
    }
 
    /*
     * Update and check the remote flush position if we are applying changes
     * in a loop. This is done at most once per WalWriterDelay to avoid
     * performing costly operations in get_flush_position() too frequently
     * during change application.
     */
    if (last_flushpos < rdt_data->remote_lsn && rdt_data->last_recv_time &&
        TimestampDifferenceExceeds(rdt_data->flushpos_update_time,
                                   rdt_data->last_recv_time, WalWriterDelay))
    {
        XLogRecPtr  writepos;
        XLogRecPtr  flushpos;
        bool        have_pending_txes;
 
        /* Fetch the latest remote flush position */
        get_flush_position(&writepos, &flushpos, &have_pending_txes);
 
        if (flushpos > last_flushpos)
            last_flushpos = flushpos;
 
        rdt_data->flushpos_update_time = rdt_data->last_recv_time;
    }
 
    /* Return to wait for the changes to be applied */
    if (last_flushpos < rdt_data->remote_lsn)
        return;
 
    /*
     * Reaching this point implies should_stop_conflict_info_retention()
     * returned false earlier, meaning that the most recent duration for
     * advancing the non-removable transaction ID is within the
     * max_retention_duration or max_retention_duration is set to 0.
     *
     * Therefore, if conflict info retention was previously stopped due to a
     * timeout, it is now safe to resume retention.
     */
    if (!MySubscription->retentionactive)
    {
        rdt_data->phase = RDT_RESUME_CONFLICT_INFO_RETENTION;
        return;
    }
 
    /*
     * Reaching here means the remote WAL position has been received, and all
     * transactions up to that position on the publisher have been applied and
     * flushed locally. So, we can advance the non-removable transaction ID.
     */
    SpinLockAcquire(&MyLogicalRepWorker->relmutex);
    MyLogicalRepWorker->oldest_nonremovable_xid = rdt_data->candidate_xid;
    SpinLockRelease(&MyLogicalRepWorker->relmutex);
 
    elog(DEBUG2, "confirmed flush up to remote lsn %X/%08X: new oldest_nonremovable_xid %u",
         LSN_FORMAT_ARGS(rdt_data->remote_lsn),
         rdt_data->candidate_xid);
 
    /* Notify launcher to update the xmin of the conflict slot */
    ApplyLauncherWakeup();
 
    reset_retention_data_fields(rdt_data);
 
    /* process the next phase */
    process_rdt_phase_transition(rdt_data, false);
}

Referenced by process_rdt_phase_transition().

◆ wait_for_publisher_status()

static void wait_for_publisher_status	(	RetainDeadTuplesData *	rdt_data,
		bool	status_received
	)

static

Definition at line 4524 of file worker.c.

{
    /*
     * Return if we have requested but not yet received the publisher status.
     */
    if (!status_received)
        return;
 
    /*
     * We don't need to maintain oldest_nonremovable_xid if we decide to stop
     * retaining conflict information for this worker.
     */
    if (should_stop_conflict_info_retention(rdt_data))
    {
        rdt_data->phase = RDT_STOP_CONFLICT_INFO_RETENTION;
        return;
    }
 
    if (!FullTransactionIdIsValid(rdt_data->remote_wait_for))
        rdt_data->remote_wait_for = rdt_data->remote_nextxid;
 
    /*
     * Check if all remote concurrent transactions that were active at the
     * first status request have now completed. If completed, proceed to the
     * next phase; otherwise, continue checking the publisher status until
     * these transactions finish.
     *
     * It's possible that transactions in the commit phase during the last
     * cycle have now finished committing, but remote_oldestxid remains older
     * than remote_wait_for. This can happen if some old transaction came in
     * the commit phase when we requested status in this cycle. We do not
     * handle this case explicitly as it's rare and the benefit doesn't
     * justify the required complexity. Tracking would require either caching
     * all xids at the publisher or sending them to subscribers. The condition
     * will resolve naturally once the remaining transactions are finished.
     *
     * Directly advancing the non-removable transaction ID is possible if
     * there are no activities on the publisher since the last advancement
     * cycle. However, it requires maintaining two fields, last_remote_nextxid
     * and last_remote_lsn, within the structure for comparison with the
     * current cycle's values. Considering the minimal cost of continuing in
     * RDT_WAIT_FOR_LOCAL_FLUSH without awaiting changes, we opted not to
     * advance the transaction ID here.
     */
    if (FullTransactionIdPrecedesOrEquals(rdt_data->remote_wait_for,
                                          rdt_data->remote_oldestxid))
        rdt_data->phase = RDT_WAIT_FOR_LOCAL_FLUSH;
    else
        rdt_data->phase = RDT_REQUEST_PUBLISHER_STATUS;
 
    /* process the next phase */
    process_rdt_phase_transition(rdt_data, false);
}

References FullTransactionIdIsValid, FullTransactionIdPrecedesOrEquals, RetainDeadTuplesData::phase, process_rdt_phase_transition(), RDT_REQUEST_PUBLISHER_STATUS, RDT_STOP_CONFLICT_INFO_RETENTION, RDT_WAIT_FOR_LOCAL_FLUSH, RetainDeadTuplesData::remote_nextxid, RetainDeadTuplesData::remote_oldestxid, RetainDeadTuplesData::remote_wait_for, and should_stop_conflict_info_retention().

Referenced by process_rdt_phase_transition().

Variable Documentation

◆ apply_error_callback_arg

ApplyErrorCallbackArg apply_error_callback_arg

static

Initial value:

=
{
    .command = 0,
    .rel = NULL,
    .remote_attnum = -1,
    .remote_xid = InvalidTransactionId,
    .finish_lsn = InvalidXLogRecPtr,
    .origin_name = NULL,
}

Definition at line 459 of file worker.c.

Referenced by apply_dispatch(), apply_error_callback(), apply_handle_delete(), apply_handle_insert(), apply_handle_update(), reset_apply_error_context_info(), set_apply_error_context_origin(), set_apply_error_context_xact(), slot_modify_data(), and slot_store_data().

◆ apply_error_context_stack

ErrorContextCallback* apply_error_context_stack = NULL

Definition at line 469 of file worker.c.

Referenced by LogicalRepApplyLoop(), and ProcessParallelApplyMessage().

◆ ApplyContext

MemoryContext ApplyContext = NULL

Definition at line 472 of file worker.c.

Referenced by InitializeLogRepWorker(), LogicalParallelApplyLoop(), LogicalRepApplyLoop(), maybe_reread_subscription(), pa_allocate_worker(), pa_launch_parallel_worker(), request_publisher_status(), send_feedback(), set_apply_error_context_origin(), start_table_sync(), store_flush_position(), and stream_start_internal().

◆ ApplyMessageContext

MemoryContext ApplyMessageContext = NULL

Definition at line 471 of file worker.c.

Referenced by apply_spooled_messages(), begin_replication_step(), LogicalParallelApplyLoop(), LogicalRepApplyLoop(), and store_flush_position().

◆ in_remote_transaction

bool in_remote_transaction = false

Definition at line 484 of file worker.c.

Referenced by apply_handle_begin(), apply_handle_begin_prepare(), apply_handle_commit_internal(), apply_handle_commit_prepared(), apply_handle_origin(), apply_handle_prepare(), apply_handle_rollback_prepared(), apply_handle_stream_prepare(), apply_spooled_messages(), LogicalRepApplyLoop(), and maybe_start_skipping_changes().

◆ in_streamed_transaction

bool in_streamed_transaction = false

static

Definition at line 488 of file worker.c.

Referenced by apply_handle_origin(), apply_handle_stream_abort(), apply_handle_stream_commit(), apply_handle_stream_prepare(), apply_handle_stream_start(), apply_handle_stream_stop(), get_transaction_apply_action(), LogicalRepApplyLoop(), maybe_start_skipping_changes(), and stream_open_and_write_change().

◆ InitializingApplyWorker

bool InitializingApplyWorker = false

Definition at line 499 of file worker.c.

Referenced by ApplyWorkerMain(), logicalrep_worker_onexit(), and ParallelApplyWorkerMain().

◆ last_flushpos

XLogRecPtr last_flushpos = InvalidXLogRecPtr

static

Definition at line 527 of file worker.c.

Referenced by send_feedback(), and wait_for_local_flush().

◆ LogicalStreamingContext

MemoryContext LogicalStreamingContext = NULL

static

Definition at line 475 of file worker.c.

Referenced by LogicalRepApplyLoop(), stream_open_file(), stream_stop_internal(), subxact_info_add(), and subxact_info_read().

◆ LogRepWorkerWalRcvConn

WalReceiverConn* LogRepWorkerWalRcvConn = NULL

Definition at line 477 of file worker.c.

Referenced by copy_read_data(), copy_table(), fetch_remote_table_info(), logicalrep_worker_onexit(), LogicalRepApplyLoop(), LogicalRepSyncTableStart(), process_syncing_tables_for_sync(), request_publisher_status(), run_apply_worker(), run_tablesync_worker(), send_feedback(), and set_stream_options().

◆ lsn_mapping

dlist_head lsn_mapping = DLIST_STATIC_INIT(lsn_mapping)

static

Definition at line 308 of file worker.c.

Referenced by get_flush_position(), LogicalRepApplyLoop(), and store_flush_position().

◆ MySubscription

Subscription* MySubscription = NULL

Definition at line 479 of file worker.c.

Referenced by adjust_xid_advance_interval(), apply_handle_commit_prepared(), apply_handle_delete(), apply_handle_insert(), apply_handle_prepare_internal(), apply_handle_rollback_prepared(), apply_handle_truncate(), apply_handle_update(), can_advance_nonremovable_xid(), clear_subscription_skip_lsn(), copy_table(), DisableSubscriptionAndExit(), fetch_remote_table_info(), FetchTableStates(), FindDeletedTupleInLocalRel(), finish_sync_worker(), InitializeLogRepWorker(), logicalrep_rel_open(), LogicalRepApplyLoop(), LogicalRepSyncTableStart(), maybe_reread_subscription(), maybe_start_skipping_changes(), pa_can_start(), pa_launch_parallel_worker(), pa_start_subtrans(), pa_stream_abort(), ParallelApplyWorkerMain(), process_syncing_tables_for_apply(), ProcessParallelApplyInterrupts(), ReportApplyConflict(), resume_conflict_info_retention(), run_apply_worker(), run_tablesync_worker(), set_stream_options(), SetupApplyOrSyncWorker(), should_apply_changes_for_rel(), should_stop_conflict_info_retention(), start_apply(), start_table_sync(), stop_conflict_info_retention(), update_retention_status(), and wait_for_local_flush().

◆ MySubscriptionValid

bool MySubscriptionValid = false

static

Definition at line 480 of file worker.c.

Referenced by InitializeLogRepWorker(), maybe_reread_subscription(), and subscription_change_cb().

◆ on_commit_wakeup_workers_subids

List* on_commit_wakeup_workers_subids = NIL

static

Definition at line 482 of file worker.c.

Referenced by AtEOXact_LogicalRepWorkers(), and LogicalRepWorkersWakeupAtCommit().

◆ parallel_stream_nchanges

uint32 parallel_stream_nchanges = 0

static

Definition at line 496 of file worker.c.

Referenced by apply_handle_stream_start(), apply_handle_stream_stop(), and handle_streamed_transaction().

◆ remote_final_lsn

XLogRecPtr remote_final_lsn = InvalidXLogRecPtr

static

Definition at line 485 of file worker.c.

Referenced by apply_handle_begin(), apply_handle_begin_prepare(), apply_handle_commit(), apply_handle_prepare(), apply_spooled_messages(), and should_apply_changes_for_rel().

◆ skip_xact_finish_lsn

XLogRecPtr skip_xact_finish_lsn = InvalidXLogRecPtr

static

Definition at line 516 of file worker.c.

Referenced by maybe_start_skipping_changes(), and stop_skipping_changes().

◆ stream_fd

BufFile* stream_fd = NULL

static

Definition at line 520 of file worker.c.

Referenced by apply_handle_stream_abort(), apply_handle_stream_commit(), apply_handle_stream_prepare(), apply_spooled_messages(), handle_streamed_transaction(), stream_close_file(), stream_open_and_write_change(), stream_open_file(), stream_write_change(), and subxact_info_add().

◆ stream_xid

TransactionId stream_xid = InvalidTransactionId

static

Definition at line 490 of file worker.c.

Referenced by apply_handle_begin(), apply_handle_begin_prepare(), apply_handle_stream_start(), apply_handle_stream_stop(), handle_streamed_transaction(), and subxact_info_add().

◆ subxact_data

ApplySubXactData subxact_data = {0, 0, InvalidTransactionId, NULL}

static

Definition at line 545 of file worker.c.

Referenced by cleanup_subxact_info(), stream_abort_internal(), subxact_info_add(), subxact_info_read(), and subxact_info_write().

Data Structures

Macros

Typedefs

Enumerations

Functions

Variables

Macro Definition Documentation

◆ is_skipping_changes

◆ MAX_XID_ADVANCE_INTERVAL

◆ MIN_XID_ADVANCE_INTERVAL

◆ NAPTIME_PER_CYCLE

Typedef Documentation

◆ ApplyErrorCallbackArg

◆ ApplyExecutionData

◆ ApplySubXactData

◆ FlushPosition

◆ RetainDeadTuplesData

◆ SubXactInfo

Enumeration Type Documentation

◆ RetainDeadTuplesPhase

◆ TransApplyAction

Function Documentation

◆ adjust_xid_advance_interval()

◆ apply_dispatch()

◆ apply_error_callback()

◆ apply_handle_begin()

◆ apply_handle_begin_prepare()

◆ apply_handle_commit()

◆ apply_handle_commit_internal()

◆ apply_handle_commit_prepared()

◆ apply_handle_delete()

◆ apply_handle_delete_internal()

◆ apply_handle_insert()

◆ apply_handle_insert_internal()

◆ apply_handle_origin()

◆ apply_handle_prepare()

◆ apply_handle_prepare_internal()

◆ apply_handle_relation()

◆ apply_handle_rollback_prepared()

◆ apply_handle_stream_abort()

◆ apply_handle_stream_commit()

◆ apply_handle_stream_prepare()

◆ apply_handle_stream_start()

◆ apply_handle_stream_stop()

◆ apply_handle_truncate()

◆ apply_handle_tuple_routing()

◆ apply_handle_type()

◆ apply_handle_update()

◆ apply_handle_update_internal()

◆ apply_spooled_messages()

◆ apply_worker_exit()

◆ ApplyWorkerMain()

◆ AtEOXact_LogicalRepWorkers()

◆ begin_replication_step()

◆ can_advance_nonremovable_xid()

◆ changes_filename()

◆ check_relation_updatable()

◆ cleanup_subxact_info()

◆ clear_subscription_skip_lsn()

◆ create_edata_for_relation()

◆ DisableSubscriptionAndExit()

◆ end_replication_step()

◆ ensure_last_message()

◆ FindDeletedTupleInLocalRel()

◆ FindReplTupleInLocalRel()

◆ finish_edata()

◆ get_candidate_xid()

◆ get_flush_position()

◆ get_transaction_apply_action()

◆ handle_streamed_transaction()

◆ InitializeLogRepWorker()

◆ IsIndexUsableForFindingDeletedTuple()

◆ IsLogicalParallelApplyWorker()

◆ IsLogicalWorker()

◆ LogicalRepApplyLoop()

◆ LogicalRepWorkersWakeupAtCommit()

◆ maybe_advance_nonremovable_xid()

◆ maybe_reread_subscription()

◆ maybe_start_skipping_changes()

◆ process_rdt_phase_transition()