utility.c

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/*-------------------------------------------------------------------------
 *
 * utility.c
 *    Contains functions which control the execution of the POSTGRES utility
 *    commands.  At one time acted as an interface between the Lisp and C
 *    systems.
 *
 * Portions Copyright (c) 1996-2020, PostgreSQL Global Development Group
 * Portions Copyright (c) 1994, Regents of the University of California
 *
 *
 * IDENTIFICATION
 *    src/backend/tcop/utility.c
 *
 *-------------------------------------------------------------------------
 */
#include "postgres.h"

#include "access/htup_details.h"
#include "access/reloptions.h"
#include "access/twophase.h"
#include "access/xact.h"
#include "access/xlog.h"
#include "catalog/catalog.h"
#include "catalog/namespace.h"
#include "catalog/pg_inherits.h"
#include "catalog/toasting.h"
#include "commands/alter.h"
#include "commands/async.h"
#include "commands/cluster.h"
#include "commands/collationcmds.h"
#include "commands/comment.h"
#include "commands/conversioncmds.h"
#include "commands/copy.h"
#include "commands/createas.h"
#include "commands/dbcommands.h"
#include "commands/defrem.h"
#include "commands/discard.h"
#include "commands/event_trigger.h"
#include "commands/explain.h"
#include "commands/extension.h"
#include "commands/lockcmds.h"
#include "commands/matview.h"
#include "commands/policy.h"
#include "commands/portalcmds.h"
#include "commands/prepare.h"
#include "commands/proclang.h"
#include "commands/publicationcmds.h"
#include "commands/schemacmds.h"
#include "commands/seclabel.h"
#include "commands/sequence.h"
#include "commands/subscriptioncmds.h"
#include "commands/tablecmds.h"
#include "commands/tablespace.h"
#include "commands/trigger.h"
#include "commands/typecmds.h"
#include "commands/user.h"
#include "commands/vacuum.h"
#include "commands/view.h"
#include "miscadmin.h"
#include "parser/parse_utilcmd.h"
#include "postmaster/bgwriter.h"
#include "rewrite/rewriteDefine.h"
#include "rewrite/rewriteRemove.h"
#include "storage/fd.h"
#include "tcop/pquery.h"
#include "tcop/utility.h"
#include "utils/acl.h"
#include "utils/guc.h"
#include "utils/lsyscache.h"
#include "utils/rel.h"
#include "utils/syscache.h"

/* Hook for plugins to get control in ProcessUtility() */
ProcessUtility_hook_type ProcessUtility_hook = NULL;

/* local function declarations */
static int ClassifyUtilityCommandAsReadOnly(Node *parsetree);
static void ProcessUtilitySlow(ParseState *pstate,
                               PlannedStmt *pstmt,
                               const char *queryString,
                               ProcessUtilityContext context,
                               ParamListInfo params,
                               QueryEnvironment *queryEnv,
                               DestReceiver *dest,
                               char *completionTag);
static void ExecDropStmt(DropStmt *stmt, bool isTopLevel);


/*
 * CommandIsReadOnly: is an executable query read-only?
 *
 * This is a much stricter test than we apply for XactReadOnly mode;
 * the query must be *in truth* read-only, because the caller wishes
 * not to do CommandCounterIncrement for it.
 *
 * Note: currently no need to support raw or analyzed queries here
 */
bool
CommandIsReadOnly(PlannedStmt *pstmt)
{
    Assert(IsA(pstmt, PlannedStmt));
    switch (pstmt->commandType)
    {
        case CMD_SELECT:
            if (pstmt->rowMarks != NIL)
                return false;   /* SELECT FOR [KEY] UPDATE/SHARE */
            else if (pstmt->hasModifyingCTE)
                return false;   /* data-modifying CTE */
            else
                return true;
        case CMD_UPDATE:
        case CMD_INSERT:
        case CMD_DELETE:
            return false;
        case CMD_UTILITY:
            /* For now, treat all utility commands as read/write */
            return false;
        default:
            elog(WARNING, "unrecognized commandType: %d",
                 (int) pstmt->commandType);
            break;
    }
    return false;
}

/*
 * Determine the degree to which a utility command is read only.
 *
 * Note the definitions of the relevant flags in src/include/utility/tcop.h.
 */
int
ClassifyUtilityCommandAsReadOnly(Node *parsetree)
{
    switch (nodeTag(parsetree))
    {
        case T_AlterCollationStmt:
        case T_AlterDatabaseSetStmt:
        case T_AlterDatabaseStmt:
        case T_AlterDefaultPrivilegesStmt:
        case T_AlterDomainStmt:
        case T_AlterEnumStmt:
        case T_AlterEventTrigStmt:
        case T_AlterExtensionContentsStmt:
        case T_AlterExtensionStmt:
        case T_AlterFdwStmt:
        case T_AlterForeignServerStmt:
        case T_AlterFunctionStmt:
        case T_AlterObjectDependsStmt:
        case T_AlterObjectSchemaStmt:
        case T_AlterOpFamilyStmt:
        case T_AlterOperatorStmt:
        case T_AlterOwnerStmt:
        case T_AlterPolicyStmt:
        case T_AlterPublicationStmt:
        case T_AlterRoleSetStmt:
        case T_AlterRoleStmt:
        case T_AlterSeqStmt:
        case T_AlterStatsStmt:
        case T_AlterSubscriptionStmt:
        case T_AlterTSConfigurationStmt:
        case T_AlterTSDictionaryStmt:
        case T_AlterTableMoveAllStmt:
        case T_AlterTableSpaceOptionsStmt:
        case T_AlterTableStmt:
        case T_AlterUserMappingStmt:
        case T_CommentStmt:
        case T_CompositeTypeStmt:
        case T_CreateAmStmt:
        case T_CreateCastStmt:
        case T_CreateConversionStmt:
        case T_CreateDomainStmt:
        case T_CreateEnumStmt:
        case T_CreateEventTrigStmt:
        case T_CreateExtensionStmt:
        case T_CreateFdwStmt:
        case T_CreateForeignServerStmt:
        case T_CreateForeignTableStmt:
        case T_CreateFunctionStmt:
        case T_CreateOpClassStmt:
        case T_CreateOpFamilyStmt:
        case T_CreatePLangStmt:
        case T_CreatePolicyStmt:
        case T_CreatePublicationStmt:
        case T_CreateRangeStmt:
        case T_CreateRoleStmt:
        case T_CreateSchemaStmt:
        case T_CreateSeqStmt:
        case T_CreateStatsStmt:
        case T_CreateStmt:
        case T_CreateSubscriptionStmt:
        case T_CreateTableAsStmt:
        case T_CreateTableSpaceStmt:
        case T_CreateTransformStmt:
        case T_CreateTrigStmt:
        case T_CreateUserMappingStmt:
        case T_CreatedbStmt:
        case T_DefineStmt:
        case T_DropOwnedStmt:
        case T_DropRoleStmt:
        case T_DropStmt:
        case T_DropSubscriptionStmt:
        case T_DropTableSpaceStmt:
        case T_DropUserMappingStmt:
        case T_DropdbStmt:
        case T_GrantRoleStmt:
        case T_GrantStmt:
        case T_ImportForeignSchemaStmt:
        case T_IndexStmt:
        case T_ReassignOwnedStmt:
        case T_RefreshMatViewStmt:
        case T_RenameStmt:
        case T_RuleStmt:
        case T_SecLabelStmt:
        case T_TruncateStmt:
        case T_ViewStmt:
            {
                /* DDL is not read-only, and neither is TRUNCATE. */
                return COMMAND_IS_NOT_READ_ONLY;
            }

        case T_AlterSystemStmt:
            {
                /*
                 * Surprisingly, ALTER SYSTEM meets all our definitions of
                 * read-only: it changes nothing that affects the output of
                 * pg_dump, it doesn't write WAL or imperil the application
                 * of future WAL, and it doesn't depend on any state that needs
                 * to be synchronized with parallel workers.
                 *
                 * So, despite the fact that it writes to a file, it's read
                 * only!
                 */
                return COMMAND_IS_STRICTLY_READ_ONLY;
            }

        case T_CallStmt:
        case T_DoStmt:
            {
                /*
                 * Commands inside the DO block or the called procedure might
                 * not be read only, but they'll be checked separately when we
                 * try to execute them.  Here we only need to worry about the
                 * DO or CALL command itself.
                 */
                return COMMAND_IS_STRICTLY_READ_ONLY;
            }

        case T_CheckPointStmt:
            {
                /*
                 * You might think that this should not be permitted in
                 * recovery, but we interpret a CHECKPOINT command during
                 * recovery as a request for a restartpoint instead. We allow
                 * this since it can be a useful way of reducing switchover
                 * time when using various forms of replication.
                 */
                return COMMAND_IS_STRICTLY_READ_ONLY;
            }

        case T_ClosePortalStmt:
        case T_ConstraintsSetStmt:
        case T_DeallocateStmt:
        case T_DeclareCursorStmt:
        case T_DiscardStmt:
        case T_ExecuteStmt:
        case T_FetchStmt:
        case T_LoadStmt:
        case T_PrepareStmt:
        case T_UnlistenStmt:
        case T_VariableSetStmt:
            {
                /*
                 * These modify only backend-local state, so they're OK to
                 * run in a read-only transaction or on a standby. However,
                 * they are disallowed in parallel mode, because they either
                 * rely upon or modify backend-local state that might not be
                 * synchronized among cooperating backends.
                 */
                return COMMAND_OK_IN_RECOVERY | COMMAND_OK_IN_READ_ONLY_TXN;
            }

        case T_ClusterStmt:
        case T_ReindexStmt:
        case T_VacuumStmt:
            {
                /*
                 * These commands write WAL, so they're not strictly read-only,
                 * and running them in parallel workers isn't supported.
                 *
                 * However, they don't change the database state in a way that
                 * would affect pg_dump output, so it's fine to run them in a
                 * read-only transaction. (CLUSTER might change the order of
                 * rows on disk, which could affect the ordering of pg_dump
                 * output, but that's not semantically significant.)
                 */
                return COMMAND_OK_IN_READ_ONLY_TXN;
            }

        case T_CopyStmt:
            {
                CopyStmt *stmt = (CopyStmt *) parsetree;

                /*
                 * You might think that COPY FROM is not at all read only,
                 * but it's OK to copy into a temporary table, because that
                 * wouldn't change the output of pg_dump.  If the target table
                 * turns out to be non-temporary, DoCopy itself will call
                 * PreventCommandIfReadOnly.
                 */
                if (stmt->is_from)
                    return COMMAND_OK_IN_READ_ONLY_TXN;
                else
                    return COMMAND_IS_STRICTLY_READ_ONLY;
            }

        case T_ExplainStmt:
        case T_VariableShowStmt:
            {
                /*
                 * These commands don't modify any data and are safe to run
                 * in a parallel worker.
                 */
                return COMMAND_IS_STRICTLY_READ_ONLY;
            }

        case T_ListenStmt:
        case T_NotifyStmt:
            {
                /*
                 * NOTIFY requires an XID assignment, so it can't be permitted
                 * on a standby. Perhaps LISTEN could, since without NOTIFY
                 * it would be OK to just do nothing, at least until promotion,
                 * but we currently prohibit it lest the user get the wrong
                 * idea.
                 *
                 * (We do allow T_UnlistenStmt on a standby, though, because
                 * it's a no-op.)
                 */
                return COMMAND_OK_IN_READ_ONLY_TXN;
            }

        case T_LockStmt:
            {
                LockStmt *stmt = (LockStmt *) parsetree;

                /*
                 * Only weaker locker modes are allowed during recovery. The
                 * restrictions here must match those in LockAcquireExtended().
                 */
                if (stmt->mode > RowExclusiveLock)
                    return COMMAND_OK_IN_READ_ONLY_TXN;
                else
                    return COMMAND_IS_STRICTLY_READ_ONLY;
            }

        case T_TransactionStmt:
            {
                TransactionStmt *stmt = (TransactionStmt *) parsetree;

                /*
                 * PREPARE, COMMIT PREPARED, and ROLLBACK PREPARED all change
                 * write WAL, so they're not read-only in the strict sense;
                 * but the first and third do not change pg_dump output, so
                 * they're OK in a read-only transactions.
                 *
                 * We also consider COMMIT PREPARED to be OK in a read-only
                 * transaction environment, by way of exception.
                 */
                switch (stmt->kind)
                {
                    case TRANS_STMT_BEGIN:
                    case TRANS_STMT_START:
                    case TRANS_STMT_COMMIT:
                    case TRANS_STMT_ROLLBACK:
                    case TRANS_STMT_SAVEPOINT:
                    case TRANS_STMT_RELEASE:
                    case TRANS_STMT_ROLLBACK_TO:
                        return COMMAND_IS_STRICTLY_READ_ONLY;

                    case TRANS_STMT_PREPARE:
                    case TRANS_STMT_COMMIT_PREPARED:
                    case TRANS_STMT_ROLLBACK_PREPARED:
                        return COMMAND_OK_IN_READ_ONLY_TXN;
                }
            }

        default:
            elog(ERROR, "unrecognized node type: %d",
                 (int) nodeTag(parsetree));
            break;
    }
}

/*
 * PreventCommandIfReadOnly: throw error if XactReadOnly
 *
 * This is useful partly to ensure consistency of the error message wording;
 * some callers have checked XactReadOnly for themselves.
 */
void
PreventCommandIfReadOnly(const char *cmdname)
{
    if (XactReadOnly)
        ereport(ERROR,
                (errcode(ERRCODE_READ_ONLY_SQL_TRANSACTION),
        /* translator: %s is name of a SQL command, eg CREATE */
                 errmsg("cannot execute %s in a read-only transaction",
                        cmdname)));
}

/*
 * PreventCommandIfParallelMode: throw error if current (sub)transaction is
 * in parallel mode.
 *
 * This is useful partly to ensure consistency of the error message wording;
 * some callers have checked IsInParallelMode() for themselves.
 */
void
PreventCommandIfParallelMode(const char *cmdname)
{
    if (IsInParallelMode())
        ereport(ERROR,
                (errcode(ERRCODE_INVALID_TRANSACTION_STATE),
        /* translator: %s is name of a SQL command, eg CREATE */
                 errmsg("cannot execute %s during a parallel operation",
                        cmdname)));
}

/*
 * PreventCommandDuringRecovery: throw error if RecoveryInProgress
 *
 * The majority of operations that are unsafe in a Hot Standby
 * will be rejected by XactReadOnly tests.  However there are a few
 * commands that are allowed in "read-only" xacts but cannot be allowed
 * in Hot Standby mode.  Those commands should call this function.
 */
void
PreventCommandDuringRecovery(const char *cmdname)
{
    if (RecoveryInProgress())
        ereport(ERROR,
                (errcode(ERRCODE_READ_ONLY_SQL_TRANSACTION),
        /* translator: %s is name of a SQL command, eg CREATE */
                 errmsg("cannot execute %s during recovery",
                        cmdname)));
}

/*
 * CheckRestrictedOperation: throw error for hazardous command if we're
 * inside a security restriction context.
 *
 * This is needed to protect session-local state for which there is not any
 * better-defined protection mechanism, such as ownership.
 */
static void
CheckRestrictedOperation(const char *cmdname)
{
    if (InSecurityRestrictedOperation())
        ereport(ERROR,
                (errcode(ERRCODE_INSUFFICIENT_PRIVILEGE),
        /* translator: %s is name of a SQL command, eg PREPARE */
                 errmsg("cannot execute %s within security-restricted operation",
                        cmdname)));
}


/*
 * ProcessUtility
 *      general utility function invoker
 *
 *  pstmt: PlannedStmt wrapper for the utility statement
 *  queryString: original source text of command
 *  context: identifies source of statement (toplevel client command,
 *      non-toplevel client command, subcommand of a larger utility command)
 *  params: parameters to use during execution
 *  queryEnv: environment for parse through execution (e.g., ephemeral named
 *      tables like trigger transition tables).  May be NULL.
 *  dest: where to send results
 *  completionTag: points to a buffer of size COMPLETION_TAG_BUFSIZE
 *      in which to store a command completion status string.
 *
 * Caller MUST supply a queryString; it is not allowed (anymore) to pass NULL.
 * If you really don't have source text, you can pass a constant string,
 * perhaps "(query not available)".
 *
 * completionTag is only set nonempty if we want to return a nondefault status.
 *
 * completionTag may be NULL if caller doesn't want a status string.
 *
 * Note for users of ProcessUtility_hook: the same queryString may be passed
 * to multiple invocations of ProcessUtility when processing a query string
 * containing multiple semicolon-separated statements.  One should use
 * pstmt->stmt_location and pstmt->stmt_len to identify the substring
 * containing the current statement.  Keep in mind also that some utility
 * statements (e.g., CREATE SCHEMA) will recurse to ProcessUtility to process
 * sub-statements, often passing down the same queryString, stmt_location,
 * and stmt_len that were given for the whole statement.
 */
void
ProcessUtility(PlannedStmt *pstmt,
               const char *queryString,
               ProcessUtilityContext context,
               ParamListInfo params,
               QueryEnvironment *queryEnv,
               DestReceiver *dest,
               char *completionTag)
{
    Assert(IsA(pstmt, PlannedStmt));
    Assert(pstmt->commandType == CMD_UTILITY);
    Assert(queryString != NULL);    /* required as of 8.4 */

    /*
     * We provide a function hook variable that lets loadable plugins get
     * control when ProcessUtility is called.  Such a plugin would normally
     * call standard_ProcessUtility().
     */
    if (ProcessUtility_hook)
        (*ProcessUtility_hook) (pstmt, queryString,
                                context, params, queryEnv,
                                dest, completionTag);
    else
        standard_ProcessUtility(pstmt, queryString,
                                context, params, queryEnv,
                                dest, completionTag);
}

/*
 * standard_ProcessUtility itself deals only with utility commands for
 * which we do not provide event trigger support.  Commands that do have
 * such support are passed down to ProcessUtilitySlow, which contains the
 * necessary infrastructure for such triggers.
 *
 * This division is not just for performance: it's critical that the
 * event trigger code not be invoked when doing START TRANSACTION for
 * example, because we might need to refresh the event trigger cache,
 * which requires being in a valid transaction.
 */
void
standard_ProcessUtility(PlannedStmt *pstmt,
                        const char *queryString,
                        ProcessUtilityContext context,
                        ParamListInfo params,
                        QueryEnvironment *queryEnv,
                        DestReceiver *dest,
                        char *completionTag)
{
    Node       *parsetree = pstmt->utilityStmt;
    bool        isTopLevel = (context == PROCESS_UTILITY_TOPLEVEL);
    bool        isAtomicContext = (!(context == PROCESS_UTILITY_TOPLEVEL || context == PROCESS_UTILITY_QUERY_NONATOMIC) || IsTransactionBlock());
    ParseState *pstate;
    int         readonly_flags;

    /* This can recurse, so check for excessive recursion */
    check_stack_depth();

    /* Prohibit read/write commands in read-only states. */
    readonly_flags = ClassifyUtilityCommandAsReadOnly(parsetree);
    if (readonly_flags != COMMAND_IS_STRICTLY_READ_ONLY &&
        (XactReadOnly || IsInParallelMode()))
    {
        const char *commandtag = CreateCommandTag(parsetree);

        if ((readonly_flags & COMMAND_OK_IN_READ_ONLY_TXN) == 0)
            PreventCommandIfReadOnly(commandtag);
        if ((readonly_flags & COMMAND_OK_IN_PARALLEL_MODE) == 0)
            PreventCommandIfParallelMode(commandtag);
        if ((readonly_flags & COMMAND_OK_IN_RECOVERY) == 0)
            PreventCommandDuringRecovery(commandtag);
    }

    if (completionTag)
        completionTag[0] = '\0';

    pstate = make_parsestate(NULL);
    pstate->p_sourcetext = queryString;
    pstate->p_queryEnv = queryEnv;

    switch (nodeTag(parsetree))
    {
            /*
             * ******************** transactions ********************
             */
        case T_TransactionStmt:
            {
                TransactionStmt *stmt = (TransactionStmt *) parsetree;

                switch (stmt->kind)
                {
                        /*
                         * START TRANSACTION, as defined by SQL99: Identical
                         * to BEGIN.  Same code for both.
                         */
                    case TRANS_STMT_BEGIN:
                    case TRANS_STMT_START:
                        {
                            ListCell   *lc;

                            BeginTransactionBlock();
                            foreach(lc, stmt->options)
                            {
                                DefElem    *item = (DefElem *) lfirst(lc);

                                if (strcmp(item->defname, "transaction_isolation") == 0)
                                    SetPGVariable("transaction_isolation",
                                                  list_make1(item->arg),
                                                  true);
                                else if (strcmp(item->defname, "transaction_read_only") == 0)
                                    SetPGVariable("transaction_read_only",
                                                  list_make1(item->arg),
                                                  true);
                                else if (strcmp(item->defname, "transaction_deferrable") == 0)
                                    SetPGVariable("transaction_deferrable",
                                                  list_make1(item->arg),
                                                  true);
                            }
                        }
                        break;

                    case TRANS_STMT_COMMIT:
                        if (!EndTransactionBlock(stmt->chain))
                        {
                            /* report unsuccessful commit in completionTag */
                            if (completionTag)
                                strcpy(completionTag, "ROLLBACK");
                        }
                        break;

                    case TRANS_STMT_PREPARE:
                        if (!PrepareTransactionBlock(stmt->gid))
                        {
                            /* report unsuccessful commit in completionTag */
                            if (completionTag)
                                strcpy(completionTag, "ROLLBACK");
                        }
                        break;

                    case TRANS_STMT_COMMIT_PREPARED:
                        PreventInTransactionBlock(isTopLevel, "COMMIT PREPARED");
                        FinishPreparedTransaction(stmt->gid, true);
                        break;

                    case TRANS_STMT_ROLLBACK_PREPARED:
                        PreventInTransactionBlock(isTopLevel, "ROLLBACK PREPARED");
                        FinishPreparedTransaction(stmt->gid, false);
                        break;

                    case TRANS_STMT_ROLLBACK:
                        UserAbortTransactionBlock(stmt->chain);
                        break;

                    case TRANS_STMT_SAVEPOINT:
                        RequireTransactionBlock(isTopLevel, "SAVEPOINT");
                        DefineSavepoint(stmt->savepoint_name);
                        break;

                    case TRANS_STMT_RELEASE:
                        RequireTransactionBlock(isTopLevel, "RELEASE SAVEPOINT");
                        ReleaseSavepoint(stmt->savepoint_name);
                        break;

                    case TRANS_STMT_ROLLBACK_TO:
                        RequireTransactionBlock(isTopLevel, "ROLLBACK TO SAVEPOINT");
                        RollbackToSavepoint(stmt->savepoint_name);

                        /*
                         * CommitTransactionCommand is in charge of
                         * re-defining the savepoint again
                         */
                        break;
                }
            }
            break;

            /*
             * Portal (cursor) manipulation
             */
        case T_DeclareCursorStmt:
            PerformCursorOpen(pstate, (DeclareCursorStmt *) parsetree, params,
                              isTopLevel);
            break;

        case T_ClosePortalStmt:
            {
                ClosePortalStmt *stmt = (ClosePortalStmt *) parsetree;

                CheckRestrictedOperation("CLOSE");
                PerformPortalClose(stmt->portalname);
            }
            break;

        case T_FetchStmt:
            PerformPortalFetch((FetchStmt *) parsetree, dest,
                               completionTag);
            break;

        case T_DoStmt:
            ExecuteDoStmt((DoStmt *) parsetree, isAtomicContext);
            break;

        case T_CreateTableSpaceStmt:
            /* no event triggers for global objects */
            PreventInTransactionBlock(isTopLevel, "CREATE TABLESPACE");
            CreateTableSpace((CreateTableSpaceStmt *) parsetree);
            break;

        case T_DropTableSpaceStmt:
            /* no event triggers for global objects */
            PreventInTransactionBlock(isTopLevel, "DROP TABLESPACE");
            DropTableSpace((DropTableSpaceStmt *) parsetree);
            break;

        case T_AlterTableSpaceOptionsStmt:
            /* no event triggers for global objects */
            AlterTableSpaceOptions((AlterTableSpaceOptionsStmt *) parsetree);
            break;

        case T_TruncateStmt:
            ExecuteTruncate((TruncateStmt *) parsetree);
            break;

        case T_CopyStmt:
            {
                uint64      processed;

                DoCopy(pstate, (CopyStmt *) parsetree,
                       pstmt->stmt_location, pstmt->stmt_len,
                       &processed);
                if (completionTag)
                    snprintf(completionTag, COMPLETION_TAG_BUFSIZE,
                             "COPY " UINT64_FORMAT, processed);
            }
            break;

        case T_PrepareStmt:
            CheckRestrictedOperation("PREPARE");
            PrepareQuery(pstate, (PrepareStmt *) parsetree,
                         pstmt->stmt_location, pstmt->stmt_len);
            break;

        case T_ExecuteStmt:
            ExecuteQuery(pstate,
                         (ExecuteStmt *) parsetree, NULL,
                         params,
                         dest, completionTag);
            break;

        case T_DeallocateStmt:
            CheckRestrictedOperation("DEALLOCATE");
            DeallocateQuery((DeallocateStmt *) parsetree);
            break;

        case T_GrantRoleStmt:
            /* no event triggers for global objects */
            GrantRole((GrantRoleStmt *) parsetree);
            break;

        case T_CreatedbStmt:
            /* no event triggers for global objects */
            PreventInTransactionBlock(isTopLevel, "CREATE DATABASE");
            createdb(pstate, (CreatedbStmt *) parsetree);
            break;

        case T_AlterDatabaseStmt:
            /* no event triggers for global objects */
            AlterDatabase(pstate, (AlterDatabaseStmt *) parsetree, isTopLevel);
            break;

        case T_AlterDatabaseSetStmt:
            /* no event triggers for global objects */
            AlterDatabaseSet((AlterDatabaseSetStmt *) parsetree);
            break;

        case T_DropdbStmt:
            /* no event triggers for global objects */
            PreventInTransactionBlock(isTopLevel, "DROP DATABASE");
            DropDatabase(pstate, (DropdbStmt *) parsetree);
            break;

            /* Query-level asynchronous notification */
        case T_NotifyStmt:
            {
                NotifyStmt *stmt = (NotifyStmt *) parsetree;

                Async_Notify(stmt->conditionname, stmt->payload);
            }
            break;

        case T_ListenStmt:
            {
                ListenStmt *stmt = (ListenStmt *) parsetree;

                CheckRestrictedOperation("LISTEN");
                Async_Listen(stmt->conditionname);
            }
            break;

        case T_UnlistenStmt:
            {
                UnlistenStmt *stmt = (UnlistenStmt *) parsetree;

                CheckRestrictedOperation("UNLISTEN");
                if (stmt->conditionname)
                    Async_Unlisten(stmt->conditionname);
                else
                    Async_UnlistenAll();
            }
            break;

        case T_LoadStmt:
            {
                LoadStmt   *stmt = (LoadStmt *) parsetree;

                closeAllVfds(); /* probably not necessary... */
                /* Allowed names are restricted if you're not superuser */
                load_file(stmt->filename, !superuser());
            }
            break;

        case T_CallStmt:
            ExecuteCallStmt(castNode(CallStmt, parsetree), params, isAtomicContext, dest);
            break;

        case T_ClusterStmt:
            cluster((ClusterStmt *) parsetree, isTopLevel);
            break;

        case T_VacuumStmt:
            ExecVacuum(pstate, (VacuumStmt *) parsetree, isTopLevel);
            break;

        case T_ExplainStmt:
            ExplainQuery(pstate, (ExplainStmt *) parsetree, params, dest);
            break;

        case T_AlterSystemStmt:
            PreventInTransactionBlock(isTopLevel, "ALTER SYSTEM");
            AlterSystemSetConfigFile((AlterSystemStmt *) parsetree);
            break;

        case T_VariableSetStmt:
            ExecSetVariableStmt((VariableSetStmt *) parsetree, isTopLevel);
            break;

        case T_VariableShowStmt:
            {
                VariableShowStmt *n = (VariableShowStmt *) parsetree;

                GetPGVariable(n->name, dest);
            }
            break;

        case T_DiscardStmt:
            /* should we allow DISCARD PLANS? */
            CheckRestrictedOperation("DISCARD");
            DiscardCommand((DiscardStmt *) parsetree, isTopLevel);
            break;

        case T_CreateEventTrigStmt:
            /* no event triggers on event triggers */
            CreateEventTrigger((CreateEventTrigStmt *) parsetree);
            break;

        case T_AlterEventTrigStmt:
            /* no event triggers on event triggers */
            AlterEventTrigger((AlterEventTrigStmt *) parsetree);
            break;

            /*
             * ******************************** ROLE statements ****
             */
        case T_CreateRoleStmt:
            /* no event triggers for global objects */
            CreateRole(pstate, (CreateRoleStmt *) parsetree);
            break;

        case T_AlterRoleStmt:
            /* no event triggers for global objects */
            AlterRole((AlterRoleStmt *) parsetree);
            break;

        case T_AlterRoleSetStmt:
            /* no event triggers for global objects */
            AlterRoleSet((AlterRoleSetStmt *) parsetree);
            break;

        case T_DropRoleStmt:
            /* no event triggers for global objects */
            DropRole((DropRoleStmt *) parsetree);
            break;

        case T_ReassignOwnedStmt:
            /* no event triggers for global objects */
            ReassignOwnedObjects((ReassignOwnedStmt *) parsetree);
            break;

        case T_LockStmt:

            /*
             * Since the lock would just get dropped immediately, LOCK TABLE
             * outside a transaction block is presumed to be user error.
             */
            RequireTransactionBlock(isTopLevel, "LOCK TABLE");
            LockTableCommand((LockStmt *) parsetree);
            break;

        case T_ConstraintsSetStmt:
            WarnNoTransactionBlock(isTopLevel, "SET CONSTRAINTS");
            AfterTriggerSetState((ConstraintsSetStmt *) parsetree);
            break;

        case T_CheckPointStmt:
            if (!superuser())
                ereport(ERROR,
                        (errcode(ERRCODE_INSUFFICIENT_PRIVILEGE),
                         errmsg("must be superuser to do CHECKPOINT")));

            RequestCheckpoint(CHECKPOINT_IMMEDIATE | CHECKPOINT_WAIT |
                              (RecoveryInProgress() ? 0 : CHECKPOINT_FORCE));
            break;

        case T_ReindexStmt:
            {
                ReindexStmt *stmt = (ReindexStmt *) parsetree;

                if (stmt->concurrent)
                    PreventInTransactionBlock(isTopLevel,
                                              "REINDEX CONCURRENTLY");

                switch (stmt->kind)
                {
                    case REINDEX_OBJECT_INDEX:
                        ReindexIndex(stmt->relation, stmt->options, stmt->concurrent);
                        break;
                    case REINDEX_OBJECT_TABLE:
                        ReindexTable(stmt->relation, stmt->options, stmt->concurrent);
                        break;
                    case REINDEX_OBJECT_SCHEMA:
                    case REINDEX_OBJECT_SYSTEM:
                    case REINDEX_OBJECT_DATABASE:

                        /*
                         * This cannot run inside a user transaction block; if
                         * we were inside a transaction, then its commit- and
                         * start-transaction-command calls would not have the
                         * intended effect!
                         */
                        PreventInTransactionBlock(isTopLevel,
                                                  (stmt->kind == REINDEX_OBJECT_SCHEMA) ? "REINDEX SCHEMA" :
                                                  (stmt->kind == REINDEX_OBJECT_SYSTEM) ? "REINDEX SYSTEM" :
                                                  "REINDEX DATABASE");
                        ReindexMultipleTables(stmt->name, stmt->kind, stmt->options, stmt->concurrent);
                        break;
                    default:
                        elog(ERROR, "unrecognized object type: %d",
                             (int) stmt->kind);
                        break;
                }
            }
            break;

            /*
             * The following statements are supported by Event Triggers only
             * in some cases, so we "fast path" them in the other cases.
             */

        case T_GrantStmt:
            {
                GrantStmt  *stmt = (GrantStmt *) parsetree;

                if (EventTriggerSupportsObjectType(stmt->objtype))
                    ProcessUtilitySlow(pstate, pstmt, queryString,
                                       context, params, queryEnv,
                                       dest, completionTag);
                else
                    ExecuteGrantStmt(stmt);
            }
            break;

        case T_DropStmt:
            {
                DropStmt   *stmt = (DropStmt *) parsetree;

                if (EventTriggerSupportsObjectType(stmt->removeType))
                    ProcessUtilitySlow(pstate, pstmt, queryString,
                                       context, params, queryEnv,
                                       dest, completionTag);
                else
                    ExecDropStmt(stmt, isTopLevel);
            }
            break;

        case T_RenameStmt:
            {
                RenameStmt *stmt = (RenameStmt *) parsetree;

                if (EventTriggerSupportsObjectType(stmt->renameType))
                    ProcessUtilitySlow(pstate, pstmt, queryString,
                                       context, params, queryEnv,
                                       dest, completionTag);
                else
                    ExecRenameStmt(stmt);
            }
            break;

        case T_AlterObjectDependsStmt:
            {
                AlterObjectDependsStmt *stmt = (AlterObjectDependsStmt *) parsetree;

                if (EventTriggerSupportsObjectType(stmt->objectType))
                    ProcessUtilitySlow(pstate, pstmt, queryString,
                                       context, params, queryEnv,
                                       dest, completionTag);
                else
                    ExecAlterObjectDependsStmt(stmt, NULL);
            }
            break;

        case T_AlterObjectSchemaStmt:
            {
                AlterObjectSchemaStmt *stmt = (AlterObjectSchemaStmt *) parsetree;

                if (EventTriggerSupportsObjectType(stmt->objectType))
                    ProcessUtilitySlow(pstate, pstmt, queryString,
                                       context, params, queryEnv,
                                       dest, completionTag);
                else
                    ExecAlterObjectSchemaStmt(stmt, NULL);
            }
            break;

        case T_AlterOwnerStmt:
            {
                AlterOwnerStmt *stmt = (AlterOwnerStmt *) parsetree;

                if (EventTriggerSupportsObjectType(stmt->objectType))
                    ProcessUtilitySlow(pstate, pstmt, queryString,
                                       context, params, queryEnv,
                                       dest, completionTag);
                else
                    ExecAlterOwnerStmt(stmt);
            }
            break;

        case T_CommentStmt:
            {
                CommentStmt *stmt = (CommentStmt *) parsetree;

                if (EventTriggerSupportsObjectType(stmt->objtype))
                    ProcessUtilitySlow(pstate, pstmt, queryString,
                                       context, params, queryEnv,
                                       dest, completionTag);
                else
                    CommentObject(stmt);
                break;
            }

        case T_SecLabelStmt:
            {
                SecLabelStmt *stmt = (SecLabelStmt *) parsetree;

                if (EventTriggerSupportsObjectType(stmt->objtype))
                    ProcessUtilitySlow(pstate, pstmt, queryString,
                                       context, params, queryEnv,
                                       dest, completionTag);
                else
                    ExecSecLabelStmt(stmt);
                break;
            }

        default:
            /* All other statement types have event trigger support */
            ProcessUtilitySlow(pstate, pstmt, queryString,
                               context, params, queryEnv,
                               dest, completionTag);
            break;
    }

    free_parsestate(pstate);

    /*
     * Make effects of commands visible, for instance so that
     * PreCommit_on_commit_actions() can see them (see for example bug
     * #15631).
     */
    CommandCounterIncrement();
}

/*
 * The "Slow" variant of ProcessUtility should only receive statements
 * supported by the event triggers facility.  Therefore, we always
 * perform the trigger support calls if the context allows it.
 */
static void
ProcessUtilitySlow(ParseState *pstate,
                   PlannedStmt *pstmt,
                   const char *queryString,
                   ProcessUtilityContext context,
                   ParamListInfo params,
                   QueryEnvironment *queryEnv,
                   DestReceiver *dest,
                   char *completionTag)
{
    Node       *parsetree = pstmt->utilityStmt;
    bool        isTopLevel = (context == PROCESS_UTILITY_TOPLEVEL);
    bool        isCompleteQuery = (context != PROCESS_UTILITY_SUBCOMMAND);
    bool        needCleanup;
    bool        commandCollected = false;
    ObjectAddress address;
    ObjectAddress secondaryObject = InvalidObjectAddress;

    /* All event trigger calls are done only when isCompleteQuery is true */
    needCleanup = isCompleteQuery && EventTriggerBeginCompleteQuery();

    /* PG_TRY block is to ensure we call EventTriggerEndCompleteQuery */
    PG_TRY();
    {
        if (isCompleteQuery)
            EventTriggerDDLCommandStart(parsetree);

        switch (nodeTag(parsetree))
        {
                /*
                 * relation and attribute manipulation
                 */
            case T_CreateSchemaStmt:
                CreateSchemaCommand((CreateSchemaStmt *) parsetree,
                                    queryString,
                                    pstmt->stmt_location,
                                    pstmt->stmt_len);

                /*
                 * EventTriggerCollectSimpleCommand called by
                 * CreateSchemaCommand
                 */
                commandCollected = true;
                break;

            case T_CreateStmt:
            case T_CreateForeignTableStmt:
                {
                    List       *stmts;
                    ListCell   *l;

                    /* Run parse analysis ... */
                    stmts = transformCreateStmt((CreateStmt *) parsetree,
                                                queryString);

                    /* ... and do it */
                    foreach(l, stmts)
                    {
                        Node       *stmt = (Node *) lfirst(l);

                        if (IsA(stmt, CreateStmt))
                        {
                            Datum       toast_options;
                            static char *validnsps[] = HEAP_RELOPT_NAMESPACES;

                            /* Create the table itself */
                            address = DefineRelation((CreateStmt *) stmt,
                                                     RELKIND_RELATION,
                                                     InvalidOid, NULL,
                                                     queryString);
                            EventTriggerCollectSimpleCommand(address,
                                                             secondaryObject,
                                                             stmt);

                            /*
                             * Let NewRelationCreateToastTable decide if this
                             * one needs a secondary relation too.
                             */
                            CommandCounterIncrement();

                            /*
                             * parse and validate reloptions for the toast
                             * table
                             */
                            toast_options = transformRelOptions((Datum) 0,
                                                                ((CreateStmt *) stmt)->options,
                                                                "toast",
                                                                validnsps,
                                                                true,
                                                                false);
                            (void) heap_reloptions(RELKIND_TOASTVALUE,
                                                   toast_options,
                                                   true);

                            NewRelationCreateToastTable(address.objectId,
                                                        toast_options);
                        }
                        else if (IsA(stmt, CreateForeignTableStmt))
                        {
                            /* Create the table itself */
                            address = DefineRelation((CreateStmt *) stmt,
                                                     RELKIND_FOREIGN_TABLE,
                                                     InvalidOid, NULL,
                                                     queryString);
                            CreateForeignTable((CreateForeignTableStmt *) stmt,
                                               address.objectId);
                            EventTriggerCollectSimpleCommand(address,
                                                             secondaryObject,
                                                             stmt);
                        }
                        else
                        {
                            /*
                             * Recurse for anything else.  Note the recursive
                             * call will stash the objects so created into our
                             * event trigger context.
                             */
                            PlannedStmt *wrapper;

                            wrapper = makeNode(PlannedStmt);
                            wrapper->commandType = CMD_UTILITY;
                            wrapper->canSetTag = false;
                            wrapper->utilityStmt = stmt;
                            wrapper->stmt_location = pstmt->stmt_location;
                            wrapper->stmt_len = pstmt->stmt_len;

                            ProcessUtility(wrapper,
                                           queryString,
                                           PROCESS_UTILITY_SUBCOMMAND,
                                           params,
                                           NULL,
                                           None_Receiver,
                                           NULL);
                        }

                        /* Need CCI between commands */
                        if (lnext(stmts, l) != NULL)
                            CommandCounterIncrement();
                    }

                    /*
                     * The multiple commands generated here are stashed
                     * individually, so disable collection below.
                     */
                    commandCollected = true;
                }
                break;

            case T_AlterTableStmt:
                {
                    AlterTableStmt *atstmt = (AlterTableStmt *) parsetree;
                    Oid         relid;
                    LOCKMODE    lockmode;

                    /*
                     * Figure out lock mode, and acquire lock.  This also does
                     * basic permissions checks, so that we won't wait for a
                     * lock on (for example) a relation on which we have no
                     * permissions.
                     */
                    lockmode = AlterTableGetLockLevel(atstmt->cmds);
                    relid = AlterTableLookupRelation(atstmt, lockmode);

                    if (OidIsValid(relid))
                    {
                        AlterTableUtilityContext atcontext;

                        /* Set up info needed for recursive callbacks ... */
                        atcontext.pstmt = pstmt;
                        atcontext.queryString = queryString;
                        atcontext.relid = relid;
                        atcontext.params = params;
                        atcontext.queryEnv = queryEnv;

                        /* ... ensure we have an event trigger context ... */
                        EventTriggerAlterTableStart(parsetree);
                        EventTriggerAlterTableRelid(relid);

                        /* ... and do it */
                        AlterTable(atstmt, lockmode, &atcontext);

                        /* done */
                        EventTriggerAlterTableEnd();
                    }
                    else
                        ereport(NOTICE,
                                (errmsg("relation \"%s\" does not exist, skipping",
                                        atstmt->relation->relname)));
                }

                /* ALTER TABLE stashes commands internally */
                commandCollected = true;
                break;

            case T_AlterDomainStmt:
                {
                    AlterDomainStmt *stmt = (AlterDomainStmt *) parsetree;

                    /*
                     * Some or all of these functions are recursive to cover
                     * inherited things, so permission checks are done there.
                     */
                    switch (stmt->subtype)
                    {
                        case 'T':   /* ALTER DOMAIN DEFAULT */

                            /*
                             * Recursively alter column default for table and,
                             * if requested, for descendants
                             */
                            address =
                                AlterDomainDefault(stmt->typeName,
                                                   stmt->def);
                            break;
                        case 'N':   /* ALTER DOMAIN DROP NOT NULL */
                            address =
                                AlterDomainNotNull(stmt->typeName,
                                                   false);
                            break;
                        case 'O':   /* ALTER DOMAIN SET NOT NULL */
                            address =
                                AlterDomainNotNull(stmt->typeName,
                                                   true);
                            break;
                        case 'C':   /* ADD CONSTRAINT */
                            address =
                                AlterDomainAddConstraint(stmt->typeName,
                                                         stmt->def,
                                                         &secondaryObject);
                            break;
                        case 'X':   /* DROP CONSTRAINT */
                            address =
                                AlterDomainDropConstraint(stmt->typeName,
                                                          stmt->name,
                                                          stmt->behavior,
                                                          stmt->missing_ok);
                            break;
                        case 'V':   /* VALIDATE CONSTRAINT */
                            address =
                                AlterDomainValidateConstraint(stmt->typeName,
                                                              stmt->name);
                            break;
                        default:    /* oops */
                            elog(ERROR, "unrecognized alter domain type: %d",
                                 (int) stmt->subtype);
                            break;
                    }
                }
                break;

                /*
                 * ************* object creation / destruction **************
                 */
            case T_DefineStmt:
                {
                    DefineStmt *stmt = (DefineStmt *) parsetree;

                    switch (stmt->kind)
                    {
                        case OBJECT_AGGREGATE:
                            address =
                                DefineAggregate(pstate, stmt->defnames, stmt->args,
                                                stmt->oldstyle,
                                                stmt->definition,
                                                stmt->replace);
                            break;
                        case OBJECT_OPERATOR:
                            Assert(stmt->args == NIL);
                            address = DefineOperator(stmt->defnames,
                                                     stmt->definition);
                            break;
                        case OBJECT_TYPE:
                            Assert(stmt->args == NIL);
                            address = DefineType(pstate,
                                                 stmt->defnames,
                                                 stmt->definition);
                            break;
                        case OBJECT_TSPARSER:
                            Assert(stmt->args == NIL);
                            address = DefineTSParser(stmt->defnames,
                                                     stmt->definition);
                            break;
                        case OBJECT_TSDICTIONARY:
                            Assert(stmt->args == NIL);
                            address = DefineTSDictionary(stmt->defnames,
                                                         stmt->definition);
                            break;
                        case OBJECT_TSTEMPLATE:
                            Assert(stmt->args == NIL);
                            address = DefineTSTemplate(stmt->defnames,
                                                       stmt->definition);
                            break;
                        case OBJECT_TSCONFIGURATION:
                            Assert(stmt->args == NIL);
                            address = DefineTSConfiguration(stmt->defnames,
                                                            stmt->definition,
                                                            &secondaryObject);
                            break;
                        case OBJECT_COLLATION:
                            Assert(stmt->args == NIL);
                            address = DefineCollation(pstate,
                                                      stmt->defnames,
                                                      stmt->definition,
                                                      stmt->if_not_exists);
                            break;
                        default:
                            elog(ERROR, "unrecognized define stmt type: %d",
                                 (int) stmt->kind);
                            break;
                    }
                }
                break;

            case T_IndexStmt:   /* CREATE INDEX */
                {
                    IndexStmt  *stmt = (IndexStmt *) parsetree;
                    Oid         relid;
                    LOCKMODE    lockmode;

                    if (stmt->concurrent)
                        PreventInTransactionBlock(isTopLevel,
                                                  "CREATE INDEX CONCURRENTLY");

                    /*
                     * Look up the relation OID just once, right here at the
                     * beginning, so that we don't end up repeating the name
                     * lookup later and latching onto a different relation
                     * partway through.  To avoid lock upgrade hazards, it's
                     * important that we take the strongest lock that will
                     * eventually be needed here, so the lockmode calculation
                     * needs to match what DefineIndex() does.
                     */
                    lockmode = stmt->concurrent ? ShareUpdateExclusiveLock
                        : ShareLock;
                    relid =
                        RangeVarGetRelidExtended(stmt->relation, lockmode,
                                                 0,
                                                 RangeVarCallbackOwnsRelation,
                                                 NULL);

                    /*
                     * CREATE INDEX on partitioned tables (but not regular
                     * inherited tables) recurses to partitions, so we must
                     * acquire locks early to avoid deadlocks.
                     *
                     * We also take the opportunity to verify that all
                     * partitions are something we can put an index on, to
                     * avoid building some indexes only to fail later.
                     */
                    if (stmt->relation->inh &&
                        get_rel_relkind(relid) == RELKIND_PARTITIONED_TABLE)
                    {
                        ListCell   *lc;
                        List       *inheritors = NIL;

                        inheritors = find_all_inheritors(relid, lockmode, NULL);
                        foreach(lc, inheritors)
                        {
                            char        relkind = get_rel_relkind(lfirst_oid(lc));

                            if (relkind != RELKIND_RELATION &&
                                relkind != RELKIND_MATVIEW &&
                                relkind != RELKIND_PARTITIONED_TABLE &&
                                relkind != RELKIND_FOREIGN_TABLE)
                                elog(ERROR, "unexpected relkind \"%c\" on partition \"%s\"",
                                     relkind, stmt->relation->relname);

                            if (relkind == RELKIND_FOREIGN_TABLE &&
                                (stmt->unique || stmt->primary))
                                ereport(ERROR,
                                        (errcode(ERRCODE_WRONG_OBJECT_TYPE),
                                         errmsg("cannot create unique index on partitioned table \"%s\"",
                                                stmt->relation->relname),
                                         errdetail("Table \"%s\" contains partitions that are foreign tables.",
                                                   stmt->relation->relname)));
                        }
                        list_free(inheritors);
                    }

                    /* Run parse analysis ... */
                    stmt = transformIndexStmt(relid, stmt, queryString);

                    /* ... and do it */
                    EventTriggerAlterTableStart(parsetree);
                    address =
                        DefineIndex(relid,  /* OID of heap relation */
                                    stmt,
                                    InvalidOid, /* no predefined OID */
                                    InvalidOid, /* no parent index */
                                    InvalidOid, /* no parent constraint */
                                    false,  /* is_alter_table */
                                    true,   /* check_rights */
                                    true,   /* check_not_in_use */
                                    false,  /* skip_build */
                                    false); /* quiet */

                    /*
                     * Add the CREATE INDEX node itself to stash right away;
                     * if there were any commands stashed in the ALTER TABLE
                     * code, we need them to appear after this one.
                     */
                    EventTriggerCollectSimpleCommand(address, secondaryObject,
                                                     parsetree);
                    commandCollected = true;
                    EventTriggerAlterTableEnd();
                }
                break;

            case T_CreateExtensionStmt:
                address = CreateExtension(pstate, (CreateExtensionStmt *) parsetree);
                break;

            case T_AlterExtensionStmt:
                address = ExecAlterExtensionStmt(pstate, (AlterExtensionStmt *) parsetree);
                break;

            case T_AlterExtensionContentsStmt:
                address = ExecAlterExtensionContentsStmt((AlterExtensionContentsStmt *) parsetree,
                                                         &secondaryObject);
                break;

            case T_CreateFdwStmt:
                address = CreateForeignDataWrapper((CreateFdwStmt *) parsetree);
                break;

            case T_AlterFdwStmt:
                address = AlterForeignDataWrapper((AlterFdwStmt *) parsetree);
                break;

            case T_CreateForeignServerStmt:
                address = CreateForeignServer((CreateForeignServerStmt *) parsetree);
                break;

            case T_AlterForeignServerStmt:
                address = AlterForeignServer((AlterForeignServerStmt *) parsetree);
                break;

            case T_CreateUserMappingStmt:
                address = CreateUserMapping((CreateUserMappingStmt *) parsetree);
                break;

            case T_AlterUserMappingStmt:
                address = AlterUserMapping((AlterUserMappingStmt *) parsetree);
                break;

            case T_DropUserMappingStmt:
                RemoveUserMapping((DropUserMappingStmt *) parsetree);
                /* no commands stashed for DROP */
                commandCollected = true;
                break;

            case T_ImportForeignSchemaStmt:
                ImportForeignSchema((ImportForeignSchemaStmt *) parsetree);
                /* commands are stashed inside ImportForeignSchema */
                commandCollected = true;
                break;

            case T_CompositeTypeStmt:   /* CREATE TYPE (composite) */
                {
                    CompositeTypeStmt *stmt = (CompositeTypeStmt *) parsetree;

                    address = DefineCompositeType(stmt->typevar,
                                                  stmt->coldeflist);
                }
                break;

            case T_CreateEnumStmt:  /* CREATE TYPE AS ENUM */
                address = DefineEnum((CreateEnumStmt *) parsetree);
                break;

            case T_CreateRangeStmt: /* CREATE TYPE AS RANGE */
                address = DefineRange((CreateRangeStmt *) parsetree);
                break;

            case T_AlterEnumStmt:   /* ALTER TYPE (enum) */
                address = AlterEnum((AlterEnumStmt *) parsetree);
                break;

            case T_ViewStmt:    /* CREATE VIEW */
                EventTriggerAlterTableStart(parsetree);
                address = DefineView((ViewStmt *) parsetree, queryString,
                                     pstmt->stmt_location, pstmt->stmt_len);
                EventTriggerCollectSimpleCommand(address, secondaryObject,
                                                 parsetree);
                /* stashed internally */
                commandCollected = true;
                EventTriggerAlterTableEnd();
                break;

            case T_CreateFunctionStmt:  /* CREATE FUNCTION */
                address = CreateFunction(pstate, (CreateFunctionStmt *) parsetree);
                break;

            case T_AlterFunctionStmt:   /* ALTER FUNCTION */
                address = AlterFunction(pstate, (AlterFunctionStmt *) parsetree);
                break;

            case T_RuleStmt:    /* CREATE RULE */
                address = DefineRule((RuleStmt *) parsetree, queryString);
                break;

            case T_CreateSeqStmt:
                address = DefineSequence(pstate, (CreateSeqStmt *) parsetree);
                break;

            case T_AlterSeqStmt:
                address = AlterSequence(pstate, (AlterSeqStmt *) parsetree);
                break;

            case T_CreateTableAsStmt:
                address = ExecCreateTableAs(pstate, (CreateTableAsStmt *) parsetree,
                                            params, queryEnv, completionTag);
                break;

            case T_RefreshMatViewStmt:

                /*
                 * REFRESH CONCURRENTLY executes some DDL commands internally.
                 * Inhibit DDL command collection here to avoid those commands
                 * from showing up in the deparsed command queue.  The refresh
                 * command itself is queued, which is enough.
                 */
                EventTriggerInhibitCommandCollection();
                PG_TRY();
                {
                    address = ExecRefreshMatView((RefreshMatViewStmt *) parsetree,
                                                 queryString, params, completionTag);
                }
                PG_FINALLY();
                {
                    EventTriggerUndoInhibitCommandCollection();
                }
                PG_END_TRY();
                break;

            case T_CreateTrigStmt:
                address = CreateTrigger((CreateTrigStmt *) parsetree,
                                        queryString, InvalidOid, InvalidOid,
                                        InvalidOid, InvalidOid, InvalidOid,
                                        InvalidOid, NULL, false, false);
                break;

            case T_CreatePLangStmt:
                address = CreateProceduralLanguage((CreatePLangStmt *) parsetree);
                break;

            case T_CreateDomainStmt:
                address = DefineDomain((CreateDomainStmt *) parsetree);
                break;

            case T_CreateConversionStmt:
                address = CreateConversionCommand((CreateConversionStmt *) parsetree);
                break;

            case T_CreateCastStmt:
                address = CreateCast((CreateCastStmt *) parsetree);
                break;

            case T_CreateOpClassStmt:
                DefineOpClass((CreateOpClassStmt *) parsetree);
                /* command is stashed in DefineOpClass */
                commandCollected = true;
                break;

            case T_CreateOpFamilyStmt:
                address = DefineOpFamily((CreateOpFamilyStmt *) parsetree);
                break;

            case T_CreateTransformStmt:
                address = CreateTransform((CreateTransformStmt *) parsetree);
                break;

            case T_AlterOpFamilyStmt:
                AlterOpFamily((AlterOpFamilyStmt *) parsetree);
                /* commands are stashed in AlterOpFamily */
                commandCollected = true;
                break;

            case T_AlterTSDictionaryStmt:
                address = AlterTSDictionary((AlterTSDictionaryStmt *) parsetree);
                break;

            case T_AlterTSConfigurationStmt:
                AlterTSConfiguration((AlterTSConfigurationStmt *) parsetree);

                /*
                 * Commands are stashed in MakeConfigurationMapping and
                 * DropConfigurationMapping, which are called from
                 * AlterTSConfiguration
                 */
                commandCollected = true;
                break;

            case T_AlterTableMoveAllStmt:
                AlterTableMoveAll((AlterTableMoveAllStmt *) parsetree);
                /* commands are stashed in AlterTableMoveAll */
                commandCollected = true;
                break;

            case T_DropStmt:
                ExecDropStmt((DropStmt *) parsetree, isTopLevel);
                /* no commands stashed for DROP */
                commandCollected = true;
                break;

            case T_RenameStmt:
                address = ExecRenameStmt((RenameStmt *) parsetree);
                break;

            case T_AlterObjectDependsStmt:
                address =
                    ExecAlterObjectDependsStmt((AlterObjectDependsStmt *) parsetree,
                                               &secondaryObject);
                break;

            case T_AlterObjectSchemaStmt:
                address =
                    ExecAlterObjectSchemaStmt((AlterObjectSchemaStmt *) parsetree,
                                              &secondaryObject);
                break;

            case T_AlterOwnerStmt:
                address = ExecAlterOwnerStmt((AlterOwnerStmt *) parsetree);
                break;

            case T_AlterOperatorStmt:
                address = AlterOperator((AlterOperatorStmt *) parsetree);
                break;

            case T_CommentStmt:
                address = CommentObject((CommentStmt *) parsetree);
                break;

            case T_GrantStmt:
                ExecuteGrantStmt((GrantStmt *) parsetree);
                /* commands are stashed in ExecGrantStmt_oids */
                commandCollected = true;
                break;

            case T_DropOwnedStmt:
                DropOwnedObjects((DropOwnedStmt *) parsetree);
                /* no commands stashed for DROP */
                commandCollected = true;
                break;

            case T_AlterDefaultPrivilegesStmt:
                ExecAlterDefaultPrivilegesStmt(pstate, (AlterDefaultPrivilegesStmt *) parsetree);
                EventTriggerCollectAlterDefPrivs((AlterDefaultPrivilegesStmt *) parsetree);
                commandCollected = true;
                break;

            case T_CreatePolicyStmt:    /* CREATE POLICY */
                address = CreatePolicy((CreatePolicyStmt *) parsetree);
                break;

            case T_AlterPolicyStmt: /* ALTER POLICY */
                address = AlterPolicy((AlterPolicyStmt *) parsetree);
                break;

            case T_SecLabelStmt:
                address = ExecSecLabelStmt((SecLabelStmt *) parsetree);
                break;

            case T_CreateAmStmt:
                address = CreateAccessMethod((CreateAmStmt *) parsetree);
                break;

            case T_CreatePublicationStmt:
                address = CreatePublication((CreatePublicationStmt *) parsetree);
                break;

            case T_AlterPublicationStmt:
                AlterPublication((AlterPublicationStmt *) parsetree);

                /*
                 * AlterPublication calls EventTriggerCollectSimpleCommand
                 * directly
                 */
                commandCollected = true;
                break;

            case T_CreateSubscriptionStmt:
                address = CreateSubscription((CreateSubscriptionStmt *) parsetree,
                                             isTopLevel);
                break;

            case T_AlterSubscriptionStmt:
                address = AlterSubscription((AlterSubscriptionStmt *) parsetree);
                break;

            case T_DropSubscriptionStmt:
                DropSubscription((DropSubscriptionStmt *) parsetree, isTopLevel);
                /* no commands stashed for DROP */
                commandCollected = true;
                break;

            case T_CreateStatsStmt:
                address = CreateStatistics((CreateStatsStmt *) parsetree);
                break;

            case T_AlterStatsStmt:
                address = AlterStatistics((AlterStatsStmt *) parsetree);
                break;

            case T_AlterCollationStmt:
                address = AlterCollation((AlterCollationStmt *) parsetree);
                break;

            default:
                elog(ERROR, "unrecognized node type: %d",
                     (int) nodeTag(parsetree));
                break;
        }

        /*
         * Remember the object so that ddl_command_end event triggers have
         * access to it.
         */
        if (!commandCollected)
            EventTriggerCollectSimpleCommand(address, secondaryObject,
                                             parsetree);

        if (isCompleteQuery)
        {
            EventTriggerSQLDrop(parsetree);
            EventTriggerDDLCommandEnd(parsetree);
        }
    }
    PG_FINALLY();
    {
        if (needCleanup)
            EventTriggerEndCompleteQuery();
    }
    PG_END_TRY();
}

/*
 * ProcessUtilityForAlterTable
 *      Recursive entry from ALTER TABLE
 *
 * ALTER TABLE sometimes generates subcommands such as CREATE INDEX.
 * It calls this, not the main entry point ProcessUtility, to execute
 * such subcommands.
 *
 * stmt: the utility command to execute
 * context: opaque passthrough struct with the info we need
 *
 * It's caller's responsibility to do CommandCounterIncrement after
 * calling this, if needed.
 */
void
ProcessUtilityForAlterTable(Node *stmt, AlterTableUtilityContext *context)
{
    PlannedStmt *wrapper;

    /*
     * For event triggers, we must "close" the current complex-command set,
     * and start a new one afterwards; this is needed to ensure the ordering
     * of command events is consistent with the way they were executed.
     */
    EventTriggerAlterTableEnd();

    /* Create a suitable wrapper */
    wrapper = makeNode(PlannedStmt);
    wrapper->commandType = CMD_UTILITY;
    wrapper->canSetTag = false;
    wrapper->utilityStmt = stmt;
    wrapper->stmt_location = context->pstmt->stmt_location;
    wrapper->stmt_len = context->pstmt->stmt_len;

    ProcessUtility(wrapper,
                   context->queryString,
                   PROCESS_UTILITY_SUBCOMMAND,
                   context->params,
                   context->queryEnv,
                   None_Receiver,
                   NULL);

    EventTriggerAlterTableStart(context->pstmt->utilityStmt);
    EventTriggerAlterTableRelid(context->relid);
}

/*
 * Dispatch function for DropStmt
 */
static void
ExecDropStmt(DropStmt *stmt, bool isTopLevel)
{
    switch (stmt->removeType)
    {
        case OBJECT_INDEX:
            if (stmt->concurrent)
                PreventInTransactionBlock(isTopLevel,
                                          "DROP INDEX CONCURRENTLY");
            /* fall through */

        case OBJECT_TABLE:
        case OBJECT_SEQUENCE:
        case OBJECT_VIEW:
        case OBJECT_MATVIEW:
        case OBJECT_FOREIGN_TABLE:
            RemoveRelations(stmt);
            break;
        default:
            RemoveObjects(stmt);
            break;
    }
}


/*
 * UtilityReturnsTuples
 *      Return "true" if this utility statement will send output to the
 *      destination.
 *
 * Generally, there should be a case here for each case in ProcessUtility
 * where "dest" is passed on.
 */
bool
UtilityReturnsTuples(Node *parsetree)
{
    switch (nodeTag(parsetree))
    {
        case T_CallStmt:
            {
                CallStmt   *stmt = (CallStmt *) parsetree;

                return (stmt->funcexpr->funcresulttype == RECORDOID);
            }
        case T_FetchStmt:
            {
                FetchStmt  *stmt = (FetchStmt *) parsetree;
                Portal      portal;

                if (stmt->ismove)
                    return false;
                portal = GetPortalByName(stmt->portalname);
                if (!PortalIsValid(portal))
                    return false;   /* not our business to raise error */
                return portal->tupDesc ? true : false;
            }

        case T_ExecuteStmt:
            {
                ExecuteStmt *stmt = (ExecuteStmt *) parsetree;
                PreparedStatement *entry;

                entry = FetchPreparedStatement(stmt->name, false);
                if (!entry)
                    return false;   /* not our business to raise error */
                if (entry->plansource->resultDesc)
                    return true;
                return false;
            }

        case T_ExplainStmt:
            return true;

        case T_VariableShowStmt:
            return true;

        default:
            return false;
    }
}

/*
 * UtilityTupleDescriptor
 *      Fetch the actual output tuple descriptor for a utility statement
 *      for which UtilityReturnsTuples() previously returned "true".
 *
 * The returned descriptor is created in (or copied into) the current memory
 * context.
 */
TupleDesc
UtilityTupleDescriptor(Node *parsetree)
{
    switch (nodeTag(parsetree))
    {
        case T_CallStmt:
            return CallStmtResultDesc((CallStmt *) parsetree);

        case T_FetchStmt:
            {
                FetchStmt  *stmt = (FetchStmt *) parsetree;
                Portal      portal;

                if (stmt->ismove)
                    return NULL;
                portal = GetPortalByName(stmt->portalname);
                if (!PortalIsValid(portal))
                    return NULL;    /* not our business to raise error */
                return CreateTupleDescCopy(portal->tupDesc);
            }

        case T_ExecuteStmt:
            {
                ExecuteStmt *stmt = (ExecuteStmt *) parsetree;
                PreparedStatement *entry;

                entry = FetchPreparedStatement(stmt->name, false);
                if (!entry)
                    return NULL;    /* not our business to raise error */
                return FetchPreparedStatementResultDesc(entry);
            }

        case T_ExplainStmt:
            return ExplainResultDesc((ExplainStmt *) parsetree);

        case T_VariableShowStmt:
            {
                VariableShowStmt *n = (VariableShowStmt *) parsetree;

                return GetPGVariableResultDesc(n->name);
            }

        default:
            return NULL;
    }
}


/*
 * QueryReturnsTuples
 *      Return "true" if this Query will send output to the destination.
 */
#ifdef NOT_USED
bool
QueryReturnsTuples(Query *parsetree)
{
    switch (parsetree->commandType)
    {
        case CMD_SELECT:
            /* returns tuples */
            return true;
        case CMD_INSERT:
        case CMD_UPDATE:
        case CMD_DELETE:
            /* the forms with RETURNING return tuples */
            if (parsetree->returningList)
                return true;
            break;
        case CMD_UTILITY:
            return UtilityReturnsTuples(parsetree->utilityStmt);
        case CMD_UNKNOWN:
        case CMD_NOTHING:
            /* probably shouldn't get here */
            break;
    }
    return false;               /* default */
}
#endif


/*
 * UtilityContainsQuery
 *      Return the contained Query, or NULL if there is none
 *
 * Certain utility statements, such as EXPLAIN, contain a plannable Query.
 * This function encapsulates knowledge of exactly which ones do.
 * We assume it is invoked only on already-parse-analyzed statements
 * (else the contained parsetree isn't a Query yet).
 *
 * In some cases (currently, only EXPLAIN of CREATE TABLE AS/SELECT INTO and
 * CREATE MATERIALIZED VIEW), potentially Query-containing utility statements
 * can be nested.  This function will drill down to a non-utility Query, or
 * return NULL if none.
 */
Query *
UtilityContainsQuery(Node *parsetree)
{
    Query      *qry;

    switch (nodeTag(parsetree))
    {
        case T_DeclareCursorStmt:
            qry = castNode(Query, ((DeclareCursorStmt *) parsetree)->query);
            if (qry->commandType == CMD_UTILITY)
                return UtilityContainsQuery(qry->utilityStmt);
            return qry;

        case T_ExplainStmt:
            qry = castNode(Query, ((ExplainStmt *) parsetree)->query);
            if (qry->commandType == CMD_UTILITY)
                return UtilityContainsQuery(qry->utilityStmt);
            return qry;

        case T_CreateTableAsStmt:
            qry = castNode(Query, ((CreateTableAsStmt *) parsetree)->query);
            if (qry->commandType == CMD_UTILITY)
                return UtilityContainsQuery(qry->utilityStmt);
            return qry;

        default:
            return NULL;
    }
}


/*
 * AlterObjectTypeCommandTag
 *      helper function for CreateCommandTag
 *
 * This covers most cases where ALTER is used with an ObjectType enum.
 */
static const char *
AlterObjectTypeCommandTag(ObjectType objtype)
{
    const char *tag;

    switch (objtype)
    {
        case OBJECT_AGGREGATE:
            tag = "ALTER AGGREGATE";
            break;
        case OBJECT_ATTRIBUTE:
            tag = "ALTER TYPE";
            break;
        case OBJECT_CAST:
            tag = "ALTER CAST";
            break;
        case OBJECT_COLLATION:
            tag = "ALTER COLLATION";
            break;
        case OBJECT_COLUMN:
            tag = "ALTER TABLE";
            break;
        case OBJECT_CONVERSION:
            tag = "ALTER CONVERSION";
            break;
        case OBJECT_DATABASE:
            tag = "ALTER DATABASE";
            break;
        case OBJECT_DOMAIN:
        case OBJECT_DOMCONSTRAINT:
            tag = "ALTER DOMAIN";
            break;
        case OBJECT_EXTENSION:
            tag = "ALTER EXTENSION";
            break;
        case OBJECT_FDW:
            tag = "ALTER FOREIGN DATA WRAPPER";
            break;
        case OBJECT_FOREIGN_SERVER:
            tag = "ALTER SERVER";
            break;
        case OBJECT_FOREIGN_TABLE:
            tag = "ALTER FOREIGN TABLE";
            break;
        case OBJECT_FUNCTION:
            tag = "ALTER FUNCTION";
            break;
        case OBJECT_INDEX:
            tag = "ALTER INDEX";
            break;
        case OBJECT_LANGUAGE:
            tag = "ALTER LANGUAGE";
            break;
        case OBJECT_LARGEOBJECT:
            tag = "ALTER LARGE OBJECT";
            break;
        case OBJECT_OPCLASS:
            tag = "ALTER OPERATOR CLASS";
            break;
        case OBJECT_OPERATOR:
            tag = "ALTER OPERATOR";
            break;
        case OBJECT_OPFAMILY:
            tag = "ALTER OPERATOR FAMILY";
            break;
        case OBJECT_POLICY:
            tag = "ALTER POLICY";
            break;
        case OBJECT_PROCEDURE:
            tag = "ALTER PROCEDURE";
            break;
        case OBJECT_ROLE:
            tag = "ALTER ROLE";
            break;
        case OBJECT_ROUTINE:
            tag = "ALTER ROUTINE";
            break;
        case OBJECT_RULE:
            tag = "ALTER RULE";
            break;
        case OBJECT_SCHEMA:
            tag = "ALTER SCHEMA";
            break;
        case OBJECT_SEQUENCE:
            tag = "ALTER SEQUENCE";
            break;
        case OBJECT_TABLE:
        case OBJECT_TABCONSTRAINT:
            tag = "ALTER TABLE";
            break;
        case OBJECT_TABLESPACE:
            tag = "ALTER TABLESPACE";
            break;
        case OBJECT_TRIGGER:
            tag = "ALTER TRIGGER";
            break;
        case OBJECT_EVENT_TRIGGER:
            tag = "ALTER EVENT TRIGGER";
            break;
        case OBJECT_TSCONFIGURATION:
            tag = "ALTER TEXT SEARCH CONFIGURATION";
            break;
        case OBJECT_TSDICTIONARY:
            tag = "ALTER TEXT SEARCH DICTIONARY";
            break;
        case OBJECT_TSPARSER:
            tag = "ALTER TEXT SEARCH PARSER";
            break;
        case OBJECT_TSTEMPLATE:
            tag = "ALTER TEXT SEARCH TEMPLATE";
            break;
        case OBJECT_TYPE:
            tag = "ALTER TYPE";
            break;
        case OBJECT_VIEW:
            tag = "ALTER VIEW";
            break;
        case OBJECT_MATVIEW:
            tag = "ALTER MATERIALIZED VIEW";
            break;
        case OBJECT_PUBLICATION:
            tag = "ALTER PUBLICATION";
            break;
        case OBJECT_SUBSCRIPTION:
            tag = "ALTER SUBSCRIPTION";
            break;
        case OBJECT_STATISTIC_EXT:
            tag = "ALTER STATISTICS";
            break;
        default:
            tag = "???";
            break;
    }

    return tag;
}

/*
 * CreateCommandTag
 *      utility to get a string representation of the command operation,
 *      given either a raw (un-analyzed) parsetree, an analyzed Query,
 *      or a PlannedStmt.
 *
 * This must handle all command types, but since the vast majority
 * of 'em are utility commands, it seems sensible to keep it here.
 *
 * NB: all result strings must be shorter than COMPLETION_TAG_BUFSIZE.
 * Also, the result must point at a true constant (permanent storage).
 */
const char *
CreateCommandTag(Node *parsetree)
{
    const char *tag;

    switch (nodeTag(parsetree))
    {
            /* recurse if we're given a RawStmt */
        case T_RawStmt:
            tag = CreateCommandTag(((RawStmt *) parsetree)->stmt);
            break;

            /* raw plannable queries */
        case T_InsertStmt:
            tag = "INSERT";
            break;

        case T_DeleteStmt:
            tag = "DELETE";
            break;

        case T_UpdateStmt:
            tag = "UPDATE";
            break;

        case T_SelectStmt:
            tag = "SELECT";
            break;

            /* utility statements --- same whether raw or cooked */
        case T_TransactionStmt:
            {
                TransactionStmt *stmt = (TransactionStmt *) parsetree;

                switch (stmt->kind)
                {
                    case TRANS_STMT_BEGIN:
                        tag = "BEGIN";
                        break;

                    case TRANS_STMT_START:
                        tag = "START TRANSACTION";
                        break;

                    case TRANS_STMT_COMMIT:
                        tag = "COMMIT";
                        break;

                    case TRANS_STMT_ROLLBACK:
                    case TRANS_STMT_ROLLBACK_TO:
                        tag = "ROLLBACK";
                        break;

                    case TRANS_STMT_SAVEPOINT:
                        tag = "SAVEPOINT";
                        break;

                    case TRANS_STMT_RELEASE:
                        tag = "RELEASE";
                        break;

                    case TRANS_STMT_PREPARE:
                        tag = "PREPARE TRANSACTION";
                        break;

                    case TRANS_STMT_COMMIT_PREPARED:
                        tag = "COMMIT PREPARED";
                        break;

                    case TRANS_STMT_ROLLBACK_PREPARED:
                        tag = "ROLLBACK PREPARED";
                        break;

                    default:
                        tag = "???";
                        break;
                }
            }
            break;

        case T_DeclareCursorStmt:
            tag = "DECLARE CURSOR";
            break;

        case T_ClosePortalStmt:
            {
                ClosePortalStmt *stmt = (ClosePortalStmt *) parsetree;

                if (stmt->portalname == NULL)
                    tag = "CLOSE CURSOR ALL";
                else
                    tag = "CLOSE CURSOR";
            }
            break;

        case T_FetchStmt:
            {
                FetchStmt  *stmt = (FetchStmt *) parsetree;

                tag = (stmt->ismove) ? "MOVE" : "FETCH";
            }
            break;

        case T_CreateDomainStmt:
            tag = "CREATE DOMAIN";
            break;

        case T_CreateSchemaStmt:
            tag = "CREATE SCHEMA";
            break;

        case T_CreateStmt:
            tag = "CREATE TABLE";
            break;

        case T_CreateTableSpaceStmt:
            tag = "CREATE TABLESPACE";
            break;

        case T_DropTableSpaceStmt:
            tag = "DROP TABLESPACE";
            break;

        case T_AlterTableSpaceOptionsStmt:
            tag = "ALTER TABLESPACE";
            break;

        case T_CreateExtensionStmt:
            tag = "CREATE EXTENSION";
            break;

        case T_AlterExtensionStmt:
            tag = "ALTER EXTENSION";
            break;

        case T_AlterExtensionContentsStmt:
            tag = "ALTER EXTENSION";
            break;

        case T_CreateFdwStmt:
            tag = "CREATE FOREIGN DATA WRAPPER";
            break;

        case T_AlterFdwStmt:
            tag = "ALTER FOREIGN DATA WRAPPER";
            break;

        case T_CreateForeignServerStmt:
            tag = "CREATE SERVER";
            break;

        case T_AlterForeignServerStmt:
            tag = "ALTER SERVER";
            break;

        case T_CreateUserMappingStmt:
            tag = "CREATE USER MAPPING";
            break;

        case T_AlterUserMappingStmt:
            tag = "ALTER USER MAPPING";
            break;

        case T_DropUserMappingStmt:
            tag = "DROP USER MAPPING";
            break;

        case T_CreateForeignTableStmt:
            tag = "CREATE FOREIGN TABLE";
            break;

        case T_ImportForeignSchemaStmt:
            tag = "IMPORT FOREIGN SCHEMA";
            break;

        case T_DropStmt:
            switch (((DropStmt *) parsetree)->removeType)
            {
                case OBJECT_TABLE:
                    tag = "DROP TABLE";
                    break;
                case OBJECT_SEQUENCE:
                    tag = "DROP SEQUENCE";
                    break;
                case OBJECT_VIEW:
                    tag = "DROP VIEW";
                    break;
                case OBJECT_MATVIEW:
                    tag = "DROP MATERIALIZED VIEW";
                    break;
                case OBJECT_INDEX:
                    tag = "DROP INDEX";
                    break;
                case OBJECT_TYPE:
                    tag = "DROP TYPE";
                    break;
                case OBJECT_DOMAIN:
                    tag = "DROP DOMAIN";
                    break;
                case OBJECT_COLLATION:
                    tag = "DROP COLLATION";
                    break;
                case OBJECT_CONVERSION:
                    tag = "DROP CONVERSION";
                    break;
                case OBJECT_SCHEMA:
                    tag = "DROP SCHEMA";
                    break;
                case OBJECT_TSPARSER:
                    tag = "DROP TEXT SEARCH PARSER";
                    break;
                case OBJECT_TSDICTIONARY:
                    tag = "DROP TEXT SEARCH DICTIONARY";
                    break;
                case OBJECT_TSTEMPLATE:
                    tag = "DROP TEXT SEARCH TEMPLATE";
                    break;
                case OBJECT_TSCONFIGURATION:
                    tag = "DROP TEXT SEARCH CONFIGURATION";
                    break;
                case OBJECT_FOREIGN_TABLE:
                    tag = "DROP FOREIGN TABLE";
                    break;
                case OBJECT_EXTENSION:
                    tag = "DROP EXTENSION";
                    break;
                case OBJECT_FUNCTION:
                    tag = "DROP FUNCTION";
                    break;
                case OBJECT_PROCEDURE:
                    tag = "DROP PROCEDURE";
                    break;
                case OBJECT_ROUTINE:
                    tag = "DROP ROUTINE";
                    break;
                case OBJECT_AGGREGATE:
                    tag = "DROP AGGREGATE";
                    break;
                case OBJECT_OPERATOR:
                    tag = "DROP OPERATOR";
                    break;
                case OBJECT_LANGUAGE:
                    tag = "DROP LANGUAGE";
                    break;
                case OBJECT_CAST:
                    tag = "DROP CAST";
                    break;
                case OBJECT_TRIGGER:
                    tag = "DROP TRIGGER";
                    break;
                case OBJECT_EVENT_TRIGGER:
                    tag = "DROP EVENT TRIGGER";
                    break;
                case OBJECT_RULE:
                    tag = "DROP RULE";
                    break;
                case OBJECT_FDW:
                    tag = "DROP FOREIGN DATA WRAPPER";
                    break;
                case OBJECT_FOREIGN_SERVER:
                    tag = "DROP SERVER";
                    break;
                case OBJECT_OPCLASS:
                    tag = "DROP OPERATOR CLASS";
                    break;
                case OBJECT_OPFAMILY:
                    tag = "DROP OPERATOR FAMILY";
                    break;
                case OBJECT_POLICY:
                    tag = "DROP POLICY";
                    break;
                case OBJECT_TRANSFORM:
                    tag = "DROP TRANSFORM";
                    break;
                case OBJECT_ACCESS_METHOD:
                    tag = "DROP ACCESS METHOD";
                    break;
                case OBJECT_PUBLICATION:
                    tag = "DROP PUBLICATION";
                    break;
                case OBJECT_STATISTIC_EXT:
                    tag = "DROP STATISTICS";
                    break;
                default:
                    tag = "???";
            }
            break;

        case T_TruncateStmt:
            tag = "TRUNCATE TABLE";
            break;

        case T_CommentStmt:
            tag = "COMMENT";
            break;

        case T_SecLabelStmt:
            tag = "SECURITY LABEL";
            break;

        case T_CopyStmt:
            tag = "COPY";
            break;

        case T_RenameStmt:

            /*
             * When the column is renamed, the command tag is created from its
             * relation type
             */
            tag = AlterObjectTypeCommandTag(
                                            ((RenameStmt *) parsetree)->renameType == OBJECT_COLUMN ?
                                            ((RenameStmt *) parsetree)->relationType :
                                            ((RenameStmt *) parsetree)->renameType);
            break;

        case T_AlterObjectDependsStmt:
            tag = AlterObjectTypeCommandTag(((AlterObjectDependsStmt *) parsetree)->objectType);
            break;

        case T_AlterObjectSchemaStmt:
            tag = AlterObjectTypeCommandTag(((AlterObjectSchemaStmt *) parsetree)->objectType);
            break;

        case T_AlterOwnerStmt:
            tag = AlterObjectTypeCommandTag(((AlterOwnerStmt *) parsetree)->objectType);
            break;

        case T_AlterTableMoveAllStmt:
            tag = AlterObjectTypeCommandTag(((AlterTableMoveAllStmt *) parsetree)->objtype);
            break;

        case T_AlterTableStmt:
            tag = AlterObjectTypeCommandTag(((AlterTableStmt *) parsetree)->relkind);
            break;

        case T_AlterDomainStmt:
            tag = "ALTER DOMAIN";
            break;

        case T_AlterFunctionStmt:
            switch (((AlterFunctionStmt *) parsetree)->objtype)
            {
                case OBJECT_FUNCTION:
                    tag = "ALTER FUNCTION";
                    break;
                case OBJECT_PROCEDURE:
                    tag = "ALTER PROCEDURE";
                    break;
                case OBJECT_ROUTINE:
                    tag = "ALTER ROUTINE";
                    break;
                default:
                    tag = "???";
            }
            break;

        case T_GrantStmt:
            {
                GrantStmt  *stmt = (GrantStmt *) parsetree;

                tag = (stmt->is_grant) ? "GRANT" : "REVOKE";
            }
            break;

        case T_GrantRoleStmt:
            {
                GrantRoleStmt *stmt = (GrantRoleStmt *) parsetree;

                tag = (stmt->is_grant) ? "GRANT ROLE" : "REVOKE ROLE";
            }
            break;

        case T_AlterDefaultPrivilegesStmt:
            tag = "ALTER DEFAULT PRIVILEGES";
            break;

        case T_DefineStmt:
            switch (((DefineStmt *) parsetree)->kind)
            {
                case OBJECT_AGGREGATE:
                    tag = "CREATE AGGREGATE";
                    break;
                case OBJECT_OPERATOR:
                    tag = "CREATE OPERATOR";
                    break;
                case OBJECT_TYPE:
                    tag = "CREATE TYPE";
                    break;
                case OBJECT_TSPARSER:
                    tag = "CREATE TEXT SEARCH PARSER";
                    break;
                case OBJECT_TSDICTIONARY:
                    tag = "CREATE TEXT SEARCH DICTIONARY";
                    break;
                case OBJECT_TSTEMPLATE:
                    tag = "CREATE TEXT SEARCH TEMPLATE";
                    break;
                case OBJECT_TSCONFIGURATION:
                    tag = "CREATE TEXT SEARCH CONFIGURATION";
                    break;
                case OBJECT_COLLATION:
                    tag = "CREATE COLLATION";
                    break;
                case OBJECT_ACCESS_METHOD:
                    tag = "CREATE ACCESS METHOD";
                    break;
                default:
                    tag = "???";
            }
            break;

        case T_CompositeTypeStmt:
            tag = "CREATE TYPE";
            break;

        case T_CreateEnumStmt:
            tag = "CREATE TYPE";
            break;

        case T_CreateRangeStmt:
            tag = "CREATE TYPE";
            break;

        case T_AlterEnumStmt:
            tag = "ALTER TYPE";
            break;

        case T_ViewStmt:
            tag = "CREATE VIEW";
            break;

        case T_CreateFunctionStmt:
            if (((CreateFunctionStmt *) parsetree)->is_procedure)
                tag = "CREATE PROCEDURE";
            else
                tag = "CREATE FUNCTION";
            break;

        case T_IndexStmt:
            tag = "CREATE INDEX";
            break;

        case T_RuleStmt:
            tag = "CREATE RULE";
            break;

        case T_CreateSeqStmt:
            tag = "CREATE SEQUENCE";
            break;

        case T_AlterSeqStmt:
            tag = "ALTER SEQUENCE";
            break;

        case T_DoStmt:
            tag = "DO";
            break;

        case T_CreatedbStmt:
            tag = "CREATE DATABASE";
            break;

        case T_AlterDatabaseStmt:
            tag = "ALTER DATABASE";
            break;

        case T_AlterDatabaseSetStmt:
            tag = "ALTER DATABASE";
            break;

        case T_DropdbStmt:
            tag = "DROP DATABASE";
            break;

        case T_NotifyStmt:
            tag = "NOTIFY";
            break;

        case T_ListenStmt:
            tag = "LISTEN";
            break;

        case T_UnlistenStmt:
            tag = "UNLISTEN";
            break;

        case T_LoadStmt:
            tag = "LOAD";
            break;

        case T_CallStmt:
            tag = "CALL";
            break;

        case T_ClusterStmt:
            tag = "CLUSTER";
            break;

        case T_VacuumStmt:
            if (((VacuumStmt *) parsetree)->is_vacuumcmd)
                tag = "VACUUM";
            else
                tag = "ANALYZE";
            break;

        case T_ExplainStmt:
            tag = "EXPLAIN";
            break;

        case T_CreateTableAsStmt:
            switch (((CreateTableAsStmt *) parsetree)->relkind)
            {
                case OBJECT_TABLE:
                    if (((CreateTableAsStmt *) parsetree)->is_select_into)
                        tag = "SELECT INTO";
                    else
                        tag = "CREATE TABLE AS";
                    break;
                case OBJECT_MATVIEW:
                    tag = "CREATE MATERIALIZED VIEW";
                    break;
                default:
                    tag = "???";
            }
            break;

        case T_RefreshMatViewStmt:
            tag = "REFRESH MATERIALIZED VIEW";
            break;

        case T_AlterSystemStmt:
            tag = "ALTER SYSTEM";
            break;

        case T_VariableSetStmt:
            switch (((VariableSetStmt *) parsetree)->kind)
            {
                case VAR_SET_VALUE:
                case VAR_SET_CURRENT:
                case VAR_SET_DEFAULT:
                case VAR_SET_MULTI:
                    tag = "SET";
                    break;
                case VAR_RESET:
                case VAR_RESET_ALL:
                    tag = "RESET";
                    break;
                default:
                    tag = "???";
            }
            break;

        case T_VariableShowStmt:
            tag = "SHOW";
            break;

        case T_DiscardStmt:
            switch (((DiscardStmt *) parsetree)->target)
            {
                case DISCARD_ALL:
                    tag = "DISCARD ALL";
                    break;
                case DISCARD_PLANS:
                    tag = "DISCARD PLANS";
                    break;
                case DISCARD_TEMP:
                    tag = "DISCARD TEMP";
                    break;
                case DISCARD_SEQUENCES:
                    tag = "DISCARD SEQUENCES";
                    break;
                default:
                    tag = "???";
            }
            break;

        case T_CreateTransformStmt:
            tag = "CREATE TRANSFORM";
            break;

        case T_CreateTrigStmt:
            tag = "CREATE TRIGGER";
            break;

        case T_CreateEventTrigStmt:
            tag = "CREATE EVENT TRIGGER";
            break;

        case T_AlterEventTrigStmt:
            tag = "ALTER EVENT TRIGGER";
            break;

        case T_CreatePLangStmt:
            tag = "CREATE LANGUAGE";
            break;

        case T_CreateRoleStmt:
            tag = "CREATE ROLE";
            break;

        case T_AlterRoleStmt:
            tag = "ALTER ROLE";
            break;

        case T_AlterRoleSetStmt:
            tag = "ALTER ROLE";
            break;

        case T_DropRoleStmt:
            tag = "DROP ROLE";
            break;

        case T_DropOwnedStmt:
            tag = "DROP OWNED";
            break;

        case T_ReassignOwnedStmt:
            tag = "REASSIGN OWNED";
            break;

        case T_LockStmt:
            tag = "LOCK TABLE";
            break;

        case T_ConstraintsSetStmt:
            tag = "SET CONSTRAINTS";
            break;

        case T_CheckPointStmt:
            tag = "CHECKPOINT";
            break;

        case T_ReindexStmt:
            tag = "REINDEX";
            break;

        case T_CreateConversionStmt:
            tag = "CREATE CONVERSION";
            break;

        case T_CreateCastStmt:
            tag = "CREATE CAST";
            break;

        case T_CreateOpClassStmt:
            tag = "CREATE OPERATOR CLASS";
            break;

        case T_CreateOpFamilyStmt:
            tag = "CREATE OPERATOR FAMILY";
            break;

        case T_AlterOpFamilyStmt:
            tag = "ALTER OPERATOR FAMILY";
            break;

        case T_AlterOperatorStmt:
            tag = "ALTER OPERATOR";
            break;

        case T_AlterTSDictionaryStmt:
            tag = "ALTER TEXT SEARCH DICTIONARY";
            break;

        case T_AlterTSConfigurationStmt:
            tag = "ALTER TEXT SEARCH CONFIGURATION";
            break;

        case T_CreatePolicyStmt:
            tag = "CREATE POLICY";
            break;

        case T_AlterPolicyStmt:
            tag = "ALTER POLICY";
            break;

        case T_CreateAmStmt:
            tag = "CREATE ACCESS METHOD";
            break;

        case T_CreatePublicationStmt:
            tag = "CREATE PUBLICATION";
            break;

        case T_AlterPublicationStmt:
            tag = "ALTER PUBLICATION";
            break;

        case T_CreateSubscriptionStmt:
            tag = "CREATE SUBSCRIPTION";
            break;

        case T_AlterSubscriptionStmt:
            tag = "ALTER SUBSCRIPTION";
            break;

        case T_DropSubscriptionStmt:
            tag = "DROP SUBSCRIPTION";
            break;

        case T_AlterCollationStmt:
            tag = "ALTER COLLATION";
            break;

        case T_PrepareStmt:
            tag = "PREPARE";
            break;

        case T_ExecuteStmt:
            tag = "EXECUTE";
            break;

        case T_CreateStatsStmt:
            tag = "CREATE STATISTICS";
            break;

        case T_AlterStatsStmt:
            tag = "ALTER STATISTICS";
            break;

        case T_DeallocateStmt:
            {
                DeallocateStmt *stmt = (DeallocateStmt *) parsetree;

                if (stmt->name == NULL)
                    tag = "DEALLOCATE ALL";
                else
                    tag = "DEALLOCATE";
            }
            break;

            /* already-planned queries */
        case T_PlannedStmt:
            {
                PlannedStmt *stmt = (PlannedStmt *) parsetree;

                switch (stmt->commandType)
                {
                    case CMD_SELECT:

                        /*
                         * We take a little extra care here so that the result
                         * will be useful for complaints about read-only
                         * statements
                         */
                        if (stmt->rowMarks != NIL)
                        {
                            /* not 100% but probably close enough */
                            switch (((PlanRowMark *) linitial(stmt->rowMarks))->strength)
                            {
                                case LCS_FORKEYSHARE:
                                    tag = "SELECT FOR KEY SHARE";
                                    break;
                                case LCS_FORSHARE:
                                    tag = "SELECT FOR SHARE";
                                    break;
                                case LCS_FORNOKEYUPDATE:
                                    tag = "SELECT FOR NO KEY UPDATE";
                                    break;
                                case LCS_FORUPDATE:
                                    tag = "SELECT FOR UPDATE";
                                    break;
                                default:
                                    tag = "SELECT";
                                    break;
                            }
                        }
                        else
                            tag = "SELECT";
                        break;
                    case CMD_UPDATE:
                        tag = "UPDATE";
                        break;
                    case CMD_INSERT:
                        tag = "INSERT";
                        break;
                    case CMD_DELETE:
                        tag = "DELETE";
                        break;
                    case CMD_UTILITY:
                        tag = CreateCommandTag(stmt->utilityStmt);
                        break;
                    default:
                        elog(WARNING, "unrecognized commandType: %d",
                             (int) stmt->commandType);
                        tag = "???";
                        break;
                }
            }
            break;

            /* parsed-and-rewritten-but-not-planned queries */
        case T_Query:
            {
                Query      *stmt = (Query *) parsetree;

                switch (stmt->commandType)
                {
                    case CMD_SELECT:

                        /*
                         * We take a little extra care here so that the result
                         * will be useful for complaints about read-only
                         * statements
                         */
                        if (stmt->rowMarks != NIL)
                        {
                            /* not 100% but probably close enough */
                            switch (((RowMarkClause *) linitial(stmt->rowMarks))->strength)
                            {
                                case LCS_FORKEYSHARE:
                                    tag = "SELECT FOR KEY SHARE";
                                    break;
                                case LCS_FORSHARE:
                                    tag = "SELECT FOR SHARE";
                                    break;
                                case LCS_FORNOKEYUPDATE:
                                    tag = "SELECT FOR NO KEY UPDATE";
                                    break;
                                case LCS_FORUPDATE:
                                    tag = "SELECT FOR UPDATE";
                                    break;
                                default:
                                    tag = "???";
                                    break;
                            }
                        }
                        else
                            tag = "SELECT";
                        break;
                    case CMD_UPDATE:
                        tag = "UPDATE";
                        break;
                    case CMD_INSERT:
                        tag = "INSERT";
                        break;
                    case CMD_DELETE:
                        tag = "DELETE";
                        break;
                    case CMD_UTILITY:
                        tag = CreateCommandTag(stmt->utilityStmt);
                        break;
                    default:
                        elog(WARNING, "unrecognized commandType: %d",
                             (int) stmt->commandType);
                        tag = "???";
                        break;
                }
            }
            break;

        default:
            elog(WARNING, "unrecognized node type: %d",
                 (int) nodeTag(parsetree));
            tag = "???";
            break;
    }

    return tag;
}


/*
 * GetCommandLogLevel
 *      utility to get the minimum log_statement level for a command,
 *      given either a raw (un-analyzed) parsetree, an analyzed Query,
 *      or a PlannedStmt.
 *
 * This must handle all command types, but since the vast majority
 * of 'em are utility commands, it seems sensible to keep it here.
 */
LogStmtLevel
GetCommandLogLevel(Node *parsetree)
{
    LogStmtLevel lev;

    switch (nodeTag(parsetree))
    {
            /* recurse if we're given a RawStmt */
        case T_RawStmt:
            lev = GetCommandLogLevel(((RawStmt *) parsetree)->stmt);
            break;

            /* raw plannable queries */
        case T_InsertStmt:
        case T_DeleteStmt:
        case T_UpdateStmt:
            lev = LOGSTMT_MOD;
            break;

        case T_SelectStmt:
            if (((SelectStmt *) parsetree)->intoClause)
                lev = LOGSTMT_DDL;  /* SELECT INTO */
            else
                lev = LOGSTMT_ALL;
            break;

            /* utility statements --- same whether raw or cooked */
        case T_TransactionStmt:
            lev = LOGSTMT_ALL;
            break;

        case T_DeclareCursorStmt:
            lev = LOGSTMT_ALL;
            break;

        case T_ClosePortalStmt:
            lev = LOGSTMT_ALL;
            break;

        case T_FetchStmt:
            lev = LOGSTMT_ALL;
            break;

        case T_CreateSchemaStmt:
            lev = LOGSTMT_DDL;
            break;

        case T_CreateStmt:
        case T_CreateForeignTableStmt:
            lev = LOGSTMT_DDL;
            break;

        case T_CreateTableSpaceStmt:
        case T_DropTableSpaceStmt:
        case T_AlterTableSpaceOptionsStmt:
            lev = LOGSTMT_DDL;
            break;

        case T_CreateExtensionStmt:
        case T_AlterExtensionStmt:
        case T_AlterExtensionContentsStmt:
            lev = LOGSTMT_DDL;
            break;

        case T_CreateFdwStmt:
        case T_AlterFdwStmt:
        case T_CreateForeignServerStmt:
        case T_AlterForeignServerStmt:
        case T_CreateUserMappingStmt:
        case T_AlterUserMappingStmt:
        case T_DropUserMappingStmt:
        case T_ImportForeignSchemaStmt:
            lev = LOGSTMT_DDL;
            break;

        case T_DropStmt:
            lev = LOGSTMT_DDL;
            break;

        case T_TruncateStmt:
            lev = LOGSTMT_MOD;
            break;

        case T_CommentStmt:
            lev = LOGSTMT_DDL;
            break;

        case T_SecLabelStmt:
            lev = LOGSTMT_DDL;
            break;

        case T_CopyStmt:
            if (((CopyStmt *) parsetree)->is_from)
                lev = LOGSTMT_MOD;
            else
                lev = LOGSTMT_ALL;
            break;

        case T_PrepareStmt:
            {
                PrepareStmt *stmt = (PrepareStmt *) parsetree;

                /* Look through a PREPARE to the contained stmt */
                lev = GetCommandLogLevel(stmt->query);
            }
            break;

        case T_ExecuteStmt:
            {
                ExecuteStmt *stmt = (ExecuteStmt *) parsetree;
                PreparedStatement *ps;

                /* Look through an EXECUTE to the referenced stmt */
                ps = FetchPreparedStatement(stmt->name, false);
                if (ps && ps->plansource->raw_parse_tree)
                    lev = GetCommandLogLevel(ps->plansource->raw_parse_tree->stmt);
                else
                    lev = LOGSTMT_ALL;
            }
            break;

        case T_DeallocateStmt:
            lev = LOGSTMT_ALL;
            break;

        case T_RenameStmt:
            lev = LOGSTMT_DDL;
            break;

        case T_AlterObjectDependsStmt:
            lev = LOGSTMT_DDL;
            break;

        case T_AlterObjectSchemaStmt:
            lev = LOGSTMT_DDL;
            break;

        case T_AlterOwnerStmt:
            lev = LOGSTMT_DDL;
            break;

        case T_AlterOperatorStmt:
            lev = LOGSTMT_DDL;
            break;

        case T_AlterTableMoveAllStmt:
        case T_AlterTableStmt:
            lev = LOGSTMT_DDL;
            break;

        case T_AlterDomainStmt:
            lev = LOGSTMT_DDL;
            break;

        case T_GrantStmt:
            lev = LOGSTMT_DDL;
            break;

        case T_GrantRoleStmt:
            lev = LOGSTMT_DDL;
            break;

        case T_AlterDefaultPrivilegesStmt:
            lev = LOGSTMT_DDL;
            break;

        case T_DefineStmt:
            lev = LOGSTMT_DDL;
            break;

        case T_CompositeTypeStmt:
            lev = LOGSTMT_DDL;
            break;

        case T_CreateEnumStmt:
            lev = LOGSTMT_DDL;
            break;

        case T_CreateRangeStmt:
            lev = LOGSTMT_DDL;
            break;

        case T_AlterEnumStmt:
            lev = LOGSTMT_DDL;
            break;

        case T_ViewStmt:
            lev = LOGSTMT_DDL;
            break;

        case T_CreateFunctionStmt:
            lev = LOGSTMT_DDL;
            break;

        case T_AlterFunctionStmt:
            lev = LOGSTMT_DDL;
            break;

        case T_IndexStmt:
            lev = LOGSTMT_DDL;
            break;

        case T_RuleStmt:
            lev = LOGSTMT_DDL;
            break;

        case T_CreateSeqStmt:
            lev = LOGSTMT_DDL;
            break;

        case T_AlterSeqStmt:
            lev = LOGSTMT_DDL;
            break;

        case T_DoStmt:
            lev = LOGSTMT_ALL;
            break;

        case T_CreatedbStmt:
            lev = LOGSTMT_DDL;
            break;

        case T_AlterDatabaseStmt:
            lev = LOGSTMT_DDL;
            break;

        case T_AlterDatabaseSetStmt:
            lev = LOGSTMT_DDL;
            break;

        case T_DropdbStmt:
            lev = LOGSTMT_DDL;
            break;

        case T_NotifyStmt:
            lev = LOGSTMT_ALL;
            break;

        case T_ListenStmt:
            lev = LOGSTMT_ALL;
            break;

        case T_UnlistenStmt:
            lev = LOGSTMT_ALL;
            break;

        case T_LoadStmt:
            lev = LOGSTMT_ALL;
            break;

        case T_CallStmt:
            lev = LOGSTMT_ALL;
            break;

        case T_ClusterStmt:
            lev = LOGSTMT_DDL;
            break;

        case T_VacuumStmt:
            lev = LOGSTMT_ALL;
            break;

        case T_ExplainStmt:
            {
                ExplainStmt *stmt = (ExplainStmt *) parsetree;
                bool        analyze = false;
                ListCell   *lc;

                /* Look through an EXPLAIN ANALYZE to the contained stmt */
                foreach(lc, stmt->options)
                {
                    DefElem    *opt = (DefElem *) lfirst(lc);

                    if (strcmp(opt->defname, "analyze") == 0)
                        analyze = defGetBoolean(opt);
                    /* don't "break", as explain.c will use the last value */
                }
                if (analyze)
                    return GetCommandLogLevel(stmt->query);

                /* Plain EXPLAIN isn't so interesting */
                lev = LOGSTMT_ALL;
            }
            break;

        case T_CreateTableAsStmt:
            lev = LOGSTMT_DDL;
            break;

        case T_RefreshMatViewStmt:
            lev = LOGSTMT_DDL;
            break;

        case T_AlterSystemStmt:
            lev = LOGSTMT_DDL;
            break;

        case T_VariableSetStmt:
            lev = LOGSTMT_ALL;
            break;

        case T_VariableShowStmt:
            lev = LOGSTMT_ALL;
            break;

        case T_DiscardStmt:
            lev = LOGSTMT_ALL;
            break;

        case T_CreateTrigStmt:
            lev = LOGSTMT_DDL;
            break;

        case T_CreateEventTrigStmt:
            lev = LOGSTMT_DDL;
            break;

        case T_AlterEventTrigStmt:
            lev = LOGSTMT_DDL;
            break;

        case T_CreatePLangStmt:
            lev = LOGSTMT_DDL;
            break;

        case T_CreateDomainStmt:
            lev = LOGSTMT_DDL;
            break;

        case T_CreateRoleStmt:
            lev = LOGSTMT_DDL;
            break;

        case T_AlterRoleStmt:
            lev = LOGSTMT_DDL;
            break;

        case T_AlterRoleSetStmt:
            lev = LOGSTMT_DDL;
            break;

        case T_DropRoleStmt:
            lev = LOGSTMT_DDL;
            break;

        case T_DropOwnedStmt:
            lev = LOGSTMT_DDL;
            break;

        case T_ReassignOwnedStmt:
            lev = LOGSTMT_DDL;
            break;

        case T_LockStmt:
            lev = LOGSTMT_ALL;
            break;

        case T_ConstraintsSetStmt:
            lev = LOGSTMT_ALL;
            break;

        case T_CheckPointStmt:
            lev = LOGSTMT_ALL;
            break;

        case T_ReindexStmt:
            lev = LOGSTMT_ALL;  /* should this be DDL? */
            break;

        case T_CreateConversionStmt:
            lev = LOGSTMT_DDL;
            break;

        case T_CreateCastStmt:
            lev = LOGSTMT_DDL;
            break;

        case T_CreateOpClassStmt:
            lev = LOGSTMT_DDL;
            break;

        case T_CreateOpFamilyStmt:
            lev = LOGSTMT_DDL;
            break;

        case T_CreateTransformStmt:
            lev = LOGSTMT_DDL;
            break;

        case T_AlterOpFamilyStmt:
            lev = LOGSTMT_DDL;
            break;

        case T_CreatePolicyStmt:
            lev = LOGSTMT_DDL;
            break;

        case T_AlterPolicyStmt:
            lev = LOGSTMT_DDL;
            break;

        case T_AlterTSDictionaryStmt:
            lev = LOGSTMT_DDL;
            break;

        case T_AlterTSConfigurationStmt:
            lev = LOGSTMT_DDL;
            break;

        case T_CreateAmStmt:
            lev = LOGSTMT_DDL;
            break;

        case T_CreatePublicationStmt:
            lev = LOGSTMT_DDL;
            break;

        case T_AlterPublicationStmt:
            lev = LOGSTMT_DDL;
            break;

        case T_CreateSubscriptionStmt:
            lev = LOGSTMT_DDL;
            break;

        case T_AlterSubscriptionStmt:
            lev = LOGSTMT_DDL;
            break;

        case T_DropSubscriptionStmt:
            lev = LOGSTMT_DDL;
            break;

        case T_CreateStatsStmt:
            lev = LOGSTMT_DDL;
            break;

        case T_AlterStatsStmt:
            lev = LOGSTMT_DDL;
            break;

        case T_AlterCollationStmt:
            lev = LOGSTMT_DDL;
            break;

            /* already-planned queries */
        case T_PlannedStmt:
            {
                PlannedStmt *stmt = (PlannedStmt *) parsetree;

                switch (stmt->commandType)
                {
                    case CMD_SELECT:
                        lev = LOGSTMT_ALL;
                        break;

                    case CMD_UPDATE:
                    case CMD_INSERT:
                    case CMD_DELETE:
                        lev = LOGSTMT_MOD;
                        break;

                    case CMD_UTILITY:
                        lev = GetCommandLogLevel(stmt->utilityStmt);
                        break;

                    default:
                        elog(WARNING, "unrecognized commandType: %d",
                             (int) stmt->commandType);
                        lev = LOGSTMT_ALL;
                        break;
                }
            }
            break;

            /* parsed-and-rewritten-but-not-planned queries */
        case T_Query:
            {
                Query      *stmt = (Query *) parsetree;

                switch (stmt->commandType)
                {
                    case CMD_SELECT:
                        lev = LOGSTMT_ALL;
                        break;

                    case CMD_UPDATE:
                    case CMD_INSERT:
                    case CMD_DELETE:
                        lev = LOGSTMT_MOD;
                        break;

                    case CMD_UTILITY:
                        lev = GetCommandLogLevel(stmt->utilityStmt);
                        break;

                    default:
                        elog(WARNING, "unrecognized commandType: %d",
                             (int) stmt->commandType);
                        lev = LOGSTMT_ALL;
                        break;
                }

            }
            break;

        default:
            elog(WARNING, "unrecognized node type: %d",
                 (int) nodeTag(parsetree));
            lev = LOGSTMT_ALL;
            break;
    }

    return lev;
}