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/*-------------------------------------------------------------------------
*
* execCurrent.c
* executor support for WHERE CURRENT OF cursor
*
* Portions Copyright (c) 1996-2023, PostgreSQL Global Development Group
* Portions Copyright (c) 1994, Regents of the University of California
*
* src/backend/executor/execCurrent.c
*
*-------------------------------------------------------------------------
*/
#include "postgres.h"
#include "access/genam.h"
#include "access/relscan.h"
#include "access/sysattr.h"
#include "catalog/pg_type.h"
#include "executor/executor.h"
#include "utils/builtins.h"
#include "utils/lsyscache.h"
#include "utils/portal.h"
#include "utils/rel.h"
static char *fetch_cursor_param_value(ExprContext *econtext, int paramId);
static ScanState *search_plan_tree(PlanState *node, Oid table_oid,
bool *pending_rescan);
/*
* execCurrentOf
*
* Given a CURRENT OF expression and the OID of a table, determine which row
* of the table is currently being scanned by the cursor named by CURRENT OF,
* and return the row's TID into *current_tid.
*
* Returns true if a row was identified. Returns false if the cursor is valid
* for the table but is not currently scanning a row of the table (this is a
* legal situation in inheritance cases). Raises error if cursor is not a
* valid updatable scan of the specified table.
*/
bool
execCurrentOf(CurrentOfExpr *cexpr,
ExprContext *econtext,
Oid table_oid,
ItemPointer current_tid)
{
char *cursor_name;
char *table_name;
Portal portal;
QueryDesc *queryDesc;
/* Get the cursor name --- may have to look up a parameter reference */
if (cexpr->cursor_name)
cursor_name = cexpr->cursor_name;
else
cursor_name = fetch_cursor_param_value(econtext, cexpr->cursor_param);
/* Fetch table name for possible use in error messages */
table_name = get_rel_name(table_oid);
if (table_name == NULL)
elog(ERROR, "cache lookup failed for relation %u", table_oid);
/* Find the cursor's portal */
portal = GetPortalByName(cursor_name);
if (!PortalIsValid(portal))
ereport(ERROR,
(errcode(ERRCODE_UNDEFINED_CURSOR),
errmsg("cursor \"%s\" does not exist", cursor_name)));
/*
* We have to watch out for non-SELECT queries as well as held cursors,
* both of which may have null queryDesc.
*/
if (portal->strategy != PORTAL_ONE_SELECT)
ereport(ERROR,
(errcode(ERRCODE_INVALID_CURSOR_STATE),
errmsg("cursor \"%s\" is not a SELECT query",
cursor_name)));
queryDesc = portal->queryDesc;
if (queryDesc == NULL || queryDesc->estate == NULL)
ereport(ERROR,
(errcode(ERRCODE_INVALID_CURSOR_STATE),
errmsg("cursor \"%s\" is held from a previous transaction",
cursor_name)));
/*
* We have two different strategies depending on whether the cursor uses
* FOR UPDATE/SHARE or not. The reason for supporting both is that the
* FOR UPDATE code is able to identify a target table in many cases where
* the other code can't, while the non-FOR-UPDATE case allows use of WHERE
* CURRENT OF with an insensitive cursor.
*/
if (queryDesc->estate->es_rowmarks)
{
ExecRowMark *erm;
Index i;
/*
* Here, the query must have exactly one FOR UPDATE/SHARE reference to
* the target table, and we dig the ctid info out of that.
*/
erm = NULL;
for (i = 0; i < queryDesc->estate->es_range_table_size; i++)
{
ExecRowMark *thiserm = queryDesc->estate->es_rowmarks[i];
if (thiserm == NULL ||
!RowMarkRequiresRowShareLock(thiserm->markType))
continue; /* ignore non-FOR UPDATE/SHARE items */
if (thiserm->relid == table_oid)
{
if (erm)
ereport(ERROR,
(errcode(ERRCODE_INVALID_CURSOR_STATE),
errmsg("cursor \"%s\" has multiple FOR UPDATE/SHARE references to table \"%s\"",
cursor_name, table_name)));
erm = thiserm;
}
}
if (erm == NULL)
ereport(ERROR,
(errcode(ERRCODE_INVALID_CURSOR_STATE),
errmsg("cursor \"%s\" does not have a FOR UPDATE/SHARE reference to table \"%s\"",
cursor_name, table_name)));
/*
* The cursor must have a current result row: per the SQL spec, it's
* an error if not.
*/
if (portal->atStart || portal->atEnd)
ereport(ERROR,
(errcode(ERRCODE_INVALID_CURSOR_STATE),
errmsg("cursor \"%s\" is not positioned on a row",
cursor_name)));
/* Return the currently scanned TID, if there is one */
if (ItemPointerIsValid(&(erm->curCtid)))
{
*current_tid = erm->curCtid;
return true;
}
/*
* This table didn't produce the cursor's current row; some other
* inheritance child of the same parent must have. Signal caller to
* do nothing on this table.
*/
return false;
}
else
{
/*
* Without FOR UPDATE, we dig through the cursor's plan to find the
* scan node. Fail if it's not there or buried underneath
* aggregation.
*/
ScanState *scanstate;
bool pending_rescan = false;
scanstate = search_plan_tree(queryDesc->planstate, table_oid,
&pending_rescan);
if (!scanstate)
ereport(ERROR,
(errcode(ERRCODE_INVALID_CURSOR_STATE),
errmsg("cursor \"%s\" is not a simply updatable scan of table \"%s\"",
cursor_name, table_name)));
/*
* The cursor must have a current result row: per the SQL spec, it's
* an error if not. We test this at the top level, rather than at the
* scan node level, because in inheritance cases any one table scan
* could easily not be on a row. We want to return false, not raise
* error, if the passed-in table OID is for one of the inactive scans.
*/
if (portal->atStart || portal->atEnd)
ereport(ERROR,
(errcode(ERRCODE_INVALID_CURSOR_STATE),
errmsg("cursor \"%s\" is not positioned on a row",
cursor_name)));
/*
* Now OK to return false if we found an inactive scan. It is
* inactive either if it's not positioned on a row, or there's a
* rescan pending for it.
*/
if (TupIsNull(scanstate->ss_ScanTupleSlot) || pending_rescan)
return false;
/*
* Extract TID of the scan's current row. The mechanism for this is
* in principle scan-type-dependent, but for most scan types, we can
* just dig the TID out of the physical scan tuple.
*/
if (IsA(scanstate, IndexOnlyScanState))
{
/*
* For IndexOnlyScan, the tuple stored in ss_ScanTupleSlot may be
* a virtual tuple that does not have the ctid column, so we have
* to get the TID from xs_ctup.t_self.
*/
IndexScanDesc scan = ((IndexOnlyScanState *) scanstate)->ioss_ScanDesc;
*current_tid = scan->xs_heaptid;
}
else
{
/*
* Default case: try to fetch TID from the scan node's current
* tuple. As an extra cross-check, verify tableoid in the current
* tuple. If the scan hasn't provided a physical tuple, we have
* to fail.
*/
Datum ldatum;
bool lisnull;
ItemPointer tuple_tid;
#ifdef USE_ASSERT_CHECKING
ldatum = slot_getsysattr(scanstate->ss_ScanTupleSlot,
TableOidAttributeNumber,
&lisnull);
if (lisnull)
ereport(ERROR,
(errcode(ERRCODE_INVALID_CURSOR_STATE),
errmsg("cursor \"%s\" is not a simply updatable scan of table \"%s\"",
cursor_name, table_name)));
Assert(DatumGetObjectId(ldatum) == table_oid);
#endif
ldatum = slot_getsysattr(scanstate->ss_ScanTupleSlot,
SelfItemPointerAttributeNumber,
&lisnull);
if (lisnull)
ereport(ERROR,
(errcode(ERRCODE_INVALID_CURSOR_STATE),
errmsg("cursor \"%s\" is not a simply updatable scan of table \"%s\"",
cursor_name, table_name)));
tuple_tid = (ItemPointer) DatumGetPointer(ldatum);
*current_tid = *tuple_tid;
}
Assert(ItemPointerIsValid(current_tid));
return true;
}
}
/*
* fetch_cursor_param_value
*
* Fetch the string value of a param, verifying it is of type REFCURSOR.
*/
static char *
fetch_cursor_param_value(ExprContext *econtext, int paramId)
{
ParamListInfo paramInfo = econtext->ecxt_param_list_info;
if (paramInfo &&
paramId > 0 && paramId <= paramInfo->numParams)
{
ParamExternData *prm;
ParamExternData prmdata;
/* give hook a chance in case parameter is dynamic */
if (paramInfo->paramFetch != NULL)
prm = paramInfo->paramFetch(paramInfo, paramId, false, &prmdata);
else
prm = ¶mInfo->params[paramId - 1];
if (OidIsValid(prm->ptype) && !prm->isnull)
{
/* safety check in case hook did something unexpected */
if (prm->ptype != REFCURSOROID)
ereport(ERROR,
(errcode(ERRCODE_DATATYPE_MISMATCH),
errmsg("type of parameter %d (%s) does not match that when preparing the plan (%s)",
paramId,
format_type_be(prm->ptype),
format_type_be(REFCURSOROID))));
/* We know that refcursor uses text's I/O routines */
return TextDatumGetCString(prm->value);
}
}
ereport(ERROR,
(errcode(ERRCODE_UNDEFINED_OBJECT),
errmsg("no value found for parameter %d", paramId)));
return NULL;
}
/*
* search_plan_tree
*
* Search through a PlanState tree for a scan node on the specified table.
* Return NULL if not found or multiple candidates.
*
* CAUTION: this function is not charged simply with finding some candidate
* scan, but with ensuring that that scan returned the plan tree's current
* output row. That's why we must reject multiple-match cases.
*
* If a candidate is found, set *pending_rescan to true if that candidate
* or any node above it has a pending rescan action, i.e. chgParam != NULL.
* That indicates that we shouldn't consider the node to be positioned on a
* valid tuple, even if its own state would indicate that it is. (Caller
* must initialize *pending_rescan to false, and should not trust its state
* if multiple candidates are found.)
*/
static ScanState *
search_plan_tree(PlanState *node, Oid table_oid,
bool *pending_rescan)
{
ScanState *result = NULL;
if (node == NULL)
return NULL;
switch (nodeTag(node))
{
/*
* Relation scan nodes can all be treated alike: check to see if
* they are scanning the specified table.
*
* ForeignScan and CustomScan might not have a currentRelation, in
* which case we just ignore them. (We dare not descend to any
* child plan nodes they might have, since we do not know the
* relationship of such a node's current output tuple to the
* children's current outputs.)
*/
case T_SeqScanState:
case T_SampleScanState:
case T_IndexScanState:
case T_IndexOnlyScanState:
case T_BitmapHeapScanState:
case T_TidScanState:
case T_TidRangeScanState:
case T_ForeignScanState:
case T_CustomScanState:
{
ScanState *sstate = (ScanState *) node;
if (sstate->ss_currentRelation &&
RelationGetRelid(sstate->ss_currentRelation) == table_oid)
result = sstate;
break;
}
/*
* For Append, we can check each input node. It is safe to
* descend to the inputs because only the input that resulted in
* the Append's current output node could be positioned on a tuple
* at all; the other inputs are either at EOF or not yet started.
* Hence, if the desired table is scanned by some
* currently-inactive input node, we will find that node but then
* our caller will realize that it didn't emit the tuple of
* interest.
*
* We do need to watch out for multiple matches (possible if
* Append was from UNION ALL rather than an inheritance tree).
*
* Note: we can NOT descend through MergeAppend similarly, since
* its inputs are likely all active, and we don't know which one
* returned the current output tuple. (Perhaps that could be
* fixed if we were to let this code know more about MergeAppend's
* internal state, but it does not seem worth the trouble. Users
* should not expect plans for ORDER BY queries to be considered
* simply-updatable, since they won't be if the sorting is
* implemented by a Sort node.)
*/
case T_AppendState:
{
AppendState *astate = (AppendState *) node;
int i;
for (i = 0; i < astate->as_nplans; i++)
{
ScanState *elem = search_plan_tree(astate->appendplans[i],
table_oid,
pending_rescan);
if (!elem)
continue;
if (result)
return NULL; /* multiple matches */
result = elem;
}
break;
}
/*
* Result and Limit can be descended through (these are safe
* because they always return their input's current row)
*/
case T_ResultState:
case T_LimitState:
result = search_plan_tree(outerPlanState(node),
table_oid,
pending_rescan);
break;
/*
* SubqueryScan too, but it keeps the child in a different place
*/
case T_SubqueryScanState:
result = search_plan_tree(((SubqueryScanState *) node)->subplan,
table_oid,
pending_rescan);
break;
default:
/* Otherwise, assume we can't descend through it */
break;
}
/*
* If we found a candidate at or below this node, then this node's
* chgParam indicates a pending rescan that will affect the candidate.
*/
if (result && node->chgParam != NULL)
*pending_rescan = true;
return result;
}
|