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|
/*-------------------------------------------------------------------------
*
* parse_relation.c
* parser support routines dealing with relations
*
* Portions Copyright (c) 1996-2022, PostgreSQL Global Development Group
* Portions Copyright (c) 1994, Regents of the University of California
*
*
* IDENTIFICATION
* src/backend/parser/parse_relation.c
*
*-------------------------------------------------------------------------
*/
#include "postgres.h"
#include <ctype.h>
#include "access/htup_details.h"
#include "access/relation.h"
#include "access/sysattr.h"
#include "access/table.h"
#include "catalog/heap.h"
#include "catalog/namespace.h"
#include "catalog/pg_type.h"
#include "funcapi.h"
#include "nodes/makefuncs.h"
#include "nodes/nodeFuncs.h"
#include "parser/parse_enr.h"
#include "parser/parse_relation.h"
#include "parser/parse_type.h"
#include "parser/parsetree.h"
#include "storage/lmgr.h"
#include "utils/builtins.h"
#include "utils/lsyscache.h"
#include "utils/rel.h"
#include "utils/syscache.h"
#include "utils/varlena.h"
/*
* Support for fuzzily matching columns.
*
* This is for building diagnostic messages, where multiple or non-exact
* matching attributes are of interest.
*
* "distance" is the current best fuzzy-match distance if rfirst isn't NULL,
* otherwise it is the maximum acceptable distance plus 1.
*
* rfirst/first record the closest non-exact match so far, and distance
* is its distance from the target name. If we have found a second non-exact
* match of exactly the same distance, rsecond/second record that. (If
* we find three of the same distance, we conclude that "distance" is not
* a tight enough bound for a useful hint and clear rfirst/rsecond again.
* Only if we later find something closer will we re-populate rfirst.)
*
* rexact1/exact1 record the location of the first exactly-matching column,
* if any. If we find multiple exact matches then rexact2/exact2 record
* another one (we don't especially care which). Currently, these get
* populated independently of the fuzzy-match fields.
*/
typedef struct
{
int distance; /* Current or limit distance */
RangeTblEntry *rfirst; /* RTE of closest non-exact match, or NULL */
AttrNumber first; /* Col index in rfirst */
RangeTblEntry *rsecond; /* RTE of another non-exact match w/same dist */
AttrNumber second; /* Col index in rsecond */
RangeTblEntry *rexact1; /* RTE of first exact match, or NULL */
AttrNumber exact1; /* Col index in rexact1 */
RangeTblEntry *rexact2; /* RTE of second exact match, or NULL */
AttrNumber exact2; /* Col index in rexact2 */
} FuzzyAttrMatchState;
#define MAX_FUZZY_DISTANCE 3
static ParseNamespaceItem *scanNameSpaceForRefname(ParseState *pstate,
const char *refname,
int location);
static ParseNamespaceItem *scanNameSpaceForRelid(ParseState *pstate, Oid relid,
int location);
static void check_lateral_ref_ok(ParseState *pstate, ParseNamespaceItem *nsitem,
int location);
static int scanRTEForColumn(ParseState *pstate, RangeTblEntry *rte,
Alias *eref,
const char *colname, int location,
int fuzzy_rte_penalty,
FuzzyAttrMatchState *fuzzystate);
static void markRTEForSelectPriv(ParseState *pstate,
int rtindex, AttrNumber col);
static void expandRelation(Oid relid, Alias *eref,
int rtindex, int sublevels_up,
int location, bool include_dropped,
List **colnames, List **colvars);
static void expandTupleDesc(TupleDesc tupdesc, Alias *eref,
int count, int offset,
int rtindex, int sublevels_up,
int location, bool include_dropped,
List **colnames, List **colvars);
static int specialAttNum(const char *attname);
static bool rte_visible_if_lateral(ParseState *pstate, RangeTblEntry *rte);
static bool rte_visible_if_qualified(ParseState *pstate, RangeTblEntry *rte);
static bool isQueryUsingTempRelation_walker(Node *node, void *context);
/*
* refnameNamespaceItem
* Given a possibly-qualified refname, look to see if it matches any visible
* namespace item. If so, return a pointer to the nsitem; else return NULL.
*
* Optionally get nsitem's nesting depth (0 = current) into *sublevels_up.
* If sublevels_up is NULL, only consider items at the current nesting
* level.
*
* An unqualified refname (schemaname == NULL) can match any item with matching
* alias, or matching unqualified relname in the case of alias-less relation
* items. It is possible that such a refname matches multiple items in the
* nearest nesting level that has a match; if so, we report an error via
* ereport().
*
* A qualified refname (schemaname != NULL) can only match a relation item
* that (a) has no alias and (b) is for the same relation identified by
* schemaname.refname. In this case we convert schemaname.refname to a
* relation OID and search by relid, rather than by alias name. This is
* peculiar, but it's what SQL says to do.
*/
ParseNamespaceItem *
refnameNamespaceItem(ParseState *pstate,
const char *schemaname,
const char *refname,
int location,
int *sublevels_up)
{
Oid relId = InvalidOid;
if (sublevels_up)
*sublevels_up = 0;
if (schemaname != NULL)
{
Oid namespaceId;
/*
* We can use LookupNamespaceNoError() here because we are only
* interested in finding existing RTEs. Checking USAGE permission on
* the schema is unnecessary since it would have already been checked
* when the RTE was made. Furthermore, we want to report "RTE not
* found", not "no permissions for schema", if the name happens to
* match a schema name the user hasn't got access to.
*/
namespaceId = LookupNamespaceNoError(schemaname);
if (!OidIsValid(namespaceId))
return NULL;
relId = get_relname_relid(refname, namespaceId);
if (!OidIsValid(relId))
return NULL;
}
while (pstate != NULL)
{
ParseNamespaceItem *result;
if (OidIsValid(relId))
result = scanNameSpaceForRelid(pstate, relId, location);
else
result = scanNameSpaceForRefname(pstate, refname, location);
if (result)
return result;
if (sublevels_up)
(*sublevels_up)++;
else
break;
pstate = pstate->parentParseState;
}
return NULL;
}
/*
* Search the query's table namespace for an item matching the
* given unqualified refname. Return the nsitem if a unique match, or NULL
* if no match. Raise error if multiple matches.
*
* Note: it might seem that we shouldn't have to worry about the possibility
* of multiple matches; after all, the SQL standard disallows duplicate table
* aliases within a given SELECT level. Historically, however, Postgres has
* been laxer than that. For example, we allow
* SELECT ... FROM tab1 x CROSS JOIN (tab2 x CROSS JOIN tab3 y) z
* on the grounds that the aliased join (z) hides the aliases within it,
* therefore there is no conflict between the two RTEs named "x". However,
* if tab3 is a LATERAL subquery, then from within the subquery both "x"es
* are visible. Rather than rejecting queries that used to work, we allow
* this situation, and complain only if there's actually an ambiguous
* reference to "x".
*/
static ParseNamespaceItem *
scanNameSpaceForRefname(ParseState *pstate, const char *refname, int location)
{
ParseNamespaceItem *result = NULL;
ListCell *l;
foreach(l, pstate->p_namespace)
{
ParseNamespaceItem *nsitem = (ParseNamespaceItem *) lfirst(l);
/* Ignore columns-only items */
if (!nsitem->p_rel_visible)
continue;
/* If not inside LATERAL, ignore lateral-only items */
if (nsitem->p_lateral_only && !pstate->p_lateral_active)
continue;
if (strcmp(nsitem->p_names->aliasname, refname) == 0)
{
if (result)
ereport(ERROR,
(errcode(ERRCODE_AMBIGUOUS_ALIAS),
errmsg("table reference \"%s\" is ambiguous",
refname),
parser_errposition(pstate, location)));
check_lateral_ref_ok(pstate, nsitem, location);
result = nsitem;
}
}
return result;
}
/*
* Search the query's table namespace for a relation item matching the
* given relation OID. Return the nsitem if a unique match, or NULL
* if no match. Raise error if multiple matches.
*
* See the comments for refnameNamespaceItem to understand why this
* acts the way it does.
*/
static ParseNamespaceItem *
scanNameSpaceForRelid(ParseState *pstate, Oid relid, int location)
{
ParseNamespaceItem *result = NULL;
ListCell *l;
foreach(l, pstate->p_namespace)
{
ParseNamespaceItem *nsitem = (ParseNamespaceItem *) lfirst(l);
RangeTblEntry *rte = nsitem->p_rte;
/* Ignore columns-only items */
if (!nsitem->p_rel_visible)
continue;
/* If not inside LATERAL, ignore lateral-only items */
if (nsitem->p_lateral_only && !pstate->p_lateral_active)
continue;
/* yes, the test for alias == NULL should be there... */
if (rte->rtekind == RTE_RELATION &&
rte->relid == relid &&
rte->alias == NULL)
{
if (result)
ereport(ERROR,
(errcode(ERRCODE_AMBIGUOUS_ALIAS),
errmsg("table reference %u is ambiguous",
relid),
parser_errposition(pstate, location)));
check_lateral_ref_ok(pstate, nsitem, location);
result = nsitem;
}
}
return result;
}
/*
* Search the query's CTE namespace for a CTE matching the given unqualified
* refname. Return the CTE (and its levelsup count) if a match, or NULL
* if no match. We need not worry about multiple matches, since parse_cte.c
* rejects WITH lists containing duplicate CTE names.
*/
CommonTableExpr *
scanNameSpaceForCTE(ParseState *pstate, const char *refname,
Index *ctelevelsup)
{
Index levelsup;
for (levelsup = 0;
pstate != NULL;
pstate = pstate->parentParseState, levelsup++)
{
ListCell *lc;
foreach(lc, pstate->p_ctenamespace)
{
CommonTableExpr *cte = (CommonTableExpr *) lfirst(lc);
if (strcmp(cte->ctename, refname) == 0)
{
*ctelevelsup = levelsup;
return cte;
}
}
}
return NULL;
}
/*
* Search for a possible "future CTE", that is one that is not yet in scope
* according to the WITH scoping rules. This has nothing to do with valid
* SQL semantics, but it's important for error reporting purposes.
*/
static bool
isFutureCTE(ParseState *pstate, const char *refname)
{
for (; pstate != NULL; pstate = pstate->parentParseState)
{
ListCell *lc;
foreach(lc, pstate->p_future_ctes)
{
CommonTableExpr *cte = (CommonTableExpr *) lfirst(lc);
if (strcmp(cte->ctename, refname) == 0)
return true;
}
}
return false;
}
/*
* Search the query's ephemeral named relation namespace for a relation
* matching the given unqualified refname.
*/
bool
scanNameSpaceForENR(ParseState *pstate, const char *refname)
{
return name_matches_visible_ENR(pstate, refname);
}
/*
* searchRangeTableForRel
* See if any RangeTblEntry could possibly match the RangeVar.
* If so, return a pointer to the RangeTblEntry; else return NULL.
*
* This is different from refnameNamespaceItem in that it considers every
* entry in the ParseState's rangetable(s), not only those that are currently
* visible in the p_namespace list(s). This behavior is invalid per the SQL
* spec, and it may give ambiguous results (there might be multiple equally
* valid matches, but only one will be returned). This must be used ONLY
* as a heuristic in giving suitable error messages. See errorMissingRTE.
*
* Notice that we consider both matches on actual relation (or CTE) name
* and matches on alias.
*/
static RangeTblEntry *
searchRangeTableForRel(ParseState *pstate, RangeVar *relation)
{
const char *refname = relation->relname;
Oid relId = InvalidOid;
CommonTableExpr *cte = NULL;
bool isenr = false;
Index ctelevelsup = 0;
Index levelsup;
/*
* If it's an unqualified name, check for possible CTE matches. A CTE
* hides any real relation matches. If no CTE, look for a matching
* relation.
*
* NB: It's not critical that RangeVarGetRelid return the correct answer
* here in the face of concurrent DDL. If it doesn't, the worst case
* scenario is a less-clear error message. Also, the tables involved in
* the query are already locked, which reduces the number of cases in
* which surprising behavior can occur. So we do the name lookup
* unlocked.
*/
if (!relation->schemaname)
{
cte = scanNameSpaceForCTE(pstate, refname, &ctelevelsup);
if (!cte)
isenr = scanNameSpaceForENR(pstate, refname);
}
if (!cte && !isenr)
relId = RangeVarGetRelid(relation, NoLock, true);
/* Now look for RTEs matching either the relation/CTE/ENR or the alias */
for (levelsup = 0;
pstate != NULL;
pstate = pstate->parentParseState, levelsup++)
{
ListCell *l;
foreach(l, pstate->p_rtable)
{
RangeTblEntry *rte = (RangeTblEntry *) lfirst(l);
if (rte->rtekind == RTE_RELATION &&
OidIsValid(relId) &&
rte->relid == relId)
return rte;
if (rte->rtekind == RTE_CTE &&
cte != NULL &&
rte->ctelevelsup + levelsup == ctelevelsup &&
strcmp(rte->ctename, refname) == 0)
return rte;
if (rte->rtekind == RTE_NAMEDTUPLESTORE &&
isenr &&
strcmp(rte->enrname, refname) == 0)
return rte;
if (strcmp(rte->eref->aliasname, refname) == 0)
return rte;
}
}
return NULL;
}
/*
* Check for relation-name conflicts between two namespace lists.
* Raise an error if any is found.
*
* Note: we assume that each given argument does not contain conflicts
* itself; we just want to know if the two can be merged together.
*
* Per SQL, two alias-less plain relation RTEs do not conflict even if
* they have the same eref->aliasname (ie, same relation name), if they
* are for different relation OIDs (implying they are in different schemas).
*
* We ignore the lateral-only flags in the namespace items: the lists must
* not conflict, even when all items are considered visible. However,
* columns-only items should be ignored.
*/
void
checkNameSpaceConflicts(ParseState *pstate, List *namespace1,
List *namespace2)
{
ListCell *l1;
foreach(l1, namespace1)
{
ParseNamespaceItem *nsitem1 = (ParseNamespaceItem *) lfirst(l1);
RangeTblEntry *rte1 = nsitem1->p_rte;
const char *aliasname1 = nsitem1->p_names->aliasname;
ListCell *l2;
if (!nsitem1->p_rel_visible)
continue;
foreach(l2, namespace2)
{
ParseNamespaceItem *nsitem2 = (ParseNamespaceItem *) lfirst(l2);
RangeTblEntry *rte2 = nsitem2->p_rte;
const char *aliasname2 = nsitem2->p_names->aliasname;
if (!nsitem2->p_rel_visible)
continue;
if (strcmp(aliasname2, aliasname1) != 0)
continue; /* definitely no conflict */
if (rte1->rtekind == RTE_RELATION && rte1->alias == NULL &&
rte2->rtekind == RTE_RELATION && rte2->alias == NULL &&
rte1->relid != rte2->relid)
continue; /* no conflict per SQL rule */
ereport(ERROR,
(errcode(ERRCODE_DUPLICATE_ALIAS),
errmsg("table name \"%s\" specified more than once",
aliasname1)));
}
}
}
/*
* Complain if a namespace item is currently disallowed as a LATERAL reference.
* This enforces both SQL:2008's rather odd idea of what to do with a LATERAL
* reference to the wrong side of an outer join, and our own prohibition on
* referencing the target table of an UPDATE or DELETE as a lateral reference
* in a FROM/USING clause.
*
* Note: the pstate should be the same query level the nsitem was found in.
*
* Convenience subroutine to avoid multiple copies of a rather ugly ereport.
*/
static void
check_lateral_ref_ok(ParseState *pstate, ParseNamespaceItem *nsitem,
int location)
{
if (nsitem->p_lateral_only && !nsitem->p_lateral_ok)
{
/* SQL:2008 demands this be an error, not an invisible item */
RangeTblEntry *rte = nsitem->p_rte;
char *refname = nsitem->p_names->aliasname;
ereport(ERROR,
(errcode(ERRCODE_INVALID_COLUMN_REFERENCE),
errmsg("invalid reference to FROM-clause entry for table \"%s\"",
refname),
(pstate->p_target_nsitem != NULL &&
rte == pstate->p_target_nsitem->p_rte) ?
errhint("There is an entry for table \"%s\", but it cannot be referenced from this part of the query.",
refname) :
errdetail("The combining JOIN type must be INNER or LEFT for a LATERAL reference."),
parser_errposition(pstate, location)));
}
}
/*
* Given an RT index and nesting depth, find the corresponding
* ParseNamespaceItem (there must be one).
*/
ParseNamespaceItem *
GetNSItemByRangeTablePosn(ParseState *pstate,
int varno,
int sublevels_up)
{
ListCell *lc;
while (sublevels_up-- > 0)
{
pstate = pstate->parentParseState;
Assert(pstate != NULL);
}
foreach(lc, pstate->p_namespace)
{
ParseNamespaceItem *nsitem = (ParseNamespaceItem *) lfirst(lc);
if (nsitem->p_rtindex == varno)
return nsitem;
}
elog(ERROR, "nsitem not found (internal error)");
return NULL; /* keep compiler quiet */
}
/*
* Given an RT index and nesting depth, find the corresponding RTE.
* (Note that the RTE need not be in the query's namespace.)
*/
RangeTblEntry *
GetRTEByRangeTablePosn(ParseState *pstate,
int varno,
int sublevels_up)
{
while (sublevels_up-- > 0)
{
pstate = pstate->parentParseState;
Assert(pstate != NULL);
}
Assert(varno > 0 && varno <= list_length(pstate->p_rtable));
return rt_fetch(varno, pstate->p_rtable);
}
/*
* Fetch the CTE for a CTE-reference RTE.
*
* rtelevelsup is the number of query levels above the given pstate that the
* RTE came from.
*/
CommonTableExpr *
GetCTEForRTE(ParseState *pstate, RangeTblEntry *rte, int rtelevelsup)
{
Index levelsup;
ListCell *lc;
Assert(rte->rtekind == RTE_CTE);
levelsup = rte->ctelevelsup + rtelevelsup;
while (levelsup-- > 0)
{
pstate = pstate->parentParseState;
if (!pstate) /* shouldn't happen */
elog(ERROR, "bad levelsup for CTE \"%s\"", rte->ctename);
}
foreach(lc, pstate->p_ctenamespace)
{
CommonTableExpr *cte = (CommonTableExpr *) lfirst(lc);
if (strcmp(cte->ctename, rte->ctename) == 0)
return cte;
}
/* shouldn't happen */
elog(ERROR, "could not find CTE \"%s\"", rte->ctename);
return NULL; /* keep compiler quiet */
}
/*
* updateFuzzyAttrMatchState
* Using Levenshtein distance, consider if column is best fuzzy match.
*/
static void
updateFuzzyAttrMatchState(int fuzzy_rte_penalty,
FuzzyAttrMatchState *fuzzystate, RangeTblEntry *rte,
const char *actual, const char *match, int attnum)
{
int columndistance;
int matchlen;
/* Bail before computing the Levenshtein distance if there's no hope. */
if (fuzzy_rte_penalty > fuzzystate->distance)
return;
/*
* Outright reject dropped columns, which can appear here with apparent
* empty actual names, per remarks within scanRTEForColumn().
*/
if (actual[0] == '\0')
return;
/* Use Levenshtein to compute match distance. */
matchlen = strlen(match);
columndistance =
varstr_levenshtein_less_equal(actual, strlen(actual), match, matchlen,
1, 1, 1,
fuzzystate->distance + 1
- fuzzy_rte_penalty,
true);
/*
* If more than half the characters are different, don't treat it as a
* match, to avoid making ridiculous suggestions.
*/
if (columndistance > matchlen / 2)
return;
/*
* From this point on, we can ignore the distinction between the RTE-name
* distance and the column-name distance.
*/
columndistance += fuzzy_rte_penalty;
/*
* If the new distance is less than or equal to that of the best match
* found so far, update fuzzystate.
*/
if (columndistance < fuzzystate->distance)
{
/* Store new lowest observed distance as first/only match */
fuzzystate->distance = columndistance;
fuzzystate->rfirst = rte;
fuzzystate->first = attnum;
fuzzystate->rsecond = NULL;
}
else if (columndistance == fuzzystate->distance)
{
/* If we already have a match of this distance, update state */
if (fuzzystate->rsecond != NULL)
{
/*
* Too many matches at same distance. Clearly, this value of
* distance is too low a bar, so drop these entries while keeping
* the current distance value, so that only smaller distances will
* be considered interesting. Only if we find something of lower
* distance will we re-populate rfirst (via the stanza above).
*/
fuzzystate->rfirst = NULL;
fuzzystate->rsecond = NULL;
}
else if (fuzzystate->rfirst != NULL)
{
/* Record as provisional second match */
fuzzystate->rsecond = rte;
fuzzystate->second = attnum;
}
else
{
/*
* Do nothing. When rfirst is NULL, distance is more than what we
* want to consider acceptable, so we should ignore this match.
*/
}
}
}
/*
* scanNSItemForColumn
* Search the column names of a single namespace item for the given name.
* If found, return an appropriate Var node, else return NULL.
* If the name proves ambiguous within this nsitem, raise error.
*
* Side effect: if we find a match, mark the corresponding RTE as requiring
* read access for the column.
*/
Node *
scanNSItemForColumn(ParseState *pstate, ParseNamespaceItem *nsitem,
int sublevels_up, const char *colname, int location)
{
RangeTblEntry *rte = nsitem->p_rte;
int attnum;
Var *var;
/*
* Scan the nsitem's column names (or aliases) for a match. Complain if
* multiple matches.
*/
attnum = scanRTEForColumn(pstate, rte, nsitem->p_names,
colname, location,
0, NULL);
if (attnum == InvalidAttrNumber)
return NULL; /* Return NULL if no match */
/* In constraint check, no system column is allowed except tableOid */
if (pstate->p_expr_kind == EXPR_KIND_CHECK_CONSTRAINT &&
attnum < InvalidAttrNumber && attnum != TableOidAttributeNumber)
ereport(ERROR,
(errcode(ERRCODE_INVALID_COLUMN_REFERENCE),
errmsg("system column \"%s\" reference in check constraint is invalid",
colname),
parser_errposition(pstate, location)));
/* In generated column, no system column is allowed except tableOid */
if (pstate->p_expr_kind == EXPR_KIND_GENERATED_COLUMN &&
attnum < InvalidAttrNumber && attnum != TableOidAttributeNumber)
ereport(ERROR,
(errcode(ERRCODE_INVALID_COLUMN_REFERENCE),
errmsg("cannot use system column \"%s\" in column generation expression",
colname),
parser_errposition(pstate, location)));
/*
* In a MERGE WHEN condition, no system column is allowed except tableOid
*/
if (pstate->p_expr_kind == EXPR_KIND_MERGE_WHEN &&
attnum < InvalidAttrNumber && attnum != TableOidAttributeNumber)
ereport(ERROR,
(errcode(ERRCODE_INVALID_COLUMN_REFERENCE),
errmsg("cannot use system column \"%s\" in MERGE WHEN condition",
colname),
parser_errposition(pstate, location)));
/* Found a valid match, so build a Var */
if (attnum > InvalidAttrNumber)
{
/* Get attribute data from the ParseNamespaceColumn array */
ParseNamespaceColumn *nscol = &nsitem->p_nscolumns[attnum - 1];
/* Complain if dropped column. See notes in scanRTEForColumn. */
if (nscol->p_varno == 0)
ereport(ERROR,
(errcode(ERRCODE_UNDEFINED_COLUMN),
errmsg("column \"%s\" of relation \"%s\" does not exist",
colname,
nsitem->p_names->aliasname)));
var = makeVar(nscol->p_varno,
nscol->p_varattno,
nscol->p_vartype,
nscol->p_vartypmod,
nscol->p_varcollid,
sublevels_up);
/* makeVar doesn't offer parameters for these, so set them by hand: */
var->varnosyn = nscol->p_varnosyn;
var->varattnosyn = nscol->p_varattnosyn;
}
else
{
/* System column, so use predetermined type data */
const FormData_pg_attribute *sysatt;
sysatt = SystemAttributeDefinition(attnum);
var = makeVar(nsitem->p_rtindex,
attnum,
sysatt->atttypid,
sysatt->atttypmod,
sysatt->attcollation,
sublevels_up);
}
var->location = location;
/* Require read access to the column */
markVarForSelectPriv(pstate, var);
return (Node *) var;
}
/*
* scanRTEForColumn
* Search the column names of a single RTE for the given name.
* If found, return the attnum (possibly negative, for a system column);
* else return InvalidAttrNumber.
* If the name proves ambiguous within this RTE, raise error.
*
* Actually, we only search the names listed in "eref". This can be either
* rte->eref, in which case we are indeed searching all the column names,
* or for a join it can be rte->join_using_alias, in which case we are only
* considering the common column names (which are the first N columns of the
* join, so everything works).
*
* pstate and location are passed only for error-reporting purposes.
*
* Side effect: if fuzzystate is non-NULL, check non-system columns
* for an approximate match and update fuzzystate accordingly.
*
* Note: this is factored out of scanNSItemForColumn because error message
* creation may want to check RTEs that are not in the namespace. To support
* that usage, minimize the number of validity checks performed here. It's
* okay to complain about ambiguous-name cases, though, since if we are
* working to complain about an invalid name, we've already eliminated that.
*/
static int
scanRTEForColumn(ParseState *pstate, RangeTblEntry *rte,
Alias *eref,
const char *colname, int location,
int fuzzy_rte_penalty,
FuzzyAttrMatchState *fuzzystate)
{
int result = InvalidAttrNumber;
int attnum = 0;
ListCell *c;
/*
* Scan the user column names (or aliases) for a match. Complain if
* multiple matches.
*
* Note: eref->colnames may include entries for dropped columns, but those
* will be empty strings that cannot match any legal SQL identifier, so we
* don't bother to test for that case here.
*
* Should this somehow go wrong and we try to access a dropped column,
* we'll still catch it by virtue of the check in scanNSItemForColumn().
* Callers interested in finding match with shortest distance need to
* defend against this directly, though.
*/
foreach(c, eref->colnames)
{
const char *attcolname = strVal(lfirst(c));
attnum++;
if (strcmp(attcolname, colname) == 0)
{
if (result)
ereport(ERROR,
(errcode(ERRCODE_AMBIGUOUS_COLUMN),
errmsg("column reference \"%s\" is ambiguous",
colname),
parser_errposition(pstate, location)));
result = attnum;
}
/* Update fuzzy match state, if provided. */
if (fuzzystate != NULL)
updateFuzzyAttrMatchState(fuzzy_rte_penalty, fuzzystate,
rte, attcolname, colname, attnum);
}
/*
* If we have a unique match, return it. Note that this allows a user
* alias to override a system column name (such as OID) without error.
*/
if (result)
return result;
/*
* If the RTE represents a real relation, consider system column names.
* Composites are only used for pseudo-relations like ON CONFLICT's
* excluded.
*/
if (rte->rtekind == RTE_RELATION &&
rte->relkind != RELKIND_COMPOSITE_TYPE)
{
/* quick check to see if name could be a system column */
attnum = specialAttNum(colname);
if (attnum != InvalidAttrNumber)
{
/* now check to see if column actually is defined */
if (SearchSysCacheExists2(ATTNUM,
ObjectIdGetDatum(rte->relid),
Int16GetDatum(attnum)))
result = attnum;
}
}
return result;
}
/*
* colNameToVar
* Search for an unqualified column name.
* If found, return the appropriate Var node (or expression).
* If not found, return NULL. If the name proves ambiguous, raise error.
* If localonly is true, only names in the innermost query are considered.
*/
Node *
colNameToVar(ParseState *pstate, const char *colname, bool localonly,
int location)
{
Node *result = NULL;
int sublevels_up = 0;
ParseState *orig_pstate = pstate;
while (pstate != NULL)
{
ListCell *l;
foreach(l, pstate->p_namespace)
{
ParseNamespaceItem *nsitem = (ParseNamespaceItem *) lfirst(l);
Node *newresult;
/* Ignore table-only items */
if (!nsitem->p_cols_visible)
continue;
/* If not inside LATERAL, ignore lateral-only items */
if (nsitem->p_lateral_only && !pstate->p_lateral_active)
continue;
/* use orig_pstate here for consistency with other callers */
newresult = scanNSItemForColumn(orig_pstate, nsitem, sublevels_up,
colname, location);
if (newresult)
{
if (result)
ereport(ERROR,
(errcode(ERRCODE_AMBIGUOUS_COLUMN),
errmsg("column reference \"%s\" is ambiguous",
colname),
parser_errposition(pstate, location)));
check_lateral_ref_ok(pstate, nsitem, location);
result = newresult;
}
}
if (result != NULL || localonly)
break; /* found, or don't want to look at parent */
pstate = pstate->parentParseState;
sublevels_up++;
}
return result;
}
/*
* searchRangeTableForCol
* See if any RangeTblEntry could possibly provide the given column name (or
* find the best match available). Returns state with relevant details.
*
* This is different from colNameToVar in that it considers every entry in
* the ParseState's rangetable(s), not only those that are currently visible
* in the p_namespace list(s). This behavior is invalid per the SQL spec,
* and it may give ambiguous results (since there might be multiple equally
* valid matches). This must be used ONLY as a heuristic in giving suitable
* error messages. See errorMissingColumn.
*
* This function is also different in that it will consider approximate
* matches -- if the user entered an alias/column pair that is only slightly
* different from a valid pair, we may be able to infer what they meant to
* type and provide a reasonable hint. We return a FuzzyAttrMatchState
* struct providing information about both exact and approximate matches.
*/
static FuzzyAttrMatchState *
searchRangeTableForCol(ParseState *pstate, const char *alias, const char *colname,
int location)
{
ParseState *orig_pstate = pstate;
FuzzyAttrMatchState *fuzzystate = palloc(sizeof(FuzzyAttrMatchState));
fuzzystate->distance = MAX_FUZZY_DISTANCE + 1;
fuzzystate->rfirst = NULL;
fuzzystate->rsecond = NULL;
fuzzystate->rexact1 = NULL;
fuzzystate->rexact2 = NULL;
while (pstate != NULL)
{
ListCell *l;
foreach(l, pstate->p_rtable)
{
RangeTblEntry *rte = (RangeTblEntry *) lfirst(l);
int fuzzy_rte_penalty = 0;
int attnum;
/*
* Typically, it is not useful to look for matches within join
* RTEs; they effectively duplicate other RTEs for our purposes,
* and if a match is chosen from a join RTE, an unhelpful alias is
* displayed in the final diagnostic message.
*/
if (rte->rtekind == RTE_JOIN)
continue;
/*
* If the user didn't specify an alias, then matches against one
* RTE are as good as another. But if the user did specify an
* alias, then we want at least a fuzzy - and preferably an exact
* - match for the range table entry.
*/
if (alias != NULL)
fuzzy_rte_penalty =
varstr_levenshtein_less_equal(alias, strlen(alias),
rte->eref->aliasname,
strlen(rte->eref->aliasname),
1, 1, 1,
MAX_FUZZY_DISTANCE + 1,
true);
/*
* Scan for a matching column, and update fuzzystate. Non-exact
* matches are dealt with inside scanRTEForColumn, but exact
* matches are handled here. (There won't be more than one exact
* match in the same RTE, else we'd have thrown error earlier.)
*/
attnum = scanRTEForColumn(orig_pstate, rte, rte->eref,
colname, location,
fuzzy_rte_penalty, fuzzystate);
if (attnum != InvalidAttrNumber && fuzzy_rte_penalty == 0)
{
if (fuzzystate->rexact1 == NULL)
{
fuzzystate->rexact1 = rte;
fuzzystate->exact1 = attnum;
}
else
{
/* Needn't worry about overwriting previous rexact2 */
fuzzystate->rexact2 = rte;
fuzzystate->exact2 = attnum;
}
}
}
pstate = pstate->parentParseState;
}
return fuzzystate;
}
/*
* markRTEForSelectPriv
* Mark the specified column of the RTE with index rtindex
* as requiring SELECT privilege
*
* col == InvalidAttrNumber means a "whole row" reference
*/
static void
markRTEForSelectPriv(ParseState *pstate, int rtindex, AttrNumber col)
{
RangeTblEntry *rte = rt_fetch(rtindex, pstate->p_rtable);
if (rte->rtekind == RTE_RELATION)
{
/* Make sure the rel as a whole is marked for SELECT access */
rte->requiredPerms |= ACL_SELECT;
/* Must offset the attnum to fit in a bitmapset */
rte->selectedCols = bms_add_member(rte->selectedCols,
col - FirstLowInvalidHeapAttributeNumber);
}
else if (rte->rtekind == RTE_JOIN)
{
if (col == InvalidAttrNumber)
{
/*
* A whole-row reference to a join has to be treated as whole-row
* references to the two inputs.
*/
JoinExpr *j;
if (rtindex > 0 && rtindex <= list_length(pstate->p_joinexprs))
j = list_nth_node(JoinExpr, pstate->p_joinexprs, rtindex - 1);
else
j = NULL;
if (j == NULL)
elog(ERROR, "could not find JoinExpr for whole-row reference");
/* Note: we can't see FromExpr here */
if (IsA(j->larg, RangeTblRef))
{
int varno = ((RangeTblRef *) j->larg)->rtindex;
markRTEForSelectPriv(pstate, varno, InvalidAttrNumber);
}
else if (IsA(j->larg, JoinExpr))
{
int varno = ((JoinExpr *) j->larg)->rtindex;
markRTEForSelectPriv(pstate, varno, InvalidAttrNumber);
}
else
elog(ERROR, "unrecognized node type: %d",
(int) nodeTag(j->larg));
if (IsA(j->rarg, RangeTblRef))
{
int varno = ((RangeTblRef *) j->rarg)->rtindex;
markRTEForSelectPriv(pstate, varno, InvalidAttrNumber);
}
else if (IsA(j->rarg, JoinExpr))
{
int varno = ((JoinExpr *) j->rarg)->rtindex;
markRTEForSelectPriv(pstate, varno, InvalidAttrNumber);
}
else
elog(ERROR, "unrecognized node type: %d",
(int) nodeTag(j->rarg));
}
else
{
/*
* Join alias Vars for ordinary columns must refer to merged JOIN
* USING columns. We don't need to do anything here, because the
* join input columns will also be referenced in the join's qual
* clause, and will get marked for select privilege there.
*/
}
}
/* other RTE types don't require privilege marking */
}
/*
* markVarForSelectPriv
* Mark the RTE referenced by the Var as requiring SELECT privilege
* for the Var's column (the Var could be a whole-row Var, too)
*/
void
markVarForSelectPriv(ParseState *pstate, Var *var)
{
Index lv;
Assert(IsA(var, Var));
/* Find the appropriate pstate if it's an uplevel Var */
for (lv = 0; lv < var->varlevelsup; lv++)
pstate = pstate->parentParseState;
markRTEForSelectPriv(pstate, var->varno, var->varattno);
}
/*
* buildRelationAliases
* Construct the eref column name list for a relation RTE.
* This code is also used for function RTEs.
*
* tupdesc: the physical column information
* alias: the user-supplied alias, or NULL if none
* eref: the eref Alias to store column names in
*
* eref->colnames is filled in. Also, alias->colnames is rebuilt to insert
* empty strings for any dropped columns, so that it will be one-to-one with
* physical column numbers.
*
* It is an error for there to be more aliases present than required.
*/
static void
buildRelationAliases(TupleDesc tupdesc, Alias *alias, Alias *eref)
{
int maxattrs = tupdesc->natts;
List *aliaslist;
ListCell *aliaslc;
int numaliases;
int varattno;
int numdropped = 0;
Assert(eref->colnames == NIL);
if (alias)
{
aliaslist = alias->colnames;
aliaslc = list_head(aliaslist);
numaliases = list_length(aliaslist);
/* We'll rebuild the alias colname list */
alias->colnames = NIL;
}
else
{
aliaslist = NIL;
aliaslc = NULL;
numaliases = 0;
}
for (varattno = 0; varattno < maxattrs; varattno++)
{
Form_pg_attribute attr = TupleDescAttr(tupdesc, varattno);
String *attrname;
if (attr->attisdropped)
{
/* Always insert an empty string for a dropped column */
attrname = makeString(pstrdup(""));
if (aliaslc)
alias->colnames = lappend(alias->colnames, attrname);
numdropped++;
}
else if (aliaslc)
{
/* Use the next user-supplied alias */
attrname = lfirst_node(String, aliaslc);
aliaslc = lnext(aliaslist, aliaslc);
alias->colnames = lappend(alias->colnames, attrname);
}
else
{
attrname = makeString(pstrdup(NameStr(attr->attname)));
/* we're done with the alias if any */
}
eref->colnames = lappend(eref->colnames, attrname);
}
/* Too many user-supplied aliases? */
if (aliaslc)
ereport(ERROR,
(errcode(ERRCODE_INVALID_COLUMN_REFERENCE),
errmsg("table \"%s\" has %d columns available but %d columns specified",
eref->aliasname, maxattrs - numdropped, numaliases)));
}
/*
* chooseScalarFunctionAlias
* Select the column alias for a function in a function RTE,
* when the function returns a scalar type (not composite or RECORD).
*
* funcexpr: transformed expression tree for the function call
* funcname: function name (as determined by FigureColname)
* alias: the user-supplied alias for the RTE, or NULL if none
* nfuncs: the number of functions appearing in the function RTE
*
* Note that the name we choose might be overridden later, if the user-given
* alias includes column alias names. That's of no concern here.
*/
static char *
chooseScalarFunctionAlias(Node *funcexpr, char *funcname,
Alias *alias, int nfuncs)
{
char *pname;
/*
* If the expression is a simple function call, and the function has a
* single OUT parameter that is named, use the parameter's name.
*/
if (funcexpr && IsA(funcexpr, FuncExpr))
{
pname = get_func_result_name(((FuncExpr *) funcexpr)->funcid);
if (pname)
return pname;
}
/*
* If there's just one function in the RTE, and the user gave an RTE alias
* name, use that name. (This makes FROM func() AS foo use "foo" as the
* column name as well as the table alias.)
*/
if (nfuncs == 1 && alias)
return alias->aliasname;
/*
* Otherwise use the function name.
*/
return funcname;
}
/*
* buildNSItemFromTupleDesc
* Build a ParseNamespaceItem, given a tupdesc describing the columns.
*
* rte: the new RangeTblEntry for the rel
* rtindex: its index in the rangetable list
* tupdesc: the physical column information
*/
static ParseNamespaceItem *
buildNSItemFromTupleDesc(RangeTblEntry *rte, Index rtindex, TupleDesc tupdesc)
{
ParseNamespaceItem *nsitem;
ParseNamespaceColumn *nscolumns;
int maxattrs = tupdesc->natts;
int varattno;
/* colnames must have the same number of entries as the nsitem */
Assert(maxattrs == list_length(rte->eref->colnames));
/* extract per-column data from the tupdesc */
nscolumns = (ParseNamespaceColumn *)
palloc0(maxattrs * sizeof(ParseNamespaceColumn));
for (varattno = 0; varattno < maxattrs; varattno++)
{
Form_pg_attribute attr = TupleDescAttr(tupdesc, varattno);
/* For a dropped column, just leave the entry as zeroes */
if (attr->attisdropped)
continue;
nscolumns[varattno].p_varno = rtindex;
nscolumns[varattno].p_varattno = varattno + 1;
nscolumns[varattno].p_vartype = attr->atttypid;
nscolumns[varattno].p_vartypmod = attr->atttypmod;
nscolumns[varattno].p_varcollid = attr->attcollation;
nscolumns[varattno].p_varnosyn = rtindex;
nscolumns[varattno].p_varattnosyn = varattno + 1;
}
/* ... and build the nsitem */
nsitem = (ParseNamespaceItem *) palloc(sizeof(ParseNamespaceItem));
nsitem->p_names = rte->eref;
nsitem->p_rte = rte;
nsitem->p_rtindex = rtindex;
nsitem->p_nscolumns = nscolumns;
/* set default visibility flags; might get changed later */
nsitem->p_rel_visible = true;
nsitem->p_cols_visible = true;
nsitem->p_lateral_only = false;
nsitem->p_lateral_ok = true;
return nsitem;
}
/*
* buildNSItemFromLists
* Build a ParseNamespaceItem, given column type information in lists.
*
* rte: the new RangeTblEntry for the rel
* rtindex: its index in the rangetable list
* coltypes: per-column datatype OIDs
* coltypmods: per-column type modifiers
* colcollation: per-column collation OIDs
*/
static ParseNamespaceItem *
buildNSItemFromLists(RangeTblEntry *rte, Index rtindex,
List *coltypes, List *coltypmods, List *colcollations)
{
ParseNamespaceItem *nsitem;
ParseNamespaceColumn *nscolumns;
int maxattrs = list_length(coltypes);
int varattno;
ListCell *lct;
ListCell *lcm;
ListCell *lcc;
/* colnames must have the same number of entries as the nsitem */
Assert(maxattrs == list_length(rte->eref->colnames));
Assert(maxattrs == list_length(coltypmods));
Assert(maxattrs == list_length(colcollations));
/* extract per-column data from the lists */
nscolumns = (ParseNamespaceColumn *)
palloc0(maxattrs * sizeof(ParseNamespaceColumn));
varattno = 0;
forthree(lct, coltypes,
lcm, coltypmods,
lcc, colcollations)
{
nscolumns[varattno].p_varno = rtindex;
nscolumns[varattno].p_varattno = varattno + 1;
nscolumns[varattno].p_vartype = lfirst_oid(lct);
nscolumns[varattno].p_vartypmod = lfirst_int(lcm);
nscolumns[varattno].p_varcollid = lfirst_oid(lcc);
nscolumns[varattno].p_varnosyn = rtindex;
nscolumns[varattno].p_varattnosyn = varattno + 1;
varattno++;
}
/* ... and build the nsitem */
nsitem = (ParseNamespaceItem *) palloc(sizeof(ParseNamespaceItem));
nsitem->p_names = rte->eref;
nsitem->p_rte = rte;
nsitem->p_rtindex = rtindex;
nsitem->p_nscolumns = nscolumns;
/* set default visibility flags; might get changed later */
nsitem->p_rel_visible = true;
nsitem->p_cols_visible = true;
nsitem->p_lateral_only = false;
nsitem->p_lateral_ok = true;
return nsitem;
}
/*
* Open a table during parse analysis
*
* This is essentially just the same as table_openrv(), except that it caters
* to some parser-specific error reporting needs, notably that it arranges
* to include the RangeVar's parse location in any resulting error.
*
* Note: properly, lockmode should be declared LOCKMODE not int, but that
* would require importing storage/lock.h into parse_relation.h. Since
* LOCKMODE is typedef'd as int anyway, that seems like overkill.
*/
Relation
parserOpenTable(ParseState *pstate, const RangeVar *relation, int lockmode)
{
Relation rel;
ParseCallbackState pcbstate;
setup_parser_errposition_callback(&pcbstate, pstate, relation->location);
rel = table_openrv_extended(relation, lockmode, true);
if (rel == NULL)
{
if (relation->schemaname)
ereport(ERROR,
(errcode(ERRCODE_UNDEFINED_TABLE),
errmsg("relation \"%s.%s\" does not exist",
relation->schemaname, relation->relname)));
else
{
/*
* An unqualified name might have been meant as a reference to
* some not-yet-in-scope CTE. The bare "does not exist" message
* has proven remarkably unhelpful for figuring out such problems,
* so we take pains to offer a specific hint.
*/
if (isFutureCTE(pstate, relation->relname))
ereport(ERROR,
(errcode(ERRCODE_UNDEFINED_TABLE),
errmsg("relation \"%s\" does not exist",
relation->relname),
errdetail("There is a WITH item named \"%s\", but it cannot be referenced from this part of the query.",
relation->relname),
errhint("Use WITH RECURSIVE, or re-order the WITH items to remove forward references.")));
else
ereport(ERROR,
(errcode(ERRCODE_UNDEFINED_TABLE),
errmsg("relation \"%s\" does not exist",
relation->relname)));
}
}
cancel_parser_errposition_callback(&pcbstate);
return rel;
}
/*
* Add an entry for a relation to the pstate's range table (p_rtable).
* Then, construct and return a ParseNamespaceItem for the new RTE.
*
* We do not link the ParseNamespaceItem into the pstate here; it's the
* caller's job to do that in the appropriate way.
*
* Note: formerly this checked for refname conflicts, but that's wrong.
* Caller is responsible for checking for conflicts in the appropriate scope.
*/
ParseNamespaceItem *
addRangeTableEntry(ParseState *pstate,
RangeVar *relation,
Alias *alias,
bool inh,
bool inFromCl)
{
RangeTblEntry *rte = makeNode(RangeTblEntry);
char *refname = alias ? alias->aliasname : relation->relname;
LOCKMODE lockmode;
Relation rel;
ParseNamespaceItem *nsitem;
Assert(pstate != NULL);
rte->rtekind = RTE_RELATION;
rte->alias = alias;
/*
* Identify the type of lock we'll need on this relation. It's not the
* query's target table (that case is handled elsewhere), so we need
* either RowShareLock if it's locked by FOR UPDATE/SHARE, or plain
* AccessShareLock otherwise.
*/
lockmode = isLockedRefname(pstate, refname) ? RowShareLock : AccessShareLock;
/*
* Get the rel's OID. This access also ensures that we have an up-to-date
* relcache entry for the rel. Since this is typically the first access
* to a rel in a statement, we must open the rel with the proper lockmode.
*/
rel = parserOpenTable(pstate, relation, lockmode);
rte->relid = RelationGetRelid(rel);
rte->relkind = rel->rd_rel->relkind;
rte->rellockmode = lockmode;
/*
* Build the list of effective column names using user-supplied aliases
* and/or actual column names.
*/
rte->eref = makeAlias(refname, NIL);
buildRelationAliases(rel->rd_att, alias, rte->eref);
/*
* Set flags and access permissions.
*
* The initial default on access checks is always check-for-READ-access,
* which is the right thing for all except target tables.
*/
rte->lateral = false;
rte->inh = inh;
rte->inFromCl = inFromCl;
rte->requiredPerms = ACL_SELECT;
rte->checkAsUser = InvalidOid; /* not set-uid by default, either */
rte->selectedCols = NULL;
rte->insertedCols = NULL;
rte->updatedCols = NULL;
rte->extraUpdatedCols = NULL;
/*
* Add completed RTE to pstate's range table list, so that we know its
* index. But we don't add it to the join list --- caller must do that if
* appropriate.
*/
pstate->p_rtable = lappend(pstate->p_rtable, rte);
/*
* Build a ParseNamespaceItem, but don't add it to the pstate's namespace
* list --- caller must do that if appropriate.
*/
nsitem = buildNSItemFromTupleDesc(rte, list_length(pstate->p_rtable),
rel->rd_att);
/*
* Drop the rel refcount, but keep the access lock till end of transaction
* so that the table can't be deleted or have its schema modified
* underneath us.
*/
table_close(rel, NoLock);
return nsitem;
}
/*
* Add an entry for a relation to the pstate's range table (p_rtable).
* Then, construct and return a ParseNamespaceItem for the new RTE.
*
* This is just like addRangeTableEntry() except that it makes an RTE
* given an already-open relation instead of a RangeVar reference.
*
* lockmode is the lock type required for query execution; it must be one
* of AccessShareLock, RowShareLock, or RowExclusiveLock depending on the
* RTE's role within the query. The caller must hold that lock mode
* or a stronger one.
*
* Note: properly, lockmode should be declared LOCKMODE not int, but that
* would require importing storage/lock.h into parse_relation.h. Since
* LOCKMODE is typedef'd as int anyway, that seems like overkill.
*/
ParseNamespaceItem *
addRangeTableEntryForRelation(ParseState *pstate,
Relation rel,
int lockmode,
Alias *alias,
bool inh,
bool inFromCl)
{
RangeTblEntry *rte = makeNode(RangeTblEntry);
char *refname = alias ? alias->aliasname : RelationGetRelationName(rel);
Assert(pstate != NULL);
Assert(lockmode == AccessShareLock ||
lockmode == RowShareLock ||
lockmode == RowExclusiveLock);
Assert(CheckRelationLockedByMe(rel, lockmode, true));
rte->rtekind = RTE_RELATION;
rte->alias = alias;
rte->relid = RelationGetRelid(rel);
rte->relkind = rel->rd_rel->relkind;
rte->rellockmode = lockmode;
/*
* Build the list of effective column names using user-supplied aliases
* and/or actual column names.
*/
rte->eref = makeAlias(refname, NIL);
buildRelationAliases(rel->rd_att, alias, rte->eref);
/*
* Set flags and access permissions.
*
* The initial default on access checks is always check-for-READ-access,
* which is the right thing for all except target tables.
*/
rte->lateral = false;
rte->inh = inh;
rte->inFromCl = inFromCl;
rte->requiredPerms = ACL_SELECT;
rte->checkAsUser = InvalidOid; /* not set-uid by default, either */
rte->selectedCols = NULL;
rte->insertedCols = NULL;
rte->updatedCols = NULL;
rte->extraUpdatedCols = NULL;
/*
* Add completed RTE to pstate's range table list, so that we know its
* index. But we don't add it to the join list --- caller must do that if
* appropriate.
*/
pstate->p_rtable = lappend(pstate->p_rtable, rte);
/*
* Build a ParseNamespaceItem, but don't add it to the pstate's namespace
* list --- caller must do that if appropriate.
*/
return buildNSItemFromTupleDesc(rte, list_length(pstate->p_rtable),
rel->rd_att);
}
/*
* Add an entry for a subquery to the pstate's range table (p_rtable).
* Then, construct and return a ParseNamespaceItem for the new RTE.
*
* This is much like addRangeTableEntry() except that it makes a subquery RTE.
*
* If the subquery does not have an alias, the auto-generated relation name in
* the returned ParseNamespaceItem will be marked as not visible, and so only
* unqualified references to the subquery columns will be allowed, and the
* relation name will not conflict with others in the pstate's namespace list.
*/
ParseNamespaceItem *
addRangeTableEntryForSubquery(ParseState *pstate,
Query *subquery,
Alias *alias,
bool lateral,
bool inFromCl)
{
RangeTblEntry *rte = makeNode(RangeTblEntry);
Alias *eref;
int numaliases;
List *coltypes,
*coltypmods,
*colcollations;
int varattno;
ListCell *tlistitem;
ParseNamespaceItem *nsitem;
Assert(pstate != NULL);
rte->rtekind = RTE_SUBQUERY;
rte->subquery = subquery;
rte->alias = alias;
eref = alias ? copyObject(alias) : makeAlias("unnamed_subquery", NIL);
numaliases = list_length(eref->colnames);
/* fill in any unspecified alias columns, and extract column type info */
coltypes = coltypmods = colcollations = NIL;
varattno = 0;
foreach(tlistitem, subquery->targetList)
{
TargetEntry *te = (TargetEntry *) lfirst(tlistitem);
if (te->resjunk)
continue;
varattno++;
Assert(varattno == te->resno);
if (varattno > numaliases)
{
char *attrname;
attrname = pstrdup(te->resname);
eref->colnames = lappend(eref->colnames, makeString(attrname));
}
coltypes = lappend_oid(coltypes,
exprType((Node *) te->expr));
coltypmods = lappend_int(coltypmods,
exprTypmod((Node *) te->expr));
colcollations = lappend_oid(colcollations,
exprCollation((Node *) te->expr));
}
if (varattno < numaliases)
ereport(ERROR,
(errcode(ERRCODE_INVALID_COLUMN_REFERENCE),
errmsg("table \"%s\" has %d columns available but %d columns specified",
eref->aliasname, varattno, numaliases)));
rte->eref = eref;
/*
* Set flags and access permissions.
*
* Subqueries are never checked for access rights.
*/
rte->lateral = lateral;
rte->inh = false; /* never true for subqueries */
rte->inFromCl = inFromCl;
rte->requiredPerms = 0;
rte->checkAsUser = InvalidOid;
rte->selectedCols = NULL;
rte->insertedCols = NULL;
rte->updatedCols = NULL;
rte->extraUpdatedCols = NULL;
/*
* Add completed RTE to pstate's range table list, so that we know its
* index. But we don't add it to the join list --- caller must do that if
* appropriate.
*/
pstate->p_rtable = lappend(pstate->p_rtable, rte);
/*
* Build a ParseNamespaceItem, but don't add it to the pstate's namespace
* list --- caller must do that if appropriate.
*/
nsitem = buildNSItemFromLists(rte, list_length(pstate->p_rtable),
coltypes, coltypmods, colcollations);
/*
* Mark it visible as a relation name only if it had a user-written alias.
*/
nsitem->p_rel_visible = (alias != NULL);
return nsitem;
}
/*
* Add an entry for a function (or functions) to the pstate's range table
* (p_rtable). Then, construct and return a ParseNamespaceItem for the new RTE.
*
* This is much like addRangeTableEntry() except that it makes a function RTE.
*/
ParseNamespaceItem *
addRangeTableEntryForFunction(ParseState *pstate,
List *funcnames,
List *funcexprs,
List *coldeflists,
RangeFunction *rangefunc,
bool lateral,
bool inFromCl)
{
RangeTblEntry *rte = makeNode(RangeTblEntry);
Alias *alias = rangefunc->alias;
Alias *eref;
char *aliasname;
int nfuncs = list_length(funcexprs);
TupleDesc *functupdescs;
TupleDesc tupdesc;
ListCell *lc1,
*lc2,
*lc3;
int i;
int j;
int funcno;
int natts,
totalatts;
Assert(pstate != NULL);
rte->rtekind = RTE_FUNCTION;
rte->relid = InvalidOid;
rte->subquery = NULL;
rte->functions = NIL; /* we'll fill this list below */
rte->funcordinality = rangefunc->ordinality;
rte->alias = alias;
/*
* Choose the RTE alias name. We default to using the first function's
* name even when there's more than one; which is maybe arguable but beats
* using something constant like "table".
*/
if (alias)
aliasname = alias->aliasname;
else
aliasname = linitial(funcnames);
eref = makeAlias(aliasname, NIL);
rte->eref = eref;
/* Process each function ... */
functupdescs = (TupleDesc *) palloc(nfuncs * sizeof(TupleDesc));
totalatts = 0;
funcno = 0;
forthree(lc1, funcexprs, lc2, funcnames, lc3, coldeflists)
{
Node *funcexpr = (Node *) lfirst(lc1);
char *funcname = (char *) lfirst(lc2);
List *coldeflist = (List *) lfirst(lc3);
RangeTblFunction *rtfunc = makeNode(RangeTblFunction);
TypeFuncClass functypclass;
Oid funcrettype;
/* Initialize RangeTblFunction node */
rtfunc->funcexpr = funcexpr;
rtfunc->funccolnames = NIL;
rtfunc->funccoltypes = NIL;
rtfunc->funccoltypmods = NIL;
rtfunc->funccolcollations = NIL;
rtfunc->funcparams = NULL; /* not set until planning */
/*
* Now determine if the function returns a simple or composite type.
*/
functypclass = get_expr_result_type(funcexpr,
&funcrettype,
&tupdesc);
/*
* A coldeflist is required if the function returns RECORD and hasn't
* got a predetermined record type, and is prohibited otherwise. This
* can be a bit confusing, so we expend some effort on delivering a
* relevant error message.
*/
if (coldeflist != NIL)
{
switch (functypclass)
{
case TYPEFUNC_RECORD:
/* ok */
break;
case TYPEFUNC_COMPOSITE:
case TYPEFUNC_COMPOSITE_DOMAIN:
/*
* If the function's raw result type is RECORD, we must
* have resolved it using its OUT parameters. Otherwise,
* it must have a named composite type.
*/
if (exprType(funcexpr) == RECORDOID)
ereport(ERROR,
(errcode(ERRCODE_SYNTAX_ERROR),
errmsg("a column definition list is redundant for a function with OUT parameters"),
parser_errposition(pstate,
exprLocation((Node *) coldeflist))));
else
ereport(ERROR,
(errcode(ERRCODE_SYNTAX_ERROR),
errmsg("a column definition list is redundant for a function returning a named composite type"),
parser_errposition(pstate,
exprLocation((Node *) coldeflist))));
break;
default:
ereport(ERROR,
(errcode(ERRCODE_SYNTAX_ERROR),
errmsg("a column definition list is only allowed for functions returning \"record\""),
parser_errposition(pstate,
exprLocation((Node *) coldeflist))));
break;
}
}
else
{
if (functypclass == TYPEFUNC_RECORD)
ereport(ERROR,
(errcode(ERRCODE_SYNTAX_ERROR),
errmsg("a column definition list is required for functions returning \"record\""),
parser_errposition(pstate, exprLocation(funcexpr))));
}
if (functypclass == TYPEFUNC_COMPOSITE ||
functypclass == TYPEFUNC_COMPOSITE_DOMAIN)
{
/* Composite data type, e.g. a table's row type */
Assert(tupdesc);
}
else if (functypclass == TYPEFUNC_SCALAR)
{
/* Base data type, i.e. scalar */
tupdesc = CreateTemplateTupleDesc(1);
TupleDescInitEntry(tupdesc,
(AttrNumber) 1,
chooseScalarFunctionAlias(funcexpr, funcname,
alias, nfuncs),
funcrettype,
exprTypmod(funcexpr),
0);
TupleDescInitEntryCollation(tupdesc,
(AttrNumber) 1,
exprCollation(funcexpr));
}
else if (functypclass == TYPEFUNC_RECORD)
{
ListCell *col;
/*
* Use the column definition list to construct a tupdesc and fill
* in the RangeTblFunction's lists. Limit number of columns to
* MaxHeapAttributeNumber, because CheckAttributeNamesTypes will.
*/
if (list_length(coldeflist) > MaxHeapAttributeNumber)
ereport(ERROR,
(errcode(ERRCODE_TOO_MANY_COLUMNS),
errmsg("column definition lists can have at most %d entries",
MaxHeapAttributeNumber),
parser_errposition(pstate,
exprLocation((Node *) coldeflist))));
tupdesc = CreateTemplateTupleDesc(list_length(coldeflist));
i = 1;
foreach(col, coldeflist)
{
ColumnDef *n = (ColumnDef *) lfirst(col);
char *attrname;
Oid attrtype;
int32 attrtypmod;
Oid attrcollation;
attrname = n->colname;
if (n->typeName->setof)
ereport(ERROR,
(errcode(ERRCODE_INVALID_TABLE_DEFINITION),
errmsg("column \"%s\" cannot be declared SETOF",
attrname),
parser_errposition(pstate, n->location)));
typenameTypeIdAndMod(pstate, n->typeName,
&attrtype, &attrtypmod);
attrcollation = GetColumnDefCollation(pstate, n, attrtype);
TupleDescInitEntry(tupdesc,
(AttrNumber) i,
attrname,
attrtype,
attrtypmod,
0);
TupleDescInitEntryCollation(tupdesc,
(AttrNumber) i,
attrcollation);
rtfunc->funccolnames = lappend(rtfunc->funccolnames,
makeString(pstrdup(attrname)));
rtfunc->funccoltypes = lappend_oid(rtfunc->funccoltypes,
attrtype);
rtfunc->funccoltypmods = lappend_int(rtfunc->funccoltypmods,
attrtypmod);
rtfunc->funccolcollations = lappend_oid(rtfunc->funccolcollations,
attrcollation);
i++;
}
/*
* Ensure that the coldeflist defines a legal set of names (no
* duplicates, but we needn't worry about system column names) and
* datatypes. Although we mostly can't allow pseudo-types, it
* seems safe to allow RECORD and RECORD[], since values within
* those type classes are self-identifying at runtime, and the
* coldeflist doesn't represent anything that will be visible to
* other sessions.
*/
CheckAttributeNamesTypes(tupdesc, RELKIND_COMPOSITE_TYPE,
CHKATYPE_ANYRECORD);
}
else
ereport(ERROR,
(errcode(ERRCODE_DATATYPE_MISMATCH),
errmsg("function \"%s\" in FROM has unsupported return type %s",
funcname, format_type_be(funcrettype)),
parser_errposition(pstate, exprLocation(funcexpr))));
/* Finish off the RangeTblFunction and add it to the RTE's list */
rtfunc->funccolcount = tupdesc->natts;
rte->functions = lappend(rte->functions, rtfunc);
/* Save the tupdesc for use below */
functupdescs[funcno] = tupdesc;
totalatts += tupdesc->natts;
funcno++;
}
/*
* If there's more than one function, or we want an ordinality column, we
* have to produce a merged tupdesc.
*/
if (nfuncs > 1 || rangefunc->ordinality)
{
if (rangefunc->ordinality)
totalatts++;
/* Disallow more columns than will fit in a tuple */
if (totalatts > MaxTupleAttributeNumber)
ereport(ERROR,
(errcode(ERRCODE_TOO_MANY_COLUMNS),
errmsg("functions in FROM can return at most %d columns",
MaxTupleAttributeNumber),
parser_errposition(pstate,
exprLocation((Node *) funcexprs))));
/* Merge the tuple descs of each function into a composite one */
tupdesc = CreateTemplateTupleDesc(totalatts);
natts = 0;
for (i = 0; i < nfuncs; i++)
{
for (j = 1; j <= functupdescs[i]->natts; j++)
TupleDescCopyEntry(tupdesc, ++natts, functupdescs[i], j);
}
/* Add the ordinality column if needed */
if (rangefunc->ordinality)
{
TupleDescInitEntry(tupdesc,
(AttrNumber) ++natts,
"ordinality",
INT8OID,
-1,
0);
/* no need to set collation */
}
Assert(natts == totalatts);
}
else
{
/* We can just use the single function's tupdesc as-is */
tupdesc = functupdescs[0];
}
/* Use the tupdesc while assigning column aliases for the RTE */
buildRelationAliases(tupdesc, alias, eref);
/*
* Set flags and access permissions.
*
* Functions are never checked for access rights (at least, not by the RTE
* permissions mechanism).
*/
rte->lateral = lateral;
rte->inh = false; /* never true for functions */
rte->inFromCl = inFromCl;
rte->requiredPerms = 0;
rte->checkAsUser = InvalidOid;
rte->selectedCols = NULL;
rte->insertedCols = NULL;
rte->updatedCols = NULL;
rte->extraUpdatedCols = NULL;
/*
* Add completed RTE to pstate's range table list, so that we know its
* index. But we don't add it to the join list --- caller must do that if
* appropriate.
*/
pstate->p_rtable = lappend(pstate->p_rtable, rte);
/*
* Build a ParseNamespaceItem, but don't add it to the pstate's namespace
* list --- caller must do that if appropriate.
*/
return buildNSItemFromTupleDesc(rte, list_length(pstate->p_rtable),
tupdesc);
}
/*
* Add an entry for a table function to the pstate's range table (p_rtable).
* Then, construct and return a ParseNamespaceItem for the new RTE.
*
* This is much like addRangeTableEntry() except that it makes a tablefunc RTE.
*/
ParseNamespaceItem *
addRangeTableEntryForTableFunc(ParseState *pstate,
TableFunc *tf,
Alias *alias,
bool lateral,
bool inFromCl)
{
RangeTblEntry *rte = makeNode(RangeTblEntry);
char *refname;
Alias *eref;
int numaliases;
Assert(pstate != NULL);
/* Disallow more columns than will fit in a tuple */
if (list_length(tf->colnames) > MaxTupleAttributeNumber)
ereport(ERROR,
(errcode(ERRCODE_TOO_MANY_COLUMNS),
errmsg("functions in FROM can return at most %d columns",
MaxTupleAttributeNumber),
parser_errposition(pstate,
exprLocation((Node *) tf))));
Assert(list_length(tf->coltypes) == list_length(tf->colnames));
Assert(list_length(tf->coltypmods) == list_length(tf->colnames));
Assert(list_length(tf->colcollations) == list_length(tf->colnames));
refname = alias ? alias->aliasname : pstrdup("xmltable");
rte->rtekind = RTE_TABLEFUNC;
rte->relid = InvalidOid;
rte->subquery = NULL;
rte->tablefunc = tf;
rte->coltypes = tf->coltypes;
rte->coltypmods = tf->coltypmods;
rte->colcollations = tf->colcollations;
rte->alias = alias;
eref = alias ? copyObject(alias) : makeAlias(refname, NIL);
numaliases = list_length(eref->colnames);
/* fill in any unspecified alias columns */
if (numaliases < list_length(tf->colnames))
eref->colnames = list_concat(eref->colnames,
list_copy_tail(tf->colnames, numaliases));
if (numaliases > list_length(tf->colnames))
ereport(ERROR,
(errcode(ERRCODE_INVALID_COLUMN_REFERENCE),
errmsg("%s function has %d columns available but %d columns specified",
"XMLTABLE",
list_length(tf->colnames), numaliases)));
rte->eref = eref;
/*
* Set flags and access permissions.
*
* Tablefuncs are never checked for access rights (at least, not by the
* RTE permissions mechanism).
*/
rte->lateral = lateral;
rte->inh = false; /* never true for tablefunc RTEs */
rte->inFromCl = inFromCl;
rte->requiredPerms = 0;
rte->checkAsUser = InvalidOid;
rte->selectedCols = NULL;
rte->insertedCols = NULL;
rte->updatedCols = NULL;
rte->extraUpdatedCols = NULL;
/*
* Add completed RTE to pstate's range table list, so that we know its
* index. But we don't add it to the join list --- caller must do that if
* appropriate.
*/
pstate->p_rtable = lappend(pstate->p_rtable, rte);
/*
* Build a ParseNamespaceItem, but don't add it to the pstate's namespace
* list --- caller must do that if appropriate.
*/
return buildNSItemFromLists(rte, list_length(pstate->p_rtable),
rte->coltypes, rte->coltypmods,
rte->colcollations);
}
/*
* Add an entry for a VALUES list to the pstate's range table (p_rtable).
* Then, construct and return a ParseNamespaceItem for the new RTE.
*
* This is much like addRangeTableEntry() except that it makes a values RTE.
*/
ParseNamespaceItem *
addRangeTableEntryForValues(ParseState *pstate,
List *exprs,
List *coltypes,
List *coltypmods,
List *colcollations,
Alias *alias,
bool lateral,
bool inFromCl)
{
RangeTblEntry *rte = makeNode(RangeTblEntry);
char *refname = alias ? alias->aliasname : pstrdup("*VALUES*");
Alias *eref;
int numaliases;
int numcolumns;
Assert(pstate != NULL);
rte->rtekind = RTE_VALUES;
rte->relid = InvalidOid;
rte->subquery = NULL;
rte->values_lists = exprs;
rte->coltypes = coltypes;
rte->coltypmods = coltypmods;
rte->colcollations = colcollations;
rte->alias = alias;
eref = alias ? copyObject(alias) : makeAlias(refname, NIL);
/* fill in any unspecified alias columns */
numcolumns = list_length((List *) linitial(exprs));
numaliases = list_length(eref->colnames);
while (numaliases < numcolumns)
{
char attrname[64];
numaliases++;
snprintf(attrname, sizeof(attrname), "column%d", numaliases);
eref->colnames = lappend(eref->colnames,
makeString(pstrdup(attrname)));
}
if (numcolumns < numaliases)
ereport(ERROR,
(errcode(ERRCODE_INVALID_COLUMN_REFERENCE),
errmsg("VALUES lists \"%s\" have %d columns available but %d columns specified",
refname, numcolumns, numaliases)));
rte->eref = eref;
/*
* Set flags and access permissions.
*
* Subqueries are never checked for access rights.
*/
rte->lateral = lateral;
rte->inh = false; /* never true for values RTEs */
rte->inFromCl = inFromCl;
rte->requiredPerms = 0;
rte->checkAsUser = InvalidOid;
rte->selectedCols = NULL;
rte->insertedCols = NULL;
rte->updatedCols = NULL;
rte->extraUpdatedCols = NULL;
/*
* Add completed RTE to pstate's range table list, so that we know its
* index. But we don't add it to the join list --- caller must do that if
* appropriate.
*/
pstate->p_rtable = lappend(pstate->p_rtable, rte);
/*
* Build a ParseNamespaceItem, but don't add it to the pstate's namespace
* list --- caller must do that if appropriate.
*/
return buildNSItemFromLists(rte, list_length(pstate->p_rtable),
rte->coltypes, rte->coltypmods,
rte->colcollations);
}
/*
* Add an entry for a join to the pstate's range table (p_rtable).
* Then, construct and return a ParseNamespaceItem for the new RTE.
*
* This is much like addRangeTableEntry() except that it makes a join RTE.
* Also, it's more convenient for the caller to construct the
* ParseNamespaceColumn array, so we pass that in.
*/
ParseNamespaceItem *
addRangeTableEntryForJoin(ParseState *pstate,
List *colnames,
ParseNamespaceColumn *nscolumns,
JoinType jointype,
int nummergedcols,
List *aliasvars,
List *leftcols,
List *rightcols,
Alias *join_using_alias,
Alias *alias,
bool inFromCl)
{
RangeTblEntry *rte = makeNode(RangeTblEntry);
Alias *eref;
int numaliases;
ParseNamespaceItem *nsitem;
Assert(pstate != NULL);
/*
* Fail if join has too many columns --- we must be able to reference any
* of the columns with an AttrNumber.
*/
if (list_length(aliasvars) > MaxAttrNumber)
ereport(ERROR,
(errcode(ERRCODE_PROGRAM_LIMIT_EXCEEDED),
errmsg("joins can have at most %d columns",
MaxAttrNumber)));
rte->rtekind = RTE_JOIN;
rte->relid = InvalidOid;
rte->subquery = NULL;
rte->jointype = jointype;
rte->joinmergedcols = nummergedcols;
rte->joinaliasvars = aliasvars;
rte->joinleftcols = leftcols;
rte->joinrightcols = rightcols;
rte->join_using_alias = join_using_alias;
rte->alias = alias;
eref = alias ? copyObject(alias) : makeAlias("unnamed_join", NIL);
numaliases = list_length(eref->colnames);
/* fill in any unspecified alias columns */
if (numaliases < list_length(colnames))
eref->colnames = list_concat(eref->colnames,
list_copy_tail(colnames, numaliases));
if (numaliases > list_length(colnames))
ereport(ERROR,
(errcode(ERRCODE_INVALID_COLUMN_REFERENCE),
errmsg("join expression \"%s\" has %d columns available but %d columns specified",
eref->aliasname, list_length(colnames), numaliases)));
rte->eref = eref;
/*
* Set flags and access permissions.
*
* Joins are never checked for access rights.
*/
rte->lateral = false;
rte->inh = false; /* never true for joins */
rte->inFromCl = inFromCl;
rte->requiredPerms = 0;
rte->checkAsUser = InvalidOid;
rte->selectedCols = NULL;
rte->insertedCols = NULL;
rte->updatedCols = NULL;
rte->extraUpdatedCols = NULL;
/*
* Add completed RTE to pstate's range table list, so that we know its
* index. But we don't add it to the join list --- caller must do that if
* appropriate.
*/
pstate->p_rtable = lappend(pstate->p_rtable, rte);
/*
* Build a ParseNamespaceItem, but don't add it to the pstate's namespace
* list --- caller must do that if appropriate.
*/
nsitem = (ParseNamespaceItem *) palloc(sizeof(ParseNamespaceItem));
nsitem->p_names = rte->eref;
nsitem->p_rte = rte;
nsitem->p_rtindex = list_length(pstate->p_rtable);
nsitem->p_nscolumns = nscolumns;
/* set default visibility flags; might get changed later */
nsitem->p_rel_visible = true;
nsitem->p_cols_visible = true;
nsitem->p_lateral_only = false;
nsitem->p_lateral_ok = true;
return nsitem;
}
/*
* Add an entry for a CTE reference to the pstate's range table (p_rtable).
* Then, construct and return a ParseNamespaceItem for the new RTE.
*
* This is much like addRangeTableEntry() except that it makes a CTE RTE.
*/
ParseNamespaceItem *
addRangeTableEntryForCTE(ParseState *pstate,
CommonTableExpr *cte,
Index levelsup,
RangeVar *rv,
bool inFromCl)
{
RangeTblEntry *rte = makeNode(RangeTblEntry);
Alias *alias = rv->alias;
char *refname = alias ? alias->aliasname : cte->ctename;
Alias *eref;
int numaliases;
int varattno;
ListCell *lc;
int n_dontexpand_columns = 0;
ParseNamespaceItem *psi;
Assert(pstate != NULL);
rte->rtekind = RTE_CTE;
rte->ctename = cte->ctename;
rte->ctelevelsup = levelsup;
/* Self-reference if and only if CTE's parse analysis isn't completed */
rte->self_reference = !IsA(cte->ctequery, Query);
Assert(cte->cterecursive || !rte->self_reference);
/* Bump the CTE's refcount if this isn't a self-reference */
if (!rte->self_reference)
cte->cterefcount++;
/*
* We throw error if the CTE is INSERT/UPDATE/DELETE without RETURNING.
* This won't get checked in case of a self-reference, but that's OK
* because data-modifying CTEs aren't allowed to be recursive anyhow.
*/
if (IsA(cte->ctequery, Query))
{
Query *ctequery = (Query *) cte->ctequery;
if (ctequery->commandType != CMD_SELECT &&
ctequery->returningList == NIL)
ereport(ERROR,
(errcode(ERRCODE_FEATURE_NOT_SUPPORTED),
errmsg("WITH query \"%s\" does not have a RETURNING clause",
cte->ctename),
parser_errposition(pstate, rv->location)));
}
rte->coltypes = list_copy(cte->ctecoltypes);
rte->coltypmods = list_copy(cte->ctecoltypmods);
rte->colcollations = list_copy(cte->ctecolcollations);
rte->alias = alias;
if (alias)
eref = copyObject(alias);
else
eref = makeAlias(refname, NIL);
numaliases = list_length(eref->colnames);
/* fill in any unspecified alias columns */
varattno = 0;
foreach(lc, cte->ctecolnames)
{
varattno++;
if (varattno > numaliases)
eref->colnames = lappend(eref->colnames, lfirst(lc));
}
if (varattno < numaliases)
ereport(ERROR,
(errcode(ERRCODE_INVALID_COLUMN_REFERENCE),
errmsg("table \"%s\" has %d columns available but %d columns specified",
refname, varattno, numaliases)));
rte->eref = eref;
if (cte->search_clause)
{
rte->eref->colnames = lappend(rte->eref->colnames, makeString(cte->search_clause->search_seq_column));
if (cte->search_clause->search_breadth_first)
rte->coltypes = lappend_oid(rte->coltypes, RECORDOID);
else
rte->coltypes = lappend_oid(rte->coltypes, RECORDARRAYOID);
rte->coltypmods = lappend_int(rte->coltypmods, -1);
rte->colcollations = lappend_oid(rte->colcollations, InvalidOid);
n_dontexpand_columns += 1;
}
if (cte->cycle_clause)
{
rte->eref->colnames = lappend(rte->eref->colnames, makeString(cte->cycle_clause->cycle_mark_column));
rte->coltypes = lappend_oid(rte->coltypes, cte->cycle_clause->cycle_mark_type);
rte->coltypmods = lappend_int(rte->coltypmods, cte->cycle_clause->cycle_mark_typmod);
rte->colcollations = lappend_oid(rte->colcollations, cte->cycle_clause->cycle_mark_collation);
rte->eref->colnames = lappend(rte->eref->colnames, makeString(cte->cycle_clause->cycle_path_column));
rte->coltypes = lappend_oid(rte->coltypes, RECORDARRAYOID);
rte->coltypmods = lappend_int(rte->coltypmods, -1);
rte->colcollations = lappend_oid(rte->colcollations, InvalidOid);
n_dontexpand_columns += 2;
}
/*
* Set flags and access permissions.
*
* Subqueries are never checked for access rights.
*/
rte->lateral = false;
rte->inh = false; /* never true for subqueries */
rte->inFromCl = inFromCl;
rte->requiredPerms = 0;
rte->checkAsUser = InvalidOid;
rte->selectedCols = NULL;
rte->insertedCols = NULL;
rte->updatedCols = NULL;
rte->extraUpdatedCols = NULL;
/*
* Add completed RTE to pstate's range table list, so that we know its
* index. But we don't add it to the join list --- caller must do that if
* appropriate.
*/
pstate->p_rtable = lappend(pstate->p_rtable, rte);
/*
* Build a ParseNamespaceItem, but don't add it to the pstate's namespace
* list --- caller must do that if appropriate.
*/
psi = buildNSItemFromLists(rte, list_length(pstate->p_rtable),
rte->coltypes, rte->coltypmods,
rte->colcollations);
/*
* The columns added by search and cycle clauses are not included in star
* expansion in queries contained in the CTE.
*/
if (rte->ctelevelsup > 0)
for (int i = 0; i < n_dontexpand_columns; i++)
psi->p_nscolumns[list_length(psi->p_names->colnames) - 1 - i].p_dontexpand = true;
return psi;
}
/*
* Add an entry for an ephemeral named relation reference to the pstate's
* range table (p_rtable).
* Then, construct and return a ParseNamespaceItem for the new RTE.
*
* It is expected that the RangeVar, which up until now is only known to be an
* ephemeral named relation, will (in conjunction with the QueryEnvironment in
* the ParseState), create a RangeTblEntry for a specific *kind* of ephemeral
* named relation, based on enrtype.
*
* This is much like addRangeTableEntry() except that it makes an RTE for an
* ephemeral named relation.
*/
ParseNamespaceItem *
addRangeTableEntryForENR(ParseState *pstate,
RangeVar *rv,
bool inFromCl)
{
RangeTblEntry *rte = makeNode(RangeTblEntry);
Alias *alias = rv->alias;
char *refname = alias ? alias->aliasname : rv->relname;
EphemeralNamedRelationMetadata enrmd;
TupleDesc tupdesc;
int attno;
Assert(pstate != NULL);
enrmd = get_visible_ENR(pstate, rv->relname);
Assert(enrmd != NULL);
switch (enrmd->enrtype)
{
case ENR_NAMED_TUPLESTORE:
rte->rtekind = RTE_NAMEDTUPLESTORE;
break;
default:
elog(ERROR, "unexpected enrtype: %d", enrmd->enrtype);
return NULL; /* for fussy compilers */
}
/*
* Record dependency on a relation. This allows plans to be invalidated
* if they access transition tables linked to a table that is altered.
*/
rte->relid = enrmd->reliddesc;
/*
* Build the list of effective column names using user-supplied aliases
* and/or actual column names.
*/
tupdesc = ENRMetadataGetTupDesc(enrmd);
rte->eref = makeAlias(refname, NIL);
buildRelationAliases(tupdesc, alias, rte->eref);
/* Record additional data for ENR, including column type info */
rte->enrname = enrmd->name;
rte->enrtuples = enrmd->enrtuples;
rte->coltypes = NIL;
rte->coltypmods = NIL;
rte->colcollations = NIL;
for (attno = 1; attno <= tupdesc->natts; ++attno)
{
Form_pg_attribute att = TupleDescAttr(tupdesc, attno - 1);
if (att->attisdropped)
{
/* Record zeroes for a dropped column */
rte->coltypes = lappend_oid(rte->coltypes, InvalidOid);
rte->coltypmods = lappend_int(rte->coltypmods, 0);
rte->colcollations = lappend_oid(rte->colcollations, InvalidOid);
}
else
{
/* Let's just make sure we can tell this isn't dropped */
if (att->atttypid == InvalidOid)
elog(ERROR, "atttypid is invalid for non-dropped column in \"%s\"",
rv->relname);
rte->coltypes = lappend_oid(rte->coltypes, att->atttypid);
rte->coltypmods = lappend_int(rte->coltypmods, att->atttypmod);
rte->colcollations = lappend_oid(rte->colcollations,
att->attcollation);
}
}
/*
* Set flags and access permissions.
*
* ENRs are never checked for access rights.
*/
rte->lateral = false;
rte->inh = false; /* never true for ENRs */
rte->inFromCl = inFromCl;
rte->requiredPerms = 0;
rte->checkAsUser = InvalidOid;
rte->selectedCols = NULL;
/*
* Add completed RTE to pstate's range table list, so that we know its
* index. But we don't add it to the join list --- caller must do that if
* appropriate.
*/
pstate->p_rtable = lappend(pstate->p_rtable, rte);
/*
* Build a ParseNamespaceItem, but don't add it to the pstate's namespace
* list --- caller must do that if appropriate.
*/
return buildNSItemFromTupleDesc(rte, list_length(pstate->p_rtable),
tupdesc);
}
/*
* Has the specified refname been selected FOR UPDATE/FOR SHARE?
*
* This is used when we have not yet done transformLockingClause, but need
* to know the correct lock to take during initial opening of relations.
*
* Note that refname may be NULL (for a subquery without an alias), in which
* case the relation can't be locked by name, but it might still be locked if
* a locking clause requests that all tables be locked.
*
* Note: we pay no attention to whether it's FOR UPDATE vs FOR SHARE,
* since the table-level lock is the same either way.
*/
bool
isLockedRefname(ParseState *pstate, const char *refname)
{
ListCell *l;
/*
* If we are in a subquery specified as locked FOR UPDATE/SHARE from
* parent level, then act as though there's a generic FOR UPDATE here.
*/
if (pstate->p_locked_from_parent)
return true;
foreach(l, pstate->p_locking_clause)
{
LockingClause *lc = (LockingClause *) lfirst(l);
if (lc->lockedRels == NIL)
{
/* all tables used in query */
return true;
}
else if (refname != NULL)
{
/* just the named tables */
ListCell *l2;
foreach(l2, lc->lockedRels)
{
RangeVar *thisrel = (RangeVar *) lfirst(l2);
if (strcmp(refname, thisrel->relname) == 0)
return true;
}
}
}
return false;
}
/*
* Add the given nsitem/RTE as a top-level entry in the pstate's join list
* and/or namespace list. (We assume caller has checked for any
* namespace conflicts.) The nsitem is always marked as unconditionally
* visible, that is, not LATERAL-only.
*/
void
addNSItemToQuery(ParseState *pstate, ParseNamespaceItem *nsitem,
bool addToJoinList,
bool addToRelNameSpace, bool addToVarNameSpace)
{
if (addToJoinList)
{
RangeTblRef *rtr = makeNode(RangeTblRef);
rtr->rtindex = nsitem->p_rtindex;
pstate->p_joinlist = lappend(pstate->p_joinlist, rtr);
}
if (addToRelNameSpace || addToVarNameSpace)
{
/* Set the new nsitem's visibility flags correctly */
nsitem->p_rel_visible = addToRelNameSpace;
nsitem->p_cols_visible = addToVarNameSpace;
nsitem->p_lateral_only = false;
nsitem->p_lateral_ok = true;
pstate->p_namespace = lappend(pstate->p_namespace, nsitem);
}
}
/*
* expandRTE -- expand the columns of a rangetable entry
*
* This creates lists of an RTE's column names (aliases if provided, else
* real names) and Vars for each column. Only user columns are considered.
* If include_dropped is false then dropped columns are omitted from the
* results. If include_dropped is true then empty strings and NULL constants
* (not Vars!) are returned for dropped columns.
*
* rtindex, sublevels_up, and location are the varno, varlevelsup, and location
* values to use in the created Vars. Ordinarily rtindex should match the
* actual position of the RTE in its rangetable.
*
* The output lists go into *colnames and *colvars.
* If only one of the two kinds of output list is needed, pass NULL for the
* output pointer for the unwanted one.
*/
void
expandRTE(RangeTblEntry *rte, int rtindex, int sublevels_up,
int location, bool include_dropped,
List **colnames, List **colvars)
{
int varattno;
if (colnames)
*colnames = NIL;
if (colvars)
*colvars = NIL;
switch (rte->rtekind)
{
case RTE_RELATION:
/* Ordinary relation RTE */
expandRelation(rte->relid, rte->eref,
rtindex, sublevels_up, location,
include_dropped, colnames, colvars);
break;
case RTE_SUBQUERY:
{
/* Subquery RTE */
ListCell *aliasp_item = list_head(rte->eref->colnames);
ListCell *tlistitem;
varattno = 0;
foreach(tlistitem, rte->subquery->targetList)
{
TargetEntry *te = (TargetEntry *) lfirst(tlistitem);
if (te->resjunk)
continue;
varattno++;
Assert(varattno == te->resno);
/*
* In scenarios where columns have been added to a view
* since the outer query was originally parsed, there can
* be more items in the subquery tlist than the outer
* query expects. We should ignore such extra column(s)
* --- compare the behavior for composite-returning
* functions, in the RTE_FUNCTION case below.
*/
if (!aliasp_item)
break;
if (colnames)
{
char *label = strVal(lfirst(aliasp_item));
*colnames = lappend(*colnames, makeString(pstrdup(label)));
}
if (colvars)
{
Var *varnode;
varnode = makeVar(rtindex, varattno,
exprType((Node *) te->expr),
exprTypmod((Node *) te->expr),
exprCollation((Node *) te->expr),
sublevels_up);
varnode->location = location;
*colvars = lappend(*colvars, varnode);
}
aliasp_item = lnext(rte->eref->colnames, aliasp_item);
}
}
break;
case RTE_FUNCTION:
{
/* Function RTE */
int atts_done = 0;
ListCell *lc;
foreach(lc, rte->functions)
{
RangeTblFunction *rtfunc = (RangeTblFunction *) lfirst(lc);
TypeFuncClass functypclass;
Oid funcrettype;
TupleDesc tupdesc;
functypclass = get_expr_result_type(rtfunc->funcexpr,
&funcrettype,
&tupdesc);
if (functypclass == TYPEFUNC_COMPOSITE ||
functypclass == TYPEFUNC_COMPOSITE_DOMAIN)
{
/* Composite data type, e.g. a table's row type */
Assert(tupdesc);
expandTupleDesc(tupdesc, rte->eref,
rtfunc->funccolcount, atts_done,
rtindex, sublevels_up, location,
include_dropped, colnames, colvars);
}
else if (functypclass == TYPEFUNC_SCALAR)
{
/* Base data type, i.e. scalar */
if (colnames)
*colnames = lappend(*colnames,
list_nth(rte->eref->colnames,
atts_done));
if (colvars)
{
Var *varnode;
varnode = makeVar(rtindex, atts_done + 1,
funcrettype,
exprTypmod(rtfunc->funcexpr),
exprCollation(rtfunc->funcexpr),
sublevels_up);
varnode->location = location;
*colvars = lappend(*colvars, varnode);
}
}
else if (functypclass == TYPEFUNC_RECORD)
{
if (colnames)
{
List *namelist;
/* extract appropriate subset of column list */
namelist = list_copy_tail(rte->eref->colnames,
atts_done);
namelist = list_truncate(namelist,
rtfunc->funccolcount);
*colnames = list_concat(*colnames, namelist);
}
if (colvars)
{
ListCell *l1;
ListCell *l2;
ListCell *l3;
int attnum = atts_done;
forthree(l1, rtfunc->funccoltypes,
l2, rtfunc->funccoltypmods,
l3, rtfunc->funccolcollations)
{
Oid attrtype = lfirst_oid(l1);
int32 attrtypmod = lfirst_int(l2);
Oid attrcollation = lfirst_oid(l3);
Var *varnode;
attnum++;
varnode = makeVar(rtindex,
attnum,
attrtype,
attrtypmod,
attrcollation,
sublevels_up);
varnode->location = location;
*colvars = lappend(*colvars, varnode);
}
}
}
else
{
/* addRangeTableEntryForFunction should've caught this */
elog(ERROR, "function in FROM has unsupported return type");
}
atts_done += rtfunc->funccolcount;
}
/* Append the ordinality column if any */
if (rte->funcordinality)
{
if (colnames)
*colnames = lappend(*colnames,
llast(rte->eref->colnames));
if (colvars)
{
Var *varnode = makeVar(rtindex,
atts_done + 1,
INT8OID,
-1,
InvalidOid,
sublevels_up);
*colvars = lappend(*colvars, varnode);
}
}
}
break;
case RTE_JOIN:
{
/* Join RTE */
ListCell *colname;
ListCell *aliasvar;
Assert(list_length(rte->eref->colnames) == list_length(rte->joinaliasvars));
varattno = 0;
forboth(colname, rte->eref->colnames, aliasvar, rte->joinaliasvars)
{
Node *avar = (Node *) lfirst(aliasvar);
varattno++;
/*
* During ordinary parsing, there will never be any
* deleted columns in the join. While this function is
* also used by the rewriter and planner, they do not
* currently call it on any JOIN RTEs. Therefore, this
* next bit is dead code, but it seems prudent to handle
* the case correctly anyway.
*/
if (avar == NULL)
{
if (include_dropped)
{
if (colnames)
*colnames = lappend(*colnames,
makeString(pstrdup("")));
if (colvars)
{
/*
* Can't use join's column type here (it might
* be dropped!); but it doesn't really matter
* what type the Const claims to be.
*/
*colvars = lappend(*colvars,
makeNullConst(INT4OID, -1,
InvalidOid));
}
}
continue;
}
if (colnames)
{
char *label = strVal(lfirst(colname));
*colnames = lappend(*colnames,
makeString(pstrdup(label)));
}
if (colvars)
{
Var *varnode;
/*
* If the joinaliasvars entry is a simple Var, just
* copy it (with adjustment of varlevelsup and
* location); otherwise it is a JOIN USING column and
* we must generate a join alias Var. This matches
* the results that expansion of "join.*" by
* expandNSItemVars would have produced, if we had
* access to the ParseNamespaceItem for the join.
*/
if (IsA(avar, Var))
{
varnode = copyObject((Var *) avar);
varnode->varlevelsup = sublevels_up;
}
else
varnode = makeVar(rtindex, varattno,
exprType(avar),
exprTypmod(avar),
exprCollation(avar),
sublevels_up);
varnode->location = location;
*colvars = lappend(*colvars, varnode);
}
}
}
break;
case RTE_TABLEFUNC:
case RTE_VALUES:
case RTE_CTE:
case RTE_NAMEDTUPLESTORE:
{
/* Tablefunc, Values, CTE, or ENR RTE */
ListCell *aliasp_item = list_head(rte->eref->colnames);
ListCell *lct;
ListCell *lcm;
ListCell *lcc;
varattno = 0;
forthree(lct, rte->coltypes,
lcm, rte->coltypmods,
lcc, rte->colcollations)
{
Oid coltype = lfirst_oid(lct);
int32 coltypmod = lfirst_int(lcm);
Oid colcoll = lfirst_oid(lcc);
varattno++;
if (colnames)
{
/* Assume there is one alias per output column */
if (OidIsValid(coltype))
{
char *label = strVal(lfirst(aliasp_item));
*colnames = lappend(*colnames,
makeString(pstrdup(label)));
}
else if (include_dropped)
*colnames = lappend(*colnames,
makeString(pstrdup("")));
aliasp_item = lnext(rte->eref->colnames, aliasp_item);
}
if (colvars)
{
if (OidIsValid(coltype))
{
Var *varnode;
varnode = makeVar(rtindex, varattno,
coltype, coltypmod, colcoll,
sublevels_up);
varnode->location = location;
*colvars = lappend(*colvars, varnode);
}
else if (include_dropped)
{
/*
* It doesn't really matter what type the Const
* claims to be.
*/
*colvars = lappend(*colvars,
makeNullConst(INT4OID, -1,
InvalidOid));
}
}
}
}
break;
case RTE_RESULT:
/* These expose no columns, so nothing to do */
break;
default:
elog(ERROR, "unrecognized RTE kind: %d", (int) rte->rtekind);
}
}
/*
* expandRelation -- expandRTE subroutine
*/
static void
expandRelation(Oid relid, Alias *eref, int rtindex, int sublevels_up,
int location, bool include_dropped,
List **colnames, List **colvars)
{
Relation rel;
/* Get the tupledesc and turn it over to expandTupleDesc */
rel = relation_open(relid, AccessShareLock);
expandTupleDesc(rel->rd_att, eref, rel->rd_att->natts, 0,
rtindex, sublevels_up,
location, include_dropped,
colnames, colvars);
relation_close(rel, AccessShareLock);
}
/*
* expandTupleDesc -- expandRTE subroutine
*
* Generate names and/or Vars for the first "count" attributes of the tupdesc,
* and append them to colnames/colvars. "offset" is added to the varattno
* that each Var would otherwise have, and we also skip the first "offset"
* entries in eref->colnames. (These provisions allow use of this code for
* an individual composite-returning function in an RTE_FUNCTION RTE.)
*/
static void
expandTupleDesc(TupleDesc tupdesc, Alias *eref, int count, int offset,
int rtindex, int sublevels_up,
int location, bool include_dropped,
List **colnames, List **colvars)
{
ListCell *aliascell;
int varattno;
aliascell = (offset < list_length(eref->colnames)) ?
list_nth_cell(eref->colnames, offset) : NULL;
Assert(count <= tupdesc->natts);
for (varattno = 0; varattno < count; varattno++)
{
Form_pg_attribute attr = TupleDescAttr(tupdesc, varattno);
if (attr->attisdropped)
{
if (include_dropped)
{
if (colnames)
*colnames = lappend(*colnames, makeString(pstrdup("")));
if (colvars)
{
/*
* can't use atttypid here, but it doesn't really matter
* what type the Const claims to be.
*/
*colvars = lappend(*colvars,
makeNullConst(INT4OID, -1, InvalidOid));
}
}
if (aliascell)
aliascell = lnext(eref->colnames, aliascell);
continue;
}
if (colnames)
{
char *label;
if (aliascell)
{
label = strVal(lfirst(aliascell));
aliascell = lnext(eref->colnames, aliascell);
}
else
{
/* If we run out of aliases, use the underlying name */
label = NameStr(attr->attname);
}
*colnames = lappend(*colnames, makeString(pstrdup(label)));
}
if (colvars)
{
Var *varnode;
varnode = makeVar(rtindex, varattno + offset + 1,
attr->atttypid, attr->atttypmod,
attr->attcollation,
sublevels_up);
varnode->location = location;
*colvars = lappend(*colvars, varnode);
}
}
}
/*
* expandNSItemVars
* Produce a list of Vars, and optionally a list of column names,
* for the non-dropped columns of the nsitem.
*
* The emitted Vars are marked with the given sublevels_up and location.
*
* If colnames isn't NULL, a list of String items for the columns is stored
* there; note that it's just a subset of the RTE's eref list, and hence
* the list elements mustn't be modified.
*/
List *
expandNSItemVars(ParseNamespaceItem *nsitem,
int sublevels_up, int location,
List **colnames)
{
List *result = NIL;
int colindex;
ListCell *lc;
if (colnames)
*colnames = NIL;
colindex = 0;
foreach(lc, nsitem->p_names->colnames)
{
String *colnameval = lfirst(lc);
const char *colname = strVal(colnameval);
ParseNamespaceColumn *nscol = nsitem->p_nscolumns + colindex;
if (nscol->p_dontexpand)
{
/* skip */
}
else if (colname[0])
{
Var *var;
Assert(nscol->p_varno > 0);
var = makeVar(nscol->p_varno,
nscol->p_varattno,
nscol->p_vartype,
nscol->p_vartypmod,
nscol->p_varcollid,
sublevels_up);
/* makeVar doesn't offer parameters for these, so set by hand: */
var->varnosyn = nscol->p_varnosyn;
var->varattnosyn = nscol->p_varattnosyn;
var->location = location;
result = lappend(result, var);
if (colnames)
*colnames = lappend(*colnames, colnameval);
}
else
{
/* dropped column, ignore */
Assert(nscol->p_varno == 0);
}
colindex++;
}
return result;
}
/*
* expandNSItemAttrs -
* Workhorse for "*" expansion: produce a list of targetentries
* for the attributes of the nsitem
*
* pstate->p_next_resno determines the resnos assigned to the TLEs.
* The referenced columns are marked as requiring SELECT access, if
* caller requests that.
*/
List *
expandNSItemAttrs(ParseState *pstate, ParseNamespaceItem *nsitem,
int sublevels_up, bool require_col_privs, int location)
{
RangeTblEntry *rte = nsitem->p_rte;
List *names,
*vars;
ListCell *name,
*var;
List *te_list = NIL;
vars = expandNSItemVars(nsitem, sublevels_up, location, &names);
/*
* Require read access to the table. This is normally redundant with the
* markVarForSelectPriv calls below, but not if the table has zero
* columns. We need not do anything if the nsitem is for a join: its
* component tables will have been marked ACL_SELECT when they were added
* to the rangetable. (This step changes things only for the target
* relation of UPDATE/DELETE, which cannot be under a join.)
*/
if (rte->rtekind == RTE_RELATION)
rte->requiredPerms |= ACL_SELECT;
forboth(name, names, var, vars)
{
char *label = strVal(lfirst(name));
Var *varnode = (Var *) lfirst(var);
TargetEntry *te;
te = makeTargetEntry((Expr *) varnode,
(AttrNumber) pstate->p_next_resno++,
label,
false);
te_list = lappend(te_list, te);
if (require_col_privs)
{
/* Require read access to each column */
markVarForSelectPriv(pstate, varnode);
}
}
Assert(name == NULL && var == NULL); /* lists not the same length? */
return te_list;
}
/*
* get_rte_attribute_name
* Get an attribute name from a RangeTblEntry
*
* This is unlike get_attname() because we use aliases if available.
* In particular, it will work on an RTE for a subselect or join, whereas
* get_attname() only works on real relations.
*
* "*" is returned if the given attnum is InvalidAttrNumber --- this case
* occurs when a Var represents a whole tuple of a relation.
*
* It is caller's responsibility to not call this on a dropped attribute.
* (You will get some answer for such cases, but it might not be sensible.)
*/
char *
get_rte_attribute_name(RangeTblEntry *rte, AttrNumber attnum)
{
if (attnum == InvalidAttrNumber)
return "*";
/*
* If there is a user-written column alias, use it.
*/
if (rte->alias &&
attnum > 0 && attnum <= list_length(rte->alias->colnames))
return strVal(list_nth(rte->alias->colnames, attnum - 1));
/*
* If the RTE is a relation, go to the system catalogs not the
* eref->colnames list. This is a little slower but it will give the
* right answer if the column has been renamed since the eref list was
* built (which can easily happen for rules).
*/
if (rte->rtekind == RTE_RELATION)
return get_attname(rte->relid, attnum, false);
/*
* Otherwise use the column name from eref. There should always be one.
*/
if (attnum > 0 && attnum <= list_length(rte->eref->colnames))
return strVal(list_nth(rte->eref->colnames, attnum - 1));
/* else caller gave us a bogus attnum */
elog(ERROR, "invalid attnum %d for rangetable entry %s",
attnum, rte->eref->aliasname);
return NULL; /* keep compiler quiet */
}
/*
* get_rte_attribute_is_dropped
* Check whether attempted attribute ref is to a dropped column
*/
bool
get_rte_attribute_is_dropped(RangeTblEntry *rte, AttrNumber attnum)
{
bool result;
switch (rte->rtekind)
{
case RTE_RELATION:
{
/*
* Plain relation RTE --- get the attribute's catalog entry
*/
HeapTuple tp;
Form_pg_attribute att_tup;
tp = SearchSysCache2(ATTNUM,
ObjectIdGetDatum(rte->relid),
Int16GetDatum(attnum));
if (!HeapTupleIsValid(tp)) /* shouldn't happen */
elog(ERROR, "cache lookup failed for attribute %d of relation %u",
attnum, rte->relid);
att_tup = (Form_pg_attribute) GETSTRUCT(tp);
result = att_tup->attisdropped;
ReleaseSysCache(tp);
}
break;
case RTE_SUBQUERY:
case RTE_TABLEFUNC:
case RTE_VALUES:
case RTE_CTE:
/*
* Subselect, Table Functions, Values, CTE RTEs never have dropped
* columns
*/
result = false;
break;
case RTE_NAMEDTUPLESTORE:
{
/* Check dropped-ness by testing for valid coltype */
if (attnum <= 0 ||
attnum > list_length(rte->coltypes))
elog(ERROR, "invalid varattno %d", attnum);
result = !OidIsValid((list_nth_oid(rte->coltypes, attnum - 1)));
}
break;
case RTE_JOIN:
{
/*
* A join RTE would not have dropped columns when constructed,
* but one in a stored rule might contain columns that were
* dropped from the underlying tables, if said columns are
* nowhere explicitly referenced in the rule. This will be
* signaled to us by a null pointer in the joinaliasvars list.
*/
Var *aliasvar;
if (attnum <= 0 ||
attnum > list_length(rte->joinaliasvars))
elog(ERROR, "invalid varattno %d", attnum);
aliasvar = (Var *) list_nth(rte->joinaliasvars, attnum - 1);
result = (aliasvar == NULL);
}
break;
case RTE_FUNCTION:
{
/* Function RTE */
ListCell *lc;
int atts_done = 0;
/*
* Dropped attributes are only possible with functions that
* return named composite types. In such a case we have to
* look up the result type to see if it currently has this
* column dropped. So first, loop over the funcs until we
* find the one that covers the requested column.
*/
foreach(lc, rte->functions)
{
RangeTblFunction *rtfunc = (RangeTblFunction *) lfirst(lc);
if (attnum > atts_done &&
attnum <= atts_done + rtfunc->funccolcount)
{
TupleDesc tupdesc;
tupdesc = get_expr_result_tupdesc(rtfunc->funcexpr,
true);
if (tupdesc)
{
/* Composite data type, e.g. a table's row type */
Form_pg_attribute att_tup;
Assert(tupdesc);
Assert(attnum - atts_done <= tupdesc->natts);
att_tup = TupleDescAttr(tupdesc,
attnum - atts_done - 1);
return att_tup->attisdropped;
}
/* Otherwise, it can't have any dropped columns */
return false;
}
atts_done += rtfunc->funccolcount;
}
/* If we get here, must be looking for the ordinality column */
if (rte->funcordinality && attnum == atts_done + 1)
return false;
/* this probably can't happen ... */
ereport(ERROR,
(errcode(ERRCODE_UNDEFINED_COLUMN),
errmsg("column %d of relation \"%s\" does not exist",
attnum,
rte->eref->aliasname)));
result = false; /* keep compiler quiet */
}
break;
case RTE_RESULT:
/* this probably can't happen ... */
ereport(ERROR,
(errcode(ERRCODE_UNDEFINED_COLUMN),
errmsg("column %d of relation \"%s\" does not exist",
attnum,
rte->eref->aliasname)));
result = false; /* keep compiler quiet */
break;
default:
elog(ERROR, "unrecognized RTE kind: %d", (int) rte->rtekind);
result = false; /* keep compiler quiet */
}
return result;
}
/*
* Given a targetlist and a resno, return the matching TargetEntry
*
* Returns NULL if resno is not present in list.
*
* Note: we need to search, rather than just indexing with list_nth(),
* because not all tlists are sorted by resno.
*/
TargetEntry *
get_tle_by_resno(List *tlist, AttrNumber resno)
{
ListCell *l;
foreach(l, tlist)
{
TargetEntry *tle = (TargetEntry *) lfirst(l);
if (tle->resno == resno)
return tle;
}
return NULL;
}
/*
* Given a Query and rangetable index, return relation's RowMarkClause if any
*
* Returns NULL if relation is not selected FOR UPDATE/SHARE
*/
RowMarkClause *
get_parse_rowmark(Query *qry, Index rtindex)
{
ListCell *l;
foreach(l, qry->rowMarks)
{
RowMarkClause *rc = (RowMarkClause *) lfirst(l);
if (rc->rti == rtindex)
return rc;
}
return NULL;
}
/*
* given relation and att name, return attnum of variable
*
* Returns InvalidAttrNumber if the attr doesn't exist (or is dropped).
*
* This should only be used if the relation is already
* table_open()'ed. Use the cache version get_attnum()
* for access to non-opened relations.
*/
int
attnameAttNum(Relation rd, const char *attname, bool sysColOK)
{
int i;
for (i = 0; i < RelationGetNumberOfAttributes(rd); i++)
{
Form_pg_attribute att = TupleDescAttr(rd->rd_att, i);
if (namestrcmp(&(att->attname), attname) == 0 && !att->attisdropped)
return i + 1;
}
if (sysColOK)
{
if ((i = specialAttNum(attname)) != InvalidAttrNumber)
return i;
}
/* on failure */
return InvalidAttrNumber;
}
/* specialAttNum()
*
* Check attribute name to see if it is "special", e.g. "xmin".
* - thomas 2000-02-07
*
* Note: this only discovers whether the name could be a system attribute.
* Caller needs to ensure that it really is an attribute of the rel.
*/
static int
specialAttNum(const char *attname)
{
const FormData_pg_attribute *sysatt;
sysatt = SystemAttributeByName(attname);
if (sysatt != NULL)
return sysatt->attnum;
return InvalidAttrNumber;
}
/*
* given attribute id, return name of that attribute
*
* This should only be used if the relation is already
* table_open()'ed. Use the cache version get_atttype()
* for access to non-opened relations.
*/
const NameData *
attnumAttName(Relation rd, int attid)
{
if (attid <= 0)
{
const FormData_pg_attribute *sysatt;
sysatt = SystemAttributeDefinition(attid);
return &sysatt->attname;
}
if (attid > rd->rd_att->natts)
elog(ERROR, "invalid attribute number %d", attid);
return &TupleDescAttr(rd->rd_att, attid - 1)->attname;
}
/*
* given attribute id, return type of that attribute
*
* This should only be used if the relation is already
* table_open()'ed. Use the cache version get_atttype()
* for access to non-opened relations.
*/
Oid
attnumTypeId(Relation rd, int attid)
{
if (attid <= 0)
{
const FormData_pg_attribute *sysatt;
sysatt = SystemAttributeDefinition(attid);
return sysatt->atttypid;
}
if (attid > rd->rd_att->natts)
elog(ERROR, "invalid attribute number %d", attid);
return TupleDescAttr(rd->rd_att, attid - 1)->atttypid;
}
/*
* given attribute id, return collation of that attribute
*
* This should only be used if the relation is already table_open()'ed.
*/
Oid
attnumCollationId(Relation rd, int attid)
{
if (attid <= 0)
{
/* All system attributes are of noncollatable types. */
return InvalidOid;
}
if (attid > rd->rd_att->natts)
elog(ERROR, "invalid attribute number %d", attid);
return TupleDescAttr(rd->rd_att, attid - 1)->attcollation;
}
/*
* Generate a suitable error about a missing RTE.
*
* Since this is a very common type of error, we work rather hard to
* produce a helpful message.
*/
void
errorMissingRTE(ParseState *pstate, RangeVar *relation)
{
RangeTblEntry *rte;
const char *badAlias = NULL;
/*
* Check to see if there are any potential matches in the query's
* rangetable. (Note: cases involving a bad schema name in the RangeVar
* will throw error immediately here. That seems OK.)
*/
rte = searchRangeTableForRel(pstate, relation);
/*
* If we found a match that has an alias and the alias is visible in the
* namespace, then the problem is probably use of the relation's real name
* instead of its alias, ie "SELECT foo.* FROM foo f". This mistake is
* common enough to justify a specific hint.
*
* If we found a match that doesn't meet those criteria, assume the
* problem is illegal use of a relation outside its scope, as in the
* MySQL-ism "SELECT ... FROM a, b LEFT JOIN c ON (a.x = c.y)".
*/
if (rte && rte->alias &&
strcmp(rte->eref->aliasname, relation->relname) != 0)
{
ParseNamespaceItem *nsitem;
int sublevels_up;
nsitem = refnameNamespaceItem(pstate, NULL, rte->eref->aliasname,
relation->location,
&sublevels_up);
if (nsitem && nsitem->p_rte == rte)
badAlias = rte->eref->aliasname;
}
/* If it looks like the user forgot to use an alias, hint about that */
if (badAlias)
ereport(ERROR,
(errcode(ERRCODE_UNDEFINED_TABLE),
errmsg("invalid reference to FROM-clause entry for table \"%s\"",
relation->relname),
errhint("Perhaps you meant to reference the table alias \"%s\".",
badAlias),
parser_errposition(pstate, relation->location)));
/* Hint about case where we found an (inaccessible) exact match */
else if (rte)
ereport(ERROR,
(errcode(ERRCODE_UNDEFINED_TABLE),
errmsg("invalid reference to FROM-clause entry for table \"%s\"",
relation->relname),
errdetail("There is an entry for table \"%s\", but it cannot be referenced from this part of the query.",
rte->eref->aliasname),
rte_visible_if_lateral(pstate, rte) ?
errhint("To reference that table, you must mark this subquery with LATERAL.") : 0,
parser_errposition(pstate, relation->location)));
/* Else, we have nothing to offer but the bald statement of error */
else
ereport(ERROR,
(errcode(ERRCODE_UNDEFINED_TABLE),
errmsg("missing FROM-clause entry for table \"%s\"",
relation->relname),
parser_errposition(pstate, relation->location)));
}
/*
* Generate a suitable error about a missing column.
*
* Since this is a very common type of error, we work rather hard to
* produce a helpful message.
*/
void
errorMissingColumn(ParseState *pstate,
const char *relname, const char *colname, int location)
{
FuzzyAttrMatchState *state;
/*
* Search the entire rtable looking for possible matches. If we find one,
* emit a hint about it.
*/
state = searchRangeTableForCol(pstate, relname, colname, location);
/*
* If there are exact match(es), they must be inaccessible for some
* reason.
*/
if (state->rexact1)
{
/*
* We don't try too hard when there's multiple inaccessible exact
* matches, but at least be sure that we don't misleadingly suggest
* that there's only one.
*/
if (state->rexact2)
ereport(ERROR,
(errcode(ERRCODE_UNDEFINED_COLUMN),
relname ?
errmsg("column %s.%s does not exist", relname, colname) :
errmsg("column \"%s\" does not exist", colname),
errdetail("There are columns named \"%s\", but they are in tables that cannot be referenced from this part of the query.",
colname),
!relname ? errhint("Try using a table-qualified name.") : 0,
parser_errposition(pstate, location)));
/* Single exact match, so try to determine why it's inaccessible. */
ereport(ERROR,
(errcode(ERRCODE_UNDEFINED_COLUMN),
relname ?
errmsg("column %s.%s does not exist", relname, colname) :
errmsg("column \"%s\" does not exist", colname),
errdetail("There is a column named \"%s\" in table \"%s\", but it cannot be referenced from this part of the query.",
colname, state->rexact1->eref->aliasname),
rte_visible_if_lateral(pstate, state->rexact1) ?
errhint("To reference that column, you must mark this subquery with LATERAL.") :
(!relname && rte_visible_if_qualified(pstate, state->rexact1)) ?
errhint("To reference that column, you must use a table-qualified name.") : 0,
parser_errposition(pstate, location)));
}
if (!state->rsecond)
{
/* If we found no match at all, we have little to report */
if (!state->rfirst)
ereport(ERROR,
(errcode(ERRCODE_UNDEFINED_COLUMN),
relname ?
errmsg("column %s.%s does not exist", relname, colname) :
errmsg("column \"%s\" does not exist", colname),
parser_errposition(pstate, location)));
/* Handle case where we have a single alternative spelling to offer */
ereport(ERROR,
(errcode(ERRCODE_UNDEFINED_COLUMN),
relname ?
errmsg("column %s.%s does not exist", relname, colname) :
errmsg("column \"%s\" does not exist", colname),
errhint("Perhaps you meant to reference the column \"%s.%s\".",
state->rfirst->eref->aliasname,
strVal(list_nth(state->rfirst->eref->colnames,
state->first - 1))),
parser_errposition(pstate, location)));
}
else
{
/* Handle case where there are two equally useful column hints */
ereport(ERROR,
(errcode(ERRCODE_UNDEFINED_COLUMN),
relname ?
errmsg("column %s.%s does not exist", relname, colname) :
errmsg("column \"%s\" does not exist", colname),
errhint("Perhaps you meant to reference the column \"%s.%s\" or the column \"%s.%s\".",
state->rfirst->eref->aliasname,
strVal(list_nth(state->rfirst->eref->colnames,
state->first - 1)),
state->rsecond->eref->aliasname,
strVal(list_nth(state->rsecond->eref->colnames,
state->second - 1))),
parser_errposition(pstate, location)));
}
}
/*
* Find ParseNamespaceItem for RTE, if it's visible at all.
* We assume an RTE couldn't appear more than once in the namespace lists.
*/
static ParseNamespaceItem *
findNSItemForRTE(ParseState *pstate, RangeTblEntry *rte)
{
while (pstate != NULL)
{
ListCell *l;
foreach(l, pstate->p_namespace)
{
ParseNamespaceItem *nsitem = (ParseNamespaceItem *) lfirst(l);
if (nsitem->p_rte == rte)
return nsitem;
}
pstate = pstate->parentParseState;
}
return NULL;
}
/*
* Would this RTE be visible, if only the user had written LATERAL?
*
* This is a helper for deciding whether to issue a HINT about LATERAL.
* As such, it doesn't need to be 100% accurate; the HINT could be useful
* even if it's not quite right. Hence, we don't delve into fine points
* about whether a found nsitem has the appropriate one of p_rel_visible or
* p_cols_visible set.
*/
static bool
rte_visible_if_lateral(ParseState *pstate, RangeTblEntry *rte)
{
ParseNamespaceItem *nsitem;
/* If LATERAL *is* active, we're clearly barking up the wrong tree */
if (pstate->p_lateral_active)
return false;
nsitem = findNSItemForRTE(pstate, rte);
if (nsitem)
{
/* Found it, report whether it's LATERAL-only */
return nsitem->p_lateral_only && nsitem->p_lateral_ok;
}
return false;
}
/*
* Would columns in this RTE be visible if qualified?
*/
static bool
rte_visible_if_qualified(ParseState *pstate, RangeTblEntry *rte)
{
ParseNamespaceItem *nsitem = findNSItemForRTE(pstate, rte);
if (nsitem)
{
/* Found it, report whether it's relation-only */
return nsitem->p_rel_visible && !nsitem->p_cols_visible;
}
return false;
}
/*
* Examine a fully-parsed query, and return true iff any relation underlying
* the query is a temporary relation (table, view, or materialized view).
*/
bool
isQueryUsingTempRelation(Query *query)
{
return isQueryUsingTempRelation_walker((Node *) query, NULL);
}
static bool
isQueryUsingTempRelation_walker(Node *node, void *context)
{
if (node == NULL)
return false;
if (IsA(node, Query))
{
Query *query = (Query *) node;
ListCell *rtable;
foreach(rtable, query->rtable)
{
RangeTblEntry *rte = lfirst(rtable);
if (rte->rtekind == RTE_RELATION)
{
Relation rel = table_open(rte->relid, AccessShareLock);
char relpersistence = rel->rd_rel->relpersistence;
table_close(rel, AccessShareLock);
if (relpersistence == RELPERSISTENCE_TEMP)
return true;
}
}
return query_tree_walker(query,
isQueryUsingTempRelation_walker,
context,
QTW_IGNORE_JOINALIASES);
}
return expression_tree_walker(node,
isQueryUsingTempRelation_walker,
context);
}
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