/*
* CreateConstraintEntry
* Create a constraint table entry.
*
* Subsidiary records (such as triggers or indexes to implement the
* constraint) are *not* created here. But we do make dependency links
* from the constraint to the things it depends on.
*
* The new constraint's OID is returned.
*/
Oid
CreateConstraintEntry(const char *constraintName,
Oid constraintNamespace,
char constraintType,
bool isDeferrable,
bool isDeferred,
bool isValidated,
Oid relId,
const int16 *constraintKey,
int constraintNKeys,
Oid domainId,
Oid indexRelId,
Oid foreignRelId,
const int16 *foreignKey,
const Oid *pfEqOp,
const Oid *ppEqOp,
const Oid *ffEqOp,
int foreignNKeys,
char foreignUpdateType,
char foreignDeleteType,
char foreignMatchType,
const Oid *exclOp,
Node *conExpr,
const char *conBin,
const char *conSrc,
bool conIsLocal,
int conInhCount,
bool conNoInherit,
bool is_internal)
{
Relation conDesc;
Oid conOid;
HeapTuple tup;
bool nulls[Natts_pg_constraint];
Datum values[Natts_pg_constraint];
ArrayType *conkeyArray;
ArrayType *confkeyArray;
ArrayType *conpfeqopArray;
ArrayType *conppeqopArray;
ArrayType *conffeqopArray;
ArrayType *conexclopArray;
NameData cname;
int i;
ObjectAddress conobject;
conDesc = heap_open(ConstraintRelationId, RowExclusiveLock);
Assert(constraintName);
namestrcpy(&cname, constraintName);
/*
* Convert C arrays into Postgres arrays.
*/
if (constraintNKeys > 0)
{
Datum *conkey;
conkey = (Datum *) palloc(constraintNKeys * sizeof(Datum));
for (i = 0; i < constraintNKeys; i++)
conkey[i] = Int16GetDatum(constraintKey[i]);
conkeyArray = construct_array(conkey, constraintNKeys,
INT2OID, 2, true, 's');
}
else
conkeyArray = NULL;
if (foreignNKeys > 0)
{
Datum *fkdatums;
fkdatums = (Datum *) palloc(foreignNKeys * sizeof(Datum));
for (i = 0; i < foreignNKeys; i++)
fkdatums[i] = Int16GetDatum(foreignKey[i]);
confkeyArray = construct_array(fkdatums, foreignNKeys,
INT2OID, 2, true, 's');
for (i = 0; i < foreignNKeys; i++)
fkdatums[i] = ObjectIdGetDatum(pfEqOp[i]);
conpfeqopArray = construct_array(fkdatums, foreignNKeys,
OIDOID, sizeof(Oid), true, 'i');
for (i = 0; i < foreignNKeys; i++)
fkdatums[i] = ObjectIdGetDatum(ppEqOp[i]);
conppeqopArray = construct_array(fkdatums, foreignNKeys,
OIDOID, sizeof(Oid), true, 'i');
for (i = 0; i < foreignNKeys; i++)
fkdatums[i] = ObjectIdGetDatum(ffEqOp[i]);
conffeqopArray = construct_array(fkdatums, foreignNKeys,
OIDOID, sizeof(Oid), true, 'i');
}
else
{
confkeyArray = NULL;
conpfeqopArray = NULL;
conppeqopArray = NULL;
conffeqopArray = NULL;
}
if (exclOp != NULL)
{
Datum *opdatums;
opdatums = (Datum *) palloc(constraintNKeys * sizeof(Datum));
for (i = 0; i < constraintNKeys; i++)
opdatums[i] = ObjectIdGetDatum(exclOp[i]);
conexclopArray = construct_array(opdatums, constraintNKeys,
OIDOID, sizeof(Oid), true, 'i');
}
else
conexclopArray = NULL;
/* initialize nulls and values */
for (i = 0; i < Natts_pg_constraint; i++)
{
nulls[i] = false;
values[i] = (Datum) NULL;
}
values[Anum_pg_constraint_conname - 1] = NameGetDatum(&cname);
values[Anum_pg_constraint_connamespace - 1] = ObjectIdGetDatum(constraintNamespace);
values[Anum_pg_constraint_contype - 1] = CharGetDatum(constraintType);
values[Anum_pg_constraint_condeferrable - 1] = BoolGetDatum(isDeferrable);
values[Anum_pg_constraint_condeferred - 1] = BoolGetDatum(isDeferred);
values[Anum_pg_constraint_convalidated - 1] = BoolGetDatum(isValidated);
values[Anum_pg_constraint_conrelid - 1] = ObjectIdGetDatum(relId);
values[Anum_pg_constraint_contypid - 1] = ObjectIdGetDatum(domainId);
values[Anum_pg_constraint_conindid - 1] = ObjectIdGetDatum(indexRelId);
values[Anum_pg_constraint_confrelid - 1] = ObjectIdGetDatum(foreignRelId);
values[Anum_pg_constraint_confupdtype - 1] = CharGetDatum(foreignUpdateType);
values[Anum_pg_constraint_confdeltype - 1] = CharGetDatum(foreignDeleteType);
values[Anum_pg_constraint_confmatchtype - 1] = CharGetDatum(foreignMatchType);
values[Anum_pg_constraint_conislocal - 1] = BoolGetDatum(conIsLocal);
values[Anum_pg_constraint_coninhcount - 1] = Int32GetDatum(conInhCount);
values[Anum_pg_constraint_connoinherit - 1] = BoolGetDatum(conNoInherit);
if (conkeyArray)
values[Anum_pg_constraint_conkey - 1] = PointerGetDatum(conkeyArray);
else
nulls[Anum_pg_constraint_conkey - 1] = true;
if (confkeyArray)
values[Anum_pg_constraint_confkey - 1] = PointerGetDatum(confkeyArray);
else
nulls[Anum_pg_constraint_confkey - 1] = true;
if (conpfeqopArray)
values[Anum_pg_constraint_conpfeqop - 1] = PointerGetDatum(conpfeqopArray);
else
nulls[Anum_pg_constraint_conpfeqop - 1] = true;
if (conppeqopArray)
values[Anum_pg_constraint_conppeqop - 1] = PointerGetDatum(conppeqopArray);
else
nulls[Anum_pg_constraint_conppeqop - 1] = true;
if (conffeqopArray)
values[Anum_pg_constraint_conffeqop - 1] = PointerGetDatum(conffeqopArray);
else
nulls[Anum_pg_constraint_conffeqop - 1] = true;
if (conexclopArray)
values[Anum_pg_constraint_conexclop - 1] = PointerGetDatum(conexclopArray);
else
nulls[Anum_pg_constraint_conexclop - 1] = true;
/*
* initialize the binary form of the check constraint.
*/
if (conBin)
values[Anum_pg_constraint_conbin - 1] = CStringGetTextDatum(conBin);
else
nulls[Anum_pg_constraint_conbin - 1] = true;
/*
* initialize the text form of the check constraint
*/
if (conSrc)
values[Anum_pg_constraint_consrc - 1] = CStringGetTextDatum(conSrc);
else
nulls[Anum_pg_constraint_consrc - 1] = true;
tup = heap_form_tuple(RelationGetDescr(conDesc), values, nulls);
conOid = simple_heap_insert(conDesc, tup);
/* update catalog indexes */
CatalogUpdateIndexes(conDesc, tup);
conobject.classId = ConstraintRelationId;
conobject.objectId = conOid;
conobject.objectSubId = 0;
heap_close(conDesc, RowExclusiveLock);
if (OidIsValid(relId))
{
/*
* Register auto dependency from constraint to owning relation, or to
* specific column(s) if any are mentioned.
*/
ObjectAddress relobject;
relobject.classId = RelationRelationId;
relobject.objectId = relId;
if (constraintNKeys > 0)
{
for (i = 0; i < constraintNKeys; i++)
{
relobject.objectSubId = constraintKey[i];
recordDependencyOn(&conobject, &relobject, DEPENDENCY_AUTO);
}
}
else
{
relobject.objectSubId = 0;
recordDependencyOn(&conobject, &relobject, DEPENDENCY_AUTO);
}
}
if (OidIsValid(domainId))
{
/*
* Register auto dependency from constraint to owning domain
*/
ObjectAddress domobject;
domobject.classId = TypeRelationId;
domobject.objectId = domainId;
domobject.objectSubId = 0;
recordDependencyOn(&conobject, &domobject, DEPENDENCY_AUTO);
}
if (OidIsValid(foreignRelId))
{
/*
* Register normal dependency from constraint to foreign relation, or
* to specific column(s) if any are mentioned.
*/
ObjectAddress relobject;
relobject.classId = RelationRelationId;
relobject.objectId = foreignRelId;
if (foreignNKeys > 0)
{
for (i = 0; i < foreignNKeys; i++)
{
relobject.objectSubId = foreignKey[i];
recordDependencyOn(&conobject, &relobject, DEPENDENCY_NORMAL);
}
}
else
{
relobject.objectSubId = 0;
recordDependencyOn(&conobject, &relobject, DEPENDENCY_NORMAL);
}
}
if (OidIsValid(indexRelId) && constraintType == CONSTRAINT_FOREIGN)
{
/*
* Register normal dependency on the unique index that supports a
* foreign-key constraint. (Note: for indexes associated with unique
* or primary-key constraints, the dependency runs the other way, and
* is not made here.)
*/
ObjectAddress relobject;
relobject.classId = RelationRelationId;
relobject.objectId = indexRelId;
relobject.objectSubId = 0;
recordDependencyOn(&conobject, &relobject, DEPENDENCY_NORMAL);
}
if (foreignNKeys > 0)
{
/*
* Register normal dependencies on the equality operators that support
* a foreign-key constraint. If the PK and FK types are the same then
* all three operators for a column are the same; otherwise they are
* different.
*/
ObjectAddress oprobject;
oprobject.classId = OperatorRelationId;
oprobject.objectSubId = 0;
for (i = 0; i < foreignNKeys; i++)
{
oprobject.objectId = pfEqOp[i];
recordDependencyOn(&conobject, &oprobject, DEPENDENCY_NORMAL);
if (ppEqOp[i] != pfEqOp[i])
{
oprobject.objectId = ppEqOp[i];
recordDependencyOn(&conobject, &oprobject, DEPENDENCY_NORMAL);
}
if (ffEqOp[i] != pfEqOp[i])
{
oprobject.objectId = ffEqOp[i];
recordDependencyOn(&conobject, &oprobject, DEPENDENCY_NORMAL);
}
}
}
/*
* We don't bother to register dependencies on the exclusion operators of
* an exclusion constraint. We assume they are members of the opclass
* supporting the index, so there's an indirect dependency via that. (This
* would be pretty dicey for cross-type operators, but exclusion operators
* can never be cross-type.)
*/
if (conExpr != NULL)
{
/*
* Register dependencies from constraint to objects mentioned in CHECK
* expression.
*/
recordDependencyOnSingleRelExpr(&conobject, conExpr, relId,
DEPENDENCY_NORMAL,
DEPENDENCY_NORMAL);
}
/* Post creation hook for new constraint */
InvokeObjectPostCreateHookArg(ConstraintRelationId, conOid, 0,
is_internal);
return conOid;
}
/* ----------------------------------------------------------------
* index_create
*
* Returns OID of the created index.
* ----------------------------------------------------------------
*/
Oid
index_create(Oid heapRelationId,
const char *indexRelationName,
IndexInfo *indexInfo,
Oid accessMethodObjectId,
Oid *classObjectId,
bool primary,
bool isconstraint,
bool allow_system_table_mods)
{
Relation heapRelation;
Relation indexRelation;
TupleDesc indexTupDesc;
bool shared_relation;
Oid namespaceId;
Oid indexoid;
int i;
/*
* Only SELECT ... FOR UPDATE are allowed while doing this
*/
heapRelation = heap_open(heapRelationId, ShareLock);
/*
* The index will be in the same namespace as its parent table, and is
* shared across databases if and only if the parent is.
*/
namespaceId = RelationGetNamespace(heapRelation);
shared_relation = heapRelation->rd_rel->relisshared;
/*
* check parameters
*/
if (indexInfo->ii_NumIndexAttrs < 1)
elog(ERROR, "must index at least one column");
if (!allow_system_table_mods &&
IsSystemRelation(heapRelation) &&
IsNormalProcessingMode())
ereport(ERROR,
(errcode(ERRCODE_FEATURE_NOT_SUPPORTED),
errmsg("user-defined indexes on system catalog tables are not supported")));
/*
* We cannot allow indexing a shared relation after initdb (because
* there's no way to make the entry in other databases' pg_class).
* Unfortunately we can't distinguish initdb from a manually started
* standalone backend. However, we can at least prevent this mistake
* under normal multi-user operation.
*/
if (shared_relation && IsUnderPostmaster)
ereport(ERROR,
(errcode(ERRCODE_OBJECT_NOT_IN_PREREQUISITE_STATE),
errmsg("shared indexes cannot be created after initdb")));
if (get_relname_relid(indexRelationName, namespaceId))
ereport(ERROR,
(errcode(ERRCODE_DUPLICATE_TABLE),
errmsg("relation \"%s\" already exists",
indexRelationName)));
/*
* construct tuple descriptor for index tuples
*/
indexTupDesc = ConstructTupleDescriptor(heapRelation,
indexInfo,
classObjectId);
/*
* create the index relation's relcache entry and physical disk file.
* (If we fail further down, it's the smgr's responsibility to remove
* the disk file again.)
*/
indexRelation = heap_create(indexRelationName,
namespaceId,
indexTupDesc,
shared_relation,
true,
allow_system_table_mods);
/* Fetch the relation OID assigned by heap_create */
indexoid = RelationGetRelid(indexRelation);
/*
* Obtain exclusive lock on it. Although no other backends can see it
* until we commit, this prevents deadlock-risk complaints from lock
* manager in cases such as CLUSTER.
*/
LockRelation(indexRelation, AccessExclusiveLock);
/*
* Fill in fields of the index's pg_class entry that are not set
* correctly by heap_create.
*
* XXX should have a cleaner way to create cataloged indexes
*/
indexRelation->rd_rel->relowner = GetUserId();
indexRelation->rd_rel->relam = accessMethodObjectId;
indexRelation->rd_rel->relkind = RELKIND_INDEX;
indexRelation->rd_rel->relhasoids = false;
/*
* store index's pg_class entry
*/
UpdateRelationRelation(indexRelation);
/*
* now update the object id's of all the attribute tuple forms in the
* index relation's tuple descriptor
*/
InitializeAttributeOids(indexRelation,
indexInfo->ii_NumIndexAttrs,
indexoid);
/*
* append ATTRIBUTE tuples for the index
*/
AppendAttributeTuples(indexRelation, indexInfo->ii_NumIndexAttrs);
/* ----------------
* update pg_index
* (append INDEX tuple)
*
* Note that this stows away a representation of "predicate".
* (Or, could define a rule to maintain the predicate) --Nels, Feb '92
* ----------------
*/
UpdateIndexRelation(indexoid, heapRelationId, indexInfo,
classObjectId, primary);
/*
* Register constraint and dependencies for the index.
*
* If the index is from a CONSTRAINT clause, construct a pg_constraint
* entry. The index is then linked to the constraint, which in turn
* is linked to the table. If it's not a CONSTRAINT, make the
* dependency directly on the table.
*
* We don't need a dependency on the namespace, because there'll be an
* indirect dependency via our parent table.
*
* During bootstrap we can't register any dependencies, and we don't try
* to make a constraint either.
*/
if (!IsBootstrapProcessingMode())
{
ObjectAddress myself,
referenced;
myself.classId = RelOid_pg_class;
myself.objectId = indexoid;
myself.objectSubId = 0;
if (isconstraint)
{
char constraintType;
Oid conOid;
if (primary)
constraintType = CONSTRAINT_PRIMARY;
else if (indexInfo->ii_Unique)
constraintType = CONSTRAINT_UNIQUE;
else
{
elog(ERROR, "constraint must be PRIMARY or UNIQUE");
constraintType = 0; /* keep compiler quiet */
}
/* Shouldn't have any expressions */
if (indexInfo->ii_Expressions)
elog(ERROR, "constraints can't have index expressions");
conOid = CreateConstraintEntry(indexRelationName,
namespaceId,
constraintType,
false, /* isDeferrable */
false, /* isDeferred */
heapRelationId,
indexInfo->ii_KeyAttrNumbers,
indexInfo->ii_NumIndexAttrs,
InvalidOid, /* no domain */
InvalidOid, /* no foreign key */
NULL,
0,
' ',
' ',
' ',
InvalidOid, /* no associated index */
NULL, /* no check constraint */
NULL,
NULL);
referenced.classId = get_system_catalog_relid(ConstraintRelationName);
referenced.objectId = conOid;
referenced.objectSubId = 0;
recordDependencyOn(&myself, &referenced, DEPENDENCY_INTERNAL);
}
else
{
/* Create auto dependencies on simply-referenced columns */
for (i = 0; i < indexInfo->ii_NumIndexAttrs; i++)
{
if (indexInfo->ii_KeyAttrNumbers[i] != 0)
{
referenced.classId = RelOid_pg_class;
referenced.objectId = heapRelationId;
referenced.objectSubId = indexInfo->ii_KeyAttrNumbers[i];
recordDependencyOn(&myself, &referenced, DEPENDENCY_AUTO);
}
}
}
/* Store dependency on operator classes */
referenced.classId = get_system_catalog_relid(OperatorClassRelationName);
for (i = 0; i < indexInfo->ii_NumIndexAttrs; i++)
{
referenced.objectId = classObjectId[i];
referenced.objectSubId = 0;
recordDependencyOn(&myself, &referenced, DEPENDENCY_NORMAL);
}
/* Store dependencies on anything mentioned in index expressions */
if (indexInfo->ii_Expressions)
{
recordDependencyOnSingleRelExpr(&myself,
(Node *) indexInfo->ii_Expressions,
heapRelationId,
DEPENDENCY_NORMAL,
DEPENDENCY_AUTO);
}
/* Store dependencies on anything mentioned in predicate */
if (indexInfo->ii_Predicate)
{
recordDependencyOnSingleRelExpr(&myself,
(Node *) indexInfo->ii_Predicate,
heapRelationId,
DEPENDENCY_NORMAL,
DEPENDENCY_AUTO);
}
}
/*
* Advance the command counter so that we can see the newly-entered
* catalog tuples for the index.
*/
CommandCounterIncrement();
/*
* In bootstrap mode, we have to fill in the index strategy structure
* with information from the catalogs. If we aren't bootstrapping,
* then the relcache entry has already been rebuilt thanks to sinval
* update during CommandCounterIncrement.
*/
if (IsBootstrapProcessingMode())
RelationInitIndexAccessInfo(indexRelation);
else
Assert(indexRelation->rd_indexcxt != NULL);
/*
* If this is bootstrap (initdb) time, then we don't actually fill in
* the index yet. We'll be creating more indexes and classes later,
* so we delay filling them in until just before we're done with
* bootstrapping. Otherwise, we call the routine that constructs the
* index.
*
* In normal processing mode, the heap and index relations are closed by
* index_build() --- but we continue to hold the ShareLock on the heap
* and the exclusive lock on the index that we acquired above, until
* end of transaction.
*/
if (IsBootstrapProcessingMode())
{
index_register(heapRelationId, indexoid, indexInfo);
/* XXX shouldn't we close the heap and index rels here? */
}
else
index_build(heapRelation, indexRelation, indexInfo);
return indexoid;
}
/*
* CreateConstraintEntry
* Create a constraint table entry.
*
* Subsidiary records (such as triggers or indexes to implement the
* constraint) are *not* created here. But we do make dependency links
* from the constraint to the things it depends on.
*/
Oid
CreateConstraintEntry(const char *constraintName,
Oid constraintNamespace,
char constraintType,
bool isDeferrable,
bool isDeferred,
Oid relId,
const int16 *constraintKey,
int constraintNKeys,
Oid domainId,
Oid foreignRelId,
const int16 *foreignKey,
const Oid *pfEqOp,
const Oid *ppEqOp,
const Oid *ffEqOp,
int foreignNKeys,
char foreignUpdateType,
char foreignDeleteType,
char foreignMatchType,
Oid indexRelId,
Node *conExpr,
const char *conBin,
const char *conSrc)
{
Relation conDesc;
Oid conOid;
HeapTuple tup;
bool nulls[Natts_pg_constraint];
Datum values[Natts_pg_constraint];
ArrayType *conkeyArray;
ArrayType *confkeyArray;
ArrayType *conpfeqopArray;
ArrayType *conppeqopArray;
ArrayType *conffeqopArray;
NameData cname;
int i;
ObjectAddress conobject;
conDesc = heap_open(ConstraintRelationId, RowExclusiveLock);
Assert(constraintName);
namestrcpy(&cname, constraintName);
/*
* Convert C arrays into Postgres arrays.
*/
if (constraintNKeys > 0)
{
Datum *conkey;
conkey = (Datum *) palloc(constraintNKeys * sizeof(Datum));
for (i = 0; i < constraintNKeys; i++)
conkey[i] = Int16GetDatum(constraintKey[i]);
conkeyArray = construct_array(conkey, constraintNKeys,
INT2OID, 2, true, 's');
}
else
conkeyArray = NULL;
if (foreignNKeys > 0)
{
Datum *fkdatums;
fkdatums = (Datum *) palloc(foreignNKeys * sizeof(Datum));
for (i = 0; i < foreignNKeys; i++)
fkdatums[i] = Int16GetDatum(foreignKey[i]);
confkeyArray = construct_array(fkdatums, foreignNKeys,
INT2OID, 2, true, 's');
for (i = 0; i < foreignNKeys; i++)
fkdatums[i] = ObjectIdGetDatum(pfEqOp[i]);
conpfeqopArray = construct_array(fkdatums, foreignNKeys,
OIDOID, sizeof(Oid), true, 'i');
for (i = 0; i < foreignNKeys; i++)
fkdatums[i] = ObjectIdGetDatum(ppEqOp[i]);
conppeqopArray = construct_array(fkdatums, foreignNKeys,
OIDOID, sizeof(Oid), true, 'i');
for (i = 0; i < foreignNKeys; i++)
fkdatums[i] = ObjectIdGetDatum(ffEqOp[i]);
conffeqopArray = construct_array(fkdatums, foreignNKeys,
OIDOID, sizeof(Oid), true, 'i');
}
else
{
confkeyArray = NULL;
conpfeqopArray = NULL;
conppeqopArray = NULL;
conffeqopArray = NULL;
}
/* initialize nulls and values */
for (i = 0; i < Natts_pg_constraint; i++)
{
nulls[i] = false;
values[i] = (Datum) 0;
}
values[Anum_pg_constraint_conname - 1] = NameGetDatum(&cname);
values[Anum_pg_constraint_connamespace - 1] = ObjectIdGetDatum(constraintNamespace);
values[Anum_pg_constraint_contype - 1] = CharGetDatum(constraintType);
values[Anum_pg_constraint_condeferrable - 1] = BoolGetDatum(isDeferrable);
values[Anum_pg_constraint_condeferred - 1] = BoolGetDatum(isDeferred);
values[Anum_pg_constraint_conrelid - 1] = ObjectIdGetDatum(relId);
values[Anum_pg_constraint_contypid - 1] = ObjectIdGetDatum(domainId);
values[Anum_pg_constraint_confrelid - 1] = ObjectIdGetDatum(foreignRelId);
values[Anum_pg_constraint_confupdtype - 1] = CharGetDatum(foreignUpdateType);
values[Anum_pg_constraint_confdeltype - 1] = CharGetDatum(foreignDeleteType);
values[Anum_pg_constraint_confmatchtype - 1] = CharGetDatum(foreignMatchType);
if (conkeyArray)
values[Anum_pg_constraint_conkey - 1] = PointerGetDatum(conkeyArray);
else
nulls[Anum_pg_constraint_conkey - 1] = true;
if (confkeyArray)
values[Anum_pg_constraint_confkey - 1] = PointerGetDatum(confkeyArray);
else
nulls[Anum_pg_constraint_confkey - 1] = true;
if (conpfeqopArray)
values[Anum_pg_constraint_conpfeqop - 1] = PointerGetDatum(conpfeqopArray);
else
nulls[Anum_pg_constraint_conpfeqop - 1] = 'n';
if (conppeqopArray)
values[Anum_pg_constraint_conppeqop - 1] = PointerGetDatum(conppeqopArray);
else
nulls[Anum_pg_constraint_conppeqop - 1] = 'n';
if (conffeqopArray)
values[Anum_pg_constraint_conffeqop - 1] = PointerGetDatum(conffeqopArray);
else
nulls[Anum_pg_constraint_conffeqop - 1] = 'n';
/*
* initialize the binary form of the check constraint.
*/
if (conBin)
values[Anum_pg_constraint_conbin - 1] = DirectFunctionCall1(textin,
CStringGetDatum((char *) conBin));
else
nulls[Anum_pg_constraint_conbin - 1] = true;
/*
* initialize the text form of the check constraint
*/
if (conSrc)
values[Anum_pg_constraint_consrc - 1] = DirectFunctionCall1(textin,
CStringGetDatum((char *) conSrc));
else
nulls[Anum_pg_constraint_consrc - 1] = true;
tup = heap_form_tuple(RelationGetDescr(conDesc), values, nulls);
conOid = simple_heap_insert(conDesc, tup);
/* update catalog indexes */
CatalogUpdateIndexes(conDesc, tup);
conobject.classId = ConstraintRelationId;
conobject.objectId = conOid;
conobject.objectSubId = 0;
heap_close(conDesc, RowExclusiveLock);
if (OidIsValid(relId))
{
/*
* Register auto dependency from constraint to owning relation, or to
* specific column(s) if any are mentioned.
*/
ObjectAddress relobject;
relobject.classId = RelationRelationId;
relobject.objectId = relId;
if (constraintNKeys > 0)
{
for (i = 0; i < constraintNKeys; i++)
{
relobject.objectSubId = constraintKey[i];
recordDependencyOn(&conobject, &relobject, DEPENDENCY_AUTO);
}
}
else
{
relobject.objectSubId = 0;
recordDependencyOn(&conobject, &relobject, DEPENDENCY_AUTO);
}
}
if (OidIsValid(domainId))
{
/*
* Register auto dependency from constraint to owning domain
*/
ObjectAddress domobject;
domobject.classId = TypeRelationId;
domobject.objectId = domainId;
domobject.objectSubId = 0;
recordDependencyOn(&conobject, &domobject, DEPENDENCY_AUTO);
}
if (OidIsValid(foreignRelId))
{
/*
* Register normal dependency from constraint to foreign relation, or
* to specific column(s) if any are mentioned.
*/
ObjectAddress relobject;
relobject.classId = RelationRelationId;
relobject.objectId = foreignRelId;
if (foreignNKeys > 0)
{
for (i = 0; i < foreignNKeys; i++)
{
relobject.objectSubId = foreignKey[i];
recordDependencyOn(&conobject, &relobject, DEPENDENCY_NORMAL);
}
}
else
{
relobject.objectSubId = 0;
recordDependencyOn(&conobject, &relobject, DEPENDENCY_NORMAL);
}
}
if (OidIsValid(indexRelId))
{
/*
* Register normal dependency on the unique index that supports a
* foreign-key constraint.
*/
ObjectAddress relobject;
relobject.classId = RelationRelationId;
relobject.objectId = indexRelId;
relobject.objectSubId = 0;
recordDependencyOn(&conobject, &relobject, DEPENDENCY_NORMAL);
}
if (foreignNKeys > 0)
{
/*
* Register normal dependencies on the equality operators that support
* a foreign-key constraint. If the PK and FK types are the same then
* all three operators for a column are the same; otherwise they are
* different.
*/
ObjectAddress oprobject;
oprobject.classId = OperatorRelationId;
oprobject.objectSubId = 0;
for (i = 0; i < foreignNKeys; i++)
{
oprobject.objectId = pfEqOp[i];
recordDependencyOn(&conobject, &oprobject, DEPENDENCY_NORMAL);
if (ppEqOp[i] != pfEqOp[i])
{
oprobject.objectId = ppEqOp[i];
recordDependencyOn(&conobject, &oprobject, DEPENDENCY_NORMAL);
}
if (ffEqOp[i] != pfEqOp[i])
{
oprobject.objectId = ffEqOp[i];
recordDependencyOn(&conobject, &oprobject, DEPENDENCY_NORMAL);
}
}
}
if (conExpr != NULL)
{
/*
* Register dependencies from constraint to objects mentioned in CHECK
* expression.
*/
recordDependencyOnSingleRelExpr(&conobject, conExpr, relId,
DEPENDENCY_NORMAL,
DEPENDENCY_NORMAL);
}
return conOid;
}
/*
* CreateConstraintEntry
* Create a constraint table entry.
*
* Subsidiary records (such as triggers or indexes to implement the
* constraint) are *not* created here. But we do make dependency links
* from the constraint to the things it depends on.
*/
Oid
CreateConstraintEntry(const char *constraintName,
Oid conOid,
Oid constraintNamespace,
char constraintType,
bool isDeferrable,
bool isDeferred,
Oid relId,
const int16 *constraintKey,
int constraintNKeys,
Oid domainId,
Oid foreignRelId,
const int16 *foreignKey,
int foreignNKeys,
char foreignUpdateType,
char foreignDeleteType,
char foreignMatchType,
Oid indexRelId,
Node *conExpr,
const char *conBin,
const char *conSrc)
{
HeapTuple tup;
bool nulls[Natts_pg_constraint];
Datum values[Natts_pg_constraint];
ArrayType *conkeyArray;
ArrayType *confkeyArray;
NameData cname;
int i;
ObjectAddress conobject;
cqContext *pcqCtx;
pcqCtx = caql_beginscan(
NULL,
cql("INSERT INTO pg_constraint",
NULL));
Assert(constraintName);
namestrcpy(&cname, constraintName);
/*
* Convert C arrays into Postgres arrays.
*/
if (constraintNKeys > 0)
{
Datum *conkey;
conkey = (Datum *) palloc(constraintNKeys * sizeof(Datum));
for (i = 0; i < constraintNKeys; i++)
conkey[i] = Int16GetDatum(constraintKey[i]);
conkeyArray = construct_array(conkey, constraintNKeys,
INT2OID, 2, true, 's');
}
else
conkeyArray = NULL;
if (foreignNKeys > 0)
{
Datum *confkey;
confkey = (Datum *) palloc(foreignNKeys * sizeof(Datum));
for (i = 0; i < foreignNKeys; i++)
confkey[i] = Int16GetDatum(foreignKey[i]);
confkeyArray = construct_array(confkey, foreignNKeys,
INT2OID, 2, true, 's');
}
else
confkeyArray = NULL;
/* initialize nulls and values */
for (i = 0; i < Natts_pg_constraint; i++)
{
nulls[i] = false;
values[i] = (Datum) 0;
}
values[Anum_pg_constraint_conname - 1] = NameGetDatum(&cname);
values[Anum_pg_constraint_connamespace - 1] = ObjectIdGetDatum(constraintNamespace);
values[Anum_pg_constraint_contype - 1] = CharGetDatum(constraintType);
values[Anum_pg_constraint_condeferrable - 1] = BoolGetDatum(isDeferrable);
values[Anum_pg_constraint_condeferred - 1] = BoolGetDatum(isDeferred);
values[Anum_pg_constraint_conrelid - 1] = ObjectIdGetDatum(relId);
values[Anum_pg_constraint_contypid - 1] = ObjectIdGetDatum(domainId);
values[Anum_pg_constraint_confrelid - 1] = ObjectIdGetDatum(foreignRelId);
values[Anum_pg_constraint_confupdtype - 1] = CharGetDatum(foreignUpdateType);
values[Anum_pg_constraint_confdeltype - 1] = CharGetDatum(foreignDeleteType);
values[Anum_pg_constraint_confmatchtype - 1] = CharGetDatum(foreignMatchType);
if (conkeyArray)
values[Anum_pg_constraint_conkey - 1] = PointerGetDatum(conkeyArray);
else
nulls[Anum_pg_constraint_conkey - 1] = true;
if (confkeyArray)
values[Anum_pg_constraint_confkey - 1] = PointerGetDatum(confkeyArray);
else
nulls[Anum_pg_constraint_confkey - 1] = true;
/*
* initialize the binary form of the check constraint.
*/
if (conBin)
values[Anum_pg_constraint_conbin - 1] = DirectFunctionCall1(textin,
CStringGetDatum((char *) conBin));
else
nulls[Anum_pg_constraint_conbin - 1] = true;
/*
* initialize the text form of the check constraint
*/
if (conSrc)
values[Anum_pg_constraint_consrc - 1] = DirectFunctionCall1(textin,
CStringGetDatum((char *) conSrc));
else
nulls[Anum_pg_constraint_consrc - 1] = true;
tup = caql_form_tuple(pcqCtx, values, nulls);
/* force tuple to have the desired OID */
if (OidIsValid(conOid))
HeapTupleSetOid(tup, conOid);
conOid = caql_insert(pcqCtx, tup); /* implicit update of index as well */
conobject.classId = ConstraintRelationId;
conobject.objectId = conOid;
conobject.objectSubId = 0;
caql_endscan(pcqCtx);
if (OidIsValid(relId))
{
/*
* Register auto dependency from constraint to owning relation, or to
* specific column(s) if any are mentioned.
*/
ObjectAddress relobject;
relobject.classId = RelationRelationId;
relobject.objectId = relId;
if (constraintNKeys > 0)
{
for (i = 0; i < constraintNKeys; i++)
{
relobject.objectSubId = constraintKey[i];
recordDependencyOn(&conobject, &relobject, DEPENDENCY_AUTO);
}
}
else
{
relobject.objectSubId = 0;
recordDependencyOn(&conobject, &relobject, DEPENDENCY_AUTO);
}
}
if (OidIsValid(domainId))
{
/*
* Register auto dependency from constraint to owning domain
*/
ObjectAddress domobject;
domobject.classId = TypeRelationId;
domobject.objectId = domainId;
domobject.objectSubId = 0;
recordDependencyOn(&conobject, &domobject, DEPENDENCY_AUTO);
}
if (OidIsValid(foreignRelId))
{
/*
* Register normal dependency from constraint to foreign relation, or
* to specific column(s) if any are mentioned.
*/
ObjectAddress relobject;
relobject.classId = RelationRelationId;
relobject.objectId = foreignRelId;
if (foreignNKeys > 0)
{
for (i = 0; i < foreignNKeys; i++)
{
relobject.objectSubId = foreignKey[i];
recordDependencyOn(&conobject, &relobject, DEPENDENCY_NORMAL);
}
}
else
{
relobject.objectSubId = 0;
recordDependencyOn(&conobject, &relobject, DEPENDENCY_NORMAL);
}
}
if (OidIsValid(indexRelId))
{
/*
* Register normal dependency on the unique index that supports a
* foreign-key constraint.
*/
ObjectAddress relobject;
relobject.classId = RelationRelationId;
relobject.objectId = indexRelId;
relobject.objectSubId = 0;
recordDependencyOn(&conobject, &relobject, DEPENDENCY_NORMAL);
}
if (conExpr != NULL)
{
/*
* Register dependencies from constraint to objects mentioned in CHECK
* expression.
*/
recordDependencyOnSingleRelExpr(&conobject, conExpr, relId,
DEPENDENCY_NORMAL,
DEPENDENCY_NORMAL);
}
return conOid;
}
