/*------------------------------------------------------------------------- * * nbtvalidate.c * Opclass validator for btree. * * Portions Copyright (c) 1996-2023, PostgreSQL Global Development Group * Portions Copyright (c) 1994, Regents of the University of California * * IDENTIFICATION * src/backend/access/nbtree/nbtvalidate.c * *------------------------------------------------------------------------- */ #include "postgres.h" #include "access/amvalidate.h" #include "access/htup_details.h" #include "access/nbtree.h" #include "access/xact.h" #include "catalog/pg_am.h" #include "catalog/pg_amop.h" #include "catalog/pg_amproc.h" #include "catalog/pg_opclass.h" #include "catalog/pg_opfamily.h" #include "catalog/pg_type.h" #include "utils/builtins.h" #include "utils/lsyscache.h" #include "utils/regproc.h" #include "utils/syscache.h" /* * Validator for a btree opclass. * * Some of the checks done here cover the whole opfamily, and therefore are * redundant when checking each opclass in a family. But they don't run long * enough to be much of a problem, so we accept the duplication rather than * complicate the amvalidate API. */ bool btvalidate(Oid opclassoid) { bool result = true; HeapTuple classtup; Form_pg_opclass classform; Oid opfamilyoid; Oid opcintype; char *opclassname; HeapTuple familytup; Form_pg_opfamily familyform; char *opfamilyname; CatCList *proclist, *oprlist; List *grouplist; OpFamilyOpFuncGroup *opclassgroup; List *familytypes; int usefulgroups; int i; ListCell *lc; /* Fetch opclass information */ classtup = SearchSysCache1(CLAOID, ObjectIdGetDatum(opclassoid)); if (!HeapTupleIsValid(classtup)) elog(ERROR, "cache lookup failed for operator class %u", opclassoid); classform = (Form_pg_opclass) GETSTRUCT(classtup); opfamilyoid = classform->opcfamily; opcintype = classform->opcintype; opclassname = NameStr(classform->opcname); /* Fetch opfamily information */ familytup = SearchSysCache1(OPFAMILYOID, ObjectIdGetDatum(opfamilyoid)); if (!HeapTupleIsValid(familytup)) elog(ERROR, "cache lookup failed for operator family %u", opfamilyoid); familyform = (Form_pg_opfamily) GETSTRUCT(familytup); opfamilyname = NameStr(familyform->opfname); /* Fetch all operators and support functions of the opfamily */ oprlist = SearchSysCacheList1(AMOPSTRATEGY, ObjectIdGetDatum(opfamilyoid)); proclist = SearchSysCacheList1(AMPROCNUM, ObjectIdGetDatum(opfamilyoid)); /* Check individual support functions */ for (i = 0; i < proclist->n_members; i++) { HeapTuple proctup = &proclist->members[i]->tuple; Form_pg_amproc procform = (Form_pg_amproc) GETSTRUCT(proctup); bool ok; /* Check procedure numbers and function signatures */ switch (procform->amprocnum) { case BTORDER_PROC: ok = check_amproc_signature(procform->amproc, INT4OID, true, 2, 2, procform->amproclefttype, procform->amprocrighttype); break; case BTSORTSUPPORT_PROC: ok = check_amproc_signature(procform->amproc, VOIDOID, true, 1, 1, INTERNALOID); break; case BTINRANGE_PROC: ok = check_amproc_signature(procform->amproc, BOOLOID, true, 5, 5, procform->amproclefttype, procform->amproclefttype, procform->amprocrighttype, BOOLOID, BOOLOID); break; case BTEQUALIMAGE_PROC: ok = check_amproc_signature(procform->amproc, BOOLOID, true, 1, 1, OIDOID); break; case BTOPTIONS_PROC: ok = check_amoptsproc_signature(procform->amproc); break; default: ereport(INFO, (errcode(ERRCODE_INVALID_OBJECT_DEFINITION), errmsg("operator family \"%s\" of access method %s contains function %s with invalid support number %d", opfamilyname, "btree", format_procedure(procform->amproc), procform->amprocnum))); result = false; continue; /* don't want additional message */ } if (!ok) { ereport(INFO, (errcode(ERRCODE_INVALID_OBJECT_DEFINITION), errmsg("operator family \"%s\" of access method %s contains function %s with wrong signature for support number %d", opfamilyname, "btree", format_procedure(procform->amproc), procform->amprocnum))); result = false; } } /* Check individual operators */ for (i = 0; i < oprlist->n_members; i++) { HeapTuple oprtup = &oprlist->members[i]->tuple; Form_pg_amop oprform = (Form_pg_amop) GETSTRUCT(oprtup); /* Check that only allowed strategy numbers exist */ if (oprform->amopstrategy < 1 || oprform->amopstrategy > BTMaxStrategyNumber) { ereport(INFO, (errcode(ERRCODE_INVALID_OBJECT_DEFINITION), errmsg("operator family \"%s\" of access method %s contains operator %s with invalid strategy number %d", opfamilyname, "btree", format_operator(oprform->amopopr), oprform->amopstrategy))); result = false; } /* btree doesn't support ORDER BY operators */ if (oprform->amoppurpose != AMOP_SEARCH || OidIsValid(oprform->amopsortfamily)) { ereport(INFO, (errcode(ERRCODE_INVALID_OBJECT_DEFINITION), errmsg("operator family \"%s\" of access method %s contains invalid ORDER BY specification for operator %s", opfamilyname, "btree", format_operator(oprform->amopopr)))); result = false; } /* Check operator signature --- same for all btree strategies */ if (!check_amop_signature(oprform->amopopr, BOOLOID, oprform->amoplefttype, oprform->amoprighttype)) { ereport(INFO, (errcode(ERRCODE_INVALID_OBJECT_DEFINITION), errmsg("operator family \"%s\" of access method %s contains operator %s with wrong signature", opfamilyname, "btree", format_operator(oprform->amopopr)))); result = false; } } /* Now check for inconsistent groups of operators/functions */ grouplist = identify_opfamily_groups(oprlist, proclist); usefulgroups = 0; opclassgroup = NULL; familytypes = NIL; foreach(lc, grouplist) { OpFamilyOpFuncGroup *thisgroup = (OpFamilyOpFuncGroup *) lfirst(lc); /* * It is possible for an in_range support function to have a RHS type * that is otherwise irrelevant to the opfamily --- for instance, SQL * requires the datetime_ops opclass to have range support with an * interval offset. So, if this group appears to contain only an * in_range function, ignore it: it doesn't represent a pair of * supported types. */ if (thisgroup->operatorset == 0 && thisgroup->functionset == (1 << BTINRANGE_PROC)) continue; /* Else count it as a relevant group */ usefulgroups++; /* Remember the group exactly matching the test opclass */ if (thisgroup->lefttype == opcintype && thisgroup->righttype == opcintype) opclassgroup = thisgroup; /* * Identify all distinct data types handled in this opfamily. This * implementation is O(N^2), but there aren't likely to be enough * types in the family for it to matter. */ familytypes = list_append_unique_oid(familytypes, thisgroup->lefttype); familytypes = list_append_unique_oid(familytypes, thisgroup->righttype); /* * Complain if there seems to be an incomplete set of either operators * or support functions for this datatype pair. The sortsupport, * in_range, and equalimage functions are considered optional. */ if (thisgroup->operatorset != ((1 << BTLessStrategyNumber) | (1 << BTLessEqualStrategyNumber) | (1 << BTEqualStrategyNumber) | (1 << BTGreaterEqualStrategyNumber) | (1 << BTGreaterStrategyNumber))) { ereport(INFO, (errcode(ERRCODE_INVALID_OBJECT_DEFINITION), errmsg("operator family \"%s\" of access method %s is missing operator(s) for types %s and %s", opfamilyname, "btree", format_type_be(thisgroup->lefttype), format_type_be(thisgroup->righttype)))); result = false; } if ((thisgroup->functionset & (1 << BTORDER_PROC)) == 0) { ereport(INFO, (errcode(ERRCODE_INVALID_OBJECT_DEFINITION), errmsg("operator family \"%s\" of access method %s is missing support function for types %s and %s", opfamilyname, "btree", format_type_be(thisgroup->lefttype), format_type_be(thisgroup->righttype)))); result = false; } } /* Check that the originally-named opclass is supported */ /* (if group is there, we already checked it adequately above) */ if (!opclassgroup) { ereport(INFO, (errcode(ERRCODE_INVALID_OBJECT_DEFINITION), errmsg("operator class \"%s\" of access method %s is missing operator(s)", opclassname, "btree"))); result = false; } /* * Complain if the opfamily doesn't have entries for all possible * combinations of its supported datatypes. While missing cross-type * operators are not fatal, they do limit the planner's ability to derive * additional qual clauses from equivalence classes, so it seems * reasonable to insist that all built-in btree opfamilies be complete. */ if (usefulgroups != (list_length(familytypes) * list_length(familytypes))) { ereport(INFO, (errcode(ERRCODE_INVALID_OBJECT_DEFINITION), errmsg("operator family \"%s\" of access method %s is missing cross-type operator(s)", opfamilyname, "btree"))); result = false; } ReleaseCatCacheList(proclist); ReleaseCatCacheList(oprlist); ReleaseSysCache(familytup); ReleaseSysCache(classtup); return result; } /* * Prechecking function for adding operators/functions to a btree opfamily. */ void btadjustmembers(Oid opfamilyoid, Oid opclassoid, List *operators, List *functions) { Oid opcintype; ListCell *lc; /* * Btree operators and comparison support functions are always "loose" * members of the opfamily if they are cross-type. If they are not * cross-type, we prefer to tie them to the appropriate opclass ... but if * the user hasn't created one, we can't do that, and must fall back to * using the opfamily dependency. (We mustn't force creation of an * opclass in such a case, as leaving an incomplete opclass laying about * would be bad. Throwing an error is another undesirable alternative.) * * This behavior results in a bit of a dump/reload hazard, in that the * order of restoring objects could affect what dependencies we end up * with. pg_dump's existing behavior will preserve the dependency choices * in most cases, but not if a cross-type operator has been bound tightly * into an opclass. That's a mistake anyway, so silently "fixing" it * isn't awful. * * Optional support functions are always "loose" family members. * * To avoid repeated lookups, we remember the most recently used opclass's * input type. */ if (OidIsValid(opclassoid)) { /* During CREATE OPERATOR CLASS, need CCI to see the pg_opclass row */ CommandCounterIncrement(); opcintype = get_opclass_input_type(opclassoid); } else opcintype = InvalidOid; /* * We handle operators and support functions almost identically, so rather * than duplicate this code block, just join the lists. */ foreach(lc, list_concat_copy(operators, functions)) { OpFamilyMember *op = (OpFamilyMember *) lfirst(lc); if (op->is_func && op->number != BTORDER_PROC) { /* Optional support proc, so always a soft family dependency */ op->ref_is_hard = false; op->ref_is_family = true; op->refobjid = opfamilyoid; } else if (op->lefttype != op->righttype) { /* Cross-type, so always a soft family dependency */ op->ref_is_hard = false; op->ref_is_family = true; op->refobjid = opfamilyoid; } else { /* Not cross-type; is there a suitable opclass? */ if (op->lefttype != opcintype) { /* Avoid repeating this expensive lookup, even if it fails */ opcintype = op->lefttype; opclassoid = opclass_for_family_datatype(BTREE_AM_OID, opfamilyoid, opcintype); } if (OidIsValid(opclassoid)) { /* Hard dependency on opclass */ op->ref_is_hard = true; op->ref_is_family = false; op->refobjid = opclassoid; } else { /* We're stuck, so make a soft dependency on the opfamily */ op->ref_is_hard = false; op->ref_is_family = true; op->refobjid = opfamilyoid; } } } }