-- -- Sanity checks for common errors in making operator/procedure system tables: -- pg_operator, pg_proc, pg_aggregate, pg_am, pg_amop, pg_amproc, pg_opclass. -- -- None of the SELECTs here should ever find any matching entries, -- so the expected output is easy to maintain ;-). -- A test failure indicates someone messed up an entry in the system tables. -- -- NB: we assume the oidjoins test will have caught any dangling links, -- that is OID or REGPROC fields that are not zero and do not match some -- row in the linked-to table. However, if we want to enforce that a link -- field can't be 0, we have to check it here. -- -- NB: run this test earlier than the create_operator test, because -- that test creates some bogus operators... -- -- NOTE hardwired assumptions about standard types: -- type bool has OID 16 -- type float8 has OID 701 -- -- **************** pg_proc **************** -- Look for illegal values in pg_proc fields. SELECT p1.oid, p1.proname FROM pg_proc as p1 WHERE p1.prolang = 0 OR p1.prorettype = 0 OR p1.pronargs < 0 OR p1.pronargs > 9; -- Look for conflicting proc definitions (same names and input datatypes). SELECT p1.oid, p1.proname, p2.oid, p2.proname FROM pg_proc AS p1, pg_proc AS p2 WHERE p1.oid != p2.oid AND p1.proname = p2.proname AND p1.pronargs = p2.pronargs AND p1.proargtypes = p2.proargtypes; -- Considering only built-in procs (prolang = 11), look for multiple uses -- of the same internal function (ie, matching prosrc fields). It's OK to -- have several entries with different pronames for the same internal function, -- but conflicts in the number of arguments and other critical items should -- be complained of. SELECT p1.oid, p1.proname, p2.oid, p2.proname FROM pg_proc AS p1, pg_proc AS p2 WHERE p1.oid != p2.oid AND p1.prosrc = p2.prosrc AND p1.prolang = 11 AND p2.prolang = 11 AND (p1.proisinh != p2.proisinh OR p1.proistrusted != p2.proistrusted OR p1.proiscachable != p2.proiscachable OR p1.pronargs != p2.pronargs OR p1.proretset != p2.proretset); -- Look for uses of different type OIDs in the argument/result type fields -- for different aliases of the same built-in function. -- This indicates that the types are being presumed to be binary-equivalent. -- That's not wrong, necessarily, but we make lists of all the types being -- so treated. Note that the expected output of this part of the test will -- need to be modified whenever new pairs of types are made binary-equivalent! SELECT DISTINCT p1.prorettype, p2.prorettype FROM pg_proc AS p1, pg_proc AS p2 WHERE p1.oid != p2.oid AND p1.prosrc = p2.prosrc AND p1.prolang = 11 AND p2.prolang = 11 AND (p1.prorettype < p2.prorettype); SELECT DISTINCT p1.proargtypes[0], p2.proargtypes[0] FROM pg_proc AS p1, pg_proc AS p2 WHERE p1.oid != p2.oid AND p1.prosrc = p2.prosrc AND p1.prolang = 11 AND p2.prolang = 11 AND (p1.proargtypes[0] < p2.proargtypes[0]); SELECT DISTINCT p1.proargtypes[1], p2.proargtypes[1] FROM pg_proc AS p1, pg_proc AS p2 WHERE p1.oid != p2.oid AND p1.prosrc = p2.prosrc AND p1.prolang = 11 AND p2.prolang = 11 AND (p1.proargtypes[1] < p2.proargtypes[1]); SELECT DISTINCT p1.proargtypes[2], p2.proargtypes[2] FROM pg_proc AS p1, pg_proc AS p2 WHERE p1.oid != p2.oid AND p1.prosrc = p2.prosrc AND p1.prolang = 11 AND p2.prolang = 11 AND (p1.proargtypes[2] < p2.proargtypes[2]); SELECT DISTINCT p1.proargtypes[3], p2.proargtypes[3] FROM pg_proc AS p1, pg_proc AS p2 WHERE p1.oid != p2.oid AND p1.prosrc = p2.prosrc AND p1.prolang = 11 AND p2.prolang = 11 AND (p1.proargtypes[3] < p2.proargtypes[3]); SELECT DISTINCT p1.proargtypes[4], p2.proargtypes[4] FROM pg_proc AS p1, pg_proc AS p2 WHERE p1.oid != p2.oid AND p1.prosrc = p2.prosrc AND p1.prolang = 11 AND p2.prolang = 11 AND (p1.proargtypes[4] < p2.proargtypes[4]); SELECT DISTINCT p1.proargtypes[5], p2.proargtypes[5] FROM pg_proc AS p1, pg_proc AS p2 WHERE p1.oid != p2.oid AND p1.prosrc = p2.prosrc AND p1.prolang = 11 AND p2.prolang = 11 AND (p1.proargtypes[5] < p2.proargtypes[5]); SELECT DISTINCT p1.proargtypes[6], p2.proargtypes[6] FROM pg_proc AS p1, pg_proc AS p2 WHERE p1.oid != p2.oid AND p1.prosrc = p2.prosrc AND p1.prolang = 11 AND p2.prolang = 11 AND (p1.proargtypes[6] < p2.proargtypes[6]); SELECT DISTINCT p1.proargtypes[7], p2.proargtypes[7] FROM pg_proc AS p1, pg_proc AS p2 WHERE p1.oid != p2.oid AND p1.prosrc = p2.prosrc AND p1.prolang = 11 AND p2.prolang = 11 AND (p1.proargtypes[7] < p2.proargtypes[7]); -- **************** pg_operator **************** -- Look for illegal values in pg_operator fields. SELECT p1.oid, p1.oprname FROM pg_operator as p1 WHERE (p1.oprkind != 'b' AND p1.oprkind != 'l' AND p1.oprkind != 'r') OR p1.oprresult = 0 OR p1.oprcode = 0; -- Look for missing or unwanted operand types SELECT p1.oid, p1.oprname FROM pg_operator as p1 WHERE (p1.oprleft = 0 and p1.oprkind != 'l') OR (p1.oprleft != 0 and p1.oprkind = 'l') OR (p1.oprright = 0 and p1.oprkind != 'r') OR (p1.oprright != 0 and p1.oprkind = 'r'); -- Look for conflicting operator definitions (same names and input datatypes). SELECT p1.oid, p1.oprcode, p2.oid, p2.oprcode FROM pg_operator AS p1, pg_operator AS p2 WHERE p1.oid != p2.oid AND p1.oprname = p2.oprname AND p1.oprkind = p2.oprkind AND p1.oprleft = p2.oprleft AND p1.oprright = p2.oprright; -- Look for commutative operators that don't commute. -- DEFINITIONAL NOTE: If A.oprcom = B, then x A y has the same result as y B x. -- We expect that B will always say that B.oprcom = A as well; that's not -- inherently essential, but it would be inefficient not to mark it so. SELECT p1.oid, p1.oprcode, p2.oid, p2.oprcode FROM pg_operator AS p1, pg_operator AS p2 WHERE p1.oprcom = p2.oid AND (p1.oprkind != 'b' OR p1.oprleft != p2.oprright OR p1.oprright != p2.oprleft OR p1.oprresult != p2.oprresult OR p1.oid != p2.oprcom); -- Look for negatory operators that don't agree. -- DEFINITIONAL NOTE: If A.oprnegate = B, then both A and B must yield -- boolean results, and (x A y) == ! (x B y), or the equivalent for -- single-operand operators. -- We expect that B will always say that B.oprnegate = A as well; that's not -- inherently essential, but it would be inefficient not to mark it so. SELECT p1.oid, p1.oprcode, p2.oid, p2.oprcode FROM pg_operator AS p1, pg_operator AS p2 WHERE p1.oprnegate = p2.oid AND (p1.oprkind != p2.oprkind OR p1.oprleft != p2.oprleft OR p1.oprright != p2.oprright OR p1.oprresult != 16 OR p2.oprresult != 16 OR p1.oid != p2.oprnegate); -- Look for mergejoin operators that don't match their links. -- A mergejoin link leads from an '=' operator to the -- sort operator ('<' operator) that's appropriate for -- its left-side or right-side data type. SELECT p1.oid, p1.oprcode, p2.oid, p2.oprcode FROM pg_operator AS p1, pg_operator AS p2 WHERE p1.oprlsortop = p2.oid AND (p1.oprname != '=' OR p2.oprname != '<' OR p1.oprkind != 'b' OR p2.oprkind != 'b' OR p1.oprleft != p2.oprleft OR p1.oprleft != p2.oprright OR p1.oprresult != 16 OR p2.oprresult != 16 OR p1.oprrsortop = 0); SELECT p1.oid, p1.oprcode, p2.oid, p2.oprcode FROM pg_operator AS p1, pg_operator AS p2 WHERE p1.oprrsortop = p2.oid AND (p1.oprname != '=' OR p2.oprname != '<' OR p1.oprkind != 'b' OR p2.oprkind != 'b' OR p1.oprright != p2.oprleft OR p1.oprright != p2.oprright OR p1.oprresult != 16 OR p2.oprresult != 16 OR p1.oprlsortop = 0); -- A mergejoinable = operator must have a commutator (usually itself) -- as well as corresponding < and > operators. Note that the "corresponding" -- operators have the same L and R input datatypes as the = operator, -- whereas the operators linked to by oprlsortop and oprrsortop have input -- datatypes L,L and R,R respectively. SELECT p1.oid, p1.oprname FROM pg_operator AS p1 WHERE p1.oprlsortop != 0 AND p1.oprcom = 0; SELECT p1.oid, p1.oprname FROM pg_operator AS p1 WHERE p1.oprlsortop != 0 AND NOT EXISTS(SELECT * FROM pg_operator AS p2 WHERE p2.oprname = '<' AND p2.oprleft = p1.oprleft AND p2.oprright = p1.oprright AND p2.oprkind = 'b'); SELECT p1.oid, p1.oprname FROM pg_operator AS p1 WHERE p1.oprlsortop != 0 AND NOT EXISTS(SELECT * FROM pg_operator AS p2 WHERE p2.oprname = '>' AND p2.oprleft = p1.oprleft AND p2.oprright = p1.oprright AND p2.oprkind = 'b'); -- Hashing only works on simple equality operators "type = sametype", -- since the hash itself depends on the bitwise representation of the type. -- Check that allegedly hashable operators look like they might be "=". -- NOTE: in 6.5, this search finds int4eqoid and oideqint4. Until we have -- some cleaner way of dealing with binary-equivalent types, just leave -- those two tuples in the expected output. SELECT p1.oid, p1.oprname FROM pg_operator AS p1 WHERE p1.oprcanhash AND NOT (p1.oprkind = 'b' AND p1.oprresult = 16 AND p1.oprleft = p1.oprright AND p1.oprname = '=' AND p1.oprcom = p1.oid); -- Look for array equality operators that are hashable when the underlying -- type is not, or vice versa. This is presumably bogus. SELECT p1.oid, p1.oprcanhash, p2.oid, p2.oprcanhash, t1.typname, t2.typname FROM pg_operator AS p1, pg_operator AS p2, pg_type AS t1, pg_type AS t2 WHERE p1.oprname = '=' AND p1.oprleft = p1.oprright AND p2.oprname = '=' AND p2.oprleft = p2.oprright AND p1.oprleft = t1.oid AND p2.oprleft = t2.oid AND t1.typelem = t2.oid AND p1.oprcanhash != p2.oprcanhash; -- Check that each operator defined in pg_operator matches its oprcode entry -- in pg_proc. Easiest to do this separately for each oprkind. -- FIXME: want to check that argument/result types match, but how to do that -- in the face of binary-compatible types? SELECT p1.oid, p1.oprname, p2.oid, p2.proname FROM pg_operator AS p1, pg_proc AS p2 WHERE p1.oprcode = p2.oid AND p1.oprkind = 'b' AND (p2.pronargs != 2 -- diked out until we find a way of marking binary-compatible types -- OR -- p1.oprresult != p2.prorettype OR -- (p1.oprleft != p2.proargtypes[0] AND p2.proargtypes[0] != 0) OR -- (p1.oprright != p2.proargtypes[1] AND p2.proargtypes[1] != 0) ); -- These two selects can be left as-is because there are no binary-compatible -- cases that they trip over, at least in 6.5: SELECT p1.oid, p1.oprname, p2.oid, p2.proname FROM pg_operator AS p1, pg_proc AS p2 WHERE p1.oprcode = p2.oid AND p1.oprkind = 'l' AND (p2.pronargs != 1 OR p1.oprresult != p2.prorettype OR (p1.oprright != p2.proargtypes[0] AND p2.proargtypes[0] != 0) OR p1.oprleft != 0); SELECT p1.oid, p1.oprname, p2.oid, p2.proname FROM pg_operator AS p1, pg_proc AS p2 WHERE p1.oprcode = p2.oid AND p1.oprkind = 'r' AND (p2.pronargs != 1 OR p1.oprresult != p2.prorettype OR (p1.oprleft != p2.proargtypes[0] AND p2.proargtypes[0] != 0) OR p1.oprright != 0); -- If oprrest is set, the operator must return boolean, -- and it must link to a proc with the right signature -- to be a restriction selectivity estimator. -- The proc signature we want is: float8 proc(oid, oid, int2, , int4) SELECT p1.oid, p1.oprname, p2.oid, p2.proname FROM pg_operator AS p1, pg_proc AS p2 WHERE p1.oprrest = p2.oid AND (p1.oprresult != 16 OR p2.prorettype != 701 OR p2.proretset OR p2.pronargs != 5 OR p2.proargtypes[0] != 26 OR p2.proargtypes[1] != 26 OR p2.proargtypes[2] != 21 OR p2.proargtypes[3] != 0 OR p2.proargtypes[4] != 23); -- If oprjoin is set, the operator must be a binary boolean op, -- and it must link to a proc with the right signature -- to be a join selectivity estimator. -- The proc signature we want is: float8 proc(oid, oid, int2, oid, int2) SELECT p1.oid, p1.oprname, p2.oid, p2.proname FROM pg_operator AS p1, pg_proc AS p2 WHERE p1.oprjoin = p2.oid AND (p1.oprkind != 'b' OR p1.oprresult != 16 OR p2.prorettype != 701 OR p2.proretset OR p2.pronargs != 5 OR p2.proargtypes[0] != 26 OR p2.proargtypes[1] != 26 OR p2.proargtypes[2] != 21 OR p2.proargtypes[3] != 26 OR p2.proargtypes[4] != 21); -- **************** pg_aggregate **************** -- Look for illegal values in pg_aggregate fields. -- aggbasetype can only be 0 if transfn1 is not present (eg, count(*)) -- or itself takes a wild-card input; we check the latter case below. SELECT p1.oid, p1.aggname FROM pg_aggregate as p1 WHERE (p1.aggbasetype = 0 AND p1.aggtransfn1 != 0) OR aggfinaltype = 0; -- Check combinations of transfer functions. -- Although either transfn1 or transfn2 can be null, -- it makes no sense for both to be. And if both are defined, -- presumably there should be a finalfn to combine their results. -- We also check that transtypes are null just when corresponding -- transfns are. Also, if there is no finalfn then the output type -- must be the transtype the result will be taken from. SELECT p1.oid, p1.aggname FROM pg_aggregate as p1 WHERE p1.aggtransfn1 = 0 AND p1.aggtransfn2 = 0; SELECT p1.oid, p1.aggname FROM pg_aggregate as p1 WHERE p1.aggtransfn1 != 0 AND p1.aggtransfn2 = 0 AND (p1.aggtranstype1 = 0 OR p1.aggtranstype2 != 0 OR (p1.aggfinalfn = 0 AND p1.aggfinaltype != p1.aggtranstype1)); SELECT p1.oid, p1.aggname FROM pg_aggregate as p1 WHERE p1.aggtransfn1 = 0 AND p1.aggtransfn2 != 0 AND (p1.aggtranstype1 != 0 OR p1.aggtranstype2 = 0 OR (p1.aggfinalfn = 0 AND p1.aggfinaltype != p1.aggtranstype2)); SELECT p1.oid, p1.aggname FROM pg_aggregate as p1 WHERE p1.aggtransfn1 != 0 AND p1.aggtransfn2 != 0 AND (p1.aggtranstype1 = 0 OR p1.aggtranstype2 = 0 OR p1.aggfinalfn = 0); -- Cross-check transfn1 (if present) against its entry in pg_proc. -- FIXME: what about binary-compatible types? SELECT p1.oid, p1.aggname, p2.oid, p2.proname FROM pg_aggregate AS p1, pg_proc AS p2 WHERE p1.aggtransfn1 = p2.oid AND (p2.proretset OR p2.pronargs != 2 -- diked out until we find a way of marking binary-compatible types -- OR -- p1.aggtranstype1 != p2.prorettype OR -- p1.aggtranstype1 != p2.proargtypes[0] OR -- p1.aggbasetype != p2.proargtypes[1] ); -- Cross-check transfn2 (if present) against its entry in pg_proc. -- FIXME: what about binary-compatible types? SELECT p1.oid, p1.aggname, p2.oid, p2.proname FROM pg_aggregate AS p1, pg_proc AS p2 WHERE p1.aggtransfn2 = p2.oid AND (p2.proretset OR p1.aggtranstype2 != p2.prorettype OR p2.pronargs != 1 OR p1.aggtranstype2 != p2.proargtypes[0]); -- Cross-check finalfn (if present) against its entry in pg_proc. -- FIXME: what about binary-compatible types? SELECT p1.oid, p1.aggname, p2.oid, p2.proname FROM pg_aggregate AS p1, pg_proc AS p2 WHERE p1.aggfinalfn = p2.oid AND (p2.proretset OR p1.aggfinaltype != p2.prorettype OR p2.pronargs != 2 OR p1.aggtranstype1 != p2.proargtypes[0] OR p1.aggtranstype2 != p2.proargtypes[1]); -- **************** pg_amop **************** -- Look for illegal values in pg_amop fields SELECT p1.oid FROM pg_amop as p1 WHERE p1.amopid = 0 OR p1.amopclaid = 0 OR p1.amopopr = 0 OR p1.amopstrategy <= 0 OR p1.amopselect = 0 OR p1.amopnpages = 0; -- Look for duplicate pg_amop entries SELECT p1.oid, p2.oid FROM pg_amop AS p1, pg_amop AS p2 WHERE p1.oid != p2.oid AND p1.amopid = p2.amopid AND p1.amopclaid = p2.amopclaid AND p1.amopstrategy = p2.amopstrategy; -- Cross-check amopstrategy index against parent AM SELECT p1.oid, p2.oid, p2.amname FROM pg_amop AS p1, pg_am AS p2 WHERE p1.amopid = p2.oid AND p1.amopstrategy > p2.amstrategies; -- Detect missing pg_amop entries: should have as many strategy functions -- as AM expects for each opclass, unless there are none at all -- (some opclasses only offer support for a limited set of AMs...) SELECT p1.oid, p1.amname, p2.oid, p2.opcname FROM pg_am AS p1, pg_opclass AS p2 WHERE p1.amstrategies != (SELECT count(*) FROM pg_amop AS p3 WHERE p3.amopid = p1.oid AND p3.amopclaid = p2.oid) AND EXISTS (SELECT * FROM pg_amop AS p3 WHERE p3.amopid = p1.oid AND p3.amopclaid = p2.oid); -- Check that amopopr points at a reasonable-looking operator SELECT p1.oid, p2.oid, p2.oprname FROM pg_amop AS p1, pg_operator AS p2 WHERE p1.amopopr = p2.oid AND (p2.oprkind != 'b' OR p2.oprresult != 16); -- If opclass is for a specific type, operator inputs should be of that type SELECT p1.oid, p2.oid, p2.oprname, p3.oid, p3.opcname FROM pg_amop AS p1, pg_operator AS p2, pg_opclass AS p3 WHERE p1.amopopr = p2.oid AND p1.amopclaid = p3.oid AND p3.opcdeftype != 0 AND (p3.opcdeftype != p2.oprleft OR p3.opcdeftype != p2.oprright); -- Check that amopselect points to a proc with the right signature -- to be an access-method selectivity estimator. -- The proc signature we want is: -- float8 proc(oid, oid, int2, , int4, int4, oid) SELECT p1.oid, p2.oid, p2.proname FROM pg_amop AS p1, pg_proc AS p2 WHERE p1.amopselect = p2.oid AND (p2.prorettype != 701 OR p2.proretset OR p2.pronargs != 7 OR p2.proargtypes[0] != 26 OR p2.proargtypes[1] != 26 OR p2.proargtypes[2] != 21 OR p2.proargtypes[3] != 0 OR p2.proargtypes[4] != 23 OR p2.proargtypes[5] != 23 OR p2.proargtypes[6] != 26); -- Check that amopnpages points to a proc with the right signature -- to be an access-method page-count estimator. -- The proc signature we want is: -- float8 proc(oid, oid, int2, , int4, int4, oid) SELECT p1.oid, p2.oid, p2.proname FROM pg_amop AS p1, pg_proc AS p2 WHERE p1.amopnpages = p2.oid AND (p2.prorettype != 701 OR p2.proretset OR p2.pronargs != 7 OR p2.proargtypes[0] != 26 OR p2.proargtypes[1] != 26 OR p2.proargtypes[2] != 21 OR p2.proargtypes[3] != 0 OR p2.proargtypes[4] != 23 OR p2.proargtypes[5] != 23 OR p2.proargtypes[6] != 26); -- **************** pg_amproc **************** -- Look for illegal values in pg_amproc fields SELECT p1.oid FROM pg_amproc as p1 WHERE p1.amid = 0 OR p1.amopclaid = 0 OR p1.amproc = 0 OR p1.amprocnum <= 0; -- Look for duplicate pg_amproc entries SELECT p1.oid, p2.oid FROM pg_amproc AS p1, pg_amproc AS p2 WHERE p1.oid != p2.oid AND p1.amid = p2.amid AND p1.amopclaid = p2.amopclaid AND p1.amprocnum = p2.amprocnum; -- Cross-check amprocnum index against parent AM SELECT p1.oid, p2.oid, p2.amname FROM pg_amproc AS p1, pg_am AS p2 WHERE p1.amid = p2.oid AND p1.amprocnum > p2.amsupport; -- Detect missing pg_amproc entries: should have as many support functions -- as AM expects for each opclass, unless there are none at all -- (some opclasses only offer support for a limited set of AMs...) SELECT p1.oid, p1.amname, p2.oid, p2.opcname FROM pg_am AS p1, pg_opclass AS p2 WHERE p1.amsupport != (SELECT count(*) FROM pg_amproc AS p3 WHERE p3.amid = p1.oid AND p3.amopclaid = p2.oid) AND EXISTS (SELECT * FROM pg_amproc AS p3 WHERE p3.amid = p1.oid AND p3.amopclaid = p2.oid); -- Unfortunately, we can't check the amproc link very well because the -- signature of the function may be different for different support routines -- or different base data types. -- We can check that all the referenced instances of the same support -- routine number take the same number of parameters, but that's about it... SELECT p1.oid, p2.oid, p2.proname, p3.oid, p4.oid, p4.proname FROM pg_amproc AS p1, pg_proc AS p2, pg_amproc AS p3, pg_proc AS p4 WHERE p1.oid != p3.oid AND p1.amid = p3.amid AND p1.amprocnum = p3.amprocnum AND p1.amproc = p2.oid AND p3.amproc = p4.oid AND (p2.proretset OR p4.proretset OR p2.pronargs != p4.pronargs);