-- -- Test of Row-level security feature -- -- Clean up in case a prior regression run failed -- Suppress NOTICE messages when users/groups don't exist SET client_min_messages TO 'warning'; DROP USER IF EXISTS rls_regress_user0; DROP USER IF EXISTS rls_regress_user1; DROP USER IF EXISTS rls_regress_user2; DROP USER IF EXISTS rls_regress_exempt_user; DROP ROLE IF EXISTS rls_regress_group1; DROP ROLE IF EXISTS rls_regress_group2; DROP SCHEMA IF EXISTS rls_regress_schema CASCADE; RESET client_min_messages; -- initial setup CREATE USER rls_regress_user0; CREATE USER rls_regress_user1; CREATE USER rls_regress_user2; CREATE USER rls_regress_exempt_user BYPASSRLS; CREATE ROLE rls_regress_group1 NOLOGIN; CREATE ROLE rls_regress_group2 NOLOGIN; GRANT rls_regress_group1 TO rls_regress_user1; GRANT rls_regress_group2 TO rls_regress_user2; CREATE SCHEMA rls_regress_schema; GRANT ALL ON SCHEMA rls_regress_schema to public; SET search_path = rls_regress_schema; -- setup of malicious function CREATE OR REPLACE FUNCTION f_leak(text) RETURNS bool COST 0.0000001 LANGUAGE plpgsql AS 'BEGIN RAISE NOTICE ''f_leak => %'', $1; RETURN true; END'; GRANT EXECUTE ON FUNCTION f_leak(text) TO public; -- BASIC Row-Level Security Scenario SET SESSION AUTHORIZATION rls_regress_user0; CREATE TABLE uaccount ( pguser name primary key, seclv int ); GRANT SELECT ON uaccount TO public; INSERT INTO uaccount VALUES ('rls_regress_user0', 99), ('rls_regress_user1', 1), ('rls_regress_user2', 2), ('rls_regress_user3', 3); CREATE TABLE category ( cid int primary key, cname text ); GRANT ALL ON category TO public; INSERT INTO category VALUES (11, 'novel'), (22, 'science fiction'), (33, 'technology'), (44, 'manga'); CREATE TABLE document ( did int primary key, cid int references category(cid), dlevel int not null, dauthor name, dtitle text ); GRANT ALL ON document TO public; INSERT INTO document VALUES ( 1, 11, 1, 'rls_regress_user1', 'my first novel'), ( 2, 11, 2, 'rls_regress_user1', 'my second novel'), ( 3, 22, 2, 'rls_regress_user1', 'my science fiction'), ( 4, 44, 1, 'rls_regress_user1', 'my first manga'), ( 5, 44, 2, 'rls_regress_user1', 'my second manga'), ( 6, 22, 1, 'rls_regress_user2', 'great science fiction'), ( 7, 33, 2, 'rls_regress_user2', 'great technology book'), ( 8, 44, 1, 'rls_regress_user2', 'great manga'); ALTER TABLE document ENABLE ROW LEVEL SECURITY; -- user's security level must be higher than or equal to document's CREATE POLICY p1 ON document USING (dlevel <= (SELECT seclv FROM uaccount WHERE pguser = current_user)); -- viewpoint from rls_regress_user1 SET SESSION AUTHORIZATION rls_regress_user1; SET row_security TO ON; SELECT * FROM document WHERE f_leak(dtitle) ORDER BY did; SELECT * FROM document NATURAL JOIN category WHERE f_leak(dtitle) ORDER BY did; -- try a sampled version SELECT * FROM document TABLESAMPLE BERNOULLI(50) REPEATABLE(0) WHERE f_leak(dtitle) ORDER BY did; -- viewpoint from rls_regress_user2 SET SESSION AUTHORIZATION rls_regress_user2; SELECT * FROM document WHERE f_leak(dtitle) ORDER BY did; SELECT * FROM document NATURAL JOIN category WHERE f_leak(dtitle) ORDER BY did; -- try a sampled version SELECT * FROM document TABLESAMPLE BERNOULLI(50) REPEATABLE(0) WHERE f_leak(dtitle) ORDER BY did; EXPLAIN (COSTS OFF) SELECT * FROM document WHERE f_leak(dtitle); EXPLAIN (COSTS OFF) SELECT * FROM document NATURAL JOIN category WHERE f_leak(dtitle); -- only owner can change policies ALTER POLICY p1 ON document USING (true); --fail DROP POLICY p1 ON document; --fail SET SESSION AUTHORIZATION rls_regress_user0; ALTER POLICY p1 ON document USING (dauthor = current_user); -- viewpoint from rls_regress_user1 again SET SESSION AUTHORIZATION rls_regress_user1; SELECT * FROM document WHERE f_leak(dtitle) ORDER BY did; SELECT * FROM document NATURAL JOIN category WHERE f_leak(dtitle) ORDER by did; -- viewpoint from rls_regres_user2 again SET SESSION AUTHORIZATION rls_regress_user2; SELECT * FROM document WHERE f_leak(dtitle) ORDER BY did; SELECT * FROM document NATURAL JOIN category WHERE f_leak(dtitle) ORDER by did; EXPLAIN (COSTS OFF) SELECT * FROM document WHERE f_leak(dtitle); EXPLAIN (COSTS OFF) SELECT * FROM document NATURAL JOIN category WHERE f_leak(dtitle); -- interaction of FK/PK constraints SET SESSION AUTHORIZATION rls_regress_user0; CREATE POLICY p2 ON category USING (CASE WHEN current_user = 'rls_regress_user1' THEN cid IN (11, 33) WHEN current_user = 'rls_regress_user2' THEN cid IN (22, 44) ELSE false END); ALTER TABLE category ENABLE ROW LEVEL SECURITY; -- cannot delete PK referenced by invisible FK SET SESSION AUTHORIZATION rls_regress_user1; SELECT * FROM document d FULL OUTER JOIN category c on d.cid = c.cid; DELETE FROM category WHERE cid = 33; -- fails with FK violation -- can insert FK referencing invisible PK SET SESSION AUTHORIZATION rls_regress_user2; SELECT * FROM document d FULL OUTER JOIN category c on d.cid = c.cid; INSERT INTO document VALUES (10, 33, 1, current_user, 'hoge'); -- UNIQUE or PRIMARY KEY constraint violation DOES reveal presence of row SET SESSION AUTHORIZATION rls_regress_user1; INSERT INTO document VALUES (8, 44, 1, 'rls_regress_user1', 'my third manga'); -- Must fail with unique violation, revealing presence of did we can't see SELECT * FROM document WHERE did = 8; -- and confirm we can't see it -- RLS policies are checked before constraints INSERT INTO document VALUES (8, 44, 1, 'rls_regress_user2', 'my third manga'); -- Should fail with RLS check violation, not duplicate key violation UPDATE document SET did = 8, dauthor = 'rls_regress_user2' WHERE did = 5; -- Should fail with RLS check violation, not duplicate key violation -- database superuser does bypass RLS policy when enabled RESET SESSION AUTHORIZATION; SET row_security TO ON; SELECT * FROM document; SELECT * FROM category; -- database superuser does bypass RLS policy when disabled RESET SESSION AUTHORIZATION; SET row_security TO OFF; SELECT * FROM document; SELECT * FROM category; -- database non-superuser with bypass privilege can bypass RLS policy when disabled SET SESSION AUTHORIZATION rls_regress_exempt_user; SET row_security TO OFF; SELECT * FROM document; SELECT * FROM category; -- RLS policy does not apply to table owner when RLS enabled. SET SESSION AUTHORIZATION rls_regress_user0; SET row_security TO ON; SELECT * FROM document; SELECT * FROM category; -- RLS policy does not apply to table owner when RLS disabled. SET SESSION AUTHORIZATION rls_regress_user0; SET row_security TO OFF; SELECT * FROM document; SELECT * FROM category; -- -- Table inheritance and RLS policy -- SET SESSION AUTHORIZATION rls_regress_user0; SET row_security TO ON; CREATE TABLE t1 (a int, junk1 text, b text) WITH OIDS; ALTER TABLE t1 DROP COLUMN junk1; -- just a disturbing factor GRANT ALL ON t1 TO public; COPY t1 FROM stdin WITH (oids); 101 1 aaa 102 2 bbb 103 3 ccc 104 4 ddd \. CREATE TABLE t2 (c float) INHERITS (t1); GRANT ALL ON t2 TO public; COPY t2 FROM stdin WITH (oids); 201 1 abc 1.1 202 2 bcd 2.2 203 3 cde 3.3 204 4 def 4.4 \. CREATE TABLE t3 (c text, b text, a int) WITH OIDS; ALTER TABLE t3 INHERIT t1; GRANT ALL ON t3 TO public; COPY t3(a,b,c) FROM stdin WITH (oids); 301 1 xxx X 302 2 yyy Y 303 3 zzz Z \. CREATE POLICY p1 ON t1 FOR ALL TO PUBLIC USING (a % 2 = 0); -- be even number CREATE POLICY p2 ON t2 FOR ALL TO PUBLIC USING (a % 2 = 1); -- be odd number ALTER TABLE t1 ENABLE ROW LEVEL SECURITY; ALTER TABLE t2 ENABLE ROW LEVEL SECURITY; SET SESSION AUTHORIZATION rls_regress_user1; SELECT * FROM t1; EXPLAIN (COSTS OFF) SELECT * FROM t1; SELECT * FROM t1 WHERE f_leak(b); EXPLAIN (COSTS OFF) SELECT * FROM t1 WHERE f_leak(b); -- reference to system column SELECT oid, * FROM t1; EXPLAIN (COSTS OFF) SELECT *, t1 FROM t1; -- reference to whole-row reference SELECT *, t1 FROM t1; EXPLAIN (COSTS OFF) SELECT *, t1 FROM t1; -- for share/update lock SELECT * FROM t1 FOR SHARE; EXPLAIN (COSTS OFF) SELECT * FROM t1 FOR SHARE; SELECT * FROM t1 WHERE f_leak(b) FOR SHARE; EXPLAIN (COSTS OFF) SELECT * FROM t1 WHERE f_leak(b) FOR SHARE; -- union all query SELECT a, b, oid FROM t2 UNION ALL SELECT a, b, oid FROM t3; EXPLAIN (COSTS OFF) SELECT a, b, oid FROM t2 UNION ALL SELECT a, b, oid FROM t3; -- superuser is allowed to bypass RLS checks RESET SESSION AUTHORIZATION; SET row_security TO OFF; SELECT * FROM t1 WHERE f_leak(b); EXPLAIN (COSTS OFF) SELECT * FROM t1 WHERE f_leak(b); -- non-superuser with bypass privilege can bypass RLS policy when disabled SET SESSION AUTHORIZATION rls_regress_exempt_user; SET row_security TO OFF; SELECT * FROM t1 WHERE f_leak(b); EXPLAIN (COSTS OFF) SELECT * FROM t1 WHERE f_leak(b); ----- Dependencies ----- SET SESSION AUTHORIZATION rls_regress_user0; SET row_security TO ON; CREATE TABLE dependee (x integer, y integer); CREATE TABLE dependent (x integer, y integer); CREATE POLICY d1 ON dependent FOR ALL TO PUBLIC USING (x = (SELECT d.x FROM dependee d WHERE d.y = y)); DROP TABLE dependee; -- Should fail without CASCADE due to dependency on row security qual? DROP TABLE dependee CASCADE; EXPLAIN (COSTS OFF) SELECT * FROM dependent; -- After drop, should be unqualified ----- RECURSION ---- -- -- Simple recursion -- SET SESSION AUTHORIZATION rls_regress_user0; CREATE TABLE rec1 (x integer, y integer); CREATE POLICY r1 ON rec1 USING (x = (SELECT r.x FROM rec1 r WHERE y = r.y)); ALTER TABLE rec1 ENABLE ROW LEVEL SECURITY; SET SESSION AUTHORIZATION rls_regress_user1; SELECT * FROM rec1; -- fail, direct recursion -- -- Mutual recursion -- SET SESSION AUTHORIZATION rls_regress_user0; CREATE TABLE rec2 (a integer, b integer); ALTER POLICY r1 ON rec1 USING (x = (SELECT a FROM rec2 WHERE b = y)); CREATE POLICY r2 ON rec2 USING (a = (SELECT x FROM rec1 WHERE y = b)); ALTER TABLE rec2 ENABLE ROW LEVEL SECURITY; SET SESSION AUTHORIZATION rls_regress_user1; SELECT * FROM rec1; -- fail, mutual recursion -- -- Mutual recursion via views -- SET SESSION AUTHORIZATION rls_regress_user1; CREATE VIEW rec1v AS SELECT * FROM rec1; CREATE VIEW rec2v AS SELECT * FROM rec2; SET SESSION AUTHORIZATION rls_regress_user0; ALTER POLICY r1 ON rec1 USING (x = (SELECT a FROM rec2v WHERE b = y)); ALTER POLICY r2 ON rec2 USING (a = (SELECT x FROM rec1v WHERE y = b)); SET SESSION AUTHORIZATION rls_regress_user1; SELECT * FROM rec1; -- fail, mutual recursion via views -- -- Mutual recursion via .s.b views -- SET SESSION AUTHORIZATION rls_regress_user1; -- Suppress NOTICE messages when doing a cascaded drop. SET client_min_messages TO 'warning'; DROP VIEW rec1v, rec2v CASCADE; RESET client_min_messages; CREATE VIEW rec1v WITH (security_barrier) AS SELECT * FROM rec1; CREATE VIEW rec2v WITH (security_barrier) AS SELECT * FROM rec2; SET SESSION AUTHORIZATION rls_regress_user0; CREATE POLICY r1 ON rec1 USING (x = (SELECT a FROM rec2v WHERE b = y)); CREATE POLICY r2 ON rec2 USING (a = (SELECT x FROM rec1v WHERE y = b)); SET SESSION AUTHORIZATION rls_regress_user1; SELECT * FROM rec1; -- fail, mutual recursion via s.b. views -- -- recursive RLS and VIEWs in policy -- SET SESSION AUTHORIZATION rls_regress_user0; CREATE TABLE s1 (a int, b text); INSERT INTO s1 (SELECT x, md5(x::text) FROM generate_series(-10,10) x); CREATE TABLE s2 (x int, y text); INSERT INTO s2 (SELECT x, md5(x::text) FROM generate_series(-6,6) x); GRANT SELECT ON s1, s2 TO rls_regress_user1; CREATE POLICY p1 ON s1 USING (a in (select x from s2 where y like '%2f%')); CREATE POLICY p2 ON s2 USING (x in (select a from s1 where b like '%22%')); CREATE POLICY p3 ON s1 FOR INSERT WITH CHECK (a = (SELECT a FROM s1)); ALTER TABLE s1 ENABLE ROW LEVEL SECURITY; ALTER TABLE s2 ENABLE ROW LEVEL SECURITY; SET SESSION AUTHORIZATION rls_regress_user1; CREATE VIEW v2 AS SELECT * FROM s2 WHERE y like '%af%'; SELECT * FROM s1 WHERE f_leak(b); -- fail (infinite recursion) INSERT INTO s1 VALUES (1, 'foo'); -- fail (infinite recursion) SET SESSION AUTHORIZATION rls_regress_user0; DROP POLICY p3 on s1; ALTER POLICY p2 ON s2 USING (x % 2 = 0); SET SESSION AUTHORIZATION rls_regress_user1; SELECT * FROM s1 WHERE f_leak(b); -- OK EXPLAIN (COSTS OFF) SELECT * FROM only s1 WHERE f_leak(b); SET SESSION AUTHORIZATION rls_regress_user0; ALTER POLICY p1 ON s1 USING (a in (select x from v2)); -- using VIEW in RLS policy SET SESSION AUTHORIZATION rls_regress_user1; SELECT * FROM s1 WHERE f_leak(b); -- OK EXPLAIN (COSTS OFF) SELECT * FROM s1 WHERE f_leak(b); SELECT (SELECT x FROM s1 LIMIT 1) xx, * FROM s2 WHERE y like '%28%'; EXPLAIN (COSTS OFF) SELECT (SELECT x FROM s1 LIMIT 1) xx, * FROM s2 WHERE y like '%28%'; SET SESSION AUTHORIZATION rls_regress_user0; ALTER POLICY p2 ON s2 USING (x in (select a from s1 where b like '%d2%')); SET SESSION AUTHORIZATION rls_regress_user1; SELECT * FROM s1 WHERE f_leak(b); -- fail (infinite recursion via view) -- prepared statement with rls_regress_user0 privilege PREPARE p1(int) AS SELECT * FROM t1 WHERE a <= $1; EXECUTE p1(2); EXPLAIN (COSTS OFF) EXECUTE p1(2); -- superuser is allowed to bypass RLS checks RESET SESSION AUTHORIZATION; SET row_security TO OFF; SELECT * FROM t1 WHERE f_leak(b); EXPLAIN (COSTS OFF) SELECT * FROM t1 WHERE f_leak(b); -- plan cache should be invalidated EXECUTE p1(2); EXPLAIN (COSTS OFF) EXECUTE p1(2); PREPARE p2(int) AS SELECT * FROM t1 WHERE a = $1; EXECUTE p2(2); EXPLAIN (COSTS OFF) EXECUTE p2(2); -- also, case when privilege switch from superuser SET SESSION AUTHORIZATION rls_regress_user1; SET row_security TO ON; EXECUTE p2(2); EXPLAIN (COSTS OFF) EXECUTE p2(2); -- -- UPDATE / DELETE and Row-level security -- SET SESSION AUTHORIZATION rls_regress_user1; EXPLAIN (COSTS OFF) UPDATE t1 SET b = b || b WHERE f_leak(b); UPDATE t1 SET b = b || b WHERE f_leak(b); EXPLAIN (COSTS OFF) UPDATE only t1 SET b = b || '_updt' WHERE f_leak(b); UPDATE only t1 SET b = b || '_updt' WHERE f_leak(b); -- returning clause with system column UPDATE only t1 SET b = b WHERE f_leak(b) RETURNING oid, *, t1; UPDATE t1 SET b = b WHERE f_leak(b) RETURNING *; UPDATE t1 SET b = b WHERE f_leak(b) RETURNING oid, *, t1; -- updates with from clause EXPLAIN (COSTS OFF) UPDATE t2 SET b=t2.b FROM t3 WHERE t2.a = 3 and t3.a = 2 AND f_leak(t2.b) AND f_leak(t3.b); UPDATE t2 SET b=t2.b FROM t3 WHERE t2.a = 3 and t3.a = 2 AND f_leak(t2.b) AND f_leak(t3.b); EXPLAIN (COSTS OFF) UPDATE t1 SET b=t1.b FROM t2 WHERE t1.a = 3 and t2.a = 3 AND f_leak(t1.b) AND f_leak(t2.b); UPDATE t1 SET b=t1.b FROM t2 WHERE t1.a = 3 and t2.a = 3 AND f_leak(t1.b) AND f_leak(t2.b); EXPLAIN (COSTS OFF) UPDATE t2 SET b=t2.b FROM t1 WHERE t1.a = 3 and t2.a = 3 AND f_leak(t1.b) AND f_leak(t2.b); UPDATE t2 SET b=t2.b FROM t1 WHERE t1.a = 3 and t2.a = 3 AND f_leak(t1.b) AND f_leak(t2.b); -- updates with from clause self join EXPLAIN (COSTS OFF) UPDATE t2 t2_1 SET b = t2_2.b FROM t2 t2_2 WHERE t2_1.a = 3 AND t2_2.a = t2_1.a AND t2_2.b = t2_1.b AND f_leak(t2_1.b) AND f_leak(t2_2.b) RETURNING *, t2_1, t2_2; UPDATE t2 t2_1 SET b = t2_2.b FROM t2 t2_2 WHERE t2_1.a = 3 AND t2_2.a = t2_1.a AND t2_2.b = t2_1.b AND f_leak(t2_1.b) AND f_leak(t2_2.b) RETURNING *, t2_1, t2_2; EXPLAIN (COSTS OFF) UPDATE t1 t1_1 SET b = t1_2.b FROM t1 t1_2 WHERE t1_1.a = 4 AND t1_2.a = t1_1.a AND t1_2.b = t1_1.b AND f_leak(t1_1.b) AND f_leak(t1_2.b) RETURNING *, t1_1, t1_2; UPDATE t1 t1_1 SET b = t1_2.b FROM t1 t1_2 WHERE t1_1.a = 4 AND t1_2.a = t1_1.a AND t1_2.b = t1_1.b AND f_leak(t1_1.b) AND f_leak(t1_2.b) RETURNING *, t1_1, t1_2; RESET SESSION AUTHORIZATION; SET row_security TO OFF; SELECT * FROM t1 ORDER BY a,b; SET SESSION AUTHORIZATION rls_regress_user1; SET row_security TO ON; EXPLAIN (COSTS OFF) DELETE FROM only t1 WHERE f_leak(b); EXPLAIN (COSTS OFF) DELETE FROM t1 WHERE f_leak(b); DELETE FROM only t1 WHERE f_leak(b) RETURNING oid, *, t1; DELETE FROM t1 WHERE f_leak(b) RETURNING oid, *, t1; -- -- S.b. view on top of Row-level security -- SET SESSION AUTHORIZATION rls_regress_user0; CREATE TABLE b1 (a int, b text); INSERT INTO b1 (SELECT x, md5(x::text) FROM generate_series(-10,10) x); CREATE POLICY p1 ON b1 USING (a % 2 = 0); ALTER TABLE b1 ENABLE ROW LEVEL SECURITY; GRANT ALL ON b1 TO rls_regress_user1; SET SESSION AUTHORIZATION rls_regress_user1; CREATE VIEW bv1 WITH (security_barrier) AS SELECT * FROM b1 WHERE a > 0 WITH CHECK OPTION; GRANT ALL ON bv1 TO rls_regress_user2; SET SESSION AUTHORIZATION rls_regress_user2; EXPLAIN (COSTS OFF) SELECT * FROM bv1 WHERE f_leak(b); SELECT * FROM bv1 WHERE f_leak(b); INSERT INTO bv1 VALUES (-1, 'xxx'); -- should fail view WCO INSERT INTO bv1 VALUES (11, 'xxx'); -- should fail RLS check INSERT INTO bv1 VALUES (12, 'xxx'); -- ok EXPLAIN (COSTS OFF) UPDATE bv1 SET b = 'yyy' WHERE a = 4 AND f_leak(b); UPDATE bv1 SET b = 'yyy' WHERE a = 4 AND f_leak(b); EXPLAIN (COSTS OFF) DELETE FROM bv1 WHERE a = 6 AND f_leak(b); DELETE FROM bv1 WHERE a = 6 AND f_leak(b); SET SESSION AUTHORIZATION rls_regress_user0; SELECT * FROM b1; -- -- INSERT ... ON CONFLICT DO UPDATE and Row-level security -- SET SESSION AUTHORIZATION rls_regress_user0; DROP POLICY p1 ON document; CREATE POLICY p1 ON document FOR SELECT USING (true); CREATE POLICY p2 ON document FOR INSERT WITH CHECK (dauthor = current_user); CREATE POLICY p3 ON document FOR UPDATE USING (cid = (SELECT cid from category WHERE cname = 'novel')) WITH CHECK (dauthor = current_user); SET SESSION AUTHORIZATION rls_regress_user1; -- Exists... SELECT * FROM document WHERE did = 2; -- ...so violates actual WITH CHECK OPTION within UPDATE (not INSERT, since -- alternative UPDATE path happens to be taken): INSERT INTO document VALUES (2, (SELECT cid from category WHERE cname = 'novel'), 1, 'rls_regress_user2', 'my first novel') ON CONFLICT (did) DO UPDATE SET dtitle = EXCLUDED.dtitle, dauthor = EXCLUDED.dauthor; -- Violates USING qual for UPDATE policy p3. -- -- UPDATE path is taken, but UPDATE fails purely because *existing* row to be -- updated is not a "novel"/cid 11 (row is not leaked, even though we have -- SELECT privileges sufficient to see the row in this instance): INSERT INTO document VALUES (33, 22, 1, 'rls_regress_user1', 'okay science fiction'); -- preparation for next statement INSERT INTO document VALUES (33, (SELECT cid from category WHERE cname = 'novel'), 1, 'rls_regress_user1', 'Some novel, replaces sci-fi') -- takes UPDATE path ON CONFLICT (did) DO UPDATE SET dtitle = EXCLUDED.dtitle; -- Fine (we UPDATE, since INSERT WCOs and UPDATE security barrier quals + WCOs -- not violated): INSERT INTO document VALUES (2, (SELECT cid from category WHERE cname = 'novel'), 1, 'rls_regress_user1', 'my first novel') ON CONFLICT (did) DO UPDATE SET dtitle = EXCLUDED.dtitle RETURNING *; -- Fine (we INSERT, so "cid = 33" ("technology") isn't evaluated): INSERT INTO document VALUES (78, (SELECT cid from category WHERE cname = 'novel'), 1, 'rls_regress_user1', 'some technology novel') ON CONFLICT (did) DO UPDATE SET dtitle = EXCLUDED.dtitle, cid = 33 RETURNING *; -- Fine (same query, but we UPDATE, so "cid = 33", ("technology") is not the -- case in respect of *existing* tuple): INSERT INTO document VALUES (78, (SELECT cid from category WHERE cname = 'novel'), 1, 'rls_regress_user1', 'some technology novel') ON CONFLICT (did) DO UPDATE SET dtitle = EXCLUDED.dtitle, cid = 33 RETURNING *; -- Same query a third time, but now fails due to existing tuple finally not -- passing quals: INSERT INTO document VALUES (78, (SELECT cid from category WHERE cname = 'novel'), 1, 'rls_regress_user1', 'some technology novel') ON CONFLICT (did) DO UPDATE SET dtitle = EXCLUDED.dtitle, cid = 33 RETURNING *; -- Don't fail just because INSERT doesn't satisfy WITH CHECK option that -- originated as a barrier/USING() qual from the UPDATE. Note that the UPDATE -- path *isn't* taken, and so UPDATE-related policy does not apply: INSERT INTO document VALUES (79, (SELECT cid from category WHERE cname = 'technology'), 1, 'rls_regress_user1', 'technology book, can only insert') ON CONFLICT (did) DO UPDATE SET dtitle = EXCLUDED.dtitle RETURNING *; -- But this time, the same statement fails, because the UPDATE path is taken, -- and updating the row just inserted falls afoul of security barrier qual -- (enforced as WCO) -- what we might have updated target tuple to is -- irrelevant, in fact. INSERT INTO document VALUES (79, (SELECT cid from category WHERE cname = 'technology'), 1, 'rls_regress_user1', 'technology book, can only insert') ON CONFLICT (did) DO UPDATE SET dtitle = EXCLUDED.dtitle RETURNING *; -- Test default USING qual enforced as WCO SET SESSION AUTHORIZATION rls_regress_user0; DROP POLICY p1 ON document; DROP POLICY p2 ON document; DROP POLICY p3 ON document; CREATE POLICY p3_with_default ON document FOR UPDATE USING (cid = (SELECT cid from category WHERE cname = 'novel')); SET SESSION AUTHORIZATION rls_regress_user1; -- Just because WCO-style enforcement of USING quals occurs with -- existing/target tuple does not mean that the implementation can be allowed -- to fail to also enforce this qual against the final tuple appended to -- relation (since in the absence of an explicit WCO, this is also interpreted -- as an UPDATE/ALL WCO in general). -- -- UPDATE path is taken here (fails due to existing tuple). Note that this is -- not reported as a "USING expression", because it's an RLS UPDATE check that originated as -- a USING qual for the purposes of RLS in general, as opposed to an explicit -- USING qual that is ordinarily a security barrier. We leave it up to the -- UPDATE to make this fail: INSERT INTO document VALUES (79, (SELECT cid from category WHERE cname = 'technology'), 1, 'rls_regress_user1', 'technology book, can only insert') ON CONFLICT (did) DO UPDATE SET dtitle = EXCLUDED.dtitle RETURNING *; -- UPDATE path is taken here. Existing tuple passes, since it's cid -- corresponds to "novel", but default USING qual is enforced against -- post-UPDATE tuple too (as always when updating with a policy that lacks an -- explicit WCO), and so this fails: INSERT INTO document VALUES (2, (SELECT cid from category WHERE cname = 'technology'), 1, 'rls_regress_user1', 'my first novel') ON CONFLICT (did) DO UPDATE SET cid = EXCLUDED.cid, dtitle = EXCLUDED.dtitle RETURNING *; SET SESSION AUTHORIZATION rls_regress_user0; DROP POLICY p3_with_default ON document; -- -- Test ALL policies with ON CONFLICT DO UPDATE (much the same as existing UPDATE -- tests) -- CREATE POLICY p3_with_all ON document FOR ALL USING (cid = (SELECT cid from category WHERE cname = 'novel')) WITH CHECK (dauthor = current_user); SET SESSION AUTHORIZATION rls_regress_user1; -- Fails, since ALL WCO is enforced in insert path: INSERT INTO document VALUES (80, (SELECT cid from category WHERE cname = 'novel'), 1, 'rls_regress_user2', 'my first novel') ON CONFLICT (did) DO UPDATE SET dtitle = EXCLUDED.dtitle, cid = 33; -- Fails, since ALL policy USING qual is enforced (existing, target tuple is in -- violation, since it has the "manga" cid): INSERT INTO document VALUES (4, (SELECT cid from category WHERE cname = 'novel'), 1, 'rls_regress_user1', 'my first novel') ON CONFLICT (did) DO UPDATE SET dtitle = EXCLUDED.dtitle; -- Fails, since ALL WCO are enforced: INSERT INTO document VALUES (1, (SELECT cid from category WHERE cname = 'novel'), 1, 'rls_regress_user1', 'my first novel') ON CONFLICT (did) DO UPDATE SET dauthor = 'rls_regress_user2'; -- -- ROLE/GROUP -- SET SESSION AUTHORIZATION rls_regress_user0; CREATE TABLE z1 (a int, b text); CREATE TABLE z2 (a int, b text); GRANT SELECT ON z1,z2 TO rls_regress_group1, rls_regress_group2, rls_regress_user1, rls_regress_user2; INSERT INTO z1 VALUES (1, 'aaa'), (2, 'bbb'), (3, 'ccc'), (4, 'ddd'); CREATE POLICY p1 ON z1 TO rls_regress_group1 USING (a % 2 = 0); CREATE POLICY p2 ON z1 TO rls_regress_group2 USING (a % 2 = 1); ALTER TABLE z1 ENABLE ROW LEVEL SECURITY; SET SESSION AUTHORIZATION rls_regress_user1; SELECT * FROM z1 WHERE f_leak(b); EXPLAIN (COSTS OFF) SELECT * FROM z1 WHERE f_leak(b); PREPARE plancache_test AS SELECT * FROM z1 WHERE f_leak(b); EXPLAIN (COSTS OFF) EXECUTE plancache_test; PREPARE plancache_test2 AS WITH q AS (SELECT * FROM z1 WHERE f_leak(b)) SELECT * FROM q,z2; EXPLAIN (COSTS OFF) EXECUTE plancache_test2; PREPARE plancache_test3 AS WITH q AS (SELECT * FROM z2) SELECT * FROM q,z1 WHERE f_leak(z1.b); EXPLAIN (COSTS OFF) EXECUTE plancache_test3; SET ROLE rls_regress_group1; SELECT * FROM z1 WHERE f_leak(b); EXPLAIN (COSTS OFF) SELECT * FROM z1 WHERE f_leak(b); EXPLAIN (COSTS OFF) EXECUTE plancache_test; EXPLAIN (COSTS OFF) EXECUTE plancache_test2; EXPLAIN (COSTS OFF) EXECUTE plancache_test3; SET SESSION AUTHORIZATION rls_regress_user2; SELECT * FROM z1 WHERE f_leak(b); EXPLAIN (COSTS OFF) SELECT * FROM z1 WHERE f_leak(b); EXPLAIN (COSTS OFF) EXECUTE plancache_test; EXPLAIN (COSTS OFF) EXECUTE plancache_test2; EXPLAIN (COSTS OFF) EXECUTE plancache_test3; SET ROLE rls_regress_group2; SELECT * FROM z1 WHERE f_leak(b); EXPLAIN (COSTS OFF) SELECT * FROM z1 WHERE f_leak(b); EXPLAIN (COSTS OFF) EXECUTE plancache_test; EXPLAIN (COSTS OFF) EXECUTE plancache_test2; EXPLAIN (COSTS OFF) EXECUTE plancache_test3; -- -- Views should follow policy for view owner. -- -- View and Table owner are the same. SET SESSION AUTHORIZATION rls_regress_user0; CREATE VIEW rls_view AS SELECT * FROM z1 WHERE f_leak(b); GRANT SELECT ON rls_view TO rls_regress_user1; -- Query as role that is not owner of view or table. Should return all records. SET SESSION AUTHORIZATION rls_regress_user1; SELECT * FROM rls_view; EXPLAIN (COSTS OFF) SELECT * FROM rls_view; -- Query as view/table owner. Should return all records. SET SESSION AUTHORIZATION rls_regress_user0; SELECT * FROM rls_view; EXPLAIN (COSTS OFF) SELECT * FROM rls_view; DROP VIEW rls_view; -- View and Table owners are different. SET SESSION AUTHORIZATION rls_regress_user1; CREATE VIEW rls_view AS SELECT * FROM z1 WHERE f_leak(b); GRANT SELECT ON rls_view TO rls_regress_user0; -- Query as role that is not owner of view but is owner of table. -- Should return records based on view owner policies. SET SESSION AUTHORIZATION rls_regress_user0; SELECT * FROM rls_view; EXPLAIN (COSTS OFF) SELECT * FROM rls_view; -- Query as role that is not owner of table but is owner of view. -- Should return records based on view owner policies. SET SESSION AUTHORIZATION rls_regress_user1; SELECT * FROM rls_view; EXPLAIN (COSTS OFF) SELECT * FROM rls_view; -- Query as role that is not the owner of the table or view without permissions. SET SESSION AUTHORIZATION rls_regress_user2; SELECT * FROM rls_view; --fail - permission denied. EXPLAIN (COSTS OFF) SELECT * FROM rls_view; --fail - permission denied. -- Query as role that is not the owner of the table or view with permissions. SET SESSION AUTHORIZATION rls_regress_user1; GRANT SELECT ON rls_view TO rls_regress_user2; SELECT * FROM rls_view; EXPLAIN (COSTS OFF) SELECT * FROM rls_view; SET SESSION AUTHORIZATION rls_regress_user1; DROP VIEW rls_view; -- -- Command specific -- SET SESSION AUTHORIZATION rls_regress_user0; CREATE TABLE x1 (a int, b text, c text); GRANT ALL ON x1 TO PUBLIC; INSERT INTO x1 VALUES (1, 'abc', 'rls_regress_user1'), (2, 'bcd', 'rls_regress_user1'), (3, 'cde', 'rls_regress_user2'), (4, 'def', 'rls_regress_user2'), (5, 'efg', 'rls_regress_user1'), (6, 'fgh', 'rls_regress_user1'), (7, 'fgh', 'rls_regress_user2'), (8, 'fgh', 'rls_regress_user2'); CREATE POLICY p0 ON x1 FOR ALL USING (c = current_user); CREATE POLICY p1 ON x1 FOR SELECT USING (a % 2 = 0); CREATE POLICY p2 ON x1 FOR INSERT WITH CHECK (a % 2 = 1); CREATE POLICY p3 ON x1 FOR UPDATE USING (a % 2 = 0); CREATE POLICY p4 ON x1 FOR DELETE USING (a < 8); ALTER TABLE x1 ENABLE ROW LEVEL SECURITY; SET SESSION AUTHORIZATION rls_regress_user1; SELECT * FROM x1 WHERE f_leak(b) ORDER BY a ASC; UPDATE x1 SET b = b || '_updt' WHERE f_leak(b) RETURNING *; SET SESSION AUTHORIZATION rls_regress_user2; SELECT * FROM x1 WHERE f_leak(b) ORDER BY a ASC; UPDATE x1 SET b = b || '_updt' WHERE f_leak(b) RETURNING *; DELETE FROM x1 WHERE f_leak(b) RETURNING *; -- -- Duplicate Policy Names -- SET SESSION AUTHORIZATION rls_regress_user0; CREATE TABLE y1 (a int, b text); CREATE TABLE y2 (a int, b text); GRANT ALL ON y1, y2 TO rls_regress_user1; CREATE POLICY p1 ON y1 FOR ALL USING (a % 2 = 0); CREATE POLICY p2 ON y1 FOR SELECT USING (a > 2); CREATE POLICY p1 ON y1 FOR SELECT USING (a % 2 = 1); --fail CREATE POLICY p1 ON y2 FOR ALL USING (a % 2 = 0); --OK ALTER TABLE y1 ENABLE ROW LEVEL SECURITY; ALTER TABLE y2 ENABLE ROW LEVEL SECURITY; -- -- Expression structure with SBV -- -- Create view as table owner. RLS should NOT be applied. SET SESSION AUTHORIZATION rls_regress_user0; CREATE VIEW rls_sbv WITH (security_barrier) AS SELECT * FROM y1 WHERE f_leak(b); EXPLAIN (COSTS OFF) SELECT * FROM rls_sbv WHERE (a = 1); DROP VIEW rls_sbv; -- Create view as role that does not own table. RLS should be applied. SET SESSION AUTHORIZATION rls_regress_user1; CREATE VIEW rls_sbv WITH (security_barrier) AS SELECT * FROM y1 WHERE f_leak(b); EXPLAIN (COSTS OFF) SELECT * FROM rls_sbv WHERE (a = 1); DROP VIEW rls_sbv; -- -- Expression structure -- SET SESSION AUTHORIZATION rls_regress_user0; INSERT INTO y2 (SELECT x, md5(x::text) FROM generate_series(0,20) x); CREATE POLICY p2 ON y2 USING (a % 3 = 0); CREATE POLICY p3 ON y2 USING (a % 4 = 0); SET SESSION AUTHORIZATION rls_regress_user1; SELECT * FROM y2 WHERE f_leak(b); EXPLAIN (COSTS OFF) SELECT * FROM y2 WHERE f_leak(b); -- -- Qual push-down of leaky functions, when not referring to table -- SELECT * FROM y2 WHERE f_leak('abc'); EXPLAIN (COSTS OFF) SELECT * FROM y2 WHERE f_leak('abc'); CREATE TABLE test_qual_pushdown ( abc text ); INSERT INTO test_qual_pushdown VALUES ('abc'),('def'); SELECT * FROM y2 JOIN test_qual_pushdown ON (b = abc) WHERE f_leak(abc); EXPLAIN (COSTS OFF) SELECT * FROM y2 JOIN test_qual_pushdown ON (b = abc) WHERE f_leak(abc); SELECT * FROM y2 JOIN test_qual_pushdown ON (b = abc) WHERE f_leak(b); EXPLAIN (COSTS OFF) SELECT * FROM y2 JOIN test_qual_pushdown ON (b = abc) WHERE f_leak(b); DROP TABLE test_qual_pushdown; -- -- Plancache invalidate on user change. -- RESET SESSION AUTHORIZATION; -- Suppress NOTICE messages when doing a cascaded drop. SET client_min_messages TO 'warning'; DROP TABLE t1 CASCADE; RESET client_min_messages; CREATE TABLE t1 (a integer); GRANT SELECT ON t1 TO rls_regress_user1, rls_regress_user2; CREATE POLICY p1 ON t1 TO rls_regress_user1 USING ((a % 2) = 0); CREATE POLICY p2 ON t1 TO rls_regress_user2 USING ((a % 4) = 0); ALTER TABLE t1 ENABLE ROW LEVEL SECURITY; SET ROLE rls_regress_user1; PREPARE role_inval AS SELECT * FROM t1; EXPLAIN (COSTS OFF) EXECUTE role_inval; SET ROLE rls_regress_user2; EXPLAIN (COSTS OFF) EXECUTE role_inval; -- -- CTE and RLS -- RESET SESSION AUTHORIZATION; DROP TABLE t1 CASCADE; CREATE TABLE t1 (a integer, b text); CREATE POLICY p1 ON t1 USING (a % 2 = 0); ALTER TABLE t1 ENABLE ROW LEVEL SECURITY; GRANT ALL ON t1 TO rls_regress_user1; INSERT INTO t1 (SELECT x, md5(x::text) FROM generate_series(0,20) x); SET SESSION AUTHORIZATION rls_regress_user1; WITH cte1 AS (SELECT * FROM t1 WHERE f_leak(b)) SELECT * FROM cte1; EXPLAIN (COSTS OFF) WITH cte1 AS (SELECT * FROM t1 WHERE f_leak(b)) SELECT * FROM cte1; WITH cte1 AS (UPDATE t1 SET a = a + 1 RETURNING *) SELECT * FROM cte1; --fail WITH cte1 AS (UPDATE t1 SET a = a RETURNING *) SELECT * FROM cte1; --ok WITH cte1 AS (INSERT INTO t1 VALUES (21, 'Fail') RETURNING *) SELECT * FROM cte1; --fail WITH cte1 AS (INSERT INTO t1 VALUES (20, 'Success') RETURNING *) SELECT * FROM cte1; --ok -- -- Rename Policy -- RESET SESSION AUTHORIZATION; ALTER POLICY p1 ON t1 RENAME TO p1; --fail SELECT polname, relname FROM pg_policy pol JOIN pg_class pc ON (pc.oid = pol.polrelid) WHERE relname = 't1'; ALTER POLICY p1 ON t1 RENAME TO p2; --ok SELECT polname, relname FROM pg_policy pol JOIN pg_class pc ON (pc.oid = pol.polrelid) WHERE relname = 't1'; -- -- Check INSERT SELECT -- SET SESSION AUTHORIZATION rls_regress_user1; CREATE TABLE t2 (a integer, b text); INSERT INTO t2 (SELECT * FROM t1); EXPLAIN (COSTS OFF) INSERT INTO t2 (SELECT * FROM t1); SELECT * FROM t2; EXPLAIN (COSTS OFF) SELECT * FROM t2; CREATE TABLE t3 AS SELECT * FROM t1; SELECT * FROM t3; SELECT * INTO t4 FROM t1; SELECT * FROM t4; -- -- RLS with JOIN -- SET SESSION AUTHORIZATION rls_regress_user0; CREATE TABLE blog (id integer, author text, post text); CREATE TABLE comment (blog_id integer, message text); GRANT ALL ON blog, comment TO rls_regress_user1; CREATE POLICY blog_1 ON blog USING (id % 2 = 0); ALTER TABLE blog ENABLE ROW LEVEL SECURITY; INSERT INTO blog VALUES (1, 'alice', 'blog #1'), (2, 'bob', 'blog #1'), (3, 'alice', 'blog #2'), (4, 'alice', 'blog #3'), (5, 'john', 'blog #1'); INSERT INTO comment VALUES (1, 'cool blog'), (1, 'fun blog'), (3, 'crazy blog'), (5, 'what?'), (4, 'insane!'), (2, 'who did it?'); SET SESSION AUTHORIZATION rls_regress_user1; -- Check RLS JOIN with Non-RLS. SELECT id, author, message FROM blog JOIN comment ON id = blog_id; -- Check Non-RLS JOIN with RLS. SELECT id, author, message FROM comment JOIN blog ON id = blog_id; SET SESSION AUTHORIZATION rls_regress_user0; CREATE POLICY comment_1 ON comment USING (blog_id < 4); ALTER TABLE comment ENABLE ROW LEVEL SECURITY; SET SESSION AUTHORIZATION rls_regress_user1; -- Check RLS JOIN RLS SELECT id, author, message FROM blog JOIN comment ON id = blog_id; SELECT id, author, message FROM comment JOIN blog ON id = blog_id; SET SESSION AUTHORIZATION rls_regress_user0; DROP TABLE blog, comment; -- -- Default Deny Policy -- RESET SESSION AUTHORIZATION; DROP POLICY p2 ON t1; ALTER TABLE t1 OWNER TO rls_regress_user0; -- Check that default deny does not apply to superuser. RESET SESSION AUTHORIZATION; SELECT * FROM t1; EXPLAIN (COSTS OFF) SELECT * FROM t1; -- Check that default deny does not apply to table owner. SET SESSION AUTHORIZATION rls_regress_user0; SELECT * FROM t1; EXPLAIN (COSTS OFF) SELECT * FROM t1; -- Check that default deny applies to non-owner/non-superuser when RLS on. SET SESSION AUTHORIZATION rls_regress_user1; SET row_security TO ON; SELECT * FROM t1; EXPLAIN (COSTS OFF) SELECT * FROM t1; SET SESSION AUTHORIZATION rls_regress_user1; SELECT * FROM t1; EXPLAIN (COSTS OFF) SELECT * FROM t1; -- -- COPY TO/FROM -- RESET SESSION AUTHORIZATION; DROP TABLE copy_t CASCADE; CREATE TABLE copy_t (a integer, b text); CREATE POLICY p1 ON copy_t USING (a % 2 = 0); ALTER TABLE copy_t ENABLE ROW LEVEL SECURITY; GRANT ALL ON copy_t TO rls_regress_user1, rls_regress_exempt_user; INSERT INTO copy_t (SELECT x, md5(x::text) FROM generate_series(0,10) x); -- Check COPY TO as Superuser/owner. RESET SESSION AUTHORIZATION; SET row_security TO OFF; COPY (SELECT * FROM copy_t ORDER BY a ASC) TO STDOUT WITH DELIMITER ','; SET row_security TO ON; COPY (SELECT * FROM copy_t ORDER BY a ASC) TO STDOUT WITH DELIMITER ','; -- Check COPY TO as user with permissions. SET SESSION AUTHORIZATION rls_regress_user1; SET row_security TO OFF; COPY (SELECT * FROM copy_t ORDER BY a ASC) TO STDOUT WITH DELIMITER ','; --fail - would be affected by RLS SET row_security TO ON; COPY (SELECT * FROM copy_t ORDER BY a ASC) TO STDOUT WITH DELIMITER ','; --ok -- Check COPY TO as user with permissions and BYPASSRLS SET SESSION AUTHORIZATION rls_regress_exempt_user; SET row_security TO OFF; COPY (SELECT * FROM copy_t ORDER BY a ASC) TO STDOUT WITH DELIMITER ','; --ok SET row_security TO ON; COPY (SELECT * FROM copy_t ORDER BY a ASC) TO STDOUT WITH DELIMITER ','; --ok -- Check COPY TO as user without permissions. SET row_security TO OFF; SET SESSION AUTHORIZATION rls_regress_user2; SET row_security TO OFF; COPY (SELECT * FROM copy_t ORDER BY a ASC) TO STDOUT WITH DELIMITER ','; --fail - would be affected by RLS SET row_security TO ON; COPY (SELECT * FROM copy_t ORDER BY a ASC) TO STDOUT WITH DELIMITER ','; --fail - permission denied -- Check COPY relation TO; keep it just one row to avoid reordering issues RESET SESSION AUTHORIZATION; SET row_security TO ON; CREATE TABLE copy_rel_to (a integer, b text); CREATE POLICY p1 ON copy_rel_to USING (a % 2 = 0); ALTER TABLE copy_rel_to ENABLE ROW LEVEL SECURITY; GRANT ALL ON copy_rel_to TO rls_regress_user1, rls_regress_exempt_user; INSERT INTO copy_rel_to VALUES (1, md5('1')); -- Check COPY TO as Superuser/owner. RESET SESSION AUTHORIZATION; SET row_security TO OFF; COPY copy_rel_to TO STDOUT WITH DELIMITER ','; SET row_security TO ON; COPY copy_rel_to TO STDOUT WITH DELIMITER ','; -- Check COPY TO as user with permissions. SET SESSION AUTHORIZATION rls_regress_user1; SET row_security TO OFF; COPY copy_rel_to TO STDOUT WITH DELIMITER ','; --fail - would be affected by RLS SET row_security TO ON; COPY copy_rel_to TO STDOUT WITH DELIMITER ','; --ok -- Check COPY TO as user with permissions and BYPASSRLS SET SESSION AUTHORIZATION rls_regress_exempt_user; SET row_security TO OFF; COPY copy_rel_to TO STDOUT WITH DELIMITER ','; --ok SET row_security TO ON; COPY copy_rel_to TO STDOUT WITH DELIMITER ','; --ok -- Check COPY TO as user without permissions. SET row_security TO OFF; SET SESSION AUTHORIZATION rls_regress_user2; SET row_security TO OFF; COPY copy_rel_to TO STDOUT WITH DELIMITER ','; --fail - permission denied SET row_security TO ON; COPY copy_rel_to TO STDOUT WITH DELIMITER ','; --fail - permission denied -- Check COPY FROM as Superuser/owner. RESET SESSION AUTHORIZATION; SET row_security TO OFF; COPY copy_t FROM STDIN; --ok 1 abc 2 bcd 3 cde 4 def \. SET row_security TO ON; COPY copy_t FROM STDIN; --ok 1 abc 2 bcd 3 cde 4 def \. -- Check COPY FROM as user with permissions. SET SESSION AUTHORIZATION rls_regress_user1; SET row_security TO OFF; COPY copy_t FROM STDIN; --fail - would be affected by RLS. SET row_security TO ON; COPY copy_t FROM STDIN; --fail - COPY FROM not supported by RLS. -- Check COPY FROM as user with permissions and BYPASSRLS SET SESSION AUTHORIZATION rls_regress_exempt_user; SET row_security TO ON; COPY copy_t FROM STDIN; --ok 1 abc 2 bcd 3 cde 4 def \. -- Check COPY FROM as user without permissions. SET SESSION AUTHORIZATION rls_regress_user2; SET row_security TO OFF; COPY copy_t FROM STDIN; --fail - permission denied. SET row_security TO ON; COPY copy_t FROM STDIN; --fail - permission denied. RESET SESSION AUTHORIZATION; DROP TABLE copy_t; DROP TABLE copy_rel_to CASCADE; -- Check WHERE CURRENT OF SET SESSION AUTHORIZATION rls_regress_user0; CREATE TABLE current_check (currentid int, payload text, rlsuser text); GRANT ALL ON current_check TO PUBLIC; INSERT INTO current_check VALUES (1, 'abc', 'rls_regress_user1'), (2, 'bcd', 'rls_regress_user1'), (3, 'cde', 'rls_regress_user1'), (4, 'def', 'rls_regress_user1'); CREATE POLICY p1 ON current_check FOR SELECT USING (currentid % 2 = 0); CREATE POLICY p2 ON current_check FOR DELETE USING (currentid = 4 AND rlsuser = current_user); CREATE POLICY p3 ON current_check FOR UPDATE USING (currentid = 4) WITH CHECK (rlsuser = current_user); ALTER TABLE current_check ENABLE ROW LEVEL SECURITY; SET SESSION AUTHORIZATION rls_regress_user1; -- Can SELECT even rows SELECT * FROM current_check; -- Cannot UPDATE row 2 UPDATE current_check SET payload = payload || '_new' WHERE currentid = 2 RETURNING *; BEGIN; DECLARE current_check_cursor SCROLL CURSOR FOR SELECT * FROM current_check; -- Returns rows that can be seen according to SELECT policy, like plain SELECT -- above (even rows) FETCH ABSOLUTE 1 FROM current_check_cursor; -- Still cannot UPDATE row 2 through cursor UPDATE current_check SET payload = payload || '_new' WHERE CURRENT OF current_check_cursor RETURNING *; -- Can update row 4 through cursor, which is the next visible row FETCH RELATIVE 1 FROM current_check_cursor; UPDATE current_check SET payload = payload || '_new' WHERE CURRENT OF current_check_cursor RETURNING *; SELECT * FROM current_check; -- Plan should be a subquery TID scan EXPLAIN (COSTS OFF) UPDATE current_check SET payload = payload WHERE CURRENT OF current_check_cursor; -- Similarly can only delete row 4 FETCH ABSOLUTE 1 FROM current_check_cursor; DELETE FROM current_check WHERE CURRENT OF current_check_cursor RETURNING *; FETCH RELATIVE 1 FROM current_check_cursor; DELETE FROM current_check WHERE CURRENT OF current_check_cursor RETURNING *; SELECT * FROM current_check; COMMIT; -- -- check pg_stats view filtering -- SET row_security TO ON; SET SESSION AUTHORIZATION rls_regress_user0; ANALYZE current_check; -- Stats visible SELECT row_security_active('current_check'); SELECT attname, most_common_vals FROM pg_stats WHERE tablename = 'current_check' ORDER BY 1; SET SESSION AUTHORIZATION rls_regress_user1; -- Stats not visible SELECT row_security_active('current_check'); SELECT attname, most_common_vals FROM pg_stats WHERE tablename = 'current_check' ORDER BY 1; -- -- Collation support -- BEGIN; CREATE TABLE coll_t (c) AS VALUES ('bar'::text); CREATE POLICY coll_p ON coll_t USING (c < ('foo'::text COLLATE "C")); ALTER TABLE coll_t ENABLE ROW LEVEL SECURITY; GRANT SELECT ON coll_t TO rls_regress_user0; SELECT (string_to_array(polqual, ':'))[7] AS inputcollid FROM pg_policy WHERE polrelid = 'coll_t'::regclass; SET SESSION AUTHORIZATION rls_regress_user0; SELECT * FROM coll_t; ROLLBACK; -- -- Shared Object Dependencies -- RESET SESSION AUTHORIZATION; BEGIN; CREATE ROLE alice; CREATE ROLE bob; CREATE TABLE tbl1 (c) AS VALUES ('bar'::text); GRANT SELECT ON TABLE tbl1 TO alice; CREATE POLICY P ON tbl1 TO alice, bob USING (true); SELECT refclassid::regclass, deptype FROM pg_depend WHERE classid = 'pg_policy'::regclass AND refobjid = 'tbl1'::regclass; SELECT refclassid::regclass, deptype FROM pg_shdepend WHERE classid = 'pg_policy'::regclass AND refobjid IN ('alice'::regrole, 'bob'::regrole); SAVEPOINT q; DROP ROLE alice; --fails due to dependency on POLICY p ROLLBACK TO q; ALTER POLICY p ON tbl1 TO bob USING (true); SAVEPOINT q; DROP ROLE alice; --fails due to dependency on GRANT SELECT ROLLBACK TO q; REVOKE ALL ON TABLE tbl1 FROM alice; SAVEPOINT q; DROP ROLE alice; --succeeds ROLLBACK TO q; SAVEPOINT q; DROP ROLE bob; --fails due to dependency on POLICY p ROLLBACK TO q; DROP POLICY p ON tbl1; SAVEPOINT q; DROP ROLE bob; -- succeeds ROLLBACK TO q; ROLLBACK; -- cleanup -- -- Converting table to view -- BEGIN; CREATE TABLE t (c int); CREATE POLICY p ON t USING (c % 2 = 1); ALTER TABLE t ENABLE ROW LEVEL SECURITY; SAVEPOINT q; CREATE RULE "_RETURN" AS ON SELECT TO t DO INSTEAD SELECT * FROM generate_series(1,5) t0(c); -- fails due to row level security enabled ROLLBACK TO q; ALTER TABLE t DISABLE ROW LEVEL SECURITY; SAVEPOINT q; CREATE RULE "_RETURN" AS ON SELECT TO t DO INSTEAD SELECT * FROM generate_series(1,5) t0(c); -- fails due to policy p on t ROLLBACK TO q; DROP POLICY p ON t; CREATE RULE "_RETURN" AS ON SELECT TO t DO INSTEAD SELECT * FROM generate_series(1,5) t0(c); -- succeeds ROLLBACK; -- -- Policy expression handling -- BEGIN; CREATE TABLE t (c) AS VALUES ('bar'::text); CREATE POLICY p ON t USING (max(c)); -- fails: aggregate functions are not allowed in policy expressions ROLLBACK; -- -- Non-target relations are only subject to SELECT policies -- SET SESSION AUTHORIZATION rls_regress_user0; CREATE TABLE r1 (a int); CREATE TABLE r2 (a int); INSERT INTO r1 VALUES (10), (20); INSERT INTO r2 VALUES (10), (20); GRANT ALL ON r1, r2 TO rls_regress_user1; CREATE POLICY p1 ON r1 USING (true); ALTER TABLE r1 ENABLE ROW LEVEL SECURITY; CREATE POLICY p1 ON r2 FOR SELECT USING (true); CREATE POLICY p2 ON r2 FOR INSERT WITH CHECK (false); CREATE POLICY p3 ON r2 FOR UPDATE USING (false); CREATE POLICY p4 ON r2 FOR DELETE USING (false); ALTER TABLE r2 ENABLE ROW LEVEL SECURITY; SET SESSION AUTHORIZATION rls_regress_user1; SELECT * FROM r1; SELECT * FROM r2; -- r2 is read-only INSERT INTO r2 VALUES (2); -- Not allowed UPDATE r2 SET a = 2 RETURNING *; -- Updates nothing DELETE FROM r2 RETURNING *; -- Deletes nothing -- r2 can be used as a non-target relation in DML INSERT INTO r1 SELECT a + 1 FROM r2 RETURNING *; -- OK UPDATE r1 SET a = r2.a + 2 FROM r2 WHERE r1.a = r2.a RETURNING *; -- OK DELETE FROM r1 USING r2 WHERE r1.a = r2.a + 2 RETURNING *; -- OK SELECT * FROM r1; SELECT * FROM r2; SET SESSION AUTHORIZATION rls_regress_user0; DROP TABLE r1; DROP TABLE r2; -- -- FORCE ROW LEVEL SECURITY applies RLS to owners too -- SET SESSION AUTHORIZATION rls_regress_user0; SET row_security = on; CREATE TABLE r1 (a int); INSERT INTO r1 VALUES (10), (20); CREATE POLICY p1 ON r1 USING (false); ALTER TABLE r1 ENABLE ROW LEVEL SECURITY; ALTER TABLE r1 FORCE ROW LEVEL SECURITY; -- No error, but no rows TABLE r1; -- RLS error INSERT INTO r1 VALUES (1); -- No error (unable to see any rows to update) UPDATE r1 SET a = 1; TABLE r1; -- No error (unable to see any rows to delete) DELETE FROM r1; TABLE r1; SET row_security = off; -- these all fail, would be affected by RLS TABLE r1; UPDATE r1 SET a = 1; DELETE FROM r1; DROP TABLE r1; -- -- FORCE ROW LEVEL SECURITY does not break RI -- SET SESSION AUTHORIZATION rls_regress_user0; SET row_security = on; CREATE TABLE r1 (a int PRIMARY KEY); CREATE TABLE r2 (a int REFERENCES r1); INSERT INTO r1 VALUES (10), (20); INSERT INTO r2 VALUES (10), (20); -- Create policies on r2 which prevent the -- owner from seeing any rows, but RI should -- still see them. CREATE POLICY p1 ON r2 USING (false); ALTER TABLE r2 ENABLE ROW LEVEL SECURITY; ALTER TABLE r2 FORCE ROW LEVEL SECURITY; -- Errors due to rows in r2 DELETE FROM r1; -- Reset r2 to no-RLS DROP POLICY p1 ON r2; ALTER TABLE r2 NO FORCE ROW LEVEL SECURITY; ALTER TABLE r2 DISABLE ROW LEVEL SECURITY; -- clean out r2 for INSERT test below DELETE FROM r2; -- Change r1 to not allow rows to be seen CREATE POLICY p1 ON r1 USING (false); ALTER TABLE r1 ENABLE ROW LEVEL SECURITY; ALTER TABLE r1 FORCE ROW LEVEL SECURITY; -- No rows seen TABLE r1; -- No error, RI still sees that row exists in r1 INSERT INTO r2 VALUES (10); DROP TABLE r2; DROP TABLE r1; -- Ensure cascaded DELETE works CREATE TABLE r1 (a int PRIMARY KEY); CREATE TABLE r2 (a int REFERENCES r1 ON DELETE CASCADE); INSERT INTO r1 VALUES (10), (20); INSERT INTO r2 VALUES (10), (20); -- Create policies on r2 which prevent the -- owner from seeing any rows, but RI should -- still see them. CREATE POLICY p1 ON r2 USING (false); ALTER TABLE r2 ENABLE ROW LEVEL SECURITY; ALTER TABLE r2 FORCE ROW LEVEL SECURITY; -- Deletes all records from both DELETE FROM r1; -- Remove FORCE from r2 ALTER TABLE r2 NO FORCE ROW LEVEL SECURITY; -- As owner, we now bypass RLS -- verify no rows in r2 now TABLE r2; DROP TABLE r2; DROP TABLE r1; -- Ensure cascaded UPDATE works CREATE TABLE r1 (a int PRIMARY KEY); CREATE TABLE r2 (a int REFERENCES r1 ON UPDATE CASCADE); INSERT INTO r1 VALUES (10), (20); INSERT INTO r2 VALUES (10), (20); -- Create policies on r2 which prevent the -- owner from seeing any rows, but RI should -- still see them. CREATE POLICY p1 ON r2 USING (false); ALTER TABLE r2 ENABLE ROW LEVEL SECURITY; ALTER TABLE r2 FORCE ROW LEVEL SECURITY; -- Updates records in both UPDATE r1 SET a = a+5; -- Remove FORCE from r2 ALTER TABLE r2 NO FORCE ROW LEVEL SECURITY; -- As owner, we now bypass RLS -- verify records in r2 updated TABLE r2; DROP TABLE r2; DROP TABLE r1; -- -- Test INSERT+RETURNING applies SELECT policies as -- WithCheckOptions (meaning an error is thrown) -- SET SESSION AUTHORIZATION rls_regress_user0; SET row_security = on; CREATE TABLE r1 (a int); CREATE POLICY p1 ON r1 FOR SELECT USING (false); CREATE POLICY p2 ON r1 FOR INSERT WITH CHECK (true); ALTER TABLE r1 ENABLE ROW LEVEL SECURITY; ALTER TABLE r1 FORCE ROW LEVEL SECURITY; -- Works fine INSERT INTO r1 VALUES (10), (20); -- No error, but no rows TABLE r1; SET row_security = off; -- fail, would be affected by RLS TABLE r1; SET row_security = on; -- Error INSERT INTO r1 VALUES (10), (20) RETURNING *; DROP TABLE r1; -- -- Test UPDATE+RETURNING applies SELECT policies as -- WithCheckOptions (meaning an error is thrown) -- SET SESSION AUTHORIZATION rls_regress_user0; SET row_security = on; CREATE TABLE r1 (a int); CREATE POLICY p1 ON r1 FOR SELECT USING (a < 20); CREATE POLICY p2 ON r1 FOR UPDATE USING (a < 20) WITH CHECK (true); INSERT INTO r1 VALUES (10); ALTER TABLE r1 ENABLE ROW LEVEL SECURITY; ALTER TABLE r1 FORCE ROW LEVEL SECURITY; -- Works fine UPDATE r1 SET a = 30; -- Show updated rows ALTER TABLE r1 NO FORCE ROW LEVEL SECURITY; TABLE r1; -- reset value in r1 for test with RETURNING UPDATE r1 SET a = 10; -- Verify row reset TABLE r1; ALTER TABLE r1 FORCE ROW LEVEL SECURITY; -- Error UPDATE r1 SET a = 30 RETURNING *; DROP TABLE r1; -- Check dependency handling RESET SESSION AUTHORIZATION; CREATE TABLE dep1 (c1 int); CREATE TABLE dep2 (c1 int); CREATE POLICY dep_p1 ON dep1 TO rls_regress_user1 USING (c1 > (select max(dep2.c1) from dep2)); ALTER POLICY dep_p1 ON dep1 TO rls_regress_user1,rls_regress_user2; -- Should return one SELECT count(*) = 1 FROM pg_depend WHERE objid = (SELECT oid FROM pg_policy WHERE polname = 'dep_p1') AND refobjid = (SELECT oid FROM pg_class WHERE relname = 'dep2'); ALTER POLICY dep_p1 ON dep1 USING (true); -- Should return one SELECT count(*) = 1 FROM pg_shdepend WHERE objid = (SELECT oid FROM pg_policy WHERE polname = 'dep_p1') AND refobjid = (SELECT oid FROM pg_authid WHERE rolname = 'rls_regress_user1'); -- Should return one SELECT count(*) = 1 FROM pg_shdepend WHERE objid = (SELECT oid FROM pg_policy WHERE polname = 'dep_p1') AND refobjid = (SELECT oid FROM pg_authid WHERE rolname = 'rls_regress_user2'); -- Should return zero SELECT count(*) = 0 FROM pg_depend WHERE objid = (SELECT oid FROM pg_policy WHERE polname = 'dep_p1') AND refobjid = (SELECT oid FROM pg_class WHERE relname = 'dep2'); -- DROP OWNED BY testing RESET SESSION AUTHORIZATION; CREATE ROLE dob_role1; CREATE ROLE dob_role2; CREATE TABLE dob_t1 (c1 int); CREATE POLICY p1 ON dob_t1 TO dob_role1 USING (true); DROP OWNED BY dob_role1; DROP POLICY p1 ON dob_t1; -- should fail, already gone CREATE POLICY p1 ON dob_t1 TO dob_role1,dob_role2 USING (true); DROP OWNED BY dob_role1; DROP POLICY p1 ON dob_t1; -- should succeed DROP USER dob_role1; DROP USER dob_role2; -- -- Clean up objects -- RESET SESSION AUTHORIZATION; -- Suppress NOTICE messages when doing a cascaded drop. SET client_min_messages TO 'warning'; DROP SCHEMA rls_regress_schema CASCADE; RESET client_min_messages; DROP USER rls_regress_user0; DROP USER rls_regress_user1; DROP USER rls_regress_user2; DROP USER rls_regress_exempt_user; DROP ROLE rls_regress_group1; DROP ROLE rls_regress_group2; -- Arrange to have a few policies left over, for testing -- pg_dump/pg_restore CREATE SCHEMA rls_regress_schema; CREATE TABLE rls_tbl (c1 int); ALTER TABLE rls_tbl ENABLE ROW LEVEL SECURITY; CREATE POLICY p1 ON rls_tbl USING (c1 > 5); CREATE POLICY p2 ON rls_tbl FOR SELECT USING (c1 <= 3); CREATE POLICY p3 ON rls_tbl FOR UPDATE USING (c1 <= 3) WITH CHECK (c1 > 5); CREATE POLICY p4 ON rls_tbl FOR DELETE USING (c1 <= 3); CREATE TABLE rls_tbl_force (c1 int); ALTER TABLE rls_tbl_force ENABLE ROW LEVEL SECURITY; ALTER TABLE rls_tbl_force FORCE ROW LEVEL SECURITY; CREATE POLICY p1 ON rls_tbl_force USING (c1 = 5) WITH CHECK (c1 < 5); CREATE POLICY p2 ON rls_tbl_force FOR SELECT USING (c1 = 8); CREATE POLICY p3 ON rls_tbl_force FOR UPDATE USING (c1 = 8) WITH CHECK (c1 >= 5); CREATE POLICY p4 ON rls_tbl_force FOR DELETE USING (c1 = 8);